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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-07 19:33:14 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-07 19:33:14 +0000
commit36d22d82aa202bb199967e9512281e9a53db42c9 (patch)
tree105e8c98ddea1c1e4784a60a5a6410fa416be2de /third_party/aom/test
parentInitial commit. (diff)
downloadfirefox-esr-36d22d82aa202bb199967e9512281e9a53db42c9.tar.xz
firefox-esr-36d22d82aa202bb199967e9512281e9a53db42c9.zip
Adding upstream version 115.7.0esr.upstream/115.7.0esrupstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'third_party/aom/test')
-rw-r--r--third_party/aom/test/accounting_test.cc75
-rw-r--r--third_party/aom/test/acm_random.h84
-rw-r--r--third_party/aom/test/active_map_test.cc103
-rw-r--r--third_party/aom/test/altref_test.cc97
-rw-r--r--third_party/aom/test/aom_integer_test.cc177
-rwxr-xr-xthird_party/aom/test/aomcx_set_ref.sh58
-rwxr-xr-xthird_party/aom/test/aomdec.sh147
-rwxr-xr-xthird_party/aom/test/aomenc.sh269
-rw-r--r--third_party/aom/test/aq_segment_test.cc108
-rw-r--r--third_party/aom/test/arf_freq_test.cc223
-rw-r--r--third_party/aom/test/av1_config_test.cc164
-rw-r--r--third_party/aom/test/av1_convolve_2d_test.cc249
-rw-r--r--third_party/aom/test/av1_convolve_2d_test_util.cc705
-rw-r--r--third_party/aom/test/av1_convolve_2d_test_util.h117
-rw-r--r--third_party/aom/test/av1_convolve_scale_test.cc529
-rw-r--r--third_party/aom/test/av1_encoder_parms_get_to_decoder.cc158
-rw-r--r--third_party/aom/test/av1_ext_tile_test.cc215
-rw-r--r--third_party/aom/test/av1_fwd_txfm1d_test.cc105
-rw-r--r--third_party/aom/test/av1_fwd_txfm2d_test.cc511
-rw-r--r--third_party/aom/test/av1_highbd_iht_test.cc315
-rw-r--r--third_party/aom/test/av1_horz_only_frame_superres_test.cc362
-rw-r--r--third_party/aom/test/av1_inv_txfm1d_test.cc157
-rw-r--r--third_party/aom/test/av1_inv_txfm2d_test.cc378
-rw-r--r--third_party/aom/test/av1_quantize_test.cc239
-rw-r--r--third_party/aom/test/av1_round_shift_array_test.cc129
-rw-r--r--third_party/aom/test/av1_txfm_test.cc371
-rw-r--r--third_party/aom/test/av1_txfm_test.h135
-rw-r--r--third_party/aom/test/av1_wedge_utils_test.cc390
-rwxr-xr-xthird_party/aom/test/best_encode.sh103
-rw-r--r--third_party/aom/test/binary_codes_test.cc83
-rw-r--r--third_party/aom/test/blend_a64_mask_1d_test.cc339
-rw-r--r--third_party/aom/test/blend_a64_mask_test.cc583
-rw-r--r--third_party/aom/test/blockd_test.cc122
-rw-r--r--third_party/aom/test/boolcoder_test.cc173
-rw-r--r--third_party/aom/test/borders_test.cc85
-rw-r--r--third_party/aom/test/cdef_test.cc425
-rw-r--r--third_party/aom/test/cfl_test.cc567
-rw-r--r--third_party/aom/test/clear_system_state.h31
-rw-r--r--third_party/aom/test/codec_factory.h170
-rw-r--r--third_party/aom/test/coding_path_sync.cc205
-rw-r--r--third_party/aom/test/comp_avg_pred_test.cc72
-rw-r--r--third_party/aom/test/comp_avg_pred_test.h555
-rw-r--r--third_party/aom/test/comp_mask_variance_test.cc574
-rw-r--r--third_party/aom/test/convolve_round_test.cc183
-rw-r--r--third_party/aom/test/convolve_test.cc856
-rw-r--r--third_party/aom/test/corner_match_test.cc100
-rw-r--r--third_party/aom/test/cpu_speed_test.cc180
-rw-r--r--third_party/aom/test/datarate_test.cc255
-rw-r--r--third_party/aom/test/decode_api_test.cc55
-rw-r--r--third_party/aom/test/decode_multithreaded_test.cc185
-rw-r--r--third_party/aom/test/decode_perf_test.cc246
-rw-r--r--third_party/aom/test/decode_test_driver.cc114
-rw-r--r--third_party/aom/test/decode_test_driver.h165
-rwxr-xr-xthird_party/aom/test/decode_to_md5.sh77
-rwxr-xr-xthird_party/aom/test/decode_with_drops.sh68
-rw-r--r--third_party/aom/test/divu_small_test.cc41
-rw-r--r--third_party/aom/test/dr_prediction_test.cc369
-rwxr-xr-xthird_party/aom/test/dump_obu.sh70
-rw-r--r--third_party/aom/test/ec_test.cc159
-rw-r--r--third_party/aom/test/encode_api_test.cc73
-rw-r--r--third_party/aom/test/encode_perf_test.cc188
-rw-r--r--third_party/aom/test/encode_test_driver.cc288
-rw-r--r--third_party/aom/test/encode_test_driver.h249
-rw-r--r--third_party/aom/test/encodetxb_test.cc262
-rw-r--r--third_party/aom/test/end_to_end_test.cc199
-rw-r--r--third_party/aom/test/error_block_test.cc171
-rw-r--r--third_party/aom/test/error_resilience_test.cc438
-rw-r--r--third_party/aom/test/ethread_test.cc273
-rwxr-xr-xthird_party/aom/test/examples.sh29
-rw-r--r--third_party/aom/test/external_frame_buffer_test.cc512
-rw-r--r--third_party/aom/test/fft_test.cc256
-rw-r--r--third_party/aom/test/film_grain_table_test.cc250
-rw-r--r--third_party/aom/test/filterintra_test.cc134
-rw-r--r--third_party/aom/test/frame_size_tests.cc78
-rw-r--r--third_party/aom/test/function_equivalence_test.h69
-rw-r--r--third_party/aom/test/fwht4x4_test.cc98
-rwxr-xr-xthird_party/aom/test/gviz_api.py1087
-rw-r--r--third_party/aom/test/hash_test.cc133
-rw-r--r--third_party/aom/test/hbd_metrics_test.cc239
-rw-r--r--third_party/aom/test/hiprec_convolve_test.cc62
-rw-r--r--third_party/aom/test/hiprec_convolve_test_util.cc331
-rw-r--r--third_party/aom/test/hiprec_convolve_test_util.h93
-rw-r--r--third_party/aom/test/horz_superres_test.cc322
-rw-r--r--third_party/aom/test/i420_video_source.h34
-rw-r--r--third_party/aom/test/intra_edge_test.cc337
-rw-r--r--third_party/aom/test/intrabc_test.cc168
-rw-r--r--third_party/aom/test/intrapred_test.cc266
-rw-r--r--third_party/aom/test/invalid_file_test.cc122
-rw-r--r--third_party/aom/test/ivf_video_source.h114
-rwxr-xr-xthird_party/aom/test/lightfield_test.sh98
-rw-r--r--third_party/aom/test/log2_test.cc50
-rw-r--r--third_party/aom/test/lossless_test.cc126
-rw-r--r--third_party/aom/test/lpf_test.cc627
-rw-r--r--third_party/aom/test/masked_sad_test.cc342
-rw-r--r--third_party/aom/test/masked_variance_test.cc459
-rw-r--r--third_party/aom/test/md5_helper.h76
-rw-r--r--third_party/aom/test/metrics_template.html422
-rw-r--r--third_party/aom/test/monochrome_test.cc130
-rw-r--r--third_party/aom/test/motion_vector_test.cc105
-rw-r--r--third_party/aom/test/noise_model_test.cc1343
-rw-r--r--third_party/aom/test/obmc_sad_test.cc237
-rw-r--r--third_party/aom/test/obmc_variance_test.cc345
-rw-r--r--third_party/aom/test/onyxc_int_test.cc22
-rw-r--r--third_party/aom/test/pickrst_test.cc187
-rw-r--r--third_party/aom/test/qm_test.cc81
-rw-r--r--third_party/aom/test/quantize_func_test.cc425
-rw-r--r--third_party/aom/test/reconinter_test.cc258
-rw-r--r--third_party/aom/test/register_state_check.h148
-rw-r--r--third_party/aom/test/resize_test.cc642
-rwxr-xr-xthird_party/aom/test/run_encodes.sh39
-rw-r--r--third_party/aom/test/sad_test.cc1528
-rw-r--r--third_party/aom/test/scalability_test.cc81
-rw-r--r--third_party/aom/test/scan_test.cc133
-rw-r--r--third_party/aom/test/segment_binarization_sync.cc61
-rw-r--r--third_party/aom/test/selfguided_filter_test.cc410
-rwxr-xr-xthird_party/aom/test/set_maps.sh52
-rw-r--r--third_party/aom/test/simd_avx2_test.cc15
-rw-r--r--third_party/aom/test/simd_cmp_avx2.cc15
-rw-r--r--third_party/aom/test/simd_cmp_impl.h2171
-rw-r--r--third_party/aom/test/simd_cmp_neon.cc17
-rw-r--r--third_party/aom/test/simd_cmp_sse2.cc18
-rw-r--r--third_party/aom/test/simd_cmp_sse4.cc18
-rw-r--r--third_party/aom/test/simd_cmp_ssse3.cc18
-rw-r--r--third_party/aom/test/simd_impl.h1141
-rw-r--r--third_party/aom/test/simd_neon_test.cc17
-rw-r--r--third_party/aom/test/simd_sse2_test.cc18
-rw-r--r--third_party/aom/test/simd_sse4_test.cc18
-rw-r--r--third_party/aom/test/simd_ssse3_test.cc18
-rwxr-xr-xthird_party/aom/test/simple_decoder.sh58
-rwxr-xr-xthird_party/aom/test/simple_encoder.sh53
-rw-r--r--third_party/aom/test/subtract_test.cc249
-rw-r--r--third_party/aom/test/sum_squares_test.cc228
-rw-r--r--third_party/aom/test/superframe_test.cc109
-rw-r--r--third_party/aom/test/test-data.sha1507
-rw-r--r--third_party/aom/test/test.cmake438
-rw-r--r--third_party/aom/test/test_data_download_worker.cmake46
-rw-r--r--third_party/aom/test/test_data_util.cmake598
-rw-r--r--third_party/aom/test/test_intra_pred_speed.cc1464
-rw-r--r--third_party/aom/test/test_libaom.cc74
-rw-r--r--third_party/aom/test/test_runner.cmake28
-rw-r--r--third_party/aom/test/test_vector_test.cc172
-rw-r--r--third_party/aom/test/test_vectors.cc140
-rw-r--r--third_party/aom/test/test_vectors.h26
-rw-r--r--third_party/aom/test/tile_independence_test.cc173
-rwxr-xr-xthird_party/aom/test/tools_common.sh477
-rw-r--r--third_party/aom/test/transform_test_base.h342
-rwxr-xr-xthird_party/aom/test/twopass_encoder.sh54
-rw-r--r--third_party/aom/test/util.h53
-rw-r--r--third_party/aom/test/variance_test.cc2064
-rw-r--r--third_party/aom/test/video_source.h259
-rwxr-xr-xthird_party/aom/test/visual_metrics.py466
-rw-r--r--third_party/aom/test/warp_filter_test.cc56
-rw-r--r--third_party/aom/test/warp_filter_test_util.cc480
-rw-r--r--third_party/aom/test/warp_filter_test_util.h103
-rw-r--r--third_party/aom/test/webm_video_source.h96
-rw-r--r--third_party/aom/test/wiener_test.cc280
-rw-r--r--third_party/aom/test/y4m_test.cc180
-rw-r--r--third_party/aom/test/y4m_video_source.h123
-rw-r--r--third_party/aom/test/yuv_video_source.h123
159 files changed, 42085 insertions, 0 deletions
diff --git a/third_party/aom/test/accounting_test.cc b/third_party/aom/test/accounting_test.cc
new file mode 100644
index 0000000000..8b5c8af135
--- /dev/null
+++ b/third_party/aom/test/accounting_test.cc
@@ -0,0 +1,75 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <math.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "test/acm_random.h"
+#include "aom/aom_integer.h"
+#include "aom_dsp/bitreader.h"
+#include "aom_dsp/bitwriter.h"
+
+using libaom_test::ACMRandom;
+
+TEST(AV1, TestAccounting) {
+ const int kBufferSize = 10000;
+ const int kSymbols = 1024;
+ aom_writer bw;
+ uint8_t bw_buffer[kBufferSize];
+ aom_start_encode(&bw, bw_buffer);
+ for (int i = 0; i < kSymbols; i++) {
+ aom_write(&bw, 0, 32);
+ aom_write(&bw, 0, 32);
+ aom_write(&bw, 0, 32);
+ }
+ aom_stop_encode(&bw);
+ aom_reader br;
+ aom_reader_init(&br, bw_buffer, bw.pos);
+
+ Accounting accounting;
+ aom_accounting_init(&accounting);
+ br.accounting = &accounting;
+ for (int i = 0; i < kSymbols; i++) {
+ aom_read(&br, 32, "A");
+ }
+ // Consecutive symbols that are the same are coalesced.
+ GTEST_ASSERT_EQ(accounting.syms.num_syms, 1);
+ GTEST_ASSERT_EQ(accounting.syms.syms[0].samples, (unsigned int)kSymbols);
+
+ aom_accounting_reset(&accounting);
+ GTEST_ASSERT_EQ(accounting.syms.num_syms, 0);
+
+ // Should record 2 * kSymbols accounting symbols.
+ aom_reader_init(&br, bw_buffer, bw.pos);
+ br.accounting = &accounting;
+ for (int i = 0; i < kSymbols; i++) {
+ aom_read(&br, 32, "A");
+ aom_read(&br, 32, "B");
+ aom_read(&br, 32, "B");
+ }
+ GTEST_ASSERT_EQ(accounting.syms.num_syms, kSymbols * 2);
+ uint32_t tell_frac = aom_reader_tell_frac(&br);
+ for (int i = 0; i < accounting.syms.num_syms; i++) {
+ tell_frac -= accounting.syms.syms[i].bits;
+ }
+ GTEST_ASSERT_EQ(tell_frac, 0U);
+
+ GTEST_ASSERT_EQ(aom_accounting_dictionary_lookup(&accounting, "A"),
+ aom_accounting_dictionary_lookup(&accounting, "A"));
+
+ // Check for collisions. The current aom_accounting_hash function returns
+ // the same hash code for AB and BA.
+ GTEST_ASSERT_NE(aom_accounting_dictionary_lookup(&accounting, "AB"),
+ aom_accounting_dictionary_lookup(&accounting, "BA"));
+}
diff --git a/third_party/aom/test/acm_random.h b/third_party/aom/test/acm_random.h
new file mode 100644
index 0000000000..0a8317fd57
--- /dev/null
+++ b/third_party/aom/test/acm_random.h
@@ -0,0 +1,84 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#ifndef AOM_TEST_ACM_RANDOM_H_
+#define AOM_TEST_ACM_RANDOM_H_
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "aom/aom_integer.h"
+
+namespace libaom_test {
+
+class ACMRandom {
+ public:
+ ACMRandom() : random_(DeterministicSeed()) {}
+
+ explicit ACMRandom(int seed) : random_(seed) {}
+
+ void Reset(int seed) { random_.Reseed(seed); }
+
+ uint32_t Rand31(void) {
+ return random_.Generate(testing::internal::Random::kMaxRange);
+ }
+
+ uint16_t Rand16(void) {
+ const uint32_t value =
+ random_.Generate(testing::internal::Random::kMaxRange);
+ return (value >> 15) & 0xffff;
+ }
+
+ int16_t Rand15Signed(void) {
+ const uint32_t value =
+ random_.Generate(testing::internal::Random::kMaxRange);
+ return (value >> 17) & 0xffff;
+ }
+
+ uint16_t Rand12(void) {
+ const uint32_t value =
+ random_.Generate(testing::internal::Random::kMaxRange);
+ // There's a bit more entropy in the upper bits of this implementation.
+ return (value >> 19) & 0xfff;
+ }
+
+ int16_t Rand9Signed(void) {
+ // Use 9 bits: values between 255 (0x0FF) and -256 (0x100).
+ const uint32_t value = random_.Generate(512);
+ return static_cast<int16_t>(value) - 256;
+ }
+
+ uint8_t Rand8(void) {
+ const uint32_t value =
+ random_.Generate(testing::internal::Random::kMaxRange);
+ // There's a bit more entropy in the upper bits of this implementation.
+ return (value >> 23) & 0xff;
+ }
+
+ uint8_t Rand8Extremes(void) {
+ // Returns a random value near 0 or near 255, to better exercise
+ // saturation behavior.
+ const uint8_t r = Rand8();
+ return r < 128 ? r << 4 : r >> 4;
+ }
+
+ int PseudoUniform(int range) { return random_.Generate(range); }
+
+ int operator()(int n) { return PseudoUniform(n); }
+
+ static int DeterministicSeed(void) { return 0xbaba; }
+
+ private:
+ testing::internal::Random random_;
+};
+
+} // namespace libaom_test
+
+#endif // AOM_TEST_ACM_RANDOM_H_
diff --git a/third_party/aom/test/active_map_test.cc b/third_party/aom/test/active_map_test.cc
new file mode 100644
index 0000000000..a2b0546edb
--- /dev/null
+++ b/third_party/aom/test/active_map_test.cc
@@ -0,0 +1,103 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <climits>
+#include <vector>
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/codec_factory.h"
+#include "test/encode_test_driver.h"
+#include "test/i420_video_source.h"
+#include "test/util.h"
+
+namespace {
+
+class ActiveMapTest
+ : public ::libaom_test::CodecTestWith2Params<libaom_test::TestMode, int>,
+ public ::libaom_test::EncoderTest {
+ protected:
+ static const int kWidth = 208;
+ static const int kHeight = 144;
+
+ ActiveMapTest() : EncoderTest(GET_PARAM(0)) {}
+ virtual ~ActiveMapTest() {}
+
+ virtual void SetUp() {
+ InitializeConfig();
+ SetMode(GET_PARAM(1));
+ cpu_used_ = GET_PARAM(2);
+ }
+
+ virtual void PreEncodeFrameHook(::libaom_test::VideoSource *video,
+ ::libaom_test::Encoder *encoder) {
+ if (video->frame() == 1) {
+ encoder->Control(AOME_SET_CPUUSED, cpu_used_);
+ } else if (video->frame() == 3) {
+ aom_active_map_t map = aom_active_map_t();
+ /* clang-format off */
+ uint8_t active_map[9 * 13] = {
+ 1, 1, 1, 1, 0, 0, 0, 0, 1, 1, 0, 0, 0,
+ 1, 1, 1, 1, 0, 0, 0, 0, 1, 1, 0, 0, 0,
+ 1, 1, 1, 1, 0, 0, 0, 0, 1, 1, 0, 0, 0,
+ 1, 1, 1, 1, 0, 0, 0, 0, 1, 1, 0, 0, 0,
+ 0, 0, 0, 0, 1, 1, 0, 0, 0, 1, 0, 1, 1,
+ 0, 0, 0, 0, 1, 1, 0, 0, 1, 0, 1, 0, 1,
+ 0, 0, 0, 0, 0, 0, 1, 1, 1, 0, 1, 0, 1,
+ 0, 0, 0, 0, 0, 0, 1, 1, 0, 1, 0, 1, 1,
+ 1, 1, 1, 1, 0, 0, 0, 0, 1, 1, 1, 1, 0,
+ };
+ /* clang-format on */
+ map.cols = (kWidth + 15) / 16;
+ map.rows = (kHeight + 15) / 16;
+ ASSERT_EQ(map.cols, 13u);
+ ASSERT_EQ(map.rows, 9u);
+ map.active_map = active_map;
+ encoder->Control(AOME_SET_ACTIVEMAP, &map);
+ } else if (video->frame() == 15) {
+ aom_active_map_t map = aom_active_map_t();
+ map.cols = (kWidth + 15) / 16;
+ map.rows = (kHeight + 15) / 16;
+ map.active_map = NULL;
+ encoder->Control(AOME_SET_ACTIVEMAP, &map);
+ }
+ }
+
+ void DoTest() {
+ // Validate that this non multiple of 64 wide clip encodes
+ cfg_.g_lag_in_frames = 0;
+ cfg_.rc_target_bitrate = 400;
+ cfg_.rc_resize_mode = 0;
+ cfg_.g_pass = AOM_RC_ONE_PASS;
+ cfg_.rc_end_usage = AOM_CBR;
+ cfg_.kf_max_dist = 90000;
+ ::libaom_test::I420VideoSource video("hantro_odd.yuv", kWidth, kHeight, 30,
+ 1, 0, 20);
+
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+ }
+
+ int cpu_used_;
+};
+
+TEST_P(ActiveMapTest, Test) { DoTest(); }
+
+class ActiveMapTestLarge : public ActiveMapTest {};
+
+TEST_P(ActiveMapTestLarge, Test) { DoTest(); }
+
+AV1_INSTANTIATE_TEST_CASE(ActiveMapTestLarge,
+ ::testing::Values(::libaom_test::kRealTime),
+ ::testing::Range(0, 5));
+
+AV1_INSTANTIATE_TEST_CASE(ActiveMapTest,
+ ::testing::Values(::libaom_test::kRealTime),
+ ::testing::Range(5, 9));
+
+} // namespace
diff --git a/third_party/aom/test/altref_test.cc b/third_party/aom/test/altref_test.cc
new file mode 100644
index 0000000000..dabb1475a8
--- /dev/null
+++ b/third_party/aom/test/altref_test.cc
@@ -0,0 +1,97 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/codec_factory.h"
+#include "test/encode_test_driver.h"
+#include "test/i420_video_source.h"
+#include "test/util.h"
+namespace {
+
+class AltRefForcedKeyTestLarge
+ : public ::libaom_test::CodecTestWith2Params<libaom_test::TestMode, int>,
+ public ::libaom_test::EncoderTest {
+ protected:
+ AltRefForcedKeyTestLarge()
+ : EncoderTest(GET_PARAM(0)), encoding_mode_(GET_PARAM(1)),
+ cpu_used_(GET_PARAM(2)), forced_kf_frame_num_(1), frame_num_(0) {}
+ virtual ~AltRefForcedKeyTestLarge() {}
+
+ virtual void SetUp() {
+ InitializeConfig();
+ SetMode(encoding_mode_);
+ cfg_.rc_end_usage = AOM_VBR;
+ cfg_.g_threads = 0;
+ }
+
+ virtual void PreEncodeFrameHook(::libaom_test::VideoSource *video,
+ ::libaom_test::Encoder *encoder) {
+ if (video->frame() == 0) {
+ encoder->Control(AOME_SET_CPUUSED, cpu_used_);
+ encoder->Control(AOME_SET_ENABLEAUTOALTREF, 1);
+#if CONFIG_AV1_ENCODER
+ // override test default for tile columns if necessary.
+ if (GET_PARAM(0) == &libaom_test::kAV1) {
+ encoder->Control(AV1E_SET_TILE_COLUMNS, 6);
+ }
+#endif
+ }
+ frame_flags_ =
+ (video->frame() == forced_kf_frame_num_) ? AOM_EFLAG_FORCE_KF : 0;
+ }
+
+ virtual void FramePktHook(const aom_codec_cx_pkt_t *pkt) {
+ if (frame_num_ == forced_kf_frame_num_) {
+ ASSERT_TRUE(!!(pkt->data.frame.flags & AOM_FRAME_IS_KEY))
+ << "Frame #" << frame_num_ << " isn't a keyframe!";
+ }
+ ++frame_num_;
+ }
+
+ ::libaom_test::TestMode encoding_mode_;
+ int cpu_used_;
+ unsigned int forced_kf_frame_num_;
+ unsigned int frame_num_;
+};
+
+TEST_P(AltRefForcedKeyTestLarge, Frame1IsKey) {
+ const aom_rational timebase = { 1, 30 };
+ const int lag_values[] = { 3, 15, 25, -1 };
+
+ forced_kf_frame_num_ = 1;
+ for (int i = 0; lag_values[i] != -1; ++i) {
+ frame_num_ = 0;
+ cfg_.g_lag_in_frames = lag_values[i];
+ libaom_test::I420VideoSource video("hantro_collage_w352h288.yuv", 352, 288,
+ timebase.den, timebase.num, 0, 30);
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+ }
+}
+
+TEST_P(AltRefForcedKeyTestLarge, ForcedFrameIsKey) {
+ const aom_rational timebase = { 1, 30 };
+ const int lag_values[] = { 3, 15, 25, -1 };
+
+ for (int i = 0; lag_values[i] != -1; ++i) {
+ frame_num_ = 0;
+ forced_kf_frame_num_ = lag_values[i] - 1;
+ cfg_.g_lag_in_frames = lag_values[i];
+ libaom_test::I420VideoSource video("hantro_collage_w352h288.yuv", 352, 288,
+ timebase.den, timebase.num, 0, 30);
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+ }
+}
+
+AV1_INSTANTIATE_TEST_CASE(AltRefForcedKeyTestLarge,
+ ::testing::Values(::libaom_test::kOnePassGood),
+ ::testing::Values(2, 5));
+
+} // namespace
diff --git a/third_party/aom/test/aom_integer_test.cc b/third_party/aom/test/aom_integer_test.cc
new file mode 100644
index 0000000000..fe88a54e9e
--- /dev/null
+++ b/third_party/aom/test/aom_integer_test.cc
@@ -0,0 +1,177 @@
+/*
+ * Copyright (c) 2018, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "aom/aom_integer.h"
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+namespace {
+const uint64_t kMaximumLeb128CodedSize = 8;
+const uint8_t kLeb128PadByte = 0x80; // Binary: 10000000
+const uint64_t kMaximumLeb128Value = UINT32_MAX;
+const uint32_t kSizeTestNumValues = 6;
+const uint32_t kSizeTestExpectedSizes[kSizeTestNumValues] = {
+ 1, 1, 2, 3, 4, 5
+};
+const uint64_t kSizeTestInputs[kSizeTestNumValues] = {
+ 0, 0x7f, 0x3fff, 0x1fffff, 0xffffff, 0x10000000
+};
+
+const uint8_t kOutOfRangeLeb128Value[5] = { 0x80, 0x80, 0x80, 0x80,
+ 0x10 }; // UINT32_MAX + 1
+} // namespace
+
+TEST(AomLeb128, DecodeTest) {
+ const size_t num_leb128_bytes = 3;
+ const uint8_t leb128_bytes[num_leb128_bytes] = { 0xE5, 0x8E, 0x26 };
+ const uint64_t expected_value = 0x98765; // 624485
+ const size_t expected_length = 3;
+ uint64_t value = ~0ULL; // make sure value is cleared by the function
+ size_t length;
+ ASSERT_EQ(
+ aom_uleb_decode(&leb128_bytes[0], num_leb128_bytes, &value, &length), 0);
+ ASSERT_EQ(expected_value, value);
+ ASSERT_EQ(expected_length, length);
+
+ // Make sure the decoder stops on the last marked LEB128 byte.
+ aom_uleb_decode(&leb128_bytes[0], num_leb128_bytes + 1, &value, &length);
+ ASSERT_EQ(expected_value, value);
+ ASSERT_EQ(expected_length, length);
+}
+
+TEST(AomLeb128, EncodeTest) {
+ const uint32_t test_value = 0x98765; // 624485
+ const uint8_t expected_bytes[3] = { 0xE5, 0x8E, 0x26 };
+ const size_t kWriteBufferSize = 4;
+ uint8_t write_buffer[kWriteBufferSize] = { 0 };
+ size_t bytes_written = 0;
+ ASSERT_EQ(aom_uleb_encode(test_value, kWriteBufferSize, &write_buffer[0],
+ &bytes_written),
+ 0);
+ ASSERT_EQ(bytes_written, 3u);
+ for (size_t i = 0; i < bytes_written; ++i) {
+ ASSERT_EQ(write_buffer[i], expected_bytes[i]);
+ }
+}
+
+TEST(AomLeb128, EncodeDecodeTest) {
+ const uint32_t value = 0x98765; // 624485
+ const size_t kWriteBufferSize = 4;
+ uint8_t write_buffer[kWriteBufferSize] = { 0 };
+ size_t bytes_written = 0;
+ ASSERT_EQ(aom_uleb_encode(value, kWriteBufferSize, &write_buffer[0],
+ &bytes_written),
+ 0);
+ ASSERT_EQ(bytes_written, 3u);
+ uint64_t decoded_value;
+ size_t decoded_length;
+ aom_uleb_decode(&write_buffer[0], bytes_written, &decoded_value,
+ &decoded_length);
+ ASSERT_EQ(value, decoded_value);
+ ASSERT_EQ(bytes_written, decoded_length);
+}
+
+TEST(AomLeb128, FixedSizeEncodeTest) {
+ const uint32_t test_value = 0x123;
+ const uint8_t expected_bytes[4] = { 0xa3, 0x82, 0x80, 0x00 };
+ const size_t kWriteBufferSize = 4;
+ uint8_t write_buffer[kWriteBufferSize] = { 0 };
+ size_t bytes_written = 0;
+ ASSERT_EQ(0, aom_uleb_encode_fixed_size(test_value, kWriteBufferSize,
+ kWriteBufferSize, &write_buffer[0],
+ &bytes_written));
+ ASSERT_EQ(kWriteBufferSize, bytes_written);
+ for (size_t i = 0; i < bytes_written; ++i) {
+ ASSERT_EQ(write_buffer[i], expected_bytes[i]);
+ }
+}
+
+TEST(AomLeb128, FixedSizeEncodeDecodeTest) {
+ const uint32_t value = 0x1;
+ const size_t kWriteBufferSize = 4;
+ uint8_t write_buffer[kWriteBufferSize] = { 0 };
+ size_t bytes_written = 0;
+ ASSERT_EQ(
+ aom_uleb_encode_fixed_size(value, kWriteBufferSize, kWriteBufferSize,
+ &write_buffer[0], &bytes_written),
+ 0);
+ ASSERT_EQ(bytes_written, 4u);
+ uint64_t decoded_value;
+ size_t decoded_length;
+ aom_uleb_decode(&write_buffer[0], bytes_written, &decoded_value,
+ &decoded_length);
+ ASSERT_EQ(value, decoded_value);
+ ASSERT_EQ(bytes_written, decoded_length);
+}
+
+TEST(AomLeb128, SizeTest) {
+ for (size_t i = 0; i < kSizeTestNumValues; ++i) {
+ ASSERT_EQ(kSizeTestExpectedSizes[i],
+ aom_uleb_size_in_bytes(kSizeTestInputs[i]));
+ }
+}
+
+TEST(AomLeb128, DecodeFailTest) {
+ // Input buffer containing what would be a valid 9 byte LEB128 encoded
+ // unsigned integer.
+ const uint8_t kAllPadBytesBuffer[kMaximumLeb128CodedSize + 1] = {
+ kLeb128PadByte, kLeb128PadByte, kLeb128PadByte,
+ kLeb128PadByte, kLeb128PadByte, kLeb128PadByte,
+ kLeb128PadByte, kLeb128PadByte, 0
+ };
+ uint64_t decoded_value;
+
+ // Test that decode fails when result would be valid 9 byte integer.
+ ASSERT_EQ(aom_uleb_decode(&kAllPadBytesBuffer[0], kMaximumLeb128CodedSize + 1,
+ &decoded_value, NULL),
+ -1);
+
+ // Test that encoded value missing terminator byte within available buffer
+ // range causes decode error.
+ ASSERT_EQ(aom_uleb_decode(&kAllPadBytesBuffer[0], kMaximumLeb128CodedSize,
+ &decoded_value, NULL),
+ -1);
+
+ // Test that LEB128 input that decodes to a value larger than 32-bits fails.
+ size_t value_size = 0;
+ ASSERT_EQ(aom_uleb_decode(&kOutOfRangeLeb128Value[0],
+ sizeof(kOutOfRangeLeb128Value), &decoded_value,
+ &value_size),
+ -1);
+}
+
+TEST(AomLeb128, EncodeFailTest) {
+ const size_t kWriteBufferSize = 4;
+ const uint32_t kValidTestValue = 1;
+ uint8_t write_buffer[kWriteBufferSize] = { 0 };
+ size_t coded_size = 0;
+ ASSERT_EQ(
+ aom_uleb_encode(kValidTestValue, kWriteBufferSize, NULL, &coded_size),
+ -1);
+ ASSERT_EQ(aom_uleb_encode(kValidTestValue, kWriteBufferSize, &write_buffer[0],
+ NULL),
+ -1);
+
+ const uint32_t kValueOutOfRangeForBuffer = 0xFFFFFFFF;
+ ASSERT_EQ(aom_uleb_encode(kValueOutOfRangeForBuffer, kWriteBufferSize,
+ &write_buffer[0], &coded_size),
+ -1);
+
+ const uint64_t kValueOutOfRange = kMaximumLeb128Value + 1;
+ ASSERT_EQ(aom_uleb_encode(kValueOutOfRange, kWriteBufferSize,
+ &write_buffer[0], &coded_size),
+ -1);
+
+ const size_t kPadSizeOutOfRange = 5;
+ ASSERT_EQ(aom_uleb_encode_fixed_size(kValidTestValue, kWriteBufferSize,
+ kPadSizeOutOfRange, &write_buffer[0],
+ &coded_size),
+ -1);
+}
diff --git a/third_party/aom/test/aomcx_set_ref.sh b/third_party/aom/test/aomcx_set_ref.sh
new file mode 100755
index 0000000000..f51b73c58e
--- /dev/null
+++ b/third_party/aom/test/aomcx_set_ref.sh
@@ -0,0 +1,58 @@
+#!/bin/sh
+## Copyright (c) 2016, Alliance for Open Media. All rights reserved
+##
+## This source code is subject to the terms of the BSD 2 Clause License and
+## the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+## was not distributed with this source code in the LICENSE file, you can
+## obtain it at www.aomedia.org/license/software. If the Alliance for Open
+## Media Patent License 1.0 was not distributed with this source code in the
+## PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+##
+## This file tests the libaom aom_cx_set_ref example. To add new tests to this
+## file, do the following:
+## 1. Write a shell function (this is your test).
+## 2. Add the function to aom_cx_set_ref_tests (on a new line).
+##
+. $(dirname $0)/tools_common.sh
+
+# Environment check: $YUV_RAW_INPUT is required.
+aom_cx_set_ref_verify_environment() {
+ if [ ! -e "${YUV_RAW_INPUT}" ]; then
+ echo "Libaom test data must exist in LIBAOM_TEST_DATA_PATH."
+ return 1
+ fi
+}
+
+# Runs aom_cx_set_ref and updates the reference frame before encoding frame 90.
+# $1 is the codec name, which aom_cx_set_ref does not support at present: It's
+# currently used only to name the output file.
+# TODO(tomfinegan): Pass the codec param once the example is updated to support
+# AV1.
+aom_set_ref() {
+ local encoder="${LIBAOM_BIN_PATH}/aom_cx_set_ref${AOM_TEST_EXE_SUFFIX}"
+ local codec="$1"
+ local output_file="${AOM_TEST_OUTPUT_DIR}/aom_cx_set_ref_${codec}.ivf"
+ local ref_frame_num=4
+ local limit=10
+ if [ ! -x "${encoder}" ]; then
+ elog "${encoder} does not exist or is not executable."
+ return 1
+ fi
+
+ eval "${AOM_TEST_PREFIX}" "${encoder}" "${codec}" "${YUV_RAW_INPUT_WIDTH}" \
+ "${YUV_RAW_INPUT_HEIGHT}" "${YUV_RAW_INPUT}" "${output_file}" \
+ "${ref_frame_num}" "${limit}" ${devnull}
+
+ [ -e "${output_file}" ] || return 1
+}
+
+aom_cx_set_ref_av1() {
+ if [ "$(av1_encode_available)" = "yes" ]; then
+ aom_set_ref av1 || return 1
+ fi
+}
+
+aom_cx_set_ref_tests="aom_cx_set_ref_av1"
+
+run_tests aom_cx_set_ref_verify_environment "${aom_cx_set_ref_tests}"
+
diff --git a/third_party/aom/test/aomdec.sh b/third_party/aom/test/aomdec.sh
new file mode 100755
index 0000000000..927142287c
--- /dev/null
+++ b/third_party/aom/test/aomdec.sh
@@ -0,0 +1,147 @@
+#!/bin/sh
+## Copyright (c) 2016, Alliance for Open Media. All rights reserved
+##
+## This source code is subject to the terms of the BSD 2 Clause License and
+## the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+## was not distributed with this source code in the LICENSE file, you can
+## obtain it at www.aomedia.org/license/software. If the Alliance for Open
+## Media Patent License 1.0 was not distributed with this source code in the
+## PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+##
+## This file tests aomdec. To add new tests to this file, do the following:
+## 1. Write a shell function (this is your test).
+## 2. Add the function to aomdec_tests (on a new line).
+##
+. $(dirname $0)/tools_common.sh
+
+# Environment check: Make sure input is available.
+aomdec_verify_environment() {
+ if [ "$(av1_encode_available)" != "yes" ] ; then
+ if [ ! -e "${AV1_IVF_FILE}" ] || \
+ [ ! -e "${AV1_OBU_ANNEXB_FILE}" ] || \
+ [ ! -e "${AV1_OBU_SEC5_FILE}" ] || \
+ [ ! -e "${AV1_WEBM_FILE}" ]; then
+ elog "Libaom test data must exist before running this test script when " \
+ " encoding is disabled. "
+ return 1
+ fi
+ fi
+ if [ -z "$(aom_tool_path aomdec)" ]; then
+ elog "aomdec not found. It must exist in LIBAOM_BIN_PATH or its parent."
+ return 1
+ fi
+}
+
+# Wrapper function for running aomdec with pipe input. Requires that
+# LIBAOM_BIN_PATH points to the directory containing aomdec. $1 is used as the
+# input file path and shifted away. All remaining parameters are passed through
+# to aomdec.
+aomdec_pipe() {
+ local input="$1"
+ shift
+ if [ ! -e "${input}" ]; then
+ elog "Input file ($input) missing in aomdec_pipe()"
+ return 1
+ fi
+ cat "${file}" | aomdec - "$@" ${devnull}
+}
+
+
+# Wrapper function for running aomdec. Requires that LIBAOM_BIN_PATH points to
+# the directory containing aomdec. $1 one is used as the input file path and
+# shifted away. All remaining parameters are passed through to aomdec.
+aomdec() {
+ local decoder="$(aom_tool_path aomdec)"
+ local input="$1"
+ shift
+ eval "${AOM_TEST_PREFIX}" "${decoder}" "$input" "$@" ${devnull}
+}
+
+aomdec_can_decode_av1() {
+ if [ "$(av1_decode_available)" = "yes" ]; then
+ echo yes
+ fi
+}
+
+aomdec_av1_ivf() {
+ if [ "$(aomdec_can_decode_av1)" = "yes" ]; then
+ local file="${AV1_IVF_FILE}"
+ if [ ! -e "${file}" ]; then
+ encode_yuv_raw_input_av1 "${file}" --ivf
+ fi
+ aomdec "${AV1_IVF_FILE}" --summary --noblit
+ fi
+}
+
+aomdec_av1_ivf_error_resilient() {
+ if [ "$(aomdec_can_decode_av1)" = "yes" ]; then
+ local file="av1.error-resilient.ivf"
+ if [ ! -e "${file}" ]; then
+ encode_yuv_raw_input_av1 "${file}" --ivf --error-resilient=1
+ fi
+ aomdec "${file}" --summary --noblit
+ fi
+}
+
+aomdec_av1_ivf_multithread() {
+ if [ "$(aomdec_can_decode_av1)" = "yes" ]; then
+ local file="${AV1_IVF_FILE}"
+ if [ ! -e "${file}" ]; then
+ encode_yuv_raw_input_av1 "${file}" --ivf
+ fi
+ for threads in 2 3 4 5 6 7 8; do
+ aomdec "${file}" --summary --noblit --threads=$threads
+ done
+ fi
+}
+
+aomdec_aom_ivf_pipe_input() {
+ if [ "$(aomdec_can_decode_av1)" = "yes" ]; then
+ local file="${AV1_IVF_FILE}"
+ if [ ! -e "${file}" ]; then
+ encode_yuv_raw_input_av1 "${file}" --ivf
+ fi
+ aomdec_pipe "${AV1_IVF_FILE}" --summary --noblit
+ fi
+}
+
+aomdec_av1_obu_annexb() {
+ if [ "$(aomdec_can_decode_av1)" = "yes" ]; then
+ local file="${AV1_OBU_ANNEXB_FILE}"
+ if [ ! -e "${file}" ]; then
+ encode_yuv_raw_input_av1 "${file}" --obu --annexb=1
+ fi
+ aomdec "${file}" --summary --noblit --annexb
+ fi
+}
+
+aomdec_av1_obu_section5() {
+ if [ "$(aomdec_can_decode_av1)" = "yes" ]; then
+ local file="${AV1_OBU_SEC5_FILE}"
+ if [ ! -e "${file}" ]; then
+ encode_yuv_raw_input_av1 "${file}" --obu
+ fi
+ aomdec "${file}" --summary --noblit
+ fi
+}
+
+aomdec_av1_webm() {
+ if [ "$(aomdec_can_decode_av1)" = "yes" ] && \
+ [ "$(webm_io_available)" = "yes" ]; then
+ local file="${AV1_WEBM_FILE}"
+ if [ ! -e "${file}" ]; then
+ encode_yuv_raw_input_av1 "${file}"
+ fi
+ aomdec "${AV1_WEBM_FILE}" --summary --noblit
+ fi
+}
+
+aomdec_tests="aomdec_av1_ivf
+ aomdec_av1_ivf_error_resilient
+ aomdec_av1_ivf_multithread
+ aomdec_aom_ivf_pipe_input
+ aomdec_av1_obu_annexb
+ aomdec_av1_obu_section5
+ aomdec_av1_webm"
+
+run_tests aomdec_verify_environment "${aomdec_tests}"
diff --git a/third_party/aom/test/aomenc.sh b/third_party/aom/test/aomenc.sh
new file mode 100755
index 0000000000..b030397a30
--- /dev/null
+++ b/third_party/aom/test/aomenc.sh
@@ -0,0 +1,269 @@
+#!/bin/sh
+## Copyright (c) 2016, Alliance for Open Media. All rights reserved
+##
+## This source code is subject to the terms of the BSD 2 Clause License and
+## the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+## was not distributed with this source code in the LICENSE file, you can
+## obtain it at www.aomedia.org/license/software. If the Alliance for Open
+## Media Patent License 1.0 was not distributed with this source code in the
+## PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+##
+## This file tests aomenc using hantro_collage_w352h288.yuv as input. To add
+## new tests to this file, do the following:
+## 1. Write a shell function (this is your test).
+## 2. Add the function to aomenc_tests (on a new line).
+##
+. $(dirname $0)/tools_common.sh
+
+# Environment check: Make sure input is available.
+aomenc_verify_environment() {
+ if [ ! -e "${YUV_RAW_INPUT}" ]; then
+ elog "The file ${YUV_RAW_INPUT##*/} must exist in LIBAOM_TEST_DATA_PATH."
+ return 1
+ fi
+ if [ "$(aomenc_can_encode_av1)" = "yes" ]; then
+ if [ ! -e "${Y4M_NOSQ_PAR_INPUT}" ]; then
+ elog "The file ${Y4M_NOSQ_PAR_INPUT##*/} must exist in"
+ elog "LIBAOM_TEST_DATA_PATH."
+ return 1
+ fi
+ fi
+ if [ -z "$(aom_tool_path aomenc)" ]; then
+ elog "aomenc not found. It must exist in LIBAOM_BIN_PATH or its parent."
+ return 1
+ fi
+}
+
+aomenc_can_encode_av1() {
+ if [ "$(av1_encode_available)" = "yes" ]; then
+ echo yes
+ fi
+}
+
+aomenc_can_encode_av1() {
+ if [ "$(av1_encode_available)" = "yes" ]; then
+ echo yes
+ fi
+}
+
+# Utilities that echo aomenc input file parameters.
+y4m_input_non_square_par() {
+ echo ""${Y4M_NOSQ_PAR_INPUT}""
+}
+
+y4m_input_720p() {
+ echo ""${Y4M_720P_INPUT}""
+}
+
+# Wrapper function for running aomenc with pipe input. Requires that
+# LIBAOM_BIN_PATH points to the directory containing aomenc. $1 is used as the
+# input file path and shifted away. All remaining parameters are passed through
+# to aomenc.
+aomenc_pipe() {
+ local encoder="$(aom_tool_path aomenc)"
+ local input="$1"
+ shift
+ cat "${input}" | eval "${AOM_TEST_PREFIX}" "${encoder}" - \
+ --test-decode=fatal \
+ "$@" ${devnull}
+}
+
+# Wrapper function for running aomenc. Requires that LIBAOM_BIN_PATH points to
+# the directory containing aomenc. $1 one is used as the input file path and
+# shifted away. All remaining parameters are passed through to aomenc.
+aomenc() {
+ local encoder="$(aom_tool_path aomenc)"
+ local input="$1"
+ shift
+ eval "${AOM_TEST_PREFIX}" "${encoder}" "${input}" \
+ --test-decode=fatal \
+ "$@" ${devnull}
+}
+
+aomenc_av1_ivf() {
+ if [ "$(aomenc_can_encode_av1)" = "yes" ]; then
+ local output="${AV1_IVF_FILE}"
+ if [ -e "${AV1_IVF_FILE}" ]; then
+ output="${AOM_TEST_OUTPUT_DIR}/av1_test.ivf"
+ fi
+ aomenc $(yuv_raw_input) \
+ $(aomenc_encode_test_fast_params) \
+ --ivf \
+ --output="${output}"
+
+ if [ ! -e "${output}" ]; then
+ elog "Output file does not exist."
+ return 1
+ fi
+ fi
+}
+
+aomenc_av1_obu_annexb() {
+ if [ "$(aomenc_can_encode_av1)" = "yes" ]; then
+ local output="${AV1_OBU_ANNEXB_FILE}"
+ if [ -e "${AV1_OBU_ANNEXB_FILE}" ]; then
+ output="${AOM_TEST_OUTPUT_DIR}/av1_test.annexb.obu"
+ fi
+ aomenc $(yuv_raw_input) \
+ $(aomenc_encode_test_fast_params) \
+ --obu \
+ --annexb=1 \
+ --output="${output}"
+
+ if [ ! -e "${output}" ]; then
+ elog "Output file does not exist."
+ return 1
+ fi
+ fi
+}
+
+aomenc_av1_obu_section5() {
+ if [ "$(aomenc_can_encode_av1)" = "yes" ]; then
+ local output="${AV1_OBU_SEC5_FILE}"
+ if [ -e "${AV1_OBU_SEC5_FILE}" ]; then
+ output="${AOM_TEST_OUTPUT_DIR}/av1_test.section5.obu"
+ fi
+ aomenc $(yuv_raw_input) \
+ $(aomenc_encode_test_fast_params) \
+ --obu \
+ --output="${output}"
+
+ if [ ! -e "${output}" ]; then
+ elog "Output file does not exist."
+ return 1
+ fi
+ fi
+}
+
+aomenc_av1_webm() {
+ if [ "$(aomenc_can_encode_av1)" = "yes" ] && \
+ [ "$(webm_io_available)" = "yes" ]; then
+ local output="${AV1_WEBM_FILE}"
+ if [ -e "${AV1_WEBM_FILE}" ]; then
+ output="${AOM_TEST_OUTPUT_DIR}/av1_test.webm"
+ fi
+ aomenc $(yuv_raw_input) \
+ $(aomenc_encode_test_fast_params) \
+ --output="${output}"
+
+ if [ ! -e "${output}" ]; then
+ elog "Output file does not exist."
+ return 1
+ fi
+ fi
+}
+
+aomenc_av1_webm_1pass() {
+ if [ "$(aomenc_can_encode_av1)" = "yes" ] && \
+ [ "$(webm_io_available)" = "yes" ]; then
+ local output="${AOM_TEST_OUTPUT_DIR}/av1_test.webm"
+ aomenc $(yuv_raw_input) \
+ $(aomenc_encode_test_fast_params) \
+ --passes=1 \
+ --output="${output}"
+
+ if [ ! -e "${output}" ]; then
+ elog "Output file does not exist."
+ return 1
+ fi
+ fi
+}
+
+aomenc_av1_ivf_lossless() {
+ if [ "$(aomenc_can_encode_av1)" = "yes" ]; then
+ local output="${AOM_TEST_OUTPUT_DIR}/av1_lossless.ivf"
+ aomenc $(yuv_raw_input) \
+ $(aomenc_encode_test_fast_params) \
+ --ivf \
+ --output="${output}" \
+ --lossless=1
+
+ if [ ! -e "${output}" ]; then
+ elog "Output file does not exist."
+ return 1
+ fi
+ fi
+}
+
+aomenc_av1_ivf_minq0_maxq0() {
+ if [ "$(aomenc_can_encode_av1)" = "yes" ]; then
+ local output="${AOM_TEST_OUTPUT_DIR}/av1_lossless_minq0_maxq0.ivf"
+ aomenc $(yuv_raw_input) \
+ $(aomenc_encode_test_fast_params) \
+ --ivf \
+ --output="${output}" \
+ --min-q=0 \
+ --max-q=0
+
+ if [ ! -e "${output}" ]; then
+ elog "Output file does not exist."
+ return 1
+ fi
+ fi
+}
+
+aomenc_av1_webm_lag5_frames10() {
+ if [ "$(aomenc_can_encode_av1)" = "yes" ] && \
+ [ "$(webm_io_available)" = "yes" ]; then
+ local lag_total_frames=10
+ local lag_frames=5
+ local output="${AOM_TEST_OUTPUT_DIR}/av1_lag5_frames10.webm"
+ aomenc $(yuv_raw_input) \
+ $(aomenc_encode_test_fast_params) \
+ --limit=${lag_total_frames} \
+ --lag-in-frames=${lag_frames} \
+ --output="${output}"
+
+ if [ ! -e "${output}" ]; then
+ elog "Output file does not exist."
+ return 1
+ fi
+ fi
+}
+
+# TODO(fgalligan): Test that DisplayWidth is different than video width.
+aomenc_av1_webm_non_square_par() {
+ if [ "$(aomenc_can_encode_av1)" = "yes" ] && \
+ [ "$(webm_io_available)" = "yes" ]; then
+ local output="${AOM_TEST_OUTPUT_DIR}/av1_non_square_par.webm"
+ aomenc $(y4m_input_non_square_par) \
+ $(aomenc_encode_test_fast_params) \
+ --output="${output}"
+
+ if [ ! -e "${output}" ]; then
+ elog "Output file does not exist."
+ return 1
+ fi
+ fi
+}
+
+aomenc_av1_webm_cdf_update_mode() {
+ if [ "$(aomenc_can_encode_av1)" = "yes" ] && \
+ [ "$(webm_io_available)" = "yes" ]; then
+ for mode in 0 1 2; do
+ local output="${AOM_TEST_OUTPUT_DIR}/cdf_mode_${mode}.webm"
+ aomenc $(yuv_raw_input) \
+ $(aomenc_encode_test_fast_params) \
+ --cdf-update-mode=${mode} \
+ --output="${output}"
+
+ if [ ! -e "${output}" ]; then
+ elog "Output file does not exist."
+ return 1
+ fi
+ done
+ fi
+}
+
+aomenc_tests="aomenc_av1_ivf
+ aomenc_av1_obu_annexb
+ aomenc_av1_obu_section5
+ aomenc_av1_webm
+ aomenc_av1_webm_1pass
+ aomenc_av1_ivf_lossless
+ aomenc_av1_ivf_minq0_maxq0
+ aomenc_av1_webm_lag5_frames10
+ aomenc_av1_webm_non_square_par
+ aomenc_av1_webm_cdf_update_mode"
+
+run_tests aomenc_verify_environment "${aomenc_tests}"
diff --git a/third_party/aom/test/aq_segment_test.cc b/third_party/aom/test/aq_segment_test.cc
new file mode 100644
index 0000000000..bbb5027d4d
--- /dev/null
+++ b/third_party/aom/test/aq_segment_test.cc
@@ -0,0 +1,108 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "config/aom_config.h"
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/codec_factory.h"
+#include "test/encode_test_driver.h"
+#include "test/i420_video_source.h"
+#include "test/util.h"
+
+namespace {
+
+class AqSegmentTest
+ : public ::libaom_test::CodecTestWith2Params<libaom_test::TestMode, int>,
+ public ::libaom_test::EncoderTest {
+ protected:
+ AqSegmentTest() : EncoderTest(GET_PARAM(0)) {}
+ virtual ~AqSegmentTest() {}
+
+ virtual void SetUp() {
+ InitializeConfig();
+ SetMode(GET_PARAM(1));
+ set_cpu_used_ = GET_PARAM(2);
+ aq_mode_ = 0;
+ }
+
+ virtual void PreEncodeFrameHook(::libaom_test::VideoSource *video,
+ ::libaom_test::Encoder *encoder) {
+ if (video->frame() == 1) {
+ encoder->Control(AOME_SET_CPUUSED, set_cpu_used_);
+ encoder->Control(AV1E_SET_AQ_MODE, aq_mode_);
+ encoder->Control(AV1E_SET_DELTAQ_MODE, deltaq_mode_);
+ encoder->Control(AOME_SET_MAX_INTRA_BITRATE_PCT, 100);
+ }
+ }
+
+ void DoTest(int aq_mode) {
+ aq_mode_ = aq_mode;
+ deltaq_mode_ = 0;
+ cfg_.kf_max_dist = 12;
+ cfg_.rc_min_quantizer = 8;
+ cfg_.rc_max_quantizer = 56;
+ cfg_.rc_end_usage = AOM_CBR;
+ cfg_.g_lag_in_frames = 6;
+ cfg_.rc_buf_initial_sz = 500;
+ cfg_.rc_buf_optimal_sz = 500;
+ cfg_.rc_buf_sz = 1000;
+ cfg_.rc_target_bitrate = 300;
+ ::libaom_test::I420VideoSource video("hantro_collage_w352h288.yuv", 352,
+ 288, 30, 1, 0, 15);
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+ }
+
+ int set_cpu_used_;
+ int aq_mode_;
+ int deltaq_mode_;
+};
+
+// Validate that this AQ segmentation mode (AQ=1, variance_ap)
+// encodes and decodes without a mismatch.
+TEST_P(AqSegmentTest, TestNoMisMatchAQ1) { DoTest(1); }
+
+// Validate that this AQ segmentation mode (AQ=2, complexity_aq)
+// encodes and decodes without a mismatch.
+TEST_P(AqSegmentTest, TestNoMisMatchAQ2) { DoTest(2); }
+
+// Validate that this AQ segmentation mode (AQ=3, cyclic_refresh_aq)
+// encodes and decodes without a mismatch.
+TEST_P(AqSegmentTest, TestNoMisMatchAQ3) { DoTest(3); }
+
+class AqSegmentTestLarge : public AqSegmentTest {};
+
+TEST_P(AqSegmentTestLarge, TestNoMisMatchAQ1) { DoTest(1); }
+
+TEST_P(AqSegmentTestLarge, TestNoMisMatchAQ2) { DoTest(2); }
+
+TEST_P(AqSegmentTestLarge, TestNoMisMatchAQ3) { DoTest(3); }
+
+// Validate that this delta q mode
+// encodes and decodes without a mismatch.
+TEST_P(AqSegmentTest, TestNoMisMatchExtDeltaQ) {
+ cfg_.rc_end_usage = AOM_CQ;
+ aq_mode_ = 0;
+ deltaq_mode_ = 2;
+ ::libaom_test::I420VideoSource video("hantro_collage_w352h288.yuv", 352, 288,
+ 30, 1, 0, 15);
+
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+}
+
+AV1_INSTANTIATE_TEST_CASE(AqSegmentTest,
+ ::testing::Values(::libaom_test::kRealTime,
+ ::libaom_test::kOnePassGood),
+ ::testing::Range(5, 9));
+AV1_INSTANTIATE_TEST_CASE(AqSegmentTestLarge,
+ ::testing::Values(::libaom_test::kRealTime,
+ ::libaom_test::kOnePassGood),
+ ::testing::Range(3, 5));
+} // namespace
diff --git a/third_party/aom/test/arf_freq_test.cc b/third_party/aom/test/arf_freq_test.cc
new file mode 100644
index 0000000000..083f4022f4
--- /dev/null
+++ b/third_party/aom/test/arf_freq_test.cc
@@ -0,0 +1,223 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "test/codec_factory.h"
+#include "test/encode_test_driver.h"
+#include "test/util.h"
+#include "test/y4m_video_source.h"
+#include "test/yuv_video_source.h"
+#include "av1/encoder/ratectrl.h"
+
+namespace {
+
+const unsigned int kFrames = 100;
+const int kBitrate = 500;
+
+#define ARF_NOT_SEEN 1000001
+#define ARF_SEEN_ONCE 1000000
+
+typedef struct {
+ const char *filename;
+ unsigned int width;
+ unsigned int height;
+ unsigned int framerate_num;
+ unsigned int framerate_den;
+ unsigned int input_bit_depth;
+ aom_img_fmt fmt;
+ aom_bit_depth_t bit_depth;
+ unsigned int profile;
+} TestVideoParam;
+
+typedef struct {
+ libaom_test::TestMode mode;
+ int cpu_used;
+} TestEncodeParam;
+
+const TestVideoParam kTestVectors[] = {
+ // artificially increase framerate to trigger default check
+ { "hantro_collage_w352h288.yuv", 352, 288, 5000, 1, 8, AOM_IMG_FMT_I420,
+ AOM_BITS_8, 0 },
+ { "hantro_collage_w352h288.yuv", 352, 288, 30, 1, 8, AOM_IMG_FMT_I420,
+ AOM_BITS_8, 0 },
+ { "rush_hour_444.y4m", 352, 288, 30, 1, 8, AOM_IMG_FMT_I444, AOM_BITS_8, 1 },
+ // Add list of profile 2/3 test videos here ...
+};
+
+const TestEncodeParam kEncodeVectors[] = {
+ { ::libaom_test::kOnePassGood, 2 }, { ::libaom_test::kOnePassGood, 5 },
+ { ::libaom_test::kTwoPassGood, 1 }, { ::libaom_test::kTwoPassGood, 2 },
+ { ::libaom_test::kTwoPassGood, 5 }, { ::libaom_test::kRealTime, 5 },
+};
+
+const int kMinArfVectors[] = {
+ // NOTE: 0 refers to the default built-in logic in:
+ // av1_rc_get_default_min_gf_interval(...)
+ 0, 4, 8, 12, 15
+};
+
+int is_extension_y4m(const char *filename) {
+ const char *dot = strrchr(filename, '.');
+ if (!dot || dot == filename)
+ return 0;
+ else
+ return !strcmp(dot, ".y4m");
+}
+
+class ArfFreqTestLarge
+ : public ::libaom_test::CodecTestWith3Params<TestVideoParam,
+ TestEncodeParam, int>,
+ public ::libaom_test::EncoderTest {
+ protected:
+ ArfFreqTestLarge()
+ : EncoderTest(GET_PARAM(0)), test_video_param_(GET_PARAM(1)),
+ test_encode_param_(GET_PARAM(2)), min_arf_requested_(GET_PARAM(3)) {}
+
+ virtual ~ArfFreqTestLarge() {}
+
+ virtual void SetUp() {
+ InitializeConfig();
+ SetMode(test_encode_param_.mode);
+ if (test_encode_param_.mode != ::libaom_test::kRealTime) {
+ cfg_.g_lag_in_frames = 25;
+ cfg_.rc_end_usage = AOM_VBR;
+ } else {
+ cfg_.g_lag_in_frames = 0;
+ cfg_.rc_end_usage = AOM_CBR;
+ cfg_.rc_buf_sz = 1000;
+ cfg_.rc_buf_initial_sz = 500;
+ cfg_.rc_buf_optimal_sz = 600;
+ }
+ }
+
+ virtual void BeginPassHook(unsigned int) {
+ min_run_ = ARF_NOT_SEEN;
+ run_of_visible_frames_ = 0;
+ }
+
+ int GetNumFramesInPkt(const aom_codec_cx_pkt_t *pkt) {
+ const uint8_t *buffer = reinterpret_cast<uint8_t *>(pkt->data.frame.buf);
+ const uint8_t marker = buffer[pkt->data.frame.sz - 1];
+ const int mag = ((marker >> 3) & 3) + 1;
+ int frames = (marker & 0x7) + 1;
+ const unsigned int index_sz = 2 + mag * frames;
+ // Check for superframe or not.
+ // Assume superframe has only one visible frame, the rest being
+ // invisible. If superframe index is not found, then there is only
+ // one frame.
+ if (!((marker & 0xe0) == 0xc0 && pkt->data.frame.sz >= index_sz &&
+ buffer[pkt->data.frame.sz - index_sz] == marker)) {
+ frames = 1;
+ }
+ return frames;
+ }
+
+ virtual void FramePktHook(const aom_codec_cx_pkt_t *pkt) {
+ if (pkt->kind != AOM_CODEC_CX_FRAME_PKT) return;
+ const int frames = GetNumFramesInPkt(pkt);
+ if (frames == 1) {
+ run_of_visible_frames_++;
+ } else if (frames == 2) {
+ if (min_run_ == ARF_NOT_SEEN) {
+ min_run_ = ARF_SEEN_ONCE;
+ } else if (min_run_ == ARF_SEEN_ONCE ||
+ run_of_visible_frames_ < min_run_) {
+ min_run_ = run_of_visible_frames_;
+ }
+ run_of_visible_frames_ = 1;
+ } else {
+ min_run_ = 0;
+ run_of_visible_frames_ = 1;
+ }
+ }
+
+ virtual void PreEncodeFrameHook(::libaom_test::VideoSource *video,
+ ::libaom_test::Encoder *encoder) {
+ if (video->frame() == 0) {
+ encoder->Control(AV1E_SET_FRAME_PARALLEL_DECODING, 1);
+ encoder->Control(AV1E_SET_TILE_COLUMNS, 4);
+ encoder->Control(AOME_SET_CPUUSED, test_encode_param_.cpu_used);
+ encoder->Control(AV1E_SET_MIN_GF_INTERVAL, min_arf_requested_);
+ if (test_encode_param_.mode != ::libaom_test::kRealTime) {
+ encoder->Control(AOME_SET_ENABLEAUTOALTREF, 1);
+ encoder->Control(AOME_SET_ARNR_MAXFRAMES, 7);
+ encoder->Control(AOME_SET_ARNR_STRENGTH, 5);
+ }
+ }
+ }
+
+ int GetMinVisibleRun() const { return min_run_; }
+
+ int GetMinArfDistanceRequested() const {
+ if (min_arf_requested_)
+ return min_arf_requested_;
+ else
+ return av1_rc_get_default_min_gf_interval(
+ test_video_param_.width, test_video_param_.height,
+ (double)test_video_param_.framerate_num /
+ test_video_param_.framerate_den);
+ }
+
+ TestVideoParam test_video_param_;
+ TestEncodeParam test_encode_param_;
+
+ private:
+ int min_arf_requested_;
+ int min_run_;
+ int run_of_visible_frames_;
+};
+
+TEST_P(ArfFreqTestLarge, MinArfFreqTest) {
+ cfg_.rc_target_bitrate = kBitrate;
+ cfg_.g_error_resilient = 0;
+ cfg_.g_profile = test_video_param_.profile;
+ cfg_.g_input_bit_depth = test_video_param_.input_bit_depth;
+ cfg_.g_bit_depth = test_video_param_.bit_depth;
+ init_flags_ = AOM_CODEC_USE_PSNR;
+ if (cfg_.g_bit_depth > 8) init_flags_ |= AOM_CODEC_USE_HIGHBITDEPTH;
+
+ testing::internal::scoped_ptr<libaom_test::VideoSource> video;
+ if (is_extension_y4m(test_video_param_.filename)) {
+ video.reset(new libaom_test::Y4mVideoSource(test_video_param_.filename, 0,
+ kFrames));
+ } else {
+ video.reset(new libaom_test::YUVVideoSource(
+ test_video_param_.filename, test_video_param_.fmt,
+ test_video_param_.width, test_video_param_.height,
+ test_video_param_.framerate_num, test_video_param_.framerate_den, 0,
+ kFrames));
+ }
+
+ ASSERT_NO_FATAL_FAILURE(RunLoop(video.get()));
+ const int min_run = GetMinVisibleRun();
+ const int min_arf_dist_requested = GetMinArfDistanceRequested();
+ if (min_run != ARF_NOT_SEEN && min_run != ARF_SEEN_ONCE) {
+ const int min_arf_dist = min_run + 1;
+ EXPECT_GE(min_arf_dist, min_arf_dist_requested);
+ }
+}
+
+#if CONFIG_AV1_ENCODER
+// TODO(angiebird): 25-29 fail in high bitdepth mode.
+// TODO(zoeliu): This ArfFreqTest does not work with BWDREF_FRAME, as
+// BWDREF_FRAME is also a non-show frame, and the minimum run between two
+// consecutive BWDREF_FRAME's may vary between 1 and any arbitrary positive
+// number as long as it does not exceed the gf_group interval.
+INSTANTIATE_TEST_CASE_P(
+ DISABLED_AV1, ArfFreqTestLarge,
+ ::testing::Combine(
+ ::testing::Values(
+ static_cast<const libaom_test::CodecFactory *>(&libaom_test::kAV1)),
+ ::testing::ValuesIn(kTestVectors), ::testing::ValuesIn(kEncodeVectors),
+ ::testing::ValuesIn(kMinArfVectors)));
+#endif // CONFIG_AV1_ENCODER
+} // namespace
diff --git a/third_party/aom/test/av1_config_test.cc b/third_party/aom/test/av1_config_test.cc
new file mode 100644
index 0000000000..e2f2c53906
--- /dev/null
+++ b/third_party/aom/test/av1_config_test.cc
@@ -0,0 +1,164 @@
+/*
+ * Copyright (c) 2018, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+#include <string.h>
+
+#include "common/av1_config.h"
+#include "test/util.h"
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+namespace {
+
+//
+// Input buffers containing exactly one Sequence Header OBU.
+//
+// Each buffer is named according to the OBU storage format (Annex-B vs Low
+// Overhead Bitstream Format) and the type of Sequence Header OBU ("Full"
+// Sequence Header OBUs vs Sequence Header OBUs with the
+// reduced_still_image_flag set).
+//
+const uint8_t kAnnexBFullSequenceHeaderObu[] = {
+ 0x0c, 0x08, 0x00, 0x00, 0x00, 0x04, 0x45, 0x7e, 0x3e, 0xff, 0xfc, 0xc0, 0x20
+};
+const uint8_t kAnnexBReducedStillImageSequenceHeaderObu[] = {
+ 0x08, 0x08, 0x18, 0x22, 0x2b, 0xf1, 0xfe, 0xc0, 0x20
+};
+
+const uint8_t kLobfFullSequenceHeaderObu[] = {
+ 0x0a, 0x0b, 0x00, 0x00, 0x00, 0x04, 0x45, 0x7e, 0x3e, 0xff, 0xfc, 0xc0, 0x20
+};
+
+const uint8_t kLobfReducedStillImageSequenceHeaderObu[] = {
+ 0x0a, 0x07, 0x18, 0x22, 0x2b, 0xf1, 0xfe, 0xc0, 0x20
+};
+
+const uint8_t kAv1cAllZero[] = { 0, 0, 0, 0 };
+
+// The size of AV1 config when no configOBUs are present at the end of the
+// configuration structure.
+const size_t kAv1cNoConfigObusSize = 4;
+
+bool VerifyAv1c(const uint8_t *const obu_buffer, size_t obu_buffer_length,
+ bool is_annexb) {
+ Av1Config av1_config;
+ memset(&av1_config, 0, sizeof(av1_config));
+ bool parse_ok = get_av1config_from_obu(obu_buffer, obu_buffer_length,
+ is_annexb, &av1_config) == 0;
+ if (parse_ok) {
+ EXPECT_EQ(1, av1_config.marker);
+ EXPECT_EQ(1, av1_config.version);
+ EXPECT_EQ(0, av1_config.seq_profile);
+ EXPECT_EQ(0, av1_config.seq_level_idx_0);
+ EXPECT_EQ(0, av1_config.seq_tier_0);
+ EXPECT_EQ(0, av1_config.high_bitdepth);
+ EXPECT_EQ(0, av1_config.twelve_bit);
+ EXPECT_EQ(0, av1_config.monochrome);
+ EXPECT_EQ(1, av1_config.chroma_subsampling_x);
+ EXPECT_EQ(1, av1_config.chroma_subsampling_y);
+ EXPECT_EQ(0, av1_config.chroma_sample_position);
+ EXPECT_EQ(0, av1_config.initial_presentation_delay_present);
+ EXPECT_EQ(0, av1_config.initial_presentation_delay_minus_one);
+ }
+ return parse_ok && ::testing::Test::HasFailure() == false;
+}
+
+TEST(Av1Config, ObuInvalidInputs) {
+ Av1Config av1_config;
+ memset(&av1_config, 0, sizeof(av1_config));
+ ASSERT_EQ(-1, get_av1config_from_obu(NULL, 0, 0, NULL));
+ ASSERT_EQ(-1,
+ get_av1config_from_obu(&kLobfFullSequenceHeaderObu[0], 0, 0, NULL));
+ ASSERT_EQ(
+ -1, get_av1config_from_obu(&kLobfFullSequenceHeaderObu[0],
+ sizeof(kLobfFullSequenceHeaderObu), 0, NULL));
+ ASSERT_EQ(-1, get_av1config_from_obu(NULL, sizeof(kLobfFullSequenceHeaderObu),
+ 0, NULL));
+ ASSERT_EQ(-1, get_av1config_from_obu(&kLobfFullSequenceHeaderObu[0], 0, 0,
+ &av1_config));
+}
+
+TEST(Av1Config, ReadInvalidInputs) {
+ Av1Config av1_config;
+ memset(&av1_config, 0, sizeof(av1_config));
+ size_t bytes_read = 0;
+ ASSERT_EQ(-1, read_av1config(NULL, 0, NULL, NULL));
+ ASSERT_EQ(-1, read_av1config(NULL, 4, NULL, NULL));
+ ASSERT_EQ(-1, read_av1config(&kAv1cAllZero[0], 0, NULL, NULL));
+ ASSERT_EQ(-1, read_av1config(&kAv1cAllZero[0], 4, &bytes_read, NULL));
+ ASSERT_EQ(-1, read_av1config(NULL, 4, &bytes_read, &av1_config));
+}
+
+TEST(Av1Config, WriteInvalidInputs) {
+ Av1Config av1_config;
+ memset(&av1_config, 0, sizeof(av1_config));
+ size_t bytes_written = 0;
+ uint8_t av1c_buffer[4] = { 0 };
+ ASSERT_EQ(-1, write_av1config(NULL, 0, NULL, NULL));
+ ASSERT_EQ(-1, write_av1config(&av1_config, 0, NULL, NULL));
+ ASSERT_EQ(-1, write_av1config(&av1_config, 0, &bytes_written, NULL));
+
+ ASSERT_EQ(-1,
+ write_av1config(&av1_config, 0, &bytes_written, &av1c_buffer[0]));
+ ASSERT_EQ(-1, write_av1config(&av1_config, 4, &bytes_written, NULL));
+}
+
+TEST(Av1Config, GetAv1ConfigFromLobfObu) {
+ // Test parsing of a Sequence Header OBU with the reduced_still_picture_header
+ // unset-- aka a full Sequence Header OBU.
+ ASSERT_TRUE(VerifyAv1c(kLobfFullSequenceHeaderObu,
+ sizeof(kLobfFullSequenceHeaderObu), false));
+
+ // Test parsing of a reduced still image Sequence Header OBU.
+ ASSERT_TRUE(VerifyAv1c(kLobfReducedStillImageSequenceHeaderObu,
+ sizeof(kLobfReducedStillImageSequenceHeaderObu),
+ false));
+}
+
+TEST(Av1Config, GetAv1ConfigFromAnnexBObu) {
+ // Test parsing of a Sequence Header OBU with the reduced_still_picture_header
+ // unset-- aka a full Sequence Header OBU.
+ ASSERT_TRUE(VerifyAv1c(kAnnexBFullSequenceHeaderObu,
+ sizeof(kAnnexBFullSequenceHeaderObu), true));
+
+ // Test parsing of a reduced still image Sequence Header OBU.
+ ASSERT_TRUE(VerifyAv1c(kAnnexBReducedStillImageSequenceHeaderObu,
+ sizeof(kAnnexBReducedStillImageSequenceHeaderObu),
+ true));
+}
+
+TEST(Av1Config, ReadWriteConfig) {
+ Av1Config av1_config;
+ memset(&av1_config, 0, sizeof(av1_config));
+
+ // Test writing out the AV1 config.
+ size_t bytes_written = 0;
+ uint8_t av1c_buffer[4] = { 0 };
+ ASSERT_EQ(0, write_av1config(&av1_config, sizeof(av1c_buffer), &bytes_written,
+ &av1c_buffer[0]));
+ ASSERT_EQ(kAv1cNoConfigObusSize, bytes_written);
+ for (size_t i = 0; i < kAv1cNoConfigObusSize; ++i) {
+ ASSERT_EQ(kAv1cAllZero[i], av1c_buffer[i])
+ << "Mismatch in output Av1Config at offset=" << i;
+ }
+
+ // Test reading the AV1 config.
+ size_t bytes_read = 0;
+ ASSERT_EQ(0, read_av1config(&kAv1cAllZero[0], sizeof(kAv1cAllZero),
+ &bytes_read, &av1_config));
+ ASSERT_EQ(kAv1cNoConfigObusSize, bytes_read);
+ ASSERT_EQ(0, write_av1config(&av1_config, sizeof(av1c_buffer), &bytes_written,
+ &av1c_buffer[0]));
+ for (size_t i = 0; i < kAv1cNoConfigObusSize; ++i) {
+ ASSERT_EQ(kAv1cAllZero[i], av1c_buffer[i])
+ << "Mismatch in output Av1Config at offset=" << i;
+ }
+}
+
+} // namespace
diff --git a/third_party/aom/test/av1_convolve_2d_test.cc b/third_party/aom/test/av1_convolve_2d_test.cc
new file mode 100644
index 0000000000..03286260e8
--- /dev/null
+++ b/third_party/aom/test/av1_convolve_2d_test.cc
@@ -0,0 +1,249 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/av1_convolve_2d_test_util.h"
+
+using ::testing::make_tuple;
+using ::testing::tuple;
+using libaom_test::ACMRandom;
+using libaom_test::AV1Convolve2D::AV1Convolve2DSrTest;
+using libaom_test::AV1Convolve2D::AV1JntConvolve2DTest;
+using libaom_test::AV1HighbdConvolve2D::AV1HighbdConvolve2DSrTest;
+using libaom_test::AV1HighbdConvolve2D::AV1HighbdJntConvolve2DTest;
+namespace {
+
+TEST_P(AV1Convolve2DSrTest, DISABLED_Speed) { RunSpeedTest(GET_PARAM(0)); }
+
+TEST_P(AV1Convolve2DSrTest, CheckOutput) { RunCheckOutput(GET_PARAM(0)); }
+
+INSTANTIATE_TEST_CASE_P(
+ C_COPY, AV1Convolve2DSrTest,
+ libaom_test::AV1Convolve2D::BuildParams(av1_convolve_2d_copy_sr_c, 0, 0));
+INSTANTIATE_TEST_CASE_P(
+ C_X, AV1Convolve2DSrTest,
+ libaom_test::AV1Convolve2D::BuildParams(av1_convolve_x_sr_c, 1, 0));
+INSTANTIATE_TEST_CASE_P(
+ C_Y, AV1Convolve2DSrTest,
+ libaom_test::AV1Convolve2D::BuildParams(av1_convolve_y_sr_c, 0, 1));
+INSTANTIATE_TEST_CASE_P(
+ C, AV1Convolve2DSrTest,
+ libaom_test::AV1Convolve2D::BuildParams(av1_convolve_2d_sr_c, 1, 1));
+#if HAVE_SSE2
+INSTANTIATE_TEST_CASE_P(SSE2_COPY, AV1Convolve2DSrTest,
+ libaom_test::AV1Convolve2D::BuildParams(
+ av1_convolve_2d_copy_sr_sse2, 0, 0));
+INSTANTIATE_TEST_CASE_P(
+ SSE2_X, AV1Convolve2DSrTest,
+ libaom_test::AV1Convolve2D::BuildParams(av1_convolve_x_sr_sse2, 1, 0));
+INSTANTIATE_TEST_CASE_P(
+ SSE2_Y, AV1Convolve2DSrTest,
+ libaom_test::AV1Convolve2D::BuildParams(av1_convolve_y_sr_sse2, 0, 1));
+INSTANTIATE_TEST_CASE_P(
+ SSE2, AV1Convolve2DSrTest,
+ libaom_test::AV1Convolve2D::BuildParams(av1_convolve_2d_sr_sse2, 1, 1));
+#if HAVE_AVX2
+INSTANTIATE_TEST_CASE_P(AVX2_COPY, AV1Convolve2DSrTest,
+ libaom_test::AV1Convolve2D::BuildParams(
+ av1_convolve_2d_copy_sr_avx2, 0, 0));
+INSTANTIATE_TEST_CASE_P(
+ AVX2_X, AV1Convolve2DSrTest,
+ libaom_test::AV1Convolve2D::BuildParams(av1_convolve_x_sr_avx2, 1, 0));
+
+INSTANTIATE_TEST_CASE_P(
+ AVX2_Y, AV1Convolve2DSrTest,
+ libaom_test::AV1Convolve2D::BuildParams(av1_convolve_y_sr_avx2, 0, 1));
+
+INSTANTIATE_TEST_CASE_P(
+ AVX2, AV1Convolve2DSrTest,
+ libaom_test::AV1Convolve2D::BuildParams(av1_convolve_2d_sr_avx2, 1, 1));
+#endif // HAVE_AVX2
+#endif // HAVE_SSE2
+
+#if HAVE_NEON
+INSTANTIATE_TEST_CASE_P(
+ NEON_X, AV1Convolve2DSrTest,
+ libaom_test::AV1Convolve2D::BuildParams(av1_convolve_x_sr_neon, 1, 0));
+
+INSTANTIATE_TEST_CASE_P(
+ NEON_Y, AV1Convolve2DSrTest,
+ libaom_test::AV1Convolve2D::BuildParams(av1_convolve_y_sr_neon, 0, 1));
+
+INSTANTIATE_TEST_CASE_P(
+ NEON, AV1Convolve2DSrTest,
+ libaom_test::AV1Convolve2D::BuildParams(av1_convolve_2d_sr_neon, 1, 1));
+
+INSTANTIATE_TEST_CASE_P(NEON_COPY, AV1Convolve2DSrTest,
+ libaom_test::AV1Convolve2D::BuildParams(
+ av1_convolve_2d_copy_sr_neon, 0, 0));
+#endif // HAVE_NEON
+
+TEST_P(AV1JntConvolve2DTest, CheckOutput) { RunCheckOutput(GET_PARAM(0)); }
+TEST_P(AV1JntConvolve2DTest, DISABLED_Speed) { RunSpeedTest(GET_PARAM(0)); }
+
+INSTANTIATE_TEST_CASE_P(
+ C_COPY, AV1JntConvolve2DTest,
+ libaom_test::AV1Convolve2D::BuildParams(av1_jnt_convolve_2d_copy_c, 0, 0));
+
+INSTANTIATE_TEST_CASE_P(
+ C_X, AV1JntConvolve2DTest,
+ libaom_test::AV1Convolve2D::BuildParams(av1_jnt_convolve_x_c, 1, 0));
+
+INSTANTIATE_TEST_CASE_P(
+ C_Y, AV1JntConvolve2DTest,
+ libaom_test::AV1Convolve2D::BuildParams(av1_jnt_convolve_y_c, 0, 1));
+
+#if HAVE_SSE2
+INSTANTIATE_TEST_CASE_P(SSE2_COPY, AV1JntConvolve2DTest,
+ libaom_test::AV1Convolve2D::BuildParams(
+ av1_jnt_convolve_2d_copy_sse2, 0, 0));
+#if HAVE_SSE4_1
+INSTANTIATE_TEST_CASE_P(
+ SSE2_X, AV1JntConvolve2DTest,
+ libaom_test::AV1Convolve2D::BuildParams(av1_jnt_convolve_x_sse2, 1, 0));
+
+INSTANTIATE_TEST_CASE_P(
+ SSE2_Y, AV1JntConvolve2DTest,
+ libaom_test::AV1Convolve2D::BuildParams(av1_jnt_convolve_y_sse2, 0, 1));
+
+INSTANTIATE_TEST_CASE_P(
+ SSSE3, AV1JntConvolve2DTest,
+ libaom_test::AV1Convolve2D::BuildParams(av1_jnt_convolve_2d_ssse3, 1, 1));
+
+#if HAVE_AVX2
+INSTANTIATE_TEST_CASE_P(AVX2_COPY, AV1JntConvolve2DTest,
+ libaom_test::AV1Convolve2D::BuildParams(
+ av1_jnt_convolve_2d_copy_avx2, 0, 0));
+INSTANTIATE_TEST_CASE_P(
+ AVX2_X, AV1JntConvolve2DTest,
+ libaom_test::AV1Convolve2D::BuildParams(av1_jnt_convolve_x_avx2, 1, 0));
+
+INSTANTIATE_TEST_CASE_P(
+ AVX2_Y, AV1JntConvolve2DTest,
+ libaom_test::AV1Convolve2D::BuildParams(av1_jnt_convolve_y_avx2, 0, 1));
+
+INSTANTIATE_TEST_CASE_P(
+ AVX2, AV1JntConvolve2DTest,
+ libaom_test::AV1Convolve2D::BuildParams(av1_jnt_convolve_2d_avx2, 1, 1));
+#endif // HAVE_AVX2
+#endif // HAVE_SSE4_1
+#endif // HAVE_SSE2
+#if HAVE_NEON
+INSTANTIATE_TEST_CASE_P(NEON_COPY, AV1JntConvolve2DTest,
+ libaom_test::AV1Convolve2D::BuildParams(
+ av1_jnt_convolve_2d_copy_neon, 0, 0));
+
+INSTANTIATE_TEST_CASE_P(
+ NEON, AV1JntConvolve2DTest,
+ libaom_test::AV1Convolve2D::BuildParams(av1_jnt_convolve_2d_neon, 1, 1));
+INSTANTIATE_TEST_CASE_P(
+ NEON_X, AV1JntConvolve2DTest,
+ libaom_test::AV1Convolve2D::BuildParams(av1_jnt_convolve_x_neon, 1, 0));
+
+INSTANTIATE_TEST_CASE_P(
+ NEON_Y, AV1JntConvolve2DTest,
+ libaom_test::AV1Convolve2D::BuildParams(av1_jnt_convolve_y_neon, 0, 1));
+#endif // HAVE_NEON
+
+TEST_P(AV1HighbdConvolve2DSrTest, CheckOutput) { RunCheckOutput(GET_PARAM(1)); }
+TEST_P(AV1HighbdConvolve2DSrTest, DISABLED_Speed) {
+ RunSpeedTest(GET_PARAM(1));
+}
+
+INSTANTIATE_TEST_CASE_P(C_X, AV1HighbdConvolve2DSrTest,
+ libaom_test::AV1HighbdConvolve2D::BuildParams(
+ av1_highbd_convolve_x_sr_c, 1, 0));
+
+INSTANTIATE_TEST_CASE_P(C_Y, AV1HighbdConvolve2DSrTest,
+ libaom_test::AV1HighbdConvolve2D::BuildParams(
+ av1_highbd_convolve_y_sr_c, 0, 1));
+
+INSTANTIATE_TEST_CASE_P(C_COPY, AV1HighbdConvolve2DSrTest,
+ libaom_test::AV1HighbdConvolve2D::BuildParams(
+ av1_highbd_convolve_2d_copy_sr_c, 0, 0));
+#if HAVE_SSE2
+INSTANTIATE_TEST_CASE_P(SSE2_COPY, AV1HighbdConvolve2DSrTest,
+ libaom_test::AV1HighbdConvolve2D::BuildParams(
+ av1_highbd_convolve_2d_copy_sr_sse2, 0, 0));
+#if HAVE_SSSE3
+INSTANTIATE_TEST_CASE_P(SSSE3, AV1HighbdConvolve2DSrTest,
+ libaom_test::AV1HighbdConvolve2D::BuildParams(
+ av1_highbd_convolve_2d_sr_ssse3, 1, 1));
+INSTANTIATE_TEST_CASE_P(SSSE3_X, AV1HighbdConvolve2DSrTest,
+ libaom_test::AV1HighbdConvolve2D::BuildParams(
+ av1_highbd_convolve_x_sr_ssse3, 1, 0));
+INSTANTIATE_TEST_CASE_P(SSSE3_Y, AV1HighbdConvolve2DSrTest,
+ libaom_test::AV1HighbdConvolve2D::BuildParams(
+ av1_highbd_convolve_y_sr_ssse3, 0, 1));
+#if HAVE_AVX2
+INSTANTIATE_TEST_CASE_P(AVX2, AV1HighbdConvolve2DSrTest,
+ libaom_test::AV1HighbdConvolve2D::BuildParams(
+ av1_highbd_convolve_2d_sr_avx2, 1, 1));
+INSTANTIATE_TEST_CASE_P(AVX2_X, AV1HighbdConvolve2DSrTest,
+ libaom_test::AV1HighbdConvolve2D::BuildParams(
+ av1_highbd_convolve_x_sr_avx2, 1, 0));
+INSTANTIATE_TEST_CASE_P(AVX2_Y, AV1HighbdConvolve2DSrTest,
+ libaom_test::AV1HighbdConvolve2D::BuildParams(
+ av1_highbd_convolve_y_sr_avx2, 0, 1));
+INSTANTIATE_TEST_CASE_P(AVX2_COPY, AV1HighbdConvolve2DSrTest,
+ libaom_test::AV1HighbdConvolve2D::BuildParams(
+ av1_highbd_convolve_2d_copy_sr_avx2, 0, 0));
+#endif // HAVE_AVX2
+#endif // HAVE_SSSE3
+#endif // HAVE_SSE2
+TEST_P(AV1HighbdJntConvolve2DTest, CheckOutput) {
+ RunCheckOutput(GET_PARAM(1));
+}
+
+TEST_P(AV1HighbdJntConvolve2DTest, DISABLED_Speed) {
+ RunSpeedTest(GET_PARAM(1));
+}
+
+INSTANTIATE_TEST_CASE_P(C_X, AV1HighbdJntConvolve2DTest,
+ libaom_test::AV1HighbdConvolve2D::BuildParams(
+ av1_highbd_jnt_convolve_x_c, 1, 0));
+
+INSTANTIATE_TEST_CASE_P(C_Y, AV1HighbdJntConvolve2DTest,
+ libaom_test::AV1HighbdConvolve2D::BuildParams(
+ av1_highbd_jnt_convolve_y_c, 0, 1));
+
+INSTANTIATE_TEST_CASE_P(C_COPY, AV1HighbdJntConvolve2DTest,
+ libaom_test::AV1HighbdConvolve2D::BuildParams(
+ av1_highbd_jnt_convolve_2d_copy_c, 0, 0));
+#if HAVE_SSE4_1
+INSTANTIATE_TEST_CASE_P(SSE4_1_COPY, AV1HighbdJntConvolve2DTest,
+ libaom_test::AV1HighbdConvolve2D::BuildParams(
+ av1_highbd_jnt_convolve_2d_copy_sse4_1, 0, 0));
+INSTANTIATE_TEST_CASE_P(SSE4_1, AV1HighbdJntConvolve2DTest,
+ libaom_test::AV1HighbdConvolve2D::BuildParams(
+ av1_highbd_jnt_convolve_2d_sse4_1, 1, 1));
+INSTANTIATE_TEST_CASE_P(SSE4_1_X, AV1HighbdJntConvolve2DTest,
+ libaom_test::AV1HighbdConvolve2D::BuildParams(
+ av1_highbd_jnt_convolve_x_sse4_1, 1, 0));
+INSTANTIATE_TEST_CASE_P(SSE4_1_Y, AV1HighbdJntConvolve2DTest,
+ libaom_test::AV1HighbdConvolve2D::BuildParams(
+ av1_highbd_jnt_convolve_y_sse4_1, 0, 1));
+#if HAVE_AVX2
+INSTANTIATE_TEST_CASE_P(AVX2_COPY, AV1HighbdJntConvolve2DTest,
+ libaom_test::AV1HighbdConvolve2D::BuildParams(
+ av1_highbd_jnt_convolve_2d_copy_avx2, 0, 0));
+INSTANTIATE_TEST_CASE_P(AVX2, AV1HighbdJntConvolve2DTest,
+ libaom_test::AV1HighbdConvolve2D::BuildParams(
+ av1_highbd_jnt_convolve_2d_avx2, 1, 1));
+INSTANTIATE_TEST_CASE_P(AVX2_X, AV1HighbdJntConvolve2DTest,
+ libaom_test::AV1HighbdConvolve2D::BuildParams(
+ av1_highbd_jnt_convolve_x_avx2, 1, 0));
+INSTANTIATE_TEST_CASE_P(AVX2_Y, AV1HighbdJntConvolve2DTest,
+ libaom_test::AV1HighbdConvolve2D::BuildParams(
+ av1_highbd_jnt_convolve_y_avx2, 0, 1));
+#endif // HAVE_AVX2
+#endif // HAVE_SSE4_1
+} // namespace
diff --git a/third_party/aom/test/av1_convolve_2d_test_util.cc b/third_party/aom/test/av1_convolve_2d_test_util.cc
new file mode 100644
index 0000000000..409fd23e10
--- /dev/null
+++ b/third_party/aom/test/av1_convolve_2d_test_util.cc
@@ -0,0 +1,705 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "test/av1_convolve_2d_test_util.h"
+
+#include "aom_ports/aom_timer.h"
+#include "av1/common/common_data.h"
+#include "av1/common/convolve.h"
+
+using ::testing::make_tuple;
+using ::testing::tuple;
+
+namespace libaom_test {
+
+const int kMaxSize = 128 + 32; // padding
+namespace AV1Convolve2D {
+
+::testing::internal::ParamGenerator<Convolve2DParam> BuildParams(
+ convolve_2d_func filter, int has_subx, int has_suby) {
+ return ::testing::Combine(::testing::Values(filter),
+ ::testing::Values(has_subx),
+ ::testing::Values(has_suby),
+ ::testing::Range(BLOCK_4X4, BLOCK_SIZES_ALL));
+}
+
+AV1Convolve2DSrTest::~AV1Convolve2DSrTest() {}
+void AV1Convolve2DSrTest::SetUp() {
+ rnd_.Reset(ACMRandom::DeterministicSeed());
+}
+
+void AV1Convolve2DSrTest::TearDown() { libaom_test::ClearSystemState(); }
+
+void AV1Convolve2DSrTest::RunCheckOutput(convolve_2d_func test_impl) {
+ const int w = kMaxSize, h = kMaxSize;
+ const int has_subx = GET_PARAM(1);
+ const int has_suby = GET_PARAM(2);
+ const int block_idx = GET_PARAM(3);
+ int hfilter, vfilter, subx, suby;
+ uint8_t input[kMaxSize * kMaxSize];
+ DECLARE_ALIGNED(32, uint8_t, output[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, uint8_t, output2[MAX_SB_SQUARE]);
+
+ for (int i = 0; i < h; ++i)
+ for (int j = 0; j < w; ++j) input[i * w + j] = rnd_.Rand8();
+ for (int i = 0; i < MAX_SB_SQUARE; ++i)
+ output[i] = output2[i] = rnd_.Rand31();
+
+ // Make sure that sizes 2xN and Nx2 are also tested for chroma.
+ const int num_sizes =
+ (block_size_wide[block_idx] == 4 || block_size_high[block_idx] == 4) ? 2
+ : 1;
+ for (int shift = 0; shift < num_sizes; ++shift) { // luma and chroma
+ const int out_w = block_size_wide[block_idx] >> shift;
+ const int out_h = block_size_high[block_idx] >> shift;
+ for (hfilter = EIGHTTAP_REGULAR; hfilter < INTERP_FILTERS_ALL; ++hfilter) {
+ for (vfilter = EIGHTTAP_REGULAR; vfilter < INTERP_FILTERS_ALL;
+ ++vfilter) {
+ const InterpFilterParams *filter_params_x =
+ av1_get_interp_filter_params_with_block_size((InterpFilter)hfilter,
+ out_w);
+ const InterpFilterParams *filter_params_y =
+ av1_get_interp_filter_params_with_block_size((InterpFilter)vfilter,
+ out_h);
+ for (int do_average = 0; do_average < 1; ++do_average) {
+ ConvolveParams conv_params1 =
+ get_conv_params_no_round(do_average, 0, NULL, 0, 0, 8);
+ ConvolveParams conv_params2 =
+ get_conv_params_no_round(do_average, 0, NULL, 0, 0, 8);
+
+ const int subx_range = has_subx ? 16 : 1;
+ const int suby_range = has_suby ? 16 : 1;
+ for (subx = 0; subx < subx_range; ++subx) {
+ for (suby = 0; suby < suby_range; ++suby) {
+ // Choose random locations within the source block
+ const int offset_r = 3 + rnd_.PseudoUniform(h - out_h - 7);
+ const int offset_c = 3 + rnd_.PseudoUniform(w - out_w - 7);
+ av1_convolve_2d_sr_c(input + offset_r * w + offset_c, w, output,
+ MAX_SB_SIZE, out_w, out_h, filter_params_x,
+ filter_params_y, subx, suby, &conv_params1);
+ test_impl(input + offset_r * w + offset_c, w, output2,
+ MAX_SB_SIZE, out_w, out_h, filter_params_x,
+ filter_params_y, subx, suby, &conv_params2);
+
+ if (memcmp(output, output2, sizeof(output))) {
+ for (int i = 0; i < MAX_SB_SIZE; ++i) {
+ for (int j = 0; j < MAX_SB_SIZE; ++j) {
+ int idx = i * MAX_SB_SIZE + j;
+ ASSERT_EQ(output[idx], output2[idx])
+ << out_w << "x" << out_h << " Pixel mismatch at index "
+ << idx << " = (" << i << ", " << j
+ << "), sub pixel offset = (" << suby << ", " << subx
+ << ")";
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+}
+
+void AV1Convolve2DSrTest::RunSpeedTest(convolve_2d_func test_impl) {
+ const int w = kMaxSize, h = kMaxSize;
+ const int has_subx = GET_PARAM(1);
+ const int has_suby = GET_PARAM(2);
+ const int block_idx = GET_PARAM(3);
+
+ uint8_t input[kMaxSize * kMaxSize];
+ DECLARE_ALIGNED(32, uint8_t, output[MAX_SB_SQUARE]);
+
+ for (int i = 0; i < h; ++i)
+ for (int j = 0; j < w; ++j) input[i * w + j] = rnd_.Rand8();
+
+ int hfilter = EIGHTTAP_REGULAR, vfilter = EIGHTTAP_REGULAR;
+ int subx = 0, suby = 0;
+
+ const int do_average = 0;
+ ConvolveParams conv_params2 =
+ get_conv_params_no_round(do_average, 0, NULL, 0, 0, 8);
+
+ // Make sure that sizes 2xN and Nx2 are also tested for chroma.
+ const int num_sizes =
+ (block_size_wide[block_idx] == 4 || block_size_high[block_idx] == 4) ? 2
+ : 1;
+ for (int shift = 0; shift < num_sizes; ++shift) { // luma and chroma
+ const int out_w = block_size_wide[block_idx] >> shift;
+ const int out_h = block_size_high[block_idx] >> shift;
+ const int num_loops = 1000000000 / (out_w + out_h);
+
+ const InterpFilterParams *filter_params_x =
+ av1_get_interp_filter_params_with_block_size((InterpFilter)hfilter,
+ out_w);
+ const InterpFilterParams *filter_params_y =
+ av1_get_interp_filter_params_with_block_size((InterpFilter)vfilter,
+ out_h);
+
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+
+ for (int i = 0; i < num_loops; ++i)
+ test_impl(input, w, output, MAX_SB_SIZE, out_w, out_h, filter_params_x,
+ filter_params_y, subx, suby, &conv_params2);
+
+ aom_usec_timer_mark(&timer);
+ const int elapsed_time = static_cast<int>(aom_usec_timer_elapsed(&timer));
+ printf("%d,%d convolve %3dx%-3d: %7.2f us\n", has_subx, has_suby, out_w,
+ out_h, 1000.0 * elapsed_time / num_loops);
+ }
+}
+
+AV1JntConvolve2DTest::~AV1JntConvolve2DTest() {}
+void AV1JntConvolve2DTest::SetUp() {
+ rnd_.Reset(ACMRandom::DeterministicSeed());
+}
+
+void AV1JntConvolve2DTest::TearDown() { libaom_test::ClearSystemState(); }
+
+void AV1JntConvolve2DTest::RunCheckOutput(convolve_2d_func test_impl) {
+ const int w = kMaxSize, h = kMaxSize;
+ const int has_subx = GET_PARAM(1);
+ const int has_suby = GET_PARAM(2);
+ const int block_idx = GET_PARAM(3);
+ int hfilter, vfilter, subx, suby;
+ uint8_t input[kMaxSize * kMaxSize];
+ DECLARE_ALIGNED(32, CONV_BUF_TYPE, output1[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, CONV_BUF_TYPE, output2[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(16, uint8_t, output8_1[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(16, uint8_t, output8_2[MAX_SB_SQUARE]);
+
+ for (int i = 0; i < h; ++i)
+ for (int j = 0; j < w; ++j) input[i * w + j] = rnd_.Rand8();
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) {
+ output1[i] = output2[i] = rnd_.Rand16();
+ output8_1[i] = output8_2[i] = rnd_.Rand8();
+ }
+
+ const int out_w = block_size_wide[block_idx];
+ const int out_h = block_size_high[block_idx];
+ for (hfilter = EIGHTTAP_REGULAR; hfilter < INTERP_FILTERS_ALL; ++hfilter) {
+ for (vfilter = EIGHTTAP_REGULAR; vfilter < INTERP_FILTERS_ALL; ++vfilter) {
+ const InterpFilterParams *filter_params_x =
+ av1_get_interp_filter_params_with_block_size((InterpFilter)hfilter,
+ out_w);
+ const InterpFilterParams *filter_params_y =
+ av1_get_interp_filter_params_with_block_size((InterpFilter)vfilter,
+ out_h);
+ for (int do_average = 0; do_average <= 1; ++do_average) {
+ ConvolveParams conv_params1 =
+ get_conv_params_no_round(do_average, 0, output1, MAX_SB_SIZE, 1, 8);
+ ConvolveParams conv_params2 =
+ get_conv_params_no_round(do_average, 0, output2, MAX_SB_SIZE, 1, 8);
+
+ // Test special case where jnt_comp_avg is not used
+ conv_params1.use_jnt_comp_avg = 0;
+ conv_params2.use_jnt_comp_avg = 0;
+
+ const int subx_range = has_subx ? 16 : 1;
+ const int suby_range = has_suby ? 16 : 1;
+ for (subx = 0; subx < subx_range; ++subx) {
+ for (suby = 0; suby < suby_range; ++suby) {
+ // Choose random locations within the source block
+ const int offset_r = 3 + rnd_.PseudoUniform(h - out_h - 7);
+ const int offset_c = 3 + rnd_.PseudoUniform(w - out_w - 7);
+ av1_jnt_convolve_2d_c(input + offset_r * w + offset_c, w, output8_1,
+ MAX_SB_SIZE, out_w, out_h, filter_params_x,
+ filter_params_y, subx, suby, &conv_params1);
+ test_impl(input + offset_r * w + offset_c, w, output8_2,
+ MAX_SB_SIZE, out_w, out_h, filter_params_x,
+ filter_params_y, subx, suby, &conv_params2);
+
+ for (int i = 0; i < out_h; ++i) {
+ for (int j = 0; j < out_w; ++j) {
+ int idx = i * MAX_SB_SIZE + j;
+ ASSERT_EQ(output1[idx], output2[idx])
+ << "Mismatch at unit tests for av1_jnt_convolve_2d\n"
+ << out_w << "x" << out_h << " Pixel mismatch at index "
+ << idx << " = (" << i << ", " << j
+ << "), sub pixel offset = (" << suby << ", " << subx << ")";
+ }
+ }
+
+ if (memcmp(output8_1, output8_2, sizeof(output8_1))) {
+ for (int i = 0; i < MAX_SB_SIZE; ++i) {
+ for (int j = 0; j < MAX_SB_SIZE; ++j) {
+ int idx = i * MAX_SB_SIZE + j;
+ ASSERT_EQ(output8_1[idx], output8_2[idx])
+ << out_w << "x" << out_h << " Pixel mismatch at index "
+ << idx << " = (" << i << ", " << j
+ << "), sub pixel offset = (" << suby << ", " << subx
+ << ")";
+ }
+ }
+ }
+ }
+ }
+
+ // Test different combination of fwd and bck offset weights
+ for (int k = 0; k < 2; ++k) {
+ for (int l = 0; l < 4; ++l) {
+ conv_params1.use_jnt_comp_avg = 1;
+ conv_params2.use_jnt_comp_avg = 1;
+ conv_params1.fwd_offset = quant_dist_lookup_table[k][l][0];
+ conv_params1.bck_offset = quant_dist_lookup_table[k][l][1];
+ conv_params2.fwd_offset = quant_dist_lookup_table[k][l][0];
+ conv_params2.bck_offset = quant_dist_lookup_table[k][l][1];
+
+ for (subx = 0; subx < subx_range; ++subx) {
+ for (suby = 0; suby < suby_range; ++suby) {
+ // Choose random locations within the source block
+ const int offset_r = 3 + rnd_.PseudoUniform(h - out_h - 7);
+ const int offset_c = 3 + rnd_.PseudoUniform(w - out_w - 7);
+ av1_jnt_convolve_2d_c(input + offset_r * w + offset_c, w,
+ output8_1, MAX_SB_SIZE, out_w, out_h,
+ filter_params_x, filter_params_y, subx,
+ suby, &conv_params1);
+ test_impl(input + offset_r * w + offset_c, w, output8_2,
+ MAX_SB_SIZE, out_w, out_h, filter_params_x,
+ filter_params_y, subx, suby, &conv_params2);
+
+ for (int i = 0; i < out_h; ++i) {
+ for (int j = 0; j < out_w; ++j) {
+ int idx = i * MAX_SB_SIZE + j;
+ ASSERT_EQ(output1[idx], output2[idx])
+ << "Mismatch at unit tests for "
+ "av1_jnt_convolve_2d\n"
+ << out_w << "x" << out_h << " Pixel mismatch at index "
+ << idx << " = (" << i << ", " << j
+ << "), sub pixel offset = (" << suby << ", " << subx
+ << ")";
+ }
+ }
+ if (memcmp(output8_1, output8_2, sizeof(output8_1))) {
+ for (int i = 0; i < MAX_SB_SIZE; ++i) {
+ for (int j = 0; j < MAX_SB_SIZE; ++j) {
+ int idx = i * MAX_SB_SIZE + j;
+ ASSERT_EQ(output8_1[idx], output8_2[idx])
+ << out_w << "x" << out_h
+ << " Pixel mismatch at index " << idx << " = (" << i
+ << ", " << j << "), sub pixel offset = (" << suby
+ << ", " << subx << ")";
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+}
+
+void AV1JntConvolve2DTest::RunSpeedTest(convolve_2d_func test_impl) {
+ const int w = kMaxSize, h = kMaxSize;
+ const int has_subx = GET_PARAM(1);
+ const int has_suby = GET_PARAM(2);
+ const int block_idx = GET_PARAM(3);
+
+ int subx = 0, suby = 0;
+ uint8_t input[kMaxSize * kMaxSize];
+ DECLARE_ALIGNED(32, CONV_BUF_TYPE, output[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(16, uint8_t, output8[MAX_SB_SQUARE]);
+ int hfilter = EIGHTTAP_REGULAR, vfilter = EIGHTTAP_REGULAR;
+ for (int i = 0; i < h; ++i)
+ for (int j = 0; j < w; ++j) input[i * w + j] = rnd_.Rand8();
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) {
+ output[i] = rnd_.Rand16();
+ output8[i] = rnd_.Rand8();
+ }
+
+ const int out_w = block_size_wide[block_idx];
+ const int out_h = block_size_high[block_idx];
+ const int num_loops = 1000000000 / (out_w + out_h);
+ const int do_average = 0;
+
+ const InterpFilterParams *filter_params_x =
+ av1_get_interp_filter_params_with_block_size((InterpFilter)hfilter,
+ out_w);
+ const InterpFilterParams *filter_params_y =
+ av1_get_interp_filter_params_with_block_size((InterpFilter)vfilter,
+ out_h);
+
+ ConvolveParams conv_params =
+ get_conv_params_no_round(do_average, 0, output, MAX_SB_SIZE, 1, 8);
+
+ conv_params.use_jnt_comp_avg = 0;
+
+ // Choose random locations within the source block
+ const int offset_r = 3 + rnd_.PseudoUniform(h - out_h - 7);
+ const int offset_c = 3 + rnd_.PseudoUniform(w - out_w - 7);
+
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+
+ for (int i = 0; i < num_loops; ++i)
+ test_impl(input + offset_r * w + offset_c, w, output8, MAX_SB_SIZE, out_w,
+ out_h, filter_params_x, filter_params_y, subx, suby,
+ &conv_params);
+
+ aom_usec_timer_mark(&timer);
+ const int elapsed_time = static_cast<int>(aom_usec_timer_elapsed(&timer));
+ printf("%d,%d convolve %3dx%-3d: %7.2f us\n", has_subx, has_suby, out_w,
+ out_h, 1000.0 * elapsed_time / num_loops);
+}
+} // namespace AV1Convolve2D
+
+namespace AV1HighbdConvolve2D {
+::testing::internal::ParamGenerator<HighbdConvolve2DParam> BuildParams(
+ highbd_convolve_2d_func filter, int has_subx, int has_suby) {
+ return ::testing::Combine(
+ ::testing::Range(8, 13, 2), ::testing::Values(filter),
+ ::testing::Values(has_subx), ::testing::Values(has_suby),
+ ::testing::Range(BLOCK_4X4, BLOCK_SIZES_ALL));
+}
+
+AV1HighbdConvolve2DSrTest::~AV1HighbdConvolve2DSrTest() {}
+void AV1HighbdConvolve2DSrTest::SetUp() {
+ rnd_.Reset(ACMRandom::DeterministicSeed());
+}
+
+void AV1HighbdConvolve2DSrTest::TearDown() { libaom_test::ClearSystemState(); }
+
+void AV1HighbdConvolve2DSrTest::RunSpeedTest(
+ highbd_convolve_2d_func test_impl) {
+ const int w = kMaxSize, h = kMaxSize;
+ const int bd = GET_PARAM(0);
+ const int has_subx = GET_PARAM(2);
+ const int has_suby = GET_PARAM(3);
+ const int block_idx = GET_PARAM(4);
+ int hfilter, vfilter, subx, suby;
+ uint16_t input[kMaxSize * kMaxSize];
+ DECLARE_ALIGNED(32, uint16_t, output[MAX_SB_SQUARE]);
+
+ for (int i = 0; i < h; ++i)
+ for (int j = 0; j < w; ++j)
+ input[i * w + j] = rnd_.Rand16() & ((1 << bd) - 1);
+
+ hfilter = EIGHTTAP_REGULAR;
+ vfilter = EIGHTTAP_REGULAR;
+ int do_average = 0;
+
+ const int offset_r = 3;
+ const int offset_c = 3;
+ subx = 0;
+ suby = 0;
+
+ ConvolveParams conv_params =
+ get_conv_params_no_round(do_average, 0, NULL, 0, 0, bd);
+
+ // Make sure that sizes 2xN and Nx2 are also tested for chroma.
+ const int num_sizes =
+ (block_size_wide[block_idx] == 4 || block_size_high[block_idx] == 4) ? 2
+ : 1;
+
+ for (int shift = 0; shift < num_sizes; ++shift) { // luma and chroma
+ const int out_w = block_size_wide[block_idx] >> shift;
+ const int out_h = block_size_high[block_idx] >> shift;
+ const int num_loops = 1000000000 / (out_w + out_h);
+
+ const InterpFilterParams *filter_params_x =
+ av1_get_interp_filter_params_with_block_size((InterpFilter)hfilter,
+ out_w);
+ const InterpFilterParams *filter_params_y =
+ av1_get_interp_filter_params_with_block_size((InterpFilter)vfilter,
+ out_h);
+
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+ for (int i = 0; i < num_loops; ++i)
+ test_impl(input + offset_r * w + offset_c, w, output, MAX_SB_SIZE, out_w,
+ out_h, filter_params_x, filter_params_y, subx, suby,
+ &conv_params, bd);
+
+ aom_usec_timer_mark(&timer);
+ const int elapsed_time = static_cast<int>(aom_usec_timer_elapsed(&timer));
+ printf("%d,%d convolve %3dx%-3d: %7.2f us\n", has_subx, has_suby, out_w,
+ out_h, 1000.0 * elapsed_time / num_loops);
+ }
+}
+
+void AV1HighbdConvolve2DSrTest::RunCheckOutput(
+ highbd_convolve_2d_func test_impl) {
+ const int w = kMaxSize, h = kMaxSize;
+ const int bd = GET_PARAM(0);
+ const int has_subx = GET_PARAM(2);
+ const int has_suby = GET_PARAM(3);
+ const int block_idx = GET_PARAM(4);
+ int hfilter, vfilter, subx, suby;
+ uint16_t input[kMaxSize * kMaxSize];
+ DECLARE_ALIGNED(32, uint16_t, output[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, uint16_t, output2[MAX_SB_SQUARE]);
+
+ for (int i = 0; i < h; ++i)
+ for (int j = 0; j < w; ++j)
+ input[i * w + j] = rnd_.Rand16() & ((1 << bd) - 1);
+ for (int i = 0; i < MAX_SB_SQUARE; ++i)
+ output[i] = output2[i] = rnd_.Rand31();
+
+ // Make sure that sizes 2xN and Nx2 are also tested for chroma.
+ const int num_sizes =
+ (block_size_wide[block_idx] == 4 || block_size_high[block_idx] == 4) ? 2
+ : 1;
+ for (int shift = 0; shift < num_sizes; ++shift) { // luma and chroma
+ const int out_w = block_size_wide[block_idx] >> shift;
+ const int out_h = block_size_high[block_idx] >> shift;
+ for (hfilter = EIGHTTAP_REGULAR; hfilter < INTERP_FILTERS_ALL; ++hfilter) {
+ for (vfilter = EIGHTTAP_REGULAR; vfilter < INTERP_FILTERS_ALL;
+ ++vfilter) {
+ const InterpFilterParams *filter_params_x =
+ av1_get_interp_filter_params_with_block_size((InterpFilter)hfilter,
+ out_w);
+ const InterpFilterParams *filter_params_y =
+ av1_get_interp_filter_params_with_block_size((InterpFilter)vfilter,
+ out_h);
+ for (int do_average = 0; do_average < 1; ++do_average) {
+ ConvolveParams conv_params1 =
+ get_conv_params_no_round(do_average, 0, NULL, 0, 0, bd);
+ ConvolveParams conv_params2 =
+ get_conv_params_no_round(do_average, 0, NULL, 0, 0, bd);
+
+ const int subx_range = has_subx ? 16 : 1;
+ const int suby_range = has_suby ? 16 : 1;
+ for (subx = 0; subx < subx_range; ++subx) {
+ for (suby = 0; suby < suby_range; ++suby) {
+ // Choose random locations within the source block
+ const int offset_r = 3 + rnd_.PseudoUniform(h - out_h - 7);
+ const int offset_c = 3 + rnd_.PseudoUniform(w - out_w - 7);
+ av1_highbd_convolve_2d_sr_c(input + offset_r * w + offset_c, w,
+ output, MAX_SB_SIZE, out_w, out_h,
+ filter_params_x, filter_params_y,
+ subx, suby, &conv_params1, bd);
+ test_impl(input + offset_r * w + offset_c, w, output2,
+ MAX_SB_SIZE, out_w, out_h, filter_params_x,
+ filter_params_y, subx, suby, &conv_params2, bd);
+
+ if (memcmp(output, output2, sizeof(output))) {
+ for (int i = 0; i < MAX_SB_SIZE; ++i) {
+ for (int j = 0; j < MAX_SB_SIZE; ++j) {
+ int idx = i * MAX_SB_SIZE + j;
+ ASSERT_EQ(output[idx], output2[idx])
+ << out_w << "x" << out_h << " Pixel mismatch at index "
+ << idx << " = (" << i << ", " << j
+ << "), sub pixel offset = (" << suby << ", " << subx
+ << ")";
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+}
+
+AV1HighbdJntConvolve2DTest::~AV1HighbdJntConvolve2DTest() {}
+void AV1HighbdJntConvolve2DTest::SetUp() {
+ rnd_.Reset(ACMRandom::DeterministicSeed());
+}
+
+void AV1HighbdJntConvolve2DTest::TearDown() { libaom_test::ClearSystemState(); }
+
+void AV1HighbdJntConvolve2DTest::RunSpeedTest(
+ highbd_convolve_2d_func test_impl) {
+ const int w = kMaxSize, h = kMaxSize;
+ const int bd = GET_PARAM(0);
+ const int block_idx = GET_PARAM(4);
+ int hfilter, vfilter, subx, suby;
+ uint16_t input[kMaxSize * kMaxSize];
+ DECLARE_ALIGNED(32, CONV_BUF_TYPE, output[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, uint16_t, output16[MAX_SB_SQUARE]);
+
+ for (int i = 0; i < h; ++i)
+ for (int j = 0; j < w; ++j)
+ input[i * w + j] = rnd_.Rand16() & ((1 << bd) - 1);
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) output[i] = rnd_.Rand16();
+ hfilter = EIGHTTAP_REGULAR;
+ vfilter = EIGHTTAP_REGULAR;
+ int do_average = 0;
+ const int out_w = block_size_wide[block_idx];
+ const int out_h = block_size_high[block_idx];
+
+ const InterpFilterParams *filter_params_x =
+ av1_get_interp_filter_params_with_block_size((InterpFilter)hfilter,
+ out_w);
+ const InterpFilterParams *filter_params_y =
+ av1_get_interp_filter_params_with_block_size((InterpFilter)vfilter,
+ out_h);
+
+ ConvolveParams conv_params =
+ get_conv_params_no_round(do_average, 0, output, MAX_SB_SIZE, 1, bd);
+
+ // Test special case where jnt_comp_avg is not used
+ conv_params.use_jnt_comp_avg = 0;
+
+ subx = 0;
+ suby = 0;
+ // Choose random locations within the source block
+ const int offset_r = 3;
+ const int offset_c = 3;
+
+ const int num_loops = 1000000000 / (out_w + out_h);
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+ for (int i = 0; i < num_loops; ++i)
+ test_impl(input + offset_r * w + offset_c, w, output16, MAX_SB_SIZE, out_w,
+ out_h, filter_params_x, filter_params_y, subx, suby, &conv_params,
+ bd);
+
+ aom_usec_timer_mark(&timer);
+ const int elapsed_time = static_cast<int>(aom_usec_timer_elapsed(&timer));
+ printf("convolve %3dx%-3d: %7.2f us\n", out_w, out_h,
+ 1000.0 * elapsed_time / num_loops);
+}
+
+void AV1HighbdJntConvolve2DTest::RunCheckOutput(
+ highbd_convolve_2d_func test_impl) {
+ const int w = kMaxSize, h = kMaxSize;
+ const int bd = GET_PARAM(0);
+ const int has_subx = GET_PARAM(2);
+ const int has_suby = GET_PARAM(3);
+ const int block_idx = GET_PARAM(4);
+ int hfilter, vfilter, subx, suby;
+ uint16_t input[kMaxSize * kMaxSize];
+ DECLARE_ALIGNED(32, CONV_BUF_TYPE, output1[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, CONV_BUF_TYPE, output2[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, uint16_t, output16_1[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, uint16_t, output16_2[MAX_SB_SQUARE]);
+
+ for (int i = 0; i < h; ++i)
+ for (int j = 0; j < w; ++j)
+ input[i * w + j] = rnd_.Rand16() & ((1 << bd) - 1);
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) {
+ output1[i] = output2[i] = rnd_.Rand16();
+ output16_1[i] = output16_2[i] = rnd_.Rand16();
+ }
+
+ const int out_w = block_size_wide[block_idx];
+ const int out_h = block_size_high[block_idx];
+ for (hfilter = EIGHTTAP_REGULAR; hfilter < INTERP_FILTERS_ALL; ++hfilter) {
+ for (vfilter = EIGHTTAP_REGULAR; vfilter < INTERP_FILTERS_ALL; ++vfilter) {
+ const InterpFilterParams *filter_params_x =
+ av1_get_interp_filter_params_with_block_size((InterpFilter)hfilter,
+ out_w);
+ const InterpFilterParams *filter_params_y =
+ av1_get_interp_filter_params_with_block_size((InterpFilter)vfilter,
+ out_h);
+ for (int do_average = 0; do_average <= 1; ++do_average) {
+ ConvolveParams conv_params1 = get_conv_params_no_round(
+ do_average, 0, output1, MAX_SB_SIZE, 1, bd);
+ ConvolveParams conv_params2 = get_conv_params_no_round(
+ do_average, 0, output2, MAX_SB_SIZE, 1, bd);
+
+ // Test special case where jnt_comp_avg is not used
+ conv_params1.use_jnt_comp_avg = 0;
+ conv_params2.use_jnt_comp_avg = 0;
+
+ const int subx_range = has_subx ? 16 : 1;
+ const int suby_range = has_suby ? 16 : 1;
+ for (subx = 0; subx < subx_range; ++subx) {
+ for (suby = 0; suby < suby_range; ++suby) {
+ // Choose random locations within the source block
+ const int offset_r = 3 + rnd_.PseudoUniform(h - out_h - 7);
+ const int offset_c = 3 + rnd_.PseudoUniform(w - out_w - 7);
+ av1_highbd_jnt_convolve_2d_c(input + offset_r * w + offset_c, w,
+ output16_1, MAX_SB_SIZE, out_w, out_h,
+ filter_params_x, filter_params_y, subx,
+ suby, &conv_params1, bd);
+ test_impl(input + offset_r * w + offset_c, w, output16_2,
+ MAX_SB_SIZE, out_w, out_h, filter_params_x,
+ filter_params_y, subx, suby, &conv_params2, bd);
+
+ for (int i = 0; i < out_h; ++i) {
+ for (int j = 0; j < out_w; ++j) {
+ int idx = i * MAX_SB_SIZE + j;
+ ASSERT_EQ(output1[idx], output2[idx])
+ << out_w << "x" << out_h << " Pixel mismatch at index "
+ << idx << " = (" << i << ", " << j
+ << "), sub pixel offset = (" << suby << ", " << subx << ")";
+ }
+ }
+
+ if (memcmp(output16_1, output16_2, sizeof(output16_1))) {
+ for (int i = 0; i < MAX_SB_SIZE; ++i) {
+ for (int j = 0; j < MAX_SB_SIZE; ++j) {
+ int idx = i * MAX_SB_SIZE + j;
+ ASSERT_EQ(output16_1[idx], output16_2[idx])
+ << out_w << "x" << out_h << " Pixel mismatch at index "
+ << idx << " = (" << i << ", " << j
+ << "), sub pixel offset = (" << suby << ", " << subx
+ << ")";
+ }
+ }
+ }
+ }
+ }
+
+ // Test different combination of fwd and bck offset weights
+ for (int k = 0; k < 2; ++k) {
+ for (int l = 0; l < 4; ++l) {
+ conv_params1.use_jnt_comp_avg = 1;
+ conv_params2.use_jnt_comp_avg = 1;
+ conv_params1.fwd_offset = quant_dist_lookup_table[k][l][0];
+ conv_params1.bck_offset = quant_dist_lookup_table[k][l][1];
+ conv_params2.fwd_offset = quant_dist_lookup_table[k][l][0];
+ conv_params2.bck_offset = quant_dist_lookup_table[k][l][1];
+
+ const int subx_range = has_subx ? 16 : 1;
+ const int suby_range = has_suby ? 16 : 1;
+ for (subx = 0; subx < subx_range; ++subx) {
+ for (suby = 0; suby < suby_range; ++suby) {
+ // Choose random locations within the source block
+ const int offset_r = 3 + rnd_.PseudoUniform(h - out_h - 7);
+ const int offset_c = 3 + rnd_.PseudoUniform(w - out_w - 7);
+ av1_highbd_jnt_convolve_2d_c(
+ input + offset_r * w + offset_c, w, output16_1, MAX_SB_SIZE,
+ out_w, out_h, filter_params_x, filter_params_y, subx, suby,
+ &conv_params1, bd);
+ test_impl(input + offset_r * w + offset_c, w, output16_2,
+ MAX_SB_SIZE, out_w, out_h, filter_params_x,
+ filter_params_y, subx, suby, &conv_params2, bd);
+
+ for (int i = 0; i < out_h; ++i) {
+ for (int j = 0; j < out_w; ++j) {
+ int idx = i * MAX_SB_SIZE + j;
+ ASSERT_EQ(output1[idx], output2[idx])
+ << out_w << "x" << out_h << " Pixel mismatch at index "
+ << idx << " = (" << i << ", " << j
+ << "), sub pixel offset = (" << suby << ", " << subx
+ << ")";
+ }
+ }
+
+ if (memcmp(output16_1, output16_2, sizeof(output16_1))) {
+ for (int i = 0; i < MAX_SB_SIZE; ++i) {
+ for (int j = 0; j < MAX_SB_SIZE; ++j) {
+ int idx = i * MAX_SB_SIZE + j;
+ ASSERT_EQ(output16_1[idx], output16_2[idx])
+ << out_w << "x" << out_h
+ << " Pixel mismatch at index " << idx << " = (" << i
+ << ", " << j << "), sub pixel offset = (" << suby
+ << ", " << subx << ")";
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+}
+} // namespace AV1HighbdConvolve2D
+} // namespace libaom_test
diff --git a/third_party/aom/test/av1_convolve_2d_test_util.h b/third_party/aom/test/av1_convolve_2d_test_util.h
new file mode 100644
index 0000000000..e0eb584108
--- /dev/null
+++ b/third_party/aom/test/av1_convolve_2d_test_util.h
@@ -0,0 +1,117 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#ifndef AOM_TEST_AV1_CONVOLVE_2D_TEST_UTIL_H_
+#define AOM_TEST_AV1_CONVOLVE_2D_TEST_UTIL_H_
+
+#include "config/av1_rtcd.h"
+#include "config/aom_dsp_rtcd.h"
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/acm_random.h"
+#include "test/util.h"
+
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+
+namespace libaom_test {
+
+namespace AV1Convolve2D {
+
+typedef void (*convolve_2d_func)(const uint8_t *src, int src_stride,
+ uint8_t *dst, int dst_stride, int w, int h,
+ const InterpFilterParams *filter_params_x,
+ const InterpFilterParams *filter_params_y,
+ const int subpel_x_q4, const int subpel_y_q4,
+ ConvolveParams *conv_params);
+
+typedef ::testing::tuple<convolve_2d_func, int, int, BLOCK_SIZE>
+ Convolve2DParam;
+
+::testing::internal::ParamGenerator<Convolve2DParam> BuildParams(
+ convolve_2d_func filter, int subx_exist, int suby_exist);
+
+class AV1Convolve2DSrTest : public ::testing::TestWithParam<Convolve2DParam> {
+ public:
+ virtual ~AV1Convolve2DSrTest();
+ virtual void SetUp();
+
+ virtual void TearDown();
+
+ protected:
+ void RunCheckOutput(convolve_2d_func test_impl);
+ void RunSpeedTest(convolve_2d_func test_impl);
+
+ libaom_test::ACMRandom rnd_;
+};
+
+class AV1JntConvolve2DTest : public ::testing::TestWithParam<Convolve2DParam> {
+ public:
+ virtual ~AV1JntConvolve2DTest();
+ virtual void SetUp();
+
+ virtual void TearDown();
+
+ protected:
+ void RunCheckOutput(convolve_2d_func test_impl);
+ void RunSpeedTest(convolve_2d_func test_impl);
+
+ libaom_test::ACMRandom rnd_;
+};
+} // namespace AV1Convolve2D
+
+namespace AV1HighbdConvolve2D {
+typedef void (*highbd_convolve_2d_func)(
+ const uint16_t *src, int src_stride, uint16_t *dst, int dst_stride, int w,
+ int h, const InterpFilterParams *filter_params_x,
+ const InterpFilterParams *filter_params_y, const int subpel_x_q4,
+ const int subpel_y_q4, ConvolveParams *conv_params, int bd);
+
+typedef ::testing::tuple<int, highbd_convolve_2d_func, int, int, BLOCK_SIZE>
+ HighbdConvolve2DParam;
+
+::testing::internal::ParamGenerator<HighbdConvolve2DParam> BuildParams(
+ highbd_convolve_2d_func filter, int subx_exist, int suby_exist);
+
+class AV1HighbdConvolve2DSrTest
+ : public ::testing::TestWithParam<HighbdConvolve2DParam> {
+ public:
+ virtual ~AV1HighbdConvolve2DSrTest();
+ virtual void SetUp();
+
+ virtual void TearDown();
+
+ protected:
+ void RunCheckOutput(highbd_convolve_2d_func test_impl);
+ void RunSpeedTest(highbd_convolve_2d_func test_impl);
+
+ libaom_test::ACMRandom rnd_;
+};
+
+class AV1HighbdJntConvolve2DTest
+ : public ::testing::TestWithParam<HighbdConvolve2DParam> {
+ public:
+ virtual ~AV1HighbdJntConvolve2DTest();
+ virtual void SetUp();
+
+ virtual void TearDown();
+
+ protected:
+ void RunCheckOutput(highbd_convolve_2d_func test_impl);
+ void RunSpeedTest(highbd_convolve_2d_func test_impl);
+
+ libaom_test::ACMRandom rnd_;
+};
+} // namespace AV1HighbdConvolve2D
+
+} // namespace libaom_test
+
+#endif // AOM_TEST_AV1_CONVOLVE_2D_TEST_UTIL_H_
diff --git a/third_party/aom/test/av1_convolve_scale_test.cc b/third_party/aom/test/av1_convolve_scale_test.cc
new file mode 100644
index 0000000000..3b1698eeb4
--- /dev/null
+++ b/third_party/aom/test/av1_convolve_scale_test.cc
@@ -0,0 +1,529 @@
+/*
+ * Copyright (c) 2017, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <vector>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/av1_rtcd.h"
+
+#include "aom_ports/aom_timer.h"
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "test/util.h"
+
+#include "av1/common/common_data.h"
+
+namespace {
+const int kTestIters = 10;
+const int kPerfIters = 1000;
+
+const int kVPad = 32;
+const int kHPad = 32;
+const int kXStepQn = 16;
+const int kYStepQn = 20;
+
+using ::testing::make_tuple;
+using ::testing::tuple;
+using libaom_test::ACMRandom;
+
+enum NTaps { EIGHT_TAP, TEN_TAP, TWELVE_TAP };
+int NTapsToInt(NTaps ntaps) { return 8 + static_cast<int>(ntaps) * 2; }
+
+// A 16-bit filter with a configurable number of taps.
+class TestFilter {
+ public:
+ void set(NTaps ntaps, bool backwards);
+
+ InterpFilterParams params_;
+
+ private:
+ std::vector<int16_t> coeffs_;
+};
+
+void TestFilter::set(NTaps ntaps, bool backwards) {
+ const int n = NTapsToInt(ntaps);
+ assert(n >= 8 && n <= 12);
+
+ // The filter has n * SUBPEL_SHIFTS proper elements and an extra 8 bogus
+ // elements at the end so that convolutions can read off the end safely.
+ coeffs_.resize(n * SUBPEL_SHIFTS + 8);
+
+ // The coefficients are pretty much arbitrary, but convolutions shouldn't
+ // over or underflow. For the first filter (subpels = 0), we use an
+ // increasing or decreasing ramp (depending on the backwards parameter). We
+ // don't want any zero coefficients, so we make it have an x-intercept at -1
+ // or n. To ensure absence of under/overflow, we normalise the area under the
+ // ramp to be I = 1 << FILTER_BITS (so that convolving a constant function
+ // gives the identity).
+ //
+ // When increasing, the function has the form:
+ //
+ // f(x) = A * (x + 1)
+ //
+ // Summing and rearranging for A gives A = 2 * I / (n * (n + 1)). If the
+ // filter is reversed, we have the same A but with formula
+ //
+ // g(x) = A * (n - x)
+ const int I = 1 << FILTER_BITS;
+ const float A = 2.f * I / (n * (n + 1.f));
+ for (int i = 0; i < n; ++i) {
+ coeffs_[i] = static_cast<int16_t>(A * (backwards ? (n - i) : (i + 1)));
+ }
+
+ // For the other filters, make them slightly different by swapping two
+ // columns. Filter k will have the columns (k % n) and (7 * k) % n swapped.
+ const size_t filter_size = sizeof(coeffs_[0] * n);
+ int16_t *const filter0 = &coeffs_[0];
+ for (int k = 1; k < SUBPEL_SHIFTS; ++k) {
+ int16_t *filterk = &coeffs_[k * n];
+ memcpy(filterk, filter0, filter_size);
+
+ const int idx0 = k % n;
+ const int idx1 = (7 * k) % n;
+
+ const int16_t tmp = filterk[idx0];
+ filterk[idx0] = filterk[idx1];
+ filterk[idx1] = tmp;
+ }
+
+ // Finally, write some rubbish at the end to make sure we don't use it.
+ for (int i = 0; i < 8; ++i) coeffs_[n * SUBPEL_SHIFTS + i] = 123 + i;
+
+ // Fill in params
+ params_.filter_ptr = &coeffs_[0];
+ params_.taps = n;
+ // These are ignored by the functions being tested. Set them to whatever.
+ params_.subpel_shifts = SUBPEL_SHIFTS;
+ params_.interp_filter = EIGHTTAP_REGULAR;
+}
+
+template <typename SrcPixel>
+class TestImage {
+ public:
+ TestImage(int w, int h, int bd) : w_(w), h_(h), bd_(bd) {
+ assert(bd < 16);
+ assert(bd <= 8 * static_cast<int>(sizeof(SrcPixel)));
+
+ // Pad width by 2*kHPad and then round up to the next multiple of 16
+ // to get src_stride_. Add another 16 for dst_stride_ (to make sure
+ // something goes wrong if we use the wrong one)
+ src_stride_ = (w_ + 2 * kHPad + 15) & ~15;
+ dst_stride_ = src_stride_ + 16;
+
+ // Allocate image data
+ src_data_.resize(2 * src_block_size());
+ dst_data_.resize(2 * dst_block_size());
+ dst_16_data_.resize(2 * dst_block_size());
+ }
+
+ void Initialize(ACMRandom *rnd);
+ void Check() const;
+
+ int src_stride() const { return src_stride_; }
+ int dst_stride() const { return dst_stride_; }
+
+ int src_block_size() const { return (h_ + 2 * kVPad) * src_stride(); }
+ int dst_block_size() const { return (h_ + 2 * kVPad) * dst_stride(); }
+
+ const SrcPixel *GetSrcData(bool ref, bool borders) const {
+ const SrcPixel *block = &src_data_[ref ? 0 : src_block_size()];
+ return borders ? block : block + kHPad + src_stride_ * kVPad;
+ }
+
+ SrcPixel *GetDstData(bool ref, bool borders) {
+ SrcPixel *block = &dst_data_[ref ? 0 : dst_block_size()];
+ return borders ? block : block + kHPad + dst_stride_ * kVPad;
+ }
+
+ CONV_BUF_TYPE *GetDst16Data(bool ref, bool borders) {
+ CONV_BUF_TYPE *block = &dst_16_data_[ref ? 0 : dst_block_size()];
+ return borders ? block : block + kHPad + dst_stride_ * kVPad;
+ }
+
+ private:
+ int w_, h_, bd_;
+ int src_stride_, dst_stride_;
+
+ std::vector<SrcPixel> src_data_;
+ std::vector<SrcPixel> dst_data_;
+ std::vector<CONV_BUF_TYPE> dst_16_data_;
+};
+
+template <typename Pixel>
+void FillEdge(ACMRandom *rnd, int num_pixels, int bd, bool trash, Pixel *data) {
+ if (!trash) {
+ memset(data, 0, sizeof(*data) * num_pixels);
+ return;
+ }
+ const Pixel mask = (1 << bd) - 1;
+ for (int i = 0; i < num_pixels; ++i) data[i] = rnd->Rand16() & mask;
+}
+
+template <typename Pixel>
+void PrepBuffers(ACMRandom *rnd, int w, int h, int stride, int bd,
+ bool trash_edges, Pixel *data) {
+ assert(rnd);
+ const Pixel mask = (1 << bd) - 1;
+
+ // Fill in the first buffer with random data
+ // Top border
+ FillEdge(rnd, stride * kVPad, bd, trash_edges, data);
+ for (int r = 0; r < h; ++r) {
+ Pixel *row_data = data + (kVPad + r) * stride;
+ // Left border, contents, right border
+ FillEdge(rnd, kHPad, bd, trash_edges, row_data);
+ for (int c = 0; c < w; ++c) row_data[kHPad + c] = rnd->Rand16() & mask;
+ FillEdge(rnd, kHPad, bd, trash_edges, row_data + kHPad + w);
+ }
+ // Bottom border
+ FillEdge(rnd, stride * kVPad, bd, trash_edges, data + stride * (kVPad + h));
+
+ const int bpp = sizeof(*data);
+ const int block_elts = stride * (h + 2 * kVPad);
+ const int block_size = bpp * block_elts;
+
+ // Now copy that to the second buffer
+ memcpy(data + block_elts, data, block_size);
+}
+
+template <typename SrcPixel>
+void TestImage<SrcPixel>::Initialize(ACMRandom *rnd) {
+ PrepBuffers(rnd, w_, h_, src_stride_, bd_, false, &src_data_[0]);
+ PrepBuffers(rnd, w_, h_, dst_stride_, bd_, true, &dst_data_[0]);
+ PrepBuffers(rnd, w_, h_, dst_stride_, bd_, true, &dst_16_data_[0]);
+}
+
+template <typename SrcPixel>
+void TestImage<SrcPixel>::Check() const {
+ // If memcmp returns 0, there's nothing to do.
+ const int num_pixels = dst_block_size();
+ const SrcPixel *ref_dst = &dst_data_[0];
+ const SrcPixel *tst_dst = &dst_data_[num_pixels];
+
+ const CONV_BUF_TYPE *ref_16_dst = &dst_16_data_[0];
+ const CONV_BUF_TYPE *tst_16_dst = &dst_16_data_[num_pixels];
+
+ if (0 == memcmp(ref_dst, tst_dst, sizeof(*ref_dst) * num_pixels)) {
+ if (0 == memcmp(ref_16_dst, tst_16_dst, sizeof(*ref_16_dst) * num_pixels))
+ return;
+ }
+ // Otherwise, iterate through the buffer looking for differences (including
+ // the edges)
+ const int stride = dst_stride_;
+ for (int r = 0; r < h_ + 2 * kVPad; ++r) {
+ for (int c = 0; c < w_ + 2 * kHPad; ++c) {
+ const int32_t ref_value = ref_dst[r * stride + c];
+ const int32_t tst_value = tst_dst[r * stride + c];
+
+ EXPECT_EQ(tst_value, ref_value)
+ << "Error at row: " << (r - kVPad) << ", col: " << (c - kHPad);
+ }
+ }
+
+ for (int r = 0; r < h_ + 2 * kVPad; ++r) {
+ for (int c = 0; c < w_ + 2 * kHPad; ++c) {
+ const int32_t ref_value = ref_16_dst[r * stride + c];
+ const int32_t tst_value = tst_16_dst[r * stride + c];
+
+ EXPECT_EQ(tst_value, ref_value)
+ << "Error in 16 bit buffer "
+ << "Error at row: " << (r - kVPad) << ", col: " << (c - kHPad);
+ }
+ }
+}
+
+typedef tuple<int, int> BlockDimension;
+
+struct BaseParams {
+ BaseParams(BlockDimension dims, NTaps ntaps_x, NTaps ntaps_y, bool avg)
+ : dims(dims), ntaps_x(ntaps_x), ntaps_y(ntaps_y), avg(avg) {}
+
+ BlockDimension dims;
+ NTaps ntaps_x, ntaps_y;
+ bool avg;
+};
+
+template <typename SrcPixel>
+class ConvolveScaleTestBase : public ::testing::Test {
+ public:
+ ConvolveScaleTestBase() : image_(NULL) {}
+ virtual ~ConvolveScaleTestBase() { delete image_; }
+ virtual void TearDown() { libaom_test::ClearSystemState(); }
+
+ // Implemented by subclasses (SetUp depends on the parameters passed
+ // in and RunOne depends on the function to be tested. These can't
+ // be templated for low/high bit depths because they have different
+ // numbers of parameters)
+ virtual void SetUp() = 0;
+ virtual void RunOne(bool ref) = 0;
+
+ protected:
+ void SetParams(const BaseParams &params, int bd) {
+ width_ = ::testing::get<0>(params.dims);
+ height_ = ::testing::get<1>(params.dims);
+ ntaps_x_ = params.ntaps_x;
+ ntaps_y_ = params.ntaps_y;
+ bd_ = bd;
+ avg_ = params.avg;
+
+ filter_x_.set(ntaps_x_, false);
+ filter_y_.set(ntaps_y_, true);
+ convolve_params_ =
+ get_conv_params_no_round(avg_ != false, 0, NULL, 0, 1, bd);
+
+ delete image_;
+ image_ = new TestImage<SrcPixel>(width_, height_, bd_);
+ }
+
+ void SetConvParamOffset(int i, int j, int is_compound, int do_average,
+ int use_jnt_comp_avg) {
+ if (i == -1 && j == -1) {
+ convolve_params_.use_jnt_comp_avg = use_jnt_comp_avg;
+ convolve_params_.is_compound = is_compound;
+ convolve_params_.do_average = do_average;
+ } else {
+ convolve_params_.use_jnt_comp_avg = use_jnt_comp_avg;
+ convolve_params_.fwd_offset = quant_dist_lookup_table[i][j][0];
+ convolve_params_.bck_offset = quant_dist_lookup_table[i][j][1];
+ convolve_params_.is_compound = is_compound;
+ convolve_params_.do_average = do_average;
+ }
+ }
+
+ void Run() {
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ for (int i = 0; i < kTestIters; ++i) {
+ int is_compound = 0;
+ SetConvParamOffset(-1, -1, is_compound, 0, 0);
+ Prep(&rnd);
+ RunOne(true);
+ RunOne(false);
+ image_->Check();
+
+ is_compound = 1;
+ for (int do_average = 0; do_average < 2; do_average++) {
+ for (int use_jnt_comp_avg = 0; use_jnt_comp_avg < 2;
+ use_jnt_comp_avg++) {
+ for (int j = 0; j < 2; ++j) {
+ for (int k = 0; k < 4; ++k) {
+ SetConvParamOffset(j, k, is_compound, do_average,
+ use_jnt_comp_avg);
+ Prep(&rnd);
+ RunOne(true);
+ RunOne(false);
+ image_->Check();
+ }
+ }
+ }
+ }
+ }
+ }
+
+ void SpeedTest() {
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ Prep(&rnd);
+
+ aom_usec_timer ref_timer;
+ aom_usec_timer_start(&ref_timer);
+ for (int i = 0; i < kPerfIters; ++i) RunOne(true);
+ aom_usec_timer_mark(&ref_timer);
+ const int64_t ref_time = aom_usec_timer_elapsed(&ref_timer);
+
+ aom_usec_timer tst_timer;
+ aom_usec_timer_start(&tst_timer);
+ for (int i = 0; i < kPerfIters; ++i) RunOne(false);
+ aom_usec_timer_mark(&tst_timer);
+ const int64_t tst_time = aom_usec_timer_elapsed(&tst_timer);
+
+ std::cout << "[ ] C time = " << ref_time / 1000
+ << " ms, SIMD time = " << tst_time / 1000 << " ms\n";
+
+ EXPECT_GT(ref_time, tst_time)
+ << "Error: CDEFSpeedTest, SIMD slower than C.\n"
+ << "C time: " << ref_time << " us\n"
+ << "SIMD time: " << tst_time << " us\n";
+ }
+
+ static int RandomSubpel(ACMRandom *rnd) {
+ const uint8_t subpel_mode = rnd->Rand8();
+ if ((subpel_mode & 7) == 0) {
+ return 0;
+ } else if ((subpel_mode & 7) == 1) {
+ return SCALE_SUBPEL_SHIFTS - 1;
+ } else {
+ return 1 + rnd->PseudoUniform(SCALE_SUBPEL_SHIFTS - 2);
+ }
+ }
+
+ void Prep(ACMRandom *rnd) {
+ assert(rnd);
+
+ // Choose subpel_x_ and subpel_y_. They should be less than
+ // SCALE_SUBPEL_SHIFTS; we also want to add extra weight to "interesting"
+ // values: 0 and SCALE_SUBPEL_SHIFTS - 1
+ subpel_x_ = RandomSubpel(rnd);
+ subpel_y_ = RandomSubpel(rnd);
+
+ image_->Initialize(rnd);
+ }
+
+ int width_, height_, bd_;
+ NTaps ntaps_x_, ntaps_y_;
+ bool avg_;
+ int subpel_x_, subpel_y_;
+ TestFilter filter_x_, filter_y_;
+ TestImage<SrcPixel> *image_;
+ ConvolveParams convolve_params_;
+};
+
+typedef tuple<int, int> BlockDimension;
+
+typedef void (*LowbdConvolveFunc)(const uint8_t *src, int src_stride,
+ uint8_t *dst, int dst_stride, int w, int h,
+ const InterpFilterParams *filter_params_x,
+ const InterpFilterParams *filter_params_y,
+ const int subpel_x_qn, const int x_step_qn,
+ const int subpel_y_qn, const int y_step_qn,
+ ConvolveParams *conv_params);
+
+// Test parameter list:
+// <tst_fun, dims, ntaps_x, ntaps_y, avg>
+typedef tuple<LowbdConvolveFunc, BlockDimension, NTaps, NTaps, bool>
+ LowBDParams;
+
+class LowBDConvolveScaleTest
+ : public ConvolveScaleTestBase<uint8_t>,
+ public ::testing::WithParamInterface<LowBDParams> {
+ public:
+ virtual ~LowBDConvolveScaleTest() {}
+
+ void SetUp() {
+ tst_fun_ = GET_PARAM(0);
+
+ const BlockDimension &block = GET_PARAM(1);
+ const NTaps ntaps_x = GET_PARAM(2);
+ const NTaps ntaps_y = GET_PARAM(3);
+ const int bd = 8;
+ const bool avg = GET_PARAM(4);
+
+ SetParams(BaseParams(block, ntaps_x, ntaps_y, avg), bd);
+ }
+
+ void RunOne(bool ref) {
+ const uint8_t *src = image_->GetSrcData(ref, false);
+ uint8_t *dst = image_->GetDstData(ref, false);
+ convolve_params_.dst = image_->GetDst16Data(ref, false);
+ const int src_stride = image_->src_stride();
+ const int dst_stride = image_->dst_stride();
+ if (ref) {
+ av1_convolve_2d_scale_c(src, src_stride, dst, dst_stride, width_, height_,
+ &filter_x_.params_, &filter_y_.params_, subpel_x_,
+ kXStepQn, subpel_y_, kYStepQn, &convolve_params_);
+ } else {
+ tst_fun_(src, src_stride, dst, dst_stride, width_, height_,
+ &filter_x_.params_, &filter_y_.params_, subpel_x_, kXStepQn,
+ subpel_y_, kYStepQn, &convolve_params_);
+ }
+ }
+
+ private:
+ LowbdConvolveFunc tst_fun_;
+};
+
+const BlockDimension kBlockDim[] = {
+ make_tuple(2, 2), make_tuple(2, 4), make_tuple(4, 4),
+ make_tuple(4, 8), make_tuple(8, 4), make_tuple(8, 8),
+ make_tuple(8, 16), make_tuple(16, 8), make_tuple(16, 16),
+ make_tuple(16, 32), make_tuple(32, 16), make_tuple(32, 32),
+ make_tuple(32, 64), make_tuple(64, 32), make_tuple(64, 64),
+ make_tuple(64, 128), make_tuple(128, 64), make_tuple(128, 128),
+};
+
+const NTaps kNTaps[] = { EIGHT_TAP };
+
+TEST_P(LowBDConvolveScaleTest, Check) { Run(); }
+TEST_P(LowBDConvolveScaleTest, DISABLED_Speed) { SpeedTest(); }
+
+INSTANTIATE_TEST_CASE_P(
+ SSE4_1, LowBDConvolveScaleTest,
+ ::testing::Combine(::testing::Values(av1_convolve_2d_scale_sse4_1),
+ ::testing::ValuesIn(kBlockDim),
+ ::testing::ValuesIn(kNTaps), ::testing::ValuesIn(kNTaps),
+ ::testing::Bool()));
+
+typedef void (*HighbdConvolveFunc)(const uint16_t *src, int src_stride,
+ uint16_t *dst, int dst_stride, int w, int h,
+ const InterpFilterParams *filter_params_x,
+ const InterpFilterParams *filter_params_y,
+ const int subpel_x_qn, const int x_step_qn,
+ const int subpel_y_qn, const int y_step_qn,
+ ConvolveParams *conv_params, int bd);
+
+// Test parameter list:
+// <tst_fun, dims, ntaps_x, ntaps_y, avg, bd>
+typedef tuple<HighbdConvolveFunc, BlockDimension, NTaps, NTaps, bool, int>
+ HighBDParams;
+
+class HighBDConvolveScaleTest
+ : public ConvolveScaleTestBase<uint16_t>,
+ public ::testing::WithParamInterface<HighBDParams> {
+ public:
+ virtual ~HighBDConvolveScaleTest() {}
+
+ void SetUp() {
+ tst_fun_ = GET_PARAM(0);
+
+ const BlockDimension &block = GET_PARAM(1);
+ const NTaps ntaps_x = GET_PARAM(2);
+ const NTaps ntaps_y = GET_PARAM(3);
+ const bool avg = GET_PARAM(4);
+ const int bd = GET_PARAM(5);
+
+ SetParams(BaseParams(block, ntaps_x, ntaps_y, avg), bd);
+ }
+
+ void RunOne(bool ref) {
+ const uint16_t *src = image_->GetSrcData(ref, false);
+ uint16_t *dst = image_->GetDstData(ref, false);
+ convolve_params_.dst = image_->GetDst16Data(ref, false);
+ const int src_stride = image_->src_stride();
+ const int dst_stride = image_->dst_stride();
+
+ if (ref) {
+ av1_highbd_convolve_2d_scale_c(
+ src, src_stride, dst, dst_stride, width_, height_, &filter_x_.params_,
+ &filter_y_.params_, subpel_x_, kXStepQn, subpel_y_, kYStepQn,
+ &convolve_params_, bd_);
+ } else {
+ tst_fun_(src, src_stride, dst, dst_stride, width_, height_,
+ &filter_x_.params_, &filter_y_.params_, subpel_x_, kXStepQn,
+ subpel_y_, kYStepQn, &convolve_params_, bd_);
+ }
+ }
+
+ private:
+ HighbdConvolveFunc tst_fun_;
+};
+
+const int kBDs[] = { 8, 10, 12 };
+
+TEST_P(HighBDConvolveScaleTest, Check) { Run(); }
+TEST_P(HighBDConvolveScaleTest, DISABLED_Speed) { SpeedTest(); }
+
+INSTANTIATE_TEST_CASE_P(
+ SSE4_1, HighBDConvolveScaleTest,
+ ::testing::Combine(::testing::Values(av1_highbd_convolve_2d_scale_sse4_1),
+ ::testing::ValuesIn(kBlockDim),
+ ::testing::ValuesIn(kNTaps), ::testing::ValuesIn(kNTaps),
+ ::testing::Bool(), ::testing::ValuesIn(kBDs)));
+} // namespace
diff --git a/third_party/aom/test/av1_encoder_parms_get_to_decoder.cc b/third_party/aom/test/av1_encoder_parms_get_to_decoder.cc
new file mode 100644
index 0000000000..e8470e5d50
--- /dev/null
+++ b/third_party/aom/test/av1_encoder_parms_get_to_decoder.cc
@@ -0,0 +1,158 @@
+/*
+ * Copyright (c) 2018, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "test/codec_factory.h"
+#include "test/encode_test_driver.h"
+#include "test/util.h"
+#include "test/y4m_video_source.h"
+
+#include "aom/aom_decoder.h"
+#include "av1/decoder/decoder.h"
+
+namespace {
+
+const int kMaxPsnr = 100;
+
+struct ParamPassingTestVideo {
+ const char *name;
+ uint32_t width;
+ uint32_t height;
+ uint32_t bitrate;
+ int frames;
+};
+
+const ParamPassingTestVideo kAV1ParamPassingTestVector = {
+ "niklas_1280_720_30.y4m", 1280, 720, 600, 3
+};
+
+struct EncodeParameters {
+ int32_t lossless;
+ aom_color_primaries_t color_primaries;
+ aom_transfer_characteristics_t transfer_characteristics;
+ aom_matrix_coefficients_t matrix_coefficients;
+ aom_color_range_t color_range;
+ aom_chroma_sample_position_t chroma_sample_position;
+ int32_t render_size[2];
+};
+
+const EncodeParameters kAV1EncodeParameterSet[] = {
+ { 1,
+ AOM_CICP_CP_BT_709,
+ AOM_CICP_TC_BT_709,
+ AOM_CICP_MC_BT_709,
+ AOM_CR_STUDIO_RANGE,
+ AOM_CSP_UNKNOWN,
+ { 0, 0 } },
+ { 0,
+ AOM_CICP_CP_BT_470_M,
+ AOM_CICP_TC_BT_470_M,
+ AOM_CICP_MC_BT_470_B_G,
+ AOM_CR_FULL_RANGE,
+ AOM_CSP_VERTICAL,
+ { 0, 0 } },
+ { 1,
+ AOM_CICP_CP_BT_601,
+ AOM_CICP_TC_BT_601,
+ AOM_CICP_MC_BT_601,
+ AOM_CR_STUDIO_RANGE,
+ AOM_CSP_COLOCATED,
+ { 0, 0 } },
+ { 0,
+ AOM_CICP_CP_BT_2020,
+ AOM_CICP_TC_BT_2020_10_BIT,
+ AOM_CICP_MC_BT_2020_NCL,
+ AOM_CR_FULL_RANGE,
+ AOM_CSP_RESERVED,
+ { 640, 480 } },
+};
+
+class AVxEncoderParmsGetToDecoder
+ : public ::libaom_test::EncoderTest,
+ public ::libaom_test::CodecTestWithParam<EncodeParameters> {
+ protected:
+ AVxEncoderParmsGetToDecoder()
+ : EncoderTest(GET_PARAM(0)), encode_parms(GET_PARAM(1)) {}
+
+ virtual ~AVxEncoderParmsGetToDecoder() {}
+
+ virtual void SetUp() {
+ InitializeConfig();
+ SetMode(::libaom_test::kTwoPassGood);
+ cfg_.g_lag_in_frames = 25;
+ test_video_ = kAV1ParamPassingTestVector;
+ cfg_.rc_target_bitrate = test_video_.bitrate;
+ }
+
+ virtual void PreEncodeFrameHook(::libaom_test::VideoSource *video,
+ ::libaom_test::Encoder *encoder) {
+ if (video->frame() == 1) {
+ encoder->Control(AV1E_SET_COLOR_PRIMARIES, encode_parms.color_primaries);
+ encoder->Control(AV1E_SET_TRANSFER_CHARACTERISTICS,
+ encode_parms.transfer_characteristics);
+ encoder->Control(AV1E_SET_MATRIX_COEFFICIENTS,
+ encode_parms.matrix_coefficients);
+ encoder->Control(AV1E_SET_COLOR_RANGE, encode_parms.color_range);
+ encoder->Control(AV1E_SET_CHROMA_SAMPLE_POSITION,
+ encode_parms.chroma_sample_position);
+ encoder->Control(AV1E_SET_LOSSLESS, encode_parms.lossless);
+ if (encode_parms.render_size[0] > 0 && encode_parms.render_size[1] > 0) {
+ encoder->Control(AV1E_SET_RENDER_SIZE, encode_parms.render_size);
+ }
+ }
+ }
+
+ virtual void DecompressedFrameHook(const aom_image_t &img,
+ aom_codec_pts_t pts) {
+ (void)pts;
+ if (encode_parms.render_size[0] > 0 && encode_parms.render_size[1] > 0) {
+ EXPECT_EQ(encode_parms.render_size[0], (int)img.r_w);
+ EXPECT_EQ(encode_parms.render_size[1], (int)img.r_h);
+ }
+ EXPECT_EQ(encode_parms.color_primaries, img.cp);
+ EXPECT_EQ(encode_parms.transfer_characteristics, img.tc);
+ EXPECT_EQ(encode_parms.matrix_coefficients, img.mc);
+ EXPECT_EQ(encode_parms.color_range, img.range);
+ EXPECT_EQ(encode_parms.chroma_sample_position, img.csp);
+ }
+
+ virtual void PSNRPktHook(const aom_codec_cx_pkt_t *pkt) {
+ if (encode_parms.lossless) {
+ EXPECT_EQ(kMaxPsnr, pkt->data.psnr.psnr[0]);
+ }
+ }
+
+ virtual bool HandleDecodeResult(const aom_codec_err_t res_dec,
+ libaom_test::Decoder *decoder) {
+ EXPECT_EQ(AOM_CODEC_OK, res_dec) << decoder->DecodeError();
+ return AOM_CODEC_OK == res_dec;
+ }
+
+ ParamPassingTestVideo test_video_;
+
+ private:
+ EncodeParameters encode_parms;
+};
+
+TEST_P(AVxEncoderParmsGetToDecoder, BitstreamParms) {
+ init_flags_ = AOM_CODEC_USE_PSNR;
+
+ testing::internal::scoped_ptr<libaom_test::VideoSource> video(
+ new libaom_test::Y4mVideoSource(test_video_.name, 0, test_video_.frames));
+ ASSERT_TRUE(video.get() != NULL);
+
+ ASSERT_NO_FATAL_FAILURE(RunLoop(video.get()));
+}
+
+AV1_INSTANTIATE_TEST_CASE(AVxEncoderParmsGetToDecoder,
+ ::testing::ValuesIn(kAV1EncodeParameterSet));
+} // namespace
diff --git a/third_party/aom/test/av1_ext_tile_test.cc b/third_party/aom/test/av1_ext_tile_test.cc
new file mode 100644
index 0000000000..424d2f065f
--- /dev/null
+++ b/third_party/aom/test/av1_ext_tile_test.cc
@@ -0,0 +1,215 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <assert.h>
+#include <string>
+#include <vector>
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/codec_factory.h"
+#include "test/encode_test_driver.h"
+#include "test/i420_video_source.h"
+#include "test/md5_helper.h"
+#include "test/util.h"
+
+namespace {
+// The number of frames to be encoded/decoded
+const int kLimit = 8;
+// Skip 1 frame to check the frame decoding independency.
+const int kSkip = 5;
+const int kTileSize = 1;
+const int kTIleSizeInPixels = (kTileSize << 6);
+// Fake width and height so that they can be multiples of the tile size.
+const int kImgWidth = 704;
+const int kImgHeight = 576;
+
+// This test tests large scale tile coding case. Non-large-scale tile coding
+// is tested by the tile_independence test.
+class AV1ExtTileTest
+ : public ::libaom_test::CodecTestWith2Params<libaom_test::TestMode, int>,
+ public ::libaom_test::EncoderTest {
+ protected:
+ AV1ExtTileTest()
+ : EncoderTest(GET_PARAM(0)), encoding_mode_(GET_PARAM(1)),
+ set_cpu_used_(GET_PARAM(2)) {
+ init_flags_ = AOM_CODEC_USE_PSNR;
+ aom_codec_dec_cfg_t cfg = aom_codec_dec_cfg_t();
+ cfg.w = kImgWidth;
+ cfg.h = kImgHeight;
+ cfg.allow_lowbitdepth = 1;
+
+ decoder_ = codec_->CreateDecoder(cfg, 0);
+ decoder_->Control(AV1_SET_TILE_MODE, 1);
+ decoder_->Control(AV1D_EXT_TILE_DEBUG, 1);
+ decoder_->Control(AV1_SET_DECODE_TILE_ROW, -1);
+ decoder_->Control(AV1_SET_DECODE_TILE_COL, -1);
+
+ // Allocate buffer to store tile image.
+ aom_img_alloc(&tile_img_, AOM_IMG_FMT_I420, kImgWidth, kImgHeight, 32);
+
+ md5_.clear();
+ tile_md5_.clear();
+ }
+
+ virtual ~AV1ExtTileTest() {
+ aom_img_free(&tile_img_);
+ delete decoder_;
+ }
+
+ virtual void SetUp() {
+ InitializeConfig();
+ SetMode(encoding_mode_);
+
+ cfg_.g_lag_in_frames = 0;
+ cfg_.rc_end_usage = AOM_VBR;
+ cfg_.g_error_resilient = 1;
+
+ cfg_.rc_max_quantizer = 56;
+ cfg_.rc_min_quantizer = 0;
+ }
+
+ virtual void PreEncodeFrameHook(::libaom_test::VideoSource *video,
+ ::libaom_test::Encoder *encoder) {
+ if (video->frame() == 0) {
+ // Encode setting
+ encoder->Control(AOME_SET_CPUUSED, set_cpu_used_);
+ encoder->Control(AOME_SET_ENABLEAUTOALTREF, 0);
+ encoder->Control(AV1E_SET_FRAME_PARALLEL_DECODING, 1);
+
+ // TODO(yunqingwang): test single_tile_decoding = 0.
+ encoder->Control(AV1E_SET_SINGLE_TILE_DECODING, 1);
+ // Always use 64x64 max partition.
+ encoder->Control(AV1E_SET_SUPERBLOCK_SIZE, AOM_SUPERBLOCK_SIZE_64X64);
+ // Set tile_columns and tile_rows to MAX values, which guarantees the tile
+ // size of 64 x 64 pixels(i.e. 1 SB) for <= 4k resolution.
+ encoder->Control(AV1E_SET_TILE_COLUMNS, 6);
+ encoder->Control(AV1E_SET_TILE_ROWS, 6);
+ }
+
+ if (video->frame() == 1) {
+ frame_flags_ =
+ AOM_EFLAG_NO_UPD_LAST | AOM_EFLAG_NO_UPD_GF | AOM_EFLAG_NO_UPD_ARF;
+ }
+ }
+
+ virtual void DecompressedFrameHook(const aom_image_t &img,
+ aom_codec_pts_t pts) {
+ // Skip 1 already decoded frame to be consistent with the decoder in this
+ // test.
+ if (pts == (aom_codec_pts_t)kSkip) return;
+
+ // Calculate MD5 as the reference.
+ ::libaom_test::MD5 md5_res;
+ md5_res.Add(&img);
+ md5_.push_back(md5_res.Get());
+ }
+
+ virtual void FramePktHook(const aom_codec_cx_pkt_t *pkt) {
+ // Skip decoding 1 frame.
+ if (pkt->data.frame.pts == (aom_codec_pts_t)kSkip) return;
+
+ bool IsLastFrame = (pkt->data.frame.pts == (aom_codec_pts_t)(kLimit - 1));
+
+ // Decode the first (kLimit - 1) frames as whole frame, and decode the last
+ // frame in single tiles.
+ for (int r = 0; r < kImgHeight / kTIleSizeInPixels; ++r) {
+ for (int c = 0; c < kImgWidth / kTIleSizeInPixels; ++c) {
+ if (!IsLastFrame) {
+ decoder_->Control(AV1_SET_DECODE_TILE_ROW, -1);
+ decoder_->Control(AV1_SET_DECODE_TILE_COL, -1);
+ } else {
+ decoder_->Control(AV1_SET_DECODE_TILE_ROW, r);
+ decoder_->Control(AV1_SET_DECODE_TILE_COL, c);
+ }
+
+ const aom_codec_err_t res = decoder_->DecodeFrame(
+ reinterpret_cast<uint8_t *>(pkt->data.frame.buf),
+ pkt->data.frame.sz);
+ if (res != AOM_CODEC_OK) {
+ abort_ = true;
+ ASSERT_EQ(AOM_CODEC_OK, res);
+ }
+ const aom_image_t *img = decoder_->GetDxData().Next();
+
+ if (!IsLastFrame) {
+ if (img) {
+ ::libaom_test::MD5 md5_res;
+ md5_res.Add(img);
+ tile_md5_.push_back(md5_res.Get());
+ }
+ break;
+ }
+
+ const int kMaxMBPlane = 3;
+ for (int plane = 0; plane < kMaxMBPlane; ++plane) {
+ const int shift = (plane == 0) ? 0 : 1;
+ int tile_height = kTIleSizeInPixels >> shift;
+ int tile_width = kTIleSizeInPixels >> shift;
+
+ for (int tr = 0; tr < tile_height; ++tr) {
+ memcpy(tile_img_.planes[plane] +
+ tile_img_.stride[plane] * (r * tile_height + tr) +
+ c * tile_width,
+ img->planes[plane] + img->stride[plane] * tr, tile_width);
+ }
+ }
+ }
+
+ if (!IsLastFrame) break;
+ }
+
+ if (IsLastFrame) {
+ ::libaom_test::MD5 md5_res;
+ md5_res.Add(&tile_img_);
+ tile_md5_.push_back(md5_res.Get());
+ }
+ }
+
+ void TestRoundTrip() {
+ ::libaom_test::I420VideoSource video(
+ "hantro_collage_w352h288.yuv", kImgWidth, kImgHeight, 30, 1, 0, kLimit);
+ cfg_.rc_target_bitrate = 500;
+ cfg_.g_error_resilient = AOM_ERROR_RESILIENT_DEFAULT;
+ cfg_.large_scale_tile = 1;
+ cfg_.g_lag_in_frames = 0;
+ cfg_.g_threads = 1;
+
+ // Tile encoding
+ init_flags_ = AOM_CODEC_USE_PSNR;
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+
+ // Compare to check if two vectors are equal.
+ ASSERT_EQ(md5_, tile_md5_);
+ }
+
+ ::libaom_test::TestMode encoding_mode_;
+ int set_cpu_used_;
+ ::libaom_test::Decoder *decoder_;
+ aom_image_t tile_img_;
+ std::vector<std::string> md5_;
+ std::vector<std::string> tile_md5_;
+};
+
+TEST_P(AV1ExtTileTest, DecoderResultTest) { TestRoundTrip(); }
+
+AV1_INSTANTIATE_TEST_CASE(
+ // Now only test 2-pass mode.
+ AV1ExtTileTest, ::testing::Values(::libaom_test::kTwoPassGood),
+ ::testing::Range(1, 4));
+
+class AV1ExtTileTestLarge : public AV1ExtTileTest {};
+
+TEST_P(AV1ExtTileTestLarge, DecoderResultTest) { TestRoundTrip(); }
+
+AV1_INSTANTIATE_TEST_CASE(
+ // Now only test 2-pass mode.
+ AV1ExtTileTestLarge, ::testing::Values(::libaom_test::kTwoPassGood),
+ ::testing::Range(0, 1));
+} // namespace
diff --git a/third_party/aom/test/av1_fwd_txfm1d_test.cc b/third_party/aom/test/av1_fwd_txfm1d_test.cc
new file mode 100644
index 0000000000..49a6668793
--- /dev/null
+++ b/third_party/aom/test/av1_fwd_txfm1d_test.cc
@@ -0,0 +1,105 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "av1/encoder/av1_fwd_txfm1d.h"
+#include "test/av1_txfm_test.h"
+
+using libaom_test::ACMRandom;
+using libaom_test::TYPE_ADST;
+using libaom_test::TYPE_DCT;
+using libaom_test::TYPE_IDTX;
+using libaom_test::TYPE_TXFM;
+using libaom_test::input_base;
+using libaom_test::reference_hybrid_1d;
+
+namespace {
+const int txfm_type_num = 3;
+const TYPE_TXFM txfm_type_ls[txfm_type_num] = { TYPE_DCT, TYPE_ADST,
+ TYPE_IDTX };
+
+const int txfm_size_num = 5;
+
+const int txfm_size_ls[] = { 4, 8, 16, 32, 64 };
+
+const TxfmFunc fwd_txfm_func_ls[][txfm_type_num] = {
+ { av1_fdct4_new, av1_fadst4_new, av1_fidentity4_c },
+ { av1_fdct8_new, av1_fadst8_new, av1_fidentity8_c },
+ { av1_fdct16_new, av1_fadst16_new, av1_fidentity16_c },
+ { av1_fdct32_new, NULL, av1_fidentity32_c },
+ { av1_fdct64_new, NULL, NULL },
+};
+
+// the maximum stage number of fwd/inv 1d dct/adst txfm is 12
+const int8_t cos_bit = 14;
+const int8_t range_bit[12] = { 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20 };
+
+TEST(av1_fwd_txfm1d, round_shift) {
+ EXPECT_EQ(round_shift(7, 1), 4);
+ EXPECT_EQ(round_shift(-7, 1), -3);
+
+ EXPECT_EQ(round_shift(7, 2), 2);
+ EXPECT_EQ(round_shift(-7, 2), -2);
+
+ EXPECT_EQ(round_shift(8, 2), 2);
+ EXPECT_EQ(round_shift(-8, 2), -2);
+}
+
+TEST(av1_fwd_txfm1d, av1_cospi_arr_data) {
+ for (int i = 0; i < 7; i++) {
+ for (int j = 0; j < 64; j++) {
+ EXPECT_EQ(av1_cospi_arr_data[i][j],
+ (int32_t)round(cos(M_PI * j / 128) * (1 << (cos_bit_min + i))));
+ }
+ }
+}
+
+TEST(av1_fwd_txfm1d, accuracy) {
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ for (int si = 0; si < txfm_size_num; ++si) {
+ int txfm_size = txfm_size_ls[si];
+ int32_t *input = new int32_t[txfm_size];
+ int32_t *output = new int32_t[txfm_size];
+ double *ref_input = new double[txfm_size];
+ double *ref_output = new double[txfm_size];
+
+ for (int ti = 0; ti < txfm_type_num; ++ti) {
+ TYPE_TXFM txfm_type = txfm_type_ls[ti];
+ TxfmFunc fwd_txfm_func = fwd_txfm_func_ls[si][ti];
+ int max_error = 7;
+
+ const int count_test_block = 5000;
+ if (fwd_txfm_func != NULL) {
+ for (int ti = 0; ti < count_test_block; ++ti) {
+ for (int ni = 0; ni < txfm_size; ++ni) {
+ input[ni] = rnd.Rand16() % input_base - rnd.Rand16() % input_base;
+ ref_input[ni] = static_cast<double>(input[ni]);
+ }
+
+ fwd_txfm_func(input, output, cos_bit, range_bit);
+ reference_hybrid_1d(ref_input, ref_output, txfm_size, txfm_type);
+
+ for (int ni = 0; ni < txfm_size; ++ni) {
+ ASSERT_LE(
+ abs(output[ni] - static_cast<int32_t>(round(ref_output[ni]))),
+ max_error)
+ << "tx size = " << txfm_size << ", tx type = " << txfm_type;
+ }
+ }
+ }
+ }
+
+ delete[] input;
+ delete[] output;
+ delete[] ref_input;
+ delete[] ref_output;
+ }
+}
+} // namespace
diff --git a/third_party/aom/test/av1_fwd_txfm2d_test.cc b/third_party/aom/test/av1_fwd_txfm2d_test.cc
new file mode 100644
index 0000000000..75f20536b2
--- /dev/null
+++ b/third_party/aom/test/av1_fwd_txfm2d_test.cc
@@ -0,0 +1,511 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <math.h>
+#include <stdio.h>
+#include <stdlib.h>
+#include <vector>
+
+#include "config/av1_rtcd.h"
+
+#include "test/acm_random.h"
+#include "test/util.h"
+#include "test/av1_txfm_test.h"
+#include "av1/common/av1_txfm.h"
+#include "av1/encoder/hybrid_fwd_txfm.h"
+
+using libaom_test::ACMRandom;
+using libaom_test::TYPE_TXFM;
+using libaom_test::bd;
+using libaom_test::compute_avg_abs_error;
+using libaom_test::input_base;
+
+using std::vector;
+
+namespace {
+// tx_type_, tx_size_, max_error_, max_avg_error_
+typedef ::testing::tuple<TX_TYPE, TX_SIZE, double, double> AV1FwdTxfm2dParam;
+
+class AV1FwdTxfm2d : public ::testing::TestWithParam<AV1FwdTxfm2dParam> {
+ public:
+ virtual void SetUp() {
+ tx_type_ = GET_PARAM(0);
+ tx_size_ = GET_PARAM(1);
+ max_error_ = GET_PARAM(2);
+ max_avg_error_ = GET_PARAM(3);
+ count_ = 500;
+ TXFM_2D_FLIP_CFG fwd_txfm_flip_cfg;
+ av1_get_fwd_txfm_cfg(tx_type_, tx_size_, &fwd_txfm_flip_cfg);
+ amplify_factor_ = libaom_test::get_amplification_factor(tx_type_, tx_size_);
+ tx_width_ = tx_size_wide[fwd_txfm_flip_cfg.tx_size];
+ tx_height_ = tx_size_high[fwd_txfm_flip_cfg.tx_size];
+ ud_flip_ = fwd_txfm_flip_cfg.ud_flip;
+ lr_flip_ = fwd_txfm_flip_cfg.lr_flip;
+
+ fwd_txfm_ = libaom_test::fwd_txfm_func_ls[tx_size_];
+ txfm2d_size_ = tx_width_ * tx_height_;
+ input_ = reinterpret_cast<int16_t *>(
+ aom_memalign(16, sizeof(input_[0]) * txfm2d_size_));
+ output_ = reinterpret_cast<int32_t *>(
+ aom_memalign(16, sizeof(output_[0]) * txfm2d_size_));
+ ref_input_ = reinterpret_cast<double *>(
+ aom_memalign(16, sizeof(ref_input_[0]) * txfm2d_size_));
+ ref_output_ = reinterpret_cast<double *>(
+ aom_memalign(16, sizeof(ref_output_[0]) * txfm2d_size_));
+ }
+
+ void RunFwdAccuracyCheck() {
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ double avg_abs_error = 0;
+ for (int ci = 0; ci < count_; ci++) {
+ for (int ni = 0; ni < txfm2d_size_; ++ni) {
+ input_[ni] = rnd.Rand16() % input_base;
+ ref_input_[ni] = static_cast<double>(input_[ni]);
+ output_[ni] = 0;
+ ref_output_[ni] = 0;
+ }
+
+ fwd_txfm_(input_, output_, tx_width_, tx_type_, bd);
+
+ if (lr_flip_ && ud_flip_) {
+ libaom_test::fliplrud(ref_input_, tx_width_, tx_height_, tx_width_);
+ } else if (lr_flip_) {
+ libaom_test::fliplr(ref_input_, tx_width_, tx_height_, tx_width_);
+ } else if (ud_flip_) {
+ libaom_test::flipud(ref_input_, tx_width_, tx_height_, tx_width_);
+ }
+
+ libaom_test::reference_hybrid_2d(ref_input_, ref_output_, tx_type_,
+ tx_size_);
+
+ double actual_max_error = 0;
+ for (int ni = 0; ni < txfm2d_size_; ++ni) {
+ ref_output_[ni] = round(ref_output_[ni]);
+ const double this_error =
+ fabs(output_[ni] - ref_output_[ni]) / amplify_factor_;
+ actual_max_error = AOMMAX(actual_max_error, this_error);
+ }
+ EXPECT_GE(max_error_, actual_max_error)
+ << "tx_size = " << tx_size_ << ", tx_type = " << tx_type_;
+ if (actual_max_error > max_error_) { // exit early.
+ break;
+ }
+
+ avg_abs_error += compute_avg_abs_error<int32_t, double>(
+ output_, ref_output_, txfm2d_size_);
+ }
+
+ avg_abs_error /= amplify_factor_;
+ avg_abs_error /= count_;
+ EXPECT_GE(max_avg_error_, avg_abs_error)
+ << "tx_size = " << tx_size_ << ", tx_type = " << tx_type_;
+ }
+
+ virtual void TearDown() {
+ aom_free(input_);
+ aom_free(output_);
+ aom_free(ref_input_);
+ aom_free(ref_output_);
+ }
+
+ private:
+ double max_error_;
+ double max_avg_error_;
+ int count_;
+ double amplify_factor_;
+ TX_TYPE tx_type_;
+ TX_SIZE tx_size_;
+ int tx_width_;
+ int tx_height_;
+ int txfm2d_size_;
+ FwdTxfm2dFunc fwd_txfm_;
+ int16_t *input_;
+ int32_t *output_;
+ double *ref_input_;
+ double *ref_output_;
+ int ud_flip_; // flip upside down
+ int lr_flip_; // flip left to right
+};
+
+static double avg_error_ls[TX_SIZES_ALL] = {
+ 0.5, // 4x4 transform
+ 0.5, // 8x8 transform
+ 1.2, // 16x16 transform
+ 6.1, // 32x32 transform
+ 3.4, // 64x64 transform
+ 0.57, // 4x8 transform
+ 0.68, // 8x4 transform
+ 0.92, // 8x16 transform
+ 1.1, // 16x8 transform
+ 4.1, // 16x32 transform
+ 6, // 32x16 transform
+ 3.5, // 32x64 transform
+ 5.7, // 64x32 transform
+ 0.6, // 4x16 transform
+ 0.9, // 16x4 transform
+ 1.2, // 8x32 transform
+ 1.7, // 32x8 transform
+ 2.0, // 16x64 transform
+ 4.7, // 64x16 transform
+};
+
+static double max_error_ls[TX_SIZES_ALL] = {
+ 3, // 4x4 transform
+ 5, // 8x8 transform
+ 11, // 16x16 transform
+ 70, // 32x32 transform
+ 64, // 64x64 transform
+ 3.9, // 4x8 transform
+ 4.3, // 8x4 transform
+ 12, // 8x16 transform
+ 12, // 16x8 transform
+ 32, // 16x32 transform
+ 46, // 32x16 transform
+ 136, // 32x64 transform
+ 136, // 64x32 transform
+ 5, // 4x16 transform
+ 6, // 16x4 transform
+ 21, // 8x32 transform
+ 13, // 32x8 transform
+ 30, // 16x64 transform
+ 36, // 64x16 transform
+};
+
+vector<AV1FwdTxfm2dParam> GetTxfm2dParamList() {
+ vector<AV1FwdTxfm2dParam> param_list;
+ for (int s = 0; s < TX_SIZES; ++s) {
+ const double max_error = max_error_ls[s];
+ const double avg_error = avg_error_ls[s];
+ for (int t = 0; t < TX_TYPES; ++t) {
+ const TX_TYPE tx_type = static_cast<TX_TYPE>(t);
+ const TX_SIZE tx_size = static_cast<TX_SIZE>(s);
+ if (libaom_test::IsTxSizeTypeValid(tx_size, tx_type)) {
+ param_list.push_back(
+ AV1FwdTxfm2dParam(tx_type, tx_size, max_error, avg_error));
+ }
+ }
+ }
+ return param_list;
+}
+
+INSTANTIATE_TEST_CASE_P(C, AV1FwdTxfm2d,
+ ::testing::ValuesIn(GetTxfm2dParamList()));
+
+TEST_P(AV1FwdTxfm2d, RunFwdAccuracyCheck) { RunFwdAccuracyCheck(); }
+
+TEST(AV1FwdTxfm2d, CfgTest) {
+ for (int bd_idx = 0; bd_idx < BD_NUM; ++bd_idx) {
+ int bd = libaom_test::bd_arr[bd_idx];
+ int8_t low_range = libaom_test::low_range_arr[bd_idx];
+ int8_t high_range = libaom_test::high_range_arr[bd_idx];
+ for (int tx_size = 0; tx_size < TX_SIZES_ALL; ++tx_size) {
+ for (int tx_type = 0; tx_type < TX_TYPES; ++tx_type) {
+ if (libaom_test::IsTxSizeTypeValid(static_cast<TX_SIZE>(tx_size),
+ static_cast<TX_TYPE>(tx_type)) ==
+ false) {
+ continue;
+ }
+ TXFM_2D_FLIP_CFG cfg;
+ av1_get_fwd_txfm_cfg(static_cast<TX_TYPE>(tx_type),
+ static_cast<TX_SIZE>(tx_size), &cfg);
+ int8_t stage_range_col[MAX_TXFM_STAGE_NUM];
+ int8_t stage_range_row[MAX_TXFM_STAGE_NUM];
+ av1_gen_fwd_stage_range(stage_range_col, stage_range_row, &cfg, bd);
+ libaom_test::txfm_stage_range_check(stage_range_col, cfg.stage_num_col,
+ cfg.cos_bit_col, low_range,
+ high_range);
+ libaom_test::txfm_stage_range_check(stage_range_row, cfg.stage_num_row,
+ cfg.cos_bit_row, low_range,
+ high_range);
+ }
+ }
+ }
+}
+
+typedef void (*lowbd_fwd_txfm_func)(const int16_t *src_diff, tran_low_t *coeff,
+ int diff_stride, TxfmParam *txfm_param);
+
+void AV1FwdTxfm2dMatchTest(TX_SIZE tx_size, lowbd_fwd_txfm_func target_func) {
+ const int bd = 8;
+ TxfmParam param;
+ memset(&param, 0, sizeof(param));
+ const int rows = tx_size_high[tx_size];
+ const int cols = tx_size_wide[tx_size];
+ // printf("%d x %d\n", cols, rows);
+ for (int tx_type = 0; tx_type < TX_TYPES; ++tx_type) {
+ if (libaom_test::IsTxSizeTypeValid(
+ tx_size, static_cast<TX_TYPE>(tx_type)) == false) {
+ continue;
+ }
+
+ FwdTxfm2dFunc ref_func = libaom_test::fwd_txfm_func_ls[tx_size];
+ if (ref_func != NULL) {
+ DECLARE_ALIGNED(32, int16_t, input[64 * 64]) = { 0 };
+ DECLARE_ALIGNED(32, int32_t, output[64 * 64]);
+ DECLARE_ALIGNED(32, int32_t, ref_output[64 * 64]);
+ int input_stride = 64;
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ for (int cnt = 0; cnt < 500; ++cnt) {
+ if (cnt == 0) {
+ for (int r = 0; r < rows; ++r) {
+ for (int c = 0; c < cols; ++c) {
+ input[r * input_stride + c] = (1 << bd) - 1;
+ }
+ }
+ } else {
+ for (int r = 0; r < rows; ++r) {
+ for (int c = 0; c < cols; ++c) {
+ input[r * input_stride + c] = rnd.Rand16() % (1 << bd);
+ }
+ }
+ }
+ param.tx_type = (TX_TYPE)tx_type;
+ param.tx_size = (TX_SIZE)tx_size;
+ param.tx_set_type = EXT_TX_SET_ALL16;
+ param.bd = bd;
+ ref_func(input, ref_output, input_stride, (TX_TYPE)tx_type, bd);
+ target_func(input, output, input_stride, &param);
+ const int check_rows = AOMMIN(32, rows);
+ const int check_cols = AOMMIN(32, rows * cols / check_rows);
+ for (int r = 0; r < check_rows; ++r) {
+ for (int c = 0; c < check_cols; ++c) {
+ ASSERT_EQ(ref_output[r * check_cols + c],
+ output[r * check_cols + c])
+ << "[" << r << "," << c << "] cnt:" << cnt
+ << " tx_size: " << tx_size << " tx_type: " << tx_type;
+ }
+ }
+ }
+ }
+ }
+}
+
+typedef ::testing::tuple<TX_SIZE, lowbd_fwd_txfm_func> LbdFwdTxfm2dParam;
+
+class AV1FwdTxfm2dTest : public ::testing::TestWithParam<LbdFwdTxfm2dParam> {};
+
+TEST_P(AV1FwdTxfm2dTest, match) {
+ AV1FwdTxfm2dMatchTest(GET_PARAM(0), GET_PARAM(1));
+}
+
+using ::testing::Combine;
+using ::testing::Values;
+using ::testing::ValuesIn;
+
+#if HAVE_SSE2
+static TX_SIZE fwd_txfm_for_sse2[] = {
+ TX_4X4,
+ TX_8X8,
+ TX_16X16,
+ TX_32X32,
+ // TX_64X64,
+ TX_4X8,
+ TX_8X4,
+ TX_8X16,
+ TX_16X8,
+ TX_16X32,
+ TX_32X16,
+ // TX_32X64,
+ // TX_64X32,
+ TX_4X16,
+ TX_16X4,
+ TX_8X32,
+ TX_32X8,
+ TX_16X64,
+ TX_64X16,
+};
+
+INSTANTIATE_TEST_CASE_P(SSE2, AV1FwdTxfm2dTest,
+ Combine(ValuesIn(fwd_txfm_for_sse2),
+ Values(av1_lowbd_fwd_txfm_sse2)));
+#endif // HAVE_SSE2
+
+#if HAVE_SSE4_1
+static TX_SIZE fwd_txfm_for_sse41[] = {
+ TX_4X4,
+ TX_64X64,
+ TX_32X64,
+ TX_64X32,
+};
+
+INSTANTIATE_TEST_CASE_P(SSE4_1, AV1FwdTxfm2dTest,
+ Combine(ValuesIn(fwd_txfm_for_sse41),
+ Values(av1_lowbd_fwd_txfm_sse4_1)));
+#endif // HAVE_SSE4_1
+
+#if HAVE_AVX2
+static TX_SIZE fwd_txfm_for_avx2[] = {
+ TX_4X4, TX_8X8, TX_16X16, TX_32X32, TX_64X64, TX_4X8, TX_8X4,
+ TX_8X16, TX_16X8, TX_16X32, TX_32X16, TX_32X64, TX_64X32, TX_4X16,
+ TX_16X4, TX_8X32, TX_32X8, TX_16X64, TX_64X16,
+};
+
+INSTANTIATE_TEST_CASE_P(AVX2, AV1FwdTxfm2dTest,
+ Combine(ValuesIn(fwd_txfm_for_avx2),
+ Values(av1_lowbd_fwd_txfm_avx2)));
+#endif // HAVE_AVX2
+
+typedef void (*Highbd_fwd_txfm_func)(const int16_t *src_diff, tran_low_t *coeff,
+ int diff_stride, TxfmParam *txfm_param);
+
+void AV1HighbdFwdTxfm2dMatchTest(TX_SIZE tx_size,
+ Highbd_fwd_txfm_func target_func) {
+ const int bd_ar[2] = { 10, 12 };
+ TxfmParam param;
+ memset(&param, 0, sizeof(param));
+ const int rows = tx_size_high[tx_size];
+ const int cols = tx_size_wide[tx_size];
+ for (int i = 0; i < 2; ++i) {
+ const int bd = bd_ar[i];
+ for (int tx_type = 0; tx_type < TX_TYPES; ++tx_type) {
+ if (libaom_test::IsTxSizeTypeValid(
+ tx_size, static_cast<TX_TYPE>(tx_type)) == false) {
+ continue;
+ }
+
+ FwdTxfm2dFunc ref_func = libaom_test::fwd_txfm_func_ls[tx_size];
+ if (ref_func != NULL) {
+ DECLARE_ALIGNED(32, int16_t, input[64 * 64]) = { 0 };
+ DECLARE_ALIGNED(32, int32_t, output[64 * 64]);
+ DECLARE_ALIGNED(32, int32_t, ref_output[64 * 64]);
+ int input_stride = 64;
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ for (int cnt = 0; cnt < 500; ++cnt) {
+ if (cnt == 0) {
+ for (int r = 0; r < rows; ++r) {
+ for (int c = 0; c < cols; ++c) {
+ input[r * input_stride + c] = (1 << bd) - 1;
+ }
+ }
+ } else {
+ for (int r = 0; r < rows; ++r) {
+ for (int c = 0; c < cols; ++c) {
+ input[r * input_stride + c] = rnd.Rand16() % (1 << bd);
+ }
+ }
+ }
+ param.tx_type = (TX_TYPE)tx_type;
+ param.tx_size = (TX_SIZE)tx_size;
+ param.tx_set_type = EXT_TX_SET_ALL16;
+ param.bd = bd;
+
+ ref_func(input, ref_output, input_stride, (TX_TYPE)tx_type, bd);
+ target_func(input, output, input_stride, &param);
+ const int check_rows = AOMMIN(32, rows);
+ const int check_cols = AOMMIN(32, rows * cols / check_rows);
+ for (int r = 0; r < check_rows; ++r) {
+ for (int c = 0; c < check_cols; ++c) {
+ ASSERT_EQ(ref_output[r * check_cols + c],
+ output[r * check_cols + c])
+ << "[" << r << "," << c << "] cnt:" << cnt
+ << " tx_size: " << tx_size << " tx_type: " << tx_type;
+ }
+ }
+ }
+ }
+ }
+ }
+}
+
+void AV1HighbdFwdTxfm2dSpeedTest(TX_SIZE tx_size,
+ Highbd_fwd_txfm_func target_func) {
+ const int bd_ar[2] = { 10, 12 };
+ TxfmParam param;
+ memset(&param, 0, sizeof(param));
+ const int rows = tx_size_high[tx_size];
+ const int cols = tx_size_wide[tx_size];
+ const int num_loops = 1000000 / (rows * cols);
+
+ for (int i = 0; i < 2; ++i) {
+ const int bd = bd_ar[i];
+ for (int tx_type = 0; tx_type < TX_TYPES; ++tx_type) {
+ if (libaom_test::IsTxSizeTypeValid(
+ tx_size, static_cast<TX_TYPE>(tx_type)) == false) {
+ continue;
+ }
+
+ FwdTxfm2dFunc ref_func = libaom_test::fwd_txfm_func_ls[tx_size];
+ if (ref_func != NULL) {
+ DECLARE_ALIGNED(32, int16_t, input[64 * 64]) = { 0 };
+ DECLARE_ALIGNED(32, int32_t, output[64 * 64]);
+ DECLARE_ALIGNED(32, int32_t, ref_output[64 * 64]);
+ int input_stride = 64;
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+
+ for (int r = 0; r < rows; ++r) {
+ for (int c = 0; c < cols; ++c) {
+ input[r * input_stride + c] = rnd.Rand16() % (1 << bd);
+ }
+ }
+
+ param.tx_type = (TX_TYPE)tx_type;
+ param.tx_size = (TX_SIZE)tx_size;
+ param.tx_set_type = EXT_TX_SET_ALL16;
+ param.bd = bd;
+
+ aom_usec_timer ref_timer, test_timer;
+
+ aom_usec_timer_start(&ref_timer);
+ for (int i = 0; i < num_loops; ++i) {
+ ref_func(input, ref_output, input_stride, (TX_TYPE)tx_type, bd);
+ }
+ aom_usec_timer_mark(&ref_timer);
+ const int elapsed_time_c =
+ static_cast<int>(aom_usec_timer_elapsed(&ref_timer));
+
+ aom_usec_timer_start(&test_timer);
+ for (int i = 0; i < num_loops; ++i) {
+ target_func(input, output, input_stride, &param);
+ }
+ aom_usec_timer_mark(&test_timer);
+ const int elapsed_time_simd =
+ static_cast<int>(aom_usec_timer_elapsed(&test_timer));
+
+ printf(
+ "txfm_size[%d] \t txfm_type[%d] \t c_time=%d \t simd_time=%d \t "
+ "gain=%d \n",
+ tx_size, tx_type, elapsed_time_c, elapsed_time_simd,
+ (elapsed_time_c / elapsed_time_simd));
+ }
+ }
+ }
+}
+
+typedef ::testing::tuple<TX_SIZE, Highbd_fwd_txfm_func> HighbdFwdTxfm2dParam;
+
+class AV1HighbdFwdTxfm2dTest
+ : public ::testing::TestWithParam<HighbdFwdTxfm2dParam> {};
+
+TEST_P(AV1HighbdFwdTxfm2dTest, match) {
+ AV1HighbdFwdTxfm2dMatchTest(GET_PARAM(0), GET_PARAM(1));
+}
+
+TEST_P(AV1HighbdFwdTxfm2dTest, DISABLED_Speed) {
+ AV1HighbdFwdTxfm2dSpeedTest(GET_PARAM(0), GET_PARAM(1));
+}
+
+using ::testing::Combine;
+using ::testing::Values;
+using ::testing::ValuesIn;
+
+#if HAVE_SSE4_1
+static TX_SIZE Highbd_fwd_txfm_for_sse4_1[] = {
+ TX_4X4, TX_8X8, TX_16X16, TX_32X32, TX_64X64, TX_4X8, TX_8X4,
+ TX_8X16, TX_16X8, TX_16X32, TX_32X16, TX_32X64, TX_64X32, TX_4X16,
+ TX_16X4, TX_8X32, TX_32X8, TX_16X64, TX_64X16,
+};
+
+INSTANTIATE_TEST_CASE_P(SSE4_1, AV1HighbdFwdTxfm2dTest,
+ Combine(ValuesIn(Highbd_fwd_txfm_for_sse4_1),
+ Values(av1_highbd_fwd_txfm)));
+#endif // HAVE_SSE4_1
+
+} // namespace
diff --git a/third_party/aom/test/av1_highbd_iht_test.cc b/third_party/aom/test/av1_highbd_iht_test.cc
new file mode 100644
index 0000000000..2d6490c2ad
--- /dev/null
+++ b/third_party/aom/test/av1_highbd_iht_test.cc
@@ -0,0 +1,315 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/av1_rtcd.h"
+
+#include "test/acm_random.h"
+#include "test/av1_txfm_test.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "test/util.h"
+#include "av1/common/enums.h"
+#include "av1/common/scan.h"
+#include "aom_dsp/aom_dsp_common.h"
+#include "aom_ports/mem.h"
+
+namespace {
+
+using ::testing::tuple;
+using libaom_test::ACMRandom;
+
+typedef void (*HbdHtFunc)(const int16_t *input, int32_t *output, int stride,
+ TX_TYPE tx_type, int bd);
+
+typedef void (*IHbdHtFunc)(const int32_t *coeff, uint16_t *output, int stride,
+ TX_TYPE tx_type, int bd);
+
+// Test parameter argument list:
+// <transform reference function,
+// optimized inverse transform function,
+// inverse transform reference function,
+// num_coeffs,
+// tx_type,
+// bit_depth>
+typedef tuple<HbdHtFunc, IHbdHtFunc, IHbdHtFunc, int, TX_TYPE, int> IHbdHtParam;
+
+class AV1HighbdInvHTNxN : public ::testing::TestWithParam<IHbdHtParam> {
+ public:
+ virtual ~AV1HighbdInvHTNxN() {}
+
+ virtual void SetUp() {
+ txfm_ref_ = GET_PARAM(0);
+ inv_txfm_ = GET_PARAM(1);
+ inv_txfm_ref_ = GET_PARAM(2);
+ num_coeffs_ = GET_PARAM(3);
+ tx_type_ = GET_PARAM(4);
+ bit_depth_ = GET_PARAM(5);
+
+ input_ = reinterpret_cast<int16_t *>(
+ aom_memalign(16, sizeof(input_[0]) * num_coeffs_));
+
+ // Note:
+ // Inverse transform input buffer is 32-byte aligned
+ // Refer to <root>/av1/encoder/context_tree.c, function,
+ // void alloc_mode_context().
+ coeffs_ = reinterpret_cast<int32_t *>(
+ aom_memalign(32, sizeof(coeffs_[0]) * num_coeffs_));
+ output_ = reinterpret_cast<uint16_t *>(
+ aom_memalign(32, sizeof(output_[0]) * num_coeffs_));
+ output_ref_ = reinterpret_cast<uint16_t *>(
+ aom_memalign(32, sizeof(output_ref_[0]) * num_coeffs_));
+ }
+
+ virtual void TearDown() {
+ aom_free(input_);
+ aom_free(coeffs_);
+ aom_free(output_);
+ aom_free(output_ref_);
+ libaom_test::ClearSystemState();
+ }
+
+ protected:
+ void RunBitexactCheck();
+
+ private:
+ int GetStride() const {
+ if (16 == num_coeffs_) {
+ return 4;
+ } else if (64 == num_coeffs_) {
+ return 8;
+ } else if (256 == num_coeffs_) {
+ return 16;
+ } else if (1024 == num_coeffs_) {
+ return 32;
+ } else if (4096 == num_coeffs_) {
+ return 64;
+ } else {
+ return 0;
+ }
+ }
+
+ HbdHtFunc txfm_ref_;
+ IHbdHtFunc inv_txfm_;
+ IHbdHtFunc inv_txfm_ref_;
+ int num_coeffs_;
+ TX_TYPE tx_type_;
+ int bit_depth_;
+
+ int16_t *input_;
+ int32_t *coeffs_;
+ uint16_t *output_;
+ uint16_t *output_ref_;
+};
+
+void AV1HighbdInvHTNxN::RunBitexactCheck() {
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ const int stride = GetStride();
+ const int num_tests = 20000;
+ const uint16_t mask = (1 << bit_depth_) - 1;
+
+ for (int i = 0; i < num_tests; ++i) {
+ for (int j = 0; j < num_coeffs_; ++j) {
+ input_[j] = (rnd.Rand16() & mask) - (rnd.Rand16() & mask);
+ output_ref_[j] = rnd.Rand16() & mask;
+ output_[j] = output_ref_[j];
+ }
+
+ txfm_ref_(input_, coeffs_, stride, tx_type_, bit_depth_);
+ inv_txfm_ref_(coeffs_, output_ref_, stride, tx_type_, bit_depth_);
+ ASM_REGISTER_STATE_CHECK(
+ inv_txfm_(coeffs_, output_, stride, tx_type_, bit_depth_));
+
+ for (int j = 0; j < num_coeffs_; ++j) {
+ EXPECT_EQ(output_ref_[j], output_[j])
+ << "Not bit-exact result at index: " << j << " At test block: " << i;
+ }
+ }
+}
+
+TEST_P(AV1HighbdInvHTNxN, InvTransResultCheck) { RunBitexactCheck(); }
+
+using ::testing::make_tuple;
+
+#if HAVE_SSE4_1
+#define PARAM_LIST_4X4 \
+ &av1_fwd_txfm2d_4x4_c, &av1_inv_txfm2d_add_4x4_sse4_1, \
+ &av1_inv_txfm2d_add_4x4_c, 16
+
+const IHbdHtParam kArrayIhtParam[] = {
+ // 4x4
+ make_tuple(PARAM_LIST_4X4, DCT_DCT, 10),
+ make_tuple(PARAM_LIST_4X4, DCT_DCT, 12),
+ make_tuple(PARAM_LIST_4X4, ADST_DCT, 10),
+ make_tuple(PARAM_LIST_4X4, ADST_DCT, 12),
+ make_tuple(PARAM_LIST_4X4, DCT_ADST, 10),
+ make_tuple(PARAM_LIST_4X4, DCT_ADST, 12),
+ make_tuple(PARAM_LIST_4X4, ADST_ADST, 10),
+ make_tuple(PARAM_LIST_4X4, ADST_ADST, 12),
+ make_tuple(PARAM_LIST_4X4, FLIPADST_DCT, 10),
+ make_tuple(PARAM_LIST_4X4, FLIPADST_DCT, 12),
+ make_tuple(PARAM_LIST_4X4, DCT_FLIPADST, 10),
+ make_tuple(PARAM_LIST_4X4, DCT_FLIPADST, 12),
+ make_tuple(PARAM_LIST_4X4, FLIPADST_FLIPADST, 10),
+ make_tuple(PARAM_LIST_4X4, FLIPADST_FLIPADST, 12),
+ make_tuple(PARAM_LIST_4X4, ADST_FLIPADST, 10),
+ make_tuple(PARAM_LIST_4X4, ADST_FLIPADST, 12),
+ make_tuple(PARAM_LIST_4X4, FLIPADST_ADST, 10),
+ make_tuple(PARAM_LIST_4X4, FLIPADST_ADST, 12),
+};
+
+INSTANTIATE_TEST_CASE_P(SSE4_1, AV1HighbdInvHTNxN,
+ ::testing::ValuesIn(kArrayIhtParam));
+#endif // HAVE_SSE4_1
+
+typedef void (*HighbdInvTxfm2dFunc)(const int32_t *input, uint8_t *output,
+ int stride, const TxfmParam *txfm_param);
+
+typedef ::testing::tuple<const HighbdInvTxfm2dFunc> AV1HighbdInvTxfm2dParam;
+class AV1HighbdInvTxfm2d
+ : public ::testing::TestWithParam<AV1HighbdInvTxfm2dParam> {
+ public:
+ virtual void SetUp() { target_func_ = GET_PARAM(0); }
+ void RunAV1InvTxfm2dTest(TX_TYPE tx_type, TX_SIZE tx_size, int run_times,
+ int bit_depth);
+
+ private:
+ HighbdInvTxfm2dFunc target_func_;
+};
+
+void AV1HighbdInvTxfm2d::RunAV1InvTxfm2dTest(TX_TYPE tx_type_, TX_SIZE tx_size_,
+ int run_times, int bit_depth_) {
+ FwdTxfm2dFunc fwd_func_ = libaom_test::fwd_txfm_func_ls[tx_size_];
+ TxfmParam txfm_param;
+ const int BLK_WIDTH = 64;
+ const int BLK_SIZE = BLK_WIDTH * BLK_WIDTH;
+ DECLARE_ALIGNED(16, int16_t, input[BLK_SIZE]) = { 0 };
+ DECLARE_ALIGNED(32, int32_t, inv_input[BLK_SIZE]) = { 0 };
+ DECLARE_ALIGNED(32, uint16_t, output[BLK_SIZE]) = { 0 };
+ DECLARE_ALIGNED(32, uint16_t, ref_output[BLK_SIZE]) = { 0 };
+ int stride = BLK_WIDTH;
+ int rows = tx_size_high[tx_size_];
+ int cols = tx_size_wide[tx_size_];
+ const int rows_nonezero = AOMMIN(32, rows);
+ const int cols_nonezero = AOMMIN(32, cols);
+ const uint16_t mask = (1 << bit_depth_) - 1;
+ run_times /= (rows * cols);
+ run_times = AOMMAX(1, run_times);
+ const SCAN_ORDER *scan_order = get_default_scan(tx_size_, tx_type_);
+ const int16_t *scan = scan_order->scan;
+ const int16_t eobmax = rows_nonezero * cols_nonezero;
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ int randTimes = run_times == 1 ? (eobmax) : 1;
+
+ txfm_param.tx_type = tx_type_;
+ txfm_param.tx_size = tx_size_;
+ txfm_param.lossless = 0;
+ txfm_param.bd = bit_depth_;
+ txfm_param.is_hbd = 1;
+ txfm_param.tx_set_type = EXT_TX_SET_ALL16;
+
+ for (int cnt = 0; cnt < randTimes; ++cnt) {
+ for (int r = 0; r < BLK_WIDTH; ++r) {
+ for (int c = 0; c < BLK_WIDTH; ++c) {
+ input[r * cols + c] = (rnd.Rand16() & mask) - (rnd.Rand16() & mask);
+ output[r * stride + c] = rnd.Rand16() & mask;
+
+ ref_output[r * stride + c] = output[r * stride + c];
+ }
+ }
+ fwd_func_(input, inv_input, stride, tx_type_, bit_depth_);
+
+ // produce eob input by setting high freq coeffs to zero
+ const int eob = AOMMIN(cnt + 1, eobmax);
+ for (int i = eob; i < eobmax; i++) {
+ inv_input[scan[i]] = 0;
+ }
+ txfm_param.eob = eob;
+ aom_usec_timer ref_timer, test_timer;
+
+ aom_usec_timer_start(&ref_timer);
+ for (int i = 0; i < run_times; ++i) {
+ av1_highbd_inv_txfm_add_c(inv_input, CONVERT_TO_BYTEPTR(ref_output),
+ stride, &txfm_param);
+ }
+ aom_usec_timer_mark(&ref_timer);
+ const int elapsed_time_c =
+ static_cast<int>(aom_usec_timer_elapsed(&ref_timer));
+
+ aom_usec_timer_start(&test_timer);
+ for (int i = 0; i < run_times; ++i) {
+ target_func_(inv_input, CONVERT_TO_BYTEPTR(output), stride, &txfm_param);
+ }
+ aom_usec_timer_mark(&test_timer);
+ const int elapsed_time_simd =
+ static_cast<int>(aom_usec_timer_elapsed(&test_timer));
+ if (run_times > 10) {
+ printf(
+ "txfm_size[%d] \t txfm_type[%d] \t c_time=%d \t simd_time=%d \t "
+ "gain=%d \n",
+ tx_size_, tx_type_, elapsed_time_c, elapsed_time_simd,
+ (elapsed_time_c / elapsed_time_simd));
+ } else {
+ for (int r = 0; r < rows; ++r) {
+ for (int c = 0; c < cols; ++c) {
+ ASSERT_EQ(ref_output[r * stride + c], output[r * stride + c])
+ << "[" << r << "," << c << "] " << cnt
+ << " tx_size: " << static_cast<int>(tx_size_)
+ << " tx_type: " << tx_type_ << " eob " << eob;
+ }
+ }
+ }
+ }
+}
+
+TEST_P(AV1HighbdInvTxfm2d, match) {
+ int bitdepth_ar[2] = { 10, 12 };
+ for (int k = 0; k < 2; ++k) {
+ int bd = bitdepth_ar[k];
+ for (int j = 0; j < (int)(TX_SIZES_ALL); ++j) {
+ for (int i = 0; i < (int)TX_TYPES; ++i) {
+ if (libaom_test::IsTxSizeTypeValid(static_cast<TX_SIZE>(j),
+ static_cast<TX_TYPE>(i))) {
+ RunAV1InvTxfm2dTest(static_cast<TX_TYPE>(i), static_cast<TX_SIZE>(j),
+ 1, bd);
+ }
+ }
+ }
+ }
+}
+
+TEST_P(AV1HighbdInvTxfm2d, DISABLED_Speed) {
+ int bitdepth_ar[2] = { 10, 12 };
+ for (int k = 0; k < 2; ++k) {
+ int bd = bitdepth_ar[k];
+ for (int j = 0; j < (int)(TX_SIZES_ALL); ++j) {
+ for (int i = 0; i < (int)TX_TYPES; ++i) {
+ if (libaom_test::IsTxSizeTypeValid(static_cast<TX_SIZE>(j),
+ static_cast<TX_TYPE>(i))) {
+ RunAV1InvTxfm2dTest(static_cast<TX_TYPE>(i), static_cast<TX_SIZE>(j),
+ 1000000, bd);
+ }
+ }
+ }
+ }
+}
+
+#if HAVE_SSE4_1
+INSTANTIATE_TEST_CASE_P(SSE4_1, AV1HighbdInvTxfm2d,
+ ::testing::Values(av1_highbd_inv_txfm_add_sse4_1));
+#endif
+
+#if HAVE_AVX2
+INSTANTIATE_TEST_CASE_P(AVX2, AV1HighbdInvTxfm2d,
+ ::testing::Values(av1_highbd_inv_txfm_add_avx2));
+#endif
+} // namespace
diff --git a/third_party/aom/test/av1_horz_only_frame_superres_test.cc b/third_party/aom/test/av1_horz_only_frame_superres_test.cc
new file mode 100644
index 0000000000..fd77ef35d7
--- /dev/null
+++ b/third_party/aom/test/av1_horz_only_frame_superres_test.cc
@@ -0,0 +1,362 @@
+/*
+ * Copyright (c) 2018, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <vector>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/av1_rtcd.h"
+
+#include "aom_ports/aom_timer.h"
+#include "av1/common/convolve.h"
+#include "av1/common/resize.h"
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "test/util.h"
+
+namespace {
+const int kTestIters = 10;
+const int kPerfIters = 1000;
+
+const int kVPad = 32;
+const int kHPad = 32;
+
+using ::testing::make_tuple;
+using ::testing::tuple;
+using libaom_test::ACMRandom;
+
+template <typename Pixel>
+class TestImage {
+ public:
+ TestImage(int w_src, int h, int superres_denom, int x0, int bd)
+ : w_src_(w_src), h_(h), superres_denom_(superres_denom), x0_(x0),
+ bd_(bd) {
+ assert(bd < 16);
+ assert(bd <= 8 * static_cast<int>(sizeof(Pixel)));
+ assert(9 <= superres_denom && superres_denom <= 16);
+ assert(SCALE_NUMERATOR == 8);
+ assert(0 <= x0_ && x0_ <= RS_SCALE_SUBPEL_MASK);
+
+ w_dst_ = w_src_;
+ av1_calculate_unscaled_superres_size(&w_dst_, NULL, superres_denom);
+
+ src_stride_ = ALIGN_POWER_OF_TWO(w_src_ + 2 * kHPad, 4);
+ dst_stride_ = ALIGN_POWER_OF_TWO(w_dst_ + 2 * kHPad, 4);
+
+ // Allocate image data
+ src_data_.resize(2 * src_block_size());
+ dst_data_.resize(2 * dst_block_size());
+ }
+
+ void Initialize(ACMRandom *rnd);
+ void Check() const;
+
+ int src_stride() const { return src_stride_; }
+ int dst_stride() const { return dst_stride_; }
+
+ int src_block_size() const { return (h_ + 2 * kVPad) * src_stride(); }
+ int dst_block_size() const { return (h_ + 2 * kVPad) * dst_stride(); }
+
+ int src_width() const { return w_src_; }
+ int dst_width() const { return w_dst_; }
+ int height() const { return h_; }
+ int x0() const { return x0_; }
+
+ const Pixel *GetSrcData(bool ref, bool borders) const {
+ const Pixel *block = &src_data_[ref ? 0 : src_block_size()];
+ return borders ? block : block + kHPad + src_stride_ * kVPad;
+ }
+
+ Pixel *GetDstData(bool ref, bool borders) {
+ Pixel *block = &dst_data_[ref ? 0 : dst_block_size()];
+ return borders ? block : block + kHPad + dst_stride_ * kVPad;
+ }
+
+ private:
+ int w_src_, w_dst_, h_, superres_denom_, x0_, bd_;
+ int src_stride_, dst_stride_;
+
+ std::vector<Pixel> src_data_;
+ std::vector<Pixel> dst_data_;
+};
+
+template <typename Pixel>
+void FillEdge(ACMRandom *rnd, int num_pixels, int bd, bool trash, Pixel *data) {
+ if (!trash) {
+ memset(data, 0, sizeof(*data) * num_pixels);
+ return;
+ }
+ const Pixel mask = (1 << bd) - 1;
+ for (int i = 0; i < num_pixels; ++i) data[i] = rnd->Rand16() & mask;
+}
+
+template <typename Pixel>
+void PrepBuffers(ACMRandom *rnd, int w, int h, int stride, int bd,
+ bool trash_edges, Pixel *data) {
+ assert(rnd);
+ const Pixel mask = (1 << bd) - 1;
+
+ // Fill in the first buffer with random data
+ // Top border
+ FillEdge(rnd, stride * kVPad, bd, trash_edges, data);
+ for (int r = 0; r < h; ++r) {
+ Pixel *row_data = data + (kVPad + r) * stride;
+ // Left border, contents, right border
+ FillEdge(rnd, kHPad, bd, trash_edges, row_data);
+ for (int c = 0; c < w; ++c) row_data[kHPad + c] = rnd->Rand16() & mask;
+ FillEdge(rnd, kHPad, bd, trash_edges, row_data + kHPad + w);
+ }
+ // Bottom border
+ FillEdge(rnd, stride * kVPad, bd, trash_edges, data + stride * (kVPad + h));
+
+ const int bpp = sizeof(*data);
+ const int block_elts = stride * (h + 2 * kVPad);
+ const int block_size = bpp * block_elts;
+
+ // Now copy that to the second buffer
+ memcpy(data + block_elts, data, block_size);
+}
+
+template <typename Pixel>
+void TestImage<Pixel>::Initialize(ACMRandom *rnd) {
+ PrepBuffers(rnd, w_src_, h_, src_stride_, bd_, false, &src_data_[0]);
+ PrepBuffers(rnd, w_dst_, h_, dst_stride_, bd_, true, &dst_data_[0]);
+}
+
+template <typename Pixel>
+void TestImage<Pixel>::Check() const {
+ const int num_pixels = dst_block_size();
+ const Pixel *ref_dst = &dst_data_[0];
+ const Pixel *tst_dst = &dst_data_[num_pixels];
+
+ // If memcmp returns 0, there's nothing to do.
+ if (0 == memcmp(ref_dst, tst_dst, sizeof(*ref_dst) * num_pixels)) return;
+
+ // Otherwise, iterate through the buffer looking for differences, *ignoring
+ // the edges*
+ const int stride = dst_stride_;
+ for (int r = kVPad; r < h_ + kVPad; ++r) {
+ for (int c = kVPad; c < w_dst_ + kHPad; ++c) {
+ const int32_t ref_value = ref_dst[r * stride + c];
+ const int32_t tst_value = tst_dst[r * stride + c];
+
+ EXPECT_EQ(tst_value, ref_value)
+ << "Error at row: " << (r - kVPad) << ", col: " << (c - kHPad)
+ << ", superres_denom: " << superres_denom_ << ", height: " << h_
+ << ", src_width: " << w_src_ << ", dst_width: " << w_dst_
+ << ", x0: " << x0_;
+ }
+ }
+}
+
+template <typename Pixel>
+class ConvolveHorizRSTestBase : public ::testing::Test {
+ public:
+ ConvolveHorizRSTestBase() : image_(NULL) {}
+ virtual ~ConvolveHorizRSTestBase() {}
+ virtual void TearDown() { libaom_test::ClearSystemState(); }
+
+ // Implemented by subclasses (SetUp depends on the parameters passed
+ // in and RunOne depends on the function to be tested. These can't
+ // be templated for low/high bit depths because they have different
+ // numbers of parameters)
+ virtual void SetUp() = 0;
+ virtual void RunOne(bool ref) = 0;
+
+ protected:
+ void SetBitDepth(int bd) { bd_ = bd; }
+
+ void CorrectnessTest() {
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ for (int i = 0; i < kTestIters; ++i) {
+ for (int superres_denom = 9; superres_denom <= 16; superres_denom++) {
+ // Get a random height between 512 and 767
+ int height = rnd.Rand8() + 512;
+
+ // Get a random src width between 128 and 383
+ int width_src = rnd.Rand8() + 128;
+
+ // x0 is normally calculated by get_upscale_convolve_x0 in
+ // av1/common/resize.c. However, this test should work for
+ // any value of x0 between 0 and RS_SCALE_SUBPEL_MASK
+ // (inclusive), so we choose one at random.
+ int x0 = rnd.Rand16() % (RS_SCALE_SUBPEL_MASK + 1);
+
+ image_ =
+ new TestImage<Pixel>(width_src, height, superres_denom, x0, bd_);
+
+ Prep(&rnd);
+ RunOne(true);
+ RunOne(false);
+ image_->Check();
+
+ delete image_;
+ }
+ }
+ }
+
+ void SpeedTest() {
+ // Pick some specific parameters to test
+ int height = 767;
+ int width_src = 129;
+ int superres_denom = 13;
+ int x0 = RS_SCALE_SUBPEL_MASK >> 1;
+
+ image_ = new TestImage<Pixel>(width_src, height, superres_denom, x0, bd_);
+
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ Prep(&rnd);
+
+ aom_usec_timer ref_timer;
+ aom_usec_timer_start(&ref_timer);
+ for (int i = 0; i < kPerfIters; ++i) RunOne(true);
+ aom_usec_timer_mark(&ref_timer);
+ const int64_t ref_time = aom_usec_timer_elapsed(&ref_timer);
+
+ aom_usec_timer tst_timer;
+ aom_usec_timer_start(&tst_timer);
+ for (int i = 0; i < kPerfIters; ++i) RunOne(false);
+ aom_usec_timer_mark(&tst_timer);
+ const int64_t tst_time = aom_usec_timer_elapsed(&tst_timer);
+
+ std::cout << "[ ] C time = " << ref_time / 1000
+ << " ms, SIMD time = " << tst_time / 1000 << " ms\n";
+
+ EXPECT_GT(ref_time, tst_time)
+ << "Error: ConvolveHorizRSTest (Speed Test), SIMD slower than C.\n"
+ << "C time: " << ref_time << " us\n"
+ << "SIMD time: " << tst_time << " us\n";
+ }
+
+ void Prep(ACMRandom *rnd) {
+ assert(rnd);
+ image_->Initialize(rnd);
+ }
+
+ int bd_;
+ TestImage<Pixel> *image_;
+};
+
+typedef void (*LowBDConvolveHorizRsFunc)(const uint8_t *src, int src_stride,
+ uint8_t *dst, int dst_stride, int w,
+ int h, const int16_t *x_filters,
+ const int x0_qn, const int x_step_qn);
+
+// Test parameter list:
+// <tst_fun_>
+typedef tuple<LowBDConvolveHorizRsFunc> LowBDParams;
+
+class LowBDConvolveHorizRSTest
+ : public ConvolveHorizRSTestBase<uint8_t>,
+ public ::testing::WithParamInterface<LowBDParams> {
+ public:
+ virtual ~LowBDConvolveHorizRSTest() {}
+
+ void SetUp() {
+ tst_fun_ = GET_PARAM(0);
+ const int bd = 8;
+ SetBitDepth(bd);
+ }
+
+ void RunOne(bool ref) {
+ const uint8_t *src = image_->GetSrcData(ref, false);
+ uint8_t *dst = image_->GetDstData(ref, false);
+ const int src_stride = image_->src_stride();
+ const int dst_stride = image_->dst_stride();
+ const int width_src = image_->src_width();
+ const int width_dst = image_->dst_width();
+ const int height = image_->height();
+ const int x0_qn = image_->x0();
+
+ const int32_t x_step_qn =
+ av1_get_upscale_convolve_step(width_src, width_dst);
+
+ if (ref) {
+ av1_convolve_horiz_rs_c(src, src_stride, dst, dst_stride, width_dst,
+ height, &av1_resize_filter_normative[0][0], x0_qn,
+ x_step_qn);
+ } else {
+ tst_fun_(src, src_stride, dst, dst_stride, width_dst, height,
+ &av1_resize_filter_normative[0][0], x0_qn, x_step_qn);
+ }
+ }
+
+ private:
+ LowBDConvolveHorizRsFunc tst_fun_;
+};
+
+TEST_P(LowBDConvolveHorizRSTest, Correctness) { CorrectnessTest(); }
+TEST_P(LowBDConvolveHorizRSTest, DISABLED_Speed) { SpeedTest(); }
+
+INSTANTIATE_TEST_CASE_P(SSE4_1, LowBDConvolveHorizRSTest,
+ ::testing::Values(av1_convolve_horiz_rs_sse4_1));
+
+typedef void (*HighBDConvolveHorizRsFunc)(const uint16_t *src, int src_stride,
+ uint16_t *dst, int dst_stride, int w,
+ int h, const int16_t *x_filters,
+ const int x0_qn, const int x_step_qn,
+ int bd);
+
+// Test parameter list:
+// <tst_fun_, bd_>
+typedef tuple<HighBDConvolveHorizRsFunc, int> HighBDParams;
+
+class HighBDConvolveHorizRSTest
+ : public ConvolveHorizRSTestBase<uint16_t>,
+ public ::testing::WithParamInterface<HighBDParams> {
+ public:
+ virtual ~HighBDConvolveHorizRSTest() {}
+
+ void SetUp() {
+ tst_fun_ = GET_PARAM(0);
+ const int bd = GET_PARAM(1);
+ SetBitDepth(bd);
+ }
+
+ void RunOne(bool ref) {
+ const uint16_t *src = image_->GetSrcData(ref, false);
+ uint16_t *dst = image_->GetDstData(ref, false);
+ const int src_stride = image_->src_stride();
+ const int dst_stride = image_->dst_stride();
+ const int width_src = image_->src_width();
+ const int width_dst = image_->dst_width();
+ const int height = image_->height();
+ const int x0_qn = image_->x0();
+
+ const int32_t x_step_qn =
+ av1_get_upscale_convolve_step(width_src, width_dst);
+
+ if (ref) {
+ av1_highbd_convolve_horiz_rs_c(
+ src, src_stride, dst, dst_stride, width_dst, height,
+ &av1_resize_filter_normative[0][0], x0_qn, x_step_qn, bd_);
+ } else {
+ tst_fun_(src, src_stride, dst, dst_stride, width_dst, height,
+ &av1_resize_filter_normative[0][0], x0_qn, x_step_qn, bd_);
+ }
+ }
+
+ private:
+ HighBDConvolveHorizRsFunc tst_fun_;
+};
+
+const int kBDs[] = { 8, 10, 12 };
+
+TEST_P(HighBDConvolveHorizRSTest, Correctness) { CorrectnessTest(); }
+TEST_P(HighBDConvolveHorizRSTest, DISABLED_Speed) { SpeedTest(); }
+
+INSTANTIATE_TEST_CASE_P(
+ SSE4_1, HighBDConvolveHorizRSTest,
+ ::testing::Combine(::testing::Values(av1_highbd_convolve_horiz_rs_sse4_1),
+ ::testing::ValuesIn(kBDs)));
+
+} // namespace
diff --git a/third_party/aom/test/av1_inv_txfm1d_test.cc b/third_party/aom/test/av1_inv_txfm1d_test.cc
new file mode 100644
index 0000000000..bf3a44ed14
--- /dev/null
+++ b/third_party/aom/test/av1_inv_txfm1d_test.cc
@@ -0,0 +1,157 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <math.h>
+
+#include "test/av1_txfm_test.h"
+#include "test/util.h"
+#include "av1/common/av1_inv_txfm1d.h"
+#include "av1/encoder/av1_fwd_txfm1d.h"
+
+using libaom_test::ACMRandom;
+using libaom_test::input_base;
+
+namespace {
+const int txfm_type_num = 2;
+const int txfm_size_ls[] = { 4, 8, 16, 32, 64 };
+
+const TxfmFunc fwd_txfm_func_ls[][txfm_type_num] = {
+ { av1_fdct4_new, av1_fadst4_new },
+ { av1_fdct8_new, av1_fadst8_new },
+ { av1_fdct16_new, av1_fadst16_new },
+ { av1_fdct32_new, NULL },
+ { av1_fdct64_new, NULL },
+};
+
+const TxfmFunc inv_txfm_func_ls[][txfm_type_num] = {
+ { av1_idct4_new, av1_iadst4_new },
+ { av1_idct8_new, av1_iadst8_new },
+ { av1_idct16_new, av1_iadst16_new },
+ { av1_idct32_new, NULL },
+ { av1_idct64_new, NULL },
+};
+
+// the maximum stage number of fwd/inv 1d dct/adst txfm is 12
+const int8_t cos_bit = 13;
+const int8_t range_bit[12] = { 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20 };
+
+void reference_idct_1d_int(const int32_t *in, int32_t *out, int size) {
+ double input[64];
+ for (int i = 0; i < size; ++i) input[i] = in[i];
+
+ double output[64];
+ libaom_test::reference_idct_1d(input, output, size);
+
+ for (int i = 0; i < size; ++i) {
+ ASSERT_GE(output[i], INT32_MIN);
+ ASSERT_LE(output[i], INT32_MAX);
+ out[i] = static_cast<int32_t>(round(output[i]));
+ }
+}
+
+void random_matrix(int32_t *dst, int len, ACMRandom *rnd) {
+ const int bits = 16;
+ const int maxVal = (1 << (bits - 1)) - 1;
+ const int minVal = -(1 << (bits - 1));
+ for (int i = 0; i < len; ++i) {
+ if (rnd->Rand8() % 10)
+ dst[i] = minVal + rnd->Rand16() % (1 << bits);
+ else
+ dst[i] = rnd->Rand8() % 2 ? minVal : maxVal;
+ }
+}
+
+TEST(av1_inv_txfm1d, InvAccuracyCheck) {
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ const int count_test_block = 20000;
+ const int max_error[] = { 6, 10, 19, 31, 40 };
+ ASSERT_EQ(NELEMENTS(max_error), TX_SIZES);
+ ASSERT_EQ(NELEMENTS(inv_txfm_func_ls), TX_SIZES);
+ for (int k = 0; k < count_test_block; ++k) {
+ // choose a random transform to test
+ const TX_SIZE tx_size = static_cast<TX_SIZE>(rnd.Rand8() % TX_SIZES);
+ const int tx_size_pix = txfm_size_ls[tx_size];
+ const TxfmFunc inv_txfm_func = inv_txfm_func_ls[tx_size][0];
+
+ int32_t input[64];
+ random_matrix(input, tx_size_pix, &rnd);
+
+ // 64x64 transform assumes last 32 values are zero.
+ memset(input + 32, 0, 32 * sizeof(input[0]));
+
+ int32_t ref_output[64];
+ reference_idct_1d_int(input, ref_output, tx_size_pix);
+
+ int32_t output[64];
+ inv_txfm_func(input, output, cos_bit, range_bit);
+
+ for (int i = 0; i < tx_size_pix; ++i) {
+ EXPECT_LE(abs(output[i] - ref_output[i]), max_error[tx_size])
+ << "tx_size = " << tx_size << ", i = " << i
+ << ", output[i] = " << output[i]
+ << ", ref_output[i] = " << ref_output[i];
+ }
+ }
+}
+
+static INLINE int get_max_bit(int x) {
+ int max_bit = -1;
+ while (x) {
+ x = x >> 1;
+ max_bit++;
+ }
+ return max_bit;
+}
+
+TEST(av1_inv_txfm1d, get_max_bit) {
+ int max_bit = get_max_bit(8);
+ EXPECT_EQ(max_bit, 3);
+}
+
+TEST(av1_inv_txfm1d, round_trip) {
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ for (int si = 0; si < NELEMENTS(fwd_txfm_func_ls); ++si) {
+ int txfm_size = txfm_size_ls[si];
+
+ for (int ti = 0; ti < txfm_type_num; ++ti) {
+ TxfmFunc fwd_txfm_func = fwd_txfm_func_ls[si][ti];
+ TxfmFunc inv_txfm_func = inv_txfm_func_ls[si][ti];
+ int max_error = 2;
+
+ if (!fwd_txfm_func) continue;
+
+ const int count_test_block = 5000;
+ for (int ci = 0; ci < count_test_block; ++ci) {
+ int32_t input[64];
+ int32_t output[64];
+ int32_t round_trip_output[64];
+
+ ASSERT_LE(txfm_size, NELEMENTS(input));
+
+ for (int ni = 0; ni < txfm_size; ++ni) {
+ input[ni] = rnd.Rand16() % input_base - rnd.Rand16() % input_base;
+ }
+
+ fwd_txfm_func(input, output, cos_bit, range_bit);
+ inv_txfm_func(output, round_trip_output, cos_bit, range_bit);
+
+ for (int ni = 0; ni < txfm_size; ++ni) {
+ int node_err =
+ abs(input[ni] - round_shift(round_trip_output[ni],
+ get_max_bit(txfm_size) - 1));
+ EXPECT_LE(node_err, max_error);
+ }
+ }
+ }
+ }
+}
+
+} // namespace
diff --git a/third_party/aom/test/av1_inv_txfm2d_test.cc b/third_party/aom/test/av1_inv_txfm2d_test.cc
new file mode 100644
index 0000000000..11e231ba64
--- /dev/null
+++ b/third_party/aom/test/av1_inv_txfm2d_test.cc
@@ -0,0 +1,378 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <math.h>
+#include <stdio.h>
+#include <stdlib.h>
+#include <vector>
+
+#include "config/av1_rtcd.h"
+
+#include "aom_ports/aom_timer.h"
+#include "av1/common/av1_inv_txfm1d_cfg.h"
+#include "av1/common/scan.h"
+#include "test/acm_random.h"
+#include "test/av1_txfm_test.h"
+#include "test/util.h"
+
+using libaom_test::ACMRandom;
+using libaom_test::InvTxfm2dFunc;
+using libaom_test::LbdInvTxfm2dFunc;
+using libaom_test::bd;
+using libaom_test::compute_avg_abs_error;
+using libaom_test::input_base;
+
+using ::testing::Combine;
+using ::testing::Range;
+using ::testing::Values;
+
+using std::vector;
+
+namespace {
+
+// AV1InvTxfm2dParam argument list:
+// tx_type_, tx_size_, max_error_, max_avg_error_
+typedef ::testing::tuple<TX_TYPE, TX_SIZE, int, double> AV1InvTxfm2dParam;
+
+class AV1InvTxfm2d : public ::testing::TestWithParam<AV1InvTxfm2dParam> {
+ public:
+ virtual void SetUp() {
+ tx_type_ = GET_PARAM(0);
+ tx_size_ = GET_PARAM(1);
+ max_error_ = GET_PARAM(2);
+ max_avg_error_ = GET_PARAM(3);
+ }
+
+ void RunRoundtripCheck() {
+ int tx_w = tx_size_wide[tx_size_];
+ int tx_h = tx_size_high[tx_size_];
+ int txfm2d_size = tx_w * tx_h;
+ const FwdTxfm2dFunc fwd_txfm_func = libaom_test::fwd_txfm_func_ls[tx_size_];
+ const InvTxfm2dFunc inv_txfm_func = libaom_test::inv_txfm_func_ls[tx_size_];
+ double avg_abs_error = 0;
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+
+ const int count = 500;
+
+ for (int ci = 0; ci < count; ci++) {
+ DECLARE_ALIGNED(16, int16_t, input[64 * 64]) = { 0 };
+ ASSERT_LE(txfm2d_size, NELEMENTS(input));
+
+ for (int ni = 0; ni < txfm2d_size; ++ni) {
+ if (ci == 0) {
+ int extreme_input = input_base - 1;
+ input[ni] = extreme_input; // extreme case
+ } else {
+ input[ni] = rnd.Rand16() % input_base;
+ }
+ }
+
+ DECLARE_ALIGNED(16, uint16_t, expected[64 * 64]) = { 0 };
+ ASSERT_LE(txfm2d_size, NELEMENTS(expected));
+ if (TxfmUsesApproximation()) {
+ // Compare reference forward HT + inverse HT vs forward HT + inverse HT.
+ double ref_input[64 * 64];
+ ASSERT_LE(txfm2d_size, NELEMENTS(ref_input));
+ for (int ni = 0; ni < txfm2d_size; ++ni) {
+ ref_input[ni] = input[ni];
+ }
+ double ref_coeffs[64 * 64] = { 0 };
+ ASSERT_LE(txfm2d_size, NELEMENTS(ref_coeffs));
+ ASSERT_EQ(tx_type_, DCT_DCT);
+ libaom_test::reference_hybrid_2d(ref_input, ref_coeffs, tx_type_,
+ tx_size_);
+ DECLARE_ALIGNED(16, int32_t, ref_coeffs_int[64 * 64]) = { 0 };
+ ASSERT_LE(txfm2d_size, NELEMENTS(ref_coeffs_int));
+ for (int ni = 0; ni < txfm2d_size; ++ni) {
+ ref_coeffs_int[ni] = (int32_t)round(ref_coeffs[ni]);
+ }
+ inv_txfm_func(ref_coeffs_int, expected, tx_w, tx_type_, bd);
+ } else {
+ // Compare original input vs forward HT + inverse HT.
+ for (int ni = 0; ni < txfm2d_size; ++ni) {
+ expected[ni] = input[ni];
+ }
+ }
+
+ DECLARE_ALIGNED(16, int32_t, coeffs[64 * 64]) = { 0 };
+ ASSERT_LE(txfm2d_size, NELEMENTS(coeffs));
+ fwd_txfm_func(input, coeffs, tx_w, tx_type_, bd);
+
+ DECLARE_ALIGNED(16, uint16_t, actual[64 * 64]) = { 0 };
+ ASSERT_LE(txfm2d_size, NELEMENTS(actual));
+ inv_txfm_func(coeffs, actual, tx_w, tx_type_, bd);
+
+ double actual_max_error = 0;
+ for (int ni = 0; ni < txfm2d_size; ++ni) {
+ const double this_error = abs(expected[ni] - actual[ni]);
+ actual_max_error = AOMMAX(actual_max_error, this_error);
+ }
+ EXPECT_GE(max_error_, actual_max_error)
+ << " tx_w: " << tx_w << " tx_h " << tx_h << " tx_type: " << tx_type_;
+ if (actual_max_error > max_error_) { // exit early.
