547 строки
19 KiB
C++
547 строки
19 KiB
C++
/*
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* Copyright (c) 2012 The WebM project authors. All Rights Reserved.
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*
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* Use of this source code is governed by a BSD-style license
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* that can be found in the LICENSE file in the root of the source
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* tree. An additional intellectual property rights grant can be found
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* in the file PATENTS. All contributing project authors may
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* be found in the AUTHORS file in the root of the source tree.
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*/
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#include <string.h>
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#include <limits.h>
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#include <stdio.h>
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#include "./vpx_config.h"
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#if CONFIG_VP8_ENCODER
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#include "./vp8_rtcd.h"
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#endif
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#if CONFIG_VP9_ENCODER
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#include "./vp9_rtcd.h"
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#endif
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#include "vpx_mem/vpx_mem.h"
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#include "test/acm_random.h"
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#include "test/clear_system_state.h"
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#include "test/register_state_check.h"
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#include "test/util.h"
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#include "third_party/googletest/src/include/gtest/gtest.h"
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typedef unsigned int (*sad_m_by_n_fn_t)(const unsigned char *source_ptr,
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int source_stride,
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const unsigned char *reference_ptr,
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int reference_stride,
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unsigned int max_sad);
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typedef std::tr1::tuple<int, int, sad_m_by_n_fn_t> sad_m_by_n_test_param_t;
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typedef void (*sad_n_by_n_by_4_fn_t)(const uint8_t *src_ptr,
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int src_stride,
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const unsigned char * const ref_ptr[],
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int ref_stride,
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unsigned int *sad_array);
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typedef std::tr1::tuple<int, int, sad_n_by_n_by_4_fn_t>
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sad_n_by_n_by_4_test_param_t;
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using libvpx_test::ACMRandom;
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namespace {
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class SADTestBase : public ::testing::Test {
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public:
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SADTestBase(int width, int height) : width_(width), height_(height) {}
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static void SetUpTestCase() {
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source_data_ = reinterpret_cast<uint8_t*>(
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vpx_memalign(kDataAlignment, kDataBlockSize));
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reference_data_ = reinterpret_cast<uint8_t*>(
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vpx_memalign(kDataAlignment, kDataBufferSize));
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}
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static void TearDownTestCase() {
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vpx_free(source_data_);
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source_data_ = NULL;
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vpx_free(reference_data_);
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reference_data_ = NULL;
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}
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virtual void TearDown() {
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libvpx_test::ClearSystemState();
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}
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protected:
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// Handle blocks up to 4 blocks 64x64 with stride up to 128
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static const int kDataAlignment = 16;
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static const int kDataBlockSize = 64 * 128;
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static const int kDataBufferSize = 4 * kDataBlockSize;
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virtual void SetUp() {
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source_stride_ = (width_ + 31) & ~31;
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reference_stride_ = width_ * 2;
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rnd_.Reset(ACMRandom::DeterministicSeed());
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}
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virtual uint8_t* GetReference(int block_idx) {
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return reference_data_ + block_idx * kDataBlockSize;
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}
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// Sum of Absolute Differences. Given two blocks, calculate the absolute
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// difference between two pixels in the same relative location; accumulate.
