/* * Copyright 2011 The LibYuv 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 "../unit_test/unit_test.h" #include // For getenv() #include #ifdef LIBYUV_USE_GFLAGS #include "gflags/gflags.h" #endif #ifdef LIBYUV_USE_BASE_FLAGS #include "base/commandlineflags.h" #endif #include "libyuv/cpu_id.h" unsigned int fastrand_seed = 0xfb; #ifdef LIBYUV_USE_GFLAGS DEFINE_int32(libyuv_width, 0, "width of test image."); DEFINE_int32(libyuv_height, 0, "height of test image."); DEFINE_int32(libyuv_repeat, 0, "number of times to repeat test."); DEFINE_int32(libyuv_flags, 0, "cpu flags for reference code. 1 = C, -1 = SIMD"); DEFINE_int32(libyuv_cpu_info, 0, "cpu flags for benchmark code. 1 = C, -1 = SIMD"); #else // Disable command line parameters if gflags disabled. static const int32_t FLAGS_libyuv_width = 0; static const int32_t FLAGS_libyuv_height = 0; static const int32_t FLAGS_libyuv_repeat = 0; static const int32_t FLAGS_libyuv_flags = 0; static const int32_t FLAGS_libyuv_cpu_info = 0; #endif // Test environment variable for disabling CPU features. Any non-zero value // to disable. Zero ignored to make it easy to set the variable on/off. #if !defined(__native_client__) && !defined(_M_ARM) static LIBYUV_BOOL TestEnv(const char* name) { const char* var = getenv(name); if (var) { if (var[0] != '0') { return LIBYUV_TRUE; } } return LIBYUV_FALSE; } #else // nacl does not support getenv(). static LIBYUV_BOOL TestEnv(const char*) { return LIBYUV_FALSE; } #endif int TestCpuEnv(int cpu_info) { #if defined(__arm__) || defined(__aarch64__) if (TestEnv("LIBYUV_DISABLE_NEON")) { cpu_info &= ~libyuv::kCpuHasNEON; } #endif #if defined(__mips__) && defined(__linux__) if (TestEnv("LIBYUV_DISABLE_MSA")) { cpu_info &= ~libyuv::kCpuHasMSA; } if (TestEnv("LIBYUV_DISABLE_MMI")) { cpu_info &= ~libyuv::kCpuHasMMI; } #endif #if !defined(__pnacl__) && !defined(__CLR_VER) && \ (defined(__x86_64__) || defined(_M_X64) || defined(__i386__) || \ defined(_M_IX86)) if (TestEnv("LIBYUV_DISABLE_X86")) { cpu_info &= ~libyuv::kCpuHasX86; } if (TestEnv("LIBYUV_DISABLE_SSE2")) { cpu_info &= ~libyuv::kCpuHasSSE2; } if (TestEnv("LIBYUV_DISABLE_SSSE3")) { cpu_info &= ~libyuv::kCpuHasSSSE3; } if (TestEnv("LIBYUV_DISABLE_SSE41")) { cpu_info &= ~libyuv::kCpuHasSSE41; } if (TestEnv("LIBYUV_DISABLE_SSE42")) { cpu_info &= ~libyuv::kCpuHasSSE42; } if (TestEnv("LIBYUV_DISABLE_AVX")) { cpu_info &= ~libyuv::kCpuHasAVX; } if (TestEnv("LIBYUV_DISABLE_AVX2")) { cpu_info &= ~libyuv::kCpuHasAVX2; } if (TestEnv("LIBYUV_DISABLE_ERMS")) { cpu_info &= ~libyuv::kCpuHasERMS; } if (TestEnv("LIBYUV_DISABLE_FMA3")) { cpu_info &= ~libyuv::kCpuHasFMA3; } if (TestEnv("LIBYUV_DISABLE_F16C")) { cpu_info &= ~libyuv::kCpuHasF16C; } if (TestEnv("LIBYUV_DISABLE_AVX512BW")) { cpu_info &= ~libyuv::kCpuHasAVX512BW; } if (TestEnv("LIBYUV_DISABLE_AVX512VL")) { cpu_info &= ~libyuv::kCpuHasAVX512VL; } if (TestEnv("LIBYUV_DISABLE_AVX512VBMI")) { cpu_info &= ~libyuv::kCpuHasAVX512VBMI; } if (TestEnv("LIBYUV_DISABLE_AVX512VBMI2")) { cpu_info &= ~libyuv::kCpuHasAVX512VBMI2; } if (TestEnv("LIBYUV_DISABLE_AVX512VBITALG")) { cpu_info &= ~libyuv::kCpuHasAVX512VBITALG; } if (TestEnv("LIBYUV_DISABLE_AVX512VPOPCNTDQ")) { cpu_info &= ~libyuv::kCpuHasAVX512VPOPCNTDQ; } if (TestEnv("LIBYUV_DISABLE_GFNI")) { cpu_info &= ~libyuv::kCpuHasGFNI; } #endif if (TestEnv("LIBYUV_DISABLE_ASM")) { cpu_info = libyuv::kCpuInitialized; } return cpu_info; } // For quicker unittests, default is 128 x 72. But when benchmarking, // default to 720p. Allow size to specify. // Set flags to -1 for benchmarking to avoid slower C code. LibYUVConvertTest::LibYUVConvertTest() : benchmark_iterations_(1), benchmark_width_(128), benchmark_height_(72), disable_cpu_flags_(1), benchmark_cpu_info_(-1) { const char* repeat = getenv("LIBYUV_REPEAT"); if (repeat) { benchmark_iterations_ = atoi(repeat); // NOLINT } if (FLAGS_libyuv_repeat) { benchmark_iterations_ = FLAGS_libyuv_repeat; } if (benchmark_iterations_ > 1) { benchmark_width_ = 1280; benchmark_height_ = 720; } const char* width = getenv("LIBYUV_WIDTH"); if (width) { benchmark_width_ = atoi(width); // NOLINT } if (FLAGS_libyuv_width) { benchmark_width_ = FLAGS_libyuv_width; } const char* height = getenv("LIBYUV_HEIGHT"); if (height) { benchmark_height_ = atoi(height); // NOLINT } if (FLAGS_libyuv_height) { benchmark_height_ = FLAGS_libyuv_height; } const char* cpu_flags = getenv("LIBYUV_FLAGS"); if (cpu_flags) { disable_cpu_flags_ = atoi(cpu_flags); // NOLINT } if (FLAGS_libyuv_flags) { disable_cpu_flags_ = FLAGS_libyuv_flags; } const char* cpu_info = getenv("LIBYUV_CPU_INFO"); if (cpu_info) { benchmark_cpu_info_ = atoi(cpu_flags); // NOLINT } if (FLAGS_libyuv_cpu_info) { benchmark_cpu_info_ = FLAGS_libyuv_cpu_info; } disable_cpu_flags_ = TestCpuEnv(disable_cpu_flags_); benchmark_cpu_info_ = TestCpuEnv(benchmark_cpu_info_); libyuv::MaskCpuFlags(benchmark_cpu_info_); benchmark_pixels_div1280_ = static_cast((static_cast(Abs(benchmark_width_)) * static_cast(Abs(benchmark_height_)) * static_cast(benchmark_iterations_) + 1279.0) / 1280.0); } LibYUVColorTest::LibYUVColorTest() : benchmark_iterations_(1), benchmark_width_(128), benchmark_height_(72), disable_cpu_flags_(1), benchmark_cpu_info_(-1) { const char* repeat = getenv("LIBYUV_REPEAT"); if (repeat) { benchmark_iterations_ = atoi(repeat); // NOLINT } if (FLAGS_libyuv_repeat) { benchmark_iterations_ = FLAGS_libyuv_repeat; } if (benchmark_iterations_ > 1) { benchmark_width_ = 1280; benchmark_height_ = 720; } const char* width = getenv("LIBYUV_WIDTH"); if (width) { benchmark_width_ = atoi(width); // NOLINT } if (FLAGS_libyuv_width) { benchmark_width_ = FLAGS_libyuv_width; } const char* height = getenv("LIBYUV_HEIGHT"); if (height) { benchmark_height_ = atoi(height); // NOLINT } if (FLAGS_libyuv_height) { benchmark_height_ = FLAGS_libyuv_height; } const char* cpu_flags = getenv("LIBYUV_FLAGS"); if (cpu_flags) { disable_cpu_flags_ = atoi(cpu_flags); // NOLINT } if (FLAGS_libyuv_flags) { disable_cpu_flags_ = FLAGS_libyuv_flags; } const char* cpu_info = getenv("LIBYUV_CPU_INFO"); if (cpu_info) { benchmark_cpu_info_ = atoi(cpu_flags); // NOLINT } if (FLAGS_libyuv_cpu_info) { benchmark_cpu_info_ = FLAGS_libyuv_cpu_info; } disable_cpu_flags_ = TestCpuEnv(disable_cpu_flags_); benchmark_cpu_info_ = TestCpuEnv(benchmark_cpu_info_); libyuv::MaskCpuFlags(benchmark_cpu_info_); benchmark_pixels_div1280_ = static_cast((static_cast(Abs(benchmark_width_)) * static_cast(Abs(benchmark_height_)) * static_cast(benchmark_iterations_) + 1279.0) / 1280.0); } LibYUVScaleTest::LibYUVScaleTest() : benchmark_iterations_(1), benchmark_width_(128), benchmark_height_(72), disable_cpu_flags_(1), benchmark_cpu_info_(-1) { const char* repeat = getenv("LIBYUV_REPEAT"); if (repeat) { benchmark_iterations_ = atoi(repeat); // NOLINT } if (FLAGS_libyuv_repeat) { benchmark_iterations_ = FLAGS_libyuv_repeat; } if (benchmark_iterations_ > 1) { benchmark_width_ = 1280; benchmark_height_ = 720; } const char* width = getenv("LIBYUV_WIDTH"); if (width) { benchmark_width_ = atoi(width); // NOLINT } if (FLAGS_libyuv_width) { benchmark_width_ = FLAGS_libyuv_width; } const char* height = getenv("LIBYUV_HEIGHT"); if (height) { benchmark_height_ = atoi(height); // NOLINT } if (FLAGS_libyuv_height) { benchmark_height_ = FLAGS_libyuv_height; } const char* cpu_flags = getenv("LIBYUV_FLAGS"); if (cpu_flags) { disable_cpu_flags_ = atoi(cpu_flags); // NOLINT } if (FLAGS_libyuv_flags) { disable_cpu_flags_ = FLAGS_libyuv_flags; } const char* cpu_info = getenv("LIBYUV_CPU_INFO"); if (cpu_info) { benchmark_cpu_info_ = atoi(cpu_flags); // NOLINT } if (FLAGS_libyuv_cpu_info) { benchmark_cpu_info_ = FLAGS_libyuv_cpu_info; } disable_cpu_flags_ = TestCpuEnv(disable_cpu_flags_); benchmark_cpu_info_ = TestCpuEnv(benchmark_cpu_info_); libyuv::MaskCpuFlags(benchmark_cpu_info_); benchmark_pixels_div1280_ = static_cast((static_cast(Abs(benchmark_width_)) * static_cast(Abs(benchmark_height_)) * static_cast(benchmark_iterations_) + 1279.0) / 1280.0); } LibYUVRotateTest::LibYUVRotateTest() : benchmark_iterations_(1), benchmark_width_(128), benchmark_height_(72), disable_cpu_flags_(1), benchmark_cpu_info_(-1) { const char* repeat = getenv("LIBYUV_REPEAT"); if (repeat) { benchmark_iterations_ = atoi(repeat); // NOLINT } if (FLAGS_libyuv_repeat) { benchmark_iterations_ = FLAGS_libyuv_repeat; } if (benchmark_iterations_ > 1) { benchmark_width_ = 1280; benchmark_height_ = 720; } const char* width = getenv("LIBYUV_WIDTH"); if (width) { benchmark_width_ = atoi(width); // NOLINT } if (FLAGS_libyuv_width) { benchmark_width_ = FLAGS_libyuv_width; } const char* height = getenv("LIBYUV_HEIGHT"); if (height) { benchmark_height_ = atoi(height); // NOLINT } if (FLAGS_libyuv_height) { benchmark_height_ = FLAGS_libyuv_height; } const char* cpu_flags = getenv("LIBYUV_FLAGS"); if (cpu_flags) { disable_cpu_flags_ = atoi(cpu_flags); // NOLINT } if (FLAGS_libyuv_flags) { disable_cpu_flags_ = FLAGS_libyuv_flags; } const char* cpu_info = getenv("LIBYUV_CPU_INFO"); if (cpu_info) { benchmark_cpu_info_ = atoi(cpu_flags); // NOLINT } if (FLAGS_libyuv_cpu_info) { benchmark_cpu_info_ = FLAGS_libyuv_cpu_info; } disable_cpu_flags_ = TestCpuEnv(disable_cpu_flags_); benchmark_cpu_info_ = TestCpuEnv(benchmark_cpu_info_); libyuv::MaskCpuFlags(benchmark_cpu_info_); benchmark_pixels_div1280_ = static_cast((static_cast(Abs(benchmark_width_)) * static_cast(Abs(benchmark_height_)) * static_cast(benchmark_iterations_) + 1279.0) / 1280.0); } LibYUVPlanarTest::LibYUVPlanarTest() : benchmark_iterations_(1), benchmark_width_(128), benchmark_height_(72), disable_cpu_flags_(1), benchmark_cpu_info_(-1) { const char* repeat = getenv("LIBYUV_REPEAT"); if (repeat) { benchmark_iterations_ = atoi(repeat); // NOLINT } if (FLAGS_libyuv_repeat) { benchmark_iterations_ = FLAGS_libyuv_repeat; } if (benchmark_iterations_ > 1) { benchmark_width_ = 1280; benchmark_height_ = 720; } const char* width = getenv("LIBYUV_WIDTH"); if (width) { benchmark_width_ = atoi(width); // NOLINT } if (FLAGS_libyuv_width) { benchmark_width_ = FLAGS_libyuv_width; } const char* height = getenv("LIBYUV_HEIGHT"); if (height) { benchmark_height_ = atoi(height); // NOLINT } if (FLAGS_libyuv_height) { benchmark_height_ = FLAGS_libyuv_height; } const char* cpu_flags = getenv("LIBYUV_FLAGS"); if (cpu_flags) { disable_cpu_flags_ = atoi(cpu_flags); // NOLINT } if (FLAGS_libyuv_flags) { disable_cpu_flags_ = FLAGS_libyuv_flags; } const char* cpu_info = getenv("LIBYUV_CPU_INFO"); if (cpu_info) { benchmark_cpu_info_ = atoi(cpu_flags); // NOLINT } if (FLAGS_libyuv_cpu_info) { benchmark_cpu_info_ = FLAGS_libyuv_cpu_info; } disable_cpu_flags_ = TestCpuEnv(disable_cpu_flags_); benchmark_cpu_info_ = TestCpuEnv(benchmark_cpu_info_); libyuv::MaskCpuFlags(benchmark_cpu_info_); benchmark_pixels_div1280_ = static_cast((static_cast(Abs(benchmark_width_)) * static_cast(Abs(benchmark_height_)) * static_cast(benchmark_iterations_) + 1279.0) / 1280.0); } LibYUVBaseTest::LibYUVBaseTest() : benchmark_iterations_(1), benchmark_width_(128), benchmark_height_(72), disable_cpu_flags_(1), benchmark_cpu_info_(-1) { const char* repeat = getenv("LIBYUV_REPEAT"); if (repeat) { benchmark_iterations_ = atoi(repeat); // NOLINT } if (FLAGS_libyuv_repeat) { benchmark_iterations_ = FLAGS_libyuv_repeat; } if (benchmark_iterations_ > 1) { benchmark_width_ = 1280; benchmark_height_ = 720; } const char* width = getenv("LIBYUV_WIDTH"); if (width) { benchmark_width_ = atoi(width); // NOLINT } if (FLAGS_libyuv_width) { benchmark_width_ = FLAGS_libyuv_width; } const char* height = getenv("LIBYUV_HEIGHT"); if (height) { benchmark_height_ = atoi(height); // NOLINT } if (FLAGS_libyuv_height) { benchmark_height_ = FLAGS_libyuv_height; } const char* cpu_flags = getenv("LIBYUV_FLAGS"); if (cpu_flags) { disable_cpu_flags_ = atoi(cpu_flags); // NOLINT } if (FLAGS_libyuv_flags) { disable_cpu_flags_ = FLAGS_libyuv_flags; } const char* cpu_info = getenv("LIBYUV_CPU_INFO"); if (cpu_info) { benchmark_cpu_info_ = atoi(cpu_flags); // NOLINT } if (FLAGS_libyuv_cpu_info) { benchmark_cpu_info_ = FLAGS_libyuv_cpu_info; } disable_cpu_flags_ = TestCpuEnv(disable_cpu_flags_); benchmark_cpu_info_ = TestCpuEnv(benchmark_cpu_info_); libyuv::MaskCpuFlags(benchmark_cpu_info_); benchmark_pixels_div1280_ = static_cast((static_cast(Abs(benchmark_width_)) * static_cast(Abs(benchmark_height_)) * static_cast(benchmark_iterations_) + 1279.0) / 1280.0); } LibYUVCompareTest::LibYUVCompareTest() : benchmark_iterations_(1), benchmark_width_(128), benchmark_height_(72), disable_cpu_flags_(1), benchmark_cpu_info_(-1) { const char* repeat = getenv("LIBYUV_REPEAT"); if (repeat) { benchmark_iterations_ = atoi(repeat); // NOLINT } if (FLAGS_libyuv_repeat) { benchmark_iterations_ = FLAGS_libyuv_repeat; } if (benchmark_iterations_ > 1) { benchmark_width_ = 1280; benchmark_height_ = 720; } const char* width = getenv("LIBYUV_WIDTH"); if (width) { benchmark_width_ = atoi(width); // NOLINT } if (FLAGS_libyuv_width) { benchmark_width_ = FLAGS_libyuv_width; } const char* height = getenv("LIBYUV_HEIGHT"); if (height) { benchmark_height_ = atoi(height); // NOLINT } if (FLAGS_libyuv_height) { benchmark_height_ = FLAGS_libyuv_height; } const char* cpu_flags = getenv("LIBYUV_FLAGS"); if (cpu_flags) { disable_cpu_flags_ = atoi(cpu_flags); // NOLINT } if (FLAGS_libyuv_flags) { disable_cpu_flags_ = FLAGS_libyuv_flags; } const char* cpu_info = getenv("LIBYUV_CPU_INFO"); if (cpu_info) { benchmark_cpu_info_ = atoi(cpu_flags); // NOLINT } if (FLAGS_libyuv_cpu_info) { benchmark_cpu_info_ = FLAGS_libyuv_cpu_info; } disable_cpu_flags_ = TestCpuEnv(disable_cpu_flags_); benchmark_cpu_info_ = TestCpuEnv(benchmark_cpu_info_); libyuv::MaskCpuFlags(benchmark_cpu_info_); benchmark_pixels_div1280_ = static_cast((static_cast(Abs(benchmark_width_)) * static_cast(Abs(benchmark_height_)) * static_cast(benchmark_iterations_) + 1279.0) / 1280.0); } int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); #ifdef LIBYUV_USE_GFLAGS // AllowCommandLineParsing allows us to ignore flags passed on to us by // Chromium build bots without having to explicitly disable them. google::AllowCommandLineReparsing(); google::ParseCommandLineFlags(&argc, &argv, true); #endif return RUN_ALL_TESTS(); }