+ break;
+ }
+ avg_abs_error += compute_avg_abs_error<uint16_t, uint16_t>(
+ expected, actual, txfm2d_size);
+ }
+
+ avg_abs_error /= count;
+ EXPECT_GE(max_avg_error_, avg_abs_error)
+ << " tx_w: " << tx_w << " tx_h " << tx_h << " tx_type: " << tx_type_;
+ }
+
+ private:
+ bool TxfmUsesApproximation() {
+ if (tx_size_wide[tx_size_] == 64 || tx_size_high[tx_size_] == 64) {
+ return true;
+ }
+ return false;
+ }
+
+ int max_error_;
+ double max_avg_error_;
+ TX_TYPE tx_type_;
+ TX_SIZE tx_size_;
+};
+
+static int max_error_ls[TX_SIZES_ALL] = {
+ 2, // 4x4 transform
+ 2, // 8x8 transform
+ 2, // 16x16 transform
+ 4, // 32x32 transform
+ 3, // 64x64 transform
+ 2, // 4x8 transform
+ 2, // 8x4 transform
+ 2, // 8x16 transform
+ 2, // 16x8 transform
+ 3, // 16x32 transform
+ 3, // 32x16 transform
+ 5, // 32x64 transform
+ 5, // 64x32 transform
+ 2, // 4x16 transform
+ 2, // 16x4 transform
+ 2, // 8x32 transform
+ 2, // 32x8 transform
+ 3, // 16x64 transform
+ 3, // 64x16 transform
+};
+
+static double avg_error_ls[TX_SIZES_ALL] = {
+ 0.002, // 4x4 transform
+ 0.05, // 8x8 transform
+ 0.07, // 16x16 transform
+ 0.4, // 32x32 transform
+ 0.3, // 64x64 transform
+ 0.02, // 4x8 transform
+ 0.02, // 8x4 transform
+ 0.04, // 8x16 transform
+ 0.07, // 16x8 transform
+ 0.4, // 16x32 transform
+ 0.5, // 32x16 transform
+ 0.38, // 32x64 transform
+ 0.39, // 64x32 transform
+ 0.2, // 4x16 transform
+ 0.2, // 16x4 transform
+ 0.2, // 8x32 transform
+ 0.2, // 32x8 transform
+ 0.38, // 16x64 transform
+ 0.38, // 64x16 transform
+};
+
+vector<AV1InvTxfm2dParam> GetInvTxfm2dParamList() {
+ vector<AV1InvTxfm2dParam> param_list;
+ for (int s = 0; s < TX_SIZES; ++s) {
+ const int max_error = max_error_ls[s];
+ const double avg_error = avg_error_ls[s];
+ for (int t = 0; t < TX_TYPES; ++t) {
+ const TX_TYPE tx_type = static_cast<TX_TYPE>(t);
+ const TX_SIZE tx_size = static_cast<TX_SIZE>(s);
+ if (libaom_test::IsTxSizeTypeValid(tx_size, tx_type)) {
+ param_list.push_back(
+ AV1InvTxfm2dParam(tx_type, tx_size, max_error, avg_error));
+ }
+ }
+ }
+ return param_list;
+}
+
+INSTANTIATE_TEST_CASE_P(C, AV1InvTxfm2d,
+ ::testing::ValuesIn(GetInvTxfm2dParamList()));
+
+TEST_P(AV1InvTxfm2d, RunRoundtripCheck) { RunRoundtripCheck(); }
+
+TEST(AV1InvTxfm2d, CfgTest) {
+ for (int bd_idx = 0; bd_idx < BD_NUM; ++bd_idx) {
+ int bd = libaom_test::bd_arr[bd_idx];
+ int8_t low_range = libaom_test::low_range_arr[bd_idx];
+ int8_t high_range = libaom_test::high_range_arr[bd_idx];
+ for (int tx_size = 0; tx_size < TX_SIZES_ALL; ++tx_size) {
+ for (int tx_type = 0; tx_type < TX_TYPES; ++tx_type) {
+ if (libaom_test::IsTxSizeTypeValid(static_cast<TX_SIZE>(tx_size),
+ static_cast<TX_TYPE>(tx_type)) ==
+ false) {
+ continue;
+ }
+ TXFM_2D_FLIP_CFG cfg;
+ av1_get_inv_txfm_cfg(static_cast<TX_TYPE>(tx_type),
+ static_cast<TX_SIZE>(tx_size), &cfg);
+ int8_t stage_range_col[MAX_TXFM_STAGE_NUM];
+ int8_t stage_range_row[MAX_TXFM_STAGE_NUM];
+ av1_gen_inv_stage_range(stage_range_col, stage_range_row, &cfg,
+ (TX_SIZE)tx_size, bd);
+ libaom_test::txfm_stage_range_check(stage_range_col, cfg.stage_num_col,
+ cfg.cos_bit_col, low_range,
+ high_range);
+ libaom_test::txfm_stage_range_check(stage_range_row, cfg.stage_num_row,
+ cfg.cos_bit_row, low_range,
+ high_range);
+ }
+ }
+ }
+}
+
+typedef ::testing::tuple<const LbdInvTxfm2dFunc> AV1LbdInvTxfm2dParam;
+class AV1LbdInvTxfm2d : public ::testing::TestWithParam<AV1LbdInvTxfm2dParam> {
+ public:
+ virtual void SetUp() { target_func_ = GET_PARAM(0); }
+ void RunAV1InvTxfm2dTest(TX_TYPE tx_type, TX_SIZE tx_size, int run_times);
+
+ private:
+ LbdInvTxfm2dFunc target_func_;
+};
+
+void AV1LbdInvTxfm2d::RunAV1InvTxfm2dTest(TX_TYPE tx_type, TX_SIZE tx_size,
+ int run_times) {
+ FwdTxfm2dFunc fwd_func_ = libaom_test::fwd_txfm_func_ls[tx_size];
+ InvTxfm2dFunc ref_func_ = libaom_test::inv_txfm_func_ls[tx_size];
+ if (fwd_func_ == NULL || ref_func_ == NULL || target_func_ == NULL) {
+ return;
+ }
+ const int bd = 8;
+ const int BLK_WIDTH = 64;
+ const int BLK_SIZE = BLK_WIDTH * BLK_WIDTH;
+ DECLARE_ALIGNED(16, int16_t, input[BLK_SIZE]) = { 0 };
+ DECLARE_ALIGNED(32, int32_t, inv_input[BLK_SIZE]) = { 0 };
+ DECLARE_ALIGNED(16, uint8_t, output[BLK_SIZE]) = { 0 };
+ DECLARE_ALIGNED(16, uint16_t, ref_output[BLK_SIZE]) = { 0 };
+ int stride = BLK_WIDTH;
+ int rows = tx_size_high[tx_size];
+ int cols = tx_size_wide[tx_size];
+ const int rows_nonezero = AOMMIN(32, rows);
+ const int cols_nonezero = AOMMIN(32, cols);
+ run_times /= (rows * cols);
+ run_times = AOMMAX(1, run_times);
+ const SCAN_ORDER *scan_order = get_default_scan(tx_size, tx_type);
+ const int16_t *scan = scan_order->scan;
+ const int16_t eobmax = rows_nonezero * cols_nonezero;
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ int randTimes = run_times == 1 ? (eobmax + 500) : 1;
+ for (int cnt = 0; cnt < randTimes; ++cnt) {
+ const int16_t max_in = (1 << (bd)) - 1;
+ for (int r = 0; r < BLK_WIDTH; ++r) {
+ for (int c = 0; c < BLK_WIDTH; ++c) {
+ input[r * cols + c] = (cnt == 0) ? max_in : rnd.Rand8Extremes();
+ output[r * stride + c] = (cnt == 0) ? 128 : rnd.Rand8();
+ ref_output[r * stride + c] = output[r * stride + c];
+ }
+ }
+ fwd_func_(input, inv_input, stride, tx_type, bd);
+
+ // produce eob input by setting high freq coeffs to zero
+ const int eob = AOMMIN(cnt + 1, eobmax);
+ for (int i = eob; i < eobmax; i++) {
+ inv_input[scan[i]] = 0;
+ }
+
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+ for (int i = 0; i < run_times; ++i) {
+ ref_func_(inv_input, ref_output, stride, tx_type, bd);
+ }
+ aom_usec_timer_mark(&timer);
+ const double time1 = static_cast<double>(aom_usec_timer_elapsed(&timer));
+ aom_usec_timer_start(&timer);
+ for (int i = 0; i < run_times; ++i) {
+ target_func_(inv_input, output, stride, tx_type, tx_size, eob);
+ }
+ aom_usec_timer_mark(&timer);
+ const double time2 = static_cast<double>(aom_usec_timer_elapsed(&timer));
+ if (run_times > 10) {
+ printf("txfm[%d] %3dx%-3d:%7.2f/%7.2fns", tx_type, cols, rows, time1,
+ time2);
+ printf("(%3.2f)\n", time1 / time2);
+ }
+ for (int r = 0; r < rows; ++r) {
+ for (int c = 0; c < cols; ++c) {
+ uint8_t ref_value = static_cast<uint8_t>(ref_output[r * stride + c]);
+ ASSERT_EQ(ref_value, output[r * stride + c])
+ << "[" << r << "," << c << "] " << cnt
+ << " tx_size: " << static_cast<int>(tx_size)
+ << " tx_type: " << tx_type << " eob " << eob;
+ }
+ }
+ }
+}
+
+TEST_P(AV1LbdInvTxfm2d, match) {
+ for (int j = 0; j < (int)(TX_SIZES_ALL); ++j) {
+ for (int i = 0; i < (int)TX_TYPES; ++i) {
+ if (libaom_test::IsTxSizeTypeValid(static_cast<TX_SIZE>(j),
+ static_cast<TX_TYPE>(i))) {
+ RunAV1InvTxfm2dTest(static_cast<TX_TYPE>(i), static_cast<TX_SIZE>(j),
+ 1);
+ }
+ }
+ }
+}
+
+TEST_P(AV1LbdInvTxfm2d, DISABLED_Speed) {
+ for (int j = 0; j < (int)(TX_SIZES_ALL); ++j) {
+ for (int i = 0; i < (int)TX_TYPES; ++i) {
+ if (libaom_test::IsTxSizeTypeValid(static_cast<TX_SIZE>(j),
+ static_cast<TX_TYPE>(i))) {
+ RunAV1InvTxfm2dTest(static_cast<TX_TYPE>(i), static_cast<TX_SIZE>(j),
+ 10000000);
+ }
+ }
+ }
+}
+
+#if HAVE_SSSE3
+#if defined(_MSC_VER) || defined(__SSSE3__)
+#include "av1/common/x86/av1_inv_txfm_ssse3.h"
+INSTANTIATE_TEST_CASE_P(SSSE3, AV1LbdInvTxfm2d,
+ ::testing::Values(av1_lowbd_inv_txfm2d_add_ssse3));
+#endif // _MSC_VER || __SSSE3__
+#endif // HAVE_SSSE3
+
+#if HAVE_AVX2
+extern "C" void av1_lowbd_inv_txfm2d_add_avx2(const int32_t *input,
+ uint8_t *output, int stride,
+ TX_TYPE tx_type, TX_SIZE tx_size,
+ int eob);
+
+INSTANTIATE_TEST_CASE_P(AVX2, AV1LbdInvTxfm2d,
+ ::testing::Values(av1_lowbd_inv_txfm2d_add_avx2));
+#endif // HAVE_AVX2
+
+#if HAVE_NEON
+
+extern "C" void av1_lowbd_inv_txfm2d_add_neon(const int32_t *input,
+ uint8_t *output, int stride,
+ TX_TYPE tx_type, TX_SIZE tx_size,
+ int eob);
+
+INSTANTIATE_TEST_CASE_P(NEON, AV1LbdInvTxfm2d,
+ ::testing::Values(av1_lowbd_inv_txfm2d_add_neon));
+#endif // HAVE_NEON
+
+} // namespace
diff --git a/third_party/aom/test/av1_quantize_test.cc b/third_party/aom/test/av1_quantize_test.cc
new file mode 100644
index 0000000000..aaf0939181
--- /dev/null
+++ b/third_party/aom/test/av1_quantize_test.cc
@@ -0,0 +1,239 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+#include <stdlib.h>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_config.h"
+#include "config/av1_rtcd.h"
+
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "av1/common/scan.h"
+
+namespace {
+
+typedef void (*QuantizeFpFunc)(
+ const tran_low_t *coeff_ptr, intptr_t count, const int16_t *zbin_ptr,
+ const int16_t *round_ptr, const int16_t *quant_ptr,
+ const int16_t *quant_shift_ptr, tran_low_t *qcoeff_ptr,
+ tran_low_t *dqcoeff_ptr, const int16_t *dequant_ptr, uint16_t *eob_ptr,
+ const int16_t *scan, const int16_t *iscan, int log_scale);
+
+struct QuantizeFuncParams {
+ QuantizeFuncParams(QuantizeFpFunc qF = NULL, QuantizeFpFunc qRefF = NULL,
+ int count = 16)
+ : qFunc(qF), qFuncRef(qRefF), coeffCount(count) {}
+ QuantizeFpFunc qFunc;
+ QuantizeFpFunc qFuncRef;
+ int coeffCount;
+};
+
+using libaom_test::ACMRandom;
+
+const int numTests = 1000;
+const int maxSize = 1024;
+const int roundFactorRange = 127;
+const int dequantRange = 32768;
+const int coeffRange = (1 << 20) - 1;
+
+class AV1QuantizeTest : public ::testing::TestWithParam<QuantizeFuncParams> {
+ public:
+ void RunQuantizeTest() {
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ DECLARE_ALIGNED(16, tran_low_t, coeff_ptr[maxSize]);
+ DECLARE_ALIGNED(16, int16_t, zbin_ptr[8]);
+ DECLARE_ALIGNED(16, int16_t, round_ptr[8]);
+ DECLARE_ALIGNED(16, int16_t, quant_ptr[8]);
+ DECLARE_ALIGNED(16, int16_t, quant_shift_ptr[8]);
+ DECLARE_ALIGNED(16, tran_low_t, qcoeff_ptr[maxSize]);
+ DECLARE_ALIGNED(16, tran_low_t, dqcoeff_ptr[maxSize]);
+ DECLARE_ALIGNED(16, tran_low_t, ref_qcoeff_ptr[maxSize]);
+ DECLARE_ALIGNED(16, tran_low_t, ref_dqcoeff_ptr[maxSize]);
+ DECLARE_ALIGNED(16, int16_t, dequant_ptr[8]);
+ uint16_t eob;
+ uint16_t ref_eob;
+ int err_count_total = 0;
+ int first_failure = -1;
+ int count = params_.coeffCount;
+ const TX_SIZE txSize = getTxSize(count);
+ int log_scale = (txSize == TX_32X32);
+ QuantizeFpFunc quanFunc = params_.qFunc;
+ QuantizeFpFunc quanFuncRef = params_.qFuncRef;
+
+ const SCAN_ORDER scanOrder = av1_default_scan_orders[txSize];
+ for (int i = 0; i < numTests; i++) {
+ int err_count = 0;
+ ref_eob = eob = -1;
+ for (int j = 0; j < count; j++) {
+ coeff_ptr[j] = rnd(coeffRange);
+ }
+
+ for (int j = 0; j < 2; j++) {
+ zbin_ptr[j] = rnd.Rand16();
+ quant_shift_ptr[j] = rnd.Rand16();
+ // int16_t positive
+ dequant_ptr[j] = abs(rnd(dequantRange));
+ quant_ptr[j] = (1 << 16) / dequant_ptr[j];
+ round_ptr[j] = (abs(rnd(roundFactorRange)) * dequant_ptr[j]) >> 7;
+ }
+ for (int j = 2; j < 8; ++j) {
+ zbin_ptr[j] = zbin_ptr[1];
+ quant_shift_ptr[j] = quant_shift_ptr[1];
+ dequant_ptr[j] = dequant_ptr[1];
+ quant_ptr[j] = quant_ptr[1];
+ round_ptr[j] = round_ptr[1];
+ }
+ quanFuncRef(coeff_ptr, count, zbin_ptr, round_ptr, quant_ptr,
+ quant_shift_ptr, ref_qcoeff_ptr, ref_dqcoeff_ptr, dequant_ptr,
+ &ref_eob, scanOrder.scan, scanOrder.iscan, log_scale);
+
+ ASM_REGISTER_STATE_CHECK(
+ quanFunc(coeff_ptr, count, zbin_ptr, round_ptr, quant_ptr,
+ quant_shift_ptr, qcoeff_ptr, dqcoeff_ptr, dequant_ptr, &eob,
+ scanOrder.scan, scanOrder.iscan, log_scale));
+
+ for (int j = 0; j < count; ++j) {
+ err_count += (ref_qcoeff_ptr[j] != qcoeff_ptr[j]) |
+ (ref_dqcoeff_ptr[j] != dqcoeff_ptr[j]);
+ ASSERT_EQ(ref_qcoeff_ptr[j], qcoeff_ptr[j])
+ << "qcoeff error: i = " << i << " j = " << j << "\n";
+ EXPECT_EQ(ref_dqcoeff_ptr[j], dqcoeff_ptr[j])
+ << "dqcoeff error: i = " << i << " j = " << j << "\n";
+ }
+ EXPECT_EQ(ref_eob, eob) << "eob error: "
+ << "i = " << i << "\n";
+ err_count += (ref_eob != eob);
+ if (err_count && !err_count_total) {
+ first_failure = i;
+ }
+ err_count_total += err_count;
+ }
+ EXPECT_EQ(0, err_count_total)
+ << "Error: Quantization Test, C output doesn't match SSE2 output. "
+ << "First failed at test case " << first_failure;
+ }
+
+ void RunEobTest() {
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ DECLARE_ALIGNED(16, tran_low_t, coeff_ptr[maxSize]);
+ DECLARE_ALIGNED(16, int16_t, zbin_ptr[8]);
+ DECLARE_ALIGNED(16, int16_t, round_ptr[8]);
+ DECLARE_ALIGNED(16, int16_t, quant_ptr[8]);
+ DECLARE_ALIGNED(16, int16_t, quant_shift_ptr[8]);
+ DECLARE_ALIGNED(16, tran_low_t, qcoeff_ptr[maxSize]);
+ DECLARE_ALIGNED(16, tran_low_t, dqcoeff_ptr[maxSize]);
+ DECLARE_ALIGNED(16, tran_low_t, ref_qcoeff_ptr[maxSize]);
+ DECLARE_ALIGNED(16, tran_low_t, ref_dqcoeff_ptr[maxSize]);
+ DECLARE_ALIGNED(16, int16_t, dequant_ptr[8]);
+ uint16_t eob;
+ uint16_t ref_eob;
+ int count = params_.coeffCount;
+ const TX_SIZE txSize = getTxSize(count);
+ int log_scale = (txSize == TX_32X32);
+ QuantizeFpFunc quanFunc = params_.qFunc;
+ QuantizeFpFunc quanFuncRef = params_.qFuncRef;
+ const SCAN_ORDER scanOrder = av1_default_scan_orders[txSize];
+
+ for (int i = 0; i < numTests; i++) {
+ ref_eob = eob = -1;
+ for (int j = 0; j < count; j++) {
+ coeff_ptr[j] = 0;
+ }
+
+ coeff_ptr[rnd(count)] = rnd(coeffRange);
+ coeff_ptr[rnd(count)] = rnd(coeffRange);
+ coeff_ptr[rnd(count)] = rnd(coeffRange);
+
+ for (int j = 0; j < 2; j++) {
+ zbin_ptr[j] = rnd.Rand16();
+ quant_shift_ptr[j] = rnd.Rand16();
+ // int16_t positive
+ dequant_ptr[j] = abs(rnd(dequantRange));
+ quant_ptr[j] = (1 << 16) / dequant_ptr[j];
+ round_ptr[j] = (abs(rnd(roundFactorRange)) * dequant_ptr[j]) >> 7;
+ }
+ for (int j = 2; j < 8; ++j) {
+ zbin_ptr[j] = zbin_ptr[1];
+ quant_shift_ptr[j] = quant_shift_ptr[1];
+ dequant_ptr[j] = dequant_ptr[1];
+ quant_ptr[j] = quant_ptr[1];
+ round_ptr[j] = round_ptr[1];
+ }
+
+ quanFuncRef(coeff_ptr, count, zbin_ptr, round_ptr, quant_ptr,
+ quant_shift_ptr, ref_qcoeff_ptr, ref_dqcoeff_ptr, dequant_ptr,
+ &ref_eob, scanOrder.scan, scanOrder.iscan, log_scale);
+
+ ASM_REGISTER_STATE_CHECK(
+ quanFunc(coeff_ptr, count, zbin_ptr, round_ptr, quant_ptr,
+ quant_shift_ptr, qcoeff_ptr, dqcoeff_ptr, dequant_ptr, &eob,
+ scanOrder.scan, scanOrder.iscan, log_scale));
+ EXPECT_EQ(ref_eob, eob) << "eob error: "
+ << "i = " << i << "\n";
+ }
+ }
+
+ virtual void SetUp() { params_ = GetParam(); }
+
+ virtual void TearDown() { libaom_test::ClearSystemState(); }
+
+ virtual ~AV1QuantizeTest() {}
+
+ private:
+ TX_SIZE getTxSize(int count) {
+ switch (count) {
+ case 16: return TX_4X4;
+ case 64: return TX_8X8;
+ case 256: return TX_16X16;
+ case 1024: return TX_32X32;
+ default: return TX_4X4;
+ }
+ }
+
+ QuantizeFuncParams params_;
+};
+
+TEST_P(AV1QuantizeTest, BitExactCheck) { RunQuantizeTest(); }
+TEST_P(AV1QuantizeTest, EobVerify) { RunEobTest(); }
+
+#if HAVE_SSE4_1
+const QuantizeFuncParams qfps[4] = {
+ QuantizeFuncParams(&av1_highbd_quantize_fp_sse4_1, &av1_highbd_quantize_fp_c,
+ 16),
+ QuantizeFuncParams(&av1_highbd_quantize_fp_sse4_1, &av1_highbd_quantize_fp_c,
+ 64),
+ QuantizeFuncParams(&av1_highbd_quantize_fp_sse4_1, &av1_highbd_quantize_fp_c,
+ 256),
+ QuantizeFuncParams(&av1_highbd_quantize_fp_sse4_1, &av1_highbd_quantize_fp_c,
+ 1024),
+};
+
+INSTANTIATE_TEST_CASE_P(SSE4_1, AV1QuantizeTest, ::testing::ValuesIn(qfps));
+#endif // HAVE_SSE4_1
+
+#if HAVE_AVX2
+const QuantizeFuncParams qfps_avx2[4] = {
+ QuantizeFuncParams(&av1_highbd_quantize_fp_avx2, &av1_highbd_quantize_fp_c,
+ 16),
+ QuantizeFuncParams(&av1_highbd_quantize_fp_avx2, &av1_highbd_quantize_fp_c,
+ 64),
+ QuantizeFuncParams(&av1_highbd_quantize_fp_avx2, &av1_highbd_quantize_fp_c,
+ 256),
+ QuantizeFuncParams(&av1_highbd_quantize_fp_avx2, &av1_highbd_quantize_fp_c,
+ 1024),
+};
+
+INSTANTIATE_TEST_CASE_P(AVX2, AV1QuantizeTest, ::testing::ValuesIn(qfps_avx2));
+#endif // HAVE_AVX2
+
+} // namespace
diff --git a/third_party/aom/test/av1_round_shift_array_test.cc b/third_party/aom/test/av1_round_shift_array_test.cc
new file mode 100644
index 0000000000..181a394604
--- /dev/null
+++ b/third_party/aom/test/av1_round_shift_array_test.cc
@@ -0,0 +1,129 @@
+/*
+ * Copyright (c) 2018, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <math.h>
+#include <stdio.h>
+#include <stdlib.h>
+
+#include "config/aom_dsp_rtcd.h"
+
+#include "aom_mem/aom_mem.h"
+#include "aom_ports/aom_timer.h"
+#include "aom_ports/mem.h"
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/util.h"
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+namespace AV1CompRoundShift {
+
+typedef void (*comp_round_shift_array_func)(int32_t *arr, int size, int bit);
+
+#if HAVE_SSE4_1 || HAVE_NEON
+const int kValidBitCheck[] = {
+ -4, -3, -2, -1, 0, 1, 2, 3, 4,
+};
+#endif // HAVE_SSE4_1 || HAVE_NEON
+
+typedef ::testing::tuple<comp_round_shift_array_func, BLOCK_SIZE, int>
+ CompRoundShiftParam;
+
+class AV1CompRoundShiftTest
+ : public ::testing::TestWithParam<CompRoundShiftParam> {
+ public:
+ ~AV1CompRoundShiftTest();
+
+ void SetUp() { rnd_.Reset(libaom_test::ACMRandom::DeterministicSeed()); }
+ void TearDown() { libaom_test::ClearSystemState(); }
+
+ protected:
+ void RunCheckOutput(comp_round_shift_array_func test_impl, BLOCK_SIZE bsize,
+ int bit);
+ void RunSpeedTest(comp_round_shift_array_func test_impl, BLOCK_SIZE bsize,
+ int bit);
+
+ libaom_test::ACMRandom rnd_;
+};
+
+AV1CompRoundShiftTest::~AV1CompRoundShiftTest() { ; }
+
+void AV1CompRoundShiftTest::RunCheckOutput(
+ comp_round_shift_array_func test_impl, BLOCK_SIZE bsize, int bit) {
+ const int w = block_size_wide[bsize];
+ const int h = block_size_high[bsize];
+ const int blk_wd = 64;
+ DECLARE_ALIGNED(32, int32_t, pred_[blk_wd]);
+ DECLARE_ALIGNED(32, int32_t, ref_buffer_[blk_wd]);
+ for (int i = 0; i < (blk_wd); ++i) {
+ ref_buffer_[i] = pred_[i] = rnd_.Rand31() / 16;
+ }
+ av1_round_shift_array_c(ref_buffer_, w, bit);
+ test_impl(pred_, w, bit);
+ for (int x = 0; x < w; ++x) {
+ ASSERT_EQ(ref_buffer_[x], pred_[x]) << w << "x" << h << "mismatch @"
+ << "(" << x << ")";
+ }
+}
+
+void AV1CompRoundShiftTest::RunSpeedTest(comp_round_shift_array_func test_impl,
+ BLOCK_SIZE bsize, int bit) {
+ const int w = block_size_wide[bsize];
+ const int h = block_size_high[bsize];
+ const int blk_wd = 64;
+ DECLARE_ALIGNED(32, int32_t, ref_buffer_[blk_wd]);
+ for (int i = 0; i < (blk_wd); ++i) {
+ ref_buffer_[i] = rnd_.Rand31();
+ }
+
+ const int num_loops = 1000000000 / (w + h);
+ comp_round_shift_array_func funcs[2] = { av1_round_shift_array_c, test_impl };
+ double elapsed_time[2] = { 0 };
+ for (int i = 0; i < 2; ++i) {
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+ comp_round_shift_array_func func = funcs[i];
+ for (int j = 0; j < num_loops; ++j) {
+ func(ref_buffer_, w, bit);
+ }
+ aom_usec_timer_mark(&timer);
+ double time = static_cast<double>(aom_usec_timer_elapsed(&timer));
+ elapsed_time[i] = 1000.0 * time / num_loops;
+ }
+ printf("av1_round_shift_array %3dx%-3d: bit : %d %7.2f/%7.2fns", w, h, bit,
+ elapsed_time[0], elapsed_time[1]);
+ printf("(%3.2f)\n", elapsed_time[0] / elapsed_time[1]);
+}
+
+TEST_P(AV1CompRoundShiftTest, CheckOutput) {
+ RunCheckOutput(GET_PARAM(0), GET_PARAM(1), GET_PARAM(2));
+}
+
+TEST_P(AV1CompRoundShiftTest, DISABLED_Speed) {
+ RunSpeedTest(GET_PARAM(0), GET_PARAM(1), GET_PARAM(2));
+}
+
+#if HAVE_SSE4_1
+INSTANTIATE_TEST_CASE_P(
+ SSE4_1, AV1CompRoundShiftTest,
+ ::testing::Combine(::testing::Values(&av1_round_shift_array_sse4_1),
+ ::testing::ValuesIn(txsize_to_bsize),
+ ::testing::ValuesIn(kValidBitCheck)));
+#endif
+
+#if HAVE_NEON
+INSTANTIATE_TEST_CASE_P(
+ NEON, AV1CompRoundShiftTest,
+ ::testing::Combine(::testing::Values(&av1_round_shift_array_neon),
+ ::testing::ValuesIn(txsize_to_bsize),
+ ::testing::ValuesIn(kValidBitCheck)));
+#endif
+
+}; // namespace AV1CompRoundShift
diff --git a/third_party/aom/test/av1_txfm_test.cc b/third_party/aom/test/av1_txfm_test.cc
new file mode 100644
index 0000000000..d5b0ce3255
--- /dev/null
+++ b/third_party/aom/test/av1_txfm_test.cc
@@ -0,0 +1,371 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <stdio.h>
+#include "test/av1_txfm_test.h"
+
+namespace libaom_test {
+
+int get_txfm1d_size(TX_SIZE tx_size) { return tx_size_wide[tx_size]; }
+
+void get_txfm1d_type(TX_TYPE txfm2d_type, TYPE_TXFM *type0, TYPE_TXFM *type1) {
+ switch (txfm2d_type) {
+ case DCT_DCT:
+ *type0 = TYPE_DCT;
+ *type1 = TYPE_DCT;
+ break;
+ case ADST_DCT:
+ *type0 = TYPE_ADST;
+ *type1 = TYPE_DCT;
+ break;
+ case DCT_ADST:
+ *type0 = TYPE_DCT;
+ *type1 = TYPE_ADST;
+ break;
+ case ADST_ADST:
+ *type0 = TYPE_ADST;
+ *type1 = TYPE_ADST;
+ break;
+ case FLIPADST_DCT:
+ *type0 = TYPE_ADST;
+ *type1 = TYPE_DCT;
+ break;
+ case DCT_FLIPADST:
+ *type0 = TYPE_DCT;
+ *type1 = TYPE_ADST;
+ break;
+ case FLIPADST_FLIPADST:
+ *type0 = TYPE_ADST;
+ *type1 = TYPE_ADST;
+ break;
+ case ADST_FLIPADST:
+ *type0 = TYPE_ADST;
+ *type1 = TYPE_ADST;
+ break;
+ case FLIPADST_ADST:
+ *type0 = TYPE_ADST;
+ *type1 = TYPE_ADST;
+ break;
+ case IDTX:
+ *type0 = TYPE_IDTX;
+ *type1 = TYPE_IDTX;
+ break;
+ case H_DCT:
+ *type0 = TYPE_IDTX;
+ *type1 = TYPE_DCT;
+ break;
+ case V_DCT:
+ *type0 = TYPE_DCT;
+ *type1 = TYPE_IDTX;
+ break;
+ case H_ADST:
+ *type0 = TYPE_IDTX;
+ *type1 = TYPE_ADST;
+ break;
+ case V_ADST:
+ *type0 = TYPE_ADST;
+ *type1 = TYPE_IDTX;
+ break;
+ case H_FLIPADST:
+ *type0 = TYPE_IDTX;
+ *type1 = TYPE_ADST;
+ break;
+ case V_FLIPADST:
+ *type0 = TYPE_ADST;
+ *type1 = TYPE_IDTX;
+ break;
+ default:
+ *type0 = TYPE_DCT;
+ *type1 = TYPE_DCT;
+ assert(0);
+ break;
+ }
+}
+
+double Sqrt2 = pow(2, 0.5);
+double invSqrt2 = 1 / pow(2, 0.5);
+
+double dct_matrix(double n, double k, int size) {
+ return cos(M_PI * (2 * n + 1) * k / (2 * size));
+}
+
+void reference_dct_1d(const double *in, double *out, int size) {
+ for (int k = 0; k < size; ++k) {
+ out[k] = 0;
+ for (int n = 0; n < size; ++n) {
+ out[k] += in[n] * dct_matrix(n, k, size);
+ }
+ if (k == 0) out[k] = out[k] * invSqrt2;
+ }
+}
+
+void reference_idct_1d(const double *in, double *out, int size) {
+ for (int k = 0; k < size; ++k) {
+ out[k] = 0;
+ for (int n = 0; n < size; ++n) {
+ if (n == 0)
+ out[k] += invSqrt2 * in[n] * dct_matrix(k, n, size);
+ else
+ out[k] += in[n] * dct_matrix(k, n, size);
+ }
+ }
+}
+
+// TODO(any): Copied from the old 'fadst4' (same as the new 'av1_fadst4_new'
+// function). Should be replaced by a proper reference function that takes
+// 'double' input & output.
+static void fadst4_new(const tran_low_t *input, tran_low_t *output) {
+ tran_high_t x0, x1, x2, x3;
+ tran_high_t s0, s1, s2, s3, s4, s5, s6, s7;
+
+ x0 = input[0];
+ x1 = input[1];
+ x2 = input[2];
+ x3 = input[3];
+
+ if (!(x0 | x1 | x2 | x3)) {
+ output[0] = output[1] = output[2] = output[3] = 0;
+ return;
+ }
+
+ s0 = sinpi_1_9 * x0;
+ s1 = sinpi_4_9 * x0;
+ s2 = sinpi_2_9 * x1;
+ s3 = sinpi_1_9 * x1;
+ s4 = sinpi_3_9 * x2;
+ s5 = sinpi_4_9 * x3;
+ s6 = sinpi_2_9 * x3;
+ s7 = x0 + x1 - x3;
+
+ x0 = s0 + s2 + s5;
+ x1 = sinpi_3_9 * s7;
+ x2 = s1 - s3 + s6;
+ x3 = s4;
+
+ s0 = x0 + x3;
+ s1 = x1;
+ s2 = x2 - x3;
+ s3 = x2 - x0 + x3;
+
+ // 1-D transform scaling factor is sqrt(2).
+ output[0] = (tran_low_t)fdct_round_shift(s0);
+ output[1] = (tran_low_t)fdct_round_shift(s1);
+ output[2] = (tran_low_t)fdct_round_shift(s2);
+ output[3] = (tran_low_t)fdct_round_shift(s3);
+}
+
+void reference_adst_1d(const double *in, double *out, int size) {
+ if (size == 4) { // Special case.
+ tran_low_t int_input[4];
+ for (int i = 0; i < 4; ++i) {
+ int_input[i] = static_cast<tran_low_t>(round(in[i]));
+ }
+ tran_low_t int_output[4];
+ fadst4_new(int_input, int_output);
+ for (int i = 0; i < 4; ++i) {
+ out[i] = int_output[i];
+ }
+ return;
+ }
+
+ for (int k = 0; k < size; ++k) {
+ out[k] = 0;
+ for (int n = 0; n < size; ++n) {
+ out[k] += in[n] * sin(M_PI * (2 * n + 1) * (2 * k + 1) / (4 * size));
+ }
+ }
+}
+
+void reference_idtx_1d(const double *in, double *out, int size) {
+ double scale = 0;
+ if (size == 4)
+ scale = Sqrt2;
+ else if (size == 8)
+ scale = 2;
+ else if (size == 16)
+ scale = 2 * Sqrt2;
+ else if (size == 32)
+ scale = 4;
+ else if (size == 64)
+ scale = 4 * Sqrt2;
+ for (int k = 0; k < size; ++k) {
+ out[k] = in[k] * scale;
+ }
+}
+
+void reference_hybrid_1d(double *in, double *out, int size, int type) {
+ if (type == TYPE_DCT)
+ reference_dct_1d(in, out, size);
+ else if (type == TYPE_ADST)
+ reference_adst_1d(in, out, size);
+ else
+ reference_idtx_1d(in, out, size);
+}
+
+double get_amplification_factor(TX_TYPE tx_type, TX_SIZE tx_size) {
+ TXFM_2D_FLIP_CFG fwd_txfm_flip_cfg;
+ av1_get_fwd_txfm_cfg(tx_type, tx_size, &fwd_txfm_flip_cfg);
+ const int tx_width = tx_size_wide[fwd_txfm_flip_cfg.tx_size];
+ const int tx_height = tx_size_high[fwd_txfm_flip_cfg.tx_size];
+ const int8_t *shift = fwd_txfm_flip_cfg.shift;
+ const int amplify_bit = shift[0] + shift[1] + shift[2];
+ double amplify_factor =
+ amplify_bit >= 0 ? (1 << amplify_bit) : (1.0 / (1 << -amplify_bit));
+
+ // For rectangular transforms, we need to multiply by an extra factor.
+ const int rect_type = get_rect_tx_log_ratio(tx_width, tx_height);
+ if (abs(rect_type) == 1) {
+ amplify_factor *= pow(2, 0.5);
+ }
+ return amplify_factor;
+}
+
+void reference_hybrid_2d(double *in, double *out, TX_TYPE tx_type,
+ TX_SIZE tx_size) {
+ // Get transform type and size of each dimension.
+ TYPE_TXFM type0;
+ TYPE_TXFM type1;
+ get_txfm1d_type(tx_type, &type0, &type1);
+ const int tx_width = tx_size_wide[tx_size];
+ const int tx_height = tx_size_high[tx_size];
+
+ double *const temp_in = new double[AOMMAX(tx_width, tx_height)];
+ double *const temp_out = new double[AOMMAX(tx_width, tx_height)];
+ double *const out_interm = new double[tx_width * tx_height];
+ const int stride = tx_width;
+
+ // Transform columns.
+ for (int c = 0; c < tx_width; ++c) {
+ for (int r = 0; r < tx_height; ++r) {
+ temp_in[r] = in[r * stride + c];
+ }
+ reference_hybrid_1d(temp_in, temp_out, tx_height, type0);
+ for (int r = 0; r < tx_height; ++r) {
+ out_interm[r * stride + c] = temp_out[r];
+ }
+ }
+
+ // Transform rows.
+ for (int r = 0; r < tx_height; ++r) {
+ reference_hybrid_1d(out_interm + r * stride, out + r * stride, tx_width,
+ type1);
+ }
+
+ delete[] temp_in;
+ delete[] temp_out;
+ delete[] out_interm;
+
+ // These transforms use an approximate 2D DCT transform, by only keeping the
+ // top-left quarter of the coefficients, and repacking them in the first
+ // quarter indices.
+ // TODO(urvang): Refactor this code.
+ if (tx_width == 64 && tx_height == 64) { // tx_size == TX_64X64
+ // Zero out top-right 32x32 area.
+ for (int row = 0; row < 32; ++row) {
+ memset(out + row * 64 + 32, 0, 32 * sizeof(*out));
+ }
+ // Zero out the bottom 64x32 area.
+ memset(out + 32 * 64, 0, 32 * 64 * sizeof(*out));
+ // Re-pack non-zero coeffs in the first 32x32 indices.
+ for (int row = 1; row < 32; ++row) {
+ memcpy(out + row * 32, out + row * 64, 32 * sizeof(*out));
+ }
+ } else if (tx_width == 32 && tx_height == 64) { // tx_size == TX_32X64
+ // Zero out the bottom 32x32 area.
+ memset(out + 32 * 32, 0, 32 * 32 * sizeof(*out));
+ // Note: no repacking needed here.
+ } else if (tx_width == 64 && tx_height == 32) { // tx_size == TX_64X32
+ // Zero out right 32x32 area.
+ for (int row = 0; row < 32; ++row) {
+ memset(out + row * 64 + 32, 0, 32 * sizeof(*out));
+ }
+ // Re-pack non-zero coeffs in the first 32x32 indices.
+ for (int row = 1; row < 32; ++row) {
+ memcpy(out + row * 32, out + row * 64, 32 * sizeof(*out));
+ }
+ } else if (tx_width == 16 && tx_height == 64) { // tx_size == TX_16X64
+ // Zero out the bottom 16x32 area.
+ memset(out + 16 * 32, 0, 16 * 32 * sizeof(*out));
+ // Note: no repacking needed here.
+ } else if (tx_width == 64 && tx_height == 16) { // tx_size == TX_64X16
+ // Zero out right 32x16 area.
+ for (int row = 0; row < 16; ++row) {
+ memset(out + row * 64 + 32, 0, 32 * sizeof(*out));
+ }
+ // Re-pack non-zero coeffs in the first 32x16 indices.
+ for (int row = 1; row < 16; ++row) {
+ memcpy(out + row * 32, out + row * 64, 32 * sizeof(*out));
+ }
+ }
+
+ // Apply appropriate scale.
+ const double amplify_factor = get_amplification_factor(tx_type, tx_size);
+ for (int c = 0; c < tx_width; ++c) {
+ for (int r = 0; r < tx_height; ++r) {
+ out[r * stride + c] *= amplify_factor;
+ }
+ }
+}
+
+template <typename Type>
+void fliplr(Type *dest, int width, int height, int stride) {
+ for (int r = 0; r < height; ++r) {
+ for (int c = 0; c < width / 2; ++c) {
+ const Type tmp = dest[r * stride + c];
+ dest[r * stride + c] = dest[r * stride + width - 1 - c];
+ dest[r * stride + width - 1 - c] = tmp;
+ }
+ }
+}
+
+template <typename Type>
+void flipud(Type *dest, int width, int height, int stride) {
+ for (int c = 0; c < width; ++c) {
+ for (int r = 0; r < height / 2; ++r) {
+ const Type tmp = dest[r * stride + c];
+ dest[r * stride + c] = dest[(height - 1 - r) * stride + c];
+ dest[(height - 1 - r) * stride + c] = tmp;
+ }
+ }
+}
+
+template <typename Type>
+void fliplrud(Type *dest, int width, int height, int stride) {
+ for (int r = 0; r < height / 2; ++r) {
+ for (int c = 0; c < width; ++c) {
+ const Type tmp = dest[r * stride + c];
+ dest[r * stride + c] = dest[(height - 1 - r) * stride + width - 1 - c];
+ dest[(height - 1 - r) * stride + width - 1 - c] = tmp;
+ }
+ }
+}
+
+template void fliplr<double>(double *dest, int width, int height, int stride);
+template void flipud<double>(double *dest, int width, int height, int stride);
+template void fliplrud<double>(double *dest, int width, int height, int stride);
+
+int bd_arr[BD_NUM] = { 8, 10, 12 };
+
+int8_t low_range_arr[BD_NUM] = { 18, 32, 32 };
+int8_t high_range_arr[BD_NUM] = { 32, 32, 32 };
+
+void txfm_stage_range_check(const int8_t *stage_range, int stage_num,
+ int8_t cos_bit, int low_range, int high_range) {
+ for (int i = 0; i < stage_num; ++i) {
+ EXPECT_LE(stage_range[i], low_range);
+ ASSERT_LE(stage_range[i] + cos_bit, high_range) << "stage = " << i;
+ }
+ for (int i = 0; i < stage_num - 1; ++i) {
+ // make sure there is no overflow while doing half_btf()
+ ASSERT_LE(stage_range[i + 1] + cos_bit, high_range) << "stage = " << i;
+ }
+}
+} // namespace libaom_test
diff --git a/third_party/aom/test/av1_txfm_test.h b/third_party/aom/test/av1_txfm_test.h
new file mode 100644
index 0000000000..a181647411
--- /dev/null
+++ b/third_party/aom/test/av1_txfm_test.h
@@ -0,0 +1,135 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#ifndef AOM_TEST_AV1_TXFM_TEST_H_
+#define AOM_TEST_AV1_TXFM_TEST_H_
+
+#include <stdio.h>
+#include <stdlib.h>
+#ifdef _MSC_VER
+#define _USE_MATH_DEFINES
+#endif
+#include <math.h>
+
+#include "config/av1_rtcd.h"
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "test/acm_random.h"
+#include "av1/common/av1_txfm.h"
+#include "av1/common/blockd.h"
+#include "av1/common/enums.h"
+
+namespace libaom_test {
+typedef enum {
+ TYPE_DCT = 0,
+ TYPE_ADST,
+ TYPE_IDTX,
+ TYPE_IDCT,
+ TYPE_IADST,
+ TYPE_LAST
+} TYPE_TXFM;
+
+int get_txfm1d_size(TX_SIZE tx_size);
+
+void get_txfm1d_type(TX_TYPE txfm2d_type, TYPE_TXFM *type0, TYPE_TXFM *type1);
+
+void reference_dct_1d(const double *in, double *out, int size);
+void reference_idct_1d(const double *in, double *out, int size);
+
+void reference_adst_1d(const double *in, double *out, int size);
+
+void reference_hybrid_1d(double *in, double *out, int size, int type);
+
+double get_amplification_factor(TX_TYPE tx_type, TX_SIZE tx_size);
+
+void reference_hybrid_2d(double *in, double *out, TX_TYPE tx_type,
+ TX_SIZE tx_size);
+template <typename Type1, typename Type2>
+static double compute_avg_abs_error(const Type1 *a, const Type2 *b,
+ const int size) {
+ double error = 0;
+ for (int i = 0; i < size; i++) {
+ error += fabs(static_cast<double>(a[i]) - static_cast<double>(b[i]));
+ }
+ error = error / size;
+ return error;
+}
+
+template <typename Type>
+void fliplr(Type *dest, int width, int height, int stride);
+
+template <typename Type>
+void flipud(Type *dest, int width, int height, int stride);
+
+template <typename Type>
+void fliplrud(Type *dest, int width, int height, int stride);
+
+typedef void (*TxfmFunc)(const int32_t *in, int32_t *out, const int8_t cos_bit,
+ const int8_t *range_bit);
+
+typedef void (*InvTxfm2dFunc)(const int32_t *, uint16_t *, int, TX_TYPE, int);
+typedef void (*LbdInvTxfm2dFunc)(const int32_t *, uint8_t *, int, TX_TYPE,
+ TX_SIZE, int);
+
+static const int bd = 10;
+static const int input_base = (1 << bd);
+
+static INLINE bool IsTxSizeTypeValid(TX_SIZE tx_size, TX_TYPE tx_type) {
+ const TX_SIZE tx_size_sqr_up = txsize_sqr_up_map[tx_size];
+ TxSetType tx_set_type;
+ if (tx_size_sqr_up > TX_32X32) {
+ tx_set_type = EXT_TX_SET_DCTONLY;
+ } else if (tx_size_sqr_up == TX_32X32) {
+ tx_set_type = EXT_TX_SET_DCT_IDTX;
+ } else {
+ tx_set_type = EXT_TX_SET_ALL16;
+ }
+ return av1_ext_tx_used[tx_set_type][tx_type] != 0;
+}
+
+#if CONFIG_AV1_ENCODER
+
+static const FwdTxfm2dFunc fwd_txfm_func_ls[TX_SIZES_ALL] = {
+ av1_fwd_txfm2d_4x4_c, av1_fwd_txfm2d_8x8_c, av1_fwd_txfm2d_16x16_c,
+ av1_fwd_txfm2d_32x32_c, av1_fwd_txfm2d_64x64_c, av1_fwd_txfm2d_4x8_c,
+ av1_fwd_txfm2d_8x4_c, av1_fwd_txfm2d_8x16_c, av1_fwd_txfm2d_16x8_c,
+ av1_fwd_txfm2d_16x32_c, av1_fwd_txfm2d_32x16_c, av1_fwd_txfm2d_32x64_c,
+ av1_fwd_txfm2d_64x32_c, av1_fwd_txfm2d_4x16_c, av1_fwd_txfm2d_16x4_c,
+ av1_fwd_txfm2d_8x32_c, av1_fwd_txfm2d_32x8_c, av1_fwd_txfm2d_16x64_c,
+ av1_fwd_txfm2d_64x16_c,
+};
+#endif
+
+static const InvTxfm2dFunc inv_txfm_func_ls[TX_SIZES_ALL] = {
+ av1_inv_txfm2d_add_4x4_c, av1_inv_txfm2d_add_8x8_c,
+ av1_inv_txfm2d_add_16x16_c, av1_inv_txfm2d_add_32x32_c,
+ av1_inv_txfm2d_add_64x64_c, av1_inv_txfm2d_add_4x8_c,
+ av1_inv_txfm2d_add_8x4_c, av1_inv_txfm2d_add_8x16_c,
+ av1_inv_txfm2d_add_16x8_c, av1_inv_txfm2d_add_16x32_c,
+ av1_inv_txfm2d_add_32x16_c, av1_inv_txfm2d_add_32x64_c,
+ av1_inv_txfm2d_add_64x32_c, av1_inv_txfm2d_add_4x16_c,
+ av1_inv_txfm2d_add_16x4_c, av1_inv_txfm2d_add_8x32_c,
+ av1_inv_txfm2d_add_32x8_c, av1_inv_txfm2d_add_16x64_c,
+ av1_inv_txfm2d_add_64x16_c,
+};
+
+#define BD_NUM 3
+
+extern int bd_arr[];
+extern int8_t low_range_arr[];
+extern int8_t high_range_arr[];
+
+void txfm_stage_range_check(const int8_t *stage_range, int stage_num,
+ const int8_t cos_bit, int low_range,
+ int high_range);
+} // namespace libaom_test
+#endif // AOM_TEST_AV1_TXFM_TEST_H_
diff --git a/third_party/aom/test/av1_wedge_utils_test.cc b/third_party/aom/test/av1_wedge_utils_test.cc
new file mode 100644
index 0000000000..e8fbe69a4c
--- /dev/null
+++ b/third_party/aom/test/av1_wedge_utils_test.cc
@@ -0,0 +1,390 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_config.h"
+#include "config/aom_dsp_rtcd.h"
+#include "config/av1_rtcd.h"
+
+#include "aom_dsp/aom_dsp_common.h"
+
+#include "av1/common/enums.h"
+
+#include "test/acm_random.h"
+#include "test/function_equivalence_test.h"
+#include "test/register_state_check.h"
+
+#define WEDGE_WEIGHT_BITS 6
+#define MAX_MASK_VALUE (1 << (WEDGE_WEIGHT_BITS))
+
+using libaom_test::ACMRandom;
+using libaom_test::FunctionEquivalenceTest;
+
+namespace {
+
+static const int16_t kInt13Max = (1 << 12) - 1;
+
+//////////////////////////////////////////////////////////////////////////////
+// av1_wedge_sse_from_residuals - functionality
+//////////////////////////////////////////////////////////////////////////////
+
+class WedgeUtilsSSEFuncTest : public testing::Test {
+ protected:
+ WedgeUtilsSSEFuncTest() : rng_(ACMRandom::DeterministicSeed()) {}
+
+ static const int kIterations = 1000;
+
+ ACMRandom rng_;
+};
+
+static void equiv_blend_residuals(int16_t *r, const int16_t *r0,
+ const int16_t *r1, const uint8_t *m, int N) {
+ for (int i = 0; i < N; i++) {
+ const int32_t m0 = m[i];
+ const int32_t m1 = MAX_MASK_VALUE - m0;
+ const int16_t R = m0 * r0[i] + m1 * r1[i];
+ // Note that this rounding is designed to match the result
+ // you would get when actually blending the 2 predictors and computing
+ // the residuals.
+ r[i] = ROUND_POWER_OF_TWO(R - 1, WEDGE_WEIGHT_BITS);
+ }
+}
+
+static uint64_t equiv_sse_from_residuals(const int16_t *r0, const int16_t *r1,
+ const uint8_t *m, int N) {
+ uint64_t acc = 0;
+ for (int i = 0; i < N; i++) {
+ const int32_t m0 = m[i];
+ const int32_t m1 = MAX_MASK_VALUE - m0;
+ const int16_t R = m0 * r0[i] + m1 * r1[i];
+ const int32_t r = ROUND_POWER_OF_TWO(R - 1, WEDGE_WEIGHT_BITS);
+ acc += r * r;
+ }
+ return acc;
+}
+
+TEST_F(WedgeUtilsSSEFuncTest, ResidualBlendingEquiv) {
+ DECLARE_ALIGNED(32, uint8_t, s[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, uint8_t, p0[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, uint8_t, p1[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, uint8_t, p[MAX_SB_SQUARE]);
+
+ DECLARE_ALIGNED(32, int16_t, r0[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int16_t, r1[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int16_t, r_ref[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int16_t, r_tst[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, uint8_t, m[MAX_SB_SQUARE]);
+
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) {
+ s[i] = rng_.Rand8();
+ m[i] = rng_(MAX_MASK_VALUE + 1);
+ }
+
+ const int w = 1 << (rng_(MAX_SB_SIZE_LOG2 + 1 - 3) + 3);
+ const int h = 1 << (rng_(MAX_SB_SIZE_LOG2 + 1 - 3) + 3);
+ const int N = w * h;
+
+ for (int j = 0; j < N; j++) {
+ p0[j] = clamp(s[j] + rng_(33) - 16, 0, UINT8_MAX);
+ p1[j] = clamp(s[j] + rng_(33) - 16, 0, UINT8_MAX);
+ }
+
+ aom_blend_a64_mask(p, w, p0, w, p1, w, m, w, w, h, 0, 0);
+
+ aom_subtract_block(h, w, r0, w, s, w, p0, w);
+ aom_subtract_block(h, w, r1, w, s, w, p1, w);
+
+ aom_subtract_block(h, w, r_ref, w, s, w, p, w);
+ equiv_blend_residuals(r_tst, r0, r1, m, N);
+
+ for (int i = 0; i < N; ++i) ASSERT_EQ(r_ref[i], r_tst[i]);
+
+ uint64_t ref_sse = aom_sum_squares_i16(r_ref, N);
+ uint64_t tst_sse = equiv_sse_from_residuals(r0, r1, m, N);
+
+ ASSERT_EQ(ref_sse, tst_sse);
+ }
+}
+
+static uint64_t sse_from_residuals(const int16_t *r0, const int16_t *r1,
+ const uint8_t *m, int N) {
+ uint64_t acc = 0;
+ for (int i = 0; i < N; i++) {
+ const int32_t m0 = m[i];
+ const int32_t m1 = MAX_MASK_VALUE - m0;
+ const int32_t r = m0 * r0[i] + m1 * r1[i];
+ acc += r * r;
+ }
+ return ROUND_POWER_OF_TWO(acc, 2 * WEDGE_WEIGHT_BITS);
+}
+
+TEST_F(WedgeUtilsSSEFuncTest, ResidualBlendingMethod) {
+ DECLARE_ALIGNED(32, int16_t, r0[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int16_t, r1[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int16_t, d[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, uint8_t, m[MAX_SB_SQUARE]);
+
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) {
+ r1[i] = rng_(2 * INT8_MAX - 2 * INT8_MIN + 1) + 2 * INT8_MIN;
+ d[i] = rng_(2 * INT8_MAX - 2 * INT8_MIN + 1) + 2 * INT8_MIN;
+ m[i] = rng_(MAX_MASK_VALUE + 1);
+ }
+
+ const int N = 64 * (rng_(MAX_SB_SQUARE / 64) + 1);
+
+ for (int i = 0; i < N; i++) r0[i] = r1[i] + d[i];
+
+ const uint64_t ref_res = sse_from_residuals(r0, r1, m, N);
+ const uint64_t tst_res = av1_wedge_sse_from_residuals(r1, d, m, N);
+
+ ASSERT_EQ(ref_res, tst_res);
+ }
+}
+
+//////////////////////////////////////////////////////////////////////////////
+// av1_wedge_sse_from_residuals - optimizations
+//////////////////////////////////////////////////////////////////////////////
+
+typedef uint64_t (*FSSE)(const int16_t *r1, const int16_t *d, const uint8_t *m,
+ int N);
+typedef libaom_test::FuncParam<FSSE> TestFuncsFSSE;
+
+class WedgeUtilsSSEOptTest : public FunctionEquivalenceTest<FSSE> {
+ protected:
+ static const int kIterations = 10000;
+};
+
+TEST_P(WedgeUtilsSSEOptTest, RandomValues) {
+ DECLARE_ALIGNED(32, int16_t, r1[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int16_t, d[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, uint8_t, m[MAX_SB_SQUARE]);
+
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) {
+ r1[i] = rng_(2 * kInt13Max + 1) - kInt13Max;
+ d[i] = rng_(2 * kInt13Max + 1) - kInt13Max;
+ m[i] = rng_(MAX_MASK_VALUE + 1);
+ }
+
+ const int N = 64 * (rng_(MAX_SB_SQUARE / 64) + 1);
+
+ const uint64_t ref_res = params_.ref_func(r1, d, m, N);
+ uint64_t tst_res;
+ ASM_REGISTER_STATE_CHECK(tst_res = params_.tst_func(r1, d, m, N));
+
+ ASSERT_EQ(ref_res, tst_res);
+ }
+}
+
+TEST_P(WedgeUtilsSSEOptTest, ExtremeValues) {
+ DECLARE_ALIGNED(32, int16_t, r1[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int16_t, d[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, uint8_t, m[MAX_SB_SQUARE]);
+
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ if (rng_(2)) {
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) r1[i] = kInt13Max;
+ } else {
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) r1[i] = -kInt13Max;
+ }
+
+ if (rng_(2)) {
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) d[i] = kInt13Max;
+ } else {
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) d[i] = -kInt13Max;
+ }
+
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) m[i] = MAX_MASK_VALUE;
+
+ const int N = 64 * (rng_(MAX_SB_SQUARE / 64) + 1);
+
+ const uint64_t ref_res = params_.ref_func(r1, d, m, N);
+ uint64_t tst_res;
+ ASM_REGISTER_STATE_CHECK(tst_res = params_.tst_func(r1, d, m, N));
+
+ ASSERT_EQ(ref_res, tst_res);
+ }
+}
+
+//////////////////////////////////////////////////////////////////////////////
+// av1_wedge_sign_from_residuals
+//////////////////////////////////////////////////////////////////////////////
+
+typedef int (*FSign)(const int16_t *ds, const uint8_t *m, int N, int64_t limit);
+typedef libaom_test::FuncParam<FSign> TestFuncsFSign;
+
+class WedgeUtilsSignOptTest : public FunctionEquivalenceTest<FSign> {
+ protected:
+ static const int kIterations = 10000;
+ static const int kMaxSize = 8196; // Size limited by SIMD implementation.
+};
+
+TEST_P(WedgeUtilsSignOptTest, RandomValues) {
+ DECLARE_ALIGNED(32, int16_t, r0[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int16_t, r1[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int16_t, ds[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, uint8_t, m[MAX_SB_SQUARE]);
+
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) {
+ r0[i] = rng_(2 * kInt13Max + 1) - kInt13Max;
+ r1[i] = rng_(2 * kInt13Max + 1) - kInt13Max;
+ m[i] = rng_(MAX_MASK_VALUE + 1);
+ }
+
+ const int maxN = AOMMIN(kMaxSize, MAX_SB_SQUARE);
+ const int N = 64 * (rng_(maxN / 64 - 1) + 1);
+
+ int64_t limit;
+ limit = (int64_t)aom_sum_squares_i16(r0, N);
+ limit -= (int64_t)aom_sum_squares_i16(r1, N);
+ limit *= (1 << WEDGE_WEIGHT_BITS) / 2;
+
+ for (int i = 0; i < N; i++)
+ ds[i] = clamp(r0[i] * r0[i] - r1[i] * r1[i], INT16_MIN, INT16_MAX);
+
+ const int ref_res = params_.ref_func(ds, m, N, limit);
+ int tst_res;
+ ASM_REGISTER_STATE_CHECK(tst_res = params_.tst_func(ds, m, N, limit));
+
+ ASSERT_EQ(ref_res, tst_res);
+ }
+}
+
+TEST_P(WedgeUtilsSignOptTest, ExtremeValues) {
+ DECLARE_ALIGNED(32, int16_t, r0[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int16_t, r1[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int16_t, ds[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, uint8_t, m[MAX_SB_SQUARE]);
+
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ switch (rng_(4)) {
+ case 0:
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) {
+ r0[i] = 0;
+ r1[i] = kInt13Max;
+ }
+ break;
+ case 1:
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) {
+ r0[i] = kInt13Max;
+ r1[i] = 0;
+ }
+ break;
+ case 2:
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) {
+ r0[i] = 0;
+ r1[i] = -kInt13Max;
+ }
+ break;
+ default:
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) {
+ r0[i] = -kInt13Max;
+ r1[i] = 0;
+ }
+ break;
+ }
+
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) m[i] = MAX_MASK_VALUE;
+
+ const int maxN = AOMMIN(kMaxSize, MAX_SB_SQUARE);
+ const int N = 64 * (rng_(maxN / 64 - 1) + 1);
+
+ int64_t limit;
+ limit = (int64_t)aom_sum_squares_i16(r0, N);
+ limit -= (int64_t)aom_sum_squares_i16(r1, N);
+ limit *= (1 << WEDGE_WEIGHT_BITS) / 2;
+
+ for (int i = 0; i < N; i++)
+ ds[i] = clamp(r0[i] * r0[i] - r1[i] * r1[i], INT16_MIN, INT16_MAX);
+
+ const int ref_res = params_.ref_func(ds, m, N, limit);
+ int tst_res;
+ ASM_REGISTER_STATE_CHECK(tst_res = params_.tst_func(ds, m, N, limit));
+
+ ASSERT_EQ(ref_res, tst_res);
+ }
+}
+
+//////////////////////////////////////////////////////////////////////////////
+// av1_wedge_compute_delta_squares
+//////////////////////////////////////////////////////////////////////////////
+
+typedef void (*FDS)(int16_t *d, const int16_t *a, const int16_t *b, int N);
+typedef libaom_test::FuncParam<FDS> TestFuncsFDS;
+
+class WedgeUtilsDeltaSquaresOptTest : public FunctionEquivalenceTest<FDS> {
+ protected:
+ static const int kIterations = 10000;
+};
+
+TEST_P(WedgeUtilsDeltaSquaresOptTest, RandomValues) {
+ DECLARE_ALIGNED(32, int16_t, a[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int16_t, b[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int16_t, d_ref[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int16_t, d_tst[MAX_SB_SQUARE]);
+
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) {
+ a[i] = rng_.Rand16();
+ b[i] = rng_(2 * INT16_MAX + 1) - INT16_MAX;
+ }
+
+ const int N = 64 * (rng_(MAX_SB_SQUARE / 64) + 1);
+
+ memset(&d_ref, INT16_MAX, sizeof(d_ref));
+ memset(&d_tst, INT16_MAX, sizeof(d_tst));
+
+ params_.ref_func(d_ref, a, b, N);
+ ASM_REGISTER_STATE_CHECK(params_.tst_func(d_tst, a, b, N));
+
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) ASSERT_EQ(d_ref[i], d_tst[i]);
+ }
+}
+
+#if HAVE_SSE2
+INSTANTIATE_TEST_CASE_P(
+ SSE2, WedgeUtilsSSEOptTest,
+ ::testing::Values(TestFuncsFSSE(av1_wedge_sse_from_residuals_c,
+ av1_wedge_sse_from_residuals_sse2)));
+
+INSTANTIATE_TEST_CASE_P(
+ SSE2, WedgeUtilsSignOptTest,
+ ::testing::Values(TestFuncsFSign(av1_wedge_sign_from_residuals_c,
+ av1_wedge_sign_from_residuals_sse2)));
+
+INSTANTIATE_TEST_CASE_P(
+ SSE2, WedgeUtilsDeltaSquaresOptTest,
+ ::testing::Values(TestFuncsFDS(av1_wedge_compute_delta_squares_c,
+ av1_wedge_compute_delta_squares_sse2)));
+#endif // HAVE_SSE2
+
+#if HAVE_AVX2
+INSTANTIATE_TEST_CASE_P(
+ AVX2, WedgeUtilsSSEOptTest,
+ ::testing::Values(TestFuncsFSSE(av1_wedge_sse_from_residuals_sse2,
+ av1_wedge_sse_from_residuals_avx2)));
+
+INSTANTIATE_TEST_CASE_P(
+ AVX2, WedgeUtilsSignOptTest,
+ ::testing::Values(TestFuncsFSign(av1_wedge_sign_from_residuals_sse2,
+ av1_wedge_sign_from_residuals_avx2)));
+
+INSTANTIATE_TEST_CASE_P(
+ AVX2, WedgeUtilsDeltaSquaresOptTest,
+ ::testing::Values(TestFuncsFDS(av1_wedge_compute_delta_squares_sse2,
+ av1_wedge_compute_delta_squares_avx2)));
+#endif // HAVE_AVX2
+
+} // namespace
diff --git a/third_party/aom/test/best_encode.sh b/third_party/aom/test/best_encode.sh
new file mode 100755
index 0000000000..fe31a01cb9
--- /dev/null
+++ b/third_party/aom/test/best_encode.sh
@@ -0,0 +1,103 @@
+#!/bin/bash
+#
+# Copyright (c) 2016, Alliance for Open Media. All rights reserved
+#
+# This source code is subject to the terms of the BSD 2 Clause License and
+# the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+# was not distributed with this source code in the LICENSE file, you can
+# obtain it at www.aomedia.org/license/software. If the Alliance for Open
+# Media Patent License 1.0 was not distributed with this source code in the
+# PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+#
+# Author: jimbankoski@google.com (Jim Bankoski)
+
+if [[ $# -ne 2 ]]; then
+ echo "Encodes a file using best known settings (slow!)"
+ echo " Usage: be [FILE] [BITRATE]"
+ echo " Example: be akiyo_cif.y4m 200"
+ exit
+fi
+
+f=$1 # file is first parameter
+b=$2 # bitrate is second parameter
+
+if [[ -e $f.fpf ]]; then
+ # First-pass file found, do second pass only
+ aomenc \
+ $f \
+ -o $f-$b.av1.webm \
+ -p 2 \
+ --pass=2 \
+ --fpf=$f.fpf \
+ --best \
+ --cpu-used=0 \
+ --target-bitrate=$b \
+ --auto-alt-ref=1 \
+ -v \
+ --minsection-pct=0 \
+ --maxsection-pct=800 \
+ --lag-in-frames=25 \
+ --kf-min-dist=0 \
+ --kf-max-dist=99999 \
+ --static-thresh=0 \
+ --min-q=0 \
+ --max-q=63 \
+ --drop-frame=0 \
+ --bias-pct=50 \
+ --minsection-pct=0 \
+ --maxsection-pct=800 \
+ --psnr \
+ --arnr-maxframes=7 \
+ --arnr-strength=3 \
+ --arnr-type=3
+else
+ # No first-pass file found, do 2-pass encode
+ aomenc \
+ $f \
+ -o $f-$b.av1.webm \
+ -p 2 \
+ --pass=1 \
+ --fpf=$f.fpf \
+ --best \
+ --cpu-used=0 \
+ --target-bitrate=$b \
+ --auto-alt-ref=1 \
+ -v \
+ --minsection-pct=0 \
+ --maxsection-pct=800 \
+ --lag-in-frames=25 \
+ --kf-min-dist=0 \
+ --kf-max-dist=99999 \
+ --static-thresh=0 \
+ --min-q=0 \
+ --max-q=63 \
+ --drop-frame=0
+
+ aomenc \
+ $f \
+ -o $f-$b.av1.webm \
+ -p 2 \
+ --pass=2 \
+ --fpf=$f.fpf \
+ --best \
+ --cpu-used=0 \
+ --target-bitrate=$b \
+ --auto-alt-ref=1 \
+ -v \
+ --minsection-pct=0 \
+ --maxsection-pct=800 \
+ --lag-in-frames=25 \
+ --kf-min-dist=0 \
+ --kf-max-dist=99999 \
+ --static-thresh=0 \
+ --min-q=0 \
+ --max-q=63 \
+ --drop-frame=0 \
+ --bias-pct=50 \
+ --minsection-pct=0 \
+ --maxsection-pct=800 \
+ --psnr \
+ --arnr-maxframes=7 \
+ --arnr-strength=3 \
+ --arnr-type=3
+fi
diff --git a/third_party/aom/test/binary_codes_test.cc b/third_party/aom/test/binary_codes_test.cc
new file mode 100644
index 0000000000..45660cf853
--- /dev/null
+++ b/third_party/aom/test/binary_codes_test.cc
@@ -0,0 +1,83 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <math.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_config.h"
+
+#include "test/acm_random.h"
+#include "aom/aom_integer.h"
+#include "aom_dsp/bitreader.h"
+#include "aom_dsp/bitwriter.h"
+#include "aom_dsp/binary_codes_reader.h"
+#include "aom_dsp/binary_codes_writer.h"
+
+#define ACCT_STR __func__
+
+using libaom_test::ACMRandom;
+
+namespace {
+
+// Test for Finite subexponential code with reference
+TEST(AV1, TestPrimitiveRefsubexpfin) {
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ const int kBufferSize = 65536;
+ aom_writer bw;
+ uint8_t bw_buffer[kBufferSize];
+ const uint16_t kRanges = 8;
+ const uint16_t kSubexpParams = 6;
+ const uint16_t kReferences = 8;
+ const uint16_t kValues = 16;
+ uint16_t enc_values[kRanges][kSubexpParams][kReferences][kValues][4];
+ const uint16_t range_vals[kRanges] = { 1, 13, 64, 120, 230, 420, 1100, 8000 };
+ aom_start_encode(&bw, bw_buffer);
+ for (int n = 0; n < kRanges; ++n) {
+ const uint16_t range = range_vals[n];
+ for (int k = 0; k < kSubexpParams; ++k) {
+ for (int r = 0; r < kReferences; ++r) {
+ const uint16_t ref = rnd(range);
+ for (int v = 0; v < kValues; ++v) {
+ const uint16_t value = rnd(range);
+ enc_values[n][k][r][v][0] = range;
+ enc_values[n][k][r][v][1] = k;
+ enc_values[n][k][r][v][2] = ref;
+ enc_values[n][k][r][v][3] = value;
+ aom_write_primitive_refsubexpfin(&bw, range, k, ref, value);
+ }
+ }
+ }
+ }
+ aom_stop_encode(&bw);
+ aom_reader br;
+ aom_reader_init(&br, bw_buffer, bw.pos);
+ GTEST_ASSERT_GE(aom_reader_tell(&br), 0u);
+ GTEST_ASSERT_LE(aom_reader_tell(&br), 1u);
+ for (int n = 0; n < kRanges; ++n) {
+ for (int k = 0; k < kSubexpParams; ++k) {
+ for (int r = 0; r < kReferences; ++r) {
+ for (int v = 0; v < kValues; ++v) {
+ const uint16_t range = enc_values[n][k][r][v][0];
+ assert(k == enc_values[n][k][r][v][1]);
+ const uint16_t ref = enc_values[n][k][r][v][2];
+ const uint16_t value =
+ aom_read_primitive_refsubexpfin(&br, range, k, ref, ACCT_STR);
+ GTEST_ASSERT_EQ(value, enc_values[n][k][r][v][3]);
+ }
+ }
+ }
+ }
+}
+// TODO(debargha): Adds tests for other primitives
+} // namespace
diff --git a/third_party/aom/test/blend_a64_mask_1d_test.cc b/third_party/aom/test/blend_a64_mask_1d_test.cc
new file mode 100644
index 0000000000..f8844eef8b
--- /dev/null
+++ b/third_party/aom/test/blend_a64_mask_1d_test.cc
@@ -0,0 +1,339 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <math.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/register_state_check.h"
+#include "test/function_equivalence_test.h"
+
+#include "config/aom_config.h"
+#include "config/aom_dsp_rtcd.h"
+#include "config/av1_rtcd.h"
+
+#include "aom/aom_integer.h"
+
+#include "av1/common/enums.h"
+
+#include "aom_dsp/blend.h"
+
+using libaom_test::FunctionEquivalenceTest;
+
+namespace {
+
+template <typename F, typename T>
+class BlendA64Mask1DTest : public FunctionEquivalenceTest<F> {
+ public:
+ static const int kIterations = 10000;
+ static const int kMaxWidth = MAX_SB_SIZE * 5; // * 5 to cover longer strides
+ static const int kMaxHeight = MAX_SB_SIZE;
+ static const int kBufSize = kMaxWidth * kMaxHeight;
+ static const int kMaxMaskWidth = 2 * MAX_SB_SIZE;
+ static const int kMaxMaskSize = kMaxMaskWidth;
+
+ virtual ~BlendA64Mask1DTest() {}
+
+ virtual void Execute(const T *p_src0, const T *p_src1) = 0;
+
+ void Common() {
+ w_ = 2 << this->rng_(MAX_SB_SIZE_LOG2);
+ h_ = 2 << this->rng_(MAX_SB_SIZE_LOG2);
+
+ dst_offset_ = this->rng_(33);
+ dst_stride_ = this->rng_(kMaxWidth + 1 - w_) + w_;
+
+ src0_offset_ = this->rng_(33);
+ src0_stride_ = this->rng_(kMaxWidth + 1 - w_) + w_;
+
+ src1_offset_ = this->rng_(33);
+ src1_stride_ = this->rng_(kMaxWidth + 1 - w_) + w_;
+
+ T *p_src0;
+ T *p_src1;
+
+ switch (this->rng_(3)) {
+ case 0: // Separate sources
+ p_src0 = src0_;
+ p_src1 = src1_;
+ break;
+ case 1: // src0 == dst
+ p_src0 = dst_tst_;
+ src0_stride_ = dst_stride_;
+ src0_offset_ = dst_offset_;
+ p_src1 = src1_;
+ break;
+ case 2: // src1 == dst
+ p_src0 = src0_;
+ p_src1 = dst_tst_;
+ src1_stride_ = dst_stride_;
+ src1_offset_ = dst_offset_;
+ break;
+ default: FAIL();
+ }
+
+ Execute(p_src0, p_src1);
+
+ for (int r = 0; r < h_; ++r) {
+ for (int c = 0; c < w_; ++c) {
+ ASSERT_EQ(dst_ref_[dst_offset_ + r * dst_stride_ + c],
+ dst_tst_[dst_offset_ + r * dst_stride_ + c]);
+ }
+ }
+ }
+
+ T dst_ref_[kBufSize];
+ T dst_tst_[kBufSize];
+ uint32_t dst_stride_;
+ uint32_t dst_offset_;
+
+ T src0_[kBufSize];
+ uint32_t src0_stride_;
+ uint32_t src0_offset_;
+
+ T src1_[kBufSize];
+ uint32_t src1_stride_;
+ uint32_t src1_offset_;
+
+ uint8_t mask_[kMaxMaskSize];
+
+ int w_;
+ int h_;
+};
+
+//////////////////////////////////////////////////////////////////////////////
+// 8 bit version
+//////////////////////////////////////////////////////////////////////////////
+
+typedef void (*F8B)(uint8_t *dst, uint32_t dst_stride, const uint8_t *src0,
+ uint32_t src0_stride, const uint8_t *src1,
+ uint32_t src1_stride, const uint8_t *mask, int w, int h);
+typedef libaom_test::FuncParam<F8B> TestFuncs;
+
+class BlendA64Mask1DTest8B : public BlendA64Mask1DTest<F8B, uint8_t> {
+ protected:
+ void Execute(const uint8_t *p_src0, const uint8_t *p_src1) {
+ params_.ref_func(dst_ref_ + dst_offset_, dst_stride_, p_src0 + src0_offset_,
+ src0_stride_, p_src1 + src1_offset_, src1_stride_, mask_,
+ w_, h_);
+ ASM_REGISTER_STATE_CHECK(params_.tst_func(
+ dst_tst_ + dst_offset_, dst_stride_, p_src0 + src0_offset_,
+ src0_stride_, p_src1 + src1_offset_, src1_stride_, mask_, w_, h_));
+ }
+};
+
+TEST_P(BlendA64Mask1DTest8B, RandomValues) {
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ for (int i = 0; i < kBufSize; ++i) {
+ dst_ref_[i] = rng_.Rand8();
+ dst_tst_[i] = rng_.Rand8();
+
+ src0_[i] = rng_.Rand8();
+ src1_[i] = rng_.Rand8();
+ }
+
+ for (int i = 0; i < kMaxMaskSize; ++i)
+ mask_[i] = rng_(AOM_BLEND_A64_MAX_ALPHA + 1);
+
+ Common();
+ }
+}
+
+TEST_P(BlendA64Mask1DTest8B, ExtremeValues) {
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ for (int i = 0; i < kBufSize; ++i) {
+ dst_ref_[i] = rng_(2) + 254;
+ dst_tst_[i] = rng_(2) + 254;
+ src0_[i] = rng_(2) + 254;
+ src1_[i] = rng_(2) + 254;
+ }
+
+ for (int i = 0; i < kMaxMaskSize; ++i)
+ mask_[i] = rng_(2) + AOM_BLEND_A64_MAX_ALPHA - 1;
+
+ Common();
+ }
+}
+
+static void blend_a64_hmask_ref(uint8_t *dst, uint32_t dst_stride,
+ const uint8_t *src0, uint32_t src0_stride,
+ const uint8_t *src1, uint32_t src1_stride,
+ const uint8_t *mask, int w, int h) {
+ uint8_t mask2d[BlendA64Mask1DTest8B::kMaxMaskSize]
+ [BlendA64Mask1DTest8B::kMaxMaskSize];
+
+ for (int row = 0; row < h; ++row)
+ for (int col = 0; col < w; ++col) mask2d[row][col] = mask[col];
+
+ aom_blend_a64_mask_c(dst, dst_stride, src0, src0_stride, src1, src1_stride,
+ &mask2d[0][0], BlendA64Mask1DTest8B::kMaxMaskSize, w, h,
+ 0, 0);
+}
+
+static void blend_a64_vmask_ref(uint8_t *dst, uint32_t dst_stride,
+ const uint8_t *src0, uint32_t src0_stride,
+ const uint8_t *src1, uint32_t src1_stride,
+ const uint8_t *mask, int w, int h) {
+ uint8_t mask2d[BlendA64Mask1DTest8B::kMaxMaskSize]
+ [BlendA64Mask1DTest8B::kMaxMaskSize];
+
+ for (int row = 0; row < h; ++row)
+ for (int col = 0; col < w; ++col) mask2d[row][col] = mask[row];
+
+ aom_blend_a64_mask_c(dst, dst_stride, src0, src0_stride, src1, src1_stride,
+ &mask2d[0][0], BlendA64Mask1DTest8B::kMaxMaskSize, w, h,
+ 0, 0);
+}
+
+INSTANTIATE_TEST_CASE_P(
+ C, BlendA64Mask1DTest8B,
+ ::testing::Values(TestFuncs(blend_a64_hmask_ref, aom_blend_a64_hmask_c),
+ TestFuncs(blend_a64_vmask_ref, aom_blend_a64_vmask_c)));
+
+#if HAVE_SSE4_1
+INSTANTIATE_TEST_CASE_P(
+ SSE4_1, BlendA64Mask1DTest8B,
+ ::testing::Values(
+ TestFuncs(blend_a64_hmask_ref, aom_blend_a64_hmask_sse4_1),
+ TestFuncs(blend_a64_vmask_ref, aom_blend_a64_vmask_sse4_1)));
+#endif // HAVE_SSE4_1
+
+#if HAVE_NEON
+INSTANTIATE_TEST_CASE_P(NEON, BlendA64Mask1DTest8B,
+ ::testing::Values(TestFuncs(blend_a64_hmask_ref,
+ aom_blend_a64_hmask_neon),
+ TestFuncs(blend_a64_vmask_ref,
+ aom_blend_a64_vmask_neon)));
+#endif // HAVE_NEON
+
+//////////////////////////////////////////////////////////////////////////////
+// High bit-depth version
+//////////////////////////////////////////////////////////////////////////////
+
+typedef void (*FHBD)(uint8_t *dst, uint32_t dst_stride, const uint8_t *src0,
+ uint32_t src0_stride, const uint8_t *src1,
+ uint32_t src1_stride, const uint8_t *mask, int w, int h,
+ int bd);
+typedef libaom_test::FuncParam<FHBD> TestFuncsHBD;
+
+class BlendA64Mask1DTestHBD : public BlendA64Mask1DTest<FHBD, uint16_t> {
+ protected:
+ void Execute(const uint16_t *p_src0, const uint16_t *p_src1) {
+ params_.ref_func(CONVERT_TO_BYTEPTR(dst_ref_ + dst_offset_), dst_stride_,
+ CONVERT_TO_BYTEPTR(p_src0 + src0_offset_), src0_stride_,
+ CONVERT_TO_BYTEPTR(p_src1 + src1_offset_), src1_stride_,
+ mask_, w_, h_, bit_depth_);
+ ASM_REGISTER_STATE_CHECK(params_.tst_func(
+ CONVERT_TO_BYTEPTR(dst_tst_ + dst_offset_), dst_stride_,
+ CONVERT_TO_BYTEPTR(p_src0 + src0_offset_), src0_stride_,
+ CONVERT_TO_BYTEPTR(p_src1 + src1_offset_), src1_stride_, mask_, w_, h_,
+ bit_depth_));
+ }
+
+ int bit_depth_;
+};
+
+TEST_P(BlendA64Mask1DTestHBD, RandomValues) {
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ switch (rng_(3)) {
+ case 0: bit_depth_ = 8; break;
+ case 1: bit_depth_ = 10; break;
+ default: bit_depth_ = 12; break;
+ }
+
+ const int hi = 1 << bit_depth_;
+
+ for (int i = 0; i < kBufSize; ++i) {
+ dst_ref_[i] = rng_(hi);
+ dst_tst_[i] = rng_(hi);
+ src0_[i] = rng_(hi);
+ src1_[i] = rng_(hi);
+ }
+
+ for (int i = 0; i < kMaxMaskSize; ++i)
+ mask_[i] = rng_(AOM_BLEND_A64_MAX_ALPHA + 1);
+
+ Common();
+ }
+}
+
+TEST_P(BlendA64Mask1DTestHBD, ExtremeValues) {
+ for (int iter = 0; iter < 1000 && !HasFatalFailure(); ++iter) {
+ switch (rng_(3)) {
+ case 0: bit_depth_ = 8; break;
+ case 1: bit_depth_ = 10; break;
+ default: bit_depth_ = 12; break;
+ }
+
+ const int hi = 1 << bit_depth_;
+ const int lo = hi - 2;
+
+ for (int i = 0; i < kBufSize; ++i) {
+ dst_ref_[i] = rng_(hi - lo) + lo;
+ dst_tst_[i] = rng_(hi - lo) + lo;
+ src0_[i] = rng_(hi - lo) + lo;
+ src1_[i] = rng_(hi - lo) + lo;
+ }
+
+ for (int i = 0; i < kMaxMaskSize; ++i)
+ mask_[i] = rng_(2) + AOM_BLEND_A64_MAX_ALPHA - 1;
+
+ Common();
+ }
+}
+
+static void highbd_blend_a64_hmask_ref(
+ uint8_t *dst, uint32_t dst_stride, const uint8_t *src0,
+ uint32_t src0_stride, const uint8_t *src1, uint32_t src1_stride,
+ const uint8_t *mask, int w, int h, int bd) {
+ uint8_t mask2d[BlendA64Mask1DTestHBD::kMaxMaskSize]
+ [BlendA64Mask1DTestHBD::kMaxMaskSize];
+
+ for (int row = 0; row < h; ++row)
+ for (int col = 0; col < w; ++col) mask2d[row][col] = mask[col];
+
+ aom_highbd_blend_a64_mask_c(
+ dst, dst_stride, src0, src0_stride, src1, src1_stride, &mask2d[0][0],
+ BlendA64Mask1DTestHBD::kMaxMaskSize, w, h, 0, 0, bd);
+}
+
+static void highbd_blend_a64_vmask_ref(
+ uint8_t *dst, uint32_t dst_stride, const uint8_t *src0,
+ uint32_t src0_stride, const uint8_t *src1, uint32_t src1_stride,
+ const uint8_t *mask, int w, int h, int bd) {
+ uint8_t mask2d[BlendA64Mask1DTestHBD::kMaxMaskSize]
+ [BlendA64Mask1DTestHBD::kMaxMaskSize];
+
+ for (int row = 0; row < h; ++row)
+ for (int col = 0; col < w; ++col) mask2d[row][col] = mask[row];
+
+ aom_highbd_blend_a64_mask_c(
+ dst, dst_stride, src0, src0_stride, src1, src1_stride, &mask2d[0][0],
+ BlendA64Mask1DTestHBD::kMaxMaskSize, w, h, 0, 0, bd);
+}
+
+INSTANTIATE_TEST_CASE_P(
+ C, BlendA64Mask1DTestHBD,
+ ::testing::Values(TestFuncsHBD(highbd_blend_a64_hmask_ref,
+ aom_highbd_blend_a64_hmask_c),
+ TestFuncsHBD(highbd_blend_a64_vmask_ref,
+ aom_highbd_blend_a64_vmask_c)));
+
+#if HAVE_SSE4_1
+INSTANTIATE_TEST_CASE_P(
+ SSE4_1, BlendA64Mask1DTestHBD,
+ ::testing::Values(TestFuncsHBD(highbd_blend_a64_hmask_ref,
+ aom_highbd_blend_a64_hmask_sse4_1),
+ TestFuncsHBD(highbd_blend_a64_vmask_ref,
+ aom_highbd_blend_a64_vmask_sse4_1)));
+#endif // HAVE_SSE4_1
+} // namespace
diff --git a/third_party/aom/test/blend_a64_mask_test.cc b/third_party/aom/test/blend_a64_mask_test.cc
new file mode 100644
index 0000000000..66ca6fc5f3
--- /dev/null
+++ b/third_party/aom/test/blend_a64_mask_test.cc
@@ -0,0 +1,583 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <math.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/register_state_check.h"
+#include "test/function_equivalence_test.h"
+
+#include "config/aom_config.h"
+#include "config/aom_dsp_rtcd.h"
+#include "config/av1_rtcd.h"
+
+#include "aom/aom_integer.h"
+
+#include "av1/common/enums.h"
+
+#include "aom_dsp/blend.h"
+
+using libaom_test::FunctionEquivalenceTest;
+
+namespace {
+
+template <typename BlendA64Func, typename SrcPixel, typename DstPixel>
+class BlendA64MaskTest : public FunctionEquivalenceTest<BlendA64Func> {
+ protected:
+ static const int kIterations = 10000;
+ static const int kMaxWidth = MAX_SB_SIZE * 5; // * 5 to cover longer strides
+ static const int kMaxHeight = MAX_SB_SIZE;
+ static const int kBufSize = kMaxWidth * kMaxHeight;
+ static const int kMaxMaskWidth = 2 * MAX_SB_SIZE;
+ static const int kMaxMaskSize = kMaxMaskWidth * kMaxMaskWidth;
+
+ virtual ~BlendA64MaskTest() {}
+
+ virtual void Execute(const SrcPixel *p_src0, const SrcPixel *p_src1,
+ int run_times) = 0;
+
+ template <typename Pixel>
+ void GetSources(Pixel **src0, Pixel **src1, Pixel * /*dst*/, int run_times) {
+ if (run_times > 1) {
+ *src0 = src0_;
+ *src1 = src1_;
+ return;
+ }
+ switch (this->rng_(3)) {
+ case 0: // Separate sources
+ *src0 = src0_;
+ *src1 = src1_;
+ break;
+ case 1: // src0 == dst
+ *src0 = dst_tst_;
+ src0_stride_ = dst_stride_;
+ src0_offset_ = dst_offset_;
+ *src1 = src1_;
+ break;
+ case 2: // src1 == dst
+ *src0 = src0_;
+ *src1 = dst_tst_;
+ src1_stride_ = dst_stride_;
+ src1_offset_ = dst_offset_;
+ break;
+ default: FAIL();
+ }
+ }
+
+ void GetSources(uint16_t **src0, uint16_t **src1, uint8_t * /*dst*/,
+ int /*run_times*/) {
+ *src0 = src0_;
+ *src1 = src1_;
+ }
+
+ uint8_t Rand1() { return this->rng_.Rand8() & 1; }
+
+ void RunOneTest(int block_size, int subx, int suby, int run_times) {
+ w_ = block_size_wide[block_size];
+ h_ = block_size_high[block_size];
+ run_times = run_times > 1 ? run_times / w_ : 1;
+ subx_ = subx;
+ suby_ = suby;
+
+ dst_offset_ = this->rng_(33);
+ dst_stride_ = this->rng_(kMaxWidth + 1 - w_) + w_;
+
+ src0_offset_ = this->rng_(33);
+ src0_stride_ = this->rng_(kMaxWidth + 1 - w_) + w_;
+
+ src1_offset_ = this->rng_(33);
+ src1_stride_ = this->rng_(kMaxWidth + 1 - w_) + w_;
+
+ mask_stride_ =
+ this->rng_(kMaxWidth + 1 - w_ * (subx_ ? 2 : 1)) + w_ * (subx_ ? 2 : 1);
+
+ SrcPixel *p_src0;
+ SrcPixel *p_src1;
+
+ p_src0 = src0_;
+ p_src1 = src1_;
+
+ GetSources(&p_src0, &p_src1, &dst_ref_[0], run_times);
+
+ Execute(p_src0, p_src1, run_times);
+
+ for (int r = 0; r < h_; ++r) {
+ for (int c = 0; c < w_; ++c) {
+ ASSERT_EQ(dst_ref_[dst_offset_ + r * dst_stride_ + c],
+ dst_tst_[dst_offset_ + r * dst_stride_ + c])
+ << w_ << "x" << h_ << " subx " << subx_ << " suby " << suby_
+ << " r: " << r << " c: " << c;
+ }
+ }
+ }
+
+ void RunTest(int block_size, int run_times) {
+ subx_ = Rand1();
+ suby_ = Rand1();
+ RunOneTest(block_size, subx_, suby_, run_times);
+ }
+
+ DstPixel dst_ref_[kBufSize];
+ DstPixel dst_tst_[kBufSize];
+ uint32_t dst_stride_;
+ uint32_t dst_offset_;
+
+ SrcPixel src0_[kBufSize];
+ uint32_t src0_stride_;
+ uint32_t src0_offset_;
+
+ SrcPixel src1_[kBufSize];
+ uint32_t src1_stride_;
+ uint32_t src1_offset_;
+
+ uint8_t mask_[kMaxMaskSize];
+ size_t mask_stride_;
+
+ int w_;
+ int h_;
+
+ int suby_;
+ int subx_;
+};
+
+//////////////////////////////////////////////////////////////////////////////
+// 8 bit version
+//////////////////////////////////////////////////////////////////////////////
+
+typedef void (*F8B)(uint8_t *dst, uint32_t dst_stride, const uint8_t *src0,
+ uint32_t src0_stride, const uint8_t *src1,
+ uint32_t src1_stride, const uint8_t *mask,
+ uint32_t mask_stride, int w, int h, int subx, int suby);
+typedef libaom_test::FuncParam<F8B> TestFuncs;
+
+class BlendA64MaskTest8B : public BlendA64MaskTest<F8B, uint8_t, uint8_t> {
+ protected:
+ void Execute(const uint8_t *p_src0, const uint8_t *p_src1, int run_times) {
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+ for (int i = 0; i < run_times; ++i) {
+ params_.ref_func(dst_ref_ + dst_offset_, dst_stride_,
+ p_src0 + src0_offset_, src0_stride_,
+ p_src1 + src1_offset_, src1_stride_, mask_,
+ kMaxMaskWidth, w_, h_, subx_, suby_);
+ }
+ aom_usec_timer_mark(&timer);
+ const double time1 = static_cast<double>(aom_usec_timer_elapsed(&timer));
+ aom_usec_timer_start(&timer);
+ for (int i = 0; i < run_times; ++i) {
+ params_.tst_func(dst_tst_ + dst_offset_, dst_stride_,
+ p_src0 + src0_offset_, src0_stride_,
+ p_src1 + src1_offset_, src1_stride_, mask_,
+ kMaxMaskWidth, w_, h_, subx_, suby_);
+ }
+ aom_usec_timer_mark(&timer);
+ const double time2 = static_cast<double>(aom_usec_timer_elapsed(&timer));
+ if (run_times > 1) {
+ printf("%3dx%-3d subx %d suby %d :%7.2f/%7.2fns", w_, h_, subx_, suby_,
+ time1, time2);
+ printf("(%3.2f)\n", time1 / time2);
+ }
+ }
+};
+
+TEST_P(BlendA64MaskTest8B, RandomValues) {
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ int bsize = rng_.Rand8() % BLOCK_SIZES_ALL;
+ for (int i = 0; i < kBufSize; ++i) {
+ dst_ref_[i] = rng_.Rand8();
+ dst_tst_[i] = rng_.Rand8();
+
+ src0_[i] = rng_.Rand8();
+ src1_[i] = rng_.Rand8();
+ }
+
+ for (int i = 0; i < kMaxMaskSize; ++i)
+ mask_[i] = rng_(AOM_BLEND_A64_MAX_ALPHA + 1);
+
+ RunTest(bsize, 1);
+ }
+}
+
+TEST_P(BlendA64MaskTest8B, ExtremeValues) {
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ int bsize = rng_.Rand8() % BLOCK_SIZES_ALL;
+ for (int i = 0; i < kBufSize; ++i) {
+ dst_ref_[i] = rng_(2) + 254;
+ dst_tst_[i] = rng_(2) + 254;
+ src0_[i] = rng_(2) + 254;
+ src1_[i] = rng_(2) + 254;
+ }
+
+ for (int i = 0; i < kMaxMaskSize; ++i)
+ mask_[i] = rng_(2) + AOM_BLEND_A64_MAX_ALPHA - 1;
+
+ RunTest(bsize, 1);
+ }
+}
+TEST_P(BlendA64MaskTest8B, DISABLED_Speed) {
+ const int kRunTimes = 10000000;
+ for (int bsize = 0; bsize < BLOCK_SIZES_ALL; ++bsize) {
+ for (int i = 0; i < kBufSize; ++i) {
+ dst_ref_[i] = rng_.Rand8();
+ dst_tst_[i] = rng_.Rand8();
+
+ src0_[i] = rng_.Rand8();
+ src1_[i] = rng_.Rand8();
+ }
+
+ for (int i = 0; i < kMaxMaskSize; ++i)
+ mask_[i] = rng_(AOM_BLEND_A64_MAX_ALPHA + 1);
+
+ RunOneTest(bsize, 1, 1, kRunTimes);
+ RunOneTest(bsize, 1, 0, kRunTimes);
+ RunOneTest(bsize, 0, 1, kRunTimes);
+ RunOneTest(bsize, 0, 0, kRunTimes);
+ }
+}
+#if HAVE_SSE4_1
+INSTANTIATE_TEST_CASE_P(SSE4_1, BlendA64MaskTest8B,
+ ::testing::Values(TestFuncs(
+ aom_blend_a64_mask_c, aom_blend_a64_mask_sse4_1)));
+#endif // HAVE_AVX2
+
+#if HAVE_AVX2
+INSTANTIATE_TEST_CASE_P(AVX2, BlendA64MaskTest8B,
+ ::testing::Values(TestFuncs(aom_blend_a64_mask_sse4_1,
+ aom_blend_a64_mask_avx2)));
+#endif // HAVE_SSE4_1
+
+//////////////////////////////////////////////////////////////////////////////
+// 8 bit _d16 version
+//////////////////////////////////////////////////////////////////////////////
+
+typedef void (*F8B_D16)(uint8_t *dst, uint32_t dst_stride, const uint16_t *src0,
+ uint32_t src0_stride, const uint16_t *src1,
+ uint32_t src1_stride, const uint8_t *mask,
+ uint32_t mask_stride, int w, int h, int subx, int suby,
+ ConvolveParams *conv_params);
+typedef libaom_test::FuncParam<F8B_D16> TestFuncs_d16;
+
+class BlendA64MaskTest8B_d16
+ : public BlendA64MaskTest<F8B_D16, uint16_t, uint8_t> {
+ protected:
+ // max number of bits used by the source
+ static const int kSrcMaxBitsMask = 0x3fff;
+
+ void Execute(const uint16_t *p_src0, const uint16_t *p_src1, int run_times) {
+ ConvolveParams conv_params;
+ conv_params.round_0 = ROUND0_BITS;
+ conv_params.round_1 = COMPOUND_ROUND1_BITS;
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+ for (int i = 0; i < run_times; ++i) {
+ params_.ref_func(dst_ref_ + dst_offset_, dst_stride_,
+ p_src0 + src0_offset_, src0_stride_,
+ p_src1 + src1_offset_, src1_stride_, mask_,
+ kMaxMaskWidth, w_, h_, subx_, suby_, &conv_params);
+ }
+ aom_usec_timer_mark(&timer);
+ const double time1 = static_cast<double>(aom_usec_timer_elapsed(&timer));
+ aom_usec_timer_start(&timer);
+ for (int i = 0; i < run_times; ++i) {
+ params_.tst_func(dst_tst_ + dst_offset_, dst_stride_,
+ p_src0 + src0_offset_, src0_stride_,
+ p_src1 + src1_offset_, src1_stride_, mask_,
+ kMaxMaskWidth, w_, h_, subx_, suby_, &conv_params);
+ }
+ aom_usec_timer_mark(&timer);
+ const double time2 = static_cast<double>(aom_usec_timer_elapsed(&timer));
+ if (run_times > 1) {
+ printf("%3dx%-3d subx %d suby %d :%7.2f/%7.2fns", w_, h_, subx_, suby_,
+ time1, time2);
+ printf("(%3.2f)\n", time1 / time2);
+ }
+ }
+};
+
+TEST_P(BlendA64MaskTest8B_d16, RandomValues) {
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ int bsize = rng_.Rand8() % BLOCK_SIZES_ALL;
+ for (int i = 0; i < kBufSize; ++i) {
+ dst_ref_[i] = rng_.Rand8();
+ dst_tst_[i] = rng_.Rand8();
+
+ src0_[i] = rng_.Rand16() & kSrcMaxBitsMask;
+ src1_[i] = rng_.Rand16() & kSrcMaxBitsMask;
+ }
+
+ for (int i = 0; i < kMaxMaskSize; ++i)
+ mask_[i] = rng_(AOM_BLEND_A64_MAX_ALPHA + 1);
+
+ RunTest(bsize, 1);
+ }
+}
+
+TEST_P(BlendA64MaskTest8B_d16, ExtremeValues) {
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ int bsize = rng_.Rand8() % BLOCK_SIZES_ALL;
+ for (int i = 0; i < kBufSize; ++i) {
+ dst_ref_[i] = 255;
+ dst_tst_[i] = 255;
+
+ src0_[i] = kSrcMaxBitsMask;
+ src1_[i] = kSrcMaxBitsMask;
+ }
+
+ for (int i = 0; i < kMaxMaskSize; ++i)
+ mask_[i] = AOM_BLEND_A64_MAX_ALPHA - 1;
+
+ RunTest(bsize, 1);
+ }
+}
+
+#if HAVE_SSE4_1
+INSTANTIATE_TEST_CASE_P(
+ SSE4_1, BlendA64MaskTest8B_d16,
+ ::testing::Values(TestFuncs_d16(aom_lowbd_blend_a64_d16_mask_c,
+ aom_lowbd_blend_a64_d16_mask_sse4_1)));
+#endif // HAVE_SSE4_1
+
+#if HAVE_AVX2
+INSTANTIATE_TEST_CASE_P(
+ AVX2, BlendA64MaskTest8B_d16,
+ ::testing::Values(TestFuncs_d16(aom_lowbd_blend_a64_d16_mask_c,
+ aom_lowbd_blend_a64_d16_mask_avx2)));
+#endif // HAVE_AVX2
+
+#if HAVE_NEON
+INSTANTIATE_TEST_CASE_P(
+ NEON, BlendA64MaskTest8B_d16,
+ ::testing::Values(TestFuncs_d16(aom_lowbd_blend_a64_d16_mask_c,
+ aom_lowbd_blend_a64_d16_mask_neon)));
+#endif // HAVE_NEON
+
+//////////////////////////////////////////////////////////////////////////////
+// High bit-depth version
+//////////////////////////////////////////////////////////////////////////////
+
+typedef void (*FHBD)(uint8_t *dst, uint32_t dst_stride, const uint8_t *src0,
+ uint32_t src0_stride, const uint8_t *src1,
+ uint32_t src1_stride, const uint8_t *mask,
+ uint32_t mask_stride, int w, int h, int subx, int suby,
+ int bd);
+typedef libaom_test::FuncParam<FHBD> TestFuncsHBD;
+
+class BlendA64MaskTestHBD : public BlendA64MaskTest<FHBD, uint16_t, uint16_t> {
+ protected:
+ void Execute(const uint16_t *p_src0, const uint16_t *p_src1, int run_times) {
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+ for (int i = 0; i < run_times; ++i) {
+ params_.ref_func(CONVERT_TO_BYTEPTR(dst_ref_ + dst_offset_), dst_stride_,
+ CONVERT_TO_BYTEPTR(p_src0 + src0_offset_), src0_stride_,
+ CONVERT_TO_BYTEPTR(p_src1 + src1_offset_), src1_stride_,
+ mask_, kMaxMaskWidth, w_, h_, subx_, suby_, bit_depth_);
+ }
+ aom_usec_timer_mark(&timer);
+ const double time1 = static_cast<double>(aom_usec_timer_elapsed(&timer));
+ aom_usec_timer_start(&timer);
+ for (int i = 0; i < run_times; ++i) {
+ params_.tst_func(CONVERT_TO_BYTEPTR(dst_tst_ + dst_offset_), dst_stride_,
+ CONVERT_TO_BYTEPTR(p_src0 + src0_offset_), src0_stride_,
+ CONVERT_TO_BYTEPTR(p_src1 + src1_offset_), src1_stride_,
+ mask_, kMaxMaskWidth, w_, h_, subx_, suby_, bit_depth_);
+ }
+ aom_usec_timer_mark(&timer);
+ const double time2 = static_cast<double>(aom_usec_timer_elapsed(&timer));
+ if (run_times > 1) {
+ printf("%3dx%-3d subx %d suby %d :%7.2f/%7.2fns", w_, h_, subx_, suby_,
+ time1, time2);
+ printf("(%3.2f)\n", time1 / time2);
+ }
+ }
+
+ int bit_depth_;
+};
+
+TEST_P(BlendA64MaskTestHBD, RandomValues) {
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ int bsize = rng_.Rand8() % BLOCK_SIZES_ALL;
+ switch (rng_(3)) {
+ case 0: bit_depth_ = 8; break;
+ case 1: bit_depth_ = 10; break;
+ default: bit_depth_ = 12; break;
+ }
+
+ const int hi = 1 << bit_depth_;
+
+ for (int i = 0; i < kBufSize; ++i) {
+ dst_ref_[i] = rng_(hi);
+ dst_tst_[i] = rng_(hi);
+ src0_[i] = rng_(hi);
+ src1_[i] = rng_(hi);
+ }
+
+ for (int i = 0; i < kMaxMaskSize; ++i)
+ mask_[i] = rng_(AOM_BLEND_A64_MAX_ALPHA + 1);
+
+ RunTest(bsize, 1);
+ }
+}
+
+TEST_P(BlendA64MaskTestHBD, ExtremeValues) {
+ for (int iter = 0; iter < 1000 && !HasFatalFailure(); ++iter) {
+ int bsize = rng_.Rand8() % BLOCK_SIZES_ALL;
+ switch (rng_(3)) {
+ case 0: bit_depth_ = 8; break;
+ case 1: bit_depth_ = 10; break;
+ default: bit_depth_ = 12; break;
+ }
+
+ const int hi = 1 << bit_depth_;
+ const int lo = hi - 2;
+
+ for (int i = 0; i < kBufSize; ++i) {
+ dst_ref_[i] = rng_(hi - lo) + lo;
+ dst_tst_[i] = rng_(hi - lo) + lo;
+ src0_[i] = rng_(hi - lo) + lo;
+ src1_[i] = rng_(hi - lo) + lo;
+ }
+
+ for (int i = 0; i < kMaxMaskSize; ++i)
+ mask_[i] = rng_(2) + AOM_BLEND_A64_MAX_ALPHA - 1;
+
+ RunTest(bsize, 1);
+ }
+}
+
+#if HAVE_SSE4_1
+INSTANTIATE_TEST_CASE_P(
+ SSE4_1, BlendA64MaskTestHBD,
+ ::testing::Values(TestFuncsHBD(aom_highbd_blend_a64_mask_c,
+ aom_highbd_blend_a64_mask_sse4_1)));
+#endif // HAVE_SSE4_1
+
+//////////////////////////////////////////////////////////////////////////////
+// HBD _d16 version
+//////////////////////////////////////////////////////////////////////////////
+
+typedef void (*FHBD_D16)(uint8_t *dst, uint32_t dst_stride,
+ const CONV_BUF_TYPE *src0, uint32_t src0_stride,
+ const CONV_BUF_TYPE *src1, uint32_t src1_stride,
+ const uint8_t *mask, uint32_t mask_stride, int w,
+ int h, int subx, int suby, ConvolveParams *conv_params,
+ const int bd);
+typedef libaom_test::FuncParam<FHBD_D16> TestFuncsHBD_d16;
+
+class BlendA64MaskTestHBD_d16
+ : public BlendA64MaskTest<FHBD_D16, uint16_t, uint16_t> {
+ protected:
+ // max number of bits used by the source
+ static const int kSrcMaxBitsMask = (1 << 14) - 1;
+ static const int kSrcMaxBitsMaskHBD = (1 << 16) - 1;
+
+ void Execute(const uint16_t *p_src0, const uint16_t *p_src1, int run_times) {
+ ConvolveParams conv_params;
+ conv_params.round_0 = (bit_depth_ == 12) ? ROUND0_BITS + 2 : ROUND0_BITS;
+ conv_params.round_1 = COMPOUND_ROUND1_BITS;
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+ for (int i = 0; i < run_times; ++i) {
+ params_.ref_func(CONVERT_TO_BYTEPTR(dst_ref_ + dst_offset_), dst_stride_,
+ p_src0 + src0_offset_, src0_stride_,
+ p_src1 + src1_offset_, src1_stride_, mask_,
+ kMaxMaskWidth, w_, h_, subx_, suby_, &conv_params,
+ bit_depth_);
+ }
+ if (params_.tst_func) {
+ aom_usec_timer_mark(&timer);
+ const double time1 = static_cast<double>(aom_usec_timer_elapsed(&timer));
+ aom_usec_timer_start(&timer);
+ for (int i = 0; i < run_times; ++i) {
+ params_.tst_func(CONVERT_TO_BYTEPTR(dst_tst_ + dst_offset_),
+ dst_stride_, p_src0 + src0_offset_, src0_stride_,
+ p_src1 + src1_offset_, src1_stride_, mask_,
+ kMaxMaskWidth, w_, h_, subx_, suby_, &conv_params,
+ bit_depth_);
+ }
+ aom_usec_timer_mark(&timer);
+ const double time2 = static_cast<double>(aom_usec_timer_elapsed(&timer));
+ if (run_times > 1) {
+ printf("%3dx%-3d subx %d suby %d :%7.2f/%7.2fns", w_, h_, subx_, suby_,
+ time1, time2);
+ printf("(%3.2f)\n", time1 / time2);
+ }
+ }
+ }
+
+ int bit_depth_;
+ int src_max_bits_mask_;
+};
+
+TEST_P(BlendA64MaskTestHBD_d16, RandomValues) {
+ if (params_.tst_func == NULL) return;
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ int bsize = rng_.Rand8() % BLOCK_SIZES_ALL;
+ switch (rng_(3)) {
+ case 0: bit_depth_ = 8; break;
+ case 1: bit_depth_ = 10; break;
+ default: bit_depth_ = 12; break;
+ }
+ src_max_bits_mask_ =
+ (bit_depth_ == 8) ? kSrcMaxBitsMask : kSrcMaxBitsMaskHBD;
+
+ for (int i = 0; i < kBufSize; ++i) {
+ dst_ref_[i] = rng_.Rand8();
+ dst_tst_[i] = rng_.Rand8();
+
+ src0_[i] = rng_.Rand16() & src_max_bits_mask_;
+ src1_[i] = rng_.Rand16() & src_max_bits_mask_;
+ }
+
+ for (int i = 0; i < kMaxMaskSize; ++i)
+ mask_[i] = rng_(AOM_BLEND_A64_MAX_ALPHA + 1);
+
+ RunTest(bsize, 1);
+ }
+}
+// TODO (Scott LaVarnway), fix this test
+TEST_P(BlendA64MaskTestHBD_d16, DISABLED_SaturatedValues) {
+ for (int bsize = 0; bsize < BLOCK_SIZES_ALL; ++bsize) {
+ for (bit_depth_ = 8; bit_depth_ <= 12; bit_depth_ += 2) {
+ src_max_bits_mask_ =
+ (bit_depth_ == 8) ? kSrcMaxBitsMask : kSrcMaxBitsMaskHBD;
+
+ for (int i = 0; i < kBufSize; ++i) {
+ dst_ref_[i] = 0;
+ dst_tst_[i] = (1 << bit_depth_) - 1;
+
+ src0_[i] = src_max_bits_mask_;
+ src1_[i] = src_max_bits_mask_;
+ }
+
+ for (int i = 0; i < kMaxMaskSize; ++i) mask_[i] = AOM_BLEND_A64_MAX_ALPHA;
+
+ RunTest(bsize, 1);
+ }
+ }
+}
+
+INSTANTIATE_TEST_CASE_P(
+ C, BlendA64MaskTestHBD_d16,
+ ::testing::Values(TestFuncsHBD_d16(aom_highbd_blend_a64_d16_mask_c, NULL)));
+
+// TODO(slavarnway): Enable the following in the avx2 commit. (56501)
+#if 0
+#if HAVE_AVX2
+INSTANTIATE_TEST_CASE_P(
+ SSE4_1, BlendA64MaskTestHBD,
+ ::testing::Values(TestFuncsHBD(aom_highbd_blend_a64_mask_c,
+ aom_highbd_blend_a64_mask_avx2)));
+#endif // HAVE_AVX2
+#endif
+} // namespace
diff --git a/third_party/aom/test/blockd_test.cc b/third_party/aom/test/blockd_test.cc
new file mode 100644
index 0000000000..ab624007ce
--- /dev/null
+++ b/third_party/aom/test/blockd_test.cc
@@ -0,0 +1,122 @@
+/*
+ * Copyright (c) 2018, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "av1/common/blockd.h"
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+// Verify the optimized implementation of get_partition_subsize() produces the
+// same results as the Partition_Subsize lookup table in the spec.
+TEST(BlockdTest, GetPartitionSubsize) {
+ // The Partition_Subsize table in the spec (Section 9.3. Conversion tables).
+ /* clang-format off */
+ static const BLOCK_SIZE kPartitionSubsize[10][BLOCK_SIZES_ALL] = {
+ {
+ BLOCK_4X4,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_8X8,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_16X16,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_32X32,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_64X64,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_128X128,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_INVALID,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_INVALID
+ }, {
+ BLOCK_INVALID,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_8X4,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_16X8,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_32X16,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_64X32,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_128X64,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_INVALID,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_INVALID
+ }, {
+ BLOCK_INVALID,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_4X8,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_8X16,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_16X32,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_32X64,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_64X128,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_INVALID,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_INVALID
+ }, {
+ BLOCK_INVALID,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_4X4,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_8X8,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_16X16,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_32X32,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_64X64,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_INVALID,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_INVALID
+ }, {
+ BLOCK_INVALID,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_8X4,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_16X8,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_32X16,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_64X32,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_128X64,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_INVALID,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_INVALID
+ }, {
+ BLOCK_INVALID,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_8X4,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_16X8,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_32X16,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_64X32,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_128X64,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_INVALID,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_INVALID
+ }, {
+ BLOCK_INVALID,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_4X8,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_8X16,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_16X32,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_32X64,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_64X128,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_INVALID,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_INVALID
+ }, {
+ BLOCK_INVALID,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_4X8,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_8X16,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_16X32,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_32X64,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_64X128,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_INVALID,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_INVALID
+ }, {
+ BLOCK_INVALID,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_INVALID,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_16X4,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_32X8,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_64X16,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_INVALID,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_INVALID,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_INVALID
+ }, {
+ BLOCK_INVALID,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_INVALID,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_4X16,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_8X32,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_16X64,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_INVALID,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_INVALID,
+ BLOCK_INVALID, BLOCK_INVALID, BLOCK_INVALID
+ }
+ };
+ /* clang-format on */
+
+ for (int partition = 0; partition < 10; partition++) {
+ for (int bsize = BLOCK_4X4; bsize < BLOCK_SIZES_ALL; bsize++) {
+ EXPECT_EQ(kPartitionSubsize[partition][bsize],
+ get_partition_subsize(static_cast<BLOCK_SIZE>(bsize),
+ static_cast<PARTITION_TYPE>(partition)));
+ }
+ }
+}
diff --git a/third_party/aom/test/boolcoder_test.cc b/third_party/aom/test/boolcoder_test.cc
new file mode 100644
index 0000000000..680ec18774
--- /dev/null
+++ b/third_party/aom/test/boolcoder_test.cc
@@ -0,0 +1,173 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <math.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "test/acm_random.h"
+#include "aom/aom_integer.h"
+#include "aom_dsp/bitreader.h"
+#include "aom_dsp/bitwriter.h"
+
+using libaom_test::ACMRandom;
+
+namespace {
+const int num_tests = 10;
+} // namespace
+
+TEST(AV1, TestBitIO) {
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ for (int n = 0; n < num_tests; ++n) {
+ for (int method = 0; method <= 7; ++method) { // we generate various proba
+ const int kBitsToTest = 1000;
+ uint8_t probas[kBitsToTest];
+
+ for (int i = 0; i < kBitsToTest; ++i) {
+ const int parity = i & 1;
+ /* clang-format off */
+ probas[i] =
+ (method == 0) ? 0 : (method == 1) ? 255 :
+ (method == 2) ? 128 :
+ (method == 3) ? rnd.Rand8() :
+ (method == 4) ? (parity ? 0 : 255) :
+ // alternate between low and high proba:
+ (method == 5) ? (parity ? rnd(128) : 255 - rnd(128)) :
+ (method == 6) ?
+ (parity ? rnd(64) : 255 - rnd(64)) :
+ (parity ? rnd(32) : 255 - rnd(32));
+ /* clang-format on */
+ }
+ for (int bit_method = 0; bit_method <= 3; ++bit_method) {
+ const int random_seed = 6432;
+ const int kBufferSize = 10000;
+ ACMRandom bit_rnd(random_seed);
+ aom_writer bw;
+ uint8_t bw_buffer[kBufferSize];
+ aom_start_encode(&bw, bw_buffer);
+
+ int bit = (bit_method == 0) ? 0 : (bit_method == 1) ? 1 : 0;
+ for (int i = 0; i < kBitsToTest; ++i) {
+ if (bit_method == 2) {
+ bit = (i & 1);
+ } else if (bit_method == 3) {
+ bit = bit_rnd(2);
+ }
+ aom_write(&bw, bit, static_cast<int>(probas[i]));
+ }
+
+ aom_stop_encode(&bw);
+
+ aom_reader br;
+ aom_reader_init(&br, bw_buffer, bw.pos);
+ bit_rnd.Reset(random_seed);
+ for (int i = 0; i < kBitsToTest; ++i) {
+ if (bit_method == 2) {
+ bit = (i & 1);
+ } else if (bit_method == 3) {
+ bit = bit_rnd(2);
+ }
+ GTEST_ASSERT_EQ(aom_read(&br, probas[i], NULL), bit)
+ << "pos: " << i << " / " << kBitsToTest
+ << " bit_method: " << bit_method << " method: " << method;
+ }
+ }
+ }
+ }
+}
+
+#define FRAC_DIFF_TOTAL_ERROR 0.18
+
+TEST(AV1, TestTell) {
+ const int kBufferSize = 10000;
+ aom_writer bw;
+ uint8_t bw_buffer[kBufferSize];
+ const int kSymbols = 1024;
+ // Coders are noisier at low probabilities, so we start at p = 4.
+ for (int p = 4; p < 256; p++) {
+ double probability = p / 256.;
+ aom_start_encode(&bw, bw_buffer);
+ for (int i = 0; i < kSymbols; i++) {
+ aom_write(&bw, 0, p);
+ }
+ aom_stop_encode(&bw);
+ aom_reader br;
+ aom_reader_init(&br, bw_buffer, bw.pos);
+ uint32_t last_tell = aom_reader_tell(&br);
+ uint32_t last_tell_frac = aom_reader_tell_frac(&br);
+ double frac_diff_total = 0;
+ GTEST_ASSERT_GE(aom_reader_tell(&br), 0u);
+ GTEST_ASSERT_LE(aom_reader_tell(&br), 1u);
+ ASSERT_FALSE(aom_reader_has_overflowed(&br));
+ for (int i = 0; i < kSymbols; i++) {
+ aom_read(&br, p, NULL);
+ uint32_t tell = aom_reader_tell(&br);
+ uint32_t tell_frac = aom_reader_tell_frac(&br);
+ GTEST_ASSERT_GE(tell, last_tell)
+ << "tell: " << tell << ", last_tell: " << last_tell;
+ GTEST_ASSERT_GE(tell_frac, last_tell_frac)
+ << "tell_frac: " << tell_frac
+ << ", last_tell_frac: " << last_tell_frac;
+ // Frac tell should round up to tell.
+ GTEST_ASSERT_EQ(tell, (tell_frac + 7) >> 3);
+ last_tell = tell;
+ frac_diff_total +=
+ fabs(((tell_frac - last_tell_frac) / 8.0) + log2(probability));
+ last_tell_frac = tell_frac;
+ }
+ const uint32_t expected = (uint32_t)(-kSymbols * log2(probability));
+ // Last tell should be close to the expected value.
+ GTEST_ASSERT_LE(last_tell, expected + 20) << " last_tell: " << last_tell;
+ // The average frac_diff error should be pretty small.
+ GTEST_ASSERT_LE(frac_diff_total / kSymbols, FRAC_DIFF_TOTAL_ERROR)
+ << " frac_diff_total: " << frac_diff_total;
+ ASSERT_FALSE(aom_reader_has_overflowed(&br));
+ }
+}
+
+TEST(AV1, TestHasOverflowed) {
+ const int kBufferSize = 10000;
+ aom_writer bw;
+ uint8_t bw_buffer[kBufferSize];
+ const int kSymbols = 1024;
+ // Coders are noisier at low probabilities, so we start at p = 4.
+ for (int p = 4; p < 256; p++) {
+ aom_start_encode(&bw, bw_buffer);
+ for (int i = 0; i < kSymbols; i++) {
+ aom_write(&bw, 1, p);
+ }
+ aom_stop_encode(&bw);
+ aom_reader br;
+ aom_reader_init(&br, bw_buffer, bw.pos);
+ ASSERT_FALSE(aom_reader_has_overflowed(&br));
+ for (int i = 0; i < kSymbols; i++) {
+ GTEST_ASSERT_EQ(aom_read(&br, p, NULL), 1);
+ ASSERT_FALSE(aom_reader_has_overflowed(&br));
+ }
+ // In the worst case, the encoder uses just a tiny fraction of the last
+ // byte in the buffer. So to guarantee that aom_reader_has_overflowed()
+ // returns true, we have to consume very nearly 8 additional bits of data.
+ // In the worse case, one of the bits in that byte will be 1, and the rest
+ // will be zero. Once we are past that 1 bit, when the probability of
+ // reading zero symbol from aom_read() is high, each additional symbol read
+ // will consume very little additional data (in the case that p == 255,
+ // approximately -log_2(255/256) ~= 0.0056 bits). In that case it would
+ // take around 178 calls to consume more than 8 bits. That is only an upper
+ // bound. In practice we are not guaranteed to hit the worse case and can
+ // get away with 174 calls.
+ for (int i = 0; i < 174; i++) {
+ aom_read(&br, p, NULL);
+ }
+ ASSERT_TRUE(aom_reader_has_overflowed(&br));
+ }
+}
diff --git a/third_party/aom/test/borders_test.cc b/third_party/aom/test/borders_test.cc
new file mode 100644
index 0000000000..893237ef30
--- /dev/null
+++ b/third_party/aom/test/borders_test.cc
@@ -0,0 +1,85 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <climits>
+#include <vector>
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/codec_factory.h"
+#include "test/encode_test_driver.h"
+#include "test/i420_video_source.h"
+#include "test/util.h"
+
+namespace {
+
+class BordersTestLarge
+ : public ::libaom_test::CodecTestWithParam<libaom_test::TestMode>,
+ public ::libaom_test::EncoderTest {
+ protected:
+ BordersTestLarge() : EncoderTest(GET_PARAM(0)) {}
+ virtual ~BordersTestLarge() {}
+
+ virtual void SetUp() {
+ InitializeConfig();
+ SetMode(GET_PARAM(1));
+ }
+
+ virtual void PreEncodeFrameHook(::libaom_test::VideoSource *video,
+ ::libaom_test::Encoder *encoder) {
+ if (video->frame() == 1) {
+ encoder->Control(AOME_SET_CPUUSED, 1);
+ encoder->Control(AOME_SET_ENABLEAUTOALTREF, 1);
+ encoder->Control(AOME_SET_ARNR_MAXFRAMES, 7);
+ encoder->Control(AOME_SET_ARNR_STRENGTH, 5);
+ }
+ }
+
+ virtual void FramePktHook(const aom_codec_cx_pkt_t *pkt) {
+ if (pkt->data.frame.flags & AOM_FRAME_IS_KEY) {
+ }
+ }
+};
+
+TEST_P(BordersTestLarge, TestEncodeHighBitrate) {
+ // Validate that this non multiple of 64 wide clip encodes and decodes
+ // without a mismatch when passing in a very low max q. This pushes
+ // the encoder to producing lots of big partitions which will likely
+ // extend into the border and test the border condition.
+ cfg_.g_lag_in_frames = 25;
+ cfg_.rc_2pass_vbr_minsection_pct = 5;
+ cfg_.rc_2pass_vbr_maxsection_pct = 2000;
+ cfg_.rc_target_bitrate = 2000;
+ cfg_.rc_max_quantizer = 10;
+
+ ::libaom_test::I420VideoSource video("hantro_odd.yuv", 208, 144, 30, 1, 0,
+ 10);
+
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+}
+TEST_P(BordersTestLarge, TestLowBitrate) {
+ // Validate that this clip encodes and decodes without a mismatch
+ // when passing in a very high min q. This pushes the encoder to producing
+ // lots of small partitions which might will test the other condition.
+
+ cfg_.g_lag_in_frames = 25;
+ cfg_.rc_2pass_vbr_minsection_pct = 5;
+ cfg_.rc_2pass_vbr_maxsection_pct = 2000;
+ cfg_.rc_target_bitrate = 200;
+ cfg_.rc_min_quantizer = 40;
+
+ ::libaom_test::I420VideoSource video("hantro_odd.yuv", 208, 144, 30, 1, 0,
+ 10);
+
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+}
+
+AV1_INSTANTIATE_TEST_CASE(BordersTestLarge,
+ ::testing::Values(::libaom_test::kTwoPassGood));
+} // namespace
diff --git a/third_party/aom/test/cdef_test.cc b/third_party/aom/test/cdef_test.cc
new file mode 100644
index 0000000000..becc072918
--- /dev/null
+++ b/third_party/aom/test/cdef_test.cc
@@ -0,0 +1,425 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <cstdlib>
+#include <string>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_config.h"
+#include "config/av1_rtcd.h"
+
+#include "aom_ports/aom_timer.h"
+#include "av1/common/cdef_block.h"
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "test/util.h"
+
+using libaom_test::ACMRandom;
+
+namespace {
+
+typedef ::testing::tuple<cdef_filter_block_func, cdef_filter_block_func,
+ BLOCK_SIZE, int, int>
+ cdef_dir_param_t;
+
+class CDEFBlockTest : public ::testing::TestWithParam<cdef_dir_param_t> {
+ public:
+ virtual ~CDEFBlockTest() {}
+ virtual void SetUp() {
+ cdef = GET_PARAM(0);
+ ref_cdef = GET_PARAM(1);
+ bsize = GET_PARAM(2);
+ boundary = GET_PARAM(3);
+ depth = GET_PARAM(4);
+ }
+
+ virtual void TearDown() { libaom_test::ClearSystemState(); }
+
+ protected:
+ int bsize;
+ int boundary;
+ int depth;
+ cdef_filter_block_func cdef;
+ cdef_filter_block_func ref_cdef;
+};
+
+typedef CDEFBlockTest CDEFSpeedTest;
+
+void test_cdef(int bsize, int iterations, cdef_filter_block_func cdef,
+ cdef_filter_block_func ref_cdef, int boundary, int depth) {
+ const int size = 8;
+ const int ysize = size + 2 * CDEF_VBORDER;
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ DECLARE_ALIGNED(16, uint16_t, s[ysize * CDEF_BSTRIDE]);
+ DECLARE_ALIGNED(16, static uint16_t, d[size * size]);
+ DECLARE_ALIGNED(16, static uint16_t, ref_d[size * size]);
+ memset(ref_d, 0, sizeof(ref_d));
+ memset(d, 0, sizeof(d));
+
+ int error = 0, pristrength = 0, secstrength, dir;
+ int pridamping, secdamping, bits, level, count,
+ errdepth = 0, errpristrength = 0, errsecstrength = 0, errboundary = 0,
+ errpridamping = 0, errsecdamping = 0;
+ unsigned int pos = 0;
+
+ const unsigned int max_pos = size * size >> static_cast<int>(depth == 8);
+ for (pridamping = 3 + depth - 8; pridamping < 7 - 3 * !!boundary + depth - 8;
+ pridamping++) {
+ for (secdamping = 3 + depth - 8;
+ secdamping < 7 - 3 * !!boundary + depth - 8; secdamping++) {
+ for (count = 0; count < iterations; count++) {
+ for (level = 0; level < (1 << depth) && !error;
+ level += (2 + 6 * !!boundary) << (depth - 8)) {
+ for (bits = 1; bits <= depth && !error; bits += 1 + 3 * !!boundary) {
+ for (unsigned int i = 0; i < sizeof(s) / sizeof(*s); i++)
+ s[i] = clamp((rnd.Rand16() & ((1 << bits) - 1)) + level, 0,
+ (1 << depth) - 1);
+ if (boundary) {
+ if (boundary & 1) { // Left
+ for (int i = 0; i < ysize; i++)
+ for (int j = 0; j < CDEF_HBORDER; j++)
+ s[i * CDEF_BSTRIDE + j] = CDEF_VERY_LARGE;
+ }
+ if (boundary & 2) { // Right
+ for (int i = 0; i < ysize; i++)
+ for (int j = CDEF_HBORDER + size; j < CDEF_BSTRIDE; j++)
+ s[i * CDEF_BSTRIDE + j] = CDEF_VERY_LARGE;
+ }
+ if (boundary & 4) { // Above
+ for (int i = 0; i < CDEF_VBORDER; i++)
+ for (int j = 0; j < CDEF_BSTRIDE; j++)
+ s[i * CDEF_BSTRIDE + j] = CDEF_VERY_LARGE;
+ }
+ if (boundary & 8) { // Below
+ for (int i = CDEF_VBORDER + size; i < ysize; i++)
+ for (int j = 0; j < CDEF_BSTRIDE; j++)
+ s[i * CDEF_BSTRIDE + j] = CDEF_VERY_LARGE;
+ }
+ }
+ for (dir = 0; dir < 8; dir++) {
+ for (pristrength = 0; pristrength <= 19 << (depth - 8) && !error;
+ pristrength += (1 + 4 * !!boundary) << (depth - 8)) {
+ if (pristrength == 16) pristrength = 19;
+ for (secstrength = 0; secstrength <= 4 << (depth - 8) && !error;
+ secstrength += 1 << (depth - 8)) {
+ if (secstrength == 3 << (depth - 8)) continue;
+ ref_cdef(depth == 8 ? (uint8_t *)ref_d : 0, ref_d, size,
+ s + CDEF_HBORDER + CDEF_VBORDER * CDEF_BSTRIDE,
+ pristrength, secstrength, dir, pridamping,
+ secdamping, bsize, (1 << depth) - 1, depth - 8);
+ // If cdef and ref_cdef are the same, we're just testing
+ // speed
+ if (cdef != ref_cdef)
+ ASM_REGISTER_STATE_CHECK(
+ cdef(depth == 8 ? (uint8_t *)d : 0, d, size,
+ s + CDEF_HBORDER + CDEF_VBORDER * CDEF_BSTRIDE,
+ pristrength, secstrength, dir, pridamping,
+ secdamping, bsize, (1 << depth) - 1, depth - 8));
+ if (ref_cdef != cdef) {
+ for (pos = 0; pos < max_pos && !error; pos++) {
+ error = ref_d[pos] != d[pos];
+ errdepth = depth;
+ errpristrength = pristrength;
+ errsecstrength = secstrength;
+ errboundary = boundary;
+ errpridamping = pridamping;
+ errsecdamping = secdamping;
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+
+ pos--;
+ EXPECT_EQ(0, error) << "Error: CDEFBlockTest, SIMD and C mismatch."
+ << std::endl
+ << "First error at " << pos % size << "," << pos / size
+ << " (" << (int16_t)ref_d[pos] << " : " << (int16_t)d[pos]
+ << ") " << std::endl
+ << "pristrength: " << errpristrength << std::endl
+ << "pridamping: " << errpridamping << std::endl
+ << "secstrength: " << errsecstrength << std::endl
+ << "secdamping: " << errsecdamping << std::endl
+ << "depth: " << errdepth << std::endl
+ << "size: " << bsize << std::endl
+ << "boundary: " << errboundary << std::endl
+ << std::endl;
+}
+
+void test_cdef_speed(int bsize, int iterations, cdef_filter_block_func cdef,
+ cdef_filter_block_func ref_cdef, int boundary, int depth) {
+ aom_usec_timer ref_timer;
+ aom_usec_timer timer;
+
+ aom_usec_timer_start(&ref_timer);
+ test_cdef(bsize, iterations, ref_cdef, ref_cdef, boundary, depth);
+ aom_usec_timer_mark(&ref_timer);
+ int ref_elapsed_time = (int)aom_usec_timer_elapsed(&ref_timer);
+
+ aom_usec_timer_start(&timer);
+ test_cdef(bsize, iterations, cdef, cdef, boundary, depth);
+ aom_usec_timer_mark(&timer);
+ int elapsed_time = (int)aom_usec_timer_elapsed(&timer);
+
+ EXPECT_GT(ref_elapsed_time, elapsed_time)
+ << "Error: CDEFSpeedTest, SIMD slower than C." << std::endl
+ << "C time: " << ref_elapsed_time << " us" << std::endl
+ << "SIMD time: " << elapsed_time << " us" << std::endl;
+}
+
+typedef int (*find_dir_t)(const uint16_t *img, int stride, int32_t *var,
+ int coeff_shift);
+
+typedef ::testing::tuple<find_dir_t, find_dir_t> find_dir_param_t;
+
+class CDEFFindDirTest : public ::testing::TestWithParam<find_dir_param_t> {
+ public:
+ virtual ~CDEFFindDirTest() {}
+ virtual void SetUp() {
+ finddir = GET_PARAM(0);
+ ref_finddir = GET_PARAM(1);
+ }
+
+ virtual void TearDown() { libaom_test::ClearSystemState(); }
+
+ protected:
+ find_dir_t finddir;
+ find_dir_t ref_finddir;
+};
+
+typedef CDEFFindDirTest CDEFFindDirSpeedTest;
+
+void test_finddir(int (*finddir)(const uint16_t *img, int stride, int32_t *var,
+ int coeff_shift),
+ int (*ref_finddir)(const uint16_t *img, int stride,
+ int32_t *var, int coeff_shift)) {
+ const int size = 8;
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ DECLARE_ALIGNED(16, uint16_t, s[size * size]);
+
+ int error = 0;
+ int depth, bits, level, count, errdepth = 0;
+ int ref_res = 0, res = 0;
+ int32_t ref_var = 0, var = 0;
+
+ for (depth = 8; depth <= 12 && !error; depth += 2) {
+ for (count = 0; count < 512 && !error; count++) {
+ for (level = 0; level < (1 << depth) && !error;
+ level += 1 << (depth - 8)) {
+ for (bits = 1; bits <= depth && !error; bits++) {
+ for (unsigned int i = 0; i < sizeof(s) / sizeof(*s); i++)
+ s[i] = clamp((rnd.Rand16() & ((1 << bits) - 1)) + level, 0,
+ (1 << depth) - 1);
+ for (int c = 0; c < 1 + 9 * (finddir == ref_finddir); c++)
+ ref_res = ref_finddir(s, size, &ref_var, depth - 8);
+ if (finddir != ref_finddir)
+ ASM_REGISTER_STATE_CHECK(res = finddir(s, size, &var, depth - 8));
+ if (ref_finddir != finddir) {
+ if (res != ref_res || var != ref_var) error = 1;
+ errdepth = depth;
+ }
+ }
+ }
+ }
+ }
+
+ EXPECT_EQ(0, error) << "Error: CDEFFindDirTest, SIMD and C mismatch."
+ << std::endl
+ << "return: " << res << " : " << ref_res << std::endl
+ << "var: " << var << " : " << ref_var << std::endl
+ << "depth: " << errdepth << std::endl
+ << std::endl;
+}
+
+void test_finddir_speed(int (*finddir)(const uint16_t *img, int stride,
+ int32_t *var, int coeff_shift),
+ int (*ref_finddir)(const uint16_t *img, int stride,
+ int32_t *var, int coeff_shift)) {
+ aom_usec_timer ref_timer;
+ aom_usec_timer timer;
+
+ aom_usec_timer_start(&ref_timer);
+ test_finddir(ref_finddir, ref_finddir);
+ aom_usec_timer_mark(&ref_timer);
+ int ref_elapsed_time = (int)aom_usec_timer_elapsed(&ref_timer);
+
+ aom_usec_timer_start(&timer);
+ test_finddir(finddir, finddir);
+ aom_usec_timer_mark(&timer);
+ int elapsed_time = (int)aom_usec_timer_elapsed(&timer);
+
+ EXPECT_GT(ref_elapsed_time, elapsed_time)
+ << "Error: CDEFFindDirSpeedTest, SIMD slower than C." << std::endl
+ << "C time: " << ref_elapsed_time << " us" << std::endl
+ << "SIMD time: " << elapsed_time << " us" << std::endl;
+}
+
+TEST_P(CDEFBlockTest, TestSIMDNoMismatch) {
+ test_cdef(bsize, 1, cdef, ref_cdef, boundary, depth);
+}
+
+TEST_P(CDEFSpeedTest, DISABLED_TestSpeed) {
+ test_cdef_speed(bsize, 4, cdef, ref_cdef, boundary, depth);
+}
+
+TEST_P(CDEFFindDirTest, TestSIMDNoMismatch) {
+ test_finddir(finddir, ref_finddir);
+}
+
+TEST_P(CDEFFindDirSpeedTest, DISABLED_TestSpeed) {
+ test_finddir_speed(finddir, ref_finddir);
+}
+
+using ::testing::make_tuple;
+
+// VS compiling for 32 bit targets does not support vector types in
+// structs as arguments, which makes the v256 type of the intrinsics
+// hard to support, so optimizations for this target are disabled.
+#if defined(_WIN64) || !defined(_MSC_VER) || defined(__clang__)
+#if HAVE_SSE2
+INSTANTIATE_TEST_CASE_P(
+ SSE2, CDEFBlockTest,
+ ::testing::Combine(::testing::Values(&cdef_filter_block_sse2),
+ ::testing::Values(&cdef_filter_block_c),
+ ::testing::Values(BLOCK_4X4, BLOCK_4X8, BLOCK_8X4,
+ BLOCK_8X8),
+ ::testing::Range(0, 16), ::testing::Range(8, 13, 2)));
+INSTANTIATE_TEST_CASE_P(SSE2, CDEFFindDirTest,
+ ::testing::Values(make_tuple(&cdef_find_dir_sse2,
+ &cdef_find_dir_c)));
+#endif
+#if HAVE_SSSE3
+INSTANTIATE_TEST_CASE_P(
+ SSSE3, CDEFBlockTest,
+ ::testing::Combine(::testing::Values(&cdef_filter_block_ssse3),
+ ::testing::Values(&cdef_filter_block_c),
+ ::testing::Values(BLOCK_4X4, BLOCK_4X8, BLOCK_8X4,
+ BLOCK_8X8),
+ ::testing::Range(0, 16), ::testing::Range(8, 13, 2)));
+INSTANTIATE_TEST_CASE_P(SSSE3, CDEFFindDirTest,
+ ::testing::Values(make_tuple(&cdef_find_dir_ssse3,
+ &cdef_find_dir_c)));
+#endif
+
+#if HAVE_SSE4_1
+INSTANTIATE_TEST_CASE_P(
+ SSE4_1, CDEFBlockTest,
+ ::testing::Combine(::testing::Values(&cdef_filter_block_sse4_1),
+ ::testing::Values(&cdef_filter_block_c),
+ ::testing::Values(BLOCK_4X4, BLOCK_4X8, BLOCK_8X4,
+ BLOCK_8X8),
+ ::testing::Range(0, 16), ::testing::Range(8, 13, 2)));
+INSTANTIATE_TEST_CASE_P(SSE4_1, CDEFFindDirTest,
+ ::testing::Values(make_tuple(&cdef_find_dir_sse4_1,
+ &cdef_find_dir_c)));
+#endif
+
+#if HAVE_AVX2
+INSTANTIATE_TEST_CASE_P(
+ AVX2, CDEFBlockTest,
+ ::testing::Combine(::testing::Values(&cdef_filter_block_avx2),
+ ::testing::Values(&cdef_filter_block_c),
+ ::testing::Values(BLOCK_4X4, BLOCK_4X8, BLOCK_8X4,
+ BLOCK_8X8),
+ ::testing::Range(0, 16), ::testing::Range(8, 13, 2)));
+INSTANTIATE_TEST_CASE_P(AVX2, CDEFFindDirTest,
+ ::testing::Values(make_tuple(&cdef_find_dir_avx2,
+ &cdef_find_dir_c)));
+#endif
+
+#if HAVE_NEON
+INSTANTIATE_TEST_CASE_P(
+ NEON, CDEFBlockTest,
+ ::testing::Combine(::testing::Values(&cdef_filter_block_neon),
+ ::testing::Values(&cdef_filter_block_c),
+ ::testing::Values(BLOCK_4X4, BLOCK_4X8, BLOCK_8X4,
+ BLOCK_8X8),
+ ::testing::Range(0, 16), ::testing::Range(8, 13, 2)));
+INSTANTIATE_TEST_CASE_P(NEON, CDEFFindDirTest,
+ ::testing::Values(make_tuple(&cdef_find_dir_neon,
+ &cdef_find_dir_c)));
+#endif
+
+// Test speed for all supported architectures
+#if HAVE_SSE2
+INSTANTIATE_TEST_CASE_P(
+ SSE2, CDEFSpeedTest,
+ ::testing::Combine(::testing::Values(&cdef_filter_block_sse2),
+ ::testing::Values(&cdef_filter_block_c),
+ ::testing::Values(BLOCK_4X4, BLOCK_4X8, BLOCK_8X4,
+ BLOCK_8X8),
+ ::testing::Range(0, 16), ::testing::Range(8, 13, 2)));
+INSTANTIATE_TEST_CASE_P(SSE2, CDEFFindDirSpeedTest,
+ ::testing::Values(make_tuple(&cdef_find_dir_sse2,
+ &cdef_find_dir_c)));
+#endif
+
+#if HAVE_SSSE3
+INSTANTIATE_TEST_CASE_P(
+ SSSE3, CDEFSpeedTest,
+ ::testing::Combine(::testing::Values(&cdef_filter_block_ssse3),
+ ::testing::Values(&cdef_filter_block_c),
+ ::testing::Values(BLOCK_4X4, BLOCK_4X8, BLOCK_8X4,
+ BLOCK_8X8),
+ ::testing::Range(0, 16), ::testing::Range(8, 13, 2)));
+INSTANTIATE_TEST_CASE_P(SSSE3, CDEFFindDirSpeedTest,
+ ::testing::Values(make_tuple(&cdef_find_dir_ssse3,
+ &cdef_find_dir_c)));
+#endif
+
+#if HAVE_SSE4_1
+INSTANTIATE_TEST_CASE_P(
+ SSE4_1, CDEFSpeedTest,
+ ::testing::Combine(::testing::Values(&cdef_filter_block_sse4_1),
+ ::testing::Values(&cdef_filter_block_c),
+ ::testing::Values(BLOCK_4X4, BLOCK_4X8, BLOCK_8X4,
+ BLOCK_8X8),
+ ::testing::Range(0, 16), ::testing::Range(8, 13, 2)));
+INSTANTIATE_TEST_CASE_P(SSE4_1, CDEFFindDirSpeedTest,
+ ::testing::Values(make_tuple(&cdef_find_dir_sse4_1,
+ &cdef_find_dir_c)));
+#endif
+
+#if HAVE_AVX2
+INSTANTIATE_TEST_CASE_P(
+ AVX2, CDEFSpeedTest,
+ ::testing::Combine(::testing::Values(&cdef_filter_block_avx2),
+ ::testing::Values(&cdef_filter_block_c),
+ ::testing::Values(BLOCK_4X4, BLOCK_4X8, BLOCK_8X4,
+ BLOCK_8X8),
+ ::testing::Range(0, 16), ::testing::Range(8, 13, 2)));
+INSTANTIATE_TEST_CASE_P(AVX2, CDEFFindDirSpeedTest,
+ ::testing::Values(make_tuple(&cdef_find_dir_avx2,
+ &cdef_find_dir_c)));
+#endif
+
+#if HAVE_NEON
+INSTANTIATE_TEST_CASE_P(
+ NEON, CDEFSpeedTest,
+ ::testing::Combine(::testing::Values(&cdef_filter_block_neon),
+ ::testing::Values(&cdef_filter_block_c),
+ ::testing::Values(BLOCK_4X4, BLOCK_4X8, BLOCK_8X4,
+ BLOCK_8X8),
+ ::testing::Range(0, 16), ::testing::Range(8, 13, 2)));
+INSTANTIATE_TEST_CASE_P(NEON, CDEFFindDirSpeedTest,
+ ::testing::Values(make_tuple(&cdef_find_dir_neon,
+ &cdef_find_dir_c)));
+#endif
+
+#endif // defined(_WIN64) || !defined(_MSC_VER)
+} // namespace
diff --git a/third_party/aom/test/cfl_test.cc b/third_party/aom/test/cfl_test.cc
new file mode 100644
index 0000000000..e4d438d6ab
--- /dev/null
+++ b/third_party/aom/test/cfl_test.cc
@@ -0,0 +1,567 @@
+/*
+ * Copyright (c) 2017, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/av1_rtcd.h"
+
+#include "aom_ports/aom_timer.h"
+#include "test/util.h"
+#include "test/acm_random.h"
+
+using ::testing::make_tuple;
+
+using libaom_test::ACMRandom;
+
+#define NUM_ITERATIONS (100)
+#define NUM_ITERATIONS_SPEED (INT16_MAX)
+
+#define ALL_CFL_TX_SIZES(function) \
+ make_tuple(TX_4X4, &function), make_tuple(TX_4X8, &function), \
+ make_tuple(TX_4X16, &function), make_tuple(TX_8X4, &function), \
+ make_tuple(TX_8X8, &function), make_tuple(TX_8X16, &function), \
+ make_tuple(TX_8X32, &function), make_tuple(TX_16X4, &function), \
+ make_tuple(TX_16X8, &function), make_tuple(TX_16X16, &function), \
+ make_tuple(TX_16X32, &function), make_tuple(TX_32X8, &function), \
+ make_tuple(TX_32X16, &function), make_tuple(TX_32X32, &function)
+
+#define ALL_CFL_TX_SIZES_SUBSAMPLE(fun420, fun422, fun444) \
+ make_tuple(TX_4X4, &fun420, &fun422, &fun444), \
+ make_tuple(TX_4X8, &fun420, &fun422, &fun444), \
+ make_tuple(TX_4X16, &fun420, &fun422, &fun444), \
+ make_tuple(TX_8X4, &fun420, &fun422, &fun444), \
+ make_tuple(TX_8X8, &fun420, &fun422, &fun444), \
+ make_tuple(TX_8X16, &fun420, &fun422, &fun444), \
+ make_tuple(TX_8X32, &fun420, &fun422, &fun444), \
+ make_tuple(TX_16X4, &fun420, &fun422, &fun444), \
+ make_tuple(TX_16X8, &fun420, &fun422, &fun444), \
+ make_tuple(TX_16X16, &fun420, &fun422, &fun444), \
+ make_tuple(TX_16X32, &fun420, &fun422, &fun444), \
+ make_tuple(TX_32X8, &fun420, &fun422, &fun444), \
+ make_tuple(TX_32X16, &fun420, &fun422, &fun444), \
+ make_tuple(TX_32X32, &fun420, &fun422, &fun444)
+
+namespace {
+
+template <typename A>
+static void assert_eq(const A *a, const A *b, int width, int height) {
+ for (int j = 0; j < height; j++) {
+ for (int i = 0; i < width; i++) {
+ ASSERT_EQ(a[j * CFL_BUF_LINE + i], b[j * CFL_BUF_LINE + i]);
+ }
+ }
+}
+
+static void assertFaster(int ref_elapsed_time, int elapsed_time) {
+ EXPECT_GT(ref_elapsed_time, elapsed_time)
+ << "Error: CFLSubtractSpeedTest, SIMD slower than C." << std::endl
+ << "C time: " << ref_elapsed_time << " us" << std::endl
+ << "SIMD time: " << elapsed_time << " us" << std::endl;
+}
+
+static void printSpeed(int ref_elapsed_time, int elapsed_time, int width,
+ int height) {
+ std::cout.precision(2);
+ std::cout << "[ ] " << width << "x" << height
+ << ": C time = " << ref_elapsed_time
+ << " us, SIMD time = " << elapsed_time << " us"
+ << " (~" << ref_elapsed_time / (double)elapsed_time << "x) "
+ << std::endl;
+}
+
+class CFLTest {
+ public:
+ virtual ~CFLTest() {}
+ void init(TX_SIZE tx) {
+ tx_size = tx;
+ width = tx_size_wide[tx_size];
+ height = tx_size_high[tx_size];
+ rnd(ACMRandom::DeterministicSeed());
+ }
+
+ protected:
+ TX_SIZE tx_size;
+ int width;
+ int height;
+ ACMRandom rnd;
+};
+
+template <typename I>
+class CFLTestWithData : public CFLTest {
+ public:
+ virtual ~CFLTestWithData() {}
+
+ protected:
+ I data[CFL_BUF_SQUARE];
+ I data_ref[CFL_BUF_SQUARE];
+ void randData(I (ACMRandom::*random)()) {
+ for (int j = 0; j < this->height; j++) {
+ for (int i = 0; i < this->width; i++) {
+ const I d = (this->rnd.*random)();
+ data[j * CFL_BUF_LINE + i] = d;
+ data_ref[j * CFL_BUF_LINE + i] = d;
+ }
+ }
+ }
+};
+
+template <typename I>
+class CFLTestWithAlignedData : public CFLTest {
+ public:
+ CFLTestWithAlignedData() {
+ chroma_pels_ref =
+ reinterpret_cast<I *>(aom_memalign(32, sizeof(I) * CFL_BUF_SQUARE));
+ chroma_pels =
+ reinterpret_cast<I *>(aom_memalign(32, sizeof(I) * CFL_BUF_SQUARE));
+ sub_luma_pels_ref = reinterpret_cast<int16_t *>(
+ aom_memalign(32, sizeof(int16_t) * CFL_BUF_SQUARE));
+ sub_luma_pels = reinterpret_cast<int16_t *>(
+ aom_memalign(32, sizeof(int16_t) * CFL_BUF_SQUARE));
+ memset(chroma_pels_ref, 0, sizeof(I) * CFL_BUF_SQUARE);
+ memset(chroma_pels, 0, sizeof(I) * CFL_BUF_SQUARE);
+ memset(sub_luma_pels_ref, 0, sizeof(int16_t) * CFL_BUF_SQUARE);
+ memset(sub_luma_pels, 0, sizeof(int16_t) * CFL_BUF_SQUARE);
+ }
+ ~CFLTestWithAlignedData() {
+ aom_free(chroma_pels_ref);
+ aom_free(sub_luma_pels_ref);
+ aom_free(chroma_pels);
+ aom_free(sub_luma_pels);
+ }
+
+ protected:
+ I *chroma_pels_ref;
+ I *chroma_pels;
+ int16_t *sub_luma_pels_ref;
+ int16_t *sub_luma_pels;
+ int alpha_q3;
+ I dc;
+ void randData(int bd) {
+ alpha_q3 = this->rnd(33) - 16;
+ dc = this->rnd(1 << bd);
+ for (int j = 0; j < this->height; j++) {
+ for (int i = 0; i < this->width; i++) {
+ chroma_pels[j * CFL_BUF_LINE + i] = dc;
+ chroma_pels_ref[j * CFL_BUF_LINE + i] = dc;
+ sub_luma_pels_ref[j * CFL_BUF_LINE + i] =
+ sub_luma_pels[j * CFL_BUF_LINE + i] = this->rnd(1 << (bd + 3));
+ }
+ }
+ }
+};
+
+typedef cfl_subtract_average_fn (*sub_avg_fn)(TX_SIZE tx_size);
+typedef ::testing::tuple<TX_SIZE, sub_avg_fn> sub_avg_param;
+class CFLSubAvgTest : public ::testing::TestWithParam<sub_avg_param>,
+ public CFLTestWithData<int16_t> {
+ public:
+ virtual void SetUp() {
+ CFLTest::init(::testing::get<0>(this->GetParam()));
+ sub_avg = ::testing::get<1>(this->GetParam())(tx_size);
+ sub_avg_ref = get_subtract_average_fn_c(tx_size);
+ }
+ virtual ~CFLSubAvgTest() {}
+
+ protected:
+ cfl_subtract_average_fn sub_avg;
+ cfl_subtract_average_fn sub_avg_ref;
+};
+
+TEST_P(CFLSubAvgTest, SubAvgTest) {
+ for (int it = 0; it < NUM_ITERATIONS; it++) {
+ randData(&ACMRandom::Rand15Signed);
+ sub_avg((uint16_t *)data, data);
+ sub_avg_ref((uint16_t *)data_ref, data_ref);
+ assert_eq<int16_t>(data, data_ref, width, height);
+ }
+}
+
+TEST_P(CFLSubAvgTest, DISABLED_SubAvgSpeedTest) {
+ aom_usec_timer ref_timer;
+ aom_usec_timer timer;
+ randData(&ACMRandom::Rand15Signed);
+ aom_usec_timer_start(&ref_timer);
+ for (int k = 0; k < NUM_ITERATIONS_SPEED; k++) {
+ sub_avg_ref((uint16_t *)data_ref, data_ref);
+ }
+ aom_usec_timer_mark(&ref_timer);
+ int ref_elapsed_time = (int)aom_usec_timer_elapsed(&ref_timer);
+ aom_usec_timer_start(&timer);
+ for (int k = 0; k < NUM_ITERATIONS_SPEED; k++) {
+ sub_avg((uint16_t *)data, data);
+ }
+ aom_usec_timer_mark(&timer);
+ int elapsed_time = (int)aom_usec_timer_elapsed(&timer);
+ printSpeed(ref_elapsed_time, elapsed_time, width, height);
+ assertFaster(ref_elapsed_time, elapsed_time);
+}
+
+template <typename S, typename T, typename I>
+class CFLSubsampleTest : public ::testing::TestWithParam<S>,
+ public CFLTestWithData<I> {
+ public:
+ virtual void SetUp() {
+ CFLTest::init(::testing::get<0>(this->GetParam()));
+ fun_420 = ::testing::get<1>(this->GetParam())(this->tx_size);
+ fun_422 = ::testing::get<2>(this->GetParam())(this->tx_size);
+ fun_444 = ::testing::get<3>(this->GetParam())(this->tx_size);
+ }
+
+ protected:
+ T fun_420;
+ T fun_422;
+ T fun_444;
+ T fun_420_ref;
+ T fun_422_ref;
+ T fun_444_ref;
+
+ void subsampleTest(T fun, T fun_ref, int sub_width, int sub_height,
+ I (ACMRandom::*random)()) {
+ uint16_t sub_luma_pels[CFL_BUF_SQUARE];
+ uint16_t sub_luma_pels_ref[CFL_BUF_SQUARE];
+
+ for (int it = 0; it < NUM_ITERATIONS; it++) {
+ CFLTestWithData<I>::randData(random);
+ fun(this->data, CFL_BUF_LINE, sub_luma_pels);
+ fun_ref(this->data_ref, CFL_BUF_LINE, sub_luma_pels_ref);
+ assert_eq<uint16_t>(sub_luma_pels, sub_luma_pels_ref, sub_width,
+ sub_height);
+ }
+ }
+
+ void subsampleSpeedTest(T fun, T fun_ref, I (ACMRandom::*random)()) {
+ uint16_t sub_luma_pels[CFL_BUF_SQUARE];
+ uint16_t sub_luma_pels_ref[CFL_BUF_SQUARE];
+ aom_usec_timer ref_timer;
+ aom_usec_timer timer;
+
+ CFLTestWithData<I>::randData(random);
+ aom_usec_timer_start(&ref_timer);
+ for (int k = 0; k < NUM_ITERATIONS_SPEED; k++) {
+ fun_ref(this->data_ref, CFL_BUF_LINE, sub_luma_pels);
+ }
+ aom_usec_timer_mark(&ref_timer);
+ int ref_elapsed_time = (int)aom_usec_timer_elapsed(&ref_timer);
+ aom_usec_timer_start(&timer);
+ for (int k = 0; k < NUM_ITERATIONS_SPEED; k++) {
+ fun(this->data, CFL_BUF_LINE, sub_luma_pels_ref);
+ }
+ aom_usec_timer_mark(&timer);
+ int elapsed_time = (int)aom_usec_timer_elapsed(&timer);
+ printSpeed(ref_elapsed_time, elapsed_time, this->width, this->height);
+ assertFaster(ref_elapsed_time, elapsed_time);
+ }
+};
+
+typedef cfl_subsample_lbd_fn (*get_subsample_lbd_fn)(TX_SIZE tx_size);
+typedef ::testing::tuple<TX_SIZE, get_subsample_lbd_fn, get_subsample_lbd_fn,
+ get_subsample_lbd_fn>
+ subsample_lbd_param;
+class CFLSubsampleLBDTest
+ : public CFLSubsampleTest<subsample_lbd_param, cfl_subsample_lbd_fn,
+ uint8_t> {
+ public:
+ virtual ~CFLSubsampleLBDTest() {}
+ virtual void SetUp() {
+ CFLSubsampleTest::SetUp();
+ fun_420_ref = cfl_get_luma_subsampling_420_lbd_c(tx_size);
+ fun_422_ref = cfl_get_luma_subsampling_422_lbd_c(tx_size);
+ fun_444_ref = cfl_get_luma_subsampling_444_lbd_c(tx_size);
+ }
+};
+
+TEST_P(CFLSubsampleLBDTest, SubsampleLBD420Test) {
+ subsampleTest(fun_420, fun_420_ref, width >> 1, height >> 1,
+ &ACMRandom::Rand8);
+}
+
+TEST_P(CFLSubsampleLBDTest, DISABLED_SubsampleLBD420SpeedTest) {
+ subsampleSpeedTest(fun_420, fun_420_ref, &ACMRandom::Rand8);
+}
+
+TEST_P(CFLSubsampleLBDTest, SubsampleLBD422Test) {
+ subsampleTest(fun_422, fun_422_ref, width >> 1, height, &ACMRandom::Rand8);
+}
+
+TEST_P(CFLSubsampleLBDTest, DISABLED_SubsampleLBD422SpeedTest) {
+ subsampleSpeedTest(fun_422, fun_422_ref, &ACMRandom::Rand8);
+}
+
+TEST_P(CFLSubsampleLBDTest, SubsampleLBD444Test) {
+ subsampleTest(fun_444, fun_444_ref, width, height, &ACMRandom::Rand8);
+}
+
+TEST_P(CFLSubsampleLBDTest, DISABLED_SubsampleLBD444SpeedTest) {
+ subsampleSpeedTest(fun_444, fun_444_ref, &ACMRandom::Rand8);
+}
+
+typedef cfl_subsample_hbd_fn (*get_subsample_hbd_fn)(TX_SIZE tx_size);
+typedef ::testing::tuple<TX_SIZE, get_subsample_hbd_fn, get_subsample_hbd_fn,
+ get_subsample_hbd_fn>
+ subsample_hbd_param;
+class CFLSubsampleHBDTest
+ : public CFLSubsampleTest<subsample_hbd_param, cfl_subsample_hbd_fn,
+ uint16_t> {
+ public:
+ virtual ~CFLSubsampleHBDTest() {}
+ virtual void SetUp() {
+ CFLSubsampleTest::SetUp();
+ fun_420_ref = cfl_get_luma_subsampling_420_hbd_c(tx_size);
+ fun_422_ref = cfl_get_luma_subsampling_422_hbd_c(tx_size);
+ fun_444_ref = cfl_get_luma_subsampling_444_hbd_c(tx_size);
+ }
+};
+
+TEST_P(CFLSubsampleHBDTest, SubsampleHBD420Test) {
+ subsampleTest(fun_420, fun_420_ref, width >> 1, height >> 1,
+ &ACMRandom::Rand12);
+}
+
+TEST_P(CFLSubsampleHBDTest, DISABLED_SubsampleHBD420SpeedTest) {
+ subsampleSpeedTest(fun_420, fun_420_ref, &ACMRandom::Rand12);
+}
+
+TEST_P(CFLSubsampleHBDTest, SubsampleHBD422Test) {
+ subsampleTest(fun_422, fun_422_ref, width >> 1, height, &ACMRandom::Rand12);
+}
+
+TEST_P(CFLSubsampleHBDTest, DISABLED_SubsampleHBD422SpeedTest) {
+ subsampleSpeedTest(fun_422, fun_422_ref, &ACMRandom::Rand12);
+}
+
+TEST_P(CFLSubsampleHBDTest, SubsampleHBD444Test) {
+ subsampleTest(fun_444, fun_444_ref, width, height, &ACMRandom::Rand12);
+}
+
+TEST_P(CFLSubsampleHBDTest, DISABLED_SubsampleHBD444SpeedTest) {
+ subsampleSpeedTest(fun_444, fun_444_ref, &ACMRandom::Rand12);
+}
+
+typedef cfl_predict_lbd_fn (*get_predict_fn)(TX_SIZE tx_size);
+typedef ::testing::tuple<TX_SIZE, get_predict_fn> predict_param;
+class CFLPredictTest : public ::testing::TestWithParam<predict_param>,
+ public CFLTestWithAlignedData<uint8_t> {
+ public:
+ virtual void SetUp() {
+ CFLTest::init(::testing::get<0>(this->GetParam()));
+ predict = ::testing::get<1>(this->GetParam())(tx_size);
+ predict_ref = get_predict_lbd_fn_c(tx_size);
+ }
+ virtual ~CFLPredictTest() {}
+
+ protected:
+ cfl_predict_lbd_fn predict;
+ cfl_predict_lbd_fn predict_ref;
+};
+
+TEST_P(CFLPredictTest, PredictTest) {
+ for (int it = 0; it < NUM_ITERATIONS; it++) {
+ randData(8);
+ predict(sub_luma_pels, chroma_pels, CFL_BUF_LINE, alpha_q3);
+ predict_ref(sub_luma_pels_ref, chroma_pels_ref, CFL_BUF_LINE, alpha_q3);
+ assert_eq<uint8_t>(chroma_pels, chroma_pels_ref, width, height);
+ }
+}
+TEST_P(CFLPredictTest, DISABLED_PredictSpeedTest) {
+ aom_usec_timer ref_timer;
+ aom_usec_timer timer;
+ randData(8);
+ aom_usec_timer_start(&ref_timer);
+ for (int k = 0; k < NUM_ITERATIONS_SPEED; k++) {
+ predict_ref(sub_luma_pels_ref, chroma_pels_ref, CFL_BUF_LINE, alpha_q3);
+ }
+ aom_usec_timer_mark(&ref_timer);
+ int ref_elapsed_time = (int)aom_usec_timer_elapsed(&ref_timer);
+
+ aom_usec_timer_start(&timer);
+ for (int k = 0; k < NUM_ITERATIONS_SPEED; k++) {
+ predict(sub_luma_pels, chroma_pels, CFL_BUF_LINE, alpha_q3);
+ }
+ aom_usec_timer_mark(&timer);
+ int elapsed_time = (int)aom_usec_timer_elapsed(&timer);
+ printSpeed(ref_elapsed_time, elapsed_time, width, height);
+ assertFaster(ref_elapsed_time, elapsed_time);
+}
+
+typedef cfl_predict_hbd_fn (*get_predict_fn_hbd)(TX_SIZE tx_size);
+typedef ::testing::tuple<TX_SIZE, get_predict_fn_hbd> predict_param_hbd;
+class CFLPredictHBDTest : public ::testing::TestWithParam<predict_param_hbd>,
+ public CFLTestWithAlignedData<uint16_t> {
+ public:
+ virtual void SetUp() {
+ CFLTest::init(::testing::get<0>(this->GetParam()));
+ predict = ::testing::get<1>(this->GetParam())(tx_size);
+ predict_ref = get_predict_hbd_fn_c(tx_size);
+ }
+ virtual ~CFLPredictHBDTest() {}
+
+ protected:
+ cfl_predict_hbd_fn predict;
+ cfl_predict_hbd_fn predict_ref;
+};
+
+TEST_P(CFLPredictHBDTest, PredictHBDTest) {
+ int bd = 12;
+ for (int it = 0; it < NUM_ITERATIONS; it++) {
+ randData(bd);
+ predict(sub_luma_pels, chroma_pels, CFL_BUF_LINE, alpha_q3, bd);
+ predict_ref(sub_luma_pels_ref, chroma_pels_ref, CFL_BUF_LINE, alpha_q3, bd);
+ assert_eq<uint16_t>(chroma_pels, chroma_pels_ref, width, height);
+ }
+}
+TEST_P(CFLPredictHBDTest, DISABLED_PredictHBDSpeedTest) {
+ aom_usec_timer ref_timer;
+ aom_usec_timer timer;
+ const int bd = 12;
+ randData(bd);
+ aom_usec_timer_start(&ref_timer);
+ for (int k = 0; k < NUM_ITERATIONS_SPEED; k++) {
+ predict_ref(sub_luma_pels_ref, chroma_pels_ref, CFL_BUF_LINE, alpha_q3, bd);
+ }
+ aom_usec_timer_mark(&ref_timer);
+ int ref_elapsed_time = (int)aom_usec_timer_elapsed(&ref_timer);
+
+ aom_usec_timer_start(&timer);
+ for (int k = 0; k < NUM_ITERATIONS_SPEED; k++) {
+ predict(sub_luma_pels, chroma_pels, CFL_BUF_LINE, alpha_q3, bd);
+ }
+ aom_usec_timer_mark(&timer);
+ int elapsed_time = (int)aom_usec_timer_elapsed(&timer);
+ printSpeed(ref_elapsed_time, elapsed_time, width, height);
+ assertFaster(ref_elapsed_time, elapsed_time);
+}
+
+#if HAVE_SSE2
+const sub_avg_param sub_avg_sizes_sse2[] = { ALL_CFL_TX_SIZES(
+ get_subtract_average_fn_sse2) };
+
+INSTANTIATE_TEST_CASE_P(SSE2, CFLSubAvgTest,
+ ::testing::ValuesIn(sub_avg_sizes_sse2));
+
+#endif
+
+#if HAVE_SSSE3
+const subsample_lbd_param subsample_lbd_sizes_ssse3[] = {
+ ALL_CFL_TX_SIZES_SUBSAMPLE(cfl_get_luma_subsampling_420_lbd_ssse3,
+ cfl_get_luma_subsampling_422_lbd_ssse3,
+ cfl_get_luma_subsampling_444_lbd_ssse3)
+};
+
+const subsample_hbd_param subsample_hbd_sizes_ssse3[] = {
+ ALL_CFL_TX_SIZES_SUBSAMPLE(cfl_get_luma_subsampling_420_hbd_ssse3,
+ cfl_get_luma_subsampling_422_hbd_ssse3,
+ cfl_get_luma_subsampling_444_hbd_ssse3)
+};
+
+const predict_param predict_sizes_ssse3[] = { ALL_CFL_TX_SIZES(
+ get_predict_lbd_fn_ssse3) };
+
+const predict_param_hbd predict_sizes_hbd_ssse3[] = { ALL_CFL_TX_SIZES(
+ get_predict_hbd_fn_ssse3) };
+
+INSTANTIATE_TEST_CASE_P(SSSE3, CFLSubsampleLBDTest,
+ ::testing::ValuesIn(subsample_lbd_sizes_ssse3));
+
+INSTANTIATE_TEST_CASE_P(SSSE3, CFLSubsampleHBDTest,
+ ::testing::ValuesIn(subsample_hbd_sizes_ssse3));
+
+INSTANTIATE_TEST_CASE_P(SSSE3, CFLPredictTest,
+ ::testing::ValuesIn(predict_sizes_ssse3));
+
+INSTANTIATE_TEST_CASE_P(SSSE3, CFLPredictHBDTest,
+ ::testing::ValuesIn(predict_sizes_hbd_ssse3));
+#endif
+
+#if HAVE_AVX2
+const sub_avg_param sub_avg_sizes_avx2[] = { ALL_CFL_TX_SIZES(
+ get_subtract_average_fn_avx2) };
+
+const subsample_lbd_param subsample_lbd_sizes_avx2[] = {
+ ALL_CFL_TX_SIZES_SUBSAMPLE(cfl_get_luma_subsampling_420_lbd_avx2,
+ cfl_get_luma_subsampling_422_lbd_avx2,
+ cfl_get_luma_subsampling_444_lbd_avx2)
+};
+
+const subsample_hbd_param subsample_hbd_sizes_avx2[] = {
+ ALL_CFL_TX_SIZES_SUBSAMPLE(cfl_get_luma_subsampling_420_hbd_avx2,
+ cfl_get_luma_subsampling_422_hbd_avx2,
+ cfl_get_luma_subsampling_444_hbd_avx2)
+};
+
+const predict_param predict_sizes_avx2[] = { ALL_CFL_TX_SIZES(
+ get_predict_lbd_fn_avx2) };
+
+const predict_param_hbd predict_sizes_hbd_avx2[] = { ALL_CFL_TX_SIZES(
+ get_predict_hbd_fn_avx2) };
+
+INSTANTIATE_TEST_CASE_P(AVX2, CFLSubAvgTest,
+ ::testing::ValuesIn(sub_avg_sizes_avx2));
+
+INSTANTIATE_TEST_CASE_P(AVX2, CFLSubsampleLBDTest,
+ ::testing::ValuesIn(subsample_lbd_sizes_avx2));
+
+INSTANTIATE_TEST_CASE_P(AVX2, CFLSubsampleHBDTest,
+ ::testing::ValuesIn(subsample_hbd_sizes_avx2));
+
+INSTANTIATE_TEST_CASE_P(AVX2, CFLPredictTest,
+ ::testing::ValuesIn(predict_sizes_avx2));
+
+INSTANTIATE_TEST_CASE_P(AVX2, CFLPredictHBDTest,
+ ::testing::ValuesIn(predict_sizes_hbd_avx2));
+#endif
+
+#if HAVE_NEON
+
+const sub_avg_param sub_avg_sizes_neon[] = { ALL_CFL_TX_SIZES(
+ get_subtract_average_fn_neon) };
+
+const subsample_lbd_param subsample_lbd_sizes_neon[] = {
+ ALL_CFL_TX_SIZES_SUBSAMPLE(cfl_get_luma_subsampling_420_lbd_neon,
+ cfl_get_luma_subsampling_422_lbd_neon,
+ cfl_get_luma_subsampling_444_lbd_neon)
+};
+
+const subsample_hbd_param subsample_hbd_sizes_neon[] = {
+ ALL_CFL_TX_SIZES_SUBSAMPLE(cfl_get_luma_subsampling_420_hbd_neon,
+ cfl_get_luma_subsampling_422_hbd_neon,
+ cfl_get_luma_subsampling_444_hbd_neon)
+};
+
+const predict_param predict_sizes_neon[] = { ALL_CFL_TX_SIZES(
+ get_predict_lbd_fn_neon) };
+
+const predict_param_hbd predict_sizes_hbd_neon[] = { ALL_CFL_TX_SIZES(
+ get_predict_hbd_fn_neon) };
+
+INSTANTIATE_TEST_CASE_P(NEON, CFLSubAvgTest,
+ ::testing::ValuesIn(sub_avg_sizes_neon));
+
+INSTANTIATE_TEST_CASE_P(NEON, CFLSubsampleLBDTest,
+ ::testing::ValuesIn(subsample_lbd_sizes_neon));
+
+INSTANTIATE_TEST_CASE_P(NEON, CFLSubsampleHBDTest,
+ ::testing::ValuesIn(subsample_hbd_sizes_neon));
+
+INSTANTIATE_TEST_CASE_P(NEON, CFLPredictTest,
+ ::testing::ValuesIn(predict_sizes_neon));
+
+INSTANTIATE_TEST_CASE_P(NEON, CFLPredictHBDTest,
+ ::testing::ValuesIn(predict_sizes_hbd_neon));
+#endif
+
+#if HAVE_VSX
+const sub_avg_param sub_avg_sizes_vsx[] = { ALL_CFL_TX_SIZES(
+ get_subtract_average_fn_vsx) };
+
+INSTANTIATE_TEST_CASE_P(VSX, CFLSubAvgTest,
+ ::testing::ValuesIn(sub_avg_sizes_vsx));
+#endif
+} // namespace
diff --git a/third_party/aom/test/clear_system_state.h b/third_party/aom/test/clear_system_state.h
new file mode 100644
index 0000000000..d38ff5dd51
--- /dev/null
+++ b/third_party/aom/test/clear_system_state.h
@@ -0,0 +1,31 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+#ifndef AOM_TEST_CLEAR_SYSTEM_STATE_H_
+#define AOM_TEST_CLEAR_SYSTEM_STATE_H_
+
+#include "config/aom_config.h"
+
+#if ARCH_X86 || ARCH_X86_64
+#include "aom_ports/x86.h"
+#endif
+
+namespace libaom_test {
+
+// Reset system to a known state. This function should be used for all non-API
+// test cases.
+inline void ClearSystemState() {
+#if ARCH_X86 || ARCH_X86_64
+ aom_reset_mmx_state();
+#endif
+}
+
+} // namespace libaom_test
+#endif // AOM_TEST_CLEAR_SYSTEM_STATE_H_
diff --git a/third_party/aom/test/codec_factory.h b/third_party/aom/test/codec_factory.h
new file mode 100644
index 0000000000..dd99110ee6
--- /dev/null
+++ b/third_party/aom/test/codec_factory.h
@@ -0,0 +1,170 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+#ifndef AOM_TEST_CODEC_FACTORY_H_
+#define AOM_TEST_CODEC_FACTORY_H_
+
+#include "config/aom_config.h"
+
+#include "aom/aom_decoder.h"
+#include "aom/aom_encoder.h"
+#if CONFIG_AV1_ENCODER
+#include "aom/aomcx.h"
+#endif
+#if CONFIG_AV1_DECODER
+#include "aom/aomdx.h"
+#endif
+
+#include "test/decode_test_driver.h"
+#include "test/encode_test_driver.h"
+namespace libaom_test {
+
+const int kCodecFactoryParam = 0;
+
+class CodecFactory {
+ public:
+ CodecFactory() {}
+
+ virtual ~CodecFactory() {}
+
+ virtual Decoder *CreateDecoder(aom_codec_dec_cfg_t cfg) const = 0;
+
+ virtual Decoder *CreateDecoder(aom_codec_dec_cfg_t cfg,
+ const aom_codec_flags_t flags) const = 0;
+
+ virtual Encoder *CreateEncoder(aom_codec_enc_cfg_t cfg,
+ const unsigned long init_flags,
+ TwopassStatsStore *stats) const = 0;
+
+ virtual aom_codec_err_t DefaultEncoderConfig(aom_codec_enc_cfg_t *cfg,
+ int usage) const = 0;
+};
+
+/* Provide CodecTestWith<n>Params classes for a variable number of parameters
+ * to avoid having to include a pointer to the CodecFactory in every test
+ * definition.
+ */
+template <class T1>
+class CodecTestWithParam
+ : public ::testing::TestWithParam<
+ ::testing::tuple<const libaom_test::CodecFactory *, T1> > {};
+
+template <class T1, class T2>
+class CodecTestWith2Params
+ : public ::testing::TestWithParam<
+ ::testing::tuple<const libaom_test::CodecFactory *, T1, T2> > {};
+
+template <class T1, class T2, class T3>
+class CodecTestWith3Params
+ : public ::testing::TestWithParam<
+ ::testing::tuple<const libaom_test::CodecFactory *, T1, T2, T3> > {};
+
+template <class T1, class T2, class T3, class T4>
+class CodecTestWith4Params
+ : public ::testing::TestWithParam< ::testing::tuple<
+ const libaom_test::CodecFactory *, T1, T2, T3, T4> > {};
+
+template <class T1, class T2, class T3, class T4, class T5>
+class CodecTestWith5Params
+ : public ::testing::TestWithParam< ::testing::tuple<
+ const libaom_test::CodecFactory *, T1, T2, T3, T4, T5> > {};
+
+/*
+ * AV1 Codec Definitions
+ */
+class AV1Decoder : public Decoder {
+ public:
+ explicit AV1Decoder(aom_codec_dec_cfg_t cfg) : Decoder(cfg) {}
+
+ AV1Decoder(aom_codec_dec_cfg_t cfg, const aom_codec_flags_t flag)
+ : Decoder(cfg, flag) {}
+
+ protected:
+ virtual aom_codec_iface_t *CodecInterface() const {
+#if CONFIG_AV1_DECODER
+ return aom_codec_av1_dx();
+#else
+ return NULL;
+#endif
+ }
+};
+
+class AV1Encoder : public Encoder {
+ public:
+ AV1Encoder(aom_codec_enc_cfg_t cfg, const uint32_t init_flags,
+ TwopassStatsStore *stats)
+ : Encoder(cfg, init_flags, stats) {}
+
+ protected:
+ virtual aom_codec_iface_t *CodecInterface() const {
+#if CONFIG_AV1_ENCODER
+ return aom_codec_av1_cx();
+#else
+ return NULL;
+#endif
+ }
+};
+
+class AV1CodecFactory : public CodecFactory {
+ public:
+ AV1CodecFactory() : CodecFactory() {}
+
+ virtual Decoder *CreateDecoder(aom_codec_dec_cfg_t cfg) const {
+ return CreateDecoder(cfg, 0);
+ }
+
+ virtual Decoder *CreateDecoder(aom_codec_dec_cfg_t cfg,
+ const aom_codec_flags_t flags) const {
+#if CONFIG_AV1_DECODER
+ return new AV1Decoder(cfg, flags);
+#else
+ (void)cfg;
+ (void)flags;
+ return NULL;
+#endif
+ }
+
+ virtual Encoder *CreateEncoder(aom_codec_enc_cfg_t cfg,
+ const unsigned long init_flags,
+ TwopassStatsStore *stats) const {
+#if CONFIG_AV1_ENCODER
+ return new AV1Encoder(cfg, init_flags, stats);
+#else
+ (void)cfg;
+ (void)init_flags;
+ (void)stats;
+ return NULL;
+#endif
+ }
+
+ virtual aom_codec_err_t DefaultEncoderConfig(aom_codec_enc_cfg_t *cfg,
+ int usage) const {
+#if CONFIG_AV1_ENCODER
+ return aom_codec_enc_config_default(aom_codec_av1_cx(), cfg, usage);
+#else
+ (void)cfg;
+ (void)usage;
+ return AOM_CODEC_INCAPABLE;
+#endif
+ }
+};
+
+const libaom_test::AV1CodecFactory kAV1;
+
+#define AV1_INSTANTIATE_TEST_CASE(test, ...) \
+ INSTANTIATE_TEST_CASE_P( \
+ AV1, test, \
+ ::testing::Combine( \
+ ::testing::Values(static_cast<const libaom_test::CodecFactory *>( \
+ &libaom_test::kAV1)), \
+ __VA_ARGS__))
+
+} // namespace libaom_test
+#endif // AOM_TEST_CODEC_FACTORY_H_
diff --git a/third_party/aom/test/coding_path_sync.cc b/third_party/aom/test/coding_path_sync.cc
new file mode 100644
index 0000000000..6735236ccd
--- /dev/null
+++ b/third_party/aom/test/coding_path_sync.cc
@@ -0,0 +1,205 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <vector>
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/acm_random.h"
+
+#include "config/aom_config.h"
+
+#include "aom_ports/mem.h" // ROUND_POWER_OF_TWO
+#include "aom/aomcx.h"
+#include "aom/aomdx.h"
+#include "aom/aom_encoder.h"
+#include "aom/aom_decoder.h"
+
+using libaom_test::ACMRandom;
+namespace {
+
+class CompressedSource {
+ public:
+ explicit CompressedSource(int seed) : rnd_(seed), frame_count_(0) {
+ aom_codec_iface_t *algo = aom_codec_av1_cx();
+
+ aom_codec_enc_cfg_t cfg;
+ aom_codec_enc_config_default(algo, &cfg, 0);
+
+ // force the quantizer, to reduce the sensitivity on encoding choices.
+ // e.g, we don't want this test to break when the rate control is modified.
+ {
+ const int max_q = cfg.rc_max_quantizer;
+ const int min_q = cfg.rc_min_quantizer;
+ const int q = rnd_.PseudoUniform(max_q - min_q + 1) + min_q;
+
+ cfg.rc_end_usage = AOM_Q;
+ cfg.rc_max_quantizer = q;
+ cfg.rc_min_quantizer = q;
+ }
+
+ // choose the picture size
+ {
+ width_ = rnd_.PseudoUniform(kWidth - 8) + 8;
+ height_ = rnd_.PseudoUniform(kHeight - 8) + 8;
+ }
+
+ // choose the chroma subsampling
+ {
+ const aom_img_fmt_t fmts[] = {
+ AOM_IMG_FMT_I420,
+ AOM_IMG_FMT_I422,
+ AOM_IMG_FMT_I444,
+ };
+
+ format_ = fmts[rnd_.PseudoUniform(NELEMENTS(fmts))];
+ }
+
+ cfg.g_w = width_;
+ cfg.g_h = height_;
+ cfg.g_lag_in_frames = 0;
+ if (format_ == AOM_IMG_FMT_I420)
+ cfg.g_profile = 0;
+ else if (format_ == AOM_IMG_FMT_I444)
+ cfg.g_profile = 1;
+ else if (format_ == AOM_IMG_FMT_I422)
+ cfg.g_profile = 2;
+
+ aom_codec_enc_init(&enc_, algo, &cfg, 0);
+ }
+
+ ~CompressedSource() { aom_codec_destroy(&enc_); }
+
+ const aom_codec_cx_pkt_t *ReadFrame() {
+ uint8_t buf[kWidth * kHeight * 3] = { 0 };
+
+ // render regular pattern
+ const int period = rnd_.Rand8() % 32 + 1;
+ const int phase = rnd_.Rand8() % period;
+
+ const int val_a = rnd_.Rand8();
+ const int val_b = rnd_.Rand8();
+
+ for (int i = 0; i < (int)sizeof buf; ++i)
+ buf[i] = (i + phase) % period < period / 2 ? val_a : val_b;
+
+ aom_image_t img;
+ aom_img_wrap(&img, format_, width_, height_, 0, buf);
+ aom_codec_encode(&enc_, &img, frame_count_++, 1, 0);
+
+ aom_codec_iter_t iter = NULL;
+
+ const aom_codec_cx_pkt_t *pkt = NULL;
+
+ do {
+ pkt = aom_codec_get_cx_data(&enc_, &iter);
+ } while (pkt && pkt->kind != AOM_CODEC_CX_FRAME_PKT);
+
+ return pkt;
+ }
+
+ private:
+ static const int kWidth = 128;
+ static const int kHeight = 128;
+
+ ACMRandom rnd_;
+ aom_img_fmt_t format_;
+ aom_codec_ctx_t enc_;
+ int frame_count_;
+ int width_, height_;
+};
+
+// lowers an aom_image_t to a easily comparable/printable form
+std::vector<int16_t> Serialize(const aom_image_t *img) {
+ std::vector<int16_t> bytes;
+ bytes.reserve(img->d_w * img->d_h * 3);
+ for (int plane = 0; plane < 3; ++plane) {
+ const int w = aom_img_plane_width(img, plane);
+ const int h = aom_img_plane_height(img, plane);
+
+ for (int r = 0; r < h; ++r) {
+ for (int c = 0; c < w; ++c) {
+ unsigned char *row = img->planes[plane] + r * img->stride[plane];
+ if (img->fmt & AOM_IMG_FMT_HIGHBITDEPTH)
+ bytes.push_back(row[c * 2]);
+ else
+ bytes.push_back(row[c]);
+ }
+ }
+ }
+
+ return bytes;
+}
+
+class Decoder {
+ public:
+ explicit Decoder(int allowLowbitdepth) {
+ aom_codec_iface_t *algo = aom_codec_av1_dx();
+
+ aom_codec_dec_cfg_t cfg = aom_codec_dec_cfg_t();
+ cfg.allow_lowbitdepth = allowLowbitdepth;
+
+ aom_codec_dec_init(&dec_, algo, &cfg, 0);
+ }
+
+ ~Decoder() { aom_codec_destroy(&dec_); }
+
+ std::vector<int16_t> decode(const aom_codec_cx_pkt_t *pkt) {
+ aom_codec_decode(&dec_, static_cast<uint8_t *>(pkt->data.frame.buf),
+ pkt->data.frame.sz, NULL);
+
+ aom_codec_iter_t iter = NULL;
+ return Serialize(aom_codec_get_frame(&dec_, &iter));
+ }
+
+ private:
+ aom_codec_ctx_t dec_;
+};
+
+// Try to reveal a mismatch between LBD and HBD coding paths.
+TEST(CodingPathSync, SearchForHbdLbdMismatch) {
+ const int count_tests = 10;
+ for (int i = 0; i < count_tests; ++i) {
+ Decoder dec_hbd(0);
+ Decoder dec_lbd(1);
+
+ CompressedSource enc(i);
+
+ for (int k = 0; k < 3; ++k) {
+ const aom_codec_cx_pkt_t *frame = enc.ReadFrame();
+
+ std::vector<int16_t> lbd_yuv = dec_lbd.decode(frame);
+ std::vector<int16_t> hbd_yuv = dec_hbd.decode(frame);
+
+ ASSERT_EQ(lbd_yuv, hbd_yuv);
+ }
+ }
+}
+
+TEST(CodingPathSyncLarge, SearchForHbdLbdMismatchLarge) {
+ const int count_tests = 100;
+ const int seed = 1234;
+ for (int i = 0; i < count_tests; ++i) {
+ Decoder dec_hbd(0);
+ Decoder dec_lbd(1);
+
+ CompressedSource enc(seed + i);
+
+ for (int k = 0; k < 5; ++k) {
+ const aom_codec_cx_pkt_t *frame = enc.ReadFrame();
+
+ std::vector<int16_t> lbd_yuv = dec_lbd.decode(frame);
+ std::vector<int16_t> hbd_yuv = dec_hbd.decode(frame);
+
+ ASSERT_EQ(lbd_yuv, hbd_yuv);
+ }
+ }
+}
+
+} // namespace
diff --git a/third_party/aom/test/comp_avg_pred_test.cc b/third_party/aom/test/comp_avg_pred_test.cc
new file mode 100644
index 0000000000..9ad8973f08
--- /dev/null
+++ b/third_party/aom/test/comp_avg_pred_test.cc
@@ -0,0 +1,72 @@
+/*
+ * Copyright (c) 2018, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "test/comp_avg_pred_test.h"
+
+using ::testing::make_tuple;
+using ::testing::tuple;
+using libaom_test::ACMRandom;
+using libaom_test::AV1JNTCOMPAVG::AV1HighBDJNTCOMPAVGTest;
+using libaom_test::AV1JNTCOMPAVG::AV1HighBDJNTCOMPAVGUPSAMPLEDTest;
+using libaom_test::AV1JNTCOMPAVG::AV1JNTCOMPAVGTest;
+using libaom_test::AV1JNTCOMPAVG::AV1JNTCOMPAVGUPSAMPLEDTest;
+
+namespace {
+
+TEST_P(AV1JNTCOMPAVGTest, DISABLED_Speed) { RunSpeedTest(GET_PARAM(0)); }
+
+TEST_P(AV1JNTCOMPAVGTest, CheckOutput) { RunCheckOutput(GET_PARAM(0)); }
+
+#if HAVE_SSSE3
+INSTANTIATE_TEST_CASE_P(
+ SSSE3, AV1JNTCOMPAVGTest,
+ libaom_test::AV1JNTCOMPAVG::BuildParams(aom_jnt_comp_avg_pred_ssse3));
+#endif
+
+TEST_P(AV1JNTCOMPAVGUPSAMPLEDTest, DISABLED_Speed) {
+ RunSpeedTest(GET_PARAM(0));
+}
+
+TEST_P(AV1JNTCOMPAVGUPSAMPLEDTest, CheckOutput) {
+ RunCheckOutput(GET_PARAM(0));
+}
+
+#if HAVE_SSSE3
+INSTANTIATE_TEST_CASE_P(SSSE3, AV1JNTCOMPAVGUPSAMPLEDTest,
+ libaom_test::AV1JNTCOMPAVG::BuildParams(
+ aom_jnt_comp_avg_upsampled_pred_ssse3));
+#endif
+
+TEST_P(AV1HighBDJNTCOMPAVGTest, DISABLED_Speed) { RunSpeedTest(GET_PARAM(1)); }
+
+TEST_P(AV1HighBDJNTCOMPAVGTest, CheckOutput) { RunCheckOutput(GET_PARAM(1)); }
+
+#if HAVE_SSE2
+INSTANTIATE_TEST_CASE_P(SSE2, AV1HighBDJNTCOMPAVGTest,
+ libaom_test::AV1JNTCOMPAVG::BuildParams(
+ aom_highbd_jnt_comp_avg_pred_sse2, 1));
+#endif
+
+TEST_P(AV1HighBDJNTCOMPAVGUPSAMPLEDTest, DISABLED_Speed) {
+ RunSpeedTest(GET_PARAM(1));
+}
+
+TEST_P(AV1HighBDJNTCOMPAVGUPSAMPLEDTest, CheckOutput) {
+ RunCheckOutput(GET_PARAM(1));
+}
+
+#if HAVE_SSE2
+INSTANTIATE_TEST_CASE_P(SSE2, AV1HighBDJNTCOMPAVGUPSAMPLEDTest,
+ libaom_test::AV1JNTCOMPAVG::BuildParams(
+ aom_highbd_jnt_comp_avg_upsampled_pred_sse2));
+#endif
+
+} // namespace
diff --git a/third_party/aom/test/comp_avg_pred_test.h b/third_party/aom/test/comp_avg_pred_test.h
new file mode 100644
index 0000000000..9661dd9f54
--- /dev/null
+++ b/third_party/aom/test/comp_avg_pred_test.h
@@ -0,0 +1,555 @@
+/*
+ * Copyright (c) 2018, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#ifndef AOM_TEST_COMP_AVG_PRED_TEST_H_
+#define AOM_TEST_COMP_AVG_PRED_TEST_H_
+
+#include "config/aom_dsp_rtcd.h"
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/acm_random.h"
+#include "test/util.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "av1/common/common_data.h"
+#include "aom_ports/aom_timer.h"
+
+namespace libaom_test {
+const int kMaxSize = 128 + 32; // padding
+
+namespace AV1JNTCOMPAVG {
+
+typedef void (*jntcompavg_func)(uint8_t *comp_pred, const uint8_t *pred,
+ int width, int height, const uint8_t *ref,
+ int ref_stride,
+ const JNT_COMP_PARAMS *jcp_param);
+
+typedef void (*jntcompavgupsampled_func)(
+ MACROBLOCKD *xd, const struct AV1Common *const cm, int mi_row, int mi_col,
+ const MV *const mv, uint8_t *comp_pred, const uint8_t *pred, int width,
+ int height, int subpel_x_q3, int subpel_y_q3, const uint8_t *ref,
+ int ref_stride, const JNT_COMP_PARAMS *jcp_param, int subpel_search);
+
+typedef void (*highbdjntcompavgupsampled_func)(
+ MACROBLOCKD *xd, const struct AV1Common *const cm, int mi_row, int mi_col,
+ const MV *const mv, uint8_t *comp_pred8, const uint8_t *pred8, int width,
+ int height, int subpel_x_q3, int subpel_y_q3, const uint8_t *ref8,
+ int ref_stride, int bd, const JNT_COMP_PARAMS *jcp_param,
+ int subpel_search);
+
+typedef ::testing::tuple<jntcompavg_func, BLOCK_SIZE> JNTCOMPAVGParam;
+
+typedef ::testing::tuple<jntcompavgupsampled_func, BLOCK_SIZE>
+ JNTCOMPAVGUPSAMPLEDParam;
+
+typedef ::testing::tuple<int, jntcompavg_func, BLOCK_SIZE>
+ HighbdJNTCOMPAVGParam;
+
+typedef ::testing::tuple<int, highbdjntcompavgupsampled_func, BLOCK_SIZE>
+ HighbdJNTCOMPAVGUPSAMPLEDParam;
+
+::testing::internal::ParamGenerator<JNTCOMPAVGParam> BuildParams(
+ jntcompavg_func filter) {
+ return ::testing::Combine(::testing::Values(filter),
+ ::testing::Range(BLOCK_4X4, BLOCK_SIZES_ALL));
+}
+
+::testing::internal::ParamGenerator<JNTCOMPAVGUPSAMPLEDParam> BuildParams(
+ jntcompavgupsampled_func filter) {
+ return ::testing::Combine(::testing::Values(filter),
+ ::testing::Range(BLOCK_4X4, BLOCK_SIZES_ALL));
+}
+
+::testing::internal::ParamGenerator<HighbdJNTCOMPAVGParam> BuildParams(
+ jntcompavg_func filter, int is_hbd) {
+ (void)is_hbd;
+ return ::testing::Combine(::testing::Range(8, 13, 2),
+ ::testing::Values(filter),
+ ::testing::Range(BLOCK_4X4, BLOCK_SIZES_ALL));
+}
+
+::testing::internal::ParamGenerator<HighbdJNTCOMPAVGUPSAMPLEDParam> BuildParams(
+ highbdjntcompavgupsampled_func filter) {
+ return ::testing::Combine(::testing::Range(8, 13, 2),
+ ::testing::Values(filter),
+ ::testing::Range(BLOCK_4X4, BLOCK_SIZES_ALL));
+}
+
+class AV1JNTCOMPAVGTest : public ::testing::TestWithParam<JNTCOMPAVGParam> {
+ public:
+ ~AV1JNTCOMPAVGTest() {}
+ void SetUp() { rnd_.Reset(ACMRandom::DeterministicSeed()); }
+ void TearDown() { libaom_test::ClearSystemState(); }
+
+ protected:
+ void RunCheckOutput(jntcompavg_func test_impl) {
+ const int w = kMaxSize, h = kMaxSize;
+ const int block_idx = GET_PARAM(1);
+
+ uint8_t pred8[kMaxSize * kMaxSize];
+ uint8_t ref8[kMaxSize * kMaxSize];
+ uint8_t output[kMaxSize * kMaxSize];
+ uint8_t output2[kMaxSize * kMaxSize];
+
+ for (int i = 0; i < h; ++i)
+ for (int j = 0; j < w; ++j) {
+ pred8[i * w + j] = rnd_.Rand8();
+ ref8[i * w + j] = rnd_.Rand8();
+ }
+ const int in_w = block_size_wide[block_idx];
+ const int in_h = block_size_high[block_idx];
+
+ JNT_COMP_PARAMS jnt_comp_params;
+ jnt_comp_params.use_jnt_comp_avg = 1;
+
+ for (int ii = 0; ii < 2; ii++) {
+ for (int jj = 0; jj < 4; jj++) {
+ jnt_comp_params.fwd_offset = quant_dist_lookup_table[ii][jj][0];
+ jnt_comp_params.bck_offset = quant_dist_lookup_table[ii][jj][1];
+
+ const int offset_r = 3 + rnd_.PseudoUniform(h - in_h - 7);
+ const int offset_c = 3 + rnd_.PseudoUniform(w - in_w - 7);
+ aom_jnt_comp_avg_pred_c(output, pred8 + offset_r * w + offset_c, in_w,
+ in_h, ref8 + offset_r * w + offset_c, in_w,
+ &jnt_comp_params);
+ test_impl(output2, pred8 + offset_r * w + offset_c, in_w, in_h,
+ ref8 + offset_r * w + offset_c, in_w, &jnt_comp_params);
+
+ for (int i = 0; i < in_h; ++i) {
+ for (int j = 0; j < in_w; ++j) {
+ int idx = i * in_w + j;
+ ASSERT_EQ(output[idx], output2[idx])
+ << "Mismatch at unit tests for AV1JNTCOMPAVGTest\n"
+ << in_w << "x" << in_h << " Pixel mismatch at index " << idx
+ << " = (" << i << ", " << j << ")";
+ }
+ }
+ }
+ }
+ }
+ void RunSpeedTest(jntcompavg_func test_impl) {
+ const int w = kMaxSize, h = kMaxSize;
+ const int block_idx = GET_PARAM(1);
+
+ uint8_t pred8[kMaxSize * kMaxSize];
+ uint8_t ref8[kMaxSize * kMaxSize];
+ uint8_t output[kMaxSize * kMaxSize];
+ uint8_t output2[kMaxSize * kMaxSize];
+
+ for (int i = 0; i < h; ++i)
+ for (int j = 0; j < w; ++j) {
+ pred8[i * w + j] = rnd_.Rand8();
+ ref8[i * w + j] = rnd_.Rand8();
+ }
+ const int in_w = block_size_wide[block_idx];
+ const int in_h = block_size_high[block_idx];
+
+ JNT_COMP_PARAMS jnt_comp_params;
+ jnt_comp_params.use_jnt_comp_avg = 1;
+
+ jnt_comp_params.fwd_offset = quant_dist_lookup_table[0][0][0];
+ jnt_comp_params.bck_offset = quant_dist_lookup_table[0][0][1];
+
+ const int num_loops = 1000000000 / (in_w + in_h);
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+
+ for (int i = 0; i < num_loops; ++i)
+ aom_jnt_comp_avg_pred_c(output, pred8, in_w, in_h, ref8, in_w,
+ &jnt_comp_params);
+
+ aom_usec_timer_mark(&timer);
+ const int elapsed_time = static_cast<int>(aom_usec_timer_elapsed(&timer));
+ printf("jntcompavg c_code %3dx%-3d: %7.2f us\n", in_w, in_h,
+ 1000.0 * elapsed_time / num_loops);
+
+ aom_usec_timer timer1;
+ aom_usec_timer_start(&timer1);
+
+ for (int i = 0; i < num_loops; ++i)
+ test_impl(output2, pred8, in_w, in_h, ref8, in_w, &jnt_comp_params);
+
+ aom_usec_timer_mark(&timer1);
+ const int elapsed_time1 = static_cast<int>(aom_usec_timer_elapsed(&timer1));
+ printf("jntcompavg test_code %3dx%-3d: %7.2f us\n", in_w, in_h,
+ 1000.0 * elapsed_time1 / num_loops);
+ }
+
+ libaom_test::ACMRandom rnd_;
+}; // class AV1JNTCOMPAVGTest
+
+class AV1JNTCOMPAVGUPSAMPLEDTest
+ : public ::testing::TestWithParam<JNTCOMPAVGUPSAMPLEDParam> {
+ public:
+ ~AV1JNTCOMPAVGUPSAMPLEDTest() {}
+ void SetUp() { rnd_.Reset(ACMRandom::DeterministicSeed()); }
+ void TearDown() { libaom_test::ClearSystemState(); }
+
+ protected:
+ void RunCheckOutput(jntcompavgupsampled_func test_impl) {
+ const int w = kMaxSize, h = kMaxSize;
+ const int block_idx = GET_PARAM(1);
+
+ uint8_t pred8[kMaxSize * kMaxSize];
+ uint8_t ref8[kMaxSize * kMaxSize];
+ DECLARE_ALIGNED(16, uint8_t, output[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(16, uint8_t, output2[MAX_SB_SQUARE]);
+
+ for (int i = 0; i < h; ++i)
+ for (int j = 0; j < w; ++j) {
+ pred8[i * w + j] = rnd_.Rand8();
+ ref8[i * w + j] = rnd_.Rand8();
+ }
+ const int in_w = block_size_wide[block_idx];
+ const int in_h = block_size_high[block_idx];
+
+ JNT_COMP_PARAMS jnt_comp_params;
+ jnt_comp_params.use_jnt_comp_avg = 1;
+ int sub_x_q3, sub_y_q3;
+ int subpel_search;
+ for (subpel_search = 1; subpel_search <= 2; ++subpel_search) {
+ for (sub_x_q3 = 0; sub_x_q3 < 8; ++sub_x_q3) {
+ for (sub_y_q3 = 0; sub_y_q3 < 8; ++sub_y_q3) {
+ for (int ii = 0; ii < 2; ii++) {
+ for (int jj = 0; jj < 4; jj++) {
+ jnt_comp_params.fwd_offset = quant_dist_lookup_table[ii][jj][0];
+ jnt_comp_params.bck_offset = quant_dist_lookup_table[ii][jj][1];
+
+ const int offset_r = 3 + rnd_.PseudoUniform(h - in_h - 7);
+ const int offset_c = 3 + rnd_.PseudoUniform(w - in_w - 7);
+
+ aom_jnt_comp_avg_upsampled_pred_c(
+ NULL, NULL, 0, 0, NULL, output,
+ pred8 + offset_r * w + offset_c, in_w, in_h, sub_x_q3,
+ sub_y_q3, ref8 + offset_r * w + offset_c, in_w,
+ &jnt_comp_params, subpel_search);
+ test_impl(NULL, NULL, 0, 0, NULL, output2,
+ pred8 + offset_r * w + offset_c, in_w, in_h, sub_x_q3,
+ sub_y_q3, ref8 + offset_r * w + offset_c, in_w,
+ &jnt_comp_params, subpel_search);
+
+ for (int i = 0; i < in_h; ++i) {
+ for (int j = 0; j < in_w; ++j) {
+ int idx = i * in_w + j;
+ ASSERT_EQ(output[idx], output2[idx])
+ << "Mismatch at unit tests for "
+ "AV1JNTCOMPAVGUPSAMPLEDTest\n"
+ << in_w << "x" << in_h << " Pixel mismatch at index "
+ << idx << " = (" << i << ", " << j
+ << "), sub pixel offset = (" << sub_y_q3 << ", "
+ << sub_x_q3 << ")";
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+ void RunSpeedTest(jntcompavgupsampled_func test_impl) {
+ const int w = kMaxSize, h = kMaxSize;
+ const int block_idx = GET_PARAM(1);
+
+ uint8_t pred8[kMaxSize * kMaxSize];
+ uint8_t ref8[kMaxSize * kMaxSize];
+ DECLARE_ALIGNED(16, uint8_t, output[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(16, uint8_t, output2[MAX_SB_SQUARE]);
+
+ for (int i = 0; i < h; ++i)
+ for (int j = 0; j < w; ++j) {
+ pred8[i * w + j] = rnd_.Rand8();
+ ref8[i * w + j] = rnd_.Rand8();
+ }
+ const int in_w = block_size_wide[block_idx];
+ const int in_h = block_size_high[block_idx];
+
+ JNT_COMP_PARAMS jnt_comp_params;
+ jnt_comp_params.use_jnt_comp_avg = 1;
+
+ jnt_comp_params.fwd_offset = quant_dist_lookup_table[0][0][0];
+ jnt_comp_params.bck_offset = quant_dist_lookup_table[0][0][1];
+
+ int sub_x_q3 = 0;
+ int sub_y_q3 = 0;
+
+ const int num_loops = 1000000000 / (in_w + in_h);
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+ int subpel_search = 2; // set to 1 to test 4-tap filter.
+
+ for (int i = 0; i < num_loops; ++i)
+ aom_jnt_comp_avg_upsampled_pred_c(NULL, NULL, 0, 0, NULL, output, pred8,
+ in_w, in_h, sub_x_q3, sub_y_q3, ref8,
+ in_w, &jnt_comp_params, subpel_search);
+
+ aom_usec_timer_mark(&timer);
+ const int elapsed_time = static_cast<int>(aom_usec_timer_elapsed(&timer));
+ printf("jntcompavgupsampled c_code %3dx%-3d: %7.2f us\n", in_w, in_h,
+ 1000.0 * elapsed_time / num_loops);
+
+ aom_usec_timer timer1;
+ aom_usec_timer_start(&timer1);
+
+ for (int i = 0; i < num_loops; ++i)
+ test_impl(NULL, NULL, 0, 0, NULL, output2, pred8, in_w, in_h, sub_x_q3,
+ sub_y_q3, ref8, in_w, &jnt_comp_params, subpel_search);
+
+ aom_usec_timer_mark(&timer1);
+ const int elapsed_time1 = static_cast<int>(aom_usec_timer_elapsed(&timer1));
+ printf("jntcompavgupsampled test_code %3dx%-3d: %7.2f us\n", in_w, in_h,
+ 1000.0 * elapsed_time1 / num_loops);
+ }
+
+ libaom_test::ACMRandom rnd_;
+}; // class AV1JNTCOMPAVGUPSAMPLEDTest
+
+class AV1HighBDJNTCOMPAVGTest
+ : public ::testing::TestWithParam<HighbdJNTCOMPAVGParam> {
+ public:
+ ~AV1HighBDJNTCOMPAVGTest() {}
+ void SetUp() { rnd_.Reset(ACMRandom::DeterministicSeed()); }
+
+ void TearDown() { libaom_test::ClearSystemState(); }
+
+ protected:
+ void RunCheckOutput(jntcompavg_func test_impl) {
+ const int w = kMaxSize, h = kMaxSize;
+ const int block_idx = GET_PARAM(2);
+ const int bd = GET_PARAM(0);
+ uint16_t pred8[kMaxSize * kMaxSize];
+ uint16_t ref8[kMaxSize * kMaxSize];
+ uint16_t output[kMaxSize * kMaxSize];
+ uint16_t output2[kMaxSize * kMaxSize];
+
+ for (int i = 0; i < h; ++i)
+ for (int j = 0; j < w; ++j) {
+ pred8[i * w + j] = rnd_.Rand16() & ((1 << bd) - 1);
+ ref8[i * w + j] = rnd_.Rand16() & ((1 << bd) - 1);
+ }
+ const int in_w = block_size_wide[block_idx];
+ const int in_h = block_size_high[block_idx];
+
+ JNT_COMP_PARAMS jnt_comp_params;
+ jnt_comp_params.use_jnt_comp_avg = 1;
+
+ for (int ii = 0; ii < 2; ii++) {
+ for (int jj = 0; jj < 4; jj++) {
+ jnt_comp_params.fwd_offset = quant_dist_lookup_table[ii][jj][0];
+ jnt_comp_params.bck_offset = quant_dist_lookup_table[ii][jj][1];
+
+ const int offset_r = 3 + rnd_.PseudoUniform(h - in_h - 7);
+ const int offset_c = 3 + rnd_.PseudoUniform(w - in_w - 7);
+ aom_highbd_jnt_comp_avg_pred_c(
+ CONVERT_TO_BYTEPTR(output),
+ CONVERT_TO_BYTEPTR(pred8) + offset_r * w + offset_c, in_w, in_h,
+ CONVERT_TO_BYTEPTR(ref8) + offset_r * w + offset_c, in_w,
+ &jnt_comp_params);
+ test_impl(CONVERT_TO_BYTEPTR(output2),
+ CONVERT_TO_BYTEPTR(pred8) + offset_r * w + offset_c, in_w,
+ in_h, CONVERT_TO_BYTEPTR(ref8) + offset_r * w + offset_c,
+ in_w, &jnt_comp_params);
+
+ for (int i = 0; i < in_h; ++i) {
+ for (int j = 0; j < in_w; ++j) {
+ int idx = i * in_w + j;
+ ASSERT_EQ(output[idx], output2[idx])
+ << "Mismatch at unit tests for AV1HighBDJNTCOMPAVGTest\n"
+ << in_w << "x" << in_h << " Pixel mismatch at index " << idx
+ << " = (" << i << ", " << j << ")";
+ }
+ }
+ }
+ }
+ }
+ void RunSpeedTest(jntcompavg_func test_impl) {
+ const int w = kMaxSize, h = kMaxSize;
+ const int block_idx = GET_PARAM(2);
+ const int bd = GET_PARAM(0);
+ uint16_t pred8[kMaxSize * kMaxSize];
+ uint16_t ref8[kMaxSize * kMaxSize];
+ uint16_t output[kMaxSize * kMaxSize];
+ uint16_t output2[kMaxSize * kMaxSize];
+
+ for (int i = 0; i < h; ++i)
+ for (int j = 0; j < w; ++j) {
+ pred8[i * w + j] = rnd_.Rand16() & ((1 << bd) - 1);
+ ref8[i * w + j] = rnd_.Rand16() & ((1 << bd) - 1);
+ }
+ const int in_w = block_size_wide[block_idx];
+ const int in_h = block_size_high[block_idx];
+
+ JNT_COMP_PARAMS jnt_comp_params;
+ jnt_comp_params.use_jnt_comp_avg = 1;
+
+ jnt_comp_params.fwd_offset = quant_dist_lookup_table[0][0][0];
+ jnt_comp_params.bck_offset = quant_dist_lookup_table[0][0][1];
+
+ const int num_loops = 1000000000 / (in_w + in_h);
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+
+ for (int i = 0; i < num_loops; ++i)
+ aom_highbd_jnt_comp_avg_pred_c(
+ CONVERT_TO_BYTEPTR(output), CONVERT_TO_BYTEPTR(pred8), in_w, in_h,
+ CONVERT_TO_BYTEPTR(ref8), in_w, &jnt_comp_params);
+
+ aom_usec_timer_mark(&timer);
+ const int elapsed_time = static_cast<int>(aom_usec_timer_elapsed(&timer));
+ printf("highbdjntcompavg c_code %3dx%-3d: %7.2f us\n", in_w, in_h,
+ 1000.0 * elapsed_time / num_loops);
+
+ aom_usec_timer timer1;
+ aom_usec_timer_start(&timer1);
+
+ for (int i = 0; i < num_loops; ++i)
+ test_impl(CONVERT_TO_BYTEPTR(output2), CONVERT_TO_BYTEPTR(pred8), in_w,
+ in_h, CONVERT_TO_BYTEPTR(ref8), in_w, &jnt_comp_params);
+
+ aom_usec_timer_mark(&timer1);
+ const int elapsed_time1 = static_cast<int>(aom_usec_timer_elapsed(&timer1));
+ printf("highbdjntcompavg test_code %3dx%-3d: %7.2f us\n", in_w, in_h,
+ 1000.0 * elapsed_time1 / num_loops);
+ }
+
+ libaom_test::ACMRandom rnd_;
+}; // class AV1HighBDJNTCOMPAVGTest
+
+class AV1HighBDJNTCOMPAVGUPSAMPLEDTest
+ : public ::testing::TestWithParam<HighbdJNTCOMPAVGUPSAMPLEDParam> {
+ public:
+ ~AV1HighBDJNTCOMPAVGUPSAMPLEDTest() {}
+ void SetUp() { rnd_.Reset(ACMRandom::DeterministicSeed()); }
+ void TearDown() { libaom_test::ClearSystemState(); }
+
+ protected:
+ void RunCheckOutput(highbdjntcompavgupsampled_func test_impl) {
+ const int w = kMaxSize, h = kMaxSize;
+ const int block_idx = GET_PARAM(2);
+ const int bd = GET_PARAM(0);
+ uint16_t pred8[kMaxSize * kMaxSize];
+ uint16_t ref8[kMaxSize * kMaxSize];
+ uint16_t output[kMaxSize * kMaxSize];
+ uint16_t output2[kMaxSize * kMaxSize];
+
+ for (int i = 0; i < h; ++i)
+ for (int j = 0; j < w; ++j) {
+ pred8[i * w + j] = rnd_.Rand16() & ((1 << bd) - 1);
+ ref8[i * w + j] = rnd_.Rand16() & ((1 << bd) - 1);
+ }
+ const int in_w = block_size_wide[block_idx];
+ const int in_h = block_size_high[block_idx];
+
+ JNT_COMP_PARAMS jnt_comp_params;
+ jnt_comp_params.use_jnt_comp_avg = 1;
+ int sub_x_q3, sub_y_q3;
+ int subpel_search;
+ for (subpel_search = 1; subpel_search <= 2; ++subpel_search) {
+ for (sub_x_q3 = 0; sub_x_q3 < 8; ++sub_x_q3) {
+ for (sub_y_q3 = 0; sub_y_q3 < 8; ++sub_y_q3) {
+ for (int ii = 0; ii < 2; ii++) {
+ for (int jj = 0; jj < 4; jj++) {
+ jnt_comp_params.fwd_offset = quant_dist_lookup_table[ii][jj][0];
+ jnt_comp_params.bck_offset = quant_dist_lookup_table[ii][jj][1];
+
+ const int offset_r = 3 + rnd_.PseudoUniform(h - in_h - 7);
+ const int offset_c = 3 + rnd_.PseudoUniform(w - in_w - 7);
+
+ aom_highbd_jnt_comp_avg_upsampled_pred_c(
+ NULL, NULL, 0, 0, NULL, CONVERT_TO_BYTEPTR(output),
+ CONVERT_TO_BYTEPTR(pred8) + offset_r * w + offset_c, in_w,
+ in_h, sub_x_q3, sub_y_q3,
+ CONVERT_TO_BYTEPTR(ref8) + offset_r * w + offset_c, in_w, bd,
+ &jnt_comp_params, subpel_search);
+ test_impl(NULL, NULL, 0, 0, NULL, CONVERT_TO_BYTEPTR(output2),
+ CONVERT_TO_BYTEPTR(pred8) + offset_r * w + offset_c,
+ in_w, in_h, sub_x_q3, sub_y_q3,
+ CONVERT_TO_BYTEPTR(ref8) + offset_r * w + offset_c,
+ in_w, bd, &jnt_comp_params, subpel_search);
+
+ for (int i = 0; i < in_h; ++i) {
+ for (int j = 0; j < in_w; ++j) {
+ int idx = i * in_w + j;
+ ASSERT_EQ(output[idx], output2[idx])
+ << "Mismatch at unit tests for "
+ "AV1HighBDJNTCOMPAVGUPSAMPLEDTest\n"
+ << in_w << "x" << in_h << " Pixel mismatch at index "
+ << idx << " = (" << i << ", " << j
+ << "), sub pixel offset = (" << sub_y_q3 << ", "
+ << sub_x_q3 << ")";
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+ void RunSpeedTest(highbdjntcompavgupsampled_func test_impl) {
+ const int w = kMaxSize, h = kMaxSize;
+ const int block_idx = GET_PARAM(2);
+ const int bd = GET_PARAM(0);
+ uint16_t pred8[kMaxSize * kMaxSize];
+ uint16_t ref8[kMaxSize * kMaxSize];
+ uint16_t output[kMaxSize * kMaxSize];
+ uint16_t output2[kMaxSize * kMaxSize];
+
+ for (int i = 0; i < h; ++i)
+ for (int j = 0; j < w; ++j) {
+ pred8[i * w + j] = rnd_.Rand16() & ((1 << bd) - 1);
+ ref8[i * w + j] = rnd_.Rand16() & ((1 << bd) - 1);
+ }
+ const int in_w = block_size_wide[block_idx];
+ const int in_h = block_size_high[block_idx];
+
+ JNT_COMP_PARAMS jnt_comp_params;
+ jnt_comp_params.use_jnt_comp_avg = 1;
+
+ jnt_comp_params.fwd_offset = quant_dist_lookup_table[0][0][0];
+ jnt_comp_params.bck_offset = quant_dist_lookup_table[0][0][1];
+ int sub_x_q3 = 0;
+ int sub_y_q3 = 0;
+ const int num_loops = 1000000000 / (in_w + in_h);
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+ int subpel_search = 2; // set to 1 to test 4-tap filter.
+ for (int i = 0; i < num_loops; ++i)
+ aom_highbd_jnt_comp_avg_upsampled_pred_c(
+ NULL, NULL, 0, 0, NULL, CONVERT_TO_BYTEPTR(output),
+ CONVERT_TO_BYTEPTR(pred8), in_w, in_h, sub_x_q3, sub_y_q3,
+ CONVERT_TO_BYTEPTR(ref8), in_w, bd, &jnt_comp_params, subpel_search);
+
+ aom_usec_timer_mark(&timer);
+ const int elapsed_time = static_cast<int>(aom_usec_timer_elapsed(&timer));
+ printf("highbdjntcompavgupsampled c_code %3dx%-3d: %7.2f us\n", in_w, in_h,
+ 1000.0 * elapsed_time / num_loops);
+
+ aom_usec_timer timer1;
+ aom_usec_timer_start(&timer1);
+
+ for (int i = 0; i < num_loops; ++i)
+ test_impl(NULL, NULL, 0, 0, NULL, CONVERT_TO_BYTEPTR(output2),
+ CONVERT_TO_BYTEPTR(pred8), in_w, in_h, sub_x_q3, sub_y_q3,
+ CONVERT_TO_BYTEPTR(ref8), in_w, bd, &jnt_comp_params,
+ subpel_search);
+
+ aom_usec_timer_mark(&timer1);
+ const int elapsed_time1 = static_cast<int>(aom_usec_timer_elapsed(&timer1));
+ printf("highbdjntcompavgupsampled test_code %3dx%-3d: %7.2f us\n", in_w,
+ in_h, 1000.0 * elapsed_time1 / num_loops);
+ }
+
+ libaom_test::ACMRandom rnd_;
+}; // class AV1HighBDJNTCOMPAVGUPSAMPLEDTest
+
+} // namespace AV1JNTCOMPAVG
+} // namespace libaom_test
+
+#endif // AOM_TEST_COMP_AVG_PRED_TEST_H_
diff --git a/third_party/aom/test/comp_mask_variance_test.cc b/third_party/aom/test/comp_mask_variance_test.cc
new file mode 100644
index 0000000000..34be2aa6db
--- /dev/null
+++ b/third_party/aom/test/comp_mask_variance_test.cc
@@ -0,0 +1,574 @@
+/*
+ * Copyright (c) 2018, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <cstdlib>
+#include <new>
+
+#include "config/aom_config.h"
+#include "config/aom_dsp_rtcd.h"
+
+#include "aom/aom_codec.h"
+#include "aom/aom_integer.h"
+#include "aom_dsp/variance.h"
+#include "aom_mem/aom_mem.h"
+#include "aom_ports/aom_timer.h"
+#include "aom_ports/mem.h"
+#include "av1/common/reconinter.h"
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "test/util.h"
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+namespace AV1CompMaskVariance {
+typedef void (*comp_mask_pred_func)(uint8_t *comp_pred, const uint8_t *pred,
+ int width, int height, const uint8_t *ref,
+ int ref_stride, const uint8_t *mask,
+ int mask_stride, int invert_mask);
+
+#if HAVE_SSSE3 || HAVE_AV2
+const BLOCK_SIZE kValidBlockSize[] = {
+ BLOCK_8X8, BLOCK_8X16, BLOCK_8X32, BLOCK_16X8, BLOCK_16X16,
+ BLOCK_16X32, BLOCK_32X8, BLOCK_32X16, BLOCK_32X32,
+};
+#endif
+typedef ::testing::tuple<comp_mask_pred_func, BLOCK_SIZE> CompMaskPredParam;
+
+class AV1CompMaskVarianceTest
+ : public ::testing::TestWithParam<CompMaskPredParam> {
+ public:
+ ~AV1CompMaskVarianceTest();
+ void SetUp();
+
+ void TearDown();
+
+ protected:
+ void RunCheckOutput(comp_mask_pred_func test_impl, BLOCK_SIZE bsize, int inv);
+ void RunSpeedTest(comp_mask_pred_func test_impl, BLOCK_SIZE bsize);
+ bool CheckResult(int width, int height) {
+ for (int y = 0; y < height; ++y) {
+ for (int x = 0; x < width; ++x) {
+ const int idx = y * width + x;
+ if (comp_pred1_[idx] != comp_pred2_[idx]) {
+ printf("%dx%d mismatch @%d(%d,%d) ", width, height, idx, y, x);
+ printf("%d != %d ", comp_pred1_[idx], comp_pred2_[idx]);
+ return false;
+ }
+ }
+ }
+ return true;
+ }
+
+ libaom_test::ACMRandom rnd_;
+ uint8_t *comp_pred1_;
+ uint8_t *comp_pred2_;
+ uint8_t *pred_;
+ uint8_t *ref_buffer_;
+ uint8_t *ref_;
+};
+
+AV1CompMaskVarianceTest::~AV1CompMaskVarianceTest() { ; }
+
+void AV1CompMaskVarianceTest::SetUp() {
+ rnd_.Reset(libaom_test::ACMRandom::DeterministicSeed());
+ av1_init_wedge_masks();
+ comp_pred1_ = (uint8_t *)aom_memalign(16, MAX_SB_SQUARE);
+ comp_pred2_ = (uint8_t *)aom_memalign(16, MAX_SB_SQUARE);
+ pred_ = (uint8_t *)aom_memalign(16, MAX_SB_SQUARE);
+ ref_buffer_ = (uint8_t *)aom_memalign(16, MAX_SB_SQUARE + (8 * MAX_SB_SIZE));
+ ref_ = ref_buffer_ + (8 * MAX_SB_SIZE);
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) {
+ pred_[i] = rnd_.Rand8();
+ }
+ for (int i = 0; i < MAX_SB_SQUARE + (8 * MAX_SB_SIZE); ++i) {
+ ref_buffer_[i] = rnd_.Rand8();
+ }
+}
+
+void AV1CompMaskVarianceTest::TearDown() {
+ aom_free(comp_pred1_);
+ aom_free(comp_pred2_);
+ aom_free(pred_);
+ aom_free(ref_buffer_);
+ libaom_test::ClearSystemState();
+}
+
+void AV1CompMaskVarianceTest::RunCheckOutput(comp_mask_pred_func test_impl,
+ BLOCK_SIZE bsize, int inv) {
+ const int w = block_size_wide[bsize];
+ const int h = block_size_high[bsize];
+
+ int wedge_types = (1 << get_wedge_bits_lookup(bsize));
+ for (int wedge_index = 0; wedge_index < wedge_types; ++wedge_index) {
+ const uint8_t *mask = av1_get_contiguous_soft_mask(wedge_index, 1, bsize);
+
+ aom_comp_mask_pred_c(comp_pred1_, pred_, w, h, ref_, MAX_SB_SIZE, mask, w,
+ inv);
+ test_impl(comp_pred2_, pred_, w, h, ref_, MAX_SB_SIZE, mask, w, inv);
+
+ ASSERT_EQ(CheckResult(w, h), true)
+ << " wedge " << wedge_index << " inv " << inv;
+ }
+}
+
+void AV1CompMaskVarianceTest::RunSpeedTest(comp_mask_pred_func test_impl,
+ BLOCK_SIZE bsize) {
+ const int w = block_size_wide[bsize];
+ const int h = block_size_high[bsize];
+
+ int wedge_types = (1 << get_wedge_bits_lookup(bsize));
+ int wedge_index = wedge_types / 2;
+ const uint8_t *mask = av1_get_contiguous_soft_mask(wedge_index, 1, bsize);
+ const int num_loops = 1000000000 / (w + h);
+
+ comp_mask_pred_func funcs[2] = { aom_comp_mask_pred_c, test_impl };
+ double elapsed_time[2] = { 0 };
+ for (int i = 0; i < 2; ++i) {
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+ comp_mask_pred_func func = funcs[i];
+ for (int j = 0; j < num_loops; ++j) {
+ func(comp_pred1_, pred_, w, h, ref_, MAX_SB_SIZE, mask, w, 0);
+ }
+ aom_usec_timer_mark(&timer);
+ double time = static_cast<double>(aom_usec_timer_elapsed(&timer));
+ elapsed_time[i] = 1000.0 * time / num_loops;
+ }
+ printf("compMask %3dx%-3d: %7.2f/%7.2fns", w, h, elapsed_time[0],
+ elapsed_time[1]);
+ printf("(%3.2f)\n", elapsed_time[0] / elapsed_time[1]);
+}
+
+TEST_P(AV1CompMaskVarianceTest, CheckOutput) {
+ // inv = 0, 1
+ RunCheckOutput(GET_PARAM(0), GET_PARAM(1), 0);
+ RunCheckOutput(GET_PARAM(0), GET_PARAM(1), 1);
+}
+
+TEST_P(AV1CompMaskVarianceTest, DISABLED_Speed) {
+ RunSpeedTest(GET_PARAM(0), GET_PARAM(1));
+}
+
+#if HAVE_SSSE3
+INSTANTIATE_TEST_CASE_P(
+ SSSE3, AV1CompMaskVarianceTest,
+ ::testing::Combine(::testing::Values(&aom_comp_mask_pred_ssse3),
+ ::testing::ValuesIn(kValidBlockSize)));
+#endif
+
+#if HAVE_AVX2
+INSTANTIATE_TEST_CASE_P(
+ AVX2, AV1CompMaskVarianceTest,
+ ::testing::Combine(::testing::Values(&aom_comp_mask_pred_avx2),
+ ::testing::ValuesIn(kValidBlockSize)));
+#endif
+
+#ifndef aom_comp_mask_pred
+// can't run this test if aom_comp_mask_pred is defined to aom_comp_mask_pred_c
+class AV1CompMaskUpVarianceTest : public AV1CompMaskVarianceTest {
+ public:
+ ~AV1CompMaskUpVarianceTest();
+
+ protected:
+ void RunCheckOutput(comp_mask_pred_func test_impl, BLOCK_SIZE bsize, int inv);
+ void RunSpeedTest(comp_mask_pred_func test_impl, BLOCK_SIZE bsize,
+ int havSub);
+};
+
+AV1CompMaskUpVarianceTest::~AV1CompMaskUpVarianceTest() { ; }
+
+void AV1CompMaskUpVarianceTest::RunCheckOutput(comp_mask_pred_func test_impl,
+ BLOCK_SIZE bsize, int inv) {
+ const int w = block_size_wide[bsize];
+ const int h = block_size_high[bsize];
+ int wedge_types = (1 << get_wedge_bits_lookup(bsize));
+ int subpel_search;
+ for (subpel_search = 1; subpel_search <= 2; ++subpel_search) {
+ // loop through subx and suby
+ for (int sub = 0; sub < 8 * 8; ++sub) {
+ int subx = sub & 0x7;
+ int suby = (sub >> 3);
+ for (int wedge_index = 0; wedge_index < wedge_types; ++wedge_index) {
+ const uint8_t *mask =
+ av1_get_contiguous_soft_mask(wedge_index, 1, bsize);
+
+ // ref
+ aom_comp_mask_upsampled_pred_c(
+ NULL, NULL, 0, 0, NULL, comp_pred1_, pred_, w, h, subx, suby, ref_,
+ MAX_SB_SIZE, mask, w, inv, subpel_search);
+
+ aom_comp_mask_pred = test_impl; // test
+ aom_comp_mask_upsampled_pred(NULL, NULL, 0, 0, NULL, comp_pred2_, pred_,
+ w, h, subx, suby, ref_, MAX_SB_SIZE, mask,
+ w, inv, subpel_search);
+ ASSERT_EQ(CheckResult(w, h), true)
+ << " wedge " << wedge_index << " inv " << inv << "sub (" << subx
+ << "," << suby << ")";
+ }
+ }
+ }
+}
+
+void AV1CompMaskUpVarianceTest::RunSpeedTest(comp_mask_pred_func test_impl,
+ BLOCK_SIZE bsize, int havSub) {
+ const int w = block_size_wide[bsize];
+ const int h = block_size_high[bsize];
+ const int subx = havSub ? 3 : 0;
+ const int suby = havSub ? 4 : 0;
+
+ int wedge_types = (1 << get_wedge_bits_lookup(bsize));
+ int wedge_index = wedge_types / 2;
+ const uint8_t *mask = av1_get_contiguous_soft_mask(wedge_index, 1, bsize);
+
+ const int num_loops = 1000000000 / (w + h);
+ comp_mask_pred_func funcs[2] = { &aom_comp_mask_pred_c, test_impl };
+ double elapsed_time[2] = { 0 };
+ int subpel_search = 2; // set to 1 to test 4-tap filter.
+ for (int i = 0; i < 2; ++i) {
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+ aom_comp_mask_pred = funcs[i];
+ for (int j = 0; j < num_loops; ++j) {
+ aom_comp_mask_upsampled_pred(NULL, NULL, 0, 0, NULL, comp_pred1_, pred_,
+ w, h, subx, suby, ref_, MAX_SB_SIZE, mask, w,
+ 0, subpel_search);
+ }
+ aom_usec_timer_mark(&timer);
+ double time = static_cast<double>(aom_usec_timer_elapsed(&timer));
+ elapsed_time[i] = 1000.0 * time / num_loops;
+ }
+ printf("CompMaskUp[%d] %3dx%-3d:%7.2f/%7.2fns", havSub, w, h, elapsed_time[0],
+ elapsed_time[1]);
+ printf("(%3.2f)\n", elapsed_time[0] / elapsed_time[1]);
+}
+
+TEST_P(AV1CompMaskUpVarianceTest, CheckOutput) {
+ // inv mask = 0, 1
+ RunCheckOutput(GET_PARAM(0), GET_PARAM(1), 0);
+ RunCheckOutput(GET_PARAM(0), GET_PARAM(1), 1);
+}
+
+TEST_P(AV1CompMaskUpVarianceTest, DISABLED_Speed) {
+ RunSpeedTest(GET_PARAM(0), GET_PARAM(1), 1);
+}
+
+#if HAVE_SSSE3
+INSTANTIATE_TEST_CASE_P(
+ SSSE3, AV1CompMaskUpVarianceTest,
+ ::testing::Combine(::testing::Values(&aom_comp_mask_pred_ssse3),
+ ::testing::ValuesIn(kValidBlockSize)));
+#endif
+
+#if HAVE_AVX2
+INSTANTIATE_TEST_CASE_P(
+ AVX2, AV1CompMaskUpVarianceTest,
+ ::testing::Combine(::testing::Values(&aom_comp_mask_pred_avx2),
+ ::testing::ValuesIn(kValidBlockSize)));
+#endif
+
+#endif // ifndef aom_comp_mask_pred
+
+typedef void (*highbd_comp_mask_pred_func)(uint8_t *comp_pred8,
+ const uint8_t *pred8, int width,
+ int height, const uint8_t *ref8,
+ int ref_stride, const uint8_t *mask,
+ int mask_stride, int invert_mask);
+
+typedef ::testing::tuple<highbd_comp_mask_pred_func, BLOCK_SIZE, int>
+ HighbdCompMaskPredParam;
+
+class AV1HighbdCompMaskVarianceTest
+ : public ::testing::TestWithParam<HighbdCompMaskPredParam> {
+ public:
+ ~AV1HighbdCompMaskVarianceTest();
+ void SetUp();
+
+ void TearDown();
+
+ protected:
+ void RunCheckOutput(highbd_comp_mask_pred_func test_impl, BLOCK_SIZE bsize,
+ int inv);
+ void RunSpeedTest(highbd_comp_mask_pred_func test_impl, BLOCK_SIZE bsize);
+ bool CheckResult(int width, int height) {
+ for (int y = 0; y < height; ++y) {
+ for (int x = 0; x < width; ++x) {
+ const int idx = y * width + x;
+ if (comp_pred1_[idx] != comp_pred2_[idx]) {
+ printf("%dx%d mismatch @%d(%d,%d) ", width, height, idx, y, x);
+ printf("%d != %d ", comp_pred1_[idx], comp_pred2_[idx]);
+ return false;
+ }
+ }
+ }
+ return true;
+ }
+
+ libaom_test::ACMRandom rnd_;
+ uint16_t *comp_pred1_;
+ uint16_t *comp_pred2_;
+ uint16_t *pred_;
+ uint16_t *ref_buffer_;
+ uint16_t *ref_;
+};
+
+AV1HighbdCompMaskVarianceTest::~AV1HighbdCompMaskVarianceTest() { ; }
+
+void AV1HighbdCompMaskVarianceTest::SetUp() {
+ rnd_.Reset(libaom_test::ACMRandom::DeterministicSeed());
+ av1_init_wedge_masks();
+
+ comp_pred1_ =
+ (uint16_t *)aom_memalign(16, MAX_SB_SQUARE * sizeof(*comp_pred1_));
+ comp_pred2_ =
+ (uint16_t *)aom_memalign(16, MAX_SB_SQUARE * sizeof(*comp_pred2_));
+ pred_ = (uint16_t *)aom_memalign(16, MAX_SB_SQUARE * sizeof(*pred_));
+ ref_buffer_ = (uint16_t *)aom_memalign(
+ 16, (MAX_SB_SQUARE + (8 * MAX_SB_SIZE)) * sizeof(*ref_buffer_));
+ ref_ = ref_buffer_ + (8 * MAX_SB_SIZE);
+}
+
+void AV1HighbdCompMaskVarianceTest::TearDown() {
+ aom_free(comp_pred1_);
+ aom_free(comp_pred2_);
+ aom_free(pred_);
+ aom_free(ref_buffer_);
+ libaom_test::ClearSystemState();
+}
+
+void AV1HighbdCompMaskVarianceTest::RunCheckOutput(
+ highbd_comp_mask_pred_func test_impl, BLOCK_SIZE bsize, int inv) {
+ int bd_ = GET_PARAM(2);
+
+ const int w = block_size_wide[bsize];
+ const int h = block_size_high[bsize];
+
+ int wedge_types = (1 << get_wedge_bits_lookup(bsize));
+
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) {
+ pred_[i] = rnd_.Rand16() & ((1 << bd_) - 1);
+ }
+ for (int i = 0; i < MAX_SB_SQUARE + (8 * MAX_SB_SIZE); ++i) {
+ ref_buffer_[i] = rnd_.Rand16() & ((1 << bd_) - 1);
+ }
+
+ for (int wedge_index = 0; wedge_index < wedge_types; ++wedge_index) {
+ const uint8_t *mask = av1_get_contiguous_soft_mask(wedge_index, 1, bsize);
+
+ aom_highbd_comp_mask_pred_c(
+ CONVERT_TO_BYTEPTR(comp_pred1_), CONVERT_TO_BYTEPTR(pred_), w, h,
+ CONVERT_TO_BYTEPTR(ref_), MAX_SB_SIZE, mask, w, inv);
+
+ test_impl(CONVERT_TO_BYTEPTR(comp_pred2_), CONVERT_TO_BYTEPTR(pred_), w, h,
+ CONVERT_TO_BYTEPTR(ref_), MAX_SB_SIZE, mask, w, inv);
+
+ ASSERT_EQ(CheckResult(w, h), true)
+ << " wedge " << wedge_index << " inv " << inv;
+ }
+}
+
+void AV1HighbdCompMaskVarianceTest::RunSpeedTest(
+ highbd_comp_mask_pred_func test_impl, BLOCK_SIZE bsize) {
+ int bd_ = GET_PARAM(2);
+
+ const int w = block_size_wide[bsize];
+ const int h = block_size_high[bsize];
+
+ int wedge_types = (1 << get_wedge_bits_lookup(bsize));
+ int wedge_index = wedge_types / 2;
+
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) {
+ pred_[i] = rnd_.Rand16() & ((1 << bd_) - 1);
+ }
+ for (int i = 0; i < MAX_SB_SQUARE + (8 * MAX_SB_SIZE); ++i) {
+ ref_buffer_[i] = rnd_.Rand16() & ((1 << bd_) - 1);
+ }
+
+ const uint8_t *mask = av1_get_contiguous_soft_mask(wedge_index, 1, bsize);
+ const int num_loops = 1000000000 / (w + h);
+
+ highbd_comp_mask_pred_func funcs[2] = { aom_highbd_comp_mask_pred_c,
+ test_impl };
+ double elapsed_time[2] = { 0 };
+ for (int i = 0; i < 2; ++i) {
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+ highbd_comp_mask_pred_func func = funcs[i];
+ for (int j = 0; j < num_loops; ++j) {
+ func(CONVERT_TO_BYTEPTR(comp_pred1_), CONVERT_TO_BYTEPTR(pred_), w, h,
+ CONVERT_TO_BYTEPTR(ref_), MAX_SB_SIZE, mask, w, 0);
+ }
+ aom_usec_timer_mark(&timer);
+ double time = static_cast<double>(aom_usec_timer_elapsed(&timer));
+ elapsed_time[i] = 1000.0 * time / num_loops;
+ }
+ printf("compMask %3dx%-3d: %7.2f/%7.2fns", w, h, elapsed_time[0],
+ elapsed_time[1]);
+ printf("(%3.2f)\n", elapsed_time[0] / elapsed_time[1]);
+}
+
+TEST_P(AV1HighbdCompMaskVarianceTest, CheckOutput) {
+ // inv = 0, 1
+ RunCheckOutput(GET_PARAM(0), GET_PARAM(1), 0);
+ RunCheckOutput(GET_PARAM(0), GET_PARAM(1), 1);
+}
+
+TEST_P(AV1HighbdCompMaskVarianceTest, DISABLED_Speed) {
+ RunSpeedTest(GET_PARAM(0), GET_PARAM(1));
+}
+
+#if HAVE_AVX2
+INSTANTIATE_TEST_CASE_P(
+ AVX2, AV1HighbdCompMaskVarianceTest,
+ ::testing::Combine(::testing::Values(&aom_highbd_comp_mask_pred_avx2),
+ ::testing::ValuesIn(kValidBlockSize),
+ ::testing::Range(8, 13, 2)));
+#endif
+
+#if HAVE_SSE2
+INSTANTIATE_TEST_CASE_P(
+ SSE2, AV1HighbdCompMaskVarianceTest,
+ ::testing::Combine(::testing::Values(&aom_highbd_comp_mask_pred_sse2),
+ ::testing::ValuesIn(kValidBlockSize),
+ ::testing::Range(8, 13, 2)));
+#endif
+
+#ifndef aom_highbd_comp_mask_pred
+// can't run this test if aom_highbd_comp_mask_pred is defined to
+// aom_highbd_comp_mask_pred_c
+class AV1HighbdCompMaskUpVarianceTest : public AV1HighbdCompMaskVarianceTest {
+ public:
+ ~AV1HighbdCompMaskUpVarianceTest();
+
+ protected:
+ void RunCheckOutput(highbd_comp_mask_pred_func test_impl, BLOCK_SIZE bsize,
+ int inv);
+ void RunSpeedTest(highbd_comp_mask_pred_func test_impl, BLOCK_SIZE bsize,
+ int havSub);
+};
+
+AV1HighbdCompMaskUpVarianceTest::~AV1HighbdCompMaskUpVarianceTest() { ; }
+
+void AV1HighbdCompMaskUpVarianceTest::RunCheckOutput(
+ highbd_comp_mask_pred_func test_impl, BLOCK_SIZE bsize, int inv) {
+ int bd_ = GET_PARAM(2);
+ const int w = block_size_wide[bsize];
+ const int h = block_size_high[bsize];
+ int wedge_types = (1 << get_wedge_bits_lookup(bsize));
+
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) {
+ pred_[i] = rnd_.Rand16() & ((1 << bd_) - 1);
+ }
+ for (int i = 0; i < MAX_SB_SQUARE + (8 * MAX_SB_SIZE); ++i) {
+ ref_buffer_[i] = rnd_.Rand16() & ((1 << bd_) - 1);
+ }
+
+ int subpel_search;
+ for (subpel_search = 1; subpel_search <= 2; ++subpel_search) {
+ // loop through subx and suby
+ for (int sub = 0; sub < 8 * 8; ++sub) {
+ int subx = sub & 0x7;
+ int suby = (sub >> 3);
+ for (int wedge_index = 0; wedge_index < wedge_types; ++wedge_index) {
+ const uint8_t *mask =
+ av1_get_contiguous_soft_mask(wedge_index, 1, bsize);
+
+ aom_highbd_comp_mask_pred = aom_highbd_comp_mask_pred_c; // ref
+ aom_highbd_comp_mask_upsampled_pred(
+ NULL, NULL, 0, 0, NULL, CONVERT_TO_BYTEPTR(comp_pred1_),
+ CONVERT_TO_BYTEPTR(pred_), w, h, subx, suby,
+ CONVERT_TO_BYTEPTR(ref_), MAX_SB_SIZE, mask, w, inv, bd_,
+ subpel_search);
+
+ aom_highbd_comp_mask_pred = test_impl; // test
+ aom_highbd_comp_mask_upsampled_pred(
+ NULL, NULL, 0, 0, NULL, CONVERT_TO_BYTEPTR(comp_pred2_),
+ CONVERT_TO_BYTEPTR(pred_), w, h, subx, suby,
+ CONVERT_TO_BYTEPTR(ref_), MAX_SB_SIZE, mask, w, inv, bd_,
+ subpel_search);
+ ASSERT_EQ(CheckResult(w, h), true)
+ << " wedge " << wedge_index << " inv " << inv << "sub (" << subx
+ << "," << suby << ")";
+ }
+ }
+ }
+}
+
+void AV1HighbdCompMaskUpVarianceTest::RunSpeedTest(
+ highbd_comp_mask_pred_func test_impl, BLOCK_SIZE bsize, int havSub) {
+ int bd_ = GET_PARAM(2);
+ const int w = block_size_wide[bsize];
+ const int h = block_size_high[bsize];
+ const int subx = havSub ? 3 : 0;
+ const int suby = havSub ? 4 : 0;
+
+ int wedge_types = (1 << get_wedge_bits_lookup(bsize));
+ int wedge_index = wedge_types / 2;
+ const uint8_t *mask = av1_get_contiguous_soft_mask(wedge_index, 1, bsize);
+
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) {
+ pred_[i] = rnd_.Rand16() & ((1 << bd_) - 1);
+ }
+ for (int i = 0; i < MAX_SB_SQUARE + (8 * MAX_SB_SIZE); ++i) {
+ ref_buffer_[i] = rnd_.Rand16() & ((1 << bd_) - 1);
+ }
+
+ const int num_loops = 1000000000 / (w + h);
+ highbd_comp_mask_pred_func funcs[2] = { &aom_highbd_comp_mask_pred_c,
+ test_impl };
+ double elapsed_time[2] = { 0 };
+ for (int i = 0; i < 2; ++i) {
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+ aom_highbd_comp_mask_pred = funcs[i];
+ int subpel_search = 2; // set to 1 to test 4-tap filter.
+ for (int j = 0; j < num_loops; ++j) {
+ aom_highbd_comp_mask_upsampled_pred(
+ NULL, NULL, 0, 0, NULL, CONVERT_TO_BYTEPTR(comp_pred1_),
+ CONVERT_TO_BYTEPTR(pred_), w, h, subx, suby, CONVERT_TO_BYTEPTR(ref_),
+ MAX_SB_SIZE, mask, w, 0, bd_, subpel_search);
+ }
+ aom_usec_timer_mark(&timer);
+ double time = static_cast<double>(aom_usec_timer_elapsed(&timer));
+ elapsed_time[i] = 1000.0 * time / num_loops;
+ }
+ printf("CompMaskUp[%d] %3dx%-3d:%7.2f/%7.2fns", havSub, w, h, elapsed_time[0],
+ elapsed_time[1]);
+ printf("(%3.2f)\n", elapsed_time[0] / elapsed_time[1]);
+}
+
+TEST_P(AV1HighbdCompMaskUpVarianceTest, CheckOutput) {
+ // inv mask = 0, 1
+ RunCheckOutput(GET_PARAM(0), GET_PARAM(1), 0);
+ RunCheckOutput(GET_PARAM(0), GET_PARAM(1), 1);
+}
+
+TEST_P(AV1HighbdCompMaskUpVarianceTest, DISABLED_Speed) {
+ RunSpeedTest(GET_PARAM(0), GET_PARAM(1), 1);
+}
+
+#if HAVE_AVX2
+INSTANTIATE_TEST_CASE_P(
+ AVX2, AV1HighbdCompMaskUpVarianceTest,
+ ::testing::Combine(::testing::Values(&aom_highbd_comp_mask_pred_avx2),
+ ::testing::ValuesIn(kValidBlockSize),
+ ::testing::Range(8, 13, 2)));
+#endif
+
+#if HAVE_SSE2
+INSTANTIATE_TEST_CASE_P(
+ SSE2, AV1HighbdCompMaskUpVarianceTest,
+ ::testing::Combine(::testing::Values(&aom_highbd_comp_mask_pred_sse2),
+ ::testing::ValuesIn(kValidBlockSize),
+ ::testing::Range(8, 13, 2)));
+#endif
+
+#endif // ifndef aom_highbd_comp_mask_pred
+} // namespace AV1CompMaskVariance
diff --git a/third_party/aom/test/convolve_round_test.cc b/third_party/aom/test/convolve_round_test.cc
new file mode 100644
index 0000000000..2f801e7d46
--- /dev/null
+++ b/third_party/aom/test/convolve_round_test.cc
@@ -0,0 +1,183 @@
+/*
+ * Copyright (c) 2017, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <assert.h>
+
+#include "config/av1_rtcd.h"
+
+#include "aom/aom_integer.h"
+#include "aom_ports/aom_timer.h"
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "test/util.h"
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+using libaom_test::ACMRandom;
+
+namespace {
+#define CONVOLVE_ROUNDING_PARAM \
+ const int32_t *src, int src_stride, uint8_t *dst, int dst_stride, int w, \
+ int h, int bits
+
+typedef void (*ConvolveRoundFunc)(CONVOLVE_ROUNDING_PARAM);
+
+typedef void (*ConvolveRoundFuncHbd)(CONVOLVE_ROUNDING_PARAM, int bd);
+
+template <ConvolveRoundFuncHbd fn>
+void highbd_convolve_rounding_8(CONVOLVE_ROUNDING_PARAM) {
+ const int bd = 8;
+ fn(src, src_stride, dst, dst_stride, w, h, bits, bd);
+}
+
+template <ConvolveRoundFuncHbd fn>
+void highbd_convolve_rounding_10(CONVOLVE_ROUNDING_PARAM) {
+ const int bd = 10;
+ fn(src, src_stride, dst, dst_stride, w, h, bits, bd);
+}
+
+template <ConvolveRoundFuncHbd fn>
+void highbd_convolve_rounding_12(CONVOLVE_ROUNDING_PARAM) {
+ const int bd = 12;
+ fn(src, src_stride, dst, dst_stride, w, h, bits, bd);
+}
+
+typedef enum { LOWBITDEPTH_TEST, HIGHBITDEPTH_TEST } DataPathType;
+
+using ::testing::tuple;
+
+typedef tuple<ConvolveRoundFunc, ConvolveRoundFunc, DataPathType>
+ ConvolveRoundParam;
+
+const int kTestNum = 5000;
+
+class ConvolveRoundTest : public ::testing::TestWithParam<ConvolveRoundParam> {
+ protected:
+ ConvolveRoundTest()
+ : func_ref_(GET_PARAM(0)), func_(GET_PARAM(1)), data_path_(GET_PARAM(2)) {
+ }
+ virtual ~ConvolveRoundTest() {}
+
+ virtual void SetUp() {
+ const size_t block_size = 128 * 128;
+ src_ = reinterpret_cast<int32_t *>(
+ aom_memalign(16, block_size * sizeof(*src_)));
+ dst_ref_ = reinterpret_cast<uint16_t *>(
+ aom_memalign(16, block_size * sizeof(*dst_ref_)));
+ dst_ = reinterpret_cast<uint16_t *>(
+ aom_memalign(16, block_size * sizeof(*dst_)));
+ }
+
+ virtual void TearDown() {
+ aom_free(src_);
+ aom_free(dst_ref_);
+ aom_free(dst_);
+ }
+
+ void ConvolveRoundingRun() {
+ int test_num = 0;
+ const int src_stride = 128;
+ const int dst_stride = 128;
+ int bits = 13;
+ uint8_t *dst = 0;
+ uint8_t *dst_ref = 0;
+
+ if (data_path_ == LOWBITDEPTH_TEST) {
+ dst = reinterpret_cast<uint8_t *>(dst_);
+ dst_ref = reinterpret_cast<uint8_t *>(dst_ref_);
+ } else if (data_path_ == HIGHBITDEPTH_TEST) {
+ dst = CONVERT_TO_BYTEPTR(dst_);
+ dst_ref = CONVERT_TO_BYTEPTR(dst_ref_);
+ } else {
+ assert(0);
+ }
+
+ while (test_num < kTestNum) {
+ int block_size = test_num % BLOCK_SIZES_ALL;
+ int w = block_size_wide[block_size];
+ int h = block_size_high[block_size];
+
+ if (test_num % 2 == 0)
+ bits -= 1;
+ else
+ bits += 1;
+
+ GenerateBufferWithRandom(src_, src_stride, bits, w, h);
+
+ func_ref_(src_, src_stride, dst_ref, dst_stride, w, h, bits);
+ ASM_REGISTER_STATE_CHECK(
+ func_(src_, src_stride, dst, dst_stride, w, h, bits));
+
+ if (data_path_ == LOWBITDEPTH_TEST) {
+ for (int r = 0; r < h; ++r) {
+ for (int c = 0; c < w; ++c) {
+ ASSERT_EQ(dst_ref[r * dst_stride + c], dst[r * dst_stride + c])
+ << "Mismatch at r: " << r << " c: " << c << " w: " << w
+ << " h: " << h << " test: " << test_num;
+ }
+ }
+ } else {
+ for (int r = 0; r < h; ++r) {
+ for (int c = 0; c < w; ++c) {
+ ASSERT_EQ(dst_ref_[r * dst_stride + c], dst_[r * dst_stride + c])
+ << "Mismatch at r: " << r << " c: " << c << " w: " << w
+ << " h: " << h << " test: " << test_num;
+ }
+ }
+ }
+
+ test_num++;
+ }
+ }
+
+ void GenerateBufferWithRandom(int32_t *src, int src_stride, int bits, int w,
+ int h) {
+ int32_t number;
+ for (int r = 0; r < h; ++r) {
+ for (int c = 0; c < w; ++c) {
+ number = static_cast<int32_t>(rand_.Rand31());
+ number %= 1 << (bits + 9);
+ src[r * src_stride + c] = number;
+ }
+ }
+ }
+
+ ACMRandom rand_;
+ int32_t *src_;
+ uint16_t *dst_ref_;
+ uint16_t *dst_;
+
+ ConvolveRoundFunc func_ref_;
+ ConvolveRoundFunc func_;
+ DataPathType data_path_;
+};
+
+TEST_P(ConvolveRoundTest, BitExactCheck) { ConvolveRoundingRun(); }
+
+using ::testing::make_tuple;
+#if HAVE_AVX2
+const ConvolveRoundParam kConvRndParamArray[] = {
+ make_tuple(&av1_convolve_rounding_c, &av1_convolve_rounding_avx2,
+ LOWBITDEPTH_TEST),
+ make_tuple(&highbd_convolve_rounding_8<av1_highbd_convolve_rounding_c>,
+ &highbd_convolve_rounding_8<av1_highbd_convolve_rounding_avx2>,
+ HIGHBITDEPTH_TEST),
+ make_tuple(&highbd_convolve_rounding_10<av1_highbd_convolve_rounding_c>,
+ &highbd_convolve_rounding_10<av1_highbd_convolve_rounding_avx2>,
+ HIGHBITDEPTH_TEST),
+ make_tuple(&highbd_convolve_rounding_12<av1_highbd_convolve_rounding_c>,
+ &highbd_convolve_rounding_12<av1_highbd_convolve_rounding_avx2>,
+ HIGHBITDEPTH_TEST)
+};
+INSTANTIATE_TEST_CASE_P(AVX2, ConvolveRoundTest,
+ ::testing::ValuesIn(kConvRndParamArray));
+#endif // HAVE_AVX2
+} // namespace
diff --git a/third_party/aom/test/convolve_test.cc b/third_party/aom/test/convolve_test.cc
new file mode 100644
index 0000000000..de3f47628a
--- /dev/null
+++ b/third_party/aom/test/convolve_test.cc
@@ -0,0 +1,856 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <string.h>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_config.h"
+#include "config/aom_dsp_rtcd.h"
+
+#include "aom_dsp/aom_dsp_common.h"
+#include "aom_dsp/aom_filter.h"
+#include "aom_mem/aom_mem.h"
+#include "aom_ports/aom_timer.h"
+#include "aom_ports/mem.h"
+#include "av1/common/filter.h"
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "test/util.h"
+
+namespace {
+
+static const unsigned int kMaxDimension = MAX_SB_SIZE;
+
+typedef void (*ConvolveFunc)(const uint8_t *src, ptrdiff_t src_stride,
+ uint8_t *dst, ptrdiff_t dst_stride,
+ const int16_t *filter_x, int filter_x_stride,
+ const int16_t *filter_y, int filter_y_stride,
+ int w, int h);
+
+struct ConvolveFunctions {
+ ConvolveFunctions(ConvolveFunc copy, ConvolveFunc h8, ConvolveFunc v8, int bd)
+ : copy_(copy), h8_(h8), v8_(v8), use_highbd_(bd) {}
+
+ ConvolveFunc copy_;
+ ConvolveFunc h8_;
+ ConvolveFunc v8_;
+ int use_highbd_; // 0 if high bitdepth not used, else the actual bit depth.