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unsigned int ReferenceSAD(unsigned int max_sad, int block_idx = 0) {
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unsigned int sad = 0;
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const uint8_t* const reference = GetReference(block_idx);
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for (int h = 0; h < height_; ++h) {
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for (int w = 0; w < width_; ++w) {
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sad += abs(source_data_[h * source_stride_ + w]
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- reference[h * reference_stride_ + w]);
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}
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if (sad > max_sad) {
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break;
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}
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}
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return sad;
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}
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void FillConstant(uint8_t *data, int stride, uint8_t fill_constant) {
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for (int h = 0; h < height_; ++h) {
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for (int w = 0; w < width_; ++w) {
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data[h * stride + w] = fill_constant;
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}
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}
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}
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void FillRandom(uint8_t *data, int stride) {
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for (int h = 0; h < height_; ++h) {
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for (int w = 0; w < width_; ++w) {
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data[h * stride + w] = rnd_.Rand8();
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}
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}
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}
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int width_, height_;
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static uint8_t* source_data_;
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int source_stride_;
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static uint8_t* reference_data_;
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int reference_stride_;
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ACMRandom rnd_;
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};
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class SADTest : public SADTestBase,
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public ::testing::WithParamInterface<sad_m_by_n_test_param_t> {
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public:
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SADTest() : SADTestBase(GET_PARAM(0), GET_PARAM(1)) {}
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protected:
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unsigned int SAD(unsigned int max_sad, int block_idx = 0) {
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unsigned int ret;
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const uint8_t* const reference = GetReference(block_idx);
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REGISTER_STATE_CHECK(ret = GET_PARAM(2)(source_data_, source_stride_,
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reference, reference_stride_,
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max_sad));
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return ret;
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}
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void CheckSad(unsigned int max_sad) {
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unsigned int reference_sad, exp_sad;
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reference_sad = ReferenceSAD(max_sad);
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exp_sad = SAD(max_sad);
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if (reference_sad <= max_sad) {
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ASSERT_EQ(exp_sad, reference_sad);
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} else {
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// Alternative implementations are not required to check max_sad
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ASSERT_GE(exp_sad, reference_sad);
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}
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}
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};
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class SADx4Test : public SADTestBase,
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public ::testing::WithParamInterface<sad_n_by_n_by_4_test_param_t> {
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public:
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SADx4Test() : SADTestBase(GET_PARAM(0), GET_PARAM(1)) {}
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protected:
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void SADs(unsigned int *results) {
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const uint8_t* refs[] = {GetReference(0), GetReference(1),
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GetReference(2), GetReference(3)};
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REGISTER_STATE_CHECK(GET_PARAM(2)(source_data_, source_stride_,
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refs, reference_stride_,
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results));
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}
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void CheckSADs() {
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unsigned int reference_sad, exp_sad[4];
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SADs(exp_sad);
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for (int block = 0; block < 4; block++) {
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reference_sad = ReferenceSAD(UINT_MAX, block);
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EXPECT_EQ(exp_sad[block], reference_sad) << "block " << block;
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}
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}
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};
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uint8_t* SADTestBase::source_data_ = NULL;
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uint8_t* SADTestBase::reference_data_ = NULL;
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TEST_P(SADTest, MaxRef) {
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FillConstant(source_data_, source_stride_, 0);
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FillConstant(reference_data_, reference_stride_, 255);
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CheckSad(UINT_MAX);
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}
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TEST_P(SADx4Test, MaxRef) {
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FillConstant(source_data_, source_stride_, 0);
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FillConstant(GetReference(0), reference_stride_, 255);
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FillConstant(GetReference(1), reference_stride_, 255);
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FillConstant(GetReference(2), reference_stride_, 255);
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FillConstant(GetReference(3), reference_stride_, 255);
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CheckSADs();
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}
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TEST_P(SADTest, MaxSrc) {
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FillConstant(source_data_, source_stride_, 255);
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FillConstant(reference_data_, reference_stride_, 0);
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CheckSad(UINT_MAX);
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}
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TEST_P(SADx4Test, MaxSrc) {
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FillConstant(source_data_, source_stride_, 255);
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FillConstant(GetReference(0), reference_stride_, 0);
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FillConstant(GetReference(1), reference_stride_, 0);
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FillConstant(GetReference(2), reference_stride_, 0);
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FillConstant(GetReference(3), reference_stride_, 0);
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CheckSADs();
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}
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TEST_P(SADTest, ShortRef) {
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int tmp_stride = reference_stride_;
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reference_stride_ >>= 1;
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FillRandom(source_data_, source_stride_);
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FillRandom(reference_data_, reference_stride_);
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CheckSad(UINT_MAX);
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reference_stride_ = tmp_stride;
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}
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TEST_P(SADx4Test, ShortRef) {
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int tmp_stride = reference_stride_;
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reference_stride_ >>= 1;
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FillRandom(source_data_, source_stride_);
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FillRandom(GetReference(0), reference_stride_);
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FillRandom(GetReference(1), reference_stride_);
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FillRandom(GetReference(2), reference_stride_);
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FillRandom(GetReference(3), reference_stride_);
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CheckSADs();
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reference_stride_ = tmp_stride;
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}
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TEST_P(SADTest, UnalignedRef) {
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// The reference frame, but not the source frame, may be unaligned for
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// certain types of searches.
