0095213790
1. vp8_sixtap_predict16x16_mmi 2. vp8_sixtap_predict8x8_mmi 3. vp8_sixtap_predict8x4_mmi 4. vp8_sixtap_predict4x4_mmi Change-Id: I186669d1a1d998a0f3ba3a548e25eee8b52c251b
386 lines
15 KiB
C++
386 lines
15 KiB
C++
/*
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* Copyright (c) 2013 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 <stdlib.h>
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#include <string.h>
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#include "third_party/googletest/src/include/gtest/gtest.h"
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#include "./vp8_rtcd.h"
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#include "./vpx_config.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 "vpx/vpx_integer.h"
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#include "vpx_mem/vpx_mem.h"
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namespace {
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using libvpx_test::ACMRandom;
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using std::tr1::make_tuple;
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typedef void (*PredictFunc)(uint8_t *src_ptr, int src_pixels_per_line,
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int xoffset, int yoffset, uint8_t *dst_ptr,
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int dst_pitch);
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typedef std::tr1::tuple<int, int, PredictFunc> PredictParam;
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class PredictTestBase : public ::testing::TestWithParam<PredictParam> {
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public:
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PredictTestBase()
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: width_(GET_PARAM(0)), height_(GET_PARAM(1)), predict_(GET_PARAM(2)),
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src_(NULL), padded_dst_(NULL), dst_(NULL), dst_c_(NULL) {}
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virtual void SetUp() {
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src_ = new uint8_t[kSrcSize];
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ASSERT_TRUE(src_ != NULL);
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// padded_dst_ provides a buffer of kBorderSize around the destination
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// memory to facilitate detecting out of bounds writes.
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dst_stride_ = kBorderSize + width_ + kBorderSize;
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padded_dst_size_ = dst_stride_ * (kBorderSize + height_ + kBorderSize);
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padded_dst_ =
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reinterpret_cast<uint8_t *>(vpx_memalign(16, padded_dst_size_));
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ASSERT_TRUE(padded_dst_ != NULL);
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dst_ = padded_dst_ + (kBorderSize * dst_stride_) + kBorderSize;
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dst_c_ = new uint8_t[16 * 16];
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ASSERT_TRUE(dst_c_ != NULL);
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memset(src_, 0, kSrcSize);
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memset(padded_dst_, 128, padded_dst_size_);
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memset(dst_c_, 0, 16 * 16);
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}
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virtual void TearDown() {
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delete[] src_;
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src_ = NULL;
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vpx_free(padded_dst_);
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padded_dst_ = NULL;
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dst_ = NULL;
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delete[] dst_c_;
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dst_c_ = NULL;
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libvpx_test::ClearSystemState();
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}
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protected:
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// Make reference arrays big enough for 16x16 functions. Six-tap filters need
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// 5 extra pixels outside of the macroblock.
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static const int kSrcStride = 21;
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static const int kSrcSize = kSrcStride * kSrcStride;
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static const int kBorderSize = 16;
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int width_;
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int height_;
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PredictFunc predict_;
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uint8_t *src_;
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uint8_t *padded_dst_;
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uint8_t *dst_;
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int padded_dst_size_;
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uint8_t *dst_c_;
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int dst_stride_;
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bool CompareBuffers(const uint8_t *a, int a_stride, const uint8_t *b,
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int b_stride) const {
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for (int height = 0; height < height_; ++height) {
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EXPECT_EQ(0, memcmp(a + height * a_stride, b + height * b_stride,
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sizeof(*a) * width_))
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<< "Row " << height << " does not match.";
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}
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return !HasFailure();
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}
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// Given a block of memory 'a' with size 'a_size', determine if all regions
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// excepting block 'b' described by 'b_stride', 'b_height', and 'b_width'
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// match pixel value 'c'.