+};
+
+typedef ::testing::tuple<int, int, const ConvolveFunctions *> ConvolveParam;
+
+#define ALL_SIZES_64(convolve_fn) \
+ make_tuple(4, 4, &convolve_fn), make_tuple(8, 4, &convolve_fn), \
+ make_tuple(4, 8, &convolve_fn), make_tuple(8, 8, &convolve_fn), \
+ make_tuple(16, 8, &convolve_fn), make_tuple(8, 16, &convolve_fn), \
+ make_tuple(16, 16, &convolve_fn), make_tuple(32, 16, &convolve_fn), \
+ make_tuple(16, 32, &convolve_fn), make_tuple(32, 32, &convolve_fn), \
+ make_tuple(64, 32, &convolve_fn), make_tuple(32, 64, &convolve_fn), \
+ make_tuple(64, 64, &convolve_fn)
+
+#define ALL_SIZES(convolve_fn) \
+ make_tuple(128, 64, &convolve_fn), make_tuple(64, 128, &convolve_fn), \
+ make_tuple(128, 128, &convolve_fn), ALL_SIZES_64(convolve_fn)
+
+// Reference 8-tap subpixel filter, slightly modified to fit into this test.
+#define AV1_FILTER_WEIGHT 128
+#define AV1_FILTER_SHIFT 7
+uint8_t clip_pixel(int x) { return x < 0 ? 0 : x > 255 ? 255 : x; }
+
+void filter_block2d_8_c(const uint8_t *src_ptr, unsigned int src_stride,
+ const int16_t *HFilter, const int16_t *VFilter,
+ uint8_t *dst_ptr, unsigned int dst_stride,
+ unsigned int output_width, unsigned int output_height) {
+ // Between passes, we use an intermediate buffer whose height is extended to
+ // have enough horizontally filtered values as input for the vertical pass.
+ // This buffer is allocated to be big enough for the largest block type we
+ // support.
+ const int kInterp_Extend = 4;
+ const unsigned int intermediate_height =
+ (kInterp_Extend - 1) + output_height + kInterp_Extend;
+ unsigned int i, j;
+
+ assert(intermediate_height > 7);
+
+ // Size of intermediate_buffer is max_intermediate_height * filter_max_width,
+ // where max_intermediate_height = (kInterp_Extend - 1) + filter_max_height
+ // + kInterp_Extend
+ // = 3 + 16 + 4
+ // = 23
+ // and filter_max_width = 16
+ //
+ uint8_t intermediate_buffer[(kMaxDimension + 8) * kMaxDimension];
+ const int intermediate_next_stride =
+ 1 - static_cast<int>(intermediate_height * output_width);
+
+ // Horizontal pass (src -> transposed intermediate).
+ uint8_t *output_ptr = intermediate_buffer;
+ const int src_next_row_stride = src_stride - output_width;
+ src_ptr -= (kInterp_Extend - 1) * src_stride + (kInterp_Extend - 1);
+ for (i = 0; i < intermediate_height; ++i) {
+ for (j = 0; j < output_width; ++j) {
+ // Apply filter...
+ const int temp = (src_ptr[0] * HFilter[0]) + (src_ptr[1] * HFilter[1]) +
+ (src_ptr[2] * HFilter[2]) + (src_ptr[3] * HFilter[3]) +
+ (src_ptr[4] * HFilter[4]) + (src_ptr[5] * HFilter[5]) +
+ (src_ptr[6] * HFilter[6]) + (src_ptr[7] * HFilter[7]) +
+ (AV1_FILTER_WEIGHT >> 1); // Rounding
+
+ // Normalize back to 0-255...
+ *output_ptr = clip_pixel(temp >> AV1_FILTER_SHIFT);
+ ++src_ptr;
+ output_ptr += intermediate_height;
+ }
+ src_ptr += src_next_row_stride;
+ output_ptr += intermediate_next_stride;
+ }
+
+ // Vertical pass (transposed intermediate -> dst).
+ src_ptr = intermediate_buffer;
+ const int dst_next_row_stride = dst_stride - output_width;
+ for (i = 0; i < output_height; ++i) {
+ for (j = 0; j < output_width; ++j) {
+ // Apply filter...
+ const int temp = (src_ptr[0] * VFilter[0]) + (src_ptr[1] * VFilter[1]) +
+ (src_ptr[2] * VFilter[2]) + (src_ptr[3] * VFilter[3]) +
+ (src_ptr[4] * VFilter[4]) + (src_ptr[5] * VFilter[5]) +
+ (src_ptr[6] * VFilter[6]) + (src_ptr[7] * VFilter[7]) +
+ (AV1_FILTER_WEIGHT >> 1); // Rounding
+
+ // Normalize back to 0-255...
+ *dst_ptr++ = clip_pixel(temp >> AV1_FILTER_SHIFT);
+ src_ptr += intermediate_height;
+ }
+ src_ptr += intermediate_next_stride;
+ dst_ptr += dst_next_row_stride;
+ }
+}
+
+void block2d_average_c(uint8_t *src, unsigned int src_stride,
+ uint8_t *output_ptr, unsigned int output_stride,
+ unsigned int output_width, unsigned int output_height) {
+ unsigned int i, j;
+ for (i = 0; i < output_height; ++i) {
+ for (j = 0; j < output_width; ++j) {
+ output_ptr[j] = (output_ptr[j] + src[i * src_stride + j] + 1) >> 1;
+ }
+ output_ptr += output_stride;
+ }
+}
+
+void filter_average_block2d_8_c(const uint8_t *src_ptr,
+ const unsigned int src_stride,
+ const int16_t *HFilter, const int16_t *VFilter,
+ uint8_t *dst_ptr, unsigned int dst_stride,
+ unsigned int output_width,
+ unsigned int output_height) {
+ uint8_t tmp[kMaxDimension * kMaxDimension];
+
+ assert(output_width <= kMaxDimension);
+ assert(output_height <= kMaxDimension);
+ filter_block2d_8_c(src_ptr, src_stride, HFilter, VFilter, tmp, kMaxDimension,
+ output_width, output_height);
+ block2d_average_c(tmp, kMaxDimension, dst_ptr, dst_stride, output_width,
+ output_height);
+}
+
+void highbd_filter_block2d_8_c(const uint16_t *src_ptr,
+ const unsigned int src_stride,
+ const int16_t *HFilter, const int16_t *VFilter,
+ uint16_t *dst_ptr, unsigned int dst_stride,
+ unsigned int output_width,
+ unsigned int output_height, int bd) {
+ // Between passes, we use an intermediate buffer whose height is extended to
+ // have enough horizontally filtered values as input for the vertical pass.
+ // This buffer is allocated to be big enough for the largest block type we
+ // support.
+ const int kInterp_Extend = 4;
+ const unsigned int intermediate_height =
+ (kInterp_Extend - 1) + output_height + kInterp_Extend;
+
+ /* Size of intermediate_buffer is max_intermediate_height * filter_max_width,
+ * where max_intermediate_height = (kInterp_Extend - 1) + filter_max_height
+ * + kInterp_Extend
+ * = 3 + 16 + 4
+ * = 23
+ * and filter_max_width = 16
+ */
+ uint16_t intermediate_buffer[(kMaxDimension + 8) * kMaxDimension] = { 0 };
+ const int intermediate_next_stride =
+ 1 - static_cast<int>(intermediate_height * output_width);
+
+ // Horizontal pass (src -> transposed intermediate).
+ {
+ uint16_t *output_ptr = intermediate_buffer;
+ const int src_next_row_stride = src_stride - output_width;
+ unsigned int i, j;
+ src_ptr -= (kInterp_Extend - 1) * src_stride + (kInterp_Extend - 1);
+ for (i = 0; i < intermediate_height; ++i) {
+ for (j = 0; j < output_width; ++j) {
+ // Apply filter...
+ const int temp = (src_ptr[0] * HFilter[0]) + (src_ptr[1] * HFilter[1]) +
+ (src_ptr[2] * HFilter[2]) + (src_ptr[3] * HFilter[3]) +
+ (src_ptr[4] * HFilter[4]) + (src_ptr[5] * HFilter[5]) +
+ (src_ptr[6] * HFilter[6]) + (src_ptr[7] * HFilter[7]) +
+ (AV1_FILTER_WEIGHT >> 1); // Rounding
+
+ // Normalize back to 0-255...
+ *output_ptr = clip_pixel_highbd(temp >> AV1_FILTER_SHIFT, bd);
+ ++src_ptr;
+ output_ptr += intermediate_height;
+ }
+ src_ptr += src_next_row_stride;
+ output_ptr += intermediate_next_stride;
+ }
+ }
+
+ // Vertical pass (transposed intermediate -> dst).
+ {
+ const uint16_t *interm_ptr = intermediate_buffer;
+ const int dst_next_row_stride = dst_stride - output_width;
+ unsigned int i, j;
+ for (i = 0; i < output_height; ++i) {
+ for (j = 0; j < output_width; ++j) {
+ // Apply filter...
+ const int temp =
+ (interm_ptr[0] * VFilter[0]) + (interm_ptr[1] * VFilter[1]) +
+ (interm_ptr[2] * VFilter[2]) + (interm_ptr[3] * VFilter[3]) +
+ (interm_ptr[4] * VFilter[4]) + (interm_ptr[5] * VFilter[5]) +
+ (interm_ptr[6] * VFilter[6]) + (interm_ptr[7] * VFilter[7]) +
+ (AV1_FILTER_WEIGHT >> 1); // Rounding
+
+ // Normalize back to 0-255...
+ *dst_ptr++ = clip_pixel_highbd(temp >> AV1_FILTER_SHIFT, bd);
+ interm_ptr += intermediate_height;
+ }
+ interm_ptr += intermediate_next_stride;
+ dst_ptr += dst_next_row_stride;
+ }
+ }
+}
+
+void highbd_block2d_average_c(uint16_t *src, unsigned int src_stride,
+ uint16_t *output_ptr, unsigned int output_stride,
+ unsigned int output_width,
+ unsigned int output_height) {
+ unsigned int i, j;
+ for (i = 0; i < output_height; ++i) {
+ for (j = 0; j < output_width; ++j) {
+ output_ptr[j] = (output_ptr[j] + src[i * src_stride + j] + 1) >> 1;
+ }
+ output_ptr += output_stride;
+ }
+}
+
+void highbd_filter_average_block2d_8_c(
+ const uint16_t *src_ptr, unsigned int src_stride, const int16_t *HFilter,
+ const int16_t *VFilter, uint16_t *dst_ptr, unsigned int dst_stride,
+ unsigned int output_width, unsigned int output_height, int bd) {
+ uint16_t tmp[kMaxDimension * kMaxDimension];
+
+ assert(output_width <= kMaxDimension);
+ assert(output_height <= kMaxDimension);
+ highbd_filter_block2d_8_c(src_ptr, src_stride, HFilter, VFilter, tmp,
+ kMaxDimension, output_width, output_height, bd);
+ highbd_block2d_average_c(tmp, kMaxDimension, dst_ptr, dst_stride,
+ output_width, output_height);
+}
+
+class ConvolveTest : public ::testing::TestWithParam<ConvolveParam> {
+ public:
+ static void SetUpTestCase() {
+ // Force input_ to be unaligned, output to be 16 byte aligned.
+ input_ = reinterpret_cast<uint8_t *>(
+ aom_memalign(kDataAlignment, kInputBufferSize + 1)) +
+ 1;
+ output_ = reinterpret_cast<uint8_t *>(
+ aom_memalign(kDataAlignment, kOutputBufferSize));
+ output_ref_ = reinterpret_cast<uint8_t *>(
+ aom_memalign(kDataAlignment, kOutputBufferSize));
+ input16_ = reinterpret_cast<uint16_t *>(aom_memalign(
+ kDataAlignment, (kInputBufferSize + 1) * sizeof(uint16_t))) +
+ 1;
+ output16_ = reinterpret_cast<uint16_t *>(
+ aom_memalign(kDataAlignment, (kOutputBufferSize) * sizeof(uint16_t)));
+ output16_ref_ = reinterpret_cast<uint16_t *>(
+ aom_memalign(kDataAlignment, (kOutputBufferSize) * sizeof(uint16_t)));
+ }
+
+ virtual void TearDown() { libaom_test::ClearSystemState(); }
+
+ static void TearDownTestCase() {
+ aom_free(input_ - 1);
+ input_ = NULL;
+ aom_free(output_);
+ output_ = NULL;
+ aom_free(output_ref_);
+ output_ref_ = NULL;
+ aom_free(input16_ - 1);
+ input16_ = NULL;
+ aom_free(output16_);
+ output16_ = NULL;
+ aom_free(output16_ref_);
+ output16_ref_ = NULL;
+ }
+
+ protected:
+ static const int kDataAlignment = 16;
+ static const int kOuterBlockSize = 4 * kMaxDimension;
+ static const int kInputStride = kOuterBlockSize;
+ static const int kOutputStride = kOuterBlockSize;
+ static const int kInputBufferSize = kOuterBlockSize * kOuterBlockSize;
+ static const int kOutputBufferSize = kOuterBlockSize * kOuterBlockSize;
+
+ int Width() const { return GET_PARAM(0); }
+ int Height() const { return GET_PARAM(1); }
+ int BorderLeft() const {
+ const int center = (kOuterBlockSize - Width()) / 2;
+ return (center + (kDataAlignment - 1)) & ~(kDataAlignment - 1);
+ }
+ int BorderTop() const { return (kOuterBlockSize - Height()) / 2; }
+
+ bool IsIndexInBorder(int i) {
+ return (i < BorderTop() * kOuterBlockSize ||
+ i >= (BorderTop() + Height()) * kOuterBlockSize ||
+ i % kOuterBlockSize < BorderLeft() ||
+ i % kOuterBlockSize >= (BorderLeft() + Width()));
+ }
+
+ virtual void SetUp() {
+ UUT_ = GET_PARAM(2);
+ if (UUT_->use_highbd_ != 0)
+ mask_ = (1 << UUT_->use_highbd_) - 1;
+ else
+ mask_ = 255;
+ /* Set up guard blocks for an inner block centered in the outer block */
+ for (int i = 0; i < kOutputBufferSize; ++i) {
+ if (IsIndexInBorder(i)) {
+ output_[i] = 255;
+ output16_[i] = mask_;
+ } else {
+ output_[i] = 0;
+ output16_[i] = 0;
+ }
+ }
+
+ ::libaom_test::ACMRandom prng;
+ for (int i = 0; i < kInputBufferSize; ++i) {
+ if (i & 1) {
+ input_[i] = 255;
+ input16_[i] = mask_;
+ } else {
+ input_[i] = prng.Rand8Extremes();
+ input16_[i] = prng.Rand16() & mask_;
+ }
+ }
+ }
+
+ void SetConstantInput(int value) {
+ memset(input_, value, kInputBufferSize);
+ aom_memset16(input16_, value, kInputBufferSize);
+ }
+
+ void CopyOutputToRef() {
+ memcpy(output_ref_, output_, kOutputBufferSize);
+ // Copy 16-bit pixels values. The effective number of bytes is double.
+ memcpy(output16_ref_, output16_, sizeof(output16_[0]) * kOutputBufferSize);
+ }
+
+ void CheckGuardBlocks() {
+ for (int i = 0; i < kOutputBufferSize; ++i) {
+ if (IsIndexInBorder(i)) {
+ EXPECT_EQ(255, output_[i]);
+ }
+ }
+ }
+
+ uint8_t *input() const {
+ const int offset = BorderTop() * kOuterBlockSize + BorderLeft();
+ if (UUT_->use_highbd_ == 0) {
+ return input_ + offset;
+ } else {
+ return CONVERT_TO_BYTEPTR(input16_) + offset;
+ }
+ }
+
+ uint8_t *output() const {
+ const int offset = BorderTop() * kOuterBlockSize + BorderLeft();
+ if (UUT_->use_highbd_ == 0) {
+ return output_ + offset;
+ } else {
+ return CONVERT_TO_BYTEPTR(output16_) + offset;
+ }
+ }
+
+ uint8_t *output_ref() const {
+ const int offset = BorderTop() * kOuterBlockSize + BorderLeft();
+ if (UUT_->use_highbd_ == 0) {
+ return output_ref_ + offset;
+ } else {
+ return CONVERT_TO_BYTEPTR(output16_ref_) + offset;
+ }
+ }
+
+ uint16_t lookup(uint8_t *list, int index) const {
+ if (UUT_->use_highbd_ == 0) {
+ return list[index];
+ } else {
+ return CONVERT_TO_SHORTPTR(list)[index];
+ }
+ }
+
+ void assign_val(uint8_t *list, int index, uint16_t val) const {
+ if (UUT_->use_highbd_ == 0) {
+ list[index] = (uint8_t)val;
+ } else {
+ CONVERT_TO_SHORTPTR(list)[index] = val;
+ }
+ }
+
+ void wrapper_filter_average_block2d_8_c(
+ const uint8_t *src_ptr, unsigned int src_stride, const int16_t *HFilter,
+ const int16_t *VFilter, uint8_t *dst_ptr, unsigned int dst_stride,
+ unsigned int output_width, unsigned int output_height) {
+ if (UUT_->use_highbd_ == 0) {
+ filter_average_block2d_8_c(src_ptr, src_stride, HFilter, VFilter, dst_ptr,
+ dst_stride, output_width, output_height);
+ } else {
+ highbd_filter_average_block2d_8_c(
+ CONVERT_TO_SHORTPTR(src_ptr), src_stride, HFilter, VFilter,
+ CONVERT_TO_SHORTPTR(dst_ptr), dst_stride, output_width, output_height,
+ UUT_->use_highbd_);
+ }
+ }
+
+ void wrapper_filter_block2d_8_c(
+ const uint8_t *src_ptr, unsigned int src_stride, const int16_t *HFilter,
+ const int16_t *VFilter, uint8_t *dst_ptr, unsigned int dst_stride,
+ unsigned int output_width, unsigned int output_height) {
+ if (UUT_->use_highbd_ == 0) {
+ filter_block2d_8_c(src_ptr, src_stride, HFilter, VFilter, dst_ptr,
+ dst_stride, output_width, output_height);
+ } else {
+ highbd_filter_block2d_8_c(CONVERT_TO_SHORTPTR(src_ptr), src_stride,
+ HFilter, VFilter, CONVERT_TO_SHORTPTR(dst_ptr),
+ dst_stride, output_width, output_height,
+ UUT_->use_highbd_);
+ }
+ }
+
+ const ConvolveFunctions *UUT_;
+ static uint8_t *input_;
+ static uint8_t *output_;
+ static uint8_t *output_ref_;
+ static uint16_t *input16_;
+ static uint16_t *output16_;
+ static uint16_t *output16_ref_;
+ int mask_;
+};
+
+uint8_t *ConvolveTest::input_ = NULL;
+uint8_t *ConvolveTest::output_ = NULL;
+uint8_t *ConvolveTest::output_ref_ = NULL;
+uint16_t *ConvolveTest::input16_ = NULL;
+uint16_t *ConvolveTest::output16_ = NULL;
+uint16_t *ConvolveTest::output16_ref_ = NULL;
+
+TEST_P(ConvolveTest, GuardBlocks) { CheckGuardBlocks(); }
+
+TEST_P(ConvolveTest, Copy) {
+ uint8_t *const in = input();
+ uint8_t *const out = output();
+
+ ASM_REGISTER_STATE_CHECK(UUT_->copy_(in, kInputStride, out, kOutputStride,
+ NULL, 0, NULL, 0, Width(), Height()));
+
+ CheckGuardBlocks();
+
+ for (int y = 0; y < Height(); ++y)
+ for (int x = 0; x < Width(); ++x)
+ ASSERT_EQ(lookup(out, y * kOutputStride + x),
+ lookup(in, y * kInputStride + x))
+ << "(" << x << "," << y << ")";
+}
+
+const int kNumFilterBanks = SWITCHABLE_FILTERS;
+const int kNumFilters = 16;
+
+TEST(ConvolveTest, FiltersWontSaturateWhenAddedPairwise) {
+ for (int filter_bank = 0; filter_bank < kNumFilterBanks; ++filter_bank) {
+ const InterpFilter filter = (InterpFilter)filter_bank;
+ const InterpKernel *filters =
+ (const InterpKernel *)av1_get_interp_filter_kernel(filter);
+ const InterpFilterParams *filter_params =
+ av1_get_interp_filter_params_with_block_size(filter, 8);
+ if (filter_params->taps != SUBPEL_TAPS) continue;
+ for (int i = 0; i < kNumFilters; i++) {
+ const int p0 = filters[i][0] + filters[i][1];
+ const int p1 = filters[i][2] + filters[i][3];
+ const int p2 = filters[i][4] + filters[i][5];
+ const int p3 = filters[i][6] + filters[i][7];
+ EXPECT_LE(p0, 128);
+ EXPECT_LE(p1, 128);
+ EXPECT_LE(p2, 128);
+ EXPECT_LE(p3, 128);
+ EXPECT_LE(p0 + p3, 128);
+ EXPECT_LE(p0 + p3 + p1, 128);
+ EXPECT_LE(p0 + p3 + p1 + p2, 128);
+ EXPECT_EQ(p0 + p1 + p2 + p3, 128);
+ }
+ }
+}
+
+const int16_t kInvalidFilter[8] = { 0 };
+
+TEST_P(ConvolveTest, MatchesReferenceSubpixelFilter) {
+ uint8_t *const in = input();
+ uint8_t *const out = output();
+ uint8_t ref8[kOutputStride * kMaxDimension];
+ uint16_t ref16[kOutputStride * kMaxDimension];
+ uint8_t *ref;
+ if (UUT_->use_highbd_ == 0) {
+ ref = ref8;
+ } else {
+ ref = CONVERT_TO_BYTEPTR(ref16);
+ }
+
+ for (int filter_bank = 0; filter_bank < kNumFilterBanks; ++filter_bank) {
+ const InterpFilter filter = (InterpFilter)filter_bank;
+ const InterpKernel *filters =
+ (const InterpKernel *)av1_get_interp_filter_kernel(filter);
+ const InterpFilterParams *filter_params =
+ av1_get_interp_filter_params_with_block_size(filter, 8);
+ if (filter_params->taps != SUBPEL_TAPS) continue;
+
+ for (int filter_x = 0; filter_x < kNumFilters; ++filter_x) {
+ for (int filter_y = 0; filter_y < kNumFilters; ++filter_y) {
+ wrapper_filter_block2d_8_c(in, kInputStride, filters[filter_x],
+ filters[filter_y], ref, kOutputStride,
+ Width(), Height());
+
+ if (filter_x && filter_y)
+ continue;
+ else if (filter_y)
+ ASM_REGISTER_STATE_CHECK(
+ UUT_->v8_(in, kInputStride, out, kOutputStride, kInvalidFilter,
+ 16, filters[filter_y], 16, Width(), Height()));
+ else if (filter_x)
+ ASM_REGISTER_STATE_CHECK(
+ UUT_->h8_(in, kInputStride, out, kOutputStride, filters[filter_x],
+ 16, kInvalidFilter, 16, Width(), Height()));
+ else
+ ASM_REGISTER_STATE_CHECK(
+ UUT_->copy_(in, kInputStride, out, kOutputStride, kInvalidFilter,
+ 0, kInvalidFilter, 0, Width(), Height()));
+
+ CheckGuardBlocks();
+
+ for (int y = 0; y < Height(); ++y)
+ for (int x = 0; x < Width(); ++x)
+ ASSERT_EQ(lookup(ref, y * kOutputStride + x),
+ lookup(out, y * kOutputStride + x))
+ << "mismatch at (" << x << "," << y << "), "
+ << "filters (" << filter_bank << "," << filter_x << ","
+ << filter_y << ")";
+ }
+ }
+ }
+}
+
+TEST_P(ConvolveTest, FilterExtremes) {
+ uint8_t *const in = input();
+ uint8_t *const out = output();
+ uint8_t ref8[kOutputStride * kMaxDimension];
+ uint16_t ref16[kOutputStride * kMaxDimension];
+ uint8_t *ref;
+ if (UUT_->use_highbd_ == 0) {
+ ref = ref8;
+ } else {
+ ref = CONVERT_TO_BYTEPTR(ref16);
+ }
+
+ // Populate ref and out with some random data
+ ::libaom_test::ACMRandom prng;
+ for (int y = 0; y < Height(); ++y) {
+ for (int x = 0; x < Width(); ++x) {
+ uint16_t r;
+ if (UUT_->use_highbd_ == 0 || UUT_->use_highbd_ == 8) {
+ r = prng.Rand8Extremes();
+ } else {
+ r = prng.Rand16() & mask_;
+ }
+ assign_val(out, y * kOutputStride + x, r);
+ assign_val(ref, y * kOutputStride + x, r);
+ }
+ }
+
+ for (int axis = 0; axis < 2; axis++) {
+ int seed_val = 0;
+ while (seed_val < 256) {
+ for (int y = 0; y < 8; ++y) {
+ for (int x = 0; x < 8; ++x) {
+ assign_val(in, y * kOutputStride + x - SUBPEL_TAPS / 2 + 1,
+ ((seed_val >> (axis ? y : x)) & 1) * mask_);
+ if (axis) seed_val++;
+ }
+ if (axis)
+ seed_val -= 8;
+ else
+ seed_val++;
+ }
+ if (axis) seed_val += 8;
+
+ for (int filter_bank = 0; filter_bank < kNumFilterBanks; ++filter_bank) {
+ const InterpFilter filter = (InterpFilter)filter_bank;
+ const InterpKernel *filters =
+ (const InterpKernel *)av1_get_interp_filter_kernel(filter);
+ const InterpFilterParams *filter_params =
+ av1_get_interp_filter_params_with_block_size(filter, 8);
+ if (filter_params->taps != SUBPEL_TAPS) continue;
+ for (int filter_x = 0; filter_x < kNumFilters; ++filter_x) {
+ for (int filter_y = 0; filter_y < kNumFilters; ++filter_y) {
+ wrapper_filter_block2d_8_c(in, kInputStride, filters[filter_x],
+ filters[filter_y], ref, kOutputStride,
+ Width(), Height());
+ if (filter_x && filter_y)
+ continue;
+ else if (filter_y)
+ ASM_REGISTER_STATE_CHECK(UUT_->v8_(
+ in, kInputStride, out, kOutputStride, kInvalidFilter, 16,
+ filters[filter_y], 16, Width(), Height()));
+ else if (filter_x)
+ ASM_REGISTER_STATE_CHECK(UUT_->h8_(
+ in, kInputStride, out, kOutputStride, filters[filter_x], 16,
+ kInvalidFilter, 16, Width(), Height()));
+ else
+ ASM_REGISTER_STATE_CHECK(UUT_->copy_(
+ in, kInputStride, out, kOutputStride, kInvalidFilter, 0,
+ kInvalidFilter, 0, Width(), Height()));
+
+ for (int y = 0; y < Height(); ++y)
+ for (int x = 0; x < Width(); ++x)
+ ASSERT_EQ(lookup(ref, y * kOutputStride + x),
+ lookup(out, y * kOutputStride + x))
+ << "mismatch at (" << x << "," << y << "), "
+ << "filters (" << filter_bank << "," << filter_x << ","
+ << filter_y << ")";
+ }
+ }
+ }
+ }
+ }
+}
+
+TEST_P(ConvolveTest, DISABLED_Copy_Speed) {
+ const uint8_t *const in = input();
+ uint8_t *const out = output();
+ const int kNumTests = 5000000;
+ const int width = Width();
+ const int height = Height();
+ aom_usec_timer timer;
+
+ aom_usec_timer_start(&timer);
+ for (int n = 0; n < kNumTests; ++n) {
+ UUT_->copy_(in, kInputStride, out, kOutputStride, NULL, 0, NULL, 0, width,
+ height);
+ }
+ aom_usec_timer_mark(&timer);
+
+ const int elapsed_time = static_cast<int>(aom_usec_timer_elapsed(&timer));
+ printf("convolve_copy_%dx%d_%d: %d us\n", width, height,
+ UUT_->use_highbd_ ? UUT_->use_highbd_ : 8, elapsed_time);
+}
+
+TEST_P(ConvolveTest, DISABLED_Speed) {
+ uint8_t *const in = input();
+ uint8_t *const out = output();
+ uint8_t ref8[kOutputStride * kMaxDimension];
+ uint16_t ref16[kOutputStride * kMaxDimension];
+ uint8_t *ref;
+ if (UUT_->use_highbd_ == 0) {
+ ref = ref8;
+ } else {
+ ref = CONVERT_TO_BYTEPTR(ref16);
+ }
+
+ // Populate ref and out with some random data
+ ::libaom_test::ACMRandom prng;
+ for (int y = 0; y < Height(); ++y) {
+ for (int x = 0; x < Width(); ++x) {
+ uint16_t r;
+ if (UUT_->use_highbd_ == 0 || UUT_->use_highbd_ == 8) {
+ r = prng.Rand8Extremes();
+ } else {
+ r = prng.Rand16() & mask_;
+ }
+ assign_val(out, y * kOutputStride + x, r);
+ assign_val(ref, y * kOutputStride + x, r);
+ }
+ }
+
+ const InterpFilter filter = (InterpFilter)1;
+ const InterpKernel *filters =
+ (const InterpKernel *)av1_get_interp_filter_kernel(filter);
+ wrapper_filter_average_block2d_8_c(in, kInputStride, filters[1], filters[1],
+ out, kOutputStride, Width(), Height());
+
+ aom_usec_timer timer;
+ int tests_num = 1000;
+
+ aom_usec_timer_start(&timer);
+ while (tests_num > 0) {
+ for (int filter_bank = 0; filter_bank < kNumFilterBanks; ++filter_bank) {
+ const InterpFilter filter = (InterpFilter)filter_bank;
+ const InterpKernel *filters =
+ (const InterpKernel *)av1_get_interp_filter_kernel(filter);
+ const InterpFilterParams *filter_params =
+ av1_get_interp_filter_params_with_block_size(filter, 8);
+ if (filter_params->taps != SUBPEL_TAPS) continue;
+
+ for (int filter_x = 0; filter_x < kNumFilters; ++filter_x) {
+ for (int filter_y = 0; filter_y < kNumFilters; ++filter_y) {
+ if (filter_x && filter_y) continue;
+ if (filter_y)
+ ASM_REGISTER_STATE_CHECK(
+ UUT_->v8_(in, kInputStride, out, kOutputStride, kInvalidFilter,
+ 16, filters[filter_y], 16, Width(), Height()));
+ else if (filter_x)
+ ASM_REGISTER_STATE_CHECK(UUT_->h8_(
+ in, kInputStride, out, kOutputStride, filters[filter_x], 16,
+ kInvalidFilter, 16, Width(), Height()));
+ }
+ }
+ }
+ tests_num--;
+ }
+ aom_usec_timer_mark(&timer);
+
+ const int elapsed_time =
+ static_cast<int>(aom_usec_timer_elapsed(&timer) / 1000);
+ printf("%dx%d (bitdepth %d) time: %5d ms\n", Width(), Height(),
+ UUT_->use_highbd_, elapsed_time);
+}
+
+using ::testing::make_tuple;
+
+#define WRAP(func, bd) \
+ static void wrap_##func##_##bd( \
+ const uint8_t *src, ptrdiff_t src_stride, uint8_t *dst, \
+ ptrdiff_t dst_stride, const int16_t *filter_x, int filter_x_stride, \
+ const int16_t *filter_y, int filter_y_stride, int w, int h) { \
+ aom_highbd_##func(src, src_stride, dst, dst_stride, filter_x, \
+ filter_x_stride, filter_y, filter_y_stride, w, h, bd); \
+ }
+#if HAVE_SSE2 && ARCH_X86_64
+WRAP(convolve_copy_sse2, 8)
+WRAP(convolve_copy_sse2, 10)
+WRAP(convolve_copy_sse2, 12)
+WRAP(convolve8_horiz_sse2, 8)
+WRAP(convolve8_vert_sse2, 8)
+WRAP(convolve8_horiz_sse2, 10)
+WRAP(convolve8_vert_sse2, 10)
+WRAP(convolve8_horiz_sse2, 12)
+WRAP(convolve8_vert_sse2, 12)
+#endif // HAVE_SSE2 && ARCH_X86_64
+
+WRAP(convolve_copy_c, 8)
+WRAP(convolve8_horiz_c, 8)
+WRAP(convolve8_vert_c, 8)
+WRAP(convolve_copy_c, 10)
+WRAP(convolve8_horiz_c, 10)
+WRAP(convolve8_vert_c, 10)
+WRAP(convolve_copy_c, 12)
+WRAP(convolve8_horiz_c, 12)
+WRAP(convolve8_vert_c, 12)
+
+#if HAVE_AVX2
+WRAP(convolve_copy_avx2, 8)
+WRAP(convolve8_horiz_avx2, 8)
+WRAP(convolve8_vert_avx2, 8)
+
+WRAP(convolve_copy_avx2, 10)
+WRAP(convolve8_horiz_avx2, 10)
+WRAP(convolve8_vert_avx2, 10)
+
+WRAP(convolve_copy_avx2, 12)
+WRAP(convolve8_horiz_avx2, 12)
+WRAP(convolve8_vert_avx2, 12)
+#endif // HAVE_AVX2
+
+#undef WRAP
+
+const ConvolveFunctions convolve8_c(wrap_convolve_copy_c_8,
+ wrap_convolve8_horiz_c_8,
+ wrap_convolve8_vert_c_8, 8);
+const ConvolveFunctions convolve10_c(wrap_convolve_copy_c_10,
+ wrap_convolve8_horiz_c_10,
+ wrap_convolve8_vert_c_10, 10);
+const ConvolveFunctions convolve12_c(wrap_convolve_copy_c_12,
+ wrap_convolve8_horiz_c_12,
+ wrap_convolve8_vert_c_12, 12);
+const ConvolveParam kArrayConvolve_c[] = {
+ ALL_SIZES(convolve8_c), ALL_SIZES(convolve10_c), ALL_SIZES(convolve12_c)
+};
+
+INSTANTIATE_TEST_CASE_P(C, ConvolveTest, ::testing::ValuesIn(kArrayConvolve_c));
+
+#if HAVE_SSE2 && ARCH_X86_64
+const ConvolveFunctions convolve8_sse2(wrap_convolve_copy_sse2_8,
+ wrap_convolve8_horiz_sse2_8,
+ wrap_convolve8_vert_sse2_8, 8);
+const ConvolveFunctions convolve10_sse2(wrap_convolve_copy_sse2_10,
+ wrap_convolve8_horiz_sse2_10,
+ wrap_convolve8_vert_sse2_10, 10);
+const ConvolveFunctions convolve12_sse2(wrap_convolve_copy_sse2_12,
+ wrap_convolve8_horiz_sse2_12,
+ wrap_convolve8_vert_sse2_12, 12);
+const ConvolveParam kArrayConvolve_sse2[] = { ALL_SIZES(convolve8_sse2),
+ ALL_SIZES(convolve10_sse2),
+ ALL_SIZES(convolve12_sse2) };
+INSTANTIATE_TEST_CASE_P(SSE2, ConvolveTest,
+ ::testing::ValuesIn(kArrayConvolve_sse2));
+#endif
+
+#if HAVE_SSSE3
+const ConvolveFunctions convolve8_ssse3(aom_convolve_copy_c,
+ aom_convolve8_horiz_ssse3,
+ aom_convolve8_vert_ssse3, 0);
+
+const ConvolveParam kArrayConvolve8_ssse3[] = { ALL_SIZES(convolve8_ssse3) };
+INSTANTIATE_TEST_CASE_P(SSSE3, ConvolveTest,
+ ::testing::ValuesIn(kArrayConvolve8_ssse3));
+#endif
+
+#if HAVE_AVX2
+const ConvolveFunctions convolve8_avx2(aom_convolve_copy_c,
+ aom_convolve8_horiz_avx2,
+ aom_convolve8_vert_avx2, 0);
+
+const ConvolveFunctions wrap_convolve8_avx2(wrap_convolve_copy_avx2_8,
+ wrap_convolve8_horiz_avx2_8,
+ wrap_convolve8_vert_avx2_8, 8);
+const ConvolveFunctions wrap_convolve10_avx2(wrap_convolve_copy_avx2_10,
+ wrap_convolve8_horiz_avx2_10,
+ wrap_convolve8_vert_avx2_10, 10);
+const ConvolveFunctions wrap_convolve12_avx2(wrap_convolve_copy_avx2_12,
+ wrap_convolve8_horiz_avx2_12,
+ wrap_convolve8_vert_avx2_12, 12);
+const ConvolveParam kArray_Convolve8_avx2[] = {
+ ALL_SIZES_64(wrap_convolve8_avx2), ALL_SIZES_64(wrap_convolve10_avx2),
+ ALL_SIZES_64(wrap_convolve12_avx2), ALL_SIZES(convolve8_avx2)
+};
+INSTANTIATE_TEST_CASE_P(AVX2, ConvolveTest,
+ ::testing::ValuesIn(kArray_Convolve8_avx2));
+#endif // HAVE_AVX2
+
+} // namespace
diff --git a/third_party/aom/test/corner_match_test.cc b/third_party/aom/test/corner_match_test.cc
new file mode 100644
index 0000000000..58e3139c5f
--- /dev/null
+++ b/third_party/aom/test/corner_match_test.cc
@@ -0,0 +1,100 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+#include "config/av1_rtcd.h"
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/acm_random.h"
+#include "test/util.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+
+#include "av1/encoder/corner_match.h"
+
+namespace test_libaom {
+
+namespace AV1CornerMatch {
+
+using libaom_test::ACMRandom;
+
+using ::testing::make_tuple;
+using ::testing::tuple;
+typedef tuple<int> CornerMatchParam;
+
+class AV1CornerMatchTest : public ::testing::TestWithParam<CornerMatchParam> {
+ public:
+ virtual ~AV1CornerMatchTest();
+ virtual void SetUp();
+
+ virtual void TearDown();
+
+ protected:
+ void RunCheckOutput();
+
+ libaom_test::ACMRandom rnd_;
+};
+
+AV1CornerMatchTest::~AV1CornerMatchTest() {}
+void AV1CornerMatchTest::SetUp() { rnd_.Reset(ACMRandom::DeterministicSeed()); }
+void AV1CornerMatchTest::TearDown() { libaom_test::ClearSystemState(); }
+
+void AV1CornerMatchTest::RunCheckOutput() {
+ const int w = 128, h = 128;
+ const int num_iters = 10000;
+ int i, j;
+
+ uint8_t *input1 = new uint8_t[w * h];
+ uint8_t *input2 = new uint8_t[w * h];
+
+ // Test the two extreme cases:
+ // i) Random data, should have correlation close to 0
+ // ii) Linearly related data + noise, should have correlation close to 1
+ int mode = GET_PARAM(0);
+ if (mode == 0) {
+ for (i = 0; i < h; ++i)
+ for (j = 0; j < w; ++j) {
+ input1[i * w + j] = rnd_.Rand8();
+ input2[i * w + j] = rnd_.Rand8();
+ }
+ } else if (mode == 1) {
+ for (i = 0; i < h; ++i)
+ for (j = 0; j < w; ++j) {
+ int v = rnd_.Rand8();
+ input1[i * w + j] = v;
+ input2[i * w + j] = (v / 2) + (rnd_.Rand8() & 15);
+ }
+ }
+
+ for (i = 0; i < num_iters; ++i) {
+ int x1 = MATCH_SZ_BY2 + rnd_.PseudoUniform(w - 2 * MATCH_SZ_BY2);
+ int y1 = MATCH_SZ_BY2 + rnd_.PseudoUniform(h - 2 * MATCH_SZ_BY2);
+ int x2 = MATCH_SZ_BY2 + rnd_.PseudoUniform(w - 2 * MATCH_SZ_BY2);
+ int y2 = MATCH_SZ_BY2 + rnd_.PseudoUniform(h - 2 * MATCH_SZ_BY2);
+
+ double res_c =
+ compute_cross_correlation_c(input1, w, x1, y1, input2, w, x2, y2);
+ double res_sse4 =
+ compute_cross_correlation_sse4_1(input1, w, x1, y1, input2, w, x2, y2);
+
+ ASSERT_EQ(res_sse4, res_c);
+ }
+
+ delete[] input1;
+ delete[] input2;
+}
+
+TEST_P(AV1CornerMatchTest, CheckOutput) { RunCheckOutput(); }
+
+INSTANTIATE_TEST_CASE_P(SSE4_1, AV1CornerMatchTest,
+ ::testing::Values(make_tuple(0), make_tuple(1)));
+
+} // namespace AV1CornerMatch
+
+} // namespace test_libaom
diff --git a/third_party/aom/test/cpu_speed_test.cc b/third_party/aom/test/cpu_speed_test.cc
new file mode 100644
index 0000000000..8ea3e69650
--- /dev/null
+++ b/third_party/aom/test/cpu_speed_test.cc
@@ -0,0 +1,180 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/codec_factory.h"
+#include "test/encode_test_driver.h"
+#include "test/i420_video_source.h"
+#include "test/util.h"
+#include "test/y4m_video_source.h"
+
+namespace {
+
+const int kMaxPSNR = 100;
+
+class CpuSpeedTest
+ : public ::libaom_test::CodecTestWith2Params<libaom_test::TestMode, int>,
+ public ::libaom_test::EncoderTest {
+ protected:
+ CpuSpeedTest()
+ : EncoderTest(GET_PARAM(0)), encoding_mode_(GET_PARAM(1)),
+ set_cpu_used_(GET_PARAM(2)), min_psnr_(kMaxPSNR),
+ tune_content_(AOM_CONTENT_DEFAULT) {}
+ virtual ~CpuSpeedTest() {}
+
+ virtual void SetUp() {
+ InitializeConfig();
+ SetMode(encoding_mode_);
+ if (encoding_mode_ != ::libaom_test::kRealTime) {
+ cfg_.g_lag_in_frames = 25;
+ cfg_.rc_end_usage = AOM_VBR;
+ } else {
+ cfg_.g_lag_in_frames = 0;
+ cfg_.rc_end_usage = AOM_CBR;
+ }
+ }
+
+ virtual void BeginPassHook(unsigned int /*pass*/) { min_psnr_ = kMaxPSNR; }
+
+ virtual void PreEncodeFrameHook(::libaom_test::VideoSource *video,
+ ::libaom_test::Encoder *encoder) {
+ if (video->frame() == 1) {
+ encoder->Control(AOME_SET_CPUUSED, set_cpu_used_);
+ encoder->Control(AV1E_SET_TUNE_CONTENT, tune_content_);
+ if (encoding_mode_ != ::libaom_test::kRealTime) {
+ encoder->Control(AOME_SET_ENABLEAUTOALTREF, 1);
+ encoder->Control(AOME_SET_ARNR_MAXFRAMES, 7);
+ encoder->Control(AOME_SET_ARNR_STRENGTH, 5);
+ }
+ }
+ }
+
+ virtual void PSNRPktHook(const aom_codec_cx_pkt_t *pkt) {
+ if (pkt->data.psnr.psnr[0] < min_psnr_) min_psnr_ = pkt->data.psnr.psnr[0];
+ }
+
+ void TestQ0();
+ void TestScreencastQ0();
+ void TestTuneScreen();
+ void TestEncodeHighBitrate();
+ void TestLowBitrate();
+
+ ::libaom_test::TestMode encoding_mode_;
+ int set_cpu_used_;
+ double min_psnr_;
+ int tune_content_;
+};
+
+void CpuSpeedTest::TestQ0() {
+ // Validate that this non multiple of 64 wide clip encodes and decodes
+ // without a mismatch when passing in a very low max q. This pushes
+ // the encoder to producing lots of big partitions which will likely
+ // extend into the border and test the border condition.
+ cfg_.rc_2pass_vbr_minsection_pct = 5;
+ cfg_.rc_2pass_vbr_maxsection_pct = 2000;
+ cfg_.rc_target_bitrate = 400;
+ cfg_.rc_max_quantizer = 0;
+ cfg_.rc_min_quantizer = 0;
+
+ ::libaom_test::I420VideoSource video("hantro_odd.yuv", 208, 144, 30, 1, 0,
+ 10);
+
+ init_flags_ = AOM_CODEC_USE_PSNR;
+
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+ EXPECT_GE(min_psnr_, kMaxPSNR);
+}
+
+void CpuSpeedTest::TestScreencastQ0() {
+ ::libaom_test::Y4mVideoSource video("screendata.y4m", 0, 3);
+ cfg_.g_timebase = video.timebase();
+ cfg_.rc_2pass_vbr_minsection_pct = 5;
+ cfg_.rc_2pass_vbr_maxsection_pct = 2000;
+ cfg_.rc_target_bitrate = 400;
+ cfg_.rc_max_quantizer = 0;
+ cfg_.rc_min_quantizer = 0;
+
+ init_flags_ = AOM_CODEC_USE_PSNR;
+
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+ EXPECT_GE(min_psnr_, kMaxPSNR);
+}
+
+void CpuSpeedTest::TestTuneScreen() {
+ ::libaom_test::Y4mVideoSource video("screendata.y4m", 0, 3);
+ cfg_.g_timebase = video.timebase();
+ cfg_.rc_2pass_vbr_minsection_pct = 5;
+ cfg_.rc_2pass_vbr_minsection_pct = 2000;
+ cfg_.rc_target_bitrate = 2000;
+ cfg_.rc_max_quantizer = 63;
+ cfg_.rc_min_quantizer = 0;
+ tune_content_ = AOM_CONTENT_SCREEN;
+
+ init_flags_ = AOM_CODEC_USE_PSNR;
+
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+}
+
+void CpuSpeedTest::TestEncodeHighBitrate() {
+ // Validate that this non multiple of 64 wide clip encodes and decodes
+ // without a mismatch when passing in a very low max q. This pushes
+ // the encoder to producing lots of big partitions which will likely
+ // extend into the border and test the border condition.
+ cfg_.rc_2pass_vbr_minsection_pct = 5;
+ cfg_.rc_2pass_vbr_maxsection_pct = 2000;
+ cfg_.rc_target_bitrate = 12000;
+ cfg_.rc_max_quantizer = 10;
+ cfg_.rc_min_quantizer = 0;
+
+ ::libaom_test::I420VideoSource video("hantro_odd.yuv", 208, 144, 30, 1, 0,
+ 10);
+
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+}
+
+void CpuSpeedTest::TestLowBitrate() {
+ // Validate that this clip encodes and decodes without a mismatch
+ // when passing in a very high min q. This pushes the encoder to producing
+ // lots of small partitions which might will test the other condition.
+ cfg_.rc_2pass_vbr_minsection_pct = 5;
+ cfg_.rc_2pass_vbr_maxsection_pct = 2000;
+ cfg_.rc_target_bitrate = 200;
+ cfg_.rc_min_quantizer = 40;
+
+ ::libaom_test::I420VideoSource video("hantro_odd.yuv", 208, 144, 30, 1, 0,
+ 10);
+
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+}
+
+TEST_P(CpuSpeedTest, TestQ0) { TestQ0(); }
+TEST_P(CpuSpeedTest, TestScreencastQ0) { TestScreencastQ0(); }
+TEST_P(CpuSpeedTest, TestTuneScreen) { TestTuneScreen(); }
+TEST_P(CpuSpeedTest, TestEncodeHighBitrate) { TestEncodeHighBitrate(); }
+TEST_P(CpuSpeedTest, TestLowBitrate) { TestLowBitrate(); }
+
+class CpuSpeedTestLarge : public CpuSpeedTest {};
+
+TEST_P(CpuSpeedTestLarge, TestQ0) { TestQ0(); }
+TEST_P(CpuSpeedTestLarge, TestScreencastQ0) { TestScreencastQ0(); }
+TEST_P(CpuSpeedTestLarge, TestTuneScreen) { TestTuneScreen(); }
+TEST_P(CpuSpeedTestLarge, TestEncodeHighBitrate) { TestEncodeHighBitrate(); }
+TEST_P(CpuSpeedTestLarge, TestLowBitrate) { TestLowBitrate(); }
+
+AV1_INSTANTIATE_TEST_CASE(CpuSpeedTest,
+ ::testing::Values(::libaom_test::kTwoPassGood,
+ ::libaom_test::kOnePassGood),
+ ::testing::Range(1, 3));
+AV1_INSTANTIATE_TEST_CASE(CpuSpeedTestLarge,
+ ::testing::Values(::libaom_test::kTwoPassGood,
+ ::libaom_test::kOnePassGood),
+ ::testing::Range(0, 1));
+} // namespace
diff --git a/third_party/aom/test/datarate_test.cc b/third_party/aom/test/datarate_test.cc
new file mode 100644
index 0000000000..1588d3cc19
--- /dev/null
+++ b/third_party/aom/test/datarate_test.cc
@@ -0,0 +1,255 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "config/aom_config.h"
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/codec_factory.h"
+#include "test/encode_test_driver.h"
+#include "test/i420_video_source.h"
+#include "test/util.h"
+#include "test/y4m_video_source.h"
+#include "aom/aom_codec.h"
+
+namespace {
+
+class DatarateTestLarge
+ : public ::libaom_test::CodecTestWith2Params<libaom_test::TestMode, int>,
+ public ::libaom_test::EncoderTest {
+ public:
+ DatarateTestLarge() : EncoderTest(GET_PARAM(0)) {}
+
+ protected:
+ virtual ~DatarateTestLarge() {}
+
+ virtual void SetUp() {
+ InitializeConfig();
+ SetMode(GET_PARAM(1));
+ set_cpu_used_ = GET_PARAM(2);
+ ResetModel();
+ }
+
+ virtual void ResetModel() {
+ last_pts_ = 0;
+ bits_in_buffer_model_ = cfg_.rc_target_bitrate * cfg_.rc_buf_initial_sz;
+ frame_number_ = 0;
+ tot_frame_number_ = 0;
+ first_drop_ = 0;
+ num_drops_ = 0;
+ // Denoiser is off by default.
+ denoiser_on_ = 0;
+ bits_total_ = 0;
+ denoiser_offon_test_ = 0;
+ denoiser_offon_period_ = -1;
+ }
+
+ virtual void PreEncodeFrameHook(::libaom_test::VideoSource *video,
+ ::libaom_test::Encoder *encoder) {
+ if (video->frame() == 0) encoder->Control(AOME_SET_CPUUSED, set_cpu_used_);
+
+ if (denoiser_offon_test_) {
+ ASSERT_GT(denoiser_offon_period_, 0)
+ << "denoiser_offon_period_ is not positive.";
+ if ((video->frame() + 1) % denoiser_offon_period_ == 0) {
+ // Flip denoiser_on_ periodically
+ denoiser_on_ ^= 1;
+ }
+ }
+
+ encoder->Control(AV1E_SET_NOISE_SENSITIVITY, denoiser_on_);
+
+ const aom_rational_t tb = video->timebase();
+ timebase_ = static_cast<double>(tb.num) / tb.den;
+ duration_ = 0;
+ }
+
+ virtual void FramePktHook(const aom_codec_cx_pkt_t *pkt) {
+ // Time since last timestamp = duration.
+ aom_codec_pts_t duration = pkt->data.frame.pts - last_pts_;
+
+ if (duration > 1) {
+ // If first drop not set and we have a drop set it to this time.
+ if (!first_drop_) first_drop_ = last_pts_ + 1;
+ // Update the number of frame drops.
+ num_drops_ += static_cast<int>(duration - 1);
+ // Update counter for total number of frames (#frames input to encoder).
+ // Needed for setting the proper layer_id below.
+ tot_frame_number_ += static_cast<int>(duration - 1);
+ }
+
+ // Add to the buffer the bits we'd expect from a constant bitrate server.
+ bits_in_buffer_model_ += static_cast<int64_t>(
+ duration * timebase_ * cfg_.rc_target_bitrate * 1000);
+
+ // Buffer should not go negative.
+ ASSERT_GE(bits_in_buffer_model_, 0)
+ << "Buffer Underrun at frame " << pkt->data.frame.pts;
+
+ const size_t frame_size_in_bits = pkt->data.frame.sz * 8;
+
+ // Update the total encoded bits.
+ bits_total_ += frame_size_in_bits;
+
+ // Update the most recent pts.
+ last_pts_ = pkt->data.frame.pts;
+ ++frame_number_;
+ ++tot_frame_number_;
+ }
+
+ virtual void EndPassHook(void) {
+ duration_ = (last_pts_ + 1) * timebase_;
+ // Effective file datarate:
+ effective_datarate_ = (bits_total_ / 1000.0) / duration_;
+ }
+
+ aom_codec_pts_t last_pts_;
+ double timebase_;
+ int frame_number_; // Counter for number of non-dropped/encoded frames.
+ int tot_frame_number_; // Counter for total number of input frames.
+ int64_t bits_total_;
+ double duration_;
+ double effective_datarate_;
+ int set_cpu_used_;
+ int64_t bits_in_buffer_model_;
+ aom_codec_pts_t first_drop_;
+ int num_drops_;
+ int denoiser_on_;
+ int denoiser_offon_test_;
+ int denoiser_offon_period_;
+};
+
+// Check basic rate targeting for VBR mode.
+TEST_P(DatarateTestLarge, BasicRateTargetingVBR) {
+ cfg_.rc_min_quantizer = 0;
+ cfg_.rc_max_quantizer = 63;
+ cfg_.g_error_resilient = 0;
+ cfg_.rc_end_usage = AOM_VBR;
+ cfg_.g_lag_in_frames = 0;
+
+ ::libaom_test::I420VideoSource video("hantro_collage_w352h288.yuv", 352, 288,
+ 30, 1, 0, 140);
+ for (int i = 400; i <= 800; i += 400) {
+ cfg_.rc_target_bitrate = i;
+ ResetModel();
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+ ASSERT_GE(effective_datarate_, cfg_.rc_target_bitrate * 0.75)
+ << " The datarate for the file is lower than target by too much!";
+ ASSERT_LE(effective_datarate_, cfg_.rc_target_bitrate * 1.25)
+ << " The datarate for the file is greater than target by too much!";
+ }
+}
+
+// Check basic rate targeting for CBR,
+TEST_P(DatarateTestLarge, BasicRateTargeting) {
+ cfg_.rc_buf_initial_sz = 500;
+ cfg_.rc_buf_optimal_sz = 500;
+ cfg_.rc_buf_sz = 1000;
+ cfg_.rc_dropframe_thresh = 1;
+ cfg_.rc_min_quantizer = 0;
+ cfg_.rc_max_quantizer = 63;
+ cfg_.rc_end_usage = AOM_CBR;
+ cfg_.g_lag_in_frames = 0;
+
+ ::libaom_test::I420VideoSource video("hantro_collage_w352h288.yuv", 352, 288,
+ 30, 1, 0, 140);
+ for (int i = 150; i < 800; i += 400) {
+ cfg_.rc_target_bitrate = i;
+ ResetModel();
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+ ASSERT_GE(effective_datarate_, cfg_.rc_target_bitrate * 0.85)
+ << " The datarate for the file is lower than target by too much!";
+ ASSERT_LE(effective_datarate_, cfg_.rc_target_bitrate * 1.15)
+ << " The datarate for the file is greater than target by too much!";
+ }
+}
+
+// Check basic rate targeting for CBR.
+TEST_P(DatarateTestLarge, BasicRateTargeting444) {
+ ::libaom_test::Y4mVideoSource video("rush_hour_444.y4m", 0, 140);
+
+ cfg_.g_profile = 1;
+ cfg_.g_timebase = video.timebase();
+
+ cfg_.rc_buf_initial_sz = 500;
+ cfg_.rc_buf_optimal_sz = 500;
+ cfg_.rc_buf_sz = 1000;
+ cfg_.rc_dropframe_thresh = 1;
+ cfg_.rc_min_quantizer = 0;
+ cfg_.rc_max_quantizer = 63;
+ cfg_.rc_end_usage = AOM_CBR;
+
+ for (int i = 250; i < 900; i += 400) {
+ cfg_.rc_target_bitrate = i;
+ ResetModel();
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+ ASSERT_GE(static_cast<double>(cfg_.rc_target_bitrate),
+ effective_datarate_ * 0.85)
+ << " The datarate for the file exceeds the target by too much!";
+ ASSERT_LE(static_cast<double>(cfg_.rc_target_bitrate),
+ effective_datarate_ * 1.15)
+ << " The datarate for the file missed the target!"
+ << cfg_.rc_target_bitrate << " " << effective_datarate_;
+ }
+}
+
+// Check that (1) the first dropped frame gets earlier and earlier
+// as the drop frame threshold is increased, and (2) that the total number of
+// frame drops does not decrease as we increase frame drop threshold.
+// Use a lower qp-max to force some frame drops.
+TEST_P(DatarateTestLarge, ChangingDropFrameThresh) {
+ cfg_.rc_buf_initial_sz = 500;
+ cfg_.rc_buf_optimal_sz = 500;
+ cfg_.rc_buf_sz = 1000;
+ cfg_.rc_undershoot_pct = 20;
+ cfg_.rc_undershoot_pct = 20;
+ cfg_.rc_dropframe_thresh = 10;
+ cfg_.rc_min_quantizer = 0;
+ cfg_.rc_max_quantizer = 50;
+ cfg_.rc_end_usage = AOM_CBR;
+ cfg_.rc_target_bitrate = 200;
+ cfg_.g_lag_in_frames = 0;
+ cfg_.g_error_resilient = 1;
+ // TODO(marpan): Investigate datarate target failures with a smaller keyframe
+ // interval (128).
+ cfg_.kf_max_dist = 9999;
+
+ ::libaom_test::I420VideoSource video("hantro_collage_w352h288.yuv", 352, 288,
+ 30, 1, 0, 100);
+
+ const int kDropFrameThreshTestStep = 30;
+ aom_codec_pts_t last_drop = 140;
+ int last_num_drops = 0;
+ for (int i = 40; i < 100; i += kDropFrameThreshTestStep) {
+ cfg_.rc_dropframe_thresh = i;
+ ResetModel();
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+ ASSERT_GE(effective_datarate_, cfg_.rc_target_bitrate * 0.85)
+ << " The datarate for the file is lower than target by too much!";
+ ASSERT_LE(effective_datarate_, cfg_.rc_target_bitrate * 1.15)
+ << " The datarate for the file is greater than target by too much!";
+ ASSERT_LE(first_drop_, last_drop)
+ << " The first dropped frame for drop_thresh " << i
+ << " > first dropped frame for drop_thresh "
+ << i - kDropFrameThreshTestStep;
+ ASSERT_GE(num_drops_, last_num_drops * 0.85)
+ << " The number of dropped frames for drop_thresh " << i
+ << " < number of dropped frames for drop_thresh "
+ << i - kDropFrameThreshTestStep;
+ last_drop = first_drop_;
+ last_num_drops = num_drops_;
+ }
+}
+
+AV1_INSTANTIATE_TEST_CASE(DatarateTestLarge,
+ ::testing::Values(::libaom_test::kOnePassGood,
+ ::libaom_test::kRealTime),
+ ::testing::Values(2, 5));
+} // namespace
diff --git a/third_party/aom/test/decode_api_test.cc b/third_party/aom/test/decode_api_test.cc
new file mode 100644
index 0000000000..c1beacee17
--- /dev/null
+++ b/third_party/aom/test/decode_api_test.cc
@@ -0,0 +1,55 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_config.h"
+
+#include "test/util.h"
+#include "aom/aomdx.h"
+#include "aom/aom_decoder.h"
+
+namespace {
+
+TEST(DecodeAPI, InvalidParams) {
+ static const aom_codec_iface_t *kCodecs[] = {
+#if CONFIG_AV1_DECODER
+ aom_codec_av1_dx(),
+#endif
+ };
+ uint8_t buf[1] = { 0 };
+ aom_codec_ctx_t dec;
+
+ EXPECT_EQ(AOM_CODEC_INVALID_PARAM, aom_codec_dec_init(NULL, NULL, NULL, 0));
+ EXPECT_EQ(AOM_CODEC_INVALID_PARAM, aom_codec_dec_init(&dec, NULL, NULL, 0));
+ EXPECT_EQ(AOM_CODEC_INVALID_PARAM, aom_codec_decode(NULL, NULL, 0, NULL));
+ EXPECT_EQ(AOM_CODEC_INVALID_PARAM, aom_codec_decode(NULL, buf, 0, NULL));
+ EXPECT_EQ(AOM_CODEC_INVALID_PARAM,
+ aom_codec_decode(NULL, buf, NELEMENTS(buf), NULL));
+ EXPECT_EQ(AOM_CODEC_INVALID_PARAM,
+ aom_codec_decode(NULL, NULL, NELEMENTS(buf), NULL));
+ EXPECT_EQ(AOM_CODEC_INVALID_PARAM, aom_codec_destroy(NULL));
+ EXPECT_TRUE(aom_codec_error(NULL) != NULL);
+
+ for (int i = 0; i < NELEMENTS(kCodecs); ++i) {
+ EXPECT_EQ(AOM_CODEC_INVALID_PARAM,
+ aom_codec_dec_init(NULL, kCodecs[i], NULL, 0));
+
+ EXPECT_EQ(AOM_CODEC_OK, aom_codec_dec_init(&dec, kCodecs[i], NULL, 0));
+ EXPECT_EQ(AOM_CODEC_INVALID_PARAM,
+ aom_codec_decode(&dec, NULL, NELEMENTS(buf), NULL));
+ EXPECT_EQ(AOM_CODEC_INVALID_PARAM, aom_codec_decode(&dec, buf, 0, NULL));
+
+ EXPECT_EQ(AOM_CODEC_OK, aom_codec_destroy(&dec));
+ }
+}
+
+} // namespace
diff --git a/third_party/aom/test/decode_multithreaded_test.cc b/third_party/aom/test/decode_multithreaded_test.cc
new file mode 100644
index 0000000000..cea1d144f1
--- /dev/null
+++ b/third_party/aom/test/decode_multithreaded_test.cc
@@ -0,0 +1,185 @@
+/*
+ * Copyright (c) 2018, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <cstdio>
+#include <cstdlib>
+#include <string>
+
+#include "aom_mem/aom_mem.h"
+#include "test/codec_factory.h"
+#include "test/encode_test_driver.h"
+#include "test/i420_video_source.h"
+#include "test/md5_helper.h"
+#include "test/util.h"
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+namespace {
+
+static const int kNumMultiThreadDecoders = 3;
+
+class AV1DecodeMultiThreadedTest
+ : public ::libaom_test::CodecTestWith5Params<int, int, int, int, int>,
+ public ::libaom_test::EncoderTest {
+ protected:
+ AV1DecodeMultiThreadedTest()
+ : EncoderTest(GET_PARAM(0)), md5_single_thread_(), md5_multi_thread_(),
+ n_tile_cols_(GET_PARAM(1)), n_tile_rows_(GET_PARAM(2)),
+ n_tile_groups_(GET_PARAM(3)), set_cpu_used_(GET_PARAM(4)),
+ row_mt_(GET_PARAM(5)) {
+ init_flags_ = AOM_CODEC_USE_PSNR;
+ aom_codec_dec_cfg_t cfg = aom_codec_dec_cfg_t();
+ cfg.w = 704;
+ cfg.h = 576;
+ cfg.threads = 1;
+ cfg.allow_lowbitdepth = 1;
+ single_thread_dec_ = codec_->CreateDecoder(cfg, 0);
+
+ // Test cfg.threads == powers of 2.
+ for (int i = 0; i < kNumMultiThreadDecoders; ++i) {
+ cfg.threads <<= 1;
+ multi_thread_dec_[i] = codec_->CreateDecoder(cfg, 0);
+ multi_thread_dec_[i]->Control(AV1D_SET_ROW_MT, row_mt_);
+ }
+
+ if (single_thread_dec_->IsAV1()) {
+ single_thread_dec_->Control(AV1D_EXT_TILE_DEBUG, 1);
+ single_thread_dec_->Control(AV1_SET_DECODE_TILE_ROW, -1);
+ single_thread_dec_->Control(AV1_SET_DECODE_TILE_COL, -1);
+ }
+ for (int i = 0; i < kNumMultiThreadDecoders; ++i) {
+ if (multi_thread_dec_[i]->IsAV1()) {
+ multi_thread_dec_[i]->Control(AV1D_EXT_TILE_DEBUG, 1);
+ multi_thread_dec_[i]->Control(AV1_SET_DECODE_TILE_ROW, -1);
+ multi_thread_dec_[i]->Control(AV1_SET_DECODE_TILE_COL, -1);
+ }
+ }
+ }
+
+ virtual ~AV1DecodeMultiThreadedTest() {
+ delete single_thread_dec_;
+ for (int i = 0; i < kNumMultiThreadDecoders; ++i)
+ delete multi_thread_dec_[i];
+ }
+
+ virtual void SetUp() {
+ InitializeConfig();
+ SetMode(libaom_test::kTwoPassGood);
+ }
+
+ virtual void PreEncodeFrameHook(libaom_test::VideoSource *video,
+ libaom_test::Encoder *encoder) {
+ if (video->frame() == 1) {
+ encoder->Control(AV1E_SET_TILE_COLUMNS, n_tile_cols_);
+ encoder->Control(AV1E_SET_TILE_ROWS, n_tile_rows_);
+ encoder->Control(AV1E_SET_NUM_TG, n_tile_groups_);
+ encoder->Control(AOME_SET_CPUUSED, set_cpu_used_);
+ }
+ }
+
+ void UpdateMD5(::libaom_test::Decoder *dec, const aom_codec_cx_pkt_t *pkt,
+ ::libaom_test::MD5 *md5) {
+ const aom_codec_err_t res = dec->DecodeFrame(
+ reinterpret_cast<uint8_t *>(pkt->data.frame.buf), pkt->data.frame.sz);
+ if (res != AOM_CODEC_OK) {
+ abort_ = true;
+ ASSERT_EQ(AOM_CODEC_OK, res);
+ }
+ const aom_image_t *img = dec->GetDxData().Next();
+ md5->Add(img);
+ }
+
+ virtual void FramePktHook(const aom_codec_cx_pkt_t *pkt) {
+ UpdateMD5(single_thread_dec_, pkt, &md5_single_thread_);
+
+ for (int i = 0; i < kNumMultiThreadDecoders; ++i)
+ UpdateMD5(multi_thread_dec_[i], pkt, &md5_multi_thread_[i]);
+ }
+
+ void DoTest() {
+ const aom_rational timebase = { 33333333, 1000000000 };
+ cfg_.g_timebase = timebase;
+ cfg_.rc_target_bitrate = 500;
+ cfg_.g_lag_in_frames = 12;
+ cfg_.rc_end_usage = AOM_VBR;
+
+ libaom_test::I420VideoSource video("hantro_collage_w352h288.yuv", 704, 576,
+ timebase.den, timebase.num, 0, 5);
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+
+ const char *md5_single_thread_str = md5_single_thread_.Get();
+
+ for (int i = 0; i < kNumMultiThreadDecoders; ++i) {
+ const char *md5_multi_thread_str = md5_multi_thread_[i].Get();
+ ASSERT_STREQ(md5_single_thread_str, md5_multi_thread_str);
+ }
+ }
+
+ ::libaom_test::MD5 md5_single_thread_;
+ ::libaom_test::MD5 md5_multi_thread_[kNumMultiThreadDecoders];
+ ::libaom_test::Decoder *single_thread_dec_;
+ ::libaom_test::Decoder *multi_thread_dec_[kNumMultiThreadDecoders];
+
+ private:
+ int n_tile_cols_;
+ int n_tile_rows_;
+ int n_tile_groups_;
+ int set_cpu_used_;
+ int row_mt_;
+};
+
+// run an encode and do the decode both in single thread
+// and multi thread. Ensure that the MD5 of the output in both cases
+// is identical. If so, the test passes.
+TEST_P(AV1DecodeMultiThreadedTest, MD5Match) {
+ cfg_.large_scale_tile = 0;
+ single_thread_dec_->Control(AV1_SET_TILE_MODE, 0);
+ for (int i = 0; i < kNumMultiThreadDecoders; ++i)
+ multi_thread_dec_[i]->Control(AV1_SET_TILE_MODE, 0);
+ DoTest();
+}
+
+class AV1DecodeMultiThreadedTestLarge : public AV1DecodeMultiThreadedTest {};
+
+TEST_P(AV1DecodeMultiThreadedTestLarge, MD5Match) {
+ cfg_.large_scale_tile = 0;
+ single_thread_dec_->Control(AV1_SET_TILE_MODE, 0);
+ for (int i = 0; i < kNumMultiThreadDecoders; ++i)
+ multi_thread_dec_[i]->Control(AV1_SET_TILE_MODE, 0);
+ DoTest();
+}
+
+// TODO(ranjit): More tests have to be added using pre-generated MD5.
+AV1_INSTANTIATE_TEST_CASE(AV1DecodeMultiThreadedTest, ::testing::Values(1, 2),
+ ::testing::Values(1, 2), ::testing::Values(1),
+ ::testing::Values(3), ::testing::Values(0, 1));
+AV1_INSTANTIATE_TEST_CASE(AV1DecodeMultiThreadedTestLarge,
+ ::testing::Values(0, 1, 2, 6),
+ ::testing::Values(0, 1, 2, 6),
+ ::testing::Values(1, 4), ::testing::Values(0),
+ ::testing::Values(0, 1));
+
+class AV1DecodeMultiThreadedLSTestLarge
+ : public AV1DecodeMultiThreadedTestLarge {};
+
+TEST_P(AV1DecodeMultiThreadedLSTestLarge, MD5Match) {
+ cfg_.large_scale_tile = 1;
+ single_thread_dec_->Control(AV1_SET_TILE_MODE, 1);
+ for (int i = 0; i < kNumMultiThreadDecoders; ++i)
+ multi_thread_dec_[i]->Control(AV1_SET_TILE_MODE, 1);
+ DoTest();
+}
+
+AV1_INSTANTIATE_TEST_CASE(AV1DecodeMultiThreadedLSTestLarge,
+ ::testing::Values(6), ::testing::Values(6),
+ ::testing::Values(1), ::testing::Values(0, 3),
+ ::testing::Values(0, 1));
+
+} // namespace
diff --git a/third_party/aom/test/decode_perf_test.cc b/third_party/aom/test/decode_perf_test.cc
new file mode 100644
index 0000000000..bb7b00032e
--- /dev/null
+++ b/third_party/aom/test/decode_perf_test.cc
@@ -0,0 +1,246 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <string>
+
+#include "config/aom_version.h"
+
+#include "aom_ports/aom_timer.h"
+#include "common/ivfenc.h"
+#include "test/codec_factory.h"
+#include "test/decode_test_driver.h"
+#include "test/encode_test_driver.h"
+#include "test/i420_video_source.h"
+#include "test/ivf_video_source.h"
+#include "test/md5_helper.h"
+#include "test/util.h"
+#include "test/webm_video_source.h"
+
+using ::testing::make_tuple;
+
+namespace {
+
+#define VIDEO_NAME 0
+#define THREADS 1
+
+const double kUsecsInSec = 1000000.0;
+const char kNewEncodeOutputFile[] = "new_encode.ivf";
+
+/*
+ DecodePerfTest takes a tuple of filename + number of threads to decode with
+ */
+typedef ::testing::tuple<const char *, unsigned> DecodePerfParam;
+
+// TODO(jimbankoski): Add actual test vectors here when available.
+// const DecodePerfParam kAV1DecodePerfVectors[] = {};
+
+/*
+ In order to reflect real world performance as much as possible, Perf tests
+ *DO NOT* do any correctness checks. Please run them alongside correctness
+ tests to ensure proper codec integrity. Furthermore, in this test we
+ deliberately limit the amount of system calls we make to avoid OS
+ preemption.
+
+ TODO(joshualitt) create a more detailed perf measurement test to collect
+ power/temp/min max frame decode times/etc
+ */
+
+class DecodePerfTest : public ::testing::TestWithParam<DecodePerfParam> {};
+
+TEST_P(DecodePerfTest, PerfTest) {
+ const char *const video_name = GET_PARAM(VIDEO_NAME);
+ const unsigned threads = GET_PARAM(THREADS);
+
+ libaom_test::WebMVideoSource video(video_name);
+ video.Init();
+
+ aom_codec_dec_cfg_t cfg = aom_codec_dec_cfg_t();
+ cfg.threads = threads;
+ cfg.allow_lowbitdepth = 1;
+ libaom_test::AV1Decoder decoder(cfg, 0);
+
+ aom_usec_timer t;
+ aom_usec_timer_start(&t);
+
+ for (video.Begin(); video.cxdata() != NULL; video.Next()) {
+ decoder.DecodeFrame(video.cxdata(), video.frame_size());
+ }
+
+ aom_usec_timer_mark(&t);
+ const double elapsed_secs = double(aom_usec_timer_elapsed(&t)) / kUsecsInSec;
+ const unsigned frames = video.frame_number();
+ const double fps = double(frames) / elapsed_secs;
+
+ printf("{\n");
+ printf("\t\"type\" : \"decode_perf_test\",\n");
+ printf("\t\"version\" : \"%s\",\n", VERSION_STRING_NOSP);
+ printf("\t\"videoName\" : \"%s\",\n", video_name);
+ printf("\t\"threadCount\" : %u,\n", threads);
+ printf("\t\"decodeTimeSecs\" : %f,\n", elapsed_secs);
+ printf("\t\"totalFrames\" : %u,\n", frames);
+ printf("\t\"framesPerSecond\" : %f\n", fps);
+ printf("}\n");
+}
+
+// TODO(jimbankoski): Enabled when we have actual AV1 Decode vectors.
+// INSTANTIATE_TEST_CASE_P(AV1, DecodePerfTest,
+// ::testing::ValuesIn(kAV1DecodePerfVectors));
+
+class AV1NewEncodeDecodePerfTest
+ : public ::libaom_test::CodecTestWithParam<libaom_test::TestMode>,
+ public ::libaom_test::EncoderTest {
+ protected:
+ AV1NewEncodeDecodePerfTest()
+ : EncoderTest(GET_PARAM(0)), encoding_mode_(GET_PARAM(1)), speed_(0),
+ outfile_(0), out_frames_(0) {}
+
+ virtual ~AV1NewEncodeDecodePerfTest() {}
+
+ virtual void SetUp() {
+ InitializeConfig();
+ SetMode(encoding_mode_);
+
+ cfg_.g_lag_in_frames = 25;
+ cfg_.rc_min_quantizer = 2;
+ cfg_.rc_max_quantizer = 56;
+ cfg_.rc_dropframe_thresh = 0;
+ cfg_.rc_undershoot_pct = 50;
+ cfg_.rc_overshoot_pct = 50;
+ cfg_.rc_buf_sz = 1000;
+ cfg_.rc_buf_initial_sz = 500;
+ cfg_.rc_buf_optimal_sz = 600;
+ cfg_.rc_end_usage = AOM_VBR;
+ }
+
+ virtual void PreEncodeFrameHook(::libaom_test::VideoSource *video,
+ ::libaom_test::Encoder *encoder) {
+ if (video->frame() == 1) {
+ encoder->Control(AOME_SET_CPUUSED, speed_);
+ encoder->Control(AV1E_SET_FRAME_PARALLEL_DECODING, 1);
+ encoder->Control(AV1E_SET_TILE_COLUMNS, 2);
+ }
+ }
+
+ virtual void BeginPassHook(unsigned int /*pass*/) {
+ const char *const env = getenv("LIBAOM_TEST_DATA_PATH");
+ const std::string data_path(env ? env : ".");
+ const std::string path_to_source = data_path + "/" + kNewEncodeOutputFile;
+ outfile_ = fopen(path_to_source.c_str(), "wb");
+ ASSERT_TRUE(outfile_ != NULL);
+ }
+
+ virtual void EndPassHook() {
+ if (outfile_ != NULL) {
+ if (!fseek(outfile_, 0, SEEK_SET))
+ ivf_write_file_header(outfile_, &cfg_, AV1_FOURCC, out_frames_);
+ fclose(outfile_);
+ outfile_ = NULL;
+ }
+ }
+
+ virtual void FramePktHook(const aom_codec_cx_pkt_t *pkt) {
+ ++out_frames_;
+
+ // Write initial file header if first frame.
+ if (pkt->data.frame.pts == 0)
+ ivf_write_file_header(outfile_, &cfg_, AV1_FOURCC, out_frames_);
+
+ // Write frame header and data.
+ ivf_write_frame_header(outfile_, out_frames_, pkt->data.frame.sz);
+ ASSERT_EQ(fwrite(pkt->data.frame.buf, 1, pkt->data.frame.sz, outfile_),
+ pkt->data.frame.sz);
+ }
+
+ virtual bool DoDecode() const { return false; }
+
+ void set_speed(unsigned int speed) { speed_ = speed; }
+
+ private:
+ libaom_test::TestMode encoding_mode_;
+ uint32_t speed_;
+ FILE *outfile_;
+ uint32_t out_frames_;
+};
+
+struct EncodePerfTestVideo {
+ EncodePerfTestVideo(const char *name_, uint32_t width_, uint32_t height_,
+ uint32_t bitrate_, int frames_)
+ : name(name_), width(width_), height(height_), bitrate(bitrate_),
+ frames(frames_) {}
+ const char *name;
+ uint32_t width;
+ uint32_t height;
+ uint32_t bitrate;
+ int frames;
+};
+
+const EncodePerfTestVideo kAV1EncodePerfTestVectors[] = {
+ EncodePerfTestVideo("niklas_1280_720_30.yuv", 1280, 720, 600, 470),
+};
+
+TEST_P(AV1NewEncodeDecodePerfTest, PerfTest) {
+ SetUp();
+
+ // TODO(JBB): Make this work by going through the set of given files.
+ const int i = 0;
+ const aom_rational timebase = { 33333333, 1000000000 };
+ cfg_.g_timebase = timebase;
+ cfg_.rc_target_bitrate = kAV1EncodePerfTestVectors[i].bitrate;
+
+ init_flags_ = AOM_CODEC_USE_PSNR;
+
+ const char *video_name = kAV1EncodePerfTestVectors[i].name;
+ libaom_test::I420VideoSource video(
+ video_name, kAV1EncodePerfTestVectors[i].width,
+ kAV1EncodePerfTestVectors[i].height, timebase.den, timebase.num, 0,
+ kAV1EncodePerfTestVectors[i].frames);
+ set_speed(2);
+
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+
+ const uint32_t threads = 4;
+
+ libaom_test::IVFVideoSource decode_video(kNewEncodeOutputFile);
+ decode_video.Init();
+
+ aom_codec_dec_cfg_t cfg = aom_codec_dec_cfg_t();
+ cfg.threads = threads;
+ cfg.allow_lowbitdepth = 1;
+ libaom_test::AV1Decoder decoder(cfg, 0);
+
+ aom_usec_timer t;
+ aom_usec_timer_start(&t);
+
+ for (decode_video.Begin(); decode_video.cxdata() != NULL;
+ decode_video.Next()) {
+ decoder.DecodeFrame(decode_video.cxdata(), decode_video.frame_size());
+ }
+
+ aom_usec_timer_mark(&t);
+ const double elapsed_secs =
+ static_cast<double>(aom_usec_timer_elapsed(&t)) / kUsecsInSec;
+ const unsigned decode_frames = decode_video.frame_number();
+ const double fps = static_cast<double>(decode_frames) / elapsed_secs;
+
+ printf("{\n");
+ printf("\t\"type\" : \"decode_perf_test\",\n");
+ printf("\t\"version\" : \"%s\",\n", VERSION_STRING_NOSP);
+ printf("\t\"videoName\" : \"%s\",\n", kNewEncodeOutputFile);
+ printf("\t\"threadCount\" : %u,\n", threads);
+ printf("\t\"decodeTimeSecs\" : %f,\n", elapsed_secs);
+ printf("\t\"totalFrames\" : %u,\n", decode_frames);
+ printf("\t\"framesPerSecond\" : %f\n", fps);
+ printf("}\n");
+}
+
+AV1_INSTANTIATE_TEST_CASE(AV1NewEncodeDecodePerfTest,
+ ::testing::Values(::libaom_test::kTwoPassGood));
+} // namespace
diff --git a/third_party/aom/test/decode_test_driver.cc b/third_party/aom/test/decode_test_driver.cc
new file mode 100644
index 0000000000..70de0cff69
--- /dev/null
+++ b/third_party/aom/test/decode_test_driver.cc
@@ -0,0 +1,114 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "test/codec_factory.h"
+#include "test/decode_test_driver.h"
+#include "test/register_state_check.h"
+#include "test/video_source.h"
+
+namespace libaom_test {
+
+const char kAV1Name[] = "AOMedia Project AV1 Decoder";
+
+aom_codec_err_t Decoder::PeekStream(const uint8_t *cxdata, size_t size,
+ aom_codec_stream_info_t *stream_info) {
+ return aom_codec_peek_stream_info(CodecInterface(), cxdata, size,
+ stream_info);
+}
+
+aom_codec_err_t Decoder::DecodeFrame(const uint8_t *cxdata, size_t size) {
+ return DecodeFrame(cxdata, size, NULL);
+}
+
+aom_codec_err_t Decoder::DecodeFrame(const uint8_t *cxdata, size_t size,
+ void *user_priv) {
+ aom_codec_err_t res_dec;
+ InitOnce();
+ API_REGISTER_STATE_CHECK(
+ res_dec = aom_codec_decode(&decoder_, cxdata, size, user_priv));
+ return res_dec;
+}
+
+bool Decoder::IsAV1() const {
+ const char *codec_name = GetDecoderName();
+ return strncmp(kAV1Name, codec_name, sizeof(kAV1Name) - 1) == 0;
+}
+
+void DecoderTest::HandlePeekResult(Decoder *const /*decoder*/,
+ CompressedVideoSource * /*video*/,
+ const aom_codec_err_t res_peek) {
+ /* The Av1 implementation of PeekStream returns an error only if the
+ * data passed to it isn't a valid Av1 chunk. */
+ ASSERT_EQ(AOM_CODEC_OK, res_peek)
+ << "Peek return failed: " << aom_codec_err_to_string(res_peek);
+}
+
+void DecoderTest::RunLoop(CompressedVideoSource *video,
+ const aom_codec_dec_cfg_t &dec_cfg) {
+ Decoder *const decoder = codec_->CreateDecoder(dec_cfg, flags_);
+ ASSERT_TRUE(decoder != NULL);
+ bool end_of_file = false;
+ bool peeked_stream = false;
+
+ // Decode frames.
+ for (video->Begin(); !::testing::Test::HasFailure() && !end_of_file;
+ video->Next()) {
+ PreDecodeFrameHook(*video, decoder);
+
+ aom_codec_stream_info_t stream_info;
+ stream_info.is_annexb = 0;
+
+ if (video->cxdata() != NULL) {
+ if (!peeked_stream) {
+ // TODO(yaowu): PeekStream returns error for non-sequence_header_obu,
+ // therefore should only be tried once per sequence, this shall be fixed
+ // once PeekStream is updated to properly operate on other obus.
+ const aom_codec_err_t res_peek = decoder->PeekStream(
+ video->cxdata(), video->frame_size(), &stream_info);
+ HandlePeekResult(decoder, video, res_peek);
+ ASSERT_FALSE(::testing::Test::HasFailure());
+ peeked_stream = true;
+ }
+
+ aom_codec_err_t res_dec =
+ decoder->DecodeFrame(video->cxdata(), video->frame_size());
+ if (!HandleDecodeResult(res_dec, *video, decoder)) break;
+ } else {
+ // Signal end of the file to the decoder.
+ const aom_codec_err_t res_dec = decoder->DecodeFrame(NULL, 0);
+ ASSERT_EQ(AOM_CODEC_OK, res_dec) << decoder->DecodeError();
+ end_of_file = true;
+ }
+
+ DxDataIterator dec_iter = decoder->GetDxData();
+ const aom_image_t *img = NULL;
+
+ // Get decompressed data
+ while (!::testing::Test::HasFailure() && (img = dec_iter.Next()))
+ DecompressedFrameHook(*img, video->frame_number());
+ }
+ delete decoder;
+}
+
+void DecoderTest::RunLoop(CompressedVideoSource *video) {
+ aom_codec_dec_cfg_t dec_cfg = aom_codec_dec_cfg_t();
+ RunLoop(video, dec_cfg);
+}
+
+void DecoderTest::set_cfg(const aom_codec_dec_cfg_t &dec_cfg) {
+ memcpy(&cfg_, &dec_cfg, sizeof(cfg_));
+}
+
+void DecoderTest::set_flags(const aom_codec_flags_t flags) { flags_ = flags; }
+
+} // namespace libaom_test
diff --git a/third_party/aom/test/decode_test_driver.h b/third_party/aom/test/decode_test_driver.h
new file mode 100644
index 0000000000..d13e13ea1f
--- /dev/null
+++ b/third_party/aom/test/decode_test_driver.h
@@ -0,0 +1,165 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#ifndef AOM_TEST_DECODE_TEST_DRIVER_H_
+#define AOM_TEST_DECODE_TEST_DRIVER_H_
+#include <cstring>
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_config.h"
+
+#include "aom/aom_decoder.h"
+
+namespace libaom_test {
+
+class CodecFactory;
+class CompressedVideoSource;
+
+// Provides an object to handle decoding output
+class DxDataIterator {
+ public:
+ explicit DxDataIterator(aom_codec_ctx_t *decoder)
+ : decoder_(decoder), iter_(NULL) {}
+
+ const aom_image_t *Next() { return aom_codec_get_frame(decoder_, &iter_); }
+
+ private:
+ aom_codec_ctx_t *decoder_;
+ aom_codec_iter_t iter_;
+};
+
+// Provides a simplified interface to manage one video decoding.
+// Similar to Encoder class, the exact services should be added
+// as more tests are added.
+class Decoder {
+ public:
+ explicit Decoder(aom_codec_dec_cfg_t cfg)
+ : cfg_(cfg), flags_(0), init_done_(false) {
+ memset(&decoder_, 0, sizeof(decoder_));
+ }
+
+ Decoder(aom_codec_dec_cfg_t cfg, const aom_codec_flags_t flag)
+ : cfg_(cfg), flags_(flag), init_done_(false) {
+ memset(&decoder_, 0, sizeof(decoder_));
+ }
+
+ virtual ~Decoder() { aom_codec_destroy(&decoder_); }
+
+ aom_codec_err_t PeekStream(const uint8_t *cxdata, size_t size,
+ aom_codec_stream_info_t *stream_info);
+
+ aom_codec_err_t DecodeFrame(const uint8_t *cxdata, size_t size);
+
+ aom_codec_err_t DecodeFrame(const uint8_t *cxdata, size_t size,
+ void *user_priv);
+
+ DxDataIterator GetDxData() { return DxDataIterator(&decoder_); }
+
+ void Control(int ctrl_id, int arg) { Control(ctrl_id, arg, AOM_CODEC_OK); }
+
+ void Control(int ctrl_id, const void *arg) {
+ InitOnce();
+ const aom_codec_err_t res = aom_codec_control_(&decoder_, ctrl_id, arg);
+ ASSERT_EQ(AOM_CODEC_OK, res) << DecodeError();
+ }
+
+ void Control(int ctrl_id, int arg, aom_codec_err_t expected_value) {
+ InitOnce();
+ const aom_codec_err_t res = aom_codec_control_(&decoder_, ctrl_id, arg);
+ ASSERT_EQ(expected_value, res) << DecodeError();
+ }
+
+ const char *DecodeError() {
+ const char *detail = aom_codec_error_detail(&decoder_);
+ return detail ? detail : aom_codec_error(&decoder_);
+ }
+
+ // Passes the external frame buffer information to libaom.
+ aom_codec_err_t SetFrameBufferFunctions(
+ aom_get_frame_buffer_cb_fn_t cb_get,
+ aom_release_frame_buffer_cb_fn_t cb_release, void *user_priv) {
+ InitOnce();
+ return aom_codec_set_frame_buffer_functions(&decoder_, cb_get, cb_release,
+ user_priv);
+ }
+
+ const char *GetDecoderName() const {
+ return aom_codec_iface_name(CodecInterface());
+ }
+
+ bool IsAV1() const;
+
+ aom_codec_ctx_t *GetDecoder() { return &decoder_; }
+
+ protected:
+ virtual aom_codec_iface_t *CodecInterface() const = 0;
+
+ void InitOnce() {
+ if (!init_done_) {
+ const aom_codec_err_t res =
+ aom_codec_dec_init(&decoder_, CodecInterface(), &cfg_, flags_);
+ ASSERT_EQ(AOM_CODEC_OK, res) << DecodeError();
+ init_done_ = true;
+ }
+ }
+
+ aom_codec_ctx_t decoder_;
+ aom_codec_dec_cfg_t cfg_;
+ aom_codec_flags_t flags_;
+ bool init_done_;
+};
+
+// Common test functionality for all Decoder tests.
+class DecoderTest {
+ public:
+ // Main decoding loop
+ virtual void RunLoop(CompressedVideoSource *video);
+ virtual void RunLoop(CompressedVideoSource *video,
+ const aom_codec_dec_cfg_t &dec_cfg);
+
+ virtual void set_cfg(const aom_codec_dec_cfg_t &dec_cfg);
+ virtual void set_flags(const aom_codec_flags_t flags);
+
+ // Hook to be called before decompressing every frame.
+ virtual void PreDecodeFrameHook(const CompressedVideoSource & /*video*/,
+ Decoder * /*decoder*/) {}
+
+ // Hook to be called to handle decode result. Return true to continue.
+ virtual bool HandleDecodeResult(const aom_codec_err_t res_dec,
+ const CompressedVideoSource & /*video*/,
+ Decoder *decoder) {
+ EXPECT_EQ(AOM_CODEC_OK, res_dec) << decoder->DecodeError();
+ return AOM_CODEC_OK == res_dec;
+ }
+
+ // Hook to be called on every decompressed frame.
+ virtual void DecompressedFrameHook(const aom_image_t & /*img*/,
+ const unsigned int /*frame_number*/) {}
+
+ // Hook to be called on peek result
+ virtual void HandlePeekResult(Decoder *const decoder,
+ CompressedVideoSource *video,
+ const aom_codec_err_t res_peek);
+
+ protected:
+ explicit DecoderTest(const CodecFactory *codec)
+ : codec_(codec), cfg_(), flags_(0) {}
+
+ virtual ~DecoderTest() {}
+
+ const CodecFactory *codec_;
+ aom_codec_dec_cfg_t cfg_;
+ aom_codec_flags_t flags_;
+};
+
+} // namespace libaom_test
+
+#endif // AOM_TEST_DECODE_TEST_DRIVER_H_
diff --git a/third_party/aom/test/decode_to_md5.sh b/third_party/aom/test/decode_to_md5.sh
new file mode 100755
index 0000000000..2edd1cb52b
--- /dev/null
+++ b/third_party/aom/test/decode_to_md5.sh
@@ -0,0 +1,77 @@
+#!/bin/sh
+## Copyright (c) 2016, Alliance for Open Media. All rights reserved
+##
+## This source code is subject to the terms of the BSD 2 Clause License and
+## the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+## was not distributed with this source code in the LICENSE file, you can
+## obtain it at www.aomedia.org/license/software. If the Alliance for Open
+## Media Patent License 1.0 was not distributed with this source code in the
+## PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+##
+## This file tests the libaom decode_to_md5 example. To add new tests to this
+## file, do the following:
+## 1. Write a shell function (this is your test).
+## 2. Add the function to decode_to_md5_tests (on a new line).
+##
+. $(dirname $0)/tools_common.sh
+
+# Environment check: Make sure input is available:
+# $AV1_IVF_FILE is required.
+decode_to_md5_verify_environment() {
+ if [ "$(av1_encode_available)" != "yes" ] && [ ! -e "${AV1_IVF_FILE}" ]; then
+ return 1
+ fi
+}
+
+# Runs decode_to_md5 on $1 and captures the md5 sum for the final frame. $2 is
+# interpreted as codec name and used solely to name the output file. $3 is the
+# expected md5 sum: It must match that of the final frame.
+decode_to_md5() {
+ local decoder="$(aom_tool_path decode_to_md5)"
+ local input_file="$1"
+ local codec="$2"
+ local expected_md5="$3"
+ local output_file="${AOM_TEST_OUTPUT_DIR}/decode_to_md5_${codec}"
+
+ if [ ! -x "${decoder}" ]; then
+ elog "${decoder} does not exist or is not executable."
+ return 1
+ fi
+
+ eval "${AOM_TEST_PREFIX}" "${decoder}" "${input_file}" "${output_file}" \
+ ${devnull}
+
+ [ -e "${output_file}" ] || return 1
+
+ local md5_last_frame="$(tail -n1 "${output_file}" | awk '{print $1}')"
+ local actual_md5="$(echo "${md5_last_frame}" | awk '{print $1}')"
+ if [ "${actual_md5}" = "${expected_md5}" ]; then
+ return 0
+ else
+ elog "MD5 mismatch:"
+ elog "Expected: ${expected_md5}"
+ elog "Actual: ${actual_md5}"
+ return 1
+ fi
+}
+
+DISABLED_decode_to_md5_av1() {
+ # expected MD5 sum for the last frame.
+ local expected_md5="567dd6d4b7a7170edddbf58bbcc3aff1"
+ local file="${AV1_IVF_FILE}"
+
+ # TODO(urvang): Check in the encoded file (like libvpx does) to avoid
+ # encoding every time.
+ if [ "$(av1_decode_available)" = "yes" ]; then
+ if [ ! -e "${AV1_IVF_FILE}" ]; then
+ file="${AOM_TEST_OUTPUT_DIR}/test_encode.ivf"
+ encode_yuv_raw_input_av1 "${file}" --ivf
+ fi
+ decode_to_md5 "${file}" "av1" "${expected_md5}"
+ fi
+}
+
+# TODO(tomfinegan): Enable when the bitstream stabilizes.
+decode_to_md5_tests="DISABLED_decode_to_md5_av1"
+
+run_tests decode_to_md5_verify_environment "${decode_to_md5_tests}"
diff --git a/third_party/aom/test/decode_with_drops.sh b/third_party/aom/test/decode_with_drops.sh
new file mode 100755
index 0000000000..155ee92077
--- /dev/null
+++ b/third_party/aom/test/decode_with_drops.sh
@@ -0,0 +1,68 @@
+#!/bin/sh
+## Copyright (c) 2016, Alliance for Open Media. All rights reserved
+##
+## This source code is subject to the terms of the BSD 2 Clause License and
+## the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+## was not distributed with this source code in the LICENSE file, you can
+## obtain it at www.aomedia.org/license/software. If the Alliance for Open
+## Media Patent License 1.0 was not distributed with this source code in the
+## PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+##
+## This file tests the libaom decode_with_drops example. To add new tests to
+## this file, do the following:
+## 1. Write a shell function (this is your test).
+## 2. Add the function to decode_with_drops_tests (on a new line).
+##
+. $(dirname $0)/tools_common.sh
+
+# Environment check: Make sure input is available:
+# $AV1_IVF_FILE is required.
+decode_with_drops_verify_environment() {
+ if [ "$(av1_encode_available)" != "yes" ] && [ ! -e "${AV1_IVF_FILE}" ]; then
+ return 1
+ fi
+}
+
+# Runs decode_with_drops on $1, $2 is interpreted as codec name and used solely
+# to name the output file. $3 is the drop mode, and is passed directly to
+# decode_with_drops.
+decode_with_drops() {
+ local decoder="$(aom_tool_path decode_with_drops)"
+ local input_file="$1"
+ local codec="$2"
+ local output_file="${AOM_TEST_OUTPUT_DIR}/decode_with_drops_${codec}"
+ local drop_mode="$3"
+
+ if [ ! -x "${decoder}" ]; then
+ elog "${decoder} does not exist or is not executable."
+ return 1
+ fi
+
+ eval "${AOM_TEST_PREFIX}" "${decoder}" "${input_file}" "${output_file}" \
+ "${drop_mode}" ${devnull}
+
+ [ -e "${output_file}" ] || return 1
+}
+
+
+# Decodes $AV1_IVF_FILE while dropping frames, twice: once in sequence mode,
+# and once in pattern mode.
+DISABLED_decode_with_drops_av1() {
+ if [ "$(av1_decode_available)" = "yes" ]; then
+ local file="${AV1_IVF_FILE}"
+ if [ ! -e "${AV1_IVF_FILE}" ]; then
+ file="${AOM_TEST_OUTPUT_DIR}/test_encode.ivf"
+ encode_yuv_raw_input_av1 "${file}" --ivf
+ fi
+ # Drop frames 3 and 4.
+ decode_with_drops "${file}" "av1" "3-4"
+
+ # Test pattern mode: Drop 3 of every 4 frames.
+ decode_with_drops "${file}" "av1" "3/4"
+ fi
+}
+
+# TODO(yaowu): Disable this test as trailing_bit check is expected to fail
+decode_with_drops_tests="DISABLED_decode_with_drops_av1"
+
+run_tests decode_with_drops_verify_environment "${decode_with_drops_tests}"
diff --git a/third_party/aom/test/divu_small_test.cc b/third_party/aom/test/divu_small_test.cc
new file mode 100644
index 0000000000..064f8ee454
--- /dev/null
+++ b/third_party/aom/test/divu_small_test.cc
@@ -0,0 +1,41 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <stdlib.h>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "test/acm_random.h"
+#include "av1/common/odintrin.h"
+
+using libaom_test::ACMRandom;
+
+TEST(Daala, TestDIVUuptoMAX) {
+ for (int d = 1; d <= OD_DIVU_DMAX; d++) {
+ for (uint32_t x = 1; x <= 1000000; x++) {
+ GTEST_ASSERT_EQ(x / d, OD_DIVU_SMALL(x, d))
+ << "x=" << x << " d=" << d << " x/d=" << (x / d)
+ << " != " << OD_DIVU_SMALL(x, d);
+ }
+ }
+}
+
+TEST(Daala, TestDIVUrandI31) {
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ for (int d = 1; d < OD_DIVU_DMAX; d++) {
+ for (int i = 0; i < 1000000; i++) {
+ uint32_t x = rnd.Rand31();
+ GTEST_ASSERT_EQ(x / d, OD_DIVU_SMALL(x, d))
+ << "x=" << x << " d=" << d << " x/d=" << (x / d)
+ << " != " << OD_DIVU_SMALL(x, d);
+ }
+ }
+}
diff --git a/third_party/aom/test/dr_prediction_test.cc b/third_party/aom/test/dr_prediction_test.cc
new file mode 100644
index 0000000000..ff2c1de4e9
--- /dev/null
+++ b/third_party/aom/test/dr_prediction_test.cc
@@ -0,0 +1,369 @@
+/*
+ * Copyright (c) 2018, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_config.h"
+#include "config/aom_dsp_rtcd.h"
+
+#include "aom_mem/aom_mem.h"
+#include "aom_ports/aom_timer.h"
+#include "av1/common/blockd.h"
+#include "av1/common/pred_common.h"
+#include "av1/common/reconintra.h"
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "test/util.h"
+
+namespace {
+
+const int kZ1Start = 0;
+const int kZ2Start = 90;
+const int kZ3Start = 180;
+
+const TX_SIZE kTxSize[] = { TX_4X4, TX_8X8, TX_16X16, TX_32X32, TX_64X64,
+ TX_4X8, TX_8X4, TX_8X16, TX_16X8, TX_16X32,
+ TX_32X16, TX_32X64, TX_64X32, TX_4X16, TX_16X4,
+ TX_8X32, TX_32X8, TX_16X64, TX_64X16 };
+
+const char *const kTxSizeStrings[] = {
+ "TX_4X4", "TX_8X8", "TX_16X16", "TX_32X32", "TX_64X64",
+ "TX_4X8", "TX_8X4", "TX_8X16", "TX_16X8", "TX_16X32",
+ "TX_32X16", "TX_32X64", "TX_64X32", "TX_4X16", "TX_16X4",
+ "TX_8X32", "TX_32X8", "TX_16X64", "TX_64X16"
+};
+
+using libaom_test::ACMRandom;
+
+typedef void (*DrPred_Hbd)(uint16_t *dst, ptrdiff_t stride, int bw, int bh,
+ const uint16_t *above, const uint16_t *left,
+ int upsample_above, int upsample_left, int dx,
+ int dy, int bd);
+
+typedef void (*DrPred)(uint8_t *dst, ptrdiff_t stride, int bw, int bh,
+ const uint8_t *above, const uint8_t *left,
+ int upsample_above, int upsample_left, int dx, int dy,
+ int bd);
+
+typedef void (*Z1_Lbd)(uint8_t *dst, ptrdiff_t stride, int bw, int bh,
+ const uint8_t *above, const uint8_t *left,
+ int upsample_above, int dx, int dy);
+template <Z1_Lbd fn>
+void z1_wrapper(uint8_t *dst, ptrdiff_t stride, int bw, int bh,
+ const uint8_t *above, const uint8_t *left, int upsample_above,
+ int /*upsample_left*/, int dx, int dy, int /*bd*/) {
+ fn(dst, stride, bw, bh, above, left, upsample_above, dx, dy);
+}
+
+typedef void (*Z2_Lbd)(uint8_t *dst, ptrdiff_t stride, int bw, int bh,
+ const uint8_t *above, const uint8_t *left,
+ int upsample_above, int upsample_left, int dx, int dy);
+template <Z2_Lbd fn>
+void z2_wrapper(uint8_t *dst, ptrdiff_t stride, int bw, int bh,
+ const uint8_t *above, const uint8_t *left, int upsample_above,
+ int upsample_left, int dx, int dy, int /*bd*/) {
+ fn(dst, stride, bw, bh, above, left, upsample_above, upsample_left, dx, dy);
+}
+
+typedef void (*Z3_Lbd)(uint8_t *dst, ptrdiff_t stride, int bw, int bh,
+ const uint8_t *above, const uint8_t *left,
+ int upsample_left, int dx, int dy);
+template <Z3_Lbd fn>
+void z3_wrapper(uint8_t *dst, ptrdiff_t stride, int bw, int bh,
+ const uint8_t *above, const uint8_t *left,
+ int /*upsample_above*/, int upsample_left, int dx, int dy,
+ int /*bd*/) {
+ fn(dst, stride, bw, bh, above, left, upsample_left, dx, dy);
+}
+
+typedef void (*Z1_Hbd)(uint16_t *dst, ptrdiff_t stride, int bw, int bh,
+ const uint16_t *above, const uint16_t *left,
+ int upsample_above, int dx, int dy, int bd);
+template <Z1_Hbd fn>
+void z1_wrapper_hbd(uint16_t *dst, ptrdiff_t stride, int bw, int bh,
+ const uint16_t *above, const uint16_t *left,
+ int upsample_above, int /*upsample_left*/, int dx, int dy,
+ int bd) {
+ fn(dst, stride, bw, bh, above, left, upsample_above, dx, dy, bd);
+}
+
+typedef void (*Z2_Hbd)(uint16_t *dst, ptrdiff_t stride, int bw, int bh,
+ const uint16_t *above, const uint16_t *left,
+ int upsample_above, int upsample_left, int dx, int dy,
+ int bd);
+template <Z2_Hbd fn>
+void z2_wrapper_hbd(uint16_t *dst, ptrdiff_t stride, int bw, int bh,
+ const uint16_t *above, const uint16_t *left,
+ int upsample_above, int upsample_left, int dx, int dy,
+ int bd) {
+ fn(dst, stride, bw, bh, above, left, upsample_above, upsample_left, dx, dy,
+ bd);
+}
+
+typedef void (*Z3_Hbd)(uint16_t *dst, ptrdiff_t stride, int bw, int bh,
+ const uint16_t *above, const uint16_t *left,
+ int upsample_left, int dx, int dy, int bd);
+template <Z3_Hbd fn>
+void z3_wrapper_hbd(uint16_t *dst, ptrdiff_t stride, int bw, int bh,
+ const uint16_t *above, const uint16_t *left,
+ int /*upsample_above*/, int upsample_left, int dx, int dy,
+ int bd) {
+ fn(dst, stride, bw, bh, above, left, upsample_left, dx, dy, bd);
+}
+
+template <typename FuncType>
+struct DrPredFunc {
+ DrPredFunc(FuncType pred = NULL, FuncType tst = NULL, int bit_depth_value = 0,
+ int start_angle_value = 0)
+ : ref_fn(pred), tst_fn(tst), bit_depth(bit_depth_value),
+ start_angle(start_angle_value) {}
+
+ FuncType ref_fn;
+ FuncType tst_fn;
+ int bit_depth;
+ int start_angle;
+};
+
+template <typename Pixel, typename FuncType>
+class DrPredTest : public ::testing::TestWithParam<DrPredFunc<FuncType> > {
+ protected:
+ static const int kMaxNumTests = 100000;
+ static const int kIterations = 10;
+ static const int kDstStride = 64;
+ static const int kDstSize = kDstStride * kDstStride;
+ static const int kOffset = 16;
+ static const int kBufSize = ((2 * MAX_TX_SIZE) << 1) + 16;
+
+ DrPredTest()
+ : enable_upsample_(0), upsample_above_(0), upsample_left_(0), bw_(0),
+ bh_(0), dx_(1), dy_(1), bd_(8), txsize_(TX_4X4) {
+ params_ = this->GetParam();
+ start_angle_ = params_.start_angle;
+ stop_angle_ = start_angle_ + 90;
+
+ dst_ref_ = &dst_ref_data_[0];
+ dst_tst_ = &dst_tst_data_[0];
+ dst_stride_ = kDstStride;
+ above_ = &above_data_[kOffset];
+ left_ = &left_data_[kOffset];
+
+ for (int i = 0; i < kBufSize; ++i) {
+ above_data_[i] = rng_.Rand8();
+ left_data_[i] = rng_.Rand8();
+ }
+
+ for (int i = 0; i < kDstSize; ++i) {
+ dst_ref_[i] = 0;
+ }
+ }
+
+ virtual ~DrPredTest() {}
+
+ void Predict(bool speedtest, int tx) {
+ const int kNumTests = speedtest ? kMaxNumTests : 1;
+ aom_usec_timer timer;
+
+ aom_usec_timer_start(&timer);
+ for (int k = 0; k < kNumTests; ++k) {
+ params_.ref_fn(dst_ref_, dst_stride_, bw_, bh_, above_, left_,
+ upsample_above_, upsample_left_, dx_, dy_, bd_);
+ }
+ aom_usec_timer_mark(&timer);
+ const int ref_time = static_cast<int>(aom_usec_timer_elapsed(&timer));
+
+ aom_usec_timer_start(&timer);
+ if (params_.tst_fn) {
+ for (int k = 0; k < kNumTests; ++k) {
+ ASM_REGISTER_STATE_CHECK(params_.tst_fn(dst_tst_, dst_stride_, bw_, bh_,
+ above_, left_, upsample_above_,
+ upsample_left_, dx_, dy_, bd_));
+ }
+ }
+ aom_usec_timer_mark(&timer);
+ const int tst_time = static_cast<int>(aom_usec_timer_elapsed(&timer));
+
+ OutputTimes(kNumTests, ref_time, tst_time, tx);
+ }
+
+ void RunTest(bool speedtest, int p_angle) {
+ for (int i = 0; i < kBufSize; ++i) {
+ above_data_[i] = left_data_[i] = (1 << bd_) - 1;
+ }
+
+ for (int tx = 0; tx < TX_SIZES_ALL; ++tx) {
+ if (params_.tst_fn == NULL) {
+ for (int i = 0; i < kDstSize; ++i) {
+ dst_tst_[i] = (1 << bd_) - 1;
+ }
+ } else {
+ for (int i = 0; i < kDstSize; ++i) {
+ dst_tst_[i] = 0;
+ }
+ }
+
+ bw_ = tx_size_wide[kTxSize[tx]];
+ bh_ = tx_size_high[kTxSize[tx]];
+
+ if (enable_upsample_) {
+ upsample_above_ =
+ av1_use_intra_edge_upsample(bw_, bh_, p_angle - 90, 0);
+ upsample_left_ =
+ av1_use_intra_edge_upsample(bw_, bh_, p_angle - 180, 0);
+ } else {
+ upsample_above_ = upsample_left_ = 0;
+ }
+
+ Predict(speedtest, tx);
+
+ for (int r = 0; r < bh_; ++r) {
+ for (int c = 0; c < bw_; ++c) {
+ ASSERT_EQ(dst_ref_[r * dst_stride_ + c],
+ dst_tst_[r * dst_stride_ + c])
+ << bw_ << "x" << bh_ << " r: " << r << " c: " << c
+ << " dx: " << dx_ << " dy: " << dy_
+ << " upsample_above: " << upsample_above_
+ << " upsample_left: " << upsample_left_;
+ }
+ }
+ }
+ }
+
+ void OutputTimes(int num_tests, int ref_time, int tst_time, int tx) {
+ if (num_tests > 1) {
+ if (params_.tst_fn) {
+ const float x = static_cast<float>(ref_time) / tst_time;
+ printf("\t[%8s] :: ref time %6d, tst time %6d %3.2f\n",
+ kTxSizeStrings[tx], ref_time, tst_time, x);
+ } else {
+ printf("\t[%8s] :: ref time %6d\n", kTxSizeStrings[tx], ref_time);
+ }
+ }
+ }
+
+ Pixel dst_ref_data_[kDstSize];
+ Pixel dst_tst_data_[kDstSize];
+
+ Pixel left_data_[kBufSize];
+ Pixel dummy_data_[kBufSize];
+ Pixel above_data_[kBufSize];
+
+ Pixel *dst_ref_;
+ Pixel *dst_tst_;
+ Pixel *above_;
+ Pixel *left_;
+ int dst_stride_;
+
+ int enable_upsample_;
+ int upsample_above_;
+ int upsample_left_;
+ int bw_;
+ int bh_;
+ int dx_;
+ int dy_;
+ int bd_;
+ TX_SIZE txsize_;
+
+ int start_angle_;
+ int stop_angle_;
+
+ ACMRandom rng_;
+
+ DrPredFunc<FuncType> params_;
+};
+
+class LowbdDrPredTest : public DrPredTest<uint8_t, DrPred> {};
+
+TEST_P(LowbdDrPredTest, SaturatedValues) {
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ enable_upsample_ = iter & 1;
+ for (int angle = start_angle_; angle < stop_angle_; ++angle) {
+ dx_ = av1_get_dx(angle);
+ dy_ = av1_get_dy(angle);
+ if (dx_ && dy_) RunTest(false, angle);
+ }
+ }
+}
+
+TEST_P(LowbdDrPredTest, DISABLED_Speed) {
+ const int angles[] = { 3, 45, 87 };
+ for (enable_upsample_ = 0; enable_upsample_ < 2; ++enable_upsample_) {
+ for (int i = 0; i < 3; ++i) {
+ const int angle = angles[i] + start_angle_;
+ dx_ = av1_get_dx(angle);
+ dy_ = av1_get_dy(angle);
+ printf("enable_upsample: %d angle: %d ~~~~~~~~~~~~~~~\n",
+ enable_upsample_, angle);
+ if (dx_ && dy_) RunTest(true, angle);
+ }
+ }
+}
+
+using ::testing::make_tuple;
+
+INSTANTIATE_TEST_CASE_P(
+ C, LowbdDrPredTest,
+ ::testing::Values(DrPredFunc<DrPred>(&z1_wrapper<av1_dr_prediction_z1_c>,
+ NULL, AOM_BITS_8, kZ1Start),
+ DrPredFunc<DrPred>(&z2_wrapper<av1_dr_prediction_z2_c>,
+ NULL, AOM_BITS_8, kZ2Start),
+ DrPredFunc<DrPred>(&z3_wrapper<av1_dr_prediction_z3_c>,
+ NULL, AOM_BITS_8, kZ3Start)));
+
+class HighbdDrPredTest : public DrPredTest<uint16_t, DrPred_Hbd> {};
+
+TEST_P(HighbdDrPredTest, SaturatedValues) {
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ enable_upsample_ = iter & 1;
+ for (int angle = start_angle_; angle < stop_angle_; ++angle) {
+ dx_ = av1_get_dx(angle);
+ dy_ = av1_get_dy(angle);
+ if (dx_ && dy_) RunTest(false, angle);
+ }
+ }
+}
+
+TEST_P(HighbdDrPredTest, DISABLED_Speed) {
+ const int angles[] = { 3, 45, 87 };
+ for (enable_upsample_ = 0; enable_upsample_ < 2; ++enable_upsample_) {
+ for (int i = 0; i < 3; ++i) {
+ const int angle = angles[i] + start_angle_;
+ dx_ = av1_get_dx(angle);
+ dy_ = av1_get_dy(angle);
+ printf("enable_upsample: %d angle: %d ~~~~~~~~~~~~~~~\n",
+ enable_upsample_, angle);
+ if (dx_ && dy_) RunTest(true, angle);
+ }
+ }
+}
+
+INSTANTIATE_TEST_CASE_P(
+ C, HighbdDrPredTest,
+ ::testing::Values(
+ DrPredFunc<DrPred_Hbd>(&z1_wrapper_hbd<av1_highbd_dr_prediction_z1_c>,
+ NULL, AOM_BITS_8, kZ1Start),
+ DrPredFunc<DrPred_Hbd>(&z1_wrapper_hbd<av1_highbd_dr_prediction_z1_c>,
+ NULL, AOM_BITS_10, kZ1Start),
+ DrPredFunc<DrPred_Hbd>(&z1_wrapper_hbd<av1_highbd_dr_prediction_z1_c>,
+ NULL, AOM_BITS_12, kZ1Start),
+ DrPredFunc<DrPred_Hbd>(&z2_wrapper_hbd<av1_highbd_dr_prediction_z2_c>,
+ NULL, AOM_BITS_8, kZ2Start),
+ DrPredFunc<DrPred_Hbd>(&z2_wrapper_hbd<av1_highbd_dr_prediction_z2_c>,
+ NULL, AOM_BITS_10, kZ2Start),
+ DrPredFunc<DrPred_Hbd>(&z2_wrapper_hbd<av1_highbd_dr_prediction_z2_c>,
+ NULL, AOM_BITS_12, kZ2Start),
+ DrPredFunc<DrPred_Hbd>(&z3_wrapper_hbd<av1_highbd_dr_prediction_z3_c>,
+ NULL, AOM_BITS_8, kZ3Start),
+ DrPredFunc<DrPred_Hbd>(&z3_wrapper_hbd<av1_highbd_dr_prediction_z3_c>,
+ NULL, AOM_BITS_10, kZ3Start),
+ DrPredFunc<DrPred_Hbd>(&z3_wrapper_hbd<av1_highbd_dr_prediction_z3_c>,
+ NULL, AOM_BITS_12, kZ3Start)));
+
+} // namespace
diff --git a/third_party/aom/test/dump_obu.sh b/third_party/aom/test/dump_obu.sh
new file mode 100755
index 0000000000..da44dd7e67
--- /dev/null
+++ b/third_party/aom/test/dump_obu.sh
@@ -0,0 +1,70 @@
+#!/bin/sh
+## Copyright (c) 2018, Alliance for Open Media. All rights reserved
+##
+## This source code is subject to the terms of the BSD 2 Clause License and
+## the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+## was not distributed with this source code in the LICENSE file, you can
+## obtain it at www.aomedia.org/license/software. If the Alliance for Open
+## Media Patent License 1.0 was not distributed with this source code in the
+## PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+##
+## This file tests the libaom dump_obu tool. To add new tests to this
+## file, do the following:
+## 1. Write a shell function (this is your test).
+## 2. Add the function to dump_obu_tests (on a new line).
+##
+. $(dirname $0)/tools_common.sh
+
+readonly dump_obu_test_file="${AOM_TEST_OUTPUT_DIR}/av1_obu_test.ivf"
+
+dump_obu_verify_environment() {
+ if [ ! -e "${YUV_RAW_INPUT}" ]; then
+ elog "The file ${YUV_RAW_INPUT##*/} must exist in LIBAOM_TEST_DATA_PATH."
+ return 1
+ fi
+ if [ "$(dump_obu_available)" = "yes" ]; then
+ if [ -z "$(aom_tool_path dump_obu)" ]; then
+ elog "dump_obu not found in LIBAOM_BIN_PATH, its parent, or child tools/."
+ fi
+ fi
+}
+
+dump_obu_available() {
+ if [ "$(av1_decode_available)" = "yes" ] && \
+ [ "$(av1_encode_available)" = "yes" ]; then
+ echo yes
+ fi
+}
+
+aomenc_available() {
+ if [ -x "$(aom_tool_path aomenc)" ]; then
+ echo yes
+ fi
+}
+
+encode_test_file() {
+ if [ "$(aomenc_available)" = "yes" ]; then
+ local encoder="$(aom_tool_path aomenc)"
+
+ eval "${encoder}" \
+ $(aomenc_encode_test_fast_params) \
+ $(yuv_raw_input) \
+ --ivf \
+ --output=${dump_obu_test_file} \
+ ${devnull}
+
+ if [ ! -e "${dump_obu_test_file}" ]; then
+ elog "dump_obu test input encode failed."
+ return 1
+ fi
+ fi
+}
+
+dump_obu() {
+ encode_test_file
+ eval $(aom_tool_path dump_obu) "${dump_obu_test_file}" ${devnull}
+}
+
+dump_obu_tests="dump_obu"
+
+run_tests dump_obu_verify_environment "${dump_obu_tests}"
diff --git a/third_party/aom/test/ec_test.cc b/third_party/aom/test/ec_test.cc
new file mode 100644
index 0000000000..e6a5ea63bf
--- /dev/null
+++ b/third_party/aom/test/ec_test.cc
@@ -0,0 +1,159 @@
+/*
+ * Copyright (c) 2017, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include <cstdlib>
+
+#include "aom_dsp/entenc.h"
+#include "aom_dsp/entdec.h"
+
+TEST(EC_TEST, random_ec_test) {
+ od_ec_enc enc;
+ od_ec_dec dec;
+ int sz;
+ int i;
+ int ret;
+ unsigned int sym;
+ unsigned int seed;
+ unsigned char *ptr;
+ uint32_t ptr_sz;
+ char *seed_str;
+ ret = 0;
+ seed_str = getenv("EC_TEST_SEED");
+ if (seed_str) {
+ seed = atoi(seed_str);
+ } else {
+ seed = 0xdaa1a;
+ }
+ srand(seed);
+ od_ec_enc_init(&enc, 1);
+ /*Test compatibility between multiple different encode/decode routines.*/
+ for (i = 0; i < 409600; i++) {
+ unsigned *fz;
+ unsigned *fts;
+ unsigned *data;
+ unsigned *tell;
+ unsigned *enc_method;
+ int j;
+ sz = rand() / ((RAND_MAX >> (rand() % 9U)) + 1U);
+ fz = (unsigned *)malloc(sz * sizeof(*fz));
+ fts = (unsigned *)malloc(sz * sizeof(*fts));
+ data = (unsigned *)malloc(sz * sizeof(*data));
+ tell = (unsigned *)malloc((sz + 1) * sizeof(*tell));
+ enc_method = (unsigned *)malloc(sz * sizeof(*enc_method));
+ od_ec_enc_reset(&enc);
+ tell[0] = od_ec_enc_tell_frac(&enc);
+ for (j = 0; j < sz; j++) {
+ data[j] = rand() / ((RAND_MAX >> 1) + 1);
+
+ fts[j] = CDF_PROB_BITS;
+ fz[j] = (rand() % (CDF_PROB_TOP - 2)) >> (CDF_PROB_BITS - fts[j]);
+ fz[j] = OD_MAXI(fz[j], 1);
+ enc_method[j] = 3 + (rand() & 1);
+ switch (enc_method[j]) {
+ case 3: {
+ od_ec_encode_bool_q15(&enc, data[j],
+ OD_ICDF(fz[j] << (CDF_PROB_BITS - fts[j])));
+ break;
+ }
+ case 4: {
+ uint16_t cdf[2];
+ cdf[0] = OD_ICDF(fz[j]);
+ cdf[1] = OD_ICDF(1U << fts[j]);
+ od_ec_encode_cdf_q15(&enc, data[j], cdf, 2);
+ break;
+ }
+ }
+
+ tell[j + 1] = od_ec_enc_tell_frac(&enc);
+ }
+ ptr = od_ec_enc_done(&enc, &ptr_sz);
+ EXPECT_GE(((od_ec_enc_tell(&enc) + 7U) >> 3), ptr_sz)
+ << "od_ec_enc_tell() lied: "
+ "there's "
+ << ptr_sz << " bytes instead of " << ((od_ec_enc_tell(&enc) + 7) >> 3)
+ << " (Random seed: " << seed << ")\n";
+ od_ec_dec_init(&dec, ptr, ptr_sz);
+ EXPECT_EQ(od_ec_dec_tell_frac(&dec), tell[0])
+ << "od_ec_dec_tell() mismatch between encoder and decoder "
+ "at symbol 0: "
+ << (unsigned)od_ec_dec_tell_frac(&dec) << " instead of " << tell[0]
+ << " (Random seed: " << seed << ").\n";
+ for (j = 0; j < sz; j++) {
+ int dec_method;
+ if (CDF_SHIFT == 0) {
+ dec_method = 3 + (rand() & 1);
+ } else {
+ dec_method = enc_method[j];
+ }
+ switch (dec_method) {
+ case 3: {
+ sym = od_ec_decode_bool_q15(
+ &dec, OD_ICDF(fz[j] << (CDF_PROB_BITS - fts[j])));
+ break;
+ }
+ case 4: {
+ uint16_t cdf[2];
+ cdf[0] = OD_ICDF(fz[j]);
+ cdf[1] = OD_ICDF(1U << fts[j]);
+ sym = od_ec_decode_cdf_q15(&dec, cdf, 2);
+ break;
+ }
+ }
+
+ EXPECT_EQ(sym, data[j])
+ << "Decoded " << sym << " instead of " << data[j]
+ << " with fz=" << fz[j] << " and ftb=" << fts[j] << "at position "
+ << j << " of " << sz << " (Random seed: " << seed << ").\n"
+ << "Encoding method: " << enc_method[j]
+ << " decoding method: " << dec_method << "\n";
+ EXPECT_EQ(od_ec_dec_tell_frac(&dec), tell[j + 1])
+ << "od_ec_dec_tell() mismatch between encoder and "
+ "decoder at symbol "
+ << j + 1 << ": " << (unsigned)od_ec_dec_tell_frac(&dec)
+ << " instead of " << tell[j + 1] << " (Random seed: " << seed
+ << ").\n";
+ }
+ free(enc_method);
+ free(tell);
+ free(data);
+ free(fts);
+ free(fz);
+ }
+ od_ec_enc_reset(&enc);
+ if (CDF_SHIFT == 0) {
+ od_ec_encode_bool_q15(&enc, 0, OD_ICDF(16384));
+ od_ec_encode_bool_q15(&enc, 0, OD_ICDF(16384));
+ od_ec_encode_bool_q15(&enc, 0, OD_ICDF(16384));
+ od_ec_encode_bool_q15(&enc, 0, OD_ICDF(16384));
+ od_ec_encode_bool_q15(&enc, 0, OD_ICDF(24576));
+ od_ec_enc_patch_initial_bits(&enc, 3, 2);
+ EXPECT_FALSE(enc.error) << "od_ec_enc_patch_initial_bits() failed.\n";
+ od_ec_enc_patch_initial_bits(&enc, 0, 5);
+ EXPECT_TRUE(enc.error)
+ << "od_ec_enc_patch_initial_bits() didn't fail when it should have.\n";
+ od_ec_enc_reset(&enc);
+ od_ec_encode_bool_q15(&enc, 0, OD_ICDF(16384));
+ od_ec_encode_bool_q15(&enc, 0, OD_ICDF(16384));
+ od_ec_encode_bool_q15(&enc, 1, OD_ICDF(32256));
+ od_ec_encode_bool_q15(&enc, 0, OD_ICDF(24576));
+ od_ec_enc_patch_initial_bits(&enc, 0, 2);
+ EXPECT_FALSE(enc.error) << "od_ec_enc_patch_initial_bits() failed.\n";
+ ptr = od_ec_enc_done(&enc, &ptr_sz);
+ EXPECT_EQ(ptr_sz, 2u);
+ EXPECT_EQ(ptr[0], 63)
+ << "Got " << ptr[0]
+ << " when expecting 63 for od_ec_enc_patch_initial_bits().\n";
+ }
+ od_ec_enc_clear(&enc);
+ EXPECT_EQ(ret, 0);
+}
diff --git a/third_party/aom/test/encode_api_test.cc b/third_party/aom/test/encode_api_test.cc
new file mode 100644
index 0000000000..c26f5720f2
--- /dev/null
+++ b/third_party/aom/test/encode_api_test.cc
@@ -0,0 +1,73 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_config.h"
+
+#include "test/util.h"
+#include "aom/aomcx.h"
+#include "aom/aom_encoder.h"
+
+namespace {
+
+TEST(EncodeAPI, InvalidParams) {
+ static const aom_codec_iface_t *kCodecs[] = {
+#if CONFIG_AV1_ENCODER
+ aom_codec_av1_cx(),
+#endif
+ };
+ uint8_t buf[1] = { 0 };
+ aom_image_t img;
+ aom_codec_ctx_t enc;
+ aom_codec_enc_cfg_t cfg;
+
+ EXPECT_EQ(&img, aom_img_wrap(&img, AOM_IMG_FMT_I420, 1, 1, 1, buf));
+
+ EXPECT_EQ(AOM_CODEC_INVALID_PARAM, aom_codec_enc_init(NULL, NULL, NULL, 0));
+ EXPECT_EQ(AOM_CODEC_INVALID_PARAM, aom_codec_enc_init(&enc, NULL, NULL, 0));
+ EXPECT_EQ(AOM_CODEC_INVALID_PARAM, aom_codec_encode(NULL, NULL, 0, 0, 0));
+ EXPECT_EQ(AOM_CODEC_INVALID_PARAM, aom_codec_encode(NULL, &img, 0, 0, 0));
+ EXPECT_EQ(AOM_CODEC_INVALID_PARAM, aom_codec_destroy(NULL));
+ EXPECT_EQ(AOM_CODEC_INVALID_PARAM,
+ aom_codec_enc_config_default(NULL, NULL, 0));
+ EXPECT_EQ(AOM_CODEC_INVALID_PARAM,
+ aom_codec_enc_config_default(NULL, &cfg, 0));
+ EXPECT_TRUE(aom_codec_error(NULL) != NULL);
+
+ for (int i = 0; i < NELEMENTS(kCodecs); ++i) {
+ SCOPED_TRACE(aom_codec_iface_name(kCodecs[i]));
+ EXPECT_EQ(AOM_CODEC_INVALID_PARAM,
+ aom_codec_enc_init(NULL, kCodecs[i], NULL, 0));
+ EXPECT_EQ(AOM_CODEC_INVALID_PARAM,
+ aom_codec_enc_init(&enc, kCodecs[i], NULL, 0));
+ EXPECT_EQ(AOM_CODEC_INVALID_PARAM,
+ aom_codec_enc_config_default(kCodecs[i], &cfg, 1));
+
+ EXPECT_EQ(AOM_CODEC_OK, aom_codec_enc_config_default(kCodecs[i], &cfg, 0));
+ EXPECT_EQ(AOM_CODEC_OK, aom_codec_enc_init(&enc, kCodecs[i], &cfg, 0));
+
+ EXPECT_EQ(NULL, aom_codec_get_global_headers(NULL));
+
+ aom_fixed_buf_t *glob_headers = aom_codec_get_global_headers(&enc);
+ EXPECT_TRUE(glob_headers->buf != NULL);
+ if (glob_headers) {
+ free(glob_headers->buf);
+ free(glob_headers);
+ }
+
+ EXPECT_EQ(AOM_CODEC_OK, aom_codec_encode(&enc, NULL, 0, 0, 0));
+
+ EXPECT_EQ(AOM_CODEC_OK, aom_codec_destroy(&enc));
+ }
+}
+
+} // namespace
diff --git a/third_party/aom/test/encode_perf_test.cc b/third_party/aom/test/encode_perf_test.cc
new file mode 100644
index 0000000000..fe649b1539
--- /dev/null
+++ b/third_party/aom/test/encode_perf_test.cc
@@ -0,0 +1,188 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <string>
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_config.h"
+#include "config/aom_version.h"
+
+#include "test/codec_factory.h"
+#include "test/encode_test_driver.h"
+#include "test/i420_video_source.h"
+#include "test/util.h"
+#include "test/y4m_video_source.h"
+#include "aom_ports/aom_timer.h"
+
+namespace {
+
+const int kMaxPsnr = 100;
+const double kUsecsInSec = 1000000.0;
+
+struct EncodePerfTestVideo {
+ EncodePerfTestVideo(const char *name_, uint32_t width_, uint32_t height_,
+ uint32_t bitrate_, int frames_)
+ : name(name_), width(width_), height(height_), bitrate(bitrate_),
+ frames(frames_) {}
+ const char *name;
+ uint32_t width;
+ uint32_t height;
+ uint32_t bitrate;
+ int frames;
+};
+
+const EncodePerfTestVideo kAV1EncodePerfTestVectors[] = {
+ EncodePerfTestVideo("desktop_640_360_30.yuv", 640, 360, 200, 2484),
+ EncodePerfTestVideo("kirland_640_480_30.yuv", 640, 480, 200, 300),
+ EncodePerfTestVideo("macmarcomoving_640_480_30.yuv", 640, 480, 200, 987),
+ EncodePerfTestVideo("macmarcostationary_640_480_30.yuv", 640, 480, 200, 718),
+ EncodePerfTestVideo("niklas_640_480_30.yuv", 640, 480, 200, 471),
+ EncodePerfTestVideo("tacomanarrows_640_480_30.yuv", 640, 480, 200, 300),
+ EncodePerfTestVideo("tacomasmallcameramovement_640_480_30.yuv", 640, 480, 200,
+ 300),
+ EncodePerfTestVideo("thaloundeskmtg_640_480_30.yuv", 640, 480, 200, 300),
+ EncodePerfTestVideo("niklas_1280_720_30.yuv", 1280, 720, 600, 470),
+};
+
+const int kEncodePerfTestSpeeds[] = { 5, 6, 7, 8 };
+const int kEncodePerfTestThreads[] = { 1, 2, 4 };
+
+class AV1EncodePerfTest
+ : public ::libaom_test::CodecTestWithParam<libaom_test::TestMode>,
+ public ::libaom_test::EncoderTest {
+ protected:
+ AV1EncodePerfTest()
+ : EncoderTest(GET_PARAM(0)), min_psnr_(kMaxPsnr), nframes_(0),
+ encoding_mode_(GET_PARAM(1)), speed_(0), threads_(1) {}
+
+ virtual ~AV1EncodePerfTest() {}
+
+ virtual void SetUp() {
+ InitializeConfig();
+ SetMode(encoding_mode_);
+
+ cfg_.g_lag_in_frames = 0;
+ cfg_.rc_min_quantizer = 2;
+ cfg_.rc_max_quantizer = 56;
+ cfg_.rc_dropframe_thresh = 0;
+ cfg_.rc_undershoot_pct = 50;
+ cfg_.rc_overshoot_pct = 50;
+ cfg_.rc_buf_sz = 1000;
+ cfg_.rc_buf_initial_sz = 500;
+ cfg_.rc_buf_optimal_sz = 600;
+ cfg_.rc_end_usage = AOM_CBR;
+ cfg_.g_error_resilient = 1;
+ cfg_.g_threads = threads_;
+ }
+
+ virtual void PreEncodeFrameHook(::libaom_test::VideoSource *video,
+ ::libaom_test::Encoder *encoder) {
+ if (video->frame() == 0) {
+ const int log2_tile_columns = 3;
+ encoder->Control(AOME_SET_CPUUSED, speed_);
+ encoder->Control(AV1E_SET_TILE_COLUMNS, log2_tile_columns);
+ encoder->Control(AV1E_SET_FRAME_PARALLEL_DECODING, 1);
+ encoder->Control(AOME_SET_ENABLEAUTOALTREF, 0);
+ }
+ }
+
+ virtual void BeginPassHook(unsigned int /*pass*/) {
+ min_psnr_ = kMaxPsnr;
+ nframes_ = 0;
+ }
+
+ virtual void PSNRPktHook(const aom_codec_cx_pkt_t *pkt) {
+ if (pkt->data.psnr.psnr[0] < min_psnr_) {
+ min_psnr_ = pkt->data.psnr.psnr[0];
+ }
+ }
+
+ // for performance reasons don't decode
+ virtual bool DoDecode() { return 0; }
+
+ double min_psnr() const { return min_psnr_; }
+
+ void set_speed(unsigned int speed) { speed_ = speed; }
+
+ void set_threads(unsigned int threads) { threads_ = threads; }
+
+ private:
+ double min_psnr_;
+ unsigned int nframes_;
+ libaom_test::TestMode encoding_mode_;
+ unsigned speed_;
+ unsigned int threads_;
+};
+
+TEST_P(AV1EncodePerfTest, PerfTest) {
+ for (size_t i = 0; i < NELEMENTS(kAV1EncodePerfTestVectors); ++i) {
+ for (size_t j = 0; j < NELEMENTS(kEncodePerfTestSpeeds); ++j) {
+ for (size_t k = 0; k < NELEMENTS(kEncodePerfTestThreads); ++k) {
+ if (kAV1EncodePerfTestVectors[i].width < 512 &&
+ kEncodePerfTestThreads[k] > 1)
+ continue;
+ else if (kAV1EncodePerfTestVectors[i].width < 1024 &&
+ kEncodePerfTestThreads[k] > 2)
+ continue;
+
+ set_threads(kEncodePerfTestThreads[k]);
+ SetUp();
+
+ const aom_rational timebase = { 33333333, 1000000000 };
+ cfg_.g_timebase = timebase;
+ cfg_.rc_target_bitrate = kAV1EncodePerfTestVectors[i].bitrate;
+
+ init_flags_ = AOM_CODEC_USE_PSNR;
+
+ const unsigned frames = kAV1EncodePerfTestVectors[i].frames;
+ const char *video_name = kAV1EncodePerfTestVectors[i].name;
+ libaom_test::I420VideoSource video(
+ video_name, kAV1EncodePerfTestVectors[i].width,
+ kAV1EncodePerfTestVectors[i].height, timebase.den, timebase.num, 0,
+ kAV1EncodePerfTestVectors[i].frames);
+ set_speed(kEncodePerfTestSpeeds[j]);
+
+ aom_usec_timer t;
+ aom_usec_timer_start(&t);
+
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+
+ aom_usec_timer_mark(&t);
+ const double elapsed_secs = aom_usec_timer_elapsed(&t) / kUsecsInSec;
+ const double fps = frames / elapsed_secs;
+ const double minimum_psnr = min_psnr();
+ std::string display_name(video_name);
+ if (kEncodePerfTestThreads[k] > 1) {
+ char thread_count[32];
+ snprintf(thread_count, sizeof(thread_count), "_t-%d",
+ kEncodePerfTestThreads[k]);
+ display_name += thread_count;
+ }
+
+ printf("{\n");
+ printf("\t\"type\" : \"encode_perf_test\",\n");
+ printf("\t\"version\" : \"%s\",\n", VERSION_STRING_NOSP);
+ printf("\t\"videoName\" : \"%s\",\n", display_name.c_str());
+ printf("\t\"encodeTimeSecs\" : %f,\n", elapsed_secs);
+ printf("\t\"totalFrames\" : %u,\n", frames);
+ printf("\t\"framesPerSecond\" : %f,\n", fps);
+ printf("\t\"minPsnr\" : %f,\n", minimum_psnr);
+ printf("\t\"speed\" : %d,\n", kEncodePerfTestSpeeds[j]);
+ printf("\t\"threads\" : %d\n", kEncodePerfTestThreads[k]);
+ printf("}\n");
+ }
+ }
+ }
+}
+
+AV1_INSTANTIATE_TEST_CASE(AV1EncodePerfTest,
+ ::testing::Values(::libaom_test::kRealTime));
+} // namespace
diff --git a/third_party/aom/test/encode_test_driver.cc b/third_party/aom/test/encode_test_driver.cc
new file mode 100644
index 0000000000..f3d61dc36a
--- /dev/null
+++ b/third_party/aom/test/encode_test_driver.cc
@@ -0,0 +1,288 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <string>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_config.h"
+
+#include "aom_ports/mem.h"
+#include "test/codec_factory.h"
+#include "test/decode_test_driver.h"
+#include "test/encode_test_driver.h"
+#include "test/register_state_check.h"
+#include "test/video_source.h"
+
+namespace libaom_test {
+void Encoder::InitEncoder(VideoSource *video) {
+ aom_codec_err_t res;
+ const aom_image_t *img = video->img();
+
+ if (video->img() && !encoder_.priv) {
+ cfg_.g_w = img->d_w;
+ cfg_.g_h = img->d_h;
+ cfg_.g_timebase = video->timebase();
+ cfg_.rc_twopass_stats_in = stats_->buf();
+
+ res = aom_codec_enc_init(&encoder_, CodecInterface(), &cfg_, init_flags_);
+ ASSERT_EQ(AOM_CODEC_OK, res) << EncoderError();
+ }
+}
+
+void Encoder::EncodeFrame(VideoSource *video, const unsigned long frame_flags) {
+ if (video->img())
+ EncodeFrameInternal(*video, frame_flags);
+ else
+ Flush();
+
+ // Handle twopass stats
+ CxDataIterator iter = GetCxData();
+
+ while (const aom_codec_cx_pkt_t *pkt = iter.Next()) {
+ if (pkt->kind != AOM_CODEC_STATS_PKT) continue;
+
+ stats_->Append(*pkt);
+ }
+}
+
+void Encoder::EncodeFrameInternal(const VideoSource &video,
+ const unsigned long frame_flags) {
+ aom_codec_err_t res;
+ const aom_image_t *img = video.img();
+
+ // Handle frame resizing
+ if (cfg_.g_w != img->d_w || cfg_.g_h != img->d_h) {
+ cfg_.g_w = img->d_w;
+ cfg_.g_h = img->d_h;
+ res = aom_codec_enc_config_set(&encoder_, &cfg_);
+ ASSERT_EQ(AOM_CODEC_OK, res) << EncoderError();
+ }
+
+ // Encode the frame
+ API_REGISTER_STATE_CHECK(res =
+ aom_codec_encode(&encoder_, img, video.pts(),
+ video.duration(), frame_flags));
+ ASSERT_EQ(AOM_CODEC_OK, res) << EncoderError();
+}
+
+void Encoder::Flush() {
+ const aom_codec_err_t res = aom_codec_encode(&encoder_, NULL, 0, 0, 0);
+ if (!encoder_.priv)
+ ASSERT_EQ(AOM_CODEC_ERROR, res) << EncoderError();
+ else
+ ASSERT_EQ(AOM_CODEC_OK, res) << EncoderError();
+}
+
+void EncoderTest::InitializeConfig() {
+ const aom_codec_err_t res = codec_->DefaultEncoderConfig(&cfg_, 0);
+ ASSERT_EQ(AOM_CODEC_OK, res);
+}
+
+void EncoderTest::SetMode(TestMode mode) {
+ switch (mode) {
+ case kOnePassGood:
+ case kTwoPassGood: break;
+ case kRealTime: cfg_.g_lag_in_frames = 0; break;
+ default: ASSERT_TRUE(false) << "Unexpected mode " << mode;
+ }
+ mode_ = mode;
+ if (mode == kTwoPassGood)
+ passes_ = 2;
+ else
+ passes_ = 1;
+}
+
+static bool compare_plane(const uint8_t *const buf1, int stride1,
+ const uint8_t *const buf2, int stride2, int w, int h,
+ int *const mismatch_row, int *const mismatch_col,
+ int *const mismatch_pix1, int *const mismatch_pix2) {
+ int r, c;
+
+ for (r = 0; r < h; ++r) {
+ for (c = 0; c < w; ++c) {
+ const int pix1 = buf1[r * stride1 + c];
+ const int pix2 = buf2[r * stride2 + c];
+
+ if (pix1 != pix2) {
+ if (mismatch_row != NULL) *mismatch_row = r;
+ if (mismatch_col != NULL) *mismatch_col = c;
+ if (mismatch_pix1 != NULL) *mismatch_pix1 = pix1;
+ if (mismatch_pix2 != NULL) *mismatch_pix2 = pix2;
+ return false;
+ }
+ }
+ }
+
+ return true;
+}
+
+// The function should return "true" most of the time, therefore no early
+// break-out is implemented within the match checking process.
+static bool compare_img(const aom_image_t *img1, const aom_image_t *img2,
+ int *const mismatch_row, int *const mismatch_col,
+ int *const mismatch_plane, int *const mismatch_pix1,
+ int *const mismatch_pix2) {
+ if (img1->fmt != img2->fmt || img1->cp != img2->cp || img1->tc != img2->tc ||
+ img1->mc != img2->mc || img1->d_w != img2->d_w ||
+ img1->d_h != img2->d_h || img1->monochrome != img2->monochrome) {
+ if (mismatch_row != NULL) *mismatch_row = -1;
+ if (mismatch_col != NULL) *mismatch_col = -1;
+ return false;
+ }
+
+ const int num_planes = img1->monochrome ? 1 : 3;
+ for (int plane = 0; plane < num_planes; plane++) {
+ if (!compare_plane(img1->planes[plane], img1->stride[plane],
+ img2->planes[plane], img2->stride[plane],
+ aom_img_plane_width(img1, plane),
+ aom_img_plane_height(img1, plane), mismatch_row,
+ mismatch_col, mismatch_pix1, mismatch_pix2)) {
+ if (mismatch_plane != NULL) *mismatch_plane = plane;
+ return false;
+ }
+ }
+
+ return true;
+}
+
+void EncoderTest::MismatchHook(const aom_image_t *img_enc,
+ const aom_image_t *img_dec) {
+ int mismatch_row = 0;
+ int mismatch_col = 0;
+ int mismatch_plane = 0;
+ int mismatch_pix_enc = 0;
+ int mismatch_pix_dec = 0;
+
+ ASSERT_FALSE(compare_img(img_enc, img_dec, &mismatch_row, &mismatch_col,
+ &mismatch_plane, &mismatch_pix_enc,
+ &mismatch_pix_dec));
+
+ GTEST_FAIL() << "Encode/Decode mismatch found:" << std::endl
+ << " pixel value enc/dec: " << mismatch_pix_enc << "/"
+ << mismatch_pix_dec << std::endl
+ << " plane: " << mismatch_plane << std::endl
+ << " row/col: " << mismatch_row << "/"
+ << mismatch_col << std::endl;
+}
+
+void EncoderTest::RunLoop(VideoSource *video) {
+ aom_codec_dec_cfg_t dec_cfg = aom_codec_dec_cfg_t();
+ dec_cfg.allow_lowbitdepth = 1;
+
+ stats_.Reset();
+
+ ASSERT_TRUE(passes_ == 1 || passes_ == 2);
+ for (unsigned int pass = 0; pass < passes_; pass++) {
+ last_pts_ = 0;
+
+ if (passes_ == 1)
+ cfg_.g_pass = AOM_RC_ONE_PASS;
+ else if (pass == 0)
+ cfg_.g_pass = AOM_RC_FIRST_PASS;
+ else
+ cfg_.g_pass = AOM_RC_LAST_PASS;
+
+ BeginPassHook(pass);
+ testing::internal::scoped_ptr<Encoder> encoder(
+ codec_->CreateEncoder(cfg_, init_flags_, &stats_));
+ ASSERT_TRUE(encoder.get() != NULL);
+
+ ASSERT_NO_FATAL_FAILURE(video->Begin());
+ encoder->InitEncoder(video);
+
+ if (mode_ == kRealTime) {
+ encoder->Control(AOME_SET_ENABLEAUTOALTREF, 0);
+ }
+
+ ASSERT_FALSE(::testing::Test::HasFatalFailure());
+
+ testing::internal::scoped_ptr<Decoder> decoder(
+ codec_->CreateDecoder(dec_cfg, 0 /* flags */));
+#if CONFIG_AV1_DECODER
+ if (decoder->IsAV1()) {
+ // Set dec_cfg.tile_row = -1 and dec_cfg.tile_col = -1 so that the whole
+ // frame is decoded.
+ decoder->Control(AV1_SET_TILE_MODE, cfg_.large_scale_tile);
+ decoder->Control(AV1D_EXT_TILE_DEBUG, 1);
+ decoder->Control(AV1_SET_DECODE_TILE_ROW, -1);
+ decoder->Control(AV1_SET_DECODE_TILE_COL, -1);
+ }
+#endif
+
+ bool again;
+ for (again = true; again; video->Next()) {
+ again = (video->img() != NULL);
+
+ PreEncodeFrameHook(video);
+ PreEncodeFrameHook(video, encoder.get());
+ encoder->EncodeFrame(video, frame_flags_);
+
+ CxDataIterator iter = encoder->GetCxData();
+
+ bool has_cxdata = false;
+ bool has_dxdata = false;
+ while (const aom_codec_cx_pkt_t *pkt = iter.Next()) {
+ pkt = MutateEncoderOutputHook(pkt);
+ again = true;
+ switch (pkt->kind) {
+ case AOM_CODEC_CX_FRAME_PKT:
+ has_cxdata = true;
+ if (decoder.get() != NULL && DoDecode()) {
+ aom_codec_err_t res_dec;
+ if (DoDecodeInvisible()) {
+ res_dec = decoder->DecodeFrame(
+ (const uint8_t *)pkt->data.frame.buf, pkt->data.frame.sz);
+ } else {
+ res_dec = decoder->DecodeFrame(
+ (const uint8_t *)pkt->data.frame.buf +
+ (pkt->data.frame.sz - pkt->data.frame.vis_frame_size),
+ pkt->data.frame.vis_frame_size);
+ }
+
+ if (!HandleDecodeResult(res_dec, decoder.get())) break;
+
+ has_dxdata = true;
+ }
+ ASSERT_GE(pkt->data.frame.pts, last_pts_);
+ last_pts_ = pkt->data.frame.pts;
+ FramePktHook(pkt);
+ break;
+
+ case AOM_CODEC_PSNR_PKT: PSNRPktHook(pkt); break;
+
+ default: break;
+ }
+ }
+
+ if (has_dxdata && has_cxdata) {
+ const aom_image_t *img_enc = encoder->GetPreviewFrame();
+ DxDataIterator dec_iter = decoder->GetDxData();
+ const aom_image_t *img_dec = dec_iter.Next();
+ if (img_enc && img_dec) {
+ const bool res =
+ compare_img(img_enc, img_dec, NULL, NULL, NULL, NULL, NULL);
+ if (!res) { // Mismatch
+ MismatchHook(img_enc, img_dec);
+ }
+ }
+ if (img_dec) DecompressedFrameHook(*img_dec, video->pts());
+ }
+ if (!Continue()) break;
+ }
+
+ EndPassHook();
+
+ if (!Continue()) break;
+ }
+}
+
+} // namespace libaom_test
diff --git a/third_party/aom/test/encode_test_driver.h b/third_party/aom/test/encode_test_driver.h
new file mode 100644
index 0000000000..4f3f855cf9
--- /dev/null
+++ b/third_party/aom/test/encode_test_driver.h
@@ -0,0 +1,249 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+#ifndef AOM_TEST_ENCODE_TEST_DRIVER_H_
+#define AOM_TEST_ENCODE_TEST_DRIVER_H_
+
+#include <string>
+#include <vector>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_config.h"
+
+#if CONFIG_AV1_ENCODER
+#include "aom/aomcx.h"
+#endif
+#include "aom/aom_encoder.h"
+
+namespace libaom_test {
+
+class CodecFactory;
+class VideoSource;
+
+enum TestMode { kRealTime, kOnePassGood, kTwoPassGood };
+#define ALL_TEST_MODES \
+ ::testing::Values(::libaom_test::kRealTime, ::libaom_test::kOnePassGood, \
+ ::libaom_test::kTwoPassGood)
+
+#define ONE_PASS_TEST_MODES \
+ ::testing::Values(::libaom_test::kRealTime, ::libaom_test::kOnePassGood)
+
+#define TWO_PASS_TEST_MODES ::testing::Values(::libaom_test::kTwoPassGood)
+
+#define NONREALTIME_TEST_MODES \
+ ::testing::Values(::libaom_test::kOnePassGood, ::libaom_test::kTwoPassGood)
+
+// Provides an object to handle the libaom get_cx_data() iteration pattern
+class CxDataIterator {
+ public:
+ explicit CxDataIterator(aom_codec_ctx_t *encoder)
+ : encoder_(encoder), iter_(NULL) {}
+
+ const aom_codec_cx_pkt_t *Next() {
+ return aom_codec_get_cx_data(encoder_, &iter_);
+ }
+
+ private:
+ aom_codec_ctx_t *encoder_;
+ aom_codec_iter_t iter_;
+};
+
+// Implements an in-memory store for libaom twopass statistics
+class TwopassStatsStore {
+ public:
+ void Append(const aom_codec_cx_pkt_t &pkt) {
+ buffer_.append(reinterpret_cast<char *>(pkt.data.twopass_stats.buf),
+ pkt.data.twopass_stats.sz);
+ }
+
+ aom_fixed_buf_t buf() {
+ const aom_fixed_buf_t buf = { &buffer_[0], buffer_.size() };
+ return buf;
+ }
+
+ void Reset() { buffer_.clear(); }
+
+ protected:
+ std::string buffer_;
+};
+
+// Provides a simplified interface to manage one video encoding pass, given
+// a configuration and video source.
+//
+// TODO(jkoleszar): The exact services it provides and the appropriate
+// level of abstraction will be fleshed out as more tests are written.
+class Encoder {
+ public:
+ Encoder(aom_codec_enc_cfg_t cfg, const uint32_t init_flags,
+ TwopassStatsStore *stats)
+ : cfg_(cfg), init_flags_(init_flags), stats_(stats) {
+ memset(&encoder_, 0, sizeof(encoder_));
+ }
+
+ virtual ~Encoder() { aom_codec_destroy(&encoder_); }
+
+ CxDataIterator GetCxData() { return CxDataIterator(&encoder_); }
+
+ void InitEncoder(VideoSource *video);
+
+ const aom_image_t *GetPreviewFrame() {
+ return aom_codec_get_preview_frame(&encoder_);
+ }
+ // This is a thin wrapper around aom_codec_encode(), so refer to
+ // aom_encoder.h for its semantics.
+ void EncodeFrame(VideoSource *video, const unsigned long frame_flags);
+
+ // Convenience wrapper for EncodeFrame()
+ void EncodeFrame(VideoSource *video) { EncodeFrame(video, 0); }
+
+ void Control(int ctrl_id, int arg) {
+ const aom_codec_err_t res = aom_codec_control_(&encoder_, ctrl_id, arg);
+ ASSERT_EQ(AOM_CODEC_OK, res) << EncoderError();
+ }
+
+ void Control(int ctrl_id, int *arg) {
+ const aom_codec_err_t res = aom_codec_control_(&encoder_, ctrl_id, arg);
+ ASSERT_EQ(AOM_CODEC_OK, res) << EncoderError();
+ }
+
+ void Control(int ctrl_id, struct aom_scaling_mode *arg) {
+ const aom_codec_err_t res = aom_codec_control_(&encoder_, ctrl_id, arg);
+ ASSERT_EQ(AOM_CODEC_OK, res) << EncoderError();
+ }
+
+#if CONFIG_AV1_ENCODER
+ void Control(int ctrl_id, aom_active_map_t *arg) {
+ const aom_codec_err_t res = aom_codec_control_(&encoder_, ctrl_id, arg);
+ ASSERT_EQ(AOM_CODEC_OK, res) << EncoderError();
+ }
+#endif
+
+ void Config(const aom_codec_enc_cfg_t *cfg) {
+ const aom_codec_err_t res = aom_codec_enc_config_set(&encoder_, cfg);
+ ASSERT_EQ(AOM_CODEC_OK, res) << EncoderError();
+ cfg_ = *cfg;
+ }
+
+ protected:
+ virtual aom_codec_iface_t *CodecInterface() const = 0;
+
+ const char *EncoderError() {
+ const char *detail = aom_codec_error_detail(&encoder_);
+ return detail ? detail : aom_codec_error(&encoder_);
+ }
+
+ // Encode an image
+ void EncodeFrameInternal(const VideoSource &video,
+ const unsigned long frame_flags);
+
+ // Flush the encoder on EOS
+ void Flush();
+
+ aom_codec_ctx_t encoder_;
+ aom_codec_enc_cfg_t cfg_;
+ unsigned long init_flags_;
+ TwopassStatsStore *stats_;
+};
+
+// Common test functionality for all Encoder tests.
+//
+// This class is a mixin which provides the main loop common to all
+// encoder tests. It provides hooks which can be overridden by subclasses
+// to implement each test's specific behavior, while centralizing the bulk
+// of the boilerplate. Note that it doesn't inherit the gtest testing
+// classes directly, so that tests can be parameterized differently.
+class EncoderTest {
+ protected:
+ explicit EncoderTest(const CodecFactory *codec)
+ : codec_(codec), abort_(false), init_flags_(0), frame_flags_(0),
+ last_pts_(0), mode_(kRealTime) {
+ // Default to 1 thread.
+ cfg_.g_threads = 1;
+ }
+
+ virtual ~EncoderTest() {}
+
+ // Initialize the cfg_ member with the default configuration.
+ void InitializeConfig();
+
+ // Map the TestMode enum to the passes_ variables.
+ void SetMode(TestMode mode);
+
+ // Set encoder flag.
+ void set_init_flags(unsigned long flag) { // NOLINT(runtime/int)
+ init_flags_ = flag;
+ }
+
+ // Main loop
+ virtual void RunLoop(VideoSource *video);
+
+ // Hook to be called at the beginning of a pass.
+ virtual void BeginPassHook(unsigned int /*pass*/) {}
+
+ // Hook to be called at the end of a pass.
+ virtual void EndPassHook() {}
+
+ // Hook to be called before encoding a frame.
+ virtual void PreEncodeFrameHook(VideoSource * /*video*/) {}
+ virtual void PreEncodeFrameHook(VideoSource * /*video*/,
+ Encoder * /*encoder*/) {}
+
+ // Hook to be called on every compressed data packet.
+ virtual void FramePktHook(const aom_codec_cx_pkt_t * /*pkt*/) {}
+
+ // Hook to be called on every PSNR packet.
+ virtual void PSNRPktHook(const aom_codec_cx_pkt_t * /*pkt*/) {}
+
+ // Hook to determine whether the encode loop should continue.
+ virtual bool Continue() const {
+ return !(::testing::Test::HasFatalFailure() || abort_);
+ }
+
+ // Hook to determine whether to decode frame after encoding
+ virtual bool DoDecode() const { return true; }
+
+ // Hook to determine whether to decode invisible frames after encoding
+ virtual bool DoDecodeInvisible() const { return true; }
+
+ // Hook to handle encode/decode mismatch
+ virtual void MismatchHook(const aom_image_t *img1, const aom_image_t *img2);
+
+ // Hook to be called on every decompressed frame.
+ virtual void DecompressedFrameHook(const aom_image_t & /*img*/,
+ aom_codec_pts_t /*pts*/) {}
+
+ // Hook to be called to handle decode result. Return true to continue.
+ virtual bool HandleDecodeResult(const aom_codec_err_t res_dec,
+ Decoder *decoder) {
+ EXPECT_EQ(AOM_CODEC_OK, res_dec) << decoder->DecodeError();
+ return AOM_CODEC_OK == res_dec;
+ }
+
+ // Hook that can modify the encoder's output data
+ virtual const aom_codec_cx_pkt_t *MutateEncoderOutputHook(
+ const aom_codec_cx_pkt_t *pkt) {
+ return pkt;
+ }
+
+ const CodecFactory *codec_;
+ bool abort_;
+ aom_codec_enc_cfg_t cfg_;
+ unsigned int passes_;
+ TwopassStatsStore stats_;
+ unsigned long init_flags_;
+ unsigned long frame_flags_;
+ aom_codec_pts_t last_pts_;
+ TestMode mode_;
+};
+
+} // namespace libaom_test
+
+#endif // AOM_TEST_ENCODE_TEST_DRIVER_H_
diff --git a/third_party/aom/test/encodetxb_test.cc b/third_party/aom/test/encodetxb_test.cc
new file mode 100644
index 0000000000..11cc073682
--- /dev/null
+++ b/third_party/aom/test/encodetxb_test.cc
@@ -0,0 +1,262 @@
+/*
+ * Copyright (c) 2017, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <stdint.h>
+#include <stdio.h>
+#include <string.h>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_config.h"
+#include "config/av1_rtcd.h"
+
+#include "aom_ports/aom_timer.h"
+#include "aom_ports/mem.h"
+#include "av1/common/idct.h"
+#include "av1/common/onyxc_int.h"
+#include "av1/common/scan.h"
+#include "av1/common/txb_common.h"
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "test/util.h"
+
+namespace {
+using libaom_test::ACMRandom;
+
+typedef void (*GetNzMapContextsFunc)(const uint8_t *const levels,
+ const int16_t *const scan,
+ const uint16_t eob, const TX_SIZE tx_size,
+ const TX_CLASS tx_class,
+ int8_t *const coeff_contexts);
+
+class EncodeTxbTest : public ::testing::TestWithParam<GetNzMapContextsFunc> {
+ public:
+ EncodeTxbTest() : get_nz_map_contexts_func_(GetParam()) {}
+
+ virtual ~EncodeTxbTest() {}
+
+ virtual void SetUp() {
+ coeff_contexts_ref_ = reinterpret_cast<int8_t *>(
+ aom_memalign(16, sizeof(*coeff_contexts_ref_) * MAX_TX_SQUARE));
+ ASSERT_TRUE(coeff_contexts_ref_ != NULL);
+ coeff_contexts_ = reinterpret_cast<int8_t *>(
+ aom_memalign(16, sizeof(*coeff_contexts_) * MAX_TX_SQUARE));
+ ASSERT_TRUE(coeff_contexts_ != NULL);
+ }
+
+ virtual void TearDown() {
+ aom_free(coeff_contexts_ref_);
+ aom_free(coeff_contexts_);
+ libaom_test::ClearSystemState();
+ }
+
+ void GetNzMapContextsRun() {
+ const int kNumTests = 10;
+ int result = 0;
+
+ for (int is_inter = 0; is_inter < 2; ++is_inter) {
+ for (int tx_type = DCT_DCT; tx_type < TX_TYPES; ++tx_type) {
+ const TX_CLASS tx_class = tx_type_to_class[tx_type];
+ for (int tx_size = TX_4X4; tx_size < TX_SIZES_ALL; ++tx_size) {
+ const int bwl = get_txb_bwl((TX_SIZE)tx_size);
+ const int width = get_txb_wide((TX_SIZE)tx_size);
+ const int height = get_txb_high((TX_SIZE)tx_size);
+ const int real_width = tx_size_wide[tx_size];
+ const int real_height = tx_size_high[tx_size];
+ const int16_t *const scan = av1_scan_orders[tx_size][tx_type].scan;
+
+ levels_ = set_levels(levels_buf_, width);
+ for (int i = 0; i < kNumTests && !result; ++i) {
+ for (int eob = 1; eob <= width * height && !result; ++eob) {
+ InitDataWithEob(scan, bwl, eob);
+
+ av1_get_nz_map_contexts_c(levels_, scan, eob, (TX_SIZE)tx_size,
+ tx_class, coeff_contexts_ref_);
+ get_nz_map_contexts_func_(levels_, scan, eob, (TX_SIZE)tx_size,
+ tx_class, coeff_contexts_);
+
+ result = Compare(scan, eob);
+
+ EXPECT_EQ(result, 0)
+ << " tx_class " << tx_class << " width " << real_width
+ << " height " << real_height << " eob " << eob;
+ }
+ }
+ }
+ }
+ }
+ }
+
+ void SpeedTestGetNzMapContextsRun() {
+ const int kNumTests = 2000000000;
+ aom_usec_timer timer;
+
+ printf("Note: Only test the largest possible eob case!\n");
+ for (int tx_size = TX_4X4; tx_size < TX_SIZES_ALL; ++tx_size) {
+ const int bwl = get_txb_bwl((TX_SIZE)tx_size);
+ const int width = get_txb_wide((TX_SIZE)tx_size);
+ const int height = get_txb_high((TX_SIZE)tx_size);
+ const int real_width = tx_size_wide[tx_size];
+ const int real_height = tx_size_high[tx_size];
+ const TX_TYPE tx_type = DCT_DCT;
+ const TX_CLASS tx_class = tx_type_to_class[tx_type];
+ const int16_t *const scan = av1_scan_orders[tx_size][tx_type].scan;
+ const int eob = width * height;
+ const int numTests = kNumTests / (width * height);
+
+ levels_ = set_levels(levels_buf_, width);
+ InitDataWithEob(scan, bwl, eob);
+
+ aom_usec_timer_start(&timer);
+ for (int i = 0; i < numTests; ++i) {
+ get_nz_map_contexts_func_(levels_, scan, eob, (TX_SIZE)tx_size,
+ tx_class, coeff_contexts_);
+ }
+ aom_usec_timer_mark(&timer);
+
+ const int elapsed_time = static_cast<int>(aom_usec_timer_elapsed(&timer));
+ printf("get_nz_map_contexts_%2dx%2d: %7.1f ms\n", real_width, real_height,
+ elapsed_time / 1000.0);
+ }
+ }
+
+ private:
+ void InitDataWithEob(const int16_t *const scan, const int bwl,
+ const int eob) {
+ memset(levels_buf_, 0, sizeof(levels_buf_));
+ memset(coeff_contexts_, 0, sizeof(*coeff_contexts_) * MAX_TX_SQUARE);
+
+ for (int c = 0; c < eob; ++c) {
+ levels_[get_padded_idx(scan[c], bwl)] =
+ static_cast<uint8_t>(clamp(rnd_.Rand8(), 0, INT8_MAX));
+ coeff_contexts_[scan[c]] = rnd_.Rand16() >> 1;
+ }
+
+ memcpy(coeff_contexts_ref_, coeff_contexts_,
+ sizeof(*coeff_contexts_) * MAX_TX_SQUARE);
+ }
+
+ bool Compare(const int16_t *const scan, const int eob) const {
+ bool result = false;
+ if (memcmp(coeff_contexts_, coeff_contexts_ref_,
+ sizeof(*coeff_contexts_ref_) * MAX_TX_SQUARE)) {
+ for (int i = 0; i < eob; i++) {
+ const int pos = scan[i];
+ if (coeff_contexts_ref_[pos] != coeff_contexts_[pos]) {
+ printf("coeff_contexts_[%d] diff:%6d (ref),%6d (opt)\n", pos,
+ coeff_contexts_ref_[pos], coeff_contexts_[pos]);
+ result = true;
+ break;
+ }
+ }
+ }
+ return result;
+ }
+
+ GetNzMapContextsFunc get_nz_map_contexts_func_;
+ ACMRandom rnd_;
+ uint8_t levels_buf_[TX_PAD_2D];
+ uint8_t *levels_;
+ int8_t *coeff_contexts_ref_;
+ int8_t *coeff_contexts_;
+};
+
+TEST_P(EncodeTxbTest, GetNzMapContexts) { GetNzMapContextsRun(); }
+
+TEST_P(EncodeTxbTest, DISABLED_SpeedTestGetNzMapContexts) {
+ SpeedTestGetNzMapContextsRun();
+}
+
+#if HAVE_SSE2
+INSTANTIATE_TEST_CASE_P(SSE2, EncodeTxbTest,
+ ::testing::Values(av1_get_nz_map_contexts_sse2));
+#endif
+
+typedef void (*av1_txb_init_levels_func)(const tran_low_t *const coeff,
+ const int width, const int height,
+ uint8_t *const levels);
+
+typedef ::testing::tuple<av1_txb_init_levels_func, int> TxbInitLevelParam;
+
+class EncodeTxbInitLevelTest
+ : public ::testing::TestWithParam<TxbInitLevelParam> {
+ public:
+ virtual ~EncodeTxbInitLevelTest() {}
+ virtual void TearDown() { libaom_test::ClearSystemState(); }
+ void RunTest(av1_txb_init_levels_func test_func, int tx_size, int is_speed);
+};
+
+void EncodeTxbInitLevelTest::RunTest(av1_txb_init_levels_func test_func,
+ int tx_size, int is_speed) {
+ const int width = get_txb_wide((TX_SIZE)tx_size);
+ const int height = get_txb_high((TX_SIZE)tx_size);
+ tran_low_t coeff[MAX_TX_SQUARE];
+
+ uint8_t levels_buf[2][TX_PAD_2D];
+ uint8_t *const levels0 = set_levels(levels_buf[0], width);
+ uint8_t *const levels1 = set_levels(levels_buf[1], width);
+
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ for (int i = 0; i < width * height; i++) {
+ coeff[i] = rnd.Rand15Signed() + rnd.Rand15Signed();
+ }
+ for (int i = 0; i < TX_PAD_2D; i++) {
+ levels_buf[0][i] = rnd.Rand8();
+ levels_buf[1][i] = rnd.Rand8();
+ }
+ const int run_times = is_speed ? (width * height) * 10000 : 1;
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+ for (int i = 0; i < run_times; ++i) {
+ av1_txb_init_levels_c(coeff, width, height, levels0);
+ }
+ const double t1 = get_time_mark(&timer);
+ aom_usec_timer_start(&timer);
+ for (int i = 0; i < run_times; ++i) {
+ test_func(coeff, width, height, levels1);
+ }
+ const double t2 = get_time_mark(&timer);
+ if (is_speed) {
+ printf("init %3dx%-3d:%7.2f/%7.2fns", width, height, t1, t2);
+ printf("(%3.2f)\n", t1 / t2);
+ }
+ const int stride = width + TX_PAD_HOR;
+ for (int r = 0; r < height + TX_PAD_VER; ++r) {
+ for (int c = 0; c < stride; ++c) {
+ ASSERT_EQ(levels_buf[0][c + r * stride], levels_buf[1][c + r * stride])
+ << "[" << r << "," << c << "] " << run_times << width << "x"
+ << height;
+ }
+ }
+}
+
+TEST_P(EncodeTxbInitLevelTest, match) {
+ RunTest(GET_PARAM(0), GET_PARAM(1), 0);
+}
+
+TEST_P(EncodeTxbInitLevelTest, DISABLED_Speed) {
+ RunTest(GET_PARAM(0), GET_PARAM(1), 1);
+}
+
+#if HAVE_SSE4_1
+INSTANTIATE_TEST_CASE_P(
+ SSE4_1, EncodeTxbInitLevelTest,
+ ::testing::Combine(::testing::Values(&av1_txb_init_levels_sse4_1),
+ ::testing::Range(0, static_cast<int>(TX_SIZES_ALL), 1)));
+#endif
+#if HAVE_AVX2
+INSTANTIATE_TEST_CASE_P(
+ AVX2, EncodeTxbInitLevelTest,
+ ::testing::Combine(::testing::Values(&av1_txb_init_levels_avx2),
+ ::testing::Range(0, static_cast<int>(TX_SIZES_ALL), 1)));
+#endif
+} // namespace
diff --git a/third_party/aom/test/end_to_end_test.cc b/third_party/aom/test/end_to_end_test.cc
new file mode 100644
index 0000000000..1ac0ae9312
--- /dev/null
+++ b/third_party/aom/test/end_to_end_test.cc
@@ -0,0 +1,199 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "test/codec_factory.h"
+#include "test/encode_test_driver.h"
+#include "test/util.h"
+#include "test/y4m_video_source.h"
+#include "test/yuv_video_source.h"
+
+namespace {
+
+const unsigned int kWidth = 160;
+const unsigned int kHeight = 90;
+const unsigned int kFramerate = 50;
+const unsigned int kFrames = 10;
+const int kBitrate = 500;
+// List of psnr thresholds for speed settings 0-7 and 5 encoding modes
+const double kPsnrThreshold[][5] = {
+// Note:
+// AV1 HBD average PSNR is slightly lower than AV1.
+// We make two cases here to enable the testing and
+// guard picture quality.
+#if CONFIG_AV1_ENCODER
+ { 36.0, 37.0, 37.0, 37.0, 37.0 }, { 31.0, 36.0, 36.0, 36.0, 36.0 },
+ { 31.0, 35.0, 35.0, 35.0, 35.0 }, { 31.0, 34.0, 34.0, 34.0, 34.0 },
+ { 31.0, 33.0, 33.0, 33.0, 33.0 }, { 31.0, 32.0, 32.0, 32.0, 32.0 },
+ { 30.0, 31.0, 31.0, 31.0, 31.0 }, { 29.0, 30.0, 30.0, 30.0, 30.0 },
+#else
+ { 36.0, 37.0, 37.0, 37.0, 37.0 }, { 35.0, 36.0, 36.0, 36.0, 36.0 },
+ { 34.0, 35.0, 35.0, 35.0, 35.0 }, { 33.0, 34.0, 34.0, 34.0, 34.0 },
+ { 32.0, 33.0, 33.0, 33.0, 33.0 }, { 31.0, 32.0, 32.0, 32.0, 32.0 },
+ { 30.0, 31.0, 31.0, 31.0, 31.0 }, { 29.0, 30.0, 30.0, 30.0, 30.0 },
+#endif // CONFIG_AV1_ENCODER
+};
+
+typedef struct {
+ const char *filename;
+ unsigned int input_bit_depth;
+ aom_img_fmt fmt;
+ aom_bit_depth_t bit_depth;
+ unsigned int profile;
+} TestVideoParam;
+
+const TestVideoParam kTestVectors[] = {
+ { "park_joy_90p_8_420.y4m", 8, AOM_IMG_FMT_I420, AOM_BITS_8, 0 },
+ { "park_joy_90p_8_422.y4m", 8, AOM_IMG_FMT_I422, AOM_BITS_8, 2 },
+ { "park_joy_90p_8_444.y4m", 8, AOM_IMG_FMT_I444, AOM_BITS_8, 1 },
+ { "park_joy_90p_10_420.y4m", 10, AOM_IMG_FMT_I42016, AOM_BITS_10, 0 },
+ { "park_joy_90p_10_422.y4m", 10, AOM_IMG_FMT_I42216, AOM_BITS_10, 2 },
+ { "park_joy_90p_10_444.y4m", 10, AOM_IMG_FMT_I44416, AOM_BITS_10, 1 },
+ { "park_joy_90p_12_420.y4m", 12, AOM_IMG_FMT_I42016, AOM_BITS_12, 2 },
+ { "park_joy_90p_12_422.y4m", 12, AOM_IMG_FMT_I42216, AOM_BITS_12, 2 },
+ { "park_joy_90p_12_444.y4m", 12, AOM_IMG_FMT_I44416, AOM_BITS_12, 2 },
+};
+
+// Encoding modes tested
+const libaom_test::TestMode kEncodingModeVectors[] = {
+ ::libaom_test::kTwoPassGood,
+ ::libaom_test::kOnePassGood,
+ ::libaom_test::kRealTime,
+};
+
+// Speed settings tested
+const int kCpuUsedVectors[] = { 1, 2, 3, 5, 6 };
+
+int is_extension_y4m(const char *filename) {
+ const char *dot = strrchr(filename, '.');
+ if (!dot || dot == filename)
+ return 0;
+ else
+ return !strcmp(dot, ".y4m");
+}
+
+class EndToEndTest
+ : public ::libaom_test::CodecTestWith3Params<libaom_test::TestMode,
+ TestVideoParam, int>,
+ public ::libaom_test::EncoderTest {
+ protected:
+ EndToEndTest()
+ : EncoderTest(GET_PARAM(0)), test_video_param_(GET_PARAM(2)),
+ cpu_used_(GET_PARAM(3)), psnr_(0.0), nframes_(0),
+ encoding_mode_(GET_PARAM(1)) {}
+
+ virtual ~EndToEndTest() {}
+
+ virtual void SetUp() {
+ InitializeConfig();
+ SetMode(encoding_mode_);
+ if (encoding_mode_ != ::libaom_test::kRealTime) {
+ cfg_.g_lag_in_frames = 5;
+ cfg_.rc_end_usage = AOM_VBR;
+ } else {
+ cfg_.g_lag_in_frames = 0;
+ cfg_.rc_end_usage = AOM_CBR;
+ cfg_.rc_buf_sz = 1000;
+ cfg_.rc_buf_initial_sz = 500;
+ cfg_.rc_buf_optimal_sz = 600;
+ }
+ }
+
+ virtual void BeginPassHook(unsigned int) {
+ psnr_ = 0.0;
+ nframes_ = 0;
+ }
+
+ virtual void PSNRPktHook(const aom_codec_cx_pkt_t *pkt) {
+ psnr_ += pkt->data.psnr.psnr[0];
+ nframes_++;
+ }
+
+ virtual void PreEncodeFrameHook(::libaom_test::VideoSource *video,
+ ::libaom_test::Encoder *encoder) {
+ if (video->frame() == 1) {
+ encoder->Control(AV1E_SET_FRAME_PARALLEL_DECODING, 1);
+ encoder->Control(AV1E_SET_TILE_COLUMNS, 4);
+ encoder->Control(AOME_SET_CPUUSED, cpu_used_);
+ // Test screen coding tools at cpu_used = 1 && encoding mode is two-pass.
+ if (cpu_used_ == 1 && encoding_mode_ == ::libaom_test::kTwoPassGood)
+ encoder->Control(AV1E_SET_TUNE_CONTENT, AOM_CONTENT_SCREEN);
+ else
+ encoder->Control(AV1E_SET_TUNE_CONTENT, AOM_CONTENT_DEFAULT);
+ if (encoding_mode_ != ::libaom_test::kRealTime) {
+ encoder->Control(AOME_SET_ENABLEAUTOALTREF, 1);
+ encoder->Control(AOME_SET_ARNR_MAXFRAMES, 7);
+ encoder->Control(AOME_SET_ARNR_STRENGTH, 5);
+ }
+ }
+ }
+
+ double GetAveragePsnr() const {
+ if (nframes_) return psnr_ / nframes_;
+ return 0.0;
+ }
+
+ double GetPsnrThreshold() {
+ return kPsnrThreshold[cpu_used_][encoding_mode_];
+ }
+
+ void DoTest() {
+ cfg_.rc_target_bitrate = kBitrate;
+ cfg_.g_error_resilient = 0;
+ cfg_.g_profile = test_video_param_.profile;
+ cfg_.g_input_bit_depth = test_video_param_.input_bit_depth;
+ cfg_.g_bit_depth = test_video_param_.bit_depth;
+ init_flags_ = AOM_CODEC_USE_PSNR;
+ if (cfg_.g_bit_depth > 8) init_flags_ |= AOM_CODEC_USE_HIGHBITDEPTH;
+
+ testing::internal::scoped_ptr<libaom_test::VideoSource> video;
+ if (is_extension_y4m(test_video_param_.filename)) {
+ video.reset(new libaom_test::Y4mVideoSource(test_video_param_.filename, 0,
+ kFrames));
+ } else {
+ video.reset(new libaom_test::YUVVideoSource(
+ test_video_param_.filename, test_video_param_.fmt, kWidth, kHeight,
+ kFramerate, 1, 0, kFrames));
+ }
+ ASSERT_TRUE(video.get() != NULL);
+
+ ASSERT_NO_FATAL_FAILURE(RunLoop(video.get()));
+ const double psnr = GetAveragePsnr();
+ EXPECT_GT(psnr, GetPsnrThreshold())
+ << "cpu used = " << cpu_used_ << ", encoding mode = " << encoding_mode_;
+ }
+
+ TestVideoParam test_video_param_;
+ int cpu_used_;
+
+ private:
+ double psnr_;
+ unsigned int nframes_;
+ libaom_test::TestMode encoding_mode_;
+};
+
+class EndToEndTestLarge : public EndToEndTest {};
+
+TEST_P(EndToEndTestLarge, EndtoEndPSNRTest) { DoTest(); }
+
+TEST_P(EndToEndTest, EndtoEndPSNRTest) { DoTest(); }
+
+AV1_INSTANTIATE_TEST_CASE(EndToEndTestLarge,
+ ::testing::ValuesIn(kEncodingModeVectors),
+ ::testing::ValuesIn(kTestVectors),
+ ::testing::ValuesIn(kCpuUsedVectors));
+
+AV1_INSTANTIATE_TEST_CASE(EndToEndTest,
+ ::testing::Values(kEncodingModeVectors[0]),
+ ::testing::Values(kTestVectors[2]), // 444
+ ::testing::Values(kCpuUsedVectors[2]));
+} // namespace
diff --git a/third_party/aom/test/error_block_test.cc b/third_party/aom/test/error_block_test.cc
new file mode 100644
index 0000000000..353947c3d7
--- /dev/null
+++ b/third_party/aom/test/error_block_test.cc
@@ -0,0 +1,171 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <cmath>
+#include <cstdlib>
+#include <string>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_config.h"
+#include "config/av1_rtcd.h"
+
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "test/util.h"
+#include "av1/common/entropy.h"
+#include "aom/aom_codec.h"
+#include "aom/aom_integer.h"
+
+using libaom_test::ACMRandom;
+
+namespace {
+const int kNumIterations = 1000;
+
+typedef int64_t (*ErrorBlockFunc)(const tran_low_t *coeff,
+ const tran_low_t *dqcoeff,
+ intptr_t block_size, int64_t *ssz, int bps);
+
+typedef ::testing::tuple<ErrorBlockFunc, ErrorBlockFunc, aom_bit_depth_t>
+ ErrorBlockParam;
+
+class ErrorBlockTest : public ::testing::TestWithParam<ErrorBlockParam> {
+ public:
+ virtual ~ErrorBlockTest() {}
+ virtual void SetUp() {
+ error_block_op_ = GET_PARAM(0);
+ ref_error_block_op_ = GET_PARAM(1);
+ bit_depth_ = GET_PARAM(2);
+ }
+
+ virtual void TearDown() { libaom_test::ClearSystemState(); }
+
+ protected:
+ aom_bit_depth_t bit_depth_;
+ ErrorBlockFunc error_block_op_;
+ ErrorBlockFunc ref_error_block_op_;
+};
+
+TEST_P(ErrorBlockTest, OperationCheck) {
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ DECLARE_ALIGNED(16, tran_low_t, coeff[4096]);
+ DECLARE_ALIGNED(16, tran_low_t, dqcoeff[4096]);
+ int err_count_total = 0;
+ int first_failure = -1;
+ intptr_t block_size;
+ int64_t ssz;
+ int64_t ret;
+ int64_t ref_ssz;
+ int64_t ref_ret;
+ const int msb = bit_depth_ + 8 - 1;
+ for (int i = 0; i < kNumIterations; ++i) {
+ int err_count = 0;
+ block_size = 16 << (i % 9); // All block sizes from 4x4, 8x4 ..64x64
+ for (int j = 0; j < block_size; j++) {
+ // coeff and dqcoeff will always have at least the same sign, and this
+ // can be used for optimization, so generate test input precisely.
+ if (rnd(2)) {
+ // Positive number
+ coeff[j] = rnd(1 << msb);
+ dqcoeff[j] = rnd(1 << msb);
+ } else {
+ // Negative number
+ coeff[j] = -rnd(1 << msb);
+ dqcoeff[j] = -rnd(1 << msb);
+ }
+ }
+ ref_ret =
+ ref_error_block_op_(coeff, dqcoeff, block_size, &ref_ssz, bit_depth_);
+ ASM_REGISTER_STATE_CHECK(
+ ret = error_block_op_(coeff, dqcoeff, block_size, &ssz, bit_depth_));
+ err_count += (ref_ret != ret) | (ref_ssz != ssz);
+ if (err_count && !err_count_total) {
+ first_failure = i;
+ }
+ err_count_total += err_count;
+ }
+ EXPECT_EQ(0, err_count_total)
+ << "Error: Error Block Test, C output doesn't match optimized output. "
+ << "First failed at test case " << first_failure;
+}
+
+TEST_P(ErrorBlockTest, ExtremeValues) {
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ DECLARE_ALIGNED(16, tran_low_t, coeff[4096]);
+ DECLARE_ALIGNED(16, tran_low_t, dqcoeff[4096]);
+ int err_count_total = 0;
+ int first_failure = -1;
+ intptr_t block_size;
+ int64_t ssz;
+ int64_t ret;
+ int64_t ref_ssz;
+ int64_t ref_ret;
+ const int msb = bit_depth_ + 8 - 1;
+ int max_val = ((1 << msb) - 1);
+ for (int i = 0; i < kNumIterations; ++i) {
+ int err_count = 0;
+ int k = (i / 9) % 9;
+
+ // Change the maximum coeff value, to test different bit boundaries
+ if (k == 8 && (i % 9) == 0) {
+ max_val >>= 1;
+ }
+ block_size = 16 << (i % 9); // All block sizes from 4x4, 8x4 ..64x64
+ for (int j = 0; j < block_size; j++) {
+ if (k < 4) {
+ // Test at positive maximum values
+ coeff[j] = k % 2 ? max_val : 0;
+ dqcoeff[j] = (k >> 1) % 2 ? max_val : 0;
+ } else if (k < 8) {
+ // Test at negative maximum values
+ coeff[j] = k % 2 ? -max_val : 0;
+ dqcoeff[j] = (k >> 1) % 2 ? -max_val : 0;
+ } else {
+ if (rnd(2)) {
+ // Positive number
+ coeff[j] = rnd(1 << 14);
+ dqcoeff[j] = rnd(1 << 14);
+ } else {
+ // Negative number
+ coeff[j] = -rnd(1 << 14);
+ dqcoeff[j] = -rnd(1 << 14);
+ }
+ }
+ }
+ ref_ret =
+ ref_error_block_op_(coeff, dqcoeff, block_size, &ref_ssz, bit_depth_);
+ ASM_REGISTER_STATE_CHECK(
+ ret = error_block_op_(coeff, dqcoeff, block_size, &ssz, bit_depth_));
+ err_count += (ref_ret != ret) | (ref_ssz != ssz);
+ if (err_count && !err_count_total) {
+ first_failure = i;
+ }
+ err_count_total += err_count;
+ }
+ EXPECT_EQ(0, err_count_total)
+ << "Error: Error Block Test, C output doesn't match optimized output. "
+ << "First failed at test case " << first_failure;
+}
+
+#if (HAVE_SSE2 || HAVE_AVX)
+using ::testing::make_tuple;
+
+INSTANTIATE_TEST_CASE_P(
+ SSE2, ErrorBlockTest,
+ ::testing::Values(make_tuple(&av1_highbd_block_error_sse2,
+ &av1_highbd_block_error_c, AOM_BITS_10),
+ make_tuple(&av1_highbd_block_error_sse2,
+ &av1_highbd_block_error_c, AOM_BITS_12),
+ make_tuple(&av1_highbd_block_error_sse2,
+ &av1_highbd_block_error_c, AOM_BITS_8)));
+#endif // HAVE_SSE2
+} // namespace
diff --git a/third_party/aom/test/error_resilience_test.cc b/third_party/aom/test/error_resilience_test.cc
new file mode 100644
index 0000000000..13ac0bf93d
--- /dev/null
+++ b/third_party/aom/test/error_resilience_test.cc
@@ -0,0 +1,438 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/codec_factory.h"
+#include "test/encode_test_driver.h"
+#include "test/i420_video_source.h"
+#include "test/util.h"
+
+namespace {
+
+const int kMaxErrorFrames = 12;
+const int kMaxInvisibleErrorFrames = 12;
+const int kMaxDroppableFrames = 12;
+const int kMaxErrorResilientFrames = 12;
+const int kMaxNoMFMVFrames = 12;
+const int kMaxPrimRefNoneFrames = 12;
+const int kMaxSFrames = 12;
+const int kCpuUsed = 1;
+
+class ErrorResilienceTestLarge
+ : public ::libaom_test::CodecTestWithParam<libaom_test::TestMode>,
+ public ::libaom_test::EncoderTest {
+ protected:
+ ErrorResilienceTestLarge()
+ : EncoderTest(GET_PARAM(0)), psnr_(0.0), nframes_(0), mismatch_psnr_(0.0),
+ mismatch_nframes_(0), encoding_mode_(GET_PARAM(1)), allow_mismatch_(0) {
+ Reset();
+ }
+
+ virtual ~ErrorResilienceTestLarge() {}
+
+ void Reset() {
+ error_nframes_ = 0;
+ invisible_error_nframes_ = 0;
+ droppable_nframes_ = 0;
+ error_resilient_nframes_ = 0;
+ nomfmv_nframes_ = 0;
+ prim_ref_none_nframes_ = 0;
+ s_nframes_ = 0;
+ }
+
+ void SetupEncoder(int bitrate, int lag) {
+ const aom_rational timebase = { 33333333, 1000000000 };
+ cfg_.g_timebase = timebase;
+ cfg_.rc_target_bitrate = bitrate;
+ cfg_.kf_mode = AOM_KF_DISABLED;
+ cfg_.g_lag_in_frames = lag;
+ init_flags_ = AOM_CODEC_USE_PSNR;
+ }
+
+ virtual void SetUp() {
+ InitializeConfig();
+ SetMode(encoding_mode_);
+ }
+
+ virtual void BeginPassHook(unsigned int /*pass*/) {
+ psnr_ = 0.0;
+ nframes_ = 0;
+ decoded_nframes_ = 0;
+ mismatch_psnr_ = 0.0;
+ mismatch_nframes_ = 0;
+ }
+
+ virtual void PSNRPktHook(const aom_codec_cx_pkt_t *pkt) {
+ psnr_ += pkt->data.psnr.psnr[0];
+ nframes_++;
+ }
+
+ virtual void PreEncodeFrameHook(libaom_test::VideoSource *video,
+ libaom_test::Encoder *encoder) {
+ if (video->frame() == 0) encoder->Control(AOME_SET_CPUUSED, kCpuUsed);
+ frame_flags_ &=
+ ~(AOM_EFLAG_NO_UPD_LAST | AOM_EFLAG_NO_UPD_GF | AOM_EFLAG_NO_UPD_ARF |
+ AOM_EFLAG_NO_REF_FRAME_MVS | AOM_EFLAG_ERROR_RESILIENT |
+ AOM_EFLAG_SET_S_FRAME | AOM_EFLAG_SET_PRIMARY_REF_NONE);
+ if (droppable_nframes_ > 0 &&
+ (cfg_.g_pass == AOM_RC_LAST_PASS || cfg_.g_pass == AOM_RC_ONE_PASS)) {
+ for (unsigned int i = 0; i < droppable_nframes_; ++i) {
+ if (droppable_frames_[i] == video->frame()) {
+ std::cout << " Encoding droppable frame: "
+ << droppable_frames_[i] << "\n";
+ frame_flags_ |= (AOM_EFLAG_NO_UPD_LAST | AOM_EFLAG_NO_UPD_GF |
+ AOM_EFLAG_NO_UPD_ARF);
+ break;
+ }
+ }
+ }
+
+ if (error_resilient_nframes_ > 0 &&
+ (cfg_.g_pass == AOM_RC_LAST_PASS || cfg_.g_pass == AOM_RC_ONE_PASS)) {
+ for (unsigned int i = 0; i < error_resilient_nframes_; ++i) {
+ if (error_resilient_frames_[i] == video->frame()) {
+ std::cout << " Encoding error_resilient frame: "
+ << error_resilient_frames_[i] << "\n";
+ frame_flags_ |= AOM_EFLAG_ERROR_RESILIENT;
+ break;
+ }
+ }
+ }
+
+ if (nomfmv_nframes_ > 0 &&
+ (cfg_.g_pass == AOM_RC_LAST_PASS || cfg_.g_pass == AOM_RC_ONE_PASS)) {
+ for (unsigned int i = 0; i < nomfmv_nframes_; ++i) {
+ if (nomfmv_frames_[i] == video->frame()) {
+ std::cout << " Encoding no mfmv frame: "
+ << nomfmv_frames_[i] << "\n";
+ frame_flags_ |= AOM_EFLAG_NO_REF_FRAME_MVS;
+ break;
+ }
+ }
+ }
+
+ if (prim_ref_none_nframes_ > 0 &&
+ (cfg_.g_pass == AOM_RC_LAST_PASS || cfg_.g_pass == AOM_RC_ONE_PASS)) {
+ for (unsigned int i = 0; i < prim_ref_none_nframes_; ++i) {
+ if (prim_ref_none_frames_[i] == video->frame()) {
+ std::cout << " Encoding no PRIMARY_REF_NONE frame: "
+ << prim_ref_none_frames_[i] << "\n";
+ frame_flags_ |= AOM_EFLAG_SET_PRIMARY_REF_NONE;
+ break;
+ }
+ }
+ }
+
+ encoder->Control(AV1E_SET_S_FRAME_MODE, 0);
+ if (s_nframes_ > 0 &&
+ (cfg_.g_pass == AOM_RC_LAST_PASS || cfg_.g_pass == AOM_RC_ONE_PASS)) {
+ for (unsigned int i = 0; i < s_nframes_; ++i) {
+ if (s_frames_[i] == video->frame()) {
+ std::cout << " Encoding S frame: " << s_frames_[i]
+ << "\n";
+ frame_flags_ |= AOM_EFLAG_SET_S_FRAME;
+ break;
+ }
+ }
+ }
+ }
+
+ double GetAveragePsnr() const {
+ if (nframes_) return psnr_ / nframes_;
+ return 0.0;
+ }
+
+ double GetAverageMismatchPsnr() const {
+ if (mismatch_nframes_) return mismatch_psnr_ / mismatch_nframes_;
+ return 0.0;
+ }
+
+ virtual bool DoDecode() const {
+ if (error_nframes_ > 0 &&
+ (cfg_.g_pass == AOM_RC_LAST_PASS || cfg_.g_pass == AOM_RC_ONE_PASS)) {
+ for (unsigned int i = 0; i < error_nframes_; ++i) {
+ if (error_frames_[i] == nframes_ - 1) {
+ std::cout << " Skipping decoding frame: "
+ << error_frames_[i] << "\n";
+ return 0;
+ }
+ }
+ }
+ return 1;
+ }
+
+ virtual bool DoDecodeInvisible() const {
+ if (invisible_error_nframes_ > 0 &&
+ (cfg_.g_pass == AOM_RC_LAST_PASS || cfg_.g_pass == AOM_RC_ONE_PASS)) {
+ for (unsigned int i = 0; i < invisible_error_nframes_; ++i) {
+ if (invisible_error_frames_[i] == nframes_ - 1) {
+ std::cout << " Skipping decoding all invisible frames in "
+ "frame pkt: "
+ << invisible_error_frames_[i] << "\n";
+ return 0;
+ }
+ }
+ }
+ return 1;
+ }
+
+ virtual void MismatchHook(const aom_image_t *img1, const aom_image_t *img2) {
+ if (allow_mismatch_) {
+ double mismatch_psnr = compute_psnr(img1, img2);
+ mismatch_psnr_ += mismatch_psnr;
+ ++mismatch_nframes_;
+ // std::cout << "Mismatch frame psnr: " << mismatch_psnr << "\n";
+ } else {
+ ::libaom_test::EncoderTest::MismatchHook(img1, img2);
+ }
+ }
+
+ virtual void DecompressedFrameHook(const aom_image_t &img,
+ aom_codec_pts_t pts) {
+ (void)img;
+ (void)pts;
+ ++decoded_nframes_;
+ }
+
+ void SetErrorFrames(int num, unsigned int *list) {
+ if (num > kMaxErrorFrames)
+ num = kMaxErrorFrames;
+ else if (num < 0)
+ num = 0;
+ error_nframes_ = num;
+ for (unsigned int i = 0; i < error_nframes_; ++i)
+ error_frames_[i] = list[i];
+ }
+
+ void SetInvisibleErrorFrames(int num, unsigned int *list) {
+ if (num > kMaxInvisibleErrorFrames)
+ num = kMaxInvisibleErrorFrames;
+ else if (num < 0)
+ num = 0;
+ invisible_error_nframes_ = num;
+ for (unsigned int i = 0; i < invisible_error_nframes_; ++i)
+ invisible_error_frames_[i] = list[i];
+ }
+
+ void SetDroppableFrames(int num, unsigned int *list) {
+ if (num > kMaxDroppableFrames)
+ num = kMaxDroppableFrames;
+ else if (num < 0)
+ num = 0;
+ droppable_nframes_ = num;
+ for (unsigned int i = 0; i < droppable_nframes_; ++i)
+ droppable_frames_[i] = list[i];
+ }
+
+ void SetErrorResilientFrames(int num, unsigned int *list) {
+ if (num > kMaxErrorResilientFrames)
+ num = kMaxErrorResilientFrames;
+ else if (num < 0)
+ num = 0;
+ error_resilient_nframes_ = num;
+ for (unsigned int i = 0; i < error_resilient_nframes_; ++i)
+ error_resilient_frames_[i] = list[i];
+ }
+
+ void SetNoMFMVFrames(int num, unsigned int *list) {
+ if (num > kMaxNoMFMVFrames)
+ num = kMaxNoMFMVFrames;
+ else if (num < 0)
+ num = 0;
+ nomfmv_nframes_ = num;
+ for (unsigned int i = 0; i < nomfmv_nframes_; ++i)
+ nomfmv_frames_[i] = list[i];
+ }
+
+ void SetPrimaryRefNoneFrames(int num, unsigned int *list) {
+ if (num > kMaxPrimRefNoneFrames)
+ num = kMaxPrimRefNoneFrames;
+ else if (num < 0)
+ num = 0;
+ prim_ref_none_nframes_ = num;
+ for (unsigned int i = 0; i < prim_ref_none_nframes_; ++i)
+ prim_ref_none_frames_[i] = list[i];
+ }
+
+ void SetSFrames(int num, unsigned int *list) {
+ if (num > kMaxSFrames)
+ num = kMaxSFrames;
+ else if (num < 0)
+ num = 0;
+ s_nframes_ = num;
+ for (unsigned int i = 0; i < s_nframes_; ++i) s_frames_[i] = list[i];
+ }
+
+ unsigned int GetMismatchFrames() { return mismatch_nframes_; }
+ unsigned int GetEncodedFrames() { return nframes_; }
+ unsigned int GetDecodedFrames() { return decoded_nframes_; }
+
+ void SetAllowMismatch(int allow) { allow_mismatch_ = allow; }
+
+ private:
+ double psnr_;
+ unsigned int nframes_;
+ unsigned int decoded_nframes_;
+ unsigned int error_nframes_;
+ unsigned int invisible_error_nframes_;
+ unsigned int droppable_nframes_;
+ unsigned int error_resilient_nframes_;
+ unsigned int nomfmv_nframes_;
+ unsigned int prim_ref_none_nframes_;
+ unsigned int s_nframes_;
+ double mismatch_psnr_;
+ unsigned int mismatch_nframes_;
+ unsigned int error_frames_[kMaxErrorFrames];
+ unsigned int invisible_error_frames_[kMaxInvisibleErrorFrames];
+ unsigned int droppable_frames_[kMaxDroppableFrames];
+ unsigned int error_resilient_frames_[kMaxErrorResilientFrames];
+ unsigned int nomfmv_frames_[kMaxNoMFMVFrames];
+ unsigned int prim_ref_none_frames_[kMaxPrimRefNoneFrames];
+ unsigned int s_frames_[kMaxSFrames];
+ libaom_test::TestMode encoding_mode_;
+ int allow_mismatch_;
+};
+
+TEST_P(ErrorResilienceTestLarge, OnVersusOff) {
+ SetupEncoder(2000, 10);
+ libaom_test::I420VideoSource video("hantro_collage_w352h288.yuv", 352, 288,
+ cfg_.g_timebase.den, cfg_.g_timebase.num,
+ 0, 12);
+
+ // Global error resilient mode OFF.
+ cfg_.g_error_resilient = 0;
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+ const double psnr_resilience_off = GetAveragePsnr();
+ EXPECT_GT(psnr_resilience_off, 25.0);
+
+ Reset();
+ // Error resilient mode ON for certain frames
+ unsigned int num_error_resilient_frames = 5;
+ unsigned int error_resilient_frame_list[] = { 3, 5, 6, 9, 11 };
+ SetErrorResilientFrames(num_error_resilient_frames,
+ error_resilient_frame_list);
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+ const double psnr_resilience_on = GetAveragePsnr();
+ EXPECT_GT(psnr_resilience_on, 25.0);
+
+ // Test that turning on error resilient mode hurts by 10% at most.
+ if (psnr_resilience_off > 0.0) {
+ const double psnr_ratio = psnr_resilience_on / psnr_resilience_off;
+ EXPECT_GE(psnr_ratio, 0.9);
+ EXPECT_LE(psnr_ratio, 1.1);
+ }
+}
+
+// Check for successful decoding and no encoder/decoder mismatch
+// if we lose (i.e., drop before decoding) a set of droppable
+// frames (i.e., frames that don't update any reference buffers).
+TEST_P(ErrorResilienceTestLarge, DropFramesWithoutRecovery) {
+ SetupEncoder(500, 10);
+ libaom_test::I420VideoSource video("hantro_collage_w352h288.yuv", 352, 288,
+ cfg_.g_timebase.den, cfg_.g_timebase.num,
+ 0, 20);
+
+ // Set an arbitrary set of error frames same as droppable frames.
+ unsigned int num_droppable_frames = 3;
+ unsigned int droppable_frame_list[] = { 5, 10, 13 };
+ SetDroppableFrames(num_droppable_frames, droppable_frame_list);
+ SetErrorFrames(num_droppable_frames, droppable_frame_list);
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+ // Test that no mismatches have been found
+ std::cout << " Encoded frames: " << GetEncodedFrames() << "\n";
+ std::cout << " Decoded frames: " << GetDecodedFrames() << "\n";
+ std::cout << " Mismatch frames: " << GetMismatchFrames() << "\n";
+ EXPECT_EQ(GetEncodedFrames() - GetDecodedFrames(), num_droppable_frames);
+}
+
+// Check for ParseAbility property of an error-resilient frame.
+// Encode a frame in error-resilient mode (E-frame), and disallow all
+// subsequent frames from using MFMV. If frames are dropped before the
+// E frame, all frames starting from the E frame should be parse-able.
+TEST_P(ErrorResilienceTestLarge, ParseAbilityTest) {
+ SetupEncoder(500, 10);
+
+ libaom_test::I420VideoSource video("hantro_collage_w352h288.yuv", 352, 288,
+ cfg_.g_timebase.den, cfg_.g_timebase.num,
+ 0, 15);
+
+ SetAllowMismatch(1);
+
+ // Note that an E-frame cannot be forced on a frame that is a
+ // show_existing_frame, or a frame that comes directly after an invisible
+ // frame. Currently, this will cause an assertion failure.
+ // Set an arbitrary error resilient (E) frame
+ unsigned int num_error_resilient_frames = 1;
+ unsigned int error_resilient_frame_list[] = { 8 };
+ SetErrorResilientFrames(num_error_resilient_frames,
+ error_resilient_frame_list);
+ // Ensure that any invisible frames before the E frame are dropped
+ SetInvisibleErrorFrames(num_error_resilient_frames,
+ error_resilient_frame_list);
+ // Set all frames after the error resilient frame to not allow MFMV
+ unsigned int num_post_error_resilient_frames = 6;
+ unsigned int post_error_resilient_frame_list[] = { 9, 10, 11, 12, 13, 14 };
+ SetNoMFMVFrames(num_post_error_resilient_frames,
+ post_error_resilient_frame_list);
+
+ // Set a few frames before the E frame that are lost (not decoded)
+ unsigned int num_error_frames = 5;
+ unsigned int error_frame_list[] = { 3, 4, 5, 6, 7 };
+ SetErrorFrames(num_error_frames, error_frame_list);
+
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+ std::cout << " Encoded frames: " << GetEncodedFrames() << "\n";
+ std::cout << " Decoded frames: " << GetDecodedFrames() << "\n";
+ std::cout << " Mismatch frames: " << GetMismatchFrames() << "\n";
+ EXPECT_EQ(GetEncodedFrames() - GetDecodedFrames(), num_error_frames);
+ // All frames following the E-frame and the E-frame are expected to have
+ // mismatches, but still be parse-able.
+ EXPECT_LE(GetMismatchFrames(), num_post_error_resilient_frames + 1);
+}
+
+// Check for ParseAbility property of an S frame.
+// Encode an S-frame. If frames are dropped before the S-frame, all frames
+// starting from the S frame should be parse-able.
+TEST_P(ErrorResilienceTestLarge, SFrameTest) {
+ SetupEncoder(500, 10);
+
+ libaom_test::I420VideoSource video("hantro_collage_w352h288.yuv", 352, 288,
+ cfg_.g_timebase.den, cfg_.g_timebase.num,
+ 0, 15);
+
+ SetAllowMismatch(1);
+
+ // Note that an S-frame cannot be forced on a frame that is a
+ // show_existing_frame. This issue still needs to be addressed.
+ // Set an arbitrary S-frame
+ unsigned int num_s_frames = 1;
+ unsigned int s_frame_list[] = { 6 };
+ SetSFrames(num_s_frames, s_frame_list);
+ // Ensure that any invisible frames before the S frame are dropped
+ SetInvisibleErrorFrames(num_s_frames, s_frame_list);
+
+ // Set a few frames before the S frame that are lost (not decoded)
+ unsigned int num_error_frames = 4;
+ unsigned int error_frame_list[] = { 2, 3, 4, 5 };
+ SetErrorFrames(num_error_frames, error_frame_list);
+
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+ std::cout << " Encoded frames: " << GetEncodedFrames() << "\n";
+ std::cout << " Decoded frames: " << GetDecodedFrames() << "\n";
+ std::cout << " Mismatch frames: " << GetMismatchFrames() << "\n";
+ EXPECT_EQ(GetEncodedFrames() - GetDecodedFrames(), num_error_frames);
+ // All frames following the S-frame and the S-frame are expected to have
+ // mismatches, but still be parse-able.
+ EXPECT_LE(GetMismatchFrames(), GetEncodedFrames() - s_frame_list[0]);
+}
+
+AV1_INSTANTIATE_TEST_CASE(ErrorResilienceTestLarge, NONREALTIME_TEST_MODES);
+} // namespace
diff --git a/third_party/aom/test/ethread_test.cc b/third_party/aom/test/ethread_test.cc
new file mode 100644
index 0000000000..d9ac782828
--- /dev/null
+++ b/third_party/aom/test/ethread_test.cc
@@ -0,0 +1,273 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <string>
+#include <vector>
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/codec_factory.h"
+#include "test/encode_test_driver.h"
+#include "test/md5_helper.h"
+#include "test/util.h"
+#include "test/yuv_video_source.h"
+
+namespace {
+class AVxEncoderThreadTest
+ : public ::libaom_test::CodecTestWith4Params<libaom_test::TestMode, int,
+ int, int>,
+ public ::libaom_test::EncoderTest {
+ protected:
+ AVxEncoderThreadTest()
+ : EncoderTest(GET_PARAM(0)), encoder_initialized_(false),
+ encoding_mode_(GET_PARAM(1)), set_cpu_used_(GET_PARAM(2)),
+ tile_cols_(GET_PARAM(3)), tile_rows_(GET_PARAM(4)) {
+ init_flags_ = AOM_CODEC_USE_PSNR;
+ aom_codec_dec_cfg_t cfg = aom_codec_dec_cfg_t();
+ cfg.w = 1280;
+ cfg.h = 720;
+ cfg.allow_lowbitdepth = 1;
+ decoder_ = codec_->CreateDecoder(cfg, 0);
+ if (decoder_->IsAV1()) {
+ decoder_->Control(AV1_SET_DECODE_TILE_ROW, -1);
+ decoder_->Control(AV1_SET_DECODE_TILE_COL, -1);
+ }
+
+ size_enc_.clear();
+ md5_dec_.clear();
+ md5_enc_.clear();
+ }
+ virtual ~AVxEncoderThreadTest() { delete decoder_; }
+
+ virtual void SetUp() {
+ InitializeConfig();
+ SetMode(encoding_mode_);
+
+ if (encoding_mode_ != ::libaom_test::kRealTime) {
+ cfg_.g_lag_in_frames = 5;
+ cfg_.rc_end_usage = AOM_VBR;
+ cfg_.rc_2pass_vbr_minsection_pct = 5;
+ cfg_.rc_2pass_vbr_maxsection_pct = 2000;
+ } else {
+ cfg_.g_lag_in_frames = 0;
+ cfg_.rc_end_usage = AOM_CBR;
+ cfg_.g_error_resilient = 1;
+ }
+ cfg_.rc_max_quantizer = 56;
+ cfg_.rc_min_quantizer = 0;
+ }
+
+ virtual void BeginPassHook(unsigned int /*pass*/) {
+ encoder_initialized_ = false;
+ }
+
+ virtual void PreEncodeFrameHook(::libaom_test::VideoSource * /*video*/,
+ ::libaom_test::Encoder *encoder) {
+ if (!encoder_initialized_) {
+ SetTileSize(encoder);
+ encoder->Control(AOME_SET_CPUUSED, set_cpu_used_);
+ encoder->Control(AV1E_SET_ROW_MT, row_mt_);
+ if (encoding_mode_ != ::libaom_test::kRealTime) {
+ encoder->Control(AOME_SET_ENABLEAUTOALTREF, 1);
+ encoder->Control(AOME_SET_ARNR_MAXFRAMES, 7);
+ encoder->Control(AOME_SET_ARNR_STRENGTH, 5);
+ encoder->Control(AV1E_SET_FRAME_PARALLEL_DECODING, 0);
+ } else {
+ encoder->Control(AOME_SET_ENABLEAUTOALTREF, 0);
+ encoder->Control(AV1E_SET_AQ_MODE, 3);
+ }
+ encoder_initialized_ = true;
+ }
+ }
+
+ virtual void SetTileSize(libaom_test::Encoder *encoder) {
+ encoder->Control(AV1E_SET_TILE_COLUMNS, tile_cols_);
+ encoder->Control(AV1E_SET_TILE_ROWS, tile_rows_);
+ }
+
+ virtual void FramePktHook(const aom_codec_cx_pkt_t *pkt) {
+ size_enc_.push_back(pkt->data.frame.sz);
+
+ ::libaom_test::MD5 md5_enc;
+ md5_enc.Add(reinterpret_cast<uint8_t *>(pkt->data.frame.buf),
+ pkt->data.frame.sz);
+ md5_enc_.push_back(md5_enc.Get());
+
+ const aom_codec_err_t res = decoder_->DecodeFrame(
+ reinterpret_cast<uint8_t *>(pkt->data.frame.buf), pkt->data.frame.sz);
+ if (res != AOM_CODEC_OK) {
+ abort_ = true;
+ ASSERT_EQ(AOM_CODEC_OK, res);
+ }
+ const aom_image_t *img = decoder_->GetDxData().Next();
+
+ if (img) {
+ ::libaom_test::MD5 md5_res;
+ md5_res.Add(img);
+ md5_dec_.push_back(md5_res.Get());
+ }
+ }
+
+ void DoTest() {
+ ::libaom_test::YUVVideoSource video(
+ "niklas_640_480_30.yuv", AOM_IMG_FMT_I420, 640, 480, 30, 1, 15, 21);
+ cfg_.rc_target_bitrate = 1000;
+
+ // Encode using single thread.
+ row_mt_ = 0;
+ cfg_.g_threads = 1;
+ init_flags_ = AOM_CODEC_USE_PSNR;
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+ std::vector<size_t> single_thr_size_enc;
+ std::vector<std::string> single_thr_md5_enc;
+ std::vector<std::string> single_thr_md5_dec;
+ single_thr_size_enc = size_enc_;
+ single_thr_md5_enc = md5_enc_;
+ single_thr_md5_dec = md5_dec_;
+ size_enc_.clear();
+ md5_enc_.clear();
+ md5_dec_.clear();
+
+ // Encode using multiple threads.
+ cfg_.g_threads = 4;
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+ std::vector<size_t> multi_thr_size_enc;
+ std::vector<std::string> multi_thr_md5_enc;
+ std::vector<std::string> multi_thr_md5_dec;
+ multi_thr_size_enc = size_enc_;
+ multi_thr_md5_enc = md5_enc_;
+ multi_thr_md5_dec = md5_dec_;
+ size_enc_.clear();
+ md5_enc_.clear();
+ md5_dec_.clear();
+
+ // Check that the vectors are equal.
+ ASSERT_EQ(single_thr_size_enc, multi_thr_size_enc);
+ ASSERT_EQ(single_thr_md5_enc, multi_thr_md5_enc);
+ ASSERT_EQ(single_thr_md5_dec, multi_thr_md5_dec);
+
+ // Encode using multiple threads row-mt enabled.
+ row_mt_ = 1;
+ cfg_.g_threads = 2;
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+ std::vector<size_t> multi_thr2_row_mt_size_enc;
+ std::vector<std::string> multi_thr2_row_mt_md5_enc;
+ std::vector<std::string> multi_thr2_row_mt_md5_dec;
+ multi_thr2_row_mt_size_enc = size_enc_;
+ multi_thr2_row_mt_md5_enc = md5_enc_;
+ multi_thr2_row_mt_md5_dec = md5_dec_;
+ size_enc_.clear();
+ md5_enc_.clear();
+ md5_dec_.clear();
+
+ // Disable threads=3 test for now to reduce the time so that the nightly
+ // test would not time out.
+ // cfg_.g_threads = 3;
+ // ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+ // std::vector<size_t> multi_thr3_row_mt_size_enc;
+ // std::vector<std::string> multi_thr3_row_mt_md5_enc;
+ // std::vector<std::string> multi_thr3_row_mt_md5_dec;
+ // multi_thr3_row_mt_size_enc = size_enc_;
+ // multi_thr3_row_mt_md5_enc = md5_enc_;
+ // multi_thr3_row_mt_md5_dec = md5_dec_;
+ // size_enc_.clear();
+ // md5_enc_.clear();
+ // md5_dec_.clear();
+ // Check that the vectors are equal.
+ // ASSERT_EQ(multi_thr3_row_mt_size_enc, multi_thr2_row_mt_size_enc);
+ // ASSERT_EQ(multi_thr3_row_mt_md5_enc, multi_thr2_row_mt_md5_enc);
+ // ASSERT_EQ(multi_thr3_row_mt_md5_dec, multi_thr2_row_mt_md5_dec);
+
+ cfg_.g_threads = 4;
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+ std::vector<size_t> multi_thr4_row_mt_size_enc;
+ std::vector<std::string> multi_thr4_row_mt_md5_enc;
+ std::vector<std::string> multi_thr4_row_mt_md5_dec;
+ multi_thr4_row_mt_size_enc = size_enc_;
+ multi_thr4_row_mt_md5_enc = md5_enc_;
+ multi_thr4_row_mt_md5_dec = md5_dec_;
+ size_enc_.clear();
+ md5_enc_.clear();
+ md5_dec_.clear();
+
+ // Check that the vectors are equal.
+ ASSERT_EQ(multi_thr4_row_mt_size_enc, multi_thr2_row_mt_size_enc);
+ ASSERT_EQ(multi_thr4_row_mt_md5_enc, multi_thr2_row_mt_md5_enc);
+ ASSERT_EQ(multi_thr4_row_mt_md5_dec, multi_thr2_row_mt_md5_dec);
+ }
+
+ bool encoder_initialized_;
+ ::libaom_test::TestMode encoding_mode_;
+ int set_cpu_used_;
+ int tile_cols_;
+ int tile_rows_;
+ int row_mt_;
+ ::libaom_test::Decoder *decoder_;
+ std::vector<size_t> size_enc_;
+ std::vector<std::string> md5_enc_;
+ std::vector<std::string> md5_dec_;
+};
+
+TEST_P(AVxEncoderThreadTest, EncoderResultTest) {
+ cfg_.large_scale_tile = 0;
+ decoder_->Control(AV1_SET_TILE_MODE, 0);
+ DoTest();
+}
+
+class AVxEncoderThreadTestLarge : public AVxEncoderThreadTest {};
+
+TEST_P(AVxEncoderThreadTestLarge, EncoderResultTest) {
+ cfg_.large_scale_tile = 0;
+ decoder_->Control(AV1_SET_TILE_MODE, 0);
+ DoTest();
+}
+
+// For AV1, only test speed 0 to 3.
+// Here test cpu_used 2 and 3
+AV1_INSTANTIATE_TEST_CASE(AVxEncoderThreadTest,
+ ::testing::Values(::libaom_test::kTwoPassGood),
+ ::testing::Range(2, 4), ::testing::Values(0, 2),
+ ::testing::Values(0, 1));
+
+// Test cpu_used 0 and 1.
+AV1_INSTANTIATE_TEST_CASE(AVxEncoderThreadTestLarge,
+ ::testing::Values(::libaom_test::kTwoPassGood,
+ ::libaom_test::kOnePassGood),
+ ::testing::Range(0, 2), ::testing::Values(0, 1, 2, 6),
+ ::testing::Values(0, 1, 2, 6));
+
+class AVxEncoderThreadLSTest : public AVxEncoderThreadTest {
+ virtual void SetTileSize(libaom_test::Encoder *encoder) {
+ encoder->Control(AV1E_SET_TILE_COLUMNS, tile_cols_);
+ encoder->Control(AV1E_SET_TILE_ROWS, tile_rows_);
+ }
+};
+
+TEST_P(AVxEncoderThreadLSTest, EncoderResultTest) {
+ cfg_.large_scale_tile = 1;
+ decoder_->Control(AV1_SET_TILE_MODE, 1);
+ decoder_->Control(AV1D_EXT_TILE_DEBUG, 1);
+ DoTest();
+}
+
+class AVxEncoderThreadLSTestLarge : public AVxEncoderThreadLSTest {};
+
+TEST_P(AVxEncoderThreadLSTestLarge, EncoderResultTest) {
+ cfg_.large_scale_tile = 1;
+ decoder_->Control(AV1_SET_TILE_MODE, 1);
+ decoder_->Control(AV1D_EXT_TILE_DEBUG, 1);
+ DoTest();
+}
+
+AV1_INSTANTIATE_TEST_CASE(AVxEncoderThreadLSTestLarge,
+ ::testing::Values(::libaom_test::kTwoPassGood,
+ ::libaom_test::kOnePassGood),
+ ::testing::Range(0, 4), ::testing::Values(0, 6),
+ ::testing::Values(0, 6));
+} // namespace
diff --git a/third_party/aom/test/examples.sh b/third_party/aom/test/examples.sh
new file mode 100755
index 0000000000..2cdb89dd08
--- /dev/null
+++ b/third_party/aom/test/examples.sh
@@ -0,0 +1,29 @@
+#!/bin/sh
+## Copyright (c) 2016, Alliance for Open Media. All rights reserved
+##
+## This source code is subject to the terms of the BSD 2 Clause License and
+## the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+## was not distributed with this source code in the LICENSE file, you can
+## obtain it at www.aomedia.org/license/software. If the Alliance for Open
+## Media Patent License 1.0 was not distributed with this source code in the
+## PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+##
+## This file runs all of the tests for the libaom examples.
+##
+. $(dirname $0)/tools_common.sh
+
+example_tests=$(ls -r $(dirname $0)/*.sh)
+
+# List of script names to exclude.
+exclude_list="best_encode examples run_encodes tools_common"
+
+# Filter out the scripts in $exclude_list.
+for word in ${exclude_list}; do
+ example_tests=$(filter_strings "${example_tests}" "${word}" exclude)
+done
+
+for test in ${example_tests}; do
+ # Source each test script so that exporting variables can be avoided.
+ AOM_TEST_NAME="$(basename ${test%.*})"
+ . "${test}"
+done
diff --git a/third_party/aom/test/external_frame_buffer_test.cc b/third_party/aom/test/external_frame_buffer_test.cc
new file mode 100644
index 0000000000..c2af059a4e
--- /dev/null
+++ b/third_party/aom/test/external_frame_buffer_test.cc
@@ -0,0 +1,512 @@
+/*
+ * Copyright (c) 2014 The WebM project authors. All Rights Reserved.
+ *
+ * Use of this source code is governed by a BSD-style license
+ * that can be found in the LICENSE file in the root of the source
+ * tree. An additional intellectual property rights grant can be found
+ * in the file PATENTS. All contributing project authors may
+ * be found in the AUTHORS file in the root of the source tree.
+ */
+
+#include <string>
+
+#include "config/aom_config.h"
+#include "test/codec_factory.h"
+#include "test/decode_test_driver.h"
+#include "test/ivf_video_source.h"
+#include "test/md5_helper.h"
+#include "test/test_vectors.h"
+#include "test/util.h"
+#if CONFIG_WEBM_IO
+#include "test/webm_video_source.h"
+#endif
+
+namespace {
+
+const int kVideoNameParam = 1;
+
+struct ExternalFrameBuffer {
+ uint8_t *data;
+ size_t size;
+ int in_use;
+};
+
+// Class to manipulate a list of external frame buffers.
+class ExternalFrameBufferList {
+ public:
+ ExternalFrameBufferList()
+ : num_buffers_(0), num_used_buffers_(0), ext_fb_list_(NULL) {}
+
+ virtual ~ExternalFrameBufferList() {
+ for (int i = 0; i < num_buffers_; ++i) {
+ delete[] ext_fb_list_[i].data;
+ }
+ delete[] ext_fb_list_;
+ }
+
+ // Creates the list to hold the external buffers. Returns true on success.
+ bool CreateBufferList(int num_buffers) {
+ if (num_buffers < 0) return false;
+
+ num_buffers_ = num_buffers;
+ ext_fb_list_ = new ExternalFrameBuffer[num_buffers_];
+ EXPECT_TRUE(ext_fb_list_ != NULL);
+ memset(ext_fb_list_, 0, sizeof(ext_fb_list_[0]) * num_buffers_);
+ return true;
+ }
+
+ // Searches the frame buffer list for a free frame buffer. Makes sure
+ // that the frame buffer is at least |min_size| in bytes. Marks that the
+ // frame buffer is in use by libvpx. Finally sets |fb| to point to the
+ // external frame buffer. Returns < 0 on an error.
+ int GetFreeFrameBuffer(size_t min_size, aom_codec_frame_buffer_t *fb) {
+ EXPECT_TRUE(fb != NULL);
+ const int idx = FindFreeBufferIndex();
+ if (idx == num_buffers_) return -1;
+
+ if (ext_fb_list_[idx].size < min_size) {
+ delete[] ext_fb_list_[idx].data;
+ ext_fb_list_[idx].data = new uint8_t[min_size];
+ memset(ext_fb_list_[idx].data, 0, min_size);
+ ext_fb_list_[idx].size = min_size;
+ }
+
+ SetFrameBuffer(idx, fb);
+
+ num_used_buffers_++;
+ return 0;
+ }
+
+ // Test function that will not allocate any data for the frame buffer.
+ // Returns < 0 on an error.
+ int GetZeroFrameBuffer(size_t min_size, aom_codec_frame_buffer_t *fb) {
+ EXPECT_TRUE(fb != NULL);
+ const int idx = FindFreeBufferIndex();
+ if (idx == num_buffers_) return -1;
+
+ if (ext_fb_list_[idx].size < min_size) {
+ delete[] ext_fb_list_[idx].data;
+ ext_fb_list_[idx].data = NULL;
+ ext_fb_list_[idx].size = min_size;
+ }
+
+ SetFrameBuffer(idx, fb);
+ return 0;
+ }
+
+ // Marks the external frame buffer that |fb| is pointing to as free.
+ // Returns < 0 on an error.
+ int ReturnFrameBuffer(aom_codec_frame_buffer_t *fb) {
+ if (fb == NULL) {
+ EXPECT_TRUE(fb != NULL);
+ return -1;
+ }
+ ExternalFrameBuffer *const ext_fb =
+ reinterpret_cast<ExternalFrameBuffer *>(fb->priv);
+ if (ext_fb == NULL) {
+ EXPECT_TRUE(ext_fb != NULL);
+ return -1;
+ }
+ EXPECT_EQ(1, ext_fb->in_use);
+ ext_fb->in_use = 0;
+ num_used_buffers_--;
+ return 0;
+ }
+
+ // Checks that the ximage data is contained within the external frame buffer
+ // private data passed back in the ximage.
+ void CheckXImageFrameBuffer(const aom_image_t *img) {
+ if (img->fb_priv != NULL) {
+ const struct ExternalFrameBuffer *const ext_fb =
+ reinterpret_cast<ExternalFrameBuffer *>(img->fb_priv);
+
+ ASSERT_TRUE(img->planes[0] >= ext_fb->data &&
+ img->planes[0] < (ext_fb->data + ext_fb->size));
+ }
+ }
+
+ int num_used_buffers() const { return num_used_buffers_; }
+
+ private:
+ // Returns the index of the first free frame buffer. Returns |num_buffers_|
+ // if there are no free frame buffers.
+ int FindFreeBufferIndex() {
+ int i;
+ // Find a free frame buffer.
+ for (i = 0; i < num_buffers_; ++i) {
+ if (!ext_fb_list_[i].in_use) break;
+ }
+ return i;
+ }
+
+ // Sets |fb| to an external frame buffer. idx is the index into the frame
+ // buffer list.
+ void SetFrameBuffer(int idx, aom_codec_frame_buffer_t *fb) {
+ ASSERT_TRUE(fb != NULL);
+ fb->data = ext_fb_list_[idx].data;
+ fb->size = ext_fb_list_[idx].size;
+ ASSERT_EQ(0, ext_fb_list_[idx].in_use);
+ ext_fb_list_[idx].in_use = 1;
+ fb->priv = &ext_fb_list_[idx];
+ }
+
+ int num_buffers_;
+ int num_used_buffers_;
+ ExternalFrameBuffer *ext_fb_list_;
+};
+
+#if CONFIG_WEBM_IO
+
+// Callback used by libvpx to request the application to return a frame
+// buffer of at least |min_size| in bytes.
+int get_aom_frame_buffer(void *user_priv, size_t min_size,
+ aom_codec_frame_buffer_t *fb) {
+ ExternalFrameBufferList *const fb_list =
+ reinterpret_cast<ExternalFrameBufferList *>(user_priv);
+ return fb_list->GetFreeFrameBuffer(min_size, fb);
+}
+
+// Callback used by libvpx to tell the application that |fb| is not needed
+// anymore.
+int release_aom_frame_buffer(void *user_priv, aom_codec_frame_buffer_t *fb) {
+ ExternalFrameBufferList *const fb_list =
+ reinterpret_cast<ExternalFrameBufferList *>(user_priv);
+ return fb_list->ReturnFrameBuffer(fb);
+}
+
+// Callback will not allocate data for frame buffer.
+int get_aom_zero_frame_buffer(void *user_priv, size_t min_size,
+ aom_codec_frame_buffer_t *fb) {
+ ExternalFrameBufferList *const fb_list =
+ reinterpret_cast<ExternalFrameBufferList *>(user_priv);
+ return fb_list->GetZeroFrameBuffer(min_size, fb);
+}
+
+// Callback will allocate one less byte than |min_size|.
+int get_aom_one_less_byte_frame_buffer(void *user_priv, size_t min_size,
+ aom_codec_frame_buffer_t *fb) {
+ ExternalFrameBufferList *const fb_list =
+ reinterpret_cast<ExternalFrameBufferList *>(user_priv);
+ return fb_list->GetFreeFrameBuffer(min_size - 1, fb);
+}
+
+// Callback will not release the external frame buffer.
+int do_not_release_aom_frame_buffer(void *user_priv,
+ aom_codec_frame_buffer_t *fb) {
+ (void)user_priv;
+ (void)fb;
+ return 0;
+}
+
+#endif // CONFIG_WEBM_IO
+
+// Class for testing passing in external frame buffers to libaom.
+class ExternalFrameBufferMD5Test
+ : public ::libaom_test::DecoderTest,
+ public ::libaom_test::CodecTestWithParam<const char *> {
+ protected:
+ ExternalFrameBufferMD5Test()
+ : DecoderTest(GET_PARAM(::libaom_test::kCodecFactoryParam)),
+ md5_file_(NULL), num_buffers_(0) {}
+
+ virtual ~ExternalFrameBufferMD5Test() {
+ if (md5_file_ != NULL) fclose(md5_file_);
+ }
+
+ virtual void PreDecodeFrameHook(
+ const libaom_test::CompressedVideoSource &video,
+ libaom_test::Decoder *decoder) {
+ if (num_buffers_ > 0 && video.frame_number() == 0) {
+ // Have libvpx use frame buffers we create.
+ ASSERT_TRUE(fb_list_.CreateBufferList(num_buffers_));
+ ASSERT_EQ(AOM_CODEC_OK,
+ decoder->SetFrameBufferFunctions(GetAV1FrameBuffer,
+ ReleaseAV1FrameBuffer, this));
+ }
+ }
+
+ void OpenMD5File(const std::string &md5_file_name_) {
+ md5_file_ = libaom_test::OpenTestDataFile(md5_file_name_);
+ ASSERT_TRUE(md5_file_ != NULL)
+ << "Md5 file open failed. Filename: " << md5_file_name_;
+ }
+
+ virtual void DecompressedFrameHook(const aom_image_t &img,
+ const unsigned int frame_number) {
+ ASSERT_TRUE(md5_file_ != NULL);
+ char expected_md5[33];
+ char junk[128];
+
+ // Read correct md5 checksums.
+ const int res = fscanf(md5_file_, "%s %s", expected_md5, junk);
+ ASSERT_NE(EOF, res) << "Read md5 data failed";
+ expected_md5[32] = '\0';
+
+ ::libaom_test::MD5 md5_res;
+ md5_res.Add(&img);
+ const char *const actual_md5 = md5_res.Get();
+
+ // Check md5 match.
+ ASSERT_STREQ(expected_md5, actual_md5)
+ << "Md5 checksums don't match: frame number = " << frame_number;
+ }
+
+ // Callback to get a free external frame buffer. Return value < 0 is an
+ // error.
+ static int GetAV1FrameBuffer(void *user_priv, size_t min_size,
+ aom_codec_frame_buffer_t *fb) {
+ ExternalFrameBufferMD5Test *const md5Test =
+ reinterpret_cast<ExternalFrameBufferMD5Test *>(user_priv);
+ return md5Test->fb_list_.GetFreeFrameBuffer(min_size, fb);
+ }
+
+ // Callback to release an external frame buffer. Return value < 0 is an
+ // error.
+ static int ReleaseAV1FrameBuffer(void *user_priv,
+ aom_codec_frame_buffer_t *fb) {
+ ExternalFrameBufferMD5Test *const md5Test =
+ reinterpret_cast<ExternalFrameBufferMD5Test *>(user_priv);
+ return md5Test->fb_list_.ReturnFrameBuffer(fb);
+ }
+
+ void set_num_buffers(int num_buffers) { num_buffers_ = num_buffers; }
+ int num_buffers() const { return num_buffers_; }
+
+ private:
+ FILE *md5_file_;
+ int num_buffers_;
+ ExternalFrameBufferList fb_list_;
+};
+
+#if CONFIG_WEBM_IO
+const char kAV1TestFile[] = "av1-1-b8-01-size-226x226.ivf";
+const char kAV1NonRefTestFile[] = "av1-1-b8-01-size-226x226.ivf";
+
+// Class for testing passing in external frame buffers to libvpx.
+class ExternalFrameBufferTest : public ::testing::Test {
+ protected:
+ ExternalFrameBufferTest() : video_(NULL), decoder_(NULL), num_buffers_(0) {}
+
+ virtual void SetUp() {
+ video_ = new libaom_test::IVFVideoSource(kAV1TestFile);
+ ASSERT_TRUE(video_ != NULL);
+ video_->Init();
+ video_->Begin();
+
+ aom_codec_dec_cfg_t cfg = aom_codec_dec_cfg_t();
+ decoder_ = new libaom_test::AV1Decoder(cfg, 0);
+ ASSERT_TRUE(decoder_ != NULL);
+ }
+
+ virtual void TearDown() {
+ delete decoder_;
+ decoder_ = NULL;
+ delete video_;
+ video_ = NULL;
+ }
+
+ // Passes the external frame buffer information to libvpx.
+ aom_codec_err_t SetFrameBufferFunctions(
+ int num_buffers, aom_get_frame_buffer_cb_fn_t cb_get,
+ aom_release_frame_buffer_cb_fn_t cb_release) {
+ if (num_buffers > 0) {
+ num_buffers_ = num_buffers;
+ EXPECT_TRUE(fb_list_.CreateBufferList(num_buffers_));
+ }
+
+ return decoder_->SetFrameBufferFunctions(cb_get, cb_release, &fb_list_);
+ }
+
+ aom_codec_err_t DecodeOneFrame() {
+ const aom_codec_err_t res =
+ decoder_->DecodeFrame(video_->cxdata(), video_->frame_size());
+ CheckDecodedFrames();
+ if (res == AOM_CODEC_OK) video_->Next();
+ return res;
+ }
+
+ aom_codec_err_t DecodeRemainingFrames() {
+ for (; video_->cxdata() != NULL; video_->Next()) {
+ const aom_codec_err_t res =
+ decoder_->DecodeFrame(video_->cxdata(), video_->frame_size());
+ if (res != AOM_CODEC_OK) return res;
+ CheckDecodedFrames();
+ }
+ return AOM_CODEC_OK;
+ }
+
+ protected:
+ void CheckDecodedFrames() {
+ libaom_test::DxDataIterator dec_iter = decoder_->GetDxData();
+ const aom_image_t *img = NULL;
+
+ // Get decompressed data
+ while ((img = dec_iter.Next()) != NULL) {
+ fb_list_.CheckXImageFrameBuffer(img);
+ }
+ }
+
+ libaom_test::IVFVideoSource *video_;
+ libaom_test::AV1Decoder *decoder_;
+ int num_buffers_;
+ ExternalFrameBufferList fb_list_;
+};
+
+class ExternalFrameBufferNonRefTest : public ExternalFrameBufferTest {
+ protected:
+ virtual void SetUp() {
+ video_ = new libaom_test::IVFVideoSource(kAV1NonRefTestFile);
+ ASSERT_TRUE(video_ != NULL);
+ video_->Init();
+ video_->Begin();
+
+ aom_codec_dec_cfg_t cfg = aom_codec_dec_cfg_t();
+ decoder_ = new libaom_test::AV1Decoder(cfg, 0);
+ ASSERT_TRUE(decoder_ != NULL);
+ }
+
+ virtual void CheckFrameBufferRelease() {
+ TearDown();
+ ASSERT_EQ(0, fb_list_.num_used_buffers());
+ }
+};
+#endif // CONFIG_WEBM_IO
+
+// This test runs through the set of test vectors, and decodes them.
+// Libvpx will call into the application to allocate a frame buffer when
+// needed. The md5 checksums are computed for each frame in the video file.
+// If md5 checksums match the correct md5 data, then the test is passed.
+// Otherwise, the test failed.
+TEST_P(ExternalFrameBufferMD5Test, DISABLED_ExtFBMD5Match) {
+ const std::string filename = GET_PARAM(kVideoNameParam);
+
+ // Number of buffers equals #AOM_MAXIMUM_REF_BUFFERS +
+ // #AOM_MAXIMUM_WORK_BUFFERS + four jitter buffers.
+ const int jitter_buffers = 4;
+ const int num_buffers =
+ AOM_MAXIMUM_REF_BUFFERS + AOM_MAXIMUM_WORK_BUFFERS + jitter_buffers;
+ set_num_buffers(num_buffers);
+
+ // Open compressed video file.
+ testing::internal::scoped_ptr<libaom_test::CompressedVideoSource> video;
+ if (filename.substr(filename.length() - 3, 3) == "ivf") {
+ video.reset(new libaom_test::IVFVideoSource(filename));
+ } else {
+#if CONFIG_WEBM_IO
+ video.reset(new libaom_test::WebMVideoSource(filename));
+#else
+ fprintf(stderr, "WebM IO is disabled, skipping test vector %s\n",
+ filename.c_str());
+ return;
+#endif
+ }
+ ASSERT_TRUE(video.get() != NULL);
+ video->Init();
+
+ // Construct md5 file name.
+ const std::string md5_filename = filename + ".md5";
+ OpenMD5File(md5_filename);
+
+ // Decode frame, and check the md5 matching.
+ ASSERT_NO_FATAL_FAILURE(RunLoop(video.get()));
+}
+
+#if CONFIG_WEBM_IO
+TEST_F(ExternalFrameBufferTest, MinFrameBuffers) {
+ // Minimum number of external frame buffers for AV1 is
+ // #AOM_MAXIMUM_REF_BUFFERS + #AOM_MAXIMUM_WORK_BUFFERS.
+ const int num_buffers = AOM_MAXIMUM_REF_BUFFERS + AOM_MAXIMUM_WORK_BUFFERS;
+ ASSERT_EQ(AOM_CODEC_OK,
+ SetFrameBufferFunctions(num_buffers, get_aom_frame_buffer,
+ release_aom_frame_buffer));
+ ASSERT_EQ(AOM_CODEC_OK, DecodeRemainingFrames());
+}
+
+TEST_F(ExternalFrameBufferTest, EightJitterBuffers) {
+ // Number of buffers equals #AOM_MAXIMUM_REF_BUFFERS +
+ // #AOM_MAXIMUM_WORK_BUFFERS + eight jitter buffers.
+ const int jitter_buffers = 8;
+ const int num_buffers =
+ AOM_MAXIMUM_REF_BUFFERS + AOM_MAXIMUM_WORK_BUFFERS + jitter_buffers;
+ ASSERT_EQ(AOM_CODEC_OK,
+ SetFrameBufferFunctions(num_buffers, get_aom_frame_buffer,
+ release_aom_frame_buffer));
+ ASSERT_EQ(AOM_CODEC_OK, DecodeRemainingFrames());
+}
+
+TEST_F(ExternalFrameBufferTest, DISABLED_NotEnoughBuffers) {
+ // Minimum number of external frame buffers for AV1 is
+ // #AOM_MAXIMUM_REF_BUFFERS + #AOM_MAXIMUM_WORK_BUFFERS. Most files will
+ // only use 5 frame buffers at one time.
+ const int num_buffers = 2;
+ ASSERT_EQ(AOM_CODEC_OK,
+ SetFrameBufferFunctions(num_buffers, get_aom_frame_buffer,
+ release_aom_frame_buffer));
+ ASSERT_EQ(AOM_CODEC_OK, DecodeOneFrame());
+ // Only run this on long clips. Decoding a very short clip will return
+ // AOM_CODEC_OK even with only 2 buffers.