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int tmp_stride = reference_stride_;
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reference_stride_ -= 1;
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FillRandom(source_data_, source_stride_);
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FillRandom(reference_data_, reference_stride_);
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CheckSad(UINT_MAX);
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reference_stride_ = tmp_stride;
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}
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TEST_P(SADx4Test, UnalignedRef) {
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// The reference frame, but not the source frame, may be unaligned for
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// certain types of searches.
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int tmp_stride = reference_stride_;
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reference_stride_ -= 1;
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FillRandom(source_data_, source_stride_);
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FillRandom(GetReference(0), reference_stride_);
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FillRandom(GetReference(1), reference_stride_);
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FillRandom(GetReference(2), reference_stride_);
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FillRandom(GetReference(3), reference_stride_);
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CheckSADs();
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reference_stride_ = tmp_stride;
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}
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TEST_P(SADTest, ShortSrc) {
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int tmp_stride = source_stride_;
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source_stride_ >>= 1;
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FillRandom(source_data_, source_stride_);
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FillRandom(reference_data_, reference_stride_);
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CheckSad(UINT_MAX);
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source_stride_ = tmp_stride;
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}
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TEST_P(SADx4Test, ShortSrc) {
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int tmp_stride = source_stride_;
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source_stride_ >>= 1;
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FillRandom(source_data_, source_stride_);
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FillRandom(GetReference(0), reference_stride_);
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FillRandom(GetReference(1), reference_stride_);
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FillRandom(GetReference(2), reference_stride_);
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FillRandom(GetReference(3), reference_stride_);
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CheckSADs();
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source_stride_ = tmp_stride;
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}
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TEST_P(SADTest, MaxSAD) {
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// Verify that, when max_sad is set, the implementation does not return a
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// value lower than the reference.
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FillConstant(source_data_, source_stride_, 255);
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FillConstant(reference_data_, reference_stride_, 0);
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CheckSad(128);
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}
