/* * Copyright (c) 2012 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 #include #include #include "./vpx_config.h" #if CONFIG_VP8_ENCODER #include "./vp8_rtcd.h" #endif #if CONFIG_VP9_ENCODER #include "./vp9_rtcd.h" #endif #include "vpx_mem/vpx_mem.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/include/gtest/gtest.h" #include "vpx/vpx_codec.h" #if CONFIG_VP8_ENCODER typedef unsigned int (*SadMxNFunc)(const unsigned char *source_ptr, int source_stride, const unsigned char *reference_ptr, int reference_stride, unsigned int max_sad); typedef std::tr1::tuple SadMxNParam; #endif #if CONFIG_VP9_ENCODER typedef unsigned int (*SadMxNVp9Func)(const unsigned char *source_ptr, int source_stride, const unsigned char *reference_ptr, int reference_stride); typedef std::tr1::tuple SadMxNVp9Param; typedef uint32_t (*SadMxNAvgVp9Func)(const uint8_t *source_ptr, int source_stride, const uint8_t *reference_ptr, int reference_stride, const uint8_t *second_pred); typedef std::tr1::tuple SadMxNAvgVp9Param; #endif 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 std::tr1::tuple SadMxNx4Param; using libvpx_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() { #if CONFIG_VP9_HIGHBITDEPTH source_data8_ = reinterpret_cast( vpx_memalign(kDataAlignment, kDataBlockSize)); reference_data8_ = reinterpret_cast( vpx_memalign(kDataAlignment, kDataBufferSize)); second_pred8_ = reinterpret_cast( vpx_memalign(kDataAlignment, 64*64)); source_data16_ = reinterpret_cast( vpx_memalign(kDataAlignment, kDataBlockSize*sizeof(uint16_t))); reference_data16_ = reinterpret_cast( vpx_memalign(kDataAlignment, kDataBufferSize*sizeof(uint16_t))); second_pred16_ = reinterpret_cast( vpx_memalign(kDataAlignment, 64*64*sizeof(uint16_t))); #else source_data_ = reinterpret_cast( vpx_memalign(kDataAlignment, kDataBlockSize)); reference_data_ = reinterpret_cast( vpx_memalign(kDataAlignment, kDataBufferSize)); second_pred_ = reinterpret_cast( vpx_memalign(kDataAlignment, 64*64)); #endif } static void TearDownTestCase() { #if CONFIG_VP9_HIGHBITDEPTH vpx_free(source_data8_); source_data8_ = NULL; vpx_free(reference_data8_); reference_data8_ = NULL; vpx_free(second_pred8_); second_pred8_ = NULL; vpx_free(source_data16_); source_data16_ = NULL; vpx_free(reference_data16_); reference_data16_ = NULL; vpx_free(second_pred16_); second_pred16_ = NULL; #else vpx_free(source_data_); source_data_ = NULL; vpx_free(reference_data_); reference_data_ = NULL; vpx_free(second_pred_); second_pred_ = NULL; #endif } virtual void TearDown() { libvpx_test::ClearSystemState(); } protected: // Handle blocks up to 4 blocks 64x64 with stride up to 128 static const int kDataAlignment = 16; static const int kDataBlockSize = 64 * 128; static const int kDataBufferSize = 4 * kDataBlockSize; virtual void SetUp() { #if CONFIG_VP9_HIGHBITDEPTH if (bd_ == -1) { use_high_bit_depth_ = false; bit_depth_ = VPX_BITS_8; source_data_ = source_data8_; reference_data_ = reference_data8_; second_pred_ = second_pred8_; } else { use_high_bit_depth_ = true; bit_depth_ = static_cast(bd_); source_data_ = CONVERT_TO_BYTEPTR(source_data16_); reference_data_ = CONVERT_TO_BYTEPTR(reference_data16_); second_pred_ = CONVERT_TO_BYTEPTR(second_pred16_); } #endif 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 CONFIG_VP9_HIGHBITDEPTH if (!use_high_bit_depth_) { return reference_data_ + block_idx * kDataBlockSize; } else { return CONVERT_TO_BYTEPTR(CONVERT_TO_SHORTPTR(reference_data_) + block_idx * kDataBlockSize); } #else return reference_data_ + block_idx * kDataBlockSize; #endif } // Sum of Absolute Differences. Given two blocks, calculate the absolute // difference between two pixels in the same relative location; accumulate. unsigned int ReferenceSAD(unsigned int max_sad, int block_idx) { unsigned int sad = 0; #if CONFIG_VP9_HIGHBITDEPTH 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_); #else const uint8_t *const reference = GetReference(block_idx); const uint8_t *const source = source_data_; #endif for (int h = 0; h < height_; ++h) { for (int w = 0; w < width_; ++w) { #if CONFIG_VP9_HIGHBITDEPTH 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]); } #else sad += abs(source[h * source_stride_ + w] - reference[h * reference_stride_ + w]); #endif } if (sad > max_sad) { break; } } 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(unsigned int max_sad, int block_idx) { unsigned int sad = 0; #if CONFIG_VP9_HIGHBITDEPTH 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_); #else const uint8_t *const reference = GetReference(block_idx); const uint8_t *const source = source_data_; const uint8_t *const second_pred = second_pred_; #endif for (int h = 0; h < height_; ++h) { for (int w = 0; w < width_; ++w) { #if CONFIG_VP9_HIGHBITDEPTH 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); } #else