+ ASSERT_EQ(AOM_CODEC_MEM_ERROR, DecodeRemainingFrames());
+}
+
+TEST_F(ExternalFrameBufferTest, DISABLED_NoRelease) {
+ const int num_buffers = AOM_MAXIMUM_REF_BUFFERS + AOM_MAXIMUM_WORK_BUFFERS;
+ ASSERT_EQ(AOM_CODEC_OK,
+ SetFrameBufferFunctions(num_buffers, get_aom_frame_buffer,
+ do_not_release_aom_frame_buffer));
+ ASSERT_EQ(AOM_CODEC_OK, DecodeOneFrame());
+ ASSERT_EQ(AOM_CODEC_MEM_ERROR, DecodeRemainingFrames());
+}
+
+TEST_F(ExternalFrameBufferTest, NullRealloc) {
+ const int num_buffers = AOM_MAXIMUM_REF_BUFFERS + AOM_MAXIMUM_WORK_BUFFERS;
+ ASSERT_EQ(AOM_CODEC_OK,
+ SetFrameBufferFunctions(num_buffers, get_aom_zero_frame_buffer,
+ release_aom_frame_buffer));
+ ASSERT_EQ(AOM_CODEC_MEM_ERROR, DecodeOneFrame());
+}
+
+TEST_F(ExternalFrameBufferTest, ReallocOneLessByte) {
+ const int num_buffers = AOM_MAXIMUM_REF_BUFFERS + AOM_MAXIMUM_WORK_BUFFERS;
+ ASSERT_EQ(AOM_CODEC_OK, SetFrameBufferFunctions(
+ num_buffers, get_aom_one_less_byte_frame_buffer,
+ release_aom_frame_buffer));
+ ASSERT_EQ(AOM_CODEC_MEM_ERROR, DecodeOneFrame());
+}
+
+TEST_F(ExternalFrameBufferTest, NullGetFunction) {
+ const int num_buffers = AOM_MAXIMUM_REF_BUFFERS + AOM_MAXIMUM_WORK_BUFFERS;
+ ASSERT_EQ(
+ AOM_CODEC_INVALID_PARAM,
+ SetFrameBufferFunctions(num_buffers, NULL, release_aom_frame_buffer));
+}
+
+TEST_F(ExternalFrameBufferTest, NullReleaseFunction) {
+ const int num_buffers = AOM_MAXIMUM_REF_BUFFERS + AOM_MAXIMUM_WORK_BUFFERS;
+ ASSERT_EQ(AOM_CODEC_INVALID_PARAM,
+ SetFrameBufferFunctions(num_buffers, get_aom_frame_buffer, NULL));
+}
+
+TEST_F(ExternalFrameBufferTest, SetAfterDecode) {
+ const int num_buffers = AOM_MAXIMUM_REF_BUFFERS + AOM_MAXIMUM_WORK_BUFFERS;
+ ASSERT_EQ(AOM_CODEC_OK, DecodeOneFrame());
+ ASSERT_EQ(AOM_CODEC_ERROR,
+ SetFrameBufferFunctions(num_buffers, get_aom_frame_buffer,
+ release_aom_frame_buffer));
+}
+
+TEST_F(ExternalFrameBufferNonRefTest, ReleaseNonRefFrameBuffer) {
+ const int num_buffers = AOM_MAXIMUM_REF_BUFFERS + AOM_MAXIMUM_WORK_BUFFERS;
+ ASSERT_EQ(AOM_CODEC_OK,
+ SetFrameBufferFunctions(num_buffers, get_aom_frame_buffer,
+ release_aom_frame_buffer));
+ ASSERT_EQ(AOM_CODEC_OK, DecodeRemainingFrames());
+ CheckFrameBufferRelease();
+}
+#endif // CONFIG_WEBM_IO
+
+AV1_INSTANTIATE_TEST_CASE(
+ ExternalFrameBufferMD5Test,
+ ::testing::ValuesIn(libaom_test::kAV1TestVectors,
+ libaom_test::kAV1TestVectors +
+ libaom_test::kNumAV1TestVectors));
+} // namespace
diff --git a/third_party/aom/test/fft_test.cc b/third_party/aom/test/fft_test.cc
new file mode 100644
index 0000000000..e24e451a33
--- /dev/null
+++ b/third_party/aom/test/fft_test.cc
@@ -0,0 +1,256 @@
+/*
+ * Copyright (c) 2018, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <math.h>
+
+#include <algorithm>
+#include <complex>
+#include <vector>
+
+#include "aom_dsp/fft_common.h"
+#include "aom_mem/aom_mem.h"
+#include "av1/common/common.h"
+#include "config/aom_dsp_rtcd.h"
+#include "test/acm_random.h"
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+namespace {
+
+typedef void (*tform_fun_t)(const float *input, float *temp, float *output);
+
+// Simple 1D FFT implementation
+template <typename InputType>
+void fft(const InputType *data, std::complex<float> *result, int n) {
+ if (n == 1) {
+ result[0] = data[0];
+ return;
+ }
+ std::vector<InputType> temp(n);
+ for (int k = 0; k < n / 2; ++k) {
+ temp[k] = data[2 * k];
+ temp[n / 2 + k] = data[2 * k + 1];
+ }
+ fft(&temp[0], result, n / 2);
+ fft(&temp[n / 2], result + n / 2, n / 2);
+ for (int k = 0; k < n / 2; ++k) {
+ std::complex<float> w = std::complex<float>((float)cos(2. * PI * k / n),
+ (float)-sin(2. * PI * k / n));
+ std::complex<float> a = result[k];
+ std::complex<float> b = result[n / 2 + k];
+ result[k] = a + w * b;
+ result[n / 2 + k] = a - w * b;
+ }
+}
+
+void transpose(std::vector<std::complex<float> > *data, int n) {
+ for (int y = 0; y < n; ++y) {
+ for (int x = y + 1; x < n; ++x) {
+ std::swap((*data)[y * n + x], (*data)[x * n + y]);
+ }
+ }
+}
+
+// Simple 2D FFT implementation
+template <class InputType>
+std::vector<std::complex<float> > fft2d(const InputType *input, int n) {
+ std::vector<std::complex<float> > rowfft(n * n);
+ std::vector<std::complex<float> > result(n * n);
+ for (int y = 0; y < n; ++y) {
+ fft(input + y * n, &rowfft[y * n], n);
+ }
+ transpose(&rowfft, n);
+ for (int y = 0; y < n; ++y) {
+ fft(&rowfft[y * n], &result[y * n], n);
+ }
+ transpose(&result, n);
+ return result;
+}
+
+struct FFTTestArg {
+ int n;
+ void (*fft)(const float *input, float *temp, float *output);
+ FFTTestArg(int n_in, tform_fun_t fft_in) : n(n_in), fft(fft_in) {}
+};
+
+std::ostream &operator<<(std::ostream &os, const FFTTestArg &test_arg) {
+ return os << "fft_arg { n:" << test_arg.n << " fft:" << test_arg.fft << " }";
+}
+
+class FFT2DTest : public ::testing::TestWithParam<FFTTestArg> {
+ protected:
+ void SetUp() {
+ int n = GetParam().n;
+ input_ = (float *)aom_memalign(32, sizeof(*input_) * n * n);
+ temp_ = (float *)aom_memalign(32, sizeof(*temp_) * n * n);
+ output_ = (float *)aom_memalign(32, sizeof(*output_) * n * n * 2);
+ memset(input_, 0, sizeof(*input_) * n * n);
+ memset(temp_, 0, sizeof(*temp_) * n * n);
+ memset(output_, 0, sizeof(*output_) * n * n * 2);
+ }
+ void TearDown() {
+ aom_free(input_);
+ aom_free(temp_);
+ aom_free(output_);
+ }
+ float *input_;
+ float *temp_;
+ float *output_;
+};
+
+TEST_P(FFT2DTest, Correct) {
+ int n = GetParam().n;
+ for (int i = 0; i < n * n; ++i) {
+ input_[i] = 1;
+ std::vector<std::complex<float> > expected = fft2d<float>(&input_[0], n);
+ GetParam().fft(&input_[0], &temp_[0], &output_[0]);
+ for (int y = 0; y < n; ++y) {
+ for (int x = 0; x < (n / 2) + 1; ++x) {
+ EXPECT_NEAR(expected[y * n + x].real(), output_[2 * (y * n + x)], 1e-5);
+ EXPECT_NEAR(expected[y * n + x].imag(), output_[2 * (y * n + x) + 1],
+ 1e-5);
+ }
+ }
+ input_[i] = 0;
+ }
+}
+
+TEST_P(FFT2DTest, Benchmark) {
+ int n = GetParam().n;
+ float sum = 0;
+ for (int i = 0; i < 1000 * (64 - n); ++i) {
+ input_[i % (n * n)] = 1;
+ GetParam().fft(&input_[0], &temp_[0], &output_[0]);
+ sum += output_[0];
+ input_[i % (n * n)] = 0;
+ }
+}
+
+INSTANTIATE_TEST_CASE_P(C, FFT2DTest,
+ ::testing::Values(FFTTestArg(2, aom_fft2x2_float_c),
+ FFTTestArg(4, aom_fft4x4_float_c),
+ FFTTestArg(8, aom_fft8x8_float_c),
+ FFTTestArg(16, aom_fft16x16_float_c),
+ FFTTestArg(32,
+ aom_fft32x32_float_c)));
+#if ARCH_X86 || ARCH_X86_64
+#if HAVE_SSE2
+INSTANTIATE_TEST_CASE_P(
+ SSE2, FFT2DTest,
+ ::testing::Values(FFTTestArg(4, aom_fft4x4_float_sse2),
+ FFTTestArg(8, aom_fft8x8_float_sse2),
+ FFTTestArg(16, aom_fft16x16_float_sse2),
+ FFTTestArg(32, aom_fft32x32_float_sse2)));
+#endif // HAVE_SSE2
+#if HAVE_AVX2
+INSTANTIATE_TEST_CASE_P(
+ AVX2, FFT2DTest,
+ ::testing::Values(FFTTestArg(8, aom_fft8x8_float_avx2),
+ FFTTestArg(16, aom_fft16x16_float_avx2),
+ FFTTestArg(32, aom_fft32x32_float_avx2)));
+#endif // HAVE_AVX2
+#endif // ARCH_X86 || ARCH_X86_64
+
+struct IFFTTestArg {
+ int n;
+ tform_fun_t ifft;
+ IFFTTestArg(int n_in, tform_fun_t ifft_in) : n(n_in), ifft(ifft_in) {}
+};
+
+std::ostream &operator<<(std::ostream &os, const IFFTTestArg &test_arg) {
+ return os << "ifft_arg { n:" << test_arg.n << " fft:" << test_arg.ifft
+ << " }";
+}
+
+class IFFT2DTest : public ::testing::TestWithParam<IFFTTestArg> {
+ protected:
+ void SetUp() {
+ int n = GetParam().n;
+ input_ = (float *)aom_memalign(32, sizeof(*input_) * n * n * 2);
+ temp_ = (float *)aom_memalign(32, sizeof(*temp_) * n * n * 2);
+ output_ = (float *)aom_memalign(32, sizeof(*output_) * n * n);
+ memset(input_, 0, sizeof(*input_) * n * n * 2);
+ memset(temp_, 0, sizeof(*temp_) * n * n * 2);
+ memset(output_, 0, sizeof(*output_) * n * n);
+ }
+ void TearDown() {
+ aom_free(input_);
+ aom_free(temp_);
+ aom_free(output_);
+ }
+ float *input_;
+ float *temp_;
+ float *output_;
+};
+
+TEST_P(IFFT2DTest, Correctness) {
+ int n = GetParam().n;
+ ASSERT_GE(n, 2);
+ std::vector<float> expected(n * n);
+ std::vector<float> actual(n * n);
+ // Do forward transform then invert to make sure we get back expected
+ for (int y = 0; y < n; ++y) {
+ for (int x = 0; x < n; ++x) {
+ expected[y * n + x] = 1;
+ std::vector<std::complex<float> > input_c = fft2d(&expected[0], n);
+ for (int i = 0; i < n * n; ++i) {
+ input_[2 * i + 0] = input_c[i].real();
+ input_[2 * i + 1] = input_c[i].imag();
+ }
+ GetParam().ifft(&input_[0], &temp_[0], &output_[0]);
+
+ for (int yy = 0; yy < n; ++yy) {
+ for (int xx = 0; xx < n; ++xx) {
+ EXPECT_NEAR(expected[yy * n + xx], output_[yy * n + xx] / (n * n),
+ 1e-5);
+ }
+ }
+ expected[y * n + x] = 0;
+ }
+ }
+};
+
+TEST_P(IFFT2DTest, Benchmark) {
+ int n = GetParam().n;
+ float sum = 0;
+ for (int i = 0; i < 1000 * (64 - n); ++i) {
+ input_[i % (n * n)] = 1;
+ GetParam().ifft(&input_[0], &temp_[0], &output_[0]);
+ sum += output_[0];
+ input_[i % (n * n)] = 0;
+ }
+}
+INSTANTIATE_TEST_CASE_P(
+ C, IFFT2DTest,
+ ::testing::Values(IFFTTestArg(2, aom_ifft2x2_float_c),
+ IFFTTestArg(4, aom_ifft4x4_float_c),
+ IFFTTestArg(8, aom_ifft8x8_float_c),
+ IFFTTestArg(16, aom_ifft16x16_float_c),
+ IFFTTestArg(32, aom_ifft32x32_float_c)));
+#if ARCH_X86 || ARCH_X86_64
+#if HAVE_SSE2
+INSTANTIATE_TEST_CASE_P(
+ SSE2, IFFT2DTest,
+ ::testing::Values(IFFTTestArg(4, aom_ifft4x4_float_sse2),
+ IFFTTestArg(8, aom_ifft8x8_float_sse2),
+ IFFTTestArg(16, aom_ifft16x16_float_sse2),
+ IFFTTestArg(32, aom_ifft32x32_float_sse2)));
+#endif // HAVE_SSE2
+
+#if HAVE_AVX2
+INSTANTIATE_TEST_CASE_P(
+ AVX2, IFFT2DTest,
+ ::testing::Values(IFFTTestArg(8, aom_ifft8x8_float_avx2),
+ IFFTTestArg(16, aom_ifft16x16_float_avx2),
+ IFFTTestArg(32, aom_ifft32x32_float_avx2)));
+#endif // HAVE_AVX2
+#endif // ARCH_X86 || ARCH_X86_64
+
+} // namespace
diff --git a/third_party/aom/test/film_grain_table_test.cc b/third_party/aom/test/film_grain_table_test.cc
new file mode 100644
index 0000000000..524d67d7bc
--- /dev/null
+++ b/third_party/aom/test/film_grain_table_test.cc
@@ -0,0 +1,250 @@
+/*
+ * Copyright (c) 2018, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <string>
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "aom_dsp/grain_table.h"
+#include "aom/internal/aom_codec_internal.h"
+#include "av1/encoder/grain_test_vectors.h"
+#include "test/video_source.h"
+
+void grain_equal(const aom_film_grain_t *expected,
+ const aom_film_grain_t *actual) {
+ EXPECT_EQ(expected->apply_grain, actual->apply_grain);
+ EXPECT_EQ(expected->update_parameters, actual->update_parameters);
+ if (!expected->update_parameters) return;
+ EXPECT_EQ(expected->num_y_points, actual->num_y_points);
+ EXPECT_EQ(expected->num_cb_points, actual->num_cb_points);
+ EXPECT_EQ(expected->num_cr_points, actual->num_cr_points);
+ EXPECT_EQ(0, memcmp(expected->scaling_points_y, actual->scaling_points_y,
+ expected->num_y_points *
+ sizeof(expected->scaling_points_y[0])));
+ EXPECT_EQ(0, memcmp(expected->scaling_points_cb, actual->scaling_points_cb,
+ expected->num_cb_points *
+ sizeof(expected->scaling_points_cb[0])));
+ EXPECT_EQ(0, memcmp(expected->scaling_points_cr, actual->scaling_points_cr,
+ expected->num_cr_points *
+ sizeof(expected->scaling_points_cr[0])));
+ EXPECT_EQ(expected->scaling_shift, actual->scaling_shift);
+ EXPECT_EQ(expected->ar_coeff_lag, actual->ar_coeff_lag);
+ EXPECT_EQ(expected->ar_coeff_shift, actual->ar_coeff_shift);
+
+ const int num_pos_luma =
+ 2 * expected->ar_coeff_lag * (expected->ar_coeff_lag + 1);
+ const int num_pos_chroma = num_pos_luma;
+ EXPECT_EQ(0, memcmp(expected->ar_coeffs_y, actual->ar_coeffs_y,
+ sizeof(expected->ar_coeffs_y[0]) * num_pos_luma));
+ if (actual->num_cb_points || actual->chroma_scaling_from_luma) {
+ EXPECT_EQ(0, memcmp(expected->ar_coeffs_cb, actual->ar_coeffs_cb,
+ sizeof(expected->ar_coeffs_cb[0]) * num_pos_chroma));
+ }
+ if (actual->num_cr_points || actual->chroma_scaling_from_luma) {
+ EXPECT_EQ(0, memcmp(expected->ar_coeffs_cr, actual->ar_coeffs_cr,
+ sizeof(expected->ar_coeffs_cr[0]) * num_pos_chroma));
+ }
+ EXPECT_EQ(expected->overlap_flag, actual->overlap_flag);
+ EXPECT_EQ(expected->chroma_scaling_from_luma,
+ actual->chroma_scaling_from_luma);
+ EXPECT_EQ(expected->grain_scale_shift, actual->grain_scale_shift);
+ // EXPECT_EQ(expected->random_seed, actual->random_seed);
+
+ // clip_to_restricted and bit_depth aren't written
+ if (expected->num_cb_points) {
+ EXPECT_EQ(expected->cb_mult, actual->cb_mult);
+ EXPECT_EQ(expected->cb_luma_mult, actual->cb_luma_mult);
+ EXPECT_EQ(expected->cb_offset, actual->cb_offset);
+ }
+ if (expected->num_cr_points) {
+ EXPECT_EQ(expected->cr_mult, actual->cr_mult);
+ EXPECT_EQ(expected->cr_luma_mult, actual->cr_luma_mult);
+ EXPECT_EQ(expected->cr_offset, actual->cr_offset);
+ }
+}
+
+TEST(FilmGrainTableTest, AddAndLookupSingleSegment) {
+ aom_film_grain_table_t table;
+ memset(&table, 0, sizeof(table));
+
+ aom_film_grain_t grain;
+ EXPECT_FALSE(aom_film_grain_table_lookup(&table, 0, 1000, false, &grain));
+
+ aom_film_grain_table_append(&table, 1000, 2000, film_grain_test_vectors + 0);
+ EXPECT_FALSE(aom_film_grain_table_lookup(&table, 0, 1000, false, &grain));
+ EXPECT_FALSE(aom_film_grain_table_lookup(&table, 2000, 3000, false, &grain));
+
+ EXPECT_TRUE(aom_film_grain_table_lookup(&table, 1000, 2000, false, &grain));
+
+ grain.bit_depth = film_grain_test_vectors[0].bit_depth;
+ EXPECT_EQ(0, memcmp(&grain, film_grain_test_vectors + 0, sizeof(table)));
+
+ // Extend the existing segment
+ aom_film_grain_table_append(&table, 2000, 3000, film_grain_test_vectors + 0);
+ EXPECT_EQ(0, table.head->next);
+
+ // Lookup and remove and check that the entry is no longer there
+ EXPECT_TRUE(aom_film_grain_table_lookup(&table, 1000, 2000, true, &grain));
+ EXPECT_FALSE(aom_film_grain_table_lookup(&table, 1000, 2000, false, &grain));
+
+ EXPECT_TRUE(aom_film_grain_table_lookup(&table, 2000, 3000, true, &grain));
+ EXPECT_FALSE(aom_film_grain_table_lookup(&table, 2000, 3000, false, &grain));
+
+ EXPECT_EQ(0, table.head);
+ EXPECT_EQ(0, table.tail);
+ aom_film_grain_table_free(&table);
+}
+
+TEST(FilmGrainTableTest, SplitSingleSegment) {
+ aom_film_grain_table_t table;
+ aom_film_grain_t grain;
+ memset(&table, 0, sizeof(table));
+
+ aom_film_grain_table_append(&table, 0, 1000, film_grain_test_vectors + 0);
+
+ // Test lookup and remove that adjusts start time
+ EXPECT_TRUE(aom_film_grain_table_lookup(&table, 0, 100, true, &grain));
+ EXPECT_EQ(NULL, table.head->next);
+ EXPECT_EQ(100, table.head->start_time);
+
+ // Test lookup and remove that adjusts end time
+ EXPECT_TRUE(aom_film_grain_table_lookup(&table, 900, 1000, true, &grain));
+ EXPECT_EQ(NULL, table.head->next);
+ EXPECT_EQ(100, table.head->start_time);
+ EXPECT_EQ(900, table.head->end_time);
+
+ // Test lookup and remove that splits the first entry
+ EXPECT_TRUE(aom_film_grain_table_lookup(&table, 400, 600, true, &grain));
+ EXPECT_EQ(100, table.head->start_time);
+ EXPECT_EQ(400, table.head->end_time);
+
+ ASSERT_NE((void *)NULL, table.head->next);
+ EXPECT_EQ(table.tail, table.head->next);
+ EXPECT_EQ(600, table.head->next->start_time);
+ EXPECT_EQ(900, table.head->next->end_time);
+
+ aom_film_grain_table_free(&table);
+}
+
+TEST(FilmGrainTableTest, AddAndLookupMultipleSegments) {
+ aom_film_grain_table_t table;
+ memset(&table, 0, sizeof(table));
+
+ aom_film_grain_t grain;
+ const int kNumTestVectors =
+ sizeof(film_grain_test_vectors) / sizeof(film_grain_test_vectors[0]);
+ for (int i = 0; i < kNumTestVectors; ++i) {
+ aom_film_grain_table_append(&table, i * 1000, (i + 1) * 1000,
+ film_grain_test_vectors + i);
+ }
+
+ for (int i = kNumTestVectors - 1; i >= 0; --i) {
+ EXPECT_TRUE(aom_film_grain_table_lookup(&table, i * 1000, (i + 1) * 1000,
+ true, &grain));
+ grain_equal(film_grain_test_vectors + i, &grain);
+ EXPECT_FALSE(aom_film_grain_table_lookup(&table, i * 1000, (i + 1) * 1000,
+ true, &grain));
+ }
+
+ // Verify that all the data has been removed
+ for (int i = 0; i < kNumTestVectors; ++i) {
+ EXPECT_FALSE(aom_film_grain_table_lookup(&table, i * 1000, (i + 1) * 1000,
+ true, &grain));
+ }
+ aom_film_grain_table_free(&table);
+}
+
+class FilmGrainTableIOTest : public ::testing::Test {
+ protected:
+ void SetUp() { memset(&error_, 0, sizeof(error_)); }
+ struct aom_internal_error_info error_;
+};
+
+TEST_F(FilmGrainTableIOTest, ReadMissingFile) {
+ aom_film_grain_table_t table;
+ memset(&table, 0, sizeof(table));
+ ASSERT_EQ(AOM_CODEC_ERROR, aom_film_grain_table_read(
+ &table, "/path/to/missing/file", &error_));
+}
+
+TEST_F(FilmGrainTableIOTest, ReadTruncatedFile) {
+ aom_film_grain_table_t table;
+ memset(&table, 0, sizeof(table));
+
+ std::string grain_file;
+ FILE *file = libaom_test::GetTempOutFile(&grain_file);
+ fwrite("deadbeef", 8, 1, file);
+ fclose(file);
+ ASSERT_EQ(AOM_CODEC_ERROR,
+ aom_film_grain_table_read(&table, grain_file.c_str(), &error_));
+ EXPECT_EQ(0, remove(grain_file.c_str()));
+}
+
+TEST_F(FilmGrainTableIOTest, RoundTripReadWrite) {
+ aom_film_grain_table_t table;
+ memset(&table, 0, sizeof(table));
+
+ aom_film_grain_t expected_grain[16];
+ const int kNumTestVectors =
+ sizeof(film_grain_test_vectors) / sizeof(film_grain_test_vectors[0]);
+ for (int i = 0; i < kNumTestVectors; ++i) {
+ expected_grain[i] = film_grain_test_vectors[i];
+ expected_grain[i].random_seed = i;
+ expected_grain[i].update_parameters = i % 2;
+ expected_grain[i].apply_grain = (i + 1) % 2;
+ expected_grain[i].bit_depth = 0;
+ aom_film_grain_table_append(&table, i * 1000, (i + 1) * 1000,
+ expected_grain + i);
+ }
+ std::string grain_file;
+ fclose(libaom_test::GetTempOutFile(&grain_file));
+ ASSERT_EQ(AOM_CODEC_OK,
+ aom_film_grain_table_write(&table, grain_file.c_str(), &error_));
+ aom_film_grain_table_free(&table);
+
+ memset(&table, 0, sizeof(table));
+ ASSERT_EQ(AOM_CODEC_OK,
+ aom_film_grain_table_read(&table, grain_file.c_str(), &error_));
+ for (int i = 0; i < kNumTestVectors; ++i) {
+ aom_film_grain_t grain;
+ EXPECT_TRUE(aom_film_grain_table_lookup(&table, i * 1000, (i + 1) * 1000,
+ true, &grain));
+ grain_equal(expected_grain + i, &grain);
+ }
+ aom_film_grain_table_free(&table);
+ EXPECT_EQ(0, remove(grain_file.c_str()));
+}
+
+TEST_F(FilmGrainTableIOTest, RoundTripSplit) {
+ std::string grain_file;
+ fclose(libaom_test::GetTempOutFile(&grain_file));
+
+ aom_film_grain_table_t table;
+ memset(&table, 0, sizeof(table));
+
+ aom_film_grain_t grain = film_grain_test_vectors[0];
+ aom_film_grain_table_append(&table, 0, 3000, &grain);
+ ASSERT_TRUE(aom_film_grain_table_lookup(&table, 1000, 2000, true, &grain));
+ ASSERT_TRUE(aom_film_grain_table_lookup(&table, 0, 1000, false, &grain));
+ EXPECT_FALSE(aom_film_grain_table_lookup(&table, 1000, 2000, false, &grain));
+ ASSERT_TRUE(aom_film_grain_table_lookup(&table, 2000, 3000, false, &grain));
+ ASSERT_EQ(AOM_CODEC_OK,
+ aom_film_grain_table_write(&table, grain_file.c_str(), &error_));
+ aom_film_grain_table_free(&table);
+
+ memset(&table, 0, sizeof(table));
+ ASSERT_EQ(AOM_CODEC_OK,
+ aom_film_grain_table_read(&table, grain_file.c_str(), &error_));
+ ASSERT_TRUE(aom_film_grain_table_lookup(&table, 0, 1000, false, &grain));
+ ASSERT_FALSE(aom_film_grain_table_lookup(&table, 1000, 2000, false, &grain));
+ ASSERT_TRUE(aom_film_grain_table_lookup(&table, 2000, 3000, false, &grain));
+ aom_film_grain_table_free(&table);
+
+ EXPECT_EQ(0, remove(grain_file.c_str()));
+}
diff --git a/third_party/aom/test/filterintra_test.cc b/third_party/aom/test/filterintra_test.cc
new file mode 100644
index 0000000000..5971349406
--- /dev/null
+++ b/third_party/aom/test/filterintra_test.cc
@@ -0,0 +1,134 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/av1_rtcd.h"
+
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "test/util.h"
+#include "av1/common/enums.h"
+
+namespace {
+
+using ::testing::tuple;
+using libaom_test::ACMRandom;
+
+typedef void (*Predictor)(uint8_t *dst, ptrdiff_t stride, TX_SIZE tx_size,
+ const uint8_t *above, const uint8_t *left, int mode);
+
+// Note:
+// Test parameter list:
+// Reference predictor, optimized predictor, prediction mode, tx size
+//
+typedef tuple<Predictor, Predictor, int> PredFuncMode;
+typedef tuple<PredFuncMode, TX_SIZE> PredParams;
+
+const int MaxTxSize = 32;
+
+const int MaxTestNum = 100;
+
+class AV1FilterIntraPredTest : public ::testing::TestWithParam<PredParams> {
+ public:
+ virtual ~AV1FilterIntraPredTest() {}
+ virtual void SetUp() {
+ PredFuncMode funcMode = GET_PARAM(0);
+ predFuncRef_ = ::testing::get<0>(funcMode);
+ predFunc_ = ::testing::get<1>(funcMode);
+ mode_ = ::testing::get<2>(funcMode);
+ txSize_ = GET_PARAM(1);
+
+ alloc_ = new uint8_t[2 * MaxTxSize + 1];
+ predRef_ = new uint8_t[MaxTxSize * MaxTxSize];
+ pred_ = new uint8_t[MaxTxSize * MaxTxSize];
+ }
+
+ virtual void TearDown() {
+ delete[] alloc_;
+ delete[] predRef_;
+ delete[] pred_;
+ libaom_test::ClearSystemState();
+ }
+
+ protected:
+ void RunTest() const {
+ int tstIndex = 0;
+ int stride = tx_size_wide[txSize_];
+ uint8_t *left = alloc_;
+ uint8_t *above = alloc_ + MaxTxSize;
+ while (tstIndex < MaxTestNum) {
+ PrepareBuffer();
+ predFuncRef_(predRef_, stride, txSize_, &above[1], left, mode_);
+ ASM_REGISTER_STATE_CHECK(
+ predFunc_(pred_, stride, txSize_, &above[1], left, mode_));
+ DiffPred(tstIndex);
+ tstIndex += 1;
+ }
+ }
+
+ private:
+ void PrepareBuffer() const {
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ int i = 0;
+ while (i < (2 * MaxTxSize + 1)) {
+ alloc_[i] = rnd.Rand8();
+ i++;
+ }
+ }
+
+ void DiffPred(int testNum) const {
+ int i = 0;
+ while (i < tx_size_wide[txSize_] * tx_size_high[txSize_]) {
+ EXPECT_EQ(predRef_[i], pred_[i]) << "Error at position: " << i << " "
+ << "Tx size: " << tx_size_wide[txSize_]
+ << "x" << tx_size_high[txSize_] << " "
+ << "Test number: " << testNum;
+ i++;
+ }
+ }
+
+ Predictor predFunc_;
+ Predictor predFuncRef_;
+ int mode_;
+ TX_SIZE txSize_;
+ uint8_t *alloc_;
+ uint8_t *pred_;
+ uint8_t *predRef_;
+};
+
+TEST_P(AV1FilterIntraPredTest, BitExactCheck) { RunTest(); }
+
+using ::testing::make_tuple;
+
+const PredFuncMode kPredFuncMdArray[] = {
+ make_tuple(&av1_filter_intra_predictor_c, &av1_filter_intra_predictor_sse4_1,
+ FILTER_DC_PRED),
+ make_tuple(&av1_filter_intra_predictor_c, &av1_filter_intra_predictor_sse4_1,
+ FILTER_V_PRED),
+ make_tuple(&av1_filter_intra_predictor_c, &av1_filter_intra_predictor_sse4_1,
+ FILTER_H_PRED),
+ make_tuple(&av1_filter_intra_predictor_c, &av1_filter_intra_predictor_sse4_1,
+ FILTER_D157_PRED),
+ make_tuple(&av1_filter_intra_predictor_c, &av1_filter_intra_predictor_sse4_1,
+ FILTER_PAETH_PRED),
+};
+
+const TX_SIZE kTxSize[] = { TX_4X4, TX_8X8, TX_16X16, TX_32X32, TX_4X8,
+ TX_8X4, TX_8X16, TX_16X8, TX_16X32, TX_32X16,
+ TX_4X16, TX_16X4, TX_8X32, TX_32X8 };
+
+INSTANTIATE_TEST_CASE_P(
+ SSE4_1, AV1FilterIntraPredTest,
+ ::testing::Combine(::testing::ValuesIn(kPredFuncMdArray),
+ ::testing::ValuesIn(kTxSize)));
+} // namespace
diff --git a/third_party/aom/test/frame_size_tests.cc b/third_party/aom/test/frame_size_tests.cc
new file mode 100644
index 0000000000..eaf0b8370a
--- /dev/null
+++ b/third_party/aom/test/frame_size_tests.cc
@@ -0,0 +1,78 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/codec_factory.h"
+#include "test/video_source.h"
+
+namespace {
+
+class AV1FrameSizeTests : public ::testing::Test,
+ public ::libaom_test::EncoderTest {
+ protected:
+ AV1FrameSizeTests()
+ : EncoderTest(&::libaom_test::kAV1), expected_res_(AOM_CODEC_OK) {}
+ virtual ~AV1FrameSizeTests() {}
+
+ virtual void SetUp() {
+ InitializeConfig();
+ SetMode(::libaom_test::kRealTime);
+ }
+
+ virtual bool HandleDecodeResult(const aom_codec_err_t res_dec,
+ libaom_test::Decoder *decoder) {
+ EXPECT_EQ(expected_res_, res_dec) << decoder->DecodeError();
+ return !::testing::Test::HasFailure();
+ }
+
+ virtual void PreEncodeFrameHook(::libaom_test::VideoSource *video,
+ ::libaom_test::Encoder *encoder) {
+ if (video->frame() == 1) {
+ encoder->Control(AOME_SET_CPUUSED, 7);
+ encoder->Control(AOME_SET_ENABLEAUTOALTREF, 1);
+ encoder->Control(AOME_SET_ARNR_MAXFRAMES, 7);
+ encoder->Control(AOME_SET_ARNR_STRENGTH, 5);
+ }
+ }
+
+ int expected_res_;
+};
+
+#if CONFIG_SIZE_LIMIT
+TEST_F(AV1FrameSizeTests, TestInvalidSizes) {
+ ::libaom_test::RandomVideoSource video;
+
+ video.SetSize(DECODE_WIDTH_LIMIT + 16, DECODE_HEIGHT_LIMIT + 16);
+ video.set_limit(2);
+ expected_res_ = AOM_CODEC_CORRUPT_FRAME;
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+}
+
+TEST_F(AV1FrameSizeTests, LargeValidSizes) {
+ ::libaom_test::RandomVideoSource video;
+
+ video.SetSize(DECODE_WIDTH_LIMIT, DECODE_HEIGHT_LIMIT);
+ video.set_limit(2);
+ expected_res_ = AOM_CODEC_OK;
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+}
+#endif
+
+TEST_F(AV1FrameSizeTests, OneByOneVideo) {
+ ::libaom_test::RandomVideoSource video;
+
+ video.SetSize(1, 1);
+ video.set_limit(2);
+ expected_res_ = AOM_CODEC_OK;
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+}
+#undef ONE_BY_ONE_VIDEO_NAME
+} // namespace
diff --git a/third_party/aom/test/function_equivalence_test.h b/third_party/aom/test/function_equivalence_test.h
new file mode 100644
index 0000000000..f270689023
--- /dev/null
+++ b/third_party/aom/test/function_equivalence_test.h
@@ -0,0 +1,69 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#ifndef AOM_TEST_FUNCTION_EQUIVALENCE_TEST_H_
+#define AOM_TEST_FUNCTION_EQUIVALENCE_TEST_H_
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/util.h"
+
+using libaom_test::ACMRandom;
+
+namespace libaom_test {
+// Base class for tests that compare 2 implementations of the same function
+// for equivalence. The template parameter should be pointer to a function
+// that is being tested.
+//
+// The test takes a 3-parameters encapsulating struct 'FuncParam', containing:
+// - Pointer to reference function
+// - Pointer to tested function
+// - Integer bit depth (default to 0).
+//
+// These values are then accessible in the tests as member of params_:
+// params_.ref_func, params_.tst_func, and params_.bit_depth.
+//
+
+template <typename T>
+struct FuncParam {
+ FuncParam(T ref = NULL, T tst = NULL, int bit_depth = 0)
+ : ref_func(ref), tst_func(tst), bit_depth(bit_depth) {}
+ T ref_func;
+ T tst_func;
+ int bit_depth;
+};
+
+template <typename T>
+std::ostream &operator<<(std::ostream &os, const FuncParam<T> &p) {
+ return os << "bit_depth:" << p.bit_depth
+ << " function:" << reinterpret_cast<const void *>(p.ref_func)
+ << " function:" << reinterpret_cast<const void *>(p.tst_func);
+}
+
+template <typename T>
+class FunctionEquivalenceTest : public ::testing::TestWithParam<FuncParam<T> > {
+ public:
+ FunctionEquivalenceTest() : rng_(ACMRandom::DeterministicSeed()) {}
+
+ virtual ~FunctionEquivalenceTest() {}
+
+ virtual void SetUp() { params_ = this->GetParam(); }
+
+ virtual void TearDown() { libaom_test::ClearSystemState(); }
+
+ protected:
+ ACMRandom rng_;
+ FuncParam<T> params_;
+};
+
+} // namespace libaom_test
+#endif // AOM_TEST_FUNCTION_EQUIVALENCE_TEST_H_
diff --git a/third_party/aom/test/fwht4x4_test.cc b/third_party/aom/test/fwht4x4_test.cc
new file mode 100644
index 0000000000..c8d98c5198
--- /dev/null
+++ b/third_party/aom/test/fwht4x4_test.cc
@@ -0,0 +1,98 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <math.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/av1_rtcd.h"
+#include "config/aom_dsp_rtcd.h"
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "test/transform_test_base.h"
+#include "test/util.h"
+#include "av1/common/entropy.h"
+#include "aom/aom_codec.h"
+#include "aom/aom_integer.h"
+#include "aom_ports/mem.h"
+
+using libaom_test::ACMRandom;
+
+namespace {
+typedef void (*FdctFunc)(const int16_t *in, tran_low_t *out, int stride);
+typedef void (*IdctFunc)(const tran_low_t *in, uint8_t *out, int stride);
+
+using libaom_test::FhtFunc;
+
+typedef ::testing::tuple<FdctFunc, IdctFunc, TX_TYPE, aom_bit_depth_t, int>
+ Dct4x4Param;
+
+void fwht4x4_ref(const int16_t *in, tran_low_t *out, int stride,
+ TxfmParam * /*txfm_param*/) {
+ av1_fwht4x4_c(in, out, stride);
+}
+
+void iwht4x4_10(const tran_low_t *in, uint8_t *out, int stride) {
+ av1_highbd_iwht4x4_16_add_c(in, out, stride, 10);
+}
+
+void iwht4x4_12(const tran_low_t *in, uint8_t *out, int stride) {
+ av1_highbd_iwht4x4_16_add_c(in, out, stride, 12);
+}
+
+class Trans4x4WHT : public libaom_test::TransformTestBase,
+ public ::testing::TestWithParam<Dct4x4Param> {
+ public:
+ virtual ~Trans4x4WHT() {}
+
+ virtual void SetUp() {
+ fwd_txfm_ = GET_PARAM(0);
+ inv_txfm_ = GET_PARAM(1);
+ pitch_ = 4;
+ height_ = 4;
+ fwd_txfm_ref = fwht4x4_ref;
+ bit_depth_ = GET_PARAM(3);
+ mask_ = (1 << bit_depth_) - 1;
+ num_coeffs_ = GET_PARAM(4);
+ }
+ virtual void TearDown() { libaom_test::ClearSystemState(); }
+
+ protected:
+ void RunFwdTxfm(const int16_t *in, tran_low_t *out, int stride) {
+ fwd_txfm_(in, out, stride);
+ }
+ void RunInvTxfm(const tran_low_t *out, uint8_t *dst, int stride) {
+ inv_txfm_(out, dst, stride);
+ }
+
+ FdctFunc fwd_txfm_;
+ IdctFunc inv_txfm_;
+};
+
+TEST_P(Trans4x4WHT, AccuracyCheck) { RunAccuracyCheck(0, 0.00001); }
+
+TEST_P(Trans4x4WHT, CoeffCheck) { RunCoeffCheck(); }
+
+TEST_P(Trans4x4WHT, MemCheck) { RunMemCheck(); }
+
+TEST_P(Trans4x4WHT, InvAccuracyCheck) { RunInvAccuracyCheck(0); }
+using ::testing::make_tuple;
+
+INSTANTIATE_TEST_CASE_P(
+ C, Trans4x4WHT,
+ ::testing::Values(make_tuple(&av1_highbd_fwht4x4_c, &iwht4x4_10, DCT_DCT,
+ AOM_BITS_10, 16),
+ make_tuple(&av1_highbd_fwht4x4_c, &iwht4x4_12, DCT_DCT,
+ AOM_BITS_12, 16)));
+} // namespace
diff --git a/third_party/aom/test/gviz_api.py b/third_party/aom/test/gviz_api.py
new file mode 100755
index 0000000000..d3a443dabf
--- /dev/null
+++ b/third_party/aom/test/gviz_api.py
@@ -0,0 +1,1087 @@
+#!/usr/bin/python
+#
+# Copyright (c) 2016, Alliance for Open Media. All rights reserved
+#
+# This source code is subject to the terms of the BSD 2 Clause License and
+# the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+# was not distributed with this source code in the LICENSE file, you can
+# obtain it at www.aomedia.org/license/software. If the Alliance for Open
+# Media Patent License 1.0 was not distributed with this source code in the
+# PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+#
+
+"""Converts Python data into data for Google Visualization API clients.
+
+This library can be used to create a google.visualization.DataTable usable by
+visualizations built on the Google Visualization API. Output formats are raw
+JSON, JSON response, JavaScript, CSV, and HTML table.
+
+See http://code.google.com/apis/visualization/ for documentation on the
+Google Visualization API.
+"""
+
+__author__ = "Amit Weinstein, Misha Seltzer, Jacob Baskin"
+
+import cgi
+import cStringIO
+import csv
+import datetime
+try:
+ import json
+except ImportError:
+ import simplejson as json
+import types
+
+
+class DataTableException(Exception):
+ """The general exception object thrown by DataTable."""
+ pass
+
+
+class DataTableJSONEncoder(json.JSONEncoder):
+ """JSON encoder that handles date/time/datetime objects correctly."""
+
+ def __init__(self):
+ json.JSONEncoder.__init__(self,
+ separators=(",", ":"),
+ ensure_ascii=False)
+
+ def default(self, o):
+ if isinstance(o, datetime.datetime):
+ if o.microsecond == 0:
+ # If the time doesn't have ms-resolution, leave it out to keep
+ # things smaller.
+ return "Date(%d,%d,%d,%d,%d,%d)" % (
+ o.year, o.month - 1, o.day, o.hour, o.minute, o.second)
+ else:
+ return "Date(%d,%d,%d,%d,%d,%d,%d)" % (
+ o.year, o.month - 1, o.day, o.hour, o.minute, o.second,
+ o.microsecond / 1000)
+ elif isinstance(o, datetime.date):
+ return "Date(%d,%d,%d)" % (o.year, o.month - 1, o.day)
+ elif isinstance(o, datetime.time):
+ return [o.hour, o.minute, o.second]
+ else:
+ return super(DataTableJSONEncoder, self).default(o)
+
+
+class DataTable(object):
+ """Wraps the data to convert to a Google Visualization API DataTable.
+
+ Create this object, populate it with data, then call one of the ToJS...
+ methods to return a string representation of the data in the format described.
+
+ You can clear all data from the object to reuse it, but you cannot clear
+ individual cells, rows, or columns. You also cannot modify the table schema
+ specified in the class constructor.
+
+ You can add new data one or more rows at a time. All data added to an
+ instantiated DataTable must conform to the schema passed in to __init__().
+
+ You can reorder the columns in the output table, and also specify row sorting
+ order by column. The default column order is according to the original
+ table_description parameter. Default row sort order is ascending, by column
+ 1 values. For a dictionary, we sort the keys for order.
+
+ The data and the table_description are closely tied, as described here:
+
+ The table schema is defined in the class constructor's table_description
+ parameter. The user defines each column using a tuple of
+ (id[, type[, label[, custom_properties]]]). The default value for type is
+ string, label is the same as ID if not specified, and custom properties is
+ an empty dictionary if not specified.
+
+ table_description is a dictionary or list, containing one or more column
+ descriptor tuples, nested dictionaries, and lists. Each dictionary key, list
+ element, or dictionary element must eventually be defined as
+ a column description tuple. Here's an example of a dictionary where the key
+ is a tuple, and the value is a list of two tuples:
+ {('a', 'number'): [('b', 'number'), ('c', 'string')]}
+
+ This flexibility in data entry enables you to build and manipulate your data
+ in a Python structure that makes sense for your program.
+
+ Add data to the table using the same nested design as the table's
+ table_description, replacing column descriptor tuples with cell data, and
+ each row is an element in the top level collection. This will be a bit
+ clearer after you look at the following examples showing the
+ table_description, matching data, and the resulting table:
+
+ Columns as list of tuples [col1, col2, col3]
+ table_description: [('a', 'number'), ('b', 'string')]
+ AppendData( [[1, 'z'], [2, 'w'], [4, 'o'], [5, 'k']] )
+ Table:
+ a b <--- these are column ids/labels
+ 1 z
+ 2 w
+ 4 o
+ 5 k
+
+ Dictionary of columns, where key is a column, and value is a list of
+ columns {col1: [col2, col3]}
+ table_description: {('a', 'number'): [('b', 'number'), ('c', 'string')]}
+ AppendData( data: {1: [2, 'z'], 3: [4, 'w']}
+ Table:
+ a b c
+ 1 2 z
+ 3 4 w
+
+ Dictionary where key is a column, and the value is itself a dictionary of
+ columns {col1: {col2, col3}}
+ table_description: {('a', 'number'): {'b': 'number', 'c': 'string'}}
+ AppendData( data: {1: {'b': 2, 'c': 'z'}, 3: {'b': 4, 'c': 'w'}}
+ Table:
+ a b c
+ 1 2 z
+ 3 4 w
+ """
+
+ def __init__(self, table_description, data=None, custom_properties=None):
+ """Initialize the data table from a table schema and (optionally) data.
+
+ See the class documentation for more information on table schema and data
+ values.
+
+ Args:
+ table_description: A table schema, following one of the formats described
+ in TableDescriptionParser(). Schemas describe the
+ column names, data types, and labels. See
+ TableDescriptionParser() for acceptable formats.
+ data: Optional. If given, fills the table with the given data. The data
+ structure must be consistent with schema in table_description. See
+ the class documentation for more information on acceptable data. You
+ can add data later by calling AppendData().
+ custom_properties: Optional. A dictionary from string to string that
+ goes into the table's custom properties. This can be
+ later changed by changing self.custom_properties.
+
+ Raises:
+ DataTableException: Raised if the data and the description did not match,
+ or did not use the supported formats.
+ """
+ self.__columns = self.TableDescriptionParser(table_description)
+ self.__data = []
+ self.custom_properties = {}
+ if custom_properties is not None:
+ self.custom_properties = custom_properties
+ if data:
+ self.LoadData(data)
+
+ @staticmethod
+ def CoerceValue(value, value_type):
+ """Coerces a single value into the type expected for its column.
+
+ Internal helper method.
+
+ Args:
+ value: The value which should be converted
+ value_type: One of "string", "number", "boolean", "date", "datetime" or
+ "timeofday".
+
+ Returns:
+ An item of the Python type appropriate to the given value_type. Strings
+ are also converted to Unicode using UTF-8 encoding if necessary.
+ If a tuple is given, it should be in one of the following forms:
+ - (value, formatted value)
+ - (value, formatted value, custom properties)
+ where the formatted value is a string, and custom properties is a
+ dictionary of the custom properties for this cell.
+ To specify custom properties without specifying formatted value, one can
+ pass None as the formatted value.
+ One can also have a null-valued cell with formatted value and/or custom
+ properties by specifying None for the value.
+ This method ignores the custom properties except for checking that it is a
+ dictionary. The custom properties are handled in the ToJSon and ToJSCode
+ methods.
+ The real type of the given value is not strictly checked. For example,
+ any type can be used for string - as we simply take its str( ) and for
+ boolean value we just check "if value".
+ Examples:
+ CoerceValue(None, "string") returns None
+ CoerceValue((5, "5$"), "number") returns (5, "5$")
+ CoerceValue(100, "string") returns "100"
+ CoerceValue(0, "boolean") returns False
+
+ Raises:
+ DataTableException: The value and type did not match in a not-recoverable
+ way, for example given value 'abc' for type 'number'.
+ """
+ if isinstance(value, tuple):
+ # In case of a tuple, we run the same function on the value itself and
+ # add the formatted value.
+ if (len(value) not in [2, 3] or
+ (len(value) == 3 and not isinstance(value[2], dict))):
+ raise DataTableException("Wrong format for value and formatting - %s." %
+ str(value))
+ if not isinstance(value[1], types.StringTypes + (types.NoneType,)):
+ raise DataTableException("Formatted value is not string, given %s." %
+ type(value[1]))
+ js_value = DataTable.CoerceValue(value[0], value_type)
+ return (js_value,) + value[1:]
+
+ t_value = type(value)
+ if value is None:
+ return value
+ if value_type == "boolean":
+ return bool(value)
+
+ elif value_type == "number":
+ if isinstance(value, (int, long, float)):
+ return value
+ raise DataTableException("Wrong type %s when expected number" % t_value)
+
+ elif value_type == "string":
+ if isinstance(value, unicode):
+ return value
+ else:
+ return str(value).decode("utf-8")
+
+ elif value_type == "date":
+ if isinstance(value, datetime.datetime):
+ return datetime.date(value.year, value.month, value.day)
+ elif isinstance(value, datetime.date):
+ return value
+ else:
+ raise DataTableException("Wrong type %s when expected date" % t_value)
+
+ elif value_type == "timeofday":
+ if isinstance(value, datetime.datetime):
+ return datetime.time(value.hour, value.minute, value.second)
+ elif isinstance(value, datetime.time):
+ return value
+ else:
+ raise DataTableException("Wrong type %s when expected time" % t_value)
+
+ elif value_type == "datetime":
+ if isinstance(value, datetime.datetime):
+ return value
+ else:
+ raise DataTableException("Wrong type %s when expected datetime" %
+ t_value)
+ # If we got here, it means the given value_type was not one of the
+ # supported types.
+ raise DataTableException("Unsupported type %s" % value_type)
+
+ @staticmethod
+ def EscapeForJSCode(encoder, value):
+ if value is None:
+ return "null"
+ elif isinstance(value, datetime.datetime):
+ if value.microsecond == 0:
+ # If it's not ms-resolution, leave that out to save space.
+ return "new Date(%d,%d,%d,%d,%d,%d)" % (value.year,
+ value.month - 1, # To match JS
+ value.day,
+ value.hour,
+ value.minute,
+ value.second)
+ else:
+ return "new Date(%d,%d,%d,%d,%d,%d,%d)" % (value.year,
+ value.month - 1, # match JS
+ value.day,
+ value.hour,
+ value.minute,
+ value.second,
+ value.microsecond / 1000)
+ elif isinstance(value, datetime.date):
+ return "new Date(%d,%d,%d)" % (value.year, value.month - 1, value.day)
+ else:
+ return encoder.encode(value)
+
+ @staticmethod
+ def ToString(value):
+ if value is None:
+ return "(empty)"
+ elif isinstance(value, (datetime.datetime,
+ datetime.date,
+ datetime.time)):
+ return str(value)
+ elif isinstance(value, unicode):
+ return value
+ elif isinstance(value, bool):
+ return str(value).lower()
+ else:
+ return str(value).decode("utf-8")
+
+ @staticmethod
+ def ColumnTypeParser(description):
+ """Parses a single column description. Internal helper method.
+
+ Args:
+ description: a column description in the possible formats:
+ 'id'
+ ('id',)
+ ('id', 'type')
+ ('id', 'type', 'label')
+ ('id', 'type', 'label', {'custom_prop1': 'custom_val1'})
+ Returns:
+ Dictionary with the following keys: id, label, type, and
+ custom_properties where:
+ - If label not given, it equals the id.
+ - If type not given, string is used by default.
+ - If custom properties are not given, an empty dictionary is used by
+ default.
+
+ Raises:
+ DataTableException: The column description did not match the RE, or
+ unsupported type was passed.
+ """
+ if not description:
+ raise DataTableException("Description error: empty description given")
+
+ if not isinstance(description, (types.StringTypes, tuple)):
+ raise DataTableException("Description error: expected either string or "
+ "tuple, got %s." % type(description))
+
+ if isinstance(description, types.StringTypes):
+ description = (description,)
+
+ # According to the tuple's length, we fill the keys
+ # We verify everything is of type string
+ for elem in description[:3]:
+ if not isinstance(elem, types.StringTypes):
+ raise DataTableException("Description error: expected tuple of "
+ "strings, current element of type %s." %
+ type(elem))
+ desc_dict = {"id": description[0],
+ "label": description[0],
+ "type": "string",
+ "custom_properties": {}}
+ if len(description) > 1:
+ desc_dict["type"] = description[1].lower()
+ if len(description) > 2:
+ desc_dict["label"] = description[2]
+ if len(description) > 3:
+ if not isinstance(description[3], dict):
+ raise DataTableException("Description error: expected custom "
+ "properties of type dict, current element "
+ "of type %s." % type(description[3]))
+ desc_dict["custom_properties"] = description[3]
+ if len(description) > 4:
+ raise DataTableException("Description error: tuple of length > 4")
+ if desc_dict["type"] not in ["string", "number", "boolean",
+ "date", "datetime", "timeofday"]:
+ raise DataTableException(
+ "Description error: unsupported type '%s'" % desc_dict["type"])
+ return desc_dict
+
+ @staticmethod
+ def TableDescriptionParser(table_description, depth=0):
+ """Parses the table_description object for internal use.
+
+ Parses the user-submitted table description into an internal format used
+ by the Python DataTable class. Returns the flat list of parsed columns.
+
+ Args:
+ table_description: A description of the table which should comply
+ with one of the formats described below.
+ depth: Optional. The depth of the first level in the current description.
+ Used by recursive calls to this function.
+
+ Returns:
+ List of columns, where each column represented by a dictionary with the
+ keys: id, label, type, depth, container which means the following:
+ - id: the id of the column
+ - name: The name of the column
+ - type: The datatype of the elements in this column. Allowed types are
+ described in ColumnTypeParser().
+ - depth: The depth of this column in the table description
+ - container: 'dict', 'iter' or 'scalar' for parsing the format easily.
+ - custom_properties: The custom properties for this column.
+ The returned description is flattened regardless of how it was given.
+
+ Raises:
+ DataTableException: Error in a column description or in the description
+ structure.
+
+ Examples:
+ A column description can be of the following forms:
+ 'id'
+ ('id',)
+ ('id', 'type')
+ ('id', 'type', 'label')
+ ('id', 'type', 'label', {'custom_prop1': 'custom_val1'})
+ or as a dictionary:
+ 'id': 'type'
+ 'id': ('type',)
+ 'id': ('type', 'label')
+ 'id': ('type', 'label', {'custom_prop1': 'custom_val1'})
+ If the type is not specified, we treat it as string.
+ If no specific label is given, the label is simply the id.
+ If no custom properties are given, we use an empty dictionary.
+
+ input: [('a', 'date'), ('b', 'timeofday', 'b', {'foo': 'bar'})]
+ output: [{'id': 'a', 'label': 'a', 'type': 'date',
+ 'depth': 0, 'container': 'iter', 'custom_properties': {}},
+ {'id': 'b', 'label': 'b', 'type': 'timeofday',
+ 'depth': 0, 'container': 'iter',
+ 'custom_properties': {'foo': 'bar'}}]
+
+ input: {'a': [('b', 'number'), ('c', 'string', 'column c')]}
+ output: [{'id': 'a', 'label': 'a', 'type': 'string',
+ 'depth': 0, 'container': 'dict', 'custom_properties': {}},
+ {'id': 'b', 'label': 'b', 'type': 'number',
+ 'depth': 1, 'container': 'iter', 'custom_properties': {}},
+ {'id': 'c', 'label': 'column c', 'type': 'string',
+ 'depth': 1, 'container': 'iter', 'custom_properties': {}}]
+
+ input: {('a', 'number', 'column a'): { 'b': 'number', 'c': 'string'}}
+ output: [{'id': 'a', 'label': 'column a', 'type': 'number',
+ 'depth': 0, 'container': 'dict', 'custom_properties': {}},
+ {'id': 'b', 'label': 'b', 'type': 'number',
+ 'depth': 1, 'container': 'dict', 'custom_properties': {}},
+ {'id': 'c', 'label': 'c', 'type': 'string',
+ 'depth': 1, 'container': 'dict', 'custom_properties': {}}]
+
+ input: { ('w', 'string', 'word'): ('c', 'number', 'count') }
+ output: [{'id': 'w', 'label': 'word', 'type': 'string',
+ 'depth': 0, 'container': 'dict', 'custom_properties': {}},
+ {'id': 'c', 'label': 'count', 'type': 'number',
+ 'depth': 1, 'container': 'scalar', 'custom_properties': {}}]
+
+ input: {'a': ('number', 'column a'), 'b': ('string', 'column b')}
+ output: [{'id': 'a', 'label': 'column a', 'type': 'number', 'depth': 0,
+ 'container': 'dict', 'custom_properties': {}},
+ {'id': 'b', 'label': 'column b', 'type': 'string', 'depth': 0,
+ 'container': 'dict', 'custom_properties': {}}
+
+ NOTE: there might be ambiguity in the case of a dictionary representation
+ of a single column. For example, the following description can be parsed
+ in 2 different ways: {'a': ('b', 'c')} can be thought of a single column
+ with the id 'a', of type 'b' and the label 'c', or as 2 columns: one named
+ 'a', and the other named 'b' of type 'c'. We choose the first option by
+ default, and in case the second option is the right one, it is possible to
+ make the key into a tuple (i.e. {('a',): ('b', 'c')}) or add more info
+ into the tuple, thus making it look like this: {'a': ('b', 'c', 'b', {})}
+ -- second 'b' is the label, and {} is the custom properties field.
+ """
+ # For the recursion step, we check for a scalar object (string or tuple)
+ if isinstance(table_description, (types.StringTypes, tuple)):
+ parsed_col = DataTable.ColumnTypeParser(table_description)
+ parsed_col["depth"] = depth
+ parsed_col["container"] = "scalar"
+ return [parsed_col]
+
+ # Since it is not scalar, table_description must be iterable.
+ if not hasattr(table_description, "__iter__"):
+ raise DataTableException("Expected an iterable object, got %s" %
+ type(table_description))
+ if not isinstance(table_description, dict):
+ # We expects a non-dictionary iterable item.
+ columns = []
+ for desc in table_description:
+ parsed_col = DataTable.ColumnTypeParser(desc)
+ parsed_col["depth"] = depth
+ parsed_col["container"] = "iter"
+ columns.append(parsed_col)
+ if not columns:
+ raise DataTableException("Description iterable objects should not"
+ " be empty.")
+ return columns
+ # The other case is a dictionary
+ if not table_description:
+ raise DataTableException("Empty dictionaries are not allowed inside"
+ " description")
+
+ # To differentiate between the two cases of more levels below or this is
+ # the most inner dictionary, we consider the number of keys (more then one
+ # key is indication for most inner dictionary) and the type of the key and
+ # value in case of only 1 key (if the type of key is string and the type of
+ # the value is a tuple of 0-3 items, we assume this is the most inner
+ # dictionary).
+ # NOTE: this way of differentiating might create ambiguity. See docs.
+ if (len(table_description) != 1 or
+ (isinstance(table_description.keys()[0], types.StringTypes) and
+ isinstance(table_description.values()[0], tuple) and
+ len(table_description.values()[0]) < 4)):
+ # This is the most inner dictionary. Parsing types.
+ columns = []
+ # We sort the items, equivalent to sort the keys since they are unique
+ for key, value in sorted(table_description.items()):
+ # We parse the column type as (key, type) or (key, type, label) using
+ # ColumnTypeParser.
+ if isinstance(value, tuple):
+ parsed_col = DataTable.ColumnTypeParser((key,) + value)
+ else:
+ parsed_col = DataTable.ColumnTypeParser((key, value))
+ parsed_col["depth"] = depth
+ parsed_col["container"] = "dict"
+ columns.append(parsed_col)
+ return columns
+ # This is an outer dictionary, must have at most one key.
+ parsed_col = DataTable.ColumnTypeParser(table_description.keys()[0])
+ parsed_col["depth"] = depth
+ parsed_col["container"] = "dict"
+ return ([parsed_col] +
+ DataTable.TableDescriptionParser(table_description.values()[0],
+ depth=depth + 1))
+
+ @property
+ def columns(self):
+ """Returns the parsed table description."""
+ return self.__columns
+
+ def NumberOfRows(self):
+ """Returns the number of rows in the current data stored in the table."""
+ return len(self.__data)
+
+ def SetRowsCustomProperties(self, rows, custom_properties):
+ """Sets the custom properties for given row(s).
+
+ Can accept a single row or an iterable of rows.
+ Sets the given custom properties for all specified rows.
+
+ Args:
+ rows: The row, or rows, to set the custom properties for.
+ custom_properties: A string to string dictionary of custom properties to
+ set for all rows.
+ """
+ if not hasattr(rows, "__iter__"):
+ rows = [rows]
+ for row in rows:
+ self.__data[row] = (self.__data[row][0], custom_properties)
+
+ def LoadData(self, data, custom_properties=None):
+ """Loads new rows to the data table, clearing existing rows.
+
+ May also set the custom_properties for the added rows. The given custom
+ properties dictionary specifies the dictionary that will be used for *all*
+ given rows.
+
+ Args:
+ data: The rows that the table will contain.
+ custom_properties: A dictionary of string to string to set as the custom
+ properties for all rows.
+ """
+ self.__data = []
+ self.AppendData(data, custom_properties)
+
+ def AppendData(self, data, custom_properties=None):
+ """Appends new data to the table.
+
+ Data is appended in rows. Data must comply with
+ the table schema passed in to __init__(). See CoerceValue() for a list
+ of acceptable data types. See the class documentation for more information
+ and examples of schema and data values.
+
+ Args:
+ data: The row to add to the table. The data must conform to the table
+ description format.
+ custom_properties: A dictionary of string to string, representing the
+ custom properties to add to all the rows.
+
+ Raises:
+ DataTableException: The data structure does not match the description.
+ """
+ # If the maximal depth is 0, we simply iterate over the data table
+ # lines and insert them using _InnerAppendData. Otherwise, we simply
+ # let the _InnerAppendData handle all the levels.
+ if not self.__columns[-1]["depth"]:
+ for row in data:
+ self._InnerAppendData(({}, custom_properties), row, 0)
+ else:
+ self._InnerAppendData(({}, custom_properties), data, 0)
+
+ def _InnerAppendData(self, prev_col_values, data, col_index):
+ """Inner function to assist LoadData."""
+ # We first check that col_index has not exceeded the columns size
+ if col_index >= len(self.__columns):
+ raise DataTableException("The data does not match description, too deep")
+
+ # Dealing with the scalar case, the data is the last value.
+ if self.__columns[col_index]["container"] == "scalar":
+ prev_col_values[0][self.__columns[col_index]["id"]] = data
+ self.__data.append(prev_col_values)
+ return
+
+ if self.__columns[col_index]["container"] == "iter":
+ if not hasattr(data, "__iter__") or isinstance(data, dict):
+ raise DataTableException("Expected iterable object, got %s" %
+ type(data))
+ # We only need to insert the rest of the columns
+ # If there are less items than expected, we only add what there is.
+ for value in data:
+ if col_index >= len(self.__columns):
+ raise DataTableException("Too many elements given in data")
+ prev_col_values[0][self.__columns[col_index]["id"]] = value
+ col_index += 1
+ self.__data.append(prev_col_values)
+ return
+
+ # We know the current level is a dictionary, we verify the type.
+ if not isinstance(data, dict):
+ raise DataTableException("Expected dictionary at current level, got %s" %
+ type(data))
+ # We check if this is the last level
+ if self.__columns[col_index]["depth"] == self.__columns[-1]["depth"]:
+ # We need to add the keys in the dictionary as they are
+ for col in self.__columns[col_index:]:
+ if col["id"] in data:
+ prev_col_values[0][col["id"]] = data[col["id"]]
+ self.__data.append(prev_col_values)
+ return
+
+ # We have a dictionary in an inner depth level.
+ if not data.keys():
+ # In case this is an empty dictionary, we add a record with the columns
+ # filled only until this point.
+ self.__data.append(prev_col_values)
+ else:
+ for key in sorted(data):
+ col_values = dict(prev_col_values[0])
+ col_values[self.__columns[col_index]["id"]] = key
+ self._InnerAppendData((col_values, prev_col_values[1]),
+ data[key], col_index + 1)
+
+ def _PreparedData(self, order_by=()):
+ """Prepares the data for enumeration - sorting it by order_by.
+
+ Args:
+ order_by: Optional. Specifies the name of the column(s) to sort by, and
+ (optionally) which direction to sort in. Default sort direction
+ is asc. Following formats are accepted:
+ "string_col_name" -- For a single key in default (asc) order.
+ ("string_col_name", "asc|desc") -- For a single key.
+ [("col_1","asc|desc"), ("col_2","asc|desc")] -- For more than
+ one column, an array of tuples of (col_name, "asc|desc").
+
+ Returns:
+ The data sorted by the keys given.
+
+ Raises:
+ DataTableException: Sort direction not in 'asc' or 'desc'
+ """
+ if not order_by:
+ return self.__data
+
+ proper_sort_keys = []
+ if isinstance(order_by, types.StringTypes) or (
+ isinstance(order_by, tuple) and len(order_by) == 2 and
+ order_by[1].lower() in ["asc", "desc"]):
+ order_by = (order_by,)
+ for key in order_by:
+ if isinstance(key, types.StringTypes):
+ proper_sort_keys.append((key, 1))
+ elif (isinstance(key, (list, tuple)) and len(key) == 2 and
+ key[1].lower() in ("asc", "desc")):
+ proper_sort_keys.append((key[0], key[1].lower() == "asc" and 1 or -1))
+ else:
+ raise DataTableException("Expected tuple with second value: "
+ "'asc' or 'desc'")
+
+ def SortCmpFunc(row1, row2):
+ """cmp function for sorted. Compares by keys and 'asc'/'desc' keywords."""
+ for key, asc_mult in proper_sort_keys:
+ cmp_result = asc_mult * cmp(row1[0].get(key), row2[0].get(key))
+ if cmp_result:
+ return cmp_result
+ return 0
+
+ return sorted(self.__data, cmp=SortCmpFunc)
+
+ def ToJSCode(self, name, columns_order=None, order_by=()):
+ """Writes the data table as a JS code string.
+
+ This method writes a string of JS code that can be run to
+ generate a DataTable with the specified data. Typically used for debugging
+ only.
+
+ Args:
+ name: The name of the table. The name would be used as the DataTable's
+ variable name in the created JS code.
+ columns_order: Optional. Specifies the order of columns in the
+ output table. Specify a list of all column IDs in the order
+ in which you want the table created.
+ Note that you must list all column IDs in this parameter,
+ if you use it.
+ order_by: Optional. Specifies the name of the column(s) to sort by.
+ Passed as is to _PreparedData.
+
+ Returns:
+ A string of JS code that, when run, generates a DataTable with the given
+ name and the data stored in the DataTable object.
+ Example result:
+ "var tab1 = new google.visualization.DataTable();
+ tab1.addColumn("string", "a", "a");
+ tab1.addColumn("number", "b", "b");
+ tab1.addColumn("boolean", "c", "c");
+ tab1.addRows(10);
+ tab1.setCell(0, 0, "a");
+ tab1.setCell(0, 1, 1, null, {"foo": "bar"});
+ tab1.setCell(0, 2, true);
+ ...
+ tab1.setCell(9, 0, "c");
+ tab1.setCell(9, 1, 3, "3$");
+ tab1.setCell(9, 2, false);"
+
+ Raises:
+ DataTableException: The data does not match the type.
+ """
+
+ encoder = DataTableJSONEncoder()
+
+ if columns_order is None:
+ columns_order = [col["id"] for col in self.__columns]
+ col_dict = dict([(col["id"], col) for col in self.__columns])
+
+ # We first create the table with the given name
+ jscode = "var %s = new google.visualization.DataTable();\n" % name
+ if self.custom_properties:
+ jscode += "%s.setTableProperties(%s);\n" % (
+ name, encoder.encode(self.custom_properties))
+
+ # We add the columns to the table
+ for i, col in enumerate(columns_order):
+ jscode += "%s.addColumn(%s, %s, %s);\n" % (
+ name,
+ encoder.encode(col_dict[col]["type"]),
+ encoder.encode(col_dict[col]["label"]),
+ encoder.encode(col_dict[col]["id"]))
+ if col_dict[col]["custom_properties"]:
+ jscode += "%s.setColumnProperties(%d, %s);\n" % (
+ name, i, encoder.encode(col_dict[col]["custom_properties"]))
+ jscode += "%s.addRows(%d);\n" % (name, len(self.__data))
+
+ # We now go over the data and add each row
+ for (i, (row, cp)) in enumerate(self._PreparedData(order_by)):
+ # We add all the elements of this row by their order
+ for (j, col) in enumerate(columns_order):
+ if col not in row or row[col] is None:
+ continue
+ value = self.CoerceValue(row[col], col_dict[col]["type"])
+ if isinstance(value, tuple):
+ cell_cp = ""
+ if len(value) == 3:
+ cell_cp = ", %s" % encoder.encode(row[col][2])
+ # We have a formatted value or custom property as well
+ jscode += ("%s.setCell(%d, %d, %s, %s%s);\n" %
+ (name, i, j,
+ self.EscapeForJSCode(encoder, value[0]),
+ self.EscapeForJSCode(encoder, value[1]), cell_cp))
+ else:
+ jscode += "%s.setCell(%d, %d, %s);\n" % (
+ name, i, j, self.EscapeForJSCode(encoder, value))
+ if cp:
+ jscode += "%s.setRowProperties(%d, %s);\n" % (
+ name, i, encoder.encode(cp))
+ return jscode
+
+ def ToHtml(self, columns_order=None, order_by=()):
+ """Writes the data table as an HTML table code string.
+
+ Args:
+ columns_order: Optional. Specifies the order of columns in the
+ output table. Specify a list of all column IDs in the order
+ in which you want the table created.
+ Note that you must list all column IDs in this parameter,
+ if you use it.
+ order_by: Optional. Specifies the name of the column(s) to sort by.
+ Passed as is to _PreparedData.
+
+ Returns:
+ An HTML table code string.
+ Example result (the result is without the newlines):
+ <html><body><table border="1">
+ <thead><tr><th>a</th><th>b</th><th>c</th></tr></thead>
+ <tbody>
+ <tr><td>1</td><td>"z"</td><td>2</td></tr>
+ <tr><td>"3$"</td><td>"w"</td><td></td></tr>
+ </tbody>
+ </table></body></html>
+
+ Raises:
+ DataTableException: The data does not match the type.
+ """
+ table_template = "<html><body><table border=\"1\">%s</table></body></html>"
+ columns_template = "<thead><tr>%s</tr></thead>"
+ rows_template = "<tbody>%s</tbody>"
+ row_template = "<tr>%s</tr>"
+ header_cell_template = "<th>%s</th>"
+ cell_template = "<td>%s</td>"
+
+ if columns_order is None:
+ columns_order = [col["id"] for col in self.__columns]
+ col_dict = dict([(col["id"], col) for col in self.__columns])
+
+ columns_list = []
+ for col in columns_order:
+ columns_list.append(header_cell_template %
+ cgi.escape(col_dict[col]["label"]))
+ columns_html = columns_template % "".join(columns_list)
+
+ rows_list = []
+ # We now go over the data and add each row
+ for row, unused_cp in self._PreparedData(order_by):
+ cells_list = []
+ # We add all the elements of this row by their order
+ for col in columns_order:
+ # For empty string we want empty quotes ("").
+ value = ""
+ if col in row and row[col] is not None:
+ value = self.CoerceValue(row[col], col_dict[col]["type"])
+ if isinstance(value, tuple):
+ # We have a formatted value and we're going to use it
+ cells_list.append(cell_template % cgi.escape(self.ToString(value[1])))
+ else:
+ cells_list.append(cell_template % cgi.escape(self.ToString(value)))
+ rows_list.append(row_template % "".join(cells_list))
+ rows_html = rows_template % "".join(rows_list)
+
+ return table_template % (columns_html + rows_html)
+
+ def ToCsv(self, columns_order=None, order_by=(), separator=","):
+ """Writes the data table as a CSV string.
+
+ Output is encoded in UTF-8 because the Python "csv" module can't handle
+ Unicode properly according to its documentation.
+
+ Args:
+ columns_order: Optional. Specifies the order of columns in the
+ output table. Specify a list of all column IDs in the order
+ in which you want the table created.
+ Note that you must list all column IDs in this parameter,
+ if you use it.
+ order_by: Optional. Specifies the name of the column(s) to sort by.
+ Passed as is to _PreparedData.
+ separator: Optional. The separator to use between the values.
+
+ Returns:
+ A CSV string representing the table.
+ Example result:
+ 'a','b','c'
+ 1,'z',2
+ 3,'w',''
+
+ Raises:
+ DataTableException: The data does not match the type.
+ """
+
+ csv_buffer = cStringIO.StringIO()
+ writer = csv.writer(csv_buffer, delimiter=separator)
+
+ if columns_order is None:
+ columns_order = [col["id"] for col in self.__columns]
+ col_dict = dict([(col["id"], col) for col in self.__columns])
+
+ writer.writerow([col_dict[col]["label"].encode("utf-8")
+ for col in columns_order])
+
+ # We now go over the data and add each row
+ for row, unused_cp in self._PreparedData(order_by):
+ cells_list = []
+ # We add all the elements of this row by their order
+ for col in columns_order:
+ value = ""
+ if col in row and row[col] is not None:
+ value = self.CoerceValue(row[col], col_dict[col]["type"])
+ if isinstance(value, tuple):
+ # We have a formatted value. Using it only for date/time types.
+ if col_dict[col]["type"] in ["date", "datetime", "timeofday"]:
+ cells_list.append(self.ToString(value[1]).encode("utf-8"))
+ else:
+ cells_list.append(self.ToString(value[0]).encode("utf-8"))
+ else:
+ cells_list.append(self.ToString(value).encode("utf-8"))
+ writer.writerow(cells_list)
+ return csv_buffer.getvalue()
+
+ def ToTsvExcel(self, columns_order=None, order_by=()):
+ """Returns a file in tab-separated-format readable by MS Excel.
+
+ Returns a file in UTF-16 little endian encoding, with tabs separating the
+ values.
+
+ Args:
+ columns_order: Delegated to ToCsv.
+ order_by: Delegated to ToCsv.
+
+ Returns:
+ A tab-separated little endian UTF16 file representing the table.
+ """
+ return (self.ToCsv(columns_order, order_by, separator="\t")
+ .decode("utf-8").encode("UTF-16LE"))
+
+ def _ToJSonObj(self, columns_order=None, order_by=()):
+ """Returns an object suitable to be converted to JSON.
+
+ Args:
+ columns_order: Optional. A list of all column IDs in the order in which
+ you want them created in the output table. If specified,
+ all column IDs must be present.
+ order_by: Optional. Specifies the name of the column(s) to sort by.
+ Passed as is to _PreparedData().
+
+ Returns:
+ A dictionary object for use by ToJSon or ToJSonResponse.
+ """
+ if columns_order is None:
+ columns_order = [col["id"] for col in self.__columns]
+ col_dict = dict([(col["id"], col) for col in self.__columns])
+
+ # Creating the column JSON objects
+ col_objs = []
+ for col_id in columns_order:
+ col_obj = {"id": col_dict[col_id]["id"],
+ "label": col_dict[col_id]["label"],
+ "type": col_dict[col_id]["type"]}
+ if col_dict[col_id]["custom_properties"]:
+ col_obj["p"] = col_dict[col_id]["custom_properties"]
+ col_objs.append(col_obj)
+
+ # Creating the rows jsons
+ row_objs = []
+ for row, cp in self._PreparedData(order_by):
+ cell_objs = []
+ for col in columns_order:
+ value = self.CoerceValue(row.get(col, None), col_dict[col]["type"])
+ if value is None:
+ cell_obj = None
+ elif isinstance(value, tuple):
+ cell_obj = {"v": value[0]}
+ if len(value) > 1 and value[1] is not None:
+ cell_obj["f"] = value[1]
+ if len(value) == 3:
+ cell_obj["p"] = value[2]
+ else:
+ cell_obj = {"v": value}
+ cell_objs.append(cell_obj)
+ row_obj = {"c": cell_objs}
+ if cp:
+ row_obj["p"] = cp
+ row_objs.append(row_obj)
+
+ json_obj = {"cols": col_objs, "rows": row_objs}
+ if self.custom_properties:
+ json_obj["p"] = self.custom_properties
+
+ return json_obj
+
+ def ToJSon(self, columns_order=None, order_by=()):
+ """Returns a string that can be used in a JS DataTable constructor.
+
+ This method writes a JSON string that can be passed directly into a Google
+ Visualization API DataTable constructor. Use this output if you are
+ hosting the visualization HTML on your site, and want to code the data
+ table in Python. Pass this string into the
+ google.visualization.DataTable constructor, e.g,:
+ ... on my page that hosts my visualization ...
+ google.setOnLoadCallback(drawTable);
+ function drawTable() {
+ var data = new google.visualization.DataTable(_my_JSon_string, 0.6);
+ myTable.draw(data);
+ }
+
+ Args:
+ columns_order: Optional. Specifies the order of columns in the
+ output table. Specify a list of all column IDs in the order
+ in which you want the table created.
+ Note that you must list all column IDs in this parameter,
+ if you use it.
+ order_by: Optional. Specifies the name of the column(s) to sort by.
+ Passed as is to _PreparedData().
+
+ Returns:
+ A JSon constructor string to generate a JS DataTable with the data
+ stored in the DataTable object.
+ Example result (the result is without the newlines):
+ {cols: [{id:"a",label:"a",type:"number"},
+ {id:"b",label:"b",type:"string"},
+ {id:"c",label:"c",type:"number"}],
+ rows: [{c:[{v:1},{v:"z"},{v:2}]}, c:{[{v:3,f:"3$"},{v:"w"},{v:null}]}],
+ p: {'foo': 'bar'}}
+
+ Raises:
+ DataTableException: The data does not match the type.
+ """
+
+ encoder = DataTableJSONEncoder()
+ return encoder.encode(
+ self._ToJSonObj(columns_order, order_by)).encode("utf-8")
+
+ def ToJSonResponse(self, columns_order=None, order_by=(), req_id=0,
+ response_handler="google.visualization.Query.setResponse"):
+ """Writes a table as a JSON response that can be returned as-is to a client.
+
+ This method writes a JSON response to return to a client in response to a
+ Google Visualization API query. This string can be processed by the calling
+ page, and is used to deliver a data table to a visualization hosted on
+ a different page.
+
+ Args:
+ columns_order: Optional. Passed straight to self.ToJSon().
+ order_by: Optional. Passed straight to self.ToJSon().
+ req_id: Optional. The response id, as retrieved by the request.
+ response_handler: Optional. The response handler, as retrieved by the
+ request.
+
+ Returns:
+ A JSON response string to be received by JS the visualization Query
+ object. This response would be translated into a DataTable on the
+ client side.
+ Example result (newlines added for readability):
+ google.visualization.Query.setResponse({
+ 'version':'0.6', 'reqId':'0', 'status':'OK',
+ 'table': {cols: [...], rows: [...]}});
+
+ Note: The URL returning this string can be used as a data source by Google
+ Visualization Gadgets or from JS code.
+ """
+
+ response_obj = {
+ "version": "0.6",
+ "reqId": str(req_id),
+ "table": self._ToJSonObj(columns_order, order_by),
+ "status": "ok"
+ }
+ encoder = DataTableJSONEncoder()
+ return "%s(%s);" % (response_handler,
+ encoder.encode(response_obj).encode("utf-8"))
+
+ def ToResponse(self, columns_order=None, order_by=(), tqx=""):
+ """Writes the right response according to the request string passed in tqx.
+
+ This method parses the tqx request string (format of which is defined in
+ the documentation for implementing a data source of Google Visualization),
+ and returns the right response according to the request.
+ It parses out the "out" parameter of tqx, calls the relevant response
+ (ToJSonResponse() for "json", ToCsv() for "csv", ToHtml() for "html",
+ ToTsvExcel() for "tsv-excel") and passes the response function the rest of
+ the relevant request keys.
+
+ Args:
+ columns_order: Optional. Passed as is to the relevant response function.
+ order_by: Optional. Passed as is to the relevant response function.
+ tqx: Optional. The request string as received by HTTP GET. Should be in
+ the format "key1:value1;key2:value2...". All keys have a default
+ value, so an empty string will just do the default (which is calling
+ ToJSonResponse() with no extra parameters).
+
+ Returns:
+ A response string, as returned by the relevant response function.
+
+ Raises:
+ DataTableException: One of the parameters passed in tqx is not supported.
+ """
+ tqx_dict = {}
+ if tqx:
+ tqx_dict = dict(opt.split(":") for opt in tqx.split(";"))
+ if tqx_dict.get("version", "0.6") != "0.6":
+ raise DataTableException(
+ "Version (%s) passed by request is not supported."
+ % tqx_dict["version"])
+
+ if tqx_dict.get("out", "json") == "json":
+ response_handler = tqx_dict.get("responseHandler",
+ "google.visualization.Query.setResponse")
+ return self.ToJSonResponse(columns_order, order_by,
+ req_id=tqx_dict.get("reqId", 0),
+ response_handler=response_handler)
+ elif tqx_dict["out"] == "html":
+ return self.ToHtml(columns_order, order_by)
+ elif tqx_dict["out"] == "csv":
+ return self.ToCsv(columns_order, order_by)
+ elif tqx_dict["out"] == "tsv-excel":
+ return self.ToTsvExcel(columns_order, order_by)
+ else:
+ raise DataTableException(
+ "'out' parameter: '%s' is not supported" % tqx_dict["out"])
diff --git a/third_party/aom/test/hash_test.cc b/third_party/aom/test/hash_test.cc
new file mode 100644
index 0000000000..e9f7f63c9b
--- /dev/null
+++ b/third_party/aom/test/hash_test.cc
@@ -0,0 +1,133 @@
+/*
+ * Copyright (c) 2018, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <cstdlib>
+#include <new>
+
+#include "config/aom_config.h"
+#include "config/av1_rtcd.h"
+
+#include "aom_ports/aom_timer.h"
+#include "av1/encoder/hash.h"
+#include "test/acm_random.h"
+#include "test/util.h"
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+namespace {
+
+typedef uint32_t (*get_crc32c_value_func)(void *calculator, uint8_t *p,
+ int length);
+
+typedef ::testing::tuple<get_crc32c_value_func, int> HashParam;
+
+class AV1Crc32cHashTest : public ::testing::TestWithParam<HashParam> {
+ public:
+ ~AV1Crc32cHashTest();
+ void SetUp();
+
+ void TearDown();
+
+ protected:
+ void RunCheckOutput(get_crc32c_value_func test_impl);
+ void RunSpeedTest(get_crc32c_value_func test_impl);
+
+ void RunZeroTest(get_crc32c_value_func test_impl);
+
+ libaom_test::ACMRandom rnd_;
+ CRC32C calc_;
+ uint8_t *buffer_;
+ int bsize_;
+ int length_;
+};
+
+AV1Crc32cHashTest::~AV1Crc32cHashTest() { ; }
+
+void AV1Crc32cHashTest::SetUp() {
+ rnd_.Reset(libaom_test::ACMRandom::DeterministicSeed());
+ av1_crc32c_calculator_init(&calc_);
+
+ bsize_ = GET_PARAM(1);
+ length_ = bsize_ * bsize_ * sizeof(uint16_t);
+ buffer_ = new uint8_t[length_];
+ ASSERT_TRUE(buffer_ != NULL);
+ for (int i = 0; i < length_; ++i) {
+ buffer_[i] = rnd_.Rand8();
+ }
+}
+
+void AV1Crc32cHashTest::TearDown() { delete[] buffer_; }
+
+void AV1Crc32cHashTest::RunCheckOutput(get_crc32c_value_func test_impl) {
+ get_crc32c_value_func ref_impl = av1_get_crc32c_value_c;
+ // for the same buffer crc should be the same
+ uint32_t crc0 = test_impl(&calc_, buffer_, length_);
+ uint32_t crc1 = test_impl(&calc_, buffer_, length_);
+ uint32_t crc2 = ref_impl(&calc_, buffer_, length_);
+ ASSERT_EQ(crc0, crc1);
+ ASSERT_EQ(crc0, crc2); // should equal to software version
+ // modify buffer
+ buffer_[0] += 1;
+ uint32_t crc3 = test_impl(&calc_, buffer_, length_);
+ uint32_t crc4 = ref_impl(&calc_, buffer_, length_);
+ ASSERT_NE(crc0, crc3); // crc shoud not equal to previous one
+ ASSERT_EQ(crc3, crc4);
+}
+
+void AV1Crc32cHashTest::RunSpeedTest(get_crc32c_value_func test_impl) {
+ get_crc32c_value_func impls[] = { av1_get_crc32c_value_c, test_impl };
+ const int repeat = 10000000 / (bsize_ + bsize_);
+
+ aom_usec_timer timer;
+ double time[2];
+ for (int i = 0; i < 2; ++i) {
+ aom_usec_timer_start(&timer);
+ for (int j = 0; j < repeat; ++j) {
+ impls[i](&calc_, buffer_, length_);
+ }
+ aom_usec_timer_mark(&timer);
+ time[i] = static_cast<double>(aom_usec_timer_elapsed(&timer));
+ }
+ printf("hash %3dx%-3d:%7.2f/%7.2fus", bsize_, bsize_, time[0], time[1]);
+ printf("(%3.2f)\n", time[0] / time[1]);
+}
+
+void AV1Crc32cHashTest::RunZeroTest(get_crc32c_value_func test_impl) {
+ uint8_t buffer0[1024] = { 0 };
+ // for buffer with different size the crc should not be the same
+ const uint32_t crc0 = test_impl(&calc_, buffer0, 32);
+ const uint32_t crc1 = test_impl(&calc_, buffer0, 128);
+ const uint32_t crc2 = test_impl(&calc_, buffer0, 1024);
+ ASSERT_NE(crc0, crc1);
+ ASSERT_NE(crc0, crc2);
+ ASSERT_NE(crc1, crc2);
+}
+
+TEST_P(AV1Crc32cHashTest, CheckOutput) { RunCheckOutput(GET_PARAM(0)); }
+
+TEST_P(AV1Crc32cHashTest, CheckZero) { RunZeroTest(GET_PARAM(0)); }
+
+TEST_P(AV1Crc32cHashTest, DISABLED_Speed) { RunSpeedTest(GET_PARAM(0)); }
+
+const int kValidBlockSize[] = { 64, 32, 8, 4 };
+
+INSTANTIATE_TEST_CASE_P(
+ C, AV1Crc32cHashTest,
+ ::testing::Combine(::testing::Values(&av1_get_crc32c_value_c),
+ ::testing::ValuesIn(kValidBlockSize)));
+
+#if HAVE_SSE4_2
+INSTANTIATE_TEST_CASE_P(
+ SSE4_2, AV1Crc32cHashTest,
+ ::testing::Combine(::testing::Values(&av1_get_crc32c_value_sse4_2),
+ ::testing::ValuesIn(kValidBlockSize)));
+#endif
+
+} // namespace
diff --git a/third_party/aom/test/hbd_metrics_test.cc b/third_party/aom/test/hbd_metrics_test.cc
new file mode 100644
index 0000000000..09df9bde47
--- /dev/null
+++ b/third_party/aom/test/hbd_metrics_test.cc
@@ -0,0 +1,239 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <math.h>
+#include <stdlib.h>
+#include <new>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/acm_random.h"
+#include "test/util.h"
+
+#include "config/aom_config.h"
+
+#include "aom_dsp/psnr.h"
+#include "aom_dsp/ssim.h"
+#include "aom_ports/mem.h"
+#include "aom_ports/msvc.h"
+#include "aom_scale/yv12config.h"
+
+using libaom_test::ACMRandom;
+
+namespace {
+
+typedef double (*LBDMetricFunc)(const YV12_BUFFER_CONFIG *source,
+ const YV12_BUFFER_CONFIG *dest);
+typedef double (*HBDMetricFunc)(const YV12_BUFFER_CONFIG *source,
+ const YV12_BUFFER_CONFIG *dest, uint32_t in_bd,
+ uint32_t bd);
+
+double compute_hbd_psnr(const YV12_BUFFER_CONFIG *source,
+ const YV12_BUFFER_CONFIG *dest, uint32_t in_bd,
+ uint32_t bd) {
+ PSNR_STATS psnr;
+ aom_calc_highbd_psnr(source, dest, &psnr, bd, in_bd);
+ return psnr.psnr[0];
+}
+
+double compute_psnr(const YV12_BUFFER_CONFIG *source,
+ const YV12_BUFFER_CONFIG *dest) {
+ PSNR_STATS psnr;
+ aom_calc_psnr(source, dest, &psnr);
+ return psnr.psnr[0];
+}
+
+double compute_hbd_psnrhvs(const YV12_BUFFER_CONFIG *source,
+ const YV12_BUFFER_CONFIG *dest, uint32_t in_bd,
+ uint32_t bd) {
+ double tempy, tempu, tempv;
+ return aom_psnrhvs(source, dest, &tempy, &tempu, &tempv, bd, in_bd);
+}
+
+double compute_psnrhvs(const YV12_BUFFER_CONFIG *source,
+ const YV12_BUFFER_CONFIG *dest) {
+ double tempy, tempu, tempv;
+ return aom_psnrhvs(source, dest, &tempy, &tempu, &tempv, 8, 8);
+}
+
+double compute_hbd_fastssim(const YV12_BUFFER_CONFIG *source,
+ const YV12_BUFFER_CONFIG *dest, uint32_t in_bd,
+ uint32_t bd) {
+ double tempy, tempu, tempv;
+ return aom_calc_fastssim(source, dest, &tempy, &tempu, &tempv, bd, in_bd);
+}
+
+double compute_fastssim(const YV12_BUFFER_CONFIG *source,
+ const YV12_BUFFER_CONFIG *dest) {
+ double tempy, tempu, tempv;
+ return aom_calc_fastssim(source, dest, &tempy, &tempu, &tempv, 8, 8);
+}
+
+double compute_hbd_aomssim(const YV12_BUFFER_CONFIG *source,
+ const YV12_BUFFER_CONFIG *dest, uint32_t in_bd,
+ uint32_t bd) {
+ double ssim, weight;
+ ssim = aom_highbd_calc_ssim(source, dest, &weight, bd, in_bd);
+ return 100 * pow(ssim / weight, 8.0);
+}
+
+double compute_aomssim(const YV12_BUFFER_CONFIG *source,
+ const YV12_BUFFER_CONFIG *dest) {
+ double ssim, weight;
+ ssim = aom_calc_ssim(source, dest, &weight);
+ return 100 * pow(ssim / weight, 8.0);
+}
+
+class HBDMetricsTestBase {
+ public:
+ virtual ~HBDMetricsTestBase() {}
+
+ protected:
+ void RunAccuracyCheck() {
+ const int width = 1920;
+ const int height = 1080;
+ size_t i = 0;
+ const uint8_t kPixFiller = 128;
+ YV12_BUFFER_CONFIG lbd_src, lbd_dst;
+ YV12_BUFFER_CONFIG hbd_src, hbd_dst;
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ double lbd_db, hbd_db;
+
+ memset(&lbd_src, 0, sizeof(lbd_src));
+ memset(&lbd_dst, 0, sizeof(lbd_dst));
+ memset(&hbd_src, 0, sizeof(hbd_src));
+ memset(&hbd_dst, 0, sizeof(hbd_dst));
+
+ aom_alloc_frame_buffer(&lbd_src, width, height, 1, 1, 0, 32, 16);
+ aom_alloc_frame_buffer(&lbd_dst, width, height, 1, 1, 0, 32, 16);
+ aom_alloc_frame_buffer(&hbd_src, width, height, 1, 1, 1, 32, 16);
+ aom_alloc_frame_buffer(&hbd_dst, width, height, 1, 1, 1, 32, 16);
+
+ memset(lbd_src.buffer_alloc, kPixFiller, lbd_src.buffer_alloc_sz);
+ while (i < lbd_src.buffer_alloc_sz) {
+ uint16_t spel, dpel;
+ spel = lbd_src.buffer_alloc[i];
+ // Create some distortion for dst buffer.
+ dpel = rnd.Rand8();
+ lbd_dst.buffer_alloc[i] = (uint8_t)dpel;
+ ((uint16_t *)(hbd_src.buffer_alloc))[i] = spel << (bit_depth_ - 8);
+ ((uint16_t *)(hbd_dst.buffer_alloc))[i] = dpel << (bit_depth_ - 8);
+ i++;
+ }
+
+ lbd_db = lbd_metric_(&lbd_src, &lbd_dst);
+ hbd_db = hbd_metric_(&hbd_src, &hbd_dst, input_bit_depth_, bit_depth_);
+ EXPECT_LE(fabs(lbd_db - hbd_db), threshold_);
+
+ i = 0;
+ while (i < lbd_src.buffer_alloc_sz) {
+ uint16_t dpel;
+ // Create some small distortion for dst buffer.
+ dpel = 120 + (rnd.Rand8() >> 4);
+ lbd_dst.buffer_alloc[i] = (uint8_t)dpel;
+ ((uint16_t *)(hbd_dst.buffer_alloc))[i] = dpel << (bit_depth_ - 8);
+ i++;
+ }
+
+ lbd_db = lbd_metric_(&lbd_src, &lbd_dst);
+ hbd_db = hbd_metric_(&hbd_src, &hbd_dst, input_bit_depth_, bit_depth_);
+ EXPECT_LE(fabs(lbd_db - hbd_db), threshold_);
+
+ i = 0;
+ while (i < lbd_src.buffer_alloc_sz) {
+ uint16_t dpel;
+ // Create some small distortion for dst buffer.
+ dpel = 126 + (rnd.Rand8() >> 6);
+ lbd_dst.buffer_alloc[i] = (uint8_t)dpel;
+ ((uint16_t *)(hbd_dst.buffer_alloc))[i] = dpel << (bit_depth_ - 8);
+ i++;
+ }
+
+ lbd_db = lbd_metric_(&lbd_src, &lbd_dst);
+ hbd_db = hbd_metric_(&hbd_src, &hbd_dst, input_bit_depth_, bit_depth_);
+ EXPECT_LE(fabs(lbd_db - hbd_db), threshold_);
+
+ aom_free_frame_buffer(&lbd_src);
+ aom_free_frame_buffer(&lbd_dst);
+ aom_free_frame_buffer(&hbd_src);
+ aom_free_frame_buffer(&hbd_dst);
+ }
+
+ int input_bit_depth_;
+ int bit_depth_;
+ double threshold_;
+ LBDMetricFunc lbd_metric_;
+ HBDMetricFunc hbd_metric_;
+};
+
+typedef ::testing::tuple<LBDMetricFunc, HBDMetricFunc, int, int, double>
+ MetricTestTParam;
+class HBDMetricsTest : public HBDMetricsTestBase,
+ public ::testing::TestWithParam<MetricTestTParam> {
+ public:
+ virtual void SetUp() {
+ lbd_metric_ = GET_PARAM(0);
+ hbd_metric_ = GET_PARAM(1);
+ input_bit_depth_ = GET_PARAM(2);
+ bit_depth_ = GET_PARAM(3);
+ threshold_ = GET_PARAM(4);
+ }
+ virtual void TearDown() {}
+};
+
+TEST_P(HBDMetricsTest, RunAccuracyCheck) { RunAccuracyCheck(); }
+
+// Allow small variation due to floating point operations.
+static const double kSsim_thresh = 0.001;
+// Allow some additional errors accumulated in floating point operations.
+static const double kFSsim_thresh = 0.03;
+// Allow some extra variation due to rounding error accumulated in dct.
+static const double kPhvs_thresh = 0.3;
+
+INSTANTIATE_TEST_CASE_P(
+ AOMSSIM, HBDMetricsTest,
+ ::testing::Values(MetricTestTParam(&compute_aomssim, &compute_hbd_aomssim,
+ 8, 10, kSsim_thresh),
+ MetricTestTParam(&compute_aomssim, &compute_hbd_aomssim,
+ 10, 10, kPhvs_thresh),
+ MetricTestTParam(&compute_aomssim, &compute_hbd_aomssim,
+ 8, 12, kSsim_thresh),
+ MetricTestTParam(&compute_aomssim, &compute_hbd_aomssim,
+ 12, 12, kPhvs_thresh)));
+INSTANTIATE_TEST_CASE_P(
+ FASTSSIM, HBDMetricsTest,
+ ::testing::Values(MetricTestTParam(&compute_fastssim, &compute_hbd_fastssim,
+ 8, 10, kFSsim_thresh),
+ MetricTestTParam(&compute_fastssim, &compute_hbd_fastssim,
+ 10, 10, kFSsim_thresh),
+ MetricTestTParam(&compute_fastssim, &compute_hbd_fastssim,
+ 8, 12, kFSsim_thresh),
+ MetricTestTParam(&compute_fastssim, &compute_hbd_fastssim,
+ 12, 12, kFSsim_thresh)));
+INSTANTIATE_TEST_CASE_P(
+ PSNRHVS, HBDMetricsTest,
+ ::testing::Values(MetricTestTParam(&compute_psnrhvs, &compute_hbd_psnrhvs,
+ 8, 10, kPhvs_thresh),
+ MetricTestTParam(&compute_psnrhvs, &compute_hbd_psnrhvs,
+ 10, 10, kPhvs_thresh),
+ MetricTestTParam(&compute_psnrhvs, &compute_hbd_psnrhvs,
+ 8, 12, kPhvs_thresh),
+ MetricTestTParam(&compute_psnrhvs, &compute_hbd_psnrhvs,
+ 12, 12, kPhvs_thresh)));
+INSTANTIATE_TEST_CASE_P(
+ PSNR, HBDMetricsTest,
+ ::testing::Values(
+ MetricTestTParam(&compute_psnr, &compute_hbd_psnr, 8, 10, kPhvs_thresh),
+ MetricTestTParam(&compute_psnr, &compute_hbd_psnr, 10, 10,
+ kPhvs_thresh),
+ MetricTestTParam(&compute_psnr, &compute_hbd_psnr, 8, 12, kPhvs_thresh),
+ MetricTestTParam(&compute_psnr, &compute_hbd_psnr, 12, 12,
+ kPhvs_thresh)));
+} // namespace
diff --git a/third_party/aom/test/hiprec_convolve_test.cc b/third_party/aom/test/hiprec_convolve_test.cc
new file mode 100644
index 0000000000..f94a0730c1
--- /dev/null
+++ b/third_party/aom/test/hiprec_convolve_test.cc
@@ -0,0 +1,62 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/hiprec_convolve_test_util.h"
+
+using ::testing::make_tuple;
+using ::testing::tuple;
+using libaom_test::ACMRandom;
+using libaom_test::AV1HighbdHiprecConvolve::AV1HighbdHiprecConvolveTest;
+using libaom_test::AV1HiprecConvolve::AV1HiprecConvolveTest;
+
+namespace {
+
+TEST_P(AV1HiprecConvolveTest, CheckOutput) { RunCheckOutput(GET_PARAM(3)); }
+TEST_P(AV1HiprecConvolveTest, DISABLED_SpeedTest) {
+ RunSpeedTest(GET_PARAM(3));
+}
+#if HAVE_SSE2
+INSTANTIATE_TEST_CASE_P(SSE2, AV1HiprecConvolveTest,
+ libaom_test::AV1HiprecConvolve::BuildParams(
+ av1_wiener_convolve_add_src_sse2));
+#endif
+#if HAVE_AVX2
+INSTANTIATE_TEST_CASE_P(AVX2, AV1HiprecConvolveTest,
+ libaom_test::AV1HiprecConvolve::BuildParams(
+ av1_wiener_convolve_add_src_avx2));
+#endif
+#if HAVE_NEON
+INSTANTIATE_TEST_CASE_P(NEON, AV1HiprecConvolveTest,
+ libaom_test::AV1HiprecConvolve::BuildParams(
+ av1_wiener_convolve_add_src_neon));
+#endif
+
+#if HAVE_SSSE3 || HAVE_AVX2
+TEST_P(AV1HighbdHiprecConvolveTest, CheckOutput) {
+ RunCheckOutput(GET_PARAM(4));
+}
+TEST_P(AV1HighbdHiprecConvolveTest, DISABLED_SpeedTest) {
+ RunSpeedTest(GET_PARAM(4));
+}
+#if HAVE_SSSE3
+INSTANTIATE_TEST_CASE_P(SSSE3, AV1HighbdHiprecConvolveTest,
+ libaom_test::AV1HighbdHiprecConvolve::BuildParams(
+ av1_highbd_wiener_convolve_add_src_ssse3));
+#endif
+#if HAVE_AVX2
+INSTANTIATE_TEST_CASE_P(AVX2, AV1HighbdHiprecConvolveTest,
+ libaom_test::AV1HighbdHiprecConvolve::BuildParams(
+ av1_highbd_wiener_convolve_add_src_avx2));
+#endif
+#endif
+
+} // namespace
diff --git a/third_party/aom/test/hiprec_convolve_test_util.cc b/third_party/aom/test/hiprec_convolve_test_util.cc
new file mode 100644
index 0000000000..2672bcec3d
--- /dev/null
+++ b/third_party/aom/test/hiprec_convolve_test_util.cc
@@ -0,0 +1,331 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "test/hiprec_convolve_test_util.h"
+
+#include "av1/common/restoration.h"
+
+using ::testing::make_tuple;
+using ::testing::tuple;
+
+namespace libaom_test {
+
+// Generate a random pair of filter kernels, using the ranges
+// of possible values from the loop-restoration experiment
+static void generate_kernels(ACMRandom *rnd, InterpKernel hkernel,
+ InterpKernel vkernel) {
+ hkernel[0] = hkernel[6] =
+ WIENER_FILT_TAP0_MINV +
+ rnd->PseudoUniform(WIENER_FILT_TAP0_MAXV + 1 - WIENER_FILT_TAP0_MINV);
+ hkernel[1] = hkernel[5] =
+ WIENER_FILT_TAP1_MINV +
+ rnd->PseudoUniform(WIENER_FILT_TAP1_MAXV + 1 - WIENER_FILT_TAP1_MINV);
+ hkernel[2] = hkernel[4] =
+ WIENER_FILT_TAP2_MINV +
+ rnd->PseudoUniform(WIENER_FILT_TAP2_MAXV + 1 - WIENER_FILT_TAP2_MINV);
+ hkernel[3] = -(hkernel[0] + hkernel[1] + hkernel[2]);
+ hkernel[7] = 0;
+
+ vkernel[0] = vkernel[6] =
+ WIENER_FILT_TAP0_MINV +
+ rnd->PseudoUniform(WIENER_FILT_TAP0_MAXV + 1 - WIENER_FILT_TAP0_MINV);
+ vkernel[1] = vkernel[5] =
+ WIENER_FILT_TAP1_MINV +
+ rnd->PseudoUniform(WIENER_FILT_TAP1_MAXV + 1 - WIENER_FILT_TAP1_MINV);
+ vkernel[2] = vkernel[4] =
+ WIENER_FILT_TAP2_MINV +
+ rnd->PseudoUniform(WIENER_FILT_TAP2_MAXV + 1 - WIENER_FILT_TAP2_MINV);
+ vkernel[3] = -(vkernel[0] + vkernel[1] + vkernel[2]);
+ vkernel[7] = 0;
+}
+
+namespace AV1HiprecConvolve {
+
+::testing::internal::ParamGenerator<HiprecConvolveParam> BuildParams(
+ hiprec_convolve_func filter) {
+ const HiprecConvolveParam params[] = {
+ make_tuple(8, 8, 50000, filter), make_tuple(8, 4, 50000, filter),
+ make_tuple(64, 24, 1000, filter), make_tuple(64, 64, 1000, filter),
+ make_tuple(64, 56, 1000, filter), make_tuple(32, 8, 10000, filter),
+ make_tuple(32, 28, 10000, filter), make_tuple(32, 32, 10000, filter),
+ make_tuple(16, 34, 10000, filter), make_tuple(32, 34, 10000, filter),
+ make_tuple(64, 34, 1000, filter), make_tuple(8, 17, 10000, filter),
+ make_tuple(16, 17, 10000, filter), make_tuple(32, 17, 10000, filter)
+ };
+ return ::testing::ValuesIn(params);
+}
+
+AV1HiprecConvolveTest::~AV1HiprecConvolveTest() {}
+void AV1HiprecConvolveTest::SetUp() {
+ rnd_.Reset(ACMRandom::DeterministicSeed());
+}
+
+void AV1HiprecConvolveTest::TearDown() { libaom_test::ClearSystemState(); }
+
+void AV1HiprecConvolveTest::RunCheckOutput(hiprec_convolve_func test_impl) {
+ const int w = 128, h = 128;
+ const int out_w = GET_PARAM(0), out_h = GET_PARAM(1);
+ const int num_iters = GET_PARAM(2);
+ int i, j;
+ const ConvolveParams conv_params = get_conv_params_wiener(8);
+
+ uint8_t *input_ = new uint8_t[h * w];
+ uint8_t *input = input_;
+
+ // The AVX2 convolve functions always write rows with widths that are
+ // multiples of 16. So to avoid a buffer overflow, we may need to pad
+ // rows to a multiple of 16.
+ int output_n = ALIGN_POWER_OF_TWO(out_w, 4) * out_h;
+ uint8_t *output = new uint8_t[output_n];
+ uint8_t *output2 = new uint8_t[output_n];
+
+ // Generate random filter kernels
+ DECLARE_ALIGNED(16, InterpKernel, hkernel);
+ DECLARE_ALIGNED(16, InterpKernel, vkernel);
+
+ generate_kernels(&rnd_, hkernel, vkernel);
+
+ for (i = 0; i < h; ++i)
+ for (j = 0; j < w; ++j) input[i * w + j] = rnd_.Rand8();
+
+ for (i = 0; i < num_iters; ++i) {
+ // Choose random locations within the source block
+ int offset_r = 3 + rnd_.PseudoUniform(h - out_h - 7);
+ int offset_c = 3 + rnd_.PseudoUniform(w - out_w - 7);
+ av1_wiener_convolve_add_src_c(input + offset_r * w + offset_c, w, output,
+ out_w, hkernel, 16, vkernel, 16, out_w, out_h,
+ &conv_params);
+ test_impl(input + offset_r * w + offset_c, w, output2, out_w, hkernel, 16,
+ vkernel, 16, out_w, out_h, &conv_params);
+
+ for (j = 0; j < out_w * out_h; ++j)
+ ASSERT_EQ(output[j], output2[j])
+ << "Pixel mismatch at index " << j << " = (" << (j % out_w) << ", "
+ << (j / out_w) << ") on iteration " << i;
+ }
+ delete[] input_;
+ delete[] output;
+ delete[] output2;
+}
+
+void AV1HiprecConvolveTest::RunSpeedTest(hiprec_convolve_func test_impl) {
+ const int w = 128, h = 128;
+ const int out_w = GET_PARAM(0), out_h = GET_PARAM(1);
+ const int num_iters = GET_PARAM(2) / 500;
+ int i, j, k;
+ const ConvolveParams conv_params = get_conv_params_wiener(8);
+
+ uint8_t *input_ = new uint8_t[h * w];
+ uint8_t *input = input_;
+
+ // The AVX2 convolve functions always write rows with widths that are
+ // multiples of 16. So to avoid a buffer overflow, we may need to pad
+ // rows to a multiple of 16.
+ int output_n = ALIGN_POWER_OF_TWO(out_w, 4) * out_h;
+ uint8_t *output = new uint8_t[output_n];
+ uint8_t *output2 = new uint8_t[output_n];
+
+ // Generate random filter kernels
+ DECLARE_ALIGNED(16, InterpKernel, hkernel);
+ DECLARE_ALIGNED(16, InterpKernel, vkernel);
+
+ generate_kernels(&rnd_, hkernel, vkernel);
+
+ for (i = 0; i < h; ++i)
+ for (j = 0; j < w; ++j) input[i * w + j] = rnd_.Rand8();
+
+ aom_usec_timer ref_timer;
+ aom_usec_timer_start(&ref_timer);
+ for (i = 0; i < num_iters; ++i) {
+ for (j = 3; j < h - out_h - 4; j++) {
+ for (k = 3; k < w - out_w - 4; k++) {
+ av1_wiener_convolve_add_src_c(input + j * w + k, w, output, out_w,
+ hkernel, 16, vkernel, 16, out_w, out_h,
+ &conv_params);
+ }
+ }
+ }
+ aom_usec_timer_mark(&ref_timer);
+ const int64_t ref_time = aom_usec_timer_elapsed(&ref_timer);
+
+ aom_usec_timer tst_timer;
+ aom_usec_timer_start(&tst_timer);
+ for (i = 0; i < num_iters; ++i) {
+ for (j = 3; j < h - out_h - 4; j++) {
+ for (k = 3; k < w - out_w - 4; k++) {
+ test_impl(input + j * w + k, w, output2, out_w, hkernel, 16, vkernel,
+ 16, out_w, out_h, &conv_params);
+ }
+ }
+ }
+ aom_usec_timer_mark(&tst_timer);
+ const int64_t tst_time = aom_usec_timer_elapsed(&tst_timer);
+
+ std::cout << "[ ] C time = " << ref_time / 1000
+ << " ms, SIMD time = " << tst_time / 1000 << " ms\n";
+
+ EXPECT_GT(ref_time, tst_time)
+ << "Error: AV1HiprecConvolveTest.SpeedTest, SIMD slower than C.\n"
+ << "C time: " << ref_time << " us\n"
+ << "SIMD time: " << tst_time << " us\n";
+
+ delete[] input_;
+ delete[] output;
+ delete[] output2;
+}
+} // namespace AV1HiprecConvolve
+
+namespace AV1HighbdHiprecConvolve {
+
+::testing::internal::ParamGenerator<HighbdHiprecConvolveParam> BuildParams(
+ highbd_hiprec_convolve_func filter) {
+ const HighbdHiprecConvolveParam params[] = {
+ make_tuple(8, 8, 50000, 8, filter), make_tuple(64, 64, 1000, 8, filter),
+ make_tuple(32, 8, 10000, 8, filter), make_tuple(8, 8, 50000, 10, filter),
+ make_tuple(64, 64, 1000, 10, filter), make_tuple(32, 8, 10000, 10, filter),
+ make_tuple(8, 8, 50000, 12, filter), make_tuple(64, 64, 1000, 12, filter),
+ make_tuple(32, 8, 10000, 12, filter),
+ };
+ return ::testing::ValuesIn(params);
+}
+
+AV1HighbdHiprecConvolveTest::~AV1HighbdHiprecConvolveTest() {}
+void AV1HighbdHiprecConvolveTest::SetUp() {
+ rnd_.Reset(ACMRandom::DeterministicSeed());
+}
+
+void AV1HighbdHiprecConvolveTest::TearDown() {
+ libaom_test::ClearSystemState();
+}
+
+void AV1HighbdHiprecConvolveTest::RunCheckOutput(
+ highbd_hiprec_convolve_func test_impl) {
+ const int w = 128, h = 128;
+ const int out_w = GET_PARAM(0), out_h = GET_PARAM(1);
+ const int num_iters = GET_PARAM(2);
+ const int bd = GET_PARAM(3);
+ int i, j;
+ const ConvolveParams conv_params = get_conv_params_wiener(bd);
+
+ uint16_t *input = new uint16_t[h * w];
+
+ // The AVX2 convolve functions always write rows with widths that are
+ // multiples of 16. So to avoid a buffer overflow, we may need to pad
+ // rows to a multiple of 16.
+ int output_n = ALIGN_POWER_OF_TWO(out_w, 4) * out_h;
+ uint16_t *output = new uint16_t[output_n];
+ uint16_t *output2 = new uint16_t[output_n];
+
+ // Generate random filter kernels
+ DECLARE_ALIGNED(16, InterpKernel, hkernel);
+ DECLARE_ALIGNED(16, InterpKernel, vkernel);
+
+ generate_kernels(&rnd_, hkernel, vkernel);
+
+ for (i = 0; i < h; ++i)
+ for (j = 0; j < w; ++j) input[i * w + j] = rnd_.Rand16() & ((1 << bd) - 1);
+
+ uint8_t *input_ptr = CONVERT_TO_BYTEPTR(input);
+ uint8_t *output_ptr = CONVERT_TO_BYTEPTR(output);
+ uint8_t *output2_ptr = CONVERT_TO_BYTEPTR(output2);
+
+ for (i = 0; i < num_iters; ++i) {
+ // Choose random locations within the source block
+ int offset_r = 3 + rnd_.PseudoUniform(h - out_h - 7);
+ int offset_c = 3 + rnd_.PseudoUniform(w - out_w - 7);
+ av1_highbd_wiener_convolve_add_src_c(
+ input_ptr + offset_r * w + offset_c, w, output_ptr, out_w, hkernel, 16,
+ vkernel, 16, out_w, out_h, &conv_params, bd);
+ test_impl(input_ptr + offset_r * w + offset_c, w, output2_ptr, out_w,
+ hkernel, 16, vkernel, 16, out_w, out_h, &conv_params, bd);
+
+ for (j = 0; j < out_w * out_h; ++j)
+ ASSERT_EQ(output[j], output2[j])
+ << "Pixel mismatch at index " << j << " = (" << (j % out_w) << ", "
+ << (j / out_w) << ") on iteration " << i;
+ }
+ delete[] input;
+ delete[] output;
+ delete[] output2;
+}
+
+void AV1HighbdHiprecConvolveTest::RunSpeedTest(
+ highbd_hiprec_convolve_func test_impl) {
+ const int w = 128, h = 128;
+ const int out_w = GET_PARAM(0), out_h = GET_PARAM(1);
+ const int num_iters = GET_PARAM(2) / 500;
+ const int bd = GET_PARAM(3);
+ int i, j, k;
+ const ConvolveParams conv_params = get_conv_params_wiener(bd);
+
+ uint16_t *input = new uint16_t[h * w];
+
+ // The AVX2 convolve functions always write rows with widths that are
+ // multiples of 16. So to avoid a buffer overflow, we may need to pad
+ // rows to a multiple of 16.
+ int output_n = ALIGN_POWER_OF_TWO(out_w, 4) * out_h;
+ uint16_t *output = new uint16_t[output_n];
+ uint16_t *output2 = new uint16_t[output_n];
+
+ // Generate random filter kernels
+ DECLARE_ALIGNED(16, InterpKernel, hkernel);
+ DECLARE_ALIGNED(16, InterpKernel, vkernel);
+
+ generate_kernels(&rnd_, hkernel, vkernel);
+
+ for (i = 0; i < h; ++i)
+ for (j = 0; j < w; ++j) input[i * w + j] = rnd_.Rand16() & ((1 << bd) - 1);
+
+ uint8_t *input_ptr = CONVERT_TO_BYTEPTR(input);
+ uint8_t *output_ptr = CONVERT_TO_BYTEPTR(output);
+ uint8_t *output2_ptr = CONVERT_TO_BYTEPTR(output2);
+
+ aom_usec_timer ref_timer;
+ aom_usec_timer_start(&ref_timer);
+ for (i = 0; i < num_iters; ++i) {
+ for (j = 3; j < h - out_h - 4; j++) {
+ for (k = 3; k < w - out_w - 4; k++) {
+ av1_highbd_wiener_convolve_add_src_c(
+ input_ptr + j * w + k, w, output_ptr, out_w, hkernel, 16, vkernel,
+ 16, out_w, out_h, &conv_params, bd);
+ }
+ }
+ }
+ aom_usec_timer_mark(&ref_timer);
+ const int64_t ref_time = aom_usec_timer_elapsed(&ref_timer);
+
+ aom_usec_timer tst_timer;
+ aom_usec_timer_start(&tst_timer);
+ for (i = 0; i < num_iters; ++i) {
+ for (j = 3; j < h - out_h - 4; j++) {
+ for (k = 3; k < w - out_w - 4; k++) {
+ test_impl(input_ptr + j * w + k, w, output2_ptr, out_w, hkernel, 16,
+ vkernel, 16, out_w, out_h, &conv_params, bd);
+ }
+ }
+ }
+ aom_usec_timer_mark(&tst_timer);
+ const int64_t tst_time = aom_usec_timer_elapsed(&tst_timer);
+
+ std::cout << "[ ] C time = " << ref_time / 1000
+ << " ms, SIMD time = " << tst_time / 1000 << " ms\n";
+
+ EXPECT_GT(ref_time, tst_time)
+ << "Error: AV1HighbdHiprecConvolveTest.SpeedTest, SIMD slower than C.\n"
+ << "C time: " << ref_time << " us\n"
+ << "SIMD time: " << tst_time << " us\n";
+
+ delete[] input;
+ delete[] output;
+ delete[] output2;
+}
+} // namespace AV1HighbdHiprecConvolve
+} // namespace libaom_test
diff --git a/third_party/aom/test/hiprec_convolve_test_util.h b/third_party/aom/test/hiprec_convolve_test_util.h
new file mode 100644
index 0000000000..2abe24b57e
--- /dev/null
+++ b/third_party/aom/test/hiprec_convolve_test_util.h
@@ -0,0 +1,93 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#ifndef AOM_TEST_HIPREC_CONVOLVE_TEST_UTIL_H_
+#define AOM_TEST_HIPREC_CONVOLVE_TEST_UTIL_H_
+
+#include "config/av1_rtcd.h"
+
+#include "test/acm_random.h"
+#include "test/util.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "aom_ports/aom_timer.h"
+#include "av1/common/convolve.h"
+#include "av1/common/mv.h"
+
+namespace libaom_test {
+
+namespace AV1HiprecConvolve {
+
+typedef void (*hiprec_convolve_func)(const uint8_t *src, ptrdiff_t src_stride,
+ uint8_t *dst, ptrdiff_t dst_stride,
+ const int16_t *filter_x, int x_step_q4,
+ const int16_t *filter_y, int y_step_q4,
+ int w, int h,
+ const ConvolveParams *conv_params);
+
+typedef ::testing::tuple<int, int, int, hiprec_convolve_func>
+ HiprecConvolveParam;
+
+::testing::internal::ParamGenerator<HiprecConvolveParam> BuildParams(
+ hiprec_convolve_func filter);
+
+class AV1HiprecConvolveTest
+ : public ::testing::TestWithParam<HiprecConvolveParam> {
+ public:
+ virtual ~AV1HiprecConvolveTest();
+ virtual void SetUp();
+
+ virtual void TearDown();
+
+ protected:
+ void RunCheckOutput(hiprec_convolve_func test_impl);
+ void RunSpeedTest(hiprec_convolve_func test_impl);
+
+ libaom_test::ACMRandom rnd_;
+};
+
+} // namespace AV1HiprecConvolve
+
+namespace AV1HighbdHiprecConvolve {
+typedef void (*highbd_hiprec_convolve_func)(
+ const uint8_t *src, ptrdiff_t src_stride, uint8_t *dst,
+ ptrdiff_t dst_stride, const int16_t *filter_x, int x_step_q4,
+ const int16_t *filter_y, int y_step_q4, int w, int h,
+ const ConvolveParams *conv_params, int bps);
+
+typedef ::testing::tuple<int, int, int, int, highbd_hiprec_convolve_func>
+ HighbdHiprecConvolveParam;
+
+::testing::internal::ParamGenerator<HighbdHiprecConvolveParam> BuildParams(
+ highbd_hiprec_convolve_func filter);
+
+class AV1HighbdHiprecConvolveTest
+ : public ::testing::TestWithParam<HighbdHiprecConvolveParam> {
+ public:
+ virtual ~AV1HighbdHiprecConvolveTest();
+ virtual void SetUp();
+
+ virtual void TearDown();
+
+ protected:
+ void RunCheckOutput(highbd_hiprec_convolve_func test_impl);
+ void RunSpeedTest(highbd_hiprec_convolve_func test_impl);
+
+ libaom_test::ACMRandom rnd_;
+};
+
+} // namespace AV1HighbdHiprecConvolve
+
+} // namespace libaom_test
+
+#endif // AOM_TEST_HIPREC_CONVOLVE_TEST_UTIL_H_
diff --git a/third_party/aom/test/horz_superres_test.cc b/third_party/aom/test/horz_superres_test.cc
new file mode 100644
index 0000000000..973f55b668
--- /dev/null
+++ b/third_party/aom/test/horz_superres_test.cc
@@ -0,0 +1,322 @@
+/*
+ * Copyright (c) 2018, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "av1/encoder/encoder.h"
+
+#include "test/codec_factory.h"
+#include "test/encode_test_driver.h"
+#include "test/util.h"
+#include "test/y4m_video_source.h"
+#include "test/yuv_video_source.h"
+
+namespace {
+
+using ::testing::make_tuple;
+using ::testing::tuple;
+
+/* TESTING PARAMETERS */
+
+#define NUM_TEST_VIDEOS 3
+
+const int kBitrate = 40;
+
+// PSNR thresholds found by experiment
+const double kPSNRThresholds[] = { 26.0, 28.0, 20.0 };
+
+typedef struct {
+ const char *filename;
+ aom_img_fmt fmt;
+ aom_bit_depth_t bit_depth;
+ unsigned int profile;
+ unsigned int limit;
+ unsigned int screen_content;
+} TestVideoParam;
+
+const TestVideoParam kTestVideoVectors[] = {
+ { "park_joy_90p_8_420.y4m", AOM_IMG_FMT_I420, AOM_BITS_8, 0, 5, 0 },
+ { "park_joy_90p_10_444.y4m", AOM_IMG_FMT_I44416, AOM_BITS_10, 1, 5, 0 },
+ { "screendata.y4m", AOM_IMG_FMT_I420, AOM_BITS_8, 0, 4, 1 },
+};
+
+// Superres modes tested
+// SUPERRES_QTHRESH is not included, as it has its own test
+const SUPERRES_MODE kSuperresModesNotQThresh[] = { SUPERRES_FIXED,
+ SUPERRES_RANDOM };
+
+// Superres denominators and superres kf denominators to be tested
+typedef tuple<int, int> SuperresDenominatorPair;
+const SuperresDenominatorPair kSuperresDenominators[] = {
+ make_tuple(16, 9), make_tuple(13, 11), make_tuple(9, 9),
+ make_tuple(13, 13), make_tuple(11, 16), make_tuple(8, 16),
+ make_tuple(16, 8), make_tuple(8, 8), make_tuple(9, 14),
+};
+
+// Superres q thresholds and superres kf q thresholds to be tested
+typedef tuple<int, int> SuperresQThresholdPair;
+const SuperresQThresholdPair kSuperresQThresholds[] = {
+ make_tuple(63, 63), make_tuple(63, 41), make_tuple(17, 63),
+ make_tuple(41, 11), make_tuple(1, 37), make_tuple(11, 11),
+ make_tuple(1, 1), make_tuple(17, 29), make_tuple(29, 11),
+};
+
+/* END (TESTING PARAMETERS) */
+
+// Test parameter list:
+// <[needed for EncoderTest], test_video_idx_, superres_mode_,
+// tuple(superres_denom_, superres_kf_denom_)>
+typedef tuple<const libaom_test::CodecFactory *, int, SUPERRES_MODE,
+ SuperresDenominatorPair>
+ HorzSuperresTestParam;
+
+class HorzSuperresEndToEndTest
+ : public ::testing::TestWithParam<HorzSuperresTestParam>,
+ public ::libaom_test::EncoderTest {
+ protected:
+ HorzSuperresEndToEndTest()
+ : EncoderTest(GET_PARAM(0)), test_video_idx_(GET_PARAM(1)),
+ superres_mode_(GET_PARAM(2)), psnr_(0.0), frame_count_(0) {
+ test_video_param_ = kTestVideoVectors[test_video_idx_];
+
+ SuperresDenominatorPair denoms = GET_PARAM(3);
+ superres_denom_ = ::testing::get<0>(denoms);
+ superres_kf_denom_ = ::testing::get<1>(denoms);
+ }
+
+ virtual ~HorzSuperresEndToEndTest() {}
+
+ virtual void SetUp() {
+ InitializeConfig();
+ SetMode(::libaom_test::kTwoPassGood);
+ cfg_.g_lag_in_frames = 5;
+ cfg_.rc_end_usage = AOM_VBR;
+ cfg_.rc_target_bitrate = kBitrate;
+ cfg_.g_error_resilient = 0;
+ cfg_.g_profile = test_video_param_.profile;
+ cfg_.g_input_bit_depth = (unsigned int)test_video_param_.bit_depth;
+ cfg_.g_bit_depth = test_video_param_.bit_depth;
+ init_flags_ = AOM_CODEC_USE_PSNR;
+ if (cfg_.g_bit_depth > 8) init_flags_ |= AOM_CODEC_USE_HIGHBITDEPTH;
+
+ // Set superres parameters
+ cfg_.rc_superres_mode = superres_mode_;
+ cfg_.rc_superres_denominator = superres_denom_;
+ cfg_.rc_superres_kf_denominator = superres_kf_denom_;
+ }
+
+ virtual void BeginPassHook(unsigned int) {
+ psnr_ = 0.0;
+ frame_count_ = 0;
+ }
+
+ virtual void PSNRPktHook(const aom_codec_cx_pkt_t *pkt) {
+ psnr_ += pkt->data.psnr.psnr[0];
+ frame_count_++;
+ }
+
+ virtual void PreEncodeFrameHook(::libaom_test::VideoSource *video,
+ ::libaom_test::Encoder *encoder) {
+ if (video->frame() == 1) {
+ encoder->Control(AV1E_SET_FRAME_PARALLEL_DECODING, 1);
+ encoder->Control(AV1E_SET_TILE_COLUMNS, 4);
+
+ // Set cpu-used = 8 for speed
+ encoder->Control(AOME_SET_CPUUSED, 8);
+
+ // Test screen coding tools
+ if (test_video_param_.screen_content)
+ encoder->Control(AV1E_SET_TUNE_CONTENT, AOM_CONTENT_SCREEN);
+ else
+ encoder->Control(AV1E_SET_TUNE_CONTENT, AOM_CONTENT_DEFAULT);
+
+ encoder->Control(AOME_SET_ENABLEAUTOALTREF, 1);
+ encoder->Control(AOME_SET_ARNR_MAXFRAMES, 7);
+ encoder->Control(AOME_SET_ARNR_STRENGTH, 5);
+ }
+ }
+
+ double GetAveragePsnr() const {
+ if (frame_count_) return psnr_ / frame_count_;
+ return 0.0;
+ }
+
+ double GetPsnrThreshold() { return kPSNRThresholds[test_video_idx_]; }
+
+ void DoTest() {
+ testing::internal::scoped_ptr<libaom_test::VideoSource> video;
+ video.reset(new libaom_test::Y4mVideoSource(test_video_param_.filename, 0,
+ test_video_param_.limit));
+ ASSERT_TRUE(video.get() != NULL);
+
+ ASSERT_NO_FATAL_FAILURE(RunLoop(video.get()));
+ const double psnr = GetAveragePsnr();
+ EXPECT_GT(psnr, GetPsnrThreshold())
+ << "superres_mode_ = " << superres_mode_
+ << ", superres_denom_ = " << superres_denom_
+ << ", superres_kf_denom_ = " << superres_kf_denom_;
+
+ EXPECT_EQ(test_video_param_.limit, frame_count_)
+ << "superres_mode_ = " << superres_mode_
+ << ", superres_denom_ = " << superres_denom_
+ << ", superres_kf_denom_ = " << superres_kf_denom_;
+ }
+
+ int test_video_idx_;
+ TestVideoParam test_video_param_;
+ SUPERRES_MODE superres_mode_;
+ int superres_denom_;
+ int superres_kf_denom_;
+
+ private:
+ double psnr_;
+ unsigned int frame_count_;
+};
+
+TEST_P(HorzSuperresEndToEndTest, HorzSuperresEndToEndPSNRTest) { DoTest(); }
+
+AV1_INSTANTIATE_TEST_CASE(HorzSuperresEndToEndTest,
+ ::testing::Range(0, NUM_TEST_VIDEOS),
+ ::testing::ValuesIn(kSuperresModesNotQThresh),
+ ::testing::ValuesIn(kSuperresDenominators));
+
+// Test parameter list:
+// <[needed for EncoderTest], test_video_idx_, tuple(superres_denom_,
+// superres_kf_denom_), tuple(superres_qthresh_,superres_kf_qthresh_)>
+typedef tuple<const libaom_test::CodecFactory *, int, SuperresDenominatorPair,
+ SuperresQThresholdPair>
+ HorzSuperresQThreshTestParam;
+
+class HorzSuperresQThreshEndToEndTest
+ : public ::testing::TestWithParam<HorzSuperresQThreshTestParam>,
+ public ::libaom_test::EncoderTest {
+ protected:
+ HorzSuperresQThreshEndToEndTest()
+ : EncoderTest(GET_PARAM(0)), test_video_idx_(GET_PARAM(1)),
+ superres_mode_(SUPERRES_QTHRESH), psnr_(0.0), frame_count_(0) {
+ test_video_param_ = kTestVideoVectors[test_video_idx_];
+
+ SuperresDenominatorPair denoms = GET_PARAM(2);
+ superres_denom_ = ::testing::get<0>(denoms);
+ superres_kf_denom_ = ::testing::get<1>(denoms);
+
+ SuperresQThresholdPair qthresholds = GET_PARAM(3);
+ superres_qthresh_ = ::testing::get<0>(qthresholds);
+ superres_kf_qthresh_ = ::testing::get<1>(qthresholds);
+ }
+
+ virtual ~HorzSuperresQThreshEndToEndTest() {}
+
+ virtual void SetUp() {
+ InitializeConfig();
+ SetMode(::libaom_test::kTwoPassGood);
+ cfg_.g_lag_in_frames = 5;
+ cfg_.rc_end_usage = AOM_VBR;
+ cfg_.rc_target_bitrate = kBitrate;
+ cfg_.g_error_resilient = 0;
+ cfg_.g_profile = test_video_param_.profile;
+ cfg_.g_input_bit_depth = (unsigned int)test_video_param_.bit_depth;
+ cfg_.g_bit_depth = test_video_param_.bit_depth;
+ init_flags_ = AOM_CODEC_USE_PSNR;
+ if (cfg_.g_bit_depth > 8) init_flags_ |= AOM_CODEC_USE_HIGHBITDEPTH;
+
+ // Set superres parameters
+ cfg_.rc_superres_mode = superres_mode_;
+ cfg_.rc_superres_denominator = superres_denom_;
+ cfg_.rc_superres_kf_denominator = superres_kf_denom_;
+ cfg_.rc_superres_qthresh = superres_qthresh_;
+ cfg_.rc_superres_kf_qthresh = superres_kf_qthresh_;
+ }
+
+ virtual void BeginPassHook(unsigned int) {
+ psnr_ = 0.0;
+ frame_count_ = 0;
+ }
+
+ virtual void PSNRPktHook(const aom_codec_cx_pkt_t *pkt) {
+ psnr_ += pkt->data.psnr.psnr[0];
+ frame_count_++;
+ }
+
+ virtual void PreEncodeFrameHook(::libaom_test::VideoSource *video,
+ ::libaom_test::Encoder *encoder) {
+ if (video->frame() == 1) {
+ encoder->Control(AV1E_SET_FRAME_PARALLEL_DECODING, 1);
+ encoder->Control(AV1E_SET_TILE_COLUMNS, 0);
+
+ // Set cpu-used = 8 for speed
+ encoder->Control(AOME_SET_CPUUSED, 8);
+
+ // Test screen coding tools
+ if (test_video_param_.screen_content)
+ encoder->Control(AV1E_SET_TUNE_CONTENT, AOM_CONTENT_SCREEN);
+ else
+ encoder->Control(AV1E_SET_TUNE_CONTENT, AOM_CONTENT_DEFAULT);
+
+ encoder->Control(AOME_SET_ENABLEAUTOALTREF, 1);
+ encoder->Control(AOME_SET_ARNR_MAXFRAMES, 7);
+ encoder->Control(AOME_SET_ARNR_STRENGTH, 5);
+ }
+ }
+
+ double GetAveragePsnr() const {
+ if (frame_count_) return psnr_ / frame_count_;
+ return 0.0;
+ }
+
+ double GetPsnrThreshold() { return kPSNRThresholds[test_video_idx_]; }
+
+ void DoTest() {
+ testing::internal::scoped_ptr<libaom_test::VideoSource> video;
+ video.reset(new libaom_test::Y4mVideoSource(test_video_param_.filename, 0,
+ test_video_param_.limit));
+ ASSERT_TRUE(video.get() != NULL);
+
+ ASSERT_NO_FATAL_FAILURE(RunLoop(video.get()));
+ const double psnr = GetAveragePsnr();
+ EXPECT_GT(psnr, GetPsnrThreshold())
+ << "superres_mode_ = " << superres_mode_
+ << ", superres_denom_ = " << superres_denom_
+ << ", superres_kf_denom_ = " << superres_kf_denom_
+ << ", superres_qthresh_ = " << superres_qthresh_
+ << ", superres_kf_qthresh_ = " << superres_kf_qthresh_;
+
+ EXPECT_EQ(test_video_param_.limit, frame_count_)
+ << "superres_mode_ = " << superres_mode_
+ << ", superres_denom_ = " << superres_denom_
+ << ", superres_kf_denom_ = " << superres_kf_denom_
+ << ", superres_qthresh_ = " << superres_qthresh_
+ << ", superres_kf_qthresh_ = " << superres_kf_qthresh_;
+ }
+
+ int test_video_idx_;
+ TestVideoParam test_video_param_;
+ SUPERRES_MODE superres_mode_;
+ int superres_denom_;
+ int superres_kf_denom_;
+ int superres_qthresh_;
+ int superres_kf_qthresh_;
+
+ private:
+ double psnr_;
+ unsigned int frame_count_;
+};
+
+TEST_P(HorzSuperresQThreshEndToEndTest, HorzSuperresQThreshEndToEndPSNRTest) {
+ DoTest();
+}
+
+AV1_INSTANTIATE_TEST_CASE(HorzSuperresQThreshEndToEndTest,
+ ::testing::Range(0, NUM_TEST_VIDEOS),
+ ::testing::ValuesIn(kSuperresDenominators),
+ ::testing::ValuesIn(kSuperresQThresholds));
+
+} // namespace
diff --git a/third_party/aom/test/i420_video_source.h b/third_party/aom/test/i420_video_source.h
new file mode 100644
index 0000000000..233e7152b9
--- /dev/null
+++ b/third_party/aom/test/i420_video_source.h
@@ -0,0 +1,34 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+#ifndef AOM_TEST_I420_VIDEO_SOURCE_H_
+#define AOM_TEST_I420_VIDEO_SOURCE_H_
+#include <cstdio>
+#include <cstdlib>
+#include <string>
+
+#include "test/yuv_video_source.h"
+
+namespace libaom_test {
+
+// This class extends VideoSource to allow parsing of raw yv12
+// so that we can do actual file encodes.
+class I420VideoSource : public YUVVideoSource {
+ public:
+ I420VideoSource(const std::string &file_name, unsigned int width,
+ unsigned int height, int rate_numerator, int rate_denominator,
+ unsigned int start, int limit)
+ : YUVVideoSource(file_name, AOM_IMG_FMT_I420, width, height,
+ rate_numerator, rate_denominator, start, limit) {}
+};
+
+} // namespace libaom_test
+
+#endif // AOM_TEST_I420_VIDEO_SOURCE_H_
diff --git a/third_party/aom/test/intra_edge_test.cc b/third_party/aom/test/intra_edge_test.cc
new file mode 100644
index 0000000000..ce61402acb
--- /dev/null
+++ b/third_party/aom/test/intra_edge_test.cc
@@ -0,0 +1,337 @@
+/*
+ * Copyright (c) 2017, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <math.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/register_state_check.h"
+#include "test/function_equivalence_test.h"
+
+#include "config/aom_config.h"
+#include "config/aom_dsp_rtcd.h"
+#include "config/av1_rtcd.h"
+
+#include "aom/aom_integer.h"
+#include "av1/common/enums.h"
+
+using libaom_test::FunctionEquivalenceTest;
+
+namespace {
+
+template <typename F, typename T>
+class UpsampleTest : public FunctionEquivalenceTest<F> {
+ protected:
+ static const int kIterations = 1000000;
+ static const int kMinEdge = 4;
+ static const int kMaxEdge = 24;
+ static const int kBufSize = 2 * 64 + 32;
+ static const int kOffset = 16;
+
+ virtual ~UpsampleTest() {}
+
+ virtual void Execute(T *edge_tst) = 0;
+
+ void Common() {
+ edge_ref_ = &edge_ref_data_[kOffset];
+ edge_tst_ = &edge_tst_data_[kOffset];
+
+ Execute(edge_tst_);
+
+ const int max_idx = (size_ - 1) * 2;
+ for (int r = -2; r <= max_idx; ++r) {
+ ASSERT_EQ(edge_ref_[r], edge_tst_[r]);
+ }
+ }
+
+ T edge_ref_data_[kBufSize];
+ T edge_tst_data_[kBufSize];
+
+ T *edge_ref_;
+ T *edge_tst_;
+
+ int size_;
+};
+
+//////////////////////////////////////////////////////////////////////////////
+// 8 bit version
+//////////////////////////////////////////////////////////////////////////////
+
+typedef void (*UP8B)(uint8_t *p, int size);
+typedef libaom_test::FuncParam<UP8B> TestFuncs;
+
+class UpsampleTest8B : public UpsampleTest<UP8B, uint8_t> {
+ protected:
+ void Execute(uint8_t *edge_tst) {
+ params_.ref_func(edge_ref_, size_);
+ ASM_REGISTER_STATE_CHECK(params_.tst_func(edge_tst, size_));
+ }
+};
+
+TEST_P(UpsampleTest8B, RandomValues) {
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ size_ = 4 * (this->rng_(4) + 1);
+
+ int i, pix = 0;
+ for (i = 0; i < kOffset + size_; ++i) {
+ pix = rng_.Rand8();
+ edge_ref_data_[i] = pix;
+ edge_tst_data_[i] = edge_ref_data_[i];
+ }
+
+ // Extend final sample
+ while (i < kBufSize) {
+ edge_ref_data_[i] = pix;
+ edge_tst_data_[i] = pix;
+ i++;
+ }
+
+ Common();
+ }
+}
+
+#if HAVE_SSE4_1
+INSTANTIATE_TEST_CASE_P(
+ SSE4_1, UpsampleTest8B,
+ ::testing::Values(TestFuncs(av1_upsample_intra_edge_c,
+ av1_upsample_intra_edge_sse4_1)));
+#endif // HAVE_SSE4_1
+
+//////////////////////////////////////////////////////////////////////////////
+// High bit-depth version
+//////////////////////////////////////////////////////////////////////////////
+
+typedef void (*UPHB)(uint16_t *p, int size, int bd);
+typedef libaom_test::FuncParam<UPHB> TestFuncsHBD;
+
+class UpsampleTestHB : public UpsampleTest<UPHB, uint16_t> {
+ protected:
+ void Execute(uint16_t *edge_tst) {
+ params_.ref_func(edge_ref_, size_, bit_depth_);
+ ASM_REGISTER_STATE_CHECK(params_.tst_func(edge_tst, size_, bit_depth_));
+ }
+ int bit_depth_;
+};
+
+TEST_P(UpsampleTestHB, RandomValues) {
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ switch (rng_(3)) {
+ case 0: bit_depth_ = 8; break;
+ case 1: bit_depth_ = 10; break;
+ default: bit_depth_ = 12; break;
+ }
+ const int hi = 1 << bit_depth_;
+
+ size_ = 4 * (this->rng_(4) + 1);
+
+ int i, pix = 0;
+ for (i = 0; i < kOffset + size_; ++i) {
+ pix = rng_(hi);
+ edge_ref_data_[i] = pix;
+ edge_tst_data_[i] = pix;
+ }
+
+ // Extend final sample
+ while (i < kBufSize) {
+ edge_ref_data_[i] = pix;
+ edge_tst_data_[i] = pix;
+ i++;
+ }
+
+ Common();
+ }
+}
+
+#if HAVE_SSE4_1
+INSTANTIATE_TEST_CASE_P(
+ SSE4_1, UpsampleTestHB,
+ ::testing::Values(TestFuncsHBD(av1_upsample_intra_edge_high_c,
+ av1_upsample_intra_edge_high_sse4_1)));
+#endif // HAVE_SSE4_1
+
+template <typename F, typename T>
+class FilterEdgeTest : public FunctionEquivalenceTest<F> {
+ protected:
+ static const int kIterations = 1000000;
+ static const int kMaxEdge = 2 * 64;
+ static const int kBufSize = kMaxEdge + 32;
+ static const int kOffset = 15;
+
+ virtual ~FilterEdgeTest() {}
+
+ virtual void Execute(T *edge_tst) = 0;
+
+ void Common() {
+ edge_ref_ = &edge_ref_data_[kOffset];
+ edge_tst_ = &edge_tst_data_[kOffset];
+
+ Execute(edge_tst_);
+
+ for (int r = 0; r < size_; ++r) {
+ ASSERT_EQ(edge_ref_[r], edge_tst_[r]);
+ }
+ }
+
+ T edge_ref_data_[kBufSize];
+ T edge_tst_data_[kBufSize];
+
+ T *edge_ref_;
+ T *edge_tst_;
+
+ int size_;
+ int strength_;
+};
+
+//////////////////////////////////////////////////////////////////////////////
+// 8 bit version
+//////////////////////////////////////////////////////////////////////////////
+
+typedef void (*FE8B)(uint8_t *p, int size, int strength);
+typedef libaom_test::FuncParam<FE8B> FilterEdgeTestFuncs;
+
+class FilterEdgeTest8B : public FilterEdgeTest<FE8B, uint8_t> {
+ protected:
+ void Execute(uint8_t *edge_tst) {
+ params_.ref_func(edge_ref_, size_, strength_);
+ ASM_REGISTER_STATE_CHECK(params_.tst_func(edge_tst, size_, strength_));
+ }
+};
+
+TEST_P(FilterEdgeTest8B, RandomValues) {
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ strength_ = this->rng_(4);
+ size_ = 4 * (this->rng_(128 / 4) + 1) + 1;
+
+ int i, pix = 0;
+ for (i = 0; i < kOffset + size_; ++i) {
+ pix = rng_.Rand8();
+ edge_ref_data_[i] = pix;
+ edge_tst_data_[i] = pix;
+ }
+
+ Common();
+ }
+}
+
+#if HAVE_SSE4_1
+INSTANTIATE_TEST_CASE_P(
+ SSE4_1, FilterEdgeTest8B,
+ ::testing::Values(FilterEdgeTestFuncs(av1_filter_intra_edge_c,
+ av1_filter_intra_edge_sse4_1)));
+#endif // HAVE_SSE4_1
+
+//////////////////////////////////////////////////////////////////////////////
+// High bit-depth version
+//////////////////////////////////////////////////////////////////////////////
+
+typedef void (*FEHB)(uint16_t *p, int size, int strength);
+typedef libaom_test::FuncParam<FEHB> FilterEdgeTestFuncsHBD;
+
+class FilterEdgeTestHB : public FilterEdgeTest<FEHB, uint16_t> {
+ protected:
+ void Execute(uint16_t *edge_tst) {
+ params_.ref_func(edge_ref_, size_, strength_);
+ ASM_REGISTER_STATE_CHECK(params_.tst_func(edge_tst, size_, strength_));
+ }
+ int bit_depth_;
+};
+
+TEST_P(FilterEdgeTestHB, RandomValues) {
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ switch (rng_(3)) {
+ case 0: bit_depth_ = 8; break;
+ case 1: bit_depth_ = 10; break;
+ default: bit_depth_ = 12; break;
+ }
+ const int hi = 1 << bit_depth_;
+ strength_ = this->rng_(4);
+ size_ = 4 * (this->rng_(128 / 4) + 1) + 1;
+
+ int i, pix = 0;
+ for (i = 0; i < kOffset + size_; ++i) {
+ pix = rng_(hi);
+ edge_ref_data_[i] = pix;
+ edge_tst_data_[i] = pix;
+ }
+
+ Common();
+ }
+}
+
+#if HAVE_SSE4_1
+INSTANTIATE_TEST_CASE_P(SSE4_1, FilterEdgeTestHB,
+ ::testing::Values(FilterEdgeTestFuncsHBD(
+ av1_filter_intra_edge_high_c,
+ av1_filter_intra_edge_high_sse4_1)));
+#endif // HAVE_SSE4_1
+
+// Speed tests
+
+TEST_P(UpsampleTest8B, DISABLED_Speed) {
+ const int test_count = 10000000;
+ size_ = kMaxEdge;
+ for (int i = 0; i < kOffset + size_; ++i) {
+ edge_tst_data_[i] = rng_.Rand8();
+ }
+ edge_tst_ = &edge_tst_data_[kOffset];
+ for (int iter = 0; iter < test_count; ++iter) {
+ ASM_REGISTER_STATE_CHECK(params_.tst_func(edge_tst_, size_));
+ }
+}
+
+TEST_P(UpsampleTestHB, DISABLED_Speed) {
+ const int test_count = 10000000;
+ size_ = kMaxEdge;
+ bit_depth_ = 12;
+ const int hi = 1 << bit_depth_;
+ for (int i = 0; i < kOffset + size_; ++i) {
+ edge_tst_data_[i] = rng_(hi);
+ }
+ edge_tst_ = &edge_tst_data_[kOffset];
+ for (int iter = 0; iter < test_count; ++iter) {
+ ASM_REGISTER_STATE_CHECK(params_.tst_func(edge_tst_, size_, bit_depth_));
+ }
+}
+
+TEST_P(FilterEdgeTest8B, DISABLED_Speed) {
+ const int test_count = 10000000;
+ size_ = kMaxEdge;
+ strength_ = 1;
+ for (int i = 0; i < kOffset + size_; ++i) {
+ edge_tst_data_[i] = rng_.Rand8();
+ }
+ edge_tst_ = &edge_tst_data_[kOffset];
+ for (int iter = 0; iter < test_count; ++iter) {
+ ASM_REGISTER_STATE_CHECK(params_.tst_func(edge_tst_, size_, strength_));
+ // iterate over filter strengths (1,2,3)
+ strength_ = (strength_ == 3) ? 1 : strength_ + 1;
+ }
+}
+
+TEST_P(FilterEdgeTestHB, DISABLED_Speed) {
+ const int test_count = 10000000;
+ size_ = kMaxEdge;
+ strength_ = 1;
+ bit_depth_ = 12;
+ const int hi = 1 << bit_depth_;
+ for (int i = 0; i < kOffset + size_; ++i) {
+ edge_tst_data_[i] = rng_(hi);
+ }
+ edge_tst_ = &edge_tst_data_[kOffset];
+ for (int iter = 0; iter < test_count; ++iter) {
+ ASM_REGISTER_STATE_CHECK(params_.tst_func(edge_tst_, size_, strength_));
+ // iterate over filter strengths (1,2,3)
+ strength_ = (strength_ == 3) ? 1 : strength_ + 1;
+ }
+}
+
+} // namespace
diff --git a/third_party/aom/test/intrabc_test.cc b/third_party/aom/test/intrabc_test.cc
new file mode 100644
index 0000000000..3ea4217081
--- /dev/null
+++ b/third_party/aom/test/intrabc_test.cc
@@ -0,0 +1,168 @@
+/*
+ * Copyright (c) 2017, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_config.h"
+
+#include "av1/common/blockd.h"
+#include "av1/common/enums.h"
+#include "av1/common/mv.h"
+#include "av1/common/mvref_common.h"
+#include "av1/common/onyxc_int.h"
+#include "av1/common/tile_common.h"
+
+namespace {
+TEST(IntrabcTest, DvValidation) {
+ struct DvTestCase {
+ MV dv;
+ int mi_row_offset;
+ int mi_col_offset;
+ BLOCK_SIZE bsize;
+ bool valid;
+ };
+ const int kSubPelScale = 8;
+ const int kTileMaxMibWidth = 8;
+ const DvTestCase kDvCases[] = {
+ { { 0, 0 }, 0, 0, BLOCK_128X128, false },
+ { { 0, 0 }, 0, 0, BLOCK_64X64, false },
+ { { 0, 0 }, 0, 0, BLOCK_32X32, false },
+ { { 0, 0 }, 0, 0, BLOCK_16X16, false },
+ { { 0, 0 }, 0, 0, BLOCK_8X8, false },
+ { { 0, 0 }, 0, 0, BLOCK_4X4, false },
+ { { -MAX_SB_SIZE * kSubPelScale, -MAX_SB_SIZE * kSubPelScale },
+ MAX_SB_SIZE / MI_SIZE,
+ MAX_SB_SIZE / MI_SIZE,
+ BLOCK_16X16,
+ true },
+ { { 0, -MAX_SB_SIZE * kSubPelScale },
+ MAX_SB_SIZE / MI_SIZE,
+ MAX_SB_SIZE / MI_SIZE,
+ BLOCK_16X16,
+ false },
+ { { -MAX_SB_SIZE * kSubPelScale, 0 },
+ MAX_SB_SIZE / MI_SIZE,
+ MAX_SB_SIZE / MI_SIZE,
+ BLOCK_16X16,
+ true },
+ { { MAX_SB_SIZE * kSubPelScale, 0 },
+ MAX_SB_SIZE / MI_SIZE,
+ MAX_SB_SIZE / MI_SIZE,
+ BLOCK_16X16,
+ false },
+ { { 0, MAX_SB_SIZE * kSubPelScale },
+ MAX_SB_SIZE / MI_SIZE,
+ MAX_SB_SIZE / MI_SIZE,
+ BLOCK_16X16,
+ false },
+ { { -32 * kSubPelScale, -32 * kSubPelScale },
+ MAX_SB_SIZE / MI_SIZE,
+ MAX_SB_SIZE / MI_SIZE,
+ BLOCK_32X32,
+ true },
+ { { -32 * kSubPelScale, -32 * kSubPelScale },
+ 32 / MI_SIZE,
+ 32 / MI_SIZE,
+ BLOCK_32X32,
+ false },
+ { { -32 * kSubPelScale - kSubPelScale / 2, -32 * kSubPelScale },
+ MAX_SB_SIZE / MI_SIZE,
+ MAX_SB_SIZE / MI_SIZE,
+ BLOCK_32X32,
+ false },
+ { { -33 * kSubPelScale, -32 * kSubPelScale },
+ MAX_SB_SIZE / MI_SIZE,
+ MAX_SB_SIZE / MI_SIZE,
+ BLOCK_32X32,
+ true },
+ { { -32 * kSubPelScale, -32 * kSubPelScale - kSubPelScale / 2 },
+ MAX_SB_SIZE / MI_SIZE,
+ MAX_SB_SIZE / MI_SIZE,
+ BLOCK_32X32,
+ false },
+ { { -32 * kSubPelScale, -33 * kSubPelScale },
+ MAX_SB_SIZE / MI_SIZE,
+ MAX_SB_SIZE / MI_SIZE,
+ BLOCK_32X32,
+ true },
+ { { -MAX_SB_SIZE * kSubPelScale, -MAX_SB_SIZE * kSubPelScale },
+ MAX_SB_SIZE / MI_SIZE,
+ MAX_SB_SIZE / MI_SIZE,
+ BLOCK_LARGEST,
+ true },
+ { { -(MAX_SB_SIZE + 1) * kSubPelScale, -MAX_SB_SIZE * kSubPelScale },
+ MAX_SB_SIZE / MI_SIZE,
+ MAX_SB_SIZE / MI_SIZE,
+ BLOCK_LARGEST,
+ false },
+ { { -MAX_SB_SIZE * kSubPelScale, -(MAX_SB_SIZE + 1) * kSubPelScale },
+ MAX_SB_SIZE / MI_SIZE,
+ MAX_SB_SIZE / MI_SIZE,
+ BLOCK_LARGEST,
+ false },
+ { { -(MAX_SB_SIZE - 1) * kSubPelScale, -MAX_SB_SIZE * kSubPelScale },
+ MAX_SB_SIZE / MI_SIZE,
+ MAX_SB_SIZE / MI_SIZE,
+ BLOCK_LARGEST,
+ false },
+ { { -MAX_SB_SIZE * kSubPelScale, -(MAX_SB_SIZE - 1) * kSubPelScale },
+ MAX_SB_SIZE / MI_SIZE,
+ MAX_SB_SIZE / MI_SIZE,
+ BLOCK_LARGEST,
+ true },
+ { { -(MAX_SB_SIZE - 1) * kSubPelScale, -(MAX_SB_SIZE - 1) * kSubPelScale },
+ MAX_SB_SIZE / MI_SIZE,
+ MAX_SB_SIZE / MI_SIZE,
+ BLOCK_LARGEST,
+ false },
+ { { -MAX_SB_SIZE * kSubPelScale, MAX_SB_SIZE * kSubPelScale },
+ MAX_SB_SIZE / MI_SIZE,
+ MAX_SB_SIZE / MI_SIZE,
+ BLOCK_LARGEST,
+ false },
+ { { -MAX_SB_SIZE * kSubPelScale,
+ (kTileMaxMibWidth - 2) * MAX_SB_SIZE * kSubPelScale },
+ MAX_SB_SIZE / MI_SIZE,
+ MAX_SB_SIZE / MI_SIZE,
+ BLOCK_LARGEST,
+ false },
+ { { -MAX_SB_SIZE * kSubPelScale,
+ ((kTileMaxMibWidth - 2) * MAX_SB_SIZE + 1) * kSubPelScale },
+ MAX_SB_SIZE / MI_SIZE,
+ MAX_SB_SIZE / MI_SIZE,
+ BLOCK_LARGEST,
+ false },
+ };
+
+ MACROBLOCKD xd;
+ memset(&xd, 0, sizeof(xd));
+ xd.tile.mi_row_start = 8 * MAX_MIB_SIZE;
+ xd.tile.mi_row_end = 16 * MAX_MIB_SIZE;
+ xd.tile.mi_col_start = 24 * MAX_MIB_SIZE;
+ xd.tile.mi_col_end = xd.tile.mi_col_start + kTileMaxMibWidth * MAX_MIB_SIZE;
+ xd.plane[1].subsampling_x = 1;
+ xd.plane[1].subsampling_y = 1;
+ xd.plane[2].subsampling_x = 1;
+ xd.plane[2].subsampling_y = 1;
+
+ AV1_COMMON cm;
+ memset(&cm, 0, sizeof(cm));
+
+ for (int i = 0; i < static_cast<int>(GTEST_ARRAY_SIZE_(kDvCases)); ++i) {
+ EXPECT_EQ(static_cast<int>(kDvCases[i].valid),
+ av1_is_dv_valid(kDvCases[i].dv, &cm, &xd,
+ xd.tile.mi_row_start + kDvCases[i].mi_row_offset,
+ xd.tile.mi_col_start + kDvCases[i].mi_col_offset,
+ kDvCases[i].bsize, MAX_MIB_SIZE_LOG2))
+ << "DvCases[" << i << "]";
+ }
+}
+} // namespace
diff --git a/third_party/aom/test/intrapred_test.cc b/third_party/aom/test/intrapred_test.cc
new file mode 100644
index 0000000000..1a1c0fc421
--- /dev/null
+++ b/third_party/aom/test/intrapred_test.cc
@@ -0,0 +1,266 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <string>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_config.h"
+#include "config/aom_dsp_rtcd.h"
+
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "test/util.h"
+#include "av1/common/blockd.h"
+#include "av1/common/common.h"
+#include "av1/common/pred_common.h"
+#include "aom_mem/aom_mem.h"
+
+namespace {
+
+using libaom_test::ACMRandom;
+
+const int count_test_block = 100000;
+
+typedef void (*HighbdIntraPred)(uint16_t *dst, ptrdiff_t stride,
+ const uint16_t *above, const uint16_t *left,
+ int bps);
+typedef void (*IntraPred)(uint8_t *dst, ptrdiff_t stride, const uint8_t *above,
+ const uint8_t *left);
+
+} // namespace
+
+// NOTE: Under gcc version 7.3.0 (Debian 7.3.0-5), if this template is in the
+// anonymous namespace, then we get a strange compiler warning in
+// the begin() and end() methods of the ParamGenerator template class in
+// gtest/internal/gtest-param-util.h:
+// warning: ‘<anonymous>’ is used uninitialized in this function
+// As a workaround, put this template outside the anonymous namespace.
+// See bug aomedia:2003.
+template <typename FuncType>
+struct IntraPredFunc {
+ IntraPredFunc(FuncType pred = NULL, FuncType ref = NULL,
+ int block_width_value = 0, int block_height_value = 0,
+ int bit_depth_value = 0)
+ : pred_fn(pred), ref_fn(ref), block_width(block_width_value),
+ block_height(block_height_value), bit_depth(bit_depth_value) {}
+
+ FuncType pred_fn;
+ FuncType ref_fn;
+ int block_width;
+ int block_height;
+ int bit_depth;
+};
+
+namespace {
+
+template <typename FuncType, typename Pixel>
+class AV1IntraPredTest
+ : public ::testing::TestWithParam<IntraPredFunc<FuncType> > {
+ public:
+ void RunTest(Pixel *left_col, Pixel *above_data, Pixel *dst, Pixel *ref_dst) {
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ const int block_width = params_.block_width;
+ const int block_height = params_.block_height;
+ above_row_ = above_data + 16;
+ left_col_ = left_col;
+ dst_ = dst;
+ ref_dst_ = ref_dst;
+ int error_count = 0;
+ for (int i = 0; i < count_test_block; ++i) {
+ // Fill edges with random data, try first with saturated values.
+ for (int x = -1; x <= block_width * 2; x++) {
+ if (i == 0) {
+ above_row_[x] = mask_;
+ } else {
+ above_row_[x] = rnd.Rand16() & mask_;
+ }
+ }
+ for (int y = 0; y < block_height; y++) {
+ if (i == 0) {
+ left_col_[y] = mask_;
+ } else {
+ left_col_[y] = rnd.Rand16() & mask_;
+ }
+ }
+ Predict();
+ CheckPrediction(i, &error_count);
+ }
+ ASSERT_EQ(0, error_count);
+ }
+
+ protected:
+ virtual void SetUp() {
+ params_ = this->GetParam();
+ stride_ = params_.block_width * 3;
+ mask_ = (1 << params_.bit_depth) - 1;
+ }
+
+ virtual void Predict() = 0;
+
+ void CheckPrediction(int test_case_number, int *error_count) const {
+ // For each pixel ensure that the calculated value is the same as reference.
+ const int block_width = params_.block_width;
+ const int block_height = params_.block_height;
+ for (int y = 0; y < block_height; y++) {
+ for (int x = 0; x < block_width; x++) {
+ *error_count += ref_dst_[x + y * stride_] != dst_[x + y * stride_];
+ if (*error_count == 1) {
+ ASSERT_EQ(ref_dst_[x + y * stride_], dst_[x + y * stride_])
+ << " Failed on Test Case Number " << test_case_number
+ << " location: x = " << x << " y = " << y;
+ }
+ }
+ }
+ }
+
+ Pixel *above_row_;
+ Pixel *left_col_;
+ Pixel *dst_;
+ Pixel *ref_dst_;
+ ptrdiff_t stride_;
+ int mask_;
+
+ IntraPredFunc<FuncType> params_;
+};
+
+class HighbdIntraPredTest : public AV1IntraPredTest<HighbdIntraPred, uint16_t> {
+ protected:
+ void Predict() {
+ const int bit_depth = params_.bit_depth;
+ params_.ref_fn(ref_dst_, stride_, above_row_, left_col_, bit_depth);
+ ASM_REGISTER_STATE_CHECK(
+ params_.pred_fn(dst_, stride_, above_row_, left_col_, bit_depth));
+ }
+};
+
+class LowbdIntraPredTest : public AV1IntraPredTest<IntraPred, uint8_t> {
+ protected:
+ void Predict() {
+ params_.ref_fn(ref_dst_, stride_, above_row_, left_col_);
+ ASM_REGISTER_STATE_CHECK(
+ params_.pred_fn(dst_, stride_, above_row_, left_col_));
+ }
+};
+
+// Suppress an unitialized warning. Once there are implementations to test then
+// this can be restored.
+TEST_P(HighbdIntraPredTest, Bitexact) {
+ // max block size is 64
+ DECLARE_ALIGNED(16, uint16_t, left_col[2 * 64]);
+ DECLARE_ALIGNED(16, uint16_t, above_data[2 * 64 + 64]);
+ DECLARE_ALIGNED(16, uint16_t, dst[3 * 64 * 64]);
+ DECLARE_ALIGNED(16, uint16_t, ref_dst[3 * 64 * 64]);
+ av1_zero(left_col);
+ av1_zero(above_data);
+ RunTest(left_col, above_data, dst, ref_dst);
+}
+
+// Same issue as above but for arm.
+#if !HAVE_NEON
+TEST_P(LowbdIntraPredTest, Bitexact) {
+ // max block size is 32
+ DECLARE_ALIGNED(16, uint8_t, left_col[2 * 32]);
+ DECLARE_ALIGNED(16, uint8_t, above_data[2 * 32 + 32]);
+ DECLARE_ALIGNED(16, uint8_t, dst[3 * 32 * 32]);
+ DECLARE_ALIGNED(16, uint8_t, ref_dst[3 * 32 * 32]);
+ av1_zero(left_col);
+ av1_zero(above_data);
+ RunTest(left_col, above_data, dst, ref_dst);
+}
+#endif // !HAVE_NEON
+
+// -----------------------------------------------------------------------------
+// High Bit Depth Tests
+#define highbd_entry(type, width, height, opt, bd) \
+ IntraPredFunc<HighbdIntraPred>( \
+ &aom_highbd_##type##_predictor_##width##x##height##_##opt, \
+ &aom_highbd_##type##_predictor_##width##x##height##_c, width, height, \
+ bd)
+
+#if 0
+#define highbd_intrapred(type, opt, bd) \
+ highbd_entry(type, 4, 4, opt, bd), highbd_entry(type, 4, 8, opt, bd), \
+ highbd_entry(type, 8, 4, opt, bd), highbd_entry(type, 8, 8, opt, bd), \
+ highbd_entry(type, 8, 16, opt, bd), highbd_entry(type, 16, 8, opt, bd), \
+ highbd_entry(type, 16, 16, opt, bd), \
+ highbd_entry(type, 16, 32, opt, bd), \
+ highbd_entry(type, 32, 16, opt, bd), highbd_entry(type, 32, 32, opt, bd)
+#endif
+
+ // ---------------------------------------------------------------------------
+ // Low Bit Depth Tests
+
+#define lowbd_entry(type, width, height, opt) \
+ IntraPredFunc<IntraPred>(&aom_##type##_predictor_##width##x##height##_##opt, \
+ &aom_##type##_predictor_##width##x##height##_c, \
+ width, height, 8)
+
+#define lowbd_intrapred(type, opt) \
+ lowbd_entry(type, 4, 4, opt), lowbd_entry(type, 4, 8, opt), \
+ lowbd_entry(type, 8, 4, opt), lowbd_entry(type, 8, 8, opt), \
+ lowbd_entry(type, 8, 16, opt), lowbd_entry(type, 16, 8, opt), \
+ lowbd_entry(type, 16, 16, opt), lowbd_entry(type, 16, 32, opt), \
+ lowbd_entry(type, 32, 16, opt), lowbd_entry(type, 32, 32, opt)
+
+#if HAVE_SSE2
+const IntraPredFunc<IntraPred> LowbdIntraPredTestVector[] = {
+ lowbd_intrapred(dc, sse2), lowbd_intrapred(dc_top, sse2),
+ lowbd_intrapred(dc_left, sse2), lowbd_intrapred(dc_128, sse2),
+ lowbd_intrapred(v, sse2), lowbd_intrapred(h, sse2),
+};
+
+INSTANTIATE_TEST_CASE_P(SSE2, LowbdIntraPredTest,
+ ::testing::ValuesIn(LowbdIntraPredTestVector));
+
+#endif // HAVE_SSE2
+
+#if HAVE_SSSE3
+const IntraPredFunc<IntraPred> LowbdIntraPredTestVectorSsse3[] = {
+ lowbd_intrapred(paeth, ssse3),
+ lowbd_intrapred(smooth, ssse3),
+};
+
+INSTANTIATE_TEST_CASE_P(SSSE3, LowbdIntraPredTest,
+ ::testing::ValuesIn(LowbdIntraPredTestVectorSsse3));
+
+#endif // HAVE_SSSE3
+
+#if HAVE_AVX2
+const IntraPredFunc<IntraPred> LowbdIntraPredTestVectorAvx2[] = {
+ lowbd_entry(dc, 32, 32, avx2), lowbd_entry(dc_top, 32, 32, avx2),
+ lowbd_entry(dc_left, 32, 32, avx2), lowbd_entry(dc_128, 32, 32, avx2),
+ lowbd_entry(v, 32, 32, avx2), lowbd_entry(h, 32, 32, avx2),
+ lowbd_entry(dc, 32, 16, avx2), lowbd_entry(dc_top, 32, 16, avx2),
+ lowbd_entry(dc_left, 32, 16, avx2), lowbd_entry(dc_128, 32, 16, avx2),
+ lowbd_entry(v, 32, 16, avx2), lowbd_entry(paeth, 16, 8, avx2),
+ lowbd_entry(paeth, 16, 16, avx2), lowbd_entry(paeth, 16, 32, avx2),
+ lowbd_entry(paeth, 32, 16, avx2), lowbd_entry(paeth, 32, 32, avx2),
+};
+
+INSTANTIATE_TEST_CASE_P(AVX2, LowbdIntraPredTest,
+ ::testing::ValuesIn(LowbdIntraPredTestVectorAvx2));
+
+#endif // HAVE_AVX2
+
+#if HAVE_NEON
+const IntraPredFunc<HighbdIntraPred> HighbdIntraPredTestVectorNeon[] = {
+ highbd_entry(dc, 4, 4, neon, 8), highbd_entry(dc, 8, 8, neon, 8),
+ highbd_entry(dc, 16, 16, neon, 8), highbd_entry(dc, 32, 32, neon, 8),
+ highbd_entry(dc, 64, 64, neon, 8),
+};
+
+INSTANTIATE_TEST_CASE_P(NEON, HighbdIntraPredTest,
+ ::testing::ValuesIn(HighbdIntraPredTestVectorNeon));
+
+#endif // HAVE_NEON
+} // namespace
diff --git a/third_party/aom/test/invalid_file_test.cc b/third_party/aom/test/invalid_file_test.cc
new file mode 100644
index 0000000000..5b4f5a6c3d
--- /dev/null
+++ b/third_party/aom/test/invalid_file_test.cc
@@ -0,0 +1,122 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <cstdio>
+#include <string>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/codec_factory.h"
+#include "test/ivf_video_source.h"
+#include "test/util.h"
+#include "test/video_source.h"
+
+namespace {
+
+struct DecodeParam {
+ int threads;
+ const char *filename;
+};
+
+std::ostream &operator<<(std::ostream &os, const DecodeParam &dp) {
+ return os << "threads: " << dp.threads << " file: " << dp.filename;
+}
+
+class InvalidFileTest : public ::libaom_test::DecoderTest,
+ public ::libaom_test::CodecTestWithParam<DecodeParam> {
+ protected:
+ InvalidFileTest() : DecoderTest(GET_PARAM(0)), res_file_(NULL) {}
+
+ virtual ~InvalidFileTest() {
+ if (res_file_ != NULL) fclose(res_file_);
+ }
+
+ void OpenResFile(const std::string &res_file_name) {
+ res_file_ = libaom_test::OpenTestDataFile(res_file_name);
+ ASSERT_TRUE(res_file_ != NULL)
+ << "Result file open failed. Filename: " << res_file_name;
+ }
+
+ virtual bool HandleDecodeResult(
+ const aom_codec_err_t res_dec,
+ const libaom_test::CompressedVideoSource &video,
+ libaom_test::Decoder *decoder) {
+ EXPECT_TRUE(res_file_ != NULL);
+ int expected_res_dec = -1;
+
+ // Read integer result.
+ const int res = fscanf(res_file_, "%d", &expected_res_dec);
+ EXPECT_NE(res, EOF) << "Read result data failed";
+
+ if (expected_res_dec != -1) {
+ // Check results match.
+ const DecodeParam input = GET_PARAM(1);
+ if (input.threads > 1) {
+ // The serial decode check is too strict for tile-threaded decoding as
+ // there is no guarantee on the decode order nor which specific error
+ // will take precedence. Currently a tile-level error is not forwarded
+ // so the frame will simply be marked corrupt.
+ EXPECT_TRUE(res_dec == expected_res_dec ||
+ res_dec == AOM_CODEC_CORRUPT_FRAME)
+ << "Results don't match: frame number = " << video.frame_number()
+ << ". (" << decoder->DecodeError()
+ << "). Expected: " << expected_res_dec << " or "
+ << AOM_CODEC_CORRUPT_FRAME;
+ } else {
+ EXPECT_EQ(expected_res_dec, res_dec)
+ << "Results don't match: frame number = " << video.frame_number()
+ << ". (" << decoder->DecodeError() << ")";
+ }
+ }
+
+ return !HasFailure();
+ }
+
+ virtual void HandlePeekResult(libaom_test::Decoder *const /*decoder*/,
+ libaom_test::CompressedVideoSource * /*video*/,
+ const aom_codec_err_t /*res_peek*/) {}
+
+ void RunTest() {
+ const DecodeParam input = GET_PARAM(1);
+ aom_codec_dec_cfg_t cfg = { 0, 0, 0, CONFIG_LOWBITDEPTH, { 1 } };
+ cfg.threads = input.threads;
+ const std::string filename = input.filename;
+ libaom_test::IVFVideoSource decode_video(filename);
+ decode_video.Init();
+
+ // Construct result file name. The file holds a list of expected integer
+ // results, one for each decoded frame. Any result that doesn't match
+ // the files list will cause a test failure.
+ const std::string res_filename = filename + ".res";
+ OpenResFile(res_filename);
+
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&decode_video, cfg));
+ }
+
+ private:
+ FILE *res_file_;
+};
+
+TEST_P(InvalidFileTest, ReturnCode) { RunTest(); }
+
+const DecodeParam kAV1InvalidFileTests[] = {
+ { 1, "invalid-bug-1814.ivf" },
+ { 4, "invalid-oss-fuzz-9463.ivf" },
+ { 1, "invalid-oss-fuzz-9482.ivf" },
+ { 1, "invalid-oss-fuzz-9720.ivf" },
+ { 1, "invalid-oss-fuzz-10061.ivf" },
+ { 1, "invalid-oss-fuzz-10117-mc-buf-use-highbd.ivf" },
+ { 1, "invalid-oss-fuzz-10227.ivf" },
+};
+
+AV1_INSTANTIATE_TEST_CASE(InvalidFileTest,
+ ::testing::ValuesIn(kAV1InvalidFileTests));
+
+} // namespace
diff --git a/third_party/aom/test/ivf_video_source.h b/third_party/aom/test/ivf_video_source.h
new file mode 100644
index 0000000000..ff2841445e
--- /dev/null
+++ b/third_party/aom/test/ivf_video_source.h
@@ -0,0 +1,114 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+#ifndef AOM_TEST_IVF_VIDEO_SOURCE_H_
+#define AOM_TEST_IVF_VIDEO_SOURCE_H_
+
+#include <cstdio>
+#include <cstdlib>
+#include <new>
+#include <string>
+
+#include "aom_ports/sanitizer.h"
+#include "test/video_source.h"
+
+namespace libaom_test {
+const unsigned int kCodeBufferSize = 256 * 1024 * 1024;
+const unsigned int kIvfFileHdrSize = 32;
+const unsigned int kIvfFrameHdrSize = 12;
+
+static unsigned int MemGetLe32(const uint8_t *mem) {
+ return (mem[3] << 24) | (mem[2] << 16) | (mem[1] << 8) | (mem[0]);
+}
+
+// This class extends VideoSource to allow parsing of ivf files,
+// so that we can do actual file decodes.
+class IVFVideoSource : public CompressedVideoSource {
+ public:
+ explicit IVFVideoSource(const std::string &file_name)
+ : file_name_(file_name), input_file_(NULL), compressed_frame_buf_(NULL),
+ frame_sz_(0), frame_(0), end_of_file_(false) {}
+
+ virtual ~IVFVideoSource() {
+ delete[] compressed_frame_buf_;
+
+ if (input_file_) fclose(input_file_);
+ }
+
+ virtual void Init() {
+ // Allocate a buffer for read in the compressed video frame.
+ compressed_frame_buf_ = new uint8_t[kCodeBufferSize];
+ ASSERT_TRUE(compressed_frame_buf_ != NULL)
+ << "Allocate frame buffer failed";
+ ASAN_POISON_MEMORY_REGION(compressed_frame_buf_, kCodeBufferSize);
+ }
+
+ virtual void Begin() {
+ input_file_ = OpenTestDataFile(file_name_);
+ ASSERT_TRUE(input_file_ != NULL)
+ << "Input file open failed. Filename: " << file_name_;
+
+ // Read file header
+ uint8_t file_hdr[kIvfFileHdrSize];
+ ASSERT_EQ(kIvfFileHdrSize, fread(file_hdr, 1, kIvfFileHdrSize, input_file_))
+ << "File header read failed.";
+ // Check file header
+ ASSERT_TRUE(file_hdr[0] == 'D' && file_hdr[1] == 'K' &&
+ file_hdr[2] == 'I' && file_hdr[3] == 'F')
+ << "Input is not an IVF file.";
+
+ FillFrame();
+ }
+
+ virtual void Next() {
+ ++frame_;
+ FillFrame();
+ }
+
+ void FillFrame() {
+ ASSERT_TRUE(input_file_ != NULL);
+ uint8_t frame_hdr[kIvfFrameHdrSize];
+ // Check frame header and read a frame from input_file.
+ if (fread(frame_hdr, 1, kIvfFrameHdrSize, input_file_) !=
+ kIvfFrameHdrSize) {
+ end_of_file_ = true;
+ } else {
+ end_of_file_ = false;
+
+ frame_sz_ = MemGetLe32(frame_hdr);
+ ASSERT_LE(frame_sz_, kCodeBufferSize)
+ << "Frame is too big for allocated code buffer";
+ ASAN_UNPOISON_MEMORY_REGION(compressed_frame_buf_, kCodeBufferSize);
+ ASSERT_EQ(frame_sz_,
+ fread(compressed_frame_buf_, 1, frame_sz_, input_file_))
+ << "Failed to read complete frame";
+ ASAN_POISON_MEMORY_REGION(compressed_frame_buf_ + frame_sz_,
+ kCodeBufferSize - frame_sz_);
+ }
+ }
+
+ virtual const uint8_t *cxdata() const {
+ return end_of_file_ ? NULL : compressed_frame_buf_;
+ }
+ virtual size_t frame_size() const { return frame_sz_; }
+ virtual unsigned int frame_number() const { return frame_; }
+
+ protected:
+ std::string file_name_;
+ FILE *input_file_;
+ uint8_t *compressed_frame_buf_;
+ size_t frame_sz_;
+ unsigned int frame_;
+ bool end_of_file_;
+};
+
+} // namespace libaom_test
+
+#endif // AOM_TEST_IVF_VIDEO_SOURCE_H_
diff --git a/third_party/aom/test/lightfield_test.sh b/third_party/aom/test/lightfield_test.sh
new file mode 100755
index 0000000000..b957a6b794
--- /dev/null
+++ b/third_party/aom/test/lightfield_test.sh
@@ -0,0 +1,98 @@
+#!/bin/sh
+## Copyright (c) 2018, Alliance for Open Media. All rights reserved
+##
+## This source code is subject to the terms of the BSD 2 Clause License and
+## the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+## was not distributed with this source code in the LICENSE file, you can
+## obtain it at www.aomedia.org/license/software. If the Alliance for Open
+## Media Patent License 1.0 was not distributed with this source code in the
+## PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+##
+## This file tests the lightfield example.
+##
+. $(dirname $0)/tools_common.sh
+
+# Environment check: $infile is required.
+lightfield_test_verify_environment() {
+ local infile="${LIBAOM_TEST_DATA_PATH}/vase10x10.yuv"
+ if [ ! -e "${infile}" ]; then
+ echo "Libaom test data must exist in LIBAOM_TEST_DATA_PATH."
+ return 1
+ fi
+}
+
+# Run the lightfield example
+lightfield_test() {
+ local img_width=1024
+ local img_height=1024
+ local lf_width=10
+ local lf_height=10
+ local lf_blocksize=5
+ local num_references=4
+ local num_tile_lists=2
+
+ # Encode the lightfield.
+ local encoder="${LIBAOM_BIN_PATH}/lightfield_encoder${AOM_TEST_EXE_SUFFIX}"
+ local yuv_file="${LIBAOM_TEST_DATA_PATH}/vase10x10.yuv"
+ local lf_file="${AOM_TEST_OUTPUT_DIR}/vase10x10.ivf"
+ if [ ! -x "${encoder}" ]; then
+ elog "${encoder} does not exist or is not executable."
+ return 1
+ fi
+
+ eval "${AOM_TEST_PREFIX}" "${encoder}" "${img_width}" "${img_height}" \
+ "${yuv_file}" "${lf_file}" "${lf_width}" \
+ "${lf_height}" "${lf_blocksize}" ${devnull}
+
+ [ -e "${lf_file}" ] || return 1
+
+ # Parse lightfield bitstream to construct and output a new bitstream that can
+ # be decoded by an AV1 decoder.
+ local bs_decoder="${LIBAOM_BIN_PATH}/lightfield_bitstream_parsing${AOM_TEST_EXE_SUFFIX}"
+ local tl_file="${AOM_TEST_OUTPUT_DIR}/vase_tile_list.ivf"
+ if [ ! -x "${bs_decoder}" ]; then
+ elog "${bs_decoder} does not exist or is not executable."
+ return 1
+ fi
+
+ eval "${AOM_TEST_PREFIX}" "${bs_decoder}" "${lf_file}" "${tl_file}" \
+ "${num_references}" ${devnull}
+
+ [ -e "${tl_file}" ] || return 1
+
+ # Run lightfield tile list decoder
+ local tl_decoder="${LIBAOM_BIN_PATH}/lightfield_tile_list_decoder${AOM_TEST_EXE_SUFFIX}"
+ local tl_outfile="${AOM_TEST_OUTPUT_DIR}/vase_tile_list.yuv"
+ if [ ! -x "${tl_decoder}" ]; then
+ elog "${tl_decoder} does not exist or is not executable."
+ return 1
+ fi
+
+ eval "${AOM_TEST_PREFIX}" "${tl_decoder}" "${tl_file}" "${tl_outfile}" \
+ "${num_references}" "${num_tile_lists}" ${devnull}
+
+ [ -e "${tl_outfile}" ] || return 1
+
+ # Run reference lightfield decoder
+ local ref_decoder="${LIBAOM_BIN_PATH}/lightfield_decoder${AOM_TEST_EXE_SUFFIX}"
+ local tl_reffile="${AOM_TEST_OUTPUT_DIR}/vase_reference.yuv"
+ if [ ! -x "${ref_decoder}" ]; then
+ elog "${ref_decoder} does not exist or is not executable."
+ return 1
+ fi
+
+ eval "${AOM_TEST_PREFIX}" "${ref_decoder}" "${lf_file}" "${tl_reffile}" \
+ "${num_references}" ${devnull}
+
+ [ -e "${tl_reffile}" ] || return 1
+
+ # Check if tl_outfile and tl_reffile are identical. If not identical, this test fails.
+ diff ${tl_outfile} ${tl_reffile} > /dev/null
+ if [ $? -eq 1 ]; then
+ return 1
+ fi
+}
+
+lightfield_test_tests="lightfield_test"
+
+run_tests lightfield_test_verify_environment "${lightfield_test_tests}"
diff --git a/third_party/aom/test/log2_test.cc b/third_party/aom/test/log2_test.cc
new file mode 100644
index 0000000000..d7840c68b2
--- /dev/null
+++ b/third_party/aom/test/log2_test.cc
@@ -0,0 +1,50 @@
+/*
+ * Copyright (c) 2018, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <math.h>
+
+#include "aom_ports/bitops.h"
+#include "av1/common/entropymode.h"
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+TEST(Log2Test, GetMsb) {
+ // Test small numbers exhaustively.
+ for (unsigned int n = 1; n < 10000; n++) {
+ EXPECT_EQ(get_msb(n), static_cast<int>(floor(log2(n))));
+ }
+
+ // Test every power of 2 and the two adjacent numbers.
+ for (int exponent = 2; exponent < 32; exponent++) {
+ const unsigned int power_of_2 = 1U << exponent;
+ EXPECT_EQ(get_msb(power_of_2 - 1), exponent - 1);
+ EXPECT_EQ(get_msb(power_of_2), exponent);
+ EXPECT_EQ(get_msb(power_of_2 + 1), exponent);
+ }
+}
+
+TEST(Log2Test, Av1CeilLog2) {
+ // Test small numbers exhaustively.
+ EXPECT_EQ(av1_ceil_log2(0), 0);
+ for (int n = 1; n < 10000; n++) {
+ EXPECT_EQ(av1_ceil_log2(n), static_cast<int>(ceil(log2(n))));
+ }
+
+ // Test every power of 2 and the two adjacent numbers.
+ for (int exponent = 2; exponent < 31; exponent++) {
+ const int power_of_2 = 1 << exponent;
+ EXPECT_EQ(av1_ceil_log2(power_of_2 - 1), exponent);
+ EXPECT_EQ(av1_ceil_log2(power_of_2), exponent);
+ // The current implementation of av1_ceil_log2 only works up to 2^30.
+ if (exponent < 30) {
+ EXPECT_EQ(av1_ceil_log2(power_of_2 + 1), exponent + 1);
+ }
+ }
+}
diff --git a/third_party/aom/test/lossless_test.cc b/third_party/aom/test/lossless_test.cc
new file mode 100644
index 0000000000..3f8e89c815
--- /dev/null
+++ b/third_party/aom/test/lossless_test.cc
@@ -0,0 +1,126 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_config.h"
+
+#include "test/codec_factory.h"
+#include "test/encode_test_driver.h"
+#include "test/i420_video_source.h"
+#include "test/util.h"
+#include "test/y4m_video_source.h"
+
+namespace {
+
+const int kMaxPsnr = 100;
+
+class LosslessTestLarge
+ : public ::libaom_test::CodecTestWithParam<libaom_test::TestMode>,
+ public ::libaom_test::EncoderTest {
+ protected:
+ LosslessTestLarge()
+ : EncoderTest(GET_PARAM(0)), psnr_(kMaxPsnr), nframes_(0),
+ encoding_mode_(GET_PARAM(1)) {}
+
+ virtual ~LosslessTestLarge() {}
+
+ virtual void SetUp() {
+ InitializeConfig();
+ SetMode(encoding_mode_);
+ }
+
+ virtual void PreEncodeFrameHook(::libaom_test::VideoSource *video,
+ ::libaom_test::Encoder *encoder) {
+ if (video->frame() == 1) {
+ // Only call Control if quantizer > 0 to verify that using quantizer
+ // alone will activate lossless
+ if (cfg_.rc_max_quantizer > 0 || cfg_.rc_min_quantizer > 0) {
+ encoder->Control(AV1E_SET_LOSSLESS, 1);
+ }
+ }
+ }
+
+ virtual void BeginPassHook(unsigned int /*pass*/) {
+ psnr_ = kMaxPsnr;
+ nframes_ = 0;
+ }
+
+ virtual void PSNRPktHook(const aom_codec_cx_pkt_t *pkt) {
+ if (pkt->data.psnr.psnr[0] < psnr_) psnr_ = pkt->data.psnr.psnr[0];
+ }
+
+ double GetMinPsnr() const { return psnr_; }
+
+ private:
+ double psnr_;
+ unsigned int nframes_;
+ libaom_test::TestMode encoding_mode_;
+};
+
+TEST_P(LosslessTestLarge, TestLossLessEncoding) {
+ const aom_rational timebase = { 33333333, 1000000000 };
+ cfg_.g_timebase = timebase;
+ cfg_.rc_target_bitrate = 2000;
+ cfg_.g_lag_in_frames = 25;
+ cfg_.rc_min_quantizer = 0;
+ cfg_.rc_max_quantizer = 0;
+
+ init_flags_ = AOM_CODEC_USE_PSNR;
+
+ // intentionally changed the dimension for better testing coverage
+ libaom_test::I420VideoSource video("hantro_collage_w352h288.yuv", 352, 288,
+ timebase.den, timebase.num, 0, 5);
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+ const double psnr_lossless = GetMinPsnr();
+ EXPECT_GE(psnr_lossless, kMaxPsnr);
+}
+
+TEST_P(LosslessTestLarge, TestLossLessEncoding444) {
+ libaom_test::Y4mVideoSource video("rush_hour_444.y4m", 0, 5);
+
+ cfg_.g_profile = 1;
+ cfg_.g_timebase = video.timebase();
+ cfg_.rc_target_bitrate = 2000;
+ cfg_.g_lag_in_frames = 25;
+ cfg_.rc_min_quantizer = 0;
+ cfg_.rc_max_quantizer = 0;
+
+ init_flags_ = AOM_CODEC_USE_PSNR;
+
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+ const double psnr_lossless = GetMinPsnr();
+ EXPECT_GE(psnr_lossless, kMaxPsnr);
+}
+
+TEST_P(LosslessTestLarge, TestLossLessEncodingCtrl) {
+ const aom_rational timebase = { 33333333, 1000000000 };
+ cfg_.g_timebase = timebase;
+ cfg_.rc_target_bitrate = 2000;
+ cfg_.g_lag_in_frames = 25;
+ // Intentionally set Q > 0, to make sure control can be used to activate
+ // lossless
+ cfg_.rc_min_quantizer = 10;
+ cfg_.rc_max_quantizer = 20;
+
+ init_flags_ = AOM_CODEC_USE_PSNR;
+
+ libaom_test::I420VideoSource video("hantro_collage_w352h288.yuv", 352, 288,
+ timebase.den, timebase.num, 0, 5);
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+ const double psnr_lossless = GetMinPsnr();
+ EXPECT_GE(psnr_lossless, kMaxPsnr);
+}
+
+AV1_INSTANTIATE_TEST_CASE(LosslessTestLarge,
+ ::testing::Values(::libaom_test::kOnePassGood,
+ ::libaom_test::kTwoPassGood));
+} // namespace
diff --git a/third_party/aom/test/lpf_test.cc b/third_party/aom/test/lpf_test.cc
new file mode 100644
index 0000000000..451bffd2a2
--- /dev/null
+++ b/third_party/aom/test/lpf_test.cc
@@ -0,0 +1,627 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <cmath>
+#include <cstdlib>
+#include <string>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_config.h"
+#include "config/aom_dsp_rtcd.h"
+
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "test/util.h"
+#include "av1/common/av1_loopfilter.h"
+#include "av1/common/entropy.h"
+#include "aom/aom_integer.h"
+
+using libaom_test::ACMRandom;
+
+namespace {
+// Horizontally and Vertically need 32x32: 8 Coeffs preceeding filtered section
+// 16 Coefs within filtered section
+// 8 Coeffs following filtered section
+const int kNumCoeffs = 1024;
+
+const int number_of_iterations = 10000;
+
+const int kSpeedTestNum = 500000;
+
+#define LOOP_PARAM \
+ int p, const uint8_t *blimit, const uint8_t *limit, const uint8_t *thresh
+#define DUAL_LOOP_PARAM \
+ int p, const uint8_t *blimit0, const uint8_t *limit0, \
+ const uint8_t *thresh0, const uint8_t *blimit1, const uint8_t *limit1, \
+ const uint8_t *thresh1
+
+typedef void (*loop_op_t)(uint8_t *s, LOOP_PARAM);
+typedef void (*dual_loop_op_t)(uint8_t *s, DUAL_LOOP_PARAM);
+typedef void (*hbdloop_op_t)(uint16_t *s, LOOP_PARAM, int bd);
+typedef void (*hbddual_loop_op_t)(uint16_t *s, DUAL_LOOP_PARAM, int bd);
+
+typedef ::testing::tuple<hbdloop_op_t, hbdloop_op_t, int> hbdloop_param_t;
+typedef ::testing::tuple<hbddual_loop_op_t, hbddual_loop_op_t, int>
+ hbddual_loop_param_t;
+typedef ::testing::tuple<loop_op_t, loop_op_t, int> loop_param_t;
+typedef ::testing::tuple<dual_loop_op_t, dual_loop_op_t, int> dual_loop_param_t;
+
+template <typename Pixel_t, int PIXEL_WIDTH_t>
+void InitInput(Pixel_t *s, Pixel_t *ref_s, ACMRandom *rnd, const uint8_t limit,
+ const int mask, const int32_t p, const int i) {
+ uint16_t tmp_s[kNumCoeffs];
+
+ for (int j = 0; j < kNumCoeffs;) {
+ const uint8_t val = rnd->Rand8();
+ if (val & 0x80) { // 50% chance to choose a new value.
+ tmp_s[j] = rnd->Rand16();
+ j++;
+ } else { // 50% chance to repeat previous value in row X times.
+ int k = 0;
+ while (k++ < ((val & 0x1f) + 1) && j < kNumCoeffs) {
+ if (j < 1) {
+ tmp_s[j] = rnd->Rand16();
+ } else if (val & 0x20) { // Increment by a value within the limit.
+ tmp_s[j] = tmp_s[j - 1] + (limit - 1);
+ } else { // Decrement by a value within the limit.
+ tmp_s[j] = tmp_s[j - 1] - (limit - 1);
+ }
+ j++;
+ }
+ }
+ }
+
+ for (int j = 0; j < kNumCoeffs;) {
+ const uint8_t val = rnd->Rand8();
+ if (val & 0x80) {
+ j++;
+ } else { // 50% chance to repeat previous value in column X times.
+ int k = 0;
+ while (k++ < ((val & 0x1f) + 1) && j < kNumCoeffs) {
+ if (j < 1) {
+ tmp_s[j] = rnd->Rand16();
+ } else if (val & 0x20) { // Increment by a value within the limit.
+ tmp_s[(j % 32) * 32 + j / 32] =
+ tmp_s[((j - 1) % 32) * 32 + (j - 1) / 32] + (limit - 1);
+ } else { // Decrement by a value within the limit.
+ tmp_s[(j % 32) * 32 + j / 32] =
+ tmp_s[((j - 1) % 32) * 32 + (j - 1) / 32] - (limit - 1);
+ }
+ j++;
+ }
+ }
+ }
+
+ for (int j = 0; j < kNumCoeffs; j++) {
+ if (i % 2) {
+ s[j] = tmp_s[j] & mask;
+ } else {
+ s[j] = tmp_s[p * (j % p) + j / p] & mask;
+ }
+ ref_s[j] = s[j];
+ }
+}
+
+uint8_t GetOuterThresh(ACMRandom *rnd) {
+ return static_cast<uint8_t>(rnd->PseudoUniform(3 * MAX_LOOP_FILTER + 5));
+}
+
+uint8_t GetInnerThresh(ACMRandom *rnd) {
+ return static_cast<uint8_t>(rnd->PseudoUniform(MAX_LOOP_FILTER + 1));
+}
+
+uint8_t GetHevThresh(ACMRandom *rnd) {
+ return static_cast<uint8_t>(rnd->PseudoUniform(MAX_LOOP_FILTER + 1) >> 4);
+}
+
+template <typename func_type_t, typename params_t>
+class LoopTestParam : public ::testing::TestWithParam<params_t> {
+ public:
+ virtual ~LoopTestParam() {}
+ virtual void SetUp() {
+ loopfilter_op_ = ::testing::get<0>(this->GetParam());
+ ref_loopfilter_op_ = ::testing::get<1>(this->GetParam());
+ bit_depth_ = ::testing::get<2>(this->GetParam());
+ mask_ = (1 << bit_depth_) - 1;
+ }
+
+ virtual void TearDown() { libaom_test::ClearSystemState(); }
+
+ protected:
+ int bit_depth_;
+ int mask_;
+ func_type_t loopfilter_op_;
+ func_type_t ref_loopfilter_op_;
+};
+
+void call_filter(uint16_t *s, LOOP_PARAM, int bd, hbdloop_op_t op) {
+ op(s, p, blimit, limit, thresh, bd);
+}
+void call_filter(uint8_t *s, LOOP_PARAM, int bd, loop_op_t op) {
+ (void)bd;
+ op(s, p, blimit, limit, thresh);
+}
+void call_dualfilter(uint16_t *s, DUAL_LOOP_PARAM, int bd,
+ hbddual_loop_op_t op) {
+ op(s, p, blimit0, limit0, thresh0, blimit1, limit1, thresh1, bd);
+}
+void call_dualfilter(uint8_t *s, DUAL_LOOP_PARAM, int bd, dual_loop_op_t op) {
+ (void)bd;
+ op(s, p, blimit0, limit0, thresh0, blimit1, limit1, thresh1);
+};
+
+typedef LoopTestParam<hbdloop_op_t, hbdloop_param_t> Loop8Test6Param_hbd;
+typedef LoopTestParam<loop_op_t, loop_param_t> Loop8Test6Param_lbd;
+typedef LoopTestParam<hbddual_loop_op_t, hbddual_loop_param_t>
+ Loop8Test9Param_hbd;
+typedef LoopTestParam<dual_loop_op_t, dual_loop_param_t> Loop8Test9Param_lbd;
+
+#define OPCHECK(a, b) \
+ ACMRandom rnd(ACMRandom::DeterministicSeed()); \
+ const int count_test_block = number_of_iterations; \
+ const int32_t p = kNumCoeffs / 32; \
+ DECLARE_ALIGNED(b, a, s[kNumCoeffs]); \
+ DECLARE_ALIGNED(b, a, ref_s[kNumCoeffs]); \
+ int err_count_total = 0; \
+ int first_failure = -1; \
+ for (int i = 0; i < count_test_block; ++i) { \
+ int err_count = 0; \
+ uint8_t tmp = GetOuterThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ blimit[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetInnerThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ limit[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetHevThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ thresh[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ InitInput<a, b>(s, ref_s, &rnd, *limit, mask_, p, i); \
+ call_filter(ref_s + 8 + p * 8, p, blimit, limit, thresh, bit_depth_, \
+ ref_loopfilter_op_); \
+ ASM_REGISTER_STATE_CHECK(call_filter(s + 8 + p * 8, p, blimit, limit, \
+ thresh, bit_depth_, loopfilter_op_)); \
+ for (int j = 0; j < kNumCoeffs; ++j) { \
+ err_count += ref_s[j] != s[j]; \
+ } \
+ if (err_count && !err_count_total) { \
+ first_failure = i; \
+ } \
+ err_count_total += err_count; \
+ } \
+ EXPECT_EQ(0, err_count_total) \
+ << "Error: Loop8Test6Param, C output doesn't match SIMD " \
+ "loopfilter output. " \
+ << "First failed at test case " << first_failure;
+
+TEST_P(Loop8Test6Param_hbd, OperationCheck) { OPCHECK(uint16_t, 16); }
+TEST_P(Loop8Test6Param_lbd, OperationCheck) { OPCHECK(uint8_t, 8); }
+
+#define VALCHECK(a, b) \
+ ACMRandom rnd(ACMRandom::DeterministicSeed()); \
+ const int count_test_block = number_of_iterations; \
+ DECLARE_ALIGNED(b, a, s[kNumCoeffs]); \
+ DECLARE_ALIGNED(b, a, ref_s[kNumCoeffs]); \
+ int err_count_total = 0; \
+ int first_failure = -1; \
+ for (int i = 0; i < count_test_block; ++i) { \
+ int err_count = 0; \
+ uint8_t tmp = GetOuterThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ blimit[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetInnerThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ limit[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetHevThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ thresh[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ int32_t p = kNumCoeffs / 32; \
+ for (int j = 0; j < kNumCoeffs; ++j) { \
+ s[j] = rnd.Rand16() & mask_; \
+ ref_s[j] = s[j]; \
+ } \
+ call_filter(ref_s + 8 + p * 8, p, blimit, limit, thresh, bit_depth_, \
+ ref_loopfilter_op_); \
+ ASM_REGISTER_STATE_CHECK(call_filter(s + 8 + p * 8, p, blimit, limit, \
+ thresh, bit_depth_, loopfilter_op_)); \
+ for (int j = 0; j < kNumCoeffs; ++j) { \
+ err_count += ref_s[j] != s[j]; \
+ } \
+ if (err_count && !err_count_total) { \
+ first_failure = i; \
+ } \
+ err_count_total += err_count; \
+ } \
+ EXPECT_EQ(0, err_count_total) \
+ << "Error: Loop8Test6Param, C output doesn't match SIMD " \
+ "loopfilter output. " \
+ << "First failed at test case " << first_failure;
+
+TEST_P(Loop8Test6Param_hbd, ValueCheck) { VALCHECK(uint16_t, 16); }
+TEST_P(Loop8Test6Param_lbd, ValueCheck) { VALCHECK(uint8_t, 8); }
+
+#define SPEEDCHECK(a, b) \
+ ACMRandom rnd(ACMRandom::DeterministicSeed()); \
+ const int count_test_block = kSpeedTestNum; \
+ const int32_t bd = bit_depth_; \
+ DECLARE_ALIGNED(b, a, s[kNumCoeffs]); \
+ uint8_t tmp = GetOuterThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ blimit[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetInnerThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ limit[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetHevThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ thresh[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ int32_t p = kNumCoeffs / 32; \
+ for (int j = 0; j < kNumCoeffs; ++j) { \
+ s[j] = rnd.Rand16() & mask_; \
+ } \
+ for (int i = 0; i < count_test_block; ++i) { \
+ call_filter(s + 8 + p * 8, p, blimit, limit, thresh, bd, loopfilter_op_); \
+ }
+
+TEST_P(Loop8Test6Param_hbd, DISABLED_Speed) { SPEEDCHECK(uint16_t, 16); }
+TEST_P(Loop8Test6Param_lbd, DISABLED_Speed) { SPEEDCHECK(uint8_t, 8); }
+
+#define OPCHECKd(a, b) \
+ ACMRandom rnd(ACMRandom::DeterministicSeed()); \
+ const int count_test_block = number_of_iterations; \
+ DECLARE_ALIGNED(b, a, s[kNumCoeffs]); \
+ DECLARE_ALIGNED(b, a, ref_s[kNumCoeffs]); \
+ int err_count_total = 0; \
+ int first_failure = -1; \
+ for (int i = 0; i < count_test_block; ++i) { \
+ int err_count = 0; \
+ uint8_t tmp = GetOuterThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ blimit0[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetInnerThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ limit0[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetHevThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ thresh0[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetOuterThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ blimit1[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetInnerThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ limit1[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetHevThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ thresh1[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ int32_t p = kNumCoeffs / 32; \
+ const uint8_t limit = *limit0 < *limit1 ? *limit0 : *limit1; \
+ InitInput<a, b>(s, ref_s, &rnd, limit, mask_, p, i); \
+ call_dualfilter(ref_s + 8 + p * 8, p, blimit0, limit0, thresh0, blimit1, \
+ limit1, thresh1, bit_depth_, ref_loopfilter_op_); \
+ ASM_REGISTER_STATE_CHECK( \
+ call_dualfilter(s + 8 + p * 8, p, blimit0, limit0, thresh0, blimit1, \
+ limit1, thresh1, bit_depth_, loopfilter_op_)); \
+ for (int j = 0; j < kNumCoeffs; ++j) { \
+ err_count += ref_s[j] != s[j]; \
+ } \
+ if (err_count && !err_count_total) { \
+ first_failure = i; \
+ } \
+ err_count_total += err_count; \
+ } \
+ EXPECT_EQ(0, err_count_total) \
+ << "Error: Loop8Test9Param, C output doesn't match SIMD " \
+ "loopfilter output. " \
+ << "First failed at test case " << first_failure;
+
+TEST_P(Loop8Test9Param_hbd, OperationCheck) { OPCHECKd(uint16_t, 16); }
+TEST_P(Loop8Test9Param_lbd, OperationCheck) { OPCHECKd(uint8_t, 8); }
+
+#define VALCHECKd(a, b) \
+ ACMRandom rnd(ACMRandom::DeterministicSeed()); \
+ const int count_test_block = number_of_iterations; \
+ DECLARE_ALIGNED(b, a, s[kNumCoeffs]); \
+ DECLARE_ALIGNED(b, a, ref_s[kNumCoeffs]); \
+ int err_count_total = 0; \
+ int first_failure = -1; \
+ for (int i = 0; i < count_test_block; ++i) { \
+ int err_count = 0; \
+ uint8_t tmp = GetOuterThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ blimit0[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetInnerThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ limit0[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetHevThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ thresh0[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetOuterThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ blimit1[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetInnerThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ limit1[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetHevThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ thresh1[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ int32_t p = kNumCoeffs / 32; \
+ for (int j = 0; j < kNumCoeffs; ++j) { \
+ s[j] = rnd.Rand16() & mask_; \
+ ref_s[j] = s[j]; \
+ } \
+ call_dualfilter(ref_s + 8 + p * 8, p, blimit0, limit0, thresh0, blimit1, \
+ limit1, thresh1, bit_depth_, ref_loopfilter_op_); \
+ ASM_REGISTER_STATE_CHECK( \
+ call_dualfilter(s + 8 + p * 8, p, blimit0, limit0, thresh0, blimit1, \
+ limit1, thresh1, bit_depth_, loopfilter_op_)); \
+ for (int j = 0; j < kNumCoeffs; ++j) { \
+ err_count += ref_s[j] != s[j]; \
+ } \
+ if (err_count && !err_count_total) { \
+ first_failure = i; \
+ } \
+ err_count_total += err_count; \
+ } \
+ EXPECT_EQ(0, err_count_total) \
+ << "Error: Loop8Test9Param, C output doesn't match SIMD " \
+ "loopfilter output. " \
+ << "First failed at test case " << first_failure;
+
+TEST_P(Loop8Test9Param_hbd, ValueCheck) { VALCHECKd(uint16_t, 16); }
+TEST_P(Loop8Test9Param_lbd, ValueCheck) { VALCHECKd(uint8_t, 8); }
+
+#define SPEEDCHECKd(a, b) \
+ ACMRandom rnd(ACMRandom::DeterministicSeed()); \
+ const int count_test_block = kSpeedTestNum; \
+ DECLARE_ALIGNED(b, a, s[kNumCoeffs]); \
+ uint8_t tmp = GetOuterThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ blimit0[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetInnerThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ limit0[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetHevThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ thresh0[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetOuterThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ blimit1[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetInnerThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ limit1[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ tmp = GetHevThresh(&rnd); \
+ DECLARE_ALIGNED(16, const uint8_t, \
+ thresh1[16]) = { tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp, \
+ tmp, tmp, tmp, tmp, tmp, tmp, tmp, tmp }; \
+ int32_t p = kNumCoeffs / 32; \
+ for (int j = 0; j < kNumCoeffs; ++j) { \
+ s[j] = rnd.Rand16() & mask_; \
+ } \
+ for (int i = 0; i < count_test_block; ++i) { \
+ call_dualfilter(s + 8 + p * 8, p, blimit0, limit0, thresh0, blimit1, \
+ limit1, thresh1, bit_depth_, loopfilter_op_); \
+ }
+
+TEST_P(Loop8Test9Param_hbd, DISABLED_Speed) { SPEEDCHECKd(uint16_t, 16); }
+TEST_P(Loop8Test9Param_lbd, DISABLED_Speed) { SPEEDCHECKd(uint8_t, 8); }
+
+using ::testing::make_tuple;
+
+#if HAVE_SSE2
+
+const hbdloop_param_t kHbdLoop8Test6[] = {
+ make_tuple(&aom_highbd_lpf_horizontal_4_sse2, &aom_highbd_lpf_horizontal_4_c,
+ 8),
+ make_tuple(&aom_highbd_lpf_vertical_4_sse2, &aom_highbd_lpf_vertical_4_c, 8),
+ make_tuple(&aom_highbd_lpf_horizontal_6_sse2, &aom_highbd_lpf_horizontal_6_c,
+ 8),
+ make_tuple(&aom_highbd_lpf_horizontal_8_sse2, &aom_highbd_lpf_horizontal_8_c,
+ 8),
+ make_tuple(&aom_highbd_lpf_horizontal_14_sse2,
+ &aom_highbd_lpf_horizontal_14_c, 8),
+ make_tuple(&aom_highbd_lpf_vertical_6_sse2, &aom_highbd_lpf_vertical_6_c, 8),
+ make_tuple(&aom_highbd_lpf_vertical_8_sse2, &aom_highbd_lpf_vertical_8_c, 8),
+
+ make_tuple(&aom_highbd_lpf_vertical_14_sse2, &aom_highbd_lpf_vertical_14_c,
+ 8),
+ make_tuple(&aom_highbd_lpf_horizontal_4_sse2, &aom_highbd_lpf_horizontal_4_c,
+ 10),
+ make_tuple(&aom_highbd_lpf_vertical_4_sse2, &aom_highbd_lpf_vertical_4_c, 10),
+ make_tuple(&aom_highbd_lpf_horizontal_6_sse2, &aom_highbd_lpf_horizontal_6_c,
+ 10),
+ make_tuple(&aom_highbd_lpf_horizontal_8_sse2, &aom_highbd_lpf_horizontal_8_c,
+ 10),
+ make_tuple(&aom_highbd_lpf_horizontal_14_sse2,
+ &aom_highbd_lpf_horizontal_14_c, 10),
+ make_tuple(&aom_highbd_lpf_vertical_6_sse2, &aom_highbd_lpf_vertical_6_c, 10),
+ make_tuple(&aom_highbd_lpf_vertical_8_sse2, &aom_highbd_lpf_vertical_8_c, 10),
+ make_tuple(&aom_highbd_lpf_vertical_14_sse2, &aom_highbd_lpf_vertical_14_c,
+ 10),
+ make_tuple(&aom_highbd_lpf_horizontal_4_sse2, &aom_highbd_lpf_horizontal_4_c,
+ 12),
+ make_tuple(&aom_highbd_lpf_vertical_4_sse2, &aom_highbd_lpf_vertical_4_c, 12),
+ make_tuple(&aom_highbd_lpf_horizontal_6_sse2, &aom_highbd_lpf_horizontal_6_c,
+ 12),
+ make_tuple(&aom_highbd_lpf_horizontal_8_sse2, &aom_highbd_lpf_horizontal_8_c,
+ 12),
+ make_tuple(&aom_highbd_lpf_horizontal_14_sse2,
+ &aom_highbd_lpf_horizontal_14_c, 12),
+ make_tuple(&aom_highbd_lpf_vertical_14_sse2, &aom_highbd_lpf_vertical_14_c,
+ 12),
+ make_tuple(&aom_highbd_lpf_vertical_6_sse2, &aom_highbd_lpf_vertical_6_c, 12),
+ make_tuple(&aom_highbd_lpf_vertical_8_sse2, &aom_highbd_lpf_vertical_8_c, 12)
+};
+
+INSTANTIATE_TEST_CASE_P(SSE2, Loop8Test6Param_hbd,
+ ::testing::ValuesIn(kHbdLoop8Test6));
+
+const loop_param_t kLoop8Test6[] = {
+ make_tuple(&aom_lpf_horizontal_4_sse2, &aom_lpf_horizontal_4_c, 8),
+ make_tuple(&aom_lpf_horizontal_8_sse2, &aom_lpf_horizontal_8_c, 8),
+ make_tuple(&aom_lpf_horizontal_6_sse2, &aom_lpf_horizontal_6_c, 8),
+ make_tuple(&aom_lpf_vertical_6_sse2, &aom_lpf_vertical_6_c, 8),
+ make_tuple(&aom_lpf_horizontal_14_sse2, &aom_lpf_horizontal_14_c, 8),
+ make_tuple(&aom_lpf_vertical_4_sse2, &aom_lpf_vertical_4_c, 8),
+ make_tuple(&aom_lpf_vertical_8_sse2, &aom_lpf_vertical_8_c, 8),
+ make_tuple(&aom_lpf_vertical_14_sse2, &aom_lpf_vertical_14_c, 8),
+};
+
+INSTANTIATE_TEST_CASE_P(SSE2, Loop8Test6Param_lbd,
+ ::testing::ValuesIn(kLoop8Test6));
+
+const dual_loop_param_t kLoop8Test9[] = {
+ make_tuple(&aom_lpf_horizontal_4_dual_sse2, &aom_lpf_horizontal_4_dual_c, 8),
+ make_tuple(&aom_lpf_vertical_4_dual_sse2, &aom_lpf_vertical_4_dual_c, 8),
+ make_tuple(&aom_lpf_horizontal_6_dual_sse2, &aom_lpf_horizontal_6_dual_c, 8),
+ make_tuple(&aom_lpf_vertical_6_dual_sse2, &aom_lpf_vertical_6_dual_c, 8),
+ make_tuple(&aom_lpf_horizontal_8_dual_sse2, &aom_lpf_horizontal_8_dual_c, 8),
+ make_tuple(&aom_lpf_vertical_8_dual_sse2, &aom_lpf_vertical_8_dual_c, 8),
+ make_tuple(&aom_lpf_horizontal_14_dual_sse2, &aom_lpf_horizontal_14_dual_c,
+ 8),
+ make_tuple(&aom_lpf_vertical_14_dual_sse2, &aom_lpf_vertical_14_dual_c, 8)
+};
+
+INSTANTIATE_TEST_CASE_P(SSE2, Loop8Test9Param_lbd,
+ ::testing::ValuesIn(kLoop8Test9));
+
+#endif // HAVE_SSE2
+
+#if HAVE_SSE2
+const hbddual_loop_param_t kHbdLoop8Test9[] = {
+ make_tuple(&aom_highbd_lpf_horizontal_4_dual_sse2,
+ &aom_highbd_lpf_horizontal_4_dual_c, 8),
+ make_tuple(&aom_highbd_lpf_horizontal_6_dual_sse2,
+ &aom_highbd_lpf_horizontal_6_dual_c, 8),
+ make_tuple(&aom_highbd_lpf_horizontal_8_dual_sse2,
+ &aom_highbd_lpf_horizontal_8_dual_c, 8),
+ make_tuple(&aom_highbd_lpf_horizontal_14_dual_sse2,
+ &aom_highbd_lpf_horizontal_14_dual_c, 8),
+ make_tuple(&aom_highbd_lpf_vertical_4_dual_sse2,
+ &aom_highbd_lpf_vertical_4_dual_c, 8),
+ make_tuple(&aom_highbd_lpf_vertical_6_dual_sse2,
+ &aom_highbd_lpf_vertical_6_dual_c, 8),
+ make_tuple(&aom_highbd_lpf_vertical_8_dual_sse2,
+ &aom_highbd_lpf_vertical_8_dual_c, 8),
+ make_tuple(&aom_highbd_lpf_vertical_14_dual_sse2,
+ &aom_highbd_lpf_vertical_14_dual_c, 8),
+ make_tuple(&aom_highbd_lpf_horizontal_4_dual_sse2,
+ &aom_highbd_lpf_horizontal_4_dual_c, 10),
+ make_tuple(&aom_highbd_lpf_horizontal_6_dual_sse2,
+ &aom_highbd_lpf_horizontal_6_dual_c, 10),
+ make_tuple(&aom_highbd_lpf_horizontal_8_dual_sse2,
+ &aom_highbd_lpf_horizontal_8_dual_c, 10),
+ make_tuple(&aom_highbd_lpf_horizontal_14_dual_sse2,
+ &aom_highbd_lpf_horizontal_14_dual_c, 10),
+ make_tuple(&aom_highbd_lpf_vertical_4_dual_sse2,
+ &aom_highbd_lpf_vertical_4_dual_c, 10),
+ make_tuple(&aom_highbd_lpf_vertical_6_dual_sse2,
+ &aom_highbd_lpf_vertical_6_dual_c, 10),
+ make_tuple(&aom_highbd_lpf_vertical_8_dual_sse2,
+ &aom_highbd_lpf_vertical_8_dual_c, 10),
+ make_tuple(&aom_highbd_lpf_vertical_14_dual_sse2,
+ &aom_highbd_lpf_vertical_14_dual_c, 10),
+ make_tuple(&aom_highbd_lpf_horizontal_4_dual_sse2,
+ &aom_highbd_lpf_horizontal_4_dual_c, 12),
+ make_tuple(&aom_highbd_lpf_horizontal_6_dual_sse2,
+ &aom_highbd_lpf_horizontal_6_dual_c, 12),
+ make_tuple(&aom_highbd_lpf_horizontal_8_dual_sse2,
+ &aom_highbd_lpf_horizontal_8_dual_c, 12),
+ make_tuple(&aom_highbd_lpf_horizontal_14_dual_sse2,
+ &aom_highbd_lpf_horizontal_14_dual_c, 12),
+ make_tuple(&aom_highbd_lpf_vertical_4_dual_sse2,
+ &aom_highbd_lpf_vertical_4_dual_c, 12),
+ make_tuple(&aom_highbd_lpf_vertical_6_dual_sse2,
+ &aom_highbd_lpf_vertical_6_dual_c, 12),
+ make_tuple(&aom_highbd_lpf_vertical_8_dual_sse2,
+ &aom_highbd_lpf_vertical_8_dual_c, 12),
+ make_tuple(&aom_highbd_lpf_vertical_14_dual_sse2,
+ &aom_highbd_lpf_vertical_14_dual_c, 12),
+};
+
+INSTANTIATE_TEST_CASE_P(SSE2, Loop8Test9Param_hbd,
+ ::testing::ValuesIn(kHbdLoop8Test9));
+
+#endif // HAVE_SSE2
+
+#if HAVE_NEON
+const loop_param_t kLoop8Test6[] = {
+ make_tuple(&aom_lpf_vertical_14_neon, &aom_lpf_vertical_14_c, 8),
+ make_tuple(&aom_lpf_vertical_8_neon, &aom_lpf_vertical_8_c, 8),
+ make_tuple(&aom_lpf_vertical_6_neon, &aom_lpf_vertical_6_c, 8),
+ make_tuple(&aom_lpf_vertical_4_neon, &aom_lpf_vertical_4_c, 8),
+ make_tuple(&aom_lpf_horizontal_14_neon, &aom_lpf_horizontal_14_c, 8),
+ make_tuple(&aom_lpf_horizontal_8_neon, &aom_lpf_horizontal_8_c, 8),
+ make_tuple(&aom_lpf_horizontal_6_neon, &aom_lpf_horizontal_6_c, 8),
+ make_tuple(&aom_lpf_horizontal_4_neon, &aom_lpf_horizontal_4_c, 8)
+};
+
+INSTANTIATE_TEST_CASE_P(NEON, Loop8Test6Param_lbd,
+ ::testing::ValuesIn(kLoop8Test6));
+#endif // HAVE_NEON
+
+#if HAVE_AVX2
+const hbddual_loop_param_t kHbdLoop8Test9Avx2[] = {
+ make_tuple(&aom_highbd_lpf_horizontal_4_dual_avx2,
+ &aom_highbd_lpf_horizontal_4_dual_c, 8),
+ make_tuple(&aom_highbd_lpf_horizontal_4_dual_avx2,
+ &aom_highbd_lpf_horizontal_4_dual_c, 10),
+ make_tuple(&aom_highbd_lpf_horizontal_4_dual_avx2,
+ &aom_highbd_lpf_horizontal_4_dual_c, 12),
+ make_tuple(&aom_highbd_lpf_horizontal_8_dual_avx2,
+ &aom_highbd_lpf_horizontal_8_dual_c, 8),
+ make_tuple(&aom_highbd_lpf_horizontal_8_dual_avx2,
+ &aom_highbd_lpf_horizontal_8_dual_c, 10),
+ make_tuple(&aom_highbd_lpf_horizontal_8_dual_avx2,
+ &aom_highbd_lpf_horizontal_8_dual_c, 12),
+ make_tuple(&aom_highbd_lpf_vertical_4_dual_avx2,
+ &aom_highbd_lpf_vertical_4_dual_c, 8),
+ make_tuple(&aom_highbd_lpf_vertical_4_dual_avx2,
+ &aom_highbd_lpf_vertical_4_dual_c, 10),
+ make_tuple(&aom_highbd_lpf_vertical_4_dual_avx2,
+ &aom_highbd_lpf_vertical_4_dual_c, 12),
+ make_tuple(&aom_highbd_lpf_vertical_8_dual_avx2,
+ &aom_highbd_lpf_vertical_8_dual_c, 8),
+ make_tuple(&aom_highbd_lpf_vertical_8_dual_avx2,
+ &aom_highbd_lpf_vertical_8_dual_c, 10),
+ make_tuple(&aom_highbd_lpf_vertical_8_dual_avx2,
+ &aom_highbd_lpf_vertical_8_dual_c, 12),
+};
+
+INSTANTIATE_TEST_CASE_P(AVX2, Loop8Test9Param_hbd,
+ ::testing::ValuesIn(kHbdLoop8Test9Avx2));
+#endif
+} // namespace
diff --git a/third_party/aom/test/masked_sad_test.cc b/third_party/aom/test/masked_sad_test.cc
new file mode 100644
index 0000000000..311f1877d4
--- /dev/null
+++ b/third_party/aom/test/masked_sad_test.cc
@@ -0,0 +1,342 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+#include <math.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "test/util.h"
+
+#include "config/aom_config.h"
+#include "config/aom_dsp_rtcd.h"
+
+#include "aom/aom_integer.h"
+
+using libaom_test::ACMRandom;
+
+namespace {
+const int number_of_iterations = 200;
+
+typedef unsigned int (*MaskedSADFunc)(const uint8_t *src, int src_stride,
+ const uint8_t *ref, int ref_stride,
+ const uint8_t *second_pred,
+ const uint8_t *msk, int msk_stride,
+ int invert_mask);
+typedef ::testing::tuple<MaskedSADFunc, MaskedSADFunc> MaskedSADParam;
+
+class MaskedSADTest : public ::testing::TestWithParam<MaskedSADParam> {
+ public:
+ virtual ~MaskedSADTest() {}
+ virtual void SetUp() {
+ maskedSAD_op_ = GET_PARAM(0);
+ ref_maskedSAD_op_ = GET_PARAM(1);
+ }
+
+ virtual void TearDown() { libaom_test::ClearSystemState(); }
+ void runMaskedSADTest(int run_times);
+
+ protected:
+ MaskedSADFunc maskedSAD_op_;
+ MaskedSADFunc ref_maskedSAD_op_;
+};
+void MaskedSADTest::runMaskedSADTest(int run_times) {
+ unsigned int ref_ret = 0, ret = 1;
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ DECLARE_ALIGNED(16, uint8_t, src_ptr[MAX_SB_SIZE * MAX_SB_SIZE]);
+ DECLARE_ALIGNED(16, uint8_t, ref_ptr[MAX_SB_SIZE * MAX_SB_SIZE]);
+ DECLARE_ALIGNED(16, uint8_t, second_pred_ptr[MAX_SB_SIZE * MAX_SB_SIZE]);
+ DECLARE_ALIGNED(16, uint8_t, msk_ptr[MAX_SB_SIZE * MAX_SB_SIZE]);
+ int err_count = 0;
+ int first_failure = -1;
+ int src_stride = MAX_SB_SIZE;
+ int ref_stride = MAX_SB_SIZE;
+ int msk_stride = MAX_SB_SIZE;
+ const int iters = run_times == 1 ? number_of_iterations : 1;
+ for (int i = 0; i < iters; ++i) {
+ for (int j = 0; j < MAX_SB_SIZE * MAX_SB_SIZE; j++) {
+ src_ptr[j] = rnd.Rand8();
+ ref_ptr[j] = rnd.Rand8();
+ second_pred_ptr[j] = rnd.Rand8();
+ msk_ptr[j] = ((rnd.Rand8() & 0x7f) > 64) ? rnd.Rand8() & 0x3f : 64;
+ assert(msk_ptr[j] <= 64);
+ }
+
+ for (int invert_mask = 0; invert_mask < 2; ++invert_mask) {
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+ for (int repeat = 0; repeat < run_times; ++repeat) {
+ ref_ret = ref_maskedSAD_op_(src_ptr, src_stride, ref_ptr, ref_stride,
+ second_pred_ptr, msk_ptr, msk_stride,
+ invert_mask);
+ }
+ aom_usec_timer_mark(&timer);
+ const double time1 = static_cast<double>(aom_usec_timer_elapsed(&timer));
+ aom_usec_timer_start(&timer);
+ if (run_times == 1) {
+ ASM_REGISTER_STATE_CHECK(ret = maskedSAD_op_(src_ptr, src_stride,
+ ref_ptr, ref_stride,
+ second_pred_ptr, msk_ptr,
+ msk_stride, invert_mask));
+ } else {
+ for (int repeat = 0; repeat < run_times; ++repeat) {
+ ret =
+ maskedSAD_op_(src_ptr, src_stride, ref_ptr, ref_stride,
+ second_pred_ptr, msk_ptr, msk_stride, invert_mask);
+ }
+ }
+ aom_usec_timer_mark(&timer);
+ const double time2 = static_cast<double>(aom_usec_timer_elapsed(&timer));
+ if (run_times > 10) {
+ printf("%7.2f/%7.2fns", time1, time2);
+ printf("(%3.2f)\n", time1 / time2);
+ }
+ if (ret != ref_ret) {
+ err_count++;
+ if (first_failure == -1) first_failure = i;
+ }
+ }
+ }
+ EXPECT_EQ(0, err_count) << "Error: Masked SAD Test, output doesn't match. "
+ << "First failed at test case " << first_failure;
+}
+
+TEST_P(MaskedSADTest, OperationCheck) { runMaskedSADTest(1); }
+
+TEST_P(MaskedSADTest, DISABLED_Speed) { runMaskedSADTest(2000000); }
+
+typedef unsigned int (*HighbdMaskedSADFunc)(const uint8_t *src, int src_stride,
+ const uint8_t *ref, int ref_stride,
+ const uint8_t *second_pred,
+ const uint8_t *msk, int msk_stride,
+ int invert_mask);
+typedef ::testing::tuple<HighbdMaskedSADFunc, HighbdMaskedSADFunc>
+ HighbdMaskedSADParam;
+
+class HighbdMaskedSADTest
+ : public ::testing::TestWithParam<HighbdMaskedSADParam> {
+ public:
+ virtual ~HighbdMaskedSADTest() {}
+ virtual void SetUp() {
+ maskedSAD_op_ = GET_PARAM(0);
+ ref_maskedSAD_op_ = GET_PARAM(1);
+ }
+
+ virtual void TearDown() { libaom_test::ClearSystemState(); }
+ void runHighbdMaskedSADTest(int run_times);
+
+ protected:
+ HighbdMaskedSADFunc maskedSAD_op_;
+ HighbdMaskedSADFunc ref_maskedSAD_op_;
+};
+void HighbdMaskedSADTest::runHighbdMaskedSADTest(int run_times) {
+ unsigned int ref_ret = 0, ret = 1;
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ DECLARE_ALIGNED(16, uint16_t, src_ptr[MAX_SB_SIZE * MAX_SB_SIZE]);
+ DECLARE_ALIGNED(16, uint16_t, ref_ptr[MAX_SB_SIZE * MAX_SB_SIZE]);
+ DECLARE_ALIGNED(16, uint16_t, second_pred_ptr[MAX_SB_SIZE * MAX_SB_SIZE]);
+ DECLARE_ALIGNED(16, uint8_t, msk_ptr[MAX_SB_SIZE * MAX_SB_SIZE]);
+ uint8_t *src8_ptr = CONVERT_TO_BYTEPTR(src_ptr);
+ uint8_t *ref8_ptr = CONVERT_TO_BYTEPTR(ref_ptr);
+ uint8_t *second_pred8_ptr = CONVERT_TO_BYTEPTR(second_pred_ptr);
+ int err_count = 0;
+ int first_failure = -1;
+ int src_stride = MAX_SB_SIZE;
+ int ref_stride = MAX_SB_SIZE;
+ int msk_stride = MAX_SB_SIZE;
+ const int iters = run_times == 1 ? number_of_iterations : 1;
+ for (int i = 0; i < iters; ++i) {
+ for (int j = 0; j < MAX_SB_SIZE * MAX_SB_SIZE; j++) {
+ src_ptr[j] = rnd.Rand16() & 0xfff;
+ ref_ptr[j] = rnd.Rand16() & 0xfff;
+ second_pred_ptr[j] = rnd.Rand16() & 0xfff;
+ msk_ptr[j] = ((rnd.Rand8() & 0x7f) > 64) ? rnd.Rand8() & 0x3f : 64;
+ }
+
+ for (int invert_mask = 0; invert_mask < 2; ++invert_mask) {
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+ for (int repeat = 0; repeat < run_times; ++repeat) {
+ ref_ret = ref_maskedSAD_op_(src8_ptr, src_stride, ref8_ptr, ref_stride,
+ second_pred8_ptr, msk_ptr, msk_stride,
+ invert_mask);
+ }
+ aom_usec_timer_mark(&timer);
+ const double time1 = static_cast<double>(aom_usec_timer_elapsed(&timer));
+ aom_usec_timer_start(&timer);
+ if (run_times == 1) {
+ ASM_REGISTER_STATE_CHECK(ret = maskedSAD_op_(src8_ptr, src_stride,
+ ref8_ptr, ref_stride,
+ second_pred8_ptr, msk_ptr,
+ msk_stride, invert_mask));
+ } else {
+ for (int repeat = 0; repeat < run_times; ++repeat) {
+ ret =
+ maskedSAD_op_(src8_ptr, src_stride, ref8_ptr, ref_stride,
+ second_pred8_ptr, msk_ptr, msk_stride, invert_mask);
+ }
+ }
+ aom_usec_timer_mark(&timer);
+ const double time2 = static_cast<double>(aom_usec_timer_elapsed(&timer));
+ if (run_times > 10) {
+ printf("%7.2f/%7.2fns", time1, time2);
+ printf("(%3.2f)\n", time1 / time2);
+ }
+ if (ret != ref_ret) {
+ err_count++;
+ if (first_failure == -1) first_failure = i;
+ }
+ }
+ }
+ EXPECT_EQ(0, err_count)
+ << "Error: High BD Masked SAD Test, output doesn't match. "
+ << "First failed at test case " << first_failure;
+}
+
+TEST_P(HighbdMaskedSADTest, OperationCheck) { runHighbdMaskedSADTest(1); }
+
+TEST_P(HighbdMaskedSADTest, DISABLED_Speed) { runHighbdMaskedSADTest(1000000); }
+
+using ::testing::make_tuple;
+
+#if HAVE_SSSE3
+const MaskedSADParam msad_test[] = {
+ make_tuple(&aom_masked_sad4x4_ssse3, &aom_masked_sad4x4_c),
+ make_tuple(&aom_masked_sad4x8_ssse3, &aom_masked_sad4x8_c),
+ make_tuple(&aom_masked_sad8x4_ssse3, &aom_masked_sad8x4_c),
+ make_tuple(&aom_masked_sad8x8_ssse3, &aom_masked_sad8x8_c),
+ make_tuple(&aom_masked_sad8x16_ssse3, &aom_masked_sad8x16_c),
+ make_tuple(&aom_masked_sad16x8_ssse3, &aom_masked_sad16x8_c),
+ make_tuple(&aom_masked_sad16x16_ssse3, &aom_masked_sad16x16_c),
+ make_tuple(&aom_masked_sad16x32_ssse3, &aom_masked_sad16x32_c),
+ make_tuple(&aom_masked_sad32x16_ssse3, &aom_masked_sad32x16_c),
+ make_tuple(&aom_masked_sad32x32_ssse3, &aom_masked_sad32x32_c),
+ make_tuple(&aom_masked_sad32x64_ssse3, &aom_masked_sad32x64_c),
+ make_tuple(&aom_masked_sad64x32_ssse3, &aom_masked_sad64x32_c),
+ make_tuple(&aom_masked_sad64x64_ssse3, &aom_masked_sad64x64_c),
+ make_tuple(&aom_masked_sad64x128_ssse3, &aom_masked_sad64x128_c),
+ make_tuple(&aom_masked_sad128x64_ssse3, &aom_masked_sad128x64_c),
+ make_tuple(&aom_masked_sad128x128_ssse3, &aom_masked_sad128x128_c),
+ make_tuple(&aom_masked_sad4x16_ssse3, &aom_masked_sad4x16_c),
+ make_tuple(&aom_masked_sad16x4_ssse3, &aom_masked_sad16x4_c),
+ make_tuple(&aom_masked_sad8x32_ssse3, &aom_masked_sad8x32_c),
+ make_tuple(&aom_masked_sad32x8_ssse3, &aom_masked_sad32x8_c),
+ make_tuple(&aom_masked_sad16x64_ssse3, &aom_masked_sad16x64_c),
+ make_tuple(&aom_masked_sad64x16_ssse3, &aom_masked_sad64x16_c),
+};
+
+INSTANTIATE_TEST_CASE_P(SSSE3, MaskedSADTest, ::testing::ValuesIn(msad_test));
+
+const HighbdMaskedSADParam hbd_msad_test[] = {
+ make_tuple(&aom_highbd_masked_sad4x4_ssse3, &aom_highbd_masked_sad4x4_c),
+ make_tuple(&aom_highbd_masked_sad4x8_ssse3, &aom_highbd_masked_sad4x8_c),
+ make_tuple(&aom_highbd_masked_sad8x4_ssse3, &aom_highbd_masked_sad8x4_c),
+ make_tuple(&aom_highbd_masked_sad8x8_ssse3, &aom_highbd_masked_sad8x8_c),
+ make_tuple(&aom_highbd_masked_sad8x16_ssse3, &aom_highbd_masked_sad8x16_c),
+ make_tuple(&aom_highbd_masked_sad16x8_ssse3, &aom_highbd_masked_sad16x8_c),
+ make_tuple(&aom_highbd_masked_sad16x16_ssse3, &aom_highbd_masked_sad16x16_c),
+ make_tuple(&aom_highbd_masked_sad16x32_ssse3, &aom_highbd_masked_sad16x32_c),
+ make_tuple(&aom_highbd_masked_sad32x16_ssse3, &aom_highbd_masked_sad32x16_c),
+ make_tuple(&aom_highbd_masked_sad32x32_ssse3, &aom_highbd_masked_sad32x32_c),
+ make_tuple(&aom_highbd_masked_sad32x64_ssse3, &aom_highbd_masked_sad32x64_c),
+ make_tuple(&aom_highbd_masked_sad64x32_ssse3, &aom_highbd_masked_sad64x32_c),
+ make_tuple(&aom_highbd_masked_sad64x64_ssse3, &aom_highbd_masked_sad64x64_c),
+ make_tuple(&aom_highbd_masked_sad64x128_ssse3,
+ &aom_highbd_masked_sad64x128_c),
+ make_tuple(&aom_highbd_masked_sad128x64_ssse3,
+ &aom_highbd_masked_sad128x64_c),
+ make_tuple(&aom_highbd_masked_sad128x128_ssse3,
+ &aom_highbd_masked_sad128x128_c),
+ make_tuple(&aom_highbd_masked_sad4x16_ssse3, &aom_highbd_masked_sad4x16_c),
+ make_tuple(&aom_highbd_masked_sad16x4_ssse3, &aom_highbd_masked_sad16x4_c),
+ make_tuple(&aom_highbd_masked_sad8x32_ssse3, &aom_highbd_masked_sad8x32_c),
+ make_tuple(&aom_highbd_masked_sad32x8_ssse3, &aom_highbd_masked_sad32x8_c),
+ make_tuple(&aom_highbd_masked_sad16x64_ssse3, &aom_highbd_masked_sad16x64_c),
+ make_tuple(&aom_highbd_masked_sad64x16_ssse3, &aom_highbd_masked_sad64x16_c),
+};
+
+INSTANTIATE_TEST_CASE_P(SSSE3, HighbdMaskedSADTest,
+ ::testing::ValuesIn(hbd_msad_test));
+#endif // HAVE_SSSE3
+
+#if HAVE_AVX2
+const MaskedSADParam msad_avx2_test[] = {
+ make_tuple(&aom_masked_sad4x4_avx2, &aom_masked_sad4x4_ssse3),
+ make_tuple(&aom_masked_sad4x8_avx2, &aom_masked_sad4x8_ssse3),
+ make_tuple(&aom_masked_sad8x4_avx2, &aom_masked_sad8x4_ssse3),
+ make_tuple(&aom_masked_sad8x8_avx2, &aom_masked_sad8x8_ssse3),
+ make_tuple(&aom_masked_sad8x16_avx2, &aom_masked_sad8x16_ssse3),
+ make_tuple(&aom_masked_sad16x8_avx2, &aom_masked_sad16x8_ssse3),
+ make_tuple(&aom_masked_sad16x16_avx2, &aom_masked_sad16x16_ssse3),
+ make_tuple(&aom_masked_sad16x32_avx2, &aom_masked_sad16x32_ssse3),
+ make_tuple(&aom_masked_sad32x16_avx2, &aom_masked_sad32x16_ssse3),
+ make_tuple(&aom_masked_sad32x32_avx2, &aom_masked_sad32x32_ssse3),
+ make_tuple(&aom_masked_sad32x64_avx2, &aom_masked_sad32x64_ssse3),
+ make_tuple(&aom_masked_sad64x32_avx2, &aom_masked_sad64x32_ssse3),
+ make_tuple(&aom_masked_sad64x64_avx2, &aom_masked_sad64x64_ssse3),
+ make_tuple(&aom_masked_sad64x128_avx2, &aom_masked_sad64x128_ssse3),
+ make_tuple(&aom_masked_sad128x64_avx2, &aom_masked_sad128x64_ssse3),
+ make_tuple(&aom_masked_sad128x128_avx2, &aom_masked_sad128x128_ssse3),
+ make_tuple(&aom_masked_sad4x16_avx2, &aom_masked_sad4x16_ssse3),
+ make_tuple(&aom_masked_sad16x4_avx2, &aom_masked_sad16x4_ssse3),
+ make_tuple(&aom_masked_sad8x32_avx2, &aom_masked_sad8x32_ssse3),
+ make_tuple(&aom_masked_sad32x8_avx2, &aom_masked_sad32x8_ssse3),
+ make_tuple(&aom_masked_sad16x64_avx2, &aom_masked_sad16x64_ssse3),
+ make_tuple(&aom_masked_sad64x16_avx2, &aom_masked_sad64x16_ssse3)
+};
+
+INSTANTIATE_TEST_CASE_P(AVX2, MaskedSADTest,
+ ::testing::ValuesIn(msad_avx2_test));
+
+const HighbdMaskedSADParam hbd_msad_avx2_test[] = {
+ make_tuple(&aom_highbd_masked_sad4x4_avx2, &aom_highbd_masked_sad4x4_ssse3),
+ make_tuple(&aom_highbd_masked_sad4x8_avx2, &aom_highbd_masked_sad4x8_ssse3),
+ make_tuple(&aom_highbd_masked_sad8x4_avx2, &aom_highbd_masked_sad8x4_ssse3),
+ make_tuple(&aom_highbd_masked_sad8x8_avx2, &aom_highbd_masked_sad8x8_ssse3),
+ make_tuple(&aom_highbd_masked_sad8x16_avx2, &aom_highbd_masked_sad8x16_ssse3),
+ make_tuple(&aom_highbd_masked_sad16x8_avx2, &aom_highbd_masked_sad16x8_ssse3),
+ make_tuple(&aom_highbd_masked_sad16x16_avx2,
+ &aom_highbd_masked_sad16x16_ssse3),
+ make_tuple(&aom_highbd_masked_sad16x32_avx2,
+ &aom_highbd_masked_sad16x32_ssse3),
+ make_tuple(&aom_highbd_masked_sad32x16_avx2,
+ &aom_highbd_masked_sad32x16_ssse3),
+ make_tuple(&aom_highbd_masked_sad32x32_avx2,
+ &aom_highbd_masked_sad32x32_ssse3),
+ make_tuple(&aom_highbd_masked_sad32x64_avx2,
+ &aom_highbd_masked_sad32x64_ssse3),
+ make_tuple(&aom_highbd_masked_sad64x32_avx2,
+ &aom_highbd_masked_sad64x32_ssse3),
+ make_tuple(&aom_highbd_masked_sad64x64_avx2,
+ &aom_highbd_masked_sad64x64_ssse3),
+ make_tuple(&aom_highbd_masked_sad64x128_avx2,
+ &aom_highbd_masked_sad64x128_ssse3),
+ make_tuple(&aom_highbd_masked_sad128x64_avx2,
+ &aom_highbd_masked_sad128x64_ssse3),
+ make_tuple(&aom_highbd_masked_sad128x128_avx2,
+ &aom_highbd_masked_sad128x128_ssse3),
+ make_tuple(&aom_highbd_masked_sad4x16_avx2, &aom_highbd_masked_sad4x16_ssse3),
+ make_tuple(&aom_highbd_masked_sad16x4_avx2, &aom_highbd_masked_sad16x4_ssse3),
+ make_tuple(&aom_highbd_masked_sad8x32_avx2, &aom_highbd_masked_sad8x32_ssse3),
+ make_tuple(&aom_highbd_masked_sad32x8_avx2, &aom_highbd_masked_sad32x8_ssse3),
+ make_tuple(&aom_highbd_masked_sad16x64_avx2,
+ &aom_highbd_masked_sad16x64_ssse3),
+ make_tuple(&aom_highbd_masked_sad64x16_avx2,
+ &aom_highbd_masked_sad64x16_ssse3)
+};
+
+INSTANTIATE_TEST_CASE_P(AVX2, HighbdMaskedSADTest,
+ ::testing::ValuesIn(hbd_msad_avx2_test));
+#endif // HAVE_AVX2
+
+} // namespace
diff --git a/third_party/aom/test/masked_variance_test.cc b/third_party/aom/test/masked_variance_test.cc
new file mode 100644
index 0000000000..275b9feb6a
--- /dev/null
+++ b/third_party/aom/test/masked_variance_test.cc
@@ -0,0 +1,459 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <math.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "test/util.h"
+
+#include "config/aom_config.h"
+#include "config/aom_dsp_rtcd.h"
+
+#include "aom/aom_codec.h"
+#include "aom/aom_integer.h"
+#include "aom_dsp/aom_filter.h"
+#include "aom_mem/aom_mem.h"
+
+using libaom_test::ACMRandom;
+
+namespace {
+const int number_of_iterations = 200;
+
+typedef unsigned int (*MaskedSubPixelVarianceFunc)(
+ const uint8_t *src, int src_stride, int xoffset, int yoffset,
+ const uint8_t *ref, int ref_stride, const uint8_t *second_pred,
+ const uint8_t *msk, int msk_stride, int invert_mask, unsigned int *sse);
+
+typedef ::testing::tuple<MaskedSubPixelVarianceFunc, MaskedSubPixelVarianceFunc>
+ MaskedSubPixelVarianceParam;
+
+class MaskedSubPixelVarianceTest
+ : public ::testing::TestWithParam<MaskedSubPixelVarianceParam> {
+ public:
+ virtual ~MaskedSubPixelVarianceTest() {}
+ virtual void SetUp() {
+ opt_func_ = GET_PARAM(0);
+ ref_func_ = GET_PARAM(1);
+ }
+
+ virtual void TearDown() { libaom_test::ClearSystemState(); }
+
+ protected:
+ MaskedSubPixelVarianceFunc opt_func_;
+ MaskedSubPixelVarianceFunc ref_func_;
+};
+
+TEST_P(MaskedSubPixelVarianceTest, OperationCheck) {
+ unsigned int ref_ret, opt_ret;
+ unsigned int ref_sse, opt_sse;
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ // Note: We pad out the input array to a multiple of 16 bytes wide, so that
+ // consecutive rows keep the 16-byte alignment.