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using std::tr1::make_tuple;
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#if CONFIG_VP8_ENCODER
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const sad_m_by_n_fn_t sad_16x16_c = vp8_sad16x16_c;
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const sad_m_by_n_fn_t sad_8x16_c = vp8_sad8x16_c;
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const sad_m_by_n_fn_t sad_16x8_c = vp8_sad16x8_c;
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const sad_m_by_n_fn_t sad_8x8_c = vp8_sad8x8_c;
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const sad_m_by_n_fn_t sad_4x4_c = vp8_sad4x4_c;
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#endif
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#if CONFIG_VP9_ENCODER
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const sad_m_by_n_fn_t sad_64x64_c_vp9 = vp9_sad64x64_c;
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const sad_m_by_n_fn_t sad_32x32_c_vp9 = vp9_sad32x32_c;
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const sad_m_by_n_fn_t sad_16x16_c_vp9 = vp9_sad16x16_c;
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const sad_m_by_n_fn_t sad_8x16_c_vp9 = vp9_sad8x16_c;
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const sad_m_by_n_fn_t sad_16x8_c_vp9 = vp9_sad16x8_c;
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const sad_m_by_n_fn_t sad_8x8_c_vp9 = vp9_sad8x8_c;
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const sad_m_by_n_fn_t sad_8x4_c_vp9 = vp9_sad8x4_c;
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const sad_m_by_n_fn_t sad_4x8_c_vp9 = vp9_sad4x8_c;
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const sad_m_by_n_fn_t sad_4x4_c_vp9 = vp9_sad4x4_c;
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#endif
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const sad_m_by_n_test_param_t c_tests[] = {
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#if CONFIG_VP8_ENCODER
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make_tuple(16, 16, sad_16x16_c),
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make_tuple(8, 16, sad_8x16_c),
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make_tuple(16, 8, sad_16x8_c),
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make_tuple(8, 8, sad_8x8_c),
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make_tuple(4, 4, sad_4x4_c),
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#endif
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#if CONFIG_VP9_ENCODER
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make_tuple(64, 64, sad_64x64_c_vp9),
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make_tuple(32, 32, sad_32x32_c_vp9),
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make_tuple(16, 16, sad_16x16_c_vp9),
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make_tuple(8, 16, sad_8x16_c_vp9),
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make_tuple(16, 8, sad_16x8_c_vp9),
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make_tuple(8, 8, sad_8x8_c_vp9),
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make_tuple(8, 4, sad_8x4_c_vp9),
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make_tuple(4, 8, sad_4x8_c_vp9),
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make_tuple(4, 4, sad_4x4_c_vp9),
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#endif
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};
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INSTANTIATE_TEST_CASE_P(C, SADTest, ::testing::ValuesIn(c_tests));
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#if CONFIG_VP9_ENCODER
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const sad_n_by_n_by_4_fn_t sad_64x64x4d_c = vp9_sad64x64x4d_c;
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const sad_n_by_n_by_4_fn_t sad_64x32x4d_c = vp9_sad64x32x4d_c;