const int tmp = second_pred[h * width_ + w] + reference[h * reference_stride_ + w]; const uint8_t comp_pred = ROUND_POWER_OF_TWO(tmp, 1); sad += abs(source[h * source_stride_ + w] - comp_pred); #endif } if (sad > max_sad) { break; } } return sad; } void FillConstant(uint8_t *data, int stride, uint16_t fill_constant) { #if CONFIG_VP9_HIGHBITDEPTH uint8_t *data8 = data; uint16_t *data16 = CONVERT_TO_SHORTPTR(data); #endif for (int h = 0; h < height_; ++h) { for (int w = 0; w < width_; ++w) { #if CONFIG_VP9_HIGHBITDEPTH if (!use_high_bit_depth_) { data8[h * stride + w] = fill_constant; } else { data16[h * stride + w] = fill_constant; } #else data[h * stride + w] = fill_constant; #endif } } } void FillRandom(uint8_t *data, int stride) { #if CONFIG_VP9_HIGHBITDEPTH uint8_t *data8 = data; uint16_t *data16 = CONVERT_TO_SHORTPTR(data); #endif for (int h = 0; h < height_; ++h) { for (int w = 0; w < width_; ++w) { #if CONFIG_VP9_HIGHBITDEPTH if (!use_high_bit_depth_) { data8[h * stride + w] = rnd_.Rand8(); } else { data16[h * stride + w] = rnd_.Rand16() & mask_; } #else data[h * stride + w] = rnd_.Rand8(); #endif } } } int width_, height_, mask_, bd_; vpx_bit_depth_t bit_depth_; static uint8_t *source_data_; static uint8_t *reference_data_; static uint8_t *second_pred_; int source_stride_; #if CONFIG_VP9_HIGHBITDEPTH 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_; #endif int reference_stride_; ACMRandom rnd_; }; class SADx4Test : public SADTestBase, public ::testing::WithParamInterface { public: SADx4Test() : SADTestBase(GET_PARAM(0), GET_PARAM(1), GET_PARAM(3)) {} protected: void SADs(unsigned int *results) { const uint8_t *refs[] = {GetReference(0), GetReference(1), GetReference(2), GetReference(3)}; ASM_REGISTER_STATE_CHECK(GET_PARAM(2)(source_data_, source_stride_, refs, 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(UINT_MAX, block); EXPECT_EQ(reference_sad, exp_sad[block]) << "block " << block; } } }; #if CONFIG_VP8_ENCODER class SADTest : public SADTestBase, public ::testing::WithParamInterface { public: SADTest() : SADTestBase(GET_PARAM(0), GET_PARAM(1), GET_PARAM(3)) {} protected: unsigned int SAD(unsigned int max_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_, max_sad)); return ret; } void CheckSAD(unsigned int max_sad) { const unsigned int reference_sad = ReferenceSAD(max_sad, 0); const unsigned int exp_sad = SAD(max_sad, 0); if (reference_sad <= max_sad) { ASSERT_EQ(exp_sad, reference_sad); } else { // Alternative implementations are not required to check max_sad ASSERT_GE(exp_sad, reference_sad); } } }; #endif // CONFIG_VP8_ENCODER #if CONFIG_VP9_ENCODER class SADVP9Test : public SADTestBase, public ::testing::WithParamInterface { public: SADVP9Test() : 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(UINT_MAX, 0); const unsigned int exp_sad = SAD(0); ASSERT_EQ(reference_sad, exp_sad); } }; class SADavgVP9Test : public SADTestBase, public ::testing::WithParamInterface { public: SADavgVP9Test() : 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(UINT_MAX, 0); const unsigned int exp_sad = SAD_avg(0); ASSERT_EQ(reference_sad, exp_sad); } }; #endif // CONFIG_VP9_ENCODER uint8_t *SADTestBase::source_data_ = NULL; uint8_t *SADTestBase::reference_data_ = NULL; uint8_t *SADTestBase::second_pred_ = NULL; #if CONFIG_VP9_ENCODER && CONFIG_VP9_HIGHBITDEPTH uint8_t *SADTestBase::source_data8_ = NULL; uint8_t *SADTestBase::reference_data8_ = NULL; uint8_t *SADTestBase::second_pred8_ = NULL; uint16_t *SADTestBase::source_data16_ = NULL; uint16_t *SADTestBase::reference_data16_ = NULL; uint16_t *SADTestBase::second_pred16_ = NULL; #endif #if CONFIG_VP8_ENCODER TEST_P(SADTest, MaxRef) { FillConstant(source_data_, source_stride_, 0); FillConstant(reference_data_, reference_stride_, mask_); CheckSAD(UINT_MAX); } TEST_P(SADTest, MaxSrc) { FillConstant(source_data_, source_stride_, mask_); FillConstant(reference_data_, reference_stride_, 0); CheckSAD(UINT_MAX); } TEST_P(SADTest, ShortRef) { int tmp_stride = reference_stride_; reference_stride_ >>= 1; FillRandom(source_data_, source_stride_); FillRandom(reference_data_, reference_stride_); CheckSAD(UINT_MAX); 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(UINT_MAX); reference_stride_ = tmp_stride; } TEST_P(SADTest, ShortSrc) { const int tmp_stride = source_stride_; source_stride_ >>= 1; FillRandom(source_data_, source_stride_); FillRandom(reference_data_, reference_stride_); CheckSAD(UINT_MAX); source_stride_ = tmp_stride; } TEST_P(SADTest, MaxSAD) { // Verify that, when max_sad is set, the implementation does not return a // value lower than the reference. FillConstant(source_data_, source_stride_, mask_); FillConstant(reference_data_, reference_stride_, 0); CheckSAD(128); } #endif // CONFIG_VP8_ENCODER #if CONFIG_VP9_ENCODER