+ DECLARE_ALIGNED(16, uint8_t, src_ptr[(MAX_SB_SIZE + 1) * (MAX_SB_SIZE + 16)]);
+ DECLARE_ALIGNED(16, uint8_t, ref_ptr[(MAX_SB_SIZE + 1) * (MAX_SB_SIZE + 16)]);
+ DECLARE_ALIGNED(16, uint8_t,
+ second_pred_ptr[(MAX_SB_SIZE + 1) * (MAX_SB_SIZE + 16)]);
+ DECLARE_ALIGNED(16, uint8_t, msk_ptr[(MAX_SB_SIZE + 1) * (MAX_SB_SIZE + 16)]);
+ int err_count = 0;
+ int first_failure = -1;
+ int src_stride = (MAX_SB_SIZE + 16);
+ int ref_stride = (MAX_SB_SIZE + 16);
+ int msk_stride = (MAX_SB_SIZE + 16);
+ int xoffset;
+ int yoffset;
+
+ for (int i = 0; i < number_of_iterations; ++i) {
+ int xoffsets[] = { 0, 4, rnd(BIL_SUBPEL_SHIFTS) };
+ int yoffsets[] = { 0, 4, rnd(BIL_SUBPEL_SHIFTS) };
+ for (int j = 0; j < (MAX_SB_SIZE + 1) * (MAX_SB_SIZE + 16); j++) {
+ src_ptr[j] = rnd.Rand8();
+ ref_ptr[j] = rnd.Rand8();
+ second_pred_ptr[j] = rnd.Rand8();
+ msk_ptr[j] = rnd(65);
+ }
+ for (int k = 0; k < 3; k++) {
+ for (int l = 0; l < 3; l++) {
+ xoffset = xoffsets[k];
+ yoffset = yoffsets[l];
+ for (int invert_mask = 0; invert_mask < 2; ++invert_mask) {
+ ref_ret = ref_func_(src_ptr, src_stride, xoffset, yoffset, ref_ptr,
+ ref_stride, second_pred_ptr, msk_ptr, msk_stride,
+ invert_mask, &ref_sse);
+ ASM_REGISTER_STATE_CHECK(
+ opt_ret = opt_func_(src_ptr, src_stride, xoffset, yoffset,
+ ref_ptr, ref_stride, second_pred_ptr, msk_ptr,
+ msk_stride, invert_mask, &opt_sse));
+
+ if (opt_ret != ref_ret || opt_sse != ref_sse) {
+ err_count++;
+ if (first_failure == -1) first_failure = i;
+ }
+ }
+ }
+ }
+ }
+
+ EXPECT_EQ(0, err_count)
+ << "Error: Masked Sub Pixel Variance Test OperationCheck,"
+ << "C output doesn't match SSSE3 output. "
+ << "First failed at test case " << first_failure;
+}
+
+TEST_P(MaskedSubPixelVarianceTest, ExtremeValues) {
+ unsigned int ref_ret, opt_ret;
+ unsigned int ref_sse, opt_sse;
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ DECLARE_ALIGNED(16, uint8_t, src_ptr[(MAX_SB_SIZE + 1) * (MAX_SB_SIZE + 16)]);
+ DECLARE_ALIGNED(16, uint8_t, ref_ptr[(MAX_SB_SIZE + 1) * (MAX_SB_SIZE + 16)]);
+ DECLARE_ALIGNED(16, uint8_t,
+ second_pred_ptr[(MAX_SB_SIZE + 1) * (MAX_SB_SIZE + 16)]);
+ DECLARE_ALIGNED(16, uint8_t, msk_ptr[(MAX_SB_SIZE + 1) * (MAX_SB_SIZE + 16)]);
+ int first_failure_x = -1;
+ int first_failure_y = -1;
+ int err_count = 0;
+ int first_failure = -1;
+ int src_stride = (MAX_SB_SIZE + 16);
+ int ref_stride = (MAX_SB_SIZE + 16);
+ int msk_stride = (MAX_SB_SIZE + 16);
+
+ for (int xoffset = 0; xoffset < BIL_SUBPEL_SHIFTS; xoffset++) {
+ for (int yoffset = 0; yoffset < BIL_SUBPEL_SHIFTS; yoffset++) {
+ for (int i = 0; i < 16; ++i) {
+ memset(src_ptr, (i & 0x1) ? 255 : 0,
+ (MAX_SB_SIZE + 1) * (MAX_SB_SIZE + 16));
+ memset(ref_ptr, (i & 0x2) ? 255 : 0,
+ (MAX_SB_SIZE + 1) * (MAX_SB_SIZE + 16));
+ memset(second_pred_ptr, (i & 0x4) ? 255 : 0,
+ (MAX_SB_SIZE + 1) * (MAX_SB_SIZE + 16));
+ memset(msk_ptr, (i & 0x8) ? 64 : 0,
+ (MAX_SB_SIZE + 1) * (MAX_SB_SIZE + 16));
+
+ for (int invert_mask = 0; invert_mask < 2; ++invert_mask) {
+ ref_ret = ref_func_(src_ptr, src_stride, xoffset, yoffset, ref_ptr,
+ ref_stride, second_pred_ptr, msk_ptr, msk_stride,
+ invert_mask, &ref_sse);
+ ASM_REGISTER_STATE_CHECK(
+ opt_ret = opt_func_(src_ptr, src_stride, xoffset, yoffset,
+ ref_ptr, ref_stride, second_pred_ptr, msk_ptr,
+ msk_stride, invert_mask, &opt_sse));
+
+ if (opt_ret != ref_ret || opt_sse != ref_sse) {
+ err_count++;
+ if (first_failure == -1) {
+ first_failure = i;
+ first_failure_x = xoffset;
+ first_failure_y = yoffset;
+ }
+ }
+ }
+ }
+ }
+ }
+
+ EXPECT_EQ(0, err_count) << "Error: Masked Variance Test ExtremeValues,"
+ << "C output doesn't match SSSE3 output. "
+ << "First failed at test case " << first_failure
+ << " x_offset = " << first_failure_x
+ << " y_offset = " << first_failure_y;
+}
+
+typedef ::testing::tuple<MaskedSubPixelVarianceFunc, MaskedSubPixelVarianceFunc,
+ aom_bit_depth_t>
+ HighbdMaskedSubPixelVarianceParam;
+
+class HighbdMaskedSubPixelVarianceTest
+ : public ::testing::TestWithParam<HighbdMaskedSubPixelVarianceParam> {
+ public:
+ virtual ~HighbdMaskedSubPixelVarianceTest() {}
+ virtual void SetUp() {
+ opt_func_ = GET_PARAM(0);
+ ref_func_ = GET_PARAM(1);
+ bit_depth_ = GET_PARAM(2);
+ }
+
+ virtual void TearDown() { libaom_test::ClearSystemState(); }
+
+ protected:
+ MaskedSubPixelVarianceFunc opt_func_;
+ MaskedSubPixelVarianceFunc ref_func_;
+ aom_bit_depth_t bit_depth_;
+};
+
+TEST_P(HighbdMaskedSubPixelVarianceTest, OperationCheck) {
+ unsigned int ref_ret, opt_ret;
+ unsigned int ref_sse, opt_sse;
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ DECLARE_ALIGNED(16, uint16_t, src_ptr[(MAX_SB_SIZE + 1) * (MAX_SB_SIZE + 8)]);
+ DECLARE_ALIGNED(16, uint16_t, ref_ptr[(MAX_SB_SIZE + 1) * (MAX_SB_SIZE + 8)]);
+ DECLARE_ALIGNED(16, uint16_t,
+ second_pred_ptr[(MAX_SB_SIZE + 1) * (MAX_SB_SIZE + 8)]);
+ DECLARE_ALIGNED(16, uint8_t, msk_ptr[(MAX_SB_SIZE + 1) * (MAX_SB_SIZE + 8)]);
+ uint8_t *src8_ptr = CONVERT_TO_BYTEPTR(src_ptr);
+ uint8_t *ref8_ptr = CONVERT_TO_BYTEPTR(ref_ptr);
+ uint8_t *second_pred8_ptr = CONVERT_TO_BYTEPTR(second_pred_ptr);
+ int err_count = 0;
+ int first_failure = -1;
+ int first_failure_x = -1;
+ int first_failure_y = -1;
+ int src_stride = (MAX_SB_SIZE + 8);
+ int ref_stride = (MAX_SB_SIZE + 8);
+ int msk_stride = (MAX_SB_SIZE + 8);
+ int xoffset, yoffset;
+
+ for (int i = 0; i < number_of_iterations; ++i) {
+ for (int j = 0; j < (MAX_SB_SIZE + 1) * (MAX_SB_SIZE + 8); j++) {
+ src_ptr[j] = rnd.Rand16() & ((1 << bit_depth_) - 1);
+ ref_ptr[j] = rnd.Rand16() & ((1 << bit_depth_) - 1);
+ second_pred_ptr[j] = rnd.Rand16() & ((1 << bit_depth_) - 1);
+ msk_ptr[j] = rnd(65);
+ }
+ for (xoffset = 0; xoffset < BIL_SUBPEL_SHIFTS; xoffset++) {
+ for (yoffset = 0; yoffset < BIL_SUBPEL_SHIFTS; yoffset++) {
+ for (int invert_mask = 0; invert_mask < 2; ++invert_mask) {
+ ref_ret = ref_func_(src8_ptr, src_stride, xoffset, yoffset, ref8_ptr,
+ ref_stride, second_pred8_ptr, msk_ptr, msk_stride,
+ invert_mask, &ref_sse);
+ ASM_REGISTER_STATE_CHECK(
+ opt_ret = opt_func_(src8_ptr, src_stride, xoffset, yoffset,
+ ref8_ptr, ref_stride, second_pred8_ptr,
+ msk_ptr, msk_stride, invert_mask, &opt_sse));
+
+ if (opt_ret != ref_ret || opt_sse != ref_sse) {
+ err_count++;
+ if (first_failure == -1) {
+ first_failure = i;
+ first_failure_x = xoffset;
+ first_failure_y = yoffset;
+ }
+ }
+ }
+ }
+ }
+ }
+
+ EXPECT_EQ(0, err_count)
+ << "Error: Masked Sub Pixel Variance Test OperationCheck,"
+ << "C output doesn't match SSSE3 output. "
+ << "First failed at test case " << first_failure
+ << " x_offset = " << first_failure_x << " y_offset = " << first_failure_y;
+}
+
+TEST_P(HighbdMaskedSubPixelVarianceTest, ExtremeValues) {
+ unsigned int ref_ret, opt_ret;
+ unsigned int ref_sse, opt_sse;
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ DECLARE_ALIGNED(16, uint16_t, src_ptr[(MAX_SB_SIZE + 1) * (MAX_SB_SIZE + 8)]);
+ DECLARE_ALIGNED(16, uint16_t, ref_ptr[(MAX_SB_SIZE + 1) * (MAX_SB_SIZE + 8)]);
+ DECLARE_ALIGNED(16, uint8_t, msk_ptr[(MAX_SB_SIZE + 1) * (MAX_SB_SIZE + 8)]);
+ DECLARE_ALIGNED(16, uint16_t,
+ second_pred_ptr[(MAX_SB_SIZE + 1) * (MAX_SB_SIZE + 8)]);
+ uint8_t *src8_ptr = CONVERT_TO_BYTEPTR(src_ptr);
+ uint8_t *ref8_ptr = CONVERT_TO_BYTEPTR(ref_ptr);
+ uint8_t *second_pred8_ptr = CONVERT_TO_BYTEPTR(second_pred_ptr);
+ int first_failure_x = -1;
+ int first_failure_y = -1;
+ int err_count = 0;
+ int first_failure = -1;
+ int src_stride = (MAX_SB_SIZE + 8);
+ int ref_stride = (MAX_SB_SIZE + 8);
+ int msk_stride = (MAX_SB_SIZE + 8);
+
+ for (int xoffset = 0; xoffset < BIL_SUBPEL_SHIFTS; xoffset++) {
+ for (int yoffset = 0; yoffset < BIL_SUBPEL_SHIFTS; yoffset++) {
+ for (int i = 0; i < 16; ++i) {
+ aom_memset16(src_ptr, (i & 0x1) ? ((1 << bit_depth_) - 1) : 0,
+ (MAX_SB_SIZE + 1) * (MAX_SB_SIZE + 8));
+ aom_memset16(ref_ptr, (i & 0x2) ? ((1 << bit_depth_) - 1) : 0,
+ (MAX_SB_SIZE + 1) * (MAX_SB_SIZE + 8));
+ aom_memset16(second_pred_ptr, (i & 0x4) ? ((1 << bit_depth_) - 1) : 0,
+ (MAX_SB_SIZE + 1) * (MAX_SB_SIZE + 8));
+ memset(msk_ptr, (i & 0x8) ? 64 : 0,
+ (MAX_SB_SIZE + 1) * (MAX_SB_SIZE + 8));
+
+ for (int invert_mask = 0; invert_mask < 2; ++invert_mask) {
+ ref_ret = ref_func_(src8_ptr, src_stride, xoffset, yoffset, ref8_ptr,
+ ref_stride, second_pred8_ptr, msk_ptr, msk_stride,
+ invert_mask, &ref_sse);
+ ASM_REGISTER_STATE_CHECK(
+ opt_ret = opt_func_(src8_ptr, src_stride, xoffset, yoffset,
+ ref8_ptr, ref_stride, second_pred8_ptr,
+ msk_ptr, msk_stride, invert_mask, &opt_sse));
+
+ if (opt_ret != ref_ret || opt_sse != ref_sse) {
+ err_count++;
+ if (first_failure == -1) {
+ first_failure = i;
+ first_failure_x = xoffset;
+ first_failure_y = yoffset;
+ }
+ }
+ }
+ }
+ }
+ }
+
+ EXPECT_EQ(0, err_count) << "Error: Masked Variance Test ExtremeValues,"
+ << "C output doesn't match SSSE3 output. "
+ << "First failed at test case " << first_failure
+ << " x_offset = " << first_failure_x
+ << " y_offset = " << first_failure_y;
+}
+
+using ::testing::make_tuple;
+
+#if HAVE_SSSE3
+
+const MaskedSubPixelVarianceParam sub_pel_var_test[] = {
+ make_tuple(&aom_masked_sub_pixel_variance128x128_ssse3,
+ &aom_masked_sub_pixel_variance128x128_c),
+ make_tuple(&aom_masked_sub_pixel_variance128x64_ssse3,
+ &aom_masked_sub_pixel_variance128x64_c),
+ make_tuple(&aom_masked_sub_pixel_variance64x128_ssse3,
+ &aom_masked_sub_pixel_variance64x128_c),
+ make_tuple(&aom_masked_sub_pixel_variance64x64_ssse3,
+ &aom_masked_sub_pixel_variance64x64_c),
+ make_tuple(&aom_masked_sub_pixel_variance64x32_ssse3,
+ &aom_masked_sub_pixel_variance64x32_c),
+ make_tuple(&aom_masked_sub_pixel_variance32x64_ssse3,
+ &aom_masked_sub_pixel_variance32x64_c),
+ make_tuple(&aom_masked_sub_pixel_variance32x32_ssse3,
+ &aom_masked_sub_pixel_variance32x32_c),
+ make_tuple(&aom_masked_sub_pixel_variance32x16_ssse3,
+ &aom_masked_sub_pixel_variance32x16_c),
+ make_tuple(&aom_masked_sub_pixel_variance16x32_ssse3,
+ &aom_masked_sub_pixel_variance16x32_c),
+ make_tuple(&aom_masked_sub_pixel_variance16x16_ssse3,
+ &aom_masked_sub_pixel_variance16x16_c),
+ make_tuple(&aom_masked_sub_pixel_variance16x8_ssse3,
+ &aom_masked_sub_pixel_variance16x8_c),
+ make_tuple(&aom_masked_sub_pixel_variance8x16_ssse3,
+ &aom_masked_sub_pixel_variance8x16_c),
+ make_tuple(&aom_masked_sub_pixel_variance8x8_ssse3,
+ &aom_masked_sub_pixel_variance8x8_c),
+ make_tuple(&aom_masked_sub_pixel_variance8x4_ssse3,
+ &aom_masked_sub_pixel_variance8x4_c),
+ make_tuple(&aom_masked_sub_pixel_variance4x8_ssse3,
+ &aom_masked_sub_pixel_variance4x8_c),
+ make_tuple(&aom_masked_sub_pixel_variance4x4_ssse3,
+ &aom_masked_sub_pixel_variance4x4_c)
+};
+
+INSTANTIATE_TEST_CASE_P(SSSE3_C_COMPARE, MaskedSubPixelVarianceTest,
+ ::testing::ValuesIn(sub_pel_var_test));
+
+const HighbdMaskedSubPixelVarianceParam hbd_sub_pel_var_test[] = {
+ make_tuple(&aom_highbd_8_masked_sub_pixel_variance128x128_ssse3,
+ &aom_highbd_8_masked_sub_pixel_variance128x128_c, AOM_BITS_8),
+ make_tuple(&aom_highbd_8_masked_sub_pixel_variance128x64_ssse3,
+ &aom_highbd_8_masked_sub_pixel_variance128x64_c, AOM_BITS_8),
+ make_tuple(&aom_highbd_8_masked_sub_pixel_variance64x128_ssse3,
+ &aom_highbd_8_masked_sub_pixel_variance64x128_c, AOM_BITS_8),
+ make_tuple(&aom_highbd_8_masked_sub_pixel_variance64x64_ssse3,
+ &aom_highbd_8_masked_sub_pixel_variance64x64_c, AOM_BITS_8),
+ make_tuple(&aom_highbd_8_masked_sub_pixel_variance64x32_ssse3,
+ &aom_highbd_8_masked_sub_pixel_variance64x32_c, AOM_BITS_8),
+ make_tuple(&aom_highbd_8_masked_sub_pixel_variance32x64_ssse3,
+ &aom_highbd_8_masked_sub_pixel_variance32x64_c, AOM_BITS_8),
+ make_tuple(&aom_highbd_8_masked_sub_pixel_variance32x32_ssse3,
+ &aom_highbd_8_masked_sub_pixel_variance32x32_c, AOM_BITS_8),
+ make_tuple(&aom_highbd_8_masked_sub_pixel_variance32x16_ssse3,
+ &aom_highbd_8_masked_sub_pixel_variance32x16_c, AOM_BITS_8),
+ make_tuple(&aom_highbd_8_masked_sub_pixel_variance16x32_ssse3,
+ &aom_highbd_8_masked_sub_pixel_variance16x32_c, AOM_BITS_8),
+ make_tuple(&aom_highbd_8_masked_sub_pixel_variance16x16_ssse3,
+ &aom_highbd_8_masked_sub_pixel_variance16x16_c, AOM_BITS_8),
+ make_tuple(&aom_highbd_8_masked_sub_pixel_variance16x8_ssse3,
+ &aom_highbd_8_masked_sub_pixel_variance16x8_c, AOM_BITS_8),
+ make_tuple(&aom_highbd_8_masked_sub_pixel_variance8x16_ssse3,
+ &aom_highbd_8_masked_sub_pixel_variance8x16_c, AOM_BITS_8),
+ make_tuple(&aom_highbd_8_masked_sub_pixel_variance8x8_ssse3,
+ &aom_highbd_8_masked_sub_pixel_variance8x8_c, AOM_BITS_8),
+ make_tuple(&aom_highbd_8_masked_sub_pixel_variance8x4_ssse3,
+ &aom_highbd_8_masked_sub_pixel_variance8x4_c, AOM_BITS_8),
+ make_tuple(&aom_highbd_8_masked_sub_pixel_variance4x8_ssse3,
+ &aom_highbd_8_masked_sub_pixel_variance4x8_c, AOM_BITS_8),
+ make_tuple(&aom_highbd_8_masked_sub_pixel_variance4x4_ssse3,
+ &aom_highbd_8_masked_sub_pixel_variance4x4_c, AOM_BITS_8),
+ make_tuple(&aom_highbd_10_masked_sub_pixel_variance128x128_ssse3,
+ &aom_highbd_10_masked_sub_pixel_variance128x128_c, AOM_BITS_10),
+ make_tuple(&aom_highbd_10_masked_sub_pixel_variance128x64_ssse3,
+ &aom_highbd_10_masked_sub_pixel_variance128x64_c, AOM_BITS_10),
+ make_tuple(&aom_highbd_10_masked_sub_pixel_variance64x128_ssse3,
+ &aom_highbd_10_masked_sub_pixel_variance64x128_c, AOM_BITS_10),
+ make_tuple(&aom_highbd_10_masked_sub_pixel_variance64x64_ssse3,
+ &aom_highbd_10_masked_sub_pixel_variance64x64_c, AOM_BITS_10),
+ make_tuple(&aom_highbd_10_masked_sub_pixel_variance64x32_ssse3,
+ &aom_highbd_10_masked_sub_pixel_variance64x32_c, AOM_BITS_10),
+ make_tuple(&aom_highbd_10_masked_sub_pixel_variance32x64_ssse3,
+ &aom_highbd_10_masked_sub_pixel_variance32x64_c, AOM_BITS_10),
+ make_tuple(&aom_highbd_10_masked_sub_pixel_variance32x32_ssse3,
+ &aom_highbd_10_masked_sub_pixel_variance32x32_c, AOM_BITS_10),
+ make_tuple(&aom_highbd_10_masked_sub_pixel_variance32x16_ssse3,
+ &aom_highbd_10_masked_sub_pixel_variance32x16_c, AOM_BITS_10),
+ make_tuple(&aom_highbd_10_masked_sub_pixel_variance16x32_ssse3,
+ &aom_highbd_10_masked_sub_pixel_variance16x32_c, AOM_BITS_10),
+ make_tuple(&aom_highbd_10_masked_sub_pixel_variance16x16_ssse3,
+ &aom_highbd_10_masked_sub_pixel_variance16x16_c, AOM_BITS_10),
+ make_tuple(&aom_highbd_10_masked_sub_pixel_variance16x8_ssse3,
+ &aom_highbd_10_masked_sub_pixel_variance16x8_c, AOM_BITS_10),
+ make_tuple(&aom_highbd_10_masked_sub_pixel_variance8x16_ssse3,
+ &aom_highbd_10_masked_sub_pixel_variance8x16_c, AOM_BITS_10),
+ make_tuple(&aom_highbd_10_masked_sub_pixel_variance8x8_ssse3,
+ &aom_highbd_10_masked_sub_pixel_variance8x8_c, AOM_BITS_10),
+ make_tuple(&aom_highbd_10_masked_sub_pixel_variance8x4_ssse3,
+ &aom_highbd_10_masked_sub_pixel_variance8x4_c, AOM_BITS_10),
+ make_tuple(&aom_highbd_10_masked_sub_pixel_variance4x8_ssse3,
+ &aom_highbd_10_masked_sub_pixel_variance4x8_c, AOM_BITS_10),
+ make_tuple(&aom_highbd_10_masked_sub_pixel_variance4x4_ssse3,
+ &aom_highbd_10_masked_sub_pixel_variance4x4_c, AOM_BITS_10),
+ make_tuple(&aom_highbd_12_masked_sub_pixel_variance128x128_ssse3,
+ &aom_highbd_12_masked_sub_pixel_variance128x128_c, AOM_BITS_12),
+ make_tuple(&aom_highbd_12_masked_sub_pixel_variance128x64_ssse3,
+ &aom_highbd_12_masked_sub_pixel_variance128x64_c, AOM_BITS_12),
+ make_tuple(&aom_highbd_12_masked_sub_pixel_variance64x128_ssse3,
+ &aom_highbd_12_masked_sub_pixel_variance64x128_c, AOM_BITS_12),
+ make_tuple(&aom_highbd_12_masked_sub_pixel_variance64x64_ssse3,
+ &aom_highbd_12_masked_sub_pixel_variance64x64_c, AOM_BITS_12),
+ make_tuple(&aom_highbd_12_masked_sub_pixel_variance64x32_ssse3,
+ &aom_highbd_12_masked_sub_pixel_variance64x32_c, AOM_BITS_12),
+ make_tuple(&aom_highbd_12_masked_sub_pixel_variance32x64_ssse3,
+ &aom_highbd_12_masked_sub_pixel_variance32x64_c, AOM_BITS_12),
+ make_tuple(&aom_highbd_12_masked_sub_pixel_variance32x32_ssse3,
+ &aom_highbd_12_masked_sub_pixel_variance32x32_c, AOM_BITS_12),
+ make_tuple(&aom_highbd_12_masked_sub_pixel_variance32x16_ssse3,
+ &aom_highbd_12_masked_sub_pixel_variance32x16_c, AOM_BITS_12),
+ make_tuple(&aom_highbd_12_masked_sub_pixel_variance16x32_ssse3,
+ &aom_highbd_12_masked_sub_pixel_variance16x32_c, AOM_BITS_12),
+ make_tuple(&aom_highbd_12_masked_sub_pixel_variance16x16_ssse3,
+ &aom_highbd_12_masked_sub_pixel_variance16x16_c, AOM_BITS_12),
+ make_tuple(&aom_highbd_12_masked_sub_pixel_variance16x8_ssse3,
+ &aom_highbd_12_masked_sub_pixel_variance16x8_c, AOM_BITS_12),
+ make_tuple(&aom_highbd_12_masked_sub_pixel_variance8x16_ssse3,
+ &aom_highbd_12_masked_sub_pixel_variance8x16_c, AOM_BITS_12),
+ make_tuple(&aom_highbd_12_masked_sub_pixel_variance8x8_ssse3,
+ &aom_highbd_12_masked_sub_pixel_variance8x8_c, AOM_BITS_12),
+ make_tuple(&aom_highbd_12_masked_sub_pixel_variance8x4_ssse3,
+ &aom_highbd_12_masked_sub_pixel_variance8x4_c, AOM_BITS_12),
+ make_tuple(&aom_highbd_12_masked_sub_pixel_variance4x8_ssse3,
+ &aom_highbd_12_masked_sub_pixel_variance4x8_c, AOM_BITS_12),
+ make_tuple(&aom_highbd_12_masked_sub_pixel_variance4x4_ssse3,
+ &aom_highbd_12_masked_sub_pixel_variance4x4_c, AOM_BITS_12)
+};
+
+INSTANTIATE_TEST_CASE_P(SSSE3_C_COMPARE, HighbdMaskedSubPixelVarianceTest,
+ ::testing::ValuesIn(hbd_sub_pel_var_test));
+#endif // HAVE_SSSE3
+} // namespace
diff --git a/third_party/aom/test/md5_helper.h b/third_party/aom/test/md5_helper.h
new file mode 100644
index 0000000000..9443cb2624
--- /dev/null
+++ b/third_party/aom/test/md5_helper.h
@@ -0,0 +1,76 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#ifndef AOM_TEST_MD5_HELPER_H_
+#define AOM_TEST_MD5_HELPER_H_
+
+#include "aom/aom_decoder.h"
+#include "common/md5_utils.h"
+
+namespace libaom_test {
+class MD5 {
+ public:
+ MD5() { MD5Init(&md5_); }
+
+ void Add(const aom_image_t *img) {
+ for (int plane = 0; plane < 3; ++plane) {
+ const uint8_t *buf = img->planes[plane];
+ // Calculate the width and height to do the md5 check. For the chroma
+ // plane, we never want to round down and thus skip a pixel so if
+ // we are shifting by 1 (chroma_shift) we add 1 before doing the shift.
+ // This works only for chroma_shift of 0 and 1.
+ const int bytes_per_sample =
+ (img->fmt & AOM_IMG_FMT_HIGHBITDEPTH) ? 2 : 1;
+ const int h =
+ plane ? (img->d_h + img->y_chroma_shift) >> img->y_chroma_shift
+ : img->d_h;
+ const int w =
+ (plane ? (img->d_w + img->x_chroma_shift) >> img->x_chroma_shift
+ : img->d_w) *
+ bytes_per_sample;
+
+ for (int y = 0; y < h; ++y) {
+ MD5Update(&md5_, buf, w);
+ buf += img->stride[plane];
+ }
+ }
+ }
+
+ void Add(const uint8_t *data, size_t size) {
+ MD5Update(&md5_, data, static_cast<uint32_t>(size));
+ }
+
+ const char *Get(void) {
+ static const char hex[16] = {
+ '0', '1', '2', '3', '4', '5', '6', '7',
+ '8', '9', 'a', 'b', 'c', 'd', 'e', 'f',
+ };
+ uint8_t tmp[16];
+ MD5Context ctx_tmp = md5_;
+
+ MD5Final(tmp, &ctx_tmp);
+ for (int i = 0; i < 16; i++) {
+ res_[i * 2 + 0] = hex[tmp[i] >> 4];
+ res_[i * 2 + 1] = hex[tmp[i] & 0xf];
+ }
+ res_[32] = 0;
+
+ return res_;
+ }
+
+ protected:
+ char res_[33];
+ MD5Context md5_;
+};
+
+} // namespace libaom_test
+
+#endif // AOM_TEST_MD5_HELPER_H_
diff --git a/third_party/aom/test/metrics_template.html b/third_party/aom/test/metrics_template.html
new file mode 100644
index 0000000000..b57c62314a
--- /dev/null
+++ b/third_party/aom/test/metrics_template.html
@@ -0,0 +1,422 @@
+<!DOCTYPE html>
+<html lang="en">
+<head>
+<meta charset="utf-8">
+<title>Video Codec Test Results</title>
+<style type="text/css">
+<!-- Begin 960 reset -->
+a,abbr,acronym,address,applet,article,aside,audio,b,big,blockquote,body,canvas,caption,center,cite,c
+ode,dd,del,details,dfn,dialog,div,dl,dt,em,embed,fieldset,figcaption,figure,font,footer,form,h1,h2,h
+3,h4,h5,h6,header,hgroup,hr,html,i,iframe,img,ins,kbd,label,legend,li,mark,menu,meter,nav,object,ol,
+output,p,pre,progress,q,rp,rt,ruby,s,samp,section,small,span,strike,strong,sub,summary,sup,table,tbo
+dy,td,tfoot,th,thead,time,tr,tt,u,ul,var,video,xmp{border:0;margin:0;padding:0;font-size:100%}html,b
+ody{height:100%}article,aside,details,figcaption,figure,footer,header,hgroup,menu,nav,section{displa
+y:block}b,strong{font-weight:bold}img{color:transparent;font-size:0;vertical-align:middle;-ms-interp
+olation-mode:bicubic}ol,ul{list-style:none}li{display:list-item}table{border-collapse:collapse;borde
+r-spacing:0}th,td,caption{font-weight:normal;vertical-align:top;text-align:left}q{quotes:none}q:befo
+re,q:after{content:'';content:none}sub,sup,small{font-size:75%}sub,sup{line-height:0;position:relati
+ve;vertical-align:baseline}sub{bottom:-0.25em}sup{top:-0.5em}svg{overflow:hidden}
+<!-- End 960 reset -->
+<!-- Begin 960 text -->
+body{font:13px/1.5 'Helvetica Neue',Arial,'Liberation Sans',FreeSans,sans-serif}pre,code{font-family
+:'DejaVu Sans Mono',Menlo,Consolas,monospace}hr{border:0 #ccc solid;border-top-width:1px;clear:both;
+height:0}h1{font-size:25px}h2{font-size:23px}h3{font-size:21px}h4{font-size:19px}h5{font-size:17px}h
+6{font-size:15px}ol{list-style:decimal}ul{list-style:disc}li{margin-left:30px}p,dl,hr,h1,h2,h3,h4,h5
+,h6,ol,ul,pre,table,address,fieldset,figure{margin-bottom:20px}
+<!-- End 960 text -->
+<!-- Begin 960 grid (fluid variant)
+ 12 columns, 1152px total width
+ http://960.gs/ | http://grids.heroku.com/ -->
+.container_12{width:92%;margin-left:4%;margin-right:4%}.grid_1,.grid_2,.grid_3,.grid_4,.grid_5,.grid
+_6,.grid_7,.grid_8,.grid_9,.grid_10,.grid_11,.grid_12{display:inline;float:left;position:relative;ma
+rgin-left:1%;margin-right:1%}.alpha{margin-left:0}.omega{margin-right:0}.container_12 .grid_1{width:
+6.333%}.container_12 .grid_2{width:14.667%}.container_12 .grid_3{width:23.0%}.container_12 .grid_4{w
+idth:31.333%}.container_12 .grid_5{width:39.667%}.container_12 .grid_6{width:48.0%}.container_12 .gr
+id_7{width:56.333%}.container_12 .grid_8{width:64.667%}.container_12 .grid_9{width:73.0%}.container_
+12 .grid_10{width:81.333%}.container_12 .grid_11{width:89.667%}.container_12 .grid_12{width:98.0%}.c
+ontainer_12 .prefix_1{padding-left:8.333%}.container_12 .prefix_2{padding-left:16.667%}.container_12
+ .prefix_3{padding-left:25.0%}.container_12 .prefix_4{padding-left:33.333%}.container_12 .prefix_5{p
+adding-left:41.667%}.container_12 .prefix_6{padding-left:50.0%}.container_12 .prefix_7{padding-left:
+58.333%}.container_12 .prefix_8{padding-left:66.667%}.container_12 .prefix_9{padding-left:75.0%}.con
+tainer_12 .prefix_10{padding-left:83.333%}.container_12 .prefix_11{padding-left:91.667%}.container_1
+2 .suffix_1{padding-right:8.333%}.container_12 .suffix_2{padding-right:16.667%}.container_12 .suffix
+_3{padding-right:25.0%}.container_12 .suffix_4{padding-right:33.333%}.container_12 .suffix_5{padding
+-right:41.667%}.container_12 .suffix_6{padding-right:50.0%}.container_12 .suffix_7{padding-right:58.
+333%}.container_12 .suffix_8{padding-right:66.667%}.container_12 .suffix_9{padding-right:75.0%}.cont
+ainer_12 .suffix_10{padding-right:83.333%}.container_12 .suffix_11{padding-right:91.667%}.container_
+12 .push_1{left:8.333%}.container_12 .push_2{left:16.667%}.container_12 .push_3{left:25.0%}.containe
+r_12 .push_4{left:33.333%}.container_12 .push_5{left:41.667%}.container_12 .push_6{left:50.0%}.conta
+iner_12 .push_7{left:58.333%}.container_12 .push_8{left:66.667%}.container_12 .push_9{left:75.0%}.co
+ntainer_12 .push_10{left:83.333%}.container_12 .push_11{left:91.667%}.container_12 .pull_1{left:-8.3
+33%}.container_12 .pull_2{left:-16.667%}.container_12 .pull_3{left:-25.0%}.container_12 .pull_4{left
+:-33.333%}.container_12 .pull_5{left:-41.667%}.container_12 .pull_6{left:-50.0%}.container_12 .pull_
+7{left:-58.333%}.container_12 .pull_8{left:-66.667%}.container_12 .pull_9{left:-75.0%}.container_12
+.pull_10{left:-83.333%}.container_12 .pull_11{left:-91.667%}.clear{clear:both;display:block;overflow
+:hidden;visibility:hidden;width:0;height:0}.clearfix:after{clear:both;content:' ';display:block;font
+-size:0;line-height:0;visibility:hidden;width:0;height:0}.clearfix{display:inline-block}* html .clea
+rfix{height:1%}.clearfix{display:block}
+<!-- End 960 grid -->
+
+div.metricgraph {
+
+}
+
+body {
+
+}
+
+div.header {
+ font-family: Arial, sans-serif;
+}
+
+div.header h2 {
+ margin: .5em auto;
+}
+
+div.radio {
+ font-family: Arial, sans-serif;
+ margin-bottom: 1em;
+}
+
+div.main {
+
+}
+
+div.cliplist {
+ font-family: Arial, sans-serif;
+ margin-top: 6px;
+}
+
+div.chartarea {
+ font-family: Arial, sans-serif;
+}
+
+div.indicators {
+ font-family: Arial, sans-serif;
+ font-size: 13px;
+ margin-top: 6px;
+ min-height: 600px;
+ background-color: #f7f7f7;
+}
+
+div.indicators div.content {
+ margin: 1em;
+}
+
+div.indicators div.content h5 {
+ font-size: 13px;
+ text-align: center;
+ margin: 0;
+}
+
+div.indicators div.content ul {
+ margin-left: 0;
+ padding-left: 0;
+ margin-top: 0;
+}
+
+div.indicators div.content ul li {
+ margin-left: 1.5em;
+}
+
+div.indicators div.content p:first-child {
+ margin-bottom: .5em;
+}
+
+span.google-visualization-table-sortind {
+ color: #000;
+}
+.header-style {
+ font-weight: bold;
+ border: 1px solid #fff;
+ background-color: #ccc;
+}
+
+td.header-style+td {
+
+}
+
+.orange-background {
+ background-color: orange;
+}
+
+.light-gray-background {
+ background-color: #f0f0f0;
+}
+</style>
+<script type="text/javascript" src="https://www.google.com/jsapi"></script>
+<script type="text/javascript">
+var chart_left = 40;
+var chart_top = 6;
+var chart_height = document.documentElement.clientHeight-100;
+var chart_width = "100%";
+ftable='filestable_avg'
+var snrs = [];
+var filestable_dsnr = [];
+var filestable_drate = [];
+var filestable_avg = [];
+
+// Python template code replaces the following 2 lines.
+//%%metrics_js%%//
+//%%filestable_dpsnr%%//
+//%%filestable_avg%%//
+//%%filestable_drate%%//
+//%%snrs%%//
+
+var selected = 0
+var imagestr = '';
+var bettertable=0;
+var chart=0;
+var better=0;
+var metricdata=0;
+var metricView=0;
+var column=1;
+var formatter=0;
+
+function changeColumn(col) {
+ column = col;
+ console.log(col)
+ draw_files();
+}
+
+function changeMetric(m) {
+ ftable=m
+ draw_files()
+}
+
+function setup_vis() {
+ chart = new google.visualization.ScatterChart(
+ document.getElementById("metricgraph"));
+
+ bettertable = new google.visualization.Table(
+ document.getElementById("bettertable"));
+
+ draw_files();
+ build_metrics_radio();
+}
+
+function build_metrics_radio() {
+ for (metric=1; metric < metrics.length; metric++) {
+ var rb = document.createElement('input');
+ var l = document.createElement('label');
+ rb.setAttribute('type','radio');
+ rb.setAttribute('name','metric');
+ rb.setAttribute('onClick', "changeColumn('"+metric.toString()+"')");
+ l.innerHTML = metrics[metric];
+ document.getElementById('metrics').appendChild(rb);
+ document.getElementById('metrics').appendChild(l);
+ }
+}
+
+function draw_files() {
+ var options = {'allowHtml': true, 'width': "100%", 'height': "50%"};
+ if (better != 0) delete better;
+
+ col=eval(ftable+'[column]')
+ better = new google.visualization.DataTable(col)
+
+ // Python Template code replaces the following line with a list of
+ // formatters.
+ if (ftable == 'filestable_dsnr')
+ formatter = new google.visualization.NumberFormat(
+ {fractionDigits: 4, suffix:" db"});
+ else
+ formatter = new google.visualization.NumberFormat(
+ {fractionDigits: 4, suffix:"%"});
+
+ //%%formatters%%//
+
+ bettertable.draw(better,options);
+ google.visualization.events.addListener(bettertable, 'select',
+ selectBetterHandler);
+ query_file()
+}
+
+function query_file() {
+ imagestr = better.getFormattedValue(selected, 0)
+ var metricjson = eval('(' + snrs[column][selected] + ')');
+ metricdata = new google.visualization.DataTable(metricjson, 0.6);
+ if( metricView != 0 ) delete metricView;
+ metricView = new google.visualization.DataView(metricdata);
+
+ chart.draw(metricView, {curveType:'function',
+ explorer: {},
+ chartArea:{left:chart_left, top:chart_top, width:chart_width,
+ height:chart_height-90},
+ hAxis:{title:"Datarate in kbps"},
+ vAxis:{title:"Quality in decibels", format: '##.0', textPosition: 'in'},
+ legend:{position:"in"}, title:imagestr, pointSize:2, lineWidth:1,
+ width:chart_width, height:chart_height-50 });
+
+ google.visualization.events.addListener(chart, 'select', chartSelect);
+ google.visualization.events.addListener(chart, 'onmouseover', chartMouseOver);
+ google.visualization.events.addListener(chart, 'onmouseout', chartMouseOut);
+}
+
+function chartMouseOut(e) {
+ statusbar = document.getElementById('status');
+ statusbar.style.display = 'none';
+}
+
+function chartMouseOver(e) {
+ pointDifference(e.row, e.column)
+}
+
+function pointDifference(row, col) {
+ if(!row || !col)
+ return;
+
+ var cols = metricdata.getNumberOfColumns();
+ var rows = metricdata.getNumberOfRows();
+
+ var sel_bitrate = metricView.getValue(row, 0 );
+ var sel_metric = metricView.getValue(row, col);
+
+ var message = '<ul>' + metricView.getColumnLabel(col) +
+ ' (' + sel_bitrate.toFixed(0) + ' kbps, ' + sel_metric.toFixed(2) + ')' + ' is ';
+
+
+ // col 0 is datarate
+ for( var i=1;i<cols;++i) {
+
+ var metric_greatest_thats_less = 0;
+ var rate_greatest_thats_less = 0;
+ var metric_smallest_thats_greater = 999;
+ var rate_smallest_thats_greater = 0;
+
+ if(i==col)
+ continue;
+
+ // Find the lowest metric for the column that's greater than sel_metric and
+ // the highest metric for this column that's less than the metric.
+ for(var line_count = 0; line_count < rows; ++line_count) {
+ this_metric = metricdata.getValue(line_count, i)
+ this_rate = metricdata.getValue(line_count, 0)
+ if(!this_metric)
+ continue;
+
+ if(this_metric > metric_greatest_thats_less &&
+ this_metric <= sel_metric) {
+ metric_greatest_thats_less = this_metric;
+ rate_greatest_thats_less = this_rate;
+ }
+ if(this_metric < metric_smallest_thats_greater &&
+ this_metric > sel_metric) {
+ metric_smallest_thats_greater = this_metric;
+ rate_smallest_thats_greater = this_rate;
+ }
+ }
+
+ if(rate_smallest_thats_greater == 0 || rate_greatest_thats_less == 0) {
+ message = message + " <li> Couldn't find a point on both sides.</li>"
+ } else {
+ metric_slope = ( rate_smallest_thats_greater - rate_greatest_thats_less) /
+ ( metric_smallest_thats_greater - metric_greatest_thats_less);
+
+ projected_rate = ( sel_metric - metric_greatest_thats_less) *
+ metric_slope + rate_greatest_thats_less;
+
+ difference = 100 * (projected_rate / sel_bitrate - 1);
+
+
+ if (difference > 0)
+ message = message + "<li> " + difference.toFixed(2) +
+ "% smaller than <em>" +
+ metricdata.getColumnLabel(i) + "</em></li> "
+ else
+ message = message + "<li> " + -difference.toFixed(2) +
+ "% bigger than <em>" +
+ metricdata.getColumnLabel(i) + "</em></li> "
+ }
+
+ }
+ message = message + "</ul>"
+ statusbar = document.getElementById('status');
+ statusbar.innerHTML = "<p>" + message + "</p>";
+ statusbar.style.display = 'block';
+}
+
+function chartSelect() {
+ var selection = chart.getSelection();
+ var message = '';
+ var min = metricView.getFormattedValue(selection[0].row, 0);
+ var max = metricView.getFormattedValue(selection[selection.length-1].row, 0);
+ var val = metricView.getFormattedValue(selection[0].row,selection[0].column);
+
+ pointDifference(selection[0].row, selection[0].column)
+ min = min / 3
+ max = max * 3
+ metricView.setRows(metricdata.getFilteredRows(
+ [{column: 0,minValue: min, maxValue:max}]));
+
+ chart.draw(metricView, {curveType:'function',
+ chartArea:{left:40, top:10, width:chart_width, height:chart_height - 110},
+ hAxis:{title:"datarate in kbps"}, vAxis:{title:"quality in decibels"},
+ legend:{position:"in"}, title:imagestr, pointSize:2, lineWidth:1,
+ width:chart_width, height:chart_height - 50});
+}
+
+function selectBetterHandler() {
+ var selection = bettertable.getSelection();
+ for (var i = 0; i < selection.length; i++) {
+ item = selection[i];
+ }
+ selected = item.row
+ query_file()
+}
+
+
+google.load('visualization', '1', {'packages' : ['corechart','table']});
+google.setOnLoadCallback(setup_vis);
+</script>
+</head>
+
+<body>
+
+ <div class="container_12">
+
+ <div class="grid_12 header">
+ <h2>Codec Comparison Results</h2>
+ </div>
+
+ <div class="grid_12 radio">
+
+ <form name="myform">
+ Method For Combining Points
+ <input type="radio" checked name="column" value="1"
+ onClick="changeMetric('filestable_avg')" />Average of bitrates difference
+ <input type="radio" name="column" value="2"
+ onClick="changeMetric('filestable_dsnr')" />BDSNR
+ <input type="radio" name="column" value="3"
+ onClick="changeMetric('filestable_drate')" />BDRATE
+ </form>
+
+ <form id="metrics" name="myform">
+ </form>
+
+ </div>
+
+ <div class="grid_12 main">
+
+ <div class="grid_5 alpha cliplist">
+ <div id="bettertable"></div>
+ </div>
+
+ <div class="grid_5 chartarea">
+ <div id="metricgraph"></div>
+ </div>
+
+ <div class="grid_2 omega indicators">
+ <div class="content">
+ <h5>Indicators</h5>
+ <hr>
+ <div id="status"></div>
+ </div>
+ </div>
+
+ </div>
+
+ </div>
+
+</body>
+</html>
diff --git a/third_party/aom/test/monochrome_test.cc b/third_party/aom/test/monochrome_test.cc
new file mode 100644
index 0000000000..ebccba5842
--- /dev/null
+++ b/third_party/aom/test/monochrome_test.cc
@@ -0,0 +1,130 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <climits>
+#include <vector>
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/codec_factory.h"
+#include "test/encode_test_driver.h"
+#include "test/i420_video_source.h"
+#include "test/video_source.h"
+#include "test/util.h"
+
+namespace {
+
+class MonochromeTest
+ : public ::libaom_test::CodecTestWithParam<libaom_test::TestMode>,
+ public ::libaom_test::EncoderTest {
+ protected:
+ MonochromeTest() : EncoderTest(GET_PARAM(0)), frame0_psnr_y_(0.) {}
+
+ virtual ~MonochromeTest() {}
+
+ virtual void SetUp() {
+ InitializeConfig();
+ SetMode(GET_PARAM(1));
+ }
+
+ virtual void DecompressedFrameHook(const aom_image_t &img,
+ aom_codec_pts_t pts) {
+ (void)pts;
+
+ // Get value of top-left corner pixel of U plane
+ int chroma_value = img.planes[AOM_PLANE_U][0];
+
+ bool is_chroma_constant =
+ ComparePlaneToValue(img, AOM_PLANE_U, chroma_value) &&
+ ComparePlaneToValue(img, AOM_PLANE_V, chroma_value);
+
+ // Chroma planes should be constant
+ EXPECT_TRUE(is_chroma_constant);
+
+ // Monochrome flag on image should be set
+ EXPECT_EQ(img.monochrome, 1);
+
+ chroma_value_list_.push_back(chroma_value);
+ }
+
+ // Returns true if all pixels on the plane are equal to value, and returns
+ // false otherwise.
+ bool ComparePlaneToValue(const aom_image_t &img, const int plane,
+ const int value) {
+ const int w = aom_img_plane_width(&img, plane);
+ const int h = aom_img_plane_height(&img, plane);
+ const uint8_t *const buf = img.planes[plane];
+ const int stride = img.stride[plane];
+
+ for (int r = 0; r < h; ++r) {
+ for (int c = 0; c < w; ++c) {
+ if (buf[r * stride + c] != value) return false;
+ }
+ }
+ return true;
+ }
+
+ virtual void PSNRPktHook(const aom_codec_cx_pkt_t *pkt) {
+ // Check that the initial Y PSNR value is 'high enough', and check that
+ // subsequent Y PSNR values are 'close' to this initial value.
+ if (frame0_psnr_y_ == 0.) {
+ frame0_psnr_y_ = pkt->data.psnr.psnr[1];
+ EXPECT_GT(frame0_psnr_y_, 29.);
+ }
+ EXPECT_NEAR(pkt->data.psnr.psnr[1], frame0_psnr_y_, 2.5);
+ }
+
+ std::vector<int> chroma_value_list_;
+ double frame0_psnr_y_;
+};
+
+TEST_P(MonochromeTest, TestMonochromeEncoding) {
+ ::libaom_test::I420VideoSource video("hantro_collage_w352h288.yuv", 352, 288,
+ 30, 1, 0, 5);
+
+ init_flags_ = AOM_CODEC_USE_PSNR;
+
+ cfg_.g_w = 352;
+ cfg_.g_h = 288;
+
+ cfg_.rc_buf_initial_sz = 500;
+ cfg_.rc_buf_optimal_sz = 600;
+ cfg_.rc_buf_sz = 1000;
+ cfg_.rc_min_quantizer = 2;
+ cfg_.rc_max_quantizer = 56;
+ cfg_.rc_undershoot_pct = 50;
+ cfg_.rc_overshoot_pct = 50;
+ cfg_.rc_end_usage = AOM_CBR;
+ cfg_.kf_mode = AOM_KF_AUTO;
+ cfg_.g_lag_in_frames = 1;
+ cfg_.kf_min_dist = cfg_.kf_max_dist = 3000;
+ // Enable dropped frames.
+ cfg_.rc_dropframe_thresh = 1;
+ // Disable error_resilience mode.
+ cfg_.g_error_resilient = 0;
+ // Run at low bitrate.
+ cfg_.rc_target_bitrate = 40;
+ // Set monochrome encoding flag
+ cfg_.monochrome = 1;
+
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+
+ // Check that the chroma planes are equal across all frames
+ std::vector<int>::const_iterator iter = chroma_value_list_.begin();
+ int initial_chroma_value = *iter;
+ for (; iter != chroma_value_list_.end(); ++iter) {
+ // Check that all decoded frames have the same constant chroma planes.
+ EXPECT_EQ(*iter, initial_chroma_value);
+ }
+}
+
+AV1_INSTANTIATE_TEST_CASE(MonochromeTest,
+ ::testing::Values(::libaom_test::kTwoPassGood));
+
+} // namespace
diff --git a/third_party/aom/test/motion_vector_test.cc b/third_party/aom/test/motion_vector_test.cc
new file mode 100644
index 0000000000..27eb938930
--- /dev/null
+++ b/third_party/aom/test/motion_vector_test.cc
@@ -0,0 +1,105 @@
+/*
+ * Copyright (c) 2017, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "test/codec_factory.h"
+#include "test/encode_test_driver.h"
+#include "test/util.h"
+#include "test/yuv_video_source.h"
+
+namespace {
+#define MAX_EXTREME_MV 1
+#define MIN_EXTREME_MV 2
+
+// Encoding modes
+const libaom_test::TestMode kEncodingModeVectors[] = {
+ ::libaom_test::kTwoPassGood,
+ ::libaom_test::kOnePassGood,
+};
+
+// Encoding speeds
+const int kCpuUsedVectors[] = { 1, 5 };
+
+// MV test modes: 1 - always use maximum MV; 2 - always use minimum MV.
+const int kMVTestModes[] = { MAX_EXTREME_MV, MIN_EXTREME_MV };
+
+class MotionVectorTestLarge
+ : public ::libaom_test::CodecTestWith3Params<libaom_test::TestMode, int,
+ int>,
+ public ::libaom_test::EncoderTest {
+ protected:
+ MotionVectorTestLarge()
+ : EncoderTest(GET_PARAM(0)), encoding_mode_(GET_PARAM(1)),
+ cpu_used_(GET_PARAM(2)), mv_test_mode_(GET_PARAM(3)) {}
+
+ virtual ~MotionVectorTestLarge() {}
+
+ virtual void SetUp() {
+ InitializeConfig();
+ SetMode(encoding_mode_);
+ if (encoding_mode_ != ::libaom_test::kRealTime) {
+ cfg_.g_lag_in_frames = 3;
+ cfg_.rc_end_usage = AOM_VBR;
+ } else {
+ cfg_.g_lag_in_frames = 0;
+ cfg_.rc_end_usage = AOM_CBR;
+ cfg_.rc_buf_sz = 1000;
+ cfg_.rc_buf_initial_sz = 500;
+ cfg_.rc_buf_optimal_sz = 600;
+ }
+ }
+
+ virtual void PreEncodeFrameHook(::libaom_test::VideoSource *video,
+ ::libaom_test::Encoder *encoder) {
+ if (video->frame() == 1) {
+ encoder->Control(AOME_SET_CPUUSED, cpu_used_);
+ encoder->Control(AV1E_ENABLE_MOTION_VECTOR_UNIT_TEST, mv_test_mode_);
+ if (encoding_mode_ != ::libaom_test::kRealTime) {
+ encoder->Control(AOME_SET_ENABLEAUTOALTREF, 1);
+ encoder->Control(AOME_SET_ARNR_MAXFRAMES, 7);
+ encoder->Control(AOME_SET_ARNR_STRENGTH, 5);
+ }
+ }
+ }
+
+ libaom_test::TestMode encoding_mode_;
+ int cpu_used_;
+ int mv_test_mode_;
+};
+
+TEST_P(MotionVectorTestLarge, OverallTest) {
+ int width = 3840;
+ int height = 2160;
+
+ // Reduce the test clip's resolution while testing on 32-bit system.
+ if (sizeof(void *) == 4) {
+ width = 2048;
+ height = 360;
+ }
+
+ cfg_.rc_target_bitrate = 24000;
+ cfg_.g_profile = 0;
+ init_flags_ = AOM_CODEC_USE_PSNR;
+
+ testing::internal::scoped_ptr<libaom_test::VideoSource> video;
+ video.reset(new libaom_test::YUVVideoSource(
+ "niklas_640_480_30.yuv", AOM_IMG_FMT_I420, width, height, 30, 1, 0, 3));
+
+ ASSERT_TRUE(video.get() != NULL);
+ ASSERT_NO_FATAL_FAILURE(RunLoop(video.get()));
+}
+
+AV1_INSTANTIATE_TEST_CASE(MotionVectorTestLarge,
+ ::testing::ValuesIn(kEncodingModeVectors),
+ ::testing::ValuesIn(kCpuUsedVectors),
+ ::testing::ValuesIn(kMVTestModes));
+} // namespace
diff --git a/third_party/aom/test/noise_model_test.cc b/third_party/aom/test/noise_model_test.cc
new file mode 100644
index 0000000000..b5b387e313
--- /dev/null
+++ b/third_party/aom/test/noise_model_test.cc
@@ -0,0 +1,1343 @@
+/*
+ * Copyright (c) 2018, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <math.h>
+#include <algorithm>
+#include <vector>
+
+#include "aom_dsp/noise_model.h"
+#include "aom_dsp/noise_util.h"
+#include "config/aom_dsp_rtcd.h"
+#include "test/acm_random.h"
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+namespace {
+
+// Return normally distrbuted values with standard deviation of sigma.
+double randn(libaom_test::ACMRandom *random, double sigma) {
+ while (1) {
+ const double u = 2.0 * ((double)random->Rand31() /
+ testing::internal::Random::kMaxRange) -
+ 1.0;
+ const double v = 2.0 * ((double)random->Rand31() /
+ testing::internal::Random::kMaxRange) -
+ 1.0;
+ const double s = u * u + v * v;
+ if (s > 0 && s < 1) {
+ return sigma * (u * sqrt(-2.0 * log(s) / s));
+ }
+ }
+ return 0;
+}
+
+// Synthesizes noise using the auto-regressive filter of the given lag,
+// with the provided n coefficients sampled at the given coords.
+void noise_synth(libaom_test::ACMRandom *random, int lag, int n,
+ const int (*coords)[2], const double *coeffs, double *data,
+ int w, int h) {
+ const int pad_size = 3 * lag;
+ const int padded_w = w + pad_size;
+ const int padded_h = h + pad_size;
+ int x = 0, y = 0;
+ std::vector<double> padded(padded_w * padded_h);
+
+ for (y = 0; y < padded_h; ++y) {
+ for (x = 0; x < padded_w; ++x) {
+ padded[y * padded_w + x] = randn(random, 1.0);
+ }
+ }
+ for (y = lag; y < padded_h; ++y) {
+ for (x = lag; x < padded_w; ++x) {
+ double sum = 0;
+ int i = 0;
+ for (i = 0; i < n; ++i) {
+ const int dx = coords[i][0];
+ const int dy = coords[i][1];
+ sum += padded[(y + dy) * padded_w + (x + dx)] * coeffs[i];
+ }
+ padded[y * padded_w + x] += sum;
+ }
+ }
+ // Copy over the padded rows to the output
+ for (y = 0; y < h; ++y) {
+ memcpy(data + y * w, &padded[0] + y * padded_w, sizeof(*data) * w);
+ }
+}
+
+std::vector<float> get_noise_psd(double *noise, int width, int height,
+ int block_size) {
+ float *block =
+ (float *)aom_memalign(32, block_size * block_size * sizeof(block));
+ std::vector<float> psd(block_size * block_size);
+ int num_blocks = 0;
+ struct aom_noise_tx_t *tx = aom_noise_tx_malloc(block_size);
+ for (int y = 0; y <= height - block_size; y += block_size / 2) {
+ for (int x = 0; x <= width - block_size; x += block_size / 2) {
+ for (int yy = 0; yy < block_size; ++yy) {
+ for (int xx = 0; xx < block_size; ++xx) {
+ block[yy * block_size + xx] = (float)noise[(y + yy) * width + x + xx];
+ }
+ }
+ aom_noise_tx_forward(tx, &block[0]);
+ aom_noise_tx_add_energy(tx, &psd[0]);
+ num_blocks++;
+ }
+ }
+ for (int yy = 0; yy < block_size; ++yy) {
+ for (int xx = 0; xx <= block_size / 2; ++xx) {
+ psd[yy * block_size + xx] /= num_blocks;
+ }
+ }
+ // Fill in the data that is missing due to symmetries
+ for (int xx = 1; xx < block_size / 2; ++xx) {
+ psd[(block_size - xx)] = psd[xx];
+ }
+ for (int yy = 1; yy < block_size; ++yy) {
+ for (int xx = 1; xx < block_size / 2; ++xx) {
+ psd[(block_size - yy) * block_size + (block_size - xx)] =
+ psd[yy * block_size + xx];
+ }
+ }
+ aom_noise_tx_free(tx);
+ aom_free(block);
+ return psd;
+}
+
+} // namespace
+
+TEST(NoiseStrengthSolver, GetCentersTwoBins) {
+ aom_noise_strength_solver_t solver;
+ aom_noise_strength_solver_init(&solver, 2, 8);
+ EXPECT_NEAR(0, aom_noise_strength_solver_get_center(&solver, 0), 1e-5);
+ EXPECT_NEAR(255, aom_noise_strength_solver_get_center(&solver, 1), 1e-5);
+ aom_noise_strength_solver_free(&solver);
+}
+
+TEST(NoiseStrengthSolver, GetCentersTwoBins10bit) {
+ aom_noise_strength_solver_t solver;
+ aom_noise_strength_solver_init(&solver, 2, 10);
+ EXPECT_NEAR(0, aom_noise_strength_solver_get_center(&solver, 0), 1e-5);
+ EXPECT_NEAR(1023, aom_noise_strength_solver_get_center(&solver, 1), 1e-5);
+ aom_noise_strength_solver_free(&solver);
+}
+
+TEST(NoiseStrengthSolver, GetCenters256Bins) {
+ const int num_bins = 256;
+ aom_noise_strength_solver_t solver;
+ aom_noise_strength_solver_init(&solver, num_bins, 8);
+
+ for (int i = 0; i < 256; ++i) {
+ EXPECT_NEAR(i, aom_noise_strength_solver_get_center(&solver, i), 1e-5);
+ }
+ aom_noise_strength_solver_free(&solver);
+}
+
+// Tests that the noise strength solver returns the identity transform when
+// given identity-like constraints.
+TEST(NoiseStrengthSolver, ObserveIdentity) {
+ const int num_bins = 256;
+ aom_noise_strength_solver_t solver;
+ EXPECT_EQ(1, aom_noise_strength_solver_init(&solver, num_bins, 8));
+
+ // We have to add a big more strength to constraints at the boundary to
+ // overcome any regularization.
+ for (int j = 0; j < 5; ++j) {
+ aom_noise_strength_solver_add_measurement(&solver, 0, 0);
+ aom_noise_strength_solver_add_measurement(&solver, 255, 255);
+ }
+ for (int i = 0; i < 256; ++i) {
+ aom_noise_strength_solver_add_measurement(&solver, i, i);
+ }
+ EXPECT_EQ(1, aom_noise_strength_solver_solve(&solver));
+ for (int i = 2; i < num_bins - 2; ++i) {
+ EXPECT_NEAR(i, solver.eqns.x[i], 0.1);
+ }
+
+ aom_noise_strength_lut_t lut;
+ EXPECT_EQ(1, aom_noise_strength_solver_fit_piecewise(&solver, 2, &lut));
+
+ ASSERT_EQ(2, lut.num_points);
+ EXPECT_NEAR(0.0, lut.points[0][0], 1e-5);
+ EXPECT_NEAR(0.0, lut.points[0][1], 0.5);
+ EXPECT_NEAR(255.0, lut.points[1][0], 1e-5);
+ EXPECT_NEAR(255.0, lut.points[1][1], 0.5);
+
+ aom_noise_strength_lut_free(&lut);
+ aom_noise_strength_solver_free(&solver);
+}
+
+TEST(NoiseStrengthSolver, SimplifiesCurve) {
+ const int num_bins = 256;
+ aom_noise_strength_solver_t solver;
+ EXPECT_EQ(1, aom_noise_strength_solver_init(&solver, num_bins, 8));
+
+ // Create a parabolic input
+ for (int i = 0; i < 256; ++i) {
+ const double x = (i - 127.5) / 63.5;
+ aom_noise_strength_solver_add_measurement(&solver, i, x * x);
+ }
+ EXPECT_EQ(1, aom_noise_strength_solver_solve(&solver));
+
+ // First try to fit an unconstrained lut
+ aom_noise_strength_lut_t lut;
+ EXPECT_EQ(1, aom_noise_strength_solver_fit_piecewise(&solver, -1, &lut));
+ ASSERT_LE(20, lut.num_points);
+ aom_noise_strength_lut_free(&lut);
+
+ // Now constrain the maximum number of points
+ const int kMaxPoints = 9;
+ EXPECT_EQ(1,
+ aom_noise_strength_solver_fit_piecewise(&solver, kMaxPoints, &lut));
+ ASSERT_EQ(kMaxPoints, lut.num_points);
+
+ // Check that the input parabola is still well represented
+ EXPECT_NEAR(0.0, lut.points[0][0], 1e-5);
+ EXPECT_NEAR(4.0, lut.points[0][1], 0.1);
+ for (int i = 1; i < lut.num_points - 1; ++i) {
+ const double x = (lut.points[i][0] - 128.) / 64.;
+ EXPECT_NEAR(x * x, lut.points[i][1], 0.1);
+ }
+ EXPECT_NEAR(255.0, lut.points[kMaxPoints - 1][0], 1e-5);
+
+ EXPECT_NEAR(4.0, lut.points[kMaxPoints - 1][1], 0.1);
+ aom_noise_strength_lut_free(&lut);
+ aom_noise_strength_solver_free(&solver);
+}
+
+TEST(NoiseStrengthLut, LutEvalSinglePoint) {
+ aom_noise_strength_lut_t lut;
+ ASSERT_TRUE(aom_noise_strength_lut_init(&lut, 1));
+ ASSERT_EQ(1, lut.num_points);
+ lut.points[0][0] = 0;
+ lut.points[0][1] = 1;
+ EXPECT_EQ(1, aom_noise_strength_lut_eval(&lut, -1));
+ EXPECT_EQ(1, aom_noise_strength_lut_eval(&lut, 0));
+ EXPECT_EQ(1, aom_noise_strength_lut_eval(&lut, 1));
+ aom_noise_strength_lut_free(&lut);
+}
+
+TEST(NoiseStrengthLut, LutEvalMultiPointInterp) {
+ const double kEps = 1e-5;
+ aom_noise_strength_lut_t lut;
+ ASSERT_TRUE(aom_noise_strength_lut_init(&lut, 4));
+ ASSERT_EQ(4, lut.num_points);
+
+ lut.points[0][0] = 0;
+ lut.points[0][1] = 0;
+
+ lut.points[1][0] = 1;
+ lut.points[1][1] = 1;
+
+ lut.points[2][0] = 2;
+ lut.points[2][1] = 1;
+
+ lut.points[3][0] = 100;
+ lut.points[3][1] = 1001;
+
+ // Test lower boundary
+ EXPECT_EQ(0, aom_noise_strength_lut_eval(&lut, -1));
+ EXPECT_EQ(0, aom_noise_strength_lut_eval(&lut, 0));
+
+ // Test first part that should be identity
+ EXPECT_NEAR(0.25, aom_noise_strength_lut_eval(&lut, 0.25), kEps);
+ EXPECT_NEAR(0.75, aom_noise_strength_lut_eval(&lut, 0.75), kEps);
+
+ // This is a constant section (should evaluate to 1)
+ EXPECT_NEAR(1.0, aom_noise_strength_lut_eval(&lut, 1.25), kEps);
+ EXPECT_NEAR(1.0, aom_noise_strength_lut_eval(&lut, 1.75), kEps);
+
+ // Test interpolation between to non-zero y coords.
+ EXPECT_NEAR(1, aom_noise_strength_lut_eval(&lut, 2), kEps);
+ EXPECT_NEAR(251, aom_noise_strength_lut_eval(&lut, 26.5), kEps);
+ EXPECT_NEAR(751, aom_noise_strength_lut_eval(&lut, 75.5), kEps);
+
+ // Test upper boundary
+ EXPECT_EQ(1001, aom_noise_strength_lut_eval(&lut, 100));
+ EXPECT_EQ(1001, aom_noise_strength_lut_eval(&lut, 101));
+
+ aom_noise_strength_lut_free(&lut);
+}
+
+TEST(NoiseModel, InitSuccessWithValidSquareShape) {
+ aom_noise_model_params_t params = { AOM_NOISE_SHAPE_SQUARE, 2, 8, 0 };
+ aom_noise_model_t model;
+
+ EXPECT_TRUE(aom_noise_model_init(&model, params));
+
+ const int kNumCoords = 12;
+ const int kCoords[][2] = { { -2, -2 }, { -1, -2 }, { 0, -2 }, { 1, -2 },
+ { 2, -2 }, { -2, -1 }, { -1, -1 }, { 0, -1 },
+ { 1, -1 }, { 2, -1 }, { -2, 0 }, { -1, 0 } };
+ EXPECT_EQ(kNumCoords, model.n);
+ for (int i = 0; i < kNumCoords; ++i) {
+ const int *coord = kCoords[i];
+ EXPECT_EQ(coord[0], model.coords[i][0]);
+ EXPECT_EQ(coord[1], model.coords[i][1]);
+ }
+ aom_noise_model_free(&model);
+}
+
+TEST(NoiseModel, InitSuccessWithValidDiamondShape) {
+ aom_noise_model_t model;
+ aom_noise_model_params_t params = { AOM_NOISE_SHAPE_DIAMOND, 2, 8, 0 };
+ EXPECT_TRUE(aom_noise_model_init(&model, params));
+ EXPECT_EQ(6, model.n);
+ const int kNumCoords = 6;
+ const int kCoords[][2] = { { 0, -2 }, { -1, -1 }, { 0, -1 },
+ { 1, -1 }, { -2, 0 }, { -1, 0 } };
+ EXPECT_EQ(kNumCoords, model.n);
+ for (int i = 0; i < kNumCoords; ++i) {
+ const int *coord = kCoords[i];
+ EXPECT_EQ(coord[0], model.coords[i][0]);
+ EXPECT_EQ(coord[1], model.coords[i][1]);
+ }
+ aom_noise_model_free(&model);
+}
+
+TEST(NoiseModel, InitFailsWithTooLargeLag) {
+ aom_noise_model_t model;
+ aom_noise_model_params_t params = { AOM_NOISE_SHAPE_SQUARE, 10, 8, 0 };
+ EXPECT_FALSE(aom_noise_model_init(&model, params));
+ aom_noise_model_free(&model);
+}
+
+TEST(NoiseModel, InitFailsWithTooSmallLag) {
+ aom_noise_model_t model;
+ aom_noise_model_params_t params = { AOM_NOISE_SHAPE_SQUARE, 0, 8, 0 };
+ EXPECT_FALSE(aom_noise_model_init(&model, params));
+ aom_noise_model_free(&model);
+}
+
+TEST(NoiseModel, InitFailsWithInvalidShape) {
+ aom_noise_model_t model;
+ aom_noise_model_params_t params = { aom_noise_shape(100), 3, 8, 0 };
+ EXPECT_FALSE(aom_noise_model_init(&model, params));
+ aom_noise_model_free(&model);
+}
+
+// A container template class to hold a data type and extra arguments.
+// All of these args are bundled into one struct so that we can use
+// parameterized tests on combinations of supported data types
+// (uint8_t and uint16_t) and bit depths (8, 10, 12).
+template <typename T, int bit_depth, bool use_highbd>
+struct BitDepthParams {
+ typedef T data_type_t;
+ static const int kBitDepth = bit_depth;
+ static const bool kUseHighBD = use_highbd;
+};
+
+template <typename T>
+class FlatBlockEstimatorTest : public ::testing::Test, public T {
+ public:
+ virtual void SetUp() { random_.Reset(171); }
+ typedef std::vector<typename T::data_type_t> VecType;
+ VecType data_;
+ libaom_test::ACMRandom random_;
+};
+
+TYPED_TEST_CASE_P(FlatBlockEstimatorTest);
+
+TYPED_TEST_P(FlatBlockEstimatorTest, ExtractBlock) {
+ const int kBlockSize = 16;
+ aom_flat_block_finder_t flat_block_finder;
+ ASSERT_EQ(1, aom_flat_block_finder_init(&flat_block_finder, kBlockSize,
+ this->kBitDepth, this->kUseHighBD));
+ const double normalization = flat_block_finder.normalization;
+
+ // Test with an image of more than one block.
+ const int h = 2 * kBlockSize;
+ const int w = 2 * kBlockSize;
+ const int stride = 2 * kBlockSize;
+ this->data_.resize(h * stride, 128);
+
+ // Set up the (0,0) block to be a plane and the (0,1) block to be a
+ // checkerboard
+ const int shift = this->kBitDepth - 8;
+ for (int y = 0; y < kBlockSize; ++y) {
+ for (int x = 0; x < kBlockSize; ++x) {
+ this->data_[y * stride + x] = (-y + x + 128) << shift;
+ this->data_[y * stride + x + kBlockSize] =
+ ((x % 2 + y % 2) % 2 ? 128 - 20 : 128 + 20) << shift;
+ }
+ }
+ std::vector<double> block(kBlockSize * kBlockSize, 1);
+ std::vector<double> plane(kBlockSize * kBlockSize, 1);
+
+ // The block data should be a constant (zero) and the rest of the plane
+ // trend is covered in the plane data.
+ aom_flat_block_finder_extract_block(&flat_block_finder,
+ (uint8_t *)&this->data_[0], w, h, stride,
+ 0, 0, &plane[0], &block[0]);
+ for (int y = 0; y < kBlockSize; ++y) {
+ for (int x = 0; x < kBlockSize; ++x) {
+ EXPECT_NEAR(0, block[y * kBlockSize + x], 1e-5);
+ EXPECT_NEAR((double)(this->data_[y * stride + x]) / normalization,
+ plane[y * kBlockSize + x], 1e-5);
+ }
+ }
+
+ // The plane trend is a constant, and the block is a zero mean checkerboard.
+ aom_flat_block_finder_extract_block(&flat_block_finder,
+ (uint8_t *)&this->data_[0], w, h, stride,
+ kBlockSize, 0, &plane[0], &block[0]);
+ const int mid = 128 << shift;
+ for (int y = 0; y < kBlockSize; ++y) {
+ for (int x = 0; x < kBlockSize; ++x) {
+ EXPECT_NEAR(((double)this->data_[y * stride + x + kBlockSize] - mid) /
+ normalization,
+ block[y * kBlockSize + x], 1e-5);
+ EXPECT_NEAR(mid / normalization, plane[y * kBlockSize + x], 1e-5);
+ }
+ }
+ aom_flat_block_finder_free(&flat_block_finder);
+}
+
+TYPED_TEST_P(FlatBlockEstimatorTest, FindFlatBlocks) {
+ const int kBlockSize = 32;
+ aom_flat_block_finder_t flat_block_finder;
+ ASSERT_EQ(1, aom_flat_block_finder_init(&flat_block_finder, kBlockSize,
+ this->kBitDepth, this->kUseHighBD));
+
+ const int num_blocks_w = 8;
+ const int h = kBlockSize;
+ const int w = kBlockSize * num_blocks_w;
+ const int stride = w;
+ this->data_.resize(h * stride, 128);
+ std::vector<uint8_t> flat_blocks(num_blocks_w, 0);
+
+ const int shift = this->kBitDepth - 8;
+ for (int y = 0; y < kBlockSize; ++y) {
+ for (int x = 0; x < kBlockSize; ++x) {
+ // Block 0 (not flat): constant doesn't have enough variance to qualify
+ this->data_[y * stride + x + 0 * kBlockSize] = 128 << shift;
+
+ // Block 1 (not flat): too high of variance is hard to validate as flat
+ this->data_[y * stride + x + 1 * kBlockSize] =
+ ((uint8_t)(128 + randn(&this->random_, 5))) << shift;
+
+ // Block 2 (flat): slight checkerboard added to constant
+ const int check = (x % 2 + y % 2) % 2 ? -2 : 2;
+ this->data_[y * stride + x + 2 * kBlockSize] = (128 + check) << shift;
+
+ // Block 3 (flat): planar block with checkerboard pattern is also flat
+ this->data_[y * stride + x + 3 * kBlockSize] =
+ (y * 2 - x / 2 + 128 + check) << shift;
+
+ // Block 4 (flat): gaussian random with standard deviation 1.
+ this->data_[y * stride + x + 4 * kBlockSize] =
+ ((uint8_t)(randn(&this->random_, 1) + x + 128.0)) << shift;
+
+ // Block 5 (flat): gaussian random with standard deviation 2.
+ this->data_[y * stride + x + 5 * kBlockSize] =
+ ((uint8_t)(randn(&this->random_, 2) + y + 128.0)) << shift;
+
+ // Block 6 (not flat): too high of directional gradient.
+ const int strong_edge = x > kBlockSize / 2 ? 64 : 0;
+ this->data_[y * stride + x + 6 * kBlockSize] =
+ ((uint8_t)(randn(&this->random_, 1) + strong_edge + 128.0)) << shift;
+
+ // Block 7 (not flat): too high gradient.
+ const int big_check = ((x >> 2) % 2 + (y >> 2) % 2) % 2 ? -16 : 16;
+ this->data_[y * stride + x + 7 * kBlockSize] =
+ ((uint8_t)(randn(&this->random_, 1) + big_check + 128.0)) << shift;
+ }
+ }
+
+ EXPECT_EQ(4, aom_flat_block_finder_run(&flat_block_finder,
+ (uint8_t *)&this->data_[0], w, h,
+ stride, &flat_blocks[0]));
+
+ // First two blocks are not flat
+ EXPECT_EQ(0, flat_blocks[0]);
+ EXPECT_EQ(0, flat_blocks[1]);
+
+ // Next 4 blocks are flat.
+ EXPECT_EQ(255, flat_blocks[2]);
+ EXPECT_EQ(255, flat_blocks[3]);
+ EXPECT_EQ(255, flat_blocks[4]);
+ EXPECT_EQ(255, flat_blocks[5]);
+
+ // Last 2 are not flat by threshold
+ EXPECT_EQ(0, flat_blocks[6]);
+ EXPECT_EQ(0, flat_blocks[7]);
+
+ // Add the noise from non-flat block 1 to every block.
+ for (int y = 0; y < kBlockSize; ++y) {
+ for (int x = 0; x < kBlockSize * num_blocks_w; ++x) {
+ this->data_[y * stride + x] +=
+ (this->data_[y * stride + x % kBlockSize + kBlockSize] -
+ (128 << shift));
+ }
+ }
+ // Now the scored selection will pick the one that is most likely flat (block
+ // 0)
+ EXPECT_EQ(1, aom_flat_block_finder_run(&flat_block_finder,
+ (uint8_t *)&this->data_[0], w, h,
+ stride, &flat_blocks[0]));
+ EXPECT_EQ(1, flat_blocks[0]);
+ EXPECT_EQ(0, flat_blocks[1]);
+ EXPECT_EQ(0, flat_blocks[2]);
+ EXPECT_EQ(0, flat_blocks[3]);
+ EXPECT_EQ(0, flat_blocks[4]);
+ EXPECT_EQ(0, flat_blocks[5]);
+ EXPECT_EQ(0, flat_blocks[6]);
+ EXPECT_EQ(0, flat_blocks[7]);
+
+ aom_flat_block_finder_free(&flat_block_finder);
+}
+
+REGISTER_TYPED_TEST_CASE_P(FlatBlockEstimatorTest, ExtractBlock,
+ FindFlatBlocks);
+
+typedef ::testing::Types<BitDepthParams<uint8_t, 8, false>, // lowbd
+ BitDepthParams<uint16_t, 8, true>, // lowbd in 16-bit
+ BitDepthParams<uint16_t, 10, true>, // highbd data
+ BitDepthParams<uint16_t, 12, true> >
+ AllBitDepthParams;
+INSTANTIATE_TYPED_TEST_CASE_P(FlatBlockInstatiation, FlatBlockEstimatorTest,
+ AllBitDepthParams);
+
+template <typename T>
+class NoiseModelUpdateTest : public ::testing::Test, public T {
+ public:
+ static const int kWidth = 128;
+ static const int kHeight = 128;
+ static const int kBlockSize = 16;
+ static const int kNumBlocksX = kWidth / kBlockSize;
+ static const int kNumBlocksY = kHeight / kBlockSize;
+
+ virtual void SetUp() {
+ const aom_noise_model_params_t params = { AOM_NOISE_SHAPE_SQUARE, 3,
+ T::kBitDepth, T::kUseHighBD };
+ ASSERT_TRUE(aom_noise_model_init(&model_, params));
+
+ random_.Reset(100171);
+
+ data_.resize(kWidth * kHeight * 3);
+ denoised_.resize(kWidth * kHeight * 3);
+ noise_.resize(kWidth * kHeight * 3);
+ renoise_.resize(kWidth * kHeight);
+ flat_blocks_.resize(kNumBlocksX * kNumBlocksY);
+
+ for (int c = 0, offset = 0; c < 3; ++c, offset += kWidth * kHeight) {
+ data_ptr_[c] = &data_[offset];
+ noise_ptr_[c] = &noise_[offset];
+ denoised_ptr_[c] = &denoised_[offset];
+ strides_[c] = kWidth;
+
+ data_ptr_raw_[c] = (uint8_t *)&data_[offset];
+ denoised_ptr_raw_[c] = (uint8_t *)&denoised_[offset];
+ }
+ chroma_sub_[0] = 0;
+ chroma_sub_[1] = 0;
+ }
+
+ int NoiseModelUpdate(int block_size = kBlockSize) {
+ return aom_noise_model_update(&model_, data_ptr_raw_, denoised_ptr_raw_,
+ kWidth, kHeight, strides_, chroma_sub_,
+ &flat_blocks_[0], block_size);
+ }
+
+ void TearDown() { aom_noise_model_free(&model_); }
+
+ protected:
+ aom_noise_model_t model_;
+ std::vector<typename T::data_type_t> data_;
+ std::vector<typename T::data_type_t> denoised_;
+
+ std::vector<double> noise_;
+ std::vector<double> renoise_;
+ std::vector<uint8_t> flat_blocks_;
+
+ typename T::data_type_t *data_ptr_[3];
+ typename T::data_type_t *denoised_ptr_[3];
+
+ double *noise_ptr_[3];
+ int strides_[3];
+ int chroma_sub_[2];
+ libaom_test::ACMRandom random_;
+
+ private:
+ uint8_t *data_ptr_raw_[3];
+ uint8_t *denoised_ptr_raw_[3];
+};
+
+TYPED_TEST_CASE_P(NoiseModelUpdateTest);
+
+TYPED_TEST_P(NoiseModelUpdateTest, UpdateFailsNoFlatBlocks) {
+ EXPECT_EQ(AOM_NOISE_STATUS_INSUFFICIENT_FLAT_BLOCKS,
+ this->NoiseModelUpdate());
+}
+
+TYPED_TEST_P(NoiseModelUpdateTest, UpdateSuccessForZeroNoiseAllFlat) {
+ this->flat_blocks_.assign(this->flat_blocks_.size(), 1);
+ this->denoised_.assign(this->denoised_.size(), 128);
+ this->data_.assign(this->denoised_.size(), 128);
+ EXPECT_EQ(AOM_NOISE_STATUS_INTERNAL_ERROR, this->NoiseModelUpdate());
+}
+
+TYPED_TEST_P(NoiseModelUpdateTest, UpdateFailsBlockSizeTooSmall) {
+ this->flat_blocks_.assign(this->flat_blocks_.size(), 1);
+ this->denoised_.assign(this->denoised_.size(), 128);
+ this->data_.assign(this->denoised_.size(), 128);
+ EXPECT_EQ(AOM_NOISE_STATUS_INVALID_ARGUMENT,
+ this->NoiseModelUpdate(6 /* block_size=6 is too small*/));
+}
+
+TYPED_TEST_P(NoiseModelUpdateTest, UpdateSuccessForWhiteRandomNoise) {
+ aom_noise_model_t &model = this->model_;
+ const int kWidth = this->kWidth;
+ const int kHeight = this->kHeight;
+
+ const int shift = this->kBitDepth - 8;
+ for (int y = 0; y < kHeight; ++y) {
+ for (int x = 0; x < kWidth; ++x) {
+ this->data_ptr_[0][y * kWidth + x] =
+ int(64 + y + randn(&this->random_, 1)) << shift;
+ this->denoised_ptr_[0][y * kWidth + x] = (64 + y) << shift;
+ // Make the chroma planes completely correlated with the Y plane
+ for (int c = 1; c < 3; ++c) {
+ this->data_ptr_[c][y * kWidth + x] = this->data_ptr_[0][y * kWidth + x];
+ this->denoised_ptr_[c][y * kWidth + x] =
+ this->denoised_ptr_[0][y * kWidth + x];
+ }
+ }
+ }
+ this->flat_blocks_.assign(this->flat_blocks_.size(), 1);
+ EXPECT_EQ(AOM_NOISE_STATUS_OK, this->NoiseModelUpdate());
+
+ const double kCoeffEps = 0.075;
+ const int n = model.n;
+ for (int c = 0; c < 3; ++c) {
+ for (int i = 0; i < n; ++i) {
+ EXPECT_NEAR(0, model.latest_state[c].eqns.x[i], kCoeffEps);
+ EXPECT_NEAR(0, model.combined_state[c].eqns.x[i], kCoeffEps);
+ }
+ // The second and third channels are highly correlated with the first.
+ if (c > 0) {
+ ASSERT_EQ(n + 1, model.latest_state[c].eqns.n);
+ ASSERT_EQ(n + 1, model.combined_state[c].eqns.n);
+
+ EXPECT_NEAR(1, model.latest_state[c].eqns.x[n], kCoeffEps);
+ EXPECT_NEAR(1, model.combined_state[c].eqns.x[n], kCoeffEps);
+ }
+ }
+
+ // The fitted noise strength should be close to the standard deviation
+ // for all intensity bins.
+ const double kStdEps = 0.1;
+ const double normalize = 1 << shift;
+
+ for (int i = 0; i < model.latest_state[0].strength_solver.eqns.n; ++i) {
+ EXPECT_NEAR(1.0,
+ model.latest_state[0].strength_solver.eqns.x[i] / normalize,
+ kStdEps);
+ EXPECT_NEAR(1.0,
+ model.combined_state[0].strength_solver.eqns.x[i] / normalize,
+ kStdEps);
+ }
+
+ aom_noise_strength_lut_t lut;
+ aom_noise_strength_solver_fit_piecewise(
+ &model.latest_state[0].strength_solver, -1, &lut);
+ ASSERT_EQ(2, lut.num_points);
+ EXPECT_NEAR(0.0, lut.points[0][0], 1e-5);
+ EXPECT_NEAR(1.0, lut.points[0][1] / normalize, kStdEps);
+ EXPECT_NEAR((1 << this->kBitDepth) - 1, lut.points[1][0], 1e-5);
+ EXPECT_NEAR(1.0, lut.points[1][1] / normalize, kStdEps);
+ aom_noise_strength_lut_free(&lut);
+}
+
+TYPED_TEST_P(NoiseModelUpdateTest, UpdateSuccessForScaledWhiteNoise) {
+ aom_noise_model_t &model = this->model_;
+ const int kWidth = this->kWidth;
+ const int kHeight = this->kHeight;
+
+ const double kCoeffEps = 0.055;
+ const double kLowStd = 1;
+ const double kHighStd = 4;
+ const int shift = this->kBitDepth - 8;
+ for (int y = 0; y < kHeight; ++y) {
+ for (int x = 0; x < kWidth; ++x) {
+ for (int c = 0; c < 3; ++c) {
+ // The image data is bimodal:
+ // Bottom half has low intensity and low noise strength
+ // Top half has high intensity and high noise strength
+ const int avg = (y < kHeight / 2) ? 4 : 245;
+ const double std = (y < kHeight / 2) ? kLowStd : kHighStd;
+ this->data_ptr_[c][y * kWidth + x] =
+ ((uint8_t)std::min((int)255,
+ (int)(2 + avg + randn(&this->random_, std))))
+ << shift;
+ this->denoised_ptr_[c][y * kWidth + x] = (2 + avg) << shift;
+ }
+ }
+ }
+ // Label all blocks as flat for the update
+ this->flat_blocks_.assign(this->flat_blocks_.size(), 1);
+ EXPECT_EQ(AOM_NOISE_STATUS_OK, this->NoiseModelUpdate());
+
+ const int n = model.n;
+ // The noise is uncorrelated spatially and with the y channel.
+ // All coefficients should be reasonably close to zero.
+ for (int c = 0; c < 3; ++c) {
+ for (int i = 0; i < n; ++i) {
+ EXPECT_NEAR(0, model.latest_state[c].eqns.x[i], kCoeffEps);
+ EXPECT_NEAR(0, model.combined_state[c].eqns.x[i], kCoeffEps);
+ }
+ if (c > 0) {
+ ASSERT_EQ(n + 1, model.latest_state[c].eqns.n);
+ ASSERT_EQ(n + 1, model.combined_state[c].eqns.n);
+
+ // The correlation to the y channel should be low (near zero)
+ EXPECT_NEAR(0, model.latest_state[c].eqns.x[n], kCoeffEps);
+ EXPECT_NEAR(0, model.combined_state[c].eqns.x[n], kCoeffEps);
+ }
+ }
+
+ // Noise strength should vary between kLowStd and kHighStd.
+ const double kStdEps = 0.15;
+ // We have to normalize fitted standard deviation based on bit depth.
+ const double normalize = (1 << shift);
+
+ ASSERT_EQ(20, model.latest_state[0].strength_solver.eqns.n);
+ for (int i = 0; i < model.latest_state[0].strength_solver.eqns.n; ++i) {
+ const double a = i / 19.0;
+ const double expected = (kLowStd * (1.0 - a) + kHighStd * a);
+ EXPECT_NEAR(expected,
+ model.latest_state[0].strength_solver.eqns.x[i] / normalize,
+ kStdEps);
+ EXPECT_NEAR(expected,
+ model.combined_state[0].strength_solver.eqns.x[i] / normalize,
+ kStdEps);
+ }
+
+ // If we fit a piecewise linear model, there should be two points:
+ // one near kLowStd at 0, and the other near kHighStd and 255.
+ aom_noise_strength_lut_t lut;
+ aom_noise_strength_solver_fit_piecewise(
+ &model.latest_state[0].strength_solver, 2, &lut);
+ ASSERT_EQ(2, lut.num_points);
+ EXPECT_NEAR(0, lut.points[0][0], 1e-4);
+ EXPECT_NEAR(kLowStd, lut.points[0][1] / normalize, kStdEps);
+ EXPECT_NEAR((1 << this->kBitDepth) - 1, lut.points[1][0], 1e-5);
+ EXPECT_NEAR(kHighStd, lut.points[1][1] / normalize, kStdEps);
+ aom_noise_strength_lut_free(&lut);
+}
+
+TYPED_TEST_P(NoiseModelUpdateTest, UpdateSuccessForCorrelatedNoise) {
+ aom_noise_model_t &model = this->model_;
+ const int kWidth = this->kWidth;
+ const int kHeight = this->kHeight;
+ const int kNumCoeffs = 24;
+ const double kStd = 4;
+ const double kStdEps = 0.3;
+ const double kCoeffEps = 0.065;
+ // Use different coefficients for each channel
+ const double kCoeffs[3][24] = {
+ { 0.02884, -0.03356, 0.00633, 0.01757, 0.02849, -0.04620,
+ 0.02833, -0.07178, 0.07076, -0.11603, -0.10413, -0.16571,
+ 0.05158, -0.07969, 0.02640, -0.07191, 0.02530, 0.41968,
+ 0.21450, -0.00702, -0.01401, -0.03676, -0.08713, 0.44196 },
+ { 0.00269, -0.01291, -0.01513, 0.07234, 0.03208, 0.00477,
+ 0.00226, -0.00254, 0.03533, 0.12841, -0.25970, -0.06336,
+ 0.05238, -0.00845, -0.03118, 0.09043, -0.36558, 0.48903,
+ 0.00595, -0.11938, 0.02106, 0.095956, -0.350139, 0.59305 },
+ { -0.00643, -0.01080, -0.01466, 0.06951, 0.03707, -0.00482,
+ 0.00817, -0.00909, 0.02949, 0.12181, -0.25210, -0.07886,
+ 0.06083, -0.01210, -0.03108, 0.08944, -0.35875, 0.49150,
+ 0.00415, -0.12905, 0.02870, 0.09740, -0.34610, 0.58824 },
+ };
+
+ ASSERT_EQ(model.n, kNumCoeffs);
+ this->chroma_sub_[0] = this->chroma_sub_[1] = 1;
+
+ this->flat_blocks_.assign(this->flat_blocks_.size(), 1);
+
+ // Add different noise onto each plane
+ const int shift = this->kBitDepth - 8;
+ for (int c = 0; c < 3; ++c) {
+ noise_synth(&this->random_, model.params.lag, model.n, model.coords,
+ kCoeffs[c], this->noise_ptr_[c], kWidth, kHeight);
+ const int x_shift = c > 0 ? this->chroma_sub_[0] : 0;
+ const int y_shift = c > 0 ? this->chroma_sub_[1] : 0;
+ for (int y = 0; y < (kHeight >> y_shift); ++y) {
+ for (int x = 0; x < (kWidth >> x_shift); ++x) {
+ const uint8_t value = 64 + x / 2 + y / 4;
+ this->data_ptr_[c][y * kWidth + x] =
+ (uint8_t(value + this->noise_ptr_[c][y * kWidth + x] * kStd))
+ << shift;
+ this->denoised_ptr_[c][y * kWidth + x] = value << shift;
+ }
+ }
+ }
+ EXPECT_EQ(AOM_NOISE_STATUS_OK, this->NoiseModelUpdate());
+
+ // For the Y plane, the solved coefficients should be close to the original
+ const int n = model.n;
+ for (int c = 0; c < 3; ++c) {
+ for (int i = 0; i < n; ++i) {
+ EXPECT_NEAR(kCoeffs[c][i], model.latest_state[c].eqns.x[i], kCoeffEps);
+ EXPECT_NEAR(kCoeffs[c][i], model.combined_state[c].eqns.x[i], kCoeffEps);
+ }
+ // The chroma planes should be uncorrelated with the luma plane
+ if (c > 0) {
+ EXPECT_NEAR(0, model.latest_state[c].eqns.x[n], kCoeffEps);
+ EXPECT_NEAR(0, model.combined_state[c].eqns.x[n], kCoeffEps);
+ }
+ // Correlation between the coefficient vector and the fitted coefficients
+ // should be close to 1.
+ EXPECT_LT(0.98, aom_normalized_cross_correlation(
+ model.latest_state[c].eqns.x, kCoeffs[c], kNumCoeffs));
+
+ noise_synth(&this->random_, model.params.lag, model.n, model.coords,
+ model.latest_state[c].eqns.x, &this->renoise_[0], kWidth,
+ kHeight);
+
+ EXPECT_TRUE(aom_noise_data_validate(&this->renoise_[0], kWidth, kHeight));
+ }
+
+ // Check fitted noise strength
+ const double normalize = 1 << shift;
+ for (int c = 0; c < 3; ++c) {
+ for (int i = 0; i < model.latest_state[c].strength_solver.eqns.n; ++i) {
+ EXPECT_NEAR(kStd,
+ model.latest_state[c].strength_solver.eqns.x[i] / normalize,
+ kStdEps);
+ }
+ }
+}
+
+TYPED_TEST_P(NoiseModelUpdateTest,
+ NoiseStrengthChangeSignalsDifferentNoiseType) {
+ aom_noise_model_t &model = this->model_;
+ const int kWidth = this->kWidth;
+ const int kHeight = this->kHeight;
+ const int kBlockSize = this->kBlockSize;
+ // Create a gradient image with std = 2 uncorrelated noise
+ const double kStd = 2;
+ const int shift = this->kBitDepth - 8;
+
+ for (int i = 0; i < kWidth * kHeight; ++i) {
+ const uint8_t val = (i % kWidth) < kWidth / 2 ? 64 : 192;
+ for (int c = 0; c < 3; ++c) {
+ this->noise_ptr_[c][i] = randn(&this->random_, 1);
+ this->data_ptr_[c][i] = ((uint8_t)(this->noise_ptr_[c][i] * kStd + val))
+ << shift;
+ this->denoised_ptr_[c][i] = val << shift;
+ }
+ }
+ this->flat_blocks_.assign(this->flat_blocks_.size(), 1);
+ EXPECT_EQ(AOM_NOISE_STATUS_OK, this->NoiseModelUpdate());
+
+ const int kNumBlocks = kWidth * kHeight / kBlockSize / kBlockSize;
+ EXPECT_EQ(kNumBlocks, model.latest_state[0].strength_solver.num_equations);
+ EXPECT_EQ(kNumBlocks, model.latest_state[1].strength_solver.num_equations);
+ EXPECT_EQ(kNumBlocks, model.latest_state[2].strength_solver.num_equations);
+ EXPECT_EQ(kNumBlocks, model.combined_state[0].strength_solver.num_equations);
+ EXPECT_EQ(kNumBlocks, model.combined_state[1].strength_solver.num_equations);
+ EXPECT_EQ(kNumBlocks, model.combined_state[2].strength_solver.num_equations);
+
+ // Bump up noise by an insignificant amount
+ for (int i = 0; i < kWidth * kHeight; ++i) {
+ const uint8_t val = (i % kWidth) < kWidth / 2 ? 64 : 192;
+ this->data_ptr_[0][i] =
+ ((uint8_t)(this->noise_ptr_[0][i] * (kStd + 0.085) + val)) << shift;
+ }
+ EXPECT_EQ(AOM_NOISE_STATUS_OK, this->NoiseModelUpdate());
+
+ const double kARGainTolerance = 0.02;
+ for (int c = 0; c < 3; ++c) {
+ EXPECT_EQ(kNumBlocks, model.latest_state[c].strength_solver.num_equations);
+ EXPECT_EQ(15250, model.latest_state[c].num_observations);
+ EXPECT_NEAR(1, model.latest_state[c].ar_gain, kARGainTolerance);
+
+ EXPECT_EQ(2 * kNumBlocks,
+ model.combined_state[c].strength_solver.num_equations);
+ EXPECT_EQ(2 * 15250, model.combined_state[c].num_observations);
+ EXPECT_NEAR(1, model.combined_state[c].ar_gain, kARGainTolerance);
+ }
+
+ // Bump up the noise strength on half the image for one channel by a
+ // significant amount.
+ for (int i = 0; i < kWidth * kHeight; ++i) {
+ const uint8_t val = (i % kWidth) < kWidth / 2 ? 64 : 128;
+ if (i % kWidth < kWidth / 2) {
+ this->data_ptr_[0][i] =
+ ((uint8_t)(randn(&this->random_, kStd + 0.5) + val)) << shift;
+ }
+ }
+ EXPECT_EQ(AOM_NOISE_STATUS_DIFFERENT_NOISE_TYPE, this->NoiseModelUpdate());
+
+ // Since we didn't update the combined state, it should still be at 2 *
+ // num_blocks
+ EXPECT_EQ(kNumBlocks, model.latest_state[0].strength_solver.num_equations);
+ EXPECT_EQ(2 * kNumBlocks,
+ model.combined_state[0].strength_solver.num_equations);
+
+ // In normal operation, the "latest" estimate can be saved to the "combined"
+ // state for continued updates.
+ aom_noise_model_save_latest(&model);
+ for (int c = 0; c < 3; ++c) {
+ EXPECT_EQ(kNumBlocks, model.latest_state[c].strength_solver.num_equations);
+ EXPECT_EQ(15250, model.latest_state[c].num_observations);
+ EXPECT_NEAR(1, model.latest_state[c].ar_gain, kARGainTolerance);
+
+ EXPECT_EQ(kNumBlocks,
+ model.combined_state[c].strength_solver.num_equations);
+ EXPECT_EQ(15250, model.combined_state[c].num_observations);
+ EXPECT_NEAR(1, model.combined_state[c].ar_gain, kARGainTolerance);
+ }
+}
+
+TYPED_TEST_P(NoiseModelUpdateTest, NoiseCoeffsSignalsDifferentNoiseType) {
+ aom_noise_model_t &model = this->model_;
+ const int kWidth = this->kWidth;
+ const int kHeight = this->kHeight;
+ const double kCoeffs[2][24] = {
+ { 0.02884, -0.03356, 0.00633, 0.01757, 0.02849, -0.04620,
+ 0.02833, -0.07178, 0.07076, -0.11603, -0.10413, -0.16571,
+ 0.05158, -0.07969, 0.02640, -0.07191, 0.02530, 0.41968,
+ 0.21450, -0.00702, -0.01401, -0.03676, -0.08713, 0.44196 },
+ { 0.00269, -0.01291, -0.01513, 0.07234, 0.03208, 0.00477,
+ 0.00226, -0.00254, 0.03533, 0.12841, -0.25970, -0.06336,
+ 0.05238, -0.00845, -0.03118, 0.09043, -0.36558, 0.48903,
+ 0.00595, -0.11938, 0.02106, 0.095956, -0.350139, 0.59305 }
+ };
+
+ noise_synth(&this->random_, model.params.lag, model.n, model.coords,
+ kCoeffs[0], this->noise_ptr_[0], kWidth, kHeight);
+ for (int i = 0; i < kWidth * kHeight; ++i) {
+ this->data_ptr_[0][i] = (uint8_t)(128 + this->noise_ptr_[0][i]);
+ }
+ this->flat_blocks_.assign(this->flat_blocks_.size(), 1);
+ EXPECT_EQ(AOM_NOISE_STATUS_OK, this->NoiseModelUpdate());
+
+ // Now try with the second set of AR coefficients
+ noise_synth(&this->random_, model.params.lag, model.n, model.coords,
+ kCoeffs[1], this->noise_ptr_[0], kWidth, kHeight);
+ for (int i = 0; i < kWidth * kHeight; ++i) {
+ this->data_ptr_[0][i] = (uint8_t)(128 + this->noise_ptr_[0][i]);
+ }
+ EXPECT_EQ(AOM_NOISE_STATUS_DIFFERENT_NOISE_TYPE, this->NoiseModelUpdate());
+}
+REGISTER_TYPED_TEST_CASE_P(NoiseModelUpdateTest, UpdateFailsNoFlatBlocks,
+ UpdateSuccessForZeroNoiseAllFlat,
+ UpdateFailsBlockSizeTooSmall,
+ UpdateSuccessForWhiteRandomNoise,
+ UpdateSuccessForScaledWhiteNoise,
+ UpdateSuccessForCorrelatedNoise,
+ NoiseStrengthChangeSignalsDifferentNoiseType,
+ NoiseCoeffsSignalsDifferentNoiseType);
+
+INSTANTIATE_TYPED_TEST_CASE_P(NoiseModelUpdateTestInstatiation,
+ NoiseModelUpdateTest, AllBitDepthParams);
+
+TEST(NoiseModelGetGrainParameters, TestLagSize) {
+ aom_film_grain_t film_grain;
+ for (int lag = 1; lag <= 3; ++lag) {
+ aom_noise_model_params_t params = { AOM_NOISE_SHAPE_SQUARE, lag, 8, 0 };
+ aom_noise_model_t model;
+ EXPECT_TRUE(aom_noise_model_init(&model, params));
+ EXPECT_TRUE(aom_noise_model_get_grain_parameters(&model, &film_grain));
+ EXPECT_EQ(lag, film_grain.ar_coeff_lag);
+ aom_noise_model_free(&model);
+ }
+
+ aom_noise_model_params_t params = { AOM_NOISE_SHAPE_SQUARE, 4, 8, 0 };
+ aom_noise_model_t model;
+ EXPECT_TRUE(aom_noise_model_init(&model, params));
+ EXPECT_FALSE(aom_noise_model_get_grain_parameters(&model, &film_grain));
+ aom_noise_model_free(&model);
+}
+
+TEST(NoiseModelGetGrainParameters, TestARCoeffShiftBounds) {
+ struct TestCase {
+ double max_input_value;
+ int expected_ar_coeff_shift;
+ int expected_value;
+ };
+ const int lag = 1;
+ const int kNumTestCases = 19;
+ const TestCase test_cases[] = {
+ // Test cases for ar_coeff_shift = 9
+ { 0, 9, 0 },
+ { 0.125, 9, 64 },
+ { -0.125, 9, -64 },
+ { 0.2499, 9, 127 },
+ { -0.25, 9, -128 },
+ // Test cases for ar_coeff_shift = 8
+ { 0.25, 8, 64 },
+ { -0.2501, 8, -64 },
+ { 0.499, 8, 127 },
+ { -0.5, 8, -128 },
+ // Test cases for ar_coeff_shift = 7
+ { 0.5, 7, 64 },
+ { -0.5001, 7, -64 },
+ { 0.999, 7, 127 },
+ { -1, 7, -128 },
+ // Test cases for ar_coeff_shift = 6
+ { 1.0, 6, 64 },
+ { -1.0001, 6, -64 },
+ { 2.0, 6, 127 },
+ { -2.0, 6, -128 },
+ { 4, 6, 127 },
+ { -4, 6, -128 },
+ };
+ aom_noise_model_params_t params = { AOM_NOISE_SHAPE_SQUARE, lag, 8, 0 };
+ aom_noise_model_t model;
+ EXPECT_TRUE(aom_noise_model_init(&model, params));
+
+ for (int i = 0; i < kNumTestCases; ++i) {
+ const TestCase &test_case = test_cases[i];
+ model.combined_state[0].eqns.x[0] = test_case.max_input_value;
+
+ aom_film_grain_t film_grain;
+ EXPECT_TRUE(aom_noise_model_get_grain_parameters(&model, &film_grain));
+ EXPECT_EQ(1, film_grain.ar_coeff_lag);
+ EXPECT_EQ(test_case.expected_ar_coeff_shift, film_grain.ar_coeff_shift);
+ EXPECT_EQ(test_case.expected_value, film_grain.ar_coeffs_y[0]);
+ }
+ aom_noise_model_free(&model);
+}
+
+TEST(NoiseModelGetGrainParameters, TestNoiseStrengthShiftBounds) {
+ struct TestCase {
+ double max_input_value;
+ int expected_scaling_shift;
+ int expected_value;
+ };
+ const int kNumTestCases = 10;
+ const TestCase test_cases[] = {
+ { 0, 11, 0 }, { 1, 11, 64 }, { 2, 11, 128 }, { 3.99, 11, 255 },
+ { 4, 10, 128 }, { 7.99, 10, 255 }, { 8, 9, 128 }, { 16, 8, 128 },
+ { 31.99, 8, 255 }, { 64, 8, 255 }, // clipped
+ };
+ const int lag = 1;
+ aom_noise_model_params_t params = { AOM_NOISE_SHAPE_SQUARE, lag, 8, 0 };
+ aom_noise_model_t model;
+ EXPECT_TRUE(aom_noise_model_init(&model, params));
+
+ for (int i = 0; i < kNumTestCases; ++i) {
+ const TestCase &test_case = test_cases[i];
+ aom_equation_system_t &eqns = model.combined_state[0].strength_solver.eqns;
+ // Set the fitted scale parameters to be a constant value.
+ for (int j = 0; j < eqns.n; ++j) {
+ eqns.x[j] = test_case.max_input_value;
+ }
+ aom_film_grain_t film_grain;
+ EXPECT_TRUE(aom_noise_model_get_grain_parameters(&model, &film_grain));
+ // We expect a single constant segemnt
+ EXPECT_EQ(test_case.expected_scaling_shift, film_grain.scaling_shift);
+ EXPECT_EQ(test_case.expected_value, film_grain.scaling_points_y[0][1]);
+ EXPECT_EQ(test_case.expected_value, film_grain.scaling_points_y[1][1]);
+ }
+ aom_noise_model_free(&model);
+}
+
+// The AR coefficients are the same inputs used to generate "Test 2" in the test
+// vectors
+TEST(NoiseModelGetGrainParameters, GetGrainParametersReal) {
+ const double kInputCoeffsY[] = { 0.0315, 0.0073, 0.0218, 0.00235, 0.00511,
+ -0.0222, 0.0627, -0.022, 0.05575, -0.1816,
+ 0.0107, -0.1966, 0.00065, -0.0809, 0.04934,
+ -0.1349, -0.0352, 0.41772, 0.27973, 0.04207,
+ -0.0429, -0.1372, 0.06193, 0.52032 };
+ const double kInputCoeffsCB[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
+ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0.5 };
+ const double kInputCoeffsCR[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
+ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, -0.5 };
+ const int kExpectedARCoeffsY[] = { 4, 1, 3, 0, 1, -3, 8, -3,
+ 7, -23, 1, -25, 0, -10, 6, -17,
+ -5, 53, 36, 5, -5, -18, 8, 67 };
+ const int kExpectedARCoeffsCB[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
+ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 84 };
+ const int kExpectedARCoeffsCR[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
+ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, -126 };
+ // Scaling function is initialized analytically with a sqrt function.
+ const int kNumScalingPointsY = 12;
+ const int kExpectedScalingPointsY[][2] = {
+ { 0, 0 }, { 13, 44 }, { 27, 62 }, { 40, 76 },
+ { 54, 88 }, { 67, 98 }, { 94, 117 }, { 121, 132 },
+ { 148, 146 }, { 174, 159 }, { 201, 171 }, { 255, 192 },
+ };
+
+ const int lag = 3;
+ aom_noise_model_params_t params = { AOM_NOISE_SHAPE_SQUARE, lag, 8, 0 };
+ aom_noise_model_t model;
+ EXPECT_TRUE(aom_noise_model_init(&model, params));
+
+ // Setup the AR coeffs
+ memcpy(model.combined_state[0].eqns.x, kInputCoeffsY, sizeof(kInputCoeffsY));
+ memcpy(model.combined_state[1].eqns.x, kInputCoeffsCB,
+ sizeof(kInputCoeffsCB));
+ memcpy(model.combined_state[2].eqns.x, kInputCoeffsCR,
+ sizeof(kInputCoeffsCR));
+ for (int i = 0; i < model.combined_state[0].strength_solver.num_bins; ++i) {
+ const double x =
+ ((double)i) / (model.combined_state[0].strength_solver.num_bins - 1.0);
+ model.combined_state[0].strength_solver.eqns.x[i] = 6 * sqrt(x);
+ model.combined_state[1].strength_solver.eqns.x[i] = 3;
+ model.combined_state[2].strength_solver.eqns.x[i] = 2;
+
+ // Inject some observations into the strength solver, as during film grain
+ // parameter extraction an estimate of the average strength will be used to
+ // adjust correlation.
+ const int n = model.combined_state[0].strength_solver.num_bins;
+ for (int j = 0; j < model.combined_state[0].strength_solver.num_bins; ++j) {
+ model.combined_state[0].strength_solver.eqns.A[i * n + j] = 1;
+ model.combined_state[1].strength_solver.eqns.A[i * n + j] = 1;
+ model.combined_state[2].strength_solver.eqns.A[i * n + j] = 1;
+ }
+ }
+
+ aom_film_grain_t film_grain;
+ EXPECT_TRUE(aom_noise_model_get_grain_parameters(&model, &film_grain));
+ EXPECT_EQ(lag, film_grain.ar_coeff_lag);
+ EXPECT_EQ(3, film_grain.ar_coeff_lag);
+ EXPECT_EQ(7, film_grain.ar_coeff_shift);
+ EXPECT_EQ(10, film_grain.scaling_shift);
+ EXPECT_EQ(kNumScalingPointsY, film_grain.num_y_points);
+ EXPECT_EQ(1, film_grain.update_parameters);
+ EXPECT_EQ(1, film_grain.apply_grain);
+
+ const int kNumARCoeffs = 24;
+ for (int i = 0; i < kNumARCoeffs; ++i) {
+ EXPECT_EQ(kExpectedARCoeffsY[i], film_grain.ar_coeffs_y[i]);
+ }
+ for (int i = 0; i < kNumARCoeffs + 1; ++i) {
+ EXPECT_EQ(kExpectedARCoeffsCB[i], film_grain.ar_coeffs_cb[i]);
+ }
+ for (int i = 0; i < kNumARCoeffs + 1; ++i) {
+ EXPECT_EQ(kExpectedARCoeffsCR[i], film_grain.ar_coeffs_cr[i]);
+ }
+ for (int i = 0; i < kNumScalingPointsY; ++i) {
+ EXPECT_EQ(kExpectedScalingPointsY[i][0], film_grain.scaling_points_y[i][0]);
+ EXPECT_EQ(kExpectedScalingPointsY[i][1], film_grain.scaling_points_y[i][1]);
+ }
+
+ // CB strength should just be a piecewise segment
+ EXPECT_EQ(2, film_grain.num_cb_points);
+ EXPECT_EQ(0, film_grain.scaling_points_cb[0][0]);
+ EXPECT_EQ(255, film_grain.scaling_points_cb[1][0]);
+ EXPECT_EQ(96, film_grain.scaling_points_cb[0][1]);
+ EXPECT_EQ(96, film_grain.scaling_points_cb[1][1]);
+
+ // CR strength should just be a piecewise segment
+ EXPECT_EQ(2, film_grain.num_cr_points);
+ EXPECT_EQ(0, film_grain.scaling_points_cr[0][0]);
+ EXPECT_EQ(255, film_grain.scaling_points_cr[1][0]);
+ EXPECT_EQ(64, film_grain.scaling_points_cr[0][1]);
+ EXPECT_EQ(64, film_grain.scaling_points_cr[1][1]);
+
+ EXPECT_EQ(128, film_grain.cb_mult);
+ EXPECT_EQ(192, film_grain.cb_luma_mult);
+ EXPECT_EQ(256, film_grain.cb_offset);
+ EXPECT_EQ(128, film_grain.cr_mult);
+ EXPECT_EQ(192, film_grain.cr_luma_mult);
+ EXPECT_EQ(256, film_grain.cr_offset);
+ EXPECT_EQ(0, film_grain.chroma_scaling_from_luma);
+ EXPECT_EQ(0, film_grain.grain_scale_shift);
+
+ aom_noise_model_free(&model);
+}
+
+template <typename T>
+class WienerDenoiseTest : public ::testing::Test, public T {
+ public:
+ static void SetUpTestCase() { aom_dsp_rtcd(); }
+
+ protected:
+ void SetUp() {
+ static const float kNoiseLevel = 5.f;
+ static const float kStd = 4.0;
+ static const double kMaxValue = (1 << T::kBitDepth) - 1;
+
+ chroma_sub_[0] = 1;
+ chroma_sub_[1] = 1;
+ stride_[0] = kWidth;
+ stride_[1] = kWidth / 2;
+ stride_[2] = kWidth / 2;
+ for (int k = 0; k < 3; ++k) {
+ data_[k].resize(kWidth * kHeight);
+ denoised_[k].resize(kWidth * kHeight);
+ noise_psd_[k].resize(kBlockSize * kBlockSize);
+ }
+
+ const double kCoeffsY[] = { 0.0406, -0.116, -0.078, -0.152, 0.0033, -0.093,
+ 0.048, 0.404, 0.2353, -0.035, -0.093, 0.441 };
+ const int kCoords[12][2] = {
+ { -2, -2 }, { -1, -2 }, { 0, -2 }, { 1, -2 }, { 2, -2 }, { -2, -1 },
+ { -1, -1 }, { 0, -1 }, { 1, -1 }, { 2, -1 }, { -2, 0 }, { -1, 0 }
+ };
+ const int kLag = 2;
+ const int kLength = 12;
+ libaom_test::ACMRandom random;
+ std::vector<double> noise(kWidth * kHeight);
+ noise_synth(&random, kLag, kLength, kCoords, kCoeffsY, &noise[0], kWidth,
+ kHeight);
+ noise_psd_[0] = get_noise_psd(&noise[0], kWidth, kHeight, kBlockSize);
+ for (int i = 0; i < kBlockSize * kBlockSize; ++i) {
+ noise_psd_[0][i] = (float)(noise_psd_[0][i] * kStd * kStd * kScaleNoise *
+ kScaleNoise / (kMaxValue * kMaxValue));
+ }
+
+ float psd_value =
+ aom_noise_psd_get_default_value(kBlockSizeChroma, kNoiseLevel);
+ for (int i = 0; i < kBlockSizeChroma * kBlockSizeChroma; ++i) {
+ noise_psd_[1][i] = psd_value;
+ noise_psd_[2][i] = psd_value;
+ }
+ for (int y = 0; y < kHeight; ++y) {
+ for (int x = 0; x < kWidth; ++x) {
+ data_[0][y * stride_[0] + x] = (typename T::data_type_t)fclamp(
+ (x + noise[y * stride_[0] + x] * kStd) * kScaleNoise, 0, kMaxValue);
+ }
+ }
+
+ for (int c = 1; c < 3; ++c) {
+ for (int y = 0; y < (kHeight >> 1); ++y) {
+ for (int x = 0; x < (kWidth >> 1); ++x) {
+ data_[c][y * stride_[c] + x] = (typename T::data_type_t)fclamp(
+ (x + randn(&random, kStd)) * kScaleNoise, 0, kMaxValue);
+ }
+ }
+ }
+ for (int k = 0; k < 3; ++k) {
+ noise_psd_ptrs_[k] = &noise_psd_[k][0];
+ }
+ }
+ static const int kBlockSize = 32;
+ static const int kBlockSizeChroma = 16;
+ static const int kWidth = 256;
+ static const int kHeight = 256;
+ static const int kScaleNoise = 1 << (T::kBitDepth - 8);
+
+ std::vector<typename T::data_type_t> data_[3];
+ std::vector<typename T::data_type_t> denoised_[3];
+ std::vector<float> noise_psd_[3];
+ int chroma_sub_[2];
+ float *noise_psd_ptrs_[3];
+ int stride_[3];
+};
+
+TYPED_TEST_CASE_P(WienerDenoiseTest);
+
+TYPED_TEST_P(WienerDenoiseTest, InvalidBlockSize) {
+ const uint8_t *const data_ptrs[3] = {
+ reinterpret_cast<uint8_t *>(&this->data_[0][0]),
+ reinterpret_cast<uint8_t *>(&this->data_[1][0]),
+ reinterpret_cast<uint8_t *>(&this->data_[2][0]),
+ };
+ uint8_t *denoised_ptrs[3] = {
+ reinterpret_cast<uint8_t *>(&this->denoised_[0][0]),
+ reinterpret_cast<uint8_t *>(&this->denoised_[1][0]),
+ reinterpret_cast<uint8_t *>(&this->denoised_[2][0]),
+ };
+ EXPECT_EQ(0, aom_wiener_denoise_2d(data_ptrs, denoised_ptrs, this->kWidth,
+ this->kHeight, this->stride_,
+ this->chroma_sub_, this->noise_psd_ptrs_,
+ 18, this->kBitDepth, this->kUseHighBD));
+ EXPECT_EQ(0, aom_wiener_denoise_2d(data_ptrs, denoised_ptrs, this->kWidth,
+ this->kHeight, this->stride_,
+ this->chroma_sub_, this->noise_psd_ptrs_,
+ 48, this->kBitDepth, this->kUseHighBD));
+ EXPECT_EQ(0, aom_wiener_denoise_2d(data_ptrs, denoised_ptrs, this->kWidth,
+ this->kHeight, this->stride_,
+ this->chroma_sub_, this->noise_psd_ptrs_,
+ 64, this->kBitDepth, this->kUseHighBD));
+}
+
+TYPED_TEST_P(WienerDenoiseTest, InvalidChromaSubsampling) {
+ const uint8_t *const data_ptrs[3] = {
+ reinterpret_cast<uint8_t *>(&this->data_[0][0]),
+ reinterpret_cast<uint8_t *>(&this->data_[1][0]),
+ reinterpret_cast<uint8_t *>(&this->data_[2][0]),
+ };
+ uint8_t *denoised_ptrs[3] = {
+ reinterpret_cast<uint8_t *>(&this->denoised_[0][0]),
+ reinterpret_cast<uint8_t *>(&this->denoised_[1][0]),
+ reinterpret_cast<uint8_t *>(&this->denoised_[2][0]),
+ };
+ int chroma_sub[2] = { 1, 0 };
+ EXPECT_EQ(0, aom_wiener_denoise_2d(data_ptrs, denoised_ptrs, this->kWidth,
+ this->kHeight, this->stride_, chroma_sub,
+ this->noise_psd_ptrs_, 32, this->kBitDepth,
+ this->kUseHighBD));
+
+ chroma_sub[0] = 0;
+ chroma_sub[1] = 1;
+ EXPECT_EQ(0, aom_wiener_denoise_2d(data_ptrs, denoised_ptrs, this->kWidth,
+ this->kHeight, this->stride_, chroma_sub,
+ this->noise_psd_ptrs_, 32, this->kBitDepth,
+ this->kUseHighBD));
+}
+
+TYPED_TEST_P(WienerDenoiseTest, GradientTest) {
+ const int kWidth = this->kWidth;
+ const int kHeight = this->kHeight;
+ const int kBlockSize = this->kBlockSize;
+ const uint8_t *const data_ptrs[3] = {
+ reinterpret_cast<uint8_t *>(&this->data_[0][0]),
+ reinterpret_cast<uint8_t *>(&this->data_[1][0]),
+ reinterpret_cast<uint8_t *>(&this->data_[2][0]),
+ };
+ uint8_t *denoised_ptrs[3] = {
+ reinterpret_cast<uint8_t *>(&this->denoised_[0][0]),
+ reinterpret_cast<uint8_t *>(&this->denoised_[1][0]),
+ reinterpret_cast<uint8_t *>(&this->denoised_[2][0]),
+ };
+ const int ret = aom_wiener_denoise_2d(
+ data_ptrs, denoised_ptrs, kWidth, kHeight, this->stride_,
+ this->chroma_sub_, this->noise_psd_ptrs_, this->kBlockSize,
+ this->kBitDepth, this->kUseHighBD);
+ EXPECT_EQ(1, ret);
+
+ // Check the noise on the denoised image (from the analytical gradient)
+ // and make sure that it is less than what we added.
+ for (int c = 0; c < 3; ++c) {
+ std::vector<double> measured_noise(kWidth * kHeight);
+
+ double var = 0;
+ const int shift = (c > 0);
+ for (int x = 0; x < (kWidth >> shift); ++x) {
+ for (int y = 0; y < (kHeight >> shift); ++y) {
+ const double diff = this->denoised_[c][y * this->stride_[c] + x] -
+ x * this->kScaleNoise;
+ var += diff * diff;
+ measured_noise[y * kWidth + x] = diff;
+ }
+ }
+ var /= (kWidth * kHeight);
+ const double std = sqrt(std::max(0.0, var));
+ EXPECT_LE(std, 1.25f * this->kScaleNoise);
+ if (c == 0) {
+ std::vector<float> measured_psd =
+ get_noise_psd(&measured_noise[0], kWidth, kHeight, kBlockSize);
+ std::vector<double> measured_psd_d(kBlockSize * kBlockSize);
+ std::vector<double> noise_psd_d(kBlockSize * kBlockSize);
+ std::copy(measured_psd.begin(), measured_psd.end(),
+ measured_psd_d.begin());
+ std::copy(this->noise_psd_[0].begin(), this->noise_psd_[0].end(),
+ noise_psd_d.begin());
+ EXPECT_LT(
+ aom_normalized_cross_correlation(&measured_psd_d[0], &noise_psd_d[0],
+ (int)(noise_psd_d.size())),
+ 0.35);
+ }
+ }
+}
+
+REGISTER_TYPED_TEST_CASE_P(WienerDenoiseTest, InvalidBlockSize,
+ InvalidChromaSubsampling, GradientTest);
+
+INSTANTIATE_TYPED_TEST_CASE_P(WienerDenoiseTestInstatiation, WienerDenoiseTest,
+ AllBitDepthParams);
diff --git a/third_party/aom/test/obmc_sad_test.cc b/third_party/aom/test/obmc_sad_test.cc
new file mode 100644
index 0000000000..6cef869618
--- /dev/null
+++ b/third_party/aom/test/obmc_sad_test.cc
@@ -0,0 +1,237 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "test/function_equivalence_test.h"
+#include "test/register_state_check.h"
+
+#include "config/aom_config.h"
+#include "config/aom_dsp_rtcd.h"
+
+#include "aom/aom_integer.h"
+
+#define MAX_SB_SQUARE (MAX_SB_SIZE * MAX_SB_SIZE)
+
+using libaom_test::FunctionEquivalenceTest;
+
+namespace {
+
+static const int kIterations = 1000;
+static const int kMaskMax = 64;
+
+typedef unsigned int (*ObmcSadF)(const uint8_t *pre, int pre_stride,
+ const int32_t *wsrc, const int32_t *mask);
+typedef libaom_test::FuncParam<ObmcSadF> TestFuncs;
+
+////////////////////////////////////////////////////////////////////////////////
+// 8 bit
+////////////////////////////////////////////////////////////////////////////////
+
+class ObmcSadTest : public FunctionEquivalenceTest<ObmcSadF> {};
+
+TEST_P(ObmcSadTest, RandomValues) {
+ DECLARE_ALIGNED(32, uint8_t, pre[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int32_t, wsrc[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int32_t, mask[MAX_SB_SQUARE]);
+
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ const int pre_stride = rng_(MAX_SB_SIZE + 1);
+
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) {
+ pre[i] = rng_.Rand8();
+ wsrc[i] = rng_.Rand8() * rng_(kMaskMax * kMaskMax + 1);
+ mask[i] = rng_(kMaskMax * kMaskMax + 1);
+ }
+
+ const unsigned int ref_res = params_.ref_func(pre, pre_stride, wsrc, mask);
+ unsigned int tst_res;
+ ASM_REGISTER_STATE_CHECK(tst_res =
+ params_.tst_func(pre, pre_stride, wsrc, mask));
+
+ ASSERT_EQ(ref_res, tst_res);
+ }
+}
+
+TEST_P(ObmcSadTest, ExtremeValues) {
+ DECLARE_ALIGNED(32, uint8_t, pre[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int32_t, wsrc[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int32_t, mask[MAX_SB_SQUARE]);
+
+ for (int iter = 0; iter < MAX_SB_SIZE && !HasFatalFailure(); ++iter) {
+ const int pre_stride = iter;
+
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) {
+ pre[i] = UINT8_MAX;
+ wsrc[i] = UINT8_MAX * kMaskMax * kMaskMax;
+ mask[i] = kMaskMax * kMaskMax;
+ }
+
+ const unsigned int ref_res = params_.ref_func(pre, pre_stride, wsrc, mask);
+ unsigned int tst_res;
+ ASM_REGISTER_STATE_CHECK(tst_res =
+ params_.tst_func(pre, pre_stride, wsrc, mask));
+
+ ASSERT_EQ(ref_res, tst_res);
+ }
+}
+
+#if HAVE_SSE4_1
+const ObmcSadTest::ParamType sse4_functions[] = {
+ TestFuncs(aom_obmc_sad128x128_c, aom_obmc_sad128x128_sse4_1),
+ TestFuncs(aom_obmc_sad128x64_c, aom_obmc_sad128x64_sse4_1),
+ TestFuncs(aom_obmc_sad64x128_c, aom_obmc_sad64x128_sse4_1),
+ TestFuncs(aom_obmc_sad64x64_c, aom_obmc_sad64x64_sse4_1),
+ TestFuncs(aom_obmc_sad64x32_c, aom_obmc_sad64x32_sse4_1),
+ TestFuncs(aom_obmc_sad32x64_c, aom_obmc_sad32x64_sse4_1),
+ TestFuncs(aom_obmc_sad32x32_c, aom_obmc_sad32x32_sse4_1),
+ TestFuncs(aom_obmc_sad32x16_c, aom_obmc_sad32x16_sse4_1),
+ TestFuncs(aom_obmc_sad16x32_c, aom_obmc_sad16x32_sse4_1),
+ TestFuncs(aom_obmc_sad16x16_c, aom_obmc_sad16x16_sse4_1),
+ TestFuncs(aom_obmc_sad16x8_c, aom_obmc_sad16x8_sse4_1),
+ TestFuncs(aom_obmc_sad8x16_c, aom_obmc_sad8x16_sse4_1),
+ TestFuncs(aom_obmc_sad8x8_c, aom_obmc_sad8x8_sse4_1),
+ TestFuncs(aom_obmc_sad8x4_c, aom_obmc_sad8x4_sse4_1),
+ TestFuncs(aom_obmc_sad4x8_c, aom_obmc_sad4x8_sse4_1),
+ TestFuncs(aom_obmc_sad4x4_c, aom_obmc_sad4x4_sse4_1)
+};
+
+INSTANTIATE_TEST_CASE_P(SSE4_1, ObmcSadTest,
+ ::testing::ValuesIn(sse4_functions));
+#endif // HAVE_SSE4_1
+
+#if HAVE_AVX2
+const ObmcSadTest::ParamType avx2_functions[] = {
+ TestFuncs(aom_obmc_sad128x128_c, aom_obmc_sad128x128_avx2),
+ TestFuncs(aom_obmc_sad128x64_c, aom_obmc_sad128x64_avx2),
+ TestFuncs(aom_obmc_sad64x128_c, aom_obmc_sad64x128_avx2),
+ TestFuncs(aom_obmc_sad64x64_c, aom_obmc_sad64x64_avx2),
+ TestFuncs(aom_obmc_sad64x32_c, aom_obmc_sad64x32_avx2),
+ TestFuncs(aom_obmc_sad32x64_c, aom_obmc_sad32x64_avx2),
+ TestFuncs(aom_obmc_sad32x32_c, aom_obmc_sad32x32_avx2),
+ TestFuncs(aom_obmc_sad32x16_c, aom_obmc_sad32x16_avx2),
+ TestFuncs(aom_obmc_sad16x32_c, aom_obmc_sad16x32_avx2),
+ TestFuncs(aom_obmc_sad16x16_c, aom_obmc_sad16x16_avx2),
+ TestFuncs(aom_obmc_sad16x8_c, aom_obmc_sad16x8_avx2),
+ TestFuncs(aom_obmc_sad8x16_c, aom_obmc_sad8x16_avx2),
+ TestFuncs(aom_obmc_sad8x8_c, aom_obmc_sad8x8_avx2),
+ TestFuncs(aom_obmc_sad8x4_c, aom_obmc_sad8x4_avx2),
+ TestFuncs(aom_obmc_sad4x8_c, aom_obmc_sad4x8_avx2),
+ TestFuncs(aom_obmc_sad4x4_c, aom_obmc_sad4x4_avx2)
+};
+
+INSTANTIATE_TEST_CASE_P(AVX2, ObmcSadTest, ::testing::ValuesIn(avx2_functions));
+#endif // HAVE_AVX2
+
+////////////////////////////////////////////////////////////////////////////////
+// High bit-depth
+////////////////////////////////////////////////////////////////////////////////
+
+class ObmcSadHBDTest : public FunctionEquivalenceTest<ObmcSadF> {};
+
+TEST_P(ObmcSadHBDTest, RandomValues) {
+ DECLARE_ALIGNED(32, uint16_t, pre[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int32_t, wsrc[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int32_t, mask[MAX_SB_SQUARE]);
+
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ const int pre_stride = rng_(MAX_SB_SIZE + 1);
+
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) {
+ pre[i] = rng_(1 << 12);
+ wsrc[i] = rng_(1 << 12) * rng_(kMaskMax * kMaskMax + 1);
+ mask[i] = rng_(kMaskMax * kMaskMax + 1);
+ }
+
+ const unsigned int ref_res =
+ params_.ref_func(CONVERT_TO_BYTEPTR(pre), pre_stride, wsrc, mask);
+ unsigned int tst_res;
+ ASM_REGISTER_STATE_CHECK(
+ tst_res =
+ params_.tst_func(CONVERT_TO_BYTEPTR(pre), pre_stride, wsrc, mask));
+
+ ASSERT_EQ(ref_res, tst_res);
+ }
+}
+
+TEST_P(ObmcSadHBDTest, ExtremeValues) {
+ DECLARE_ALIGNED(32, uint16_t, pre[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int32_t, wsrc[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int32_t, mask[MAX_SB_SQUARE]);
+
+ for (int iter = 0; iter < MAX_SB_SIZE && !HasFatalFailure(); ++iter) {
+ const int pre_stride = iter;
+
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) {
+ pre[i] = (1 << 12) - 1;
+ wsrc[i] = ((1 << 12) - 1) * kMaskMax * kMaskMax;
+ mask[i] = kMaskMax * kMaskMax;
+ }
+
+ const unsigned int ref_res =
+ params_.ref_func(CONVERT_TO_BYTEPTR(pre), pre_stride, wsrc, mask);
+ unsigned int tst_res;
+ ASM_REGISTER_STATE_CHECK(
+ tst_res =
+ params_.tst_func(CONVERT_TO_BYTEPTR(pre), pre_stride, wsrc, mask));
+
+ ASSERT_EQ(ref_res, tst_res);
+ }
+}
+
+#if HAVE_SSE4_1
+ObmcSadHBDTest::ParamType sse4_functions_hbd[] = {
+ TestFuncs(aom_highbd_obmc_sad128x128_c, aom_highbd_obmc_sad128x128_sse4_1),
+ TestFuncs(aom_highbd_obmc_sad128x64_c, aom_highbd_obmc_sad128x64_sse4_1),
+ TestFuncs(aom_highbd_obmc_sad64x128_c, aom_highbd_obmc_sad64x128_sse4_1),
+ TestFuncs(aom_highbd_obmc_sad64x64_c, aom_highbd_obmc_sad64x64_sse4_1),
+ TestFuncs(aom_highbd_obmc_sad64x32_c, aom_highbd_obmc_sad64x32_sse4_1),
+ TestFuncs(aom_highbd_obmc_sad32x64_c, aom_highbd_obmc_sad32x64_sse4_1),
+ TestFuncs(aom_highbd_obmc_sad32x32_c, aom_highbd_obmc_sad32x32_sse4_1),
+ TestFuncs(aom_highbd_obmc_sad32x16_c, aom_highbd_obmc_sad32x16_sse4_1),
+ TestFuncs(aom_highbd_obmc_sad16x32_c, aom_highbd_obmc_sad16x32_sse4_1),
+ TestFuncs(aom_highbd_obmc_sad16x16_c, aom_highbd_obmc_sad16x16_sse4_1),
+ TestFuncs(aom_highbd_obmc_sad16x8_c, aom_highbd_obmc_sad16x8_sse4_1),
+ TestFuncs(aom_highbd_obmc_sad8x16_c, aom_highbd_obmc_sad8x16_sse4_1),
+ TestFuncs(aom_highbd_obmc_sad8x8_c, aom_highbd_obmc_sad8x8_sse4_1),
+ TestFuncs(aom_highbd_obmc_sad8x4_c, aom_highbd_obmc_sad8x4_sse4_1),
+ TestFuncs(aom_highbd_obmc_sad4x8_c, aom_highbd_obmc_sad4x8_sse4_1),
+ TestFuncs(aom_highbd_obmc_sad4x4_c, aom_highbd_obmc_sad4x4_sse4_1)
+};
+
+INSTANTIATE_TEST_CASE_P(SSE4_1, ObmcSadHBDTest,
+ ::testing::ValuesIn(sse4_functions_hbd));
+#endif // HAVE_SSE4_1
+
+#if HAVE_AVX2
+ObmcSadHBDTest::ParamType avx2_functions_hbd[] = {
+ TestFuncs(aom_highbd_obmc_sad128x128_c, aom_highbd_obmc_sad128x128_avx2),
+ TestFuncs(aom_highbd_obmc_sad128x64_c, aom_highbd_obmc_sad128x64_avx2),
+ TestFuncs(aom_highbd_obmc_sad64x128_c, aom_highbd_obmc_sad64x128_avx2),
+ TestFuncs(aom_highbd_obmc_sad64x64_c, aom_highbd_obmc_sad64x64_avx2),
+ TestFuncs(aom_highbd_obmc_sad64x32_c, aom_highbd_obmc_sad64x32_avx2),
+ TestFuncs(aom_highbd_obmc_sad32x64_c, aom_highbd_obmc_sad32x64_avx2),
+ TestFuncs(aom_highbd_obmc_sad32x32_c, aom_highbd_obmc_sad32x32_avx2),
+ TestFuncs(aom_highbd_obmc_sad32x16_c, aom_highbd_obmc_sad32x16_avx2),
+ TestFuncs(aom_highbd_obmc_sad16x32_c, aom_highbd_obmc_sad16x32_avx2),
+ TestFuncs(aom_highbd_obmc_sad16x16_c, aom_highbd_obmc_sad16x16_avx2),
+ TestFuncs(aom_highbd_obmc_sad16x8_c, aom_highbd_obmc_sad16x8_avx2),
+ TestFuncs(aom_highbd_obmc_sad8x16_c, aom_highbd_obmc_sad8x16_avx2),
+ TestFuncs(aom_highbd_obmc_sad8x8_c, aom_highbd_obmc_sad8x8_avx2),
+ TestFuncs(aom_highbd_obmc_sad8x4_c, aom_highbd_obmc_sad8x4_avx2),
+ TestFuncs(aom_highbd_obmc_sad4x8_c, aom_highbd_obmc_sad4x8_avx2),
+ TestFuncs(aom_highbd_obmc_sad4x4_c, aom_highbd_obmc_sad4x4_avx2)
+};
+
+INSTANTIATE_TEST_CASE_P(AVX2, ObmcSadHBDTest,
+ ::testing::ValuesIn(avx2_functions_hbd));
+#endif // HAVE_AVX2
+} // namespace
diff --git a/third_party/aom/test/obmc_variance_test.cc b/third_party/aom/test/obmc_variance_test.cc
new file mode 100644
index 0000000000..4563b964aa
--- /dev/null
+++ b/third_party/aom/test/obmc_variance_test.cc
@@ -0,0 +1,345 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/acm_random.h"
+
+#include "test/function_equivalence_test.h"
+#include "test/register_state_check.h"
+
+#include "config/aom_config.h"
+#include "config/aom_dsp_rtcd.h"
+
+#include "aom/aom_integer.h"
+
+#define MAX_SB_SQUARE (MAX_SB_SIZE * MAX_SB_SIZE)
+
+using libaom_test::ACMRandom;
+using libaom_test::FunctionEquivalenceTest;
+
+namespace {
+
+static const int kIterations = 1000;
+static const int kMaskMax = 64;
+
+typedef unsigned int (*ObmcVarF)(const uint8_t *pre, int pre_stride,
+ const int32_t *wsrc, const int32_t *mask,
+ unsigned int *sse);
+typedef libaom_test::FuncParam<ObmcVarF> TestFuncs;
+
+////////////////////////////////////////////////////////////////////////////////
+// 8 bit
+////////////////////////////////////////////////////////////////////////////////
+
+class ObmcVarianceTest : public FunctionEquivalenceTest<ObmcVarF> {};
+
+TEST_P(ObmcVarianceTest, RandomValues) {
+ DECLARE_ALIGNED(32, uint8_t, pre[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int32_t, wsrc[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int32_t, mask[MAX_SB_SQUARE]);
+
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ const int pre_stride = this->rng_(MAX_SB_SIZE + 1);
+
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) {
+ pre[i] = this->rng_.Rand8();
+ wsrc[i] = this->rng_.Rand8() * this->rng_(kMaskMax * kMaskMax + 1);
+ mask[i] = this->rng_(kMaskMax * kMaskMax + 1);
+ }
+
+ unsigned int ref_sse, tst_sse;
+ const unsigned int ref_res =
+ params_.ref_func(pre, pre_stride, wsrc, mask, &ref_sse);
+ unsigned int tst_res;
+ ASM_REGISTER_STATE_CHECK(
+ tst_res = params_.tst_func(pre, pre_stride, wsrc, mask, &tst_sse));
+
+ ASSERT_EQ(ref_res, tst_res);
+ ASSERT_EQ(ref_sse, tst_sse);
+ }
+}
+
+TEST_P(ObmcVarianceTest, ExtremeValues) {
+ DECLARE_ALIGNED(32, uint8_t, pre[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int32_t, wsrc[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int32_t, mask[MAX_SB_SQUARE]);
+
+ for (int iter = 0; iter < MAX_SB_SIZE && !HasFatalFailure(); ++iter) {
+ const int pre_stride = iter;
+
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) {
+ pre[i] = UINT8_MAX;
+ wsrc[i] = UINT8_MAX * kMaskMax * kMaskMax;
+ mask[i] = kMaskMax * kMaskMax;
+ }
+
+ unsigned int ref_sse, tst_sse;
+ const unsigned int ref_res =
+ params_.ref_func(pre, pre_stride, wsrc, mask, &ref_sse);
+ unsigned int tst_res;
+ ASM_REGISTER_STATE_CHECK(
+ tst_res = params_.tst_func(pre, pre_stride, wsrc, mask, &tst_sse));
+
+ ASSERT_EQ(ref_res, tst_res);
+ ASSERT_EQ(ref_sse, tst_sse);
+ }
+}
+
+TEST_P(ObmcVarianceTest, DISABLED_Speed) {
+ DECLARE_ALIGNED(32, uint8_t, pre[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int32_t, wsrc[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int32_t, mask[MAX_SB_SQUARE]);
+
+ const int pre_stride = this->rng_(MAX_SB_SIZE + 1);
+
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) {
+ pre[i] = this->rng_.Rand8();
+ wsrc[i] = this->rng_.Rand8() * this->rng_(kMaskMax * kMaskMax + 1);
+ mask[i] = this->rng_(kMaskMax * kMaskMax + 1);
+ }
+
+ const int num_loops = 1000000;
+ unsigned int ref_sse, tst_sse;
+ aom_usec_timer ref_timer, test_timer;
+
+ aom_usec_timer_start(&ref_timer);
+ for (int i = 0; i < num_loops; ++i) {
+ params_.ref_func(pre, pre_stride, wsrc, mask, &ref_sse);
+ }
+ aom_usec_timer_mark(&ref_timer);
+ const int elapsed_time_c =
+ static_cast<int>(aom_usec_timer_elapsed(&ref_timer));
+
+ aom_usec_timer_start(&test_timer);
+ for (int i = 0; i < num_loops; ++i) {
+ params_.tst_func(pre, pre_stride, wsrc, mask, &tst_sse);
+ }
+ aom_usec_timer_mark(&test_timer);
+ const int elapsed_time_simd =
+ static_cast<int>(aom_usec_timer_elapsed(&test_timer));
+
+ printf("c_time=%d \t simd_time=%d \t gain=%d \n", elapsed_time_c,
+ elapsed_time_simd, (elapsed_time_c / elapsed_time_simd));
+}
+
+#if HAVE_SSE4_1
+const ObmcVarianceTest::ParamType sse4_functions[] = {
+ TestFuncs(aom_obmc_variance128x128_c, aom_obmc_variance128x128_sse4_1),
+ TestFuncs(aom_obmc_variance128x64_c, aom_obmc_variance128x64_sse4_1),
+ TestFuncs(aom_obmc_variance64x128_c, aom_obmc_variance64x128_sse4_1),
+ TestFuncs(aom_obmc_variance64x64_c, aom_obmc_variance64x64_sse4_1),
+ TestFuncs(aom_obmc_variance64x32_c, aom_obmc_variance64x32_sse4_1),
+ TestFuncs(aom_obmc_variance32x64_c, aom_obmc_variance32x64_sse4_1),
+ TestFuncs(aom_obmc_variance32x32_c, aom_obmc_variance32x32_sse4_1),
+ TestFuncs(aom_obmc_variance32x16_c, aom_obmc_variance32x16_sse4_1),
+ TestFuncs(aom_obmc_variance16x32_c, aom_obmc_variance16x32_sse4_1),
+ TestFuncs(aom_obmc_variance16x16_c, aom_obmc_variance16x16_sse4_1),
+ TestFuncs(aom_obmc_variance16x8_c, aom_obmc_variance16x8_sse4_1),
+ TestFuncs(aom_obmc_variance8x16_c, aom_obmc_variance8x16_sse4_1),
+ TestFuncs(aom_obmc_variance8x8_c, aom_obmc_variance8x8_sse4_1),
+ TestFuncs(aom_obmc_variance8x4_c, aom_obmc_variance8x4_sse4_1),
+ TestFuncs(aom_obmc_variance4x8_c, aom_obmc_variance4x8_sse4_1),
+ TestFuncs(aom_obmc_variance4x4_c, aom_obmc_variance4x4_sse4_1)
+};
+
+INSTANTIATE_TEST_CASE_P(SSE4_1, ObmcVarianceTest,
+ ::testing::ValuesIn(sse4_functions));
+#endif // HAVE_SSE4_1
+
+#if HAVE_AVX2
+const ObmcVarianceTest::ParamType avx2_functions[] = {
+ TestFuncs(aom_obmc_variance128x128_c, aom_obmc_variance128x128_avx2),
+ TestFuncs(aom_obmc_variance128x64_c, aom_obmc_variance128x64_avx2),
+ TestFuncs(aom_obmc_variance64x128_c, aom_obmc_variance64x128_avx2),
+ TestFuncs(aom_obmc_variance64x64_c, aom_obmc_variance64x64_avx2),
+ TestFuncs(aom_obmc_variance64x32_c, aom_obmc_variance64x32_avx2),
+ TestFuncs(aom_obmc_variance32x64_c, aom_obmc_variance32x64_avx2),
+ TestFuncs(aom_obmc_variance32x32_c, aom_obmc_variance32x32_avx2),
+ TestFuncs(aom_obmc_variance32x16_c, aom_obmc_variance32x16_avx2),
+ TestFuncs(aom_obmc_variance16x32_c, aom_obmc_variance16x32_avx2),
+ TestFuncs(aom_obmc_variance16x16_c, aom_obmc_variance16x16_avx2),
+ TestFuncs(aom_obmc_variance16x8_c, aom_obmc_variance16x8_avx2),
+ TestFuncs(aom_obmc_variance8x16_c, aom_obmc_variance8x16_avx2),
+ TestFuncs(aom_obmc_variance8x8_c, aom_obmc_variance8x8_avx2),
+ TestFuncs(aom_obmc_variance8x4_c, aom_obmc_variance8x4_avx2),
+ TestFuncs(aom_obmc_variance4x8_c, aom_obmc_variance4x8_sse4_1),
+ TestFuncs(aom_obmc_variance4x4_c, aom_obmc_variance4x4_sse4_1)
+};
+
+INSTANTIATE_TEST_CASE_P(AVX2, ObmcVarianceTest,
+ ::testing::ValuesIn(avx2_functions));
+#endif // HAVE_AVX2
+
+////////////////////////////////////////////////////////////////////////////////
+// High bit-depth
+////////////////////////////////////////////////////////////////////////////////
+
+class ObmcVarianceHBDTest : public FunctionEquivalenceTest<ObmcVarF> {};
+
+TEST_P(ObmcVarianceHBDTest, RandomValues) {
+ DECLARE_ALIGNED(32, uint16_t, pre[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int32_t, wsrc[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int32_t, mask[MAX_SB_SQUARE]);
+
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ const int pre_stride = this->rng_(MAX_SB_SIZE + 1);
+
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) {
+ pre[i] = this->rng_(1 << params_.bit_depth);
+ wsrc[i] = this->rng_(1 << params_.bit_depth) *
+ this->rng_(kMaskMax * kMaskMax + 1);
+ mask[i] = this->rng_(kMaskMax * kMaskMax + 1);
+ }
+
+ unsigned int ref_sse, tst_sse;
+ const unsigned int ref_res = params_.ref_func(
+ CONVERT_TO_BYTEPTR(pre), pre_stride, wsrc, mask, &ref_sse);
+ unsigned int tst_res;
+ ASM_REGISTER_STATE_CHECK(tst_res = params_.tst_func(CONVERT_TO_BYTEPTR(pre),
+ pre_stride, wsrc, mask,
+ &tst_sse));
+
+ ASSERT_EQ(ref_res, tst_res);
+ ASSERT_EQ(ref_sse, tst_sse);
+ }
+}
+
+TEST_P(ObmcVarianceHBDTest, ExtremeValues) {
+ DECLARE_ALIGNED(32, uint16_t, pre[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int32_t, wsrc[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, int32_t, mask[MAX_SB_SQUARE]);
+
+ for (int iter = 0; iter < MAX_SB_SIZE && !HasFatalFailure(); ++iter) {
+ const int pre_stride = iter;
+
+ for (int i = 0; i < MAX_SB_SQUARE; ++i) {
+ pre[i] = (1 << params_.bit_depth) - 1;
+ wsrc[i] = ((1 << params_.bit_depth) - 1) * kMaskMax * kMaskMax;
+ mask[i] = kMaskMax * kMaskMax;
+ }
+
+ unsigned int ref_sse, tst_sse;
+ const unsigned int ref_res = params_.ref_func(
+ CONVERT_TO_BYTEPTR(pre), pre_stride, wsrc, mask, &ref_sse);
+ unsigned int tst_res;
+ ASM_REGISTER_STATE_CHECK(tst_res = params_.tst_func(CONVERT_TO_BYTEPTR(pre),
+ pre_stride, wsrc, mask,
+ &tst_sse));
+
+ ASSERT_EQ(ref_res, tst_res);
+ ASSERT_EQ(ref_sse, tst_sse);
+ }
+}
+
+#if HAVE_SSE4_1
+ObmcVarianceHBDTest::ParamType sse4_functions_hbd[] = {
+ TestFuncs(aom_highbd_obmc_variance128x128_c,
+ aom_highbd_obmc_variance128x128_sse4_1, 8),
+ TestFuncs(aom_highbd_obmc_variance128x64_c,
+ aom_highbd_obmc_variance128x64_sse4_1, 8),
+ TestFuncs(aom_highbd_obmc_variance64x128_c,
+ aom_highbd_obmc_variance64x128_sse4_1, 8),
+ TestFuncs(aom_highbd_obmc_variance64x64_c,
+ aom_highbd_obmc_variance64x64_sse4_1, 8),
+ TestFuncs(aom_highbd_obmc_variance64x32_c,
+ aom_highbd_obmc_variance64x32_sse4_1, 8),
+ TestFuncs(aom_highbd_obmc_variance32x64_c,
+ aom_highbd_obmc_variance32x64_sse4_1, 8),
+ TestFuncs(aom_highbd_obmc_variance32x32_c,
+ aom_highbd_obmc_variance32x32_sse4_1, 8),
+ TestFuncs(aom_highbd_obmc_variance32x16_c,
+ aom_highbd_obmc_variance32x16_sse4_1, 8),
+ TestFuncs(aom_highbd_obmc_variance16x32_c,
+ aom_highbd_obmc_variance16x32_sse4_1, 8),
+ TestFuncs(aom_highbd_obmc_variance16x16_c,
+ aom_highbd_obmc_variance16x16_sse4_1, 8),
+ TestFuncs(aom_highbd_obmc_variance16x8_c, aom_highbd_obmc_variance16x8_sse4_1,
+ 8),
+ TestFuncs(aom_highbd_obmc_variance8x16_c, aom_highbd_obmc_variance8x16_sse4_1,
+ 8),
+ TestFuncs(aom_highbd_obmc_variance8x8_c, aom_highbd_obmc_variance8x8_sse4_1,
+ 8),
+ TestFuncs(aom_highbd_obmc_variance8x4_c, aom_highbd_obmc_variance8x4_sse4_1,
+ 8),
+ TestFuncs(aom_highbd_obmc_variance4x8_c, aom_highbd_obmc_variance4x8_sse4_1,
+ 8),
+ TestFuncs(aom_highbd_obmc_variance4x4_c, aom_highbd_obmc_variance4x4_sse4_1,
+ 8),
+ TestFuncs(aom_highbd_10_obmc_variance128x128_c,
+ aom_highbd_10_obmc_variance128x128_sse4_1, 10),
+ TestFuncs(aom_highbd_10_obmc_variance128x64_c,
+ aom_highbd_10_obmc_variance128x64_sse4_1, 10),
+ TestFuncs(aom_highbd_10_obmc_variance64x128_c,
+ aom_highbd_10_obmc_variance64x128_sse4_1, 10),
+ TestFuncs(aom_highbd_10_obmc_variance64x64_c,
+ aom_highbd_10_obmc_variance64x64_sse4_1, 10),
+ TestFuncs(aom_highbd_10_obmc_variance64x32_c,
+ aom_highbd_10_obmc_variance64x32_sse4_1, 10),
+ TestFuncs(aom_highbd_10_obmc_variance32x64_c,
+ aom_highbd_10_obmc_variance32x64_sse4_1, 10),
+ TestFuncs(aom_highbd_10_obmc_variance32x32_c,
+ aom_highbd_10_obmc_variance32x32_sse4_1, 10),
+ TestFuncs(aom_highbd_10_obmc_variance32x16_c,
+ aom_highbd_10_obmc_variance32x16_sse4_1, 10),
+ TestFuncs(aom_highbd_10_obmc_variance16x32_c,
+ aom_highbd_10_obmc_variance16x32_sse4_1, 10),
+ TestFuncs(aom_highbd_10_obmc_variance16x16_c,
+ aom_highbd_10_obmc_variance16x16_sse4_1, 10),
+ TestFuncs(aom_highbd_10_obmc_variance16x8_c,
+ aom_highbd_10_obmc_variance16x8_sse4_1, 10),
+ TestFuncs(aom_highbd_10_obmc_variance8x16_c,
+ aom_highbd_10_obmc_variance8x16_sse4_1, 10),
+ TestFuncs(aom_highbd_10_obmc_variance8x8_c,
+ aom_highbd_10_obmc_variance8x8_sse4_1, 10),
+ TestFuncs(aom_highbd_10_obmc_variance8x4_c,
+ aom_highbd_10_obmc_variance8x4_sse4_1, 10),
+ TestFuncs(aom_highbd_10_obmc_variance4x8_c,
+ aom_highbd_10_obmc_variance4x8_sse4_1, 10),
+ TestFuncs(aom_highbd_10_obmc_variance4x4_c,
+ aom_highbd_10_obmc_variance4x4_sse4_1, 10),
+ TestFuncs(aom_highbd_12_obmc_variance128x128_c,
+ aom_highbd_12_obmc_variance128x128_sse4_1, 12),
+ TestFuncs(aom_highbd_12_obmc_variance128x64_c,
+ aom_highbd_12_obmc_variance128x64_sse4_1, 12),
+ TestFuncs(aom_highbd_12_obmc_variance64x128_c,
+ aom_highbd_12_obmc_variance64x128_sse4_1, 12),
+ TestFuncs(aom_highbd_12_obmc_variance64x64_c,
+ aom_highbd_12_obmc_variance64x64_sse4_1, 12),
+ TestFuncs(aom_highbd_12_obmc_variance64x32_c,
+ aom_highbd_12_obmc_variance64x32_sse4_1, 12),
+ TestFuncs(aom_highbd_12_obmc_variance32x64_c,
+ aom_highbd_12_obmc_variance32x64_sse4_1, 12),
+ TestFuncs(aom_highbd_12_obmc_variance32x32_c,
+ aom_highbd_12_obmc_variance32x32_sse4_1, 12),
+ TestFuncs(aom_highbd_12_obmc_variance32x16_c,
+ aom_highbd_12_obmc_variance32x16_sse4_1, 12),
+ TestFuncs(aom_highbd_12_obmc_variance16x32_c,
+ aom_highbd_12_obmc_variance16x32_sse4_1, 12),
+ TestFuncs(aom_highbd_12_obmc_variance16x16_c,
+ aom_highbd_12_obmc_variance16x16_sse4_1, 12),
+ TestFuncs(aom_highbd_12_obmc_variance16x8_c,
+ aom_highbd_12_obmc_variance16x8_sse4_1, 12),
+ TestFuncs(aom_highbd_12_obmc_variance8x16_c,
+ aom_highbd_12_obmc_variance8x16_sse4_1, 12),
+ TestFuncs(aom_highbd_12_obmc_variance8x8_c,
+ aom_highbd_12_obmc_variance8x8_sse4_1, 12),
+ TestFuncs(aom_highbd_12_obmc_variance8x4_c,
+ aom_highbd_12_obmc_variance8x4_sse4_1, 12),
+ TestFuncs(aom_highbd_12_obmc_variance4x8_c,
+ aom_highbd_12_obmc_variance4x8_sse4_1, 12),
+ TestFuncs(aom_highbd_12_obmc_variance4x4_c,
+ aom_highbd_12_obmc_variance4x4_sse4_1, 12)
+};
+
+INSTANTIATE_TEST_CASE_P(SSE4_1, ObmcVarianceHBDTest,
+ ::testing::ValuesIn(sse4_functions_hbd));
+#endif // HAVE_SSE4_1
+} // namespace
diff --git a/third_party/aom/test/onyxc_int_test.cc b/third_party/aom/test/onyxc_int_test.cc
new file mode 100644
index 0000000000..3889595187
--- /dev/null
+++ b/third_party/aom/test/onyxc_int_test.cc
@@ -0,0 +1,22 @@
+/*
+ * Copyright (c) 2017, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "av1/common/onyxc_int.h"
+
+TEST(OnyxcInt, TestGetTxSize) {
+ for (int t = TX_4X4; t < TX_SIZES_ALL; t++) {
+ TX_SIZE t2 = get_tx_size(tx_size_wide[t], tx_size_high[t]);
+ GTEST_ASSERT_EQ(tx_size_wide[t], tx_size_wide[t2]);
+ GTEST_ASSERT_EQ(tx_size_high[t], tx_size_high[t2]);
+ }
+}
diff --git a/third_party/aom/test/pickrst_test.cc b/third_party/aom/test/pickrst_test.cc
new file mode 100644
index 0000000000..040e8e8b76
--- /dev/null
+++ b/third_party/aom/test/pickrst_test.cc
@@ -0,0 +1,187 @@
+/*
+ * Copyright (c) 2018, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "test/function_equivalence_test.h"
+#include "test/register_state_check.h"
+
+#include "config/aom_config.h"
+#include "config/aom_dsp_rtcd.h"
+
+#include "aom/aom_integer.h"
+#include "av1/encoder/pickrst.h"
+using libaom_test::FunctionEquivalenceTest;
+
+#define MAX_DATA_BLOCK 384
+
+namespace {
+static const int kIterations = 100;
+
+typedef int64_t (*lowbd_pixel_proj_error_func)(
+ const uint8_t *src8, int width, int height, int src_stride,
+ const uint8_t *dat8, int dat_stride, int32_t *flt0, int flt0_stride,
+ int32_t *flt1, int flt1_stride, int xq[2], const sgr_params_type *params);
+
+typedef libaom_test::FuncParam<lowbd_pixel_proj_error_func> TestFuncs;
+
+////////////////////////////////////////////////////////////////////////////////
+// 8 bit
+////////////////////////////////////////////////////////////////////////////////
+
+typedef ::testing::tuple<const lowbd_pixel_proj_error_func>
+ PixelProjErrorTestParam;
+
+class PixelProjErrorTest
+ : public ::testing::TestWithParam<PixelProjErrorTestParam> {
+ public:
+ virtual void SetUp() {
+ target_func_ = GET_PARAM(0);
+ src_ = (uint8_t *)(aom_malloc(MAX_DATA_BLOCK * MAX_DATA_BLOCK *
+ sizeof(uint8_t)));
+ dgd_ = (uint8_t *)(aom_malloc(MAX_DATA_BLOCK * MAX_DATA_BLOCK *
+ sizeof(uint8_t)));
+ flt0_ = (int32_t *)(aom_malloc(MAX_DATA_BLOCK * MAX_DATA_BLOCK *
+ sizeof(int32_t)));
+ flt1_ = (int32_t *)(aom_malloc(MAX_DATA_BLOCK * MAX_DATA_BLOCK *
+ sizeof(int32_t)));
+ }
+ virtual void TearDown() {
+ aom_free(src_);
+ aom_free(dgd_);
+ aom_free(flt0_);
+ aom_free(flt1_);
+ }
+ void runPixelProjErrorTest(int32_t run_times);
+ void runPixelProjErrorTest_ExtremeValues();
+
+ private:
+ lowbd_pixel_proj_error_func target_func_;
+ ACMRandom rng_;
+ uint8_t *src_;
+ uint8_t *dgd_;
+ int32_t *flt0_;
+ int32_t *flt1_;
+};
+
+void PixelProjErrorTest::runPixelProjErrorTest(int32_t run_times) {
+ int h_end = run_times != 1 ? 128 : (rng_.Rand16() % MAX_DATA_BLOCK) + 1;
+ int v_end = run_times != 1 ? 128 : (rng_.Rand16() % MAX_DATA_BLOCK) + 1;
+ const int dgd_stride = MAX_DATA_BLOCK;
+ const int src_stride = MAX_DATA_BLOCK;
+ const int flt0_stride = MAX_DATA_BLOCK;
+ const int flt1_stride = MAX_DATA_BLOCK;
+ sgr_params_type params;
+ int xq[2];
+ const int iters = run_times == 1 ? kIterations : 4;
+ for (int iter = 0; iter < iters && !HasFatalFailure(); ++iter) {
+ int64_t err_ref = 0, err_test = 1;
+ for (int i = 0; i < MAX_DATA_BLOCK * MAX_DATA_BLOCK; ++i) {
+ dgd_[i] = rng_.Rand8();
+ src_[i] = rng_.Rand8();
+ flt0_[i] = rng_.Rand15Signed();
+ flt1_[i] = rng_.Rand15Signed();
+ }
+ xq[0] = rng_.Rand8() % (1 << SGRPROJ_PRJ_BITS);
+ xq[1] = rng_.Rand8() % (1 << SGRPROJ_PRJ_BITS);
+ params.r[0] = run_times == 1 ? (rng_.Rand8() % MAX_RADIUS) : (iter % 2);
+ params.r[1] = run_times == 1 ? (rng_.Rand8() % MAX_RADIUS) : (iter / 2);
+ params.s[0] = run_times == 1 ? (rng_.Rand8() % MAX_RADIUS) : (iter % 2);
+ params.s[1] = run_times == 1 ? (rng_.Rand8() % MAX_RADIUS) : (iter / 2);
+ uint8_t *dgd = dgd_;
+ uint8_t *src = src_;
+
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+ for (int i = 0; i < run_times; ++i) {
+ err_ref = av1_lowbd_pixel_proj_error_c(src, h_end, v_end, src_stride, dgd,
+ dgd_stride, flt0_, flt0_stride,
+ flt1_, flt1_stride, xq, &params);
+ }
+ aom_usec_timer_mark(&timer);
+ const double time1 = static_cast<double>(aom_usec_timer_elapsed(&timer));
+ aom_usec_timer_start(&timer);
+ for (int i = 0; i < run_times; ++i) {
+ err_test =
+ target_func_(src, h_end, v_end, src_stride, dgd, dgd_stride, flt0_,
+ flt0_stride, flt1_, flt1_stride, xq, &params);
+ }
+ aom_usec_timer_mark(&timer);
+ const double time2 = static_cast<double>(aom_usec_timer_elapsed(&timer));
+ if (run_times > 10) {
+ printf("r0 %d r1 %d %3dx%-3d:%7.2f/%7.2fns (%3.2f)\n", params.r[0],
+ params.r[1], h_end, v_end, time1, time2, time1 / time2);
+ }
+ ASSERT_EQ(err_ref, err_test);
+ }
+}
+
+void PixelProjErrorTest::runPixelProjErrorTest_ExtremeValues() {
+ const int h_start = 0;
+ int h_end = 192;
+ const int v_start = 0;
+ int v_end = 192;
+ const int dgd_stride = MAX_DATA_BLOCK;
+ const int src_stride = MAX_DATA_BLOCK;
+ const int flt0_stride = MAX_DATA_BLOCK;
+ const int flt1_stride = MAX_DATA_BLOCK;
+ sgr_params_type params;
+ int xq[2];
+ const int iters = kIterations;
+ for (int iter = 0; iter < iters && !HasFatalFailure(); ++iter) {
+ int64_t err_ref = 0, err_test = 1;
+ for (int i = 0; i < MAX_DATA_BLOCK * MAX_DATA_BLOCK; ++i) {
+ dgd_[i] = 0;
+ src_[i] = 255;
+ flt0_[i] = rng_.Rand15Signed();
+ flt1_[i] = rng_.Rand15Signed();
+ }
+ xq[0] = rng_.Rand8() % (1 << SGRPROJ_PRJ_BITS);
+ xq[1] = rng_.Rand8() % (1 << SGRPROJ_PRJ_BITS);
+ params.r[0] = rng_.Rand8() % MAX_RADIUS;
+ params.r[1] = rng_.Rand8() % MAX_RADIUS;
+ params.s[0] = rng_.Rand8() % MAX_RADIUS;
+ params.s[1] = rng_.Rand8() % MAX_RADIUS;
+ uint8_t *dgd = dgd_;
+ uint8_t *src = src_;
+
+ err_ref = av1_lowbd_pixel_proj_error_c(
+ src, h_end - h_start, v_end - v_start, src_stride, dgd, dgd_stride,
+ flt0_, flt0_stride, flt1_, flt1_stride, xq, &params);
+
+ err_test = target_func_(src, h_end - h_start, v_end - v_start, src_stride,
+ dgd, dgd_stride, flt0_, flt0_stride, flt1_,
+ flt1_stride, xq, &params);
+
+ ASSERT_EQ(err_ref, err_test);
+ }
+}
+
+TEST_P(PixelProjErrorTest, RandomValues) { runPixelProjErrorTest(1); }
+
+TEST_P(PixelProjErrorTest, ExtremeValues) {
+ runPixelProjErrorTest_ExtremeValues();
+}
+
+TEST_P(PixelProjErrorTest, DISABLED_Speed) { runPixelProjErrorTest(200000); }
+
+#if HAVE_SSE4_1
+INSTANTIATE_TEST_CASE_P(SSE4_1, PixelProjErrorTest,
+ ::testing::Values(av1_lowbd_pixel_proj_error_sse4_1));
+#endif // HAVE_SSE4_1
+
+#if HAVE_AVX2
+
+INSTANTIATE_TEST_CASE_P(AVX2, PixelProjErrorTest,
+ ::testing::Values(av1_lowbd_pixel_proj_error_avx2));
+#endif // HAVE_AVX2
+
+} // namespace
diff --git a/third_party/aom/test/qm_test.cc b/third_party/aom/test/qm_test.cc
new file mode 100644
index 0000000000..c87506b41a
--- /dev/null
+++ b/third_party/aom/test/qm_test.cc
@@ -0,0 +1,81 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+#include "config/aom_config.h"
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/codec_factory.h"
+#include "test/encode_test_driver.h"
+#include "test/i420_video_source.h"
+#include "test/util.h"
+
+namespace {
+
+class QMTest
+ : public ::libaom_test::CodecTestWith2Params<libaom_test::TestMode, int>,
+ public ::libaom_test::EncoderTest {
+ protected:
+ QMTest() : EncoderTest(GET_PARAM(0)) {}
+ virtual ~QMTest() {}
+
+ virtual void SetUp() {
+ InitializeConfig();
+ SetMode(GET_PARAM(1));
+ set_cpu_used_ = GET_PARAM(2);
+ }
+
+ virtual void PreEncodeFrameHook(::libaom_test::VideoSource *video,
+ ::libaom_test::Encoder *encoder) {
+ if (video->frame() == 1) {
+ encoder->Control(AOME_SET_CPUUSED, set_cpu_used_);
+ encoder->Control(AV1E_SET_ENABLE_QM, 1);
+ encoder->Control(AV1E_SET_QM_MIN, qm_min_);
+ encoder->Control(AV1E_SET_QM_MAX, qm_max_);
+
+ encoder->Control(AOME_SET_MAX_INTRA_BITRATE_PCT, 100);
+ }
+ }
+
+ void DoTest(int qm_min, int qm_max) {
+ qm_min_ = qm_min;
+ qm_max_ = qm_max;
+ cfg_.kf_max_dist = 12;
+ cfg_.rc_min_quantizer = 8;
+ cfg_.rc_max_quantizer = 56;
+ cfg_.rc_end_usage = AOM_CBR;
+ cfg_.g_lag_in_frames = 6;
+ cfg_.rc_buf_initial_sz = 500;
+ cfg_.rc_buf_optimal_sz = 500;
+ cfg_.rc_buf_sz = 1000;
+ cfg_.rc_target_bitrate = 300;
+ ::libaom_test::I420VideoSource video("hantro_collage_w352h288.yuv", 352,
+ 288, 30, 1, 0, 15);
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+ }
+
+ int set_cpu_used_;
+ int qm_min_;
+ int qm_max_;
+};
+
+// encodes and decodes without a mismatch.
+TEST_P(QMTest, TestNoMisMatchQM1) { DoTest(5, 9); }
+
+// encodes and decodes without a mismatch.
+TEST_P(QMTest, TestNoMisMatchQM2) { DoTest(0, 8); }
+
+// encodes and decodes without a mismatch.
+TEST_P(QMTest, TestNoMisMatchQM3) { DoTest(9, 15); }
+
+AV1_INSTANTIATE_TEST_CASE(QMTest,
+ ::testing::Values(::libaom_test::kRealTime,
+ ::libaom_test::kOnePassGood),
+ ::testing::Range(5, 9));
+} // namespace
diff --git a/third_party/aom/test/quantize_func_test.cc b/third_party/aom/test/quantize_func_test.cc
new file mode 100644
index 0000000000..554d0c7214
--- /dev/null
+++ b/third_party/aom/test/quantize_func_test.cc
@@ -0,0 +1,425 @@
+/*
+ * Copyright (c) 2017, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_config.h"
+#include "config/aom_dsp_rtcd.h"
+#include "config/av1_rtcd.h"
+
+#include "aom/aom_codec.h"
+#include "aom_ports/aom_timer.h"
+#include "av1/encoder/encoder.h"
+#include "av1/common/scan.h"
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "test/util.h"
+
+namespace {
+using libaom_test::ACMRandom;
+
+#define QUAN_PARAM_LIST \
+ const tran_low_t *coeff_ptr, intptr_t n_coeffs, const int16_t *zbin_ptr, \
+ const int16_t *round_ptr, const int16_t *quant_ptr, \
+ const int16_t *quant_shift_ptr, tran_low_t *qcoeff_ptr, \
+ tran_low_t *dqcoeff_ptr, const int16_t *dequant_ptr, uint16_t *eob_ptr, \
+ const int16_t *scan, const int16_t *iscan
+
+typedef void (*QuantizeFunc)(QUAN_PARAM_LIST);
+typedef void (*QuantizeFuncHbd)(QUAN_PARAM_LIST, int log_scale);
+
+#define HBD_QUAN_FUNC \
+ fn(coeff_ptr, n_coeffs, zbin_ptr, round_ptr, quant_ptr, quant_shift_ptr, \
+ qcoeff_ptr, dqcoeff_ptr, dequant_ptr, eob_ptr, scan, iscan, log_scale)
+
+#define LBD_QUAN_FUNC \
+ fn(coeff_ptr, n_coeffs, zbin_ptr, round_ptr, quant_ptr, quant_shift_ptr, \
+ qcoeff_ptr, dqcoeff_ptr, dequant_ptr, eob_ptr, scan, iscan)
+
+template <QuantizeFuncHbd fn>
+void highbd_quan16x16_wrapper(QUAN_PARAM_LIST) {
+ const int log_scale = 0;
+ HBD_QUAN_FUNC;
+}
+
+template <QuantizeFuncHbd fn>
+void highbd_quan32x32_wrapper(QUAN_PARAM_LIST) {
+ const int log_scale = 1;
+ HBD_QUAN_FUNC;
+}
+
+template <QuantizeFuncHbd fn>
+void highbd_quan64x64_wrapper(QUAN_PARAM_LIST) {
+ const int log_scale = 2;
+ HBD_QUAN_FUNC;
+}
+
+typedef enum { TYPE_B, TYPE_DC, TYPE_FP } QuantType;
+
+using ::testing::tuple;
+typedef tuple<QuantizeFunc, QuantizeFunc, TX_SIZE, QuantType, aom_bit_depth_t>
+ QuantizeParam;
+
+typedef struct {
+ QUANTS quant;
+ Dequants dequant;
+} QuanTable;
+
+const int kTestNum = 1000;
+
+class QuantizeTest : public ::testing::TestWithParam<QuantizeParam> {
+ protected:
+ QuantizeTest()
+ : quant_ref_(GET_PARAM(0)), quant_(GET_PARAM(1)), tx_size_(GET_PARAM(2)),
+ type_(GET_PARAM(3)), bd_(GET_PARAM(4)) {}
+
+ virtual ~QuantizeTest() {}
+
+ virtual void SetUp() {
+ qtab_ = reinterpret_cast<QuanTable *>(aom_memalign(32, sizeof(*qtab_)));
+ const int n_coeffs = coeff_num();
+ coeff_ = reinterpret_cast<tran_low_t *>(
+ aom_memalign(32, 6 * n_coeffs * sizeof(tran_low_t)));
+ InitQuantizer();
+ }
+
+ virtual void TearDown() {
+ aom_free(qtab_);
+ qtab_ = NULL;
+ aom_free(coeff_);
+ coeff_ = NULL;
+ libaom_test::ClearSystemState();
+ }
+
+ void InitQuantizer() {
+ av1_build_quantizer(bd_, 0, 0, 0, 0, 0, &qtab_->quant, &qtab_->dequant);
+ }
+
+ void QuantizeRun(bool is_loop, int q = 0, int test_num = 1) {
+ tran_low_t *coeff_ptr = coeff_;
+ const intptr_t n_coeffs = coeff_num();
+
+ tran_low_t *qcoeff_ref = coeff_ptr + n_coeffs;
+ tran_low_t *dqcoeff_ref = qcoeff_ref + n_coeffs;
+
+ tran_low_t *qcoeff = dqcoeff_ref + n_coeffs;
+ tran_low_t *dqcoeff = qcoeff + n_coeffs;
+ uint16_t *eob = (uint16_t *)(dqcoeff + n_coeffs);
+
+ // Testing uses 2-D DCT scan order table
+ const SCAN_ORDER *const sc = get_default_scan(tx_size_, DCT_DCT);
+
+ // Testing uses luminance quantization table
+ const int16_t *zbin = qtab_->quant.y_zbin[q];
+
+ const int16_t *round = 0;
+ const int16_t *quant = 0;
+ if (type_ == TYPE_B) {
+ round = qtab_->quant.y_round[q];
+ quant = qtab_->quant.y_quant[q];
+ } else if (type_ == TYPE_FP) {
+ round = qtab_->quant.y_round_fp[q];
+ quant = qtab_->quant.y_quant_fp[q];
+ }
+
+ const int16_t *quant_shift = qtab_->quant.y_quant_shift[q];
+ const int16_t *dequant = qtab_->dequant.y_dequant_QTX[q];
+
+ for (int i = 0; i < test_num; ++i) {
+ if (is_loop) FillCoeffRandom();
+
+ memset(qcoeff_ref, 0, 5 * n_coeffs * sizeof(*qcoeff_ref));
+
+ quant_ref_(coeff_ptr, n_coeffs, zbin, round, quant, quant_shift,
+ qcoeff_ref, dqcoeff_ref, dequant, &eob[0], sc->scan,
+ sc->iscan);
+
+ ASM_REGISTER_STATE_CHECK(quant_(coeff_ptr, n_coeffs, zbin, round, quant,
+ quant_shift, qcoeff, dqcoeff, dequant,
+ &eob[1], sc->scan, sc->iscan));
+
+ for (int j = 0; j < n_coeffs; ++j) {
+ ASSERT_EQ(qcoeff_ref[j], qcoeff[j])
+ << "Q mismatch on test: " << i << " at position: " << j
+ << " Q: " << q << " coeff: " << coeff_ptr[j];
+ }
+
+ for (int j = 0; j < n_coeffs; ++j) {
+ ASSERT_EQ(dqcoeff_ref[j], dqcoeff[j])
+ << "Dq mismatch on test: " << i << " at position: " << j
+ << " Q: " << q << " coeff: " << coeff_ptr[j];
+ }
+
+ ASSERT_EQ(eob[0], eob[1])
+ << "eobs mismatch on test: " << i << " Q: " << q;
+ }
+ }
+
+ void CompareResults(const tran_low_t *buf_ref, const tran_low_t *buf,
+ int size, const char *text, int q, int number) {
+ int i;
+ for (i = 0; i < size; ++i) {
+ ASSERT_EQ(buf_ref[i], buf[i]) << text << " mismatch on test: " << number
+ << " at position: " << i << " Q: " << q;
+ }
+ }
+
+ int coeff_num() const { return av1_get_max_eob(tx_size_); }
+
+ void FillCoeff(tran_low_t c) {
+ const int n_coeffs = coeff_num();
+ for (int i = 0; i < n_coeffs; ++i) {
+ coeff_[i] = c;
+ }
+ }
+
+ void FillCoeffRandom() {
+ const int n_coeffs = coeff_num();
+ FillCoeffZero();
+ int num = rnd_.Rand16() % n_coeffs;
+ for (int i = 0; i < num; ++i) {
+ coeff_[i] = GetRandomCoeff();
+ }
+ }
+
+ void FillCoeffZero() { FillCoeff(0); }
+
+ void FillCoeffConstant() {
+ tran_low_t c = GetRandomCoeff();
+ FillCoeff(c);
+ }
+
+ void FillDcOnly() {
+ FillCoeffZero();
+ coeff_[0] = GetRandomCoeff();
+ }
+
+ void FillDcLargeNegative() {
+ FillCoeffZero();
+ // Generate a qcoeff which contains 512/-512 (0x0100/0xFE00) to catch issues
+ // like BUG=883 where the constant being compared was incorrectly
+ // initialized.
+ coeff_[0] = -8191;
+ }
+
+ tran_low_t GetRandomCoeff() {
+ tran_low_t coeff;
+ if (bd_ == AOM_BITS_8) {
+ coeff =
+ clamp(static_cast<int16_t>(rnd_.Rand16()), INT16_MIN + 1, INT16_MAX);
+ } else {
+ tran_low_t min = -(1 << (7 + bd_));
+ tran_low_t max = -min - 1;
+ coeff = clamp(static_cast<tran_low_t>(rnd_.Rand31()), min, max);
+ }
+ return coeff;
+ }
+
+ ACMRandom rnd_;
+ QuanTable *qtab_;
+ tran_low_t *coeff_;
+ QuantizeFunc quant_ref_;
+ QuantizeFunc quant_;
+ TX_SIZE tx_size_;
+ QuantType type_;
+ aom_bit_depth_t bd_;
+};
+
+TEST_P(QuantizeTest, ZeroInput) {
+ FillCoeffZero();
+ QuantizeRun(false);
+}
+
+TEST_P(QuantizeTest, LargeNegativeInput) {
+ FillDcLargeNegative();
+ QuantizeRun(false, 0, 1);
+}
+
+TEST_P(QuantizeTest, DcOnlyInput) {
+ FillDcOnly();
+ QuantizeRun(false, 0, 1);
+}
+
+TEST_P(QuantizeTest, RandomInput) { QuantizeRun(true, 0, kTestNum); }
+
+TEST_P(QuantizeTest, MultipleQ) {
+ for (int q = 0; q < QINDEX_RANGE; ++q) {
+ QuantizeRun(true, q, kTestNum);
+ }
+}
+
+// Force the coeff to be half the value of the dequant. This exposes a
+// mismatch found in av1_quantize_fp_sse2().
+TEST_P(QuantizeTest, CoeffHalfDequant) {
+ FillCoeff(16);
+ QuantizeRun(false, 25, 1);
+}
+
+TEST_P(QuantizeTest, DISABLED_Speed) {
+ tran_low_t *coeff_ptr = coeff_;
+ const intptr_t n_coeffs = coeff_num();
+
+ tran_low_t *qcoeff_ref = coeff_ptr + n_coeffs;
+ tran_low_t *dqcoeff_ref = qcoeff_ref + n_coeffs;
+
+ tran_low_t *qcoeff = dqcoeff_ref + n_coeffs;
+ tran_low_t *dqcoeff = qcoeff + n_coeffs;
+ uint16_t *eob = (uint16_t *)(dqcoeff + n_coeffs);
+
+ // Testing uses 2-D DCT scan order table
+ const SCAN_ORDER *const sc = get_default_scan(tx_size_, DCT_DCT);
+
+ // Testing uses luminance quantization table
+ const int q = 22;
+ const int16_t *zbin = qtab_->quant.y_zbin[q];
+ const int16_t *round_fp = qtab_->quant.y_round_fp[q];
+ const int16_t *quant_fp = qtab_->quant.y_quant_fp[q];
+ const int16_t *quant_shift = qtab_->quant.y_quant_shift[q];
+ const int16_t *dequant = qtab_->dequant.y_dequant_QTX[q];
+ const int kNumTests = 5000000;
+ aom_usec_timer timer;
+
+ FillCoeffRandom();
+
+ aom_usec_timer_start(&timer);
+ for (int n = 0; n < kNumTests; ++n) {
+ quant_(coeff_ptr, n_coeffs, zbin, round_fp, quant_fp, quant_shift, qcoeff,
+ dqcoeff, dequant, eob, sc->scan, sc->iscan);
+ }
+ aom_usec_timer_mark(&timer);
+
+ const int elapsed_time = static_cast<int>(aom_usec_timer_elapsed(&timer));
+ printf("Elapsed time: %d us\n", elapsed_time);
+}
+
+using ::testing::make_tuple;
+
+#if HAVE_AVX2
+const QuantizeParam kQParamArrayAvx2[] = {
+ make_tuple(&av1_quantize_fp_c, &av1_quantize_fp_avx2, TX_16X16, TYPE_FP,
+ AOM_BITS_8),
+ make_tuple(&av1_quantize_fp_c, &av1_quantize_fp_avx2, TX_4X16, TYPE_FP,
+ AOM_BITS_8),
+ make_tuple(&av1_quantize_fp_c, &av1_quantize_fp_avx2, TX_16X4, TYPE_FP,
+ AOM_BITS_8),
+ make_tuple(&av1_quantize_fp_c, &av1_quantize_fp_avx2, TX_32X8, TYPE_FP,
+ AOM_BITS_8),
+ make_tuple(&av1_quantize_fp_c, &av1_quantize_fp_avx2, TX_8X32, TYPE_FP,
+ AOM_BITS_8),
+ make_tuple(&av1_quantize_fp_32x32_c, &av1_quantize_fp_32x32_avx2, TX_32X32,
+ TYPE_FP, AOM_BITS_8),
+ make_tuple(&av1_quantize_fp_32x32_c, &av1_quantize_fp_32x32_avx2, TX_16X64,
+ TYPE_FP, AOM_BITS_8),
+ make_tuple(&av1_quantize_fp_32x32_c, &av1_quantize_fp_32x32_avx2, TX_64X16,
+ TYPE_FP, AOM_BITS_8),
+ make_tuple(&av1_quantize_fp_64x64_c, &av1_quantize_fp_64x64_avx2, TX_64X64,
+ TYPE_FP, AOM_BITS_8),
+ make_tuple(&highbd_quan16x16_wrapper<av1_highbd_quantize_fp_c>,
+ &highbd_quan16x16_wrapper<av1_highbd_quantize_fp_avx2>, TX_16X16,
+ TYPE_FP, AOM_BITS_8),
+ make_tuple(&highbd_quan16x16_wrapper<av1_highbd_quantize_fp_c>,
+ &highbd_quan16x16_wrapper<av1_highbd_quantize_fp_avx2>, TX_16X16,
+ TYPE_FP, AOM_BITS_10),
+ make_tuple(&highbd_quan16x16_wrapper<av1_highbd_quantize_fp_c>,
+ &highbd_quan16x16_wrapper<av1_highbd_quantize_fp_avx2>, TX_16X16,
+ TYPE_FP, AOM_BITS_12),
+ make_tuple(&highbd_quan32x32_wrapper<av1_highbd_quantize_fp_c>,
+ &highbd_quan32x32_wrapper<av1_highbd_quantize_fp_avx2>, TX_32X32,
+ TYPE_FP, AOM_BITS_8),
+ make_tuple(&highbd_quan32x32_wrapper<av1_highbd_quantize_fp_c>,
+ &highbd_quan32x32_wrapper<av1_highbd_quantize_fp_avx2>, TX_32X32,
+ TYPE_FP, AOM_BITS_10),
+ make_tuple(&highbd_quan32x32_wrapper<av1_highbd_quantize_fp_c>,
+ &highbd_quan32x32_wrapper<av1_highbd_quantize_fp_avx2>, TX_32X32,
+ TYPE_FP, AOM_BITS_12),
+ make_tuple(&highbd_quan64x64_wrapper<av1_highbd_quantize_fp_c>,
+ &highbd_quan64x64_wrapper<av1_highbd_quantize_fp_avx2>, TX_64X64,
+ TYPE_FP, AOM_BITS_8),
+ make_tuple(&highbd_quan64x64_wrapper<av1_highbd_quantize_fp_c>,
+ &highbd_quan64x64_wrapper<av1_highbd_quantize_fp_avx2>, TX_64X64,
+ TYPE_FP, AOM_BITS_10),
+ make_tuple(&highbd_quan64x64_wrapper<av1_highbd_quantize_fp_c>,
+ &highbd_quan64x64_wrapper<av1_highbd_quantize_fp_avx2>, TX_64X64,
+ TYPE_FP, AOM_BITS_12),
+ make_tuple(&aom_highbd_quantize_b_c, &aom_highbd_quantize_b_avx2, TX_16X16,
+ TYPE_B, AOM_BITS_8),
+ make_tuple(&aom_highbd_quantize_b_c, &aom_highbd_quantize_b_avx2, TX_16X16,
+ TYPE_B, AOM_BITS_10),
+ make_tuple(&aom_highbd_quantize_b_c, &aom_highbd_quantize_b_avx2, TX_16X16,
+ TYPE_B, AOM_BITS_12),
+};
+
+INSTANTIATE_TEST_CASE_P(AVX2, QuantizeTest,
+ ::testing::ValuesIn(kQParamArrayAvx2));
+#endif // HAVE_AVX2
+
+#if HAVE_SSE2
+const QuantizeParam kQParamArraySSE2[] = {
+ make_tuple(&av1_quantize_fp_c, &av1_quantize_fp_sse2, TX_16X16, TYPE_FP,
+ AOM_BITS_8),
+ make_tuple(&av1_quantize_fp_c, &av1_quantize_fp_sse2, TX_4X16, TYPE_FP,
+ AOM_BITS_8),
+ make_tuple(&av1_quantize_fp_c, &av1_quantize_fp_sse2, TX_16X4, TYPE_FP,
+ AOM_BITS_8),
+ make_tuple(&av1_quantize_fp_c, &av1_quantize_fp_sse2, TX_8X32, TYPE_FP,
+ AOM_BITS_8),
+ make_tuple(&av1_quantize_fp_c, &av1_quantize_fp_sse2, TX_32X8, TYPE_FP,
+ AOM_BITS_8),
+ make_tuple(&aom_quantize_b_c, &aom_quantize_b_sse2, TX_16X16, TYPE_B,
+ AOM_BITS_8),
+ make_tuple(&aom_highbd_quantize_b_c, &aom_highbd_quantize_b_sse2, TX_16X16,
+ TYPE_B, AOM_BITS_8),
+ make_tuple(&aom_highbd_quantize_b_c, &aom_highbd_quantize_b_sse2, TX_16X16,
+ TYPE_B, AOM_BITS_10),
+ make_tuple(&aom_highbd_quantize_b_c, &aom_highbd_quantize_b_sse2, TX_16X16,
+ TYPE_B, AOM_BITS_12),
+ make_tuple(&aom_highbd_quantize_b_32x32_c, &aom_highbd_quantize_b_32x32_sse2,
+ TX_32X32, TYPE_B, AOM_BITS_8),
+ make_tuple(&aom_highbd_quantize_b_32x32_c, &aom_highbd_quantize_b_32x32_sse2,
+ TX_32X32, TYPE_B, AOM_BITS_10),
+ make_tuple(&aom_highbd_quantize_b_32x32_c, &aom_highbd_quantize_b_32x32_sse2,
+ TX_32X32, TYPE_B, AOM_BITS_12),
+};
+
+INSTANTIATE_TEST_CASE_P(SSE2, QuantizeTest,
+ ::testing::ValuesIn(kQParamArraySSE2));
+#endif
+
+#if HAVE_SSSE3 && ARCH_X86_64
+INSTANTIATE_TEST_CASE_P(
+ SSSE3, QuantizeTest,
+ ::testing::Values(make_tuple(&aom_quantize_b_c, &aom_quantize_b_ssse3,
+ TX_16X16, TYPE_B, AOM_BITS_8)));
+
+// Like libvpx, the ssse3 and avx quantize tests do not pass.
+// https://bugs.chromium.org/p/webm/issues/detail?id=1448
+INSTANTIATE_TEST_CASE_P(
+ DISABLED_SSSE3_32x32, QuantizeTest,
+ ::testing::Values(make_tuple(&aom_quantize_b_32x32_c,
+ &aom_quantize_b_32x32_ssse3, TX_16X16, TYPE_B,
+ AOM_BITS_8)));
+
+#endif // HAVE_SSSE3 && ARCH_X86_64
+
+#if HAVE_AVX && ARCH_X86_64
+INSTANTIATE_TEST_CASE_P(
+ AVX, QuantizeTest,
+ ::testing::Values(
+ make_tuple(&aom_quantize_b_c, &aom_quantize_b_avx, TX_16X16, TYPE_B,
+ AOM_BITS_8),
+ // Although these tests will not pass against _c, test them against each
+ // other so there is some minor checking.
+ make_tuple(&aom_quantize_b_32x32_ssse3, &aom_quantize_b_32x32_avx,
+ TX_32X32, TYPE_B, AOM_BITS_8)));
+
+#endif // HAVE_AVX && ARCH_X86_64
+} // namespace
diff --git a/third_party/aom/test/reconinter_test.cc b/third_party/aom/test/reconinter_test.cc
new file mode 100644
index 0000000000..a8536e517c
--- /dev/null
+++ b/third_party/aom/test/reconinter_test.cc
@@ -0,0 +1,258 @@
+/*
+ * Copyright (c) 2017, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <stdint.h>
+#include <stdio.h>
+#include <string.h>
+
+#include "config/aom_config.h"
+#include "config/av1_rtcd.h"
+
+#include "aom_ports/mem.h"
+#include "av1/common/scan.h"
+#include "av1/common/txb_common.h"
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "test/util.h"
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+namespace {
+using libaom_test::ACMRandom;
+
+typedef void (*buildcompdiffwtdmaskd_func)(uint8_t *mask,
+ DIFFWTD_MASK_TYPE mask_type,
+ const uint8_t *src0, int src0_stride,
+ const uint8_t *src1, int src1_stride,
+ int h, int w);
+
+typedef ::testing::tuple<BLOCK_SIZE, buildcompdiffwtdmaskd_func>
+ BuildCompDiffwtdMaskDParam;
+
+#if HAVE_SSE4_1
+::testing::internal::ParamGenerator<BuildCompDiffwtdMaskDParam> BuildParams(
+ buildcompdiffwtdmaskd_func filter) {
+ return ::testing::Combine(::testing::Range(BLOCK_4X4, BLOCK_SIZES_ALL),
+ ::testing::Values(filter));
+}
+#endif
+
+class BuildCompDiffwtdMaskTest
+ : public ::testing::TestWithParam<BuildCompDiffwtdMaskDParam> {
+ public:
+ virtual ~BuildCompDiffwtdMaskTest() {}
+
+ virtual void TearDown() { libaom_test::ClearSystemState(); }
+ void RunTest(buildcompdiffwtdmaskd_func test_impl, const int is_speed,
+ const DIFFWTD_MASK_TYPE type);
+
+ private:
+ ACMRandom rnd_;
+};
+
+typedef void (*buildcompdiffwtdmaskd16_func)(
+ uint8_t *mask, DIFFWTD_MASK_TYPE mask_type, const CONV_BUF_TYPE *src0,
+ int src0_stride, const CONV_BUF_TYPE *src1, int src1_stride, int h, int w,
+ ConvolveParams *conv_params, int bd);
+
+typedef ::testing::tuple<int, buildcompdiffwtdmaskd16_func, BLOCK_SIZE>
+ BuildCompDiffwtdMaskD16Param;
+
+#if HAVE_SSE4_1 || HAVE_NEON
+::testing::internal::ParamGenerator<BuildCompDiffwtdMaskD16Param> BuildParams(
+ buildcompdiffwtdmaskd16_func filter) {
+ return ::testing::Combine(::testing::Range(8, 13, 2),
+ ::testing::Values(filter),
+ ::testing::Range(BLOCK_4X4, BLOCK_SIZES_ALL));
+}
+#endif
+class BuildCompDiffwtdMaskD16Test
+ : public ::testing::TestWithParam<BuildCompDiffwtdMaskD16Param> {
+ public:
+ ~BuildCompDiffwtdMaskD16Test() {}
+ virtual void TearDown() { libaom_test::ClearSystemState(); }
+ void SetUp() { rnd_.Reset(ACMRandom::DeterministicSeed()); }
+
+ protected:
+ void RunCheckOutput(buildcompdiffwtdmaskd16_func test_impl);
+ void RunSpeedTest(buildcompdiffwtdmaskd16_func test_impl,
+ DIFFWTD_MASK_TYPE mask_type);
+ libaom_test::ACMRandom rnd_;
+}; // class BuildCompDiffwtdMaskD16Test
+
+void BuildCompDiffwtdMaskD16Test::RunCheckOutput(
+ buildcompdiffwtdmaskd16_func test_impl) {
+ const int block_idx = GET_PARAM(2);
+ const int bd = GET_PARAM(0);
+ const int width = block_size_wide[block_idx];
+ const int height = block_size_high[block_idx];
+ DECLARE_ALIGNED(16, uint8_t, mask_ref[2 * MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(16, uint8_t, mask_test[2 * MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, uint16_t, src0[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, uint16_t, src1[MAX_SB_SQUARE]);
+
+ ConvolveParams conv_params = get_conv_params_no_round(0, 0, NULL, 0, 1, bd);
+
+ int in_precision =
+ bd + 2 * FILTER_BITS - conv_params.round_0 - conv_params.round_1 + 2;
+
+ for (int i = 0; i < MAX_SB_SQUARE; i++) {
+ src0[i] = rnd_.Rand16() & ((1 << in_precision) - 1);
+ src1[i] = rnd_.Rand16() & ((1 << in_precision) - 1);
+ }
+
+ for (int mask_type = 0; mask_type < DIFFWTD_MASK_TYPES; mask_type++) {
+ av1_build_compound_diffwtd_mask_d16_c(
+ mask_ref, (DIFFWTD_MASK_TYPE)mask_type, src0, width, src1, width,
+ height, width, &conv_params, bd);
+
+ test_impl(mask_test, (DIFFWTD_MASK_TYPE)mask_type, src0, width, src1, width,
+ height, width, &conv_params, bd);
+
+ for (int r = 0; r < height; ++r) {
+ for (int c = 0; c < width; ++c) {
+ ASSERT_EQ(mask_ref[c + r * width], mask_test[c + r * width])
+ << "Mismatch at unit tests for BuildCompDiffwtdMaskD16Test\n"
+ << " Pixel mismatch at index "
+ << "[" << r << "," << c << "] "
+ << " @ " << width << "x" << height << " inv " << mask_type;
+ }
+ }
+ }
+}
+
+void BuildCompDiffwtdMaskD16Test::RunSpeedTest(
+ buildcompdiffwtdmaskd16_func test_impl, DIFFWTD_MASK_TYPE mask_type) {
+ const int block_idx = GET_PARAM(2);
+ const int bd = GET_PARAM(0);
+ const int width = block_size_wide[block_idx];
+ const int height = block_size_high[block_idx];
+ DECLARE_ALIGNED(16, uint8_t, mask[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, uint16_t, src0[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(32, uint16_t, src1[MAX_SB_SQUARE]);
+
+ ConvolveParams conv_params = get_conv_params_no_round(0, 0, NULL, 0, 1, bd);
+
+ int in_precision =
+ bd + 2 * FILTER_BITS - conv_params.round_0 - conv_params.round_1 + 2;
+
+ for (int i = 0; i < MAX_SB_SQUARE; i++) {
+ src0[i] = rnd_.Rand16() & ((1 << in_precision) - 1);
+ src1[i] = rnd_.Rand16() & ((1 << in_precision) - 1);
+ }
+
+ const int num_loops = 10000000 / (width + height);
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+
+ for (int i = 0; i < num_loops; ++i)
+ av1_build_compound_diffwtd_mask_d16_c(mask, mask_type, src0, width, src1,
+ width, height, width, &conv_params,
+ bd);
+
+ aom_usec_timer_mark(&timer);
+ const int elapsed_time = static_cast<int>(aom_usec_timer_elapsed(&timer));
+
+ aom_usec_timer timer1;
+ aom_usec_timer_start(&timer1);
+
+ for (int i = 0; i < num_loops; ++i)
+ test_impl(mask, mask_type, src0, width, src1, width, height, width,
+ &conv_params, bd);
+
+ aom_usec_timer_mark(&timer1);
+ const int elapsed_time1 = static_cast<int>(aom_usec_timer_elapsed(&timer1));
+ printf("av1_build_compound_diffwtd_mask_d16 %3dx%-3d: %7.2f \n", width,
+ height, elapsed_time / double(elapsed_time1));
+}
+#if HAVE_SSE4_1
+void BuildCompDiffwtdMaskTest::RunTest(buildcompdiffwtdmaskd_func test_impl,
+ const int is_speed,
+ const DIFFWTD_MASK_TYPE type) {
+ const int sb_type = GET_PARAM(0);
+ const int width = block_size_wide[sb_type];
+ const int height = block_size_high[sb_type];
+ DECLARE_ALIGNED(16, uint8_t, mask_ref[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(16, uint8_t, mask_test[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(16, uint8_t, src0[MAX_SB_SQUARE]);
+ DECLARE_ALIGNED(16, uint8_t, src1[MAX_SB_SQUARE]);
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ for (int i = 0; i < width * height; i++) {
+ src0[i] = rnd.Rand8();
+ src1[i] = rnd.Rand8();
+ }
+ const int run_times = is_speed ? (10000000 / (width + height)) : 1;
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+ for (int i = 0; i < run_times; ++i) {
+ av1_build_compound_diffwtd_mask_c(mask_ref, type, src0, width, src1, width,
+ height, width);
+ }
+ const double t1 = get_time_mark(&timer);
+ aom_usec_timer_start(&timer);
+ for (int i = 0; i < run_times; ++i) {
+ test_impl(mask_test, type, src0, width, src1, width, height, width);
+ }
+ const double t2 = get_time_mark(&timer);
+ if (is_speed) {
+ printf("mask %d %3dx%-3d:%7.2f/%7.2fns", type, width, height, t1, t2);
+ printf("(%3.2f)\n", t1 / t2);
+ }
+ for (int r = 0; r < height; ++r) {
+ for (int c = 0; c < width; ++c) {
+ ASSERT_EQ(mask_ref[c + r * width], mask_test[c + r * width])
+ << "[" << r << "," << c << "] " << run_times << " @ " << width << "x"
+ << height << " inv " << type;
+ }
+ }
+}
+
+TEST_P(BuildCompDiffwtdMaskTest, match) {
+ RunTest(GET_PARAM(1), 0, DIFFWTD_38);
+ RunTest(GET_PARAM(1), 0, DIFFWTD_38_INV);
+}
+TEST_P(BuildCompDiffwtdMaskTest, DISABLED_Speed) {
+ RunTest(GET_PARAM(1), 1, DIFFWTD_38);
+ RunTest(GET_PARAM(1), 1, DIFFWTD_38_INV);
+}
+#endif
+TEST_P(BuildCompDiffwtdMaskD16Test, CheckOutput) {
+ RunCheckOutput(GET_PARAM(1));
+}
+
+TEST_P(BuildCompDiffwtdMaskD16Test, DISABLED_Speed) {
+ RunSpeedTest(GET_PARAM(1), DIFFWTD_38);
+ RunSpeedTest(GET_PARAM(1), DIFFWTD_38_INV);
+}
+
+#if HAVE_SSE4_1
+INSTANTIATE_TEST_CASE_P(SSE4_1, BuildCompDiffwtdMaskTest,
+ BuildParams(av1_build_compound_diffwtd_mask_sse4_1));
+
+INSTANTIATE_TEST_CASE_P(
+ SSE4_1, BuildCompDiffwtdMaskD16Test,
+ BuildParams(av1_build_compound_diffwtd_mask_d16_sse4_1));
+#endif
+
+#if HAVE_AVX2
+INSTANTIATE_TEST_CASE_P(AVX2, BuildCompDiffwtdMaskTest,
+ BuildParams(av1_build_compound_diffwtd_mask_avx2));
+
+INSTANTIATE_TEST_CASE_P(AVX2, BuildCompDiffwtdMaskD16Test,
+ BuildParams(av1_build_compound_diffwtd_mask_d16_avx2));
+#endif
+
+#if HAVE_NEON
+INSTANTIATE_TEST_CASE_P(NEON, BuildCompDiffwtdMaskD16Test,
+ BuildParams(av1_build_compound_diffwtd_mask_d16_neon));
+#endif
+
+} // namespace
diff --git a/third_party/aom/test/register_state_check.h b/third_party/aom/test/register_state_check.h
new file mode 100644
index 0000000000..d404621dd7
--- /dev/null
+++ b/third_party/aom/test/register_state_check.h
@@ -0,0 +1,148 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#ifndef AOM_TEST_REGISTER_STATE_CHECK_H_
+#define AOM_TEST_REGISTER_STATE_CHECK_H_
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_config.h"
+
+#include "aom/aom_integer.h"
+
+// ASM_REGISTER_STATE_CHECK(asm_function)
+// Minimally validates the environment pre & post function execution. This
+// variant should be used with assembly functions which are not expected to
+// fully restore the system state. See platform implementations of
+// RegisterStateCheck for details.
+//
+// API_REGISTER_STATE_CHECK(api_function)
+// Performs all the checks done by ASM_REGISTER_STATE_CHECK() and any
+// additional checks to ensure the environment is in a consistent state pre &
+// post function execution. This variant should be used with API functions.
+// See platform implementations of RegisterStateCheckXXX for details.
+//
+
+#if defined(_WIN64) && ARCH_X86_64
+
+#undef NOMINMAX
+#define NOMINMAX
+#define WIN32_LEAN_AND_MEAN
+#include <windows.h>
+#include <winnt.h>
+
+inline bool operator==(const M128A &lhs, const M128A &rhs) {
+ return (lhs.Low == rhs.Low && lhs.High == rhs.High);
+}
+
+namespace libaom_test {
+
+// Compares the state of xmm[6-15] at construction with their state at
+// destruction. These registers should be preserved by the callee on
+// Windows x64.
+class RegisterStateCheck {
+ public:
+ RegisterStateCheck() { initialized_ = StoreRegisters(&pre_context_); }
+ ~RegisterStateCheck() { Check(); }
+
+ private:
+ static bool StoreRegisters(CONTEXT *const context) {
+ const HANDLE this_thread = GetCurrentThread();
+ EXPECT_TRUE(this_thread != NULL);
+ context->ContextFlags = CONTEXT_FLOATING_POINT;
+ const bool context_saved = GetThreadContext(this_thread, context) == TRUE;
+ EXPECT_TRUE(context_saved) << "GetLastError: " << GetLastError();
+ return context_saved;
+ }
+
+ // Compares the register state. Returns true if the states match.
+ void Check() const {
+ ASSERT_TRUE(initialized_);
+ CONTEXT post_context;
+ ASSERT_TRUE(StoreRegisters(&post_context));
+
+ const M128A *xmm_pre = &pre_context_.Xmm6;
+ const M128A *xmm_post = &post_context.Xmm6;
+ for (int i = 6; i <= 15; ++i) {
+ EXPECT_EQ(*xmm_pre, *xmm_post) << "xmm" << i << " has been modified!";
+ ++xmm_pre;
+ ++xmm_post;
+ }
+ }
+
+ bool initialized_;
+ CONTEXT pre_context_;
+};
+
+#define ASM_REGISTER_STATE_CHECK(statement) \
+ do { \
+ libaom_test::RegisterStateCheck reg_check; \
+ statement; \
+ } while (false)
+
+} // namespace libaom_test
+
+#else
+
+namespace libaom_test {
+
+class RegisterStateCheck {};
+#define ASM_REGISTER_STATE_CHECK(statement) statement
+
+} // namespace libaom_test
+
+#endif // _WIN64 && ARCH_X86_64
+
+#if ARCH_X86 || ARCH_X86_64
+#if defined(__GNUC__)
+
+namespace libaom_test {
+
+// Checks the FPU tag word pre/post execution to ensure emms has been called.
+class RegisterStateCheckMMX {
+ public:
+ RegisterStateCheckMMX() {
+ __asm__ volatile("fstenv %0" : "=rm"(pre_fpu_env_));
+ }
+ ~RegisterStateCheckMMX() { Check(); }
+
+ private:
+ // Checks the FPU tag word pre/post execution, returning false if not cleared
+ // to 0xffff.
+ void Check() const {
+ EXPECT_EQ(0xffff, pre_fpu_env_[4])
+ << "FPU was in an inconsistent state prior to call";
+
+ uint16_t post_fpu_env[14];
+ __asm__ volatile("fstenv %0" : "=rm"(post_fpu_env));
+ EXPECT_EQ(0xffff, post_fpu_env[4])
+ << "FPU was left in an inconsistent state after call";
+ }
+
+ uint16_t pre_fpu_env_[14];
+};
+
+#define API_REGISTER_STATE_CHECK(statement) \
+ do { \
+ libaom_test::RegisterStateCheckMMX reg_check; \
+ ASM_REGISTER_STATE_CHECK(statement); \
+ } while (false)
+
+} // namespace libaom_test
+
+#endif // __GNUC__
+#endif // ARCH_X86 || ARCH_X86_64
+
+#ifndef API_REGISTER_STATE_CHECK
+#define API_REGISTER_STATE_CHECK ASM_REGISTER_STATE_CHECK
+#endif
+
+#endif // AOM_TEST_REGISTER_STATE_CHECK_H_
diff --git a/third_party/aom/test/resize_test.cc b/third_party/aom/test/resize_test.cc
new file mode 100644
index 0000000000..b270b8362f
--- /dev/null
+++ b/third_party/aom/test/resize_test.cc
@@ -0,0 +1,642 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <climits>
+#include <vector>
+#include "aom_dsp/aom_dsp_common.h"
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/codec_factory.h"
+#include "test/encode_test_driver.h"
+#include "test/i420_video_source.h"
+#include "test/video_source.h"
+#include "test/util.h"
+
+// Enable(1) or Disable(0) writing of the compressed bitstream.
+#define WRITE_COMPRESSED_STREAM 0
+
+namespace {
+
+#if WRITE_COMPRESSED_STREAM
+static void mem_put_le16(char *const mem, unsigned int val) {
+ mem[0] = val;
+ mem[1] = val >> 8;
+}
+
+static void mem_put_le32(char *const mem, unsigned int val) {
+ mem[0] = val;
+ mem[1] = val >> 8;
+ mem[2] = val >> 16;
+ mem[3] = val >> 24;
+}
+
+static void write_ivf_file_header(const aom_codec_enc_cfg_t *const cfg,
+ int frame_cnt, FILE *const outfile) {
+ char header[32];
+
+ header[0] = 'D';
+ header[1] = 'K';
+ header[2] = 'I';
+ header[3] = 'F';
+ mem_put_le16(header + 4, 0); /* version */
+ mem_put_le16(header + 6, 32); /* headersize */
+ mem_put_le32(header + 8, 0x30395056); /* fourcc (av1) */
+ mem_put_le16(header + 12, cfg->g_w); /* width */
+ mem_put_le16(header + 14, cfg->g_h); /* height */
+ mem_put_le32(header + 16, cfg->g_timebase.den); /* rate */
+ mem_put_le32(header + 20, cfg->g_timebase.num); /* scale */
+ mem_put_le32(header + 24, frame_cnt); /* length */
+ mem_put_le32(header + 28, 0); /* unused */
+
+ (void)fwrite(header, 1, 32, outfile);
+}
+
+static void write_ivf_frame_size(FILE *const outfile, const size_t size) {
+ char header[4];
+ mem_put_le32(header, static_cast<unsigned int>(size));
+ (void)fwrite(header, 1, 4, outfile);
+}
+
+static void write_ivf_frame_header(const aom_codec_cx_pkt_t *const pkt,
+ FILE *const outfile) {
+ char header[12];
+ aom_codec_pts_t pts;
+
+ if (pkt->kind != AOM_CODEC_CX_FRAME_PKT) return;
+
+ pts = pkt->data.frame.pts;
+ mem_put_le32(header, static_cast<unsigned int>(pkt->data.frame.sz));
+ mem_put_le32(header + 4, pts & 0xFFFFFFFF);
+ mem_put_le32(header + 8, pts >> 32);
+
+ (void)fwrite(header, 1, 12, outfile);
+}
+#endif // WRITE_COMPRESSED_STREAM
+
+const unsigned int kInitialWidth = 320;
+const unsigned int kInitialHeight = 240;
+
+struct FrameInfo {
+ FrameInfo(aom_codec_pts_t _pts, unsigned int _w, unsigned int _h)
+ : pts(_pts), w(_w), h(_h) {}
+
+ aom_codec_pts_t pts;
+ unsigned int w;
+ unsigned int h;
+};
+
+void ScaleForFrameNumber(unsigned int frame, unsigned int initial_w,
+ unsigned int initial_h, unsigned int *w,
+ unsigned int *h, int flag_codec) {
+ if (frame < 10) {
+ *w = initial_w;
+ *h = initial_h;
+ return;
+ }
+ if (frame < 20) {
+ *w = initial_w * 3 / 4;
+ *h = initial_h * 3 / 4;
+ return;
+ }
+ if (frame < 30) {
+ *w = initial_w / 2;
+ *h = initial_h / 2;
+ return;
+ }
+ if (frame < 40) {
+ *w = initial_w;
+ *h = initial_h;
+ return;
+ }
+ if (frame < 50) {
+ *w = initial_w * 3 / 4;
+ *h = initial_h * 3 / 4;
+ return;
+ }
+ if (frame < 60) {
+ *w = initial_w / 2;
+ *h = initial_h / 2;
+ return;
+ }
+ if (frame < 70) {
+ *w = initial_w;
+ *h = initial_h;
+ return;
+ }
+ if (frame < 80) {
+ *w = initial_w * 3 / 4;
+ *h = initial_h * 3 / 4;
+ return;
+ }
+ if (frame < 90) {
+ *w = initial_w / 2;
+ *h = initial_h / 2;
+ return;
+ }
+ if (frame < 100) {
+ *w = initial_w * 3 / 4;
+ *h = initial_h * 3 / 4;
+ return;
+ }
+ if (frame < 110) {
+ *w = initial_w;
+ *h = initial_h;
+ return;
+ }
+ // Go down very low
+ if (frame < 120) {
+ *w = initial_w / 4;
+ *h = initial_h / 4;
+ return;
+ }
+ if (flag_codec == 1) {
+ // Cases that only works for AV1.
+ // For AV1: Swap width and height of original.
+ if (frame < 140) {
+ *w = initial_h;
+ *h = initial_w;
+ return;
+ }
+ }
+ *w = initial_w;
+ *h = initial_h;
+}
+
+class ResizingVideoSource : public ::libaom_test::DummyVideoSource {
+ public:
+ ResizingVideoSource() {
+ SetSize(kInitialWidth, kInitialHeight);
+ limit_ = 150;
+ }
+ int flag_codec_;
+ virtual ~ResizingVideoSource() {}
+
+ protected:
+ virtual void Next() {
+ ++frame_;
+ unsigned int width;
+ unsigned int height;
+ ScaleForFrameNumber(frame_, kInitialWidth, kInitialHeight, &width, &height,
+ flag_codec_);
+ SetSize(width, height);
+ FillFrame();
+ }
+};
+
+class ResizeTest
+ : public ::libaom_test::CodecTestWithParam<libaom_test::TestMode>,
+ public ::libaom_test::EncoderTest {
+ protected:
+ ResizeTest() : EncoderTest(GET_PARAM(0)) {}
+
+ virtual ~ResizeTest() {}
+
+ virtual void SetUp() {
+ InitializeConfig();
+ SetMode(GET_PARAM(1));
+ }
+
+ virtual void DecompressedFrameHook(const aom_image_t &img,
+ aom_codec_pts_t pts) {
+ frame_info_list_.push_back(FrameInfo(pts, img.d_w, img.d_h));
+ }
+
+ std::vector<FrameInfo> frame_info_list_;
+};
+
+TEST_P(ResizeTest, TestExternalResizeWorks) {
+ ResizingVideoSource video;
+ video.flag_codec_ = 0;
+ cfg_.g_lag_in_frames = 0;
+ // We use max(kInitialWidth, kInitialHeight) because during the test
+ // the width and height of the frame are swapped
+ cfg_.g_forced_max_frame_width = cfg_.g_forced_max_frame_height =
+ AOMMAX(kInitialWidth, kInitialHeight);
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+
+ // Check we decoded the same number of frames as we attempted to encode
+ ASSERT_EQ(frame_info_list_.size(), video.limit());
+
+ for (std::vector<FrameInfo>::const_iterator info = frame_info_list_.begin();
+ info != frame_info_list_.end(); ++info) {
+ const unsigned int frame = static_cast<unsigned>(info->pts);
+ unsigned int expected_w;
+ unsigned int expected_h;
+ ScaleForFrameNumber(frame, kInitialWidth, kInitialHeight, &expected_w,
+ &expected_h, 0);
+ EXPECT_EQ(expected_w, info->w)
+ << "Frame " << frame << " had unexpected width";
+ EXPECT_EQ(expected_h, info->h)
+ << "Frame " << frame << " had unexpected height";
+ }
+}
+
+const unsigned int kStepDownFrame = 3;
+const unsigned int kStepUpFrame = 6;
+
+class ResizeInternalTestLarge : public ResizeTest {
+ protected:
+#if WRITE_COMPRESSED_STREAM
+ ResizeInternalTestLarge()
+ : ResizeTest(), frame0_psnr_(0.0), outfile_(NULL), out_frames_(0) {}
+#else
+ ResizeInternalTestLarge() : ResizeTest(), frame0_psnr_(0.0) {}
+#endif
+
+ virtual ~ResizeInternalTestLarge() {}
+
+ virtual void BeginPassHook(unsigned int /*pass*/) {
+#if WRITE_COMPRESSED_STREAM
+ outfile_ = fopen("av10-2-05-resize.ivf", "wb");
+#endif
+ }
+
+ virtual void EndPassHook() {
+#if WRITE_COMPRESSED_STREAM
+ if (outfile_) {
+ if (!fseek(outfile_, 0, SEEK_SET))
+ write_ivf_file_header(&cfg_, out_frames_, outfile_);
+ fclose(outfile_);
+ outfile_ = NULL;
+ }
+#endif
+ }
+
+ virtual void PreEncodeFrameHook(libaom_test::VideoSource *video,
+ libaom_test::Encoder *encoder) {
+ if (change_config_) {
+ int new_q = 60;
+ if (video->frame() == 0) {
+ struct aom_scaling_mode mode = { AOME_ONETWO, AOME_ONETWO };
+ encoder->Control(AOME_SET_SCALEMODE, &mode);
+ }
+ if (video->frame() == 1) {
+ struct aom_scaling_mode mode = { AOME_NORMAL, AOME_NORMAL };
+ encoder->Control(AOME_SET_SCALEMODE, &mode);
+ cfg_.rc_min_quantizer = cfg_.rc_max_quantizer = new_q;
+ encoder->Config(&cfg_);
+ }
+ } else {
+ if (video->frame() >= kStepDownFrame && video->frame() < kStepUpFrame) {
+ struct aom_scaling_mode mode = { AOME_FOURFIVE, AOME_THREEFIVE };
+ encoder->Control(AOME_SET_SCALEMODE, &mode);
+ }
+ if (video->frame() >= kStepUpFrame) {
+ struct aom_scaling_mode mode = { AOME_NORMAL, AOME_NORMAL };
+ encoder->Control(AOME_SET_SCALEMODE, &mode);
+ }
+ }
+ }
+
+ virtual void PSNRPktHook(const aom_codec_cx_pkt_t *pkt) {
+ if (frame0_psnr_ == 0.) frame0_psnr_ = pkt->data.psnr.psnr[0];
+ EXPECT_NEAR(pkt->data.psnr.psnr[0], frame0_psnr_, 2.5);
+ }
+
+#if WRITE_COMPRESSED_STREAM
+ virtual void FramePktHook(const aom_codec_cx_pkt_t *pkt) {
+ ++out_frames_;
+
+ // Write initial file header if first frame.
+ if (pkt->data.frame.pts == 0) write_ivf_file_header(&cfg_, 0, outfile_);
+
+ // Write frame header and data.
+ write_ivf_frame_header(pkt, outfile_);
+ (void)fwrite(pkt->data.frame.buf, 1, pkt->data.frame.sz, outfile_);
+ }
+#endif
+
+ double frame0_psnr_;
+ bool change_config_;
+#if WRITE_COMPRESSED_STREAM
+ FILE *outfile_;
+ unsigned int out_frames_;
+#endif
+};
+
+TEST_P(ResizeInternalTestLarge, TestInternalResizeWorks) {
+ ::libaom_test::I420VideoSource video("hantro_collage_w352h288.yuv", 352, 288,
+ 30, 1, 0, 10);
+ init_flags_ = AOM_CODEC_USE_PSNR;
+ change_config_ = false;
+
+ // q picked such that initial keyframe on this clip is ~30dB PSNR
+ cfg_.rc_min_quantizer = cfg_.rc_max_quantizer = 48;
+
+ // If the number of frames being encoded is smaller than g_lag_in_frames
+ // the encoded frame is unavailable using the current API. Comparing
+ // frames to detect mismatch would then not be possible. Set
+ // g_lag_in_frames = 0 to get around this.
+ cfg_.g_lag_in_frames = 0;
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+
+ for (std::vector<FrameInfo>::const_iterator info = frame_info_list_.begin();
+ info != frame_info_list_.end(); ++info) {
+ }
+ for (std::vector<FrameInfo>::const_iterator info = frame_info_list_.begin();
+ info != frame_info_list_.end(); ++info) {
+ const aom_codec_pts_t pts = info->pts;
+ if (pts >= kStepDownFrame && pts < kStepUpFrame) {
+ ASSERT_EQ(282U, info->w) << "Frame " << pts << " had unexpected width";
+ ASSERT_EQ(173U, info->h) << "Frame " << pts << " had unexpected height";
+ } else {
+ EXPECT_EQ(352U, info->w) << "Frame " << pts << " had unexpected width";
+ EXPECT_EQ(288U, info->h) << "Frame " << pts << " had unexpected height";
+ }
+ }
+}
+
+TEST_P(ResizeInternalTestLarge, TestInternalResizeChangeConfig) {
+ ::libaom_test::I420VideoSource video("hantro_collage_w352h288.yuv", 352, 288,
+ 30, 1, 0, 10);
+ cfg_.g_w = 352;
+ cfg_.g_h = 288;
+ change_config_ = true;
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+}
+
+class ResizeRealtimeTest
+ : public ::libaom_test::CodecTestWith2Params<libaom_test::TestMode, int>,
+ public ::libaom_test::EncoderTest {
+ protected:
+ ResizeRealtimeTest() : EncoderTest(GET_PARAM(0)) {}
+ virtual ~ResizeRealtimeTest() {}
+
+ virtual void PreEncodeFrameHook(libaom_test::VideoSource *video,
+ libaom_test::Encoder *encoder) {
+ if (video->frame() == 0) {
+ encoder->Control(AV1E_SET_AQ_MODE, 3);
+ encoder->Control(AOME_SET_CPUUSED, set_cpu_used_);
+ }
+
+ if (change_bitrate_ && video->frame() == 120) {
+ change_bitrate_ = false;
+ cfg_.rc_target_bitrate = 500;
+ encoder->Config(&cfg_);
+ }
+ }
+
+ virtual void SetUp() {
+ InitializeConfig();
+ SetMode(GET_PARAM(1));
+ set_cpu_used_ = GET_PARAM(2);
+ }
+
+ virtual void DecompressedFrameHook(const aom_image_t &img,
+ aom_codec_pts_t pts) {
+ frame_info_list_.push_back(FrameInfo(pts, img.d_w, img.d_h));
+ }
+
+ virtual void MismatchHook(const aom_image_t *img1, const aom_image_t *img2) {
+ double mismatch_psnr = compute_psnr(img1, img2);
+ mismatch_psnr_ += mismatch_psnr;
+ ++mismatch_nframes_;
+ }
+
+ unsigned int GetMismatchFrames() { return mismatch_nframes_; }
+
+ void DefaultConfig() {
+ cfg_.rc_buf_initial_sz = 500;
+ cfg_.rc_buf_optimal_sz = 600;
+ cfg_.rc_buf_sz = 1000;
+ cfg_.rc_min_quantizer = 2;
+ cfg_.rc_max_quantizer = 56;
+ cfg_.rc_undershoot_pct = 50;
+ cfg_.rc_overshoot_pct = 50;
+ cfg_.rc_end_usage = AOM_CBR;
+ cfg_.kf_mode = AOM_KF_AUTO;
+ cfg_.g_lag_in_frames = 0;
+ cfg_.kf_min_dist = cfg_.kf_max_dist = 3000;
+ // Enable dropped frames.
+ cfg_.rc_dropframe_thresh = 1;
+ // Disable error_resilience mode.
+ cfg_.g_error_resilient = 0;
+ // Run at low bitrate.
+ cfg_.rc_target_bitrate = 200;
+ // We use max(kInitialWidth, kInitialHeight) because during the test
+ // the width and height of the frame are swapped
+ cfg_.g_forced_max_frame_width = cfg_.g_forced_max_frame_height =
+ AOMMAX(kInitialWidth, kInitialHeight);
+ }
+
+ std::vector<FrameInfo> frame_info_list_;
+ int set_cpu_used_;
+ bool change_bitrate_;
+ double mismatch_psnr_;
+ int mismatch_nframes_;
+};
+
+TEST_P(ResizeRealtimeTest, TestExternalResizeWorks) {
+ ResizingVideoSource video;
+ video.flag_codec_ = 1;
+ DefaultConfig();
+ change_bitrate_ = false;
+ mismatch_psnr_ = 0.0;
+ mismatch_nframes_ = 0;
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+
+ // Check we decoded the same number of frames as we attempted to encode
+ ASSERT_EQ(frame_info_list_.size(), video.limit());
+
+ for (std::vector<FrameInfo>::const_iterator info = frame_info_list_.begin();
+ info != frame_info_list_.end(); ++info) {
+ const unsigned int frame = static_cast<unsigned>(info->pts);
+ unsigned int expected_w;
+ unsigned int expected_h;
+ ScaleForFrameNumber(frame, kInitialWidth, kInitialHeight, &expected_w,
+ &expected_h, 1);
+ EXPECT_EQ(expected_w, info->w)
+ << "Frame " << frame << " had unexpected width";
+ EXPECT_EQ(expected_h, info->h)
+ << "Frame " << frame << " had unexpected height";
+ EXPECT_EQ(static_cast<unsigned int>(0), GetMismatchFrames());
+ }
+}
+
+// Verify the dynamic resizer behavior for real time, 1 pass CBR mode.
+// Run at low bitrate, with resize_allowed = 1, and verify that we get
+// one resize down event.
+TEST_P(ResizeRealtimeTest, DISABLED_TestInternalResizeDown) {
+ ::libaom_test::I420VideoSource video("hantro_collage_w352h288.yuv", 352, 288,
+ 30, 1, 0, 299);
+ DefaultConfig();
+ cfg_.g_w = 352;
+ cfg_.g_h = 288;
+ change_bitrate_ = false;
+ mismatch_psnr_ = 0.0;
+ mismatch_nframes_ = 0;
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+
+ unsigned int last_w = cfg_.g_w;
+ unsigned int last_h = cfg_.g_h;
+ int resize_count = 0;
+ for (std::vector<FrameInfo>::const_iterator info = frame_info_list_.begin();
+ info != frame_info_list_.end(); ++info) {
+ if (info->w != last_w || info->h != last_h) {
+ // Verify that resize down occurs.
+ ASSERT_LT(info->w, last_w);
+ ASSERT_LT(info->h, last_h);
+ last_w = info->w;
+ last_h = info->h;
+ resize_count++;
+ }
+ }
+
+#if CONFIG_AV1_DECODER
+ // Verify that we get 1 resize down event in this test.
+ ASSERT_EQ(1, resize_count) << "Resizing should occur.";
+ EXPECT_EQ(static_cast<unsigned int>(0), GetMismatchFrames());
+#else
+ printf("Warning: AV1 decoder unavailable, unable to check resize count!\n");
+#endif
+}
+
+// Verify the dynamic resizer behavior for real time, 1 pass CBR mode.
+// Start at low target bitrate, raise the bitrate in the middle of the clip,
+// scaling-up should occur after bitrate changed.
+TEST_P(ResizeRealtimeTest, DISABLED_TestInternalResizeDownUpChangeBitRate) {
+ ::libaom_test::I420VideoSource video("hantro_collage_w352h288.yuv", 352, 288,
+ 30, 1, 0, 359);
+ DefaultConfig();
+ cfg_.g_w = 352;
+ cfg_.g_h = 288;
+ change_bitrate_ = true;
+ mismatch_psnr_ = 0.0;
+ mismatch_nframes_ = 0;
+ // Disable dropped frames.
+ cfg_.rc_dropframe_thresh = 0;
+ // Starting bitrate low.
+ cfg_.rc_target_bitrate = 80;
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+
+ unsigned int last_w = cfg_.g_w;
+ unsigned int last_h = cfg_.g_h;
+ int resize_count = 0;
+ for (std::vector<FrameInfo>::const_iterator info = frame_info_list_.begin();
+ info != frame_info_list_.end(); ++info) {
+ if (info->w != last_w || info->h != last_h) {
+ resize_count++;
+ if (resize_count == 1) {
+ // Verify that resize down occurs.
+ ASSERT_LT(info->w, last_w);
+ ASSERT_LT(info->h, last_h);
+ } else if (resize_count == 2) {
+ // Verify that resize up occurs.
+ ASSERT_GT(info->w, last_w);
+ ASSERT_GT(info->h, last_h);
+ }
+ last_w = info->w;
+ last_h = info->h;
+ }
+ }
+
+#if CONFIG_AV1_DECODER
+ // Verify that we get 2 resize events in this test.
+ ASSERT_EQ(resize_count, 2) << "Resizing should occur twice.";
+ EXPECT_EQ(static_cast<unsigned int>(0), GetMismatchFrames());
+#else
+ printf("Warning: AV1 decoder unavailable, unable to check resize count!\n");
+#endif
+}
+
+class ResizeCspTest : public ResizeTest {
+ protected:
+#if WRITE_COMPRESSED_STREAM
+ ResizeCspTest()
+ : ResizeTest(), frame0_psnr_(0.0), outfile_(NULL), out_frames_(0) {}
+#else
+ ResizeCspTest() : ResizeTest(), frame0_psnr_(0.0) {}
+#endif
+
+ virtual ~ResizeCspTest() {}
+
+ virtual void BeginPassHook(unsigned int /*pass*/) {
+#if WRITE_COMPRESSED_STREAM
+ outfile_ = fopen("av11-2-05-cspchape.ivf", "wb");
+#endif
+ }
+
+ virtual void EndPassHook() {
+#if WRITE_COMPRESSED_STREAM
+ if (outfile_) {
+ if (!fseek(outfile_, 0, SEEK_SET))
+ write_ivf_file_header(&cfg_, out_frames_, outfile_);
+ fclose(outfile_);
+ outfile_ = NULL;
+ }
+#endif
+ }
+
+ virtual void PSNRPktHook(const aom_codec_cx_pkt_t *pkt) {
+ if (frame0_psnr_ == 0.) frame0_psnr_ = pkt->data.psnr.psnr[0];
+ EXPECT_NEAR(pkt->data.psnr.psnr[0], frame0_psnr_, 2.0);
+ }
+
+#if WRITE_COMPRESSED_STREAM
+ virtual void FramePktHook(const aom_codec_cx_pkt_t *pkt) {
+ ++out_frames_;
+
+ // Write initial file header if first frame.
+ if (pkt->data.frame.pts == 0) write_ivf_file_header(&cfg_, 0, outfile_);
+
+ // Write frame header and data.
+ write_ivf_frame_header(pkt, outfile_);
+ (void)fwrite(pkt->data.frame.buf, 1, pkt->data.frame.sz, outfile_);
+ }
+#endif
+
+ double frame0_psnr_;
+#if WRITE_COMPRESSED_STREAM
+ FILE *outfile_;
+ unsigned int out_frames_;
+#endif
+};
+
+class ResizingCspVideoSource : public ::libaom_test::DummyVideoSource {
+ public:
+ explicit ResizingCspVideoSource(aom_img_fmt_t image_format) {
+ SetSize(kInitialWidth, kInitialHeight);
+ SetImageFormat(image_format);
+ limit_ = 30;
+ }
+
+ virtual ~ResizingCspVideoSource() {}
+};
+
+#if (defined(DISABLE_TRELLISQ_SEARCH) && DISABLE_TRELLISQ_SEARCH)
+TEST_P(ResizeCspTest, DISABLED_TestResizeCspWorks) {
+#else
+TEST_P(ResizeCspTest, TestResizeCspWorks) {
+#endif
+ const aom_img_fmt_t image_formats[] = { AOM_IMG_FMT_I420, AOM_IMG_FMT_I444 };
+ for (size_t i = 0; i < GTEST_ARRAY_SIZE_(image_formats); ++i) {
+ ResizingCspVideoSource video(image_formats[i]);
+ init_flags_ = AOM_CODEC_USE_PSNR;
+ cfg_.rc_min_quantizer = cfg_.rc_max_quantizer = 48;
+ cfg_.g_lag_in_frames = 0;
+ cfg_.g_profile = (image_formats[i] == AOM_IMG_FMT_I420) ? 0 : 1;
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+
+ // Check we decoded the same number of frames as we attempted to encode
+ ASSERT_EQ(frame_info_list_.size(), video.limit());
+ frame_info_list_.clear();
+ }
+}
+
+AV1_INSTANTIATE_TEST_CASE(ResizeTest,
+ ::testing::Values(::libaom_test::kRealTime));
+AV1_INSTANTIATE_TEST_CASE(ResizeInternalTestLarge,
+ ::testing::Values(::libaom_test::kOnePassGood));
+AV1_INSTANTIATE_TEST_CASE(ResizeRealtimeTest,
+ ::testing::Values(::libaom_test::kRealTime),
+ ::testing::Range(5, 9));
+AV1_INSTANTIATE_TEST_CASE(ResizeCspTest,
+ ::testing::Values(::libaom_test::kRealTime));
+} // namespace
diff --git a/third_party/aom/test/run_encodes.sh b/third_party/aom/test/run_encodes.sh
new file mode 100755
index 0000000000..2096d8b158
--- /dev/null
+++ b/third_party/aom/test/run_encodes.sh
@@ -0,0 +1,39 @@
+#!/bin/bash
+#
+# Copyright (c) 2016, Alliance for Open Media. All rights reserved.
+#
+# This source code is subject to the terms of the BSD 2 Clause License and
+# the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+# was not distributed with this source code in the LICENSE file, you can
+# obtain it at www.aomedia.org/license/software. If the Alliance for Open
+# Media Patent License 1.0 was not distributed with this source code in the
+# PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+#
+# Author: jimbankoski@google.com (Jim Bankoski)
+
+if [[ $# -ne 4 ]]; then
+ echo Encodes all the y4m files in the directory at the bitrates specified by
+ echo the first 3 parameters and stores the results in a subdirectory named by
+ echo the 4th parameter:
+ echo
+ echo Usage: run_encodes.sh start-kbps end-kbps step-kbps output-directory
+ echo Example: run_encodes.sh 200 500 50 baseline
+ exit
+fi
+
+s=$1
+e=$2
+step=$3
+newdir=$4
+
+for i in ./*y4m; do
+ for (( b=$s; b<= $e; b+= $step ))
+ do
+ best_encode.sh $i $b
+ done
+ mv opsnr.stt $i.stt
+done
+
+mkdir $newdir
+mv *.stt $newdir
+mv *.webm $newdir
diff --git a/third_party/aom/test/sad_test.cc b/third_party/aom/test/sad_test.cc
new file mode 100644
index 0000000000..845fe79da1
--- /dev/null
+++ b/third_party/aom/test/sad_test.cc
@@ -0,0 +1,1528 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <string.h>
+#include <limits.h>
+#include <stdio.h>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_config.h"
+#include "config/aom_dsp_rtcd.h"
+
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "test/util.h"
+#include "aom/aom_codec.h"
+#include "aom_mem/aom_mem.h"
+#include "aom_ports/mem.h"
+
+typedef unsigned int (*SadMxNFunc)(const uint8_t *src_ptr, int src_stride,
+ const uint8_t *ref_ptr, int ref_stride);
+typedef ::testing::tuple<int, int, SadMxNFunc, int> SadMxNParam;
+
+typedef uint32_t (*SadMxNAvgFunc)(const uint8_t *src_ptr, int src_stride,
+ const uint8_t *ref_ptr, int ref_stride,
+ const uint8_t *second_pred);
+typedef ::testing::tuple<int, int, SadMxNAvgFunc, int> SadMxNAvgParam;
+
+typedef void (*JntCompAvgFunc)(uint8_t *comp_pred, const uint8_t *pred,
+ int width, int height, const uint8_t *ref,
+ int ref_stride,
+ const JNT_COMP_PARAMS *jcp_param);
+typedef ::testing::tuple<int, int, JntCompAvgFunc, int> JntCompAvgParam;
+
+typedef unsigned int (*JntSadMxhFunc)(const uint8_t *src_ptr, int src_stride,
+ const uint8_t *ref_ptr, int ref_stride,
+ int width, int height);
+typedef ::testing::tuple<int, int, JntSadMxhFunc, int> JntSadMxhParam;
+
+typedef uint32_t (*JntSadMxNAvgFunc)(const uint8_t *src_ptr, int src_stride,
+ const uint8_t *ref_ptr, int ref_stride,
+ const uint8_t *second_pred,
+ const JNT_COMP_PARAMS *jcp_param);
+typedef ::testing::tuple<int, int, JntSadMxNAvgFunc, int> JntSadMxNAvgParam;
+
+typedef void (*SadMxNx4Func)(const uint8_t *src_ptr, int src_stride,
+ const uint8_t *const ref_ptr[], int ref_stride,
+ uint32_t *sad_array);
+typedef ::testing::tuple<int, int, SadMxNx4Func, int> SadMxNx4Param;
+
+using libaom_test::ACMRandom;
+
+namespace {
+class SADTestBase : public ::testing::Test {
+ public:
+ SADTestBase(int width, int height, int bit_depth)
+ : width_(width), height_(height), bd_(bit_depth) {}
+
+ static void SetUpTestCase() {
+ source_data8_ = reinterpret_cast<uint8_t *>(
+ aom_memalign(kDataAlignment, kDataBlockSize));
+ reference_data8_ = reinterpret_cast<uint8_t *>(
+ aom_memalign(kDataAlignment, kDataBufferSize));
+ second_pred8_ =
+ reinterpret_cast<uint8_t *>(aom_memalign(kDataAlignment, 128 * 128));
+ comp_pred8_ =
+ reinterpret_cast<uint8_t *>(aom_memalign(kDataAlignment, 128 * 128));
+ comp_pred8_test_ =
+ reinterpret_cast<uint8_t *>(aom_memalign(kDataAlignment, 128 * 128));
+ source_data16_ = reinterpret_cast<uint16_t *>(
+ aom_memalign(kDataAlignment, kDataBlockSize * sizeof(uint16_t)));
+ reference_data16_ = reinterpret_cast<uint16_t *>(
+ aom_memalign(kDataAlignment, kDataBufferSize * sizeof(uint16_t)));
+ second_pred16_ = reinterpret_cast<uint16_t *>(
+ aom_memalign(kDataAlignment, 128 * 128 * sizeof(uint16_t)));
+ comp_pred16_ = reinterpret_cast<uint16_t *>(
+ aom_memalign(kDataAlignment, 128 * 128 * sizeof(uint16_t)));
+ comp_pred16_test_ = reinterpret_cast<uint16_t *>(
+ aom_memalign(kDataAlignment, 128 * 128 * sizeof(uint16_t)));
+ }
+
+ static void TearDownTestCase() {
+ aom_free(source_data8_);
+ source_data8_ = NULL;
+ aom_free(reference_data8_);
+ reference_data8_ = NULL;
+ aom_free(second_pred8_);
+ second_pred8_ = NULL;
+ aom_free(comp_pred8_);
+ comp_pred8_ = NULL;
+ aom_free(comp_pred8_test_);
+ comp_pred8_test_ = NULL;
+ aom_free(source_data16_);
+ source_data16_ = NULL;
+ aom_free(reference_data16_);
+ reference_data16_ = NULL;
+ aom_free(second_pred16_);
+ second_pred16_ = NULL;
+ aom_free(comp_pred16_);
+ comp_pred16_ = NULL;
+ aom_free(comp_pred16_test_);
+ comp_pred16_test_ = NULL;
+ }
+
+ virtual void TearDown() { libaom_test::ClearSystemState(); }
+
+ protected:
+ // Handle up to 4 128x128 blocks, with stride up to 256
+ static const int kDataAlignment = 16;
+ static const int kDataBlockSize = 128 * 256;
+ static const int kDataBufferSize = 4 * kDataBlockSize;
+
+ virtual void SetUp() {
+ if (bd_ == -1) {
+ use_high_bit_depth_ = false;
+ bit_depth_ = AOM_BITS_8;
+ source_data_ = source_data8_;
+ reference_data_ = reference_data8_;
+ second_pred_ = second_pred8_;
+ comp_pred_ = comp_pred8_;
+ comp_pred_test_ = comp_pred8_test_;
+ } else {
+ use_high_bit_depth_ = true;
+ bit_depth_ = static_cast<aom_bit_depth_t>(bd_);
+ source_data_ = CONVERT_TO_BYTEPTR(source_data16_);
+ reference_data_ = CONVERT_TO_BYTEPTR(reference_data16_);
+ second_pred_ = CONVERT_TO_BYTEPTR(second_pred16_);
+ comp_pred_ = CONVERT_TO_BYTEPTR(comp_pred16_);
+ comp_pred_test_ = CONVERT_TO_BYTEPTR(comp_pred16_test_);
+ }
+ mask_ = (1 << bit_depth_) - 1;
+ source_stride_ = (width_ + 31) & ~31;
+ reference_stride_ = width_ * 2;
+ rnd_.Reset(ACMRandom::DeterministicSeed());
+ }
+
+ virtual uint8_t *GetReference(int block_idx) {
+ if (use_high_bit_depth_)
+ return CONVERT_TO_BYTEPTR(CONVERT_TO_SHORTPTR(reference_data_) +
+ block_idx * kDataBlockSize);
+ return reference_data_ + block_idx * kDataBlockSize;
+ }
+
+ // Sum of Absolute Differences. Given two blocks, calculate the absolute
+ // difference between two pixels in the same relative location; accumulate.