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const sad_n_by_n_by_4_fn_t sad_32x64x4d_c = vp9_sad32x64x4d_c;
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const sad_n_by_n_by_4_fn_t sad_32x32x4d_c = vp9_sad32x32x4d_c;
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const sad_n_by_n_by_4_fn_t sad_32x16x4d_c = vp9_sad32x16x4d_c;
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const sad_n_by_n_by_4_fn_t sad_16x32x4d_c = vp9_sad16x32x4d_c;
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const sad_n_by_n_by_4_fn_t sad_16x16x4d_c = vp9_sad16x16x4d_c;
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const sad_n_by_n_by_4_fn_t sad_16x8x4d_c = vp9_sad16x8x4d_c;
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const sad_n_by_n_by_4_fn_t sad_8x16x4d_c = vp9_sad8x16x4d_c;
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const sad_n_by_n_by_4_fn_t sad_8x8x4d_c = vp9_sad8x8x4d_c;
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const sad_n_by_n_by_4_fn_t sad_8x4x4d_c = vp9_sad8x4x4d_c;
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const sad_n_by_n_by_4_fn_t sad_4x8x4d_c = vp9_sad4x8x4d_c;
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const sad_n_by_n_by_4_fn_t sad_4x4x4d_c = vp9_sad4x4x4d_c;
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INSTANTIATE_TEST_CASE_P(C, SADx4Test, ::testing::Values(
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make_tuple(64, 64, sad_64x64x4d_c),
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make_tuple(64, 32, sad_64x32x4d_c),
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make_tuple(32, 64, sad_32x64x4d_c),
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make_tuple(32, 32, sad_32x32x4d_c),
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make_tuple(32, 16, sad_32x16x4d_c),
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make_tuple(16, 32, sad_16x32x4d_c),
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make_tuple(16, 16, sad_16x16x4d_c),
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make_tuple(16, 8, sad_16x8x4d_c),
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make_tuple(8, 16, sad_8x16x4d_c),
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make_tuple(8, 8, sad_8x8x4d_c),
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make_tuple(8, 4, sad_8x4x4d_c),
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make_tuple(4, 8, sad_4x8x4d_c),
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make_tuple(4, 4, sad_4x4x4d_c)));
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#endif
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// ARM tests
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#if HAVE_MEDIA
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const sad_m_by_n_fn_t sad_16x16_armv6 = vp8_sad16x16_armv6;
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INSTANTIATE_TEST_CASE_P(MEDIA, SADTest, ::testing::Values(
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make_tuple(16, 16, sad_16x16_armv6)));
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#endif
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#if HAVE_NEON
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const sad_m_by_n_fn_t sad_16x16_neon = vp8_sad16x16_neon;
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const sad_m_by_n_fn_t sad_8x16_neon = vp8_sad8x16_neon;
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const sad_m_by_n_fn_t sad_16x8_neon = vp8_sad16x8_neon;
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const sad_m_by_n_fn_t sad_8x8_neon = vp8_sad8x8_neon;
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const sad_m_by_n_fn_t sad_4x4_neon = vp8_sad4x4_neon;
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INSTANTIATE_TEST_CASE_P(NEON, SADTest, ::testing::Values(
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make_tuple(16, 16, sad_16x16_neon),
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make_tuple(8, 16, sad_8x16_neon),