TEST_P(SADVP9Test, MaxRef) { FillConstant(source_data_, source_stride_, 0); FillConstant(reference_data_, reference_stride_, mask_); CheckSAD(); } TEST_P(SADVP9Test, MaxSrc) { FillConstant(source_data_, source_stride_, mask_); FillConstant(reference_data_, reference_stride_, 0); CheckSAD(); } TEST_P(SADVP9Test, 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(SADVP9Test, 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(SADVP9Test, ShortSrc) { const int tmp_stride = source_stride_; source_stride_ >>= 1; FillRandom(source_data_, source_stride_); FillRandom(reference_data_, reference_stride_); CheckSAD(); source_stride_ = tmp_stride; } TEST_P(SADavgVP9Test, MaxRef) { FillConstant(source_data_, source_stride_, 0); FillConstant(reference_data_, reference_stride_, mask_); FillConstant(second_pred_, width_, 0); CheckSAD(); } TEST_P(SADavgVP9Test, MaxSrc) { FillConstant(source_data_, source_stride_, mask_); FillConstant(reference_data_, reference_stride_, 0); FillConstant(second_pred_, width_, 0); CheckSAD(); } TEST_P(SADavgVP9Test, 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(SADavgVP9Test, 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(SADavgVP9Test, ShortSrc) { const int tmp_stride = source_stride_; source_stride_ >>= 1; FillRandom(source_data_, source_stride_); FillRandom(reference_data_, reference_stride_); FillRandom(second_pred_, width_); CheckSAD(); source_stride_ = tmp_stride; } #endif // CONFIG_VP9_ENCODER 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; 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_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 std::tr1::make_tuple; //------------------------------------------------------------------------------ // C functions #if CONFIG_VP8_ENCODER const SadMxNFunc sad_16x16_c = vp8_sad16x16_c; const SadMxNFunc sad_8x16_c = vp8_sad8x16_c; const SadMxNFunc sad_16x8_c = vp8_sad16x8_c; const SadMxNFunc sad_8x8_c = vp8_sad8x8_c; const SadMxNFunc sad_4x4_c = vp8_sad4x4_c; const SadMxNParam c_tests[] = { make_tuple(16, 16, sad_16x16_c, -1), make_tuple(8, 16, sad_8x16_c, -1), make_tuple(16, 8, sad_16x8_c, -1), make_tuple(8, 8, sad_8x8_c, -1), make_tuple(4, 4, sad_4x4_c, -1), }; INSTANTIATE_TEST_CASE_P(C, SADTest, ::testing::ValuesIn(c_tests)); #endif // CONFIG_VP8_ENCODER #if CONFIG_VP9_ENCODER const SadMxNVp9Func sad_64x64_c_vp9 = vp9_sad64x64_c; const SadMxNVp9Func sad_32x32_c_vp9 = vp9_sad32x32_c; const SadMxNVp9Func sad_16x16_c_vp9 = vp9_sad16x16_c; const SadMxNVp9Func sad_8x16_c_vp9 = vp9_sad8x16_c; const SadMxNVp9Func sad_16x8_c_vp9 = vp9_sad16x8_c; const SadMxNVp9Func sad_8x8_c_vp9 = vp9_sad8x8_c; const SadMxNVp9Func sad_8x4_c_vp9 = vp9_sad8x4_c; const SadMxNVp9Func sad_4x8_c_vp9 = vp9_sad4x8_c; const SadMxNVp9Func sad_4x4_c_vp9 = vp9_sad4x4_c; const SadMxNVp9Param c_vp9_tests[] = { make_tuple(64, 64, sad_64x64_c_vp9, -1), make_tuple(32, 32, sad_32x32_c_vp9, -1), make_tuple(16, 16, sad_16x16_c_vp9, -1), make_tuple(8, 16, sad_8x16_c_vp9, -1), make_tuple(16, 8, sad_16x8_c_vp9, -1), make_tuple(8, 8, sad_8x8_c_vp9, -1), make_tuple(8, 4, sad_8x4_c_vp9, -1), make_tuple(4, 8, sad_4x8_c_vp9, -1), make_tuple(4, 4, sad_4x4_c_vp9, -1), }; INSTANTIATE_TEST_CASE_P(C, SADVP9Test, ::testing::ValuesIn(c_vp9_tests)); const SadMxNx4Func sad_64x64x4d_c = vp9_sad64x64x4d_c; const SadMxNx4Func sad_64x32x4d_c = vp9_sad64x32x4d_c; const SadMxNx4Func sad_32x64x4d_c = vp9_sad32x64x4d_c; const SadMxNx4Func sad_32x32x4d_c = vp9_sad32x32x4d_c; const SadMxNx4Func sad_32x16x4d_c = vp9_sad32x16x4d_c; const SadMxNx4Func sad_16x32x4d_c = vp9_sad16x32x4d_c; const SadMxNx4Func sad_16x16x4d_c = vp9_sad16x16x4d_c; const SadMxNx4Func sad_16x8x4d_c = vp9_sad16x8x4d_c; const SadMxNx4Func sad_8x16x4d_c = vp9_sad8x16x4d_c; const SadMxNx4Func sad_8x8x4d_c = vp9_sad8x8x4d_c; const SadMxNx4Func sad_8x4x4d_c = vp9_sad8x4x4d_c; const SadMxNx4Func sad_4x8x4d_c = vp9_sad4x8x4d_c; const SadMxNx4Func sad_4x4x4d_c = vp9_sad4x4x4d_c; INSTANTIATE_TEST_CASE_P(C, SADx4Test, ::testing::Values( make_tuple(64, 64, sad_64x64x4d_c, -1), make_tuple(64, 32, sad_64x32x4d_c, -1), make_tuple(32, 64, sad_32x64x4d_c, -1), make_tuple(32, 32, sad_32x32x4d_c, -1), make_tuple(32, 16, sad_32x16x4d_c, -1), make_tuple(16, 32, sad_16x32x4d_c, -1), make_tuple(16, 16, sad_16x16x4d_c, -1), make_tuple(16, 8, sad_16x8x4d_c, -1), make_tuple(8, 16, sad_8x16x4d_c, -1), make_tuple(8, 8, sad_8x8x4d_c, -1), make_tuple(8, 4, sad_8x4x4d_c, -1), make_tuple(4, 8, sad_4x8x4d_c, -1), make_tuple(4, 4, sad_4x4x4d_c, -1))); #if CONFIG_VP9_HIGHBITDEPTH const SadMxNVp9Func highbd_sad_64x64_c_vp9 = vp9_highbd_sad64x64_c; const SadMxNVp9Func highbd_sad_32x32_c_vp9 = vp9_highbd_sad32x32_c; const SadMxNVp9Func highbd_sad_16x16_c_vp9 = vp9_highbd_sad16x16_c; const SadMxNVp9Func highbd_sad_8x16_c_vp9 = vp9_highbd_sad8x16_c; const SadMxNVp9Func highbd_sad_16x8_c_vp9 = vp9_highbd_sad16x8_c; const SadMxNVp9Func highbd_sad_8x8_c_vp9 = vp9_highbd_sad8x8_c; const SadMxNVp9Func highbd_sad_8x4_c_vp9 = vp9_highbd_sad8x4_c; const SadMxNVp9Func highbd_sad_4x8_c_vp9 = vp9_highbd_sad4x8_c; const SadMxNVp9Func highbd_sad_4x4_c_vp9 = vp9_highbd_sad4x4_c; const SadMxNVp9Param c_vp9_highbd_8_tests[] = { make_tuple(64, 64, highbd_sad_64x64_c_vp9, 8), make_tuple(32, 32, highbd_sad_32x32_c_vp9, 8), make_tuple(16, 16, highbd_sad_16x16_c_vp9, 8), make_tuple(8, 16, highbd_sad_8x16_c_vp9, 8), make_tuple(16, 8, highbd_sad_16x8_c_vp9, 8), make_tuple(8, 8, highbd_sad_8x8_c_vp9, 8), make_tuple(8, 4, highbd_sad_8x4_c_vp9, 8), make_tuple(4, 8, highbd_sad_4x8_c_vp9, 8), make_tuple(4, 4, highbd_sad_4x4_c_vp9, 8), }; INSTANTIATE_TEST_CASE_P(C_8, SADVP9Test, ::testing::ValuesIn(c_vp9_highbd_8_tests)); const SadMxNVp9Param c_vp9_highbd_10_tests[] = { make_tuple(64, 64, highbd_sad_64x64_c_vp9, 10), make_tuple(32, 32, highbd_sad_32x32_c_vp9, 10), make_tuple(16, 16, highbd_sad_16x16_c_vp9, 10), make_tuple(8, 16, highbd_sad_8x16_c_vp9, 10), make_tuple(16, 8, highbd_sad_16x8_c_vp9, 10), make_tuple(8, 8, highbd_sad_8x8_c_vp9, 10), make_tuple(8, 4, highbd_sad_8x4_c_vp9, 10), make_tuple(4, 8, highbd_sad_4x8_c_vp9, 10), make_tuple(4, 4, highbd_sad_4x4_c_vp9, 10), }; INSTANTIATE_TEST_CASE_P(C_10, SADVP9Test, ::testing::ValuesIn(c_vp9_highbd_10_tests)); const SadMxNVp9Param c_vp9_highbd_12_tests[] = { make_tuple(64, 64, highbd_sad_64x64_c_vp9, 12), make_tuple(32, 32, highbd_sad_32x32_c_vp9, 12), make_tuple(16, 16, highbd_sad_16x16_c_vp9, 12), make_tuple(8, 16, highbd_sad_8x16_c_vp9, 12), make_tuple(16, 8, highbd_sad_16x8_c_vp9, 12), make_tuple(8, 8, highbd_sad_8x8_c_vp9, 12), make_tuple(8, 4, highbd_sad_8x4_c_vp9, 12), make_tuple(4, 8, highbd_sad_4x8_c_vp9, 12), make_tuple(4, 4, highbd_sad_4x4_c_vp9, 12), }; INSTANTIATE_TEST_CASE_P(C_12, SADVP9Test, ::testing::ValuesIn(c_vp9_highbd_12_tests)); const SadMxNAvgVp9Func highbd_sad8x4_avg_c_vp9 = vp9_highbd_sad8x4_avg_c; const SadMxNAvgVp9Func highbd_sad8x8_avg_c_vp9 = vp9_highbd_sad8x8_avg_c; const SadMxNAvgVp9Func highbd_sad8x16_avg_c_vp9 = vp9_highbd_sad8x16_avg_c; const SadMxNAvgVp9Func highbd_sad16x8_avg_c_vp9 = vp9_highbd_sad16x8_avg_c; const SadMxNAvgVp9Func highbd_sad16x16_avg_c_vp9 = vp9_highbd_sad16x16_avg_c; const SadMxNAvgVp9Func highbd_sad16x32_avg_c_vp9 = vp9_highbd_sad16x32_avg_c; const SadMxNAvgVp9Func highbd_sad32x16_avg_c_vp9 = vp9_highbd_sad32x16_avg_c; const SadMxNAvgVp9Func highbd_sad32x32_avg_c_vp9 = vp9_highbd_sad32x32_avg_c; const SadMxNAvgVp9Func highbd_sad32x64_avg_c_vp9 = vp9_highbd_sad32x64_avg_c; const SadMxNAvgVp9Func highbd_sad64x32_avg_c_vp9 = vp9_highbd_sad64x32_avg_c; const SadMxNAvgVp9Func highbd_sad64x64_avg_c_vp9 = vp9_highbd_sad64x64_avg_c; SadMxNAvgVp9Param avg_c_vp9_highbd_8_tests[] = { make_tuple(8, 4, highbd_sad8x4_avg_c_vp9, 8), make_tuple(8, 8, highbd_sad8x8_avg_c_vp9, 8), make_tuple(8, 16, highbd_sad8x16_avg_c_vp9, 8), make_tuple(16, 8, highbd_sad16x8_avg_c_vp9, 8), make_tuple(16, 16, highbd_sad16x16_avg_c_vp9, 8), make_tuple(16, 32, highbd_sad16x32_avg_c_vp9, 8), make_tuple(32, 16, highbd_sad32x16_avg_c_vp9, 8), make_tuple(32, 32, highbd_sad32x32_avg_c_vp9, 8), make_tuple(32, 64, highbd_sad32x64_avg_c_vp9, 8), make_tuple(64, 32, highbd_sad64x32_avg_c_vp9, 8), make_tuple(64, 64, highbd_sad64x64_avg_c_vp9, 8)}; INSTANTIATE_TEST_CASE_P(C_8, SADavgVP9Test, ::testing::ValuesIn(avg_c_vp9_highbd_8_tests)); SadMxNAvgVp9Param avg_c_vp9_highbd_10_tests[] = { make_tuple(8, 4, highbd_sad8x4_avg_c_vp9, 10), make_tuple(8, 8, highbd_sad8x8_avg_c_vp9, 10), make_tuple(8, 16, highbd_sad8x16_avg_c_vp9, 10), make_tuple(16, 8, highbd_sad16x8_avg_c_vp9, 10), make_tuple(16, 16, highbd_sad16x16_avg_c_vp9, 10), make_tuple(16, 32, highbd_sad16x32_avg_c_vp9, 10), make_tuple(32, 16, highbd_sad32x16_avg_c_vp9, 10), make_tuple(32, 32, highbd_sad32x32_avg_c_vp9, 10), make_tuple(32, 64, highbd_sad32x64_avg_c_vp9, 10), make_tuple(64, 32, highbd_sad64x32_avg_c_vp9, 10), make_tuple(64, 64, highbd_sad64x64_avg_c_vp9, 10)}; INSTANTIATE_TEST_CASE_P(C_10, SADavgVP9Test, ::testing::ValuesIn(avg_c_vp9_highbd_10_tests)); SadMxNAvgVp9Param avg_c_vp9_highbd_12_tests[] = { make_tuple(8, 4, highbd_sad8x4_avg_c_vp9, 12), make_tuple(8, 8, highbd_sad8x8_avg_c_vp9, 12), make_tuple(8, 16, highbd_sad8x16_avg_c_vp9, 12), make_tuple(16, 8, highbd_sad16x8_avg_c_vp9, 12), make_tuple(16, 16, highbd_sad16x16_avg_c_vp9, 12), make_tuple(16, 32, highbd_sad16x32_avg_c_vp9, 12), make_tuple(32, 16, highbd_sad32x16_avg_c_vp9, 12), make_tuple(32, 32, highbd_sad32x32_avg_c_vp9, 12), make_tuple(32, 64, highbd_sad32x64_avg_c_vp9, 12), make_tuple(64, 32, highbd_sad64x32_avg_c_vp9, 12), make_tuple(64, 64, highbd_sad64x64_avg_c_vp9, 12)}; INSTANTIATE_TEST_CASE_P(C_12, SADavgVP9Test, ::testing::ValuesIn(avg_c_vp9_highbd_12_tests)); const