+ unsigned int ReferenceSAD(int block_idx) {
+ unsigned int sad = 0;
+ const uint8_t *const reference8 = GetReference(block_idx);
+ const uint8_t *const source8 = source_data_;
+ const uint16_t *const reference16 =
+ CONVERT_TO_SHORTPTR(GetReference(block_idx));
+ const uint16_t *const source16 = CONVERT_TO_SHORTPTR(source_data_);
+ for (int h = 0; h < height_; ++h) {
+ for (int w = 0; w < width_; ++w) {
+ if (!use_high_bit_depth_) {
+ sad += abs(source8[h * source_stride_ + w] -
+ reference8[h * reference_stride_ + w]);
+ } else {
+ sad += abs(source16[h * source_stride_ + w] -
+ reference16[h * reference_stride_ + w]);
+ }
+ }
+ }
+ return sad;
+ }
+
+ // Sum of Absolute Differences Average. Given two blocks, and a prediction
+ // calculate the absolute difference between one pixel and average of the
+ // corresponding and predicted pixels; accumulate.
+ unsigned int ReferenceSADavg(int block_idx) {
+ unsigned int sad = 0;
+ const uint8_t *const reference8 = GetReference(block_idx);
+ const uint8_t *const source8 = source_data_;
+ const uint8_t *const second_pred8 = second_pred_;
+ const uint16_t *const reference16 =
+ CONVERT_TO_SHORTPTR(GetReference(block_idx));
+ const uint16_t *const source16 = CONVERT_TO_SHORTPTR(source_data_);
+ const uint16_t *const second_pred16 = CONVERT_TO_SHORTPTR(second_pred_);
+ for (int h = 0; h < height_; ++h) {
+ for (int w = 0; w < width_; ++w) {
+ if (!use_high_bit_depth_) {
+ const int tmp = second_pred8[h * width_ + w] +
+ reference8[h * reference_stride_ + w];
+ const uint8_t comp_pred = ROUND_POWER_OF_TWO(tmp, 1);
+ sad += abs(source8[h * source_stride_ + w] - comp_pred);
+ } else {
+ const int tmp = second_pred16[h * width_ + w] +
+ reference16[h * reference_stride_ + w];
+ const uint16_t comp_pred = ROUND_POWER_OF_TWO(tmp, 1);
+ sad += abs(source16[h * source_stride_ + w] - comp_pred);
+ }
+ }
+ }
+ return sad;
+ }
+
+ void ReferenceJntCompAvg(int block_idx) {
+ const uint8_t *const reference8 = GetReference(block_idx);
+ const uint8_t *const second_pred8 = second_pred_;
+ uint8_t *const comp_pred8 = comp_pred_;
+ const uint16_t *const reference16 =
+ CONVERT_TO_SHORTPTR(GetReference(block_idx));
+ const uint16_t *const second_pred16 = CONVERT_TO_SHORTPTR(second_pred_);
+ uint16_t *const comp_pred16 = CONVERT_TO_SHORTPTR(comp_pred_);
+ for (int h = 0; h < height_; ++h) {
+ for (int w = 0; w < width_; ++w) {
+ if (!use_high_bit_depth_) {
+ const int tmp =
+ second_pred8[h * width_ + w] * jcp_param_.bck_offset +
+ reference8[h * reference_stride_ + w] * jcp_param_.fwd_offset;
+ comp_pred8[h * width_ + w] = ROUND_POWER_OF_TWO(tmp, 4);
+ } else {
+ const int tmp =
+ second_pred16[h * width_ + w] * jcp_param_.bck_offset +
+ reference16[h * reference_stride_ + w] * jcp_param_.fwd_offset;
+ comp_pred16[h * width_ + w] = ROUND_POWER_OF_TWO(tmp, 4);
+ }
+ }
+ }
+ }
+
+ unsigned int ReferenceJntSADavg(int block_idx) {
+ unsigned int sad = 0;
+ const uint8_t *const reference8 = GetReference(block_idx);
+ const uint8_t *const source8 = source_data_;
+ const uint8_t *const second_pred8 = second_pred_;
+ const uint16_t *const reference16 =
+ CONVERT_TO_SHORTPTR(GetReference(block_idx));
+ const uint16_t *const source16 = CONVERT_TO_SHORTPTR(source_data_);
+ const uint16_t *const second_pred16 = CONVERT_TO_SHORTPTR(second_pred_);
+ for (int h = 0; h < height_; ++h) {
+ for (int w = 0; w < width_; ++w) {
+ if (!use_high_bit_depth_) {
+ const int tmp =
+ second_pred8[h * width_ + w] * jcp_param_.bck_offset +
+ reference8[h * reference_stride_ + w] * jcp_param_.fwd_offset;
+ const uint8_t comp_pred = ROUND_POWER_OF_TWO(tmp, 4);
+ sad += abs(source8[h * source_stride_ + w] - comp_pred);
+ } else {
+ const int tmp =
+ second_pred16[h * width_ + w] * jcp_param_.bck_offset +
+ reference16[h * reference_stride_ + w] * jcp_param_.fwd_offset;
+ const uint16_t comp_pred = ROUND_POWER_OF_TWO(tmp, 4);
+ sad += abs(source16[h * source_stride_ + w] - comp_pred);
+ }
+ }
+ }
+ return sad;
+ }
+
+ void FillConstant(uint8_t *data, int stride, uint16_t fill_constant) {
+ uint8_t *data8 = data;
+ uint16_t *data16 = CONVERT_TO_SHORTPTR(data);
+ for (int h = 0; h < height_; ++h) {
+ for (int w = 0; w < width_; ++w) {
+ if (!use_high_bit_depth_) {
+ data8[h * stride + w] = static_cast<uint8_t>(fill_constant);
+ } else {
+ data16[h * stride + w] = fill_constant;
+ }
+ }
+ }
+ }
+
+ void FillRandom(uint8_t *data, int stride) {
+ uint8_t *data8 = data;
+ uint16_t *data16 = CONVERT_TO_SHORTPTR(data);
+ for (int h = 0; h < height_; ++h) {
+ for (int w = 0; w < width_; ++w) {
+ if (!use_high_bit_depth_) {
+ data8[h * stride + w] = rnd_.Rand8();
+ } else {
+ data16[h * stride + w] = rnd_.Rand16() & mask_;
+ }
+ }
+ }
+ }
+
+ int width_, height_, mask_, bd_;
+ aom_bit_depth_t bit_depth_;
+ static uint8_t *source_data_;
+ static uint8_t *reference_data_;
+ static uint8_t *second_pred_;
+ int source_stride_;
+ bool use_high_bit_depth_;
+ static uint8_t *source_data8_;
+ static uint8_t *reference_data8_;
+ static uint8_t *second_pred8_;
+ static uint16_t *source_data16_;
+ static uint16_t *reference_data16_;
+ static uint16_t *second_pred16_;
+ int reference_stride_;
+ static uint8_t *comp_pred_;
+ static uint8_t *comp_pred8_;
+ static uint16_t *comp_pred16_;
+ static uint8_t *comp_pred_test_;
+ static uint8_t *comp_pred8_test_;
+ static uint16_t *comp_pred16_test_;
+ JNT_COMP_PARAMS jcp_param_;
+
+ ACMRandom rnd_;
+};
+
+class SADx4Test : public ::testing::WithParamInterface<SadMxNx4Param>,
+ public SADTestBase {
+ public:
+ SADx4Test() : SADTestBase(GET_PARAM(0), GET_PARAM(1), GET_PARAM(3)) {}
+
+ protected:
+ void SADs(unsigned int *results) {
+ const uint8_t *references[] = { GetReference(0), GetReference(1),
+ GetReference(2), GetReference(3) };
+
+ ASM_REGISTER_STATE_CHECK(GET_PARAM(2)(
+ source_data_, source_stride_, references, reference_stride_, results));
+ }
+
+ void CheckSADs() {
+ unsigned int reference_sad, exp_sad[4];
+
+ SADs(exp_sad);
+ for (int block = 0; block < 4; ++block) {
+ reference_sad = ReferenceSAD(block);
+
+ EXPECT_EQ(reference_sad, exp_sad[block]) << "block " << block;
+ }
+ }
+};
+
+class SADTest : public ::testing::WithParamInterface<SadMxNParam>,
+ public SADTestBase {
+ public:
+ SADTest() : SADTestBase(GET_PARAM(0), GET_PARAM(1), GET_PARAM(3)) {}
+
+ protected:
+ unsigned int SAD(int block_idx) {
+ unsigned int ret;
+ const uint8_t *const reference = GetReference(block_idx);
+
+ ASM_REGISTER_STATE_CHECK(ret = GET_PARAM(2)(source_data_, source_stride_,
+ reference, reference_stride_));
+ return ret;
+ }
+
+ void CheckSAD() {
+ const unsigned int reference_sad = ReferenceSAD(0);
+ const unsigned int exp_sad = SAD(0);
+
+ ASSERT_EQ(reference_sad, exp_sad);
+ }
+
+ void SpeedSAD() {
+ int test_count = 20000000;
+ while (test_count > 0) {
+ SAD(0);
+ test_count -= 1;
+ }
+ }
+};
+
+class SADavgTest : public ::testing::WithParamInterface<SadMxNAvgParam>,
+ public SADTestBase {
+ public:
+ SADavgTest() : SADTestBase(GET_PARAM(0), GET_PARAM(1), GET_PARAM(3)) {}
+
+ protected:
+ unsigned int SAD_avg(int block_idx) {
+ unsigned int ret;
+ const uint8_t *const reference = GetReference(block_idx);
+
+ ASM_REGISTER_STATE_CHECK(ret = GET_PARAM(2)(source_data_, source_stride_,
+ reference, reference_stride_,
+ second_pred_));
+ return ret;
+ }
+
+ void CheckSAD() {
+ const unsigned int reference_sad = ReferenceSADavg(0);
+ const unsigned int exp_sad = SAD_avg(0);
+
+ ASSERT_EQ(reference_sad, exp_sad);
+ }
+};
+
+class JntCompAvgTest : public ::testing::WithParamInterface<JntCompAvgParam>,
+ public SADTestBase {
+ public:
+ JntCompAvgTest() : SADTestBase(GET_PARAM(0), GET_PARAM(1), GET_PARAM(3)) {}
+
+ protected:
+ void jnt_comp_avg(int block_idx) {
+ const uint8_t *const reference = GetReference(block_idx);
+
+ ASM_REGISTER_STATE_CHECK(GET_PARAM(2)(comp_pred_test_, second_pred_, width_,
+ height_, reference, reference_stride_,
+ &jcp_param_));
+ }
+
+ void CheckCompAvg() {
+ for (int j = 0; j < 2; ++j) {
+ for (int i = 0; i < 4; ++i) {
+ jcp_param_.fwd_offset = quant_dist_lookup_table[j][i][0];
+ jcp_param_.bck_offset = quant_dist_lookup_table[j][i][1];
+
+ ReferenceJntCompAvg(0);
+ jnt_comp_avg(0);
+
+ for (int y = 0; y < height_; ++y)
+ for (int x = 0; x < width_; ++x)
+ ASSERT_EQ(comp_pred_[y * width_ + x],
+ comp_pred_test_[y * width_ + x]);
+ }
+ }
+ }
+};
+
+class JntSADTest : public ::testing::WithParamInterface<JntSadMxhParam>,
+ public SADTestBase {
+ public:
+ JntSADTest() : SADTestBase(GET_PARAM(0), GET_PARAM(1), GET_PARAM(3)) {}
+
+ protected:
+ unsigned int SAD(int block_idx) {
+ unsigned int ret;
+ const uint8_t *const reference = GetReference(block_idx);
+
+ ASM_REGISTER_STATE_CHECK(ret = GET_PARAM(2)(source_data_, source_stride_,
+ reference, reference_stride_,
+ GET_PARAM(0), GET_PARAM(1)));
+ return ret;
+ }
+
+ void CheckSAD() {
+ const unsigned int reference_sad = ReferenceSAD(0);
+ const unsigned int exp_sad = SAD(0);
+
+ ASSERT_EQ(reference_sad, exp_sad);
+ }
+
+ void SpeedSAD() {
+ int test_count = 20000000;
+ while (test_count > 0) {
+ SAD(0);
+ test_count -= 1;
+ }
+ }
+};
+
+class JntSADavgTest : public ::testing::WithParamInterface<JntSadMxNAvgParam>,
+ public SADTestBase {
+ public:
+ JntSADavgTest() : SADTestBase(GET_PARAM(0), GET_PARAM(1), GET_PARAM(3)) {}
+
+ protected:
+ unsigned int jnt_SAD_avg(int block_idx) {
+ unsigned int ret;
+ const uint8_t *const reference = GetReference(block_idx);
+
+ ASM_REGISTER_STATE_CHECK(ret = GET_PARAM(2)(source_data_, source_stride_,
+ reference, reference_stride_,
+ second_pred_, &jcp_param_));
+ return ret;
+ }
+
+ void CheckSAD() {
+ for (int j = 0; j < 2; ++j) {
+ for (int i = 0; i < 4; ++i) {
+ jcp_param_.fwd_offset = quant_dist_lookup_table[j][i][0];
+ jcp_param_.bck_offset = quant_dist_lookup_table[j][i][1];
+
+ const unsigned int reference_sad = ReferenceJntSADavg(0);
+ const unsigned int exp_sad = jnt_SAD_avg(0);
+
+ ASSERT_EQ(reference_sad, exp_sad);
+ }
+ }
+ }
+};
+
+uint8_t *SADTestBase::source_data_ = NULL;
+uint8_t *SADTestBase::reference_data_ = NULL;
+uint8_t *SADTestBase::second_pred_ = NULL;
+uint8_t *SADTestBase::comp_pred_ = NULL;
+uint8_t *SADTestBase::comp_pred_test_ = NULL;
+uint8_t *SADTestBase::source_data8_ = NULL;
+uint8_t *SADTestBase::reference_data8_ = NULL;
+uint8_t *SADTestBase::second_pred8_ = NULL;
+uint8_t *SADTestBase::comp_pred8_ = NULL;
+uint8_t *SADTestBase::comp_pred8_test_ = NULL;
+uint16_t *SADTestBase::source_data16_ = NULL;
+uint16_t *SADTestBase::reference_data16_ = NULL;
+uint16_t *SADTestBase::second_pred16_ = NULL;
+uint16_t *SADTestBase::comp_pred16_ = NULL;
+uint16_t *SADTestBase::comp_pred16_test_ = NULL;
+
+TEST_P(SADTest, MaxRef) {
+ FillConstant(source_data_, source_stride_, 0);
+ FillConstant(reference_data_, reference_stride_, mask_);
+ CheckSAD();
+}
+
+TEST_P(SADTest, MaxSrc) {
+ FillConstant(source_data_, source_stride_, mask_);
+ FillConstant(reference_data_, reference_stride_, 0);
+ CheckSAD();
+}
+
+TEST_P(SADTest, ShortRef) {
+ const int tmp_stride = reference_stride_;
+ reference_stride_ >>= 1;
+ FillRandom(source_data_, source_stride_);
+ FillRandom(reference_data_, reference_stride_);
+ CheckSAD();
+ reference_stride_ = tmp_stride;
+}
+
+TEST_P(SADTest, UnalignedRef) {
+ // The reference frame, but not the source frame, may be unaligned for
+ // certain types of searches.
+ const int tmp_stride = reference_stride_;
+ reference_stride_ -= 1;
+ FillRandom(source_data_, source_stride_);
+ FillRandom(reference_data_, reference_stride_);
+ CheckSAD();
+ reference_stride_ = tmp_stride;
+}
+
+TEST_P(SADTest, ShortSrc) {
+ const int tmp_stride = source_stride_;
+ source_stride_ >>= 1;
+ int test_count = 2000;
+ while (test_count > 0) {
+ FillRandom(source_data_, source_stride_);
+ FillRandom(reference_data_, reference_stride_);
+ CheckSAD();
+ test_count -= 1;
+ }
+ source_stride_ = tmp_stride;
+}
+
+#define SPEED_TEST (0)
+#if SPEED_TEST
+TEST_P(SADTest, Speed) {
+ const int tmp_stride = source_stride_;
+ source_stride_ >>= 1;
+ FillRandom(source_data_, source_stride_);
+ FillRandom(reference_data_, reference_stride_);
+ SpeedSAD();
+ source_stride_ = tmp_stride;
+}
+#endif
+
+TEST_P(SADavgTest, MaxRef) {
+ FillConstant(source_data_, source_stride_, 0);
+ FillConstant(reference_data_, reference_stride_, mask_);
+ FillConstant(second_pred_, width_, 0);
+ CheckSAD();
+}
+TEST_P(SADavgTest, MaxSrc) {
+ FillConstant(source_data_, source_stride_, mask_);
+ FillConstant(reference_data_, reference_stride_, 0);
+ FillConstant(second_pred_, width_, 0);
+ CheckSAD();
+}
+
+TEST_P(SADavgTest, ShortRef) {
+ const int tmp_stride = reference_stride_;
+ reference_stride_ >>= 1;
+ FillRandom(source_data_, source_stride_);
+ FillRandom(reference_data_, reference_stride_);
+ FillRandom(second_pred_, width_);
+ CheckSAD();
+ reference_stride_ = tmp_stride;
+}
+
+TEST_P(SADavgTest, UnalignedRef) {
+ // The reference frame, but not the source frame, may be unaligned for
+ // certain types of searches.
+ const int tmp_stride = reference_stride_;
+ reference_stride_ -= 1;
+ FillRandom(source_data_, source_stride_);
+ FillRandom(reference_data_, reference_stride_);
+ FillRandom(second_pred_, width_);
+ CheckSAD();
+ reference_stride_ = tmp_stride;
+}
+
+TEST_P(SADavgTest, ShortSrc) {
+ const int tmp_stride = source_stride_;
+ source_stride_ >>= 1;
+ int test_count = 2000;
+ while (test_count > 0) {
+ FillRandom(source_data_, source_stride_);
+ FillRandom(reference_data_, reference_stride_);
+ FillRandom(second_pred_, width_);
+ CheckSAD();
+ test_count -= 1;
+ }
+ source_stride_ = tmp_stride;
+}
+
+TEST_P(JntCompAvgTest, MaxRef) {
+ FillConstant(reference_data_, reference_stride_, mask_);
+ FillConstant(second_pred_, width_, 0);
+ CheckCompAvg();
+}
+
+TEST_P(JntCompAvgTest, MaxSecondPred) {
+ FillConstant(reference_data_, reference_stride_, 0);
+ FillConstant(second_pred_, width_, mask_);
+ CheckCompAvg();
+}
+
+TEST_P(JntCompAvgTest, ShortRef) {
+ const int tmp_stride = reference_stride_;
+ reference_stride_ >>= 1;
+ FillRandom(reference_data_, reference_stride_);
+ FillRandom(second_pred_, width_);
+ CheckCompAvg();
+ reference_stride_ = tmp_stride;
+}
+
+TEST_P(JntCompAvgTest, UnalignedRef) {
+ // The reference frame, but not the source frame, may be unaligned for
+ // certain types of searches.
+ const int tmp_stride = reference_stride_;
+ reference_stride_ -= 1;
+ FillRandom(reference_data_, reference_stride_);
+ FillRandom(second_pred_, width_);
+ CheckCompAvg();
+ reference_stride_ = tmp_stride;
+}
+
+TEST_P(JntSADTest, MaxRef) {
+ FillConstant(source_data_, source_stride_, 0);
+ FillConstant(reference_data_, reference_stride_, mask_);
+ CheckSAD();
+}
+
+TEST_P(JntSADTest, MaxSrc) {
+ FillConstant(source_data_, source_stride_, mask_);
+ FillConstant(reference_data_, reference_stride_, 0);
+ CheckSAD();
+}
+
+TEST_P(JntSADTest, ShortRef) {
+ const int tmp_stride = reference_stride_;
+ reference_stride_ >>= 1;
+ FillRandom(source_data_, source_stride_);
+ FillRandom(reference_data_, reference_stride_);
+ CheckSAD();
+ reference_stride_ = tmp_stride;
+}
+
+TEST_P(JntSADTest, UnalignedRef) {
+ // The reference frame, but not the source frame, may be unaligned for
+ // certain types of searches.
+ const int tmp_stride = reference_stride_;
+ reference_stride_ -= 1;
+ FillRandom(source_data_, source_stride_);
+ FillRandom(reference_data_, reference_stride_);
+ CheckSAD();
+ reference_stride_ = tmp_stride;
+}
+
+TEST_P(JntSADTest, ShortSrc) {
+ const int tmp_stride = source_stride_;
+ source_stride_ >>= 1;
+ int test_count = 2000;
+ while (test_count > 0) {
+ FillRandom(source_data_, source_stride_);
+ FillRandom(reference_data_, reference_stride_);
+ CheckSAD();
+ test_count -= 1;
+ }
+ source_stride_ = tmp_stride;
+}
+
+TEST_P(JntSADavgTest, MaxRef) {
+ FillConstant(source_data_, source_stride_, 0);
+ FillConstant(reference_data_, reference_stride_, mask_);
+ FillConstant(second_pred_, width_, 0);
+ CheckSAD();
+}
+TEST_P(JntSADavgTest, MaxSrc) {
+ FillConstant(source_data_, source_stride_, mask_);
+ FillConstant(reference_data_, reference_stride_, 0);
+ FillConstant(second_pred_, width_, 0);
+ CheckSAD();
+}
+
+TEST_P(JntSADavgTest, ShortRef) {
+ const int tmp_stride = reference_stride_;
+ reference_stride_ >>= 1;
+ FillRandom(source_data_, source_stride_);
+ FillRandom(reference_data_, reference_stride_);
+ FillRandom(second_pred_, width_);
+ CheckSAD();
+ reference_stride_ = tmp_stride;
+}
+
+TEST_P(JntSADavgTest, UnalignedRef) {
+ // The reference frame, but not the source frame, may be unaligned for
+ // certain types of searches.
+ const int tmp_stride = reference_stride_;
+ reference_stride_ -= 1;
+ FillRandom(source_data_, source_stride_);
+ FillRandom(reference_data_, reference_stride_);
+ FillRandom(second_pred_, width_);
+ CheckSAD();
+ reference_stride_ = tmp_stride;
+}
+
+TEST_P(JntSADavgTest, ShortSrc) {
+ const int tmp_stride = source_stride_;
+ source_stride_ >>= 1;
+ int test_count = 2000;
+ while (test_count > 0) {
+ FillRandom(source_data_, source_stride_);
+ FillRandom(reference_data_, reference_stride_);
+ FillRandom(second_pred_, width_);
+ CheckSAD();
+ test_count -= 1;
+ }
+ source_stride_ = tmp_stride;
+}
+
+TEST_P(SADx4Test, MaxRef) {
+ FillConstant(source_data_, source_stride_, 0);
+ FillConstant(GetReference(0), reference_stride_, mask_);
+ FillConstant(GetReference(1), reference_stride_, mask_);
+ FillConstant(GetReference(2), reference_stride_, mask_);
+ FillConstant(GetReference(3), reference_stride_, mask_);
+ CheckSADs();
+}
+
+TEST_P(SADx4Test, MaxSrc) {
+ FillConstant(source_data_, source_stride_, mask_);
+ FillConstant(GetReference(0), reference_stride_, 0);
+ FillConstant(GetReference(1), reference_stride_, 0);
+ FillConstant(GetReference(2), reference_stride_, 0);
+ FillConstant(GetReference(3), reference_stride_, 0);
+ CheckSADs();
+}
+
+TEST_P(SADx4Test, ShortRef) {
+ int tmp_stride = reference_stride_;
+ reference_stride_ >>= 1;
+ FillRandom(source_data_, source_stride_);
+ FillRandom(GetReference(0), reference_stride_);
+ FillRandom(GetReference(1), reference_stride_);
+ FillRandom(GetReference(2), reference_stride_);
+ FillRandom(GetReference(3), reference_stride_);
+ CheckSADs();
+ reference_stride_ = tmp_stride;
+}
+
+TEST_P(SADx4Test, UnalignedRef) {
+ // The reference frame, but not the source frame, may be unaligned for
+ // certain types of searches.
+ int tmp_stride = reference_stride_;
+ reference_stride_ -= 1;
+ FillRandom(source_data_, source_stride_);
+ FillRandom(GetReference(0), reference_stride_);
+ FillRandom(GetReference(1), reference_stride_);
+ FillRandom(GetReference(2), reference_stride_);
+ FillRandom(GetReference(3), reference_stride_);
+ CheckSADs();
+ reference_stride_ = tmp_stride;
+}
+
+TEST_P(SADx4Test, ShortSrc) {
+ int tmp_stride = source_stride_;
+ source_stride_ >>= 1;
+ int test_count = 1000;
+ while (test_count > 0) {
+ FillRandom(source_data_, source_stride_);
+ FillRandom(GetReference(0), reference_stride_);
+ FillRandom(GetReference(1), reference_stride_);
+ FillRandom(GetReference(2), reference_stride_);
+ FillRandom(GetReference(3), reference_stride_);
+ CheckSADs();
+ test_count -= 1;
+ }
+ source_stride_ = tmp_stride;
+}
+
+TEST_P(SADx4Test, SrcAlignedByWidth) {
+ uint8_t *tmp_source_data = source_data_;
+ source_data_ += width_;
+ FillRandom(source_data_, source_stride_);
+ FillRandom(GetReference(0), reference_stride_);
+ FillRandom(GetReference(1), reference_stride_);
+ FillRandom(GetReference(2), reference_stride_);
+ FillRandom(GetReference(3), reference_stride_);
+ CheckSADs();
+ source_data_ = tmp_source_data;
+}
+
+using ::testing::make_tuple;
+
+//------------------------------------------------------------------------------
+// C functions
+const SadMxNParam c_tests[] = {
+ make_tuple(128, 128, &aom_sad128x128_c, -1),
+ make_tuple(128, 64, &aom_sad128x64_c, -1),
+ make_tuple(64, 128, &aom_sad64x128_c, -1),
+ make_tuple(64, 64, &aom_sad64x64_c, -1),
+ make_tuple(64, 32, &aom_sad64x32_c, -1),
+ make_tuple(32, 64, &aom_sad32x64_c, -1),
+ make_tuple(32, 32, &aom_sad32x32_c, -1),
+ make_tuple(32, 16, &aom_sad32x16_c, -1),
+ make_tuple(16, 32, &aom_sad16x32_c, -1),
+ make_tuple(16, 16, &aom_sad16x16_c, -1),
+ make_tuple(16, 8, &aom_sad16x8_c, -1),
+ make_tuple(8, 16, &aom_sad8x16_c, -1),
+ make_tuple(8, 8, &aom_sad8x8_c, -1),
+ make_tuple(8, 4, &aom_sad8x4_c, -1),
+ make_tuple(4, 8, &aom_sad4x8_c, -1),
+ make_tuple(4, 4, &aom_sad4x4_c, -1),
+ make_tuple(128, 128, &aom_highbd_sad128x128_c, 8),
+ make_tuple(128, 64, &aom_highbd_sad128x64_c, 8),
+ make_tuple(64, 128, &aom_highbd_sad64x128_c, 8),
+ make_tuple(64, 64, &aom_highbd_sad64x64_c, 8),
+ make_tuple(64, 32, &aom_highbd_sad64x32_c, 8),
+ make_tuple(32, 64, &aom_highbd_sad32x64_c, 8),
+ make_tuple(32, 32, &aom_highbd_sad32x32_c, 8),
+ make_tuple(32, 16, &aom_highbd_sad32x16_c, 8),
+ make_tuple(16, 32, &aom_highbd_sad16x32_c, 8),
+ make_tuple(16, 16, &aom_highbd_sad16x16_c, 8),
+ make_tuple(16, 8, &aom_highbd_sad16x8_c, 8),
+ make_tuple(8, 16, &aom_highbd_sad8x16_c, 8),
+ make_tuple(8, 8, &aom_highbd_sad8x8_c, 8),
+ make_tuple(8, 4, &aom_highbd_sad8x4_c, 8),
+ make_tuple(4, 8, &aom_highbd_sad4x8_c, 8),
+ make_tuple(4, 4, &aom_highbd_sad4x4_c, 8),
+ make_tuple(128, 128, &aom_highbd_sad128x128_c, 10),
+ make_tuple(128, 64, &aom_highbd_sad128x64_c, 10),
+ make_tuple(64, 128, &aom_highbd_sad64x128_c, 10),
+ make_tuple(64, 64, &aom_highbd_sad64x64_c, 10),
+ make_tuple(64, 32, &aom_highbd_sad64x32_c, 10),
+ make_tuple(32, 64, &aom_highbd_sad32x64_c, 10),
+ make_tuple(32, 32, &aom_highbd_sad32x32_c, 10),
+ make_tuple(32, 16, &aom_highbd_sad32x16_c, 10),
+ make_tuple(16, 32, &aom_highbd_sad16x32_c, 10),
+ make_tuple(16, 16, &aom_highbd_sad16x16_c, 10),
+ make_tuple(16, 8, &aom_highbd_sad16x8_c, 10),
+ make_tuple(8, 16, &aom_highbd_sad8x16_c, 10),
+ make_tuple(8, 8, &aom_highbd_sad8x8_c, 10),
+ make_tuple(8, 4, &aom_highbd_sad8x4_c, 10),
+ make_tuple(4, 8, &aom_highbd_sad4x8_c, 10),
+ make_tuple(4, 4, &aom_highbd_sad4x4_c, 10),
+ make_tuple(128, 128, &aom_highbd_sad128x128_c, 12),
+ make_tuple(128, 64, &aom_highbd_sad128x64_c, 12),
+ make_tuple(64, 128, &aom_highbd_sad64x128_c, 12),
+ make_tuple(64, 64, &aom_highbd_sad64x64_c, 12),
+ make_tuple(64, 32, &aom_highbd_sad64x32_c, 12),
+ make_tuple(32, 64, &aom_highbd_sad32x64_c, 12),
+ make_tuple(32, 32, &aom_highbd_sad32x32_c, 12),
+ make_tuple(32, 16, &aom_highbd_sad32x16_c, 12),
+ make_tuple(16, 32, &aom_highbd_sad16x32_c, 12),
+ make_tuple(16, 16, &aom_highbd_sad16x16_c, 12),
+ make_tuple(16, 8, &aom_highbd_sad16x8_c, 12),
+ make_tuple(8, 16, &aom_highbd_sad8x16_c, 12),
+ make_tuple(8, 8, &aom_highbd_sad8x8_c, 12),
+ make_tuple(8, 4, &aom_highbd_sad8x4_c, 12),
+ make_tuple(4, 8, &aom_highbd_sad4x8_c, 12),
+ make_tuple(4, 4, &aom_highbd_sad4x4_c, 12),
+};
+INSTANTIATE_TEST_CASE_P(C, SADTest, ::testing::ValuesIn(c_tests));
+
+const SadMxNAvgParam avg_c_tests[] = {
+ make_tuple(128, 128, &aom_sad128x128_avg_c, -1),
+ make_tuple(128, 64, &aom_sad128x64_avg_c, -1),
+ make_tuple(64, 128, &aom_sad64x128_avg_c, -1),
+ make_tuple(64, 64, &aom_sad64x64_avg_c, -1),
+ make_tuple(64, 32, &aom_sad64x32_avg_c, -1),
+ make_tuple(32, 64, &aom_sad32x64_avg_c, -1),
+ make_tuple(32, 32, &aom_sad32x32_avg_c, -1),
+ make_tuple(32, 16, &aom_sad32x16_avg_c, -1),
+ make_tuple(16, 32, &aom_sad16x32_avg_c, -1),
+ make_tuple(16, 16, &aom_sad16x16_avg_c, -1),
+ make_tuple(16, 8, &aom_sad16x8_avg_c, -1),
+ make_tuple(8, 16, &aom_sad8x16_avg_c, -1),
+ make_tuple(8, 8, &aom_sad8x8_avg_c, -1),
+ make_tuple(8, 4, &aom_sad8x4_avg_c, -1),
+ make_tuple(4, 8, &aom_sad4x8_avg_c, -1),
+ make_tuple(4, 4, &aom_sad4x4_avg_c, -1),
+ make_tuple(128, 128, &aom_highbd_sad128x128_avg_c, 8),
+ make_tuple(128, 64, &aom_highbd_sad128x64_avg_c, 8),
+ make_tuple(64, 128, &aom_highbd_sad64x128_avg_c, 8),
+ make_tuple(64, 64, &aom_highbd_sad64x64_avg_c, 8),
+ make_tuple(64, 32, &aom_highbd_sad64x32_avg_c, 8),
+ make_tuple(32, 64, &aom_highbd_sad32x64_avg_c, 8),
+ make_tuple(32, 32, &aom_highbd_sad32x32_avg_c, 8),
+ make_tuple(32, 16, &aom_highbd_sad32x16_avg_c, 8),
+ make_tuple(16, 32, &aom_highbd_sad16x32_avg_c, 8),
+ make_tuple(16, 16, &aom_highbd_sad16x16_avg_c, 8),
+ make_tuple(16, 8, &aom_highbd_sad16x8_avg_c, 8),
+ make_tuple(8, 16, &aom_highbd_sad8x16_avg_c, 8),
+ make_tuple(8, 8, &aom_highbd_sad8x8_avg_c, 8),
+ make_tuple(8, 4, &aom_highbd_sad8x4_avg_c, 8),
+ make_tuple(4, 8, &aom_highbd_sad4x8_avg_c, 8),
+ make_tuple(4, 4, &aom_highbd_sad4x4_avg_c, 8),
+ make_tuple(128, 128, &aom_highbd_sad128x128_avg_c, 10),
+ make_tuple(128, 64, &aom_highbd_sad128x64_avg_c, 10),
+ make_tuple(64, 128, &aom_highbd_sad64x128_avg_c, 10),
+ make_tuple(64, 64, &aom_highbd_sad64x64_avg_c, 10),
+ make_tuple(64, 32, &aom_highbd_sad64x32_avg_c, 10),
+ make_tuple(32, 64, &aom_highbd_sad32x64_avg_c, 10),
+ make_tuple(32, 32, &aom_highbd_sad32x32_avg_c, 10),
+ make_tuple(32, 16, &aom_highbd_sad32x16_avg_c, 10),
+ make_tuple(16, 32, &aom_highbd_sad16x32_avg_c, 10),
+ make_tuple(16, 16, &aom_highbd_sad16x16_avg_c, 10),
+ make_tuple(16, 8, &aom_highbd_sad16x8_avg_c, 10),
+ make_tuple(8, 16, &aom_highbd_sad8x16_avg_c, 10),
+ make_tuple(8, 8, &aom_highbd_sad8x8_avg_c, 10),
+ make_tuple(8, 4, &aom_highbd_sad8x4_avg_c, 10),
+ make_tuple(4, 8, &aom_highbd_sad4x8_avg_c, 10),
+ make_tuple(4, 4, &aom_highbd_sad4x4_avg_c, 10),
+ make_tuple(128, 128, &aom_highbd_sad128x128_avg_c, 12),
+ make_tuple(128, 64, &aom_highbd_sad128x64_avg_c, 12),
+ make_tuple(64, 128, &aom_highbd_sad64x128_avg_c, 12),
+ make_tuple(64, 64, &aom_highbd_sad64x64_avg_c, 12),
+ make_tuple(64, 32, &aom_highbd_sad64x32_avg_c, 12),
+ make_tuple(32, 64, &aom_highbd_sad32x64_avg_c, 12),
+ make_tuple(32, 32, &aom_highbd_sad32x32_avg_c, 12),
+ make_tuple(32, 16, &aom_highbd_sad32x16_avg_c, 12),
+ make_tuple(16, 32, &aom_highbd_sad16x32_avg_c, 12),
+ make_tuple(16, 16, &aom_highbd_sad16x16_avg_c, 12),
+ make_tuple(16, 8, &aom_highbd_sad16x8_avg_c, 12),
+ make_tuple(8, 16, &aom_highbd_sad8x16_avg_c, 12),
+ make_tuple(8, 8, &aom_highbd_sad8x8_avg_c, 12),
+ make_tuple(8, 4, &aom_highbd_sad8x4_avg_c, 12),
+ make_tuple(4, 8, &aom_highbd_sad4x8_avg_c, 12),
+ make_tuple(4, 4, &aom_highbd_sad4x4_avg_c, 12),
+};
+INSTANTIATE_TEST_CASE_P(C, SADavgTest, ::testing::ValuesIn(avg_c_tests));
+
+// TODO(chengchen): add highbd tests
+const JntCompAvgParam jnt_comp_avg_c_tests[] = {
+ make_tuple(128, 128, &aom_jnt_comp_avg_pred_c, -1),
+ make_tuple(128, 64, &aom_jnt_comp_avg_pred_c, -1),
+ make_tuple(64, 128, &aom_jnt_comp_avg_pred_c, -1),
+ make_tuple(64, 64, &aom_jnt_comp_avg_pred_c, -1),
+ make_tuple(64, 32, &aom_jnt_comp_avg_pred_c, -1),
+ make_tuple(32, 64, &aom_jnt_comp_avg_pred_c, -1),
+ make_tuple(32, 32, &aom_jnt_comp_avg_pred_c, -1),
+ make_tuple(32, 16, &aom_jnt_comp_avg_pred_c, -1),
+ make_tuple(16, 32, &aom_jnt_comp_avg_pred_c, -1),
+ make_tuple(16, 16, &aom_jnt_comp_avg_pred_c, -1),
+ make_tuple(16, 8, &aom_jnt_comp_avg_pred_c, -1),
+ make_tuple(8, 16, &aom_jnt_comp_avg_pred_c, -1),
+ make_tuple(8, 8, &aom_jnt_comp_avg_pred_c, -1),
+ make_tuple(8, 4, &aom_jnt_comp_avg_pred_c, -1),
+ make_tuple(4, 8, &aom_jnt_comp_avg_pred_c, -1),
+ make_tuple(4, 4, &aom_jnt_comp_avg_pred_c, -1),
+};
+
+INSTANTIATE_TEST_CASE_P(C, JntCompAvgTest,
+ ::testing::ValuesIn(jnt_comp_avg_c_tests));
+
+const JntSadMxNAvgParam jnt_avg_c_tests[] = {
+ make_tuple(128, 128, &aom_jnt_sad128x128_avg_c, -1),
+ make_tuple(128, 64, &aom_jnt_sad128x64_avg_c, -1),
+ make_tuple(64, 128, &aom_jnt_sad64x128_avg_c, -1),
+ make_tuple(64, 64, &aom_jnt_sad64x64_avg_c, -1),
+ make_tuple(64, 32, &aom_jnt_sad64x32_avg_c, -1),
+ make_tuple(32, 64, &aom_jnt_sad32x64_avg_c, -1),
+ make_tuple(32, 32, &aom_jnt_sad32x32_avg_c, -1),
+ make_tuple(32, 16, &aom_jnt_sad32x16_avg_c, -1),
+ make_tuple(16, 32, &aom_jnt_sad16x32_avg_c, -1),
+ make_tuple(16, 16, &aom_jnt_sad16x16_avg_c, -1),
+ make_tuple(16, 8, &aom_jnt_sad16x8_avg_c, -1),
+ make_tuple(8, 16, &aom_jnt_sad8x16_avg_c, -1),
+ make_tuple(8, 8, &aom_jnt_sad8x8_avg_c, -1),
+ make_tuple(8, 4, &aom_jnt_sad8x4_avg_c, -1),
+ make_tuple(4, 8, &aom_jnt_sad4x8_avg_c, -1),
+ make_tuple(4, 4, &aom_jnt_sad4x4_avg_c, -1),
+};
+INSTANTIATE_TEST_CASE_P(C, JntSADavgTest, ::testing::ValuesIn(jnt_avg_c_tests));
+
+const SadMxNx4Param x4d_c_tests[] = {
+ make_tuple(128, 128, &aom_sad128x128x4d_c, -1),
+ make_tuple(128, 64, &aom_sad128x64x4d_c, -1),
+ make_tuple(64, 128, &aom_sad64x128x4d_c, -1),
+ make_tuple(64, 64, &aom_sad64x64x4d_c, -1),
+ make_tuple(64, 32, &aom_sad64x32x4d_c, -1),
+ make_tuple(32, 64, &aom_sad32x64x4d_c, -1),
+ make_tuple(32, 32, &aom_sad32x32x4d_c, -1),
+ make_tuple(32, 16, &aom_sad32x16x4d_c, -1),
+ make_tuple(16, 32, &aom_sad16x32x4d_c, -1),
+ make_tuple(16, 16, &aom_sad16x16x4d_c, -1),
+ make_tuple(16, 8, &aom_sad16x8x4d_c, -1),
+ make_tuple(8, 16, &aom_sad8x16x4d_c, -1),
+ make_tuple(8, 8, &aom_sad8x8x4d_c, -1),
+ make_tuple(8, 4, &aom_sad8x4x4d_c, -1),
+ make_tuple(4, 8, &aom_sad4x8x4d_c, -1),
+ make_tuple(4, 4, &aom_sad4x4x4d_c, -1),
+ make_tuple(128, 128, &aom_highbd_sad128x128x4d_c, 8),
+ make_tuple(128, 64, &aom_highbd_sad128x64x4d_c, 8),
+ make_tuple(64, 128, &aom_highbd_sad64x128x4d_c, 8),
+ make_tuple(64, 64, &aom_highbd_sad64x64x4d_c, 8),
+ make_tuple(64, 32, &aom_highbd_sad64x32x4d_c, 8),
+ make_tuple(32, 64, &aom_highbd_sad32x64x4d_c, 8),
+ make_tuple(32, 32, &aom_highbd_sad32x32x4d_c, 8),
+ make_tuple(32, 16, &aom_highbd_sad32x16x4d_c, 8),
+ make_tuple(16, 32, &aom_highbd_sad16x32x4d_c, 8),
+ make_tuple(16, 16, &aom_highbd_sad16x16x4d_c, 8),
+ make_tuple(16, 8, &aom_highbd_sad16x8x4d_c, 8),
+ make_tuple(8, 16, &aom_highbd_sad8x16x4d_c, 8),
+ make_tuple(8, 8, &aom_highbd_sad8x8x4d_c, 8),
+ make_tuple(8, 4, &aom_highbd_sad8x4x4d_c, 8),
+ make_tuple(4, 8, &aom_highbd_sad4x8x4d_c, 8),
+ make_tuple(4, 4, &aom_highbd_sad4x4x4d_c, 8),
+ make_tuple(128, 128, &aom_highbd_sad128x128x4d_c, 10),
+ make_tuple(128, 64, &aom_highbd_sad128x64x4d_c, 10),
+ make_tuple(64, 128, &aom_highbd_sad64x128x4d_c, 10),
+ make_tuple(64, 64, &aom_highbd_sad64x64x4d_c, 10),
+ make_tuple(64, 32, &aom_highbd_sad64x32x4d_c, 10),
+ make_tuple(32, 64, &aom_highbd_sad32x64x4d_c, 10),
+ make_tuple(32, 32, &aom_highbd_sad32x32x4d_c, 10),
+ make_tuple(32, 16, &aom_highbd_sad32x16x4d_c, 10),
+ make_tuple(16, 32, &aom_highbd_sad16x32x4d_c, 10),
+ make_tuple(16, 16, &aom_highbd_sad16x16x4d_c, 10),
+ make_tuple(16, 8, &aom_highbd_sad16x8x4d_c, 10),
+ make_tuple(8, 16, &aom_highbd_sad8x16x4d_c, 10),
+ make_tuple(8, 8, &aom_highbd_sad8x8x4d_c, 10),
+ make_tuple(8, 4, &aom_highbd_sad8x4x4d_c, 10),
+ make_tuple(4, 8, &aom_highbd_sad4x8x4d_c, 10),
+ make_tuple(4, 4, &aom_highbd_sad4x4x4d_c, 10),
+ make_tuple(128, 128, &aom_highbd_sad128x128x4d_c, 12),
+ make_tuple(128, 64, &aom_highbd_sad128x64x4d_c, 12),
+ make_tuple(64, 128, &aom_highbd_sad64x128x4d_c, 12),
+ make_tuple(64, 64, &aom_highbd_sad64x64x4d_c, 12),
+ make_tuple(64, 32, &aom_highbd_sad64x32x4d_c, 12),
+ make_tuple(32, 64, &aom_highbd_sad32x64x4d_c, 12),
+ make_tuple(32, 32, &aom_highbd_sad32x32x4d_c, 12),
+ make_tuple(32, 16, &aom_highbd_sad32x16x4d_c, 12),
+ make_tuple(16, 32, &aom_highbd_sad16x32x4d_c, 12),
+ make_tuple(16, 16, &aom_highbd_sad16x16x4d_c, 12),
+ make_tuple(16, 8, &aom_highbd_sad16x8x4d_c, 12),
+ make_tuple(8, 16, &aom_highbd_sad8x16x4d_c, 12),
+ make_tuple(8, 8, &aom_highbd_sad8x8x4d_c, 12),
+ make_tuple(8, 4, &aom_highbd_sad8x4x4d_c, 12),
+ make_tuple(4, 8, &aom_highbd_sad4x8x4d_c, 12),
+ make_tuple(4, 4, &aom_highbd_sad4x4x4d_c, 12),
+};
+INSTANTIATE_TEST_CASE_P(C, SADx4Test, ::testing::ValuesIn(x4d_c_tests));
+
+//------------------------------------------------------------------------------
+// ARM functions
+#if HAVE_NEON
+const SadMxNParam neon_tests[] = {
+ make_tuple(64, 64, &aom_sad64x64_neon, -1),
+ make_tuple(32, 32, &aom_sad32x32_neon, -1),
+ make_tuple(16, 16, &aom_sad16x16_neon, -1),
+ make_tuple(16, 8, &aom_sad16x8_neon, -1),
+ make_tuple(8, 16, &aom_sad8x16_neon, -1),
+ make_tuple(8, 8, &aom_sad8x8_neon, -1),
+ make_tuple(4, 4, &aom_sad4x4_neon, -1),
+};
+INSTANTIATE_TEST_CASE_P(NEON, SADTest, ::testing::ValuesIn(neon_tests));
+
+const SadMxNx4Param x4d_neon_tests[] = {
+ make_tuple(64, 64, &aom_sad64x64x4d_neon, -1),
+ make_tuple(32, 32, &aom_sad32x32x4d_neon, -1),
+ make_tuple(16, 16, &aom_sad16x16x4d_neon, -1),
+};
+INSTANTIATE_TEST_CASE_P(NEON, SADx4Test, ::testing::ValuesIn(x4d_neon_tests));
+#endif // HAVE_NEON
+
+//------------------------------------------------------------------------------
+// x86 functions
+#if HAVE_SSE2
+const SadMxNParam sse2_tests[] = {
+ make_tuple(128, 128, &aom_sad128x128_sse2, -1),
+ make_tuple(128, 64, &aom_sad128x64_sse2, -1),
+ make_tuple(64, 128, &aom_sad64x128_sse2, -1),
+ make_tuple(64, 64, &aom_sad64x64_sse2, -1),
+ make_tuple(64, 32, &aom_sad64x32_sse2, -1),
+ make_tuple(32, 64, &aom_sad32x64_sse2, -1),
+ make_tuple(32, 32, &aom_sad32x32_sse2, -1),
+ make_tuple(32, 16, &aom_sad32x16_sse2, -1),
+ make_tuple(16, 32, &aom_sad16x32_sse2, -1),
+ make_tuple(16, 16, &aom_sad16x16_sse2, -1),
+ make_tuple(16, 8, &aom_sad16x8_sse2, -1),
+ make_tuple(8, 16, &aom_sad8x16_sse2, -1),
+ make_tuple(8, 8, &aom_sad8x8_sse2, -1),
+ make_tuple(8, 4, &aom_sad8x4_sse2, -1),
+ make_tuple(4, 8, &aom_sad4x8_sse2, -1),
+ make_tuple(4, 4, &aom_sad4x4_sse2, -1),
+ make_tuple(64, 64, &aom_highbd_sad64x64_sse2, 8),
+ make_tuple(64, 32, &aom_highbd_sad64x32_sse2, 8),
+ make_tuple(32, 64, &aom_highbd_sad32x64_sse2, 8),
+ make_tuple(32, 32, &aom_highbd_sad32x32_sse2, 8),
+ make_tuple(32, 16, &aom_highbd_sad32x16_sse2, 8),
+ make_tuple(16, 32, &aom_highbd_sad16x32_sse2, 8),
+ make_tuple(16, 16, &aom_highbd_sad16x16_sse2, 8),
+ make_tuple(16, 8, &aom_highbd_sad16x8_sse2, 8),
+ make_tuple(8, 16, &aom_highbd_sad8x16_sse2, 8),
+ make_tuple(8, 8, &aom_highbd_sad8x8_sse2, 8),
+ make_tuple(8, 4, &aom_highbd_sad8x4_sse2, 8),
+ make_tuple(64, 64, &aom_highbd_sad64x64_sse2, 10),
+ make_tuple(64, 32, &aom_highbd_sad64x32_sse2, 10),
+ make_tuple(32, 64, &aom_highbd_sad32x64_sse2, 10),
+ make_tuple(32, 32, &aom_highbd_sad32x32_sse2, 10),
+ make_tuple(32, 16, &aom_highbd_sad32x16_sse2, 10),
+ make_tuple(16, 32, &aom_highbd_sad16x32_sse2, 10),
+ make_tuple(16, 16, &aom_highbd_sad16x16_sse2, 10),
+ make_tuple(16, 8, &aom_highbd_sad16x8_sse2, 10),
+ make_tuple(8, 16, &aom_highbd_sad8x16_sse2, 10),
+ make_tuple(8, 8, &aom_highbd_sad8x8_sse2, 10),
+ make_tuple(8, 4, &aom_highbd_sad8x4_sse2, 10),
+ make_tuple(64, 64, &aom_highbd_sad64x64_sse2, 12),
+ make_tuple(64, 32, &aom_highbd_sad64x32_sse2, 12),
+ make_tuple(32, 64, &aom_highbd_sad32x64_sse2, 12),
+ make_tuple(32, 32, &aom_highbd_sad32x32_sse2, 12),
+ make_tuple(32, 16, &aom_highbd_sad32x16_sse2, 12),
+ make_tuple(16, 32, &aom_highbd_sad16x32_sse2, 12),
+ make_tuple(16, 16, &aom_highbd_sad16x16_sse2, 12),
+ make_tuple(16, 8, &aom_highbd_sad16x8_sse2, 12),
+ make_tuple(8, 16, &aom_highbd_sad8x16_sse2, 12),
+ make_tuple(8, 8, &aom_highbd_sad8x8_sse2, 12),
+ make_tuple(8, 4, &aom_highbd_sad8x4_sse2, 12),
+};
+INSTANTIATE_TEST_CASE_P(SSE2, SADTest, ::testing::ValuesIn(sse2_tests));
+
+const SadMxNAvgParam avg_sse2_tests[] = {
+ make_tuple(128, 128, &aom_sad128x128_avg_sse2, -1),
+ make_tuple(128, 64, &aom_sad128x64_avg_sse2, -1),
+ make_tuple(64, 128, &aom_sad64x128_avg_sse2, -1),
+ make_tuple(64, 64, &aom_sad64x64_avg_sse2, -1),
+ make_tuple(64, 32, &aom_sad64x32_avg_sse2, -1),
+ make_tuple(32, 64, &aom_sad32x64_avg_sse2, -1),
+ make_tuple(32, 32, &aom_sad32x32_avg_sse2, -1),
+ make_tuple(32, 16, &aom_sad32x16_avg_sse2, -1),
+ make_tuple(16, 32, &aom_sad16x32_avg_sse2, -1),
+ make_tuple(16, 16, &aom_sad16x16_avg_sse2, -1),
+ make_tuple(16, 8, &aom_sad16x8_avg_sse2, -1),
+ make_tuple(8, 16, &aom_sad8x16_avg_sse2, -1),
+ make_tuple(8, 8, &aom_sad8x8_avg_sse2, -1),
+ make_tuple(8, 4, &aom_sad8x4_avg_sse2, -1),
+ make_tuple(4, 8, &aom_sad4x8_avg_sse2, -1),
+ make_tuple(4, 4, &aom_sad4x4_avg_sse2, -1),
+ make_tuple(64, 64, &aom_highbd_sad64x64_avg_sse2, 8),
+ make_tuple(64, 32, &aom_highbd_sad64x32_avg_sse2, 8),
+ make_tuple(32, 64, &aom_highbd_sad32x64_avg_sse2, 8),
+ make_tuple(32, 32, &aom_highbd_sad32x32_avg_sse2, 8),
+ make_tuple(32, 16, &aom_highbd_sad32x16_avg_sse2, 8),
+ make_tuple(16, 32, &aom_highbd_sad16x32_avg_sse2, 8),
+ make_tuple(16, 16, &aom_highbd_sad16x16_avg_sse2, 8),
+ make_tuple(16, 8, &aom_highbd_sad16x8_avg_sse2, 8),
+ make_tuple(8, 16, &aom_highbd_sad8x16_avg_sse2, 8),
+ make_tuple(8, 8, &aom_highbd_sad8x8_avg_sse2, 8),
+ make_tuple(8, 4, &aom_highbd_sad8x4_avg_sse2, 8),
+ make_tuple(64, 64, &aom_highbd_sad64x64_avg_sse2, 10),
+ make_tuple(64, 32, &aom_highbd_sad64x32_avg_sse2, 10),
+ make_tuple(32, 64, &aom_highbd_sad32x64_avg_sse2, 10),
+ make_tuple(32, 32, &aom_highbd_sad32x32_avg_sse2, 10),
+ make_tuple(32, 16, &aom_highbd_sad32x16_avg_sse2, 10),
+ make_tuple(16, 32, &aom_highbd_sad16x32_avg_sse2, 10),
+ make_tuple(16, 16, &aom_highbd_sad16x16_avg_sse2, 10),
+ make_tuple(16, 8, &aom_highbd_sad16x8_avg_sse2, 10),
+ make_tuple(8, 16, &aom_highbd_sad8x16_avg_sse2, 10),
+ make_tuple(8, 8, &aom_highbd_sad8x8_avg_sse2, 10),
+ make_tuple(8, 4, &aom_highbd_sad8x4_avg_sse2, 10),
+ make_tuple(64, 64, &aom_highbd_sad64x64_avg_sse2, 12),
+ make_tuple(64, 32, &aom_highbd_sad64x32_avg_sse2, 12),
+ make_tuple(32, 64, &aom_highbd_sad32x64_avg_sse2, 12),
+ make_tuple(32, 32, &aom_highbd_sad32x32_avg_sse2, 12),
+ make_tuple(32, 16, &aom_highbd_sad32x16_avg_sse2, 12),
+ make_tuple(16, 32, &aom_highbd_sad16x32_avg_sse2, 12),
+ make_tuple(16, 16, &aom_highbd_sad16x16_avg_sse2, 12),
+ make_tuple(16, 8, &aom_highbd_sad16x8_avg_sse2, 12),
+ make_tuple(8, 16, &aom_highbd_sad8x16_avg_sse2, 12),
+ make_tuple(8, 8, &aom_highbd_sad8x8_avg_sse2, 12),
+ make_tuple(8, 4, &aom_highbd_sad8x4_avg_sse2, 12),
+};
+INSTANTIATE_TEST_CASE_P(SSE2, SADavgTest, ::testing::ValuesIn(avg_sse2_tests));
+
+const SadMxNx4Param x4d_sse2_tests[] = {
+ make_tuple(128, 128, &aom_sad128x128x4d_sse2, -1),
+ make_tuple(128, 64, &aom_sad128x64x4d_sse2, -1),
+ make_tuple(64, 128, &aom_sad64x128x4d_sse2, -1),
+ make_tuple(64, 64, &aom_sad64x64x4d_sse2, -1),
+ make_tuple(64, 32, &aom_sad64x32x4d_sse2, -1),
+ make_tuple(32, 64, &aom_sad32x64x4d_sse2, -1),
+ make_tuple(32, 32, &aom_sad32x32x4d_sse2, -1),
+ make_tuple(32, 16, &aom_sad32x16x4d_sse2, -1),
+ make_tuple(16, 32, &aom_sad16x32x4d_sse2, -1),
+ make_tuple(16, 16, &aom_sad16x16x4d_sse2, -1),
+ make_tuple(16, 8, &aom_sad16x8x4d_sse2, -1),
+ make_tuple(8, 16, &aom_sad8x16x4d_sse2, -1),
+ make_tuple(8, 8, &aom_sad8x8x4d_sse2, -1),
+ make_tuple(8, 4, &aom_sad8x4x4d_sse2, -1),
+ make_tuple(4, 8, &aom_sad4x8x4d_sse2, -1),
+ make_tuple(4, 4, &aom_sad4x4x4d_sse2, -1),
+ make_tuple(64, 64, &aom_highbd_sad64x64x4d_sse2, 8),
+ make_tuple(64, 32, &aom_highbd_sad64x32x4d_sse2, 8),
+ make_tuple(32, 64, &aom_highbd_sad32x64x4d_sse2, 8),
+ make_tuple(32, 32, &aom_highbd_sad32x32x4d_sse2, 8),
+ make_tuple(32, 16, &aom_highbd_sad32x16x4d_sse2, 8),
+ make_tuple(16, 32, &aom_highbd_sad16x32x4d_sse2, 8),
+ make_tuple(16, 16, &aom_highbd_sad16x16x4d_sse2, 8),
+ make_tuple(16, 8, &aom_highbd_sad16x8x4d_sse2, 8),
+ make_tuple(8, 16, &aom_highbd_sad8x16x4d_sse2, 8),
+ make_tuple(8, 8, &aom_highbd_sad8x8x4d_sse2, 8),
+ make_tuple(8, 4, &aom_highbd_sad8x4x4d_sse2, 8),
+ make_tuple(4, 8, &aom_highbd_sad4x8x4d_sse2, 8),
+ make_tuple(4, 4, &aom_highbd_sad4x4x4d_sse2, 8),
+ make_tuple(64, 64, &aom_highbd_sad64x64x4d_sse2, 10),
+ make_tuple(64, 32, &aom_highbd_sad64x32x4d_sse2, 10),
+ make_tuple(32, 64, &aom_highbd_sad32x64x4d_sse2, 10),
+ make_tuple(32, 32, &aom_highbd_sad32x32x4d_sse2, 10),
+ make_tuple(32, 16, &aom_highbd_sad32x16x4d_sse2, 10),
+ make_tuple(16, 32, &aom_highbd_sad16x32x4d_sse2, 10),
+ make_tuple(16, 16, &aom_highbd_sad16x16x4d_sse2, 10),
+ make_tuple(16, 8, &aom_highbd_sad16x8x4d_sse2, 10),
+ make_tuple(8, 16, &aom_highbd_sad8x16x4d_sse2, 10),
+ make_tuple(8, 8, &aom_highbd_sad8x8x4d_sse2, 10),
+ make_tuple(8, 4, &aom_highbd_sad8x4x4d_sse2, 10),
+ make_tuple(4, 8, &aom_highbd_sad4x8x4d_sse2, 10),
+ make_tuple(4, 4, &aom_highbd_sad4x4x4d_sse2, 10),
+ make_tuple(64, 64, &aom_highbd_sad64x64x4d_sse2, 12),
+ make_tuple(64, 32, &aom_highbd_sad64x32x4d_sse2, 12),
+ make_tuple(32, 64, &aom_highbd_sad32x64x4d_sse2, 12),
+ make_tuple(32, 32, &aom_highbd_sad32x32x4d_sse2, 12),
+ make_tuple(32, 16, &aom_highbd_sad32x16x4d_sse2, 12),
+ make_tuple(16, 32, &aom_highbd_sad16x32x4d_sse2, 12),
+ make_tuple(16, 16, &aom_highbd_sad16x16x4d_sse2, 12),
+ make_tuple(16, 8, &aom_highbd_sad16x8x4d_sse2, 12),
+ make_tuple(8, 16, &aom_highbd_sad8x16x4d_sse2, 12),
+ make_tuple(8, 8, &aom_highbd_sad8x8x4d_sse2, 12),
+ make_tuple(8, 4, &aom_highbd_sad8x4x4d_sse2, 12),
+ make_tuple(4, 8, &aom_highbd_sad4x8x4d_sse2, 12),
+ make_tuple(4, 4, &aom_highbd_sad4x4x4d_sse2, 12),
+};
+INSTANTIATE_TEST_CASE_P(SSE2, SADx4Test, ::testing::ValuesIn(x4d_sse2_tests));
+#endif // HAVE_SSE2
+
+#if HAVE_SSSE3
+// Note: These are named sse2, but part of ssse3 file and only built and linked
+// when ssse3 is enabled.
+const JntSadMxhParam jnt_sad_sse2_tests[] = {
+ make_tuple(4, 4, &aom_sad4xh_sse2, -1),
+ make_tuple(4, 8, &aom_sad4xh_sse2, -1),
+ make_tuple(8, 4, &aom_sad8xh_sse2, -1),
+ make_tuple(8, 8, &aom_sad8xh_sse2, -1),
+ make_tuple(8, 16, &aom_sad8xh_sse2, -1),
+ make_tuple(16, 8, &aom_sad16xh_sse2, -1),
+ make_tuple(16, 16, &aom_sad16xh_sse2, -1),
+ make_tuple(16, 32, &aom_sad16xh_sse2, -1),
+ make_tuple(32, 16, &aom_sad32xh_sse2, -1),
+ make_tuple(32, 32, &aom_sad32xh_sse2, -1),
+ make_tuple(32, 64, &aom_sad32xh_sse2, -1),
+ make_tuple(64, 32, &aom_sad64xh_sse2, -1),
+ make_tuple(64, 64, &aom_sad64xh_sse2, -1),
+ make_tuple(128, 128, &aom_sad128xh_sse2, -1),
+ make_tuple(128, 64, &aom_sad128xh_sse2, -1),
+ make_tuple(64, 128, &aom_sad64xh_sse2, -1),
+ make_tuple(4, 16, &aom_sad4xh_sse2, -1),
+ make_tuple(16, 4, &aom_sad16xh_sse2, -1),
+ make_tuple(8, 32, &aom_sad8xh_sse2, -1),
+ make_tuple(32, 8, &aom_sad32xh_sse2, -1),
+ make_tuple(16, 64, &aom_sad16xh_sse2, -1),
+ make_tuple(64, 16, &aom_sad64xh_sse2, -1),
+};
+INSTANTIATE_TEST_CASE_P(SSE2, JntSADTest,
+ ::testing::ValuesIn(jnt_sad_sse2_tests));
+
+#endif // HAVE_SSSE3
+
+#if HAVE_SSE3
+// Only functions are x3, which do not have tests.
+#endif // HAVE_SSE3
+
+#if HAVE_SSSE3
+const JntCompAvgParam jnt_comp_avg_ssse3_tests[] = {
+ make_tuple(128, 128, &aom_jnt_comp_avg_pred_ssse3, -1),
+ make_tuple(128, 64, &aom_jnt_comp_avg_pred_ssse3, -1),
+ make_tuple(64, 128, &aom_jnt_comp_avg_pred_ssse3, -1),
+ make_tuple(64, 64, &aom_jnt_comp_avg_pred_ssse3, -1),
+ make_tuple(64, 32, &aom_jnt_comp_avg_pred_ssse3, -1),
+ make_tuple(32, 64, &aom_jnt_comp_avg_pred_ssse3, -1),
+ make_tuple(32, 32, &aom_jnt_comp_avg_pred_ssse3, -1),
+ make_tuple(32, 16, &aom_jnt_comp_avg_pred_ssse3, -1),
+ make_tuple(16, 32, &aom_jnt_comp_avg_pred_ssse3, -1),
+ make_tuple(16, 16, &aom_jnt_comp_avg_pred_ssse3, -1),
+ make_tuple(16, 8, &aom_jnt_comp_avg_pred_ssse3, -1),
+ make_tuple(8, 16, &aom_jnt_comp_avg_pred_ssse3, -1),
+ make_tuple(8, 8, &aom_jnt_comp_avg_pred_ssse3, -1),
+ make_tuple(8, 4, &aom_jnt_comp_avg_pred_ssse3, -1),
+ make_tuple(4, 8, &aom_jnt_comp_avg_pred_ssse3, -1),
+ make_tuple(4, 4, &aom_jnt_comp_avg_pred_ssse3, -1),
+ make_tuple(16, 16, &aom_jnt_comp_avg_pred_ssse3, -1),
+};
+
+INSTANTIATE_TEST_CASE_P(SSSE3, JntCompAvgTest,
+ ::testing::ValuesIn(jnt_comp_avg_ssse3_tests));
+
+const JntSadMxNAvgParam jnt_avg_ssse3_tests[] = {
+ make_tuple(128, 128, &aom_jnt_sad128x128_avg_ssse3, -1),
+ make_tuple(128, 64, &aom_jnt_sad128x64_avg_ssse3, -1),
+ make_tuple(64, 128, &aom_jnt_sad64x128_avg_ssse3, -1),
+ make_tuple(64, 64, &aom_jnt_sad64x64_avg_ssse3, -1),
+ make_tuple(64, 32, &aom_jnt_sad64x32_avg_ssse3, -1),
+ make_tuple(32, 64, &aom_jnt_sad32x64_avg_ssse3, -1),
+ make_tuple(32, 32, &aom_jnt_sad32x32_avg_ssse3, -1),
+ make_tuple(32, 16, &aom_jnt_sad32x16_avg_ssse3, -1),
+ make_tuple(16, 32, &aom_jnt_sad16x32_avg_ssse3, -1),
+ make_tuple(16, 16, &aom_jnt_sad16x16_avg_ssse3, -1),
+ make_tuple(16, 8, &aom_jnt_sad16x8_avg_ssse3, -1),
+ make_tuple(8, 16, &aom_jnt_sad8x16_avg_ssse3, -1),
+ make_tuple(8, 8, &aom_jnt_sad8x8_avg_ssse3, -1),
+ make_tuple(8, 4, &aom_jnt_sad8x4_avg_ssse3, -1),
+ make_tuple(4, 8, &aom_jnt_sad4x8_avg_ssse3, -1),
+ make_tuple(4, 4, &aom_jnt_sad4x4_avg_ssse3, -1),
+};
+INSTANTIATE_TEST_CASE_P(SSSE3, JntSADavgTest,
+ ::testing::ValuesIn(jnt_avg_ssse3_tests));
+#endif // HAVE_SSSE3
+
+#if HAVE_SSE4_1
+// Only functions are x8, which do not have tests.
+#endif // HAVE_SSE4_1
+
+#if HAVE_AVX2
+const SadMxNParam avx2_tests[] = {
+ make_tuple(64, 128, &aom_sad64x128_avx2, -1),
+ make_tuple(128, 64, &aom_sad128x64_avx2, -1),
+ make_tuple(128, 128, &aom_sad128x128_avx2, -1),
+ make_tuple(64, 64, &aom_sad64x64_avx2, -1),
+ make_tuple(64, 32, &aom_sad64x32_avx2, -1),
+ make_tuple(32, 64, &aom_sad32x64_avx2, -1),
+ make_tuple(32, 32, &aom_sad32x32_avx2, -1),
+ make_tuple(32, 16, &aom_sad32x16_avx2, -1),
+ make_tuple(128, 128, &aom_highbd_sad128x128_avx2, 8),
+ make_tuple(128, 128, &aom_highbd_sad128x128_avx2, 10),
+ make_tuple(128, 128, &aom_highbd_sad128x128_avx2, 12),
+ make_tuple(128, 64, &aom_highbd_sad128x64_avx2, 8),
+ make_tuple(128, 64, &aom_highbd_sad128x64_avx2, 10),
+ make_tuple(128, 64, &aom_highbd_sad128x64_avx2, 12),
+ make_tuple(64, 128, &aom_highbd_sad64x128_avx2, 8),
+ make_tuple(64, 128, &aom_highbd_sad64x128_avx2, 10),
+ make_tuple(64, 128, &aom_highbd_sad64x128_avx2, 12),
+ make_tuple(64, 64, &aom_highbd_sad64x64_avx2, 8),
+ make_tuple(64, 64, &aom_highbd_sad64x64_avx2, 10),
+ make_tuple(64, 64, &aom_highbd_sad64x64_avx2, 12),
+ make_tuple(64, 32, &aom_highbd_sad64x32_avx2, 8),
+ make_tuple(64, 32, &aom_highbd_sad64x32_avx2, 10),
+ make_tuple(64, 32, &aom_highbd_sad64x32_avx2, 12),
+ make_tuple(32, 64, &aom_highbd_sad32x64_avx2, 8),
+ make_tuple(32, 64, &aom_highbd_sad32x64_avx2, 10),
+ make_tuple(32, 64, &aom_highbd_sad32x64_avx2, 12),
+ make_tuple(32, 32, &aom_highbd_sad32x32_avx2, 8),
+ make_tuple(32, 32, &aom_highbd_sad32x32_avx2, 10),
+ make_tuple(32, 32, &aom_highbd_sad32x32_avx2, 12),
+ make_tuple(32, 16, &aom_highbd_sad32x16_avx2, 8),
+ make_tuple(32, 16, &aom_highbd_sad32x16_avx2, 10),
+ make_tuple(32, 16, &aom_highbd_sad32x16_avx2, 12),
+ make_tuple(16, 32, &aom_highbd_sad16x32_avx2, 8),
+ make_tuple(16, 32, &aom_highbd_sad16x32_avx2, 10),
+ make_tuple(16, 32, &aom_highbd_sad16x32_avx2, 12),
+ make_tuple(16, 16, &aom_highbd_sad16x16_avx2, 8),
+ make_tuple(16, 16, &aom_highbd_sad16x16_avx2, 10),
+ make_tuple(16, 16, &aom_highbd_sad16x16_avx2, 12),
+ make_tuple(16, 8, &aom_highbd_sad16x8_avx2, 8),
+ make_tuple(16, 8, &aom_highbd_sad16x8_avx2, 10),
+ make_tuple(16, 8, &aom_highbd_sad16x8_avx2, 12),
+};
+INSTANTIATE_TEST_CASE_P(AVX2, SADTest, ::testing::ValuesIn(avx2_tests));
+
+const SadMxNAvgParam avg_avx2_tests[] = {
+ make_tuple(64, 128, &aom_sad64x128_avg_avx2, -1),
+ make_tuple(128, 64, &aom_sad128x64_avg_avx2, -1),
+ make_tuple(128, 128, &aom_sad128x128_avg_avx2, -1),
+ make_tuple(64, 64, &aom_sad64x64_avg_avx2, -1),
+ make_tuple(64, 32, &aom_sad64x32_avg_avx2, -1),
+ make_tuple(32, 64, &aom_sad32x64_avg_avx2, -1),
+ make_tuple(32, 32, &aom_sad32x32_avg_avx2, -1),
+ make_tuple(32, 16, &aom_sad32x16_avg_avx2, -1),
+ make_tuple(128, 128, &aom_highbd_sad128x128_avg_avx2, 8),
+ make_tuple(128, 128, &aom_highbd_sad128x128_avg_avx2, 10),
+ make_tuple(128, 128, &aom_highbd_sad128x128_avg_avx2, 12),
+ make_tuple(128, 64, &aom_highbd_sad128x64_avg_avx2, 8),
+ make_tuple(128, 64, &aom_highbd_sad128x64_avg_avx2, 10),
+ make_tuple(128, 64, &aom_highbd_sad128x64_avg_avx2, 12),
+ make_tuple(64, 128, &aom_highbd_sad64x128_avg_avx2, 8),
+ make_tuple(64, 128, &aom_highbd_sad64x128_avg_avx2, 10),
+ make_tuple(64, 128, &aom_highbd_sad64x128_avg_avx2, 12),
+ make_tuple(64, 64, &aom_highbd_sad64x64_avg_avx2, 8),
+ make_tuple(64, 64, &aom_highbd_sad64x64_avg_avx2, 10),
+ make_tuple(64, 64, &aom_highbd_sad64x64_avg_avx2, 12),
+ make_tuple(64, 32, &aom_highbd_sad64x32_avg_avx2, 8),
+ make_tuple(64, 32, &aom_highbd_sad64x32_avg_avx2, 10),
+ make_tuple(64, 32, &aom_highbd_sad64x32_avg_avx2, 12),
+ make_tuple(32, 64, &aom_highbd_sad32x64_avg_avx2, 8),
+ make_tuple(32, 64, &aom_highbd_sad32x64_avg_avx2, 10),
+ make_tuple(32, 64, &aom_highbd_sad32x64_avg_avx2, 12),
+ make_tuple(32, 32, &aom_highbd_sad32x32_avg_avx2, 8),
+ make_tuple(32, 32, &aom_highbd_sad32x32_avg_avx2, 10),
+ make_tuple(32, 32, &aom_highbd_sad32x32_avg_avx2, 12),
+ make_tuple(32, 16, &aom_highbd_sad32x16_avg_avx2, 8),
+ make_tuple(32, 16, &aom_highbd_sad32x16_avg_avx2, 10),
+ make_tuple(32, 16, &aom_highbd_sad32x16_avg_avx2, 12),
+ make_tuple(16, 32, &aom_highbd_sad16x32_avg_avx2, 8),
+ make_tuple(16, 32, &aom_highbd_sad16x32_avg_avx2, 10),
+ make_tuple(16, 32, &aom_highbd_sad16x32_avg_avx2, 12),
+ make_tuple(16, 16, &aom_highbd_sad16x16_avg_avx2, 8),
+ make_tuple(16, 16, &aom_highbd_sad16x16_avg_avx2, 10),
+ make_tuple(16, 16, &aom_highbd_sad16x16_avg_avx2, 12),
+ make_tuple(16, 8, &aom_highbd_sad16x8_avg_avx2, 8),
+ make_tuple(16, 8, &aom_highbd_sad16x8_avg_avx2, 10),
+ make_tuple(16, 8, &aom_highbd_sad16x8_avg_avx2, 12),
+};
+INSTANTIATE_TEST_CASE_P(AVX2, SADavgTest, ::testing::ValuesIn(avg_avx2_tests));
+
+const SadMxNx4Param x4d_avx2_tests[] = {
+ make_tuple(64, 128, &aom_sad64x128x4d_avx2, -1),
+ make_tuple(128, 64, &aom_sad128x64x4d_avx2, -1),
+ make_tuple(128, 128, &aom_sad128x128x4d_avx2, -1),
+ make_tuple(64, 64, &aom_sad64x64x4d_avx2, -1),
+ make_tuple(32, 64, &aom_sad32x64x4d_avx2, -1),
+ make_tuple(64, 32, &aom_sad64x32x4d_avx2, -1),
+ make_tuple(32, 32, &aom_sad32x32x4d_avx2, -1),
+ make_tuple(128, 128, &aom_highbd_sad128x128x4d_avx2, 8),
+ make_tuple(128, 128, &aom_highbd_sad128x128x4d_avx2, 10),
+ make_tuple(128, 128, &aom_highbd_sad128x128x4d_avx2, 12),
+ make_tuple(128, 64, &aom_highbd_sad128x64x4d_avx2, 8),
+ make_tuple(128, 64, &aom_highbd_sad128x64x4d_avx2, 10),
+ make_tuple(128, 64, &aom_highbd_sad128x64x4d_avx2, 12),
+ make_tuple(64, 128, &aom_highbd_sad64x128x4d_avx2, 8),
+ make_tuple(64, 128, &aom_highbd_sad64x128x4d_avx2, 10),
+ make_tuple(64, 128, &aom_highbd_sad64x128x4d_avx2, 12),
+ make_tuple(64, 64, &aom_highbd_sad64x64x4d_avx2, 8),
+ make_tuple(64, 64, &aom_highbd_sad64x64x4d_avx2, 10),
+ make_tuple(64, 64, &aom_highbd_sad64x64x4d_avx2, 12),
+ make_tuple(64, 32, &aom_highbd_sad64x32x4d_avx2, 8),
+ make_tuple(64, 32, &aom_highbd_sad64x32x4d_avx2, 10),
+ make_tuple(64, 32, &aom_highbd_sad64x32x4d_avx2, 12),
+ make_tuple(32, 64, &aom_highbd_sad32x64x4d_avx2, 8),
+ make_tuple(32, 64, &aom_highbd_sad32x64x4d_avx2, 10),
+ make_tuple(32, 64, &aom_highbd_sad32x64x4d_avx2, 12),
+ make_tuple(32, 32, &aom_highbd_sad32x32x4d_avx2, 8),
+ make_tuple(32, 32, &aom_highbd_sad32x32x4d_avx2, 10),
+ make_tuple(32, 32, &aom_highbd_sad32x32x4d_avx2, 12),
+ make_tuple(32, 16, &aom_highbd_sad32x16x4d_avx2, 8),
+ make_tuple(32, 16, &aom_highbd_sad32x16x4d_avx2, 10),
+ make_tuple(32, 16, &aom_highbd_sad32x16x4d_avx2, 12),
+ make_tuple(16, 32, &aom_highbd_sad16x32x4d_avx2, 8),
+ make_tuple(16, 32, &aom_highbd_sad16x32x4d_avx2, 10),
+ make_tuple(16, 32, &aom_highbd_sad16x32x4d_avx2, 12),
+ make_tuple(16, 16, &aom_highbd_sad16x16x4d_avx2, 8),
+ make_tuple(16, 16, &aom_highbd_sad16x16x4d_avx2, 10),
+ make_tuple(16, 16, &aom_highbd_sad16x16x4d_avx2, 12),
+ make_tuple(16, 8, &aom_highbd_sad16x8x4d_avx2, 8),
+ make_tuple(16, 8, &aom_highbd_sad16x8x4d_avx2, 10),
+ make_tuple(16, 8, &aom_highbd_sad16x8x4d_avx2, 12),
+};
+INSTANTIATE_TEST_CASE_P(AVX2, SADx4Test, ::testing::ValuesIn(x4d_avx2_tests));
+#endif // HAVE_AVX2
+
+//------------------------------------------------------------------------------
+// MIPS functions
+#if HAVE_MSA
+const SadMxNParam msa_tests[] = {
+ make_tuple(64, 64, &aom_sad64x64_msa, -1),
+ make_tuple(64, 32, &aom_sad64x32_msa, -1),
+ make_tuple(32, 64, &aom_sad32x64_msa, -1),
+ make_tuple(32, 32, &aom_sad32x32_msa, -1),
+ make_tuple(32, 16, &aom_sad32x16_msa, -1),
+ make_tuple(16, 32, &aom_sad16x32_msa, -1),
+ make_tuple(16, 16, &aom_sad16x16_msa, -1),
+ make_tuple(16, 8, &aom_sad16x8_msa, -1),
+ make_tuple(8, 16, &aom_sad8x16_msa, -1),
+ make_tuple(8, 8, &aom_sad8x8_msa, -1),
+ make_tuple(8, 4, &aom_sad8x4_msa, -1),
+ make_tuple(4, 8, &aom_sad4x8_msa, -1),
+ make_tuple(4, 4, &aom_sad4x4_msa, -1),
+};
+INSTANTIATE_TEST_CASE_P(MSA, SADTest, ::testing::ValuesIn(msa_tests));
+
+const SadMxNAvgParam avg_msa_tests[] = {
+ make_tuple(64, 64, &aom_sad64x64_avg_msa, -1),
+ make_tuple(64, 32, &aom_sad64x32_avg_msa, -1),
+ make_tuple(32, 64, &aom_sad32x64_avg_msa, -1),
+ make_tuple(32, 32, &aom_sad32x32_avg_msa, -1),
+ make_tuple(32, 16, &aom_sad32x16_avg_msa, -1),
+ make_tuple(16, 32, &aom_sad16x32_avg_msa, -1),
+ make_tuple(16, 16, &aom_sad16x16_avg_msa, -1),
+ make_tuple(16, 8, &aom_sad16x8_avg_msa, -1),
+ make_tuple(8, 16, &aom_sad8x16_avg_msa, -1),
+ make_tuple(8, 8, &aom_sad8x8_avg_msa, -1),
+ make_tuple(8, 4, &aom_sad8x4_avg_msa, -1),
+ make_tuple(4, 8, &aom_sad4x8_avg_msa, -1),
+ make_tuple(4, 4, &aom_sad4x4_avg_msa, -1),
+};
+INSTANTIATE_TEST_CASE_P(MSA, SADavgTest, ::testing::ValuesIn(avg_msa_tests));
+
+const SadMxNx4Param x4d_msa_tests[] = {
+ make_tuple(64, 64, &aom_sad64x64x4d_msa, -1),
+ make_tuple(64, 32, &aom_sad64x32x4d_msa, -1),
+ make_tuple(32, 64, &aom_sad32x64x4d_msa, -1),
+ make_tuple(32, 32, &aom_sad32x32x4d_msa, -1),
+ make_tuple(32, 16, &aom_sad32x16x4d_msa, -1),
+ make_tuple(16, 32, &aom_sad16x32x4d_msa, -1),
+ make_tuple(16, 16, &aom_sad16x16x4d_msa, -1),
+ make_tuple(16, 8, &aom_sad16x8x4d_msa, -1),
+ make_tuple(8, 16, &aom_sad8x16x4d_msa, -1),
+ make_tuple(8, 8, &aom_sad8x8x4d_msa, -1),
+ make_tuple(8, 4, &aom_sad8x4x4d_msa, -1),
+ make_tuple(4, 8, &aom_sad4x8x4d_msa, -1),
+ make_tuple(4, 4, &aom_sad4x4x4d_msa, -1),
+};
+INSTANTIATE_TEST_CASE_P(MSA, SADx4Test, ::testing::ValuesIn(x4d_msa_tests));
+#endif // HAVE_MSA
+
+} // namespace
diff --git a/third_party/aom/test/scalability_test.cc b/third_party/aom/test/scalability_test.cc
new file mode 100644
index 0000000000..b399188617
--- /dev/null
+++ b/third_party/aom/test/scalability_test.cc
@@ -0,0 +1,81 @@
+/*
+ * Copyright (c) 2018, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/codec_factory.h"
+#include "test/encode_test_driver.h"
+#include "test/i420_video_source.h"
+#include "test/util.h"
+
+namespace {
+
+const int kCpuUsed = 8;
+const int kBaseLayerQp = 55;
+const int kEnhancementLayerQp = 20;
+
+class ScalabilityTest
+ : public ::libaom_test::CodecTestWithParam<libaom_test::TestMode>,
+ public ::libaom_test::EncoderTest {
+ protected:
+ ScalabilityTest() : EncoderTest(GET_PARAM(0)) {}
+ virtual ~ScalabilityTest() {}
+
+ virtual void SetUp() {
+ InitializeConfig();
+ SetMode(GET_PARAM(1));
+ num_spatial_layers_ = 2;
+ }
+
+ virtual void PreEncodeFrameHook(::libaom_test::VideoSource *video,
+ ::libaom_test::Encoder *encoder) {
+ if (video->frame() == 0) {
+ encoder->Control(AOME_SET_CPUUSED, kCpuUsed);
+ encoder->Control(AOME_SET_NUMBER_SPATIAL_LAYERS, num_spatial_layers_);
+ } else if (video->frame() % num_spatial_layers_) {
+ frame_flags_ = AOM_EFLAG_NO_REF_LAST2 | AOM_EFLAG_NO_REF_LAST3 |
+ AOM_EFLAG_NO_REF_GF | AOM_EFLAG_NO_REF_ARF |
+ AOM_EFLAG_NO_REF_BWD | AOM_EFLAG_NO_REF_ARF2 |
+ AOM_EFLAG_NO_UPD_LAST | AOM_EFLAG_NO_UPD_GF |
+ AOM_EFLAG_NO_UPD_ARF | AOM_EFLAG_NO_UPD_ENTROPY;
+ encoder->Control(AOME_SET_SPATIAL_LAYER_ID, 1);
+ encoder->Control(AOME_SET_CQ_LEVEL, kEnhancementLayerQp);
+ } else {
+ frame_flags_ = AOM_EFLAG_NO_REF_LAST2 | AOM_EFLAG_NO_REF_LAST3 |
+ AOM_EFLAG_NO_REF_GF | AOM_EFLAG_NO_REF_ARF |
+ AOM_EFLAG_NO_REF_BWD | AOM_EFLAG_NO_REF_ARF2 |
+ AOM_EFLAG_NO_UPD_GF | AOM_EFLAG_NO_UPD_ARF |
+ AOM_EFLAG_NO_UPD_ENTROPY;
+ encoder->Control(AOME_SET_SPATIAL_LAYER_ID, 0);
+ encoder->Control(AOME_SET_CQ_LEVEL, kBaseLayerQp);
+ }
+ }
+
+ void DoTest(int num_spatial_layers) {
+ num_spatial_layers_ = num_spatial_layers;
+ cfg_.rc_end_usage = AOM_Q;
+ cfg_.g_lag_in_frames = 0;
+
+ ::libaom_test::I420VideoSource video("hantro_collage_w352h288.yuv", 352,
+ 288, 30, 1, 0, 18);
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+ }
+
+ int num_spatial_layers_;
+};
+
+TEST_P(ScalabilityTest, TestNoMismatch2SpatialLayers) { DoTest(2); }
+
+TEST_P(ScalabilityTest, TestNoMismatch3SpatialLayers) { DoTest(3); }
+
+AV1_INSTANTIATE_TEST_CASE(ScalabilityTest,
+ ::testing::Values(::libaom_test::kRealTime));
+
+} // namespace
diff --git a/third_party/aom/test/scan_test.cc b/third_party/aom/test/scan_test.cc
new file mode 100644
index 0000000000..dee2ab5a69
--- /dev/null
+++ b/third_party/aom/test/scan_test.cc
@@ -0,0 +1,133 @@
+/*
+ * Copyright (c) 2018, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "av1/common/scan.h"
+#include "av1/common/txb_common.h"
+#include "test/av1_txfm_test.h"
+
+static int scan_test(const int16_t *scan, const int16_t *iscan, int si, int r,
+ int c, int w) {
+ if (iscan[r * w + c] != si || scan[si] != r * w + c) {
+ printf("r %d c %d ref_iscan %d iscan %d ref_scan %d scan %d\n", r, c, si,
+ iscan[r * w + c], r * w + c, scan[si]);
+ return 1;
+ } else {
+ return 0;
+ }
+}
+
+int scan_order_test(const SCAN_ORDER *scan_order, int w, int h,
+ SCAN_MODE mode) {
+ const int16_t *scan = scan_order->scan;
+ const int16_t *iscan = scan_order->iscan;
+ int dim = w + h - 1;
+ if (mode == SCAN_MODE_ZIG_ZAG) {
+ int si = 0;
+ for (int i = 0; i < dim; ++i) {
+ if (i % 2 == 0) {
+ for (int c = 0; c < w; ++c) {
+ int r = i - c;
+ if (r >= 0 && r < h) {
+ if (scan_test(scan, iscan, si, r, c, w)) return 1;
+ ++si;
+ }
+ }
+ } else {
+ for (int r = 0; r < h; ++r) {
+ int c = i - r;
+ if (c >= 0 && c < w) {
+ if (scan_test(scan, iscan, si, r, c, w)) return 1;
+ ++si;
+ }
+ }
+ }
+ }
+ } else if (mode == SCAN_MODE_COL_DIAG) {
+ int si = 0;
+ for (int i = 0; i < dim; ++i) {
+ for (int c = 0; c < w; ++c) {
+ int r = i - c;
+ if (r >= 0 && r < h) {
+ if (scan_test(scan, iscan, si, r, c, w)) return 1;
+ ++si;
+ }
+ }
+ }
+ } else if (mode == SCAN_MODE_ROW_DIAG) {
+ int si = 0;
+ for (int i = 0; i < dim; ++i) {
+ for (int r = 0; r < h; ++r) {
+ int c = i - r;
+ if (c >= 0 && c < w) {
+ if (scan_test(scan, iscan, si, r, c, w)) return 1;
+ ++si;
+ }
+ }
+ }
+ } else if (mode == SCAN_MODE_ROW_1D) {
+ int si = 0;
+ for (int r = 0; r < h; ++r) {
+ for (int c = 0; c < w; ++c) {
+ if (scan_test(scan, iscan, si, r, c, w)) return 1;
+ ++si;
+ }
+ }
+ } else {
+ assert(mode == SCAN_MODE_COL_1D);
+ int si = 0;
+ for (int c = 0; c < w; ++c) {
+ for (int r = 0; r < h; ++r) {
+ if (scan_test(scan, iscan, si, r, c, w)) return 1;
+ ++si;
+ }
+ }
+ }
+ return 0;
+}
+
+TEST(Av1ScanTest, Dependency) {
+ for (int tx_size = TX_4X4; tx_size < TX_SIZES_ALL; ++tx_size) {
+ const int org_rows = tx_size_high[(TX_SIZE)tx_size];
+ const int org_cols = tx_size_wide[(TX_SIZE)tx_size];
+ const int rows = get_txb_high((TX_SIZE)tx_size);
+ const int cols = get_txb_wide((TX_SIZE)tx_size);
+ for (int tx_type = 0; tx_type < TX_TYPES; ++tx_type) {
+ if (libaom_test::IsTxSizeTypeValid(static_cast<TX_SIZE>(tx_size),
+ static_cast<TX_TYPE>(tx_type)) ==
+ false) {
+ continue;
+ }
+ SCAN_MODE scan_mode;
+ TX_CLASS tx_class = tx_type_to_class[(TX_TYPE)tx_type];
+ if (tx_class == TX_CLASS_2D) {
+ if (rows == cols) {
+ scan_mode = SCAN_MODE_ZIG_ZAG;
+ } else if (rows > cols) {
+ scan_mode = SCAN_MODE_ROW_DIAG;
+ } else {
+ scan_mode = SCAN_MODE_COL_DIAG;
+ }
+ } else if (tx_class == TX_CLASS_VERT) {
+ scan_mode = SCAN_MODE_ROW_1D;
+ } else {
+ assert(tx_class == TX_CLASS_HORIZ);
+ scan_mode = SCAN_MODE_COL_1D;
+ }
+ const SCAN_ORDER *scan_order =
+ get_default_scan((TX_SIZE)tx_size, (TX_TYPE)tx_type);
+ ASSERT_EQ(scan_order_test(scan_order, cols, rows, scan_mode), 0)
+ << "scan mismatch tx_class " << tx_class << " tx_type " << tx_type
+ << " tx_w " << org_cols << " tx_h " << org_rows << " scan_mode "
+ << scan_mode << "\n";
+ }
+ }
+}
diff --git a/third_party/aom/test/segment_binarization_sync.cc b/third_party/aom/test/segment_binarization_sync.cc
new file mode 100644
index 0000000000..bd8cf11410
--- /dev/null
+++ b/third_party/aom/test/segment_binarization_sync.cc
@@ -0,0 +1,61 @@
+/*
+ * Copyright (c) 2018, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/acm_random.h"
+
+using libaom_test::ACMRandom;
+
+extern "C" {
+int av1_neg_interleave(int x, int ref, int max);
+int av1_neg_deinterleave(int diff, int ref, int max);
+}
+
+namespace {
+
+struct Segment {
+ int id;
+ int pred;
+ int last_id;
+};
+
+Segment GenerateSegment(int seed) {
+ static const int MAX_SEGMENTS = 8;
+
+ ACMRandom rnd_(seed);
+
+ Segment segment;
+ const int last_segid = rnd_.PseudoUniform(MAX_SEGMENTS);
+ segment.last_id = last_segid;
+ segment.pred = rnd_.PseudoUniform(MAX_SEGMENTS);
+ segment.id = rnd_.PseudoUniform(last_segid + 1);
+
+ return segment;
+}
+
+// Try to reveal a mismatch between segment binarization and debinarization
+TEST(SegmentBinarizationSync, SearchForBinarizationMismatch) {
+ const int count_tests = 1000;
+ const int seed_init = 4321;
+
+ for (int i = 0; i < count_tests; ++i) {
+ const Segment seg = GenerateSegment(seed_init + i);
+
+ const int max_segid = seg.last_id + 1;
+ const int seg_diff = av1_neg_interleave(seg.id, seg.pred, max_segid);
+ const int decoded_segid =
+ av1_neg_deinterleave(seg_diff, seg.pred, max_segid);
+
+ ASSERT_EQ(decoded_segid, seg.id);
+ }
+}
+
+} // namespace
diff --git a/third_party/aom/test/selfguided_filter_test.cc b/third_party/aom/test/selfguided_filter_test.cc
new file mode 100644
index 0000000000..d2d5c6105d
--- /dev/null
+++ b/third_party/aom/test/selfguided_filter_test.cc
@@ -0,0 +1,410 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <ctime>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/av1_rtcd.h"
+
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "test/util.h"
+
+#include "aom_ports/aom_timer.h"
+#include "av1/common/mv.h"
+#include "av1/common/restoration.h"
+
+namespace {
+
+using ::testing::make_tuple;
+using ::testing::tuple;
+using libaom_test::ACMRandom;
+
+typedef void (*SgrFunc)(const uint8_t *dat8, int width, int height, int stride,
+ int eps, const int *xqd, uint8_t *dst8, int dst_stride,
+ int32_t *tmpbuf, int bit_depth, int highbd);
+
+// Test parameter list:
+// <tst_fun_>
+typedef tuple<SgrFunc> FilterTestParam;
+
+class AV1SelfguidedFilterTest
+ : public ::testing::TestWithParam<FilterTestParam> {
+ public:
+ virtual ~AV1SelfguidedFilterTest() {}
+ virtual void SetUp() {}
+
+ virtual void TearDown() { libaom_test::ClearSystemState(); }
+
+ protected:
+ void RunSpeedTest() {
+ tst_fun_ = GET_PARAM(0);
+ const int pu_width = RESTORATION_PROC_UNIT_SIZE;
+ const int pu_height = RESTORATION_PROC_UNIT_SIZE;
+ const int width = 256, height = 256, stride = 288, out_stride = 288;
+ const int NUM_ITERS = 2000;
+ int i, j, k;
+
+ uint8_t *input_ =
+ (uint8_t *)aom_memalign(32, stride * (height + 32) * sizeof(uint8_t));
+ uint8_t *output_ = (uint8_t *)aom_memalign(
+ 32, out_stride * (height + 32) * sizeof(uint8_t));
+ int32_t *tmpbuf = (int32_t *)aom_memalign(32, RESTORATION_TMPBUF_SIZE);
+ uint8_t *input = input_ + stride * 16 + 16;
+ uint8_t *output = output_ + out_stride * 16 + 16;
+
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+
+ for (i = -16; i < height + 16; ++i)
+ for (j = -16; j < width + 16; ++j)
+ input[i * stride + j] = rnd.Rand16() & 0xFF;
+
+ int xqd[2] = { SGRPROJ_PRJ_MIN0 + rnd.PseudoUniform(SGRPROJ_PRJ_MAX0 + 1 -
+ SGRPROJ_PRJ_MIN0),
+ SGRPROJ_PRJ_MIN1 + rnd.PseudoUniform(SGRPROJ_PRJ_MAX1 + 1 -
+ SGRPROJ_PRJ_MIN1) };
+ // Fix a parameter set, since the speed depends slightly on r.
+ // Change this to test different combinations of values of r.
+ int eps = 15;
+
+ av1_loop_restoration_precal();
+
+ aom_usec_timer ref_timer;
+ aom_usec_timer_start(&ref_timer);
+ for (i = 0; i < NUM_ITERS; ++i) {
+ for (k = 0; k < height; k += pu_height)
+ for (j = 0; j < width; j += pu_width) {
+ int w = AOMMIN(pu_width, width - j);
+ int h = AOMMIN(pu_height, height - k);
+ uint8_t *input_p = input + k * stride + j;
+ uint8_t *output_p = output + k * out_stride + j;
+ apply_selfguided_restoration_c(input_p, w, h, stride, eps, xqd,
+ output_p, out_stride, tmpbuf, 8, 0);
+ }
+ }
+ aom_usec_timer_mark(&ref_timer);
+ const int64_t ref_time = aom_usec_timer_elapsed(&ref_timer);
+
+ aom_usec_timer tst_timer;
+ aom_usec_timer_start(&tst_timer);
+ for (i = 0; i < NUM_ITERS; ++i) {
+ for (k = 0; k < height; k += pu_height)
+ for (j = 0; j < width; j += pu_width) {
+ int w = AOMMIN(pu_width, width - j);
+ int h = AOMMIN(pu_height, height - k);
+ uint8_t *input_p = input + k * stride + j;
+ uint8_t *output_p = output + k * out_stride + j;
+ tst_fun_(input_p, w, h, stride, eps, xqd, output_p, out_stride,
+ tmpbuf, 8, 0);
+ }
+ }
+ aom_usec_timer_mark(&tst_timer);
+ const int64_t tst_time = aom_usec_timer_elapsed(&tst_timer);
+
+ std::cout << "[ ] C time = " << ref_time / 1000
+ << " ms, SIMD time = " << tst_time / 1000 << " ms\n";
+
+ EXPECT_GT(ref_time, tst_time)
+ << "Error: AV1SelfguidedFilterTest.SpeedTest, SIMD slower than C.\n"
+ << "C time: " << ref_time << " us\n"
+ << "SIMD time: " << tst_time << " us\n";
+
+ aom_free(input_);
+ aom_free(output_);
+ aom_free(tmpbuf);
+ }
+
+ void RunCorrectnessTest() {
+ tst_fun_ = GET_PARAM(0);
+ const int pu_width = RESTORATION_PROC_UNIT_SIZE;
+ const int pu_height = RESTORATION_PROC_UNIT_SIZE;
+ // Set the maximum width/height to test here. We actually test a small
+ // range of sizes *up to* this size, so that we can check, eg.,
+ // the behaviour on tiles which are not a multiple of 4 wide.
+ const int max_w = 260, max_h = 260, stride = 672, out_stride = 672;
+ const int NUM_ITERS = 81;
+ int i, j, k;
+
+ uint8_t *input_ =
+ (uint8_t *)aom_memalign(32, stride * (max_h + 32) * sizeof(uint8_t));
+ uint8_t *output_ = (uint8_t *)aom_memalign(
+ 32, out_stride * (max_h + 32) * sizeof(uint8_t));
+ uint8_t *output2_ = (uint8_t *)aom_memalign(
+ 32, out_stride * (max_h + 32) * sizeof(uint8_t));
+ int32_t *tmpbuf = (int32_t *)aom_memalign(32, RESTORATION_TMPBUF_SIZE);
+
+ uint8_t *input = input_ + stride * 16 + 16;
+ uint8_t *output = output_ + out_stride * 16 + 16;
+ uint8_t *output2 = output2_ + out_stride * 16 + 16;
+
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+
+ av1_loop_restoration_precal();
+
+ for (i = 0; i < NUM_ITERS; ++i) {
+ for (j = -16; j < max_h + 16; ++j)
+ for (k = -16; k < max_w + 16; ++k)
+ input[j * stride + k] = rnd.Rand16() & 0xFF;
+
+ int xqd[2] = { SGRPROJ_PRJ_MIN0 + rnd.PseudoUniform(SGRPROJ_PRJ_MAX0 + 1 -
+ SGRPROJ_PRJ_MIN0),
+ SGRPROJ_PRJ_MIN1 + rnd.PseudoUniform(SGRPROJ_PRJ_MAX1 + 1 -
+ SGRPROJ_PRJ_MIN1) };
+ int eps = rnd.PseudoUniform(1 << SGRPROJ_PARAMS_BITS);
+
+ // Test various tile sizes around 256x256
+ int test_w = max_w - (i / 9);
+ int test_h = max_h - (i % 9);
+
+ for (k = 0; k < test_h; k += pu_height)
+ for (j = 0; j < test_w; j += pu_width) {
+ int w = AOMMIN(pu_width, test_w - j);
+ int h = AOMMIN(pu_height, test_h - k);
+ uint8_t *input_p = input + k * stride + j;
+ uint8_t *output_p = output + k * out_stride + j;
+ uint8_t *output2_p = output2 + k * out_stride + j;
+ tst_fun_(input_p, w, h, stride, eps, xqd, output_p, out_stride,
+ tmpbuf, 8, 0);
+ apply_selfguided_restoration_c(input_p, w, h, stride, eps, xqd,
+ output2_p, out_stride, tmpbuf, 8, 0);
+ }
+
+ for (j = 0; j < test_h; ++j)
+ for (k = 0; k < test_w; ++k) {
+ ASSERT_EQ(output[j * out_stride + k], output2[j * out_stride + k]);
+ }
+ }
+
+ aom_free(input_);
+ aom_free(output_);
+ aom_free(output2_);
+ aom_free(tmpbuf);
+ }
+
+ private:
+ SgrFunc tst_fun_;
+};
+
+TEST_P(AV1SelfguidedFilterTest, DISABLED_SpeedTest) { RunSpeedTest(); }
+TEST_P(AV1SelfguidedFilterTest, CorrectnessTest) { RunCorrectnessTest(); }
+
+#if HAVE_SSE4_1
+INSTANTIATE_TEST_CASE_P(SSE4_1, AV1SelfguidedFilterTest,
+ ::testing::Values(apply_selfguided_restoration_sse4_1));
+#endif
+
+#if HAVE_AVX2
+INSTANTIATE_TEST_CASE_P(AVX2, AV1SelfguidedFilterTest,
+ ::testing::Values(apply_selfguided_restoration_avx2));
+#endif
+
+#if HAVE_NEON
+INSTANTIATE_TEST_CASE_P(NEON, AV1SelfguidedFilterTest,
+ ::testing::Values(apply_selfguided_restoration_neon));
+#endif
+
+// Test parameter list:
+// <tst_fun_, bit_depth>
+typedef tuple<SgrFunc, int> HighbdFilterTestParam;
+
+class AV1HighbdSelfguidedFilterTest
+ : public ::testing::TestWithParam<HighbdFilterTestParam> {
+ public:
+ virtual ~AV1HighbdSelfguidedFilterTest() {}
+ virtual void SetUp() {}
+
+ virtual void TearDown() { libaom_test::ClearSystemState(); }
+
+ protected:
+ void RunSpeedTest() {
+ tst_fun_ = GET_PARAM(0);
+ const int pu_width = RESTORATION_PROC_UNIT_SIZE;
+ const int pu_height = RESTORATION_PROC_UNIT_SIZE;
+ const int width = 256, height = 256, stride = 288, out_stride = 288;
+ const int NUM_ITERS = 2000;
+ int i, j, k;
+ int bit_depth = GET_PARAM(1);
+ int mask = (1 << bit_depth) - 1;
+
+ uint16_t *input_ =
+ (uint16_t *)aom_memalign(32, stride * (height + 32) * sizeof(uint16_t));
+ uint16_t *output_ = (uint16_t *)aom_memalign(
+ 32, out_stride * (height + 32) * sizeof(uint16_t));
+ int32_t *tmpbuf = (int32_t *)aom_memalign(32, RESTORATION_TMPBUF_SIZE);
+ uint16_t *input = input_ + stride * 16 + 16;
+ uint16_t *output = output_ + out_stride * 16 + 16;
+
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+
+ for (i = -16; i < height + 16; ++i)
+ for (j = -16; j < width + 16; ++j)
+ input[i * stride + j] = rnd.Rand16() & mask;
+
+ int xqd[2] = { SGRPROJ_PRJ_MIN0 + rnd.PseudoUniform(SGRPROJ_PRJ_MAX0 + 1 -
+ SGRPROJ_PRJ_MIN0),
+ SGRPROJ_PRJ_MIN1 + rnd.PseudoUniform(SGRPROJ_PRJ_MAX1 + 1 -
+ SGRPROJ_PRJ_MIN1) };
+ // Fix a parameter set, since the speed depends slightly on r.
+ // Change this to test different combinations of values of r.
+ int eps = 15;
+
+ av1_loop_restoration_precal();
+
+ aom_usec_timer ref_timer;
+ aom_usec_timer_start(&ref_timer);
+ for (i = 0; i < NUM_ITERS; ++i) {
+ for (k = 0; k < height; k += pu_height)
+ for (j = 0; j < width; j += pu_width) {
+ int w = AOMMIN(pu_width, width - j);
+ int h = AOMMIN(pu_height, height - k);
+ uint16_t *input_p = input + k * stride + j;
+ uint16_t *output_p = output + k * out_stride + j;
+ apply_selfguided_restoration_c(
+ CONVERT_TO_BYTEPTR(input_p), w, h, stride, eps, xqd,
+ CONVERT_TO_BYTEPTR(output_p), out_stride, tmpbuf, bit_depth, 1);
+ }
+ }
+ aom_usec_timer_mark(&ref_timer);
+ const int64_t ref_time = aom_usec_timer_elapsed(&ref_timer);
+
+ aom_usec_timer tst_timer;
+ aom_usec_timer_start(&tst_timer);
+ for (i = 0; i < NUM_ITERS; ++i) {
+ for (k = 0; k < height; k += pu_height)
+ for (j = 0; j < width; j += pu_width) {
+ int w = AOMMIN(pu_width, width - j);
+ int h = AOMMIN(pu_height, height - k);
+ uint16_t *input_p = input + k * stride + j;
+ uint16_t *output_p = output + k * out_stride + j;
+ tst_fun_(CONVERT_TO_BYTEPTR(input_p), w, h, stride, eps, xqd,
+ CONVERT_TO_BYTEPTR(output_p), out_stride, tmpbuf, bit_depth,
+ 1);
+ }
+ }
+ aom_usec_timer_mark(&tst_timer);
+ const int64_t tst_time = aom_usec_timer_elapsed(&tst_timer);
+
+ std::cout << "[ ] C time = " << ref_time / 1000
+ << " ms, SIMD time = " << tst_time / 1000 << " ms\n";
+
+ EXPECT_GT(ref_time, tst_time)
+ << "Error: AV1HighbdSelfguidedFilterTest.SpeedTest, SIMD slower than "
+ "C.\n"
+ << "C time: " << ref_time << " us\n"
+ << "SIMD time: " << tst_time << " us\n";
+
+ aom_free(input_);
+ aom_free(output_);
+ aom_free(tmpbuf);
+ }
+
+ void RunCorrectnessTest() {
+ tst_fun_ = GET_PARAM(0);
+ const int pu_width = RESTORATION_PROC_UNIT_SIZE;
+ const int pu_height = RESTORATION_PROC_UNIT_SIZE;
+ // Set the maximum width/height to test here. We actually test a small
+ // range of sizes *up to* this size, so that we can check, eg.,
+ // the behaviour on tiles which are not a multiple of 4 wide.
+ const int max_w = 260, max_h = 260, stride = 672, out_stride = 672;
+ const int NUM_ITERS = 81;
+ int i, j, k;
+ int bit_depth = GET_PARAM(1);
+ int mask = (1 << bit_depth) - 1;
+
+ uint16_t *input_ =
+ (uint16_t *)aom_memalign(32, stride * (max_h + 32) * sizeof(uint16_t));
+ uint16_t *output_ = (uint16_t *)aom_memalign(
+ 32, out_stride * (max_h + 32) * sizeof(uint16_t));
+ uint16_t *output2_ = (uint16_t *)aom_memalign(
+ 32, out_stride * (max_h + 32) * sizeof(uint16_t));
+ int32_t *tmpbuf = (int32_t *)aom_memalign(32, RESTORATION_TMPBUF_SIZE);
+
+ uint16_t *input = input_ + stride * 16 + 16;
+ uint16_t *output = output_ + out_stride * 16 + 16;
+ uint16_t *output2 = output2_ + out_stride * 16 + 16;
+
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+
+ av1_loop_restoration_precal();
+
+ for (i = 0; i < NUM_ITERS; ++i) {
+ for (j = -16; j < max_h + 16; ++j)
+ for (k = -16; k < max_w + 16; ++k)
+ input[j * stride + k] = rnd.Rand16() & mask;
+
+ int xqd[2] = { SGRPROJ_PRJ_MIN0 + rnd.PseudoUniform(SGRPROJ_PRJ_MAX0 + 1 -
+ SGRPROJ_PRJ_MIN0),
+ SGRPROJ_PRJ_MIN1 + rnd.PseudoUniform(SGRPROJ_PRJ_MAX1 + 1 -
+ SGRPROJ_PRJ_MIN1) };
+ int eps = rnd.PseudoUniform(1 << SGRPROJ_PARAMS_BITS);
+
+ // Test various tile sizes around 256x256
+ int test_w = max_w - (i / 9);
+ int test_h = max_h - (i % 9);
+
+ for (k = 0; k < test_h; k += pu_height)
+ for (j = 0; j < test_w; j += pu_width) {
+ int w = AOMMIN(pu_width, test_w - j);
+ int h = AOMMIN(pu_height, test_h - k);
+ uint16_t *input_p = input + k * stride + j;
+ uint16_t *output_p = output + k * out_stride + j;
+ uint16_t *output2_p = output2 + k * out_stride + j;
+ tst_fun_(CONVERT_TO_BYTEPTR(input_p), w, h, stride, eps, xqd,
+ CONVERT_TO_BYTEPTR(output_p), out_stride, tmpbuf, bit_depth,
+ 1);
+ apply_selfguided_restoration_c(
+ CONVERT_TO_BYTEPTR(input_p), w, h, stride, eps, xqd,
+ CONVERT_TO_BYTEPTR(output2_p), out_stride, tmpbuf, bit_depth, 1);
+ }
+
+ for (j = 0; j < test_h; ++j)
+ for (k = 0; k < test_w; ++k)
+ ASSERT_EQ(output[j * out_stride + k], output2[j * out_stride + k]);
+ }
+
+ aom_free(input_);
+ aom_free(output_);
+ aom_free(output2_);
+ aom_free(tmpbuf);
+ }
+
+ private:
+ SgrFunc tst_fun_;
+};
+
+TEST_P(AV1HighbdSelfguidedFilterTest, DISABLED_SpeedTest) { RunSpeedTest(); }
+TEST_P(AV1HighbdSelfguidedFilterTest, CorrectnessTest) { RunCorrectnessTest(); }
+
+#if HAVE_SSE4_1
+const int highbd_params_sse4_1[] = { 8, 10, 12 };
+INSTANTIATE_TEST_CASE_P(
+ SSE4_1, AV1HighbdSelfguidedFilterTest,
+ ::testing::Combine(::testing::Values(apply_selfguided_restoration_sse4_1),
+ ::testing::ValuesIn(highbd_params_sse4_1)));
+#endif
+
+#if HAVE_AVX2
+const int highbd_params_avx2[] = { 8, 10, 12 };
+INSTANTIATE_TEST_CASE_P(
+ AVX2, AV1HighbdSelfguidedFilterTest,
+ ::testing::Combine(::testing::Values(apply_selfguided_restoration_avx2),
+ ::testing::ValuesIn(highbd_params_avx2)));
+#endif
+#if HAVE_NEON
+const int highbd_params_neon[] = { 8, 10, 12 };
+INSTANTIATE_TEST_CASE_P(
+ NEON, AV1HighbdSelfguidedFilterTest,
+ ::testing::Combine(::testing::Values(apply_selfguided_restoration_neon),
+ ::testing::ValuesIn(highbd_params_neon)));
+#endif
+} // namespace
diff --git a/third_party/aom/test/set_maps.sh b/third_party/aom/test/set_maps.sh
new file mode 100755
index 0000000000..4f59b06d69
--- /dev/null
+++ b/third_party/aom/test/set_maps.sh
@@ -0,0 +1,52 @@
+#!/bin/sh
+## Copyright (c) 2016, Alliance for Open Media. All rights reserved
+##
+## This source code is subject to the terms of the BSD 2 Clause License and
+## the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+## was not distributed with this source code in the LICENSE file, you can
+## obtain it at www.aomedia.org/license/software. If the Alliance for Open
+## Media Patent License 1.0 was not distributed with this source code in the
+## PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+##
+## This file tests the libaom set_maps example. To add new tests to this file,
+## do the following:
+## 1. Write a shell function (this is your test).
+## 2. Add the function to set_maps_tests (on a new line).
+##
+. $(dirname $0)/tools_common.sh
+
+# Environment check: $YUV_RAW_INPUT is required, and set_maps must exist in
+# $LIBAOM_BIN_PATH.
+set_maps_verify_environment() {
+ if [ ! -e "${YUV_RAW_INPUT}" ]; then
+ echo "Libaom test data must exist in LIBAOM_TEST_DATA_PATH."
+ return 1
+ fi
+ if [ -z "$(aom_tool_path set_maps)" ]; then
+ elog "set_maps not found. It must exist in LIBAOM_BIN_PATH or its parent."
+ return 1
+ fi
+}
+
+# Runs set_maps using the codec specified by $1.
+set_maps() {
+ local encoder="$(aom_tool_path set_maps)"
+ local codec="$1"
+ local output_file="${AOM_TEST_OUTPUT_DIR}/set_maps_${codec}.ivf"
+
+ eval "${AOM_TEST_PREFIX}" "${encoder}" "${codec}" "${YUV_RAW_INPUT_WIDTH}" \
+ "${YUV_RAW_INPUT_HEIGHT}" "${YUV_RAW_INPUT}" "${output_file}" \
+ ${devnull}
+
+ [ -e "${output_file}" ] || return 1
+}
+
+set_maps_av1() {
+ if [ "$(av1_encode_available)" = "yes" ]; then
+ set_maps av1 || return 1
+ fi
+}
+
+set_maps_tests="set_maps_av1"
+
+run_tests set_maps_verify_environment "${set_maps_tests}"
diff --git a/third_party/aom/test/simd_avx2_test.cc b/third_party/aom/test/simd_avx2_test.cc
new file mode 100644
index 0000000000..8a012bff88
--- /dev/null
+++ b/third_party/aom/test/simd_avx2_test.cc
@@ -0,0 +1,15 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#define ARCH AVX2
+#define ARCH_POSTFIX(name) name##_avx2
+#define SIMD_NAMESPACE simd_test_avx2
+#include "test/simd_impl.h"
diff --git a/third_party/aom/test/simd_cmp_avx2.cc b/third_party/aom/test/simd_cmp_avx2.cc
new file mode 100644
index 0000000000..cda632bcdf
--- /dev/null
+++ b/third_party/aom/test/simd_cmp_avx2.cc
@@ -0,0 +1,15 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#define ARCH AVX2
+#define ARCH_POSTFIX(name) name##_avx2
+#define SIMD_NAMESPACE simd_test_avx2
+#include "test/simd_cmp_impl.h"
diff --git a/third_party/aom/test/simd_cmp_impl.h b/third_party/aom/test/simd_cmp_impl.h
new file mode 100644
index 0000000000..b98af9aade
--- /dev/null
+++ b/third_party/aom/test/simd_cmp_impl.h
@@ -0,0 +1,2171 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <assert.h>
+#include <string>
+
+#include "config/aom_dsp_rtcd.h"
+
+#include "test/acm_random.h"
+#include "aom_dsp/aom_simd.h"
+#undef SIMD_INLINE
+#define SIMD_INLINE static // Don't enforce inlining
+#include "aom_dsp/simd/v256_intrinsics_c.h"
+
+// Machine tuned code goes into this file. This file is included from
+// simd_cmp_sse2.cc, simd_cmp_ssse3.cc etc which define the macros
+// ARCH (=neon, sse2, ssse3, etc), SIMD_NAMESPACE and ARCH_POSTFIX().
+
+#ifdef _MSC_VER
+// Disable "value of intrinsic immediate argument 'value' is out of range
+// 'lowerbound - upperbound'" warning. Visual Studio emits this warning though
+// the parameters are conditionally checked in e.g., v256_shr_n_byte. Adding a
+// mask doesn't always appear to be sufficient.
+#pragma warning(disable : 4556)
+#endif
+
+using libaom_test::ACMRandom;
+
+namespace SIMD_NAMESPACE {
+
+// Wrap templates around intrinsics using immediate values
+template <int shift>
+v64 imm_v64_shl_n_byte(v64 a) {
+ return v64_shl_n_byte(a, shift);
+}
+template <int shift>
+v64 imm_v64_shr_n_byte(v64 a) {
+ return v64_shr_n_byte(a, shift);
+}
+template <int shift>
+v64 imm_v64_shl_n_8(v64 a) {
+ return v64_shl_n_8(a, shift);
+}
+template <int shift>
+v64 imm_v64_shr_n_u8(v64 a) {
+ return v64_shr_n_u8(a, shift);
+}
+template <int shift>
+v64 imm_v64_shr_n_s8(v64 a) {
+ return v64_shr_n_s8(a, shift);
+}
+template <int shift>
+v64 imm_v64_shl_n_16(v64 a) {
+ return v64_shl_n_16(a, shift);
+}
+template <int shift>
+v64 imm_v64_shr_n_u16(v64 a) {
+ return v64_shr_n_u16(a, shift);
+}
+template <int shift>
+v64 imm_v64_shr_n_s16(v64 a) {
+ return v64_shr_n_s16(a, shift);
+}
+template <int shift>
+v64 imm_v64_shl_n_32(v64 a) {
+ return v64_shl_n_32(a, shift);
+}
+template <int shift>
+v64 imm_v64_shr_n_u32(v64 a) {
+ return v64_shr_n_u32(a, shift);
+}
+template <int shift>
+v64 imm_v64_shr_n_s32(v64 a) {
+ return v64_shr_n_s32(a, shift);
+}
+template <int shift>
+v64 imm_v64_align(v64 a, v64 b) {
+ return v64_align(a, b, shift);
+}
+
+// Wrap templates around corresponding C implementations of the above
+template <int shift>
+c_v64 c_imm_v64_shl_n_byte(c_v64 a) {
+ return c_v64_shl_n_byte(a, shift);
+}
+template <int shift>
+c_v64 c_imm_v64_shr_n_byte(c_v64 a) {
+ return c_v64_shr_n_byte(a, shift);
+}
+template <int shift>
+c_v64 c_imm_v64_shl_n_8(c_v64 a) {
+ return c_v64_shl_n_8(a, shift);
+}
+template <int shift>
+c_v64 c_imm_v64_shr_n_u8(c_v64 a) {
+ return c_v64_shr_n_u8(a, shift);
+}
+template <int shift>
+c_v64 c_imm_v64_shr_n_s8(c_v64 a) {
+ return c_v64_shr_n_s8(a, shift);
+}
+template <int shift>
+c_v64 c_imm_v64_shl_n_16(c_v64 a) {
+ return c_v64_shl_n_16(a, shift);
+}
+template <int shift>
+c_v64 c_imm_v64_shr_n_u16(c_v64 a) {
+ return c_v64_shr_n_u16(a, shift);
+}
+template <int shift>
+c_v64 c_imm_v64_shr_n_s16(c_v64 a) {
+ return c_v64_shr_n_s16(a, shift);
+}
+template <int shift>
+c_v64 c_imm_v64_shl_n_32(c_v64 a) {
+ return c_v64_shl_n_32(a, shift);
+}
+template <int shift>
+c_v64 c_imm_v64_shr_n_u32(c_v64 a) {
+ return c_v64_shr_n_u32(a, shift);
+}
+template <int shift>
+c_v64 c_imm_v64_shr_n_s32(c_v64 a) {
+ return c_v64_shr_n_s32(a, shift);
+}
+template <int shift>
+c_v64 c_imm_v64_align(c_v64 a, c_v64 b) {
+ return c_v64_align(a, b, shift);
+}
+
+template <int shift>
+v128 imm_v128_shl_n_byte(v128 a) {
+ return v128_shl_n_byte(a, shift);
+}
+template <int shift>
+v128 imm_v128_shr_n_byte(v128 a) {
+ return v128_shr_n_byte(a, shift);
+}
+template <int shift>
+v128 imm_v128_shl_n_8(v128 a) {
+ return v128_shl_n_8(a, shift);
+}
+template <int shift>
+v128 imm_v128_shr_n_u8(v128 a) {
+ return v128_shr_n_u8(a, shift);
+}
+template <int shift>
+v128 imm_v128_shr_n_s8(v128 a) {
+ return v128_shr_n_s8(a, shift);
+}
+template <int shift>
+v128 imm_v128_shl_n_16(v128 a) {
+ return v128_shl_n_16(a, shift);
+}
+template <int shift>
+v128 imm_v128_shr_n_u16(v128 a) {
+ return v128_shr_n_u16(a, shift);
+}
+template <int shift>
+v128 imm_v128_shr_n_s16(v128 a) {
+ return v128_shr_n_s16(a, shift);
+}
+template <int shift>
+v128 imm_v128_shl_n_32(v128 a) {
+ return v128_shl_n_32(a, shift);
+}
+template <int shift>
+v128 imm_v128_shr_n_u32(v128 a) {
+ return v128_shr_n_u32(a, shift);
+}
+template <int shift>
+v128 imm_v128_shr_n_s32(v128 a) {
+ return v128_shr_n_s32(a, shift);
+}
+template <int shift>
+v128 imm_v128_shl_n_64(v128 a) {
+ return v128_shl_n_64(a, shift);
+}
+template <int shift>
+v128 imm_v128_shr_n_u64(v128 a) {
+ return v128_shr_n_u64(a, shift);
+}
+template <int shift>
+v128 imm_v128_shr_n_s64(v128 a) {
+ return v128_shr_n_s64(a, shift);
+}
+template <int shift>
+v128 imm_v128_align(v128 a, v128 b) {
+ return v128_align(a, b, shift);
+}
+
+template <int shift>
+c_v128 c_imm_v128_shl_n_byte(c_v128 a) {
+ return c_v128_shl_n_byte(a, shift);
+}
+template <int shift>
+c_v128 c_imm_v128_shr_n_byte(c_v128 a) {
+ return c_v128_shr_n_byte(a, shift);
+}
+template <int shift>
+c_v128 c_imm_v128_shl_n_8(c_v128 a) {
+ return c_v128_shl_n_8(a, shift);
+}
+template <int shift>
+c_v128 c_imm_v128_shr_n_u8(c_v128 a) {
+ return c_v128_shr_n_u8(a, shift);
+}
+template <int shift>
+c_v128 c_imm_v128_shr_n_s8(c_v128 a) {
+ return c_v128_shr_n_s8(a, shift);
+}
+template <int shift>
+c_v128 c_imm_v128_shl_n_16(c_v128 a) {
+ return c_v128_shl_n_16(a, shift);
+}
+template <int shift>
+c_v128 c_imm_v128_shr_n_u16(c_v128 a) {
+ return c_v128_shr_n_u16(a, shift);
+}
+template <int shift>
+c_v128 c_imm_v128_shr_n_s16(c_v128 a) {
+ return c_v128_shr_n_s16(a, shift);
+}
+template <int shift>
+c_v128 c_imm_v128_shl_n_32(c_v128 a) {
+ return c_v128_shl_n_32(a, shift);
+}
+template <int shift>
+c_v128 c_imm_v128_shr_n_u32(c_v128 a) {
+ return c_v128_shr_n_u32(a, shift);
+}
+template <int shift>
+c_v128 c_imm_v128_shr_n_s32(c_v128 a) {
+ return c_v128_shr_n_s32(a, shift);
+}
+template <int shift>
+c_v128 c_imm_v128_shl_n_64(c_v128 a) {
+ return c_v128_shl_n_64(a, shift);
+}
+template <int shift>
+c_v128 c_imm_v128_shr_n_u64(c_v128 a) {
+ return c_v128_shr_n_u64(a, shift);
+}
+template <int shift>
+c_v128 c_imm_v128_shr_n_s64(c_v128 a) {
+ return c_v128_shr_n_s64(a, shift);
+}
+template <int shift>
+c_v128 c_imm_v128_align(c_v128 a, c_v128 b) {
+ return c_v128_align(a, b, shift);
+}
+
+template <int shift>
+v256 imm_v256_shl_n_word(v256 a) {
+ return v256_shl_n_word(a, shift);
+}
+template <int shift>
+v256 imm_v256_shr_n_word(v256 a) {
+ return v256_shr_n_word(a, shift);
+}
+template <int shift>
+v256 imm_v256_shl_n_byte(v256 a) {
+ return v256_shl_n_byte(a, shift);
+}
+template <int shift>
+v256 imm_v256_shr_n_byte(v256 a) {
+ return v256_shr_n_byte(a, shift);
+}
+template <int shift>
+v256 imm_v256_shl_n_8(v256 a) {
+ return v256_shl_n_8(a, shift);
+}
+template <int shift>
+v256 imm_v256_shr_n_u8(v256 a) {
+ return v256_shr_n_u8(a, shift);
+}
+template <int shift>
+v256 imm_v256_shr_n_s8(v256 a) {
+ return v256_shr_n_s8(a, shift);
+}
+template <int shift>
+v256 imm_v256_shl_n_16(v256 a) {
+ return v256_shl_n_16(a, shift);
+}
+template <int shift>
+v256 imm_v256_shr_n_u16(v256 a) {
+ return v256_shr_n_u16(a, shift);
+}
+template <int shift>
+v256 imm_v256_shr_n_s16(v256 a) {
+ return v256_shr_n_s16(a, shift);
+}
+template <int shift>
+v256 imm_v256_shl_n_32(v256 a) {
+ return v256_shl_n_32(a, shift);
+}
+template <int shift>
+v256 imm_v256_shr_n_u32(v256 a) {
+ return v256_shr_n_u32(a, shift);
+}
+template <int shift>
+v256 imm_v256_shr_n_s32(v256 a) {
+ return v256_shr_n_s32(a, shift);
+}
+template <int shift>
+v256 imm_v256_shl_n_64(v256 a) {
+ return v256_shl_n_64(a, shift);
+}
+template <int shift>
+v256 imm_v256_shr_n_u64(v256 a) {
+ return v256_shr_n_u64(a, shift);
+}
+template <int shift>
+v256 imm_v256_shr_n_s64(v256 a) {
+ return v256_shr_n_s64(a, shift);
+}
+template <int shift>
+v256 imm_v256_align(v256 a, v256 b) {
+ return v256_align(a, b, shift);
+}
+
+template <int shift>
+c_v256 c_imm_v256_shl_n_word(c_v256 a) {
+ return c_v256_shl_n_word(a, shift);
+}
+template <int shift>
+c_v256 c_imm_v256_shr_n_word(c_v256 a) {
+ return c_v256_shr_n_word(a, shift);
+}
+template <int shift>
+c_v256 c_imm_v256_shl_n_byte(c_v256 a) {
+ return c_v256_shl_n_byte(a, shift);
+}
+template <int shift>
+c_v256 c_imm_v256_shr_n_byte(c_v256 a) {
+ return c_v256_shr_n_byte(a, shift);
+}
+template <int shift>
+c_v256 c_imm_v256_shl_n_8(c_v256 a) {
+ return c_v256_shl_n_8(a, shift);
+}
+template <int shift>
+c_v256 c_imm_v256_shr_n_u8(c_v256 a) {
+ return c_v256_shr_n_u8(a, shift);
+}
+template <int shift>
+c_v256 c_imm_v256_shr_n_s8(c_v256 a) {
+ return c_v256_shr_n_s8(a, shift);
+}
+template <int shift>
+c_v256 c_imm_v256_shl_n_16(c_v256 a) {
+ return c_v256_shl_n_16(a, shift);
+}
+template <int shift>
+c_v256 c_imm_v256_shr_n_u16(c_v256 a) {
+ return c_v256_shr_n_u16(a, shift);
+}
+template <int shift>
+c_v256 c_imm_v256_shr_n_s16(c_v256 a) {
+ return c_v256_shr_n_s16(a, shift);
+}
+template <int shift>
+c_v256 c_imm_v256_shl_n_32(c_v256 a) {
+ return c_v256_shl_n_32(a, shift);
+}
+template <int shift>
+c_v256 c_imm_v256_shr_n_u32(c_v256 a) {
+ return c_v256_shr_n_u32(a, shift);
+}
+template <int shift>
+c_v256 c_imm_v256_shr_n_s32(c_v256 a) {
+ return c_v256_shr_n_s32(a, shift);
+}
+template <int shift>
+c_v256 c_imm_v256_shl_n_64(c_v256 a) {
+ return c_v256_shl_n_64(a, shift);
+}
+template <int shift>
+c_v256 c_imm_v256_shr_n_u64(c_v256 a) {
+ return c_v256_shr_n_u64(a, shift);
+}
+template <int shift>
+c_v256 c_imm_v256_shr_n_s64(c_v256 a) {
+ return c_v256_shr_n_s64(a, shift);
+}
+template <int shift>
+c_v256 c_imm_v256_align(c_v256 a, c_v256 b) {
+ return c_v256_align(a, b, shift);
+}
+
+// Wrappers around the the SAD and SSD functions
+uint32_t v64_sad_u8(v64 a, v64 b) {
+ return v64_sad_u8_sum(::v64_sad_u8(v64_sad_u8_init(), a, b));
+}
+uint32_t v64_ssd_u8(v64 a, v64 b) {
+ return v64_ssd_u8_sum(::v64_ssd_u8(v64_ssd_u8_init(), a, b));
+}
+
+uint32_t c_v64_sad_u8(c_v64 a, c_v64 b) {
+ return c_v64_sad_u8_sum(::c_v64_sad_u8(c_v64_sad_u8_init(), a, b));
+}
+uint32_t c_v64_ssd_u8(c_v64 a, c_v64 b) {
+ return c_v64_ssd_u8_sum(::c_v64_ssd_u8(c_v64_ssd_u8_init(), a, b));
+}
+uint32_t v128_sad_u8(v128 a, v128 b) {
+ return v128_sad_u8_sum(::v128_sad_u8(v128_sad_u8_init(), a, b));
+}
+uint32_t v128_ssd_u8(v128 a, v128 b) {
+ return v128_ssd_u8_sum(::v128_ssd_u8(v128_ssd_u8_init(), a, b));
+}
+uint32_t c_v128_sad_u8(c_v128 a, c_v128 b) {
+ return c_v128_sad_u8_sum(::c_v128_sad_u8(c_v128_sad_u8_init(), a, b));
+}
+uint32_t c_v128_ssd_u8(c_v128 a, c_v128 b) {
+ return c_v128_ssd_u8_sum(::c_v128_ssd_u8(c_v128_ssd_u8_init(), a, b));
+}
+uint32_t v128_sad_u16(v128 a, v128 b) {
+ return v128_sad_u16_sum(::v128_sad_u16(v128_sad_u16_init(), a, b));
+}
+uint64_t v128_ssd_s16(v128 a, v128 b) {
+ return v128_ssd_s16_sum(::v128_ssd_s16(v128_ssd_s16_init(), a, b));
+}
+uint32_t c_v128_sad_u16(c_v128 a, c_v128 b) {
+ return c_v128_sad_u16_sum(::c_v128_sad_u16(c_v128_sad_u16_init(), a, b));
+}
+uint64_t c_v128_ssd_s16(c_v128 a, c_v128 b) {
+ return c_v128_ssd_s16_sum(::c_v128_ssd_s16(c_v128_ssd_s16_init(), a, b));
+}
+uint32_t v256_sad_u8(v256 a, v256 b) {
+ return v256_sad_u8_sum(::v256_sad_u8(v256_sad_u8_init(), a, b));
+}
+uint32_t v256_ssd_u8(v256 a, v256 b) {
+ return v256_ssd_u8_sum(::v256_ssd_u8(v256_ssd_u8_init(), a, b));
+}
+uint32_t c_v256_sad_u8(c_v256 a, c_v256 b) {
+ return c_v256_sad_u8_sum(::c_v256_sad_u8(c_v256_sad_u8_init(), a, b));
+}
+uint32_t c_v256_ssd_u8(c_v256 a, c_v256 b) {
+ return c_v256_ssd_u8_sum(::c_v256_ssd_u8(c_v256_ssd_u8_init(), a, b));
+}
+uint32_t v256_sad_u16(v256 a, v256 b) {
+ return v256_sad_u16_sum(::v256_sad_u16(v256_sad_u16_init(), a, b));
+}
+uint64_t v256_ssd_s16(v256 a, v256 b) {
+ return v256_ssd_s16_sum(::v256_ssd_s16(v256_ssd_s16_init(), a, b));
+}
+uint32_t c_v256_sad_u16(c_v256 a, c_v256 b) {
+ return c_v256_sad_u16_sum(::c_v256_sad_u16(c_v256_sad_u16_init(), a, b));
+}
+uint64_t c_v256_ssd_s16(c_v256 a, c_v256 b) {
+ return c_v256_ssd_s16_sum(::c_v256_ssd_s16(c_v256_ssd_s16_init(), a, b));
+}
+
+namespace {
+
+typedef void (*fptr)();
+
+typedef struct {
+ const char *name;
+ fptr ref;
+ fptr simd;
+} mapping;
+
+#define MAP(name) \
+ { \
+ #name, reinterpret_cast < fptr > (c_##name), \
+ reinterpret_cast < fptr > (name) \
+ }
+
+const mapping m[] = { MAP(v64_sad_u8),
+ MAP(v64_ssd_u8),
+ MAP(v64_add_8),
+ MAP(v64_add_16),
+ MAP(v64_sadd_s8),
+ MAP(v64_sadd_u8),
+ MAP(v64_sadd_s16),
+ MAP(v64_add_32),
+ MAP(v64_sub_8),
+ MAP(v64_ssub_u8),
+ MAP(v64_ssub_s8),
+ MAP(v64_sub_16),
+ MAP(v64_ssub_s16),
+ MAP(v64_ssub_u16),
+ MAP(v64_sub_32),
+ MAP(v64_ziplo_8),
+ MAP(v64_ziphi_8),
+ MAP(v64_ziplo_16),
+ MAP(v64_ziphi_16),
+ MAP(v64_ziplo_32),
+ MAP(v64_ziphi_32),
+ MAP(v64_pack_s32_u16),
+ MAP(v64_pack_s32_s16),
+ MAP(v64_pack_s16_u8),
+ MAP(v64_pack_s16_s8),
+ MAP(v64_unziphi_8),
+ MAP(v64_unziplo_8),
+ MAP(v64_unziphi_16),
+ MAP(v64_unziplo_16),
+ MAP(v64_or),
+ MAP(v64_xor),
+ MAP(v64_and),
+ MAP(v64_andn),
+ MAP(v64_mullo_s16),
+ MAP(v64_mulhi_s16),
+ MAP(v64_mullo_s32),
+ MAP(v64_madd_s16),
+ MAP(v64_madd_us8),
+ MAP(v64_avg_u8),
+ MAP(v64_rdavg_u8),
+ MAP(v64_rdavg_u16),
+ MAP(v64_avg_u16),
+ MAP(v64_min_u8),
+ MAP(v64_max_u8),
+ MAP(v64_min_s8),
+ MAP(v64_max_s8),
+ MAP(v64_min_s16),
+ MAP(v64_max_s16),
+ MAP(v64_cmpgt_s8),
+ MAP(v64_cmplt_s8),
+ MAP(v64_cmpeq_8),
+ MAP(v64_cmpgt_s16),
+ MAP(v64_cmplt_s16),
+ MAP(v64_cmpeq_16),
+ MAP(v64_shuffle_8),
+ MAP(imm_v64_align<1>),
+ MAP(imm_v64_align<2>),
+ MAP(imm_v64_align<3>),
+ MAP(imm_v64_align<4>),
+ MAP(imm_v64_align<5>),
+ MAP(imm_v64_align<6>),
+ MAP(imm_v64_align<7>),
+ MAP(v64_abs_s8),
+ MAP(v64_abs_s16),
+ MAP(v64_unpacklo_u8_s16),
+ MAP(v64_unpackhi_u8_s16),
+ MAP(v64_unpacklo_s8_s16),
+ MAP(v64_unpackhi_s8_s16),
+ MAP(v64_unpacklo_u16_s32),
+ MAP(v64_unpacklo_s16_s32),
+ MAP(v64_unpackhi_u16_s32),
+ MAP(v64_unpackhi_s16_s32),
+ MAP(imm_v64_shr_n_byte<1>),
+ MAP(imm_v64_shr_n_byte<2>),
+ MAP(imm_v64_shr_n_byte<3>),
+ MAP(imm_v64_shr_n_byte<4>),
+ MAP(imm_v64_shr_n_byte<5>),
+ MAP(imm_v64_shr_n_byte<6>),
+ MAP(imm_v64_shr_n_byte<7>),
+ MAP(imm_v64_shl_n_byte<1>),
+ MAP(imm_v64_shl_n_byte<2>),
+ MAP(imm_v64_shl_n_byte<3>),
+ MAP(imm_v64_shl_n_byte<4>),
+ MAP(imm_v64_shl_n_byte<5>),
+ MAP(imm_v64_shl_n_byte<6>),
+ MAP(imm_v64_shl_n_byte<7>),
+ MAP(imm_v64_shl_n_8<1>),
+ MAP(imm_v64_shl_n_8<2>),
+ MAP(imm_v64_shl_n_8<3>),
+ MAP(imm_v64_shl_n_8<4>),
+ MAP(imm_v64_shl_n_8<5>),
+ MAP(imm_v64_shl_n_8<6>),
+ MAP(imm_v64_shl_n_8<7>),
+ MAP(imm_v64_shr_n_u8<1>),
+ MAP(imm_v64_shr_n_u8<2>),
+ MAP(imm_v64_shr_n_u8<3>),
+ MAP(imm_v64_shr_n_u8<4>),
+ MAP(imm_v64_shr_n_u8<5>),
+ MAP(imm_v64_shr_n_u8<6>),
+ MAP(imm_v64_shr_n_u8<7>),
+ MAP(imm_v64_shr_n_s8<1>),
+ MAP(imm_v64_shr_n_s8<2>),
+ MAP(imm_v64_shr_n_s8<3>),
+ MAP(imm_v64_shr_n_s8<4>),
+ MAP(imm_v64_shr_n_s8<5>),
+ MAP(imm_v64_shr_n_s8<6>),
+ MAP(imm_v64_shr_n_s8<7>),
+ MAP(imm_v64_shl_n_16<1>),
+ MAP(imm_v64_shl_n_16<2>),
+ MAP(imm_v64_shl_n_16<4>),
+ MAP(imm_v64_shl_n_16<6>),
+ MAP(imm_v64_shl_n_16<8>),
+ MAP(imm_v64_shl_n_16<10>),
+ MAP(imm_v64_shl_n_16<12>),
+ MAP(imm_v64_shl_n_16<14>),
+ MAP(imm_v64_shr_n_u16<1>),
+ MAP(imm_v64_shr_n_u16<2>),
+ MAP(imm_v64_shr_n_u16<4>),
+ MAP(imm_v64_shr_n_u16<6>),
+ MAP(imm_v64_shr_n_u16<8>),
+ MAP(imm_v64_shr_n_u16<10>),
+ MAP(imm_v64_shr_n_u16<12>),
+ MAP(imm_v64_shr_n_u16<14>),
+ MAP(imm_v64_shr_n_s16<1>),
+ MAP(imm_v64_shr_n_s16<2>),
+ MAP(imm_v64_shr_n_s16<4>),
+ MAP(imm_v64_shr_n_s16<6>),
+ MAP(imm_v64_shr_n_s16<8>),
+ MAP(imm_v64_shr_n_s16<10>),
+ MAP(imm_v64_shr_n_s16<12>),
+ MAP(imm_v64_shr_n_s16<14>),
+ MAP(imm_v64_shl_n_32<1>),
+ MAP(imm_v64_shl_n_32<4>),
+ MAP(imm_v64_shl_n_32<8>),
+ MAP(imm_v64_shl_n_32<12>),
+ MAP(imm_v64_shl_n_32<16>),
+ MAP(imm_v64_shl_n_32<20>),
+ MAP(imm_v64_shl_n_32<24>),
+ MAP(imm_v64_shl_n_32<28>),
+ MAP(imm_v64_shr_n_u32<1>),
+ MAP(imm_v64_shr_n_u32<4>),
+ MAP(imm_v64_shr_n_u32<8>),
+ MAP(imm_v64_shr_n_u32<12>),
+ MAP(imm_v64_shr_n_u32<16>),
+ MAP(imm_v64_shr_n_u32<20>),
+ MAP(imm_v64_shr_n_u32<24>),
+ MAP(imm_v64_shr_n_u32<28>),
+ MAP(imm_v64_shr_n_s32<1>),
+ MAP(imm_v64_shr_n_s32<4>),
+ MAP(imm_v64_shr_n_s32<8>),
+ MAP(imm_v64_shr_n_s32<12>),
+ MAP(imm_v64_shr_n_s32<16>),
+ MAP(imm_v64_shr_n_s32<20>),
+ MAP(imm_v64_shr_n_s32<24>),
+ MAP(imm_v64_shr_n_s32<28>),
+ MAP(v64_shl_8),
+ MAP(v64_shr_u8),
+ MAP(v64_shr_s8),
+ MAP(v64_shl_16),
+ MAP(v64_shr_u16),
+ MAP(v64_shr_s16),
+ MAP(v64_shl_32),
+ MAP(v64_shr_u32),
+ MAP(v64_shr_s32),
+ MAP(v64_hadd_u8),
+ MAP(v64_hadd_s16),
+ MAP(v64_dotp_s16),
+ MAP(v64_dotp_su8),
+ MAP(v64_u64),
+ MAP(v64_low_u32),
+ MAP(v64_high_u32),
+ MAP(v64_low_s32),
+ MAP(v64_high_s32),
+ MAP(v64_dup_8),
+ MAP(v64_dup_16),
+ MAP(v64_dup_32),
+ MAP(v64_from_32),
+ MAP(v64_zero),
+ MAP(v64_from_16),
+ MAP(v128_sad_u8),
+ MAP(v128_ssd_u8),
+ MAP(v128_sad_u16),
+ MAP(v128_ssd_s16),
+ MAP(v128_add_8),
+ MAP(v128_add_16),
+ MAP(v128_sadd_s8),
+ MAP(v128_sadd_u8),
+ MAP(v128_sadd_s16),
+ MAP(v128_add_32),
+ MAP(v128_add_64),
+ MAP(v128_sub_8),
+ MAP(v128_ssub_u8),
+ MAP(v128_ssub_s8),
+ MAP(v128_sub_16),
+ MAP(v128_ssub_s16),
+ MAP(v128_ssub_u16),
+ MAP(v128_sub_32),
+ MAP(v128_sub_64),
+ MAP(v128_ziplo_8),
+ MAP(v128_ziphi_8),
+ MAP(v128_ziplo_16),
+ MAP(v128_ziphi_16),
+ MAP(v128_ziplo_32),
+ MAP(v128_ziphi_32),
+ MAP(v128_ziplo_64),
+ MAP(v128_ziphi_64),
+ MAP(v128_unziphi_8),
+ MAP(v128_unziplo_8),
+ MAP(v128_unziphi_16),
+ MAP(v128_unziplo_16),
+ MAP(v128_unziphi_32),
+ MAP(v128_unziplo_32),
+ MAP(v128_pack_s32_u16),
+ MAP(v128_pack_s32_s16),
+ MAP(v128_pack_s16_u8),
+ MAP(v128_pack_s16_s8),
+ MAP(v128_or),
+ MAP(v128_xor),
+ MAP(v128_and),
+ MAP(v128_andn),
+ MAP(v128_mullo_s16),
+ MAP(v128_mulhi_s16),
+ MAP(v128_mullo_s32),
+ MAP(v128_madd_s16),
+ MAP(v128_madd_us8),
+ MAP(v128_avg_u8),
+ MAP(v128_rdavg_u8),
+ MAP(v128_rdavg_u16),
+ MAP(v128_avg_u16),
+ MAP(v128_min_u8),
+ MAP(v128_max_u8),
+ MAP(v128_min_s8),
+ MAP(v128_max_s8),
+ MAP(v128_min_s16),
+ MAP(v128_max_s16),
+ MAP(v128_min_s32),
+ MAP(v128_max_s32),
+ MAP(v128_cmpgt_s8),
+ MAP(v128_cmplt_s8),
+ MAP(v128_cmpeq_8),
+ MAP(v128_cmpgt_s16),
+ MAP(v128_cmpeq_16),
+ MAP(v128_cmplt_s16),
+ MAP(v128_cmpgt_s32),
+ MAP(v128_cmpeq_32),
+ MAP(v128_cmplt_s32),
+ MAP(v128_shuffle_8),
+ MAP(imm_v128_align<1>),
+ MAP(imm_v128_align<2>),
+ MAP(imm_v128_align<3>),
+ MAP(imm_v128_align<4>),
+ MAP(imm_v128_align<5>),
+ MAP(imm_v128_align<6>),
+ MAP(imm_v128_align<7>),
+ MAP(imm_v128_align<8>),
+ MAP(imm_v128_align<9>),
+ MAP(imm_v128_align<10>),
+ MAP(imm_v128_align<11>),
+ MAP(imm_v128_align<12>),
+ MAP(imm_v128_align<13>),
+ MAP(imm_v128_align<14>),
+ MAP(imm_v128_align<15>),
+ MAP(v128_abs_s8),
+ MAP(v128_abs_s16),
+ MAP(v128_padd_u8),
+ MAP(v128_padd_s16),
+ MAP(v128_unpacklo_u16_s32),
+ MAP(v128_unpacklo_s16_s32),
+ MAP(v128_unpackhi_u16_s32),
+ MAP(v128_unpackhi_s16_s32),
+ MAP(imm_v128_shr_n_byte<1>),
+ MAP(imm_v128_shr_n_byte<2>),
+ MAP(imm_v128_shr_n_byte<3>),
+ MAP(imm_v128_shr_n_byte<4>),
+ MAP(imm_v128_shr_n_byte<5>),
+ MAP(imm_v128_shr_n_byte<6>),
+ MAP(imm_v128_shr_n_byte<7>),
+ MAP(imm_v128_shr_n_byte<8>),
+ MAP(imm_v128_shr_n_byte<9>),
+ MAP(imm_v128_shr_n_byte<10>),
+ MAP(imm_v128_shr_n_byte<11>),
+ MAP(imm_v128_shr_n_byte<12>),
+ MAP(imm_v128_shr_n_byte<13>),
+ MAP(imm_v128_shr_n_byte<14>),
+ MAP(imm_v128_shr_n_byte<15>),
+ MAP(imm_v128_shl_n_byte<1>),
+ MAP(imm_v128_shl_n_byte<2>),
+ MAP(imm_v128_shl_n_byte<3>),
+ MAP(imm_v128_shl_n_byte<4>),
+ MAP(imm_v128_shl_n_byte<5>),
+ MAP(imm_v128_shl_n_byte<6>),
+ MAP(imm_v128_shl_n_byte<7>),
+ MAP(imm_v128_shl_n_byte<8>),
+ MAP(imm_v128_shl_n_byte<9>),
+ MAP(imm_v128_shl_n_byte<10>),
+ MAP(imm_v128_shl_n_byte<11>),
+ MAP(imm_v128_shl_n_byte<12>),
+ MAP(imm_v128_shl_n_byte<13>),
+ MAP(imm_v128_shl_n_byte<14>),
+ MAP(imm_v128_shl_n_byte<15>),
+ MAP(imm_v128_shl_n_8<1>),
+ MAP(imm_v128_shl_n_8<2>),
+ MAP(imm_v128_shl_n_8<3>),
+ MAP(imm_v128_shl_n_8<4>),
+ MAP(imm_v128_shl_n_8<5>),
+ MAP(imm_v128_shl_n_8<6>),
+ MAP(imm_v128_shl_n_8<7>),
+ MAP(imm_v128_shr_n_u8<1>),
+ MAP(imm_v128_shr_n_u8<2>),
+ MAP(imm_v128_shr_n_u8<3>),
+ MAP(imm_v128_shr_n_u8<4>),
+ MAP(imm_v128_shr_n_u8<5>),
+ MAP(imm_v128_shr_n_u8<6>),
+ MAP(imm_v128_shr_n_u8<7>),
+ MAP(imm_v128_shr_n_s8<1>),
+ MAP(imm_v128_shr_n_s8<2>),
+ MAP(imm_v128_shr_n_s8<3>),
+ MAP(imm_v128_shr_n_s8<4>),
+ MAP(imm_v128_shr_n_s8<5>),
+ MAP(imm_v128_shr_n_s8<6>),
+ MAP(imm_v128_shr_n_s8<7>),
+ MAP(imm_v128_shl_n_16<1>),
+ MAP(imm_v128_shl_n_16<2>),
+ MAP(imm_v128_shl_n_16<4>),
+ MAP(imm_v128_shl_n_16<6>),
+ MAP(imm_v128_shl_n_16<8>),
+ MAP(imm_v128_shl_n_16<10>),
+ MAP(imm_v128_shl_n_16<12>),
+ MAP(imm_v128_shl_n_16<14>),
+ MAP(imm_v128_shr_n_u16<1>),
+ MAP(imm_v128_shr_n_u16<2>),
+ MAP(imm_v128_shr_n_u16<4>),
+ MAP(imm_v128_shr_n_u16<6>),
+ MAP(imm_v128_shr_n_u16<8>),
+ MAP(imm_v128_shr_n_u16<10>),
+ MAP(imm_v128_shr_n_u16<12>),
+ MAP(imm_v128_shr_n_u16<14>),
+ MAP(imm_v128_shr_n_s16<1>),
+ MAP(imm_v128_shr_n_s16<2>),
+ MAP(imm_v128_shr_n_s16<4>),
+ MAP(imm_v128_shr_n_s16<6>),
+ MAP(imm_v128_shr_n_s16<8>),
+ MAP(imm_v128_shr_n_s16<10>),
+ MAP(imm_v128_shr_n_s16<12>),
+ MAP(imm_v128_shr_n_s16<14>),
+ MAP(imm_v128_shl_n_32<1>),
+ MAP(imm_v128_shl_n_32<4>),
+ MAP(imm_v128_shl_n_32<8>),
+ MAP(imm_v128_shl_n_32<12>),
+ MAP(imm_v128_shl_n_32<16>),
+ MAP(imm_v128_shl_n_32<20>),
+ MAP(imm_v128_shl_n_32<24>),
+ MAP(imm_v128_shl_n_32<28>),
+ MAP(imm_v128_shr_n_u32<1>),
+ MAP(imm_v128_shr_n_u32<4>),
+ MAP(imm_v128_shr_n_u32<8>),
+ MAP(imm_v128_shr_n_u32<12>),
+ MAP(imm_v128_shr_n_u32<16>),
+ MAP(imm_v128_shr_n_u32<20>),
+ MAP(imm_v128_shr_n_u32<24>),
+ MAP(imm_v128_shr_n_u32<28>),
+ MAP(imm_v128_shr_n_s32<1>),
+ MAP(imm_v128_shr_n_s32<4>),
+ MAP(imm_v128_shr_n_s32<8>),
+ MAP(imm_v128_shr_n_s32<12>),
+ MAP(imm_v128_shr_n_s32<16>),
+ MAP(imm_v128_shr_n_s32<20>),
+ MAP(imm_v128_shr_n_s32<24>),
+ MAP(imm_v128_shr_n_s32<28>),
+ MAP(imm_v128_shl_n_64<1>),
+ MAP(imm_v128_shl_n_64<4>),
+ MAP(imm_v128_shl_n_64<8>),
+ MAP(imm_v128_shl_n_64<12>),
+ MAP(imm_v128_shl_n_64<16>),
+ MAP(imm_v128_shl_n_64<20>),
+ MAP(imm_v128_shl_n_64<24>),
+ MAP(imm_v128_shl_n_64<28>),
+ MAP(imm_v128_shl_n_64<32>),
+ MAP(imm_v128_shl_n_64<36>),
+ MAP(imm_v128_shl_n_64<40>),
+ MAP(imm_v128_shl_n_64<44>),
+ MAP(imm_v128_shl_n_64<48>),
+ MAP(imm_v128_shl_n_64<52>),
+ MAP(imm_v128_shl_n_64<56>),
+ MAP(imm_v128_shl_n_64<60>),
+ MAP(imm_v128_shr_n_u64<1>),
+ MAP(imm_v128_shr_n_u64<4>),
+ MAP(imm_v128_shr_n_u64<8>),
+ MAP(imm_v128_shr_n_u64<12>),
+ MAP(imm_v128_shr_n_u64<16>),
+ MAP(imm_v128_shr_n_u64<20>),
+ MAP(imm_v128_shr_n_u64<24>),
+ MAP(imm_v128_shr_n_u64<28>),
+ MAP(imm_v128_shr_n_u64<32>),
+ MAP(imm_v128_shr_n_u64<36>),
+ MAP(imm_v128_shr_n_u64<40>),
+ MAP(imm_v128_shr_n_u64<44>),
+ MAP(imm_v128_shr_n_u64<48>),
+ MAP(imm_v128_shr_n_u64<52>),
+ MAP(imm_v128_shr_n_u64<56>),
+ MAP(imm_v128_shr_n_u64<60>),
+ MAP(imm_v128_shr_n_s64<1>),
+ MAP(imm_v128_shr_n_s64<4>),
+ MAP(imm_v128_shr_n_s64<8>),
+ MAP(imm_v128_shr_n_s64<12>),
+ MAP(imm_v128_shr_n_s64<16>),
+ MAP(imm_v128_shr_n_s64<20>),
+ MAP(imm_v128_shr_n_s64<24>),
+ MAP(imm_v128_shr_n_s64<28>),
+ MAP(imm_v128_shr_n_s64<32>),
+ MAP(imm_v128_shr_n_s64<36>),
+ MAP(imm_v128_shr_n_s64<40>),
+ MAP(imm_v128_shr_n_s64<44>),
+ MAP(imm_v128_shr_n_s64<48>),
+ MAP(imm_v128_shr_n_s64<52>),
+ MAP(imm_v128_shr_n_s64<56>),
+ MAP(imm_v128_shr_n_s64<60>),
+ MAP(v128_from_v64),
+ MAP(v128_zip_8),
+ MAP(v128_zip_16),
+ MAP(v128_zip_32),
+ MAP(v128_mul_s16),
+ MAP(v128_unpack_u8_s16),
+ MAP(v128_unpack_s8_s16),
+ MAP(v128_unpack_u16_s32),
+ MAP(v128_unpack_s16_s32),
+ MAP(v128_shl_8),
+ MAP(v128_shr_u8),
+ MAP(v128_shr_s8),
+ MAP(v128_shl_16),
+ MAP(v128_shr_u16),
+ MAP(v128_shr_s16),
+ MAP(v128_shl_32),
+ MAP(v128_shr_u32),
+ MAP(v128_shr_s32),
+ MAP(v128_shl_64),
+ MAP(v128_shr_u64),
+ MAP(v128_shr_s64),
+ MAP(v128_hadd_u8),
+ MAP(v128_dotp_su8),
+ MAP(v128_dotp_s16),
+ MAP(v128_dotp_s32),
+ MAP(v128_low_u32),
+ MAP(v128_low_v64),
+ MAP(v128_high_v64),
+ MAP(v128_from_64),
+ MAP(v128_from_32),
+ MAP(v128_movemask_8),
+ MAP(v128_zero),
+ MAP(v128_dup_8),
+ MAP(v128_dup_16),
+ MAP(v128_dup_32),
+ MAP(v128_dup_64),
+ MAP(v128_unpacklo_u8_s16),
+ MAP(v128_unpackhi_u8_s16),
+ MAP(v128_unpacklo_s8_s16),
+ MAP(v128_unpackhi_s8_s16),
+ MAP(v128_blend_8),
+ MAP(u32_load_unaligned),
+ MAP(u32_store_unaligned),
+ MAP(v64_load_unaligned),
+ MAP(v64_store_unaligned),
+ MAP(v128_load_unaligned),
+ MAP(v128_store_unaligned),
+ MAP(v256_sad_u8),
+ MAP(v256_ssd_u8),
+ MAP(v256_sad_u16),
+ MAP(v256_ssd_s16),
+ MAP(v256_hadd_u8),
+ MAP(v256_low_u64),
+ MAP(v256_dotp_su8),
+ MAP(v256_dotp_s16),
+ MAP(v256_dotp_s32),
+ MAP(v256_add_8),
+ MAP(v256_add_16),
+ MAP(v256_sadd_s8),
+ MAP(v256_sadd_u8),
+ MAP(v256_sadd_s16),
+ MAP(v256_add_32),
+ MAP(v256_add_64),
+ MAP(v256_sub_8),
+ MAP(v256_ssub_u8),
+ MAP(v256_ssub_s8),
+ MAP(v256_sub_16),
+ MAP(v256_ssub_u16),
+ MAP(v256_ssub_s16),
+ MAP(v256_sub_32),
+ MAP(v256_sub_64),
+ MAP(v256_ziplo_8),
+ MAP(v256_ziphi_8),
+ MAP(v256_ziplo_16),
+ MAP(v256_ziphi_16),
+ MAP(v256_ziplo_32),
+ MAP(v256_ziphi_32),
+ MAP(v256_ziplo_64),
+ MAP(v256_ziphi_64),
+ MAP(v256_unziphi_8),
+ MAP(v256_unziplo_8),
+ MAP(v256_unziphi_16),
+ MAP(v256_unziplo_16),
+ MAP(v256_unziphi_32),
+ MAP(v256_unziplo_32),
+ MAP(v256_unziphi_64),
+ MAP(v256_unziplo_64),
+ MAP(v256_pack_s32_u16),
+ MAP(v256_pack_s32_s16),
+ MAP(v256_pack_s16_u8),
+ MAP(v256_pack_s16_s8),
+ MAP(v256_or),
+ MAP(v256_xor),
+ MAP(v256_and),
+ MAP(v256_andn),
+ MAP(v256_mullo_s16),
+ MAP(v256_mulhi_s16),
+ MAP(v256_mullo_s32),
+ MAP(v256_madd_s16),
+ MAP(v256_madd_us8),
+ MAP(v256_avg_u8),
+ MAP(v256_rdavg_u8),
+ MAP(v256_rdavg_u16),
+ MAP(v256_avg_u16),
+ MAP(v256_min_u8),
+ MAP(v256_max_u8),
+ MAP(v256_min_s8),
+ MAP(v256_max_s8),
+ MAP(v256_min_s16),
+ MAP(v256_max_s16),
+ MAP(v256_min_s32),
+ MAP(v256_max_s32),
+ MAP(v256_cmpgt_s8),
+ MAP(v256_cmplt_s8),
+ MAP(v256_cmpeq_8),
+ MAP(v256_cmpgt_s16),
+ MAP(v256_cmplt_s16),
+ MAP(v256_cmpeq_16),
+ MAP(v256_cmpgt_s32),
+ MAP(v256_cmplt_s32),
+ MAP(v256_cmpeq_32),
+ MAP(v256_shuffle_8),
+ MAP(v256_pshuffle_8),
+ MAP(v256_wideshuffle_8),
+ MAP(imm_v256_align<1>),
+ MAP(imm_v256_align<2>),
+ MAP(imm_v256_align<3>),
+ MAP(imm_v256_align<4>),
+ MAP(imm_v256_align<5>),
+ MAP(imm_v256_align<6>),
+ MAP(imm_v256_align<7>),
+ MAP(imm_v256_align<8>),
+ MAP(imm_v256_align<9>),
+ MAP(imm_v256_align<10>),
+ MAP(imm_v256_align<11>),
+ MAP(imm_v256_align<12>),
+ MAP(imm_v256_align<13>),
+ MAP(imm_v256_align<14>),
+ MAP(imm_v256_align<15>),
+ MAP(imm_v256_align<16>),
+ MAP(imm_v256_align<17>),
+ MAP(imm_v256_align<18>),
+ MAP(imm_v256_align<19>),
+ MAP(imm_v256_align<20>),
+ MAP(imm_v256_align<21>),
+ MAP(imm_v256_align<22>),
+ MAP(imm_v256_align<23>),
+ MAP(imm_v256_align<24>),
+ MAP(imm_v256_align<25>),
+ MAP(imm_v256_align<26>),
+ MAP(imm_v256_align<27>),
+ MAP(imm_v256_align<28>),
+ MAP(imm_v256_align<29>),
+ MAP(imm_v256_align<30>),
+ MAP(imm_v256_align<31>),
+ MAP(v256_from_v128),
+ MAP(v256_zip_8),
+ MAP(v256_zip_16),
+ MAP(v256_zip_32),
+ MAP(v256_mul_s16),
+ MAP(v256_unpack_u8_s16),
+ MAP(v256_unpack_s8_s16),
+ MAP(v256_unpack_u16_s32),
+ MAP(v256_unpack_s16_s32),
+ MAP(v256_shl_8),
+ MAP(v256_shr_u8),
+ MAP(v256_shr_s8),
+ MAP(v256_shl_16),
+ MAP(v256_shr_u16),
+ MAP(v256_shr_s16),
+ MAP(v256_shl_32),
+ MAP(v256_shr_u32),
+ MAP(v256_shr_s32),
+ MAP(v256_shl_64),
+ MAP(v256_shr_u64),
+ MAP(v256_shr_s64),
+ MAP(v256_abs_s8),
+ MAP(v256_abs_s16),
+ MAP(v256_padd_u8),
+ MAP(v256_padd_s16),
+ MAP(v256_unpacklo_u16_s32),
+ MAP(v256_unpacklo_s16_s32),
+ MAP(v256_unpackhi_u16_s32),
+ MAP(v256_unpackhi_s16_s32),
+ MAP(imm_v256_shr_n_word<1>),
+ MAP(imm_v256_shr_n_word<2>),
+ MAP(imm_v256_shr_n_word<3>),
+ MAP(imm_v256_shr_n_word<4>),
+ MAP(imm_v256_shr_n_word<5>),
+ MAP(imm_v256_shr_n_word<6>),
+ MAP(imm_v256_shr_n_word<7>),
+ MAP(imm_v256_shr_n_word<8>),
+ MAP(imm_v256_shr_n_word<9>),
+ MAP(imm_v256_shr_n_word<10>),
+ MAP(imm_v256_shr_n_word<11>),
+ MAP(imm_v256_shr_n_word<12>),
+ MAP(imm_v256_shr_n_word<13>),
+ MAP(imm_v256_shr_n_word<14>),
+ MAP(imm_v256_shr_n_word<15>),
+ MAP(imm_v256_shl_n_word<1>),
+ MAP(imm_v256_shl_n_word<2>),
+ MAP(imm_v256_shl_n_word<3>),
+ MAP(imm_v256_shl_n_word<4>),
+ MAP(imm_v256_shl_n_word<5>),
+ MAP(imm_v256_shl_n_word<6>),
+ MAP(imm_v256_shl_n_word<7>),
+ MAP(imm_v256_shl_n_word<8>),
+ MAP(imm_v256_shl_n_word<9>),
+ MAP(imm_v256_shl_n_word<10>),
+ MAP(imm_v256_shl_n_word<11>),
+ MAP(imm_v256_shl_n_word<12>),
+ MAP(imm_v256_shl_n_word<13>),
+ MAP(imm_v256_shl_n_word<14>),
+ MAP(imm_v256_shl_n_word<15>),
+ MAP(imm_v256_shr_n_byte<1>),
+ MAP(imm_v256_shr_n_byte<2>),
+ MAP(imm_v256_shr_n_byte<3>),
+ MAP(imm_v256_shr_n_byte<4>),
+ MAP(imm_v256_shr_n_byte<5>),
+ MAP(imm_v256_shr_n_byte<6>),
+ MAP(imm_v256_shr_n_byte<7>),
+ MAP(imm_v256_shr_n_byte<8>),
+ MAP(imm_v256_shr_n_byte<9>),
+ MAP(imm_v256_shr_n_byte<10>),
+ MAP(imm_v256_shr_n_byte<11>),
+ MAP(imm_v256_shr_n_byte<12>),
+ MAP(imm_v256_shr_n_byte<13>),
+ MAP(imm_v256_shr_n_byte<14>),
+ MAP(imm_v256_shr_n_byte<15>),
+ MAP(imm_v256_shr_n_byte<16>),
+ MAP(imm_v256_shr_n_byte<17>),
+ MAP(imm_v256_shr_n_byte<18>),
+ MAP(imm_v256_shr_n_byte<19>),
+ MAP(imm_v256_shr_n_byte<20>),
+ MAP(imm_v256_shr_n_byte<21>),
+ MAP(imm_v256_shr_n_byte<22>),
+ MAP(imm_v256_shr_n_byte<23>),
+ MAP(imm_v256_shr_n_byte<24>),
+ MAP(imm_v256_shr_n_byte<25>),
+ MAP(imm_v256_shr_n_byte<26>),
+ MAP(imm_v256_shr_n_byte<27>),
+ MAP(imm_v256_shr_n_byte<28>),
+ MAP(imm_v256_shr_n_byte<29>),
+ MAP(imm_v256_shr_n_byte<30>),
+ MAP(imm_v256_shr_n_byte<31>),
+ MAP(imm_v256_shl_n_byte<1>),
+ MAP(imm_v256_shl_n_byte<2>),
+ MAP(imm_v256_shl_n_byte<3>),
+ MAP(imm_v256_shl_n_byte<4>),
+ MAP(imm_v256_shl_n_byte<5>),
+ MAP(imm_v256_shl_n_byte<6>),
+ MAP(imm_v256_shl_n_byte<7>),
+ MAP(imm_v256_shl_n_byte<8>),
+ MAP(imm_v256_shl_n_byte<9>),
+ MAP(imm_v256_shl_n_byte<10>),
+ MAP(imm_v256_shl_n_byte<11>),
+ MAP(imm_v256_shl_n_byte<12>),
+ MAP(imm_v256_shl_n_byte<13>),
+ MAP(imm_v256_shl_n_byte<14>),
+ MAP(imm_v256_shl_n_byte<15>),
+ MAP(imm_v256_shl_n_byte<16>),
+ MAP(imm_v256_shl_n_byte<17>),
+ MAP(imm_v256_shl_n_byte<18>),
+ MAP(imm_v256_shl_n_byte<19>),
+ MAP(imm_v256_shl_n_byte<20>),
+ MAP(imm_v256_shl_n_byte<21>),
+ MAP(imm_v256_shl_n_byte<22>),
+ MAP(imm_v256_shl_n_byte<23>),
+ MAP(imm_v256_shl_n_byte<24>),
+ MAP(imm_v256_shl_n_byte<25>),
+ MAP(imm_v256_shl_n_byte<26>),
+ MAP(imm_v256_shl_n_byte<27>),
+ MAP(imm_v256_shl_n_byte<28>),
+ MAP(imm_v256_shl_n_byte<29>),
+ MAP(imm_v256_shl_n_byte<30>),
+ MAP(imm_v256_shl_n_byte<31>),
+ MAP(imm_v256_shl_n_8<1>),
+ MAP(imm_v256_shl_n_8<2>),
+ MAP(imm_v256_shl_n_8<3>),
+ MAP(imm_v256_shl_n_8<4>),
+ MAP(imm_v256_shl_n_8<5>),
+ MAP(imm_v256_shl_n_8<6>),
+ MAP(imm_v256_shl_n_8<7>),
+ MAP(imm_v256_shr_n_u8<1>),
+ MAP(imm_v256_shr_n_u8<2>),
+ MAP(imm_v256_shr_n_u8<3>),
+ MAP(imm_v256_shr_n_u8<4>),
+ MAP(imm_v256_shr_n_u8<5>),
+ MAP(imm_v256_shr_n_u8<6>),
+ MAP(imm_v256_shr_n_u8<7>),
+ MAP(imm_v256_shr_n_s8<1>),
+ MAP(imm_v256_shr_n_s8<2>),
+ MAP(imm_v256_shr_n_s8<3>),
+ MAP(imm_v256_shr_n_s8<4>),
+ MAP(imm_v256_shr_n_s8<5>),
+ MAP(imm_v256_shr_n_s8<6>),
+ MAP(imm_v256_shr_n_s8<7>),
+ MAP(imm_v256_shl_n_16<1>),
+ MAP(imm_v256_shl_n_16<2>),
+ MAP(imm_v256_shl_n_16<4>),
+ MAP(imm_v256_shl_n_16<6>),
+ MAP(imm_v256_shl_n_16<8>),
+ MAP(imm_v256_shl_n_16<10>),
+ MAP(imm_v256_shl_n_16<12>),
+ MAP(imm_v256_shl_n_16<14>),
+ MAP(imm_v256_shr_n_u16<1>),
+ MAP(imm_v256_shr_n_u16<2>),
+ MAP(imm_v256_shr_n_u16<4>),
+ MAP(imm_v256_shr_n_u16<6>),
+ MAP(imm_v256_shr_n_u16<8>),
+ MAP(imm_v256_shr_n_u16<10>),
+ MAP(imm_v256_shr_n_u16<12>),
+ MAP(imm_v256_shr_n_u16<14>),
+ MAP(imm_v256_shr_n_s16<1>),
+ MAP(imm_v256_shr_n_s16<2>),
+ MAP(imm_v256_shr_n_s16<4>),
+ MAP(imm_v256_shr_n_s16<6>),
+ MAP(imm_v256_shr_n_s16<8>),
+ MAP(imm_v256_shr_n_s16<10>),
+ MAP(imm_v256_shr_n_s16<12>),
+ MAP(imm_v256_shr_n_s16<14>),
+ MAP(imm_v256_shl_n_32<1>),
+ MAP(imm_v256_shl_n_32<4>),
+ MAP(imm_v256_shl_n_32<8>),
+ MAP(imm_v256_shl_n_32<12>),
+ MAP(imm_v256_shl_n_32<16>),
+ MAP(imm_v256_shl_n_32<20>),
+ MAP(imm_v256_shl_n_32<24>),
+ MAP(imm_v256_shl_n_32<28>),
+ MAP(imm_v256_shr_n_u32<1>),
+ MAP(imm_v256_shr_n_u32<4>),
+ MAP(imm_v256_shr_n_u32<8>),
+ MAP(imm_v256_shr_n_u32<12>),
+ MAP(imm_v256_shr_n_u32<16>),
+ MAP(imm_v256_shr_n_u32<20>),
+ MAP(imm_v256_shr_n_u32<24>),
+ MAP(imm_v256_shr_n_u32<28>),
+ MAP(imm_v256_shr_n_s32<1>),
+ MAP(imm_v256_shr_n_s32<4>),
+ MAP(imm_v256_shr_n_s32<8>),
+ MAP(imm_v256_shr_n_s32<12>),
+ MAP(imm_v256_shr_n_s32<16>),
+ MAP(imm_v256_shr_n_s32<20>),
+ MAP(imm_v256_shr_n_s32<24>),
+ MAP(imm_v256_shr_n_s32<28>),
+ MAP(imm_v256_shl_n_64<1>),
+ MAP(imm_v256_shl_n_64<4>),
+ MAP(imm_v256_shl_n_64<8>),
+ MAP(imm_v256_shl_n_64<12>),
+ MAP(imm_v256_shl_n_64<16>),
+ MAP(imm_v256_shl_n_64<20>),
+ MAP(imm_v256_shl_n_64<24>),
+ MAP(imm_v256_shl_n_64<28>),
+ MAP(imm_v256_shl_n_64<32>),
+ MAP(imm_v256_shl_n_64<36>),
+ MAP(imm_v256_shl_n_64<40>),
+ MAP(imm_v256_shl_n_64<44>),
+ MAP(imm_v256_shl_n_64<48>),
+ MAP(imm_v256_shl_n_64<52>),
+ MAP(imm_v256_shl_n_64<56>),
+ MAP(imm_v256_shl_n_64<60>),
+ MAP(imm_v256_shr_n_u64<1>),
+ MAP(imm_v256_shr_n_u64<4>),
+ MAP(imm_v256_shr_n_u64<8>),
+ MAP(imm_v256_shr_n_u64<12>),
+ MAP(imm_v256_shr_n_u64<16>),
+ MAP(imm_v256_shr_n_u64<20>),
+ MAP(imm_v256_shr_n_u64<24>),
+ MAP(imm_v256_shr_n_u64<28>),
+ MAP(imm_v256_shr_n_u64<32>),
+ MAP(imm_v256_shr_n_u64<36>),
+ MAP(imm_v256_shr_n_u64<40>),
+ MAP(imm_v256_shr_n_u64<44>),
+ MAP(imm_v256_shr_n_u64<48>),
+ MAP(imm_v256_shr_n_u64<52>),
+ MAP(imm_v256_shr_n_u64<56>),
+ MAP(imm_v256_shr_n_u64<60>),
+ MAP(imm_v256_shr_n_s64<1>),
+ MAP(imm_v256_shr_n_s64<4>),
+ MAP(imm_v256_shr_n_s64<8>),
+ MAP(imm_v256_shr_n_s64<12>),
+ MAP(imm_v256_shr_n_s64<16>),
+ MAP(imm_v256_shr_n_s64<20>),
+ MAP(imm_v256_shr_n_s64<24>),
+ MAP(imm_v256_shr_n_s64<28>),
+ MAP(imm_v256_shr_n_s64<32>),
+ MAP(imm_v256_shr_n_s64<36>),
+ MAP(imm_v256_shr_n_s64<40>),
+ MAP(imm_v256_shr_n_s64<44>),
+ MAP(imm_v256_shr_n_s64<48>),
+ MAP(imm_v256_shr_n_s64<52>),
+ MAP(imm_v256_shr_n_s64<56>),
+ MAP(imm_v256_shr_n_s64<60>),
+ MAP(v256_movemask_8),
+ MAP(v256_zero),
+ MAP(v256_dup_8),
+ MAP(v256_dup_16),
+ MAP(v256_dup_32),
+ MAP(v256_dup_64),
+ MAP(v256_low_u32),
+ MAP(v256_low_v64),
+ MAP(v256_from_64),
+ MAP(v256_from_v64),
+ MAP(v256_ziplo_128),
+ MAP(v256_ziphi_128),
+ MAP(v256_unpacklo_u8_s16),
+ MAP(v256_unpackhi_u8_s16),
+ MAP(v256_unpacklo_s8_s16),
+ MAP(v256_unpackhi_s8_s16),
+ MAP(v256_blend_8),
+ { NULL, NULL, NULL } };
+#undef MAP
+
+// Map reference functions to machine tuned functions. Since the
+// functions depend on machine tuned types, the non-machine tuned
+// instantiations of the test can't refer to these functions directly,
+// so we refer to them by name and do the mapping here.
+void Map(const char *name, fptr *ref, fptr *simd) {
+ unsigned int i;
+ for (i = 0; m[i].name && strcmp(name, m[i].name); i++) {
+ }
+
+ *ref = m[i].ref;
+ *simd = m[i].simd;
+}
+
+// Used for printing errors in TestSimd1Arg, TestSimd2Args and TestSimd3Args
+std::string Print(const uint8_t *a, int size) {
+ std::string text = "0x";
+ for (int i = 0; i < size; i++) {
+ const uint8_t c = a[!CONFIG_BIG_ENDIAN ? size - 1 - i : i];
+ // Same as snprintf(..., ..., "%02x", c)
+ text += (c >> 4) + '0' + ((c >> 4) > 9) * ('a' - '0' - 10);
+ text += (c & 15) + '0' + ((c & 15) > 9) * ('a' - '0' - 10);
+ }
+
+ return text;
+}
+
+// Used in TestSimd1Arg, TestSimd2Args and TestSimd3Args to restrict argument
+// ranges
+void SetMask(uint8_t *s, int size, uint32_t mask, uint32_t maskwidth) {
+ switch (maskwidth) {
+ case 0: {
+ break;
+ }
+ case 8: {
+ for (int i = 0; i < size; i++) s[i] &= mask;
+ break;
+ }
+ case 16: {
+ uint16_t *t = reinterpret_cast<uint16_t *>(s);
+ assert(!(reinterpret_cast<uintptr_t>(s) & 1));
+ for (int i = 0; i < size / 2; i++) t[i] &= mask;
+ break;
+ }
+ case 32: {
+ uint32_t *t = reinterpret_cast<uint32_t *>(s);
+ assert(!(reinterpret_cast<uintptr_t>(s) & 3));
+ for (int i = 0; i < size / 4; i++) t[i] &= mask;
+ break;
+ }
+ case 64: {
+ uint64_t *t = reinterpret_cast<uint64_t *>(s);
+ assert(!(reinterpret_cast<uintptr_t>(s) & 7));
+ for (int i = 0; i < size / 8; i++) t[i] &= mask;
+ break;
+ }
+ default: {
+ FAIL() << "Unsupported mask width";
+ break;
+ }
+ }
+}
+
+// We need some extra load/store functions
+void u64_store_aligned(void *p, uint64_t a) {
+ v64_store_aligned(p, v64_from_64(a));
+}
+void s32_store_aligned(void *p, int32_t a) {
+ u32_store_aligned(p, static_cast<uint32_t>(a));
+}
+void s64_store_aligned(void *p, int64_t a) {
+ v64_store_aligned(p, v64_from_64(static_cast<uint64_t>(a)));
+}
+
+void c_u64_store_aligned(void *p, uint64_t a) {
+ c_v64_store_aligned(p, c_v64_from_64(a));
+}
+
+void c_s32_store_aligned(void *p, int32_t a) {
+ c_u32_store_aligned(p, static_cast<uint32_t>(a));
+}
+
+void c_s64_store_aligned(void *p, int64_t a) {
+ c_v64_store_aligned(p, c_v64_from_64(static_cast<uint64_t>(a)));
+}
+
+uint64_t u64_load_aligned(const void *p) {
+ return v64_u64(v64_load_aligned(p));
+}
+uint16_t u16_load_aligned(const void *p) {
+ return *(reinterpret_cast<const uint16_t *>(p));
+}
+uint8_t u8_load_aligned(const void *p) {
+ return *(reinterpret_cast<const uint8_t *>(p));
+}
+
+uint64_t c_u64_load_aligned(const void *p) {
+ return c_v64_u64(c_v64_load_aligned(p));
+}
+uint16_t c_u16_load_aligned(const void *p) {
+ return *(reinterpret_cast<const uint16_t *>(p));
+}
+uint8_t c_u8_load_aligned(const void *p) {
+ return *(reinterpret_cast<const uint8_t *>(p));
+}
+
+// CompareSimd1Arg, CompareSimd2Args and CompareSimd3Args compare
+// intrinsics taking 1, 2 or 3 arguments respectively with their
+// corresponding C reference. Ideally, the loads and stores should
+// have gone into the template parameter list, but v64 and v128 could
+// be typedef'ed to the same type (which is the case on x86) and then
+// we can't instantiate both v64 and v128, so the function return and
+// argument types, including the always differing types in the C
+// equivalent are used instead. The function arguments must be void
+// pointers and then go through a cast to avoid matching errors in the
+// branches eliminated by the typeid tests in the calling function.
+template <typename Ret, typename Arg, typename CRet, typename CArg>
+int CompareSimd1Arg(fptr store, fptr load, fptr simd, void *d, fptr c_store,
+ fptr c_load, fptr c_simd, void *ref_d, const void *a) {
+ void (*const my_store)(void *, Ret) = (void (*const)(void *, Ret))store;
+ Arg (*const my_load)(const void *) = (Arg(*const)(const void *))load;
+ Ret (*const my_simd)(Arg) = (Ret(*const)(Arg))simd;
+ void (*const my_c_store)(void *, CRet) = (void (*const)(void *, CRet))c_store;
+ CArg (*const my_c_load)(const void *) = (CArg(*const)(const void *))c_load;
+ CRet (*const my_c_simd)(CArg) = (CRet(*const)(CArg))c_simd;
+
+ // Call reference and intrinsic
+ my_c_store(ref_d, my_c_simd(my_c_load(a)));
+ my_store(d, my_simd(my_load(a)));
+
+ // Compare results
+ return memcmp(ref_d, d, sizeof(CRet));
+}
+
+template <typename Ret, typename Arg1, typename Arg2, typename CRet,
+ typename CArg1, typename CArg2>
+int CompareSimd2Args(fptr store, fptr load1, fptr load2, fptr simd, void *d,
+ fptr c_store, fptr c_load1, fptr c_load2, fptr c_simd,
+ void *ref_d, const void *a, const void *b) {
+ void (*const my_store)(void *, Ret) = (void (*const)(void *, Ret))store;
+ Arg1 (*const my_load1)(const void *) = (Arg1(*const)(const void *))load1;
+ Arg2 (*const my_load2)(const void *) = (Arg2(*const)(const void *))load2;
+ Ret (*const my_simd)(Arg1, Arg2) = (Ret(*const)(Arg1, Arg2))simd;
+ void (*const my_c_store)(void *, CRet) = (void (*const)(void *, CRet))c_store;
+ CArg1 (*const my_c_load1)(const void *) =
+ (CArg1(*const)(const void *))c_load1;
+ CArg2 (*const my_c_load2)(const void *) =
+ (CArg2(*const)(const void *))c_load2;
+ CRet (*const my_c_simd)(CArg1, CArg2) = (CRet(*const)(CArg1, CArg2))c_simd;
+
+ // Call reference and intrinsic
+ my_c_store(ref_d, my_c_simd(my_c_load1(a), my_c_load2(b)));
+ my_store(d, my_simd(my_load1(a), my_load2(b)));
+
+ // Compare results
+ return memcmp(ref_d, d, sizeof(CRet));
+}
+
+template <typename Ret, typename Arg1, typename Arg2, typename Arg3,
+ typename CRet, typename CArg1, typename CArg2, typename CArg3>
+int CompareSimd3Args(fptr store, fptr load1, fptr load2, fptr load3, fptr simd,
+ void *d, fptr c_store, fptr c_load1, fptr c_load2,
+ fptr c_load3, fptr c_simd, void *ref_d, const void *a,
+ const void *b, const void *c) {
+ void (*const my_store)(void *, Ret) = (void (*const)(void *, Ret))store;
+ Arg1 (*const my_load1)(const void *) = (Arg1(*const)(const void *))load1;
+ Arg2 (*const my_load2)(const void *) = (Arg2(*const)(const void *))load2;
+ Arg3 (*const my_load3)(const void *) = (Arg3(*const)(const void *))load3;
+ Ret (*const my_simd)(Arg1, Arg2, Arg3) = (Ret(*const)(Arg1, Arg2, Arg3))simd;
+ void (*const my_c_store)(void *, CRet) = (void (*const)(void *, CRet))c_store;
+ CArg1 (*const my_c_load1)(const void *) =
+ (CArg1(*const)(const void *))c_load1;
+ CArg2 (*const my_c_load2)(const void *) =
+ (CArg2(*const)(const void *))c_load2;
+ CArg2 (*const my_c_load3)(const void *) =
+ (CArg2(*const)(const void *))c_load3;
+ CRet (*const my_c_simd)(CArg1, CArg2, CArg3) =
+ (CRet(*const)(CArg1, CArg2, CArg3))c_simd;
+
+ // Call reference and intrinsic
+ my_c_store(ref_d, my_c_simd(my_c_load1(a), my_c_load2(b), my_c_load3(c)));
+ my_store(d, my_simd(my_load1(a), my_load2(b), my_load3(c)));
+
+ // Compare results
+ return memcmp(ref_d, d, sizeof(CRet));
+}
+
+} // namespace
+
+template <typename CRet, typename CArg>
+void TestSimd1Arg(uint32_t iterations, uint32_t mask, uint32_t maskwidth,
+ const char *name) {
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ fptr ref_simd;
+ fptr simd;
+ int error = 0;
+ DECLARE_ALIGNED(32, uint8_t, s[32]);
+ DECLARE_ALIGNED(32, uint8_t, d[32]);
+ DECLARE_ALIGNED(32, uint8_t, ref_d[32]);
+ assert(sizeof(CArg) <= 32 && sizeof(CRet) <= 32);
+ memset(ref_d, 0, sizeof(ref_d));
+ memset(d, 0, sizeof(d));
+
+ Map(name, &ref_simd, &simd);
+ if (simd == NULL || ref_simd == NULL) {
+ FAIL() << "Internal error: Unknown intrinsic function " << name;
+ }
+ for (unsigned int count = 0;
+ count < iterations && !error && !testing::Test::HasFailure(); count++) {
+ for (unsigned int c = 0; c < sizeof(CArg); c++) s[c] = rnd.Rand8();
+
+ if (maskwidth) {
+ SetMask(s, sizeof(CArg), mask, maskwidth);
+ }
+
+ if (typeid(CRet) == typeid(c_v64) && typeid(CArg) == typeid(c_v64)) {
+ // V64_V64
+ error = CompareSimd1Arg<v64, v64, CRet, CArg>(
+ reinterpret_cast<fptr>(v64_store_aligned),
+ reinterpret_cast<fptr>(v64_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v64_store_aligned),
+ reinterpret_cast<fptr>(c_v64_load_aligned), ref_simd, ref_d, s);
+ } else if (typeid(CRet) == typeid(c_v64) &&
+ typeid(CArg) == typeid(uint8_t)) {
+ // V64_U8
+ error = CompareSimd1Arg<v64, uint8_t, CRet, CArg>(
+ reinterpret_cast<fptr>(v64_store_aligned),
+ reinterpret_cast<fptr>(u8_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v64_store_aligned),
+ reinterpret_cast<fptr>(c_u8_load_aligned), ref_simd, ref_d, s);
+ } else if (typeid(CRet) == typeid(c_v64) &&
+ typeid(CArg) == typeid(uint16_t)) {
+ // V64_U16
+ error = CompareSimd1Arg<v64, uint16_t, CRet, CArg>(
+ reinterpret_cast<fptr>(v64_store_aligned),
+ reinterpret_cast<fptr>(u16_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v64_store_aligned),
+ reinterpret_cast<fptr>(c_u16_load_aligned), ref_simd, ref_d, s);
+ } else if (typeid(CRet) == typeid(c_v64) &&
+ typeid(CArg) == typeid(uint32_t)) {
+ // V64_U32
+ error = CompareSimd1Arg<v64, uint32_t, CRet, CArg>(
+ reinterpret_cast<fptr>(v64_store_aligned),
+ reinterpret_cast<fptr>(u32_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v64_store_aligned),
+ reinterpret_cast<fptr>(c_u32_load_aligned), ref_simd, ref_d, s);
+ } else if (typeid(CRet) == typeid(uint64_t) &&
+ typeid(CArg) == typeid(c_v64)) {
+ // U64_V64
+ error = CompareSimd1Arg<uint64_t, v64, CRet, CArg>(
+ reinterpret_cast<fptr>(u64_store_aligned),
+ reinterpret_cast<fptr>(v64_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_u64_store_aligned),
+ reinterpret_cast<fptr>(c_v64_load_aligned), ref_simd, ref_d, s);
+ } else if (typeid(CRet) == typeid(int64_t) &&
+ typeid(CArg) == typeid(c_v64)) {
+ // S64_V64
+ error = CompareSimd1Arg<int64_t, v64, CRet, CArg>(
+ reinterpret_cast<fptr>(s64_store_aligned),
+ reinterpret_cast<fptr>(v64_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_s64_store_aligned),
+ reinterpret_cast<fptr>(c_v64_load_aligned), ref_simd, ref_d, s);
+ } else if (typeid(CRet) == typeid(uint32_t) &&
+ typeid(CArg) == typeid(c_v64)) {
+ // U32_V64
+ error = CompareSimd1Arg<uint32_t, v64, CRet, CArg>(
+ reinterpret_cast<fptr>(u32_store_aligned),
+ reinterpret_cast<fptr>(v64_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_u32_store_aligned),
+ reinterpret_cast<fptr>(c_v64_load_aligned), ref_simd, ref_d, s);
+ } else if (typeid(CRet) == typeid(int32_t) &&
+ typeid(CArg) == typeid(c_v64)) {
+ // S32_V64
+ error = CompareSimd1Arg<int32_t, v64, CRet, CArg>(
+ reinterpret_cast<fptr>(s32_store_aligned),
+ reinterpret_cast<fptr>(v64_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_s32_store_aligned),
+ reinterpret_cast<fptr>(c_v64_load_aligned), ref_simd, ref_d, s);
+ } else if (typeid(CRet) == typeid(uint32_t) &&
+ typeid(CArg) == typeid(c_v128)) {
+ // U32_V128
+ error = CompareSimd1Arg<uint32_t, v128, CRet, CArg>(
+ reinterpret_cast<fptr>(u32_store_aligned),
+ reinterpret_cast<fptr>(v128_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_u32_store_aligned),
+ reinterpret_cast<fptr>(c_v128_load_aligned), ref_simd, ref_d, s);
+ } else if (typeid(CRet) == typeid(uint64_t) &&
+ typeid(CArg) == typeid(c_v128)) {
+ // U64_V128
+ error = CompareSimd1Arg<uint64_t, v128, CRet, CArg>(
+ reinterpret_cast<fptr>(u64_store_aligned),
+ reinterpret_cast<fptr>(v128_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_u64_store_aligned),
+ reinterpret_cast<fptr>(c_v128_load_aligned), ref_simd, ref_d, s);
+ } else if (typeid(CRet) == typeid(uint64_t) &&
+ typeid(CArg) == typeid(c_v256)) {
+ // U64_V256
+ error = CompareSimd1Arg<uint64_t, v256, CRet, CArg>(
+ reinterpret_cast<fptr>(u64_store_aligned),
+ reinterpret_cast<fptr>(v256_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_u64_store_aligned),
+ reinterpret_cast<fptr>(c_v256_load_aligned), ref_simd, ref_d, s);
+ } else if (typeid(CRet) == typeid(c_v64) &&
+ typeid(CArg) == typeid(c_v128)) {
+ // V64_V128
+ error = CompareSimd1Arg<v64, v128, CRet, CArg>(
+ reinterpret_cast<fptr>(v64_store_aligned),
+ reinterpret_cast<fptr>(v128_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v64_store_aligned),
+ reinterpret_cast<fptr>(c_v128_load_aligned), ref_simd, ref_d, s);
+ } else if (typeid(CRet) == typeid(c_v128) &&
+ typeid(CArg) == typeid(c_v128)) {
+ // V128_V128
+ error = CompareSimd1Arg<v128, v128, CRet, CArg>(
+ reinterpret_cast<fptr>(v128_store_aligned),
+ reinterpret_cast<fptr>(v128_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v128_store_aligned),
+ reinterpret_cast<fptr>(c_v128_load_aligned), ref_simd, ref_d, s);
+ } else if (typeid(CRet) == typeid(c_v128) &&
+ typeid(CArg) == typeid(c_v64)) {
+ // V128_V64
+ error = CompareSimd1Arg<v128, v64, CRet, CArg>(
+ reinterpret_cast<fptr>(v128_store_aligned),
+ reinterpret_cast<fptr>(v64_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v128_store_aligned),
+ reinterpret_cast<fptr>(c_v64_load_aligned), ref_simd, ref_d, s);
+ } else if (typeid(CRet) == typeid(c_v128) &&
+ typeid(CArg) == typeid(uint8_t)) {
+ // V128_U8
+ error = CompareSimd1Arg<v128, uint8_t, CRet, CArg>(
+ reinterpret_cast<fptr>(v128_store_aligned),
+ reinterpret_cast<fptr>(u8_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v128_store_aligned),
+ reinterpret_cast<fptr>(c_u8_load_aligned), ref_simd, ref_d, s);
+ } else if (typeid(CRet) == typeid(c_v128) &&
+ typeid(CArg) == typeid(uint16_t)) {
+ // V128_U16
+ error = CompareSimd1Arg<v128, uint16_t, CRet, CArg>(
+ reinterpret_cast<fptr>(v128_store_aligned),
+ reinterpret_cast<fptr>(u16_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v128_store_aligned),
+ reinterpret_cast<fptr>(c_u16_load_aligned), ref_simd, ref_d, s);
+ } else if (typeid(CRet) == typeid(c_v128) &&
+ typeid(CArg) == typeid(uint32_t)) {
+ // V128_U32
+ error = CompareSimd1Arg<v128, uint32_t, CRet, CArg>(
+ reinterpret_cast<fptr>(v128_store_aligned),
+ reinterpret_cast<fptr>(u32_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v128_store_aligned),
+ reinterpret_cast<fptr>(c_u32_load_aligned), ref_simd, ref_d, s);
+ } else if (typeid(CRet) == typeid(c_v128) &&
+ typeid(CArg) == typeid(uint64_t)) {
+ // V128_U64
+ error = CompareSimd1Arg<v128, uint64_t, CRet, CArg>(
+ reinterpret_cast<fptr>(v128_store_aligned),
+ reinterpret_cast<fptr>(u64_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v128_store_aligned),
+ reinterpret_cast<fptr>(c_u64_load_aligned), ref_simd, ref_d, s);
+ } else if (typeid(CRet) == typeid(c_v256) &&
+ typeid(CArg) == typeid(c_v256)) {
+ // V256_V256
+ error = CompareSimd1Arg<v256, v256, CRet, CArg>(
+ reinterpret_cast<fptr>(v256_store_aligned),
+ reinterpret_cast<fptr>(v256_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v256_store_aligned),
+ reinterpret_cast<fptr>(c_v256_load_aligned), ref_simd, ref_d, s);
+ } else if (typeid(CRet) == typeid(c_v256) &&
+ typeid(CArg) == typeid(c_v128)) {
+ // V256_V128
+ error = CompareSimd1Arg<v256, v128, CRet, CArg>(
+ reinterpret_cast<fptr>(v256_store_aligned),
+ reinterpret_cast<fptr>(v128_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v256_store_aligned),
+ reinterpret_cast<fptr>(c_v128_load_aligned), ref_simd, ref_d, s);
+ } else if (typeid(CRet) == typeid(c_v256) &&
+ typeid(CArg) == typeid(uint8_t)) {
+ // V256_U8
+ error = CompareSimd1Arg<v256, uint8_t, CRet, CArg>(
+ reinterpret_cast<fptr>(v256_store_aligned),
+ reinterpret_cast<fptr>(u8_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v256_store_aligned),
+ reinterpret_cast<fptr>(c_u8_load_aligned), ref_simd, ref_d, s);
+ } else if (typeid(CRet) == typeid(c_v256) &&
+ typeid(CArg) == typeid(uint16_t)) {
+ // V256_U16
+ error = CompareSimd1Arg<v256, uint16_t, CRet, CArg>(
+ reinterpret_cast<fptr>(v256_store_aligned),
+ reinterpret_cast<fptr>(u16_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v256_store_aligned),
+ reinterpret_cast<fptr>(c_u16_load_aligned), ref_simd, ref_d, s);
+ } else if (typeid(CRet) == typeid(c_v256) &&
+ typeid(CArg) == typeid(uint32_t)) {
+ // V256_U32
+ error = CompareSimd1Arg<v256, uint32_t, CRet, CArg>(
+ reinterpret_cast<fptr>(v256_store_aligned),
+ reinterpret_cast<fptr>(u32_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v256_store_aligned),
+ reinterpret_cast<fptr>(c_u32_load_aligned), ref_simd, ref_d, s);
+ } else if (typeid(CRet) == typeid(c_v256) &&
+ typeid(CArg) == typeid(uint64_t)) {
+ // V256_U64
+ error = CompareSimd1Arg<v256, uint64_t, CRet, CArg>(
+ reinterpret_cast<fptr>(v256_store_aligned),
+ reinterpret_cast<fptr>(u64_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v256_store_aligned),
+ reinterpret_cast<fptr>(c_u64_load_aligned), ref_simd, ref_d, s);
+ } else if (typeid(CRet) == typeid(uint32_t) &&
+ typeid(CArg) == typeid(c_v256)) {
+ // U32_V256
+ error = CompareSimd1Arg<uint32_t, v256, CRet, CArg>(
+ reinterpret_cast<fptr>(u32_store_aligned),
+ reinterpret_cast<fptr>(v256_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_u32_store_aligned),
+ reinterpret_cast<fptr>(c_v256_load_aligned), ref_simd, ref_d, s);
+ } else if (typeid(CRet) == typeid(c_v64) &&
+ typeid(CArg) == typeid(c_v256)) {
+ // V64_V256
+ error = CompareSimd1Arg<v64, v256, CRet, CArg>(
+ reinterpret_cast<fptr>(v64_store_aligned),
+ reinterpret_cast<fptr>(v256_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v64_store_aligned),
+ reinterpret_cast<fptr>(c_v256_load_aligned), ref_simd, ref_d, s);
+ } else {
+ FAIL() << "Internal error: Unknown intrinsic function "
+ << typeid(CRet).name() << " " << name << "(" << typeid(CArg).name()
+ << ")";
+ }
+ }
+
+ EXPECT_EQ(0, error) << "Error: mismatch for " << name << "("
+ << Print(s, sizeof(s)) << ") -> " << Print(d, sizeof(d))
+ << " (simd), " << Print(ref_d, sizeof(ref_d)) << " (ref)";
+}
+
+template <typename CRet, typename CArg1, typename CArg2>
+void TestSimd2Args(uint32_t iterations, uint32_t mask, uint32_t maskwidth,
+ const char *name) {
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ fptr ref_simd;
+ fptr simd;
+ int error = 0;
+ DECLARE_ALIGNED(32, uint8_t, s1[32]);
+ DECLARE_ALIGNED(32, uint8_t, s2[32]);
+ DECLARE_ALIGNED(32, uint8_t, d[32]);
+ DECLARE_ALIGNED(32, uint8_t, ref_d[32]);
+ assert(sizeof(CArg1) <= 32 && sizeof(CArg2) <= 32 && sizeof(CRet) <= 32);
+ memset(ref_d, 0, sizeof(ref_d));
+ memset(d, 0, sizeof(d));
+
+ Map(name, &ref_simd, &simd);
+ if (simd == NULL || ref_simd == NULL) {
+ FAIL() << "Internal error: Unknown intrinsic function " << name;
+ }
+
+ for (unsigned int count = 0;
+ count < iterations && !error && !testing::Test::HasFailure(); count++) {
+ for (unsigned int c = 0; c < sizeof(CArg1); c++) s1[c] = rnd.Rand8();
+
+ for (unsigned int c = 0; c < sizeof(CArg2); c++) s2[c] = rnd.Rand8();
+
+ if (maskwidth) SetMask(s2, sizeof(CArg2), mask, maskwidth);
+
+ if (typeid(CRet) == typeid(c_v64) && typeid(CArg1) == typeid(c_v64) &&
+ typeid(CArg2) == typeid(c_v64)) {
+ // V64_V64V64
+ error = CompareSimd2Args<v64, v64, v64, CRet, CArg1, CArg2>(
+ reinterpret_cast<fptr>(v64_store_aligned),
+ reinterpret_cast<fptr>(v64_load_aligned),
+ reinterpret_cast<fptr>(v64_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v64_store_aligned),
+ reinterpret_cast<fptr>(c_v64_load_aligned),
+ reinterpret_cast<fptr>(c_v64_load_aligned),
+ reinterpret_cast<fptr>(ref_simd), ref_d, s1, s2);
+ } else if (typeid(CRet) == typeid(c_v64) &&
+ typeid(CArg1) == typeid(uint32_t) &&
+ typeid(CArg2) == typeid(uint32_t)) {
+ // V64_U32U32
+ error = CompareSimd2Args<v64, uint32_t, uint32_t, CRet, CArg1, CArg2>(
+ reinterpret_cast<fptr>(v64_store_aligned),
+ reinterpret_cast<fptr>(u32_load_aligned),
+ reinterpret_cast<fptr>(u32_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v64_store_aligned),
+ reinterpret_cast<fptr>(c_u32_load_aligned),
+ reinterpret_cast<fptr>(c_u32_load_aligned),
+ reinterpret_cast<fptr>(ref_simd), ref_d, s1, s2);
+ } else if (typeid(CRet) == typeid(uint32_t) &&
+ typeid(CArg1) == typeid(c_v64) &&
+ typeid(CArg2) == typeid(c_v64)) {
+ // U32_V64V64
+ error = CompareSimd2Args<uint32_t, v64, v64, CRet, CArg1, CArg2>(
+ reinterpret_cast<fptr>(u32_store_aligned),
+ reinterpret_cast<fptr>(v64_load_aligned),
+ reinterpret_cast<fptr>(v64_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_u32_store_aligned),
+ reinterpret_cast<fptr>(c_v64_load_aligned),
+ reinterpret_cast<fptr>(c_v64_load_aligned),
+ reinterpret_cast<fptr>(ref_simd), ref_d, s1, s2);
+ } else if (typeid(CRet) == typeid(int64_t) &&
+ typeid(CArg1) == typeid(c_v64) &&
+ typeid(CArg2) == typeid(c_v64)) {
+ // S64_V64V64
+ error = CompareSimd2Args<int64_t, v64, v64, CRet, CArg1, CArg2>(
+ reinterpret_cast<fptr>(s64_store_aligned),
+ reinterpret_cast<fptr>(v64_load_aligned),
+ reinterpret_cast<fptr>(v64_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_s64_store_aligned),
+ reinterpret_cast<fptr>(c_v64_load_aligned),
+ reinterpret_cast<fptr>(c_v64_load_aligned),
+ reinterpret_cast<fptr>(ref_simd), ref_d, s1, s2);
+ } else if (typeid(CRet) == typeid(c_v64) &&
+ typeid(CArg1) == typeid(c_v64) &&
+ typeid(CArg2) == typeid(uint32_t)) {
+ // V64_V64U32
+ error = CompareSimd2Args<v64, v64, uint32_t, CRet, CArg1, CArg2>(
+ reinterpret_cast<fptr>(v64_store_aligned),
+ reinterpret_cast<fptr>(v64_load_aligned),
+ reinterpret_cast<fptr>(u32_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v64_store_aligned),
+ reinterpret_cast<fptr>(c_v64_load_aligned),
+ reinterpret_cast<fptr>(c_u32_load_aligned),
+ reinterpret_cast<fptr>(ref_simd), ref_d, s1, s2);
+ } else if (typeid(CRet) == typeid(c_v128) &&
+ typeid(CArg1) == typeid(c_v128) &&
+ typeid(CArg2) == typeid(c_v128)) {
+ // V128_V128V128
+ error = CompareSimd2Args<v128, v128, v128, CRet, CArg1, CArg2>(
+ reinterpret_cast<fptr>(v128_store_aligned),
+ reinterpret_cast<fptr>(v128_load_aligned),
+ reinterpret_cast<fptr>(v128_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v128_store_aligned),
+ reinterpret_cast<fptr>(c_v128_load_aligned),
+ reinterpret_cast<fptr>(c_v128_load_aligned),
+ reinterpret_cast<fptr>(ref_simd), ref_d, s1, s2);
+ } else if (typeid(CRet) == typeid(uint32_t) &&
+ typeid(CArg1) == typeid(c_v128) &&
+ typeid(CArg2) == typeid(c_v128)) {
+ // U32_V128V128
+ error = CompareSimd2Args<uint32_t, v128, v128, CRet, CArg1, CArg2>(
+ reinterpret_cast<fptr>(u32_store_aligned),
+ reinterpret_cast<fptr>(v128_load_aligned),
+ reinterpret_cast<fptr>(v128_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_u32_store_aligned),
+ reinterpret_cast<fptr>(c_v128_load_aligned),
+ reinterpret_cast<fptr>(c_v128_load_aligned),
+ reinterpret_cast<fptr>(ref_simd), ref_d, s1, s2);
+ } else if (typeid(CRet) == typeid(uint64_t) &&
+ typeid(CArg1) == typeid(c_v128) &&
+ typeid(CArg2) == typeid(c_v128)) {
+ // U64_V128V128
+ error = CompareSimd2Args<uint64_t, v128, v128, CRet, CArg1, CArg2>(
+ reinterpret_cast<fptr>(u64_store_aligned),
+ reinterpret_cast<fptr>(v128_load_aligned),
+ reinterpret_cast<fptr>(v128_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_u64_store_aligned),
+ reinterpret_cast<fptr>(c_v128_load_aligned),
+ reinterpret_cast<fptr>(c_v128_load_aligned),
+ reinterpret_cast<fptr>(ref_simd), ref_d, s1, s2);
+ } else if (typeid(CRet) == typeid(int64_t) &&
+ typeid(CArg1) == typeid(c_v128) &&
+ typeid(CArg2) == typeid(c_v128)) {
+ // S64_V128V128
+ error = CompareSimd2Args<int64_t, v128, v128, CRet, CArg1, CArg2>(
+ reinterpret_cast<fptr>(s64_store_aligned),
+ reinterpret_cast<fptr>(v128_load_aligned),
+ reinterpret_cast<fptr>(v128_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_s64_store_aligned),
+ reinterpret_cast<fptr>(c_v128_load_aligned),
+ reinterpret_cast<fptr>(c_v128_load_aligned),
+ reinterpret_cast<fptr>(ref_simd), ref_d, s1, s2);
+ } else if (typeid(CRet) == typeid(c_v128) &&
+ typeid(CArg1) == typeid(uint64_t) &&
+ typeid(CArg2) == typeid(uint64_t)) {
+ // V128_U64U64
+ error = CompareSimd2Args<v128, uint64_t, uint64_t, CRet, CArg1, CArg2>(
+ reinterpret_cast<fptr>(v128_store_aligned),
+ reinterpret_cast<fptr>(u64_load_aligned),
+ reinterpret_cast<fptr>(u64_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v128_store_aligned),
+ reinterpret_cast<fptr>(c_u64_load_aligned),
+ reinterpret_cast<fptr>(c_u64_load_aligned),
+ reinterpret_cast<fptr>(ref_simd), ref_d, s1, s2);
+ } else if (typeid(CRet) == typeid(c_v128) &&
+ typeid(CArg1) == typeid(c_v64) &&
+ typeid(CArg2) == typeid(c_v64)) {
+ // V128_V64V64
+ error = CompareSimd2Args<v128, v64, v64, CRet, CArg1, CArg2>(
+ reinterpret_cast<fptr>(v128_store_aligned),
+ reinterpret_cast<fptr>(v64_load_aligned),
+ reinterpret_cast<fptr>(v64_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v128_store_aligned),
+ reinterpret_cast<fptr>(c_v64_load_aligned),
+ reinterpret_cast<fptr>(c_v64_load_aligned),
+ reinterpret_cast<fptr>(ref_simd), ref_d, s1, s2);
+ } else if (typeid(CRet) == typeid(c_v128) &&
+ typeid(CArg1) == typeid(c_v128) &&
+ typeid(CArg2) == typeid(uint32_t)) {
+ // V128_V128U32
+ error = CompareSimd2Args<v128, v128, uint32_t, CRet, CArg1, CArg2>(
+ reinterpret_cast<fptr>(v128_store_aligned),
+ reinterpret_cast<fptr>(v128_load_aligned),
+ reinterpret_cast<fptr>(u32_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v128_store_aligned),
+ reinterpret_cast<fptr>(c_v128_load_aligned),
+ reinterpret_cast<fptr>(c_u32_load_aligned),
+ reinterpret_cast<fptr>(ref_simd), ref_d, s1, s2);
+ } else if (typeid(CRet) == typeid(c_v256) &&
+ typeid(CArg1) == typeid(c_v256) &&
+ typeid(CArg2) == typeid(c_v256)) {
+ // V256_V256V256
+ error = CompareSimd2Args<v256, v256, v256, CRet, CArg1, CArg2>(
+ reinterpret_cast<fptr>(v256_store_aligned),
+ reinterpret_cast<fptr>(v256_load_aligned),
+ reinterpret_cast<fptr>(v256_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v256_store_aligned),
+ reinterpret_cast<fptr>(c_v256_load_aligned),
+ reinterpret_cast<fptr>(c_v256_load_aligned),
+ reinterpret_cast<fptr>(ref_simd), ref_d, s1, s2);
+ } else if (typeid(CRet) == typeid(uint64_t) &&
+ typeid(CArg1) == typeid(c_v256) &&
+ typeid(CArg2) == typeid(c_v256)) {
+ // U64_V256V256
+ error = CompareSimd2Args<uint64_t, v256, v256, CRet, CArg1, CArg2>(
+ reinterpret_cast<fptr>(u64_store_aligned),
+ reinterpret_cast<fptr>(v256_load_aligned),
+ reinterpret_cast<fptr>(v256_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_u64_store_aligned),
+ reinterpret_cast<fptr>(c_v256_load_aligned),
+ reinterpret_cast<fptr>(c_v256_load_aligned),
+ reinterpret_cast<fptr>(ref_simd), ref_d, s1, s2);
+ } else if (typeid(CRet) == typeid(int64_t) &&
+ typeid(CArg1) == typeid(c_v256) &&
+ typeid(CArg2) == typeid(c_v256)) {
+ // S64_V256V256
+ error = CompareSimd2Args<int64_t, v256, v256, CRet, CArg1, CArg2>(
+ reinterpret_cast<fptr>(s64_store_aligned),
+ reinterpret_cast<fptr>(v256_load_aligned),
+ reinterpret_cast<fptr>(v256_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_s64_store_aligned),
+ reinterpret_cast<fptr>(c_v256_load_aligned),
+ reinterpret_cast<fptr>(c_v256_load_aligned),
+ reinterpret_cast<fptr>(ref_simd), ref_d, s1, s2);
+ } else if (typeid(CRet) == typeid(uint32_t) &&
+ typeid(CArg1) == typeid(c_v256) &&
+ typeid(CArg2) == typeid(c_v256)) {
+ // U32_V256V256
+ error = CompareSimd2Args<uint32_t, v256, v256, CRet, CArg1, CArg2>(
+ reinterpret_cast<fptr>(u32_store_aligned),
+ reinterpret_cast<fptr>(v256_load_aligned),
+ reinterpret_cast<fptr>(v256_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_u32_store_aligned),
+ reinterpret_cast<fptr>(c_v256_load_aligned),
+ reinterpret_cast<fptr>(c_v256_load_aligned),
+ reinterpret_cast<fptr>(ref_simd), ref_d, s1, s2);
+ } else if (typeid(CRet) == typeid(c_v256) &&
+ typeid(CArg1) == typeid(c_v128) &&
+ typeid(CArg2) == typeid(c_v128)) {
+ // V256_V128V128
+ error = CompareSimd2Args<v256, v128, v128, CRet, CArg1, CArg2>(
+ reinterpret_cast<fptr>(v256_store_aligned),
+ reinterpret_cast<fptr>(v128_load_aligned),
+ reinterpret_cast<fptr>(v128_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v256_store_aligned),
+ reinterpret_cast<fptr>(c_v128_load_aligned),
+ reinterpret_cast<fptr>(c_v128_load_aligned),
+ reinterpret_cast<fptr>(ref_simd), ref_d, s1, s2);
+ } else if (typeid(CRet) == typeid(c_v256) &&
+ typeid(CArg1) == typeid(c_v256) &&
+ typeid(CArg2) == typeid(uint32_t)) {
+ // V256_V256U32
+ error = CompareSimd2Args<v256, v256, uint32_t, CRet, CArg1, CArg2>(
+ reinterpret_cast<fptr>(v256_store_aligned),
+ reinterpret_cast<fptr>(v256_load_aligned),
+ reinterpret_cast<fptr>(u32_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v256_store_aligned),
+ reinterpret_cast<fptr>(c_v256_load_aligned),
+ reinterpret_cast<fptr>(c_u32_load_aligned),
+ reinterpret_cast<fptr>(ref_simd), ref_d, s1, s2);
+
+ } else {
+ FAIL() << "Internal error: Unknown intrinsic function "
+ << typeid(CRet).name() << " " << name << "("
+ << typeid(CArg1).name() << ", " << typeid(CArg2).name() << ")";
+ }
+ }
+
+ EXPECT_EQ(0, error) << "Error: mismatch for " << name << "("
+ << Print(s1, sizeof(s1)) << ", " << Print(s2, sizeof(s2))
+ << ") -> " << Print(d, sizeof(d)) << " (simd), "
+ << Print(ref_d, sizeof(ref_d)) << " (ref)";
+}
+
+template <typename CRet, typename CArg1, typename CArg2, typename CArg3>
+void TestSimd3Args(uint32_t iterations, uint32_t mask, uint32_t maskwidth,
+ const char *name) {
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ fptr ref_simd;
+ fptr simd;
+ int error = 0;
+ DECLARE_ALIGNED(32, uint8_t, s1[32]);
+ DECLARE_ALIGNED(32, uint8_t, s2[32]);
+ DECLARE_ALIGNED(32, uint8_t, s3[32]);
+ DECLARE_ALIGNED(32, uint8_t, d[32]);
+ DECLARE_ALIGNED(32, uint8_t, ref_d[32]);
+ assert(sizeof(CArg1) <= 32 && sizeof(CArg2) <= 32 && sizeof(CArg3) <= 32 &&
+ sizeof(CRet) <= 32);
+ memset(ref_d, 0, sizeof(ref_d));
+ memset(d, 0, sizeof(d));
+
+ Map(name, &ref_simd, &simd);
+ if (simd == NULL || ref_simd == NULL) {
+ FAIL() << "Internal error: Unknown intrinsic function " << name;
+ }
+
+ for (unsigned int count = 0;
+ count < iterations && !error && !testing::Test::HasFailure(); count++) {
+ for (unsigned int c = 0; c < sizeof(CArg1); c++) s1[c] = rnd.Rand8();
+
+ for (unsigned int c = 0; c < sizeof(CArg2); c++) s2[c] = rnd.Rand8();
+
+ for (unsigned int c = 0; c < sizeof(CArg3); c++) s3[c] = rnd.Rand8();
+
+ if (maskwidth) SetMask(s3, sizeof(CArg3), mask, maskwidth);
+
+ if (typeid(CRet) == typeid(c_v128) && typeid(CArg1) == typeid(c_v128) &&
+ typeid(CArg2) == typeid(c_v128) && typeid(CArg3) == typeid(c_v128)) {
+ // V128_V128V128V128
+ error =
+ CompareSimd3Args<v128, v128, v128, v128, CRet, CArg1, CArg2, CArg3>(
+ reinterpret_cast<fptr>(v128_store_aligned),
+ reinterpret_cast<fptr>(v128_load_aligned),
+ reinterpret_cast<fptr>(v128_load_aligned),
+ reinterpret_cast<fptr>(v128_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v128_store_aligned),
+ reinterpret_cast<fptr>(c_v128_load_aligned),
+ reinterpret_cast<fptr>(c_v128_load_aligned),
+ reinterpret_cast<fptr>(c_v128_load_aligned),
+ reinterpret_cast<fptr>(ref_simd), ref_d, s1, s2, s3);
+ } else if (typeid(CRet) == typeid(c_v256) &&
+ typeid(CArg1) == typeid(c_v256) &&
+ typeid(CArg2) == typeid(c_v256) &&
+ typeid(CArg3) == typeid(c_v256)) {
+ // V256_V256V256V256
+ error =
+ CompareSimd3Args<v256, v256, v256, v256, CRet, CArg1, CArg2, CArg3>(
+ reinterpret_cast<fptr>(v256_store_aligned),
+ reinterpret_cast<fptr>(v256_load_aligned),
+ reinterpret_cast<fptr>(v256_load_aligned),
+ reinterpret_cast<fptr>(v256_load_aligned), simd, d,
+ reinterpret_cast<fptr>(c_v256_store_aligned),
+ reinterpret_cast<fptr>(c_v256_load_aligned),
+ reinterpret_cast<fptr>(c_v256_load_aligned),
+ reinterpret_cast<fptr>(c_v256_load_aligned),
+ reinterpret_cast<fptr>(ref_simd), ref_d, s1, s2, s3);
+ } else {
+ FAIL() << "Internal error: Unknown intrinsic function "
+ << typeid(CRet).name() << " " << name << "("
+ << typeid(CArg1).name() << ", " << typeid(CArg2).name() << ", "
+ << typeid(CArg3).name() << ")";
+ }
+ }
+
+ EXPECT_EQ(0, error) << "Error: mismatch for " << name << "("
+ << Print(s1, sizeof(s1)) << ", " << Print(s2, sizeof(s2))
+ << ", " << Print(s3, sizeof(s3)) << ") -> "
+ << Print(d, sizeof(d)) << " (simd), "
+ << Print(ref_d, sizeof(ref_d)) << " (ref)";
+}
+
+// Instantiations to make the functions callable from another files
+template void TestSimd1Arg<c_v64, uint8_t>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd1Arg<c_v64, uint16_t>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd1Arg<c_v64, uint32_t>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd1Arg<c_v64, c_v64>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd1Arg<uint32_t, c_v64>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd1Arg<int32_t, c_v64>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd1Arg<uint64_t, c_v64>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd1Arg<int64_t, c_v64>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd2Args<c_v64, uint32_t, uint32_t>(uint32_t, uint32_t,
+ uint32_t, const char *);
+template void TestSimd2Args<c_v64, c_v64, c_v64>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd2Args<c_v64, c_v64, uint32_t>(uint32_t, uint32_t,
+ uint32_t, const char *);
+template void TestSimd2Args<int64_t, c_v64, c_v64>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd2Args<uint32_t, c_v64, c_v64>(uint32_t, uint32_t,
+ uint32_t, const char *);
+template void TestSimd1Arg<c_v128, c_v128>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd1Arg<c_v128, uint8_t>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd1Arg<c_v128, uint16_t>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd1Arg<c_v128, uint32_t>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd1Arg<c_v128, uint64_t>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd1Arg<c_v128, c_v64>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd1Arg<uint32_t, c_v128>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd1Arg<uint64_t, c_v128>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd1Arg<c_v64, c_v128>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd2Args<c_v128, c_v128, c_v128>(uint32_t, uint32_t,
+ uint32_t, const char *);
+template void TestSimd2Args<c_v128, c_v128, uint32_t>(uint32_t, uint32_t,
+ uint32_t, const char *);
+template void TestSimd2Args<c_v128, uint64_t, uint64_t>(uint32_t, uint32_t,
+ uint32_t, const char *);
+template void TestSimd2Args<c_v128, c_v64, c_v64>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd2Args<uint64_t, c_v128, c_v128>(uint32_t, uint32_t,
+ uint32_t, const char *);
+template void TestSimd2Args<int64_t, c_v128, c_v128>(uint32_t, uint32_t,
+ uint32_t, const char *);
+template void TestSimd2Args<uint32_t, c_v128, c_v128>(uint32_t, uint32_t,
+ uint32_t, const char *);
+template void TestSimd3Args<c_v128, c_v128, c_v128, c_v128>(uint32_t, uint32_t,
+ uint32_t,
+ const char *);
+template void TestSimd1Arg<c_v256, c_v128>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd1Arg<c_v256, c_v256>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd1Arg<uint64_t, c_v256>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd1Arg<c_v256, uint8_t>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd1Arg<c_v256, uint16_t>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd1Arg<c_v256, uint32_t>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd1Arg<c_v256, uint64_t>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd1Arg<uint32_t, c_v256>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd1Arg<c_v64, c_v256>(uint32_t, uint32_t, uint32_t,
+ const char *);
+template void TestSimd2Args<c_v256, c_v128, c_v128>(uint32_t, uint32_t,
+ uint32_t, const char *);
+template void TestSimd2Args<c_v256, c_v256, c_v256>(uint32_t, uint32_t,
+ uint32_t, const char *);
+template void TestSimd2Args<c_v256, c_v256, uint32_t>(uint32_t, uint32_t,
+ uint32_t, const char *);
+template void TestSimd2Args<uint64_t, c_v256, c_v256>(uint32_t, uint32_t,
+ uint32_t, const char *);
+template void TestSimd2Args<int64_t, c_v256, c_v256>(uint32_t, uint32_t,
+ uint32_t, const char *);
+template void TestSimd2Args<uint32_t, c_v256, c_v256>(uint32_t, uint32_t,
+ uint32_t, const char *);
+template void TestSimd3Args<c_v256, c_v256, c_v256, c_v256>(uint32_t, uint32_t,
+ uint32_t,
+ const char *);
+
+} // namespace SIMD_NAMESPACE
diff --git a/third_party/aom/test/simd_cmp_neon.cc b/third_party/aom/test/simd_cmp_neon.cc
new file mode 100644
index 0000000000..53c1e2a07f
--- /dev/null
+++ b/third_party/aom/test/simd_cmp_neon.cc
@@ -0,0 +1,17 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#if defined(__OPTIMIZE__) && __OPTIMIZE__
+#define ARCH NEON
+#define ARCH_POSTFIX(name) name##_neon
+#define SIMD_NAMESPACE simd_test_neon
+#include "test/simd_cmp_impl.h"
+#endif
diff --git a/third_party/aom/test/simd_cmp_sse2.cc b/third_party/aom/test/simd_cmp_sse2.cc
new file mode 100644
index 0000000000..f7827a7fa1
--- /dev/null
+++ b/third_party/aom/test/simd_cmp_sse2.cc
@@ -0,0 +1,18 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#if (defined(__OPTIMIZE__) && __OPTIMIZE__) || \
+ (!defined(__GNUC__) && !defined(_DEBUG))
+#define ARCH SSE2
+#define ARCH_POSTFIX(name) name##_sse2
+#define SIMD_NAMESPACE simd_test_sse2
+#include "test/simd_cmp_impl.h"
+#endif
diff --git a/third_party/aom/test/simd_cmp_sse4.cc b/third_party/aom/test/simd_cmp_sse4.cc
new file mode 100644
index 0000000000..3566764b64
--- /dev/null
+++ b/third_party/aom/test/simd_cmp_sse4.cc
@@ -0,0 +1,18 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#if (defined(__OPTIMIZE__) && __OPTIMIZE__) || \
+ (!defined(__GNUC__) && !defined(_DEBUG))
+#define ARCH SSE4_1
+#define ARCH_POSTFIX(name) name##_sse4_1
+#define SIMD_NAMESPACE simd_test_sse4_1
+#include "test/simd_cmp_impl.h"
+#endif
diff --git a/third_party/aom/test/simd_cmp_ssse3.cc b/third_party/aom/test/simd_cmp_ssse3.cc
new file mode 100644
index 0000000000..57bf135ddb
--- /dev/null
+++ b/third_party/aom/test/simd_cmp_ssse3.cc
@@ -0,0 +1,18 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#if (defined(__OPTIMIZE__) && __OPTIMIZE__) || \
+ (!defined(__GNUC__) && !defined(_DEBUG))
+#define ARCH SSSE3
+#define ARCH_POSTFIX(name) name##_ssse3
+#define SIMD_NAMESPACE simd_test_ssse3
+#include "test/simd_cmp_impl.h"
+#endif
diff --git a/third_party/aom/test/simd_impl.h b/third_party/aom/test/simd_impl.h
new file mode 100644
index 0000000000..fd06f67fdf
--- /dev/null
+++ b/third_party/aom/test/simd_impl.h
@@ -0,0 +1,1141 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#define SIMD_CHECK 1
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "aom_dsp/aom_simd_inline.h"
+#include "aom_dsp/simd/v256_intrinsics_c.h"
+
+namespace SIMD_NAMESPACE {
+
+template <typename param_signature>
+class TestIntrinsic : public ::testing::TestWithParam<param_signature> {
+ public:
+ virtual ~TestIntrinsic() {}
+ virtual void SetUp() {
+ mask = ::testing::get<0>(this->GetParam());
+ maskwidth = ::testing::get<1>(this->GetParam());
+ name = ::testing::get<2>(this->GetParam());
+ }
+
+ virtual void TearDown() { libaom_test::ClearSystemState(); }
+
+ protected:
+ uint32_t mask, maskwidth;
+ const char *name;
+};
+
+// Create one typedef for each function signature
+#define TYPEDEF_SIMD(name) \
+ typedef TestIntrinsic< ::testing::tuple<uint32_t, uint32_t, const char *> > \
+ ARCH_POSTFIX(name)
+
+TYPEDEF_SIMD(V64_U8);
+TYPEDEF_SIMD(V64_U16);
+TYPEDEF_SIMD(V64_U32);
+TYPEDEF_SIMD(V64_V64);
+TYPEDEF_SIMD(U32_V64);
+TYPEDEF_SIMD(S32_V64);
+TYPEDEF_SIMD(U64_V64);
+TYPEDEF_SIMD(S64_V64);
+TYPEDEF_SIMD(V64_U32U32);
+TYPEDEF_SIMD(V64_V64V64);
+TYPEDEF_SIMD(S64_V64V64);
+TYPEDEF_SIMD(V64_V64U32);
+TYPEDEF_SIMD(U32_V64V64);
+TYPEDEF_SIMD(V128_V64);
+TYPEDEF_SIMD(V128_V128);
+TYPEDEF_SIMD(U32_V128);
+TYPEDEF_SIMD(U64_V128);
+TYPEDEF_SIMD(V64_V128);
+TYPEDEF_SIMD(V128_U8);
+TYPEDEF_SIMD(V128_U16);
+TYPEDEF_SIMD(V128_U32);
+TYPEDEF_SIMD(V128_U64);
+TYPEDEF_SIMD(V128_U64U64);
+TYPEDEF_SIMD(V128_V64V64);
+TYPEDEF_SIMD(V128_V128V128);
+TYPEDEF_SIMD(V128_V128V128V128);
+TYPEDEF_SIMD(S64_V128V128);
+TYPEDEF_SIMD(V128_V128U32);
+TYPEDEF_SIMD(U32_V128V128);
+TYPEDEF_SIMD(U64_V128V128);
+TYPEDEF_SIMD(V256_V128);
+TYPEDEF_SIMD(V256_V256);
+TYPEDEF_SIMD(U64_V256);
+TYPEDEF_SIMD(V256_V128V128);
+TYPEDEF_SIMD(V256_V256V256);
+TYPEDEF_SIMD(V256_V256V256V256);
+TYPEDEF_SIMD(U64_V256V256);
+TYPEDEF_SIMD(S64_V256V256);
+TYPEDEF_SIMD(V256_V256U32);
+TYPEDEF_SIMD(U32_V256V256);
+TYPEDEF_SIMD(V256_U8);
+TYPEDEF_SIMD(V256_U16);
+TYPEDEF_SIMD(V256_U32);
+TYPEDEF_SIMD(V256_U64);
+TYPEDEF_SIMD(U32_V256);
+TYPEDEF_SIMD(V64_V256);
+
+// Google Test allows up to 50 tests per case, so split the largest
+typedef ARCH_POSTFIX(V64_V64) ARCH_POSTFIX(V64_V64_Part2);
+typedef ARCH_POSTFIX(V64_V64V64) ARCH_POSTFIX(V64_V64V64_Part2);
+typedef ARCH_POSTFIX(V128_V128) ARCH_POSTFIX(V128_V128_Part2);
+typedef ARCH_POSTFIX(V128_V128) ARCH_POSTFIX(V128_V128_Part3);
+typedef ARCH_POSTFIX(V128_V128) ARCH_POSTFIX(V128_V128_Part4);
+typedef ARCH_POSTFIX(V128_V128V128) ARCH_POSTFIX(V128_V128V128_Part2);
+typedef ARCH_POSTFIX(V256_V256) ARCH_POSTFIX(V256_V256_Part2);
+typedef ARCH_POSTFIX(V256_V256) ARCH_POSTFIX(V256_V256_Part3);
+typedef ARCH_POSTFIX(V256_V256) ARCH_POSTFIX(V256_V256_Part4);
+typedef ARCH_POSTFIX(V256_V256) ARCH_POSTFIX(V256_V256_Part5);
+typedef ARCH_POSTFIX(V256_V256V256) ARCH_POSTFIX(V256_V256V256_Part2);
+
+// These functions are machine tuned located elsewhere
+template <typename c_ret, typename c_arg>
+void TestSimd1Arg(uint32_t iterations, uint32_t mask, uint32_t maskwidth,
+ const char *name);
+
+template <typename c_ret, typename c_arg1, typename c_arg2>
+void TestSimd2Args(uint32_t iterations, uint32_t mask, uint32_t maskwidth,
+ const char *name);
+
+template <typename c_ret, typename c_arg1, typename c_arg2, typename c_arg3>
+void TestSimd3Args(uint32_t iterations, uint32_t mask, uint32_t maskwidth,
+ const char *name);
+
+const int kIterations = 65536;
+
+// Add a macro layer since TEST_P will quote the name so we need to
+// expand it first with the prefix.