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make_tuple(16, 8, sad_16x8_neon),
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make_tuple(8, 8, sad_8x8_neon),
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make_tuple(4, 4, sad_4x4_neon)));
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#endif
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// X86 tests
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#if HAVE_MMX
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#if CONFIG_VP8_ENCODER
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const sad_m_by_n_fn_t sad_16x16_mmx = vp8_sad16x16_mmx;
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const sad_m_by_n_fn_t sad_8x16_mmx = vp8_sad8x16_mmx;
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const sad_m_by_n_fn_t sad_16x8_mmx = vp8_sad16x8_mmx;
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const sad_m_by_n_fn_t sad_8x8_mmx = vp8_sad8x8_mmx;
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const sad_m_by_n_fn_t sad_4x4_mmx = vp8_sad4x4_mmx;
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#endif
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#if CONFIG_VP9_ENCODER
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const sad_m_by_n_fn_t sad_16x16_mmx_vp9 = vp9_sad16x16_mmx;
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const sad_m_by_n_fn_t sad_8x16_mmx_vp9 = vp9_sad8x16_mmx;
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const sad_m_by_n_fn_t sad_16x8_mmx_vp9 = vp9_sad16x8_mmx;
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const sad_m_by_n_fn_t sad_8x8_mmx_vp9 = vp9_sad8x8_mmx;
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const sad_m_by_n_fn_t sad_4x4_mmx_vp9 = vp9_sad4x4_mmx;
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#endif
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const sad_m_by_n_test_param_t mmx_tests[] = {
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#if CONFIG_VP8_ENCODER
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make_tuple(16, 16, sad_16x16_mmx),
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make_tuple(8, 16, sad_8x16_mmx),
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make_tuple(16, 8, sad_16x8_mmx),
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|
make_tuple(8, 8, sad_8x8_mmx),
|
|
make_tuple(4, 4, sad_4x4_mmx),
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|
#endif
|
|
#if CONFIG_VP9_ENCODER
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|
make_tuple(16, 16, sad_16x16_mmx_vp9),
|
|
make_tuple(8, 16, sad_8x16_mmx_vp9),
|
|
make_tuple(16, 8, sad_16x8_mmx_vp9),
|
|
make_tuple(8, 8, sad_8x8_mmx_vp9),
|
|
make_tuple(4, 4, sad_4x4_mmx_vp9),
|
|
#endif
|
|
};
|
|
INSTANTIATE_TEST_CASE_P(MMX, SADTest, ::testing::ValuesIn(mmx_tests));
|
|
#endif
|
|
|
|
#if HAVE_SSE
|
|
#if CONFIG_VP9_ENCODER
|
|
#if CONFIG_USE_X86INC
|
|
const sad_m_by_n_fn_t sad_4x4_sse_vp9 = vp9_sad4x4_sse;
|
|
const sad_m_by_n_fn_t sad_4x8_sse_vp9 = vp9_sad4x8_sse;
|
|
INSTANTIATE_TEST_CASE_P(SSE, SADTest, ::testing::Values(
|
|
make_tuple(4, 4, sad_4x4_sse_vp9),
|
|
make_tuple(4, 8, sad_4x8_sse_vp9)));
|
|
|
|
const sad_n_by_n_by_4_fn_t sad_4x8x4d_sse = vp9_sad4x8x4d_sse;
|
|
const sad_n_by_n_by_4_fn_t sad_4x4x4d_sse = vp9_sad4x4x4d_sse;
|
|
INSTANTIATE_TEST_CASE_P(SSE, SADx4Test, ::testing::Values(
|
|
make_tuple(4, 8, sad_4x8x4d_sse),
|
|
make_tuple(4, 4, sad_4x4x4d_sse)));
|
|
#endif
|
|
#endif
|
|
#endif
|
|
|
|
#if HAVE_SSE2
|
|
#if CONFIG_VP8_ENCODER
|
|
const sad_m_by_n_fn_t sad_16x16_wmt = vp8_sad16x16_wmt;
|
|
const sad_m_by_n_fn_t sad_8x16_wmt = vp8_sad8x16_wmt;
|
|
const sad_m_by_n_fn_t sad_16x8_wmt = vp8_sad16x8_wmt;
|
|
const sad_m_by_n_fn_t sad_8x8_wmt = vp8_sad8x8_wmt;
|
|
const sad_m_by_n_fn_t sad_4x4_wmt = vp8_sad4x4_wmt;
|
|
#endif
|
|
#if CONFIG_VP9_ENCODER
|
|
#if CONFIG_USE_X86INC
|
|
const sad_m_by_n_fn_t sad_64x64_sse2_vp9 = vp9_sad64x64_sse2;