SadMxNx4Func highbd_sad_64x64x4d_c = vp9_highbd_sad64x64x4d_c; const SadMxNx4Func highbd_sad_64x32x4d_c = vp9_highbd_sad64x32x4d_c; const SadMxNx4Func highbd_sad_32x64x4d_c = vp9_highbd_sad32x64x4d_c; const SadMxNx4Func highbd_sad_32x32x4d_c = vp9_highbd_sad32x32x4d_c; const SadMxNx4Func highbd_sad_32x16x4d_c = vp9_highbd_sad32x16x4d_c; const SadMxNx4Func highbd_sad_16x32x4d_c = vp9_highbd_sad16x32x4d_c; const SadMxNx4Func highbd_sad_16x16x4d_c = vp9_highbd_sad16x16x4d_c; const SadMxNx4Func highbd_sad_16x8x4d_c = vp9_highbd_sad16x8x4d_c; const SadMxNx4Func highbd_sad_8x16x4d_c = vp9_highbd_sad8x16x4d_c; const SadMxNx4Func highbd_sad_8x8x4d_c = vp9_highbd_sad8x8x4d_c; const SadMxNx4Func highbd_sad_8x4x4d_c = vp9_highbd_sad8x4x4d_c; const SadMxNx4Func highbd_sad_4x8x4d_c = vp9_highbd_sad4x8x4d_c; const SadMxNx4Func highbd_sad_4x4x4d_c = vp9_highbd_sad4x4x4d_c; INSTANTIATE_TEST_CASE_P(C_8, SADx4Test, ::testing::Values( make_tuple(64, 64, highbd_sad_64x64x4d_c, 8), make_tuple(64, 32, highbd_sad_64x32x4d_c, 8), make_tuple(32, 64, highbd_sad_32x64x4d_c, 8), make_tuple(32, 32, highbd_sad_32x32x4d_c, 8), make_tuple(32, 16, highbd_sad_32x16x4d_c, 8), make_tuple(16, 32, highbd_sad_16x32x4d_c, 8), make_tuple(16, 16, highbd_sad_16x16x4d_c, 8), make_tuple(16, 8, highbd_sad_16x8x4d_c, 8), make_tuple(8, 16, highbd_sad_8x16x4d_c, 8), make_tuple(8, 8, highbd_sad_8x8x4d_c, 8), make_tuple(8, 4, highbd_sad_8x4x4d_c, 8), make_tuple(4, 8, highbd_sad_4x8x4d_c, 8), make_tuple(4, 4, highbd_sad_4x4x4d_c, 8))); INSTANTIATE_TEST_CASE_P(C_10, SADx4Test, ::testing::Values( make_tuple(64, 64, highbd_sad_64x64x4d_c, 10), make_tuple(64, 32, highbd_sad_64x32x4d_c, 10), make_tuple(32, 64, highbd_sad_32x64x4d_c, 10), make_tuple(32, 32, highbd_sad_32x32x4d_c, 10), make_tuple(32, 16, highbd_sad_32x16x4d_c, 10), make_tuple(16, 32, highbd_sad_16x32x4d_c, 10), make_tuple(16, 16, highbd_sad_16x16x4d_c, 10), make_tuple(16, 8, highbd_sad_16x8x4d_c, 10), make_tuple(8, 16, highbd_sad_8x16x4d_c, 10), make_tuple(8, 8, highbd_sad_8x8x4d_c, 10), make_tuple(8, 4, highbd_sad_8x4x4d_c, 10), make_tuple(4, 8, highbd_sad_4x8x4d_c, 10), make_tuple(4, 4, highbd_sad_4x4x4d_c, 10))); INSTANTIATE_TEST_CASE_P(C_12, SADx4Test, ::testing::Values( make_tuple(64, 64, highbd_sad_64x64x4d_c, 12), make_tuple(64, 32, highbd_sad_64x32x4d_c, 12), make_tuple(32, 64, highbd_sad_32x64x4d_c, 12), make_tuple(32, 32, highbd_sad_32x32x4d_c, 12), make_tuple(32, 16, highbd_sad_32x16x4d_c, 12), make_tuple(16, 32, highbd_sad_16x32x4d_c, 12), make_tuple(16, 16, highbd_sad_16x16x4d_c, 12), make_tuple(16, 8, highbd_sad_16x8x4d_c, 12), make_tuple(8, 16, highbd_sad_8x16x4d_c, 12), make_tuple(8, 8, highbd_sad_8x8x4d_c, 12), make_tuple(8, 4, highbd_sad_8x4x4d_c, 12), make_tuple(4, 8, highbd_sad_4x8x4d_c, 12), make_tuple(4, 4, highbd_sad_4x4x4d_c, 12))); #endif // CONFIG_VP9_HIGHBITDEPTH #endif // CONFIG_VP9_ENCODER //------------------------------------------------------------------------------ // ARM functions #if HAVE_MEDIA #if CONFIG_VP8_ENCODER const SadMxNFunc sad_16x16_armv6 = vp8_sad16x16_armv6; INSTANTIATE_TEST_CASE_P(MEDIA, SADTest, ::testing::Values( make_tuple(16, 16, sad_16x16_armv6, -1))); #endif // CONFIG_VP8_ENCODER #endif // HAVE_MEDIA #if HAVE_NEON #if CONFIG_VP8_ENCODER const SadMxNFunc sad_16x16_neon = vp8_sad16x16_neon; const SadMxNFunc sad_8x16_neon = vp8_sad8x16_neon; const SadMxNFunc sad_16x8_neon = vp8_sad16x8_neon; const SadMxNFunc sad_8x8_neon = vp8_sad8x8_neon; const SadMxNFunc sad_4x4_neon = vp8_sad4x4_neon; INSTANTIATE_TEST_CASE_P(NEON, SADTest, ::testing::Values( make_tuple(16, 16, sad_16x16_neon, -1), make_tuple(8, 16, sad_8x16_neon, -1), make_tuple(16, 8, sad_16x8_neon, -1), make_tuple(8, 8, sad_8x8_neon, -1), make_tuple(4, 4, sad_4x4_neon, -1))); #endif // CONFIG_VP8_ENCODER #if CONFIG_VP9_ENCODER const SadMxNVp9Func sad_64x64_neon_vp9 = vp9_sad64x64_neon; const SadMxNVp9Func sad_32x32_neon_vp9 = vp9_sad32x32_neon; const SadMxNVp9Func sad_16x16_neon_vp9 = vp9_sad16x16_neon; const SadMxNVp9Func sad_8x8_neon_vp9 = vp9_sad8x8_neon; const SadMxNVp9Param neon_vp9_tests[] = { make_tuple(64, 64, sad_64x64_neon_vp9, -1), make_tuple(32, 32, sad_32x32_neon_vp9, -1), make_tuple(16, 16, sad_16x16_neon_vp9, -1), make_tuple(8, 8, sad_8x8_neon_vp9, -1), }; INSTANTIATE_TEST_CASE_P(NEON, SADVP9Test, ::testing::ValuesIn(neon_vp9_tests)); #endif // CONFIG_VP9_ENCODER #endif // HAVE_NEON //------------------------------------------------------------------------------ // x86 functions #if HAVE_MMX #if CONFIG_VP8_ENCODER const SadMxNFunc sad_16x16_mmx = vp8_sad16x16_mmx; const SadMxNFunc sad_8x16_mmx = vp8_sad8x16_mmx; const SadMxNFunc sad_16x8_mmx = vp8_sad16x8_mmx; const SadMxNFunc sad_8x8_mmx = vp8_sad8x8_mmx; const SadMxNFunc sad_4x4_mmx = vp8_sad4x4_mmx; const