+#define MY_TEST_P(name, test) TEST_P(name, test)
+
+MY_TEST_P(ARCH_POSTFIX(V64_U8), TestIntrinsics) {
+ TestSimd1Arg<c_v64, uint8_t>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V64_U16), TestIntrinsics) {
+ TestSimd1Arg<c_v64, uint16_t>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V64_U32), TestIntrinsics) {
+ TestSimd1Arg<c_v64, uint32_t>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V64_V64), TestIntrinsics) {
+ TestSimd1Arg<c_v64, c_v64>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(U64_V64), TestIntrinsics) {
+ TestSimd1Arg<uint64_t, c_v64>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(S64_V64), TestIntrinsics) {
+ TestSimd1Arg<int64_t, c_v64>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(U32_V64), TestIntrinsics) {
+ TestSimd1Arg<uint32_t, c_v64>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(S32_V64), TestIntrinsics) {
+ TestSimd1Arg<int32_t, c_v64>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V64_U32U32), TestIntrinsics) {
+ TestSimd2Args<c_v64, uint32_t, uint32_t>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V64_V64V64), TestIntrinsics) {
+ TestSimd2Args<c_v64, c_v64, c_v64>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(S64_V64V64), TestIntrinsics) {
+ TestSimd2Args<int64_t, c_v64, c_v64>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(U32_V64V64), TestIntrinsics) {
+ TestSimd2Args<uint32_t, c_v64, c_v64>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V64_V64U32), TestIntrinsics) {
+ TestSimd2Args<c_v64, c_v64, uint32_t>(kIterations, mask, maskwidth, name);
+}
+
+// Google Test allows up to 50 tests per case, so split the largest
+MY_TEST_P(ARCH_POSTFIX(V64_V64_Part2), TestIntrinsics) {
+ TestSimd1Arg<c_v64, c_v64>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V64_V64V64_Part2), TestIntrinsics) {
+ TestSimd2Args<c_v64, c_v64, c_v64>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(U32_V128), TestIntrinsics) {
+ TestSimd1Arg<uint32_t, c_v128>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(U64_V128), TestIntrinsics) {
+ TestSimd1Arg<uint64_t, c_v128>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V64_V128), TestIntrinsics) {
+ TestSimd1Arg<c_v64, c_v128>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V128_V128), TestIntrinsics) {
+ TestSimd1Arg<c_v128, c_v128>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V128_U8), TestIntrinsics) {
+ TestSimd1Arg<c_v128, uint8_t>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V128_U16), TestIntrinsics) {
+ TestSimd1Arg<c_v128, uint16_t>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V128_U32), TestIntrinsics) {
+ TestSimd1Arg<c_v128, uint32_t>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V128_U64), TestIntrinsics) {
+ TestSimd1Arg<c_v128, uint64_t>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V128_V64), TestIntrinsics) {
+ TestSimd1Arg<c_v128, c_v64>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V128_V128V128), TestIntrinsics) {
+ TestSimd2Args<c_v128, c_v128, c_v128>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V128_V128V128V128), TestIntrinsics) {
+ TestSimd3Args<c_v128, c_v128, c_v128, c_v128>(kIterations, mask, maskwidth,
+ name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(U32_V128V128), TestIntrinsics) {
+ TestSimd2Args<uint32_t, c_v128, c_v128>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(U64_V128V128), TestIntrinsics) {
+ TestSimd2Args<uint64_t, c_v128, c_v128>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(S64_V128V128), TestIntrinsics) {
+ TestSimd2Args<int64_t, c_v128, c_v128>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V128_U64U64), TestIntrinsics) {
+ TestSimd2Args<c_v128, uint64_t, uint64_t>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V128_V64V64), TestIntrinsics) {
+ TestSimd2Args<c_v128, c_v64, c_v64>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V128_V128U32), TestIntrinsics) {
+ TestSimd2Args<c_v128, c_v128, uint32_t>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V128_V128V128_Part2), TestIntrinsics) {
+ TestSimd2Args<c_v128, c_v128, c_v128>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V128_V128_Part2), TestIntrinsics) {
+ TestSimd1Arg<c_v128, c_v128>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V128_V128_Part3), TestIntrinsics) {
+ TestSimd1Arg<c_v128, c_v128>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V128_V128_Part4), TestIntrinsics) {
+ TestSimd1Arg<c_v128, c_v128>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(U64_V256), TestIntrinsics) {
+ TestSimd1Arg<uint64_t, c_v256>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V256_V256), TestIntrinsics) {
+ TestSimd1Arg<c_v256, c_v256>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V256_V128), TestIntrinsics) {
+ TestSimd1Arg<c_v256, c_v128>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V256_V256V256), TestIntrinsics) {
+ TestSimd2Args<c_v256, c_v256, c_v256>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V256_V256V256V256), TestIntrinsics) {
+ TestSimd3Args<c_v256, c_v256, c_v256, c_v256>(kIterations, mask, maskwidth,
+ name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V256_V128V128), TestIntrinsics) {
+ TestSimd2Args<c_v256, c_v128, c_v128>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(U32_V256V256), TestIntrinsics) {
+ TestSimd2Args<uint32_t, c_v256, c_v256>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(U64_V256V256), TestIntrinsics) {
+ TestSimd2Args<uint64_t, c_v256, c_v256>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(S64_V256V256), TestIntrinsics) {
+ TestSimd2Args<int64_t, c_v256, c_v256>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V256_V256V256_Part2), TestIntrinsics) {
+ TestSimd2Args<c_v256, c_v256, c_v256>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V256_V256U32), TestIntrinsics) {
+ TestSimd2Args<c_v256, c_v256, uint32_t>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V256_V256_Part2), TestIntrinsics) {
+ TestSimd1Arg<c_v256, c_v256>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V256_V256_Part3), TestIntrinsics) {
+ TestSimd1Arg<c_v256, c_v256>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V256_V256_Part4), TestIntrinsics) {
+ TestSimd1Arg<c_v256, c_v256>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V256_V256_Part5), TestIntrinsics) {
+ TestSimd1Arg<c_v256, c_v256>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V256_U8), TestIntrinsics) {
+ TestSimd1Arg<c_v256, uint8_t>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V256_U16), TestIntrinsics) {
+ TestSimd1Arg<c_v256, uint16_t>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V256_U32), TestIntrinsics) {
+ TestSimd1Arg<c_v256, uint32_t>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V256_U64), TestIntrinsics) {
+ TestSimd1Arg<c_v256, uint64_t>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(U32_V256), TestIntrinsics) {
+ TestSimd1Arg<uint32_t, c_v256>(kIterations, mask, maskwidth, name);
+}
+
+MY_TEST_P(ARCH_POSTFIX(V64_V256), TestIntrinsics) {
+ TestSimd1Arg<c_v64, c_v256>(kIterations, mask, maskwidth, name);
+}
+
+// Add a macro layer since INSTANTIATE_TEST_CASE_P will quote the name
+// so we need to expand it first with the prefix
+#define INSTANTIATE(name, type, ...) \
+ INSTANTIATE_TEST_CASE_P(name, type, ::testing::Values(__VA_ARGS__))
+
+#define SIMD_TUPLE(name, mask, maskwidth) \
+ ::testing::make_tuple(mask, maskwidth, static_cast<const char *>(#name))
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(U32_V64V64),
+ (SIMD_TUPLE(v64_sad_u8, 0U, 0U), SIMD_TUPLE(v64_ssd_u8, 0U, 0U)));
+
+INSTANTIATE(
+ ARCH, ARCH_POSTFIX(V64_V64V64), SIMD_TUPLE(v64_add_8, 0U, 0U),
+ SIMD_TUPLE(v64_add_16, 0U, 0U), SIMD_TUPLE(v64_sadd_s16, 0U, 0U),
+ SIMD_TUPLE(v64_add_32, 0U, 0U), SIMD_TUPLE(v64_sub_8, 0U, 0U),
+ SIMD_TUPLE(v64_ssub_u8, 0U, 0U), SIMD_TUPLE(v64_ssub_s8, 0U, 0U),
+ SIMD_TUPLE(v64_sub_16, 0U, 0U), SIMD_TUPLE(v64_ssub_s16, 0U, 0U),
+ SIMD_TUPLE(v64_ssub_u16, 0U, 0U), SIMD_TUPLE(v64_sub_32, 0U, 0U),
+ SIMD_TUPLE(v64_ziplo_8, 0U, 0U), SIMD_TUPLE(v64_ziphi_8, 0U, 0U),
+ SIMD_TUPLE(v64_ziplo_16, 0U, 0U), SIMD_TUPLE(v64_ziphi_16, 0U, 0U),
+ SIMD_TUPLE(v64_ziplo_32, 0U, 0U), SIMD_TUPLE(v64_ziphi_32, 0U, 0U),
+ SIMD_TUPLE(v64_pack_s32_s16, 0U, 0U), SIMD_TUPLE(v64_pack_s16_u8, 0U, 0U),
+ SIMD_TUPLE(v64_pack_s16_s8, 0U, 0U), SIMD_TUPLE(v64_unziphi_8, 0U, 0U),
+ SIMD_TUPLE(v64_unziplo_8, 0U, 0U), SIMD_TUPLE(v64_unziphi_16, 0U, 0U),
+ SIMD_TUPLE(v64_unziplo_16, 0U, 0U), SIMD_TUPLE(v64_or, 0U, 0U),
+ SIMD_TUPLE(v64_xor, 0U, 0U), SIMD_TUPLE(v64_and, 0U, 0U),
+ SIMD_TUPLE(v64_andn, 0U, 0U), SIMD_TUPLE(v64_mullo_s16, 0U, 0U),
+ SIMD_TUPLE(v64_mulhi_s16, 0U, 0U), SIMD_TUPLE(v64_mullo_s32, 0U, 0U),
+ SIMD_TUPLE(v64_madd_s16, 0U, 0U), SIMD_TUPLE(v64_madd_us8, 0U, 0U),
+ SIMD_TUPLE(v64_avg_u8, 0U, 0U), SIMD_TUPLE(v64_rdavg_u8, 0U, 0U),
+ SIMD_TUPLE(v64_avg_u16, 0U, 0U), SIMD_TUPLE(v64_min_u8, 0U, 0U),
+ SIMD_TUPLE(v64_max_u8, 0U, 0U), SIMD_TUPLE(v64_min_s8, 0U, 0U),
+ SIMD_TUPLE(v64_max_s8, 0U, 0U), SIMD_TUPLE(v64_min_s16, 0U, 0U),
+ SIMD_TUPLE(v64_max_s16, 0U, 0U), SIMD_TUPLE(v64_cmpgt_s8, 0U, 0U),
+ SIMD_TUPLE(v64_cmplt_s8, 0U, 0U), SIMD_TUPLE(v64_cmpeq_8, 0U, 0U),
+ SIMD_TUPLE(v64_cmpgt_s16, 0U, 0U), SIMD_TUPLE(v64_cmplt_s16, 0U, 0U),
+ SIMD_TUPLE(v64_cmpeq_16, 0U, 0U));
+
+INSTANTIATE(
+ ARCH, ARCH_POSTFIX(V64_V64V64_Part2), SIMD_TUPLE(v64_shuffle_8, 7U, 8U),
+ SIMD_TUPLE(v64_pack_s32_u16, 0U, 0U), SIMD_TUPLE(v64_rdavg_u16, 0U, 0U),
+ SIMD_TUPLE(v64_sadd_s8, 0U, 0U), SIMD_TUPLE(v64_sadd_u8, 0U, 0U),
+ SIMD_TUPLE(imm_v64_align<1>, 0U, 0U), SIMD_TUPLE(imm_v64_align<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_align<3>, 0U, 0U), SIMD_TUPLE(imm_v64_align<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_align<5>, 0U, 0U), SIMD_TUPLE(imm_v64_align<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_align<7>, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V64_V64), SIMD_TUPLE(v64_abs_s8, 0U, 0U),
+ SIMD_TUPLE(v64_abs_s16, 0U, 0U),
+ SIMD_TUPLE(v64_unpacklo_u8_s16, 0U, 0U),
+ SIMD_TUPLE(v64_unpackhi_u8_s16, 0U, 0U),
+ SIMD_TUPLE(v64_unpacklo_s8_s16, 0U, 0U),
+ SIMD_TUPLE(v64_unpackhi_s8_s16, 0U, 0U),
+ SIMD_TUPLE(v64_unpacklo_u16_s32, 0U, 0U),
+ SIMD_TUPLE(v64_unpacklo_s16_s32, 0U, 0U),
+ SIMD_TUPLE(v64_unpackhi_u16_s32, 0U, 0U),
+ SIMD_TUPLE(v64_unpackhi_s16_s32, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_byte<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_byte<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_byte<3>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_byte<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_byte<5>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_byte<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_byte<7>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_byte<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_byte<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_byte<3>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_byte<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_byte<5>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_byte<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_byte<7>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_8<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_8<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_8<3>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_8<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_8<5>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_8<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_8<7>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_u8<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_u8<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_u8<3>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_u8<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_u8<5>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_u8<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_u8<7>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_s8<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_s8<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_s8<3>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_s8<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_s8<5>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_s8<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_s8<7>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_16<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_16<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_16<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_16<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_16<8>, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V64_V64_Part2),
+ SIMD_TUPLE(imm_v64_shl_n_16<10>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_16<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_16<14>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_u16<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_u16<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_u16<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_u16<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_u16<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_u16<10>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_u16<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_u16<14>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_s16<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_s16<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_s16<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_s16<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_s16<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_s16<10>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_s16<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_s16<14>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_32<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_32<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_32<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_32<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_32<16>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_32<20>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_32<24>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shl_n_32<28>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_u32<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_u32<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_u32<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_u32<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_u32<16>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_u32<20>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_u32<24>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_u32<28>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_s32<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_s32<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_s32<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_s32<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_s32<16>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_s32<20>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_s32<24>, 0U, 0U),
+ SIMD_TUPLE(imm_v64_shr_n_s32<28>, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V64_V64U32), SIMD_TUPLE(v64_shl_8, 7U, 32U),
+ SIMD_TUPLE(v64_shr_u8, 7U, 32U), SIMD_TUPLE(v64_shr_s8, 7U, 32U),
+ SIMD_TUPLE(v64_shl_16, 15U, 32U), SIMD_TUPLE(v64_shr_u16, 15U, 32U),
+ SIMD_TUPLE(v64_shr_s16, 15U, 32U), SIMD_TUPLE(v64_shl_32, 31U, 32U),
+ SIMD_TUPLE(v64_shr_u32, 31U, 32U),
+ SIMD_TUPLE(v64_shr_s32, 31U, 32U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(U64_V64), SIMD_TUPLE(v64_hadd_u8, 0U, 0U),
+ SIMD_TUPLE(v64_u64, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(S64_V64), SIMD_TUPLE(v64_hadd_s16, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(U32_V64), SIMD_TUPLE(v64_low_u32, 0U, 0U),
+ SIMD_TUPLE(v64_high_u32, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(S32_V64), SIMD_TUPLE(v64_low_s32, 0U, 0U),
+ SIMD_TUPLE(v64_high_s32, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(S64_V64V64), SIMD_TUPLE(v64_dotp_s16, 0U, 0U),
+ SIMD_TUPLE(v64_dotp_su8, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V64_U8), SIMD_TUPLE(v64_dup_8, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V64_U16), SIMD_TUPLE(v64_dup_16, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V64_U32), SIMD_TUPLE(v64_dup_32, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V64_U32U32), SIMD_TUPLE(v64_from_32, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(U32_V128V128), SIMD_TUPLE(v128_sad_u8, 0U, 0U),
+ SIMD_TUPLE(v128_ssd_u8, 0U, 0U), SIMD_TUPLE(v128_sad_u16, 0U, 0U));
+INSTANTIATE(ARCH, ARCH_POSTFIX(U64_V128V128), SIMD_TUPLE(v128_ssd_s16, 0U, 0U));
+
+INSTANTIATE(
+ ARCH, ARCH_POSTFIX(V128_V128V128), SIMD_TUPLE(v128_add_8, 0U, 0U),
+ SIMD_TUPLE(v128_add_16, 0U, 0U), SIMD_TUPLE(v128_sadd_s16, 0U, 0U),
+ SIMD_TUPLE(v128_add_32, 0U, 0U), SIMD_TUPLE(v128_sub_8, 0U, 0U),
+ SIMD_TUPLE(v128_ssub_u8, 0U, 0U), SIMD_TUPLE(v128_ssub_s8, 0U, 0U),
+ SIMD_TUPLE(v128_sub_16, 0U, 0U), SIMD_TUPLE(v128_ssub_s16, 0U, 0U),
+ SIMD_TUPLE(v128_ssub_u16, 0U, 0U), SIMD_TUPLE(v128_sub_32, 0U, 0U),
+ SIMD_TUPLE(v128_ziplo_8, 0U, 0U), SIMD_TUPLE(v128_ziphi_8, 0U, 0U),
+ SIMD_TUPLE(v128_ziplo_16, 0U, 0U), SIMD_TUPLE(v128_ziphi_16, 0U, 0U),
+ SIMD_TUPLE(v128_ziplo_32, 0U, 0U), SIMD_TUPLE(v128_ziphi_32, 0U, 0U),
+ SIMD_TUPLE(v128_ziplo_64, 0U, 0U), SIMD_TUPLE(v128_ziphi_64, 0U, 0U),
+ SIMD_TUPLE(v128_unziphi_8, 0U, 0U), SIMD_TUPLE(v128_unziplo_8, 0U, 0U),
+ SIMD_TUPLE(v128_unziphi_16, 0U, 0U), SIMD_TUPLE(v128_unziplo_16, 0U, 0U),
+ SIMD_TUPLE(v128_unziphi_32, 0U, 0U), SIMD_TUPLE(v128_unziplo_32, 0U, 0U),
+ SIMD_TUPLE(v128_pack_s32_s16, 0U, 0U), SIMD_TUPLE(v128_pack_s16_u8, 0U, 0U),
+ SIMD_TUPLE(v128_pack_s16_s8, 0U, 0U), SIMD_TUPLE(v128_or, 0U, 0U),
+ SIMD_TUPLE(v128_xor, 0U, 0U), SIMD_TUPLE(v128_and, 0U, 0U),
+ SIMD_TUPLE(v128_andn, 0U, 0U), SIMD_TUPLE(v128_mullo_s16, 0U, 0U),
+ SIMD_TUPLE(v128_mulhi_s16, 0U, 0U), SIMD_TUPLE(v128_mullo_s32, 0U, 0U),
+ SIMD_TUPLE(v128_madd_s16, 0U, 0U), SIMD_TUPLE(v128_madd_us8, 0U, 0U),
+ SIMD_TUPLE(v128_avg_u8, 0U, 0U), SIMD_TUPLE(v128_rdavg_u8, 0U, 0U),
+ SIMD_TUPLE(v128_avg_u16, 0U, 0U), SIMD_TUPLE(v128_min_u8, 0U, 0U),
+ SIMD_TUPLE(v128_max_u8, 0U, 0U), SIMD_TUPLE(v128_min_s8, 0U, 0U),
+ SIMD_TUPLE(v128_max_s8, 0U, 0U), SIMD_TUPLE(v128_min_s16, 0U, 0U),
+ SIMD_TUPLE(v128_max_s16, 0U, 0U), SIMD_TUPLE(v128_cmpgt_s8, 0U, 0U),
+ SIMD_TUPLE(v128_cmplt_s8, 0U, 0U), SIMD_TUPLE(v128_cmpeq_8, 0U, 0U),
+ SIMD_TUPLE(v128_cmpgt_s16, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V128_V128V128_Part2),
+ SIMD_TUPLE(v128_pack_s32_u16, 0U, 0U),
+ SIMD_TUPLE(v128_rdavg_u16, 0U, 0U), SIMD_TUPLE(v128_add_64, 0U, 0U),
+ SIMD_TUPLE(v128_sub_64, 0U, 0U), SIMD_TUPLE(v128_sadd_s8, 0U, 0U),
+ SIMD_TUPLE(v128_sadd_u8, 0U, 0U), SIMD_TUPLE(v128_cmpeq_16, 0U, 0U),
+ SIMD_TUPLE(v128_cmplt_s16, 0U, 0U),
+ SIMD_TUPLE(v128_cmplt_s32, 0U, 0U),
+ SIMD_TUPLE(v128_cmpeq_32, 0U, 0U),
+ SIMD_TUPLE(v128_cmpgt_s32, 0U, 0U),
+ SIMD_TUPLE(v128_shuffle_8, 15U, 8U),
+ SIMD_TUPLE(v128_min_s32, 0U, 0U), SIMD_TUPLE(v128_max_s32, 0U, 0U),
+ SIMD_TUPLE(imm_v128_align<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_align<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_align<3>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_align<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_align<5>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_align<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_align<7>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_align<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_align<9>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_align<10>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_align<11>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_align<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_align<13>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_align<14>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_align<15>, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V128_V128V128V128),
+ SIMD_TUPLE(v128_blend_8, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V128_V128), SIMD_TUPLE(v128_abs_s8, 0U, 0U),
+ SIMD_TUPLE(v128_abs_s16, 0U, 0U), SIMD_TUPLE(v128_padd_s16, 0U, 0U),
+ SIMD_TUPLE(v128_unpacklo_u8_s16, 0U, 0U),
+ SIMD_TUPLE(v128_unpacklo_s8_s16, 0U, 0U),
+ SIMD_TUPLE(v128_unpacklo_u16_s32, 0U, 0U),
+ SIMD_TUPLE(v128_unpacklo_s16_s32, 0U, 0U),
+ SIMD_TUPLE(v128_unpackhi_u8_s16, 0U, 0U),
+ SIMD_TUPLE(v128_unpackhi_s8_s16, 0U, 0U),
+ SIMD_TUPLE(v128_unpackhi_u16_s32, 0U, 0U),
+ SIMD_TUPLE(v128_unpackhi_s16_s32, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_byte<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_byte<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_byte<3>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_byte<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_byte<5>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_byte<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_byte<7>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_byte<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_byte<9>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_byte<10>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_byte<11>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_byte<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_byte<13>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_byte<14>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_byte<15>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_byte<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_byte<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_byte<3>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_byte<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_byte<5>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_byte<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_byte<7>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_byte<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_byte<9>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_byte<10>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_byte<11>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_byte<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_byte<13>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_byte<14>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_byte<15>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_8<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_8<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_8<3>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_8<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_8<5>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_8<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_8<7>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u8<1>, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V128_V128_Part2),
+ SIMD_TUPLE(imm_v128_shr_n_u8<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u8<3>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u8<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u8<5>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u8<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u8<7>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s8<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s8<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s8<3>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s8<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s8<5>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s8<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s8<7>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_16<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_16<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_16<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_16<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_16<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_16<10>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_16<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_16<14>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u16<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u16<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u16<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u16<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u16<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u16<10>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u16<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u16<14>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s16<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s16<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s16<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s16<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s16<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s16<10>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s16<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s16<14>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_32<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_32<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_32<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_32<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_32<16>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_32<20>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_32<24>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_32<28>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u32<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u32<4>, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V128_V128_Part3),
+ SIMD_TUPLE(imm_v128_shr_n_u32<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u32<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u32<16>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u32<20>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u32<24>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u32<28>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s32<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s32<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s32<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s32<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s32<16>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s32<20>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s32<24>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s32<28>, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V128_V128_Part4),
+ SIMD_TUPLE(imm_v128_shl_n_64<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_64<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_64<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_64<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_64<16>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_64<20>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_64<24>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_64<28>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_64<32>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_64<36>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_64<40>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_64<44>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_64<48>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_64<52>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_64<56>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shl_n_64<60>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u64<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u64<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u64<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u64<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u64<16>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u64<20>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u64<24>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u64<28>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u64<32>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u64<36>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u64<40>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u64<44>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u64<48>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u64<52>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u64<56>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_u64<60>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s64<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s64<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s64<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s64<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s64<16>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s64<20>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s64<24>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s64<28>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s64<32>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s64<36>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s64<40>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s64<44>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s64<48>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s64<52>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s64<56>, 0U, 0U),
+ SIMD_TUPLE(imm_v128_shr_n_s64<60>, 0U, 0U),
+ SIMD_TUPLE(v128_padd_u8, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V128_V64V64), SIMD_TUPLE(v128_from_v64, 0U, 0U),
+ SIMD_TUPLE(v128_zip_8, 0U, 0U), SIMD_TUPLE(v128_zip_16, 0U, 0U),
+ SIMD_TUPLE(v128_zip_32, 0U, 0U), SIMD_TUPLE(v128_mul_s16, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V128_U64U64), SIMD_TUPLE(v128_from_64, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V128_V64),
+ SIMD_TUPLE(v128_unpack_u8_s16, 0U, 0U),
+ SIMD_TUPLE(v128_unpack_s8_s16, 0U, 0U),
+ SIMD_TUPLE(v128_unpack_u16_s32, 0U, 0U),
+ SIMD_TUPLE(v128_unpack_s16_s32, 0U, 0U));
+
+INSTANTIATE(
+ ARCH, ARCH_POSTFIX(V128_V128U32), SIMD_TUPLE(v128_shl_8, 7U, 32U),
+ SIMD_TUPLE(v128_shr_u8, 7U, 32U), SIMD_TUPLE(v128_shr_s8, 7U, 32U),
+ SIMD_TUPLE(v128_shl_16, 15U, 32U), SIMD_TUPLE(v128_shr_u16, 15U, 32U),
+ SIMD_TUPLE(v128_shr_s16, 15U, 32U), SIMD_TUPLE(v128_shl_32, 31U, 32U),
+ SIMD_TUPLE(v128_shr_u32, 31U, 32U), SIMD_TUPLE(v128_shr_s32, 31U, 32U),
+ SIMD_TUPLE(v128_shl_64, 63U, 32U), SIMD_TUPLE(v128_shr_u64, 63U, 32U),
+ SIMD_TUPLE(v128_shr_s64, 63U, 32U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(U32_V128), SIMD_TUPLE(v128_low_u32, 0U, 0U),
+ SIMD_TUPLE(v128_movemask_8, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(U64_V128), SIMD_TUPLE(v128_hadd_u8, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V64_V128), SIMD_TUPLE(v128_low_v64, 0U, 0U),
+ SIMD_TUPLE(v128_high_v64, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V128_U8), SIMD_TUPLE(v128_dup_8, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V128_U16), SIMD_TUPLE(v128_dup_16, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V128_U32), SIMD_TUPLE(v128_dup_32, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V128_U64), SIMD_TUPLE(v128_dup_64, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(S64_V128V128), SIMD_TUPLE(v128_dotp_s16, 0U, 0U),
+ SIMD_TUPLE(v128_dotp_s32, 0U, 0U),
+ SIMD_TUPLE(v128_dotp_su8, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(U32_V256V256), SIMD_TUPLE(v256_sad_u8, 0U, 0U),
+ SIMD_TUPLE(v256_ssd_u8, 0U, 0U), SIMD_TUPLE(v256_sad_u16, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(U64_V256), SIMD_TUPLE(v256_hadd_u8, 0U, 0U),
+ SIMD_TUPLE(v256_low_u64, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(S64_V256V256), SIMD_TUPLE(v256_dotp_s16, 0U, 0U),
+ SIMD_TUPLE(v256_dotp_s32, 0U, 0U),
+ SIMD_TUPLE(v256_dotp_su8, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(U64_V256V256), SIMD_TUPLE(v256_ssd_s16, 0U, 0U));
+
+INSTANTIATE(
+ ARCH, ARCH_POSTFIX(V256_V256V256), SIMD_TUPLE(v256_add_8, 0U, 0U),
+ SIMD_TUPLE(v256_add_16, 0U, 0U), SIMD_TUPLE(v256_sadd_s16, 0U, 0U),
+ SIMD_TUPLE(v256_add_32, 0U, 0U), SIMD_TUPLE(v256_sub_8, 0U, 0U),
+ SIMD_TUPLE(v256_ssub_u8, 0U, 0U), SIMD_TUPLE(v256_ssub_s8, 0U, 0U),
+ SIMD_TUPLE(v256_sub_16, 0U, 0U), SIMD_TUPLE(v256_ssub_s16, 0U, 0U),
+ SIMD_TUPLE(v256_ssub_u16, 0U, 0U), SIMD_TUPLE(v256_sub_32, 0U, 0U),
+ SIMD_TUPLE(v256_ziplo_8, 0U, 0U), SIMD_TUPLE(v256_ziphi_8, 0U, 0U),
+ SIMD_TUPLE(v256_ziplo_16, 0U, 0U), SIMD_TUPLE(v256_ziphi_16, 0U, 0U),
+ SIMD_TUPLE(v256_ziplo_32, 0U, 0U), SIMD_TUPLE(v256_ziphi_32, 0U, 0U),
+ SIMD_TUPLE(v256_ziplo_64, 0U, 0U), SIMD_TUPLE(v256_ziphi_64, 0U, 0U),
+ SIMD_TUPLE(v256_ziplo_128, 0U, 0U), SIMD_TUPLE(v256_ziphi_128, 0U, 0U),
+ SIMD_TUPLE(v256_unziphi_8, 0U, 0U), SIMD_TUPLE(v256_unziplo_8, 0U, 0U),
+ SIMD_TUPLE(v256_unziphi_16, 0U, 0U), SIMD_TUPLE(v256_unziplo_16, 0U, 0U),
+ SIMD_TUPLE(v256_unziphi_32, 0U, 0U), SIMD_TUPLE(v256_unziplo_32, 0U, 0U),
+ SIMD_TUPLE(v256_pack_s32_s16, 0U, 0U), SIMD_TUPLE(v256_pack_s16_u8, 0U, 0U),
+ SIMD_TUPLE(v256_pack_s16_s8, 0U, 0U), SIMD_TUPLE(v256_or, 0U, 0U),
+ SIMD_TUPLE(v256_xor, 0U, 0U), SIMD_TUPLE(v256_and, 0U, 0U),
+ SIMD_TUPLE(v256_andn, 0U, 0U), SIMD_TUPLE(v256_mullo_s16, 0U, 0U),
+ SIMD_TUPLE(v256_mulhi_s16, 0U, 0U), SIMD_TUPLE(v256_mullo_s32, 0U, 0U),
+ SIMD_TUPLE(v256_madd_s16, 0U, 0U), SIMD_TUPLE(v256_madd_us8, 0U, 0U),
+ SIMD_TUPLE(v256_avg_u8, 0U, 0U), SIMD_TUPLE(v256_rdavg_u8, 0U, 0U),
+ SIMD_TUPLE(v256_avg_u16, 0U, 0U), SIMD_TUPLE(v256_min_u8, 0U, 0U),
+ SIMD_TUPLE(v256_max_u8, 0U, 0U), SIMD_TUPLE(v256_min_s8, 0U, 0U),
+ SIMD_TUPLE(v256_max_s8, 0U, 0U), SIMD_TUPLE(v256_min_s16, 0U, 0U),
+ SIMD_TUPLE(v256_max_s16, 0U, 0U), SIMD_TUPLE(v256_cmpgt_s8, 0U, 0U),
+ SIMD_TUPLE(v256_cmplt_s8, 0U, 0U));
+
+INSTANTIATE(
+ ARCH, ARCH_POSTFIX(V256_V256V256_Part2), SIMD_TUPLE(v256_cmpeq_8, 0U, 0U),
+ SIMD_TUPLE(v256_min_s32, 0U, 0U), SIMD_TUPLE(v256_max_s32, 0U, 0U),
+ SIMD_TUPLE(v256_add_64, 0U, 0U), SIMD_TUPLE(v256_sub_64, 0U, 0U),
+ SIMD_TUPLE(v256_cmpgt_s16, 0U, 0U), SIMD_TUPLE(v256_cmplt_s16, 0U, 0U),
+ SIMD_TUPLE(v256_cmpeq_16, 0U, 0U), SIMD_TUPLE(v256_cmpgt_s32, 0U, 0U),
+ SIMD_TUPLE(v256_cmplt_s32, 0U, 0U), SIMD_TUPLE(v256_cmpeq_32, 0U, 0U),
+ SIMD_TUPLE(v256_shuffle_8, 31U, 8U), SIMD_TUPLE(v256_pshuffle_8, 15U, 8U),
+ SIMD_TUPLE(imm_v256_align<1>, 0U, 0U), SIMD_TUPLE(v256_sadd_s8, 0U, 0U),
+ SIMD_TUPLE(v256_sadd_u8, 0U, 0U), SIMD_TUPLE(v256_pack_s32_u16, 0U, 0U),
+ SIMD_TUPLE(v256_rdavg_u16, 0U, 0U), SIMD_TUPLE(imm_v256_align<2>, 0U, 0U),
+ SIMD_TUPLE(v256_unziphi_64, 0U, 0U), SIMD_TUPLE(v256_unziplo_64, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<3>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<5>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<7>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<9>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<10>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<11>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<13>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<14>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<15>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<16>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<17>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<18>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<19>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<20>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<21>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<22>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<23>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<24>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<25>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<26>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<27>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<28>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<29>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<30>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_align<31>, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V256_V128V128),
+ SIMD_TUPLE(v256_from_v128, 0U, 0U), SIMD_TUPLE(v256_zip_8, 0U, 0U),
+ SIMD_TUPLE(v256_zip_16, 0U, 0U), SIMD_TUPLE(v256_zip_32, 0U, 0U),
+ SIMD_TUPLE(v256_mul_s16, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V256_V128),
+ SIMD_TUPLE(v256_unpack_u8_s16, 0U, 0U),
+ SIMD_TUPLE(v256_unpack_s8_s16, 0U, 0U),
+ SIMD_TUPLE(v256_unpack_u16_s32, 0U, 0U),
+ SIMD_TUPLE(v256_unpack_s16_s32, 0U, 0U));
+
+INSTANTIATE(
+ ARCH, ARCH_POSTFIX(V256_V256U32), SIMD_TUPLE(v256_shl_8, 7U, 32U),
+ SIMD_TUPLE(v256_shr_u8, 7U, 32U), SIMD_TUPLE(v256_shr_s8, 7U, 32U),
+ SIMD_TUPLE(v256_shl_16, 15U, 32U), SIMD_TUPLE(v256_shr_u16, 15U, 32U),
+ SIMD_TUPLE(v256_shr_s16, 15U, 32U), SIMD_TUPLE(v256_shl_32, 31U, 32U),
+ SIMD_TUPLE(v256_shr_u32, 31U, 32U), SIMD_TUPLE(v256_shr_s32, 31U, 32U),
+ SIMD_TUPLE(v256_shl_64, 63U, 32U), SIMD_TUPLE(v256_shr_u64, 63U, 32U),
+ SIMD_TUPLE(v256_shr_s64, 63U, 32U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V256_V256), SIMD_TUPLE(v256_abs_s8, 0U, 0U),
+ SIMD_TUPLE(v256_abs_s16, 0U, 0U), SIMD_TUPLE(v256_padd_s16, 0U, 0U),
+ SIMD_TUPLE(v256_unpacklo_u8_s16, 0U, 0U),
+ SIMD_TUPLE(v256_unpacklo_s8_s16, 0U, 0U),
+ SIMD_TUPLE(v256_unpacklo_u16_s32, 0U, 0U),
+ SIMD_TUPLE(v256_unpacklo_s16_s32, 0U, 0U),
+ SIMD_TUPLE(v256_unpackhi_u8_s16, 0U, 0U),
+ SIMD_TUPLE(v256_unpackhi_s8_s16, 0U, 0U),
+ SIMD_TUPLE(v256_unpackhi_u16_s32, 0U, 0U),
+ SIMD_TUPLE(v256_unpackhi_s16_s32, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<3>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<5>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<7>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<9>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<10>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<11>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<13>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<14>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<15>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<16>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<17>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<18>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<19>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<20>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<21>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<22>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<23>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<24>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<25>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<26>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<27>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<28>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<29>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<30>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_byte<31>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<3>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<5>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<7>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<8>, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V256_V256_Part2),
+ SIMD_TUPLE(imm_v256_shl_n_byte<9>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<10>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<11>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<13>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<14>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<15>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<16>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<17>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<18>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<19>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<20>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<21>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<22>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<23>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<24>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<25>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<26>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<27>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<28>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<29>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<30>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_byte<31>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_8<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_8<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_8<3>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_8<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_8<5>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_8<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_8<7>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u8<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u8<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u8<3>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u8<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u8<5>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u8<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u8<7>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s8<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s8<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s8<3>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s8<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s8<5>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s8<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s8<7>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_16<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_16<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_16<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_16<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_16<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_16<10>, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V256_V256_Part3),
+ SIMD_TUPLE(imm_v256_shl_n_16<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_16<14>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u16<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u16<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u16<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u16<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u16<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u16<10>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u16<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u16<14>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s16<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s16<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s16<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s16<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s16<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s16<10>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s16<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s16<14>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_32<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_32<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_32<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_32<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_32<16>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_32<20>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_32<24>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_32<28>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u32<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u32<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u32<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u32<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u32<16>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u32<20>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u32<24>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u32<28>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s32<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s32<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s32<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s32<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s32<16>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s32<20>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s32<24>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s32<28>, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V256_V256_Part4),
+ SIMD_TUPLE(imm_v256_shl_n_64<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_64<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_64<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_64<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_64<16>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_64<20>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_64<24>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_64<28>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_64<32>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_64<36>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_64<40>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_64<44>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_64<48>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_64<52>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_64<56>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_64<60>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u64<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u64<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u64<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u64<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u64<16>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u64<20>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u64<24>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u64<28>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u64<32>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u64<36>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u64<40>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u64<44>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u64<48>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u64<52>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u64<56>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_u64<60>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s64<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s64<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s64<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s64<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s64<16>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s64<20>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s64<24>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s64<28>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s64<32>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s64<36>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s64<40>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s64<44>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s64<48>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s64<52>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s64<56>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_s64<60>, 0U, 0U),
+ SIMD_TUPLE(v256_padd_u8, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V256_V256_Part5),
+ SIMD_TUPLE(imm_v256_shr_n_word<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_word<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_word<3>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_word<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_word<5>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_word<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_word<7>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_word<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_word<9>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_word<10>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_word<11>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_word<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_word<13>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_word<14>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shr_n_word<15>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_word<1>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_word<2>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_word<3>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_word<4>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_word<5>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_word<6>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_word<7>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_word<8>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_word<9>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_word<10>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_word<11>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_word<12>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_word<13>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_word<14>, 0U, 0U),
+ SIMD_TUPLE(imm_v256_shl_n_word<15>, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V256_V256V256V256),
+ SIMD_TUPLE(v256_blend_8, 0U, 0U),
+ SIMD_TUPLE(v256_wideshuffle_8, 63U, 8U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V256_U8), SIMD_TUPLE(v256_dup_8, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V256_U16), SIMD_TUPLE(v256_dup_16, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V256_U32), SIMD_TUPLE(v256_dup_32, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V256_U64), SIMD_TUPLE(v256_dup_64, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(U32_V256), SIMD_TUPLE(v256_low_u32, 0U, 0U),
+ SIMD_TUPLE(v256_movemask_8, 0U, 0U));
+
+INSTANTIATE(ARCH, ARCH_POSTFIX(V64_V256), SIMD_TUPLE(v256_low_v64, 0U, 0U));
+
+} // namespace SIMD_NAMESPACE
diff --git a/third_party/aom/test/simd_neon_test.cc b/third_party/aom/test/simd_neon_test.cc
new file mode 100644
index 0000000000..b67b188959
--- /dev/null
+++ b/third_party/aom/test/simd_neon_test.cc
@@ -0,0 +1,17 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#if defined(__OPTIMIZE__) && __OPTIMIZE__
+#define ARCH NEON
+#define ARCH_POSTFIX(name) name##_neon
+#define SIMD_NAMESPACE simd_test_neon
+#include "test/simd_impl.h"
+#endif
diff --git a/third_party/aom/test/simd_sse2_test.cc b/third_party/aom/test/simd_sse2_test.cc
new file mode 100644
index 0000000000..b37a931b38
--- /dev/null
+++ b/third_party/aom/test/simd_sse2_test.cc
@@ -0,0 +1,18 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#if (defined(__OPTIMIZE__) && __OPTIMIZE__) || \
+ (!defined(__GNUC__) && !defined(_DEBUG))
+#define ARCH SSE2
+#define ARCH_POSTFIX(name) name##_sse2
+#define SIMD_NAMESPACE simd_test_sse2
+#include "test/simd_impl.h"
+#endif
diff --git a/third_party/aom/test/simd_sse4_test.cc b/third_party/aom/test/simd_sse4_test.cc
new file mode 100644
index 0000000000..b1c9d5cd88
--- /dev/null
+++ b/third_party/aom/test/simd_sse4_test.cc
@@ -0,0 +1,18 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#if (defined(__OPTIMIZE__) && __OPTIMIZE__) || \
+ (!defined(__GNUC__) && !defined(_DEBUG))
+#define ARCH SSE4_1
+#define ARCH_POSTFIX(name) name##_sse4_1
+#define SIMD_NAMESPACE simd_test_sse4_1
+#include "test/simd_impl.h"
+#endif
diff --git a/third_party/aom/test/simd_ssse3_test.cc b/third_party/aom/test/simd_ssse3_test.cc
new file mode 100644
index 0000000000..d95c26fb5e
--- /dev/null
+++ b/third_party/aom/test/simd_ssse3_test.cc
@@ -0,0 +1,18 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#if (defined(__OPTIMIZE__) && __OPTIMIZE__) || \
+ (!defined(__GNUC__) && !defined(_DEBUG))
+#define ARCH SSSE3
+#define ARCH_POSTFIX(name) name##_ssse3
+#define SIMD_NAMESPACE simd_test_ssse3
+#include "test/simd_impl.h"
+#endif
diff --git a/third_party/aom/test/simple_decoder.sh b/third_party/aom/test/simple_decoder.sh
new file mode 100755
index 0000000000..5f39ad206e
--- /dev/null
+++ b/third_party/aom/test/simple_decoder.sh
@@ -0,0 +1,58 @@
+#!/bin/sh
+## Copyright (c) 2016, Alliance for Open Media. All rights reserved
+##
+## This source code is subject to the terms of the BSD 2 Clause License and
+## the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+## was not distributed with this source code in the LICENSE file, you can
+## obtain it at www.aomedia.org/license/software. If the Alliance for Open
+## Media Patent License 1.0 was not distributed with this source code in the
+## PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+##
+## This file tests the libaom simple_decoder example code. To add new tests to
+## this file, do the following:
+## 1. Write a shell function (this is your test).
+## 2. Add the function to simple_decoder_tests (on a new line).
+##
+. $(dirname $0)/tools_common.sh
+
+# Environment check: Make sure input is available:
+simple_decoder_verify_environment() {
+ if [ ! "$(av1_encode_available)" = "yes" ] && [ ! -e "${AV1_IVF_FILE}" ]; then
+ return 1
+ fi
+}
+
+# Runs simple_decoder using $1 as input file. $2 is the codec name, and is used
+# solely to name the output file.
+simple_decoder() {
+ local decoder="$(aom_tool_path simple_decoder)"
+ local input_file="$1"
+ local codec="$2"
+ local output_file="${AOM_TEST_OUTPUT_DIR}/simple_decoder_${codec}.raw"
+
+ if [ ! -x "${decoder}" ]; then
+ elog "${decoder} does not exist or is not executable."
+ return 1
+ fi
+
+ eval "${AOM_TEST_PREFIX}" "${decoder}" "${input_file}" "${output_file}" \
+ ${devnull}
+
+ [ -e "${output_file}" ] || return 1
+}
+
+simple_decoder_av1() {
+ if [ "$(av1_decode_available)" = "yes" ]; then
+ if [ ! -e "${AV1_IVF_FILE}" ]; then
+ local file="${AOM_TEST_OUTPUT_DIR}/test_encode.ivf"
+ encode_yuv_raw_input_av1 "${file}" --ivf
+ simple_decoder "${file}" av1 || return 1
+ else
+ simple_decoder "${AV1_IVF_FILE}" av1 || return 1
+ fi
+ fi
+}
+
+simple_decoder_tests="simple_decoder_av1"
+
+run_tests simple_decoder_verify_environment "${simple_decoder_tests}"
diff --git a/third_party/aom/test/simple_encoder.sh b/third_party/aom/test/simple_encoder.sh
new file mode 100755
index 0000000000..5cd6b46a10
--- /dev/null
+++ b/third_party/aom/test/simple_encoder.sh
@@ -0,0 +1,53 @@
+#!/bin/sh
+## Copyright (c) 2016, Alliance for Open Media. All rights reserved
+##
+## This source code is subject to the terms of the BSD 2 Clause License and
+## the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+## was not distributed with this source code in the LICENSE file, you can
+## obtain it at www.aomedia.org/license/software. If the Alliance for Open
+## Media Patent License 1.0 was not distributed with this source code in the
+## PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+##
+## This file tests the libaom simple_encoder example. To add new tests to this
+## file, do the following:
+## 1. Write a shell function (this is your test).
+## 2. Add the function to simple_encoder_tests (on a new line).
+##
+. $(dirname $0)/tools_common.sh
+
+# Environment check: $YUV_RAW_INPUT is required.
+simple_encoder_verify_environment() {
+ if [ ! -e "${YUV_RAW_INPUT}" ]; then
+ echo "Libaom test data must exist in LIBAOM_TEST_DATA_PATH."
+ return 1
+ fi
+}
+
+# Runs simple_encoder using the codec specified by $1 with a frame limit of 100.
+simple_encoder() {
+ local encoder="${LIBAOM_BIN_PATH}/simple_encoder${AOM_TEST_EXE_SUFFIX}"
+ local codec="$1"
+ local output_file="${AOM_TEST_OUTPUT_DIR}/simple_encoder_${codec}.ivf"
+
+ if [ ! -x "${encoder}" ]; then
+ elog "${encoder} does not exist or is not executable."
+ return 1
+ fi
+
+ eval "${AOM_TEST_PREFIX}" "${encoder}" "${codec}" "${YUV_RAW_INPUT_WIDTH}" \
+ "${YUV_RAW_INPUT_HEIGHT}" "${YUV_RAW_INPUT}" "${output_file}" 9999 0 5 \
+ ${devnull}
+
+ [ -e "${output_file}" ] || return 1
+}
+
+
+simple_encoder_av1() {
+ if [ "$(av1_encode_available)" = "yes" ]; then
+ simple_encoder av1 || return 1
+ fi
+}
+
+simple_encoder_tests="simple_encoder_av1"
+
+run_tests simple_encoder_verify_environment "${simple_encoder_tests}"
diff --git a/third_party/aom/test/subtract_test.cc b/third_party/aom/test/subtract_test.cc
new file mode 100644
index 0000000000..7dcedf56de
--- /dev/null
+++ b/third_party/aom/test/subtract_test.cc
@@ -0,0 +1,249 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_config.h"
+#include "config/aom_dsp_rtcd.h"
+
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "test/util.h"
+#include "av1/common/blockd.h"
+#include "aom_mem/aom_mem.h"
+#include "aom_ports/mem.h"
+
+typedef void (*SubtractFunc)(int rows, int cols, int16_t *diff_ptr,
+ ptrdiff_t diff_stride, const uint8_t *src_ptr,
+ ptrdiff_t src_stride, const uint8_t *pred_ptr,
+ ptrdiff_t pred_stride);
+
+namespace {
+
+class AV1SubtractBlockTest : public ::testing::TestWithParam<SubtractFunc> {
+ public:
+ virtual void TearDown() { libaom_test::ClearSystemState(); }
+};
+
+using libaom_test::ACMRandom;
+
+TEST_P(AV1SubtractBlockTest, SimpleSubtract) {
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+
+ // FIXME(rbultje) split in its own file
+ for (BLOCK_SIZE bsize = BLOCK_4X4; bsize < BLOCK_SIZES;
+ bsize = static_cast<BLOCK_SIZE>(static_cast<int>(bsize) + 1)) {
+ const int block_width = block_size_wide[bsize];
+ const int block_height = block_size_high[bsize];
+ int16_t *diff = reinterpret_cast<int16_t *>(
+ aom_memalign(16, sizeof(*diff) * block_width * block_height * 2));
+ uint8_t *pred = reinterpret_cast<uint8_t *>(
+ aom_memalign(16, block_width * block_height * 2));
+ uint8_t *src = reinterpret_cast<uint8_t *>(
+ aom_memalign(16, block_width * block_height * 2));
+
+ for (int n = 0; n < 100; n++) {
+ for (int r = 0; r < block_height; ++r) {
+ for (int c = 0; c < block_width * 2; ++c) {
+ src[r * block_width * 2 + c] = rnd.Rand8();
+ pred[r * block_width * 2 + c] = rnd.Rand8();
+ }
+ }
+
+ GetParam()(block_height, block_width, diff, block_width, src, block_width,
+ pred, block_width);
+
+ for (int r = 0; r < block_height; ++r) {
+ for (int c = 0; c < block_width; ++c) {
+ EXPECT_EQ(diff[r * block_width + c],
+ (src[r * block_width + c] - pred[r * block_width + c]))
+ << "r = " << r << ", c = " << c << ", bs = " << bsize;
+ }
+ }
+
+ GetParam()(block_height, block_width, diff, block_width * 2, src,
+ block_width * 2, pred, block_width * 2);
+
+ for (int r = 0; r < block_height; ++r) {
+ for (int c = 0; c < block_width; ++c) {
+ EXPECT_EQ(
+ diff[r * block_width * 2 + c],
+ (src[r * block_width * 2 + c] - pred[r * block_width * 2 + c]))
+ << "r = " << r << ", c = " << c << ", bs = " << bsize;
+ }
+ }
+ }
+ aom_free(diff);
+ aom_free(pred);
+ aom_free(src);
+ }
+}
+
+INSTANTIATE_TEST_CASE_P(C, AV1SubtractBlockTest,
+ ::testing::Values(aom_subtract_block_c));
+
+#if HAVE_SSE2
+INSTANTIATE_TEST_CASE_P(SSE2, AV1SubtractBlockTest,
+ ::testing::Values(aom_subtract_block_sse2));
+#endif
+#if HAVE_NEON
+INSTANTIATE_TEST_CASE_P(NEON, AV1SubtractBlockTest,
+ ::testing::Values(aom_subtract_block_neon));
+#endif
+#if HAVE_MSA
+INSTANTIATE_TEST_CASE_P(MSA, AV1SubtractBlockTest,
+ ::testing::Values(aom_subtract_block_msa));
+#endif
+
+typedef void (*HBDSubtractFunc)(int rows, int cols, int16_t *diff_ptr,
+ ptrdiff_t diff_stride, const uint8_t *src_ptr,
+ ptrdiff_t src_stride, const uint8_t *pred_ptr,
+ ptrdiff_t pred_stride, int bd);
+
+using ::testing::get;
+using ::testing::make_tuple;
+using ::testing::tuple;
+
+// <width, height, bit_dpeth, subtract>
+typedef tuple<int, int, int, HBDSubtractFunc> Params;
+
+class AV1HBDSubtractBlockTest : public ::testing::TestWithParam<Params> {
+ public:
+ virtual void SetUp() {
+ block_width_ = GET_PARAM(0);
+ block_height_ = GET_PARAM(1);
+ bit_depth_ = static_cast<aom_bit_depth_t>(GET_PARAM(2));
+ func_ = GET_PARAM(3);
+
+ rnd_.Reset(ACMRandom::DeterministicSeed());
+
+ const size_t max_width = 128;
+ const size_t max_block_size = max_width * max_width;
+ src_ = CONVERT_TO_BYTEPTR(reinterpret_cast<uint16_t *>(
+ aom_memalign(16, max_block_size * sizeof(uint16_t))));
+ pred_ = CONVERT_TO_BYTEPTR(reinterpret_cast<uint16_t *>(
+ aom_memalign(16, max_block_size * sizeof(uint16_t))));
+ diff_ = reinterpret_cast<int16_t *>(
+ aom_memalign(16, max_block_size * sizeof(int16_t)));
+ }
+
+ virtual void TearDown() {
+ aom_free(CONVERT_TO_SHORTPTR(src_));
+ aom_free(CONVERT_TO_SHORTPTR(pred_));
+ aom_free(diff_);
+ }
+
+ protected:
+ void CheckResult();
+ void RunForSpeed();
+
+ private:
+ ACMRandom rnd_;
+ int block_height_;
+ int block_width_;
+ aom_bit_depth_t bit_depth_;
+ HBDSubtractFunc func_;
+ uint8_t *src_;
+ uint8_t *pred_;
+ int16_t *diff_;
+};
+
+void AV1HBDSubtractBlockTest::CheckResult() {
+ const int test_num = 100;
+ const size_t max_width = 128;
+ const int max_block_size = max_width * max_width;
+ const int mask = (1 << bit_depth_) - 1;
+ int i, j;
+
+ for (i = 0; i < test_num; ++i) {
+ for (j = 0; j < max_block_size; ++j) {
+ CONVERT_TO_SHORTPTR(src_)[j] = rnd_.Rand16() & mask;
+ CONVERT_TO_SHORTPTR(pred_)[j] = rnd_.Rand16() & mask;
+ }
+
+ func_(block_height_, block_width_, diff_, block_width_, src_, block_width_,
+ pred_, block_width_, bit_depth_);
+
+ for (int r = 0; r < block_height_; ++r) {
+ for (int c = 0; c < block_width_; ++c) {
+ EXPECT_EQ(diff_[r * block_width_ + c],
+ (CONVERT_TO_SHORTPTR(src_)[r * block_width_ + c] -
+ CONVERT_TO_SHORTPTR(pred_)[r * block_width_ + c]))
+ << "r = " << r << ", c = " << c << ", test: " << i;
+ }
+ }
+ }
+}
+
+TEST_P(AV1HBDSubtractBlockTest, CheckResult) { CheckResult(); }
+
+void AV1HBDSubtractBlockTest::RunForSpeed() {
+ const int test_num = 200000;
+ const size_t max_width = 128;
+ const int max_block_size = max_width * max_width;
+ const int mask = (1 << bit_depth_) - 1;
+ int i, j;
+
+ for (j = 0; j < max_block_size; ++j) {
+ CONVERT_TO_SHORTPTR(src_)[j] = rnd_.Rand16() & mask;
+ CONVERT_TO_SHORTPTR(pred_)[j] = rnd_.Rand16() & mask;
+ }
+
+ for (i = 0; i < test_num; ++i) {
+ func_(block_height_, block_width_, diff_, block_width_, src_, block_width_,
+ pred_, block_width_, bit_depth_);
+ }
+}
+
+TEST_P(AV1HBDSubtractBlockTest, DISABLED_Speed) { RunForSpeed(); }
+
+#if HAVE_SSE2
+
+const Params kAV1HBDSubtractBlock_sse2[] = {
+ make_tuple(4, 4, 12, &aom_highbd_subtract_block_sse2),
+ make_tuple(4, 4, 12, &aom_highbd_subtract_block_c),
+ make_tuple(4, 8, 12, &aom_highbd_subtract_block_sse2),
+ make_tuple(4, 8, 12, &aom_highbd_subtract_block_c),
+ make_tuple(8, 4, 12, &aom_highbd_subtract_block_sse2),
+ make_tuple(8, 4, 12, &aom_highbd_subtract_block_c),
+ make_tuple(8, 8, 12, &aom_highbd_subtract_block_sse2),
+ make_tuple(8, 8, 12, &aom_highbd_subtract_block_c),
+ make_tuple(8, 16, 12, &aom_highbd_subtract_block_sse2),
+ make_tuple(8, 16, 12, &aom_highbd_subtract_block_c),
+ make_tuple(16, 8, 12, &aom_highbd_subtract_block_sse2),
+ make_tuple(16, 8, 12, &aom_highbd_subtract_block_c),
+ make_tuple(16, 16, 12, &aom_highbd_subtract_block_sse2),
+ make_tuple(16, 16, 12, &aom_highbd_subtract_block_c),
+ make_tuple(16, 32, 12, &aom_highbd_subtract_block_sse2),
+ make_tuple(16, 32, 12, &aom_highbd_subtract_block_c),
+ make_tuple(32, 16, 12, &aom_highbd_subtract_block_sse2),
+ make_tuple(32, 16, 12, &aom_highbd_subtract_block_c),
+ make_tuple(32, 32, 12, &aom_highbd_subtract_block_sse2),
+ make_tuple(32, 32, 12, &aom_highbd_subtract_block_c),
+ make_tuple(32, 64, 12, &aom_highbd_subtract_block_sse2),
+ make_tuple(32, 64, 12, &aom_highbd_subtract_block_c),
+ make_tuple(64, 32, 12, &aom_highbd_subtract_block_sse2),
+ make_tuple(64, 32, 12, &aom_highbd_subtract_block_c),
+ make_tuple(64, 64, 12, &aom_highbd_subtract_block_sse2),
+ make_tuple(64, 64, 12, &aom_highbd_subtract_block_c),
+ make_tuple(64, 128, 12, &aom_highbd_subtract_block_sse2),
+ make_tuple(64, 128, 12, &aom_highbd_subtract_block_c),
+ make_tuple(128, 64, 12, &aom_highbd_subtract_block_sse2),
+ make_tuple(128, 64, 12, &aom_highbd_subtract_block_c),
+ make_tuple(128, 128, 12, &aom_highbd_subtract_block_sse2),
+ make_tuple(128, 128, 12, &aom_highbd_subtract_block_c)
+};
+
+INSTANTIATE_TEST_CASE_P(SSE2, AV1HBDSubtractBlockTest,
+ ::testing::ValuesIn(kAV1HBDSubtractBlock_sse2));
+#endif // HAVE_SSE2
+} // namespace
diff --git a/third_party/aom/test/sum_squares_test.cc b/third_party/aom/test/sum_squares_test.cc
new file mode 100644
index 0000000000..f109984986
--- /dev/null
+++ b/third_party/aom/test/sum_squares_test.cc
@@ -0,0 +1,228 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <cmath>
+#include <cstdlib>
+#include <string>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_config.h"
+#include "config/aom_dsp_rtcd.h"
+
+#include "aom_ports/mem.h"
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "test/util.h"
+#include "test/function_equivalence_test.h"
+
+using libaom_test::ACMRandom;
+using libaom_test::FunctionEquivalenceTest;
+
+namespace {
+const int kNumIterations = 10000;
+
+static const int16_t kInt13Max = (1 << 12) - 1;
+
+typedef uint64_t (*SSI16Func)(const int16_t *src, int stride, int width,
+ int height);
+typedef libaom_test::FuncParam<SSI16Func> TestFuncs;
+
+class SumSquaresTest : public ::testing::TestWithParam<TestFuncs> {
+ public:
+ virtual ~SumSquaresTest() {}
+ virtual void SetUp() {
+ params_ = this->GetParam();
+ rnd_.Reset(ACMRandom::DeterministicSeed());
+ src_ = reinterpret_cast<int16_t *>(aom_memalign(16, 256 * 256 * 2));
+ ASSERT_TRUE(src_ != NULL);
+ }
+
+ virtual void TearDown() {
+ libaom_test::ClearSystemState();
+ aom_free(src_);
+ }
+ void RunTest(int isRandom);
+ void RunSpeedTest();
+
+ void GenRandomData(int width, int height, int stride) {
+ const int msb = 11; // Up to 12 bit input
+ const int limit = 1 << (msb + 1);
+ for (int ii = 0; ii < height; ii++) {
+ for (int jj = 0; jj < width; jj++) {
+ src_[ii * stride + jj] = rnd_(2) ? rnd_(limit) : -rnd_(limit);
+ }
+ }
+ }
+
+ void GenExtremeData(int width, int height, int stride) {
+ const int msb = 11; // Up to 12 bit input
+ const int limit = 1 << (msb + 1);
+ const int val = rnd_(2) ? limit - 1 : -(limit - 1);
+ for (int ii = 0; ii < height; ii++) {
+ for (int jj = 0; jj < width; jj++) {
+ src_[ii * stride + jj] = val;
+ }
+ }
+ }
+
+ protected:
+ TestFuncs params_;
+ int16_t *src_;
+ ACMRandom rnd_;
+};
+
+void SumSquaresTest::RunTest(int isRandom) {
+ int failed = 0;
+ for (int k = 0; k < kNumIterations; k++) {
+ const int width = 4 * (rnd_(31) + 1); // Up to 128x128
+ const int height = 4 * (rnd_(31) + 1); // Up to 128x128
+ int stride = 4 << rnd_(7); // Up to 256 stride
+ while (stride < width) { // Make sure it's valid
+ stride = 4 << rnd_(7);
+ }
+ if (isRandom) {
+ GenRandomData(width, height, stride);
+ } else {
+ GenExtremeData(width, height, stride);
+ }
+ const uint64_t res_ref = params_.ref_func(src_, stride, width, height);
+ uint64_t res_tst;
+ ASM_REGISTER_STATE_CHECK(res_tst =
+ params_.tst_func(src_, stride, width, height));
+
+ if (!failed) {
+ failed = res_ref != res_tst;
+ EXPECT_EQ(res_ref, res_tst)
+ << "Error: Sum Squares Test [" << width << "x" << height
+ << "] C output does not match optimized output.";
+ }
+ }
+}
+
+void SumSquaresTest::RunSpeedTest() {
+ for (int block = BLOCK_4X4; block < BLOCK_SIZES_ALL; block++) {
+ const int width = block_size_wide[block]; // Up to 128x128
+ const int height = block_size_high[block]; // Up to 128x128
+ int stride = 4 << rnd_(7); // Up to 256 stride
+ while (stride < width) { // Make sure it's valid
+ stride = 4 << rnd_(7);
+ }
+ GenExtremeData(width, height, stride);
+ const int num_loops = 1000000000 / (width + height);
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+
+ for (int i = 0; i < num_loops; ++i)
+ params_.ref_func(src_, stride, width, height);
+
+ aom_usec_timer_mark(&timer);
+ const int elapsed_time = static_cast<int>(aom_usec_timer_elapsed(&timer));
+ printf("SumSquaresTest C %3dx%-3d: %7.2f ns\n", width, height,
+ 1000.0 * elapsed_time / num_loops);
+
+ aom_usec_timer timer1;
+ aom_usec_timer_start(&timer1);
+ for (int i = 0; i < num_loops; ++i)
+ params_.tst_func(src_, stride, width, height);
+ aom_usec_timer_mark(&timer1);
+ const int elapsed_time1 = static_cast<int>(aom_usec_timer_elapsed(&timer1));
+ printf("SumSquaresTest Test %3dx%-3d: %7.2f ns\n", width, height,
+ 1000.0 * elapsed_time1 / num_loops);
+ }
+}
+
+TEST_P(SumSquaresTest, OperationCheck) {
+ RunTest(1); // GenRandomData
+}
+
+TEST_P(SumSquaresTest, ExtremeValues) {
+ RunTest(0); // GenExtremeData
+}
+
+TEST_P(SumSquaresTest, DISABLED_Speed) { RunSpeedTest(); }
+
+#if HAVE_SSE2
+
+INSTANTIATE_TEST_CASE_P(
+ SSE2, SumSquaresTest,
+ ::testing::Values(TestFuncs(&aom_sum_squares_2d_i16_c,
+ &aom_sum_squares_2d_i16_sse2)));
+
+#endif // HAVE_SSE2
+
+#if HAVE_AVX2
+INSTANTIATE_TEST_CASE_P(
+ AVX2, SumSquaresTest,
+ ::testing::Values(TestFuncs(&aom_sum_squares_2d_i16_c,
+ &aom_sum_squares_2d_i16_avx2)));
+#endif // HAVE_AVX2
+
+//////////////////////////////////////////////////////////////////////////////
+// 1D version
+//////////////////////////////////////////////////////////////////////////////
+
+typedef uint64_t (*F1D)(const int16_t *src, uint32_t N);
+typedef libaom_test::FuncParam<F1D> TestFuncs1D;
+
+class SumSquares1DTest : public FunctionEquivalenceTest<F1D> {
+ protected:
+ static const int kIterations = 1000;
+ static const int kMaxSize = 256;
+};
+
+TEST_P(SumSquares1DTest, RandomValues) {
+ DECLARE_ALIGNED(16, int16_t, src[kMaxSize * kMaxSize]);
+
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ for (int i = 0; i < kMaxSize * kMaxSize; ++i)
+ src[i] = rng_(kInt13Max * 2 + 1) - kInt13Max;
+
+ const int N = rng_(2) ? rng_(kMaxSize * kMaxSize + 1 - kMaxSize) + kMaxSize
+ : rng_(kMaxSize) + 1;
+
+ const uint64_t ref_res = params_.ref_func(src, N);
+ uint64_t tst_res;
+ ASM_REGISTER_STATE_CHECK(tst_res = params_.tst_func(src, N));
+
+ ASSERT_EQ(ref_res, tst_res);
+ }
+}
+
+TEST_P(SumSquares1DTest, ExtremeValues) {
+ DECLARE_ALIGNED(16, int16_t, src[kMaxSize * kMaxSize]);
+
+ for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
+ if (rng_(2)) {
+ for (int i = 0; i < kMaxSize * kMaxSize; ++i) src[i] = kInt13Max;
+ } else {
+ for (int i = 0; i < kMaxSize * kMaxSize; ++i) src[i] = -kInt13Max;
+ }
+
+ const int N = rng_(2) ? rng_(kMaxSize * kMaxSize + 1 - kMaxSize) + kMaxSize
+ : rng_(kMaxSize) + 1;
+
+ const uint64_t ref_res = params_.ref_func(src, N);
+ uint64_t tst_res;
+ ASM_REGISTER_STATE_CHECK(tst_res = params_.tst_func(src, N));
+
+ ASSERT_EQ(ref_res, tst_res);
+ }
+}
+
+#if HAVE_SSE2
+INSTANTIATE_TEST_CASE_P(SSE2, SumSquares1DTest,
+ ::testing::Values(TestFuncs1D(
+ aom_sum_squares_i16_c, aom_sum_squares_i16_sse2)));
+
+#endif // HAVE_SSE2
+} // namespace
diff --git a/third_party/aom/test/superframe_test.cc b/third_party/aom/test/superframe_test.cc
new file mode 100644
index 0000000000..7be18f72a3
--- /dev/null
+++ b/third_party/aom/test/superframe_test.cc
@@ -0,0 +1,109 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <climits>
+#include <vector>
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/codec_factory.h"
+#include "test/encode_test_driver.h"
+#include "test/i420_video_source.h"
+#include "test/util.h"
+
+namespace {
+
+const int kTestMode = 0;
+const int kTileCols = 1;
+const int kTileRows = 2;
+
+typedef ::testing::tuple<libaom_test::TestMode, int, int> SuperframeTestParam;
+
+class SuperframeTest
+ : public ::libaom_test::CodecTestWithParam<SuperframeTestParam>,
+ public ::libaom_test::EncoderTest {
+ protected:
+ SuperframeTest() : EncoderTest(GET_PARAM(0)), last_sf_pts_(0) {}
+ virtual ~SuperframeTest() {}
+
+ virtual void SetUp() {
+ InitializeConfig();
+ const SuperframeTestParam input = GET_PARAM(1);
+ const libaom_test::TestMode mode = ::testing::get<kTestMode>(input);
+ SetMode(mode);
+ sf_count_ = 0;
+ sf_count_max_ = INT_MAX;
+ n_tile_cols_ = ::testing::get<kTileCols>(input);
+ n_tile_rows_ = ::testing::get<kTileRows>(input);
+ }
+
+ virtual void PreEncodeFrameHook(libaom_test::VideoSource *video,
+ libaom_test::Encoder *encoder) {
+ if (video->frame() == 1) {
+ encoder->Control(AOME_SET_ENABLEAUTOALTREF, 1);
+ encoder->Control(AOME_SET_CPUUSED, 2);
+ encoder->Control(AV1E_SET_TILE_COLUMNS, n_tile_cols_);
+ encoder->Control(AV1E_SET_TILE_ROWS, n_tile_rows_);
+ }
+ }
+
+ virtual const aom_codec_cx_pkt_t *MutateEncoderOutputHook(
+ const aom_codec_cx_pkt_t *pkt) {
+ if (pkt->kind != AOM_CODEC_CX_FRAME_PKT) return pkt;
+
+ const uint8_t *buffer = reinterpret_cast<uint8_t *>(pkt->data.frame.buf);
+ const uint8_t marker = buffer[0];
+ const int frames = (marker & 0x7) + 1;
+ const int mag = ((marker >> 3) & 3) + 1;
+ const unsigned int index_sz = 2 + mag * (frames - 1);
+ if ((marker & 0xe0) == 0xc0 && pkt->data.frame.sz >= index_sz &&
+ buffer[index_sz - 1] == marker) {
+ // frame is a superframe. strip off the index.
+ modified_buf_.resize(pkt->data.frame.sz - index_sz);
+ memcpy(&modified_buf_[0], (uint8_t *)pkt->data.frame.buf + index_sz,
+ pkt->data.frame.sz - index_sz);
+ modified_pkt_ = *pkt;
+ modified_pkt_.data.frame.buf = &modified_buf_[0];
+ modified_pkt_.data.frame.sz -= index_sz;
+
+ sf_count_++;
+ last_sf_pts_ = pkt->data.frame.pts;
+ return &modified_pkt_;
+ }
+
+ // Make sure we do a few frames after the last SF
+ abort_ |=
+ sf_count_ > sf_count_max_ && pkt->data.frame.pts - last_sf_pts_ >= 5;
+ return pkt;
+ }
+
+ int sf_count_;
+ int sf_count_max_;
+ aom_codec_cx_pkt_t modified_pkt_;
+ std::vector<uint8_t> modified_buf_;
+ aom_codec_pts_t last_sf_pts_;
+
+ private:
+ int n_tile_cols_;
+ int n_tile_rows_;
+};
+
+TEST_P(SuperframeTest, TestSuperframeIndexIsOptional) {
+ sf_count_max_ = 0; // early exit on successful test.
+ cfg_.g_lag_in_frames = 25;
+ cfg_.large_scale_tile = 1;
+ ::libaom_test::I420VideoSource video("hantro_collage_w352h288.yuv", 352, 288,
+ 30, 1, 0, 40);
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+ // NOTE: The use of BWDREF_FRAME will enable the coding of more non-show
+ // frames besides ALTREF_FRAME.
+ EXPECT_GE(sf_count_, 1);
+}
+
+} // namespace
diff --git a/third_party/aom/test/test-data.sha1 b/third_party/aom/test/test-data.sha1
new file mode 100644
index 0000000000..b6ee34701a
--- /dev/null
+++ b/third_party/aom/test/test-data.sha1
@@ -0,0 +1,507 @@
+d5dfb0151c9051f8c85999255645d7a23916d3c0 *hantro_collage_w352h288.yuv
+b87815bf86020c592ccc7a846ba2e28ec8043902 *hantro_odd.yuv
+26b7f64399b84db4b4c9c915d743ec5c2619d4b9 *invalid-bug-1814.ivf
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diff --git a/third_party/aom/test/test.cmake b/third_party/aom/test/test.cmake
new file mode 100644
index 0000000000..b16ae14c3d
--- /dev/null
+++ b/third_party/aom/test/test.cmake
@@ -0,0 +1,438 @@
+#
+# Copyright (c) 2017, Alliance for Open Media. All rights reserved
+#
+# This source code is subject to the terms of the BSD 2 Clause License and the
+# Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License was
+# not distributed with this source code in the LICENSE file, you can obtain it
+# at www.aomedia.org/license/software. If the Alliance for Open Media Patent
+# License 1.0 was not distributed with this source code in the PATENTS file, you
+# can obtain it at www.aomedia.org/license/patent.
+#
+if(AOM_TEST_TEST_CMAKE_)
+ return()
+endif() # AOM_TEST_TEST_CMAKE_
+set(AOM_TEST_TEST_CMAKE_ 1)
+
+include(FindPythonInterp)
+include(ProcessorCount)
+
+include("${AOM_ROOT}/test/test_data_util.cmake")
+
+set(AOM_UNIT_TEST_DATA_LIST_FILE "${AOM_ROOT}/test/test-data.sha1")
+
+list(APPEND AOM_UNIT_TEST_WRAPPER_SOURCES "${AOM_GEN_SRC_DIR}/usage_exit.c"
+ "${AOM_ROOT}/test/test_libaom.cc")
+
+list(APPEND AOM_UNIT_TEST_COMMON_SOURCES
+ "${AOM_ROOT}/test/acm_random.h"
+ "${AOM_ROOT}/test/aom_integer_test.cc"
+ "${AOM_ROOT}/test/av1_config_test.cc"
+ "${AOM_ROOT}/test/blockd_test.cc"
+ "${AOM_ROOT}/test/clear_system_state.h"
+ "${AOM_ROOT}/test/codec_factory.h"
+ "${AOM_ROOT}/test/decode_test_driver.cc"
+ "${AOM_ROOT}/test/decode_test_driver.h"
+ "${AOM_ROOT}/test/function_equivalence_test.h"
+ "${AOM_ROOT}/test/log2_test.cc"
+ "${AOM_ROOT}/test/md5_helper.h"
+ "${AOM_ROOT}/test/register_state_check.h"
+ "${AOM_ROOT}/test/test_vectors.cc"
+ "${AOM_ROOT}/test/test_vectors.h"
+ "${AOM_ROOT}/test/transform_test_base.h"
+ "${AOM_ROOT}/test/util.h"
+ "${AOM_ROOT}/test/video_source.h")
+
+if(CONFIG_INTERNAL_STATS)
+ list(APPEND AOM_UNIT_TEST_COMMON_SOURCES
+ "${AOM_ROOT}/test/hbd_metrics_test.cc")
+endif()
+
+list(APPEND AOM_UNIT_TEST_DECODER_SOURCES "${AOM_ROOT}/test/decode_api_test.cc"
+ "${AOM_ROOT}/test/external_frame_buffer_test.cc"
+ "${AOM_ROOT}/test/invalid_file_test.cc"
+ "${AOM_ROOT}/test/test_vector_test.cc"
+ "${AOM_ROOT}/test/ivf_video_source.h")
+
+list(APPEND AOM_UNIT_TEST_ENCODER_SOURCES
+ "${AOM_ROOT}/test/active_map_test.cc"
+ "${AOM_ROOT}/test/altref_test.cc"
+ "${AOM_ROOT}/test/aq_segment_test.cc"
+ "${AOM_ROOT}/test/borders_test.cc"
+ "${AOM_ROOT}/test/cpu_speed_test.cc"
+ "${AOM_ROOT}/test/datarate_test.cc"
+ "${AOM_ROOT}/test/encode_api_test.cc"
+ "${AOM_ROOT}/test/encode_test_driver.cc"
+ "${AOM_ROOT}/test/encode_test_driver.h"
+ "${AOM_ROOT}/test/end_to_end_test.cc"
+ "${AOM_ROOT}/test/error_resilience_test.cc"
+ "${AOM_ROOT}/test/frame_size_tests.cc"
+ "${AOM_ROOT}/test/horz_superres_test.cc"
+ "${AOM_ROOT}/test/i420_video_source.h"
+ "${AOM_ROOT}/test/lossless_test.cc"
+ "${AOM_ROOT}/test/monochrome_test.cc"
+ "${AOM_ROOT}/test/qm_test.cc"
+ "${AOM_ROOT}/test/resize_test.cc"
+ "${AOM_ROOT}/test/scalability_test.cc"
+ "${AOM_ROOT}/test/y4m_test.cc"
+ "${AOM_ROOT}/test/y4m_video_source.h"
+ "${AOM_ROOT}/test/yuv_video_source.h")
+
+list(APPEND AOM_DECODE_PERF_TEST_SOURCES "${AOM_ROOT}/test/decode_perf_test.cc")
+list(APPEND AOM_ENCODE_PERF_TEST_SOURCES "${AOM_ROOT}/test/encode_perf_test.cc")
+list(APPEND AOM_UNIT_TEST_WEBM_SOURCES "${AOM_ROOT}/test/webm_video_source.h")
+list(APPEND AOM_TEST_INTRA_PRED_SPEED_SOURCES "${AOM_GEN_SRC_DIR}/usage_exit.c"
+ "${AOM_ROOT}/test/test_intra_pred_speed.cc")
+
+if(NOT BUILD_SHARED_LIBS)
+ list(APPEND AOM_UNIT_TEST_COMMON_SOURCES
+ "${AOM_ROOT}/test/cdef_test.cc"
+ "${AOM_ROOT}/test/cfl_test.cc"
+ "${AOM_ROOT}/test/convolve_test.cc"
+ "${AOM_ROOT}/test/hiprec_convolve_test.cc"
+ "${AOM_ROOT}/test/hiprec_convolve_test_util.cc"
+ "${AOM_ROOT}/test/hiprec_convolve_test_util.h"
+ "${AOM_ROOT}/test/intrabc_test.cc"
+ "${AOM_ROOT}/test/intrapred_test.cc"
+ "${AOM_ROOT}/test/lpf_test.cc"
+ "${AOM_ROOT}/test/onyxc_int_test.cc"
+ "${AOM_ROOT}/test/scan_test.cc"
+ "${AOM_ROOT}/test/selfguided_filter_test.cc"
+ "${AOM_ROOT}/test/simd_cmp_impl.h"
+ "${AOM_ROOT}/test/simd_impl.h")
+
+ if(CONFIG_ACCOUNTING)
+ list(APPEND AOM_UNIT_TEST_COMMON_SOURCES
+ "${AOM_ROOT}/test/accounting_test.cc")
+ endif()
+
+ if(CONFIG_AV1_DECODER AND CONFIG_AV1_ENCODER)
+ list(APPEND AOM_UNIT_TEST_COMMON_SOURCES
+ "${AOM_ROOT}/test/av1_encoder_parms_get_to_decoder.cc"
+ "${AOM_ROOT}/test/av1_ext_tile_test.cc"
+ "${AOM_ROOT}/test/binary_codes_test.cc"
+ "${AOM_ROOT}/test/boolcoder_test.cc"
+ "${AOM_ROOT}/test/coding_path_sync.cc"
+ "${AOM_ROOT}/test/decode_multithreaded_test.cc"
+ "${AOM_ROOT}/test/divu_small_test.cc"
+ "${AOM_ROOT}/test/dr_prediction_test.cc"
+ "${AOM_ROOT}/test/ec_test.cc"
+ "${AOM_ROOT}/test/ethread_test.cc"
+ "${AOM_ROOT}/test/film_grain_table_test.cc"
+ "${AOM_ROOT}/test/segment_binarization_sync.cc"
+ "${AOM_ROOT}/test/superframe_test.cc"
+ "${AOM_ROOT}/test/tile_independence_test.cc")
+ endif()
+
+ list(APPEND AOM_UNIT_TEST_COMMON_INTRIN_NEON
+ "${AOM_ROOT}/test/simd_cmp_neon.cc")
+ if(HAVE_NEON)
+ list(APPEND AOM_UNIT_TEST_COMMON_SOURCES
+ "${AOM_ROOT}/test/simd_neon_test.cc")
+ endif()
+
+ list(APPEND AOM_UNIT_TEST_COMMON_INTRIN_SSE2
+ "${AOM_ROOT}/test/simd_cmp_sse2.cc")
+ if(HAVE_SSE2)
+ list(APPEND AOM_UNIT_TEST_COMMON_SOURCES
+ "${AOM_ROOT}/test/simd_sse2_test.cc")
+ endif()
+
+ list(APPEND AOM_UNIT_TEST_COMMON_INTRIN_SSSE3
+ "${AOM_ROOT}/test/simd_cmp_ssse3.cc")
+ if(HAVE_SSSE3)
+ list(APPEND AOM_UNIT_TEST_COMMON_SOURCES
+ "${AOM_ROOT}/test/simd_ssse3_test.cc")
+ endif()
+
+ if(HAVE_SSE4)
+ list(APPEND AOM_UNIT_TEST_COMMON_SOURCES
+ "${AOM_ROOT}/test/simd_sse4_test.cc")
+ endif()
+
+ if(HAVE_SSE4_1)
+ list(APPEND AOM_UNIT_TEST_COMMON_SOURCES
+ "${AOM_ROOT}/test/filterintra_test.cc")
+ endif()
+
+ list(APPEND AOM_UNIT_TEST_COMMON_INTRIN_AVX2
+ "${AOM_ROOT}/test/simd_cmp_avx2.cc")
+ if(HAVE_AVX2)
+ list(APPEND AOM_UNIT_TEST_COMMON_SOURCES
+ "${AOM_ROOT}/test/simd_avx2_test.cc")
+ endif()
+
+ list(APPEND AOM_UNIT_TEST_ENCODER_SOURCES
+ "${AOM_ROOT}/test/arf_freq_test.cc"
+ "${AOM_ROOT}/test/av1_convolve_2d_test.cc"
+ "${AOM_ROOT}/test/av1_convolve_2d_test_util.cc"
+ "${AOM_ROOT}/test/av1_convolve_2d_test_util.h"
+ "${AOM_ROOT}/test/av1_fwd_txfm1d_test.cc"
+ "${AOM_ROOT}/test/av1_fwd_txfm2d_test.cc"
+ "${AOM_ROOT}/test/av1_inv_txfm1d_test.cc"
+ "${AOM_ROOT}/test/av1_inv_txfm2d_test.cc"
+ "${AOM_ROOT}/test/av1_round_shift_array_test.cc"
+ "${AOM_ROOT}/test/av1_txfm_test.cc"
+ "${AOM_ROOT}/test/av1_txfm_test.h"
+ "${AOM_ROOT}/test/av1_wedge_utils_test.cc"
+ "${AOM_ROOT}/test/blend_a64_mask_1d_test.cc"
+ "${AOM_ROOT}/test/blend_a64_mask_test.cc"
+ "${AOM_ROOT}/test/comp_avg_pred_test.cc"
+ "${AOM_ROOT}/test/comp_avg_pred_test.h"
+ "${AOM_ROOT}/test/comp_mask_variance_test.cc"
+ "${AOM_ROOT}/test/encodetxb_test.cc"
+ "${AOM_ROOT}/test/error_block_test.cc"
+ "${AOM_ROOT}/test/fft_test.cc"
+ "${AOM_ROOT}/test/fwht4x4_test.cc"
+ "${AOM_ROOT}/test/masked_sad_test.cc"
+ "${AOM_ROOT}/test/masked_variance_test.cc"
+ "${AOM_ROOT}/test/motion_vector_test.cc"
+ "${AOM_ROOT}/test/noise_model_test.cc"
+ "${AOM_ROOT}/test/obmc_sad_test.cc"
+ "${AOM_ROOT}/test/obmc_variance_test.cc"
+ "${AOM_ROOT}/test/pickrst_test.cc"
+ "${AOM_ROOT}/test/sad_test.cc"
+ "${AOM_ROOT}/test/subtract_test.cc"
+ "${AOM_ROOT}/test/reconinter_test.cc"
+ "${AOM_ROOT}/test/sum_squares_test.cc"
+ "${AOM_ROOT}/test/variance_test.cc"
+ "${AOM_ROOT}/test/wiener_test.cc"
+ "${AOM_ROOT}/test/warp_filter_test.cc"
+ "${AOM_ROOT}/test/warp_filter_test_util.cc"
+ "${AOM_ROOT}/test/warp_filter_test_util.h")
+
+ list(APPEND AOM_UNIT_TEST_ENCODER_INTRIN_SSE4_1
+ "${AOM_ROOT}/test/av1_highbd_iht_test.cc"
+ "${AOM_ROOT}/test/av1_quantize_test.cc"
+ "${AOM_ROOT}/test/corner_match_test.cc"
+ "${AOM_ROOT}/test/quantize_func_test.cc"
+ "${AOM_ROOT}/test/simd_cmp_sse4.cc")
+
+ if(HAVE_SSE4_1)
+ list(APPEND AOM_UNIT_TEST_ENCODER_SOURCES
+ "${AOM_ROOT}/test/av1_convolve_scale_test.cc"
+ "${AOM_ROOT}/test/av1_horz_only_frame_superres_test.cc"
+ "${AOM_ROOT}/test/intra_edge_test.cc")
+
+ endif()
+
+ if(HAVE_SSE4_2)
+ list(APPEND AOM_UNIT_TEST_ENCODER_SOURCES "${AOM_ROOT}/test/hash_test.cc")
+ endif()
+
+endif()
+
+if(ENABLE_TESTS)
+ find_package(PythonInterp)
+ if(NOT PYTHONINTERP_FOUND)
+ message(FATAL_ERROR
+ "--- Unit tests require Python, rerun cmake with "
+ "-DENABLE_TESTS=0 to avoid this error, or install Python and "
+ "make sure it's in your PATH.")
+ endif()
+
+ if(MSVC) # Force static run time to avoid collisions with googletest.
+ include("${AOM_ROOT}/build/cmake/msvc_runtime.cmake")
+ if(BUILD_SHARED_LIBS)
+ set(AOM_DISABLE_GTEST_CMAKE 1)
+ endif()
+ endif()
+
+ if(BUILD_SHARED_LIBS AND APPLE) # Silence an RPATH warning.
+ set(CMAKE_MACOSX_RPATH 1)
+ endif()
+
+ include_directories(
+ "${AOM_ROOT}/third_party/googletest/src/googletest/include")
+
+ if(AOM_DISABLE_GTEST_CMAKE)
+ include_directories("${AOM_ROOT}/third_party/googletest/src/googletest")
+ add_library(
+ gtest
+ STATIC
+ "${AOM_ROOT}/third_party/googletest/src/googletest/src/gtest-all.cc")
+ else()
+ add_subdirectory("${AOM_ROOT}/third_party/googletest/src/googletest"
+ EXCLUDE_FROM_ALL)
+ endif()
+endif()
+
+# Setup testdata download targets, test build targets, and test run targets. The
+# libaom and app util targets must exist before this function is called.
+function(setup_aom_test_targets)
+
+ # TODO(tomfinegan): Build speed optimization. $AOM_UNIT_TEST_COMMON_SOURCES
+ # and $AOM_UNIT_TEST_ENCODER_SOURCES are very large. The build of test targets
+ # could be sped up (on multicore build machines) by compiling sources in each
+ # list into separate object library targets, and then linking them into
+ # test_libaom.
+ add_library(test_aom_common OBJECT ${AOM_UNIT_TEST_COMMON_SOURCES})
+ add_dependencies(test_aom_common aom)
+
+ if(CONFIG_AV1_DECODER)
+ add_library(test_aom_decoder OBJECT ${AOM_UNIT_TEST_DECODER_SOURCES})
+ add_dependencies(test_aom_decoder aom)
+ endif()
+
+ if(CONFIG_AV1_ENCODER)
+ add_library(test_aom_encoder OBJECT ${AOM_UNIT_TEST_ENCODER_SOURCES})
+ add_dependencies(test_aom_encoder aom)
+ endif()
+
+ add_executable(test_libaom ${AOM_UNIT_TEST_WRAPPER_SOURCES}
+ $<TARGET_OBJECTS:aom_common_app_util>
+ $<TARGET_OBJECTS:test_aom_common>)
+ list(APPEND AOM_APP_TARGETS test_libaom)
+
+ if(CONFIG_AV1_DECODER)
+ target_sources(test_libaom PRIVATE $<TARGET_OBJECTS:aom_decoder_app_util>
+ $<TARGET_OBJECTS:test_aom_decoder>)
+
+ if(ENABLE_DECODE_PERF_TESTS AND CONFIG_WEBM_IO)
+ target_sources(test_libaom PRIVATE ${AOM_DECODE_PERF_TEST_SOURCES})
+ endif()
+ endif()
+
+ if(CONFIG_AV1_ENCODER)
+ target_sources(test_libaom PRIVATE $<TARGET_OBJECTS:test_aom_encoder>
+ $<TARGET_OBJECTS:aom_encoder_app_util>)
+
+ if(ENABLE_ENCODE_PERF_TESTS)
+ target_sources(test_libaom PRIVATE ${AOM_ENCODE_PERF_TEST_SOURCES})
+ endif()
+
+ if(NOT BUILD_SHARED_LIBS)
+ add_executable(test_intra_pred_speed ${AOM_TEST_INTRA_PRED_SPEED_SOURCES}
+ $<TARGET_OBJECTS:aom_common_app_util>)
+ target_link_libraries(test_intra_pred_speed ${AOM_LIB_LINK_TYPE} aom
+ gtest)
+ list(APPEND AOM_APP_TARGETS test_intra_pred_speed)
+ endif()
+ endif()
+
+ target_link_libraries(test_libaom ${AOM_LIB_LINK_TYPE} aom gtest)
+
+ if(CONFIG_LIBYUV)
+ target_sources(test_libaom PRIVATE $<TARGET_OBJECTS:yuv>)
+ endif()
+ if(CONFIG_WEBM_IO)
+ target_sources(test_libaom PRIVATE $<TARGET_OBJECTS:webm>)
+ endif()
+ if(HAVE_SSE2)
+ add_intrinsics_source_to_target("-msse2" "test_libaom"
+ "AOM_UNIT_TEST_COMMON_INTRIN_SSE2")
+ endif()
+ if(HAVE_SSSE3)
+ add_intrinsics_source_to_target("-mssse3" "test_libaom"
+ "AOM_UNIT_TEST_COMMON_INTRIN_SSSE3")
+ endif()
+ if(HAVE_SSE4_1)
+ add_intrinsics_source_to_target("-msse4.1" "test_libaom"
+ "AOM_UNIT_TEST_COMMON_INTRIN_SSE4_1")
+ if(CONFIG_AV1_ENCODER)
+ if(AOM_UNIT_TEST_ENCODER_INTRIN_SSE4_1)
+ add_intrinsics_source_to_target("-msse4.1" "test_libaom"
+ "AOM_UNIT_TEST_ENCODER_INTRIN_SSE4_1")
+ endif()
+ endif()
+ endif()
+ if(HAVE_AVX2)
+ add_intrinsics_source_to_target("-mavx2" "test_libaom"
+ "AOM_UNIT_TEST_COMMON_INTRIN_AVX2")
+ endif()
+ if(HAVE_NEON)
+ add_intrinsics_source_to_target("${AOM_NEON_INTRIN_FLAG}" "test_libaom"
+ "AOM_UNIT_TEST_COMMON_INTRIN_NEON")
+ endif()
+
+ if(ENABLE_TESTDATA)
+ make_test_data_lists("${AOM_UNIT_TEST_DATA_LIST_FILE}" test_files
+ test_file_checksums)
+ list(LENGTH test_files num_test_files)
+ list(LENGTH test_file_checksums num_test_file_checksums)
+
+ math(EXPR max_file_index "${num_test_files} - 1")
+ foreach(test_index RANGE ${max_file_index})
+ list(GET test_files ${test_index} test_file)
+ list(GET test_file_checksums ${test_index} test_file_checksum)
+ add_custom_target(testdata_${test_index}
+ COMMAND
+ ${CMAKE_COMMAND} -DAOM_CONFIG_DIR="${AOM_CONFIG_DIR}"
+ -DAOM_ROOT="${AOM_ROOT}"
+ -DAOM_TEST_FILE="${test_file}"
+ -DAOM_TEST_CHECKSUM=${test_file_checksum} -P
+ "${AOM_ROOT}/test/test_data_download_worker.cmake")
+ list(APPEND testdata_targets testdata_${test_index})
+ endforeach()
+
+ # Create a custom build target for running each test data download target.
+ add_custom_target(testdata)
+ add_dependencies(testdata ${testdata_targets})
+
+ # Skip creation of test run targets when generating for Visual Studio and
+ # Xcode unless the user explicitly requests IDE test hosting. This is done
+ # to make build cycles in the IDE tolerable when the IDE command for build
+ # project is used to build AOM. Default behavior in IDEs is to build all
+ # targets, and the test run takes hours.
+ if(((NOT MSVC) AND (NOT XCODE)) OR ENABLE_IDE_TEST_HOSTING)
+
+ # Pick a reasonable number of targets (this controls parallelization).
+ processorcount(num_test_targets)
+ if(num_test_targets EQUAL 0) # Just default to 10 targets when there's no
+ # processor count available.
+ set(num_test_targets 10)
+ endif()
+
+ math(EXPR max_shard_index "${num_test_targets} - 1")
+ foreach(shard_index RANGE ${max_shard_index})
+ set(test_name "test_${shard_index}")
+ add_custom_target(${test_name}
+ COMMAND ${CMAKE_COMMAND}
+ -DGTEST_SHARD_INDEX=${shard_index}
+ -DGTEST_TOTAL_SHARDS=${num_test_targets}
+ -DTEST_LIBAOM=$<TARGET_FILE:test_libaom> -P
+ "${AOM_ROOT}/test/test_runner.cmake"
+ DEPENDS testdata test_libaom)
+ list(APPEND test_targets ${test_name})
+ endforeach()
+ add_custom_target(runtests)
+ add_dependencies(runtests ${test_targets})
+ endif()
+ endif()
+
+ # Collect all variables containing libaom test source files.
+ get_cmake_property(all_cmake_vars VARIABLES)
+ foreach(var ${all_cmake_vars})
+
+ # https://github.com/cheshirekow/cmake_format/issues/34
+# cmake-format: off
+ if (("${var}" MATCHES "_TEST_" AND NOT
+ "${var}" MATCHES
+ "_DATA_\|_CMAKE_\|INTRA_PRED\|_COMPILED\|_HOSTING\|_PERF_\|CODER_")
+ OR (CONFIG_AV1_ENCODER AND ENABLE_ENCODE_PERF_TESTS AND
+ "${var}" MATCHES "_ENCODE_PERF_TEST_")
+ OR (CONFIG_AV1_DECODER AND ENABLE_DECODE_PERF_TESTS AND
+ "${var}" MATCHES "_DECODE_PERF_TEST_")
+ OR (CONFIG_AV1_ENCODER AND "${var}" MATCHES "_TEST_ENCODER_")
+ OR (CONFIG_AV1_DECODER AND "${var}" MATCHES "_TEST_DECODER_"))
+ list(APPEND aom_test_source_vars ${var})
+ endif()
+ # cmake-format: on
+ endforeach()
+
+ # Libaom_test_srcs.txt generation.
+ set(libaom_test_srcs_txt_file "${AOM_CONFIG_DIR}/libaom_test_srcs.txt")
+ file(WRITE "${libaom_test_srcs_txt_file}"
+ "# This file is generated. DO NOT EDIT.\n")
+
+ # Static source file list first.
+ foreach(aom_test_source_var ${aom_test_source_vars})
+ foreach(file ${${aom_test_source_var}})
+ if(NOT "${file}" MATCHES "${AOM_CONFIG_DIR}")
+ string(REPLACE "${AOM_ROOT}/" "" file "${file}")
+ file(APPEND "${libaom_test_srcs_txt_file}" "${file}\n")
+ endif()
+ endforeach()
+ endforeach()
+
+ set(AOM_APP_TARGETS ${AOM_APP_TARGETS} PARENT_SCOPE)
+endfunction()
diff --git a/third_party/aom/test/test_data_download_worker.cmake b/third_party/aom/test/test_data_download_worker.cmake
new file mode 100644
index 0000000000..dc803497da
--- /dev/null
+++ b/third_party/aom/test/test_data_download_worker.cmake
@@ -0,0 +1,46 @@
+#
+# Copyright (c) 2017, Alliance for Open Media. All rights reserved
+#
+# This source code is subject to the terms of the BSD 2 Clause License and the
+# Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License was
+# not distributed with this source code in the LICENSE file, you can obtain it
+# at www.aomedia.org/license/software. If the Alliance for Open Media Patent
+# License 1.0 was not distributed with this source code in the PATENTS file, you
+# can obtain it at www.aomedia.org/license/patent.
+#
+include("${AOM_ROOT}/test/test_data_util.cmake")
+
+# https://github.com/cheshirekow/cmake_format/issues/34
+# cmake-format: off
+if (NOT AOM_ROOT OR NOT AOM_CONFIG_DIR OR NOT AOM_TEST_FILE
+ OR NOT AOM_TEST_CHECKSUM)
+ message(FATAL_ERROR
+ "AOM_ROOT, AOM_CONFIG_DIR, AOM_TEST_FILE and AOM_TEST_CHECKSUM must be
+ defined.")
+endif ()
+# cmake-format: on
+
+set(AOM_TEST_DATA_URL "http://storage.googleapis.com/aom-test-data")
+
+if(NOT AOM_TEST_DATA_PATH)
+ set(AOM_TEST_DATA_PATH "$ENV{LIBAOM_TEST_DATA_PATH}")
+endif()
+
+if("${AOM_TEST_DATA_PATH}" STREQUAL "")
+ message(WARNING
+ "Writing test data to ${AOM_CONFIG_DIR}, set "
+ "$LIBAOM_TEST_DATA_PATH in your environment to avoid this warning.")
+ set(AOM_TEST_DATA_PATH "${AOM_CONFIG_DIR}")
+endif()
+
+if(NOT EXISTS "${AOM_TEST_DATA_PATH}")
+ file(MAKE_DIRECTORY "${AOM_TEST_DATA_PATH}")
+endif()
+
+expand_test_file_paths("AOM_TEST_FILE" "${AOM_TEST_DATA_PATH}" "filepath")
+expand_test_file_paths("AOM_TEST_FILE" "${AOM_TEST_DATA_URL}" "url")
+
+check_file("${filepath}" "${AOM_TEST_CHECKSUM}" "needs_download")
+if(needs_download)
+ download_test_file("${url}" "${AOM_TEST_CHECKSUM}" "${filepath}")
+endif()
diff --git a/third_party/aom/test/test_data_util.cmake b/third_party/aom/test/test_data_util.cmake
new file mode 100644
index 0000000000..45c951478a
--- /dev/null
+++ b/third_party/aom/test/test_data_util.cmake
@@ -0,0 +1,598 @@
+#
+# Copyright (c) 2017, Alliance for Open Media. All rights reserved
+#
+# This source code is subject to the terms of the BSD 2 Clause License and the
+# Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License was
+# not distributed with this source code in the LICENSE file, you can obtain it
+# at www.aomedia.org/license/software. If the Alliance for Open Media Patent
+# License 1.0 was not distributed with this source code in the PATENTS file, you
+# can obtain it at www.aomedia.org/license/patent.
+#
+
+list(APPEND AOM_TEST_DATA_FILE_NAMES
+ "hantro_collage_w352h288.yuv"
+ "hantro_odd.yuv"
+ "invalid-bug-1814.ivf"
+ "invalid-bug-1814.ivf.res"
+ "invalid-oss-fuzz-10061.ivf"
+ "invalid-oss-fuzz-10061.ivf.res"
+ "invalid-oss-fuzz-10117-mc-buf-use-highbd.ivf"
+ "invalid-oss-fuzz-10117-mc-buf-use-highbd.ivf.res"
+ "invalid-oss-fuzz-10227.ivf"
+ "invalid-oss-fuzz-10227.ivf.res"
+ "invalid-oss-fuzz-9463.ivf"
+ "invalid-oss-fuzz-9463.ivf.res"
+ "invalid-oss-fuzz-9482.ivf"
+ "invalid-oss-fuzz-9482.ivf.res"
+ "invalid-oss-fuzz-9720.ivf"
+ "invalid-oss-fuzz-9720.ivf.res"
+ "park_joy_90p_10_420.y4m"
+ "park_joy_90p_10_422.y4m"
+ "park_joy_90p_10_444.y4m"
+ "park_joy_90p_12_420.y4m"
+ "park_joy_90p_12_422.y4m"
+ "park_joy_90p_12_444.y4m"
+ "park_joy_90p_8_420_a10-1.y4m"
+ "park_joy_90p_8_420.y4m"
+ "park_joy_90p_8_420_monochrome.y4m"
+ "park_joy_90p_8_420_vertical_csp.y4m"
+ "park_joy_90p_8_422.y4m"
+ "park_joy_90p_8_444.y4m"
+ "desktop_credits.y4m"
+ "niklas_1280_720_30.y4m"
+ "rush_hour_444.y4m"
+ "screendata.y4m"
+ "niklas_640_480_30.yuv"
+ "vase10x10.yuv")
+
+if(ENABLE_DECODE_PERF_TESTS AND CONFIG_AV1_ENCODER)
+ list(APPEND AOM_TEST_DATA_FILE_NAMES "niklas_1280_720_30.yuv")
+endif()
+
+if(CONFIG_AV1_DECODER)
+ list(APPEND AOM_TEST_DATA_FILE_NAMES
+ "av1-1-b8-00-quantizer-00.ivf"
+ "av1-1-b8-00-quantizer-00.ivf.md5"
+ "av1-1-b8-00-quantizer-01.ivf"
+ "av1-1-b8-00-quantizer-01.ivf.md5"
+ "av1-1-b8-00-quantizer-02.ivf"
+ "av1-1-b8-00-quantizer-02.ivf.md5"
+ "av1-1-b8-00-quantizer-03.ivf"
+ "av1-1-b8-00-quantizer-03.ivf.md5"
+ "av1-1-b8-00-quantizer-04.ivf"
+ "av1-1-b8-00-quantizer-04.ivf.md5"
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+ "av1-1-b8-01-size-208x208.ivf"
+ "av1-1-b8-01-size-208x208.ivf.md5"
+ "av1-1-b8-01-size-208x210.ivf"
+ "av1-1-b8-01-size-208x210.ivf.md5"
+ "av1-1-b8-01-size-208x224.ivf"
+ "av1-1-b8-01-size-208x224.ivf.md5"
+ "av1-1-b8-01-size-208x226.ivf"
+ "av1-1-b8-01-size-208x226.ivf.md5"
+ "av1-1-b8-01-size-210x196.ivf"
+ "av1-1-b8-01-size-210x196.ivf.md5"
+ "av1-1-b8-01-size-210x198.ivf"
+ "av1-1-b8-01-size-210x198.ivf.md5"
+ "av1-1-b8-01-size-210x200.ivf"
+ "av1-1-b8-01-size-210x200.ivf.md5"
+ "av1-1-b8-01-size-210x202.ivf"
+ "av1-1-b8-01-size-210x202.ivf.md5"
+ "av1-1-b8-01-size-210x208.ivf"
+ "av1-1-b8-01-size-210x208.ivf.md5"
+ "av1-1-b8-01-size-210x210.ivf"
+ "av1-1-b8-01-size-210x210.ivf.md5"
+ "av1-1-b8-01-size-210x224.ivf"
+ "av1-1-b8-01-size-210x224.ivf.md5"
+ "av1-1-b8-01-size-210x226.ivf"
+ "av1-1-b8-01-size-210x226.ivf.md5"
+ "av1-1-b8-01-size-224x196.ivf"
+ "av1-1-b8-01-size-224x196.ivf.md5"
+ "av1-1-b8-01-size-224x198.ivf"
+ "av1-1-b8-01-size-224x198.ivf.md5"
+ "av1-1-b8-01-size-224x200.ivf"
+ "av1-1-b8-01-size-224x200.ivf.md5"
+ "av1-1-b8-01-size-224x202.ivf"
+ "av1-1-b8-01-size-224x202.ivf.md5"
+ "av1-1-b8-01-size-224x208.ivf"
+ "av1-1-b8-01-size-224x208.ivf.md5"
+ "av1-1-b8-01-size-224x210.ivf"
+ "av1-1-b8-01-size-224x210.ivf.md5"
+ "av1-1-b8-01-size-224x224.ivf"
+ "av1-1-b8-01-size-224x224.ivf.md5"
+ "av1-1-b8-01-size-224x226.ivf"
+ "av1-1-b8-01-size-224x226.ivf.md5"
+ "av1-1-b8-01-size-226x196.ivf"
+ "av1-1-b8-01-size-226x196.ivf.md5"
+ "av1-1-b8-01-size-226x198.ivf"
+ "av1-1-b8-01-size-226x198.ivf.md5"
+ "av1-1-b8-01-size-226x200.ivf"
+ "av1-1-b8-01-size-226x200.ivf.md5"
+ "av1-1-b8-01-size-226x202.ivf"
+ "av1-1-b8-01-size-226x202.ivf.md5"
+ "av1-1-b8-01-size-226x208.ivf"
+ "av1-1-b8-01-size-226x208.ivf.md5"
+ "av1-1-b8-01-size-226x210.ivf"
+ "av1-1-b8-01-size-226x210.ivf.md5"
+ "av1-1-b8-01-size-226x224.ivf"
+ "av1-1-b8-01-size-226x224.ivf.md5"
+ "av1-1-b8-01-size-226x226.ivf"
+ "av1-1-b8-01-size-226x226.ivf.md5"
+ "av1-1-b8-01-size-32x16.ivf"
+ "av1-1-b8-01-size-32x16.ivf.md5"
+ "av1-1-b8-01-size-32x18.ivf"
+ "av1-1-b8-01-size-32x18.ivf.md5"
+ "av1-1-b8-01-size-32x32.ivf"
+ "av1-1-b8-01-size-32x32.ivf.md5"
+ "av1-1-b8-01-size-32x34.ivf"
+ "av1-1-b8-01-size-32x34.ivf.md5"
+ "av1-1-b8-01-size-32x64.ivf"
+ "av1-1-b8-01-size-32x64.ivf.md5"
+ "av1-1-b8-01-size-32x66.ivf"
+ "av1-1-b8-01-size-32x66.ivf.md5"
+ "av1-1-b8-01-size-34x16.ivf"
+ "av1-1-b8-01-size-34x16.ivf.md5"
+ "av1-1-b8-01-size-34x18.ivf"
+ "av1-1-b8-01-size-34x18.ivf.md5"
+ "av1-1-b8-01-size-34x32.ivf"
+ "av1-1-b8-01-size-34x32.ivf.md5"
+ "av1-1-b8-01-size-34x34.ivf"
+ "av1-1-b8-01-size-34x34.ivf.md5"
+ "av1-1-b8-01-size-34x64.ivf"
+ "av1-1-b8-01-size-34x64.ivf.md5"
+ "av1-1-b8-01-size-34x66.ivf"
+ "av1-1-b8-01-size-34x66.ivf.md5"
+ "av1-1-b8-01-size-64x16.ivf"
+ "av1-1-b8-01-size-64x16.ivf.md5"
+ "av1-1-b8-01-size-64x18.ivf"
+ "av1-1-b8-01-size-64x18.ivf.md5"
+ "av1-1-b8-01-size-64x32.ivf"
+ "av1-1-b8-01-size-64x32.ivf.md5"
+ "av1-1-b8-01-size-64x34.ivf"
+ "av1-1-b8-01-size-64x34.ivf.md5"
+ "av1-1-b8-01-size-64x64.ivf"
+ "av1-1-b8-01-size-64x64.ivf.md5"
+ "av1-1-b8-01-size-64x66.ivf"
+ "av1-1-b8-01-size-64x66.ivf.md5"
+ "av1-1-b8-01-size-66x16.ivf"
+ "av1-1-b8-01-size-66x16.ivf.md5"
+ "av1-1-b8-01-size-66x18.ivf"
+ "av1-1-b8-01-size-66x18.ivf.md5"
+ "av1-1-b8-01-size-66x32.ivf"
+ "av1-1-b8-01-size-66x32.ivf.md5"
+ "av1-1-b8-01-size-66x34.ivf"
+ "av1-1-b8-01-size-66x34.ivf.md5"
+ "av1-1-b8-01-size-66x64.ivf"
+ "av1-1-b8-01-size-66x64.ivf.md5"
+ "av1-1-b8-01-size-66x66.ivf"
+ "av1-1-b8-01-size-66x66.ivf.md5"
+ "av1-1-b8-02-allintra.ivf"
+ "av1-1-b8-02-allintra.ivf.md5"
+ "av1-1-b8-03-sizeup.mkv"
+ "av1-1-b8-03-sizeup.mkv.md5"
+ "av1-1-b8-03-sizedown.mkv"
+ "av1-1-b8-03-sizedown.mkv.md5")
+endif()
+
+if(ENABLE_ENCODE_PERF_TESTS AND CONFIG_AV1_ENCODER)
+ list(APPEND AOM_TEST_DATA_FILE_NAMES "desktop_640_360_30.yuv"
+ "kirland_640_480_30.yuv" "macmarcomoving_640_480_30.yuv"
+ "macmarcostationary_640_480_30.yuv" "niklas_1280_720_30.yuv"
+ "tacomanarrows_640_480_30.yuv"
+ "tacomasmallcameramovement_640_480_30.yuv"
+ "thaloundeskmtg_640_480_30.yuv")
+endif()
+
+# Parses test/test-data.sha1 and writes captured file names and checksums to
+# $out_files and $out_checksums as lists.
+function(make_test_data_lists test_data_file out_files out_checksums)
+ if(NOT test_data_file OR NOT EXISTS "${test_data_file}")
+ message(FATAL_ERROR "Test info file missing or empty (${test_data_file})")
+ endif()
+
+ # Read $test_data_file into $files_and_checksums. $files_and_checksums becomes
+ # a list with an entry for each line from $test_data_file.
+ file(STRINGS "${test_data_file}" files_and_checksums)
+
+ # Iterate over the list of lines and split it into $checksums and $filenames.
+ foreach(line ${files_and_checksums})
+ string(FIND "${line}" " *" delim_pos)
+
+ math(EXPR filename_pos "${delim_pos} + 2")
+ string(SUBSTRING "${line}" 0 ${delim_pos} checksum)
+ string(SUBSTRING "${line}" ${filename_pos} -1 filename)
+
+ list(FIND AOM_TEST_DATA_FILE_NAMES ${filename} list_index)
+ if(NOT ${list_index} EQUAL -1)
+
+ # Include the name and checksum in output only when the file is needed.
+ set(checksums ${checksums} ${checksum})
+ set(filenames ${filenames} ${filename})
+ endif()
+ endforeach()
+
+ list(LENGTH filenames num_files)
+ list(LENGTH checksums num_checksums)
+ if(NOT checksums OR NOT filenames OR NOT num_files EQUAL num_checksums)
+ message(FATAL_ERROR "Parsing of ${test_data_file} failed.")
+ endif()
+
+ set(${out_checksums} ${checksums} PARENT_SCOPE)
+ set(${out_files} ${filenames} PARENT_SCOPE)
+endfunction()
+
+# Appends each file name in $test_files to $test_dir and adds the result path to
+# $out_path_list.
+function(expand_test_file_paths test_files test_dir out_path_list)
+ foreach(filename ${${test_files}})
+ set(path_list ${path_list} "${test_dir}/${filename}")
+ endforeach()
+ set(${out_path_list} ${path_list} PARENT_SCOPE)
+endfunction()
+
+function(check_file local_path expected_checksum out_needs_update)
+ if(EXISTS "${local_path}")
+ file(SHA1 "${local_path}" file_checksum)
+ else()
+ set(${out_needs_update} 1 PARENT_SCOPE)
+ return()
+ endif()
+
+ if("${file_checksum}" STREQUAL "${expected_checksum}")
+ unset(${out_needs_update} PARENT_SCOPE)
+ else()
+ set(${out_needs_update} 1 PARENT_SCOPE)
+ return()
+ endif()
+ message("${local_path} up to date.")
+endfunction()
+
+# Downloads data from $file_url, confirms that $file_checksum matches, and
+# writes it to $local_path.
+function(download_test_file file_url file_checksum local_path)
+ message("Downloading ${file_url} ...")
+ file(DOWNLOAD "${file_url}" "${local_path}" SHOW_PROGRESS
+ EXPECTED_HASH SHA1=${file_checksum})
+ message("Download of ${file_url} complete.")
+endfunction()
diff --git a/third_party/aom/test/test_intra_pred_speed.cc b/third_party/aom/test/test_intra_pred_speed.cc
new file mode 100644
index 0000000000..b72ac11674
--- /dev/null
+++ b/third_party/aom/test/test_intra_pred_speed.cc
@@ -0,0 +1,1464 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+// Test and time AOM intra-predictor functions
+
+#include <stdio.h>
+#include <string>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_dsp_rtcd.h"
+
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/md5_helper.h"
+#include "aom/aom_integer.h"
+#include "aom_ports/mem.h"
+#include "aom_ports/aom_timer.h"
+#include "av1/common/common_data.h"
+
+// -----------------------------------------------------------------------------
+
+namespace {
+
+// Note:
+// APPLY_UNIT_TESTS
+// 1: Do unit tests
+// 0: Generate MD5 array as required
+#define APPLY_UNIT_TESTS 1
+
+typedef void (*AvxPredFunc)(uint8_t *dst, ptrdiff_t y_stride,
+ const uint8_t *above, const uint8_t *left);
+
+const int kBPS = 64;
+const int kTotalPixels = kBPS * kBPS;
+// 4 DC variants, V, H, PAETH, SMOOTH, SMOOTH_V, SMOOTH_H
+const int kNumAv1IntraFuncs = 10;
+
+#if APPLY_UNIT_TESTS
+const char *kAv1IntraPredNames[kNumAv1IntraFuncs] = {
+ "DC_PRED", "DC_LEFT_PRED", "DC_TOP_PRED", "DC_128_PRED", "V_PRED",
+ "H_PRED", "PAETH_PRED", "SMOOTH_PRED", "SMOOTH_V_PRED", "SMOOTH_H_PRED",
+};
+#endif // APPLY_UNIT_TESTS
+
+template <typename Pixel>
+struct IntraPredTestMem {
+ void Init(int block_width, int block_height, int bd) {
+ ASSERT_LE(block_width, kBPS);
+ ASSERT_LE(block_height, kBPS);
+ // Note: for blocks having width <= 32 and height <= 32, we generate 32x32
+ // random pixels as before to avoid having to recalculate all hashes again.
+ const int block_size_upto_32 = (block_width <= 32) && (block_height <= 32);
+ stride = block_size_upto_32 ? 32 : kBPS;
+ num_pixels = stride * stride;
+ libaom_test::ACMRandom rnd(libaom_test::ACMRandom::DeterministicSeed());
+ above = above_mem + 16;
+ const int mask = (1 << bd) - 1;
+ for (int i = 0; i < num_pixels; ++i) ref_src[i] = rnd.Rand16() & mask;
+ for (int i = 0; i < stride; ++i) left[i] = rnd.Rand16() & mask;
+ for (int i = -1; i < stride; ++i) above[i] = rnd.Rand16() & mask;
+
+ for (int i = stride; i < 2 * stride; ++i) {
+ left[i] = rnd.Rand16() & mask;
+ above[i] = rnd.Rand16() & mask;
+ }
+ }
+
+ DECLARE_ALIGNED(16, Pixel, src[kTotalPixels]);
+ DECLARE_ALIGNED(16, Pixel, ref_src[kTotalPixels]);
+ DECLARE_ALIGNED(16, Pixel, left[2 * kBPS]);
+ Pixel *above;
+ int stride;
+ int num_pixels;
+
+ private:
+ DECLARE_ALIGNED(16, Pixel, above_mem[2 * kBPS + 16]);
+};
+
+// -----------------------------------------------------------------------------
+// Low Bittdepth
+
+typedef IntraPredTestMem<uint8_t> Av1IntraPredTestMem;
+
+static const char *const kTxSizeStrings[TX_SIZES_ALL] = {
+ "4X4", "8X8", "16X16", "32X32", "64X64", "4X8", "8X4",
+ "8X16", "16X8", "16X32", "32X16", "32X64", "64X32", "4X16",
+ "16X4", "8X32", "32X8", "16X64", "64X16",
+};
+
+void CheckMd5Signature(TX_SIZE tx_size, bool is_hbd,
+ const char *const signatures[], const void *data,
+ size_t data_size, int elapsed_time, int idx) {
+ const std::string hbd_str = is_hbd ? "Hbd " : "";
+ const std::string name_str = hbd_str + "Intra" + kTxSizeStrings[tx_size];
+ libaom_test::MD5 md5;
+ md5.Add(reinterpret_cast<const uint8_t *>(data), data_size);
+#if APPLY_UNIT_TESTS
+ printf("Mode %s[%13s]: %5d ms MD5: %s\n", name_str.c_str(),
+ kAv1IntraPredNames[idx], elapsed_time, md5.Get());
+ EXPECT_STREQ(signatures[idx], md5.Get());
+#else
+ (void)signatures;
+ (void)elapsed_time;
+ (void)idx;
+ printf("\"%s\",\n", md5.Get());
+#endif
+}
+
+void TestIntraPred(TX_SIZE tx_size, AvxPredFunc const *pred_funcs,
+ const char *const signatures[]) {
+ const int block_width = tx_size_wide[tx_size];
+ const int block_height = tx_size_high[tx_size];
+ const int num_pixels_per_test =
+ block_width * block_height * kNumAv1IntraFuncs;
+ const int kNumTests = static_cast<int>(2.e10 / num_pixels_per_test);
+ Av1IntraPredTestMem intra_pred_test_mem;
+ intra_pred_test_mem.Init(block_width, block_height, 8);
+
+ for (int k = 0; k < kNumAv1IntraFuncs; ++k) {
+ if (pred_funcs[k] == NULL) continue;
+ memcpy(intra_pred_test_mem.src, intra_pred_test_mem.ref_src,
+ sizeof(intra_pred_test_mem.src));
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+ for (int num_tests = 0; num_tests < kNumTests; ++num_tests) {
+ pred_funcs[k](intra_pred_test_mem.src, intra_pred_test_mem.stride,
+ intra_pred_test_mem.above, intra_pred_test_mem.left);
+ }
+ libaom_test::ClearSystemState();
+ aom_usec_timer_mark(&timer);
+ const int elapsed_time =
+ static_cast<int>(aom_usec_timer_elapsed(&timer) / 1000);
+ CheckMd5Signature(
+ tx_size, false, signatures, intra_pred_test_mem.src,
+ intra_pred_test_mem.num_pixels * sizeof(*intra_pred_test_mem.src),
+ elapsed_time, k);
+ }
+}
+
+static const char *const kSignatures[TX_SIZES_ALL][kNumAv1IntraFuncs] = {
+ {
+ // 4X4
+ "e7ed7353c3383fff942e500e9bfe82fe",
+ "2a4a26fcc6ce005eadc08354d196c8a9",
+ "269d92eff86f315d9c38fe7640d85b15",
+ "ae2960eea9f71ee3dabe08b282ec1773",
+ "6c1abcc44e90148998b51acd11144e9c",
+ "f7bb3186e1ef8a2b326037ff898cad8e",
+ "59fc0e923a08cfac0a493fb38988e2bb",
+ "9ff8bb37d9c830e6ab8ecb0c435d3c91",
+ "de6937fca02354f2874dbc5dbec5d5b3",
+ "723cf948137f7d8c7860d814e55ae67d",
+ },
+ {
+ // 8X8
+ "d8bbae5d6547cfc17e4f5f44c8730e88",
+ "373bab6d931868d41a601d9d88ce9ac3",
+ "6fdd5ff4ff79656c14747598ca9e3706",
+ "d9661c2811d6a73674f40ffb2b841847",
+ "7c722d10b19ccff0b8c171868e747385",
+ "f81dd986eb2b50f750d3a7da716b7e27",
+ "064404361748dd111a890a1470d7f0ea",
+ "dc29b7e1f78cc8e7525d5ea4c0ab9b78",
+ "97111eb1bc26bade6272015df829f1ae",
+ "d19a8a73cc46b807f2c5e817576cc1e1",
+ },
+ {
+ // 16X16
+ "50971c07ce26977d30298538fffec619",
+ "527a6b9e0dc5b21b98cf276305432bef",
+ "7eff2868f80ebc2c43a4f367281d80f7",
+ "67cd60512b54964ef6aff1bd4816d922",
+ "48371c87dc95c08a33b2048f89cf6468",
+ "b0acf2872ee411d7530af6d2625a7084",
+ "93d6b5352b571805ab16a55e1bbed86a",
+ "03764e4c0aebbc180e4e2c68fb06df2b",
+ "bb6c74c9076c9f266ab11fb57060d8e6",
+ "0c5162bc28489756ddb847b5678e6f07",
+ },
+ {
+ // 32X32
+ "a0a618c900e65ae521ccc8af789729f2",
+ "985aaa7c72b4a6c2fb431d32100cf13a",
+ "10662d09febc3ca13ee4e700120daeb5",
+ "b3b01379ba08916ef6b1b35f7d9ad51c",
+ "9f4261755795af97e34679c333ec7004",
+ "bc2c9da91ad97ef0d1610fb0a9041657",
+ "ef1653982b69e1f64bee3759f3e1ec45",
+ "1a51a675deba2c83282142eb48d3dc3d",
+ "866c224746dc260cda861a7b1b383fb3",
+ "cea23799fc3526e1b6a6ff02b42b82af",
+ },
+ {
+ // 64X64
+ "6e1094fa7b50bc813aa2ba29f5df8755",
+ "afe020786b83b793c2bbd9468097ff6e",
+ "be91585259bc37bf4dc1651936e90b3e",
+ "a1650dbcd56e10288c3e269eca37967d",
+ "9e5c34f3797e0cdd3cd9d4c05b0d8950",
+ "bc87be7ac899cc6a28f399d7516c49fe",
+ "9811fd0d2dd515f06122f5d1bd18b784",
+ "3c140e466f2c2c0d9cb7d2157ab8dc27",
+ "9543de76c925a8f6adc884cc7f98dc91",
+ "df1df0376cc944afe7e74e94f53e575a",
+ },
+ {
+ // 4X8
+ "d9fbebdc85f71ab1e18461b2db4a2adc",
+ "5ccb2a68284bc9714d94b8a06ccadbb2",
+ "735d059abc2744f3ff3f9590f7191b37",
+ "d9fbebdc85f71ab1e18461b2db4a2adc",
+ "6819497c44cd0ace120add83672996ee",
+ "7e3244f5a2d3edf81c7e962a842b97f9",
+ "809350f164cd4d1650850bb0f59c3260",
+ "1b60a394331eeab6927a6f8aaff57040",
+ "5307de1bd7329ba6b281d2c1b0b457f9",
+ "24c58a8138339846d95568efb91751db",
+ },
+ {
+ // 8X4
+ "23f9fc11344426c9bee2e06d57dfd628",
+ "2d71a26d1bae1fb34734de7b42fc5eb7",
+ "5af9c1b2fd9d5721fad67b67b3f7c816",
+ "00d71b17be662753813d515f197d145e",
+ "bef10ec984427e28f4390f43809d10af",
+ "77773cdfb7ed6bc882ab202a64b0a470",
+ "2cc48bd66d6b0121b5221d52ccd732af",
+ "b302155e1c9eeeafe2ba2bf68e807a46",
+ "561bc8d0e76d5041ebd5168fc6a115e1",
+ "81d0113fb1d0a9a24ffd6f1987b77948",
+ },
+ {
+ // 8X16
+ "c849de88b24f773dfcdd1d48d1209796",
+ "6cb807c1897b94866a0f3d3c56ed8695",
+ "d56db05a8ac7981762f5b877f486c4ef",
+ "b4bc01eb6e59a40922ad17715cafb04b",
+ "09d178439534f4062ae687c351f66d64",
+ "644501399cf73080ac606e5cef7ca09b",
+ "278076495180e17c065a95ab7278539a",
+ "9dd7f324816f242be408ffeb0c673732",
+ "f520c4a20acfa0bea1d253c6f0f040fd",
+ "85f38df809df2c2d7c8b4a157a65cd44",
+ },
+ {
+ // 16X8
+ "b4cbdbdf10ce13300b4063a3daf99e04",
+ "3731e1e6202064a9d0604d7c293ecee4",
+ "6c856188c4256a06452f0d5d70cac436",
+ "1f2192b4c8c497589484ea7bf9c944e8",
+ "84011bd4b7f565119d06787840e333a0",
+ "0e48949f7a6aa36f0d76b5d01f91124a",
+ "60eff8064634b6c73b10681356baeee9",
+ "1559aeb081a9c0c71111d6093c2ff9fd",
+ "c15479b739713773e5cabb748451987b",
+ "72e33ec12c9b67aea26d8d005fb82de2",
+ },
+ {
+ // 16X32
+ "abe5233d189cdbf79424721571bbaa7b",
+ "282759f81e3cfb2e2d396fe406b72a8b",
+ "e2224926c264f6f174cbc3167a233168",
+ "6814e85c2b33f8c9415d62e80394b47b",
+ "99cbbb60459c08a3061d72c4e4f6276a",
+ "1d1567d40b8e816f8c1f71e576fe0f87",
+ "36fdd371b624a075814d497c4832ec85",
+ "8ab8da61b727442b6ff692b40d0df018",
+ "e35a10ad7fdf2327e821504a90f6a6eb",
+ "1f7211e727dc1de7d6a55d082fbdd821",
+ },
+ {
+ // 32X16
+ "d1aeb8d5fdcfd3307922af01a798a4dc",
+ "b0bcb514ebfbee065faea9d34c12ae75",
+ "d6a18c63b4e909871c0137ca652fad23",
+ "fd047f2fc1b8ffb95d0eeef3e8796a45",
+ "645ab60779ea348fd93c81561c31bab9",
+ "4409633c9db8dff41ade4292a3a56e7f",
+ "5e36a11e069b31c2a739f3a9c7b37c24",
+ "e83b9483d702cfae496991c3c7fa92c0",
+ "12f6ddf98c7f30a277307f1ea935b030",
+ "354321d6c32bbdb0739e4fa2acbf41e1",
+ },
+ {
+ // 32X64
+ "0ce332b343934b34cd4417725faa85cb",
+ "4e2a2cfd8f56f15939bdfc753145b303",
+ "0f46d124ba9f48cdd5d5290acf786d6d",
+ "e1e8ed803236367821981500a3d9eebe",
+ "1d2f8e48e3adb7c448be05d9f66f4954",
+ "9fb2e176636a5689b26f73ca73fcc512",
+ "e720ebccae7e25e36f23da53ae5b5d6a",
+ "86fe4364734169aaa4520d799890d530",
+ "b1870290764bb1b100d1974e2bd70f1d",
+ "ce5b238e19d85ef69d85badfab4e63ae",
+ },
+ {
+ // 64X32
+ "a6c5aeb722615089efbca80b02951ceb",
+ "538424b24bd0830f21788e7238ca762f",
+ "80c15b303235f9bc2259027bb92dfdc4",
+ "e48e1ac15e97191a8fda08d62fff343e",
+ "12604b37875533665078405ef4582e35",
+ "0048afa17bd3e1632d68b96048836530",
+ "07a0cfcb56a5eed50c4bd6c26814336b",
+ "529d8a070de5bc6531fa3ee8f450c233",
+ "33c50a11c7d78f72434064f634305e95",
+ "e0ef7f0559c1a50ec5a8c12011b962f7",
+ },
+ {
+ // 4X16
+ "750491056568eb8fe15387b86bdf06b8",
+ "3a52dae9f599f08cfb3bd1b910dc0e11",
+ "af79f71e3e03dbeca44e2e13561f70c7",
+ "ca7dfd7624afc0c06fb5552f44398535",
+ "b591af115444bf43140c29c269f68fb2",
+ "483d942ae36e69e62f31eb215331416f",
+ "f14b58525e81870bc5d95c7ac71a347f",
+ "371208bb4027d9badb04095d1590bbc4",
+ "c7049c21b2924d70c7c12784d6b6b796",
+ "7d87233f4b5b0f12086045e5d7b2d4c2",
+ },
+ {
+ // 16X4
+ "7c6e325a65e77e732b3adbe237e045e4",
+ "24478f93ffcec47852e004d0fe948464",
+ "258d042c67d4ba3ecfa667f0adc9aebf",
+ "b2cd21d06959f159a1f3c4d9768ee7fb",
+ "b4e1f38157bf8410e7c3da02f687a343",
+ "869e703729eb0fc0711c254944ff5d5a",
+ "9638dd77105a640b146a8201ea7a0801",
+ "919d932c6af8a1cc7486e8ce996dd487",
+ "e1c9be493b6714c7ae48f30044c43140",
+ "bf0fe3889d654b2f6eb98c8fc751f9e4",
+ },
+ {
+ // 8X32
+ "8dfac4319fe0bd40013ffb3102da8c72",
+ "feb46b6dc4e2ca0a09533bfc51d4dcb0",
+ "850837ec714c37262216527aaf4cbbe9",
+ "4603c7800fb08361f163daca876e8bda",
+ "1ff95e7d2debc27b05806fb25abfd624",
+ "d81b9a51a062b23ca7823804cb7bec22",
+ "f1d8978158766f46335203608cb807e7",
+ "f3527096256258c0878d644a9d7d53ca",
+ "cbde98ac8b009953eb112807ad2ea29e",
+ "654fb1153415747feae599f538122af5",
+ },
+ {
+ // 32X8
+ "3d4ee16fab374357474f60b845327bc7",
+ "bc17c5059473a476df4e85f56395ad55",
+ "3d4ee16fab374357474f60b845327bc7",
+ "c14b8db34dc2355b84e3735c9ba16c7f",
+ "a71d25b5d47a92a8b9223c98f18458ee",
+ "6c1cfe2b1893f4576a80675687cb6426",
+ "92d11bbef8b85bb48d799bb055de3514",
+ "bcf81d1db8ae5cc03360467f44f498ec",
+ "79f8c564163555592e808e145eaf5c60",
+ "46fff139cef2ef773938bcc8b0e5abb8",
+ },
+ {
+ // 16X64
+ "3b2a053ee8b05a8ac35ad23b0422a151",
+ "12b0c69595328c465e0b25e0c9e3e9fc",
+ "f77c544ac8035e01920deae40cee7b07",
+ "727797ef15ccd8d325476fe8f12006a3",
+ "f3be77c0fe67eb5d9d515e92bec21eb7",
+ "f1ece6409e01e9dd98b800d49628247d",
+ "efd2ec9bfbbd4fd1f6604ea369df1894",
+ "ec703de918422b9e03197ba0ed60a199",
+ "739418efb89c07f700895deaa5d0b3e3",
+ "9943ae1bbeeebfe1d3a92dc39e049d63",
+ },
+ {
+ // 64X16
+ "821b76b1494d4f84d20817840f719a1a",
+ "69e462c3338a9aaf993c3f7cfbc15649",
+ "516d8f6eb054d74d150e7b444185b6b9",
+ "de1b736e9d99129609d6ef3a491507a0",
+ "fd9b4276e7affe1e0e4ce4f428058994",
+ "cd82fd361a4767ac29a9f406b480b8f3",
+ "2792c2f810157a4a6cb13c28529ff779",
+ "1220442d90c4255ba0969d28b91e93a6",
+ "c7253e10b45f7f67dfee3256c9b94825",
+ "879792198071c7e0b50b9b5010d8c18f",
+ },
+};
+
+} // namespace
+
+// Defines a test case for |arch| (e.g., C, SSE2, ...) passing the predictors
+// to TestIntraPred. The test name is 'arch.TestIntraPred_tx_size', e.g.,
+// C.TestIntraPred.0
+#define INTRA_PRED_TEST(arch, tx_size, dc, dc_left, dc_top, dc_128, v, h, \
+ paeth, smooth, smooth_v, smooth_h) \
+ TEST(arch, DISABLED_##TestIntraPred_##tx_size) { \
+ static const AvxPredFunc aom_intra_pred[] = { \
+ dc, dc_left, dc_top, dc_128, v, h, paeth, smooth, smooth_v, smooth_h \
+ }; \
+ TestIntraPred(tx_size, aom_intra_pred, kSignatures[tx_size]); \
+ }
+
+// -----------------------------------------------------------------------------
+// 4x4, 4x8, 4x16
+
+INTRA_PRED_TEST(C_1, TX_4X4, aom_dc_predictor_4x4_c,
+ aom_dc_left_predictor_4x4_c, aom_dc_top_predictor_4x4_c,
+ aom_dc_128_predictor_4x4_c, aom_v_predictor_4x4_c,
+ aom_h_predictor_4x4_c, aom_paeth_predictor_4x4_c,
+ aom_smooth_predictor_4x4_c, aom_smooth_v_predictor_4x4_c,
+ aom_smooth_h_predictor_4x4_c)
+
+INTRA_PRED_TEST(C_2, TX_4X8, aom_dc_predictor_4x8_c,
+ aom_dc_left_predictor_4x8_c, aom_dc_top_predictor_4x8_c,
+ aom_dc_128_predictor_4x8_c, aom_v_predictor_4x8_c,
+ aom_h_predictor_4x8_c, aom_paeth_predictor_4x8_c,
+ aom_smooth_predictor_4x8_c, aom_smooth_v_predictor_4x8_c,
+ aom_smooth_h_predictor_4x8_c)
+
+INTRA_PRED_TEST(C_3, TX_4X16, aom_dc_predictor_4x16_c,
+ aom_dc_left_predictor_4x16_c, aom_dc_top_predictor_4x16_c,
+ aom_dc_128_predictor_4x16_c, aom_v_predictor_4x16_c,
+ aom_h_predictor_4x16_c, aom_paeth_predictor_4x16_c,
+ aom_smooth_predictor_4x16_c, aom_smooth_v_predictor_4x16_c,
+ aom_smooth_h_predictor_4x16_c)
+
+#if HAVE_SSE2
+INTRA_PRED_TEST(SSE2_1, TX_4X4, aom_dc_predictor_4x4_sse2,
+ aom_dc_left_predictor_4x4_sse2, aom_dc_top_predictor_4x4_sse2,
+ aom_dc_128_predictor_4x4_sse2, aom_v_predictor_4x4_sse2,
+ aom_h_predictor_4x4_sse2, NULL, NULL, NULL, NULL)
+INTRA_PRED_TEST(SSE2_2, TX_4X8, aom_dc_predictor_4x8_sse2,
+ aom_dc_left_predictor_4x8_sse2, aom_dc_top_predictor_4x8_sse2,
+ aom_dc_128_predictor_4x8_sse2, aom_v_predictor_4x8_sse2,
+ aom_h_predictor_4x8_sse2, NULL, NULL, NULL, NULL)
+INTRA_PRED_TEST(SSE2_3, TX_4X16, aom_dc_predictor_4x16_sse2,
+ aom_dc_left_predictor_4x16_sse2, aom_dc_top_predictor_4x16_sse2,
+ aom_dc_128_predictor_4x16_sse2, aom_v_predictor_4x16_sse2,
+ aom_h_predictor_4x16_sse2, NULL, NULL, NULL, NULL)
+#endif // HAVE_SSE2
+
+#if HAVE_SSSE3
+INTRA_PRED_TEST(SSSE3_1, TX_4X4, NULL, NULL, NULL, NULL, NULL, NULL,
+ aom_paeth_predictor_4x4_ssse3, aom_smooth_predictor_4x4_ssse3,
+ aom_smooth_v_predictor_4x4_ssse3,
+ aom_smooth_h_predictor_4x4_ssse3)
+INTRA_PRED_TEST(SSSE3_2, TX_4X8, NULL, NULL, NULL, NULL, NULL, NULL,
+ aom_paeth_predictor_4x8_ssse3, aom_smooth_predictor_4x8_ssse3,
+ aom_smooth_v_predictor_4x8_ssse3,
+ aom_smooth_h_predictor_4x8_ssse3)
+INTRA_PRED_TEST(SSSE3_3, TX_4X16, NULL, NULL, NULL, NULL, NULL, NULL,
+ aom_paeth_predictor_4x16_ssse3, aom_smooth_predictor_4x16_ssse3,
+ aom_smooth_v_predictor_4x16_ssse3,
+ aom_smooth_h_predictor_4x16_ssse3)
+#endif // HAVE_SSSE3
+
+#if HAVE_DSPR2
+INTRA_PRED_TEST(DSPR2, TX_4X4, aom_dc_predictor_4x4_dspr2, NULL, NULL, NULL,
+ NULL, aom_h_predictor_4x4_dspr2, NULL, NULL, NULL, NULL)
+#endif // HAVE_DSPR2
+
+#if HAVE_NEON
+INTRA_PRED_TEST(NEON, TX_4X4, aom_dc_predictor_4x4_neon,
+ aom_dc_left_predictor_4x4_neon, aom_dc_top_predictor_4x4_neon,
+ aom_dc_128_predictor_4x4_neon, aom_v_predictor_4x4_neon,
+ aom_h_predictor_4x4_neon, NULL, NULL, NULL, NULL)
+#endif // HAVE_NEON
+
+#if HAVE_MSA
+INTRA_PRED_TEST(MSA, TX_4X4, aom_dc_predictor_4x4_msa,
+ aom_dc_left_predictor_4x4_msa, aom_dc_top_predictor_4x4_msa,
+ aom_dc_128_predictor_4x4_msa, aom_v_predictor_4x4_msa,
+ aom_h_predictor_4x4_msa, NULL, NULL, NULL, NULL)
+#endif // HAVE_MSA
+
+// -----------------------------------------------------------------------------
+// 8x8, 8x4, 8x16, 8x32
+
+INTRA_PRED_TEST(C_1, TX_8X8, aom_dc_predictor_8x8_c,
+ aom_dc_left_predictor_8x8_c, aom_dc_top_predictor_8x8_c,
+ aom_dc_128_predictor_8x8_c, aom_v_predictor_8x8_c,
+ aom_h_predictor_8x8_c, aom_paeth_predictor_8x8_c,
+ aom_smooth_predictor_8x8_c, aom_smooth_v_predictor_8x8_c,
+ aom_smooth_h_predictor_8x8_c)
+
+INTRA_PRED_TEST(C_2, TX_8X4, aom_dc_predictor_8x4_c,
+ aom_dc_left_predictor_8x4_c, aom_dc_top_predictor_8x4_c,
+ aom_dc_128_predictor_8x4_c, aom_v_predictor_8x4_c,
+ aom_h_predictor_8x4_c, aom_paeth_predictor_8x4_c,
+ aom_smooth_predictor_8x4_c, aom_smooth_v_predictor_8x4_c,
+ aom_smooth_h_predictor_8x4_c)
+
+INTRA_PRED_TEST(C_3, TX_8X16, aom_dc_predictor_8x16_c,
+ aom_dc_left_predictor_8x16_c, aom_dc_top_predictor_8x16_c,
+ aom_dc_128_predictor_8x16_c, aom_v_predictor_8x16_c,
+ aom_h_predictor_8x16_c, aom_paeth_predictor_8x16_c,
+ aom_smooth_predictor_8x16_c, aom_smooth_v_predictor_8x16_c,
+ aom_smooth_h_predictor_8x16_c)
+
+INTRA_PRED_TEST(C_4, TX_8X32, aom_dc_predictor_8x32_c,
+ aom_dc_left_predictor_8x32_c, aom_dc_top_predictor_8x32_c,
+ aom_dc_128_predictor_8x32_c, aom_v_predictor_8x32_c,
+ aom_h_predictor_8x32_c, aom_paeth_predictor_8x32_c,
+ aom_smooth_predictor_8x32_c, aom_smooth_v_predictor_8x32_c,
+ aom_smooth_h_predictor_8x32_c)
+
+#if HAVE_SSE2
+INTRA_PRED_TEST(SSE2_1, TX_8X8, aom_dc_predictor_8x8_sse2,
+ aom_dc_left_predictor_8x8_sse2, aom_dc_top_predictor_8x8_sse2,
+ aom_dc_128_predictor_8x8_sse2, aom_v_predictor_8x8_sse2,
+ aom_h_predictor_8x8_sse2, NULL, NULL, NULL, NULL)
+INTRA_PRED_TEST(SSE2_2, TX_8X4, aom_dc_predictor_8x4_sse2,
+ aom_dc_left_predictor_8x4_sse2, aom_dc_top_predictor_8x4_sse2,
+ aom_dc_128_predictor_8x4_sse2, aom_v_predictor_8x4_sse2,
+ aom_h_predictor_8x4_sse2, NULL, NULL, NULL, NULL)
+INTRA_PRED_TEST(SSE2_3, TX_8X16, aom_dc_predictor_8x16_sse2,
+ aom_dc_left_predictor_8x16_sse2, aom_dc_top_predictor_8x16_sse2,
+ aom_dc_128_predictor_8x16_sse2, aom_v_predictor_8x16_sse2,
+ aom_h_predictor_8x16_sse2, NULL, NULL, NULL, NULL)
+INTRA_PRED_TEST(SSE2_4, TX_8X32, aom_dc_predictor_8x32_sse2,
+ aom_dc_left_predictor_8x32_sse2, aom_dc_top_predictor_8x32_sse2,
+ aom_dc_128_predictor_8x32_sse2, aom_v_predictor_8x32_sse2,
+ aom_h_predictor_8x32_sse2, NULL, NULL, NULL, NULL)
+#endif // HAVE_SSE2
+
+#if HAVE_SSSE3
+INTRA_PRED_TEST(SSSE3_1, TX_8X8, NULL, NULL, NULL, NULL, NULL, NULL,
+ aom_paeth_predictor_8x8_ssse3, aom_smooth_predictor_8x8_ssse3,
+ aom_smooth_v_predictor_8x8_ssse3,
+ aom_smooth_h_predictor_8x8_ssse3)
+INTRA_PRED_TEST(SSSE3_2, TX_8X4, NULL, NULL, NULL, NULL, NULL, NULL,
+ aom_paeth_predictor_8x4_ssse3, aom_smooth_predictor_8x4_ssse3,
+ aom_smooth_v_predictor_8x4_ssse3,
+ aom_smooth_h_predictor_8x4_ssse3)
+INTRA_PRED_TEST(SSSE3_3, TX_8X16, NULL, NULL, NULL, NULL, NULL, NULL,
+ aom_paeth_predictor_8x16_ssse3, aom_smooth_predictor_8x16_ssse3,
+ aom_smooth_v_predictor_8x16_ssse3,
+ aom_smooth_h_predictor_8x16_ssse3)
+INTRA_PRED_TEST(SSSE3_4, TX_8X32, NULL, NULL, NULL, NULL, NULL, NULL,
+ aom_paeth_predictor_8x32_ssse3, aom_smooth_predictor_8x32_ssse3,
+ aom_smooth_v_predictor_8x32_ssse3,
+ aom_smooth_h_predictor_8x32_ssse3)
+#endif // HAVE_SSSE3
+
+#if HAVE_DSPR2
+INTRA_PRED_TEST(DSPR2, TX_8X8, aom_dc_predictor_8x8_dspr2, NULL, NULL, NULL,
+ NULL, aom_h_predictor_8x8_dspr2, NULL, NULL, NULL, NULL)
+#endif // HAVE_DSPR2
+
+#if HAVE_NEON
+INTRA_PRED_TEST(NEON, TX_8X8, aom_dc_predictor_8x8_neon,
+ aom_dc_left_predictor_8x8_neon, aom_dc_top_predictor_8x8_neon,
+ aom_dc_128_predictor_8x8_neon, aom_v_predictor_8x8_neon,
+ aom_h_predictor_8x8_neon, NULL, NULL, NULL, NULL)
+#endif // HAVE_NEON
+
+#if HAVE_MSA
+INTRA_PRED_TEST(MSA, TX_8X8, aom_dc_predictor_8x8_msa,
+ aom_dc_left_predictor_8x8_msa, aom_dc_top_predictor_8x8_msa,
+ aom_dc_128_predictor_8x8_msa, aom_v_predictor_8x8_msa,
+ aom_h_predictor_8x8_msa, NULL, NULL, NULL, NULL)
+#endif // HAVE_MSA
+
+// -----------------------------------------------------------------------------
+// 16x16, 16x8, 16x32, 16x4, 16x64
+
+INTRA_PRED_TEST(C_1, TX_16X16, aom_dc_predictor_16x16_c,
+ aom_dc_left_predictor_16x16_c, aom_dc_top_predictor_16x16_c,
+ aom_dc_128_predictor_16x16_c, aom_v_predictor_16x16_c,
+ aom_h_predictor_16x16_c, aom_paeth_predictor_16x16_c,
+ aom_smooth_predictor_16x16_c, aom_smooth_v_predictor_16x16_c,
+ aom_smooth_h_predictor_16x16_c)
+
+INTRA_PRED_TEST(C_2, TX_16X8, aom_dc_predictor_16x8_c,
+ aom_dc_left_predictor_16x8_c, aom_dc_top_predictor_16x8_c,
+ aom_dc_128_predictor_16x8_c, aom_v_predictor_16x8_c,
+ aom_h_predictor_16x8_c, aom_paeth_predictor_16x8_c,
+ aom_smooth_predictor_16x8_c, aom_smooth_v_predictor_16x8_c,
+ aom_smooth_h_predictor_16x8_c)
+
+INTRA_PRED_TEST(C_3, TX_16X32, aom_dc_predictor_16x32_c,
+ aom_dc_left_predictor_16x32_c, aom_dc_top_predictor_16x32_c,
+ aom_dc_128_predictor_16x32_c, aom_v_predictor_16x32_c,
+ aom_h_predictor_16x32_c, aom_paeth_predictor_16x32_c,
+ aom_smooth_predictor_16x32_c, aom_smooth_v_predictor_16x32_c,
+ aom_smooth_h_predictor_16x32_c)
+
+INTRA_PRED_TEST(C_4, TX_16X4, aom_dc_predictor_16x4_c,
+ aom_dc_left_predictor_16x4_c, aom_dc_top_predictor_16x4_c,
+ aom_dc_128_predictor_16x4_c, aom_v_predictor_16x4_c,
+ aom_h_predictor_16x4_c, aom_paeth_predictor_16x4_c,
+ aom_smooth_predictor_16x4_c, aom_smooth_v_predictor_16x4_c,
+ aom_smooth_h_predictor_16x4_c)
+
+INTRA_PRED_TEST(C_5, TX_16X64, aom_dc_predictor_16x64_c,
+ aom_dc_left_predictor_16x64_c, aom_dc_top_predictor_16x64_c,
+ aom_dc_128_predictor_16x64_c, aom_v_predictor_16x64_c,
+ aom_h_predictor_16x64_c, aom_paeth_predictor_16x64_c,
+ aom_smooth_predictor_16x64_c, aom_smooth_v_predictor_16x64_c,
+ aom_smooth_h_predictor_16x64_c)
+
+#if HAVE_SSE2
+INTRA_PRED_TEST(SSE2_1, TX_16X16, aom_dc_predictor_16x16_sse2,
+ aom_dc_left_predictor_16x16_sse2,
+ aom_dc_top_predictor_16x16_sse2,
+ aom_dc_128_predictor_16x16_sse2, aom_v_predictor_16x16_sse2,
+ aom_h_predictor_16x16_sse2, NULL, NULL, NULL, NULL)
+INTRA_PRED_TEST(SSE2_2, TX_16X8, aom_dc_predictor_16x8_sse2,
+ aom_dc_left_predictor_16x8_sse2, aom_dc_top_predictor_16x8_sse2,
+ aom_dc_128_predictor_16x8_sse2, aom_v_predictor_16x8_sse2,
+ aom_h_predictor_16x8_sse2, NULL, NULL, NULL, NULL)
+INTRA_PRED_TEST(SSE2_3, TX_16X32, aom_dc_predictor_16x32_sse2,
+ aom_dc_left_predictor_16x32_sse2,
+ aom_dc_top_predictor_16x32_sse2,
+ aom_dc_128_predictor_16x32_sse2, aom_v_predictor_16x32_sse2,
+ aom_h_predictor_16x32_sse2, NULL, NULL, NULL, NULL)
+INTRA_PRED_TEST(SSE2_4, TX_16X64, aom_dc_predictor_16x64_sse2,
+ aom_dc_left_predictor_16x64_sse2,
+ aom_dc_top_predictor_16x64_sse2,
+ aom_dc_128_predictor_16x64_sse2, aom_v_predictor_16x64_sse2,
+ aom_h_predictor_16x64_sse2, NULL, NULL, NULL, NULL)
+INTRA_PRED_TEST(SSE2_5, TX_16X4, aom_dc_predictor_16x4_sse2,
+ aom_dc_left_predictor_16x4_sse2, aom_dc_top_predictor_16x4_sse2,
+ aom_dc_128_predictor_16x4_sse2, aom_v_predictor_16x4_sse2,
+ aom_h_predictor_16x4_sse2, NULL, NULL, NULL, NULL)
+#endif // HAVE_SSE2
+
+#if HAVE_SSSE3
+INTRA_PRED_TEST(SSSE3_1, TX_16X16, NULL, NULL, NULL, NULL, NULL, NULL,
+ aom_paeth_predictor_16x16_ssse3,
+ aom_smooth_predictor_16x16_ssse3,
+ aom_smooth_v_predictor_16x16_ssse3,
+ aom_smooth_h_predictor_16x16_ssse3)
+INTRA_PRED_TEST(SSSE3_2, TX_16X8, NULL, NULL, NULL, NULL, NULL, NULL,
+ aom_paeth_predictor_16x8_ssse3, aom_smooth_predictor_16x8_ssse3,
+ aom_smooth_v_predictor_16x8_ssse3,
+ aom_smooth_h_predictor_16x8_ssse3)
+INTRA_PRED_TEST(SSSE3_3, TX_16X32, NULL, NULL, NULL, NULL, NULL, NULL,
+ aom_paeth_predictor_16x32_ssse3,
+ aom_smooth_predictor_16x32_ssse3,
+ aom_smooth_v_predictor_16x32_ssse3,
+ aom_smooth_h_predictor_16x32_ssse3)
+INTRA_PRED_TEST(SSSE3_4, TX_16X64, NULL, NULL, NULL, NULL, NULL, NULL,
+ aom_paeth_predictor_16x64_ssse3,
+ aom_smooth_predictor_16x64_ssse3,
+ aom_smooth_v_predictor_16x64_ssse3,
+ aom_smooth_h_predictor_16x64_ssse3)
+INTRA_PRED_TEST(SSSE3_5, TX_16X4, NULL, NULL, NULL, NULL, NULL, NULL,
+ aom_paeth_predictor_16x4_ssse3, aom_smooth_predictor_16x4_ssse3,
+ aom_smooth_v_predictor_16x4_ssse3,
+ aom_smooth_h_predictor_16x4_ssse3)
+#endif // HAVE_SSSE3
+
+#if HAVE_AVX2
+INTRA_PRED_TEST(AVX2_1, TX_16X16, NULL, NULL, NULL, NULL, NULL, NULL,
+ aom_paeth_predictor_16x16_avx2, NULL, NULL, NULL)
+INTRA_PRED_TEST(AVX2_2, TX_16X8, NULL, NULL, NULL, NULL, NULL, NULL,
+ aom_paeth_predictor_16x8_avx2, NULL, NULL, NULL)
+INTRA_PRED_TEST(AVX2_3, TX_16X32, NULL, NULL, NULL, NULL, NULL, NULL,
+ aom_paeth_predictor_16x32_avx2, NULL, NULL, NULL)
+INTRA_PRED_TEST(AVX2_4, TX_16X64, NULL, NULL, NULL, NULL, NULL, NULL,
+ aom_paeth_predictor_16x64_avx2, NULL, NULL, NULL)
+#endif // HAVE_AVX2
+
+#if HAVE_DSPR2
+INTRA_PRED_TEST(DSPR2, TX_16X16, aom_dc_predictor_16x16_dspr2, NULL, NULL, NULL,
+ NULL, aom_h_predictor_16x16_dspr2, NULL, NULL, NULL, NULL)
+#endif // HAVE_DSPR2
+
+#if HAVE_NEON
+INTRA_PRED_TEST(NEON, TX_16X16, aom_dc_predictor_16x16_neon,
+ aom_dc_left_predictor_16x16_neon,
+ aom_dc_top_predictor_16x16_neon,
+ aom_dc_128_predictor_16x16_neon, aom_v_predictor_16x16_neon,
+ aom_h_predictor_16x16_neon, NULL, NULL, NULL, NULL)
+#endif // HAVE_NEON
+
+#if HAVE_MSA
+INTRA_PRED_TEST(MSA, TX_16X16, aom_dc_predictor_16x16_msa,
+ aom_dc_left_predictor_16x16_msa, aom_dc_top_predictor_16x16_msa,
+ aom_dc_128_predictor_16x16_msa, aom_v_predictor_16x16_msa,
+ aom_h_predictor_16x16_msa, NULL, NULL, NULL, NULL)
+#endif // HAVE_MSA
+
+// -----------------------------------------------------------------------------
+// 32x32, 32x16, 32x64, 32x8
+
+INTRA_PRED_TEST(C_1, TX_32X32, aom_dc_predictor_32x32_c,
+ aom_dc_left_predictor_32x32_c, aom_dc_top_predictor_32x32_c,
+ aom_dc_128_predictor_32x32_c, aom_v_predictor_32x32_c,
+ aom_h_predictor_32x32_c, aom_paeth_predictor_32x32_c,
+ aom_smooth_predictor_32x32_c, aom_smooth_v_predictor_32x32_c,
+ aom_smooth_h_predictor_32x32_c)
+
+INTRA_PRED_TEST(C_2, TX_32X16, aom_dc_predictor_32x16_c,
+ aom_dc_left_predictor_32x16_c, aom_dc_top_predictor_32x16_c,
+ aom_dc_128_predictor_32x16_c, aom_v_predictor_32x16_c,
+ aom_h_predictor_32x16_c, aom_paeth_predictor_32x16_c,
+ aom_smooth_predictor_32x16_c, aom_smooth_v_predictor_32x16_c,
+ aom_smooth_h_predictor_32x16_c)
+
+INTRA_PRED_TEST(C_3, TX_32X64, aom_dc_predictor_32x64_c,
+ aom_dc_left_predictor_32x64_c, aom_dc_top_predictor_32x64_c,
+ aom_dc_128_predictor_32x64_c, aom_v_predictor_32x64_c,
+ aom_h_predictor_32x64_c, aom_paeth_predictor_32x64_c,
+ aom_smooth_predictor_32x64_c, aom_smooth_v_predictor_32x64_c,
+ aom_smooth_h_predictor_32x64_c)
+
+INTRA_PRED_TEST(C_4, TX_32X8, aom_dc_predictor_32x8_c,
+ aom_dc_left_predictor_32x8_c, aom_dc_top_predictor_32x8_c,
+ aom_dc_128_predictor_32x8_c, aom_v_predictor_32x8_c,
+ aom_h_predictor_32x8_c, aom_paeth_predictor_32x8_c,
+ aom_smooth_predictor_32x8_c, aom_smooth_v_predictor_32x8_c,
+ aom_smooth_h_predictor_32x8_c)
+
+#if HAVE_SSE2
+INTRA_PRED_TEST(SSE2_1, TX_32X32, aom_dc_predictor_32x32_sse2,
+ aom_dc_left_predictor_32x32_sse2,
+ aom_dc_top_predictor_32x32_sse2,
+ aom_dc_128_predictor_32x32_sse2, aom_v_predictor_32x32_sse2,
+ aom_h_predictor_32x32_sse2, NULL, NULL, NULL, NULL)
+INTRA_PRED_TEST(SSE2_2, TX_32X16, aom_dc_predictor_32x16_sse2,
+ aom_dc_left_predictor_32x16_sse2,
+ aom_dc_top_predictor_32x16_sse2,
+ aom_dc_128_predictor_32x16_sse2, aom_v_predictor_32x16_sse2,
+ aom_h_predictor_32x16_sse2, NULL, NULL, NULL, NULL)
+INTRA_PRED_TEST(SSE2_3, TX_32X64, aom_dc_predictor_32x64_sse2,
+ aom_dc_left_predictor_32x64_sse2,
+ aom_dc_top_predictor_32x64_sse2,
+ aom_dc_128_predictor_32x64_sse2, aom_v_predictor_32x64_sse2,
+ aom_h_predictor_32x64_sse2, NULL, NULL, NULL, NULL)
+INTRA_PRED_TEST(SSE2_4, TX_32X8, aom_dc_predictor_32x8_sse2,
+ aom_dc_left_predictor_32x8_sse2, aom_dc_top_predictor_32x8_sse2,
+ aom_dc_128_predictor_32x8_sse2, aom_v_predictor_32x8_sse2,
+ aom_h_predictor_32x8_sse2, NULL, NULL, NULL, NULL)
+#endif // HAVE_SSE2
+
+#if HAVE_SSSE3
+INTRA_PRED_TEST(SSSE3_1, TX_32X32, NULL, NULL, NULL, NULL, NULL, NULL,
+ aom_paeth_predictor_32x32_ssse3,
+ aom_smooth_predictor_32x32_ssse3,
+ aom_smooth_v_predictor_32x32_ssse3,
+ aom_smooth_h_predictor_32x32_ssse3)
+INTRA_PRED_TEST(SSSE3_2, TX_32X16, NULL, NULL, NULL, NULL, NULL, NULL,
+ aom_paeth_predictor_32x16_ssse3,
+ aom_smooth_predictor_32x16_ssse3,
+ aom_smooth_v_predictor_32x16_ssse3,
+ aom_smooth_h_predictor_32x16_ssse3)
+INTRA_PRED_TEST(SSSE3_3, TX_32X64, NULL, NULL, NULL, NULL, NULL, NULL,
+ aom_paeth_predictor_32x64_ssse3,
+ aom_smooth_predictor_32x64_ssse3,
+ aom_smooth_v_predictor_32x64_ssse3,
+ aom_smooth_h_predictor_32x64_ssse3)
+INTRA_PRED_TEST(SSSE3_4, TX_32X8, NULL, NULL, NULL, NULL, NULL, NULL,
+ aom_paeth_predictor_32x8_ssse3, aom_smooth_predictor_32x8_ssse3,
+ aom_smooth_v_predictor_32x8_ssse3,
+ aom_smooth_h_predictor_32x8_ssse3)
+#endif // HAVE_SSSE3
+
+#if HAVE_AVX2
+INTRA_PRED_TEST(AVX2_1, TX_32X32, aom_dc_predictor_32x32_avx2,
+ aom_dc_left_predictor_32x32_avx2,
+ aom_dc_top_predictor_32x32_avx2,
+ aom_dc_128_predictor_32x32_avx2, aom_v_predictor_32x32_avx2,
+ aom_h_predictor_32x32_avx2, aom_paeth_predictor_32x32_avx2,
+ NULL, NULL, NULL)
+INTRA_PRED_TEST(AVX2_2, TX_32X16, aom_dc_predictor_32x16_avx2,
+ aom_dc_left_predictor_32x16_avx2,
+ aom_dc_top_predictor_32x16_avx2,
+ aom_dc_128_predictor_32x16_avx2, aom_v_predictor_32x16_avx2,
+ NULL, aom_paeth_predictor_32x16_avx2, NULL, NULL, NULL)
+INTRA_PRED_TEST(AVX2_3, TX_32X64, aom_dc_predictor_32x64_avx2,
+ aom_dc_left_predictor_32x64_avx2,
+ aom_dc_top_predictor_32x64_avx2,
+ aom_dc_128_predictor_32x64_avx2, aom_v_predictor_32x64_avx2,
+ NULL, aom_paeth_predictor_32x64_avx2, NULL, NULL, NULL)
+#endif // HAVE_AVX2
+
+#if HAVE_NEON
+INTRA_PRED_TEST(NEON, TX_32X32, aom_dc_predictor_32x32_neon,
+ aom_dc_left_predictor_32x32_neon,
+ aom_dc_top_predictor_32x32_neon,
+ aom_dc_128_predictor_32x32_neon, aom_v_predictor_32x32_neon,
+ aom_h_predictor_32x32_neon, NULL, NULL, NULL, NULL)
+#endif // HAVE_NEON
+
+#if HAVE_MSA
+INTRA_PRED_TEST(MSA, TX_32X32, aom_dc_predictor_32x32_msa,
+ aom_dc_left_predictor_32x32_msa, aom_dc_top_predictor_32x32_msa,
+ aom_dc_128_predictor_32x32_msa, aom_v_predictor_32x32_msa,
+ aom_h_predictor_32x32_msa, NULL, NULL, NULL, NULL)
+#endif // HAVE_MSA
+
+// -----------------------------------------------------------------------------
+// 64x64, 64x32, 64x16
+
+INTRA_PRED_TEST(C_1, TX_64X64, aom_dc_predictor_64x64_c,
+ aom_dc_left_predictor_64x64_c, aom_dc_top_predictor_64x64_c,
+ aom_dc_128_predictor_64x64_c, aom_v_predictor_64x64_c,
+ aom_h_predictor_64x64_c, aom_paeth_predictor_64x64_c,
+ aom_smooth_predictor_64x64_c, aom_smooth_v_predictor_64x64_c,
+ aom_smooth_h_predictor_64x64_c)
+
+INTRA_PRED_TEST(C_2, TX_64X32, aom_dc_predictor_64x32_c,
+ aom_dc_left_predictor_64x32_c, aom_dc_top_predictor_64x32_c,
+ aom_dc_128_predictor_64x32_c, aom_v_predictor_64x32_c,
+ aom_h_predictor_64x32_c, aom_paeth_predictor_64x32_c,
+ aom_smooth_predictor_64x32_c, aom_smooth_v_predictor_64x32_c,
+ aom_smooth_h_predictor_64x32_c)
+
+INTRA_PRED_TEST(C_3, TX_64X16, aom_dc_predictor_64x16_c,
+ aom_dc_left_predictor_64x16_c, aom_dc_top_predictor_64x16_c,
+ aom_dc_128_predictor_64x16_c, aom_v_predictor_64x16_c,
+ aom_h_predictor_64x16_c, aom_paeth_predictor_64x16_c,
+ aom_smooth_predictor_64x16_c, aom_smooth_v_predictor_64x16_c,
+ aom_smooth_h_predictor_64x16_c)
+
+#if HAVE_SSE2
+INTRA_PRED_TEST(SSE2_4, TX_64X64, aom_dc_predictor_64x64_sse2,
+ aom_dc_left_predictor_64x64_sse2,
+ aom_dc_top_predictor_64x64_sse2,
+ aom_dc_128_predictor_64x64_sse2, aom_v_predictor_64x64_sse2,
+ aom_h_predictor_64x64_sse2, NULL, NULL, NULL, NULL)
+INTRA_PRED_TEST(SSE2_5, TX_64X32, aom_dc_predictor_64x32_sse2,
+ aom_dc_left_predictor_64x32_sse2,
+ aom_dc_top_predictor_64x32_sse2,
+ aom_dc_128_predictor_64x32_sse2, aom_v_predictor_64x32_sse2,
+ aom_h_predictor_64x32_sse2, NULL, NULL, NULL, NULL)
+INTRA_PRED_TEST(SSE2_6, TX_64X16, aom_dc_predictor_64x16_sse2,
+ aom_dc_left_predictor_64x16_sse2,
+ aom_dc_top_predictor_64x16_sse2,
+ aom_dc_128_predictor_64x16_sse2, aom_v_predictor_64x16_sse2,
+ aom_h_predictor_64x16_sse2, NULL, NULL, NULL, NULL)
+#endif
+
+#if HAVE_SSSE3
+INTRA_PRED_TEST(SSSE3_4, TX_64X64, NULL, NULL, NULL, NULL, NULL, NULL,
+ aom_paeth_predictor_64x64_ssse3,
+ aom_smooth_predictor_64x64_ssse3,
+ aom_smooth_v_predictor_64x64_ssse3,
+ aom_smooth_h_predictor_64x64_ssse3)
+INTRA_PRED_TEST(SSSE3_5, TX_64X32, NULL, NULL, NULL, NULL, NULL, NULL,
+ aom_paeth_predictor_64x32_ssse3,
+ aom_smooth_predictor_64x32_ssse3,
+ aom_smooth_v_predictor_64x32_ssse3,
+ aom_smooth_h_predictor_64x32_ssse3)
+INTRA_PRED_TEST(SSSE3_6, TX_64X16, NULL, NULL, NULL, NULL, NULL, NULL,
+ aom_paeth_predictor_64x16_ssse3,
+ aom_smooth_predictor_64x16_ssse3,
+ aom_smooth_v_predictor_64x16_ssse3,
+ aom_smooth_h_predictor_64x16_ssse3)
+#endif
+
+#if HAVE_AVX2
+INTRA_PRED_TEST(AVX2_4, TX_64X64, aom_dc_predictor_64x64_avx2,
+ aom_dc_left_predictor_64x64_avx2,
+ aom_dc_top_predictor_64x64_avx2,
+ aom_dc_128_predictor_64x64_avx2, aom_v_predictor_64x64_avx2,
+ NULL, aom_paeth_predictor_64x64_avx2, NULL, NULL, NULL)
+INTRA_PRED_TEST(AVX2_5, TX_64X32, aom_dc_predictor_64x32_avx2,
+ aom_dc_left_predictor_64x32_avx2,
+ aom_dc_top_predictor_64x32_avx2,
+ aom_dc_128_predictor_64x32_avx2, aom_v_predictor_64x32_avx2,
+ NULL, aom_paeth_predictor_64x32_avx2, NULL, NULL, NULL)
+INTRA_PRED_TEST(AVX2_6, TX_64X16, aom_dc_predictor_64x16_avx2,
+ aom_dc_left_predictor_64x16_avx2,
+ aom_dc_top_predictor_64x16_avx2,
+ aom_dc_128_predictor_64x16_avx2, aom_v_predictor_64x16_avx2,
+ NULL, aom_paeth_predictor_64x16_avx2, NULL, NULL, NULL)
+#endif
+// -----------------------------------------------------------------------------
+// High Bitdepth
+namespace {
+
+typedef void (*AvxHighbdPredFunc)(uint16_t *dst, ptrdiff_t y_stride,
+ const uint16_t *above, const uint16_t *left,
+ int bd);
+
+typedef IntraPredTestMem<uint16_t> Av1HighbdIntraPredTestMem;
+
+void TestHighbdIntraPred(TX_SIZE tx_size, AvxHighbdPredFunc const *pred_funcs,
+ const char *const signatures[]) {
+ const int block_width = tx_size_wide[tx_size];
+ const int block_height = tx_size_high[tx_size];
+ const int num_pixels_per_test =
+ block_width * block_height * kNumAv1IntraFuncs;
+ const int kNumTests = static_cast<int>(2.e10 / num_pixels_per_test);
+ Av1HighbdIntraPredTestMem intra_pred_test_mem;
+ const int bd = 12;
+ intra_pred_test_mem.Init(block_width, block_height, bd);
+
+ for (int k = 0; k < kNumAv1IntraFuncs; ++k) {
+ if (pred_funcs[k] == NULL) continue;
+ memcpy(intra_pred_test_mem.src, intra_pred_test_mem.ref_src,
+ sizeof(intra_pred_test_mem.src));
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+ for (int num_tests = 0; num_tests < kNumTests; ++num_tests) {
+ pred_funcs[k](intra_pred_test_mem.src, intra_pred_test_mem.stride,
+ intra_pred_test_mem.above, intra_pred_test_mem.left, bd);
+ }
+ libaom_test::ClearSystemState();
+ aom_usec_timer_mark(&timer);
+ const int elapsed_time =
+ static_cast<int>(aom_usec_timer_elapsed(&timer) / 1000);
+ CheckMd5Signature(
+ tx_size, true, signatures, intra_pred_test_mem.src,
+ intra_pred_test_mem.num_pixels * sizeof(*intra_pred_test_mem.src),
+ elapsed_time, k);
+ }
+}
+
+static const char *const kHighbdSignatures[TX_SIZES_ALL][kNumAv1IntraFuncs] = {
+ {
+ // 4X4
+ "11f74af6c5737df472f3275cbde062fa",
+ "51bea056b6447c93f6eb8f6b7e8f6f71",
+ "27e97f946766331795886f4de04c5594",
+ "53ab15974b049111fb596c5168ec7e3f",
+ "f0b640bb176fbe4584cf3d32a9b0320a",
+ "729783ca909e03afd4b47111c80d967b",
+ "6e30009c45474a22032678b1bd579c8f",
+ "e57cba016d808aa8a35619df2a65f049",
+ "55a6c37f39afcbbf5abca4a985b96459",
+ "a623d45b37dafec1f8a75c4c5218913d",
+ },
+ {
+ // 8X8
+ "03da8829fe94663047fd108c5fcaa71d",
+ "ecdb37b8120a2d3a4c706b016bd1bfd7",
+ "1d4543ed8d2b9368cb96898095fe8a75",
+ "f791c9a67b913cbd82d9da8ecede30e2",
+ "065c70646f4dbaff913282f55a45a441",
+ "51f87123616662ef7c35691497dfd0ba",
+ "85c01ba03df68f9ece7bd3fa0f8980e6",
+ "ad19b7dac092f56df6d054e1f67f21e7",
+ "0edc415b5dd7299f7a34fb9f71d31d78",
+ "2bc8ec19e9f4b77a64b8a0a1f6aec7e7",
+ },
+ {
+ // 16X16
+ "e33cb3f56a878e2fddb1b2fc51cdd275",
+ "c7bff6f04b6052c8ab335d726dbbd52d",
+ "d0b0b47b654a9bcc5c6008110a44589b",
+ "78f5da7b10b2b9ab39f114a33b6254e9",
+ "c78e31d23831abb40d6271a318fdd6f3",
+ "90d1347f4ec9198a0320daecb6ff90b8",
+ "e63ded54ab3d0e8728b6f24d4f01e53f",
+ "35ce21fbe0ea114c089fc3489a78155d",
+ "f277f6ef8e4d717f1f0dfe2706ac197d",
+ "e8014d3f41256976c02e0f1e622ba2b9",
+ },
+ {
+ // 32X32
+ "a3e8056ba7e36628cce4917cd956fedd",
+ "cc7d3024fe8748b512407edee045377e",
+ "2aab0a0f330a1d3e19b8ecb8f06387a3",
+ "a547bc3fb7b06910bf3973122a426661",
+ "26f712514da95042f93d6e8dc8e431dc",
+ "bb08c6e16177081daa3d936538dbc2e3",
+ "84bf83f94a51b33654ca940c6f8bc057",
+ "7168b03fc31bf29596a344d6a35d007c",
+ "b073a70d3672f1282236994f5d12e94b",
+ "c51607aebad5dcb3c1e3b58ef9e5b84e",
+ },
+ {
+ // 64X64
+ "a6baa0d4bfb2269a94c7a38f86a4bccf",
+ "3f1ef5f473a49eba743f17a3324adf9d",
+ "12ac11889ae5f55b7781454efd706a6a",
+ "d9a906c0e692b22e1b4414e71a704b7e",
+ "47d4cadd56f70c11ff8f3e5d8df81161",
+ "de997744cf24c16c5ac2a36b02b351cc",
+ "23781211ae178ddeb6c4bb97a6bd7d83",
+ "a79d2e28340ca34b9e37daabbf030f63",
+ "0372bd3ddfc258750a6ac106b70587f4",
+ "228ef625d9460cbf6fa253a16a730976",
+ },
+ {
+ // 4X8
+ "22d519b796d59644043466320e4ccd14",
+ "09513a738c49b3f9542d27f34abbe1d5",
+ "807ae5e8813443ff01e71be6efacfb69",
+ "cbfa18d0293430b6e9708b0be1fd2394",
+ "346c354c34ec7fa780b576db355dab88",
+ "f97dae85c35359632380b09ca98d611e",
+ "698ae351d8896d89ed9e4e67b6e53eda",
+ "dcc197034a9c45a3d8238bf085835f4e",
+ "7a35e2c42ffdc2efc2d6d1d75a100fc7",
+ "41ab6cebd4516c87a91b2a593e2c2506",
+ },
+ {
+ // 8X4
+ "d58cd4c4bf3b7bbaa5db5e1a5622ec78",
+ "6e572c35aa782d00cafcb99e9ea047ea",
+ "e8c22a3702b416dc9ab974505afbed09",
+ "aaa4e4762a795aad7ad74de0c662c4e4",
+ "a19f9101967383c3dcbd516dc317a291",
+ "9ab8cb91f1a595b9ebe3fe8de58031aa",
+ "2cf9021d5f1169268699807ee118b65f",
+ "ee9605fcbd6fb871f1c5cd81a6989327",
+ "b4871af8316089e3e23522175df7e93f",
+ "d33301e1c2cb173be46792a22d19881a",
+ },
+ {
+ // 8X16
+ "4562de1d0336610880fdd5685498a9ec",
+ "16310fa7076394f16fc85c4b149d89c9",
+ "0e94af88e1dc573b6f0f499cddd1f530",
+ "dfd245ee20d091c67809160340365aa9",
+ "d3562504327f70c096c5be23fd8a3747",
+ "601b853558502acbb5135eadd2da117a",
+ "3c624345a723a1b2b1bea05a6a08bc99",
+ "2a9c781de609e0184cc7ab442050f4e5",
+ "0ddc5035c22252747126b61fc238c74d",
+ "e43f5d83bab759af69c7b6773fc8f9b2",
+ },
+ {
+ // 16X8
+ "a57d6b5a9bfd30c29591d8717ace9c51",
+ "f5907ba97ee6c53e339e953fc8d845ee",
+ "ea3aa727913ce45af06f89dd1808db5f",
+ "408af4f23e48d14b48ee35ae094fcd18",
+ "85c41cbcb5d744f7961e8950026fbffe",
+ "8a4e588a837638887ba671f8d4910485",
+ "b792d8826b67a21757ea7097cff9e05b",
+ "f94ce7101bb87fd3bb9312112527dbf4",
+ "688c6660a6dc6fa61fa1aa38e708c209",
+ "0cdf641b4f81d69509c92ae0b93ef5ff",
+ },
+ {
+ // 16X32
+ "aee4b3b0e3cc02d48e2c40d77f807927",
+ "8baef2b2e789f79c8df9d90ad10f34a4",
+ "038c38ee3c4f090bb8d736eab136aafc",
+ "1a3de2aaeaffd68a9fd6c7f6557b83f3",
+ "385c6e0ea29421dd81011a2934641e26",
+ "6cf96c285d1a2d4787f955dad715b08c",
+ "2d7f75dcd73b9528c8396279ff09ff3a",
+ "5a63cd1841e4ed470e4ca5ef845f2281",
+ "610d899ca945fbead33287d4335a8b32",
+ "6bafaad81fce37be46730187e78d8b11",
+ },
+ {
+ // 32X16
+ "290b23c9f5a1de7905bfa71a942da29b",
+ "701e7b82593c66da5052fc4b6afd79ce",
+ "4da828c5455cd246735a663fbb204989",
+ "e3fbeaf234efece8dbd752b77226200c",
+ "4d1d8c969f05155a7e7e84cf7aad021b",
+ "c22e4877c2c946d5bdc0d542e29e70cf",
+ "8ac1ce815e7780500f842b0beb0bb980",
+ "9fee2e2502b507f25bfad30a55b0b610",
+ "4ced9c212ec6f9956e27f68a91b59fef",
+ "4a7a0b93f138bb0863e4e465b01ec0b1",
+ },
+ {
+ // 32X64
+ "ad9cfc395a5c5644a21d958c7274ac14",
+ "f29d6d03c143ddf96fef04c19f2c8333",
+ "a8bdc852ef704dd4975c61893e8fbc3f",
+ "7d0bd7dea26226741dbca9a97f27fa74",
+ "45c27c5cca9a91b6ae8379feb0881c9f",
+ "8a0b78df1e001b85c874d686eac4aa1b",
+ "ce9fa75fac54a3f6c0cc3f2083b938f1",
+ "c0dca10d88762c954af18dc9e3791a39",
+ "61df229eddfccab913b8fda4bb02f9ac",
+ "4f4df6bc8d50a5600b573f0e44d70e66",
+ },
+ {
+ // 64X32
+ "db9d82921fd88b24fdff6f849f2f9c87",
+ "5ecc7fdc52d2f575ad4f2d0e9e6b1e11",
+ "b4581311a0a73d95dfac7f8f44591032",
+ "68bd283cfd1a125f6b2ee47cee874d36",
+ "804179f05c032908a5e36077bb87c994",
+ "fc5fd041a8ee779015394d0c066ee43c",
+ "68f5579ccadfe9a1baafb158334a3db2",
+ "fe237e45e215ab06d79046da9ad71e84",
+ "9a8a938a6824551bf7d21b8fd1d70ea1",
+ "eb7332f2017cd96882c76e7136aeaf53",
+ },
+ {
+ // 4X16
+ "7bafa307d507747b8132e7735b7f1c73",
+ "e58bc2d8213a97d1fea9cfb73d7a9633",
+ "435f8a8e8bbf14dbf2fe16b2be9e97aa",
+ "1d0e767b68d84acbfb50b7a04e633836",
+ "5f713bd7b324fe73bb7063e35ee14e5e",
+ "0dac4e1fa3d59814202715468c01ed56",
+ "47709d1db4a330c7a8900f450e6fddd1",
+ "258e0b930bb27db28f05da9cf7d1ee7c",
+ "36cf030fbae767912593efea045bfff5",
+ "248d7aceabb7499febae663fae41a920",
+ },
+ {
+ // 16X4
+ "04dde98e632670e393704742c89f9067",
+ "8c72543f1664651ae1fa08e2ac0adb9b",
+ "2354a2cdc2773aa2df8ab4010db1be39",
+ "6300ad3221c26da39b10e0e6d87ee3be",
+ "8ea30b661c6ba60b28d3167f19e449b8",
+ "fb6c1e4ff101a371cede63c2955cdb7e",
+ "a517c06433d6d7927b16a72184a23e92",
+ "393828be5d62ab6c48668bea5e2f801a",
+ "b1e510c542013eb9d6fb188dea2ce90a",
+ "569a8f2fe01679ca216535ecbcdccb62",
+ },
+ {
+ // 8X32
+ "9d541865c185ca7607852852613ac1fc",
+ "b96be67f08c6b5fa5ebd3411299c2f7c",
+ "75a2dcf50004b9d188849b048239767e",
+ "429492ff415c9fd9b050d73b2ad500f8",
+ "64b3606c1ccd036bd766bd5711392cf4",
+ "cb59844a0f01660ac955bae3511f1100",
+ "3e076155b7a70e8828618e3f33b51e3d",
+ "ed2d1f597ab7c50beff690f737cf9726",
+ "7909c6a26aaf20c59d996d3e5b5f9c29",
+ "965798807240c98c6f7cc9b457ed0773",
+ },
+ {
+ // 32X8
+ "36f391aa31619eec1f4d9ee95ea454cc",
+ "b82648f14eeba2527357cb50bc3223cb",
+ "7a7b2adf429125e8bee9d1d00a66e13f",
+ "4198e4d6ba503b7cc2d7e96bb845f661",
+ "96c160d2ec1be9fe0cdea9682f14d257",
+ "19a450bcebaa75afb4fc6bd1fd6434af",
+ "2bd2e35967d43d0ec1c6587a36f204d5",
+ "49799a99aa4ccfbd989bee92a99422f1",
+ "955530e99813812a74659edeac3f5475",
+ "f0316b84e378a19cd11b19a6e40b2914",
+ },
+ {
+ // 16X64
+ "8cba1b70a0bde29e8ef235cedc5faa7d",
+ "96d00ddc7537bf7f196006591b733b4e",
+ "cbf69d5d157c9f3355a4757b1d6e3414",
+ "3ac1f642019493dec1b737d7a3a1b4e5",
+ "35f9ee300d7fa3c97338e81a6f21dcd4",
+ "aae335442e77c8ebc280f16ea50ba9c7",
+ "a6140fdac2278644328be094d88731db",
+ "2df93621b6ff100f7008432d509f4161",
+ "c77bf5aee39e7ed4a3dd715f816f452a",
+ "02109bd63557d90225c32a8f1338258e",
+ },
+ {
+ // 64X16
+ "a5e2f9fb685d5f4a048e9a96affd25a4",
+ "1348f249690d9eefe09d9ad7ead2c801",
+ "525da4b187acd81b1ff1116b60461141",
+ "e99d072de858094c98b01bd4a6772634",
+ "873bfa9dc24693f19721f7c8d527f7d3",
+ "0acfc6507bd3468e9679efc127d6e4b9",
+ "57d03f8d079c7264854e22ac1157cfae",
+ "6c2c4036f70c7d957a9399b5436c0774",
+ "42b8e4a97b7f8416c72a5148c031c0b1",
+ "a38a2c5f79993dfae8530e9e25800893",
+ },
+};
+
+} // namespace
+
+#define HIGHBD_INTRA_PRED_TEST(arch, tx_size, dc, dc_left, dc_top, dc_128, v, \
+ h, paeth, smooth, smooth_v, smooth_h) \
+ TEST(arch, DISABLED_##TestHighbdIntraPred_##tx_size) { \
+ static const AvxHighbdPredFunc aom_intra_pred[] = { \
+ dc, dc_left, dc_top, dc_128, v, h, paeth, smooth, smooth_v, smooth_h \
+ }; \
+ TestHighbdIntraPred(tx_size, aom_intra_pred, kHighbdSignatures[tx_size]); \
+ }
+
+// -----------------------------------------------------------------------------
+// 4x4, 4x8, 4x16
+
+HIGHBD_INTRA_PRED_TEST(
+ C_1, TX_4X4, aom_highbd_dc_predictor_4x4_c,
+ aom_highbd_dc_left_predictor_4x4_c, aom_highbd_dc_top_predictor_4x4_c,
+ aom_highbd_dc_128_predictor_4x4_c, aom_highbd_v_predictor_4x4_c,
+ aom_highbd_h_predictor_4x4_c, aom_highbd_paeth_predictor_4x4_c,
+ aom_highbd_smooth_predictor_4x4_c, aom_highbd_smooth_v_predictor_4x4_c,
+ aom_highbd_smooth_h_predictor_4x4_c)
+
+HIGHBD_INTRA_PRED_TEST(
+ C_2, TX_4X8, aom_highbd_dc_predictor_4x8_c,
+ aom_highbd_dc_left_predictor_4x8_c, aom_highbd_dc_top_predictor_4x8_c,
+ aom_highbd_dc_128_predictor_4x8_c, aom_highbd_v_predictor_4x8_c,
+ aom_highbd_h_predictor_4x8_c, aom_highbd_paeth_predictor_4x8_c,
+ aom_highbd_smooth_predictor_4x8_c, aom_highbd_smooth_v_predictor_4x8_c,
+ aom_highbd_smooth_h_predictor_4x8_c)
+
+HIGHBD_INTRA_PRED_TEST(
+ C_3, TX_4X16, aom_highbd_dc_predictor_4x16_c,
+ aom_highbd_dc_left_predictor_4x16_c, aom_highbd_dc_top_predictor_4x16_c,
+ aom_highbd_dc_128_predictor_4x16_c, aom_highbd_v_predictor_4x16_c,
+ aom_highbd_h_predictor_4x16_c, aom_highbd_paeth_predictor_4x16_c,
+ aom_highbd_smooth_predictor_4x16_c, aom_highbd_smooth_v_predictor_4x16_c,
+ aom_highbd_smooth_h_predictor_4x16_c)
+
+#if HAVE_SSE2
+HIGHBD_INTRA_PRED_TEST(SSE2_1, TX_4X4, aom_highbd_dc_predictor_4x4_sse2,
+ aom_highbd_dc_left_predictor_4x4_sse2,
+ aom_highbd_dc_top_predictor_4x4_sse2,
+ aom_highbd_dc_128_predictor_4x4_sse2,
+ aom_highbd_v_predictor_4x4_sse2,
+ aom_highbd_h_predictor_4x4_sse2, NULL, NULL, NULL, NULL)
+
+HIGHBD_INTRA_PRED_TEST(SSE2_2, TX_4X8, aom_highbd_dc_predictor_4x8_sse2,
+ aom_highbd_dc_left_predictor_4x8_sse2,
+ aom_highbd_dc_top_predictor_4x8_sse2,
+ aom_highbd_dc_128_predictor_4x8_sse2,
+ aom_highbd_v_predictor_4x8_sse2,
+ aom_highbd_h_predictor_4x8_sse2, NULL, NULL, NULL, NULL)
+#endif
+
+// -----------------------------------------------------------------------------
+// 8x8, 8x4, 8x16, 8x32
+
+HIGHBD_INTRA_PRED_TEST(
+ C_1, TX_8X8, aom_highbd_dc_predictor_8x8_c,
+ aom_highbd_dc_left_predictor_8x8_c, aom_highbd_dc_top_predictor_8x8_c,
+ aom_highbd_dc_128_predictor_8x8_c, aom_highbd_v_predictor_8x8_c,
+ aom_highbd_h_predictor_8x8_c, aom_highbd_paeth_predictor_8x8_c,
+ aom_highbd_smooth_predictor_8x8_c, aom_highbd_smooth_v_predictor_8x8_c,
+ aom_highbd_smooth_h_predictor_8x8_c)
+
+HIGHBD_INTRA_PRED_TEST(
+ C_2, TX_8X4, aom_highbd_dc_predictor_8x4_c,
+ aom_highbd_dc_left_predictor_8x4_c, aom_highbd_dc_top_predictor_8x4_c,
+ aom_highbd_dc_128_predictor_8x4_c, aom_highbd_v_predictor_8x4_c,
+ aom_highbd_h_predictor_8x4_c, aom_highbd_paeth_predictor_8x4_c,
+ aom_highbd_smooth_predictor_8x4_c, aom_highbd_smooth_v_predictor_8x4_c,
+ aom_highbd_smooth_h_predictor_8x4_c)
+
+HIGHBD_INTRA_PRED_TEST(
+ C_3, TX_8X16, aom_highbd_dc_predictor_8x16_c,
+ aom_highbd_dc_left_predictor_8x16_c, aom_highbd_dc_top_predictor_8x16_c,
+ aom_highbd_dc_128_predictor_8x16_c, aom_highbd_v_predictor_8x16_c,
+ aom_highbd_h_predictor_8x16_c, aom_highbd_paeth_predictor_8x16_c,
+ aom_highbd_smooth_predictor_8x16_c, aom_highbd_smooth_v_predictor_8x16_c,
+ aom_highbd_smooth_h_predictor_8x16_c)
+
+HIGHBD_INTRA_PRED_TEST(
+ C_4, TX_8X32, aom_highbd_dc_predictor_8x32_c,
+ aom_highbd_dc_left_predictor_8x32_c, aom_highbd_dc_top_predictor_8x32_c,
+ aom_highbd_dc_128_predictor_8x32_c, aom_highbd_v_predictor_8x32_c,
+ aom_highbd_h_predictor_8x32_c, aom_highbd_paeth_predictor_8x32_c,
+ aom_highbd_smooth_predictor_8x32_c, aom_highbd_smooth_v_predictor_8x32_c,
+ aom_highbd_smooth_h_predictor_8x32_c)
+
+#if HAVE_SSE2
+HIGHBD_INTRA_PRED_TEST(SSE2_1, TX_8X8, aom_highbd_dc_predictor_8x8_sse2,
+ aom_highbd_dc_left_predictor_8x8_sse2,
+ aom_highbd_dc_top_predictor_8x8_sse2,
+ aom_highbd_dc_128_predictor_8x8_sse2,
+ aom_highbd_v_predictor_8x8_sse2,
+ aom_highbd_h_predictor_8x8_sse2, NULL, NULL, NULL, NULL)
+HIGHBD_INTRA_PRED_TEST(SSE2_2, TX_8X4, aom_highbd_dc_predictor_8x4_sse2,
+ aom_highbd_dc_left_predictor_8x4_sse2,
+ aom_highbd_dc_top_predictor_8x4_sse2,
+ aom_highbd_dc_128_predictor_8x4_sse2,
+ aom_highbd_v_predictor_8x4_sse2,
+ aom_highbd_h_predictor_8x4_sse2, NULL, NULL, NULL, NULL)
+HIGHBD_INTRA_PRED_TEST(SSE2_3, TX_8X16, aom_highbd_dc_predictor_8x16_sse2,
+ aom_highbd_dc_left_predictor_8x16_sse2,
+ aom_highbd_dc_top_predictor_8x16_sse2,
+ aom_highbd_dc_128_predictor_8x16_sse2,
+ aom_highbd_v_predictor_8x16_sse2,
+ aom_highbd_h_predictor_8x16_sse2, NULL, NULL, NULL, NULL)
+#endif
+
+#if HAVE_SSSE3
+HIGHBD_INTRA_PRED_TEST(SSSE3, TX_8X8, NULL, NULL, NULL, NULL, NULL, NULL, NULL,
+ NULL, NULL, NULL)
+#endif
+
+// -----------------------------------------------------------------------------
+// 16x16, 16x8, 16x32, 16x4, 16x64
+
+HIGHBD_INTRA_PRED_TEST(
+ C_1, TX_16X16, aom_highbd_dc_predictor_16x16_c,
+ aom_highbd_dc_left_predictor_16x16_c, aom_highbd_dc_top_predictor_16x16_c,
+ aom_highbd_dc_128_predictor_16x16_c, aom_highbd_v_predictor_16x16_c,
+ aom_highbd_h_predictor_16x16_c, aom_highbd_paeth_predictor_16x16_c,
+ aom_highbd_smooth_predictor_16x16_c, aom_highbd_smooth_v_predictor_16x16_c,
+ aom_highbd_smooth_h_predictor_16x16_c)
+
+HIGHBD_INTRA_PRED_TEST(
+ C_2, TX_16X8, aom_highbd_dc_predictor_16x8_c,
+ aom_highbd_dc_left_predictor_16x8_c, aom_highbd_dc_top_predictor_16x8_c,
+ aom_highbd_dc_128_predictor_16x8_c, aom_highbd_v_predictor_16x8_c,
+ aom_highbd_h_predictor_16x8_c, aom_highbd_paeth_predictor_16x8_c,
+ aom_highbd_smooth_predictor_16x8_c, aom_highbd_smooth_v_predictor_16x8_c,
+ aom_highbd_smooth_h_predictor_16x8_c)
+
+HIGHBD_INTRA_PRED_TEST(
+ C_3, TX_16X32, aom_highbd_dc_predictor_16x32_c,
+ aom_highbd_dc_left_predictor_16x32_c, aom_highbd_dc_top_predictor_16x32_c,
+ aom_highbd_dc_128_predictor_16x32_c, aom_highbd_v_predictor_16x32_c,
+ aom_highbd_h_predictor_16x32_c, aom_highbd_paeth_predictor_16x32_c,
+ aom_highbd_smooth_predictor_16x32_c, aom_highbd_smooth_v_predictor_16x32_c,
+ aom_highbd_smooth_h_predictor_16x32_c)
+
+HIGHBD_INTRA_PRED_TEST(
+ C_4, TX_16X4, aom_highbd_dc_predictor_16x4_c,
+ aom_highbd_dc_left_predictor_16x4_c, aom_highbd_dc_top_predictor_16x4_c,
+ aom_highbd_dc_128_predictor_16x4_c, aom_highbd_v_predictor_16x4_c,
+ aom_highbd_h_predictor_16x4_c, aom_highbd_paeth_predictor_16x4_c,
+ aom_highbd_smooth_predictor_16x4_c, aom_highbd_smooth_v_predictor_16x4_c,
+ aom_highbd_smooth_h_predictor_16x4_c)
+
+HIGHBD_INTRA_PRED_TEST(
+ C_5, TX_16X64, aom_highbd_dc_predictor_16x64_c,
+ aom_highbd_dc_left_predictor_16x64_c, aom_highbd_dc_top_predictor_16x64_c,
+ aom_highbd_dc_128_predictor_16x64_c, aom_highbd_v_predictor_16x64_c,
+ aom_highbd_h_predictor_16x64_c, aom_highbd_paeth_predictor_16x64_c,
+ aom_highbd_smooth_predictor_16x64_c, aom_highbd_smooth_v_predictor_16x64_c,
+ aom_highbd_smooth_h_predictor_16x64_c)
+
+#if HAVE_SSE2
+HIGHBD_INTRA_PRED_TEST(SSE2_1, TX_16X16, aom_highbd_dc_predictor_16x16_sse2,
+ aom_highbd_dc_left_predictor_16x16_sse2,
+ aom_highbd_dc_top_predictor_16x16_sse2,
+ aom_highbd_dc_128_predictor_16x16_sse2,
+ aom_highbd_v_predictor_16x16_sse2,
+ aom_highbd_h_predictor_16x16_sse2, NULL, NULL, NULL,
+ NULL)
+HIGHBD_INTRA_PRED_TEST(SSE2_2, TX_16X8, aom_highbd_dc_predictor_16x8_sse2,
+ aom_highbd_dc_left_predictor_16x8_sse2,
+ aom_highbd_dc_top_predictor_16x8_sse2,
+ aom_highbd_dc_128_predictor_16x8_sse2,
+ aom_highbd_v_predictor_16x8_sse2,
+ aom_highbd_h_predictor_16x8_sse2, NULL, NULL, NULL, NULL)
+HIGHBD_INTRA_PRED_TEST(SSE2_3, TX_16X32, aom_highbd_dc_predictor_16x32_sse2,
+ aom_highbd_dc_left_predictor_16x32_sse2,
+ aom_highbd_dc_top_predictor_16x32_sse2,
+ aom_highbd_dc_128_predictor_16x32_sse2,
+ aom_highbd_v_predictor_16x32_sse2,
+ aom_highbd_h_predictor_16x32_sse2, NULL, NULL, NULL,
+ NULL)
+#endif
+
+#if HAVE_SSSE3
+HIGHBD_INTRA_PRED_TEST(SSSE3_1, TX_16X16, NULL, NULL, NULL, NULL, NULL, NULL,
+ NULL, NULL, NULL, NULL)
+#endif
+
+#if HAVE_AVX2
+HIGHBD_INTRA_PRED_TEST(AVX2_1, TX_16X16, NULL, NULL, NULL, NULL, NULL, NULL,
+ NULL, NULL, NULL, NULL)
+
+HIGHBD_INTRA_PRED_TEST(AVX2_2, TX_16X8, NULL, NULL, NULL, NULL, NULL, NULL,
+ NULL, NULL, NULL, NULL)
+
+HIGHBD_INTRA_PRED_TEST(AVX2_3, TX_16X32, NULL, NULL, NULL, NULL, NULL, NULL,
+ NULL, NULL, NULL, NULL)
+#endif
+
+// -----------------------------------------------------------------------------
+// 32x32, 32x16, 32x64, 32x8
+
+HIGHBD_INTRA_PRED_TEST(
+ C_1, TX_32X32, aom_highbd_dc_predictor_32x32_c,
+ aom_highbd_dc_left_predictor_32x32_c, aom_highbd_dc_top_predictor_32x32_c,
+ aom_highbd_dc_128_predictor_32x32_c, aom_highbd_v_predictor_32x32_c,
+ aom_highbd_h_predictor_32x32_c, aom_highbd_paeth_predictor_32x32_c,
+ aom_highbd_smooth_predictor_32x32_c, aom_highbd_smooth_v_predictor_32x32_c,
+ aom_highbd_smooth_h_predictor_32x32_c)
+
+HIGHBD_INTRA_PRED_TEST(
+ C_2, TX_32X16, aom_highbd_dc_predictor_32x16_c,
+ aom_highbd_dc_left_predictor_32x16_c, aom_highbd_dc_top_predictor_32x16_c,
+ aom_highbd_dc_128_predictor_32x16_c, aom_highbd_v_predictor_32x16_c,
+ aom_highbd_h_predictor_32x16_c, aom_highbd_paeth_predictor_32x16_c,
+ aom_highbd_smooth_predictor_32x16_c, aom_highbd_smooth_v_predictor_32x16_c,
+ aom_highbd_smooth_h_predictor_32x16_c)
+
+HIGHBD_INTRA_PRED_TEST(
+ C_3, TX_32X64, aom_highbd_dc_predictor_32x64_c,
+ aom_highbd_dc_left_predictor_32x64_c, aom_highbd_dc_top_predictor_32x64_c,
+ aom_highbd_dc_128_predictor_32x64_c, aom_highbd_v_predictor_32x64_c,
+ aom_highbd_h_predictor_32x64_c, aom_highbd_paeth_predictor_32x64_c,
+ aom_highbd_smooth_predictor_32x64_c, aom_highbd_smooth_v_predictor_32x64_c,
+ aom_highbd_smooth_h_predictor_32x64_c)
+
+HIGHBD_INTRA_PRED_TEST(
+ C_4, TX_32X8, aom_highbd_dc_predictor_32x8_c,
+ aom_highbd_dc_left_predictor_32x8_c, aom_highbd_dc_top_predictor_32x8_c,
+ aom_highbd_dc_128_predictor_32x8_c, aom_highbd_v_predictor_32x8_c,
+ aom_highbd_h_predictor_32x8_c, aom_highbd_paeth_predictor_32x8_c,
+ aom_highbd_smooth_predictor_32x8_c, aom_highbd_smooth_v_predictor_32x8_c,
+ aom_highbd_smooth_h_predictor_32x8_c)
+
+#if HAVE_SSE2
+HIGHBD_INTRA_PRED_TEST(SSE2_1, TX_32X32, aom_highbd_dc_predictor_32x32_sse2,
+ aom_highbd_dc_left_predictor_32x32_sse2,
+ aom_highbd_dc_top_predictor_32x32_sse2,
+ aom_highbd_dc_128_predictor_32x32_sse2,
+ aom_highbd_v_predictor_32x32_sse2,
+ aom_highbd_h_predictor_32x32_sse2, NULL, NULL, NULL,
+ NULL)
+HIGHBD_INTRA_PRED_TEST(SSE2_2, TX_32X16, aom_highbd_dc_predictor_32x16_sse2,
+ aom_highbd_dc_left_predictor_32x16_sse2,
+ aom_highbd_dc_top_predictor_32x16_sse2,
+ aom_highbd_dc_128_predictor_32x16_sse2,
+ aom_highbd_v_predictor_32x16_sse2,
+ aom_highbd_h_predictor_32x16_sse2, NULL, NULL, NULL,
+ NULL)
+#endif
+
+#if HAVE_SSSE3
+HIGHBD_INTRA_PRED_TEST(SSSE3_1, TX_32X32, NULL, NULL, NULL, NULL, NULL, NULL,
+ NULL, NULL, NULL, NULL)
+#endif
+
+#if HAVE_AVX2
+HIGHBD_INTRA_PRED_TEST(AVX2_1, TX_32X32, NULL, NULL, NULL, NULL, NULL, NULL,
+ NULL, NULL, NULL, NULL)
+
+HIGHBD_INTRA_PRED_TEST(AVX2_2, TX_32X16, NULL, NULL, NULL, NULL, NULL, NULL,
+ NULL, NULL, NULL, NULL)
+#endif
+
+// -----------------------------------------------------------------------------
+// 64x64, 64x32, 64x16
+
+HIGHBD_INTRA_PRED_TEST(
+ C_1, TX_64X64, aom_highbd_dc_predictor_64x64_c,
+ aom_highbd_dc_left_predictor_64x64_c, aom_highbd_dc_top_predictor_64x64_c,
+ aom_highbd_dc_128_predictor_64x64_c, aom_highbd_v_predictor_64x64_c,
+ aom_highbd_h_predictor_64x64_c, aom_highbd_paeth_predictor_64x64_c,
+ aom_highbd_smooth_predictor_64x64_c, aom_highbd_smooth_v_predictor_64x64_c,
+ aom_highbd_smooth_h_predictor_64x64_c)
+
+HIGHBD_INTRA_PRED_TEST(
+ C_2, TX_64X32, aom_highbd_dc_predictor_64x32_c,
+ aom_highbd_dc_left_predictor_64x32_c, aom_highbd_dc_top_predictor_64x32_c,
+ aom_highbd_dc_128_predictor_64x32_c, aom_highbd_v_predictor_64x32_c,
+ aom_highbd_h_predictor_64x32_c, aom_highbd_paeth_predictor_64x32_c,
+ aom_highbd_smooth_predictor_64x32_c, aom_highbd_smooth_v_predictor_64x32_c,
+ aom_highbd_smooth_h_predictor_64x32_c)
+
+HIGHBD_INTRA_PRED_TEST(
+ C_3, TX_64X16, aom_highbd_dc_predictor_64x16_c,
+ aom_highbd_dc_left_predictor_64x16_c, aom_highbd_dc_top_predictor_64x16_c,
+ aom_highbd_dc_128_predictor_64x16_c, aom_highbd_v_predictor_64x16_c,
+ aom_highbd_h_predictor_64x16_c, aom_highbd_paeth_predictor_64x16_c,
+ aom_highbd_smooth_predictor_64x16_c, aom_highbd_smooth_v_predictor_64x16_c,
+ aom_highbd_smooth_h_predictor_64x16_c)
+
+// -----------------------------------------------------------------------------
+
+#include "test/test_libaom.cc"
diff --git a/third_party/aom/test/test_libaom.cc b/third_party/aom/test/test_libaom.cc
new file mode 100644
index 0000000000..b55d762373
--- /dev/null
+++ b/third_party/aom/test/test_libaom.cc
@@ -0,0 +1,74 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <string.h>
+
+#include <string>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_config.h"
+
+#if ARCH_X86 || ARCH_X86_64
+#include "aom_ports/x86.h"
+#endif
+extern "C" {
+extern void av1_rtcd();
+extern void aom_dsp_rtcd();
+extern void aom_scale_rtcd();
+}
+
+#if ARCH_X86 || ARCH_X86_64
+static void append_negative_gtest_filter(const char *str) {
+ std::string filter = ::testing::FLAGS_gtest_filter;
+ // Negative patterns begin with one '-' followed by a ':' separated list.
+ if (filter.find('-') == std::string::npos) filter += '-';
+ // OPT.* matches TEST() functions
+ // OPT/* matches TEST_P() functions
+ // OPT_* matches tests which have been manually sharded.
+ // We do not match OPT* because of SSE/SSE2 collisions.
+ const char *search_terminators = "./_";
+ for (size_t pos = 0; pos < strlen(search_terminators); ++pos) {
+ filter += ":";
+ filter += str;
+ filter += search_terminators[pos];
+ filter += "*";
+ }
+ ::testing::FLAGS_gtest_filter = filter;
+}
+#endif // ARCH_X86 || ARCH_X86_64
+
+int main(int argc, char **argv) {
+ ::testing::InitGoogleTest(&argc, argv);
+
+#if ARCH_X86 || ARCH_X86_64
+ const int simd_caps = x86_simd_caps();
+ if (!(simd_caps & HAS_MMX)) append_negative_gtest_filter("MMX");
+ if (!(simd_caps & HAS_SSE)) append_negative_gtest_filter("SSE");
+ if (!(simd_caps & HAS_SSE2)) append_negative_gtest_filter("SSE2");
+ if (!(simd_caps & HAS_SSE3)) append_negative_gtest_filter("SSE3");
+ if (!(simd_caps & HAS_SSSE3)) append_negative_gtest_filter("SSSE3");
+ if (!(simd_caps & HAS_SSE4_1)) append_negative_gtest_filter("SSE4_1");
+ if (!(simd_caps & HAS_SSE4_2)) append_negative_gtest_filter("SSE4_2");
+ if (!(simd_caps & HAS_AVX)) append_negative_gtest_filter("AVX");
+ if (!(simd_caps & HAS_AVX2)) append_negative_gtest_filter("AVX2");
+#endif // ARCH_X86 || ARCH_X86_64
+
+// Shared library builds don't support whitebox tests that exercise internal
+// symbols.
+#if !CONFIG_SHARED
+ av1_rtcd();
+ aom_dsp_rtcd();
+ aom_scale_rtcd();
+#endif // !CONFIG_SHARED
+
+ return RUN_ALL_TESTS();
+}
diff --git a/third_party/aom/test/test_runner.cmake b/third_party/aom/test/test_runner.cmake
new file mode 100644
index 0000000000..d3747b1e30
--- /dev/null
+++ b/third_party/aom/test/test_runner.cmake
@@ -0,0 +1,28 @@
+#
+# Copyright (c) 2017, Alliance for Open Media. All rights reserved
+#
+# This source code is subject to the terms of the BSD 2 Clause License and the
+# Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License was
+# not distributed with this source code in the LICENSE file, you can obtain it
+# at www.aomedia.org/license/software. If the Alliance for Open Media Patent
+# License 1.0 was not distributed with this source code in the PATENTS file, you
+# can obtain it at www.aomedia.org/license/patent.
+#
+if(NOT GTEST_TOTAL_SHARDS OR "${GTEST_SHARD_INDEX}" STREQUAL "" OR NOT
+ TEST_LIBAOM)
+ message(
+ FATAL_ERROR
+ "The variables GTEST_SHARD_INDEX, GTEST_TOTAL_SHARDS and TEST_LIBAOM
+ must be defined."
+ )
+endif()
+
+set($ENV{GTEST_SHARD_INDEX} ${GTEST_SHARD_INDEX})
+set($ENV{GTEST_TOTAL_SHARDS} ${GTEST_TOTAL_SHARDS})
+execute_process(COMMAND ${TEST_LIBAOM} RESULT_VARIABLE test_result)
+set(test_message "Test shard ${GTEST_SHARD_INDEX}/${GTEST_TOTAL_SHARDS} result")
+message("${test_message}: ${test_result}")
+
+if(NOT "${test_result}" STREQUAL "0")
+ message(FATAL_ERROR "${test_message}: FAILED, non-zero exit code.")
+endif()
diff --git a/third_party/aom/test/test_vector_test.cc b/third_party/aom/test/test_vector_test.cc
new file mode 100644
index 0000000000..286988b170
--- /dev/null
+++ b/third_party/aom/test/test_vector_test.cc
@@ -0,0 +1,172 @@
+/*
+ * Copyright (c) 2018, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <cstdio>
+#include <cstdlib>
+#include <set>
+#include <string>
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "common/tools_common.h"
+#include "config/aom_config.h"
+#include "test/codec_factory.h"
+#include "test/decode_test_driver.h"
+#include "test/ivf_video_source.h"
+#include "test/md5_helper.h"
+#include "test/test_vectors.h"
+#include "test/util.h"
+#if CONFIG_WEBM_IO
+#include "test/webm_video_source.h"
+#endif
+
+namespace {
+
+const int kThreads = 0;
+const int kFileName = 1;
+const int kRowMT = 2;
+
+typedef ::testing::tuple<int, const char *, int> DecodeParam;
+
+class TestVectorTest : public ::libaom_test::DecoderTest,
+ public ::libaom_test::CodecTestWithParam<DecodeParam> {
+ protected:
+ TestVectorTest() : DecoderTest(GET_PARAM(0)), md5_file_(NULL) {}
+
+ virtual ~TestVectorTest() {
+ if (md5_file_) fclose(md5_file_);
+ }
+
+ void OpenMD5File(const std::string &md5_file_name_) {
+ md5_file_ = libaom_test::OpenTestDataFile(md5_file_name_);
+ ASSERT_TRUE(md5_file_ != NULL)
+ << "Md5 file open failed. Filename: " << md5_file_name_;
+ }
+
+ virtual void PreDecodeFrameHook(
+ const libaom_test::CompressedVideoSource &video,
+ libaom_test::Decoder *decoder) {
+ if (video.frame_number() == 0) decoder->Control(AV1D_SET_ROW_MT, row_mt_);
+ }
+
+ virtual void DecompressedFrameHook(const aom_image_t &img,
+ const unsigned int frame_number) {
+ ASSERT_TRUE(md5_file_ != NULL);
+ char expected_md5[33];
+ char junk[128];
+
+ // Read correct md5 checksums.
+ const int res = fscanf(md5_file_, "%s %s", expected_md5, junk);
+ ASSERT_NE(res, EOF) << "Read md5 data failed";
+ expected_md5[32] = '\0';
+
+ ::libaom_test::MD5 md5_res;
+#if !CONFIG_LOWBITDEPTH
+ const aom_img_fmt_t shifted_fmt =
+ (aom_img_fmt)(img.fmt & ~AOM_IMG_FMT_HIGHBITDEPTH);
+ if (img.bit_depth == 8 && shifted_fmt != img.fmt) {
+ aom_image_t *img_shifted =
+ aom_img_alloc(NULL, shifted_fmt, img.d_w, img.d_h, 16);
+ img_shifted->bit_depth = img.bit_depth;
+ img_shifted->monochrome = img.monochrome;
+ aom_img_downshift(img_shifted, &img, 0);
+ md5_res.Add(img_shifted);
+ aom_img_free(img_shifted);
+ } else {
+#endif
+ md5_res.Add(&img);
+#if !CONFIG_LOWBITDEPTH
+ }
+#endif
+
+ const char *actual_md5 = md5_res.Get();
+ // Check md5 match.
+ ASSERT_STREQ(expected_md5, actual_md5)
+ << "Md5 checksums don't match: frame number = " << frame_number;
+ }
+
+ unsigned int row_mt_;
+
+ private:
+ FILE *md5_file_;
+};
+
+// This test runs through the whole set of test vectors, and decodes them.
+// The md5 checksums are computed for each frame in the video file. If md5
+// checksums match the correct md5 data, then the test is passed. Otherwise,
+// the test failed.
+TEST_P(TestVectorTest, MD5Match) {
+ const DecodeParam input = GET_PARAM(1);
+ const std::string filename = ::testing::get<kFileName>(input);
+ aom_codec_flags_t flags = 0;
+ aom_codec_dec_cfg_t cfg = aom_codec_dec_cfg_t();
+ char str[256];
+
+ cfg.threads = ::testing::get<kThreads>(input);
+ row_mt_ = ::testing::get<kRowMT>(input);
+
+ snprintf(str, sizeof(str) / sizeof(str[0]) - 1, "file: %s threads: %d",
+ filename.c_str(), cfg.threads);
+ SCOPED_TRACE(str);
+
+ // Open compressed video file.
+ testing::internal::scoped_ptr<libaom_test::CompressedVideoSource> video;
+ if (filename.substr(filename.length() - 3, 3) == "ivf") {
+ video.reset(new libaom_test::IVFVideoSource(filename));
+ } else if (filename.substr(filename.length() - 4, 4) == "webm" ||
+ filename.substr(filename.length() - 3, 3) == "mkv") {
+#if CONFIG_WEBM_IO
+ video.reset(new libaom_test::WebMVideoSource(filename));
+#else
+ fprintf(stderr, "WebM IO is disabled, skipping test vector %s\n",
+ filename.c_str());
+ return;
+#endif
+ }
+ ASSERT_TRUE(video.get() != NULL);
+ video->Init();
+
+ // Construct md5 file name.
+ const std::string md5_filename = filename + ".md5";
+ OpenMD5File(md5_filename);
+
+ // Set decode config and flags.
+ cfg.allow_lowbitdepth = CONFIG_LOWBITDEPTH;
+ set_cfg(cfg);
+ set_flags(flags);
+
+ // Decode frame, and check the md5 matching.
+ ASSERT_NO_FATAL_FAILURE(RunLoop(video.get(), cfg));
+}
+
+#if CONFIG_AV1_DECODER
+AV1_INSTANTIATE_TEST_CASE(
+ TestVectorTest,
+ ::testing::Combine(::testing::Values(1), // Single thread.
+ ::testing::ValuesIn(libaom_test::kAV1TestVectors,
+ libaom_test::kAV1TestVectors +
+ libaom_test::kNumAV1TestVectors),
+ ::testing::Values(0)));
+
+// Test AV1 decode in with different numbers of threads.
+INSTANTIATE_TEST_CASE_P(
+ AV1MultiThreaded, TestVectorTest,
+ ::testing::Combine(
+ ::testing::Values(
+ static_cast<const libaom_test::CodecFactory *>(&libaom_test::kAV1)),
+ ::testing::Combine(
+ ::testing::Range(2, 9), // With 2 ~ 8 threads.
+ ::testing::ValuesIn(libaom_test::kAV1TestVectors,
+ libaom_test::kAV1TestVectors +
+ libaom_test::kNumAV1TestVectors),
+ ::testing::Range(0, 2))));
+
+#endif // CONFIG_AV1_DECODER
+
+} // namespace
diff --git a/third_party/aom/test/test_vectors.cc b/third_party/aom/test/test_vectors.cc
new file mode 100644
index 0000000000..71e431e18b
--- /dev/null
+++ b/third_party/aom/test/test_vectors.cc
@@ -0,0 +1,140 @@
+/*
+ * Copyright (c) 2018, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include "test/test_vectors.h"
+
+namespace libaom_test {
+
+#define NELEMENTS(x) static_cast<int>(sizeof(x) / sizeof(x[0]))
+
+#if CONFIG_AV1_DECODER
+const char *const kAV1TestVectors[] = {
+ "av1-1-b8-00-quantizer-00.ivf", "av1-1-b8-00-quantizer-01.ivf",
+ "av1-1-b8-00-quantizer-02.ivf", "av1-1-b8-00-quantizer-03.ivf",
+ "av1-1-b8-00-quantizer-04.ivf", "av1-1-b8-00-quantizer-05.ivf",
+ "av1-1-b8-00-quantizer-06.ivf", "av1-1-b8-00-quantizer-07.ivf",
+ "av1-1-b8-00-quantizer-08.ivf", "av1-1-b8-00-quantizer-09.ivf",
+ "av1-1-b8-00-quantizer-10.ivf", "av1-1-b8-00-quantizer-11.ivf",
+ "av1-1-b8-00-quantizer-12.ivf", "av1-1-b8-00-quantizer-13.ivf",
+ "av1-1-b8-00-quantizer-14.ivf", "av1-1-b8-00-quantizer-15.ivf",
+ "av1-1-b8-00-quantizer-16.ivf", "av1-1-b8-00-quantizer-17.ivf",
+ "av1-1-b8-00-quantizer-18.ivf", "av1-1-b8-00-quantizer-19.ivf",
+ "av1-1-b8-00-quantizer-20.ivf", "av1-1-b8-00-quantizer-21.ivf",
+ "av1-1-b8-00-quantizer-22.ivf", "av1-1-b8-00-quantizer-23.ivf",
+ "av1-1-b8-00-quantizer-24.ivf", "av1-1-b8-00-quantizer-25.ivf",
+ "av1-1-b8-00-quantizer-26.ivf", "av1-1-b8-00-quantizer-27.ivf",
+ "av1-1-b8-00-quantizer-28.ivf", "av1-1-b8-00-quantizer-29.ivf",
+ "av1-1-b8-00-quantizer-30.ivf", "av1-1-b8-00-quantizer-31.ivf",
+ "av1-1-b8-00-quantizer-32.ivf", "av1-1-b8-00-quantizer-33.ivf",
+ "av1-1-b8-00-quantizer-34.ivf", "av1-1-b8-00-quantizer-35.ivf",
+ "av1-1-b8-00-quantizer-36.ivf", "av1-1-b8-00-quantizer-37.ivf",
+ "av1-1-b8-00-quantizer-38.ivf", "av1-1-b8-00-quantizer-39.ivf",
+ "av1-1-b8-00-quantizer-40.ivf", "av1-1-b8-00-quantizer-41.ivf",
+ "av1-1-b8-00-quantizer-42.ivf", "av1-1-b8-00-quantizer-43.ivf",
+ "av1-1-b8-00-quantizer-44.ivf", "av1-1-b8-00-quantizer-45.ivf",
+ "av1-1-b8-00-quantizer-46.ivf", "av1-1-b8-00-quantizer-47.ivf",
+ "av1-1-b8-00-quantizer-48.ivf", "av1-1-b8-00-quantizer-49.ivf",
+ "av1-1-b8-00-quantizer-50.ivf", "av1-1-b8-00-quantizer-51.ivf",
+ "av1-1-b8-00-quantizer-52.ivf", "av1-1-b8-00-quantizer-53.ivf",
+ "av1-1-b8-00-quantizer-54.ivf", "av1-1-b8-00-quantizer-55.ivf",
+ "av1-1-b8-00-quantizer-56.ivf", "av1-1-b8-00-quantizer-57.ivf",
+ "av1-1-b8-00-quantizer-58.ivf", "av1-1-b8-00-quantizer-59.ivf",
+ "av1-1-b8-00-quantizer-60.ivf", "av1-1-b8-00-quantizer-61.ivf",
+ "av1-1-b8-00-quantizer-62.ivf", "av1-1-b8-00-quantizer-63.ivf",
+ "av1-1-b10-00-quantizer-00.ivf", "av1-1-b10-00-quantizer-01.ivf",
+ "av1-1-b10-00-quantizer-02.ivf", "av1-1-b10-00-quantizer-03.ivf",
+ "av1-1-b10-00-quantizer-04.ivf", "av1-1-b10-00-quantizer-05.ivf",
+ "av1-1-b10-00-quantizer-06.ivf", "av1-1-b10-00-quantizer-07.ivf",
+ "av1-1-b10-00-quantizer-08.ivf", "av1-1-b10-00-quantizer-09.ivf",
+ "av1-1-b10-00-quantizer-10.ivf", "av1-1-b10-00-quantizer-11.ivf",
+ "av1-1-b10-00-quantizer-12.ivf", "av1-1-b10-00-quantizer-13.ivf",
+ "av1-1-b10-00-quantizer-14.ivf", "av1-1-b10-00-quantizer-15.ivf",
+ "av1-1-b10-00-quantizer-16.ivf", "av1-1-b10-00-quantizer-17.ivf",
+ "av1-1-b10-00-quantizer-18.ivf", "av1-1-b10-00-quantizer-19.ivf",
+ "av1-1-b10-00-quantizer-20.ivf", "av1-1-b10-00-quantizer-21.ivf",
+ "av1-1-b10-00-quantizer-22.ivf", "av1-1-b10-00-quantizer-23.ivf",
+ "av1-1-b10-00-quantizer-24.ivf", "av1-1-b10-00-quantizer-25.ivf",
+ "av1-1-b10-00-quantizer-26.ivf", "av1-1-b10-00-quantizer-27.ivf",
+ "av1-1-b10-00-quantizer-28.ivf", "av1-1-b10-00-quantizer-29.ivf",
+ "av1-1-b10-00-quantizer-30.ivf", "av1-1-b10-00-quantizer-31.ivf",
+ "av1-1-b10-00-quantizer-32.ivf", "av1-1-b10-00-quantizer-33.ivf",
+ "av1-1-b10-00-quantizer-34.ivf", "av1-1-b10-00-quantizer-35.ivf",
+ "av1-1-b10-00-quantizer-36.ivf", "av1-1-b10-00-quantizer-37.ivf",
+ "av1-1-b10-00-quantizer-38.ivf", "av1-1-b10-00-quantizer-39.ivf",
+ "av1-1-b10-00-quantizer-40.ivf", "av1-1-b10-00-quantizer-41.ivf",
+ "av1-1-b10-00-quantizer-42.ivf", "av1-1-b10-00-quantizer-43.ivf",
+ "av1-1-b10-00-quantizer-44.ivf", "av1-1-b10-00-quantizer-45.ivf",
+ "av1-1-b10-00-quantizer-46.ivf", "av1-1-b10-00-quantizer-47.ivf",
+ "av1-1-b10-00-quantizer-48.ivf", "av1-1-b10-00-quantizer-49.ivf",
+ "av1-1-b10-00-quantizer-50.ivf", "av1-1-b10-00-quantizer-51.ivf",
+ "av1-1-b10-00-quantizer-52.ivf", "av1-1-b10-00-quantizer-53.ivf",
+ "av1-1-b10-00-quantizer-54.ivf", "av1-1-b10-00-quantizer-55.ivf",
+ "av1-1-b10-00-quantizer-56.ivf", "av1-1-b10-00-quantizer-57.ivf",
+ "av1-1-b10-00-quantizer-58.ivf", "av1-1-b10-00-quantizer-59.ivf",
+ "av1-1-b10-00-quantizer-60.ivf", "av1-1-b10-00-quantizer-61.ivf",
+ "av1-1-b10-00-quantizer-62.ivf", "av1-1-b10-00-quantizer-63.ivf",
+ "av1-1-b8-01-size-16x16.ivf", "av1-1-b8-01-size-16x18.ivf",
+ "av1-1-b8-01-size-16x32.ivf", "av1-1-b8-01-size-16x34.ivf",
+ "av1-1-b8-01-size-16x64.ivf", "av1-1-b8-01-size-16x66.ivf",
+ "av1-1-b8-01-size-18x16.ivf", "av1-1-b8-01-size-18x18.ivf",
+ "av1-1-b8-01-size-18x32.ivf", "av1-1-b8-01-size-18x34.ivf",
+ "av1-1-b8-01-size-18x64.ivf", "av1-1-b8-01-size-18x66.ivf",
+ "av1-1-b8-01-size-196x196.ivf", "av1-1-b8-01-size-196x198.ivf",
+ "av1-1-b8-01-size-196x200.ivf", "av1-1-b8-01-size-196x202.ivf",
+ "av1-1-b8-01-size-196x208.ivf", "av1-1-b8-01-size-196x210.ivf",
+ "av1-1-b8-01-size-196x224.ivf", "av1-1-b8-01-size-196x226.ivf",
+ "av1-1-b8-01-size-198x196.ivf", "av1-1-b8-01-size-198x198.ivf",
+ "av1-1-b8-01-size-198x200.ivf", "av1-1-b8-01-size-198x202.ivf",
+ "av1-1-b8-01-size-198x208.ivf", "av1-1-b8-01-size-198x210.ivf",
+ "av1-1-b8-01-size-198x224.ivf", "av1-1-b8-01-size-198x226.ivf",
+ "av1-1-b8-01-size-200x196.ivf", "av1-1-b8-01-size-200x198.ivf",
+ "av1-1-b8-01-size-200x200.ivf", "av1-1-b8-01-size-200x202.ivf",
+ "av1-1-b8-01-size-200x208.ivf", "av1-1-b8-01-size-200x210.ivf",
+ "av1-1-b8-01-size-200x224.ivf", "av1-1-b8-01-size-200x226.ivf",
+ "av1-1-b8-01-size-202x196.ivf", "av1-1-b8-01-size-202x198.ivf",
+ "av1-1-b8-01-size-202x200.ivf", "av1-1-b8-01-size-202x202.ivf",
+ "av1-1-b8-01-size-202x208.ivf", "av1-1-b8-01-size-202x210.ivf",
+ "av1-1-b8-01-size-202x224.ivf", "av1-1-b8-01-size-202x226.ivf",
+ "av1-1-b8-01-size-208x196.ivf", "av1-1-b8-01-size-208x198.ivf",
+ "av1-1-b8-01-size-208x200.ivf", "av1-1-b8-01-size-208x202.ivf",
+ "av1-1-b8-01-size-208x208.ivf", "av1-1-b8-01-size-208x210.ivf",
+ "av1-1-b8-01-size-208x224.ivf", "av1-1-b8-01-size-208x226.ivf",
+ "av1-1-b8-01-size-210x196.ivf", "av1-1-b8-01-size-210x198.ivf",
+ "av1-1-b8-01-size-210x200.ivf", "av1-1-b8-01-size-210x202.ivf",
+ "av1-1-b8-01-size-210x208.ivf", "av1-1-b8-01-size-210x210.ivf",
+ "av1-1-b8-01-size-210x224.ivf", "av1-1-b8-01-size-210x226.ivf",
+ "av1-1-b8-01-size-224x196.ivf", "av1-1-b8-01-size-224x198.ivf",
+ "av1-1-b8-01-size-224x200.ivf", "av1-1-b8-01-size-224x202.ivf",
+ "av1-1-b8-01-size-224x208.ivf", "av1-1-b8-01-size-224x210.ivf",
+ "av1-1-b8-01-size-224x224.ivf", "av1-1-b8-01-size-224x226.ivf",
+ "av1-1-b8-01-size-226x196.ivf", "av1-1-b8-01-size-226x198.ivf",
+ "av1-1-b8-01-size-226x200.ivf", "av1-1-b8-01-size-226x202.ivf",
+ "av1-1-b8-01-size-226x208.ivf", "av1-1-b8-01-size-226x210.ivf",
+ "av1-1-b8-01-size-226x224.ivf", "av1-1-b8-01-size-226x226.ivf",
+ "av1-1-b8-01-size-32x16.ivf", "av1-1-b8-01-size-32x18.ivf",
+ "av1-1-b8-01-size-32x32.ivf", "av1-1-b8-01-size-32x34.ivf",
+ "av1-1-b8-01-size-32x64.ivf", "av1-1-b8-01-size-32x66.ivf",
+ "av1-1-b8-01-size-34x16.ivf", "av1-1-b8-01-size-34x18.ivf",
+ "av1-1-b8-01-size-34x32.ivf", "av1-1-b8-01-size-34x34.ivf",
+ "av1-1-b8-01-size-34x64.ivf", "av1-1-b8-01-size-34x66.ivf",
+ "av1-1-b8-01-size-64x16.ivf", "av1-1-b8-01-size-64x18.ivf",
+ "av1-1-b8-01-size-64x32.ivf", "av1-1-b8-01-size-64x34.ivf",
+ "av1-1-b8-01-size-64x64.ivf", "av1-1-b8-01-size-64x66.ivf",
+ "av1-1-b8-01-size-66x16.ivf", "av1-1-b8-01-size-66x18.ivf",
+ "av1-1-b8-01-size-66x32.ivf", "av1-1-b8-01-size-66x34.ivf",
+ "av1-1-b8-01-size-66x64.ivf", "av1-1-b8-01-size-66x66.ivf",
+ "av1-1-b8-02-allintra.ivf", "av1-1-b8-03-sizedown.mkv",
+ "av1-1-b8-03-sizeup.mkv"
+};
+const int kNumAV1TestVectors = NELEMENTS(kAV1TestVectors);
+#endif // CONFIG_AV1_DECODER
+
+} // namespace libaom_test
diff --git a/third_party/aom/test/test_vectors.h b/third_party/aom/test/test_vectors.h
new file mode 100644
index 0000000000..be37f6e377
--- /dev/null
+++ b/third_party/aom/test/test_vectors.h
@@ -0,0 +1,26 @@
+/*
+ * Copyright (c) 2018, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#ifndef AOM_TEST_TEST_VECTORS_H_
+#define AOM_TEST_TEST_VECTORS_H_
+
+#include "config/aom_config.h"
+
+namespace libaom_test {
+
+#if CONFIG_AV1_DECODER
+extern const int kNumAV1TestVectors;
+extern const char *const kAV1TestVectors[];
+#endif
+
+} // namespace libaom_test
+
+#endif // AOM_TEST_TEST_VECTORS_H_
diff --git a/third_party/aom/test/tile_independence_test.cc b/third_party/aom/test/tile_independence_test.cc
new file mode 100644
index 0000000000..cf534c0c59
--- /dev/null
+++ b/third_party/aom/test/tile_independence_test.cc
@@ -0,0 +1,173 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <cstdio>
+#include <cstdlib>
+#include <string>
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/codec_factory.h"
+#include "test/encode_test_driver.h"
+#include "test/i420_video_source.h"
+#include "test/util.h"
+#include "test/md5_helper.h"
+#include "aom_mem/aom_mem.h"
+
+namespace {
+class TileIndependenceTest
+ : public ::libaom_test::CodecTestWith3Params<int, int, int>,
+ public ::libaom_test::EncoderTest {
+ protected:
+ TileIndependenceTest()
+ : EncoderTest(GET_PARAM(0)), md5_fw_order_(), md5_inv_order_(),
+ n_tile_cols_(GET_PARAM(1)), n_tile_rows_(GET_PARAM(2)),
+ n_tile_groups_(GET_PARAM(3)) {
+ init_flags_ = AOM_CODEC_USE_PSNR;
+ aom_codec_dec_cfg_t cfg = aom_codec_dec_cfg_t();
+ cfg.w = 704;
+ cfg.h = 576;
+ cfg.threads = 1;
+ cfg.allow_lowbitdepth = 1;
+ fw_dec_ = codec_->CreateDecoder(cfg, 0);
+ inv_dec_ = codec_->CreateDecoder(cfg, 0);
+ inv_dec_->Control(AV1_INVERT_TILE_DECODE_ORDER, 1);
+
+ if (fw_dec_->IsAV1() && inv_dec_->IsAV1()) {
+ fw_dec_->Control(AV1_SET_DECODE_TILE_ROW, -1);
+ fw_dec_->Control(AV1_SET_DECODE_TILE_COL, -1);
+ inv_dec_->Control(AV1_SET_DECODE_TILE_ROW, -1);
+ inv_dec_->Control(AV1_SET_DECODE_TILE_COL, -1);
+ }
+ }
+
+ virtual ~TileIndependenceTest() {
+ delete fw_dec_;
+ delete inv_dec_;
+ }
+
+ virtual void SetUp() {
+ InitializeConfig();
+ SetMode(libaom_test::kTwoPassGood);
+ }
+
+ virtual void PreEncodeFrameHook(libaom_test::VideoSource *video,
+ libaom_test::Encoder *encoder) {
+ if (video->frame() == 1) {
+ encoder->Control(AV1E_SET_TILE_COLUMNS, n_tile_cols_);
+ encoder->Control(AV1E_SET_TILE_ROWS, n_tile_rows_);
+ SetCpuUsed(encoder);
+ } else if (video->frame() == 3) {
+ encoder->Control(AV1E_SET_NUM_TG, n_tile_groups_);
+ }
+ }
+
+ virtual void SetCpuUsed(libaom_test::Encoder *encoder) {
+ static const int kCpuUsed = 3;
+ encoder->Control(AOME_SET_CPUUSED, kCpuUsed);
+ }
+
+ void UpdateMD5(::libaom_test::Decoder *dec, const aom_codec_cx_pkt_t *pkt,
+ ::libaom_test::MD5 *md5) {
+ const aom_codec_err_t res = dec->DecodeFrame(
+ reinterpret_cast<uint8_t *>(pkt->data.frame.buf), pkt->data.frame.sz);
+ if (res != AOM_CODEC_OK) {
+ abort_ = true;
+ ASSERT_EQ(AOM_CODEC_OK, res);
+ }
+ const aom_image_t *img = dec->GetDxData().Next();
+ md5->Add(img);
+ }
+
+ virtual void FramePktHook(const aom_codec_cx_pkt_t *pkt) {
+ UpdateMD5(fw_dec_, pkt, &md5_fw_order_);
+ UpdateMD5(inv_dec_, pkt, &md5_inv_order_);
+ }
+
+ void DoTest() {
+ const aom_rational timebase = { 33333333, 1000000000 };
+ cfg_.g_timebase = timebase;
+ cfg_.rc_target_bitrate = 500;
+ cfg_.g_lag_in_frames = 12;
+ cfg_.rc_end_usage = AOM_VBR;
+
+ libaom_test::I420VideoSource video("hantro_collage_w352h288.yuv", 704, 576,
+ timebase.den, timebase.num, 0, 5);
+ ASSERT_NO_FATAL_FAILURE(RunLoop(&video));
+
+ const char *md5_fw_str = md5_fw_order_.Get();
+ const char *md5_inv_str = md5_inv_order_.Get();
+ ASSERT_STREQ(md5_fw_str, md5_inv_str);
+ }
+
+ ::libaom_test::MD5 md5_fw_order_, md5_inv_order_;
+ ::libaom_test::Decoder *fw_dec_, *inv_dec_;
+
+ private:
+ int n_tile_cols_;
+ int n_tile_rows_;
+ int n_tile_groups_;
+};
+
+// run an encode with 2 or 4 tiles, and do the decode both in normal and
+// inverted tile ordering. Ensure that the MD5 of the output in both cases
+// is identical. If so, tiles are considered independent and the test passes.
+TEST_P(TileIndependenceTest, MD5Match) {
+ cfg_.large_scale_tile = 0;
+ fw_dec_->Control(AV1_SET_TILE_MODE, 0);
+ inv_dec_->Control(AV1_SET_TILE_MODE, 0);
+ DoTest();
+}
+
+class TileIndependenceTestLarge : public TileIndependenceTest {
+ virtual void SetCpuUsed(libaom_test::Encoder *encoder) {
+ static const int kCpuUsed = 0;
+ encoder->Control(AOME_SET_CPUUSED, kCpuUsed);
+ }
+};
+
+TEST_P(TileIndependenceTestLarge, MD5Match) {
+ cfg_.large_scale_tile = 0;
+ fw_dec_->Control(AV1_SET_TILE_MODE, 0);
+ inv_dec_->Control(AV1_SET_TILE_MODE, 0);
+ DoTest();
+}
+
+AV1_INSTANTIATE_TEST_CASE(TileIndependenceTest, ::testing::Values(0, 1),
+ ::testing::Values(0, 1), ::testing::Values(1, 2, 4));
+AV1_INSTANTIATE_TEST_CASE(TileIndependenceTestLarge, ::testing::Values(0, 1),
+ ::testing::Values(0, 1), ::testing::Values(1, 2, 4));
+
+class TileIndependenceLSTest : public TileIndependenceTest {};
+
+TEST_P(TileIndependenceLSTest, MD5Match) {
+ cfg_.large_scale_tile = 1;
+ fw_dec_->Control(AV1_SET_TILE_MODE, 1);
+ fw_dec_->Control(AV1D_EXT_TILE_DEBUG, 1);
+ inv_dec_->Control(AV1_SET_TILE_MODE, 1);
+ inv_dec_->Control(AV1D_EXT_TILE_DEBUG, 1);
+ DoTest();
+}
+
+class TileIndependenceLSTestLarge : public TileIndependenceTestLarge {};
+
+TEST_P(TileIndependenceLSTestLarge, MD5Match) {
+ cfg_.large_scale_tile = 1;
+ fw_dec_->Control(AV1_SET_TILE_MODE, 1);
+ fw_dec_->Control(AV1D_EXT_TILE_DEBUG, 1);
+ inv_dec_->Control(AV1_SET_TILE_MODE, 1);
+ inv_dec_->Control(AV1D_EXT_TILE_DEBUG, 1);
+ DoTest();
+}
+
+AV1_INSTANTIATE_TEST_CASE(TileIndependenceLSTest, ::testing::Values(6),
+ ::testing::Values(6), ::testing::Values(1));
+AV1_INSTANTIATE_TEST_CASE(TileIndependenceLSTestLarge, ::testing::Values(6),
+ ::testing::Values(6), ::testing::Values(1));
+} // namespace
diff --git a/third_party/aom/test/tools_common.sh b/third_party/aom/test/tools_common.sh
new file mode 100755
index 0000000000..c087106060
--- /dev/null
+++ b/third_party/aom/test/tools_common.sh
@@ -0,0 +1,477 @@
+#!/bin/sh
+## Copyright (c) 2016, Alliance for Open Media. All rights reserved
+##
+## This source code is subject to the terms of the BSD 2 Clause License and
+## the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+## was not distributed with this source code in the LICENSE file, you can
+## obtain it at www.aomedia.org/license/software. If the Alliance for Open
+## Media Patent License 1.0 was not distributed with this source code in the
+## PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+##
+## This file contains shell code shared by test scripts for libaom tools.
+
+# Use $AOM_TEST_TOOLS_COMMON_SH as a pseudo include guard.
+if [ -z "${AOM_TEST_TOOLS_COMMON_SH}" ]; then
+AOM_TEST_TOOLS_COMMON_SH=included
+
+set -e
+devnull='> /dev/null 2>&1'
+AOM_TEST_PREFIX=""
+
+elog() {
+ echo "$@" 1>&2
+}
+
+vlog() {
+ if [ "${AOM_TEST_VERBOSE_OUTPUT}" = "yes" ]; then
+ echo "$@"
+ fi
+}
+
+# Sets $AOM_TOOL_TEST to the name specified by positional parameter one.
+test_begin() {
+ AOM_TOOL_TEST="${1}"
+}
+
+# Clears the AOM_TOOL_TEST variable after confirming that $AOM_TOOL_TEST matches
+# positional parameter one.
+test_end() {
+ if [ "$1" != "${AOM_TOOL_TEST}" ]; then
+ echo "FAIL completed test mismatch!."
+ echo " completed test: ${1}"
+ echo " active test: ${AOM_TOOL_TEST}."
+ return 1
+ fi
+ AOM_TOOL_TEST='<unset>'
+}
+
+# Echoes the target configuration being tested.
+test_configuration_target() {
+ aom_config_c="${LIBAOM_CONFIG_PATH}/config/aom_config.c"
+ # Clean up the cfg pointer line from aom_config.c for easier re-use by
+ # someone examining a failure in the example tests.
+ # 1. Run grep on aom_config.c for cfg and limit the results to 1.
+ # 2. Split the line using ' = ' as separator.
+ # 3. Abuse sed to consume the leading " and trailing "; from the assignment
+ # to the cfg pointer.
+ cmake_config=$(awk -F ' = ' '/cfg/ { print $NF; exit }' "${aom_config_c}" \
+ | sed -e s/\"// -e s/\"\;//)
+ echo cmake generated via command: cmake path/to/aom ${cmake_config}
+}
+
+# Trap function used for failure reports and tool output directory removal.
+# When the contents of $AOM_TOOL_TEST do not match the string '<unset>', reports
+# failure of test stored in $AOM_TOOL_TEST.
+cleanup() {
+ if [ -n "${AOM_TOOL_TEST}" ] && [ "${AOM_TOOL_TEST}" != '<unset>' ]; then
+ echo "FAIL: $AOM_TOOL_TEST"
+ fi
+ if [ "${AOM_TEST_PRESERVE_OUTPUT}" = "yes" ]; then
+ return
+ fi
+ if [ -n "${AOM_TEST_OUTPUT_DIR}" ] && [ -d "${AOM_TEST_OUTPUT_DIR}" ]; then
+ rm -rf "${AOM_TEST_OUTPUT_DIR}"
+ fi
+}
+
+# Echoes the version string assigned to the VERSION_STRING_NOSP variable defined
+# in $LIBAOM_CONFIG_PATH/config/aom_version.h to stdout.
+cmake_version() {
+ aom_version_h="${LIBAOM_CONFIG_PATH}/config/aom_version.h"
+
+ # Find VERSION_STRING_NOSP line, split it with '"' and print the next to last
+ # field to output the version string to stdout.
+ aom_version=$(awk -F \" '/VERSION_STRING_NOSP/ {print $(NF-1)}' \
+ "${aom_version_h}")
+ echo "v${aom_version}"
+}
+
+# Echoes current git version as reported by running 'git describe', or the
+# version used by the cmake build when git is unavailable.
+source_version() {
+ if git --version > /dev/null 2>&1; then
+ (cd "$(dirname "${0}")"
+ git describe)
+ else
+ cmake_version
+ fi
+}
+
+# Echoes warnings to stdout when source version and CMake build generated
+# version are out of sync.
+check_version_strings() {
+ cmake_version=$(cmake_version)
+ source_version=$(source_version)
+
+ if [ "${cmake_version}" != "${source_version}" ]; then
+ echo "Warning: version has changed since last cmake run."
+ vlog " cmake version: ${cmake_version} version now: ${source_version}"
+ fi
+}
+
+# $1 is the name of an environment variable containing a directory name to
+# test.
+test_env_var_dir() {
+ local dir=$(eval echo "\${$1}")
+ if [ ! -d "${dir}" ]; then
+ elog "'${dir}': No such directory"
+ elog "The $1 environment variable must be set to a valid directory."
+ return 1
+ fi
+}
+
+# This script requires that the LIBAOM_BIN_PATH, LIBAOM_CONFIG_PATH, and
+# LIBAOM_TEST_DATA_PATH variables are in the environment: Confirm that
+# the variables are set and that they all evaluate to directory paths.
+verify_aom_test_environment() {
+ test_env_var_dir "LIBAOM_BIN_PATH" \
+ && test_env_var_dir "LIBAOM_CONFIG_PATH" \
+ && test_env_var_dir "LIBAOM_TEST_DATA_PATH"
+}
+
+# Greps aom_config.h in LIBAOM_CONFIG_PATH for positional parameter one, which
+# should be a LIBAOM preprocessor flag. Echoes yes to stdout when the feature
+# is available.
+aom_config_option_enabled() {
+ aom_config_option="${1}"
+ aom_config_file="${LIBAOM_CONFIG_PATH}/config/aom_config.h"
+ config_line=$(grep "${aom_config_option}" "${aom_config_file}")
+ if echo "${config_line}" | egrep -q '1$'; then
+ echo yes
+ fi
+}
+
+# Echoes yes when output of test_configuration_target() contains win32 or win64.
+is_windows_target() {
+ if test_configuration_target \
+ | grep -q -e win32 -e win64 > /dev/null 2>&1; then
+ echo yes
+ fi
+}
+
+# Echoes path to $1 when it's executable and exists in one of the directories
+# included in $tool_paths, or an empty string. Caller is responsible for testing
+# the string once the function returns.
+aom_tool_path() {
+ local tool_name="$1"
+ local root_path="${LIBAOM_BIN_PATH}"
+ local suffix="${AOM_TEST_EXE_SUFFIX}"
+ local tool_paths="\
+ ${root_path}/${tool_name}${suffix} \
+ ${root_path}/../${tool_name}${suffix} \
+ ${root_path}/tools/${tool_name}${suffix} \
+ ${root_path}/../tools/${tool_name}${suffix}"
+
+ local toolpath=""
+
+ for tool_path in ${tool_paths}; do
+ if [ -x "${tool_path}" ] && [ -f "${tool_path}" ]; then
+ echo "${tool_path}"
+ return 0
+ fi
+ done
+
+ return 1
+}
+
+# Echoes yes to stdout when the file named by positional parameter one exists
+# in LIBAOM_BIN_PATH, and is executable.
+aom_tool_available() {
+ local tool_name="$1"
+ local tool="${LIBAOM_BIN_PATH}/${tool_name}${AOM_TEST_EXE_SUFFIX}"
+ [ -x "${tool}" ] && echo yes
+}
+
+# Echoes yes to stdout when aom_config_option_enabled() reports yes for
+# CONFIG_AV1_DECODER.
+av1_decode_available() {
+ [ "$(aom_config_option_enabled CONFIG_AV1_DECODER)" = "yes" ] && echo yes
+}
+
+# Echoes yes to stdout when aom_config_option_enabled() reports yes for
+# CONFIG_AV1_ENCODER.
+av1_encode_available() {
+ [ "$(aom_config_option_enabled CONFIG_AV1_ENCODER)" = "yes" ] && echo yes
+}
+
+# Echoes "fast" encode params for use with aomenc.
+aomenc_encode_test_fast_params() {
+ echo "--cpu-used=1
+ --limit=${AV1_ENCODE_TEST_FRAME_LIMIT}
+ --lag-in-frames=0
+ --test-decode=fatal"
+}
+
+# Echoes yes to stdout when aom_config_option_enabled() reports yes for
+# CONFIG_WEBM_IO.
+webm_io_available() {
+ [ "$(aom_config_option_enabled CONFIG_WEBM_IO)" = "yes" ] && echo yes
+}
+
+# Filters strings from $1 using the filter specified by $2. Filter behavior
+# depends on the presence of $3. When $3 is present, strings that match the
+# filter are excluded. When $3 is omitted, strings matching the filter are
+# included.
+# The filtered result is echoed to stdout.
+filter_strings() {
+ strings=${1}
+ filter=${2}
+ exclude=${3}
+
+ if [ -n "${exclude}" ]; then
+ # When positional parameter three exists the caller wants to remove strings.
+ # Tell grep to invert matches using the -v argument.
+ exclude='-v'
+ else
+ unset exclude
+ fi
+
+ if [ -n "${filter}" ]; then
+ for s in ${strings}; do
+ if echo "${s}" | egrep -q ${exclude} "${filter}" > /dev/null 2>&1; then
+ filtered_strings="${filtered_strings} ${s}"
+ fi
+ done
+ else
+ filtered_strings="${strings}"
+ fi
+ echo "${filtered_strings}"
+}
+
+# Runs user test functions passed via positional parameters one and two.
+# Functions in positional parameter one are treated as environment verification
+# functions and are run unconditionally. Functions in positional parameter two
+# are run according to the rules specified in aom_test_usage().
+run_tests() {
+ local env_tests="verify_aom_test_environment $1"
+ local tests_to_filter="$2"
+ local test_name="${AOM_TEST_NAME}"
+
+ if [ -z "${test_name}" ]; then
+ test_name="$(basename "${0%.*}")"
+ fi
+
+ if [ "${AOM_TEST_RUN_DISABLED_TESTS}" != "yes" ]; then
+ # Filter out DISABLED tests.
+ tests_to_filter=$(filter_strings "${tests_to_filter}" ^DISABLED exclude)
+ fi
+
+ if [ -n "${AOM_TEST_FILTER}" ]; then
+ # Remove tests not matching the user's filter.
+ tests_to_filter=$(filter_strings "${tests_to_filter}" ${AOM_TEST_FILTER})
+ fi
+
+ # User requested test listing: Dump test names and return.
+ if [ "${AOM_TEST_LIST_TESTS}" = "yes" ]; then
+ for test_name in $tests_to_filter; do
+ echo ${test_name}
+ done
+ return
+ fi
+
+ # Don't bother with the environment tests if everything else was disabled.
+ [ -z "${tests_to_filter}" ] && return
+
+ # Combine environment and actual tests.
+ local tests_to_run="${env_tests} ${tests_to_filter}"
+
+ check_version_strings
+
+ # Run tests.
+ for test in ${tests_to_run}; do
+ test_begin "${test}"
+ vlog " RUN ${test}"
+ "${test}"
+ vlog " PASS ${test}"
+ test_end "${test}"
+ done
+
+ local tested_config="$(test_configuration_target) @ $(source_version)"
+ echo "${test_name}: Done, all tests pass for ${tested_config}."
+}
+
+aom_test_usage() {
+cat << EOF
+ Usage: ${0##*/} [arguments]
+ --bin-path <path to libaom binaries directory>
+ --config-path <path to libaom config directory>
+ --filter <filter>: User test filter. Only tests matching filter are run.
+ --run-disabled-tests: Run disabled tests.
+ --help: Display this message and exit.
+ --test-data-path <path to libaom test data directory>
+ --show-program-output: Shows output from all programs being tested.
+ --prefix: Allows for a user specified prefix to be inserted before all test
+ programs. Grants the ability, for example, to run test programs
+ within valgrind.
+ --list-tests: List all test names and exit without actually running tests.
+ --verbose: Verbose output.
+
+ When the --bin-path option is not specified the script attempts to use
+ \$LIBAOM_BIN_PATH and then the current directory.
+
+ When the --config-path option is not specified the script attempts to use
+ \$LIBAOM_CONFIG_PATH and then the current directory.
+
+ When the -test-data-path option is not specified the script attempts to use
+ \$LIBAOM_TEST_DATA_PATH and then the current directory.
+EOF
+}
+
+# Returns non-zero (failure) when required environment variables are empty
+# strings.
+aom_test_check_environment() {
+ if [ -z "${LIBAOM_BIN_PATH}" ] || \
+ [ -z "${LIBAOM_CONFIG_PATH}" ] || \
+ [ -z "${LIBAOM_TEST_DATA_PATH}" ]; then
+ return 1
+ fi
+}
+
+# Echo aomenc command line parameters allowing use of a raw yuv file as
+# input to aomenc.
+yuv_raw_input() {
+ echo ""${YUV_RAW_INPUT}"
+ --width="${YUV_RAW_INPUT_WIDTH}"
+ --height="${YUV_RAW_INPUT_HEIGHT}""
+}
+
+# Do a small encode for testing decoders.
+encode_yuv_raw_input_av1() {
+ if [ "$(av1_encode_available)" = "yes" ]; then
+ local output="$1"
+ local encoder="$(aom_tool_path aomenc)"
+ shift
+ eval "${encoder}" $(yuv_raw_input) \
+ $(aomenc_encode_test_fast_params) \
+ --output="${output}" \
+ $@ \
+ ${devnull}
+
+ if [ ! -e "${output}" ]; then
+ elog "Output file does not exist."
+ return 1
+ fi
+ fi
+}
+
+# Parse the command line.
+while [ -n "$1" ]; do
+ case "$1" in
+ --bin-path)
+ LIBAOM_BIN_PATH="$2"
+ shift
+ ;;
+ --config-path)
+ LIBAOM_CONFIG_PATH="$2"
+ shift
+ ;;
+ --filter)
+ AOM_TEST_FILTER="$2"
+ shift
+ ;;
+ --run-disabled-tests)
+ AOM_TEST_RUN_DISABLED_TESTS=yes
+ ;;
+ --help)
+ aom_test_usage
+ exit
+ ;;
+ --test-data-path)
+ LIBAOM_TEST_DATA_PATH="$2"
+ shift
+ ;;
+ --prefix)
+ AOM_TEST_PREFIX="$2"
+ shift
+ ;;
+ --verbose)
+ AOM_TEST_VERBOSE_OUTPUT=yes
+ ;;
+ --show-program-output)
+ devnull=
+ ;;
+ --list-tests)
+ AOM_TEST_LIST_TESTS=yes
+ ;;
+ *)
+ aom_test_usage
+ exit 1
+ ;;
+ esac
+ shift
+done
+
+# Handle running the tests from a build directory without arguments when running
+# the tests on *nix/macosx.