|
|
const sad_m_by_n_fn_t sad_64x32_sse2_vp9 = vp9_sad64x32_sse2;
|
|
const sad_m_by_n_fn_t sad_32x64_sse2_vp9 = vp9_sad32x64_sse2;
|
|
const sad_m_by_n_fn_t sad_32x32_sse2_vp9 = vp9_sad32x32_sse2;
|
|
const sad_m_by_n_fn_t sad_32x16_sse2_vp9 = vp9_sad32x16_sse2;
|
|
const sad_m_by_n_fn_t sad_16x32_sse2_vp9 = vp9_sad16x32_sse2;
|
|
const sad_m_by_n_fn_t sad_16x16_sse2_vp9 = vp9_sad16x16_sse2;
|
|
const sad_m_by_n_fn_t sad_16x8_sse2_vp9 = vp9_sad16x8_sse2;
|
|
const sad_m_by_n_fn_t sad_8x16_sse2_vp9 = vp9_sad8x16_sse2;
|
|
const sad_m_by_n_fn_t sad_8x8_sse2_vp9 = vp9_sad8x8_sse2;
|
|
const sad_m_by_n_fn_t sad_8x4_sse2_vp9 = vp9_sad8x4_sse2;
|
|
#endif
|
|
#endif
|
|
const sad_m_by_n_test_param_t sse2_tests[] = {
|
|
#if CONFIG_VP8_ENCODER
|
|
make_tuple(16, 16, sad_16x16_wmt),
|
|
make_tuple(8, 16, sad_8x16_wmt),
|
|
make_tuple(16, 8, sad_16x8_wmt),
|
|
make_tuple(8, 8, sad_8x8_wmt),
|
|
make_tuple(4, 4, sad_4x4_wmt),
|
|
#endif
|
|
#if CONFIG_VP9_ENCODER
|
|
#if CONFIG_USE_X86INC
|
|
make_tuple(64, 64, sad_64x64_sse2_vp9),
|
|
make_tuple(64, 32, sad_64x32_sse2_vp9),
|
|
make_tuple(32, 64, sad_32x64_sse2_vp9),
|
|
make_tuple(32, 32, sad_32x32_sse2_vp9),
|
|
make_tuple(32, 16, sad_32x16_sse2_vp9),
|
|
make_tuple(16, 32, sad_16x32_sse2_vp9),
|
|
make_tuple(16, 16, sad_16x16_sse2_vp9),
|
|
make_tuple(16, 8, sad_16x8_sse2_vp9),
|
|
make_tuple(8, 16, sad_8x16_sse2_vp9),
|
|
make_tuple(8, 8, sad_8x8_sse2_vp9),
|
|
make_tuple(8, 4, sad_8x4_sse2_vp9),
|
|
#endif
|
|
#endif
|
|
};
|
|
INSTANTIATE_TEST_CASE_P(SSE2, SADTest, ::testing::ValuesIn(sse2_tests));
|
|
|
|
#if CONFIG_VP9_ENCODER
|
|
#if CONFIG_USE_X86INC
|
|
const sad_n_by_n_by_4_fn_t sad_64x64x4d_sse2 = vp9_sad64x64x4d_sse2;
|
|
const sad_n_by_n_by_4_fn_t sad_64x32x4d_sse2 = vp9_sad64x32x4d_sse2;
|
|
const sad_n_by_n_by_4_fn_t sad_32x64x4d_sse2 = vp9_sad32x64x4d_sse2;
|
|
const sad_n_by_n_by_4_fn_t sad_32x32x4d_sse2 = vp9_sad32x32x4d_sse2;
|
|
const sad_n_by_n_by_4_fn_t sad_32x16x4d_sse2 = vp9_sad32x16x4d_sse2;
|
|
const sad_n_by_n_by_4_fn_t sad_16x32x4d_sse2 = vp9_sad16x32x4d_sse2;
|
|
const sad_n_by_n_by_4_fn_t sad_16x16x4d_sse2 = vp9_sad16x16x4d_sse2;
|
|
const sad_n_by_n_by_4_fn_t sad_16x8x4d_sse2 = vp9_sad16x8x4d_sse2;
|
|
const sad_n_by_n_by_4_fn_t sad_8x16x4d_sse2 = vp9_sad8x16x4d_sse2;
|
|
const sad_n_by_n_by_4_fn_t sad_8x8x4d_sse2 = vp9_sad8x8x4d_sse2;
|
|
const sad_n_by_n_by_4_fn_t sad_8x4x4d_sse2 = vp9_sad8x4x4d_sse2;
|
|
INSTANTIATE_TEST_CASE_P(SSE2, SADx4Test, ::testing::Values(
|
|
make_tuple(64, 64, sad_64x64x4d_sse2),
|
|
make_tuple(64, 32, sad_64x32x4d_sse2),
|
|
make_tuple(32, 64, sad_32x64x4d_sse2),
|
|
make_tuple(32, 32, sad_32x32x4d_sse2),
|
|
make_tuple(32, 16, sad_32x16x4d_sse2),
|
|
make_tuple(16, 32, sad_16x32x4d_sse2),
|
|
make_tuple(16, 16, sad_16x16x4d_sse2),
|
|
make_tuple(16, 8, sad_16x8x4d_sse2),
|
|
make_tuple(8, 16, sad_8x16x4d_sse2),
|
|
make_tuple(8, 8, sad_8x8x4d_sse2),
|
|
make_tuple(8, 4, sad_8x4x4d_sse2)));
|
|
#endif
|
|
#endif
|
|
#endif
|
|
|
|
#if HAVE_SSE3
|
|
#if CONFIG_VP8_ENCODER
|
|
const sad_n_by_n_by_4_fn_t sad_16x16x4d_sse3 = vp8_sad16x16x4d_sse3;
|
|
const sad_n_by_n_by_4_fn_t sad_16x8x4d_sse3 = vp8_sad16x8x4d_sse3;
|
|
const sad_n_by_n_by_4_fn_t sad_8x16x4d_sse3 = vp8_sad8x16x4d_sse3;
|
|
const sad_n_by_n_by_4_fn_t sad_8x8x4d_sse3 = vp8_sad8x8x4d_sse3;
|
|
const sad_n_by_n_by_4_fn_t sad_4x4x4d_sse3 = vp8_sad4x4x4d_sse3;
|
|
INSTANTIATE_TEST_CASE_P(SSE3, SADx4Test, ::testing::Values(
|
|
make_tuple(16, 16, sad_16x16x4d_sse3),
|
|
make_tuple(16, 8, sad_16x8x4d_sse3),
|
|
make_tuple(8, 16, sad_8x16x4d_sse3),
|
|
make_tuple(8, 8, sad_8x8x4d_sse3),
|
|
make_tuple(4, 4, sad_4x4x4d_sse3)));
|
|
#endif
|
|
#endif
|
|
|
|
#if HAVE_SSSE3
|
|
#if CONFIG_USE_X86INC
|
|
const sad_m_by_n_fn_t sad_16x16_sse3 = vp8_sad16x16_sse3;
|
|
INSTANTIATE_TEST_CASE_P(SSE3, SADTest, ::testing::Values(
|
|
make_tuple(16, 16, sad_16x16_sse3)));
|
|
#endif
|
|
#endif
|
|
|
|
} // namespace
|