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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/simd_cmp_impl.h
parentInitial commit. (diff)
downloadfirefox-esr-36d22d82aa202bb199967e9512281e9a53db42c9.tar.xz
firefox-esr-36d22d82aa202bb199967e9512281e9a53db42c9.zip
Adding upstream version 115.7.0esr.upstream/115.7.0esr
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'third_party/aom/test/simd_cmp_impl.h')
-rw-r--r--third_party/aom/test/simd_cmp_impl.h2171
1 files changed, 2171 insertions, 0 deletions
diff --git a/third_party/aom/test/simd_cmp_impl.h b/third_party/aom/test/simd_cmp_impl.h
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+++ 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