// Copyright (c) the JPEG XL 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. #include #include "lib/jpegli/decode.h" #include "lib/jpegli/encode.h" #include "lib/jpegli/test_utils.h" #include "lib/jpegli/testing.h" #include "lib/jxl/base/status.h" namespace jpegli { namespace { void TranscodeWithJpegli(const std::vector& jpeg_input, const CompressParams& jparams, std::vector* jpeg_output) { jpeg_decompress_struct dinfo = {}; jpeg_compress_struct cinfo = {}; uint8_t* transcoded_data = nullptr; unsigned long transcoded_size; const auto try_catch_block = [&]() -> bool { ERROR_HANDLER_SETUP(jpegli); dinfo.err = cinfo.err; dinfo.client_data = cinfo.client_data; jpegli_create_decompress(&dinfo); jpegli_mem_src(&dinfo, jpeg_input.data(), jpeg_input.size()); EXPECT_EQ(JPEG_REACHED_SOS, jpegli_read_header(&dinfo, /*require_image=*/TRUE)); jvirt_barray_ptr* coef_arrays = jpegli_read_coefficients(&dinfo); JXL_CHECK(coef_arrays != nullptr); jpegli_create_compress(&cinfo); jpegli_mem_dest(&cinfo, &transcoded_data, &transcoded_size); jpegli_copy_critical_parameters(&dinfo, &cinfo); jpegli_set_progressive_level(&cinfo, jparams.progressive_mode); cinfo.optimize_coding = jparams.optimize_coding; jpegli_write_coefficients(&cinfo, coef_arrays); jpegli_finish_compress(&cinfo); jpegli_finish_decompress(&dinfo); return true; }; ASSERT_TRUE(try_catch_block()); jpegli_destroy_decompress(&dinfo); jpegli_destroy_compress(&cinfo); if (transcoded_data) { jpeg_output->assign(transcoded_data, transcoded_data + transcoded_size); free(transcoded_data); } } struct TestConfig { TestImage input; CompressParams jparams; }; class TranscodeAPITestParam : public ::testing::TestWithParam {}; TEST_P(TranscodeAPITestParam, TestAPI) { TestConfig config = GetParam(); CompressParams& jparams = config.jparams; GeneratePixels(&config.input); // Start with sequential non-optimized jpeg. jparams.progressive_mode = 0; jparams.optimize_coding = 0; std::vector compressed; ASSERT_TRUE(EncodeWithJpegli(config.input, jparams, &compressed)); TestImage output0; DecodeWithLibjpeg(jparams, DecompressParams(), compressed, &output0); // Transcode first to a sequential optimized jpeg, and then further to // a progressive jpeg. for (int progr : {0, 2}) { std::vector transcoded; jparams.progressive_mode = progr; jparams.optimize_coding = 1; TranscodeWithJpegli(compressed, jparams, &transcoded); // We expect a size reduction of at least 2%. EXPECT_LT(transcoded.size(), compressed.size() * 0.98f); // Verify that transcoding is lossless. TestImage output1; DecodeWithLibjpeg(jparams, DecompressParams(), transcoded, &output1); ASSERT_EQ(output0.pixels.size(), output1.pixels.size()); EXPECT_EQ(0, memcmp(output0.pixels.data(), output1.pixels.data(), output0.pixels.size())); compressed = transcoded; } } std::vector GenerateTests() { std::vector all_tests; const size_t xsize0 = 1024; const size_t ysize0 = 768; for (int dxsize : {0, 1, 8, 9}) { for (int dysize : {0, 1, 8, 9}) { for (int h_sampling : {1, 2}) { for (int v_sampling : {1, 2}) { TestConfig config; config.input.xsize = xsize0 + dxsize; config.input.ysize = ysize0 + dysize; config.jparams.h_sampling = {h_sampling, 1, 1}; config.jparams.v_sampling = {v_sampling, 1, 1}; all_tests.push_back(config); } } } } return all_tests; } std::ostream& operator<<(std::ostream& os, const TestConfig& c) { os << c.input; os << c.jparams; return os; } std::string TestDescription( const testing::TestParamInfo& info) { std::stringstream name; name << info.param; return name.str(); } JPEGLI_INSTANTIATE_TEST_SUITE_P(TranscodeAPITest, TranscodeAPITestParam, testing::ValuesIn(GenerateTests()), TestDescription); } // namespace } // namespace jpegli