SadMxNParam mmx_tests[] = { make_tuple(16, 16, sad_16x16_mmx, -1), make_tuple(8, 16, sad_8x16_mmx, -1), make_tuple(16, 8, sad_16x8_mmx, -1), make_tuple(8, 8, sad_8x8_mmx, -1), make_tuple(4, 4, sad_4x4_mmx, -1), }; INSTANTIATE_TEST_CASE_P(MMX, SADTest, ::testing::ValuesIn(mmx_tests)); #endif // CONFIG_VP8_ENCODER #endif // HAVE_MMX #if HAVE_SSE #if CONFIG_VP9_ENCODER #if CONFIG_USE_X86INC const SadMxNVp9Func sad_4x4_sse_vp9 = vp9_sad4x4_sse; const SadMxNVp9Func sad_4x8_sse_vp9 = vp9_sad4x8_sse; INSTANTIATE_TEST_CASE_P(SSE, SADVP9Test, ::testing::Values( make_tuple(4, 4, sad_4x4_sse_vp9, -1), make_tuple(4, 8, sad_4x8_sse_vp9, -1))); const SadMxNx4Func sad_4x8x4d_sse = vp9_sad4x8x4d_sse; const SadMxNx4Func sad_4x4x4d_sse = vp9_sad4x4x4d_sse; INSTANTIATE_TEST_CASE_P(SSE, SADx4Test, ::testing::Values( make_tuple(4, 8, sad_4x8x4d_sse, -1), make_tuple(4, 4, sad_4x4x4d_sse, -1))); #endif // CONFIG_USE_X86INC #endif // CONFIG_VP9_ENCODER #endif // HAVE_SSE #if HAVE_SSE2 #if CONFIG_VP8_ENCODER const SadMxNFunc sad_16x16_wmt = vp8_sad16x16_wmt; const SadMxNFunc sad_8x16_wmt = vp8_sad8x16_wmt; const SadMxNFunc sad_16x8_wmt = vp8_sad16x8_wmt; const SadMxNFunc sad_8x8_wmt = vp8_sad8x8_wmt; const SadMxNFunc sad_4x4_wmt = vp8_sad4x4_wmt; const SadMxNParam sse2_tests[] = { make_tuple(16, 16, sad_16x16_wmt, -1), make_tuple(8, 16, sad_8x16_wmt, -1), make_tuple(16, 8, sad_16x8_wmt, -1), make_tuple(8, 8, sad_8x8_wmt, -1), make_tuple(4, 4, sad_4x4_wmt, -1), }; INSTANTIATE_TEST_CASE_P(SSE2, SADTest, ::testing::ValuesIn(sse2_tests)); #endif // CONFIG_VP8_ENCODER #if CONFIG_VP9_ENCODER #if CONFIG_USE_X86INC const SadMxNVp9Func sad_64x64_sse2_vp9 = vp9_sad64x64_sse2; const SadMxNVp9Func sad_64x32_sse2_vp9 = vp9_sad64x32_sse2; const SadMxNVp9Func sad_32x64_sse2_vp9 = vp9_sad32x64_sse2; const SadMxNVp9Func sad_32x32_sse2_vp9 = vp9_sad32x32_sse2; const SadMxNVp9Func sad_32x16_sse2_vp9 = vp9_sad32x16_sse2; const SadMxNVp9Func sad_16x32_sse2_vp9 = vp9_sad16x32_sse2; const SadMxNVp9Func sad_16x16_sse2_vp9 = vp9_sad16x16_sse2; const SadMxNVp9Func sad_16x8_sse2_vp9 = vp9_sad16x8_sse2; const SadMxNVp9Func sad_8x16_sse2_vp9 = vp9_sad8x16_sse2; const SadMxNVp9Func sad_8x8_sse2_vp9 = vp9_sad8x8_sse2; const SadMxNVp9Func sad_8x4_sse2_vp9 = vp9_sad8x4_sse2; const SadMxNx4Func sad_64x64x4d_sse2 = vp9_sad64x64x4d_sse2; const SadMxNx4Func sad_64x32x4d_sse2 = vp9_sad64x32x4d_sse2; const SadMxNx4Func sad_32x64x4d_sse2 = vp9_sad32x64x4d_sse2; const SadMxNx4Func sad_32x32x4d_sse2 = vp9_sad32x32x4d_sse2; const SadMxNx4Func sad_32x16x4d_sse2 = vp9_sad32x16x4d_sse2; const SadMxNx4Func sad_16x32x4d_sse2 = vp9_sad16x32x4d_sse2; const SadMxNx4Func sad_16x16x4d_sse2 = vp9_sad16x16x4d_sse2; const SadMxNx4Func sad_16x8x4d_sse2 = vp9_sad16x8x4d_sse2; const SadMxNx4Func sad_8x16x4d_sse2 = vp9_sad8x16x4d_sse2; const SadMxNx4Func sad_8x8x4d_sse2 = vp9_sad8x8x4d_sse2; const SadMxNx4Func sad_8x4x4d_sse2 = vp9_sad8x4x4d_sse2; #if CONFIG_VP9_HIGHBITDEPTH const SadMxNVp9Func highbd_sad8x4_sse2_vp9 = vp9_highbd_sad8x4_sse2; const SadMxNVp9Func highbd_sad8x8_sse2_vp9 = vp9_highbd_sad8x8_sse2; const SadMxNVp9Func highbd_sad8x16_sse2_vp9 = vp9_highbd_sad8x16_sse2; const SadMxNVp9Func highbd_sad16x8_sse2_vp9 = vp9_highbd_sad16x8_sse2; const SadMxNVp9Func highbd_sad16x16_sse2_vp9 = vp9_highbd_sad16x16_sse2; const SadMxNVp9Func highbd_sad16x32_sse2_vp9 = vp9_highbd_sad16x32_sse2; const SadMxNVp9Func highbd_sad32x16_sse2_vp9 = vp9_highbd_sad32x16_sse2; const SadMxNVp9Func highbd_sad32x32_sse2_vp9 = vp9_highbd_sad32x32_sse2; const SadMxNVp9Func highbd_sad32x64_sse2_vp9 = vp9_highbd_sad32x64_sse2; const SadMxNVp9Func highbd_sad64x32_sse2_vp9 = vp9_highbd_sad64x32_sse2; const SadMxNVp9Func highbd_sad64x64_sse2_vp9 = vp9_highbd_sad64x64_sse2; INSTANTIATE_TEST_CASE_P(SSE2, SADVP9Test, ::testing::Values( make_tuple(64, 64, sad_64x64_sse2_vp9, -1), make_tuple(64, 32, sad_64x32_sse2_vp9, -1), make_tuple(32, 64, sad_32x64_sse2_vp9, -1), make_tuple(32, 32, sad_32x32_sse2_vp9, -1), make_tuple(32, 16, sad_32x16_sse2_vp9, -1), make_tuple(16, 32, sad_16x32_sse2_vp9, -1), make_tuple(16, 16, sad_16x16_sse2_vp9, -1), make_tuple(16, 8, sad_16x8_sse2_vp9, -1), make_tuple(8, 16, sad_8x16_sse2_vp9, -1), make_tuple(8, 8, sad_8x8_sse2_vp9, -1), make_tuple(8, 4, sad_8x4_sse2_vp9, -1), make_tuple(8, 4, highbd_sad8x4_sse2_vp9, 8), make_tuple(8, 8, highbd_sad8x8_sse2_vp9, 8), make_tuple(8, 16, highbd_sad8x16_sse2_vp9, 8), make_tuple(16, 8, highbd_sad16x8_sse2_vp9, 8), make_tuple(16, 16, highbd_sad16x16_sse2_vp9, 8), make_tuple(16, 32, highbd_sad16x32_sse2_vp9, 8), make_tuple(32, 16, highbd_sad32x16_sse2_vp9, 8), make_tuple(32, 32, highbd_sad32x32_sse2_vp9, 8), make_tuple(32, 64, highbd_sad32x64_sse2_vp9, 8), make_tuple(64, 32, highbd_sad64x32_sse2_vp9, 8), make_tuple(64, 64, highbd_sad64x64_sse2_vp9, 8), make_tuple(8, 