+LIBAOM_BIN_PATH="${LIBAOM_BIN_PATH:-.}"
+LIBAOM_CONFIG_PATH="${LIBAOM_CONFIG_PATH:-.}"
+LIBAOM_TEST_DATA_PATH="${LIBAOM_TEST_DATA_PATH:-.}"
+
+# Create a temporary directory for output files, and a trap to clean it up.
+if [ -n "${TMPDIR}" ]; then
+ AOM_TEST_TEMP_ROOT="${TMPDIR}"
+elif [ -n "${TEMPDIR}" ]; then
+ AOM_TEST_TEMP_ROOT="${TEMPDIR}"
+else
+ AOM_TEST_TEMP_ROOT=/tmp
+fi
+
+AOM_TEST_OUTPUT_DIR="${AOM_TEST_OUTPUT_DIR:-${AOM_TEST_TEMP_ROOT}/aom_test_$$}"
+
+if ! mkdir -p "${AOM_TEST_OUTPUT_DIR}" || \
+ [ ! -d "${AOM_TEST_OUTPUT_DIR}" ]; then
+ echo "${0##*/}: Cannot create output directory, giving up."
+ echo "${0##*/}: AOM_TEST_OUTPUT_DIR=${AOM_TEST_OUTPUT_DIR}"
+ exit 1
+fi
+
+AOM_TEST_PRESERVE_OUTPUT=${AOM_TEST_PRESERVE_OUTPUT:-no}
+
+if [ "$(is_windows_target)" = "yes" ]; then
+ AOM_TEST_EXE_SUFFIX=".exe"
+fi
+
+# Variables shared by tests.
+AV1_ENCODE_CPU_USED=${AV1_ENCODE_CPU_USED:-1}
+AV1_ENCODE_TEST_FRAME_LIMIT=${AV1_ENCODE_TEST_FRAME_LIMIT:-5}
+AV1_IVF_FILE="${AV1_IVF_FILE:-${AOM_TEST_OUTPUT_DIR}/av1.ivf}"
+AV1_OBU_ANNEXB_FILE="${AV1_OBU_ANNEXB_FILE:-${AOM_TEST_OUTPUT_DIR}/av1.annexb.obu}"
+AV1_OBU_SEC5_FILE="${AV1_OBU_SEC5_FILE:-${AOM_TEST_OUTPUT_DIR}/av1.section5.obu}"
+AV1_WEBM_FILE="${AV1_WEBM_FILE:-${AOM_TEST_OUTPUT_DIR}/av1.webm}"
+
+YUV_RAW_INPUT="${LIBAOM_TEST_DATA_PATH}/hantro_collage_w352h288.yuv"
+YUV_RAW_INPUT_WIDTH=352
+YUV_RAW_INPUT_HEIGHT=288
+
+Y4M_NOSQ_PAR_INPUT="${LIBAOM_TEST_DATA_PATH}/park_joy_90p_8_420_a10-1.y4m"
+Y4M_720P_INPUT="${LIBAOM_TEST_DATA_PATH}/niklas_1280_720_30.y4m"
+
+# Setup a trap function to clean up after tests complete.
+trap cleanup EXIT
+
+vlog "$(basename "${0%.*}") test configuration:
+ LIBAOM_BIN_PATH=${LIBAOM_BIN_PATH}
+ LIBAOM_CONFIG_PATH=${LIBAOM_CONFIG_PATH}
+ LIBAOM_TEST_DATA_PATH=${LIBAOM_TEST_DATA_PATH}
+ AOM_TEST_EXE_SUFFIX=${AOM_TEST_EXE_SUFFIX}
+ AOM_TEST_FILTER=${AOM_TEST_FILTER}
+ AOM_TEST_LIST_TESTS=${AOM_TEST_LIST_TESTS}
+ AOM_TEST_OUTPUT_DIR=${AOM_TEST_OUTPUT_DIR}
+ AOM_TEST_PREFIX=${AOM_TEST_PREFIX}
+ AOM_TEST_PRESERVE_OUTPUT=${AOM_TEST_PRESERVE_OUTPUT}
+ AOM_TEST_RUN_DISABLED_TESTS=${AOM_TEST_RUN_DISABLED_TESTS}
+ AOM_TEST_SHOW_PROGRAM_OUTPUT=${AOM_TEST_SHOW_PROGRAM_OUTPUT}
+ AOM_TEST_TEMP_ROOT=${AOM_TEST_TEMP_ROOT}
+ AOM_TEST_VERBOSE_OUTPUT=${AOM_TEST_VERBOSE_OUTPUT}
+ AV1_ENCODE_CPU_USED=${AV1_ENCODE_CPU_USED}
+ AV1_ENCODE_TEST_FRAME_LIMIT=${AV1_ENCODE_TEST_FRAME_LIMIT}
+ AV1_IVF_FILE=${AV1_IVF_FILE}
+ AV1_OBU_ANNEXB_FILE=${AV1_OBU_ANNEXB_FILE}
+ AV1_OBU_SEC5_FILE=${AV1_OBU_SEC5_FILE}
+ AV1_WEBM_FILE=${AV1_WEBM_FILE}
+ YUV_RAW_INPUT=${YUV_RAW_INPUT}
+ YUV_RAW_INPUT_WIDTH=${YUV_RAW_INPUT_WIDTH}
+ YUV_RAW_INPUT_HEIGHT=${YUV_RAW_INPUT_HEIGHT}
+ Y4M_NOSQ_PAR_INPUT=${Y4M_NOSQ_PAR_INPUT}"
+
+fi # End $AOM_TEST_TOOLS_COMMON_SH pseudo include guard.
diff --git a/third_party/aom/test/transform_test_base.h b/third_party/aom/test/transform_test_base.h
new file mode 100644
index 0000000000..8ebcf5ff7c
--- /dev/null
+++ b/third_party/aom/test/transform_test_base.h
@@ -0,0 +1,342 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#ifndef AOM_TEST_TRANSFORM_TEST_BASE_H_
+#define AOM_TEST_TRANSFORM_TEST_BASE_H_
+
+#include "config/aom_config.h"
+
+#include "aom_mem/aom_mem.h"
+#include "aom/aom_codec.h"
+#include "aom_dsp/txfm_common.h"
+
+namespace libaom_test {
+
+// Note:
+// Same constant are defined in av1/common/av1_entropy.h and
+// av1/common/entropy.h. Goal is to make this base class
+// to use for future codec transform testing. But including
+// either of them would lead to compiling error when we do
+// unit test for another codec. Suggest to move the definition
+// to a aom header file.
+const int kDctMaxValue = 16384;
+
+typedef void (*FhtFunc)(const int16_t *in, tran_low_t *out, int stride,
+ TxfmParam *txfm_param);
+
+typedef void (*IhtFunc)(const tran_low_t *in, uint8_t *out, int stride,
+ const TxfmParam *txfm_param);
+
+class TransformTestBase {
+ public:
+ virtual ~TransformTestBase() {}
+
+ protected:
+ virtual void RunFwdTxfm(const int16_t *in, tran_low_t *out, int stride) = 0;
+
+ virtual void RunInvTxfm(const tran_low_t *out, uint8_t *dst, int stride) = 0;
+
+ void RunAccuracyCheck(uint32_t ref_max_error, double ref_avg_error) {
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ uint32_t max_error = 0;
+ int64_t total_error = 0;
+ const int count_test_block = 10000;
+
+ int16_t *test_input_block = reinterpret_cast<int16_t *>(
+ aom_memalign(16, sizeof(int16_t) * num_coeffs_));
+ tran_low_t *test_temp_block = reinterpret_cast<tran_low_t *>(
+ aom_memalign(16, sizeof(tran_low_t) * num_coeffs_));
+ uint8_t *dst = reinterpret_cast<uint8_t *>(
+ aom_memalign(16, sizeof(uint8_t) * num_coeffs_));
+ uint8_t *src = reinterpret_cast<uint8_t *>(
+ aom_memalign(16, sizeof(uint8_t) * num_coeffs_));
+ uint16_t *dst16 = reinterpret_cast<uint16_t *>(
+ aom_memalign(16, sizeof(uint16_t) * num_coeffs_));
+ uint16_t *src16 = reinterpret_cast<uint16_t *>(
+ aom_memalign(16, sizeof(uint16_t) * num_coeffs_));
+
+ for (int i = 0; i < count_test_block; ++i) {
+ // Initialize a test block with input range [-255, 255].
+ for (int j = 0; j < num_coeffs_; ++j) {
+ if (bit_depth_ == AOM_BITS_8) {
+ src[j] = rnd.Rand8();
+ dst[j] = rnd.Rand8();
+ test_input_block[j] = src[j] - dst[j];
+ } else {
+ src16[j] = rnd.Rand16() & mask_;
+ dst16[j] = rnd.Rand16() & mask_;
+ test_input_block[j] = src16[j] - dst16[j];
+ }
+ }
+
+ ASM_REGISTER_STATE_CHECK(
+ RunFwdTxfm(test_input_block, test_temp_block, pitch_));
+ if (bit_depth_ == AOM_BITS_8) {
+ ASM_REGISTER_STATE_CHECK(RunInvTxfm(test_temp_block, dst, pitch_));
+ } else {
+ ASM_REGISTER_STATE_CHECK(
+ RunInvTxfm(test_temp_block, CONVERT_TO_BYTEPTR(dst16), pitch_));
+ }
+
+ for (int j = 0; j < num_coeffs_; ++j) {
+ const int diff =
+ bit_depth_ == AOM_BITS_8 ? dst[j] - src[j] : dst16[j] - src16[j];
+ const uint32_t error = diff * diff;
+ if (max_error < error) max_error = error;
+ total_error += error;
+ }
+ }
+
+ double avg_error = total_error * 1. / count_test_block / num_coeffs_;
+
+ EXPECT_GE(ref_max_error, max_error)
+ << "Error: FHT/IHT has an individual round trip error > "
+ << ref_max_error;
+
+ EXPECT_GE(ref_avg_error, avg_error)
+ << "Error: FHT/IHT has average round trip error > " << ref_avg_error
+ << " per block";
+
+ aom_free(test_input_block);
+ aom_free(test_temp_block);
+ aom_free(dst);
+ aom_free(src);
+ aom_free(dst16);
+ aom_free(src16);
+ }
+
+ void RunCoeffCheck() {
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ const int count_test_block = 5000;
+
+ // Use a stride value which is not the width of any transform, to catch
+ // cases where the transforms use the stride incorrectly.
+ int stride = 96;
+
+ int16_t *input_block = reinterpret_cast<int16_t *>(
+ aom_memalign(16, sizeof(int16_t) * stride * height_));
+ tran_low_t *output_ref_block = reinterpret_cast<tran_low_t *>(
+ aom_memalign(16, sizeof(tran_low_t) * num_coeffs_));
+ tran_low_t *output_block = reinterpret_cast<tran_low_t *>(
+ aom_memalign(16, sizeof(tran_low_t) * num_coeffs_));
+
+ for (int i = 0; i < count_test_block; ++i) {
+ int j, k;
+ for (j = 0; j < height_; ++j) {
+ for (k = 0; k < pitch_; ++k) {
+ int in_idx = j * stride + k;
+ int out_idx = j * pitch_ + k;
+ input_block[in_idx] = (rnd.Rand16() & mask_) - (rnd.Rand16() & mask_);
+ if (bit_depth_ == AOM_BITS_8) {
+ output_block[out_idx] = output_ref_block[out_idx] = rnd.Rand8();
+ } else {
+ output_block[out_idx] = output_ref_block[out_idx] =
+ rnd.Rand16() & mask_;
+ }
+ }
+ }
+
+ fwd_txfm_ref(input_block, output_ref_block, stride, &txfm_param_);
+ ASM_REGISTER_STATE_CHECK(RunFwdTxfm(input_block, output_block, stride));
+
+ // The minimum quant value is 4.
+ for (j = 0; j < height_; ++j) {
+ for (k = 0; k < pitch_; ++k) {
+ int out_idx = j * pitch_ + k;
+ ASSERT_EQ(output_block[out_idx], output_ref_block[out_idx])
+ << "Error: not bit-exact result at index: " << out_idx
+ << " at test block: " << i;
+ }
+ }
+ }
+ aom_free(input_block);
+ aom_free(output_ref_block);
+ aom_free(output_block);
+ }
+
+ void RunInvCoeffCheck() {
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ const int count_test_block = 5000;
+
+ // Use a stride value which is not the width of any transform, to catch
+ // cases where the transforms use the stride incorrectly.
+ int stride = 96;
+
+ int16_t *input_block = reinterpret_cast<int16_t *>(
+ aom_memalign(16, sizeof(int16_t) * num_coeffs_));
+ tran_low_t *trans_block = reinterpret_cast<tran_low_t *>(
+ aom_memalign(16, sizeof(tran_low_t) * num_coeffs_));
+ uint8_t *output_block = reinterpret_cast<uint8_t *>(
+ aom_memalign(16, sizeof(uint8_t) * stride * height_));
+ uint8_t *output_ref_block = reinterpret_cast<uint8_t *>(
+ aom_memalign(16, sizeof(uint8_t) * stride * height_));
+
+ for (int i = 0; i < count_test_block; ++i) {
+ // Initialize a test block with input range [-mask_, mask_].
+ int j, k;
+ for (j = 0; j < height_; ++j) {
+ for (k = 0; k < pitch_; ++k) {
+ int in_idx = j * pitch_ + k;
+ int out_idx = j * stride + k;
+ input_block[in_idx] = (rnd.Rand16() & mask_) - (rnd.Rand16() & mask_);
+ output_ref_block[out_idx] = rnd.Rand16() & mask_;
+ output_block[out_idx] = output_ref_block[out_idx];
+ }
+ }
+
+ fwd_txfm_ref(input_block, trans_block, pitch_, &txfm_param_);
+
+ inv_txfm_ref(trans_block, output_ref_block, stride, &txfm_param_);
+ ASM_REGISTER_STATE_CHECK(RunInvTxfm(trans_block, output_block, stride));
+
+ for (j = 0; j < height_; ++j) {
+ for (k = 0; k < pitch_; ++k) {
+ int out_idx = j * stride + k;
+ ASSERT_EQ(output_block[out_idx], output_ref_block[out_idx])
+ << "Error: not bit-exact result at index: " << out_idx
+ << " j = " << j << " k = " << k << " at test block: " << i;
+ }
+ }
+ }
+ aom_free(input_block);
+ aom_free(trans_block);
+ aom_free(output_ref_block);
+ aom_free(output_block);
+ }
+
+ void RunMemCheck() {
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ const int count_test_block = 5000;
+
+ int16_t *input_extreme_block = reinterpret_cast<int16_t *>(
+ aom_memalign(16, sizeof(int16_t) * num_coeffs_));
+ tran_low_t *output_ref_block = reinterpret_cast<tran_low_t *>(
+ aom_memalign(16, sizeof(tran_low_t) * num_coeffs_));
+ tran_low_t *output_block = reinterpret_cast<tran_low_t *>(
+ aom_memalign(16, sizeof(tran_low_t) * num_coeffs_));
+
+ for (int i = 0; i < count_test_block; ++i) {
+ // Initialize a test block with input range [-mask_, mask_].
+ for (int j = 0; j < num_coeffs_; ++j) {
+ input_extreme_block[j] = rnd.Rand8() % 2 ? mask_ : -mask_;
+ }
+ if (i == 0) {
+ for (int j = 0; j < num_coeffs_; ++j) input_extreme_block[j] = mask_;
+ } else if (i == 1) {
+ for (int j = 0; j < num_coeffs_; ++j) input_extreme_block[j] = -mask_;
+ }
+
+ fwd_txfm_ref(input_extreme_block, output_ref_block, pitch_, &txfm_param_);
+ ASM_REGISTER_STATE_CHECK(
+ RunFwdTxfm(input_extreme_block, output_block, pitch_));
+
+ int row_length = FindRowLength();
+ // The minimum quant value is 4.
+ for (int j = 0; j < num_coeffs_; ++j) {
+ ASSERT_EQ(output_block[j], output_ref_block[j])
+ << "Not bit-exact at test index: " << i << ", "
+ << "j = " << j << std::endl;
+ EXPECT_GE(row_length * kDctMaxValue << (bit_depth_ - 8),
+ abs(output_block[j]))
+ << "Error: NxN FDCT has coefficient larger than N*DCT_MAX_VALUE";
+ }
+ }
+ aom_free(input_extreme_block);
+ aom_free(output_ref_block);
+ aom_free(output_block);
+ }
+
+ void RunInvAccuracyCheck(int limit) {
+ ACMRandom rnd(ACMRandom::DeterministicSeed());
+ const int count_test_block = 1000;
+
+ int16_t *in = reinterpret_cast<int16_t *>(
+ aom_memalign(16, sizeof(int16_t) * num_coeffs_));
+ tran_low_t *coeff = reinterpret_cast<tran_low_t *>(
+ aom_memalign(16, sizeof(tran_low_t) * num_coeffs_));
+ uint8_t *dst = reinterpret_cast<uint8_t *>(
+ aom_memalign(16, sizeof(uint8_t) * num_coeffs_));
+ uint8_t *src = reinterpret_cast<uint8_t *>(
+ aom_memalign(16, sizeof(uint8_t) * num_coeffs_));
+
+ uint16_t *dst16 = reinterpret_cast<uint16_t *>(
+ aom_memalign(16, sizeof(uint16_t) * num_coeffs_));
+ uint16_t *src16 = reinterpret_cast<uint16_t *>(
+ aom_memalign(16, sizeof(uint16_t) * num_coeffs_));
+
+ for (int i = 0; i < count_test_block; ++i) {
+ // Initialize a test block with input range [-mask_, mask_].
+ for (int j = 0; j < num_coeffs_; ++j) {
+ if (bit_depth_ == AOM_BITS_8) {
+ src[j] = rnd.Rand8();
+ dst[j] = rnd.Rand8();
+ in[j] = src[j] - dst[j];
+ } else {
+ src16[j] = rnd.Rand16() & mask_;
+ dst16[j] = rnd.Rand16() & mask_;
+ in[j] = src16[j] - dst16[j];
+ }
+ }
+
+ fwd_txfm_ref(in, coeff, pitch_, &txfm_param_);
+
+ if (bit_depth_ == AOM_BITS_8) {
+ ASM_REGISTER_STATE_CHECK(RunInvTxfm(coeff, dst, pitch_));
+ } else {
+ ASM_REGISTER_STATE_CHECK(
+ RunInvTxfm(coeff, CONVERT_TO_BYTEPTR(dst16), pitch_));
+ }
+
+ for (int j = 0; j < num_coeffs_; ++j) {
+ const int diff =
+ bit_depth_ == AOM_BITS_8 ? dst[j] - src[j] : dst16[j] - src16[j];
+ const uint32_t error = diff * diff;
+ ASSERT_GE(static_cast<uint32_t>(limit), error)
+ << "Error: 4x4 IDCT has error " << error << " at index " << j;
+ }
+ }
+ aom_free(in);
+ aom_free(coeff);
+ aom_free(dst);
+ aom_free(src);
+ aom_free(src16);
+ aom_free(dst16);
+ }
+
+ int pitch_;
+ int height_;
+ FhtFunc fwd_txfm_ref;
+ IhtFunc inv_txfm_ref;
+ aom_bit_depth_t bit_depth_;
+ int mask_;
+ int num_coeffs_;
+ TxfmParam txfm_param_;
+
+ private:
+ // Assume transform size is 4x4, 8x8, 16x16,...
+ int FindRowLength() const {
+ int row = 4;
+ if (16 == num_coeffs_) {
+ row = 4;
+ } else if (64 == num_coeffs_) {
+ row = 8;
+ } else if (256 == num_coeffs_) {
+ row = 16;
+ } else if (1024 == num_coeffs_) {
+ row = 32;
+ }
+ return row;
+ }
+};
+
+} // namespace libaom_test
+
+#endif // AOM_TEST_TRANSFORM_TEST_BASE_H_
diff --git a/third_party/aom/test/twopass_encoder.sh b/third_party/aom/test/twopass_encoder.sh
new file mode 100755
index 0000000000..cca44ced8a
--- /dev/null
+++ b/third_party/aom/test/twopass_encoder.sh
@@ -0,0 +1,54 @@
+#!/bin/sh
+## Copyright (c) 2016, Alliance for Open Media. All rights reserved
+##
+## This source code is subject to the terms of the BSD 2 Clause License and
+## the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+## was not distributed with this source code in the LICENSE file, you can
+## obtain it at www.aomedia.org/license/software. If the Alliance for Open
+## Media Patent License 1.0 was not distributed with this source code in the
+## PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+##
+## This file tests the libaom twopass_encoder example. To add new tests to this
+## file, do the following:
+## 1. Write a shell function (this is your test).
+## 2. Add the function to twopass_encoder_tests (on a new line).
+##
+. $(dirname $0)/tools_common.sh
+
+# Environment check: $YUV_RAW_INPUT is required.
+twopass_encoder_verify_environment() {
+ if [ ! -e "${YUV_RAW_INPUT}" ]; then
+ echo "Libaom test data must exist in LIBAOM_TEST_DATA_PATH."
+ return 1
+ fi
+}
+
+# Runs twopass_encoder using the codec specified by $1 with a frame limit of
+# 100.
+twopass_encoder() {
+ local encoder="$(aom_tool_path twopass_encoder)"
+ local codec="$1"
+ local output_file="${AOM_TEST_OUTPUT_DIR}/twopass_encoder_${codec}.ivf"
+ local limit=7
+
+ if [ ! -x "${encoder}" ]; then
+ elog "${encoder} does not exist or is not executable."
+ return 1
+ fi
+
+ eval "${AOM_TEST_PREFIX}" "${encoder}" "${codec}" "${YUV_RAW_INPUT_WIDTH}" \
+ "${YUV_RAW_INPUT_HEIGHT}" "${YUV_RAW_INPUT}" "${output_file}" "${limit}" \
+ ${devnull}
+
+ [ -e "${output_file}" ] || return 1
+}
+
+twopass_encoder_av1() {
+ if [ "$(av1_encode_available)" = "yes" ]; then
+ twopass_encoder av1 || return 1
+ fi
+}
+
+twopass_encoder_tests="twopass_encoder_av1"
+
+run_tests twopass_encoder_verify_environment "${twopass_encoder_tests}"
diff --git a/third_party/aom/test/util.h b/third_party/aom/test/util.h
new file mode 100644
index 0000000000..c3f4e44421
--- /dev/null
+++ b/third_party/aom/test/util.h
@@ -0,0 +1,53 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#ifndef AOM_TEST_UTIL_H_
+#define AOM_TEST_UTIL_H_
+
+#include <stdio.h>
+#include <math.h>
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "aom/aom_integer.h"
+#include "aom/aom_image.h"
+#include "aom_ports/aom_timer.h"
+
+// Macros
+#define GET_PARAM(k) ::testing::get<k>(GetParam())
+
+inline double compute_psnr(const aom_image_t *img1, const aom_image_t *img2) {
+ assert((img1->fmt == img2->fmt) && (img1->d_w == img2->d_w) &&
+ (img1->d_h == img2->d_h));
+
+ const unsigned int width_y = img1->d_w;
+ const unsigned int height_y = img1->d_h;
+ unsigned int i, j;
+
+ int64_t sqrerr = 0;
+ for (i = 0; i < height_y; ++i)
+ for (j = 0; j < width_y; ++j) {
+ int64_t d = img1->planes[AOM_PLANE_Y][i * img1->stride[AOM_PLANE_Y] + j] -
+ img2->planes[AOM_PLANE_Y][i * img2->stride[AOM_PLANE_Y] + j];
+ sqrerr += d * d;
+ }
+ double mse = static_cast<double>(sqrerr) / (width_y * height_y);
+ double psnr = 100.0;
+ if (mse > 0.0) {
+ psnr = 10 * log10(255.0 * 255.0 / mse);
+ }
+ return psnr;
+}
+
+static INLINE double get_time_mark(aom_usec_timer *t) {
+ aom_usec_timer_mark(t);
+ return static_cast<double>(aom_usec_timer_elapsed(t));
+}
+
+#endif // AOM_TEST_UTIL_H_
diff --git a/third_party/aom/test/variance_test.cc b/third_party/aom/test/variance_test.cc
new file mode 100644
index 0000000000..0df314b0fd
--- /dev/null
+++ b/third_party/aom/test/variance_test.cc
@@ -0,0 +1,2064 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <cstdlib>
+#include <new>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "config/aom_config.h"
+#include "config/aom_dsp_rtcd.h"
+
+#include "test/acm_random.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+#include "aom/aom_codec.h"
+#include "aom/aom_integer.h"
+#include "aom_mem/aom_mem.h"
+#include "aom_ports/aom_timer.h"
+#include "aom_ports/mem.h"
+
+namespace {
+
+typedef unsigned int (*VarianceMxNFunc)(const uint8_t *a, int a_stride,
+ const uint8_t *b, int b_stride,
+ unsigned int *sse);
+typedef unsigned int (*SubpixVarMxNFunc)(const uint8_t *a, int a_stride,
+ int xoffset, int yoffset,
+ const uint8_t *b, int b_stride,
+ unsigned int *sse);
+typedef unsigned int (*SubpixAvgVarMxNFunc)(const uint8_t *a, int a_stride,
+ int xoffset, int yoffset,
+ const uint8_t *b, int b_stride,
+ uint32_t *sse,
+ const uint8_t *second_pred);
+typedef unsigned int (*Get4x4SseFunc)(const uint8_t *a, int a_stride,
+ const uint8_t *b, int b_stride);
+typedef unsigned int (*SumOfSquaresFunction)(const int16_t *src);
+typedef unsigned int (*JntSubpixAvgVarMxNFunc)(
+ const uint8_t *a, int a_stride, int xoffset, int yoffset, const uint8_t *b,
+ int b_stride, uint32_t *sse, const uint8_t *second_pred,
+ const JNT_COMP_PARAMS *jcp_param);
+typedef uint32_t (*ObmcSubpelVarFunc)(const uint8_t *pre, int pre_stride,
+ int xoffset, int yoffset,
+ const int32_t *wsrc, const int32_t *mask,
+ unsigned int *sse);
+
+using libaom_test::ACMRandom;
+
+// Truncate high bit depth results by downshifting (with rounding) by:
+// 2 * (bit_depth - 8) for sse
+// (bit_depth - 8) for se
+static void RoundHighBitDepth(int bit_depth, int64_t *se, uint64_t *sse) {
+ switch (bit_depth) {
+ case AOM_BITS_12:
+ *sse = (*sse + 128) >> 8;
+ *se = (*se + 8) >> 4;
+ break;
+ case AOM_BITS_10:
+ *sse = (*sse + 8) >> 4;
+ *se = (*se + 2) >> 2;
+ break;
+ case AOM_BITS_8:
+ default: break;
+ }
+}
+
+static unsigned int mb_ss_ref(const int16_t *src) {
+ unsigned int res = 0;
+ for (int i = 0; i < 256; ++i) {
+ res += src[i] * src[i];
+ }
+ return res;
+}
+
+/* Note:
+ * Our codebase calculates the "diff" value in the variance algorithm by
+ * (src - ref).
+ */
+static uint32_t variance_ref(const uint8_t *src, const uint8_t *ref, int l2w,
+ int l2h, int src_stride, int ref_stride,
+ uint32_t *sse_ptr, bool use_high_bit_depth_,
+ aom_bit_depth_t bit_depth) {
+ int64_t se = 0;
+ uint64_t sse = 0;
+ const int w = 1 << l2w;
+ const int h = 1 << l2h;
+ for (int y = 0; y < h; y++) {
+ for (int x = 0; x < w; x++) {
+ int diff;
+ if (!use_high_bit_depth_) {
+ diff = src[y * src_stride + x] - ref[y * ref_stride + x];
+ se += diff;
+ sse += diff * diff;
+ } else {
+ diff = CONVERT_TO_SHORTPTR(src)[y * src_stride + x] -
+ CONVERT_TO_SHORTPTR(ref)[y * ref_stride + x];
+ se += diff;
+ sse += diff * diff;
+ }
+ }
+ }
+ RoundHighBitDepth(bit_depth, &se, &sse);
+ *sse_ptr = static_cast<uint32_t>(sse);
+ return static_cast<uint32_t>(sse - ((se * se) >> (l2w + l2h)));
+}
+
+/* The subpel reference functions differ from the codec version in one aspect:
+ * they calculate the bilinear factors directly instead of using a lookup table
+ * and therefore upshift xoff and yoff by 1. Only every other calculated value
+ * is used so the codec version shrinks the table to save space and maintain
+ * compatibility with vp8.
+ */
+static uint32_t subpel_variance_ref(const uint8_t *ref, const uint8_t *src,
+ int l2w, int l2h, int xoff, int yoff,
+ uint32_t *sse_ptr, bool use_high_bit_depth_,
+ aom_bit_depth_t bit_depth) {
+ int64_t se = 0;
+ uint64_t sse = 0;
+ const int w = 1 << l2w;
+ const int h = 1 << l2h;
+
+ xoff <<= 1;
+ yoff <<= 1;
+
+ for (int y = 0; y < h; y++) {
+ for (int x = 0; x < w; x++) {
+ // Bilinear interpolation at a 16th pel step.
+ if (!use_high_bit_depth_) {
+ const int a1 = ref[(w + 1) * (y + 0) + x + 0];
+ const int a2 = ref[(w + 1) * (y + 0) + x + 1];
+ const int b1 = ref[(w + 1) * (y + 1) + x + 0];
+ const int b2 = ref[(w + 1) * (y + 1) + x + 1];
+ const int a = a1 + (((a2 - a1) * xoff + 8) >> 4);
+ const int b = b1 + (((b2 - b1) * xoff + 8) >> 4);
+ const int r = a + (((b - a) * yoff + 8) >> 4);
+ const int diff = r - src[w * y + x];
+ se += diff;
+ sse += diff * diff;
+ } else {
+ uint16_t *ref16 = CONVERT_TO_SHORTPTR(ref);
+ uint16_t *src16 = CONVERT_TO_SHORTPTR(src);
+ const int a1 = ref16[(w + 1) * (y + 0) + x + 0];
+ const int a2 = ref16[(w + 1) * (y + 0) + x + 1];
+ const int b1 = ref16[(w + 1) * (y + 1) + x + 0];
+ const int b2 = ref16[(w + 1) * (y + 1) + x + 1];
+ const int a = a1 + (((a2 - a1) * xoff + 8) >> 4);
+ const int b = b1 + (((b2 - b1) * xoff + 8) >> 4);
+ const int r = a + (((b - a) * yoff + 8) >> 4);
+ const int diff = r - src16[w * y + x];
+ se += diff;
+ sse += diff * diff;
+ }
+ }
+ }
+ RoundHighBitDepth(bit_depth, &se, &sse);
+ *sse_ptr = static_cast<uint32_t>(sse);
+ return static_cast<uint32_t>(sse - ((se * se) >> (l2w + l2h)));
+}
+
+static uint32_t subpel_avg_variance_ref(const uint8_t *ref, const uint8_t *src,
+ const uint8_t *second_pred, int l2w,
+ int l2h, int xoff, int yoff,
+ uint32_t *sse_ptr,
+ bool use_high_bit_depth,
+ aom_bit_depth_t bit_depth) {
+ int64_t se = 0;
+ uint64_t sse = 0;
+ const int w = 1 << l2w;
+ const int h = 1 << l2h;
+
+ xoff <<= 1;
+ yoff <<= 1;
+
+ for (int y = 0; y < h; y++) {
+ for (int x = 0; x < w; x++) {
+ // bilinear interpolation at a 16th pel step
+ if (!use_high_bit_depth) {
+ const int a1 = ref[(w + 1) * (y + 0) + x + 0];
+ const int a2 = ref[(w + 1) * (y + 0) + x + 1];
+ const int b1 = ref[(w + 1) * (y + 1) + x + 0];
+ const int b2 = ref[(w + 1) * (y + 1) + x + 1];
+ const int a = a1 + (((a2 - a1) * xoff + 8) >> 4);
+ const int b = b1 + (((b2 - b1) * xoff + 8) >> 4);
+ const int r = a + (((b - a) * yoff + 8) >> 4);
+ const int diff =
+ ((r + second_pred[w * y + x] + 1) >> 1) - src[w * y + x];
+ se += diff;
+ sse += diff * diff;
+ } else {
+ const uint16_t *ref16 = CONVERT_TO_SHORTPTR(ref);
+ const uint16_t *src16 = CONVERT_TO_SHORTPTR(src);
+ const uint16_t *sec16 = CONVERT_TO_SHORTPTR(second_pred);
+ const int a1 = ref16[(w + 1) * (y + 0) + x + 0];
+ const int a2 = ref16[(w + 1) * (y + 0) + x + 1];
+ const int b1 = ref16[(w + 1) * (y + 1) + x + 0];
+ const int b2 = ref16[(w + 1) * (y + 1) + x + 1];
+ const int a = a1 + (((a2 - a1) * xoff + 8) >> 4);
+ const int b = b1 + (((b2 - b1) * xoff + 8) >> 4);
+ const int r = a + (((b - a) * yoff + 8) >> 4);
+ const int diff = ((r + sec16[w * y + x] + 1) >> 1) - src16[w * y + x];
+ se += diff;
+ sse += diff * diff;
+ }
+ }
+ }
+ RoundHighBitDepth(bit_depth, &se, &sse);
+ *sse_ptr = static_cast<uint32_t>(sse);
+ return static_cast<uint32_t>(sse - ((se * se) >> (l2w + l2h)));
+}
+
+static uint32_t jnt_subpel_avg_variance_ref(
+ const uint8_t *ref, const uint8_t *src, const uint8_t *second_pred, int l2w,
+ int l2h, int xoff, int yoff, uint32_t *sse_ptr, bool use_high_bit_depth,
+ aom_bit_depth_t bit_depth, JNT_COMP_PARAMS *jcp_param) {
+ int64_t se = 0;
+ uint64_t sse = 0;
+ const int w = 1 << l2w;
+ const int h = 1 << l2h;
+
+ xoff <<= 1;
+ yoff <<= 1;
+
+ for (int y = 0; y < h; y++) {
+ for (int x = 0; x < w; x++) {
+ // bilinear interpolation at a 16th pel step
+ if (!use_high_bit_depth) {
+ const int a1 = ref[(w + 0) * (y + 0) + x + 0];
+ const int a2 = ref[(w + 0) * (y + 0) + x + 1];
+ const int b1 = ref[(w + 0) * (y + 1) + x + 0];
+ const int b2 = ref[(w + 0) * (y + 1) + x + 1];
+ const int a = a1 + (((a2 - a1) * xoff + 8) >> 4);
+ const int b = b1 + (((b2 - b1) * xoff + 8) >> 4);
+ const int r = a + (((b - a) * yoff + 8) >> 4);
+ const int avg = ROUND_POWER_OF_TWO(
+ r * jcp_param->fwd_offset +
+ second_pred[w * y + x] * jcp_param->bck_offset,
+ DIST_PRECISION_BITS);
+ const int diff = avg - src[w * y + x];
+
+ se += diff;
+ sse += diff * diff;
+ } else {
+ const uint16_t *ref16 = CONVERT_TO_SHORTPTR(ref);
+ const uint16_t *src16 = CONVERT_TO_SHORTPTR(src);
+ const uint16_t *sec16 = CONVERT_TO_SHORTPTR(second_pred);
+ const int a1 = ref16[(w + 0) * (y + 0) + x + 0];
+ const int a2 = ref16[(w + 0) * (y + 0) + x + 1];
+ const int b1 = ref16[(w + 0) * (y + 1) + x + 0];
+ const int b2 = ref16[(w + 0) * (y + 1) + x + 1];
+ const int a = a1 + (((a2 - a1) * xoff + 8) >> 4);
+ const int b = b1 + (((b2 - b1) * xoff + 8) >> 4);
+ const int r = a + (((b - a) * yoff + 8) >> 4);
+ const int avg =
+ ROUND_POWER_OF_TWO(r * jcp_param->fwd_offset +
+ sec16[w * y + x] * jcp_param->bck_offset,
+ DIST_PRECISION_BITS);
+ const int diff = avg - src16[w * y + x];
+
+ se += diff;
+ sse += diff * diff;
+ }
+ }
+ }
+ RoundHighBitDepth(bit_depth, &se, &sse);
+ *sse_ptr = static_cast<uint32_t>(sse);
+ return static_cast<uint32_t>(sse - ((se * se) >> (l2w + l2h)));
+}
+
+static uint32_t obmc_subpel_variance_ref(const uint8_t *pre, int l2w, int l2h,
+ int xoff, int yoff,
+ const int32_t *wsrc,
+ const int32_t *mask, uint32_t *sse_ptr,
+ bool use_high_bit_depth_,
+ aom_bit_depth_t bit_depth) {
+ int64_t se = 0;
+ uint64_t sse = 0;
+ const int w = 1 << l2w;
+ const int h = 1 << l2h;
+
+ xoff <<= 1;
+ yoff <<= 1;
+
+ for (int y = 0; y < h; y++) {
+ for (int x = 0; x < w; x++) {
+ // Bilinear interpolation at a 16th pel step.
+ if (!use_high_bit_depth_) {
+ const int a1 = pre[(w + 1) * (y + 0) + x + 0];
+ const int a2 = pre[(w + 1) * (y + 0) + x + 1];
+ const int b1 = pre[(w + 1) * (y + 1) + x + 0];
+ const int b2 = pre[(w + 1) * (y + 1) + x + 1];
+ const int a = a1 + (((a2 - a1) * xoff + 8) >> 4);
+ const int b = b1 + (((b2 - b1) * xoff + 8) >> 4);
+ const int r = a + (((b - a) * yoff + 8) >> 4);
+ const int diff = ROUND_POWER_OF_TWO_SIGNED(
+ wsrc[w * y + x] - r * mask[w * y + x], 12);
+ se += diff;
+ sse += diff * diff;
+ } else {
+ uint16_t *pre16 = CONVERT_TO_SHORTPTR(pre);
+ const int a1 = pre16[(w + 1) * (y + 0) + x + 0];
+ const int a2 = pre16[(w + 1) * (y + 0) + x + 1];
+ const int b1 = pre16[(w + 1) * (y + 1) + x + 0];
+ const int b2 = pre16[(w + 1) * (y + 1) + x + 1];
+ const int a = a1 + (((a2 - a1) * xoff + 8) >> 4);
+ const int b = b1 + (((b2 - b1) * xoff + 8) >> 4);
+ const int r = a + (((b - a) * yoff + 8) >> 4);
+ const int diff = ROUND_POWER_OF_TWO_SIGNED(
+ wsrc[w * y + x] - r * mask[w * y + x], 12);
+ se += diff;
+ sse += diff * diff;
+ }
+ }
+ }
+ RoundHighBitDepth(bit_depth, &se, &sse);
+ *sse_ptr = static_cast<uint32_t>(sse);
+ return static_cast<uint32_t>(sse - ((se * se) >> (l2w + l2h)));
+}
+
+////////////////////////////////////////////////////////////////////////////////
+
+class SumOfSquaresTest : public ::testing::TestWithParam<SumOfSquaresFunction> {
+ public:
+ SumOfSquaresTest() : func_(GetParam()) {}
+
+ virtual ~SumOfSquaresTest() { libaom_test::ClearSystemState(); }
+
+ protected:
+ void ConstTest();
+ void RefTest();
+
+ SumOfSquaresFunction func_;
+ ACMRandom rnd_;
+};
+
+void SumOfSquaresTest::ConstTest() {
+ int16_t mem[256];
+ unsigned int res;
+ for (int v = 0; v < 256; ++v) {
+ for (int i = 0; i < 256; ++i) {
+ mem[i] = v;
+ }
+ ASM_REGISTER_STATE_CHECK(res = func_(mem));
+ EXPECT_EQ(256u * (v * v), res);
+ }
+}
+
+void SumOfSquaresTest::RefTest() {
+ int16_t mem[256];
+ for (int i = 0; i < 100; ++i) {
+ for (int j = 0; j < 256; ++j) {
+ mem[j] = rnd_.Rand8() - rnd_.Rand8();
+ }
+
+ const unsigned int expected = mb_ss_ref(mem);
+ unsigned int res;
+ ASM_REGISTER_STATE_CHECK(res = func_(mem));
+ EXPECT_EQ(expected, res);
+ }
+}
+
+////////////////////////////////////////////////////////////////////////////////
+// Encapsulating struct to store the function to test along with
+// some testing context.
+// Can be used for MSE, SSE, Variance, etc.
+
+template <typename Func>
+struct TestParams {
+ TestParams(int log2w = 0, int log2h = 0, Func function = NULL,
+ int bit_depth_value = 0)
+ : log2width(log2w), log2height(log2h), func(function) {
+ use_high_bit_depth = (bit_depth_value > 0);
+ if (use_high_bit_depth) {
+ bit_depth = static_cast<aom_bit_depth_t>(bit_depth_value);
+ } else {
+ bit_depth = AOM_BITS_8;
+ }
+ width = 1 << log2width;
+ height = 1 << log2height;
+ block_size = width * height;
+ mask = (1u << bit_depth) - 1;
+ }
+
+ int log2width, log2height;
+ int width, height;
+ int block_size;
+ Func func;
+ aom_bit_depth_t bit_depth;
+ bool use_high_bit_depth;
+ uint32_t mask;
+};
+
+template <typename Func>
+std::ostream &operator<<(std::ostream &os, const TestParams<Func> &p) {
+ return os << "width/height:" << p.width << "/" << p.height
+ << " function:" << reinterpret_cast<const void *>(p.func)
+ << " bit-depth:" << p.bit_depth;
+}
+
+// Main class for testing a function type
+template <typename FunctionType>
+class MainTestClass
+ : public ::testing::TestWithParam<TestParams<FunctionType> > {
+ public:
+ virtual void SetUp() {
+ params_ = this->GetParam();
+
+ rnd_.Reset(ACMRandom::DeterministicSeed());
+ const size_t unit =
+ use_high_bit_depth() ? sizeof(uint16_t) : sizeof(uint8_t);
+ src_ = reinterpret_cast<uint8_t *>(aom_memalign(16, block_size() * unit));
+ ref_ = new uint8_t[block_size() * unit];
+ ASSERT_TRUE(src_ != NULL);
+ ASSERT_TRUE(ref_ != NULL);
+ if (use_high_bit_depth()) {
+ // TODO(skal): remove!
+ src_ = CONVERT_TO_BYTEPTR(src_);
+ ref_ = CONVERT_TO_BYTEPTR(ref_);
+ }
+ }
+
+ virtual void TearDown() {
+ if (use_high_bit_depth()) {
+ // TODO(skal): remove!
+ src_ = reinterpret_cast<uint8_t *>(CONVERT_TO_SHORTPTR(src_));
+ ref_ = reinterpret_cast<uint8_t *>(CONVERT_TO_SHORTPTR(ref_));
+ }
+
+ aom_free(src_);
+ delete[] ref_;
+ src_ = NULL;
+ ref_ = NULL;
+ libaom_test::ClearSystemState();
+ }
+
+ protected:
+ // We could sub-class MainTestClass into dedicated class for Variance
+ // and MSE/SSE, but it involves a lot of 'this->xxx' dereferencing
+ // to access top class fields xxx. That's cumbersome, so for now we'll just
+ // implement the testing methods here:
+
+ // Variance tests
+ void ZeroTest();
+ void RefTest();
+ void RefStrideTest();
+ void OneQuarterTest();
+ void SpeedTest();
+
+ // MSE/SSE tests
+ void RefTestMse();
+ void RefTestSse();
+ void MaxTestMse();
+ void MaxTestSse();
+
+ protected:
+ ACMRandom rnd_;
+ uint8_t *src_;
+ uint8_t *ref_;
+ TestParams<FunctionType> params_;
+
+ // some relay helpers
+ bool use_high_bit_depth() const { return params_.use_high_bit_depth; }
+ int byte_shift() const { return params_.bit_depth - 8; }
+ int block_size() const { return params_.block_size; }
+ int width() const { return params_.width; }
+ int height() const { return params_.height; }
+ uint32_t mask() const { return params_.mask; }
+};
+
+////////////////////////////////////////////////////////////////////////////////
+// Tests related to variance.
+
+template <typename VarianceFunctionType>
+void MainTestClass<VarianceFunctionType>::ZeroTest() {
+ for (int i = 0; i <= 255; ++i) {
+ if (!use_high_bit_depth()) {
+ memset(src_, i, block_size());
+ } else {
+ uint16_t *const src16 = CONVERT_TO_SHORTPTR(src_);
+ for (int k = 0; k < block_size(); ++k) src16[k] = i << byte_shift();
+ }
+ for (int j = 0; j <= 255; ++j) {
+ if (!use_high_bit_depth()) {
+ memset(ref_, j, block_size());
+ } else {
+ uint16_t *const ref16 = CONVERT_TO_SHORTPTR(ref_);
+ for (int k = 0; k < block_size(); ++k) ref16[k] = j << byte_shift();
+ }
+ unsigned int sse, var;
+ ASM_REGISTER_STATE_CHECK(
+ var = params_.func(src_, width(), ref_, width(), &sse));
+ EXPECT_EQ(0u, var) << "src values: " << i << " ref values: " << j;
+ }
+ }
+}
+
+template <typename VarianceFunctionType>
+void MainTestClass<VarianceFunctionType>::RefTest() {
+ for (int i = 0; i < 10; ++i) {
+ for (int j = 0; j < block_size(); j++) {
+ if (!use_high_bit_depth()) {
+ src_[j] = rnd_.Rand8();
+ ref_[j] = rnd_.Rand8();
+ } else {
+ CONVERT_TO_SHORTPTR(src_)[j] = rnd_.Rand16() & mask();
+ CONVERT_TO_SHORTPTR(ref_)[j] = rnd_.Rand16() & mask();
+ }
+ }
+ unsigned int sse1, sse2, var1, var2;
+ const int stride = width();
+ ASM_REGISTER_STATE_CHECK(
+ var1 = params_.func(src_, stride, ref_, stride, &sse1));
+ var2 =
+ variance_ref(src_, ref_, params_.log2width, params_.log2height, stride,
+ stride, &sse2, use_high_bit_depth(), params_.bit_depth);
+ EXPECT_EQ(sse1, sse2) << "Error at test index: " << i;
+ EXPECT_EQ(var1, var2) << "Error at test index: " << i;
+ }
+}
+
+template <typename VarianceFunctionType>
+void MainTestClass<VarianceFunctionType>::RefStrideTest() {
+ for (int i = 0; i < 10; ++i) {
+ const int ref_stride = (i & 1) * width();
+ const int src_stride = ((i >> 1) & 1) * width();
+ for (int j = 0; j < block_size(); j++) {
+ const int ref_ind = (j / width()) * ref_stride + j % width();
+ const int src_ind = (j / width()) * src_stride + j % width();
+ if (!use_high_bit_depth()) {
+ src_[src_ind] = rnd_.Rand8();
+ ref_[ref_ind] = rnd_.Rand8();
+ } else {
+ CONVERT_TO_SHORTPTR(src_)[src_ind] = rnd_.Rand16() & mask();
+ CONVERT_TO_SHORTPTR(ref_)[ref_ind] = rnd_.Rand16() & mask();
+ }
+ }
+ unsigned int sse1, sse2;
+ unsigned int var1, var2;
+
+ ASM_REGISTER_STATE_CHECK(
+ var1 = params_.func(src_, src_stride, ref_, ref_stride, &sse1));
+ var2 = variance_ref(src_, ref_, params_.log2width, params_.log2height,
+ src_stride, ref_stride, &sse2, use_high_bit_depth(),
+ params_.bit_depth);
+ EXPECT_EQ(sse1, sse2) << "Error at test index: " << i;
+ EXPECT_EQ(var1, var2) << "Error at test index: " << i;
+ }
+}
+
+template <typename VarianceFunctionType>
+void MainTestClass<VarianceFunctionType>::OneQuarterTest() {
+ const int half = block_size() / 2;
+ if (!use_high_bit_depth()) {
+ memset(src_, 255, block_size());
+ memset(ref_, 255, half);
+ memset(ref_ + half, 0, half);
+ } else {
+ aom_memset16(CONVERT_TO_SHORTPTR(src_), 255 << byte_shift(), block_size());
+ aom_memset16(CONVERT_TO_SHORTPTR(ref_), 255 << byte_shift(), half);
+ aom_memset16(CONVERT_TO_SHORTPTR(ref_) + half, 0, half);
+ }
+ unsigned int sse, var, expected;
+ ASM_REGISTER_STATE_CHECK(
+ var = params_.func(src_, width(), ref_, width(), &sse));
+ expected = block_size() * 255 * 255 / 4;
+ EXPECT_EQ(expected, var);
+}
+
+template <typename VarianceFunctionType>
+void MainTestClass<VarianceFunctionType>::SpeedTest() {
+ for (int j = 0; j < block_size(); j++) {
+ if (!use_high_bit_depth()) {
+ src_[j] = rnd_.Rand8();
+ ref_[j] = rnd_.Rand8();
+ } else {
+ CONVERT_TO_SHORTPTR(src_)[j] = rnd_.Rand16() & mask();
+ CONVERT_TO_SHORTPTR(ref_)[j] = rnd_.Rand16() & mask();
+ }
+ }
+ unsigned int sse;
+ const int stride = width();
+ int run_time = 1000000000 / block_size();
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+ for (int i = 0; i < run_time; ++i) {
+ params_.func(src_, stride, ref_, stride, &sse);
+ }
+
+ aom_usec_timer_mark(&timer);
+ const double elapsed_time =
+ static_cast<double>(aom_usec_timer_elapsed(&timer));
+ printf("Variance %dx%d : %7.2fns\n", width(), height(), elapsed_time);
+}
+
+////////////////////////////////////////////////////////////////////////////////
+// Tests related to MSE / SSE.
+
+template <typename FunctionType>
+void MainTestClass<FunctionType>::RefTestMse() {
+ for (int i = 0; i < 10; ++i) {
+ for (int j = 0; j < block_size(); ++j) {
+ src_[j] = rnd_.Rand8();
+ ref_[j] = rnd_.Rand8();
+ }
+ unsigned int sse1, sse2;
+ const int stride = width();
+ ASM_REGISTER_STATE_CHECK(params_.func(src_, stride, ref_, stride, &sse1));
+ variance_ref(src_, ref_, params_.log2width, params_.log2height, stride,
+ stride, &sse2, false, AOM_BITS_8);
+ EXPECT_EQ(sse1, sse2);
+ }
+}
+
+template <typename FunctionType>
+void MainTestClass<FunctionType>::RefTestSse() {
+ for (int i = 0; i < 10; ++i) {
+ for (int j = 0; j < block_size(); ++j) {
+ src_[j] = rnd_.Rand8();
+ ref_[j] = rnd_.Rand8();
+ }
+ unsigned int sse2;
+ unsigned int var1;
+ const int stride = width();
+ ASM_REGISTER_STATE_CHECK(var1 = params_.func(src_, stride, ref_, stride));
+ variance_ref(src_, ref_, params_.log2width, params_.log2height, stride,
+ stride, &sse2, false, AOM_BITS_8);
+ EXPECT_EQ(var1, sse2);
+ }
+}
+
+template <typename FunctionType>
+void MainTestClass<FunctionType>::MaxTestMse() {
+ memset(src_, 255, block_size());
+ memset(ref_, 0, block_size());
+ unsigned int sse;
+ ASM_REGISTER_STATE_CHECK(params_.func(src_, width(), ref_, width(), &sse));
+ const unsigned int expected = block_size() * 255 * 255;
+ EXPECT_EQ(expected, sse);
+}
+
+template <typename FunctionType>
+void MainTestClass<FunctionType>::MaxTestSse() {
+ memset(src_, 255, block_size());
+ memset(ref_, 0, block_size());
+ unsigned int var;
+ ASM_REGISTER_STATE_CHECK(var = params_.func(src_, width(), ref_, width()));
+ const unsigned int expected = block_size() * 255 * 255;
+ EXPECT_EQ(expected, var);
+}
+
+////////////////////////////////////////////////////////////////////////////////
+
+using ::testing::get;
+using ::testing::make_tuple;
+using ::testing::tuple;
+
+template <typename FunctionType>
+class SubpelVarianceTest
+ : public ::testing::TestWithParam<TestParams<FunctionType> > {
+ public:
+ virtual void SetUp() {
+ params_ = this->GetParam();
+
+ rnd_.Reset(ACMRandom::DeterministicSeed());
+ if (!use_high_bit_depth()) {
+ src_ = reinterpret_cast<uint8_t *>(aom_memalign(32, block_size()));
+ sec_ = reinterpret_cast<uint8_t *>(aom_memalign(32, block_size()));
+ ref_ = reinterpret_cast<uint8_t *>(
+ aom_memalign(32, block_size() + width() + height() + 1));
+ } else {
+ src_ = CONVERT_TO_BYTEPTR(reinterpret_cast<uint16_t *>(
+ aom_memalign(32, block_size() * sizeof(uint16_t))));
+ sec_ = CONVERT_TO_BYTEPTR(reinterpret_cast<uint16_t *>(
+ aom_memalign(32, block_size() * sizeof(uint16_t))));
+ ref_ = CONVERT_TO_BYTEPTR(aom_memalign(
+ 32, (block_size() + width() + height() + 1) * sizeof(uint16_t)));
+ }
+ ASSERT_TRUE(src_ != NULL);
+ ASSERT_TRUE(sec_ != NULL);
+ ASSERT_TRUE(ref_ != NULL);
+ }
+
+ virtual void TearDown() {
+ if (!use_high_bit_depth()) {
+ aom_free(src_);
+ aom_free(ref_);
+ aom_free(sec_);
+ } else {
+ aom_free(CONVERT_TO_SHORTPTR(src_));
+ aom_free(CONVERT_TO_SHORTPTR(ref_));
+ aom_free(CONVERT_TO_SHORTPTR(sec_));
+ }
+ libaom_test::ClearSystemState();
+ }
+
+ protected:
+ void RefTest();
+ void ExtremeRefTest();
+
+ ACMRandom rnd_;
+ uint8_t *src_;
+ uint8_t *ref_;
+ uint8_t *sec_;
+ TestParams<FunctionType> params_;
+ JNT_COMP_PARAMS jcp_param_;
+
+ // some relay helpers
+ bool use_high_bit_depth() const { return params_.use_high_bit_depth; }
+ int byte_shift() const { return params_.bit_depth - 8; }
+ int block_size() const { return params_.block_size; }
+ int width() const { return params_.width; }
+ int height() const { return params_.height; }
+ uint32_t mask() const { return params_.mask; }
+};
+
+template <typename SubpelVarianceFunctionType>
+void SubpelVarianceTest<SubpelVarianceFunctionType>::RefTest() {
+ for (int x = 0; x < 8; ++x) {
+ for (int y = 0; y < 8; ++y) {
+ if (!use_high_bit_depth()) {
+ for (int j = 0; j < block_size(); j++) {
+ src_[j] = rnd_.Rand8();
+ }
+ for (int j = 0; j < block_size() + width() + height() + 1; j++) {
+ ref_[j] = rnd_.Rand8();
+ }
+ } else {
+ for (int j = 0; j < block_size(); j++) {
+ CONVERT_TO_SHORTPTR(src_)[j] = rnd_.Rand16() & mask();
+ }
+ for (int j = 0; j < block_size() + width() + height() + 1; j++) {
+ CONVERT_TO_SHORTPTR(ref_)[j] = rnd_.Rand16() & mask();
+ }
+ }
+ unsigned int sse1, sse2;
+ unsigned int var1;
+ ASM_REGISTER_STATE_CHECK(
+ var1 = params_.func(ref_, width() + 1, x, y, src_, width(), &sse1));
+ const unsigned int var2 = subpel_variance_ref(
+ ref_, src_, params_.log2width, params_.log2height, x, y, &sse2,
+ use_high_bit_depth(), params_.bit_depth);
+ EXPECT_EQ(sse1, sse2) << "at position " << x << ", " << y;
+ EXPECT_EQ(var1, var2) << "at position " << x << ", " << y;
+ }
+ }
+}
+
+template <typename SubpelVarianceFunctionType>
+void SubpelVarianceTest<SubpelVarianceFunctionType>::ExtremeRefTest() {
+ // Compare against reference.
+ // Src: Set the first half of values to 0, the second half to the maximum.
+ // Ref: Set the first half of values to the maximum, the second half to 0.
+ for (int x = 0; x < 8; ++x) {
+ for (int y = 0; y < 8; ++y) {
+ const int half = block_size() / 2;
+ if (!use_high_bit_depth()) {
+ memset(src_, 0, half);
+ memset(src_ + half, 255, half);
+ memset(ref_, 255, half);
+ memset(ref_ + half, 0, half + width() + height() + 1);
+ } else {
+ aom_memset16(CONVERT_TO_SHORTPTR(src_), mask(), half);
+ aom_memset16(CONVERT_TO_SHORTPTR(src_) + half, 0, half);
+ aom_memset16(CONVERT_TO_SHORTPTR(ref_), 0, half);
+ aom_memset16(CONVERT_TO_SHORTPTR(ref_) + half, mask(),
+ half + width() + height() + 1);
+ }
+ unsigned int sse1, sse2;
+ unsigned int var1;
+ ASM_REGISTER_STATE_CHECK(
+ var1 = params_.func(ref_, width() + 1, x, y, src_, width(), &sse1));
+ const unsigned int var2 = subpel_variance_ref(
+ ref_, src_, params_.log2width, params_.log2height, x, y, &sse2,
+ use_high_bit_depth(), params_.bit_depth);
+ EXPECT_EQ(sse1, sse2) << "for xoffset " << x << " and yoffset " << y;
+ EXPECT_EQ(var1, var2) << "for xoffset " << x << " and yoffset " << y;
+ }
+ }
+}
+
+template <>
+void SubpelVarianceTest<SubpixAvgVarMxNFunc>::RefTest() {
+ for (int x = 0; x < 8; ++x) {
+ for (int y = 0; y < 8; ++y) {
+ if (!use_high_bit_depth()) {
+ for (int j = 0; j < block_size(); j++) {
+ src_[j] = rnd_.Rand8();
+ sec_[j] = rnd_.Rand8();
+ }
+ for (int j = 0; j < block_size() + width() + height() + 1; j++) {
+ ref_[j] = rnd_.Rand8();
+ }
+ } else {
+ for (int j = 0; j < block_size(); j++) {
+ CONVERT_TO_SHORTPTR(src_)[j] = rnd_.Rand16() & mask();
+ CONVERT_TO_SHORTPTR(sec_)[j] = rnd_.Rand16() & mask();
+ }
+ for (int j = 0; j < block_size() + width() + height() + 1; j++) {
+ CONVERT_TO_SHORTPTR(ref_)[j] = rnd_.Rand16() & mask();
+ }
+ }
+ uint32_t sse1, sse2;
+ uint32_t var1, var2;
+ ASM_REGISTER_STATE_CHECK(var1 = params_.func(ref_, width() + 1, x, y,
+ src_, width(), &sse1, sec_));
+ var2 = subpel_avg_variance_ref(ref_, src_, sec_, params_.log2width,
+ params_.log2height, x, y, &sse2,
+ use_high_bit_depth(), params_.bit_depth);
+ EXPECT_EQ(sse1, sse2) << "at position " << x << ", " << y;
+ EXPECT_EQ(var1, var2) << "at position " << x << ", " << y;
+ }
+ }
+}
+
+template <>
+void SubpelVarianceTest<JntSubpixAvgVarMxNFunc>::RefTest() {
+ for (int x = 0; x < 8; ++x) {
+ for (int y = 0; y < 8; ++y) {
+ if (!use_high_bit_depth()) {
+ for (int j = 0; j < block_size(); j++) {
+ src_[j] = rnd_.Rand8();
+ sec_[j] = rnd_.Rand8();
+ }
+ for (int j = 0; j < block_size() + width() + height() + 1; j++) {
+ ref_[j] = rnd_.Rand8();
+ }
+ } else {
+ for (int j = 0; j < block_size(); j++) {
+ CONVERT_TO_SHORTPTR(src_)[j] = rnd_.Rand16() & mask();
+ CONVERT_TO_SHORTPTR(sec_)[j] = rnd_.Rand16() & mask();
+ }
+ for (int j = 0; j < block_size() + width() + height() + 1; j++) {
+ CONVERT_TO_SHORTPTR(ref_)[j] = rnd_.Rand16() & mask();
+ }
+ }
+ for (int x0 = 0; x0 < 2; ++x0) {
+ for (int y0 = 0; y0 < 4; ++y0) {
+ uint32_t sse1, sse2;
+ uint32_t var1, var2;
+ jcp_param_.fwd_offset = quant_dist_lookup_table[x0][y0][0];
+ jcp_param_.bck_offset = quant_dist_lookup_table[x0][y0][1];
+ ASM_REGISTER_STATE_CHECK(var1 = params_.func(ref_, width() + 0, x, y,
+ src_, width(), &sse1,
+ sec_, &jcp_param_));
+ var2 = jnt_subpel_avg_variance_ref(
+ ref_, src_, sec_, params_.log2width, params_.log2height, x, y,
+ &sse2, use_high_bit_depth(), params_.bit_depth, &jcp_param_);
+ EXPECT_EQ(sse1, sse2) << "at position " << x << ", " << y;
+ EXPECT_EQ(var1, var2) << "at position " << x << ", " << y;
+ }
+ }
+ }
+ }
+}
+
+////////////////////////////////////////////////////////////////////////////////
+
+static const int kMaskMax = 64;
+
+typedef TestParams<ObmcSubpelVarFunc> ObmcSubpelVarianceParams;
+
+template <typename FunctionType>
+class ObmcVarianceTest
+ : public ::testing::TestWithParam<TestParams<FunctionType> > {
+ public:
+ virtual void SetUp() {
+ params_ = this->GetParam();
+
+ rnd_.Reset(ACMRandom::DeterministicSeed());
+ if (!use_high_bit_depth()) {
+ pre_ = reinterpret_cast<uint8_t *>(
+ aom_memalign(32, block_size() + width() + height() + 1));
+ } else {
+ pre_ = CONVERT_TO_BYTEPTR(reinterpret_cast<uint16_t *>(aom_memalign(
+ 32, block_size() + width() + height() + 1 * sizeof(uint16_t))));
+ }
+ wsrc_ = reinterpret_cast<int32_t *>(
+ aom_memalign(32, block_size() * sizeof(uint32_t)));
+ mask_ = reinterpret_cast<int32_t *>(
+ aom_memalign(32, block_size() * sizeof(uint32_t)));
+ ASSERT_TRUE(pre_ != NULL);
+ ASSERT_TRUE(wsrc_ != NULL);
+ ASSERT_TRUE(mask_ != NULL);
+ }
+
+ virtual void TearDown() {
+ if (!use_high_bit_depth()) {
+ aom_free(pre_);
+ } else {
+ aom_free(CONVERT_TO_SHORTPTR(pre_));
+ }
+ aom_free(wsrc_);
+ aom_free(mask_);
+ libaom_test::ClearSystemState();
+ }
+
+ protected:
+ void RefTest();
+ void ExtremeRefTest();
+ void SpeedTest();
+
+ ACMRandom rnd_;
+ uint8_t *pre_;
+ int32_t *wsrc_;
+ int32_t *mask_;
+ TestParams<FunctionType> params_;
+
+ // some relay helpers
+ bool use_high_bit_depth() const { return params_.use_high_bit_depth; }
+ int byte_shift() const { return params_.bit_depth - 8; }
+ int block_size() const { return params_.block_size; }
+ int width() const { return params_.width; }
+ int height() const { return params_.height; }
+ uint32_t bd_mask() const { return params_.mask; }
+};
+
+template <>
+void ObmcVarianceTest<ObmcSubpelVarFunc>::RefTest() {
+ for (int x = 0; x < 8; ++x) {
+ for (int y = 0; y < 8; ++y) {
+ if (!use_high_bit_depth())
+ for (int j = 0; j < block_size() + width() + height() + 1; j++)
+ pre_[j] = rnd_.Rand8();
+ else
+ for (int j = 0; j < block_size() + width() + height() + 1; j++)
+ CONVERT_TO_SHORTPTR(pre_)[j] = rnd_.Rand16() & bd_mask();
+ for (int j = 0; j < block_size(); j++) {
+ wsrc_[j] = (rnd_.Rand16() & bd_mask()) * rnd_(kMaskMax * kMaskMax + 1);
+ mask_[j] = rnd_(kMaskMax * kMaskMax + 1);
+ }
+
+ uint32_t sse1, sse2;
+ uint32_t var1, var2;
+ ASM_REGISTER_STATE_CHECK(
+ var1 = params_.func(pre_, width() + 1, x, y, wsrc_, mask_, &sse1));
+ var2 = obmc_subpel_variance_ref(
+ pre_, params_.log2width, params_.log2height, x, y, wsrc_, mask_,
+ &sse2, use_high_bit_depth(), params_.bit_depth);
+ EXPECT_EQ(sse1, sse2) << "for xoffset " << x << " and yoffset " << y;
+ EXPECT_EQ(var1, var2) << "for xoffset " << x << " and yoffset " << y;
+ }
+ }
+}
+
+template <>
+void ObmcVarianceTest<ObmcSubpelVarFunc>::ExtremeRefTest() {
+ // Pre: Set the first half of values to the maximum, the second half to 0.
+ // Mask: same as above
+ // WSrc: Set the first half of values to 0, the second half to the maximum.
+ for (int x = 0; x < 8; ++x) {
+ for (int y = 0; y < 8; ++y) {
+ const int half = block_size() / 2;
+ if (!use_high_bit_depth()) {
+ memset(pre_, 255, half);
+ memset(pre_ + half, 0, half + width() + height() + 1);
+ } else {
+ aom_memset16(CONVERT_TO_SHORTPTR(pre_), bd_mask(), half);
+ aom_memset16(CONVERT_TO_SHORTPTR(pre_) + half, 0, half);
+ }
+ for (int j = 0; j < half; j++) {
+ wsrc_[j] = bd_mask() * kMaskMax * kMaskMax;
+ mask_[j] = 0;
+ }
+ for (int j = half; j < block_size(); j++) {
+ wsrc_[j] = 0;
+ mask_[j] = kMaskMax * kMaskMax;
+ }
+
+ uint32_t sse1, sse2;
+ uint32_t var1, var2;
+ ASM_REGISTER_STATE_CHECK(
+ var1 = params_.func(pre_, width() + 1, x, y, wsrc_, mask_, &sse1));
+ var2 = obmc_subpel_variance_ref(
+ pre_, params_.log2width, params_.log2height, x, y, wsrc_, mask_,
+ &sse2, use_high_bit_depth(), params_.bit_depth);
+ EXPECT_EQ(sse1, sse2) << "for xoffset " << x << " and yoffset " << y;
+ EXPECT_EQ(var1, var2) << "for xoffset " << x << " and yoffset " << y;
+ }
+ }
+}
+
+template <>
+void ObmcVarianceTest<ObmcSubpelVarFunc>::SpeedTest() {
+ if (!use_high_bit_depth())
+ for (int j = 0; j < block_size() + width() + height() + 1; j++)
+ pre_[j] = rnd_.Rand8();
+ else
+ for (int j = 0; j < block_size() + width() + height() + 1; j++)
+ CONVERT_TO_SHORTPTR(pre_)[j] = rnd_.Rand16() & bd_mask();
+ for (int j = 0; j < block_size(); j++) {
+ wsrc_[j] = (rnd_.Rand16() & bd_mask()) * rnd_(kMaskMax * kMaskMax + 1);
+ mask_[j] = rnd_(kMaskMax * kMaskMax + 1);
+ }
+ unsigned int sse1;
+ const int stride = width() + 1;
+ int run_time = 1000000000 / block_size();
+ aom_usec_timer timer;
+
+ aom_usec_timer_start(&timer);
+ for (int i = 0; i < run_time; ++i) {
+ int x = rnd_(8);
+ int y = rnd_(8);
+ ASM_REGISTER_STATE_CHECK(
+ params_.func(pre_, stride, x, y, wsrc_, mask_, &sse1));
+ }
+ aom_usec_timer_mark(&timer);
+
+ const int elapsed_time = static_cast<int>(aom_usec_timer_elapsed(&timer));
+ printf("obmc_sub_pixel_variance_%dx%d_%d: %d us\n", width(), height(),
+ params_.bit_depth, elapsed_time);
+}
+
+typedef MainTestClass<Get4x4SseFunc> AvxSseTest;
+typedef MainTestClass<VarianceMxNFunc> AvxMseTest;
+typedef MainTestClass<VarianceMxNFunc> AvxVarianceTest;
+typedef SubpelVarianceTest<SubpixVarMxNFunc> AvxSubpelVarianceTest;
+typedef SubpelVarianceTest<SubpixAvgVarMxNFunc> AvxSubpelAvgVarianceTest;
+typedef SubpelVarianceTest<JntSubpixAvgVarMxNFunc> AvxJntSubpelAvgVarianceTest;
+typedef ObmcVarianceTest<ObmcSubpelVarFunc> AvxObmcSubpelVarianceTest;
+
+TEST_P(AvxSseTest, RefSse) { RefTestSse(); }
+TEST_P(AvxSseTest, MaxSse) { MaxTestSse(); }
+TEST_P(AvxMseTest, RefMse) { RefTestMse(); }
+TEST_P(AvxMseTest, MaxMse) { MaxTestMse(); }
+TEST_P(AvxVarianceTest, Zero) { ZeroTest(); }
+TEST_P(AvxVarianceTest, Ref) { RefTest(); }
+TEST_P(AvxVarianceTest, RefStride) { RefStrideTest(); }
+TEST_P(AvxVarianceTest, OneQuarter) { OneQuarterTest(); }
+TEST_P(AvxVarianceTest, DISABLED_Speed) { SpeedTest(); }
+TEST_P(SumOfSquaresTest, Const) { ConstTest(); }
+TEST_P(SumOfSquaresTest, Ref) { RefTest(); }
+TEST_P(AvxSubpelVarianceTest, Ref) { RefTest(); }
+TEST_P(AvxSubpelVarianceTest, ExtremeRef) { ExtremeRefTest(); }
+TEST_P(AvxSubpelAvgVarianceTest, Ref) { RefTest(); }
+TEST_P(AvxJntSubpelAvgVarianceTest, Ref) { RefTest(); }
+TEST_P(AvxObmcSubpelVarianceTest, Ref) { RefTest(); }
+TEST_P(AvxObmcSubpelVarianceTest, ExtremeRef) { ExtremeRefTest(); }
+TEST_P(AvxObmcSubpelVarianceTest, DISABLED_Speed) { SpeedTest(); }
+
+INSTANTIATE_TEST_CASE_P(C, SumOfSquaresTest,
+ ::testing::Values(aom_get_mb_ss_c));
+
+typedef TestParams<Get4x4SseFunc> SseParams;
+INSTANTIATE_TEST_CASE_P(C, AvxSseTest,
+ ::testing::Values(SseParams(2, 2,
+ &aom_get4x4sse_cs_c)));
+
+typedef TestParams<VarianceMxNFunc> MseParams;
+INSTANTIATE_TEST_CASE_P(C, AvxMseTest,
+ ::testing::Values(MseParams(4, 4, &aom_mse16x16_c),
+ MseParams(4, 3, &aom_mse16x8_c),
+ MseParams(3, 4, &aom_mse8x16_c),
+ MseParams(3, 3, &aom_mse8x8_c)));
+
+typedef TestParams<VarianceMxNFunc> VarianceParams;
+INSTANTIATE_TEST_CASE_P(
+ C, AvxVarianceTest,
+ ::testing::Values(VarianceParams(7, 7, &aom_variance128x128_c),
+ VarianceParams(7, 6, &aom_variance128x64_c),
+ VarianceParams(6, 7, &aom_variance64x128_c),
+ VarianceParams(6, 6, &aom_variance64x64_c),
+ VarianceParams(6, 5, &aom_variance64x32_c),
+ VarianceParams(5, 6, &aom_variance32x64_c),
+ VarianceParams(5, 5, &aom_variance32x32_c),
+ VarianceParams(5, 4, &aom_variance32x16_c),
+ VarianceParams(4, 5, &aom_variance16x32_c),
+ VarianceParams(4, 4, &aom_variance16x16_c),
+ VarianceParams(4, 3, &aom_variance16x8_c),
+ VarianceParams(3, 4, &aom_variance8x16_c),
+ VarianceParams(3, 3, &aom_variance8x8_c),
+ VarianceParams(3, 2, &aom_variance8x4_c),
+ VarianceParams(2, 3, &aom_variance4x8_c),
+ VarianceParams(2, 2, &aom_variance4x4_c)));
+
+typedef TestParams<SubpixVarMxNFunc> SubpelVarianceParams;
+INSTANTIATE_TEST_CASE_P(
+ C, AvxSubpelVarianceTest,
+ ::testing::Values(
+ SubpelVarianceParams(7, 7, &aom_sub_pixel_variance128x128_c, 0),
+ SubpelVarianceParams(7, 6, &aom_sub_pixel_variance128x64_c, 0),
+ SubpelVarianceParams(6, 7, &aom_sub_pixel_variance64x128_c, 0),
+ SubpelVarianceParams(6, 6, &aom_sub_pixel_variance64x64_c, 0),
+ SubpelVarianceParams(6, 5, &aom_sub_pixel_variance64x32_c, 0),
+ SubpelVarianceParams(5, 6, &aom_sub_pixel_variance32x64_c, 0),
+ SubpelVarianceParams(5, 5, &aom_sub_pixel_variance32x32_c, 0),
+ SubpelVarianceParams(5, 4, &aom_sub_pixel_variance32x16_c, 0),
+ SubpelVarianceParams(4, 5, &aom_sub_pixel_variance16x32_c, 0),
+ SubpelVarianceParams(4, 4, &aom_sub_pixel_variance16x16_c, 0),
+ SubpelVarianceParams(4, 3, &aom_sub_pixel_variance16x8_c, 0),
+ SubpelVarianceParams(3, 4, &aom_sub_pixel_variance8x16_c, 0),
+ SubpelVarianceParams(3, 3, &aom_sub_pixel_variance8x8_c, 0),
+ SubpelVarianceParams(3, 2, &aom_sub_pixel_variance8x4_c, 0),
+ SubpelVarianceParams(2, 3, &aom_sub_pixel_variance4x8_c, 0),
+ SubpelVarianceParams(2, 2, &aom_sub_pixel_variance4x4_c, 0)));
+
+typedef TestParams<SubpixAvgVarMxNFunc> SubpelAvgVarianceParams;
+INSTANTIATE_TEST_CASE_P(
+ C, AvxSubpelAvgVarianceTest,
+ ::testing::Values(
+ SubpelAvgVarianceParams(7, 7, &aom_sub_pixel_avg_variance128x128_c, 0),
+ SubpelAvgVarianceParams(7, 6, &aom_sub_pixel_avg_variance128x64_c, 0),
+ SubpelAvgVarianceParams(6, 7, &aom_sub_pixel_avg_variance64x128_c, 0),
+ SubpelAvgVarianceParams(6, 6, &aom_sub_pixel_avg_variance64x64_c, 0),
+ SubpelAvgVarianceParams(6, 5, &aom_sub_pixel_avg_variance64x32_c, 0),
+ SubpelAvgVarianceParams(5, 6, &aom_sub_pixel_avg_variance32x64_c, 0),
+ SubpelAvgVarianceParams(5, 5, &aom_sub_pixel_avg_variance32x32_c, 0),
+ SubpelAvgVarianceParams(5, 4, &aom_sub_pixel_avg_variance32x16_c, 0),
+ SubpelAvgVarianceParams(4, 5, &aom_sub_pixel_avg_variance16x32_c, 0),
+ SubpelAvgVarianceParams(4, 4, &aom_sub_pixel_avg_variance16x16_c, 0),
+ SubpelAvgVarianceParams(4, 3, &aom_sub_pixel_avg_variance16x8_c, 0),
+ SubpelAvgVarianceParams(3, 4, &aom_sub_pixel_avg_variance8x16_c, 0),
+ SubpelAvgVarianceParams(3, 3, &aom_sub_pixel_avg_variance8x8_c, 0),
+ SubpelAvgVarianceParams(3, 2, &aom_sub_pixel_avg_variance8x4_c, 0),
+ SubpelAvgVarianceParams(2, 3, &aom_sub_pixel_avg_variance4x8_c, 0),
+ SubpelAvgVarianceParams(2, 2, &aom_sub_pixel_avg_variance4x4_c, 0)));
+
+typedef TestParams<JntSubpixAvgVarMxNFunc> JntSubpelAvgVarianceParams;
+INSTANTIATE_TEST_CASE_P(
+ C, AvxJntSubpelAvgVarianceTest,
+ ::testing::Values(
+ JntSubpelAvgVarianceParams(6, 6, &aom_jnt_sub_pixel_avg_variance64x64_c,
+ 0),
+ JntSubpelAvgVarianceParams(6, 5, &aom_jnt_sub_pixel_avg_variance64x32_c,
+ 0),
+ JntSubpelAvgVarianceParams(5, 6, &aom_jnt_sub_pixel_avg_variance32x64_c,
+ 0),
+ JntSubpelAvgVarianceParams(5, 5, &aom_jnt_sub_pixel_avg_variance32x32_c,
+ 0),
+ JntSubpelAvgVarianceParams(5, 4, &aom_jnt_sub_pixel_avg_variance32x16_c,
+ 0),
+ JntSubpelAvgVarianceParams(4, 5, &aom_jnt_sub_pixel_avg_variance16x32_c,
+ 0),
+ JntSubpelAvgVarianceParams(4, 4, &aom_jnt_sub_pixel_avg_variance16x16_c,
+ 0),
+ JntSubpelAvgVarianceParams(4, 3, &aom_jnt_sub_pixel_avg_variance16x8_c,
+ 0),
+ JntSubpelAvgVarianceParams(3, 4, &aom_jnt_sub_pixel_avg_variance8x16_c,
+ 0),
+ JntSubpelAvgVarianceParams(3, 3, &aom_jnt_sub_pixel_avg_variance8x8_c,
+ 0),
+ JntSubpelAvgVarianceParams(3, 2, &aom_jnt_sub_pixel_avg_variance8x4_c,
+ 0),
+ JntSubpelAvgVarianceParams(2, 3, &aom_jnt_sub_pixel_avg_variance4x8_c,
+ 0),
+ JntSubpelAvgVarianceParams(2, 2, &aom_jnt_sub_pixel_avg_variance4x4_c,
+ 0)));
+
+INSTANTIATE_TEST_CASE_P(
+ C, AvxObmcSubpelVarianceTest,
+ ::testing::Values(
+ ObmcSubpelVarianceParams(7, 7, &aom_obmc_sub_pixel_variance128x128_c,
+ 0),
+ ObmcSubpelVarianceParams(7, 6, &aom_obmc_sub_pixel_variance128x64_c, 0),
+ ObmcSubpelVarianceParams(6, 7, &aom_obmc_sub_pixel_variance64x128_c, 0),
+ ObmcSubpelVarianceParams(6, 6, &aom_obmc_sub_pixel_variance64x64_c, 0),
+ ObmcSubpelVarianceParams(6, 5, &aom_obmc_sub_pixel_variance64x32_c, 0),
+ ObmcSubpelVarianceParams(5, 6, &aom_obmc_sub_pixel_variance32x64_c, 0),
+ ObmcSubpelVarianceParams(5, 5, &aom_obmc_sub_pixel_variance32x32_c, 0),
+ ObmcSubpelVarianceParams(5, 4, &aom_obmc_sub_pixel_variance32x16_c, 0),
+ ObmcSubpelVarianceParams(4, 5, &aom_obmc_sub_pixel_variance16x32_c, 0),
+ ObmcSubpelVarianceParams(4, 4, &aom_obmc_sub_pixel_variance16x16_c, 0),
+ ObmcSubpelVarianceParams(4, 3, &aom_obmc_sub_pixel_variance16x8_c, 0),
+ ObmcSubpelVarianceParams(3, 4, &aom_obmc_sub_pixel_variance8x16_c, 0),
+ ObmcSubpelVarianceParams(3, 3, &aom_obmc_sub_pixel_variance8x8_c, 0),
+ ObmcSubpelVarianceParams(3, 2, &aom_obmc_sub_pixel_variance8x4_c, 0),
+ ObmcSubpelVarianceParams(2, 3, &aom_obmc_sub_pixel_variance4x8_c, 0),
+ ObmcSubpelVarianceParams(2, 2, &aom_obmc_sub_pixel_variance4x4_c, 0)));
+
+typedef MainTestClass<VarianceMxNFunc> AvxHBDMseTest;
+typedef MainTestClass<VarianceMxNFunc> AvxHBDVarianceTest;
+typedef SubpelVarianceTest<SubpixVarMxNFunc> AvxHBDSubpelVarianceTest;
+typedef SubpelVarianceTest<SubpixAvgVarMxNFunc> AvxHBDSubpelAvgVarianceTest;
+typedef ObmcVarianceTest<ObmcSubpelVarFunc> AvxHBDObmcSubpelVarianceTest;
+
+TEST_P(AvxHBDMseTest, RefMse) { RefTestMse(); }
+TEST_P(AvxHBDMseTest, MaxMse) { MaxTestMse(); }
+TEST_P(AvxHBDVarianceTest, Zero) { ZeroTest(); }
+TEST_P(AvxHBDVarianceTest, Ref) { RefTest(); }
+TEST_P(AvxHBDVarianceTest, RefStride) { RefStrideTest(); }
+TEST_P(AvxHBDVarianceTest, OneQuarter) { OneQuarterTest(); }
+TEST_P(AvxHBDVarianceTest, DISABLED_Speed) { SpeedTest(); }
+TEST_P(AvxHBDSubpelVarianceTest, Ref) { RefTest(); }
+TEST_P(AvxHBDSubpelVarianceTest, ExtremeRef) { ExtremeRefTest(); }
+TEST_P(AvxHBDSubpelAvgVarianceTest, Ref) { RefTest(); }
+
+/* TODO(debargha): This test does not support the highbd version
+INSTANTIATE_TEST_CASE_P(
+ C, AvxHBDMseTest,
+ ::testing::Values(make_tuple(4, 4, &aom_highbd_12_mse16x16_c),
+ make_tuple(4, 4, &aom_highbd_12_mse16x8_c),
+ make_tuple(4, 4, &aom_highbd_12_mse8x16_c),
+ make_tuple(4, 4, &aom_highbd_12_mse8x8_c),
+ make_tuple(4, 4, &aom_highbd_10_mse16x16_c),
+ make_tuple(4, 4, &aom_highbd_10_mse16x8_c),
+ make_tuple(4, 4, &aom_highbd_10_mse8x16_c),
+ make_tuple(4, 4, &aom_highbd_10_mse8x8_c),
+ make_tuple(4, 4, &aom_highbd_8_mse16x16_c),
+ make_tuple(4, 4, &aom_highbd_8_mse16x8_c),
+ make_tuple(4, 4, &aom_highbd_8_mse8x16_c),
+ make_tuple(4, 4, &aom_highbd_8_mse8x8_c)));
+*/
+
+const VarianceParams kArrayHBDVariance_c[] = {
+ VarianceParams(7, 7, &aom_highbd_12_variance128x128_c, 12),
+ VarianceParams(7, 6, &aom_highbd_12_variance128x64_c, 12),
+ VarianceParams(6, 7, &aom_highbd_12_variance64x128_c, 12),
+ VarianceParams(6, 6, &aom_highbd_12_variance64x64_c, 12),
+ VarianceParams(6, 5, &aom_highbd_12_variance64x32_c, 12),
+ VarianceParams(5, 6, &aom_highbd_12_variance32x64_c, 12),
+ VarianceParams(5, 5, &aom_highbd_12_variance32x32_c, 12),
+ VarianceParams(5, 4, &aom_highbd_12_variance32x16_c, 12),
+ VarianceParams(4, 5, &aom_highbd_12_variance16x32_c, 12),
+ VarianceParams(4, 4, &aom_highbd_12_variance16x16_c, 12),
+ VarianceParams(4, 3, &aom_highbd_12_variance16x8_c, 12),
+ VarianceParams(3, 4, &aom_highbd_12_variance8x16_c, 12),
+ VarianceParams(3, 3, &aom_highbd_12_variance8x8_c, 12),
+ VarianceParams(3, 2, &aom_highbd_12_variance8x4_c, 12),
+ VarianceParams(2, 3, &aom_highbd_12_variance4x8_c, 12),
+ VarianceParams(2, 2, &aom_highbd_12_variance4x4_c, 12),
+ VarianceParams(7, 7, &aom_highbd_10_variance128x128_c, 10),
+ VarianceParams(7, 6, &aom_highbd_10_variance128x64_c, 10),
+ VarianceParams(6, 7, &aom_highbd_10_variance64x128_c, 10),
+ VarianceParams(6, 6, &aom_highbd_10_variance64x64_c, 10),
+ VarianceParams(6, 5, &aom_highbd_10_variance64x32_c, 10),
+ VarianceParams(5, 6, &aom_highbd_10_variance32x64_c, 10),
+ VarianceParams(5, 5, &aom_highbd_10_variance32x32_c, 10),
+ VarianceParams(5, 4, &aom_highbd_10_variance32x16_c, 10),
+ VarianceParams(4, 5, &aom_highbd_10_variance16x32_c, 10),
+ VarianceParams(4, 4, &aom_highbd_10_variance16x16_c, 10),
+ VarianceParams(4, 3, &aom_highbd_10_variance16x8_c, 10),
+ VarianceParams(3, 4, &aom_highbd_10_variance8x16_c, 10),
+ VarianceParams(3, 3, &aom_highbd_10_variance8x8_c, 10),
+ VarianceParams(3, 2, &aom_highbd_10_variance8x4_c, 10),
+ VarianceParams(2, 3, &aom_highbd_10_variance4x8_c, 10),
+ VarianceParams(2, 2, &aom_highbd_10_variance4x4_c, 10),
+ VarianceParams(7, 7, &aom_highbd_8_variance128x128_c, 8),
+ VarianceParams(7, 6, &aom_highbd_8_variance128x64_c, 8),
+ VarianceParams(6, 7, &aom_highbd_8_variance64x128_c, 8),
+ VarianceParams(6, 6, &aom_highbd_8_variance64x64_c, 8),
+ VarianceParams(6, 5, &aom_highbd_8_variance64x32_c, 8),
+ VarianceParams(5, 6, &aom_highbd_8_variance32x64_c, 8),
+ VarianceParams(5, 5, &aom_highbd_8_variance32x32_c, 8),
+ VarianceParams(5, 4, &aom_highbd_8_variance32x16_c, 8),
+ VarianceParams(4, 5, &aom_highbd_8_variance16x32_c, 8),
+ VarianceParams(4, 4, &aom_highbd_8_variance16x16_c, 8),
+ VarianceParams(4, 3, &aom_highbd_8_variance16x8_c, 8),
+ VarianceParams(3, 4, &aom_highbd_8_variance8x16_c, 8),
+ VarianceParams(3, 3, &aom_highbd_8_variance8x8_c, 8),
+ VarianceParams(3, 2, &aom_highbd_8_variance8x4_c, 8),
+ VarianceParams(2, 3, &aom_highbd_8_variance4x8_c, 8),
+ VarianceParams(2, 2, &aom_highbd_8_variance4x4_c, 8)
+};
+INSTANTIATE_TEST_CASE_P(C, AvxHBDVarianceTest,
+ ::testing::ValuesIn(kArrayHBDVariance_c));
+
+#if HAVE_SSE4_1
+INSTANTIATE_TEST_CASE_P(
+ SSE4_1, AvxHBDVarianceTest,
+ ::testing::Values(
+ VarianceParams(2, 2, &aom_highbd_8_variance4x4_sse4_1, 8),
+ VarianceParams(2, 2, &aom_highbd_10_variance4x4_sse4_1, 10),
+ VarianceParams(2, 2, &aom_highbd_12_variance4x4_sse4_1, 12)));
+#endif // HAVE_SSE4_1
+
+const SubpelVarianceParams kArrayHBDSubpelVariance_c[] = {
+ SubpelVarianceParams(7, 7, &aom_highbd_8_sub_pixel_variance128x128_c, 8),
+ SubpelVarianceParams(7, 6, &aom_highbd_8_sub_pixel_variance128x64_c, 8),
+ SubpelVarianceParams(6, 7, &aom_highbd_8_sub_pixel_variance64x128_c, 8),
+ SubpelVarianceParams(6, 6, &aom_highbd_8_sub_pixel_variance64x64_c, 8),
+ SubpelVarianceParams(6, 5, &aom_highbd_8_sub_pixel_variance64x32_c, 8),
+ SubpelVarianceParams(5, 6, &aom_highbd_8_sub_pixel_variance32x64_c, 8),
+ SubpelVarianceParams(5, 5, &aom_highbd_8_sub_pixel_variance32x32_c, 8),
+ SubpelVarianceParams(5, 4, &aom_highbd_8_sub_pixel_variance32x16_c, 8),
+ SubpelVarianceParams(4, 5, &aom_highbd_8_sub_pixel_variance16x32_c, 8),
+ SubpelVarianceParams(4, 4, &aom_highbd_8_sub_pixel_variance16x16_c, 8),
+ SubpelVarianceParams(4, 3, &aom_highbd_8_sub_pixel_variance16x8_c, 8),
+ SubpelVarianceParams(3, 4, &aom_highbd_8_sub_pixel_variance8x16_c, 8),
+ SubpelVarianceParams(3, 3, &aom_highbd_8_sub_pixel_variance8x8_c, 8),
+ SubpelVarianceParams(3, 2, &aom_highbd_8_sub_pixel_variance8x4_c, 8),
+ SubpelVarianceParams(2, 3, &aom_highbd_8_sub_pixel_variance4x8_c, 8),
+ SubpelVarianceParams(2, 2, &aom_highbd_8_sub_pixel_variance4x4_c, 8),
+ SubpelVarianceParams(7, 7, &aom_highbd_10_sub_pixel_variance128x128_c, 10),
+ SubpelVarianceParams(7, 6, &aom_highbd_10_sub_pixel_variance128x64_c, 10),
+ SubpelVarianceParams(6, 7, &aom_highbd_10_sub_pixel_variance64x128_c, 10),
+ SubpelVarianceParams(6, 6, &aom_highbd_10_sub_pixel_variance64x64_c, 10),
+ SubpelVarianceParams(6, 5, &aom_highbd_10_sub_pixel_variance64x32_c, 10),
+ SubpelVarianceParams(5, 6, &aom_highbd_10_sub_pixel_variance32x64_c, 10),
+ SubpelVarianceParams(5, 5, &aom_highbd_10_sub_pixel_variance32x32_c, 10),
+ SubpelVarianceParams(5, 4, &aom_highbd_10_sub_pixel_variance32x16_c, 10),
+ SubpelVarianceParams(4, 5, &aom_highbd_10_sub_pixel_variance16x32_c, 10),
+ SubpelVarianceParams(4, 4, &aom_highbd_10_sub_pixel_variance16x16_c, 10),
+ SubpelVarianceParams(4, 3, &aom_highbd_10_sub_pixel_variance16x8_c, 10),
+ SubpelVarianceParams(3, 4, &aom_highbd_10_sub_pixel_variance8x16_c, 10),
+ SubpelVarianceParams(3, 3, &aom_highbd_10_sub_pixel_variance8x8_c, 10),
+ SubpelVarianceParams(3, 2, &aom_highbd_10_sub_pixel_variance8x4_c, 10),
+ SubpelVarianceParams(2, 3, &aom_highbd_10_sub_pixel_variance4x8_c, 10),
+ SubpelVarianceParams(2, 2, &aom_highbd_10_sub_pixel_variance4x4_c, 10),
+ SubpelVarianceParams(7, 7, &aom_highbd_12_sub_pixel_variance128x128_c, 12),
+ SubpelVarianceParams(7, 6, &aom_highbd_12_sub_pixel_variance128x64_c, 12),
+ SubpelVarianceParams(6, 7, &aom_highbd_12_sub_pixel_variance64x128_c, 12),
+ SubpelVarianceParams(6, 6, &aom_highbd_12_sub_pixel_variance64x64_c, 12),
+ SubpelVarianceParams(6, 5, &aom_highbd_12_sub_pixel_variance64x32_c, 12),
+ SubpelVarianceParams(5, 6, &aom_highbd_12_sub_pixel_variance32x64_c, 12),
+ SubpelVarianceParams(5, 5, &aom_highbd_12_sub_pixel_variance32x32_c, 12),
+ SubpelVarianceParams(5, 4, &aom_highbd_12_sub_pixel_variance32x16_c, 12),
+ SubpelVarianceParams(4, 5, &aom_highbd_12_sub_pixel_variance16x32_c, 12),
+ SubpelVarianceParams(4, 4, &aom_highbd_12_sub_pixel_variance16x16_c, 12),
+ SubpelVarianceParams(4, 3, &aom_highbd_12_sub_pixel_variance16x8_c, 12),
+ SubpelVarianceParams(3, 4, &aom_highbd_12_sub_pixel_variance8x16_c, 12),
+ SubpelVarianceParams(3, 3, &aom_highbd_12_sub_pixel_variance8x8_c, 12),
+ SubpelVarianceParams(3, 2, &aom_highbd_12_sub_pixel_variance8x4_c, 12),
+ SubpelVarianceParams(2, 3, &aom_highbd_12_sub_pixel_variance4x8_c, 12),
+ SubpelVarianceParams(2, 2, &aom_highbd_12_sub_pixel_variance4x4_c, 12),
+};
+INSTANTIATE_TEST_CASE_P(C, AvxHBDSubpelVarianceTest,
+ ::testing::ValuesIn(kArrayHBDSubpelVariance_c));
+
+const SubpelAvgVarianceParams kArrayHBDSubpelAvgVariance_c[] = {
+ SubpelAvgVarianceParams(7, 7, &aom_highbd_8_sub_pixel_avg_variance128x128_c,
+ 8),
+ SubpelAvgVarianceParams(7, 6, &aom_highbd_8_sub_pixel_avg_variance128x64_c,
+ 8),
+ SubpelAvgVarianceParams(6, 7, &aom_highbd_8_sub_pixel_avg_variance64x128_c,
+ 8),
+ SubpelAvgVarianceParams(6, 6, &aom_highbd_8_sub_pixel_avg_variance64x64_c, 8),
+ SubpelAvgVarianceParams(6, 5, &aom_highbd_8_sub_pixel_avg_variance64x32_c, 8),
+ SubpelAvgVarianceParams(5, 6, &aom_highbd_8_sub_pixel_avg_variance32x64_c, 8),
+ SubpelAvgVarianceParams(5, 5, &aom_highbd_8_sub_pixel_avg_variance32x32_c, 8),
+ SubpelAvgVarianceParams(5, 4, &aom_highbd_8_sub_pixel_avg_variance32x16_c, 8),
+ SubpelAvgVarianceParams(4, 5, &aom_highbd_8_sub_pixel_avg_variance16x32_c, 8),
+ SubpelAvgVarianceParams(4, 4, &aom_highbd_8_sub_pixel_avg_variance16x16_c, 8),
+ SubpelAvgVarianceParams(4, 3, &aom_highbd_8_sub_pixel_avg_variance16x8_c, 8),
+ SubpelAvgVarianceParams(3, 4, &aom_highbd_8_sub_pixel_avg_variance8x16_c, 8),
+ SubpelAvgVarianceParams(3, 3, &aom_highbd_8_sub_pixel_avg_variance8x8_c, 8),
+ SubpelAvgVarianceParams(3, 2, &aom_highbd_8_sub_pixel_avg_variance8x4_c, 8),
+ SubpelAvgVarianceParams(2, 3, &aom_highbd_8_sub_pixel_avg_variance4x8_c, 8),
+ SubpelAvgVarianceParams(2, 2, &aom_highbd_8_sub_pixel_avg_variance4x4_c, 8),
+ SubpelAvgVarianceParams(7, 7, &aom_highbd_10_sub_pixel_avg_variance128x128_c,
+ 10),
+ SubpelAvgVarianceParams(7, 6, &aom_highbd_10_sub_pixel_avg_variance128x64_c,
+ 10),
+ SubpelAvgVarianceParams(6, 7, &aom_highbd_10_sub_pixel_avg_variance64x128_c,
+ 10),
+ SubpelAvgVarianceParams(6, 6, &aom_highbd_10_sub_pixel_avg_variance64x64_c,
+ 10),
+ SubpelAvgVarianceParams(6, 5, &aom_highbd_10_sub_pixel_avg_variance64x32_c,
+ 10),
+ SubpelAvgVarianceParams(5, 6, &aom_highbd_10_sub_pixel_avg_variance32x64_c,
+ 10),
+ SubpelAvgVarianceParams(5, 5, &aom_highbd_10_sub_pixel_avg_variance32x32_c,
+ 10),
+ SubpelAvgVarianceParams(5, 4, &aom_highbd_10_sub_pixel_avg_variance32x16_c,
+ 10),
+ SubpelAvgVarianceParams(4, 5, &aom_highbd_10_sub_pixel_avg_variance16x32_c,
+ 10),
+ SubpelAvgVarianceParams(4, 4, &aom_highbd_10_sub_pixel_avg_variance16x16_c,
+ 10),
+ SubpelAvgVarianceParams(4, 3, &aom_highbd_10_sub_pixel_avg_variance16x8_c,
+ 10),
+ SubpelAvgVarianceParams(3, 4, &aom_highbd_10_sub_pixel_avg_variance8x16_c,
+ 10),
+ SubpelAvgVarianceParams(3, 3, &aom_highbd_10_sub_pixel_avg_variance8x8_c, 10),
+ SubpelAvgVarianceParams(3, 2, &aom_highbd_10_sub_pixel_avg_variance8x4_c, 10),
+ SubpelAvgVarianceParams(2, 3, &aom_highbd_10_sub_pixel_avg_variance4x8_c, 10),
+ SubpelAvgVarianceParams(2, 2, &aom_highbd_10_sub_pixel_avg_variance4x4_c, 10),
+ SubpelAvgVarianceParams(7, 7, &aom_highbd_12_sub_pixel_avg_variance128x128_c,
+ 12),
+ SubpelAvgVarianceParams(7, 6, &aom_highbd_12_sub_pixel_avg_variance128x64_c,
+ 12),
+ SubpelAvgVarianceParams(6, 7, &aom_highbd_12_sub_pixel_avg_variance64x128_c,
+ 12),
+ SubpelAvgVarianceParams(6, 6, &aom_highbd_12_sub_pixel_avg_variance64x64_c,
+ 12),
+ SubpelAvgVarianceParams(6, 5, &aom_highbd_12_sub_pixel_avg_variance64x32_c,
+ 12),
+ SubpelAvgVarianceParams(5, 6, &aom_highbd_12_sub_pixel_avg_variance32x64_c,
+ 12),
+ SubpelAvgVarianceParams(5, 5, &aom_highbd_12_sub_pixel_avg_variance32x32_c,
+ 12),
+ SubpelAvgVarianceParams(5, 4, &aom_highbd_12_sub_pixel_avg_variance32x16_c,
+ 12),
+ SubpelAvgVarianceParams(4, 5, &aom_highbd_12_sub_pixel_avg_variance16x32_c,
+ 12),
+ SubpelAvgVarianceParams(4, 4, &aom_highbd_12_sub_pixel_avg_variance16x16_c,
+ 12),
+ SubpelAvgVarianceParams(4, 3, &aom_highbd_12_sub_pixel_avg_variance16x8_c,
+ 12),
+ SubpelAvgVarianceParams(3, 4, &aom_highbd_12_sub_pixel_avg_variance8x16_c,
+ 12),
+ SubpelAvgVarianceParams(3, 3, &aom_highbd_12_sub_pixel_avg_variance8x8_c, 12),
+ SubpelAvgVarianceParams(3, 2, &aom_highbd_12_sub_pixel_avg_variance8x4_c, 12),
+ SubpelAvgVarianceParams(2, 3, &aom_highbd_12_sub_pixel_avg_variance4x8_c, 12),
+ SubpelAvgVarianceParams(2, 2, &aom_highbd_12_sub_pixel_avg_variance4x4_c, 12)
+};
+INSTANTIATE_TEST_CASE_P(C, AvxHBDSubpelAvgVarianceTest,
+ ::testing::ValuesIn(kArrayHBDSubpelAvgVariance_c));
+
+const ObmcSubpelVarianceParams kArrayHBDObmcSubpelVariance_c[] = {
+ ObmcSubpelVarianceParams(7, 7, &aom_highbd_obmc_sub_pixel_variance128x128_c,
+ 8),
+ ObmcSubpelVarianceParams(7, 6, &aom_highbd_obmc_sub_pixel_variance128x64_c,
+ 8),
+ ObmcSubpelVarianceParams(6, 7, &aom_highbd_obmc_sub_pixel_variance64x128_c,
+ 8),
+ ObmcSubpelVarianceParams(6, 6, &aom_highbd_obmc_sub_pixel_variance64x64_c, 8),
+ ObmcSubpelVarianceParams(6, 5, &aom_highbd_obmc_sub_pixel_variance64x32_c, 8),
+ ObmcSubpelVarianceParams(5, 6, &aom_highbd_obmc_sub_pixel_variance32x64_c, 8),
+ ObmcSubpelVarianceParams(5, 5, &aom_highbd_obmc_sub_pixel_variance32x32_c, 8),
+ ObmcSubpelVarianceParams(5, 4, &aom_highbd_obmc_sub_pixel_variance32x16_c, 8),
+ ObmcSubpelVarianceParams(4, 5, &aom_highbd_obmc_sub_pixel_variance16x32_c, 8),
+ ObmcSubpelVarianceParams(4, 4, &aom_highbd_obmc_sub_pixel_variance16x16_c, 8),
+ ObmcSubpelVarianceParams(4, 3, &aom_highbd_obmc_sub_pixel_variance16x8_c, 8),
+ ObmcSubpelVarianceParams(3, 4, &aom_highbd_obmc_sub_pixel_variance8x16_c, 8),
+ ObmcSubpelVarianceParams(3, 3, &aom_highbd_obmc_sub_pixel_variance8x8_c, 8),
+ ObmcSubpelVarianceParams(3, 2, &aom_highbd_obmc_sub_pixel_variance8x4_c, 8),
+ ObmcSubpelVarianceParams(2, 3, &aom_highbd_obmc_sub_pixel_variance4x8_c, 8),
+ ObmcSubpelVarianceParams(2, 2, &aom_highbd_obmc_sub_pixel_variance4x4_c, 8),
+ ObmcSubpelVarianceParams(7, 7,
+ &aom_highbd_10_obmc_sub_pixel_variance128x128_c, 10),
+ ObmcSubpelVarianceParams(7, 6, &aom_highbd_10_obmc_sub_pixel_variance128x64_c,
+ 10),
+ ObmcSubpelVarianceParams(6, 7, &aom_highbd_10_obmc_sub_pixel_variance64x128_c,
+ 10),
+ ObmcSubpelVarianceParams(6, 6, &aom_highbd_10_obmc_sub_pixel_variance64x64_c,
+ 10),
+ ObmcSubpelVarianceParams(6, 5, &aom_highbd_10_obmc_sub_pixel_variance64x32_c,
+ 10),
+ ObmcSubpelVarianceParams(5, 6, &aom_highbd_10_obmc_sub_pixel_variance32x64_c,
+ 10),
+ ObmcSubpelVarianceParams(5, 5, &aom_highbd_10_obmc_sub_pixel_variance32x32_c,
+ 10),
+ ObmcSubpelVarianceParams(5, 4, &aom_highbd_10_obmc_sub_pixel_variance32x16_c,
+ 10),
+ ObmcSubpelVarianceParams(4, 5, &aom_highbd_10_obmc_sub_pixel_variance16x32_c,
+ 10),
+ ObmcSubpelVarianceParams(4, 4, &aom_highbd_10_obmc_sub_pixel_variance16x16_c,
+ 10),
+ ObmcSubpelVarianceParams(4, 3, &aom_highbd_10_obmc_sub_pixel_variance16x8_c,
+ 10),
+ ObmcSubpelVarianceParams(3, 4, &aom_highbd_10_obmc_sub_pixel_variance8x16_c,
+ 10),
+ ObmcSubpelVarianceParams(3, 3, &aom_highbd_10_obmc_sub_pixel_variance8x8_c,
+ 10),
+ ObmcSubpelVarianceParams(3, 2, &aom_highbd_10_obmc_sub_pixel_variance8x4_c,
+ 10),
+ ObmcSubpelVarianceParams(2, 3, &aom_highbd_10_obmc_sub_pixel_variance4x8_c,
+ 10),
+ ObmcSubpelVarianceParams(2, 2, &aom_highbd_10_obmc_sub_pixel_variance4x4_c,
+ 10),
+ ObmcSubpelVarianceParams(7, 7,
+ &aom_highbd_12_obmc_sub_pixel_variance128x128_c, 12),
+ ObmcSubpelVarianceParams(7, 6, &aom_highbd_12_obmc_sub_pixel_variance128x64_c,
+ 12),
+ ObmcSubpelVarianceParams(6, 7, &aom_highbd_12_obmc_sub_pixel_variance64x128_c,
+ 12),
+ ObmcSubpelVarianceParams(6, 6, &aom_highbd_12_obmc_sub_pixel_variance64x64_c,
+ 12),
+ ObmcSubpelVarianceParams(6, 5, &aom_highbd_12_obmc_sub_pixel_variance64x32_c,
+ 12),
+ ObmcSubpelVarianceParams(5, 6, &aom_highbd_12_obmc_sub_pixel_variance32x64_c,
+ 12),
+ ObmcSubpelVarianceParams(5, 5, &aom_highbd_12_obmc_sub_pixel_variance32x32_c,
+ 12),
+ ObmcSubpelVarianceParams(5, 4, &aom_highbd_12_obmc_sub_pixel_variance32x16_c,
+ 12),
+ ObmcSubpelVarianceParams(4, 5, &aom_highbd_12_obmc_sub_pixel_variance16x32_c,
+ 12),
+ ObmcSubpelVarianceParams(4, 4, &aom_highbd_12_obmc_sub_pixel_variance16x16_c,
+ 12),
+ ObmcSubpelVarianceParams(4, 3, &aom_highbd_12_obmc_sub_pixel_variance16x8_c,
+ 12),
+ ObmcSubpelVarianceParams(3, 4, &aom_highbd_12_obmc_sub_pixel_variance8x16_c,
+ 12),
+ ObmcSubpelVarianceParams(3, 3, &aom_highbd_12_obmc_sub_pixel_variance8x8_c,
+ 12),
+ ObmcSubpelVarianceParams(3, 2, &aom_highbd_12_obmc_sub_pixel_variance8x4_c,
+ 12),
+ ObmcSubpelVarianceParams(2, 3, &aom_highbd_12_obmc_sub_pixel_variance4x8_c,
+ 12),
+ ObmcSubpelVarianceParams(2, 2, &aom_highbd_12_obmc_sub_pixel_variance4x4_c,
+ 12)
+};
+INSTANTIATE_TEST_CASE_P(C, AvxHBDObmcSubpelVarianceTest,
+ ::testing::ValuesIn(kArrayHBDObmcSubpelVariance_c));
+
+#if HAVE_SSE2
+INSTANTIATE_TEST_CASE_P(SSE2, SumOfSquaresTest,
+ ::testing::Values(aom_get_mb_ss_sse2));
+
+INSTANTIATE_TEST_CASE_P(SSE2, AvxMseTest,
+ ::testing::Values(MseParams(4, 4, &aom_mse16x16_sse2),
+ MseParams(4, 3, &aom_mse16x8_sse2),
+ MseParams(3, 4, &aom_mse8x16_sse2),
+ MseParams(3, 3, &aom_mse8x8_sse2)));
+
+INSTANTIATE_TEST_CASE_P(
+ SSE2, AvxVarianceTest,
+ ::testing::Values(VarianceParams(7, 7, &aom_variance128x128_sse2),
+ VarianceParams(7, 6, &aom_variance128x64_sse2),
+ VarianceParams(6, 7, &aom_variance64x128_sse2),
+ VarianceParams(6, 6, &aom_variance64x64_sse2),
+ VarianceParams(6, 5, &aom_variance64x32_sse2),
+ VarianceParams(6, 4, &aom_variance64x16_sse2),
+ VarianceParams(5, 6, &aom_variance32x64_sse2),
+ VarianceParams(5, 5, &aom_variance32x32_sse2),
+ VarianceParams(5, 4, &aom_variance32x16_sse2),
+ VarianceParams(5, 3, &aom_variance32x8_sse2),
+ VarianceParams(4, 6, &aom_variance16x64_sse2),
+ VarianceParams(4, 5, &aom_variance16x32_sse2),
+ VarianceParams(4, 4, &aom_variance16x16_sse2),
+ VarianceParams(4, 3, &aom_variance16x8_sse2),
+ VarianceParams(4, 2, &aom_variance16x4_sse2),
+ VarianceParams(3, 5, &aom_variance8x32_sse2),
+ VarianceParams(3, 4, &aom_variance8x16_sse2),
+ VarianceParams(3, 3, &aom_variance8x8_sse2),
+ VarianceParams(3, 2, &aom_variance8x4_sse2),
+ VarianceParams(2, 4, &aom_variance4x16_sse2),
+ VarianceParams(2, 3, &aom_variance4x8_sse2),
+ VarianceParams(2, 2, &aom_variance4x4_sse2)));
+
+INSTANTIATE_TEST_CASE_P(
+ SSE2, AvxSubpelVarianceTest,
+ ::testing::Values(
+ SubpelVarianceParams(7, 7, &aom_sub_pixel_variance128x128_sse2, 0),
+ SubpelVarianceParams(7, 6, &aom_sub_pixel_variance128x64_sse2, 0),
+ SubpelVarianceParams(6, 7, &aom_sub_pixel_variance64x128_sse2, 0),
+ SubpelVarianceParams(6, 6, &aom_sub_pixel_variance64x64_sse2, 0),
+ SubpelVarianceParams(6, 5, &aom_sub_pixel_variance64x32_sse2, 0),
+ SubpelVarianceParams(5, 6, &aom_sub_pixel_variance32x64_sse2, 0),
+ SubpelVarianceParams(5, 5, &aom_sub_pixel_variance32x32_sse2, 0),
+ SubpelVarianceParams(5, 4, &aom_sub_pixel_variance32x16_sse2, 0),
+ SubpelVarianceParams(4, 5, &aom_sub_pixel_variance16x32_sse2, 0),
+ SubpelVarianceParams(4, 4, &aom_sub_pixel_variance16x16_sse2, 0),
+ SubpelVarianceParams(4, 3, &aom_sub_pixel_variance16x8_sse2, 0),
+ SubpelVarianceParams(3, 4, &aom_sub_pixel_variance8x16_sse2, 0),
+ SubpelVarianceParams(3, 3, &aom_sub_pixel_variance8x8_sse2, 0),
+ SubpelVarianceParams(3, 2, &aom_sub_pixel_variance8x4_sse2, 0),
+ SubpelVarianceParams(2, 3, &aom_sub_pixel_variance4x8_sse2, 0),
+ SubpelVarianceParams(2, 2, &aom_sub_pixel_variance4x4_sse2, 0)));
+
+INSTANTIATE_TEST_CASE_P(
+ SSE2, AvxSubpelAvgVarianceTest,
+ ::testing::Values(
+ SubpelAvgVarianceParams(7, 7, &aom_sub_pixel_avg_variance128x128_sse2,
+ 0),
+ SubpelAvgVarianceParams(7, 6, &aom_sub_pixel_avg_variance128x64_sse2,
+ 0),
+ SubpelAvgVarianceParams(6, 7, &aom_sub_pixel_avg_variance64x128_sse2,
+ 0),
+ SubpelAvgVarianceParams(6, 6, &aom_sub_pixel_avg_variance64x64_sse2, 0),
+ SubpelAvgVarianceParams(6, 5, &aom_sub_pixel_avg_variance64x32_sse2, 0),
+ SubpelAvgVarianceParams(5, 6, &aom_sub_pixel_avg_variance32x64_sse2, 0),
+ SubpelAvgVarianceParams(5, 5, &aom_sub_pixel_avg_variance32x32_sse2, 0),
+ SubpelAvgVarianceParams(5, 4, &aom_sub_pixel_avg_variance32x16_sse2, 0),
+ SubpelAvgVarianceParams(4, 5, &aom_sub_pixel_avg_variance16x32_sse2, 0),
+ SubpelAvgVarianceParams(4, 4, &aom_sub_pixel_avg_variance16x16_sse2, 0),
+ SubpelAvgVarianceParams(4, 3, &aom_sub_pixel_avg_variance16x8_sse2, 0),
+ SubpelAvgVarianceParams(3, 4, &aom_sub_pixel_avg_variance8x16_sse2, 0),
+ SubpelAvgVarianceParams(3, 3, &aom_sub_pixel_avg_variance8x8_sse2, 0),
+ SubpelAvgVarianceParams(3, 2, &aom_sub_pixel_avg_variance8x4_sse2, 0),
+ SubpelAvgVarianceParams(2, 3, &aom_sub_pixel_avg_variance4x8_sse2, 0),
+ SubpelAvgVarianceParams(2, 2, &aom_sub_pixel_avg_variance4x4_sse2, 0)));
+
+#if HAVE_SSE4_1
+INSTANTIATE_TEST_CASE_P(
+ SSE4_1, AvxSubpelVarianceTest,
+ ::testing::Values(
+ SubpelVarianceParams(2, 2, &aom_highbd_8_sub_pixel_variance4x4_sse4_1,
+ 8),
+ SubpelVarianceParams(2, 2, &aom_highbd_10_sub_pixel_variance4x4_sse4_1,
+ 10),
+ SubpelVarianceParams(2, 2, &aom_highbd_12_sub_pixel_variance4x4_sse4_1,
+ 12)));
+
+INSTANTIATE_TEST_CASE_P(
+ SSE4_1, AvxSubpelAvgVarianceTest,
+ ::testing::Values(
+ SubpelAvgVarianceParams(2, 2,
+ &aom_highbd_8_sub_pixel_avg_variance4x4_sse4_1,
+ 8),
+ SubpelAvgVarianceParams(2, 2,
+ &aom_highbd_10_sub_pixel_avg_variance4x4_sse4_1,
+ 10),
+ SubpelAvgVarianceParams(2, 2,
+ &aom_highbd_12_sub_pixel_avg_variance4x4_sse4_1,
+ 12)));
+#endif // HAVE_SSE4_1
+
+/* TODO(debargha): This test does not support the highbd version
+INSTANTIATE_TEST_CASE_P(
+ SSE2, AvxHBDMseTest,
+ ::testing::Values(MseParams(4, 4, &aom_highbd_12_mse16x16_sse2),
+ MseParams(4, 3, &aom_highbd_12_mse16x8_sse2),
+ MseParams(3, 4, &aom_highbd_12_mse8x16_sse2),
+ MseParams(3, 3, &aom_highbd_12_mse8x8_sse2),
+ MseParams(4, 4, &aom_highbd_10_mse16x16_sse2),
+ MseParams(4, 3, &aom_highbd_10_mse16x8_sse2),
+ MseParams(3, 4, &aom_highbd_10_mse8x16_sse2),
+ MseParams(3, 3, &aom_highbd_10_mse8x8_sse2),
+ MseParams(4, 4, &aom_highbd_8_mse16x16_sse2),
+ MseParams(4, 3, &aom_highbd_8_mse16x8_sse2),
+ MseParams(3, 4, &aom_highbd_8_mse8x16_sse2),
+ MseParams(3, 3, &aom_highbd_8_mse8x8_sse2)));
+*/
+
+const VarianceParams kArrayHBDVariance_sse2[] = {
+ VarianceParams(7, 7, &aom_highbd_12_variance128x128_sse2, 12),
+ VarianceParams(7, 6, &aom_highbd_12_variance128x64_sse2, 12),
+ VarianceParams(6, 7, &aom_highbd_12_variance64x128_sse2, 12),
+ VarianceParams(6, 6, &aom_highbd_12_variance64x64_sse2, 12),
+ VarianceParams(6, 5, &aom_highbd_12_variance64x32_sse2, 12),
+ VarianceParams(5, 6, &aom_highbd_12_variance32x64_sse2, 12),
+ VarianceParams(5, 5, &aom_highbd_12_variance32x32_sse2, 12),
+ VarianceParams(5, 4, &aom_highbd_12_variance32x16_sse2, 12),
+ VarianceParams(4, 5, &aom_highbd_12_variance16x32_sse2, 12),
+ VarianceParams(4, 4, &aom_highbd_12_variance16x16_sse2, 12),
+ VarianceParams(4, 3, &aom_highbd_12_variance16x8_sse2, 12),
+ VarianceParams(3, 4, &aom_highbd_12_variance8x16_sse2, 12),
+ VarianceParams(3, 3, &aom_highbd_12_variance8x8_sse2, 12),
+ VarianceParams(7, 7, &aom_highbd_10_variance128x128_sse2, 10),
+ VarianceParams(7, 6, &aom_highbd_10_variance128x64_sse2, 10),
+ VarianceParams(6, 7, &aom_highbd_10_variance64x128_sse2, 10),
+ VarianceParams(6, 6, &aom_highbd_10_variance64x64_sse2, 10),
+ VarianceParams(6, 5, &aom_highbd_10_variance64x32_sse2, 10),
+ VarianceParams(5, 6, &aom_highbd_10_variance32x64_sse2, 10),
+ VarianceParams(5, 5, &aom_highbd_10_variance32x32_sse2, 10),
+ VarianceParams(5, 4, &aom_highbd_10_variance32x16_sse2, 10),
+ VarianceParams(4, 5, &aom_highbd_10_variance16x32_sse2, 10),
+ VarianceParams(4, 4, &aom_highbd_10_variance16x16_sse2, 10),
+ VarianceParams(4, 3, &aom_highbd_10_variance16x8_sse2, 10),
+ VarianceParams(3, 4, &aom_highbd_10_variance8x16_sse2, 10),
+ VarianceParams(3, 3, &aom_highbd_10_variance8x8_sse2, 10),
+ VarianceParams(7, 7, &aom_highbd_8_variance128x128_sse2, 8),
+ VarianceParams(7, 6, &aom_highbd_8_variance128x64_sse2, 8),
+ VarianceParams(6, 7, &aom_highbd_8_variance64x128_sse2, 8),
+ VarianceParams(6, 6, &aom_highbd_8_variance64x64_sse2, 8),
+ VarianceParams(6, 5, &aom_highbd_8_variance64x32_sse2, 8),
+ VarianceParams(5, 6, &aom_highbd_8_variance32x64_sse2, 8),
+ VarianceParams(5, 5, &aom_highbd_8_variance32x32_sse2, 8),
+ VarianceParams(5, 4, &aom_highbd_8_variance32x16_sse2, 8),
+ VarianceParams(4, 5, &aom_highbd_8_variance16x32_sse2, 8),
+ VarianceParams(4, 4, &aom_highbd_8_variance16x16_sse2, 8),
+ VarianceParams(4, 3, &aom_highbd_8_variance16x8_sse2, 8),
+ VarianceParams(3, 4, &aom_highbd_8_variance8x16_sse2, 8),
+ VarianceParams(3, 3, &aom_highbd_8_variance8x8_sse2, 8)
+};
+INSTANTIATE_TEST_CASE_P(SSE2, AvxHBDVarianceTest,
+ ::testing::ValuesIn(kArrayHBDVariance_sse2));
+
+#if HAVE_AVX2
+
+const VarianceParams kArrayHBDVariance_avx2[] = {
+ VarianceParams(7, 7, &aom_highbd_10_variance128x128_avx2, 10),
+ VarianceParams(7, 6, &aom_highbd_10_variance128x64_avx2, 10),
+ VarianceParams(6, 7, &aom_highbd_10_variance64x128_avx2, 10),
+ VarianceParams(6, 6, &aom_highbd_10_variance64x64_avx2, 10),
+ VarianceParams(6, 5, &aom_highbd_10_variance64x32_avx2, 10),
+ VarianceParams(5, 6, &aom_highbd_10_variance32x64_avx2, 10),
+ VarianceParams(5, 5, &aom_highbd_10_variance32x32_avx2, 10),
+ VarianceParams(5, 4, &aom_highbd_10_variance32x16_avx2, 10),
+ VarianceParams(4, 5, &aom_highbd_10_variance16x32_avx2, 10),
+ VarianceParams(4, 4, &aom_highbd_10_variance16x16_avx2, 10),
+ VarianceParams(4, 3, &aom_highbd_10_variance16x8_avx2, 10),
+ VarianceParams(3, 4, &aom_highbd_10_variance8x16_avx2, 10),
+ VarianceParams(3, 3, &aom_highbd_10_variance8x8_avx2, 10)
+};
+
+INSTANTIATE_TEST_CASE_P(AVX2, AvxHBDVarianceTest,
+ ::testing::ValuesIn(kArrayHBDVariance_avx2));
+#endif // HAVE_AVX2
+
+const SubpelVarianceParams kArrayHBDSubpelVariance_sse2[] = {
+ SubpelVarianceParams(6, 6, &aom_highbd_12_sub_pixel_variance64x64_sse2, 12),
+ SubpelVarianceParams(6, 5, &aom_highbd_12_sub_pixel_variance64x32_sse2, 12),
+ SubpelVarianceParams(5, 6, &aom_highbd_12_sub_pixel_variance32x64_sse2, 12),
+ SubpelVarianceParams(5, 5, &aom_highbd_12_sub_pixel_variance32x32_sse2, 12),
+ SubpelVarianceParams(5, 4, &aom_highbd_12_sub_pixel_variance32x16_sse2, 12),
+ SubpelVarianceParams(4, 5, &aom_highbd_12_sub_pixel_variance16x32_sse2, 12),
+ SubpelVarianceParams(4, 4, &aom_highbd_12_sub_pixel_variance16x16_sse2, 12),
+ SubpelVarianceParams(4, 3, &aom_highbd_12_sub_pixel_variance16x8_sse2, 12),
+ SubpelVarianceParams(3, 4, &aom_highbd_12_sub_pixel_variance8x16_sse2, 12),
+ SubpelVarianceParams(3, 3, &aom_highbd_12_sub_pixel_variance8x8_sse2, 12),
+ SubpelVarianceParams(3, 2, &aom_highbd_12_sub_pixel_variance8x4_sse2, 12),
+ SubpelVarianceParams(6, 6, &aom_highbd_10_sub_pixel_variance64x64_sse2, 10),
+ SubpelVarianceParams(6, 5, &aom_highbd_10_sub_pixel_variance64x32_sse2, 10),
+ SubpelVarianceParams(5, 6, &aom_highbd_10_sub_pixel_variance32x64_sse2, 10),
+ SubpelVarianceParams(5, 5, &aom_highbd_10_sub_pixel_variance32x32_sse2, 10),
+ SubpelVarianceParams(5, 4, &aom_highbd_10_sub_pixel_variance32x16_sse2, 10),
+ SubpelVarianceParams(4, 5, &aom_highbd_10_sub_pixel_variance16x32_sse2, 10),
+ SubpelVarianceParams(4, 4, &aom_highbd_10_sub_pixel_variance16x16_sse2, 10),
+ SubpelVarianceParams(4, 3, &aom_highbd_10_sub_pixel_variance16x8_sse2, 10),
+ SubpelVarianceParams(3, 4, &aom_highbd_10_sub_pixel_variance8x16_sse2, 10),
+ SubpelVarianceParams(3, 3, &aom_highbd_10_sub_pixel_variance8x8_sse2, 10),
+ SubpelVarianceParams(3, 2, &aom_highbd_10_sub_pixel_variance8x4_sse2, 10),
+ SubpelVarianceParams(6, 6, &aom_highbd_8_sub_pixel_variance64x64_sse2, 8),
+ SubpelVarianceParams(6, 5, &aom_highbd_8_sub_pixel_variance64x32_sse2, 8),
+ SubpelVarianceParams(5, 6, &aom_highbd_8_sub_pixel_variance32x64_sse2, 8),
+ SubpelVarianceParams(5, 5, &aom_highbd_8_sub_pixel_variance32x32_sse2, 8),
+ SubpelVarianceParams(5, 4, &aom_highbd_8_sub_pixel_variance32x16_sse2, 8),
+ SubpelVarianceParams(4, 5, &aom_highbd_8_sub_pixel_variance16x32_sse2, 8),
+ SubpelVarianceParams(4, 4, &aom_highbd_8_sub_pixel_variance16x16_sse2, 8),
+ SubpelVarianceParams(4, 3, &aom_highbd_8_sub_pixel_variance16x8_sse2, 8),
+ SubpelVarianceParams(3, 4, &aom_highbd_8_sub_pixel_variance8x16_sse2, 8),
+ SubpelVarianceParams(3, 3, &aom_highbd_8_sub_pixel_variance8x8_sse2, 8),
+ SubpelVarianceParams(3, 2, &aom_highbd_8_sub_pixel_variance8x4_sse2, 8)
+};
+
+INSTANTIATE_TEST_CASE_P(SSE2, AvxHBDSubpelVarianceTest,
+ ::testing::ValuesIn(kArrayHBDSubpelVariance_sse2));
+
+const SubpelAvgVarianceParams kArrayHBDSubpelAvgVariance_sse2[] = {
+ SubpelAvgVarianceParams(6, 6, &aom_highbd_12_sub_pixel_avg_variance64x64_sse2,
+ 12),
+ SubpelAvgVarianceParams(6, 5, &aom_highbd_12_sub_pixel_avg_variance64x32_sse2,
+ 12),
+ SubpelAvgVarianceParams(5, 6, &aom_highbd_12_sub_pixel_avg_variance32x64_sse2,
+ 12),
+ SubpelAvgVarianceParams(5, 5, &aom_highbd_12_sub_pixel_avg_variance32x32_sse2,
+ 12),
+ SubpelAvgVarianceParams(5, 4, &aom_highbd_12_sub_pixel_avg_variance32x16_sse2,
+ 12),
+ SubpelAvgVarianceParams(4, 5, &aom_highbd_12_sub_pixel_avg_variance16x32_sse2,
+ 12),
+ SubpelAvgVarianceParams(4, 4, &aom_highbd_12_sub_pixel_avg_variance16x16_sse2,
+ 12),
+ SubpelAvgVarianceParams(4, 3, &aom_highbd_12_sub_pixel_avg_variance16x8_sse2,
+ 12),
+ SubpelAvgVarianceParams(3, 4, &aom_highbd_12_sub_pixel_avg_variance8x16_sse2,
+ 12),
+ SubpelAvgVarianceParams(3, 3, &aom_highbd_12_sub_pixel_avg_variance8x8_sse2,
+ 12),
+ SubpelAvgVarianceParams(3, 2, &aom_highbd_12_sub_pixel_avg_variance8x4_sse2,
+ 12),
+ SubpelAvgVarianceParams(6, 6, &aom_highbd_10_sub_pixel_avg_variance64x64_sse2,
+ 10),
+ SubpelAvgVarianceParams(6, 5, &aom_highbd_10_sub_pixel_avg_variance64x32_sse2,
+ 10),
+ SubpelAvgVarianceParams(5, 6, &aom_highbd_10_sub_pixel_avg_variance32x64_sse2,
+ 10),
+ SubpelAvgVarianceParams(5, 5, &aom_highbd_10_sub_pixel_avg_variance32x32_sse2,
+ 10),
+ SubpelAvgVarianceParams(5, 4, &aom_highbd_10_sub_pixel_avg_variance32x16_sse2,
+ 10),
+ SubpelAvgVarianceParams(4, 5, &aom_highbd_10_sub_pixel_avg_variance16x32_sse2,
+ 10),
+ SubpelAvgVarianceParams(4, 4, &aom_highbd_10_sub_pixel_avg_variance16x16_sse2,
+ 10),
+ SubpelAvgVarianceParams(4, 3, &aom_highbd_10_sub_pixel_avg_variance16x8_sse2,
+ 10),
+ SubpelAvgVarianceParams(3, 4, &aom_highbd_10_sub_pixel_avg_variance8x16_sse2,
+ 10),
+ SubpelAvgVarianceParams(3, 3, &aom_highbd_10_sub_pixel_avg_variance8x8_sse2,
+ 10),
+ SubpelAvgVarianceParams(3, 2, &aom_highbd_10_sub_pixel_avg_variance8x4_sse2,
+ 10),
+ SubpelAvgVarianceParams(6, 6, &aom_highbd_8_sub_pixel_avg_variance64x64_sse2,
+ 8),
+ SubpelAvgVarianceParams(6, 5, &aom_highbd_8_sub_pixel_avg_variance64x32_sse2,
+ 8),
+ SubpelAvgVarianceParams(5, 6, &aom_highbd_8_sub_pixel_avg_variance32x64_sse2,
+ 8),
+ SubpelAvgVarianceParams(5, 5, &aom_highbd_8_sub_pixel_avg_variance32x32_sse2,
+ 8),
+ SubpelAvgVarianceParams(5, 4, &aom_highbd_8_sub_pixel_avg_variance32x16_sse2,
+ 8),
+ SubpelAvgVarianceParams(4, 5, &aom_highbd_8_sub_pixel_avg_variance16x32_sse2,
+ 8),
+ SubpelAvgVarianceParams(4, 4, &aom_highbd_8_sub_pixel_avg_variance16x16_sse2,
+ 8),
+ SubpelAvgVarianceParams(4, 3, &aom_highbd_8_sub_pixel_avg_variance16x8_sse2,
+ 8),
+ SubpelAvgVarianceParams(3, 4, &aom_highbd_8_sub_pixel_avg_variance8x16_sse2,
+ 8),
+ SubpelAvgVarianceParams(3, 3, &aom_highbd_8_sub_pixel_avg_variance8x8_sse2,
+ 8),
+ SubpelAvgVarianceParams(3, 2, &aom_highbd_8_sub_pixel_avg_variance8x4_sse2, 8)
+};
+
+INSTANTIATE_TEST_CASE_P(SSE2, AvxHBDSubpelAvgVarianceTest,
+ ::testing::ValuesIn(kArrayHBDSubpelAvgVariance_sse2));
+#endif // HAVE_SSE2
+
+#if HAVE_SSSE3
+INSTANTIATE_TEST_CASE_P(
+ SSSE3, AvxSubpelVarianceTest,
+ ::testing::Values(
+ SubpelVarianceParams(7, 7, &aom_sub_pixel_variance128x128_ssse3, 0),
+ SubpelVarianceParams(7, 6, &aom_sub_pixel_variance128x64_ssse3, 0),
+ SubpelVarianceParams(6, 7, &aom_sub_pixel_variance64x128_ssse3, 0),
+ SubpelVarianceParams(6, 6, &aom_sub_pixel_variance64x64_ssse3, 0),
+ SubpelVarianceParams(6, 5, &aom_sub_pixel_variance64x32_ssse3, 0),
+ SubpelVarianceParams(5, 6, &aom_sub_pixel_variance32x64_ssse3, 0),
+ SubpelVarianceParams(5, 5, &aom_sub_pixel_variance32x32_ssse3, 0),
+ SubpelVarianceParams(5, 4, &aom_sub_pixel_variance32x16_ssse3, 0),
+ SubpelVarianceParams(4, 5, &aom_sub_pixel_variance16x32_ssse3, 0),
+ SubpelVarianceParams(4, 4, &aom_sub_pixel_variance16x16_ssse3, 0),
+ SubpelVarianceParams(4, 3, &aom_sub_pixel_variance16x8_ssse3, 0),
+ SubpelVarianceParams(3, 4, &aom_sub_pixel_variance8x16_ssse3, 0),
+ SubpelVarianceParams(3, 3, &aom_sub_pixel_variance8x8_ssse3, 0),
+ SubpelVarianceParams(3, 2, &aom_sub_pixel_variance8x4_ssse3, 0),
+ SubpelVarianceParams(2, 3, &aom_sub_pixel_variance4x8_ssse3, 0),
+ SubpelVarianceParams(2, 2, &aom_sub_pixel_variance4x4_ssse3, 0)));
+
+INSTANTIATE_TEST_CASE_P(
+ SSSE3, AvxSubpelAvgVarianceTest,
+ ::testing::Values(
+ SubpelAvgVarianceParams(7, 7, &aom_sub_pixel_avg_variance128x128_ssse3,
+ 0),
+ SubpelAvgVarianceParams(7, 6, &aom_sub_pixel_avg_variance128x64_ssse3,
+ 0),
+ SubpelAvgVarianceParams(6, 7, &aom_sub_pixel_avg_variance64x128_ssse3,
+ 0),
+ SubpelAvgVarianceParams(6, 6, &aom_sub_pixel_avg_variance64x64_ssse3,
+ 0),
+ SubpelAvgVarianceParams(6, 5, &aom_sub_pixel_avg_variance64x32_ssse3,
+ 0),
+ SubpelAvgVarianceParams(5, 6, &aom_sub_pixel_avg_variance32x64_ssse3,
+ 0),
+ SubpelAvgVarianceParams(5, 5, &aom_sub_pixel_avg_variance32x32_ssse3,
+ 0),
+ SubpelAvgVarianceParams(5, 4, &aom_sub_pixel_avg_variance32x16_ssse3,
+ 0),
+ SubpelAvgVarianceParams(4, 5, &aom_sub_pixel_avg_variance16x32_ssse3,
+ 0),
+ SubpelAvgVarianceParams(4, 4, &aom_sub_pixel_avg_variance16x16_ssse3,
+ 0),
+ SubpelAvgVarianceParams(4, 3, &aom_sub_pixel_avg_variance16x8_ssse3, 0),
+ SubpelAvgVarianceParams(3, 4, &aom_sub_pixel_avg_variance8x16_ssse3, 0),
+ SubpelAvgVarianceParams(3, 3, &aom_sub_pixel_avg_variance8x8_ssse3, 0),
+ SubpelAvgVarianceParams(3, 2, &aom_sub_pixel_avg_variance8x4_ssse3, 0),
+ SubpelAvgVarianceParams(2, 3, &aom_sub_pixel_avg_variance4x8_ssse3, 0),
+ SubpelAvgVarianceParams(2, 2, &aom_sub_pixel_avg_variance4x4_ssse3,
+ 0)));
+
+INSTANTIATE_TEST_CASE_P(
+ SSSE3, AvxJntSubpelAvgVarianceTest,
+ ::testing::Values(
+ JntSubpelAvgVarianceParams(6, 6,
+ &aom_jnt_sub_pixel_avg_variance64x64_ssse3,
+ 0),
+ JntSubpelAvgVarianceParams(6, 5,
+ &aom_jnt_sub_pixel_avg_variance64x32_ssse3,
+ 0),
+ JntSubpelAvgVarianceParams(5, 6,
+ &aom_jnt_sub_pixel_avg_variance32x64_ssse3,
+ 0),
+ JntSubpelAvgVarianceParams(5, 5,
+ &aom_jnt_sub_pixel_avg_variance32x32_ssse3,
+ 0),
+ JntSubpelAvgVarianceParams(5, 4,
+ &aom_jnt_sub_pixel_avg_variance32x16_ssse3,
+ 0),
+ JntSubpelAvgVarianceParams(4, 5,
+ &aom_jnt_sub_pixel_avg_variance16x32_ssse3,
+ 0),
+ JntSubpelAvgVarianceParams(4, 4,
+ &aom_jnt_sub_pixel_avg_variance16x16_ssse3,
+ 0),
+ JntSubpelAvgVarianceParams(4, 3,
+ &aom_jnt_sub_pixel_avg_variance16x8_ssse3,
+ 0),
+ JntSubpelAvgVarianceParams(3, 4,
+ &aom_jnt_sub_pixel_avg_variance8x16_ssse3,
+ 0),
+ JntSubpelAvgVarianceParams(3, 3,
+ &aom_jnt_sub_pixel_avg_variance8x8_ssse3, 0),
+ JntSubpelAvgVarianceParams(3, 2,
+ &aom_jnt_sub_pixel_avg_variance8x4_ssse3, 0),
+ JntSubpelAvgVarianceParams(2, 3,
+ &aom_jnt_sub_pixel_avg_variance4x8_ssse3, 0),
+ JntSubpelAvgVarianceParams(2, 2,
+ &aom_jnt_sub_pixel_avg_variance4x4_ssse3,
+ 0)));
+#endif // HAVE_SSSE3
+
+#if HAVE_SSE4_1
+INSTANTIATE_TEST_CASE_P(
+ SSE4_1, AvxObmcSubpelVarianceTest,
+ ::testing::Values(
+ ObmcSubpelVarianceParams(7, 7,
+ &aom_obmc_sub_pixel_variance128x128_sse4_1, 0),
+ ObmcSubpelVarianceParams(7, 6,
+ &aom_obmc_sub_pixel_variance128x64_sse4_1, 0),
+ ObmcSubpelVarianceParams(6, 7,
+ &aom_obmc_sub_pixel_variance64x128_sse4_1, 0),
+ ObmcSubpelVarianceParams(6, 6, &aom_obmc_sub_pixel_variance64x64_sse4_1,
+ 0),
+ ObmcSubpelVarianceParams(6, 5, &aom_obmc_sub_pixel_variance64x32_sse4_1,
+ 0),
+ ObmcSubpelVarianceParams(5, 6, &aom_obmc_sub_pixel_variance32x64_sse4_1,
+ 0),
+ ObmcSubpelVarianceParams(5, 5, &aom_obmc_sub_pixel_variance32x32_sse4_1,
+ 0),
+ ObmcSubpelVarianceParams(5, 4, &aom_obmc_sub_pixel_variance32x16_sse4_1,
+ 0),
+ ObmcSubpelVarianceParams(4, 5, &aom_obmc_sub_pixel_variance16x32_sse4_1,
+ 0),
+ ObmcSubpelVarianceParams(4, 4, &aom_obmc_sub_pixel_variance16x16_sse4_1,
+ 0),
+ ObmcSubpelVarianceParams(4, 3, &aom_obmc_sub_pixel_variance16x8_sse4_1,
+ 0),
+ ObmcSubpelVarianceParams(3, 4, &aom_obmc_sub_pixel_variance8x16_sse4_1,
+ 0),
+ ObmcSubpelVarianceParams(3, 3, &aom_obmc_sub_pixel_variance8x8_sse4_1,
+ 0),
+ ObmcSubpelVarianceParams(3, 2, &aom_obmc_sub_pixel_variance8x4_sse4_1,
+ 0),
+ ObmcSubpelVarianceParams(2, 3, &aom_obmc_sub_pixel_variance4x8_sse4_1,
+ 0),
+ ObmcSubpelVarianceParams(2, 2, &aom_obmc_sub_pixel_variance4x4_sse4_1,
+ 0)));
+#endif // HAVE_SSE4_1
+
+#if HAVE_AVX2
+INSTANTIATE_TEST_CASE_P(AVX2, AvxMseTest,
+ ::testing::Values(MseParams(4, 4, &aom_mse16x16_avx2)));
+
+INSTANTIATE_TEST_CASE_P(
+ AVX2, AvxVarianceTest,
+ ::testing::Values(VarianceParams(7, 7, &aom_variance128x128_avx2),
+ VarianceParams(7, 6, &aom_variance128x64_avx2),
+ VarianceParams(6, 7, &aom_variance64x128_avx2),
+ VarianceParams(6, 6, &aom_variance64x64_avx2),
+ VarianceParams(6, 5, &aom_variance64x32_avx2),
+ VarianceParams(6, 4, &aom_variance64x16_avx2),
+ VarianceParams(5, 6, &aom_variance32x64_avx2),
+ VarianceParams(5, 5, &aom_variance32x32_avx2),
+ VarianceParams(5, 4, &aom_variance32x16_avx2),
+ VarianceParams(5, 3, &aom_variance32x8_avx2),
+ VarianceParams(4, 6, &aom_variance16x64_avx2),
+ VarianceParams(4, 5, &aom_variance16x32_avx2),
+ VarianceParams(4, 4, &aom_variance16x16_avx2),
+ VarianceParams(4, 3, &aom_variance16x8_avx2),
+ VarianceParams(4, 2, &aom_variance16x4_avx2)));
+
+INSTANTIATE_TEST_CASE_P(
+ AVX2, AvxSubpelVarianceTest,
+ ::testing::Values(
+ SubpelVarianceParams(7, 7, &aom_sub_pixel_variance128x128_avx2, 0),
+ SubpelVarianceParams(7, 6, &aom_sub_pixel_variance128x64_avx2, 0),
+ SubpelVarianceParams(6, 7, &aom_sub_pixel_variance64x128_avx2, 0),
+ SubpelVarianceParams(6, 6, &aom_sub_pixel_variance64x64_avx2, 0),
+ SubpelVarianceParams(6, 5, &aom_sub_pixel_variance64x32_avx2, 0),
+ SubpelVarianceParams(5, 6, &aom_sub_pixel_variance32x64_avx2, 0),
+ SubpelVarianceParams(5, 5, &aom_sub_pixel_variance32x32_avx2, 0),
+ SubpelVarianceParams(5, 4, &aom_sub_pixel_variance32x16_avx2, 0)));
+
+INSTANTIATE_TEST_CASE_P(
+ AVX2, AvxSubpelAvgVarianceTest,
+ ::testing::Values(
+ SubpelAvgVarianceParams(7, 7, &aom_sub_pixel_avg_variance128x128_avx2,
+ 0),
+ SubpelAvgVarianceParams(7, 6, &aom_sub_pixel_avg_variance128x64_avx2,
+ 0),
+ SubpelAvgVarianceParams(6, 7, &aom_sub_pixel_avg_variance64x128_avx2,
+ 0),
+ SubpelAvgVarianceParams(6, 6, &aom_sub_pixel_avg_variance64x64_avx2, 0),
+ SubpelAvgVarianceParams(6, 5, &aom_sub_pixel_avg_variance64x32_avx2, 0),
+ SubpelAvgVarianceParams(5, 6, &aom_sub_pixel_avg_variance32x64_avx2, 0),
+ SubpelAvgVarianceParams(5, 5, &aom_sub_pixel_avg_variance32x32_avx2, 0),
+ SubpelAvgVarianceParams(5, 4, &aom_sub_pixel_avg_variance32x16_avx2,
+ 0)));
+#endif // HAVE_AVX2
+
+#if HAVE_NEON
+INSTANTIATE_TEST_CASE_P(NEON, AvxSseTest,
+ ::testing::Values(SseParams(2, 2,
+ &aom_get4x4sse_cs_neon)));
+
+INSTANTIATE_TEST_CASE_P(NEON, AvxMseTest,
+ ::testing::Values(MseParams(4, 4, &aom_mse16x16_neon)));
+
+INSTANTIATE_TEST_CASE_P(
+ NEON, AvxVarianceTest,
+ ::testing::Values(VarianceParams(6, 6, &aom_variance64x64_neon),
+ VarianceParams(6, 5, &aom_variance64x32_neon),
+ VarianceParams(5, 6, &aom_variance32x64_neon),
+ VarianceParams(5, 5, &aom_variance32x32_neon),
+ VarianceParams(4, 4, &aom_variance16x16_neon),
+ VarianceParams(4, 3, &aom_variance16x8_neon),
+ VarianceParams(3, 4, &aom_variance8x16_neon),
+ VarianceParams(3, 3, &aom_variance8x8_neon)));
+
+INSTANTIATE_TEST_CASE_P(
+ NEON, AvxSubpelVarianceTest,
+ ::testing::Values(
+ SubpelVarianceParams(6, 6, &aom_sub_pixel_variance64x64_neon, 0),
+ SubpelVarianceParams(5, 5, &aom_sub_pixel_variance32x32_neon, 0),
+ SubpelVarianceParams(4, 4, &aom_sub_pixel_variance16x16_neon, 0),
+ SubpelVarianceParams(3, 3, &aom_sub_pixel_variance8x8_neon, 0)));
+#endif // HAVE_NEON
+
+#if HAVE_MSA
+INSTANTIATE_TEST_CASE_P(MSA, SumOfSquaresTest,
+ ::testing::Values(aom_get_mb_ss_msa));
+
+INSTANTIATE_TEST_CASE_P(MSA, AvxSseTest,
+ ::testing::Values(SseParams(2, 2,
+ &aom_get4x4sse_cs_msa)));
+
+INSTANTIATE_TEST_CASE_P(MSA, AvxMseTest,
+ ::testing::Values(MseParams(4, 4, &aom_mse16x16_msa),
+ MseParams(4, 3, &aom_mse16x8_msa),
+ MseParams(3, 4, &aom_mse8x16_msa),
+ MseParams(3, 3, &aom_mse8x8_msa)));
+
+INSTANTIATE_TEST_CASE_P(
+ MSA, AvxVarianceTest,
+ ::testing::Values(VarianceParams(6, 6, &aom_variance64x64_msa),
+ VarianceParams(6, 5, &aom_variance64x32_msa),
+ VarianceParams(5, 6, &aom_variance32x64_msa),
+ VarianceParams(5, 5, &aom_variance32x32_msa),
+ VarianceParams(5, 4, &aom_variance32x16_msa),
+ VarianceParams(4, 5, &aom_variance16x32_msa),
+ VarianceParams(4, 4, &aom_variance16x16_msa),
+ VarianceParams(4, 3, &aom_variance16x8_msa),
+ VarianceParams(3, 4, &aom_variance8x16_msa),
+ VarianceParams(3, 3, &aom_variance8x8_msa),
+ VarianceParams(3, 2, &aom_variance8x4_msa),
+ VarianceParams(2, 3, &aom_variance4x8_msa),
+ VarianceParams(2, 2, &aom_variance4x4_msa)));
+
+INSTANTIATE_TEST_CASE_P(
+ MSA, AvxSubpelVarianceTest,
+ ::testing::Values(
+ SubpelVarianceParams(2, 2, &aom_sub_pixel_variance4x4_msa, 0),
+ SubpelVarianceParams(2, 3, &aom_sub_pixel_variance4x8_msa, 0),
+ SubpelVarianceParams(3, 2, &aom_sub_pixel_variance8x4_msa, 0),
+ SubpelVarianceParams(3, 3, &aom_sub_pixel_variance8x8_msa, 0),
+ SubpelVarianceParams(3, 4, &aom_sub_pixel_variance8x16_msa, 0),
+ SubpelVarianceParams(4, 3, &aom_sub_pixel_variance16x8_msa, 0),
+ SubpelVarianceParams(4, 4, &aom_sub_pixel_variance16x16_msa, 0),
+ SubpelVarianceParams(4, 5, &aom_sub_pixel_variance16x32_msa, 0),
+ SubpelVarianceParams(5, 4, &aom_sub_pixel_variance32x16_msa, 0),
+ SubpelVarianceParams(5, 5, &aom_sub_pixel_variance32x32_msa, 0),
+ SubpelVarianceParams(5, 6, &aom_sub_pixel_variance32x64_msa, 0),
+ SubpelVarianceParams(6, 5, &aom_sub_pixel_variance64x32_msa, 0),
+ SubpelVarianceParams(6, 6, &aom_sub_pixel_variance64x64_msa, 0)));
+
+INSTANTIATE_TEST_CASE_P(
+ MSA, AvxSubpelAvgVarianceTest,
+ ::testing::Values(
+ SubpelAvgVarianceParams(6, 6, &aom_sub_pixel_avg_variance64x64_msa, 0),
+ SubpelAvgVarianceParams(6, 5, &aom_sub_pixel_avg_variance64x32_msa, 0),
+ SubpelAvgVarianceParams(5, 6, &aom_sub_pixel_avg_variance32x64_msa, 0),
+ SubpelAvgVarianceParams(5, 5, &aom_sub_pixel_avg_variance32x32_msa, 0),
+ SubpelAvgVarianceParams(5, 4, &aom_sub_pixel_avg_variance32x16_msa, 0),
+ SubpelAvgVarianceParams(4, 5, &aom_sub_pixel_avg_variance16x32_msa, 0),
+ SubpelAvgVarianceParams(4, 4, &aom_sub_pixel_avg_variance16x16_msa, 0),
+ SubpelAvgVarianceParams(4, 3, &aom_sub_pixel_avg_variance16x8_msa, 0),
+ SubpelAvgVarianceParams(3, 4, &aom_sub_pixel_avg_variance8x16_msa, 0),
+ SubpelAvgVarianceParams(3, 3, &aom_sub_pixel_avg_variance8x8_msa, 0),
+ SubpelAvgVarianceParams(3, 2, &aom_sub_pixel_avg_variance8x4_msa, 0),
+ SubpelAvgVarianceParams(2, 3, &aom_sub_pixel_avg_variance4x8_msa, 0),
+ SubpelAvgVarianceParams(2, 2, &aom_sub_pixel_avg_variance4x4_msa, 0)));
+#endif // HAVE_MSA
+} // namespace
diff --git a/third_party/aom/test/video_source.h b/third_party/aom/test/video_source.h
new file mode 100644
index 0000000000..3c1c5e559e
--- /dev/null
+++ b/third_party/aom/test/video_source.h
@@ -0,0 +1,259 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+#ifndef AOM_TEST_VIDEO_SOURCE_H_
+#define AOM_TEST_VIDEO_SOURCE_H_
+
+#if defined(_WIN32)
+#undef NOMINMAX
+#define NOMINMAX
+#define WIN32_LEAN_AND_MEAN
+#include <windows.h>
+#endif
+#include <cstdio>
+#include <cstdlib>
+#include <string>
+#include "test/acm_random.h"
+#include "aom/aom_encoder.h"
+
+namespace libaom_test {
+
+// Helper macros to ensure LIBAOM_TEST_DATA_PATH is a quoted string.
+// These are undefined right below GetDataPath
+// NOTE: LIBAOM_TEST_DATA_PATH MUST NOT be a quoted string before
+// Stringification or the GetDataPath will fail at runtime
+#define TO_STRING(S) #S
+#define STRINGIFY(S) TO_STRING(S)
+
+// A simple function to encapsulate cross platform retrieval of test data path
+static std::string GetDataPath() {
+ const char *const data_path = getenv("LIBAOM_TEST_DATA_PATH");
+ if (data_path == NULL) {
+#ifdef LIBAOM_TEST_DATA_PATH
+ // In some environments, we cannot set environment variables
+ // Instead, we set the data path by using a preprocessor symbol
+ // which can be set from make files
+ return STRINGIFY(LIBAOM_TEST_DATA_PATH);
+#else
+ return ".";
+#endif
+ }
+ return data_path;
+}
+
+// Undefining stringification macros because they are not used elsewhere
+#undef TO_STRING
+#undef STRINGIFY
+
+inline FILE *OpenTestDataFile(const std::string &file_name) {
+ const std::string path_to_source = GetDataPath() + "/" + file_name;
+ return fopen(path_to_source.c_str(), "rb");
+}
+
+static FILE *GetTempOutFile(std::string *file_name) {
+ file_name->clear();
+#if defined(_WIN32)
+ char fname[MAX_PATH];
+ char tmppath[MAX_PATH];
+ if (GetTempPathA(MAX_PATH, tmppath)) {
+ // Assume for now that the filename generated is unique per process
+ if (GetTempFileNameA(tmppath, "lvx", 0, fname)) {
+ file_name->assign(fname);
+ return fopen(fname, "wb+");
+ }
+ }
+ return NULL;
+#else
+ char name_template[] = "/tmp/libaomtest.XXXXXX";
+ const int fd = mkstemp(name_template);
+ *file_name = name_template;
+ return fdopen(fd, "wb+");
+#endif
+}
+
+class TempOutFile {
+ public:
+ TempOutFile() { file_ = GetTempOutFile(&file_name_); }
+ ~TempOutFile() {
+ CloseFile();
+ if (!file_name_.empty()) {
+ EXPECT_EQ(0, remove(file_name_.c_str()));
+ }
+ }
+ FILE *file() { return file_; }
+ const std::string &file_name() { return file_name_; }
+
+ protected:
+ void CloseFile() {
+ if (file_) {
+ fclose(file_);
+ file_ = NULL;
+ }
+ }
+ FILE *file_;
+ std::string file_name_;
+};
+
+// Abstract base class for test video sources, which provide a stream of
+// aom_image_t images with associated timestamps and duration.
+class VideoSource {
+ public:
+ virtual ~VideoSource() {}
+
+ // Prepare the stream for reading, rewind/open as necessary.
+ virtual void Begin() = 0;
+
+ // Advance the cursor to the next frame
+ virtual void Next() = 0;
+
+ // Get the current video frame, or NULL on End-Of-Stream.
+ virtual aom_image_t *img() const = 0;
+
+ // Get the presentation timestamp of the current frame.
+ virtual aom_codec_pts_t pts() const = 0;
+
+ // Get the current frame's duration
+ virtual unsigned long duration() const = 0;
+
+ // Get the timebase for the stream
+ virtual aom_rational_t timebase() const = 0;
+
+ // Get the current frame counter, starting at 0.
+ virtual unsigned int frame() const = 0;
+
+ // Get the current file limit.
+ virtual unsigned int limit() const = 0;
+};
+
+class DummyVideoSource : public VideoSource {
+ public:
+ DummyVideoSource()
+ : img_(NULL), limit_(100), width_(80), height_(64),
+ format_(AOM_IMG_FMT_I420) {
+ ReallocImage();
+ }
+
+ virtual ~DummyVideoSource() { aom_img_free(img_); }
+
+ virtual void Begin() {
+ frame_ = 0;
+ FillFrame();
+ }
+
+ virtual void Next() {
+ ++frame_;
+ FillFrame();
+ }
+
+ virtual aom_image_t *img() const { return (frame_ < limit_) ? img_ : NULL; }
+
+ // Models a stream where Timebase = 1/FPS, so pts == frame.
+ virtual aom_codec_pts_t pts() const { return frame_; }
+
+ virtual unsigned long duration() const { return 1; }
+
+ virtual aom_rational_t timebase() const {
+ const aom_rational_t t = { 1, 30 };
+ return t;
+ }
+
+ virtual unsigned int frame() const { return frame_; }
+
+ virtual unsigned int limit() const { return limit_; }
+
+ void set_limit(unsigned int limit) { limit_ = limit; }
+
+ void SetSize(unsigned int width, unsigned int height) {
+ if (width != width_ || height != height_) {
+ width_ = width;
+ height_ = height;
+ ReallocImage();
+ }
+ }
+
+ void SetImageFormat(aom_img_fmt_t format) {
+ if (format_ != format) {
+ format_ = format;
+ ReallocImage();
+ }
+ }
+
+ protected:
+ virtual void FillFrame() {
+ if (img_) memset(img_->img_data, 0, raw_sz_);
+ }
+
+ void ReallocImage() {
+ aom_img_free(img_);
+ img_ = aom_img_alloc(NULL, format_, width_, height_, 32);
+ raw_sz_ = ((img_->w + 31) & ~31) * img_->h * img_->bps / 8;
+ }
+
+ aom_image_t *img_;
+ size_t raw_sz_;
+ unsigned int limit_;
+ unsigned int frame_;
+ unsigned int width_;
+ unsigned int height_;
+ aom_img_fmt_t format_;
+};
+
+class RandomVideoSource : public DummyVideoSource {
+ public:
+ RandomVideoSource(int seed = ACMRandom::DeterministicSeed())
+ : rnd_(seed), seed_(seed) {}
+
+ protected:
+ // Reset the RNG to get a matching stream for the second pass
+ virtual void Begin() {
+ frame_ = 0;
+ rnd_.Reset(seed_);
+ FillFrame();
+ }
+
+ // 15 frames of noise, followed by 15 static frames. Reset to 0 rather
+ // than holding previous frames to encourage keyframes to be thrown.
+ virtual void FillFrame() {
+ if (img_) {
+ if (frame_ % 30 < 15)
+ for (size_t i = 0; i < raw_sz_; ++i) img_->img_data[i] = rnd_.Rand8();
+ else
+ memset(img_->img_data, 0, raw_sz_);
+ }
+ }
+
+ ACMRandom rnd_;
+ int seed_;
+};
+
+// Abstract base class for test video sources, which provide a stream of
+// decompressed images to the decoder.
+class CompressedVideoSource {
+ public:
+ virtual ~CompressedVideoSource() {}
+
+ virtual void Init() = 0;
+
+ // Prepare the stream for reading, rewind/open as necessary.
+ virtual void Begin() = 0;
+
+ // Advance the cursor to the next frame
+ virtual void Next() = 0;
+
+ virtual const uint8_t *cxdata() const = 0;
+
+ virtual size_t frame_size() const = 0;
+
+ virtual unsigned int frame_number() const = 0;
+};
+
+} // namespace libaom_test
+
+#endif // AOM_TEST_VIDEO_SOURCE_H_
diff --git a/third_party/aom/test/visual_metrics.py b/third_party/aom/test/visual_metrics.py
new file mode 100755
index 0000000000..9055feb334
--- /dev/null
+++ b/third_party/aom/test/visual_metrics.py
@@ -0,0 +1,466 @@
+#!/usr/bin/python
+#
+# Copyright (c) 2016, Alliance for Open Media. All rights reserved
+#
+# This source code is subject to the terms of the BSD 2 Clause License and
+# the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+# was not distributed with this source code in the LICENSE file, you can
+# obtain it at www.aomedia.org/license/software. If the Alliance for Open
+# Media Patent License 1.0 was not distributed with this source code in the
+# PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+#
+
+"""Converts video encoding result data from text files to visualization
+data source."""
+
+__author__ = "jzern@google.com (James Zern),"
+__author__ += "jimbankoski@google.com (Jim Bankoski)"
+
+import fnmatch
+import numpy as np
+import scipy as sp
+import scipy.interpolate
+import os
+import re
+import string
+import sys
+import math
+import warnings
+
+import gviz_api
+
+from os.path import basename
+from os.path import splitext
+
+warnings.simplefilter('ignore', np.RankWarning)
+warnings.simplefilter('ignore', RuntimeWarning)
+
+def bdsnr2(metric_set1, metric_set2):
+ """
+ BJONTEGAARD Bjontegaard metric calculation adapted
+ Bjontegaard's snr metric allows to compute the average % saving in decibels
+ between two rate-distortion curves [1]. This is an adaptation of that
+ method that fixes inconsistencies when the curve fit operation goes awry
+ by replacing the curve fit function with a Piecewise Cubic Hermite
+ Interpolating Polynomial and then integrating that by evaluating that
+ function at small intervals using the trapezoid method to calculate
+ the integral.
+
+ metric_set1 - list of tuples ( bitrate, metric ) for first graph
+ metric_set2 - list of tuples ( bitrate, metric ) for second graph
+ """
+
+ if not metric_set1 or not metric_set2:
+ return 0.0
+
+ try:
+
+ # pchip_interlopate requires keys sorted by x axis. x-axis will
+ # be our metric not the bitrate so sort by metric.
+ metric_set1.sort()
+ metric_set2.sort()
+
+ # Pull the log of the rate and clamped psnr from metric_sets.
+ log_rate1 = [math.log(x[0]) for x in metric_set1]
+ metric1 = [100.0 if x[1] == float('inf') else x[1] for x in metric_set1]
+ log_rate2 = [math.log(x[0]) for x in metric_set2]
+ metric2 = [100.0 if x[1] == float('inf') else x[1] for x in metric_set2]
+
+ # Integration interval. This metric only works on the area that's
+ # overlapping. Extrapolation of these things is sketchy so we avoid.
+ min_int = max([min(log_rate1), min(log_rate2)])
+ max_int = min([max(log_rate1), max(log_rate2)])
+
+ # No overlap means no sensible metric possible.
+ if max_int <= min_int:
+ return 0.0
+
+ # Use Piecewise Cubic Hermite Interpolating Polynomial interpolation to
+ # create 100 new samples points separated by interval.
+ lin = np.linspace(min_int, max_int, num=100, retstep=True)
+ interval = lin[1]
+ samples = lin[0]
+ v1 = scipy.interpolate.pchip_interpolate(log_rate1, metric1, samples)
+ v2 = scipy.interpolate.pchip_interpolate(log_rate2, metric2, samples)
+
+ # Calculate the integral using the trapezoid method on the samples.
+ int_v1 = np.trapz(v1, dx=interval)
+ int_v2 = np.trapz(v2, dx=interval)
+
+ # Calculate the average improvement.
+ avg_exp_diff = (int_v2 - int_v1) / (max_int - min_int)
+
+ except (TypeError, ZeroDivisionError, ValueError, np.RankWarning) as e:
+ return 0
+
+ return avg_exp_diff
+
+def bdrate2(metric_set1, metric_set2):
+ """
+ BJONTEGAARD Bjontegaard metric calculation adapted
+ Bjontegaard's metric allows to compute the average % saving in bitrate
+ between two rate-distortion curves [1]. This is an adaptation of that
+ method that fixes inconsistencies when the curve fit operation goes awry
+ by replacing the curve fit function with a Piecewise Cubic Hermite
+ Interpolating Polynomial and then integrating that by evaluating that
+ function at small intervals using the trapezoid method to calculate
+ the integral.
+
+ metric_set1 - list of tuples ( bitrate, metric ) for first graph
+ metric_set2 - list of tuples ( bitrate, metric ) for second graph
+ """
+
+ if not metric_set1 or not metric_set2:
+ return 0.0
+
+ try:
+
+ # pchip_interlopate requires keys sorted by x axis. x-axis will
+ # be our metric not the bitrate so sort by metric.
+ metric_set1.sort(key=lambda tup: tup[1])
+ metric_set2.sort(key=lambda tup: tup[1])
+
+ # Pull the log of the rate and clamped psnr from metric_sets.
+ log_rate1 = [math.log(x[0]) for x in metric_set1]
+ metric1 = [100.0 if x[1] == float('inf') else x[1] for x in metric_set1]
+ log_rate2 = [math.log(x[0]) for x in metric_set2]
+ metric2 = [100.0 if x[1] == float('inf') else x[1] for x in metric_set2]
+
+ # Integration interval. This metric only works on the area that's
+ # overlapping. Extrapolation of these things is sketchy so we avoid.
+ min_int = max([min(metric1), min(metric2)])
+ max_int = min([max(metric1), max(metric2)])
+
+ # No overlap means no sensible metric possible.
+ if max_int <= min_int:
+ return 0.0
+
+ # Use Piecewise Cubic Hermite Interpolating Polynomial interpolation to
+ # create 100 new samples points separated by interval.
+ lin = np.linspace(min_int, max_int, num=100, retstep=True)
+ interval = lin[1]
+ samples = lin[0]
+ v1 = scipy.interpolate.pchip_interpolate(metric1, log_rate1, samples)
+ v2 = scipy.interpolate.pchip_interpolate(metric2, log_rate2, samples)
+
+ # Calculate the integral using the trapezoid method on the samples.
+ int_v1 = np.trapz(v1, dx=interval)
+ int_v2 = np.trapz(v2, dx=interval)
+
+ # Calculate the average improvement.
+ avg_exp_diff = (int_v2 - int_v1) / (max_int - min_int)
+
+ except (TypeError, ZeroDivisionError, ValueError, np.RankWarning) as e:
+ return 0
+
+ # Convert to a percentage.
+ avg_diff = (math.exp(avg_exp_diff) - 1) * 100
+
+ return avg_diff
+
+
+
+def FillForm(string_for_substitution, dictionary_of_vars):
+ """
+ This function substitutes all matches of the command string //%% ... %%//
+ with the variable represented by ... .
+ """
+ return_string = string_for_substitution
+ for i in re.findall("//%%(.*)%%//", string_for_substitution):
+ return_string = re.sub("//%%" + i + "%%//", dictionary_of_vars[i],
+ return_string)
+ return return_string
+
+
+def HasMetrics(line):
+ """
+ The metrics files produced by aomenc are started with a B for headers.
+ """
+ # If the first char of the first word on the line is a digit
+ if len(line) == 0:
+ return False
+ if len(line.split()) == 0:
+ return False
+ if line.split()[0][0:1].isdigit():
+ return True
+ return False
+
+def GetMetrics(file_name):
+ metric_file = open(file_name, "r")
+ return metric_file.readline().split();
+
+def ParseMetricFile(file_name, metric_column):
+ metric_set1 = set([])
+ metric_file = open(file_name, "r")
+ for line in metric_file:
+ metrics = string.split(line)
+ if HasMetrics(line):
+ if metric_column < len(metrics):
+ try:
+ tuple = float(metrics[0]), float(metrics[metric_column])
+ except:
+ tuple = float(metrics[0]), 0
+ else:
+ tuple = float(metrics[0]), 0
+ metric_set1.add(tuple)
+ metric_set1_sorted = sorted(metric_set1)
+ return metric_set1_sorted
+
+
+def FileBetter(file_name_1, file_name_2, metric_column, method):
+ """
+ Compares two data files and determines which is better and by how
+ much. Also produces a histogram of how much better, by PSNR.
+ metric_column is the metric.
+ """
+ # Store and parse our two files into lists of unique tuples.
+
+ # Read the two files, parsing out lines starting with bitrate.
+ metric_set1_sorted = ParseMetricFile(file_name_1, metric_column)
+ metric_set2_sorted = ParseMetricFile(file_name_2, metric_column)
+
+
+ def GraphBetter(metric_set1_sorted, metric_set2_sorted, base_is_set_2):
+ """
+ Search through the sorted metric file for metrics on either side of
+ the metric from file 1. Since both lists are sorted we really
+ should not have to search through the entire range, but these
+ are small files."""
+ total_bitrate_difference_ratio = 0.0
+ count = 0
+ for bitrate, metric in metric_set1_sorted:
+ if bitrate == 0:
+ continue
+ for i in range(len(metric_set2_sorted) - 1):
+ s2_bitrate_0, s2_metric_0 = metric_set2_sorted[i]
+ s2_bitrate_1, s2_metric_1 = metric_set2_sorted[i + 1]
+ # We have a point on either side of our metric range.
+ if metric > s2_metric_0 and metric <= s2_metric_1:
+
+ # Calculate a slope.
+ if s2_metric_1 - s2_metric_0 != 0:
+ metric_slope = ((s2_bitrate_1 - s2_bitrate_0) /
+ (s2_metric_1 - s2_metric_0))
+ else:
+ metric_slope = 0
+
+ estimated_s2_bitrate = (s2_bitrate_0 + (metric - s2_metric_0) *
+ metric_slope)
+
+ if estimated_s2_bitrate == 0:
+ continue
+ # Calculate percentage difference as given by base.
+ if base_is_set_2 == 0:
+ bitrate_difference_ratio = ((bitrate - estimated_s2_bitrate) /
+ bitrate)
+ else:
+ bitrate_difference_ratio = ((bitrate - estimated_s2_bitrate) /
+ estimated_s2_bitrate)
+
+ total_bitrate_difference_ratio += bitrate_difference_ratio
+ count += 1
+ break
+
+ # Calculate the average improvement between graphs.
+ if count != 0:
+ avg = total_bitrate_difference_ratio / count
+
+ else:
+ avg = 0.0
+
+ return avg
+
+ # Be fair to both graphs by testing all the points in each.
+ if method == 'avg':
+ avg_improvement = 50 * (
+ GraphBetter(metric_set1_sorted, metric_set2_sorted, 1) -
+ GraphBetter(metric_set2_sorted, metric_set1_sorted, 0))
+ elif method == 'dsnr':
+ avg_improvement = bdsnr2(metric_set1_sorted, metric_set2_sorted)
+ else:
+ avg_improvement = bdrate2(metric_set2_sorted, metric_set1_sorted)
+
+ return avg_improvement
+
+
+def HandleFiles(variables):
+ """
+ This script creates html for displaying metric data produced from data
+ in a video stats file, as created by the AOM project when enable_psnr
+ is turned on:
+
+ Usage: visual_metrics.py template.html pattern base_dir sub_dir [ sub_dir2 ..]
+
+ The script parses each metrics file [see below] that matches the
+ statfile_pattern in the baseline directory and looks for the file that
+ matches that same file in each of the sub_dirs, and compares the resultant
+ metrics bitrate, avg psnr, glb psnr, and ssim. "
+
+ It provides a table in which each row is a file in the line directory,
+ and a column for each subdir, with the cells representing how that clip
+ compares to baseline for that subdir. A graph is given for each which
+ compares filesize to that metric. If you click on a point in the graph it
+ zooms in on that point.
+
+ a SAMPLE metrics file:
+
+ Bitrate AVGPsnr GLBPsnr AVPsnrP GLPsnrP VPXSSIM Time(us)
+ 25.911 38.242 38.104 38.258 38.121 75.790 14103
+ Bitrate AVGPsnr GLBPsnr AVPsnrP GLPsnrP VPXSSIM Time(us)
+ 49.982 41.264 41.129 41.255 41.122 83.993 19817
+ Bitrate AVGPsnr GLBPsnr AVPsnrP GLPsnrP VPXSSIM Time(us)
+ 74.967 42.911 42.767 42.899 42.756 87.928 17332
+ Bitrate AVGPsnr GLBPsnr AVPsnrP GLPsnrP VPXSSIM Time(us)
+ 100.012 43.983 43.838 43.881 43.738 89.695 25389
+ Bitrate AVGPsnr GLBPsnr AVPsnrP GLPsnrP VPXSSIM Time(us)
+ 149.980 45.338 45.203 45.184 45.043 91.591 25438
+ Bitrate AVGPsnr GLBPsnr AVPsnrP GLPsnrP VPXSSIM Time(us)
+ 199.852 46.225 46.123 46.113 45.999 92.679 28302
+ Bitrate AVGPsnr GLBPsnr AVPsnrP GLPsnrP VPXSSIM Time(us)
+ 249.922 46.864 46.773 46.777 46.673 93.334 27244
+ Bitrate AVGPsnr GLBPsnr AVPsnrP GLPsnrP VPXSSIM Time(us)
+ 299.998 47.366 47.281 47.317 47.220 93.844 27137
+ Bitrate AVGPsnr GLBPsnr AVPsnrP GLPsnrP VPXSSIM Time(us)
+ 349.769 47.746 47.677 47.722 47.648 94.178 32226
+ Bitrate AVGPsnr GLBPsnr AVPsnrP GLPsnrP VPXSSIM Time(us)
+ 399.773 48.032 47.971 48.013 47.946 94.362 36203
+
+ sample use:
+ visual_metrics.py template.html "*stt" aom aom_b aom_c > metrics.html
+ """
+
+ # The template file is the html file into which we will write the
+ # data from the stats file, formatted correctly for the gviz_api.
+ template_file = open(variables[1], "r")
+ page_template = template_file.read()
+ template_file.close()
+
+ # This is the path match pattern for finding stats files amongst
+ # all the other files it could be. eg: *.stt
+ file_pattern = variables[2]
+
+ # This is the directory with files that we will use to do the comparison
+ # against.
+ baseline_dir = variables[3]
+ snrs = ''
+ filestable = {}
+
+ filestable['dsnr'] = ''
+ filestable['drate'] = ''
+ filestable['avg'] = ''
+
+ # Dirs is directories after the baseline to compare to the base.
+ dirs = variables[4:len(variables)]
+
+ # Find the metric files in the baseline directory.
+ dir_list = sorted(fnmatch.filter(os.listdir(baseline_dir), file_pattern))
+
+ metrics = GetMetrics(baseline_dir + "/" + dir_list[0])
+
+ metrics_js = 'metrics = ["' + '", "'.join(metrics) + '"];'
+
+ for column in range(1, len(metrics)):
+
+ for metric in ['avg','dsnr','drate']:
+ description = {"file": ("string", "File")}
+
+ # Go through each directory and add a column header to our description.
+ countoverall = {}
+ sumoverall = {}
+
+ for directory in dirs:
+ description[directory] = ("number", directory)
+ countoverall[directory] = 0
+ sumoverall[directory] = 0
+
+ # Data holds the data for the visualization, name given comes from
+ # gviz_api sample code.
+ data = []
+ for filename in dir_list:
+ row = {'file': splitext(basename(filename))[0] }
+ baseline_file_name = baseline_dir + "/" + filename
+
+ # Read the metric file from each of the directories in our list.
+ for directory in dirs:
+ metric_file_name = directory + "/" + filename
+
+ # If there is a metric file in the current directory, open it
+ # and calculate its overall difference between it and the baseline
+ # directory's metric file.
+ if os.path.isfile(metric_file_name):
+ overall = FileBetter(baseline_file_name, metric_file_name,
+ column, metric)
+ row[directory] = overall
+
+ sumoverall[directory] += overall
+ countoverall[directory] += 1
+
+ data.append(row)
+
+ # Add the overall numbers.
+ row = {"file": "OVERALL" }
+ for directory in dirs:
+ row[directory] = sumoverall[directory] / countoverall[directory]
+ data.append(row)
+
+ # write the tables out
+ data_table = gviz_api.DataTable(description)
+ data_table.LoadData(data)
+
+ filestable[metric] = ( filestable[metric] + "filestable_" + metric +
+ "[" + str(column) + "]=" +
+ data_table.ToJSon(columns_order=["file"]+dirs) + "\n" )
+
+ filestable_avg = filestable['avg']
+ filestable_dpsnr = filestable['dsnr']
+ filestable_drate = filestable['drate']
+
+ # Now we collect all the data for all the graphs. First the column
+ # headers which will be Datarate and then each directory.
+ columns = ("datarate",baseline_dir)
+ description = {"datarate":("number", "Datarate")}
+ for directory in dirs:
+ description[directory] = ("number", directory)
+
+ description[baseline_dir] = ("number", baseline_dir)
+
+ snrs = snrs + "snrs[" + str(column) + "] = ["
+
+ # Now collect the data for the graphs, file by file.
+ for filename in dir_list:
+
+ data = []
+
+ # Collect the file in each directory and store all of its metrics
+ # in the associated gviz metrics table.
+ all_dirs = dirs + [baseline_dir]
+ for directory in all_dirs:
+
+ metric_file_name = directory + "/" + filename
+ if not os.path.isfile(metric_file_name):
+ continue
+
+ # Read and parse the metrics file storing it to the data we'll
+ # use for the gviz_api.Datatable.
+ metrics = ParseMetricFile(metric_file_name, column)
+ for bitrate, metric in metrics:
+ data.append({"datarate": bitrate, directory: metric})
+
+ data_table = gviz_api.DataTable(description)
+ data_table.LoadData(data)
+ snrs = snrs + "'" + data_table.ToJSon(
+ columns_order=tuple(["datarate",baseline_dir]+dirs)) + "',"
+
+ snrs = snrs + "]\n"
+
+ formatters = ""
+ for i in range(len(dirs)):
+ formatters = "%s formatter.format(better, %d);" % (formatters, i+1)
+
+ print FillForm(page_template, vars())
+ return
+
+if len(sys.argv) < 3:
+ print HandleFiles.__doc__
+else:
+ HandleFiles(sys.argv)
diff --git a/third_party/aom/test/warp_filter_test.cc b/third_party/aom/test/warp_filter_test.cc
new file mode 100644
index 0000000000..19a4e8b6a1
--- /dev/null
+++ b/third_party/aom/test/warp_filter_test.cc
@@ -0,0 +1,56 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/warp_filter_test_util.h"
+using ::testing::make_tuple;
+using ::testing::tuple;
+using libaom_test::ACMRandom;
+using libaom_test::AV1HighbdWarpFilter::AV1HighbdWarpFilterTest;
+using libaom_test::AV1WarpFilter::AV1WarpFilterTest;
+
+namespace {
+
+TEST_P(AV1WarpFilterTest, CheckOutput) {
+ RunCheckOutput(::testing::get<3>(GET_PARAM(0)));
+}
+TEST_P(AV1WarpFilterTest, DISABLED_Speed) {
+ RunSpeedTest(::testing::get<3>(GET_PARAM(0)));
+}
+
+INSTANTIATE_TEST_CASE_P(
+ C, AV1WarpFilterTest,
+ libaom_test::AV1WarpFilter::BuildParams(av1_warp_affine_c));
+
+#if HAVE_SSE4_1
+INSTANTIATE_TEST_CASE_P(
+ SSE4_1, AV1WarpFilterTest,
+ libaom_test::AV1WarpFilter::BuildParams(av1_warp_affine_sse4_1));
+
+TEST_P(AV1HighbdWarpFilterTest, CheckOutput) {
+ RunCheckOutput(::testing::get<4>(GET_PARAM(0)));
+}
+TEST_P(AV1HighbdWarpFilterTest, DISABLED_Speed) {
+ RunSpeedTest(::testing::get<4>(GET_PARAM(0)));
+}
+
+INSTANTIATE_TEST_CASE_P(SSE4_1, AV1HighbdWarpFilterTest,
+ libaom_test::AV1HighbdWarpFilter::BuildParams(
+ av1_highbd_warp_affine_sse4_1));
+
+#endif // HAVE_SSE4_1
+
+#if HAVE_NEON
+INSTANTIATE_TEST_CASE_P(
+ NEON, AV1WarpFilterTest,
+ libaom_test::AV1WarpFilter::BuildParams(av1_warp_affine_neon));
+#endif // HAVE_NEON
+
+} // namespace
diff --git a/third_party/aom/test/warp_filter_test_util.cc b/third_party/aom/test/warp_filter_test_util.cc
new file mode 100644
index 0000000000..69b2ed4afe
--- /dev/null
+++ b/third_party/aom/test/warp_filter_test_util.cc
@@ -0,0 +1,480 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+#include "aom_ports/aom_timer.h"
+#include "test/warp_filter_test_util.h"
+
+using ::testing::make_tuple;
+using ::testing::tuple;
+
+namespace libaom_test {
+
+int32_t random_warped_param(libaom_test::ACMRandom *rnd, int bits) {
+ // 1 in 8 chance of generating zero (arbitrarily chosen)
+ if (((rnd->Rand8()) & 7) == 0) return 0;
+ // Otherwise, enerate uniform values in the range
+ // [-(1 << bits), 1] U [1, 1<<bits]
+ int32_t v = 1 + (rnd->Rand16() & ((1 << bits) - 1));
+ if ((rnd->Rand8()) & 1) return -v;
+ return v;
+}
+
+void generate_warped_model(libaom_test::ACMRandom *rnd, int32_t *mat,
+ int16_t *alpha, int16_t *beta, int16_t *gamma,
+ int16_t *delta, const int is_alpha_zero,
+ const int is_beta_zero, const int is_gamma_zero,
+ const int is_delta_zero) {
+ while (1) {
+ int rnd8 = rnd->Rand8() & 3;
+ mat[0] = random_warped_param(rnd, WARPEDMODEL_PREC_BITS + 6);
+ mat[1] = random_warped_param(rnd, WARPEDMODEL_PREC_BITS + 6);
+ mat[2] = (random_warped_param(rnd, WARPEDMODEL_PREC_BITS - 3)) +
+ (1 << WARPEDMODEL_PREC_BITS);
+ mat[3] = random_warped_param(rnd, WARPEDMODEL_PREC_BITS - 3);
+
+ if (rnd8 <= 1) {
+ // AFFINE
+ mat[4] = random_warped_param(rnd, WARPEDMODEL_PREC_BITS - 3);
+ mat[5] = (random_warped_param(rnd, WARPEDMODEL_PREC_BITS - 3)) +
+ (1 << WARPEDMODEL_PREC_BITS);
+ } else if (rnd8 == 2) {
+ mat[4] = -mat[3];
+ mat[5] = mat[2];
+ } else {
+ mat[4] = random_warped_param(rnd, WARPEDMODEL_PREC_BITS - 3);
+ mat[5] = (random_warped_param(rnd, WARPEDMODEL_PREC_BITS - 3)) +
+ (1 << WARPEDMODEL_PREC_BITS);
+ if (is_alpha_zero == 1) mat[2] = 1 << WARPEDMODEL_PREC_BITS;
+ if (is_beta_zero == 1) mat[3] = 0;
+ if (is_gamma_zero == 1) mat[4] = 0;
+ if (is_delta_zero == 1)
+ mat[5] = (((int64_t)mat[3] * mat[4] + (mat[2] / 2)) / mat[2]) +
+ (1 << WARPEDMODEL_PREC_BITS);
+ }
+
+ // Calculate the derived parameters and check that they are suitable
+ // for the warp filter.
+ assert(mat[2] != 0);
+
+ *alpha = clamp(mat[2] - (1 << WARPEDMODEL_PREC_BITS), INT16_MIN, INT16_MAX);
+ *beta = clamp(mat[3], INT16_MIN, INT16_MAX);
+ *gamma = clamp(((int64_t)mat[4] * (1 << WARPEDMODEL_PREC_BITS)) / mat[2],
+ INT16_MIN, INT16_MAX);
+ *delta =
+ clamp(mat[5] - (((int64_t)mat[3] * mat[4] + (mat[2] / 2)) / mat[2]) -
+ (1 << WARPEDMODEL_PREC_BITS),
+ INT16_MIN, INT16_MAX);
+
+ if ((4 * abs(*alpha) + 7 * abs(*beta) >= (1 << WARPEDMODEL_PREC_BITS)) ||
+ (4 * abs(*gamma) + 4 * abs(*delta) >= (1 << WARPEDMODEL_PREC_BITS)))
+ continue;
+
+ *alpha = ROUND_POWER_OF_TWO_SIGNED(*alpha, WARP_PARAM_REDUCE_BITS) *
+ (1 << WARP_PARAM_REDUCE_BITS);
+ *beta = ROUND_POWER_OF_TWO_SIGNED(*beta, WARP_PARAM_REDUCE_BITS) *
+ (1 << WARP_PARAM_REDUCE_BITS);
+ *gamma = ROUND_POWER_OF_TWO_SIGNED(*gamma, WARP_PARAM_REDUCE_BITS) *
+ (1 << WARP_PARAM_REDUCE_BITS);
+ *delta = ROUND_POWER_OF_TWO_SIGNED(*delta, WARP_PARAM_REDUCE_BITS) *
+ (1 << WARP_PARAM_REDUCE_BITS);
+
+ // We have a valid model, so finish
+ return;
+ }
+}
+
+namespace AV1WarpFilter {
+::testing::internal::ParamGenerator<WarpTestParams> BuildParams(
+ warp_affine_func filter) {
+ WarpTestParam params[] = {
+ make_tuple(4, 4, 50000, filter), make_tuple(8, 8, 50000, filter),
+ make_tuple(64, 64, 1000, filter), make_tuple(4, 16, 20000, filter),
+ make_tuple(32, 8, 10000, filter),
+ };
+ return ::testing::Combine(::testing::ValuesIn(params),
+ ::testing::Values(0, 1), ::testing::Values(0, 1),
+ ::testing::Values(0, 1), ::testing::Values(0, 1));
+}
+
+AV1WarpFilterTest::~AV1WarpFilterTest() {}
+void AV1WarpFilterTest::SetUp() { rnd_.Reset(ACMRandom::DeterministicSeed()); }
+
+void AV1WarpFilterTest::TearDown() { libaom_test::ClearSystemState(); }
+
+void AV1WarpFilterTest::RunSpeedTest(warp_affine_func test_impl) {
+ const int w = 128, h = 128;
+ const int border = 16;
+ const int stride = w + 2 * border;
+ WarpTestParam params = GET_PARAM(0);
+ const int out_w = ::testing::get<0>(params),
+ out_h = ::testing::get<1>(params);
+ const int is_alpha_zero = GET_PARAM(1);
+ const int is_beta_zero = GET_PARAM(2);
+ const int is_gamma_zero = GET_PARAM(3);
+ const int is_delta_zero = GET_PARAM(4);
+ int sub_x, sub_y;
+ const int bd = 8;
+
+ uint8_t *input_ = new uint8_t[h * stride];
+ uint8_t *input = input_ + border;
+
+ // The warp functions always write rows with widths that are multiples of 8.
+ // So to avoid a buffer overflow, we may need to pad rows to a multiple of 8.
+ int output_n = ((out_w + 7) & ~7) * out_h;
+ uint8_t *output = new uint8_t[output_n];
+ int32_t mat[8];
+ int16_t alpha, beta, gamma, delta;
+ ConvolveParams conv_params = get_conv_params(0, 0, bd);
+ CONV_BUF_TYPE *dsta = new CONV_BUF_TYPE[output_n];
+ generate_warped_model(&rnd_, mat, &alpha, &beta, &gamma, &delta,
+ is_alpha_zero, is_beta_zero, is_gamma_zero,
+ is_delta_zero);
+
+ for (int r = 0; r < h; ++r)
+ for (int c = 0; c < w; ++c) input[r * stride + c] = rnd_.Rand8();
+ for (int r = 0; r < h; ++r) {
+ memset(input + r * stride - border, input[r * stride], border);
+ memset(input + r * stride + w, input[r * stride + (w - 1)], border);
+ }
+
+ sub_x = 0;
+ sub_y = 0;
+ int do_average = 0;
+
+ conv_params = get_conv_params_no_round(do_average, 0, dsta, out_w, 1, bd);
+ conv_params.use_jnt_comp_avg = 0;
+
+ const int num_loops = 1000000000 / (out_w + out_h);
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+ for (int i = 0; i < num_loops; ++i)
+ test_impl(mat, input, w, h, stride, output, 32, 32, out_w, out_h, out_w,
+ sub_x, sub_y, &conv_params, alpha, beta, gamma, delta);
+
+ aom_usec_timer_mark(&timer);
+ const int elapsed_time = static_cast<int>(aom_usec_timer_elapsed(&timer));
+ printf("warp %3dx%-3d: %7.2f ns\n", out_w, out_h,
+ 1000.0 * elapsed_time / num_loops);
+
+ delete[] input_;
+ delete[] output;
+ delete[] dsta;
+}
+
+void AV1WarpFilterTest::RunCheckOutput(warp_affine_func test_impl) {
+ const int w = 128, h = 128;
+ const int border = 16;
+ const int stride = w + 2 * border;
+ WarpTestParam params = GET_PARAM(0);
+ const int is_alpha_zero = GET_PARAM(1);
+ const int is_beta_zero = GET_PARAM(2);
+ const int is_gamma_zero = GET_PARAM(3);
+ const int is_delta_zero = GET_PARAM(4);
+ const int out_w = ::testing::get<0>(params),
+ out_h = ::testing::get<1>(params);
+ const int num_iters = ::testing::get<2>(params);
+ int i, j, sub_x, sub_y;
+ const int bd = 8;
+
+ // The warp functions always write rows with widths that are multiples of 8.
+ // So to avoid a buffer overflow, we may need to pad rows to a multiple of 8.
+ int output_n = ((out_w + 7) & ~7) * out_h;
+ uint8_t *input_ = new uint8_t[h * stride];
+ uint8_t *input = input_ + border;
+ uint8_t *output = new uint8_t[output_n];
+ uint8_t *output2 = new uint8_t[output_n];
+ int32_t mat[8];
+ int16_t alpha, beta, gamma, delta;
+ ConvolveParams conv_params = get_conv_params(0, 0, bd);
+ CONV_BUF_TYPE *dsta = new CONV_BUF_TYPE[output_n];
+ CONV_BUF_TYPE *dstb = new CONV_BUF_TYPE[output_n];
+ for (int i = 0; i < output_n; ++i) output[i] = output2[i] = rnd_.Rand8();
+
+ for (i = 0; i < num_iters; ++i) {
+ // Generate an input block and extend its borders horizontally
+ for (int r = 0; r < h; ++r)
+ for (int c = 0; c < w; ++c) input[r * stride + c] = rnd_.Rand8();
+ for (int r = 0; r < h; ++r) {
+ memset(input + r * stride - border, input[r * stride], border);
+ memset(input + r * stride + w, input[r * stride + (w - 1)], border);
+ }
+ const int use_no_round = rnd_.Rand8() & 1;
+ for (sub_x = 0; sub_x < 2; ++sub_x)
+ for (sub_y = 0; sub_y < 2; ++sub_y) {
+ generate_warped_model(&rnd_, mat, &alpha, &beta, &gamma, &delta,
+ is_alpha_zero, is_beta_zero, is_gamma_zero,
+ is_delta_zero);
+
+ for (int ii = 0; ii < 2; ++ii) {
+ for (int jj = 0; jj < 5; ++jj) {
+ for (int do_average = 0; do_average <= 1; ++do_average) {
+ if (use_no_round) {
+ conv_params =
+ get_conv_params_no_round(do_average, 0, dsta, out_w, 1, bd);
+ } else {
+ conv_params = get_conv_params(0, 0, bd);
+ }
+ if (jj >= 4) {
+ conv_params.use_jnt_comp_avg = 0;
+ } else {
+ conv_params.use_jnt_comp_avg = 1;
+ conv_params.fwd_offset = quant_dist_lookup_table[ii][jj][0];
+ conv_params.bck_offset = quant_dist_lookup_table[ii][jj][1];
+ }
+ av1_warp_affine_c(mat, input, w, h, stride, output, 32, 32, out_w,
+ out_h, out_w, sub_x, sub_y, &conv_params, alpha,
+ beta, gamma, delta);
+ if (use_no_round) {
+ conv_params =
+ get_conv_params_no_round(do_average, 0, dstb, out_w, 1, bd);
+ }
+ if (jj >= 4) {
+ conv_params.use_jnt_comp_avg = 0;
+ } else {
+ conv_params.use_jnt_comp_avg = 1;
+ conv_params.fwd_offset = quant_dist_lookup_table[ii][jj][0];
+ conv_params.bck_offset = quant_dist_lookup_table[ii][jj][1];
+ }
+ test_impl(mat, input, w, h, stride, output2, 32, 32, out_w, out_h,
+ out_w, sub_x, sub_y, &conv_params, alpha, beta, gamma,
+ delta);
+ if (use_no_round) {
+ for (j = 0; j < out_w * out_h; ++j)
+ ASSERT_EQ(dsta[j], dstb[j])
+ << "Pixel mismatch at index " << j << " = ("
+ << (j % out_w) << ", " << (j / out_w) << ") on iteration "
+ << i;
+ for (j = 0; j < out_w * out_h; ++j)
+ ASSERT_EQ(output[j], output2[j])
+ << "Pixel mismatch at index " << j << " = ("
+ << (j % out_w) << ", " << (j / out_w) << ") on iteration "
+ << i;
+ } else {
+ for (j = 0; j < out_w * out_h; ++j)
+ ASSERT_EQ(output[j], output2[j])
+ << "Pixel mismatch at index " << j << " = ("
+ << (j % out_w) << ", " << (j / out_w) << ") on iteration "
+ << i;
+ }
+ }
+ }
+ }
+ }
+ }
+ delete[] input_;
+ delete[] output;
+ delete[] output2;
+ delete[] dsta;
+ delete[] dstb;
+}
+} // namespace AV1WarpFilter
+
+namespace AV1HighbdWarpFilter {
+::testing::internal::ParamGenerator<HighbdWarpTestParams> BuildParams(
+ highbd_warp_affine_func filter) {
+ const HighbdWarpTestParam params[] = {
+ make_tuple(4, 4, 100, 8, filter), make_tuple(8, 8, 100, 8, filter),
+ make_tuple(64, 64, 100, 8, filter), make_tuple(4, 16, 100, 8, filter),
+ make_tuple(32, 8, 100, 8, filter), make_tuple(4, 4, 100, 10, filter),
+ make_tuple(8, 8, 100, 10, filter), make_tuple(64, 64, 100, 10, filter),
+ make_tuple(4, 16, 100, 10, filter), make_tuple(32, 8, 100, 10, filter),
+ make_tuple(4, 4, 100, 12, filter), make_tuple(8, 8, 100, 12, filter),
+ make_tuple(64, 64, 100, 12, filter), make_tuple(4, 16, 100, 12, filter),
+ make_tuple(32, 8, 100, 12, filter),
+ };
+ return ::testing::Combine(::testing::ValuesIn(params),
+ ::testing::Values(0, 1), ::testing::Values(0, 1),
+ ::testing::Values(0, 1), ::testing::Values(0, 1));
+}
+
+AV1HighbdWarpFilterTest::~AV1HighbdWarpFilterTest() {}
+void AV1HighbdWarpFilterTest::SetUp() {
+ rnd_.Reset(ACMRandom::DeterministicSeed());
+}
+
+void AV1HighbdWarpFilterTest::TearDown() { libaom_test::ClearSystemState(); }
+
+void AV1HighbdWarpFilterTest::RunSpeedTest(highbd_warp_affine_func test_impl) {
+ const int w = 128, h = 128;
+ const int border = 16;
+ const int stride = w + 2 * border;
+ HighbdWarpTestParam param = GET_PARAM(0);
+ const int is_alpha_zero = GET_PARAM(1);
+ const int is_beta_zero = GET_PARAM(2);
+ const int is_gamma_zero = GET_PARAM(3);
+ const int is_delta_zero = GET_PARAM(4);
+ const int out_w = ::testing::get<0>(param), out_h = ::testing::get<1>(param);
+ const int bd = ::testing::get<3>(param);
+ const int mask = (1 << bd) - 1;
+ int sub_x, sub_y;
+
+ // The warp functions always write rows with widths that are multiples of 8.
+ // So to avoid a buffer overflow, we may need to pad rows to a multiple of 8.
+ int output_n = ((out_w + 7) & ~7) * out_h;
+ uint16_t *input_ = new uint16_t[h * stride];
+ uint16_t *input = input_ + border;
+ uint16_t *output = new uint16_t[output_n];
+ int32_t mat[8];
+ int16_t alpha, beta, gamma, delta;
+ ConvolveParams conv_params = get_conv_params(0, 0, bd);
+ CONV_BUF_TYPE *dsta = new CONV_BUF_TYPE[output_n];
+
+ generate_warped_model(&rnd_, mat, &alpha, &beta, &gamma, &delta,
+ is_alpha_zero, is_beta_zero, is_gamma_zero,
+ is_delta_zero);
+ // Generate an input block and extend its borders horizontally
+ for (int r = 0; r < h; ++r)
+ for (int c = 0; c < w; ++c) input[r * stride + c] = rnd_.Rand16() & mask;
+ for (int r = 0; r < h; ++r) {
+ for (int c = 0; c < border; ++c) {
+ input[r * stride - border + c] = input[r * stride];
+ input[r * stride + w + c] = input[r * stride + (w - 1)];
+ }
+ }
+
+ sub_x = 0;
+ sub_y = 0;
+ int do_average = 0;
+ conv_params.use_jnt_comp_avg = 0;
+ conv_params = get_conv_params_no_round(do_average, 0, dsta, out_w, 1, bd);
+
+ const int num_loops = 1000000000 / (out_w + out_h);
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+
+ for (int i = 0; i < num_loops; ++i)
+ test_impl(mat, input, w, h, stride, output, 32, 32, out_w, out_h, out_w,
+ sub_x, sub_y, bd, &conv_params, alpha, beta, gamma, delta);
+
+ aom_usec_timer_mark(&timer);
+ const int elapsed_time = static_cast<int>(aom_usec_timer_elapsed(&timer));
+ printf("highbd warp %3dx%-3d: %7.2f ns\n", out_w, out_h,
+ 1000.0 * elapsed_time / num_loops);
+
+ delete[] input_;
+ delete[] output;
+ delete[] dsta;
+}
+
+void AV1HighbdWarpFilterTest::RunCheckOutput(
+ highbd_warp_affine_func test_impl) {
+ const int w = 128, h = 128;
+ const int border = 16;
+ const int stride = w + 2 * border;
+ HighbdWarpTestParam param = GET_PARAM(0);
+ const int is_alpha_zero = GET_PARAM(1);
+ const int is_beta_zero = GET_PARAM(2);
+ const int is_gamma_zero = GET_PARAM(3);
+ const int is_delta_zero = GET_PARAM(4);
+ const int out_w = ::testing::get<0>(param), out_h = ::testing::get<1>(param);
+ const int bd = ::testing::get<3>(param);
+ const int num_iters = ::testing::get<2>(param);
+ const int mask = (1 << bd) - 1;
+ int i, j, sub_x, sub_y;
+
+ // The warp functions always write rows with widths that are multiples of 8.
+ // So to avoid a buffer overflow, we may need to pad rows to a multiple of 8.
+ int output_n = ((out_w + 7) & ~7) * out_h;
+ uint16_t *input_ = new uint16_t[h * stride];
+ uint16_t *input = input_ + border;
+ uint16_t *output = new uint16_t[output_n];
+ uint16_t *output2 = new uint16_t[output_n];
+ int32_t mat[8];
+ int16_t alpha, beta, gamma, delta;
+ ConvolveParams conv_params = get_conv_params(0, 0, bd);
+ CONV_BUF_TYPE *dsta = new CONV_BUF_TYPE[output_n];
+ CONV_BUF_TYPE *dstb = new CONV_BUF_TYPE[output_n];
+ for (int i = 0; i < output_n; ++i) output[i] = output2[i] = rnd_.Rand16();
+
+ for (i = 0; i < num_iters; ++i) {
+ // Generate an input block and extend its borders horizontally
+ for (int r = 0; r < h; ++r)
+ for (int c = 0; c < w; ++c) input[r * stride + c] = rnd_.Rand16() & mask;
+ for (int r = 0; r < h; ++r) {
+ for (int c = 0; c < border; ++c) {
+ input[r * stride - border + c] = input[r * stride];
+ input[r * stride + w + c] = input[r * stride + (w - 1)];
+ }
+ }
+ const int use_no_round = rnd_.Rand8() & 1;
+ for (sub_x = 0; sub_x < 2; ++sub_x)
+ for (sub_y = 0; sub_y < 2; ++sub_y) {
+ generate_warped_model(&rnd_, mat, &alpha, &beta, &gamma, &delta,
+ is_alpha_zero, is_beta_zero, is_gamma_zero,
+ is_delta_zero);
+ for (int ii = 0; ii < 2; ++ii) {
+ for (int jj = 0; jj < 5; ++jj) {
+ for (int do_average = 0; do_average <= 1; ++do_average) {
+ if (use_no_round) {
+ conv_params =
+ get_conv_params_no_round(do_average, 0, dsta, out_w, 1, bd);
+ } else {
+ conv_params = get_conv_params(0, 0, bd);
+ }
+ if (jj >= 4) {
+ conv_params.use_jnt_comp_avg = 0;
+ } else {
+ conv_params.use_jnt_comp_avg = 1;
+ conv_params.fwd_offset = quant_dist_lookup_table[ii][jj][0];
+ conv_params.bck_offset = quant_dist_lookup_table[ii][jj][1];
+ }
+
+ av1_highbd_warp_affine_c(mat, input, w, h, stride, output, 32, 32,
+ out_w, out_h, out_w, sub_x, sub_y, bd,
+ &conv_params, alpha, beta, gamma, delta);
+ if (use_no_round) {
+ // TODO(angiebird): Change this to test_impl once we have SIMD
+ // implementation
+ conv_params =
+ get_conv_params_no_round(do_average, 0, dstb, out_w, 1, bd);
+ }
+ if (jj >= 4) {
+ conv_params.use_jnt_comp_avg = 0;
+ } else {
+ conv_params.use_jnt_comp_avg = 1;
+ conv_params.fwd_offset = quant_dist_lookup_table[ii][jj][0];
+ conv_params.bck_offset = quant_dist_lookup_table[ii][jj][1];
+ }
+ test_impl(mat, input, w, h, stride, output2, 32, 32, out_w, out_h,
+ out_w, sub_x, sub_y, bd, &conv_params, alpha, beta,
+ gamma, delta);
+
+ if (use_no_round) {
+ for (j = 0; j < out_w * out_h; ++j)
+ ASSERT_EQ(dsta[j], dstb[j])
+ << "Pixel mismatch at index " << j << " = ("
+ << (j % out_w) << ", " << (j / out_w) << ") on iteration "
+ << i;
+ for (j = 0; j < out_w * out_h; ++j)
+ ASSERT_EQ(output[j], output2[j])
+ << "Pixel mismatch at index " << j << " = ("
+ << (j % out_w) << ", " << (j / out_w) << ") on iteration "
+ << i;
+ } else {
+ for (j = 0; j < out_w * out_h; ++j)
+ ASSERT_EQ(output[j], output2[j])
+ << "Pixel mismatch at index " << j << " = ("
+ << (j % out_w) << ", " << (j / out_w) << ") on iteration "
+ << i;
+ }
+ }
+ }
+ }
+ }
+ }
+
+ delete[] input_;
+ delete[] output;
+ delete[] output2;
+ delete[] dsta;
+ delete[] dstb;
+}
+} // namespace AV1HighbdWarpFilter
+} // namespace libaom_test
diff --git a/third_party/aom/test/warp_filter_test_util.h b/third_party/aom/test/warp_filter_test_util.h
new file mode 100644
index 0000000000..b8998e5c8e
--- /dev/null
+++ b/third_party/aom/test/warp_filter_test_util.h
@@ -0,0 +1,103 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#ifndef AOM_TEST_WARP_FILTER_TEST_UTIL_H_
+#define AOM_TEST_WARP_FILTER_TEST_UTIL_H_
+
+#include "config/av1_rtcd.h"
+#include "config/aom_dsp_rtcd.h"
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+#include "test/acm_random.h"
+#include "test/util.h"
+#include "test/clear_system_state.h"
+#include "test/register_state_check.h"
+
+#include "av1/common/mv.h"
+#include "av1/common/common_data.h"
+
+namespace libaom_test {
+
+void generate_warped_model(libaom_test::ACMRandom *rnd, int32_t *mat,
+ int16_t *alpha, int16_t *beta, int16_t *gamma,
+ int16_t *delta, int is_alpha_zero, int is_beta_zero,
+ int is_gamma_zero, int is_delta_zero);
+
+namespace AV1WarpFilter {
+
+typedef void (*warp_affine_func)(const int32_t *mat, const uint8_t *ref,
+ int width, int height, int stride,
+ uint8_t *pred, int p_col, int p_row,
+ int p_width, int p_height, int p_stride,
+ int subsampling_x, int subsampling_y,
+ ConvolveParams *conv_params, int16_t alpha,
+ int16_t beta, int16_t gamma, int16_t delta);
+
+typedef ::testing::tuple<int, int, int, warp_affine_func> WarpTestParam;
+typedef ::testing::tuple<WarpTestParam, int, int, int, int> WarpTestParams;
+
+::testing::internal::ParamGenerator<WarpTestParams> BuildParams(
+ warp_affine_func filter);
+
+class AV1WarpFilterTest : public ::testing::TestWithParam<WarpTestParams> {
+ public:
+ virtual ~AV1WarpFilterTest();
+ virtual void SetUp();
+
+ virtual void TearDown();
+
+ protected:
+ void RunCheckOutput(warp_affine_func test_impl);
+ void RunSpeedTest(warp_affine_func test_impl);
+
+ libaom_test::ACMRandom rnd_;
+};
+
+} // namespace AV1WarpFilter
+
+namespace AV1HighbdWarpFilter {
+typedef void (*highbd_warp_affine_func)(const int32_t *mat, const uint16_t *ref,
+ int width, int height, int stride,
+ uint16_t *pred, int p_col, int p_row,
+ int p_width, int p_height, int p_stride,
+ int subsampling_x, int subsampling_y,
+ int bd, ConvolveParams *conv_params,
+ int16_t alpha, int16_t beta,
+ int16_t gamma, int16_t delta);
+
+typedef ::testing::tuple<int, int, int, int, highbd_warp_affine_func>
+ HighbdWarpTestParam;
+typedef ::testing::tuple<HighbdWarpTestParam, int, int, int, int>
+ HighbdWarpTestParams;
+
+::testing::internal::ParamGenerator<HighbdWarpTestParams> BuildParams(
+ highbd_warp_affine_func filter);
+
+class AV1HighbdWarpFilterTest
+ : public ::testing::TestWithParam<HighbdWarpTestParams> {
+ public:
+ virtual ~AV1HighbdWarpFilterTest();
+ virtual void SetUp();
+
+ virtual void TearDown();
+
+ protected:
+ void RunCheckOutput(highbd_warp_affine_func test_impl);
+ void RunSpeedTest(highbd_warp_affine_func test_impl);
+
+ libaom_test::ACMRandom rnd_;
+};
+
+} // namespace AV1HighbdWarpFilter
+
+} // namespace libaom_test
+
+#endif // AOM_TEST_WARP_FILTER_TEST_UTIL_H_
diff --git a/third_party/aom/test/webm_video_source.h b/third_party/aom/test/webm_video_source.h
new file mode 100644
index 0000000000..bb3d117355
--- /dev/null
+++ b/third_party/aom/test/webm_video_source.h
@@ -0,0 +1,96 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+#ifndef AOM_TEST_WEBM_VIDEO_SOURCE_H_
+#define AOM_TEST_WEBM_VIDEO_SOURCE_H_
+#include <cstdarg>
+#include <cstdio>
+#include <cstdlib>
+#include <new>
+#include <string>
+#include "common/tools_common.h"
+#include "common/webmdec.h"
+#include "test/video_source.h"
+
+namespace libaom_test {
+
+// This class extends VideoSource to allow parsing of WebM files,
+// so that we can do actual file decodes.
+class WebMVideoSource : public CompressedVideoSource {
+ public:
+ explicit WebMVideoSource(const std::string &file_name)
+ : file_name_(file_name), aom_ctx_(new AvxInputContext()),
+ webm_ctx_(new WebmInputContext()), buf_(NULL), buf_sz_(0), frame_sz_(0),
+ frame_number_(0), end_of_file_(false) {}
+
+ virtual ~WebMVideoSource() {
+ if (aom_ctx_->file != NULL) fclose(aom_ctx_->file);
+ webm_free(webm_ctx_);
+ delete aom_ctx_;
+ delete webm_ctx_;
+ }
+
+ virtual void Init() {}
+
+ virtual void Begin() {
+ aom_ctx_->file = OpenTestDataFile(file_name_);
+ ASSERT_TRUE(aom_ctx_->file != NULL)
+ << "Input file open failed. Filename: " << file_name_;
+
+ ASSERT_EQ(file_is_webm(webm_ctx_, aom_ctx_), 1) << "file is not WebM";
+
+ FillFrame();
+ }
+
+ virtual void Next() {
+ ++frame_number_;
+ FillFrame();
+ }
+
+ void FillFrame() {
+ ASSERT_TRUE(aom_ctx_->file != NULL);
+ const int status = webm_read_frame(webm_ctx_, &buf_, &frame_sz_, &buf_sz_);
+ ASSERT_GE(status, 0) << "webm_read_frame failed";
+ if (status == 1) {
+ end_of_file_ = true;
+ }
+ }
+
+ void SeekToNextKeyFrame() {
+ ASSERT_TRUE(aom_ctx_->file != NULL);
+ do {
+ const int status =
+ webm_read_frame(webm_ctx_, &buf_, &frame_sz_, &buf_sz_);
+ ASSERT_GE(status, 0) << "webm_read_frame failed";
+ ++frame_number_;
+ if (status == 1) {
+ end_of_file_ = true;
+ }
+ } while (!webm_ctx_->is_key_frame && !end_of_file_);
+ }
+
+ virtual const uint8_t *cxdata() const { return end_of_file_ ? NULL : buf_; }
+ virtual size_t frame_size() const { return frame_sz_; }
+ virtual unsigned int frame_number() const { return frame_number_; }
+
+ protected:
+ std::string file_name_;
+ AvxInputContext *aom_ctx_;
+ WebmInputContext *webm_ctx_;
+ uint8_t *buf_; // Owned by webm_ctx_ and freed when webm_ctx_ is freed.
+ size_t buf_sz_;
+ size_t frame_sz_;
+ unsigned int frame_number_;
+ bool end_of_file_;
+};
+
+} // namespace libaom_test
+
+#endif // AOM_TEST_WEBM_VIDEO_SOURCE_H_
diff --git a/third_party/aom/test/wiener_test.cc b/third_party/aom/test/wiener_test.cc
new file mode 100644
index 0000000000..dfec09119d
--- /dev/null
+++ b/third_party/aom/test/wiener_test.cc
@@ -0,0 +1,280 @@
+/*
+ * Copyright (c) 2018, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <vector>
+
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+#include "test/function_equivalence_test.h"
+#include "test/register_state_check.h"
+
+#include "config/aom_config.h"
+#include "config/aom_dsp_rtcd.h"
+
+#include "aom/aom_integer.h"
+#include "av1/encoder/pickrst.h"
+
+#define MAX_WIENER_BLOCK 384
+#define MAX_DATA_BLOCK (MAX_WIENER_BLOCK + WIENER_WIN)
+using libaom_test::FunctionEquivalenceTest;
+
+namespace {
+
+static void compute_stats_win_opt_c(int wiener_win, const uint8_t *dgd,
+ const uint8_t *src, int h_start, int h_end,
+ int v_start, int v_end, int dgd_stride,
+ int src_stride, double *M, double *H) {
+ ASSERT_TRUE(wiener_win == WIENER_WIN || wiener_win == WIENER_WIN_CHROMA);
+ int i, j, k, l, m, n;
+ const int pixel_count = (h_end - h_start) * (v_end - v_start);
+ const int wiener_win2 = wiener_win * wiener_win;
+ const int wiener_halfwin = (wiener_win >> 1);
+ const double avg =
+ find_average(dgd, h_start, h_end, v_start, v_end, dgd_stride);
+
+ std::vector<std::vector<int64_t> > M_int(wiener_win,
+ std::vector<int64_t>(wiener_win, 0));
+ std::vector<std::vector<int64_t> > H_int(
+ wiener_win * wiener_win, std::vector<int64_t>(wiener_win * 8, 0));
+ std::vector<std::vector<int32_t> > sumY(wiener_win,
+ std::vector<int32_t>(wiener_win, 0));
+ int32_t sumX = 0;
+ const uint8_t *dgd_win = dgd - wiener_halfwin * dgd_stride - wiener_halfwin;
+
+ for (i = v_start; i < v_end; i++) {
+ for (j = h_start; j < h_end; j += 2) {
+ const uint8_t X1 = src[i * src_stride + j];
+ const uint8_t X2 = src[i * src_stride + j + 1];
+ sumX += X1 + X2;
+
+ const uint8_t *dgd_ij = dgd_win + i * dgd_stride + j;
+ for (k = 0; k < wiener_win; k++) {
+ for (l = 0; l < wiener_win; l++) {
+ const uint8_t *dgd_ijkl = dgd_ij + k * dgd_stride + l;
+ int64_t *H_int_temp = &H_int[(l * wiener_win + k)][0];
+ const uint8_t D1 = dgd_ijkl[0];
+ const uint8_t D2 = dgd_ijkl[1];
+ sumY[k][l] += D1 + D2;
+ M_int[l][k] += D1 * X1 + D2 * X2;
+ for (m = 0; m < wiener_win; m++) {
+ for (n = 0; n < wiener_win; n++) {
+ H_int_temp[m * 8 + n] += D1 * dgd_ij[n + dgd_stride * m] +
+ D2 * dgd_ij[n + dgd_stride * m + 1];
+ }
+ }
+ }
+ }
+ }
+ }
+
+ const double avg_square_sum = avg * avg * pixel_count;
+ for (k = 0; k < wiener_win; k++) {
+ for (l = 0; l < wiener_win; l++) {
+ M[l * wiener_win + k] =
+ M_int[l][k] + avg_square_sum - avg * (sumX + sumY[k][l]);
+ for (m = 0; m < wiener_win; m++) {
+ for (n = 0; n < wiener_win; n++) {
+ H[(l * wiener_win + k) * wiener_win2 + m * wiener_win + n] =
+ H_int[(l * wiener_win + k)][n * 8 + m] + avg_square_sum -
+ avg * (sumY[k][l] + sumY[n][m]);
+ }
+ }
+ }
+ }
+}
+
+void compute_stats_opt_c(int wiener_win, const uint8_t *dgd, const uint8_t *src,
+ int h_start, int h_end, int v_start, int v_end,
+ int dgd_stride, int src_stride, double *M, double *H) {
+ if (wiener_win == WIENER_WIN || wiener_win == WIENER_WIN_CHROMA) {
+ compute_stats_win_opt_c(wiener_win, dgd, src, h_start, h_end, v_start,
+ v_end, dgd_stride, src_stride, M, H);
+ } else {
+ av1_compute_stats_c(wiener_win, dgd, src, h_start, h_end, v_start, v_end,
+ dgd_stride, src_stride, M, H);
+ }
+}
+
+static const int kIterations = 100;
+static const double min_error = (double)(0.01);
+typedef void (*compute_stats_Func)(int wiener_win, const uint8_t *dgd,
+ const uint8_t *src, int h_start, int h_end,
+ int v_start, int v_end, int dgd_stride,
+ int src_stride, double *M, double *H);
+
+typedef libaom_test::FuncParam<compute_stats_Func> TestFuncs;
+
+////////////////////////////////////////////////////////////////////////////////
+// 8 bit
+////////////////////////////////////////////////////////////////////////////////
+
+typedef ::testing::tuple<const compute_stats_Func> WienerTestParam;
+
+class WienerTest : public ::testing::TestWithParam<WienerTestParam> {
+ public:
+ virtual void SetUp() { target_func_ = GET_PARAM(0); }
+ void runWienerTest(const int32_t wiener_win, int32_t run_times);
+ void runWienerTest_ExtremeValues(const int32_t wiener_win);
+
+ private:
+ compute_stats_Func target_func_;
+ ACMRandom rng_;
+};
+
+void WienerTest::runWienerTest(const int32_t wiener_win, int32_t run_times) {
+ const int32_t wiener_halfwin = wiener_win >> 1;
+ const int32_t wiener_win2 = wiener_win * wiener_win;
+ DECLARE_ALIGNED(32, uint8_t, dgd_buf[MAX_DATA_BLOCK * MAX_DATA_BLOCK]);
+ DECLARE_ALIGNED(32, uint8_t, src_buf[MAX_DATA_BLOCK * MAX_DATA_BLOCK]);
+ DECLARE_ALIGNED(32, double, M_ref[WIENER_WIN2]);
+ DECLARE_ALIGNED(32, double, H_ref[WIENER_WIN2 * WIENER_WIN2]);
+ DECLARE_ALIGNED(32, double, M_test[WIENER_WIN2]);
+ DECLARE_ALIGNED(32, double, H_test[WIENER_WIN2 * WIENER_WIN2]);
+ const int h_start = ((rng_.Rand16() % (MAX_WIENER_BLOCK / 2)) & (~7));
+ int h_end =
+ run_times != 1 ? 256 : ((rng_.Rand16() % MAX_WIENER_BLOCK) & (~7)) + 8;
+ const int v_start = ((rng_.Rand16() % (MAX_WIENER_BLOCK / 2)) & (~7));
+ int v_end =
+ run_times != 1 ? 256 : ((rng_.Rand16() % MAX_WIENER_BLOCK) & (~7)) + 8;
+ const int dgd_stride = h_end;
+ const int src_stride = MAX_DATA_BLOCK;
+ const int iters = run_times == 1 ? kIterations : 2;
+ for (int iter = 0; iter < iters && !HasFatalFailure(); ++iter) {
+ for (int i = 0; i < MAX_DATA_BLOCK * MAX_DATA_BLOCK; ++i) {
+ dgd_buf[i] = rng_.Rand8();
+ src_buf[i] = rng_.Rand8();
+ }
+ uint8_t *dgd = dgd_buf + wiener_halfwin * MAX_DATA_BLOCK + wiener_halfwin;
+ uint8_t *src = src_buf;
+
+ aom_usec_timer timer;
+ aom_usec_timer_start(&timer);
+ for (int i = 0; i < run_times; ++i) {
+ av1_compute_stats_c(wiener_win, dgd, src, h_start, h_end, v_start, v_end,
+ dgd_stride, src_stride, M_ref, H_ref);
+ }
+ aom_usec_timer_mark(&timer);
+ const double time1 = static_cast<double>(aom_usec_timer_elapsed(&timer));
+ aom_usec_timer_start(&timer);
+ for (int i = 0; i < run_times; ++i) {
+ target_func_(wiener_win, dgd, src, h_start, h_end, v_start, v_end,
+ dgd_stride, src_stride, M_test, H_test);
+ }
+ aom_usec_timer_mark(&timer);
+ const double time2 = static_cast<double>(aom_usec_timer_elapsed(&timer));
+ if (run_times > 10) {
+ printf("win %d %3dx%-3d:%7.2f/%7.2fns", wiener_win, h_end, v_end, time1,
+ time2);
+ printf("(%3.2f)\n", time1 / time2);
+ }
+ int failed = 0;
+ for (int i = 0; i < wiener_win2; ++i) {
+ if (fabs(M_ref[i] - M_test[i]) > min_error) {
+ failed = 1;
+ printf("win %d M iter %d [%4d] ref %6.0f test %6.0f \n", wiener_win,
+ iter, i, M_ref[i], M_test[i]);
+ break;
+ }
+ }
+ // ASSERT_EQ(failed, 0);
+ for (int i = 0; i < wiener_win2 * wiener_win2; ++i) {
+ if (fabs(H_ref[i] - H_test[i]) > min_error) {
+ failed = 1;
+ printf("win %d H iter %d [%4d] ref %6.0f test %6.0f \n", wiener_win,
+ iter, i, H_ref[i], H_test[i]);
+ break;
+ }
+ }
+ ASSERT_EQ(failed, 0);
+ }
+}
+
+void WienerTest::runWienerTest_ExtremeValues(const int32_t wiener_win) {
+ const int32_t wiener_halfwin = wiener_win >> 1;
+ const int32_t wiener_win2 = wiener_win * wiener_win;
+ DECLARE_ALIGNED(32, uint8_t, dgd_buf[MAX_DATA_BLOCK * MAX_DATA_BLOCK]);
+ DECLARE_ALIGNED(32, uint8_t, src_buf[MAX_DATA_BLOCK * MAX_DATA_BLOCK]);
+ DECLARE_ALIGNED(32, double, M_ref[WIENER_WIN2]);
+ DECLARE_ALIGNED(32, double, H_ref[WIENER_WIN2 * WIENER_WIN2]);
+ DECLARE_ALIGNED(32, double, M_test[WIENER_WIN2]);
+ DECLARE_ALIGNED(32, double, H_test[WIENER_WIN2 * WIENER_WIN2]);
+ const int h_start = 16;
+ const int h_end = MAX_WIENER_BLOCK;
+ const int v_start = 16;
+ const int v_end = MAX_WIENER_BLOCK;
+ const int dgd_stride = h_end;
+ const int src_stride = MAX_DATA_BLOCK;
+ const int iters = 1;
+ for (int iter = 0; iter < iters && !HasFatalFailure(); ++iter) {
+ for (int i = 0; i < MAX_DATA_BLOCK * MAX_DATA_BLOCK; ++i) {
+ dgd_buf[i] = 255;
+ src_buf[i] = 255;
+ }
+ uint8_t *dgd = dgd_buf + wiener_halfwin * MAX_DATA_BLOCK + wiener_halfwin;
+ uint8_t *src = src_buf;
+
+ av1_compute_stats_c(wiener_win, dgd, src, h_start, h_end, v_start, v_end,
+ dgd_stride, src_stride, M_ref, H_ref);
+
+ target_func_(wiener_win, dgd, src, h_start, h_end, v_start, v_end,
+ dgd_stride, src_stride, M_test, H_test);
+
+ int failed = 0;
+ for (int i = 0; i < wiener_win2; ++i) {
+ if (fabs(M_ref[i] - M_test[i]) > min_error) {
+ failed = 1;
+ printf("win %d M iter %d [%4d] ref %6.0f test %6.0f \n", wiener_win,
+ iter, i, M_ref[i], M_test[i]);
+ break;
+ }
+ }
+ // ASSERT_EQ(failed, 0);
+ for (int i = 0; i < wiener_win2 * wiener_win2; ++i) {
+ if (fabs(H_ref[i] - H_test[i]) > min_error) {
+ failed = 1;
+ printf("win %d H iter %d [%4d] ref %6.0f test %6.0f \n", wiener_win,
+ iter, i, H_ref[i], H_test[i]);
+ break;
+ }
+ }
+ ASSERT_EQ(failed, 0);
+ }
+}
+
+TEST_P(WienerTest, RandomValues) {
+ runWienerTest(WIENER_WIN, 1);
+ runWienerTest(WIENER_WIN_CHROMA, 1);
+}
+
+TEST_P(WienerTest, ExtremeValues) {
+ runWienerTest_ExtremeValues(WIENER_WIN);
+ runWienerTest_ExtremeValues(WIENER_WIN_CHROMA);
+}
+
+TEST_P(WienerTest, DISABLED_Speed) {
+ runWienerTest(WIENER_WIN, 200);
+ runWienerTest(WIENER_WIN_CHROMA, 200);
+}
+
+INSTANTIATE_TEST_CASE_P(C, WienerTest, ::testing::Values(compute_stats_opt_c));
+
+#if HAVE_SSE4_1
+INSTANTIATE_TEST_CASE_P(SSE4_1, WienerTest,
+ ::testing::Values(av1_compute_stats_sse4_1));
+#endif // HAVE_SSE4_1
+
+#if HAVE_AVX2
+
+INSTANTIATE_TEST_CASE_P(AVX2, WienerTest,
+ ::testing::Values(av1_compute_stats_avx2));
+#endif // HAVE_AVX2
+
+} // namespace
diff --git a/third_party/aom/test/y4m_test.cc b/third_party/aom/test/y4m_test.cc
new file mode 100644
index 0000000000..6cc75ef5b0
--- /dev/null
+++ b/third_party/aom/test/y4m_test.cc
@@ -0,0 +1,180 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+
+#include <string>
+
+#include "config/aom_config.h"
+
+#include "common/y4menc.h"
+#include "test/md5_helper.h"
+#include "test/util.h"
+#include "test/y4m_video_source.h"
+#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
+
+namespace {
+
+using std::string;
+
+static const unsigned int kWidth = 160;
+static const unsigned int kHeight = 90;
+static const unsigned int kFrames = 10;
+
+struct Y4mTestParam {
+ const char *filename;
+ unsigned int bit_depth;
+ aom_img_fmt format;
+ const char *md5raw;
+};
+
+const Y4mTestParam kY4mTestVectors[] = {
+ { "park_joy_90p_8_420.y4m", 8, AOM_IMG_FMT_I420,
+ "e5406275b9fc6bb3436c31d4a05c1cab" },
+ { "park_joy_90p_8_420_monochrome.y4m", 8, AOM_IMG_FMT_I420,
+ "95ef5bf6218580588be24a5271bb6a7f" },
+ { "park_joy_90p_8_420_vertical_csp.y4m", 8, AOM_IMG_FMT_I420,
+ "f53a40fec15254ac312527339d9c686b" },
+ { "park_joy_90p_8_422.y4m", 8, AOM_IMG_FMT_I422,
+ "284a47a47133b12884ec3a14e959a0b6" },
+ { "park_joy_90p_8_444.y4m", 8, AOM_IMG_FMT_I444,
+ "90517ff33843d85de712fd4fe60dbed0" },
+ { "park_joy_90p_10_420.y4m", 10, AOM_IMG_FMT_I42016,
+ "63f21f9f717d8b8631bd2288ee87137b" },
+ { "park_joy_90p_10_422.y4m", 10, AOM_IMG_FMT_I42216,
+ "48ab51fb540aed07f7ff5af130c9b605" },
+ { "park_joy_90p_10_444.y4m", 10, AOM_IMG_FMT_I44416,
+ "067bfd75aa85ff9bae91fa3e0edd1e3e" },
+ { "park_joy_90p_12_420.y4m", 12, AOM_IMG_FMT_I42016,
+ "9e6d8f6508c6e55625f6b697bc461cef" },
+ { "park_joy_90p_12_422.y4m", 12, AOM_IMG_FMT_I42216,
+ "b239c6b301c0b835485be349ca83a7e3" },
+ { "park_joy_90p_12_444.y4m", 12, AOM_IMG_FMT_I44416,
+ "5a6481a550821dab6d0192f5c63845e9" },
+};
+
+static const int PLANES_YUV[] = { AOM_PLANE_Y, AOM_PLANE_U, AOM_PLANE_V };
+
+class Y4mVideoSourceTest : public ::testing::TestWithParam<Y4mTestParam>,
+ public ::libaom_test::Y4mVideoSource {
+ protected:
+ Y4mVideoSourceTest() : Y4mVideoSource("", 0, 0) {}
+
+ virtual ~Y4mVideoSourceTest() { CloseSource(); }
+
+ virtual void Init(const std::string &file_name, int limit) {
+ file_name_ = file_name;
+ start_ = 0;
+ limit_ = limit;
+ frame_ = 0;
+ Begin();
+ }
+
+ // Checks y4m header information
+ void HeaderChecks(unsigned int bit_depth, aom_img_fmt_t fmt) {
+ ASSERT_TRUE(input_file_ != NULL);
+ ASSERT_EQ(y4m_.pic_w, (int)kWidth);
+ ASSERT_EQ(y4m_.pic_h, (int)kHeight);
+ ASSERT_EQ(img()->d_w, kWidth);
+ ASSERT_EQ(img()->d_h, kHeight);
+ ASSERT_EQ(y4m_.bit_depth, bit_depth);
+ ASSERT_EQ(y4m_.aom_fmt, fmt);
+ if (fmt == AOM_IMG_FMT_I420 || fmt == AOM_IMG_FMT_I42016) {
+ ASSERT_EQ(y4m_.bps, (int)y4m_.bit_depth * 3 / 2);
+ ASSERT_EQ(img()->x_chroma_shift, 1U);
+ ASSERT_EQ(img()->y_chroma_shift, 1U);
+ }
+ if (fmt == AOM_IMG_FMT_I422 || fmt == AOM_IMG_FMT_I42216) {
+ ASSERT_EQ(y4m_.bps, (int)y4m_.bit_depth * 2);
+ ASSERT_EQ(img()->x_chroma_shift, 1U);
+ ASSERT_EQ(img()->y_chroma_shift, 0U);
+ }
+ if (fmt == AOM_IMG_FMT_I444 || fmt == AOM_IMG_FMT_I44416) {
+ ASSERT_EQ(y4m_.bps, (int)y4m_.bit_depth * 3);
+ ASSERT_EQ(img()->x_chroma_shift, 0U);
+ ASSERT_EQ(img()->y_chroma_shift, 0U);
+ }
+ }
+
+ // Checks MD5 of the raw frame data
+ void Md5Check(const string &expected_md5) {
+ ASSERT_TRUE(input_file_ != NULL);
+ libaom_test::MD5 md5;
+ for (unsigned int i = start_; i < limit_; i++) {
+ md5.Add(img());
+ Next();
+ }
+ ASSERT_EQ(string(md5.Get()), expected_md5);
+ }
+};
+
+TEST_P(Y4mVideoSourceTest, SourceTest) {
+ const Y4mTestParam t = GetParam();
+ Init(t.filename, kFrames);
+ HeaderChecks(t.bit_depth, t.format);
+ Md5Check(t.md5raw);
+}
+
+INSTANTIATE_TEST_CASE_P(C, Y4mVideoSourceTest,
+ ::testing::ValuesIn(kY4mTestVectors));
+
+class Y4mVideoWriteTest : public Y4mVideoSourceTest {
+ protected:
+ Y4mVideoWriteTest() : tmpfile_(NULL) {}
+
+ virtual ~Y4mVideoWriteTest() {
+ delete tmpfile_;
+ input_file_ = NULL;
+ }
+
+ void ReplaceInputFile(FILE *input_file) {
+ CloseSource();
+ frame_ = 0;
+ input_file_ = input_file;
+ rewind(input_file_);
+ ReadSourceToStart();
+ }
+
+ // Writes out a y4m file and then reads it back
+ void WriteY4mAndReadBack() {
+ ASSERT_TRUE(input_file_ != NULL);
+ char buf[Y4M_BUFFER_SIZE] = { 0 };
+ const struct AvxRational framerate = { y4m_.fps_n, y4m_.fps_d };
+ tmpfile_ = new libaom_test::TempOutFile;
+ ASSERT_TRUE(tmpfile_->file() != NULL);
+ y4m_write_file_header(buf, sizeof(buf), kWidth, kHeight, &framerate,
+ img()->monochrome, img()->csp, y4m_.aom_fmt,
+ y4m_.bit_depth);
+ fputs(buf, tmpfile_->file());
+ for (unsigned int i = start_; i < limit_; i++) {
+ y4m_write_frame_header(buf, sizeof(buf));
+ fputs(buf, tmpfile_->file());
+ y4m_write_image_file(img(), PLANES_YUV, tmpfile_->file());
+ Next();
+ }
+ ReplaceInputFile(tmpfile_->file());
+ }
+
+ virtual void Init(const std::string &file_name, int limit) {
+ Y4mVideoSourceTest::Init(file_name, limit);
+ WriteY4mAndReadBack();
+ }
+ libaom_test::TempOutFile *tmpfile_;
+};
+
+TEST_P(Y4mVideoWriteTest, WriteTest) {
+ const Y4mTestParam t = GetParam();
+ Init(t.filename, kFrames);
+ HeaderChecks(t.bit_depth, t.format);
+ Md5Check(t.md5raw);
+}
+
+INSTANTIATE_TEST_CASE_P(C, Y4mVideoWriteTest,
+ ::testing::ValuesIn(kY4mTestVectors));
+} // namespace
diff --git a/third_party/aom/test/y4m_video_source.h b/third_party/aom/test/y4m_video_source.h
new file mode 100644
index 0000000000..3dea901e6d
--- /dev/null
+++ b/third_party/aom/test/y4m_video_source.h
@@ -0,0 +1,123 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+#ifndef AOM_TEST_Y4M_VIDEO_SOURCE_H_
+#define AOM_TEST_Y4M_VIDEO_SOURCE_H_
+#include <algorithm>
+#include <string>
+
+#include "common/y4minput.h"
+#include "test/video_source.h"
+
+namespace libaom_test {
+
+// This class extends VideoSource to allow parsing of raw yv12
+// so that we can do actual file encodes.
+class Y4mVideoSource : public VideoSource {
+ public:
+ Y4mVideoSource(const std::string &file_name, unsigned int start, int limit)
+ : file_name_(file_name), input_file_(NULL), img_(new aom_image_t()),
+ start_(start), limit_(limit), frame_(0), framerate_numerator_(0),
+ framerate_denominator_(0), y4m_() {}
+
+ virtual ~Y4mVideoSource() {
+ aom_img_free(img_.get());
+ CloseSource();
+ }
+
+ virtual void OpenSource() {
+ CloseSource();
+ input_file_ = OpenTestDataFile(file_name_);
+ ASSERT_TRUE(input_file_ != NULL)
+ << "Input file open failed. Filename: " << file_name_;
+ }
+
+ virtual void ReadSourceToStart() {
+ ASSERT_TRUE(input_file_ != NULL);
+ ASSERT_FALSE(y4m_input_open(&y4m_, input_file_, NULL, 0, 0));
+ framerate_numerator_ = y4m_.fps_n;
+ framerate_denominator_ = y4m_.fps_d;
+ frame_ = 0;
+ for (unsigned int i = 0; i < start_; i++) {
+ Next();
+ }
+ FillFrame();
+ }
+
+ virtual void Begin() {
+ OpenSource();
+ ReadSourceToStart();
+ }
+
+ virtual void Next() {
+ ++frame_;
+ FillFrame();
+ }
+
+ virtual aom_image_t *img() const {
+ return (frame_ < limit_) ? img_.get() : NULL;
+ }
+
+ // Models a stream where Timebase = 1/FPS, so pts == frame.
+ virtual aom_codec_pts_t pts() const { return frame_; }
+
+ virtual unsigned long duration() const { return 1; }
+
+ virtual aom_rational_t timebase() const {
+ const aom_rational_t t = { framerate_denominator_, framerate_numerator_ };
+ return t;
+ }
+
+ virtual unsigned int frame() const { return frame_; }
+
+ virtual unsigned int limit() const { return limit_; }
+
+ virtual void FillFrame() {
+ ASSERT_TRUE(input_file_ != NULL);
+ // Read a frame from input_file.
+ y4m_input_fetch_frame(&y4m_, input_file_, img_.get());
+ }
+
+ // Swap buffers with another y4m source. This allows reading a new frame
+ // while keeping the old frame around. A whole Y4mSource is required and
+ // not just a aom_image_t because of how the y4m reader manipulates
+ // aom_image_t internals,
+ void SwapBuffers(Y4mVideoSource *other) {
+ std::swap(other->y4m_.dst_buf, y4m_.dst_buf);
+ aom_image_t *tmp;
+ tmp = other->img_.release();
+ other->img_.reset(img_.release());
+ img_.reset(tmp);
+ }
+
+ protected:
+ void CloseSource() {
+ y4m_input_close(&y4m_);
+ y4m_ = y4m_input();
+ if (input_file_ != NULL) {
+ fclose(input_file_);
+ input_file_ = NULL;
+ }
+ }
+
+ std::string file_name_;
+ FILE *input_file_;
+ testing::internal::scoped_ptr<aom_image_t> img_;
+ unsigned int start_;
+ unsigned int limit_;
+ unsigned int frame_;
+ int framerate_numerator_;
+ int framerate_denominator_;
+ y4m_input y4m_;
+};
+
+} // namespace libaom_test
+
+#endif // AOM_TEST_Y4M_VIDEO_SOURCE_H_
diff --git a/third_party/aom/test/yuv_video_source.h b/third_party/aom/test/yuv_video_source.h
new file mode 100644
index 0000000000..774ecc0086
--- /dev/null
+++ b/third_party/aom/test/yuv_video_source.h
@@ -0,0 +1,123 @@
+/*
+ * Copyright (c) 2016, Alliance for Open Media. All rights reserved
+ *
+ * This source code is subject to the terms of the BSD 2 Clause License and
+ * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
+ * was not distributed with this source code in the LICENSE file, you can
+ * obtain it at www.aomedia.org/license/software. If the Alliance for Open
+ * Media Patent License 1.0 was not distributed with this source code in the
+ * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
+ */
+#ifndef AOM_TEST_YUV_VIDEO_SOURCE_H_
+#define AOM_TEST_YUV_VIDEO_SOURCE_H_
+
+#include <cstdio>
+#include <cstdlib>
+#include <string>
+
+#include "test/video_source.h"
+#include "aom/aom_image.h"
+
+namespace libaom_test {
+
+// This class extends VideoSource to allow parsing of raw YUV
+// formats of various color sampling and bit-depths so that we can
+// do actual file encodes.
+class YUVVideoSource : public VideoSource {
+ public:
+ YUVVideoSource(const std::string &file_name, aom_img_fmt format,
+ unsigned int width, unsigned int height, int rate_numerator,
+ int rate_denominator, unsigned int start, int limit)
+ : file_name_(file_name), input_file_(NULL), img_(NULL), start_(start),
+ limit_(limit), frame_(0), width_(0), height_(0),
+ format_(AOM_IMG_FMT_NONE), framerate_numerator_(rate_numerator),
+ framerate_denominator_(rate_denominator) {
+ // This initializes format_, raw_size_, width_, height_ and allocates img.
+ SetSize(width, height, format);
+ }
+
+ virtual ~YUVVideoSource() {
+ aom_img_free(img_);
+ if (input_file_) fclose(input_file_);
+ }
+
+ virtual void Begin() {
+ if (input_file_) fclose(input_file_);
+ input_file_ = OpenTestDataFile(file_name_);
+ ASSERT_TRUE(input_file_ != NULL)
+ << "Input file open failed. Filename: " << file_name_;
+ if (start_)
+ fseek(input_file_, static_cast<unsigned>(raw_size_) * start_, SEEK_SET);
+
+ frame_ = start_;
+ FillFrame();
+ }
+
+ virtual void Next() {
+ ++frame_;
+ FillFrame();
+ }
+
+ virtual aom_image_t *img() const { return (frame_ < limit_) ? img_ : NULL; }
+
+ // Models a stream where Timebase = 1/FPS, so pts == frame.
+ virtual aom_codec_pts_t pts() const { return frame_; }
+
+ virtual unsigned long duration() const { return 1; }
+
+ virtual aom_rational_t timebase() const {
+ const aom_rational_t t = { framerate_denominator_, framerate_numerator_ };
+ return t;
+ }
+
+ virtual unsigned int frame() const { return frame_; }
+
+ virtual unsigned int limit() const { return limit_; }
+
+ virtual void SetSize(unsigned int width, unsigned int height,
+ aom_img_fmt format) {
+ if (width != width_ || height != height_ || format != format_) {
+ aom_img_free(img_);
+ img_ = aom_img_alloc(NULL, format, width, height, 1);
+ ASSERT_TRUE(img_ != NULL);
+ width_ = width;
+ height_ = height;
+ format_ = format;
+ switch (format) {
+ case AOM_IMG_FMT_I420: raw_size_ = width * height * 3 / 2; break;
+ case AOM_IMG_FMT_I422: raw_size_ = width * height * 2; break;
+ case AOM_IMG_FMT_I444: raw_size_ = width * height * 3; break;
+ case AOM_IMG_FMT_I42016: raw_size_ = width * height * 3; break;
+ case AOM_IMG_FMT_I42216: raw_size_ = width * height * 4; break;
+ case AOM_IMG_FMT_I44416: raw_size_ = width * height * 6; break;
+ default: ASSERT_TRUE(0);
+ }
+ }
+ }
+
+ virtual void FillFrame() {
+ ASSERT_TRUE(input_file_ != NULL);
+ // Read a frame from input_file.
+ if (fread(img_->img_data, raw_size_, 1, input_file_) == 0) {
+ limit_ = frame_;
+ }
+ }
+
+ protected:
+ std::string file_name_;
+ FILE *input_file_;
+ aom_image_t *img_;
+ size_t raw_size_;
+ unsigned int start_;
+ unsigned int limit_;
+ unsigned int frame_;
+ unsigned int width_;
+ unsigned int height_;
+ aom_img_fmt format_;
+ int framerate_numerator_;
+ int framerate_denominator_;
+};
+
+} // namespace libaom_test
+
+#endif // AOM_TEST_YUV_VIDEO_SOURCE_H_