4, highbd_sad8x4_sse2_vp9, 10), make_tuple(8, 8, highbd_sad8x8_sse2_vp9, 10), make_tuple(8, 16, highbd_sad8x16_sse2_vp9, 10), make_tuple(16, 8, highbd_sad16x8_sse2_vp9, 10), make_tuple(16, 16, highbd_sad16x16_sse2_vp9, 10), make_tuple(16, 32, highbd_sad16x32_sse2_vp9, 10), make_tuple(32, 16, highbd_sad32x16_sse2_vp9, 10), make_tuple(32, 32, highbd_sad32x32_sse2_vp9, 10), make_tuple(32, 64, highbd_sad32x64_sse2_vp9, 10), make_tuple(64, 32, highbd_sad64x32_sse2_vp9, 10), make_tuple(64, 64, highbd_sad64x64_sse2_vp9, 10), make_tuple(8, 4, highbd_sad8x4_sse2_vp9, 12), make_tuple(8, 8, highbd_sad8x8_sse2_vp9, 12), make_tuple(8, 16, highbd_sad8x16_sse2_vp9, 12), make_tuple(16, 8, highbd_sad16x8_sse2_vp9, 12), make_tuple(16, 16, highbd_sad16x16_sse2_vp9, 12), make_tuple(16, 32, highbd_sad16x32_sse2_vp9, 12), make_tuple(32, 16, highbd_sad32x16_sse2_vp9, 12), make_tuple(32, 32, highbd_sad32x32_sse2_vp9, 12), make_tuple(32, 64, highbd_sad32x64_sse2_vp9, 12), make_tuple(64, 32, highbd_sad64x32_sse2_vp9, 12), make_tuple(64, 64, highbd_sad64x64_sse2_vp9, 12))); const SadMxNAvgVp9Func highbd_sad8x4_avg_sse2_vp9 = vp9_highbd_sad8x4_avg_sse2; const SadMxNAvgVp9Func highbd_sad8x8_avg_sse2_vp9 = vp9_highbd_sad8x8_avg_sse2; const SadMxNAvgVp9Func highbd_sad8x16_avg_sse2_vp9 = vp9_highbd_sad8x16_avg_sse2; const SadMxNAvgVp9Func highbd_sad16x8_avg_sse2_vp9 = vp9_highbd_sad16x8_avg_sse2; const SadMxNAvgVp9Func highbd_sad16x16_avg_sse2_vp9 = vp9_highbd_sad16x16_avg_sse2; const SadMxNAvgVp9Func highbd_sad16x32_avg_sse2_vp9 = vp9_highbd_sad16x32_avg_sse2; const SadMxNAvgVp9Func highbd_sad32x16_avg_sse2_vp9 = vp9_highbd_sad32x16_avg_sse2; const SadMxNAvgVp9Func highbd_sad32x32_avg_sse2_vp9 = vp9_highbd_sad32x32_avg_sse2; const SadMxNAvgVp9Func highbd_sad32x64_avg_sse2_vp9 = vp9_highbd_sad32x64_avg_sse2; const SadMxNAvgVp9Func highbd_sad64x32_avg_sse2_vp9 = vp9_highbd_sad64x32_avg_sse2; const SadMxNAvgVp9Func highbd_sad64x64_avg_sse2_vp9 = vp9_highbd_sad64x64_avg_sse2; INSTANTIATE_TEST_CASE_P(SSE2, SADavgVP9Test, ::testing::Values( make_tuple(8, 4, highbd_sad8x4_avg_sse2_vp9, 8), make_tuple(8, 8, highbd_sad8x8_avg_sse2_vp9, 8), make_tuple(8, 16, highbd_sad8x16_avg_sse2_vp9, 8), make_tuple(16, 8, highbd_sad16x8_avg_sse2_vp9, 8), make_tuple(16, 16, highbd_sad16x16_avg_sse2_vp9, 8), make_tuple(16, 32, highbd_sad16x32_avg_sse2_vp9, 8), make_tuple(32, 16, highbd_sad32x16_avg_sse2_vp9, 8), make_tuple(32, 32, highbd_sad32x32_avg_sse2_vp9, 8), make_tuple(32, 64, highbd_sad32x64_avg_sse2_vp9, 8), make_tuple(64, 32, highbd_sad64x32_avg_sse2_vp9, 8), make_tuple(64, 64, highbd_sad64x64_avg_sse2_vp9, 8), make_tuple(8, 4, highbd_sad8x4_avg_sse2_vp9, 10), make_tuple(8, 8, highbd_sad8x8_avg_sse2_vp9, 10), make_tuple(8, 16, highbd_sad8x16_avg_sse2_vp9, 10), make_tuple(16, 8, highbd_sad16x8_avg_sse2_vp9, 10), make_tuple(16, 16, highbd_sad16x16_avg_sse2_vp9, 10), make_tuple(16, 32, highbd_sad16x32_avg_sse2_vp9, 10), make_tuple(32, 16, highbd_sad32x16_avg_sse2_vp9, 10), make_tuple(32, 32, highbd_sad32x32_avg_sse2_vp9, 10), make_tuple(32, 64, highbd_sad32x64_avg_sse2_vp9, 10), make_tuple(64, 32, highbd_sad64x32_avg_sse2_vp9, 10), make_tuple(64, 64, highbd_sad64x64_avg_sse2_vp9, 10), make_tuple(8, 4, highbd_sad8x4_avg_sse2_vp9, 12), make_tuple(8, 8, highbd_sad8x8_avg_sse2_vp9, 12), make_tuple(8, 16, highbd_sad8x16_avg_sse2_vp9, 12), make_tuple(16, 8, highbd_sad16x8_avg_sse2_vp9, 12), make_tuple(16, 16, highbd_sad16x16_avg_sse2_vp9, 12), make_tuple(16, 32, highbd_sad16x32_avg_sse2_vp9, 12), make_tuple(32, 16, highbd_sad32x16_avg_sse2_vp9, 12), make_tuple(32, 32, highbd_sad32x32_avg_sse2_vp9, 12), make_tuple(32, 64, highbd_sad32x64_avg_sse2_vp9, 12), make_tuple(64, 32, highbd_sad64x32_avg_sse2_vp9, 12), make_tuple(64, 64, highbd_sad64x64_avg_sse2_vp9, 12))); const SadMxNx4Func highbd_sad_64x64x4d_sse2 = vp9_highbd_sad64x64x4d_sse2; const SadMxNx4Func highbd_sad_64x32x4d_sse2 = vp9_highbd_sad64x32x4d_sse2; const SadMxNx4Func highbd_sad_32x64x4d_sse2 = vp9_highbd_sad32x64x4d_sse2; const SadMxNx4Func highbd_sad_32x32x4d_sse2 = vp9_highbd_sad32x32x4d_sse2; const SadMxNx4Func highbd_sad_32x16x4d_sse2 = vp9_highbd_sad32x16x4d_sse2; const SadMxNx4Func highbd_sad_16x32x4d_sse2 = vp9_highbd_sad16x32x4d_sse2; const SadMxNx4Func highbd_sad_16x16x4d_sse2 = vp9_highbd_sad16x16x4d_sse2; const SadMxNx4Func highbd_sad_16x8x4d_sse2 = vp9_highbd_sad16x8x4d_sse2; const SadMxNx4Func highbd_sad_8x16x4d_sse2 = vp9_highbd_sad8x16x4d_sse2; const SadMxNx4Func highbd_sad_8x8x4d_sse2 = vp9_highbd_sad8x8x4d_sse2; const SadMxNx4Func highbd_sad_8x4x4d_sse2 = vp9_highbd_sad8x4x4d_sse2; const SadMxNx4Func highbd_sad_4x8x4d_sse2 = vp9_highbd_sad4x8x4d_sse2; const SadMxNx4Func highbd_sad_4x4x4d_sse2 = vp9_highbd_sad4x4x4d_sse2; INSTANTIATE_TEST_CASE_P(SSE2, SADx4Test, ::testing::Values( make_tuple(64, 64, sad_64x64x4d_sse2, -1), make_tuple(64, 32, sad_64x32x4d_sse2, -1), make_tuple(32, 64, sad_32x64x4d_sse2, -1), make_tuple(32, 32, sad_32x32x4d_sse2, -1), make_tuple(32, 16, sad_32x16x4d_sse2, -1), make_tuple(16, 32, sad_16x32x4d_sse2, -1), make_tuple(16, 16, sad_16x16x4d_sse2, -1), make_tuple(16, 8, sad_16x8x4d_sse2, -1), make_tuple(8, 16, sad_8x16x4d_sse2, -1), make_tuple(8, 8, sad_8x8x4d_sse2, -1), make_tuple(8, 4, sad_8x4x4d_sse2, -1), make_tuple(64, 64, highbd_sad_64x64x4d_sse2, 8), make_tuple(64, 32, highbd_sad_64x32x4d_sse2, 8), make_tuple(32, 64, highbd_sad_32x64x4d_sse2, 8), make_tuple(32, 32, highbd_sad_32x32x4d_sse2, 8), make_tuple(32, 16, highbd_sad_32x16x4d_sse2, 8), make_tuple(16, 32, highbd_sad_16x32x4d_sse2, 8), make_tuple(16, 16, highbd_sad_16x16x4d_sse2, 8), make_tuple(16, 8, highbd_sad_16x8x4d_sse2, 8), make_tuple(8, 16, highbd_sad_8x16x4d_sse2, 8), make_tuple(8, 8, highbd_sad_8x8x4d_sse2, 8), make_tuple(8, 4, highbd_sad_8x4x4d_sse2, 8), make_tuple(4, 8, highbd_sad_4x8x4d_sse2, 8), make_tuple(4, 4, highbd_sad_4x4x4d_sse2, 8), make_tuple(64, 64, highbd_sad_64x64x4d_sse2, 10), make_tuple(64, 32, highbd_sad_64x32x4d_sse2, 10), make_tuple(32, 64, highbd_sad_32x64x4d_sse2, 10), make_tuple(32, 32, highbd_sad_32x32x4d_sse2, 10), make_tuple(32, 16, highbd_sad_32x16x4d_sse2, 10), make_tuple(16, 32, highbd_sad_16x32x4d_sse2, 10), make_tuple(16, 16, highbd_sad_16x16x4d_sse2, 10), make_tuple(16, 8, highbd_sad_16x8x4d_sse2, 10), make_tuple(8, 16, highbd_sad_8x16x4d_sse2, 10), make_tuple(8, 8, highbd_sad_8x8x4d_sse2, 10), make_tuple(8, 4, highbd_sad_8x4x4d_sse2, 10), make_tuple(4, 8, highbd_sad_4x8x4d_sse2, 10), make_tuple(4, 4, highbd_sad_4x4x4d_sse2, 10), make_tuple(64, 64, highbd_sad_64x64x4d_sse2, 12), make_tuple(64, 32, highbd_sad_64x32x4d_sse2, 12), make_tuple(32, 64, highbd_sad_32x64x4d_sse2, 12), make_tuple(32, 32, highbd_sad_32x32x4d_sse2, 12), make_tuple(32, 16, highbd_sad_32x16x4d_sse2, 12), make_tuple(16, 32, highbd_sad_16x32x4d_sse2, 12), make_tuple(16, 16, highbd_sad_16x16x4d_sse2, 12), make_tuple(16, 8, highbd_sad_16x8x4d_sse2, 12), make_tuple(8, 16, highbd_sad_8x16x4d_sse2, 12), make_tuple(8, 8, highbd_sad_8x8x4d_sse2, 12), make_tuple(8, 4, highbd_sad_8x4x4d_sse2, 12), make_tuple(4, 8, highbd_sad_4x8x4d_sse2, 12), make_tuple(4, 4, highbd_sad_4x4x4d_sse2, 12))); #else INSTANTIATE_TEST_CASE_P(SSE2, SADVP9Test, ::testing::Values( make_tuple(64, 64, sad_64x64_sse2_vp9, -1), make_tuple(64, 32, sad_64x32_sse2_vp9, -1), make_tuple(32, 64, sad_32x64_sse2_vp9, -1), make_tuple(32, 32, sad_32x32_sse2_vp9, -1), make_tuple(32, 16, sad_32x16_sse2_vp9, -1), make_tuple(16, 32, sad_16x32_sse2_vp9, -1), make_tuple(16, 16, sad_16x16_sse2_vp9, -1), make_tuple(16, 8, sad_16x8_sse2_vp9, -1), make_tuple(8, 16, sad_8x16_sse2_vp9, -1), make_tuple(8, 8, sad_8x8_sse2_vp9, -1), make_tuple(8, 4, sad_8x4_sse2_vp9, -1))); INSTANTIATE_TEST_CASE_P(SSE2, SADx4Test, ::testing::Values( make_tuple(64, 64, sad_64x64x4d_sse2, -1), make_tuple(64, 32, sad_64x32x4d_sse2, -1), make_tuple(32, 64, sad_32x64x4d_sse2, -1), make_tuple(32, 32, sad_32x32x4d_sse2, -1), make_tuple(32, 16, sad_32x16x4d_sse2, -1), make_tuple(16, 32, sad_16x32x4d_sse2, -1), make_tuple(16, 16, sad_16x16x4d_sse2, -1), make_tuple(16, 8, sad_16x8x4d_sse2, -1), make_tuple(8, 16, sad_8x16x4d_sse2, -1), make_tuple(8, 8, sad_8x8x4d_sse2, -1), make_tuple(8, 4, sad_8x4x4d_sse2, -1))); #endif // CONFIG_VP9_HIGHBITDEPTH #endif // CONFIG_USE_X86INC #endif // CONFIG_VP9_ENCODER #endif // HAVE_SSE2 #if HAVE_SSE3 #if CONFIG_VP8_ENCODER const SadMxNx4Func sad_16x16x4d_sse3 = vp8_sad16x16x4d_sse3; const SadMxNx4Func sad_16x8x4d_sse3 = vp8_sad16x8x4d_sse3; const SadMxNx4Func sad_8x16x4d_sse3 = vp8_sad8x16x4d_sse3; const SadMxNx4Func sad_8x8x4d_sse3 = vp8_sad8x8x4d_sse3; const SadMxNx4Func sad_4x4x4d_sse3 = vp8_sad4x4x4d_sse3; INSTANTIATE_TEST_CASE_P(SSE3, SADx4Test, ::testing::Values( make_tuple(16, 16, sad_16x16x4d_sse3, -1), make_tuple(16, 8, sad_16x8x4d_sse3, -1), make_tuple(8, 16, sad_8x16x4d_sse3, -1), make_tuple(8, 8, sad_8x8x4d_sse3, -1), make_tuple(4, 4, sad_4x4x4d_sse3, -1))); #endif // CONFIG_VP8_ENCODER #endif // HAVE_SSE3 #if HAVE_SSSE3 #if CONFIG_USE_X86INC #if CONFIG_VP8_ENCODER const SadMxNFunc sad_16x16_sse3 = vp8_sad16x16_sse3; INSTANTIATE_TEST_CASE_P(SSE3, SADTest, ::testing::Values( make_tuple(16, 16, sad_16x16_sse3, -1))); #endif // CONFIG_VP8_ENCODER #endif // CONFIG_USE_X86INC #endif // HAVE_SSSE3 #if HAVE_AVX2 #if CONFIG_VP9_ENCODER const SadMxNx4Func sad_64x64x4d_avx2 = vp9_sad64x64x4d_avx2; const SadMxNx4Func sad_32x32x4d_avx2 = vp9_sad32x32x4d_avx2; INSTANTIATE_TEST_CASE_P(AVX2, SADx4Test, ::testing::Values( make_tuple(32, 32, sad_32x32x4d_avx2, -1), make_tuple(64, 64, sad_64x64x4d_avx2, -1))); #endif // CONFIG_VP9_ENCODER #endif // HAVE_AVX2 } // namespace