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bool CheckBorder(const uint8_t *a, int a_size, const uint8_t *b, int b_width,
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int b_height, int b_stride, uint8_t c) const {
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const uint8_t *a_end = a + a_size;
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const int b_size = (b_stride * b_height) + b_width;
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const uint8_t *b_end = b + b_size;
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const int left_border = (b_stride - b_width) / 2;
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const int right_border = left_border + ((b_stride - b_width) % 2);
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EXPECT_GE(b - left_border, a) << "'b' does not start within 'a'";
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EXPECT_LE(b_end + right_border, a_end) << "'b' does not end within 'a'";
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// Top border.
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for (int pixel = 0; pixel < b - a - left_border; ++pixel) {
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EXPECT_EQ(c, a[pixel]) << "Mismatch at " << pixel << " in top border.";
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}
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// Left border.
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for (int height = 0; height < b_height; ++height) {
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for (int width = left_border; width > 0; --width) {
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EXPECT_EQ(c, b[height * b_stride - width])
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<< "Mismatch at row " << height << " column " << left_border - width
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<< " in left border.";
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}
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}
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// Right border.
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for (int height = 0; height < b_height; ++height) {
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for (int width = b_width; width < b_width + right_border; ++width) {
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EXPECT_EQ(c, b[height * b_stride + width])
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<< "Mismatch at row " << height << " column " << width - b_width
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<< " in right border.";
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}
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}
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// Bottom border.
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for (int pixel = static_cast<int>(b - a + b_size); pixel < a_size;
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++pixel) {
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EXPECT_EQ(c, a[pixel]) << "Mismatch at " << pixel << " in bottom border.";
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}
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return !HasFailure();
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}
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void TestWithRandomData(PredictFunc reference) {
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ACMRandom rnd(ACMRandom::DeterministicSeed());
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// Run tests for almost all possible offsets.
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for (int xoffset = 0; xoffset < 8; ++xoffset) {
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for (int yoffset = 0; yoffset < 8; ++yoffset) {
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if (xoffset == 0 && yoffset == 0) {
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// This represents a copy which is not required to be handled by this
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// module.
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continue;
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}
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for (int i = 0; i < kSrcSize; ++i) {
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src_[i] = rnd.Rand8();
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}
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reference(&src_[kSrcStride * 2 + 2], kSrcStride, xoffset, yoffset,
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dst_c_, 16);
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ASM_REGISTER_STATE_CHECK(predict_(&src_[kSrcStride * 2 + 2], kSrcStride,
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xoffset, yoffset, dst_, dst_stride_));
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ASSERT_TRUE(CompareBuffers(dst_c_, 16, dst_, dst_stride_));
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ASSERT_TRUE(CheckBorder(padded_dst_, padded_dst_size_, dst_, width_,
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height_, dst_stride_, 128));
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}
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}
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}
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void TestWithUnalignedDst(PredictFunc reference) {
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ACMRandom rnd(ACMRandom::DeterministicSeed());
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// Only the 4x4 need to be able to handle unaligned writes.
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if (width_ == 4 && height_ == 4) {
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for (int xoffset = 0; xoffset < 8; ++xoffset) {
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for (int yoffset = 0; yoffset < 8; ++yoffset) {
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if (xoffset == 0 && yoffset == 0) {
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continue;
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}
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for (int i = 0; i < kSrcSize; ++i) {
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src_[i] = rnd.Rand8();
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}
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reference(&src_[kSrcStride * 2 + 2], kSrcStride, xoffset, yoffset,
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dst_c_, 16);
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for (int i = 1; i < 4; ++i) {
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memset(padded_dst_, 128, padded_dst_size_);
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ASM_REGISTER_STATE_CHECK(predict_(&src_[kSrcStride * 2 + 2],
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kSrcStride, xoffset, yoffset,
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dst_ + i, dst_stride_ + i));
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ASSERT_TRUE(CompareBuffers(dst_c_, 16, dst_ + i, dst_stride_ + i));
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ASSERT_TRUE(CheckBorder(padded_dst_, padded_dst_size_, dst_ + i,
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width_, height_, dst_stride_ + i, 128));
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}
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}
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}
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}
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}
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};
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class SixtapPredictTest : public PredictTestBase {};
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TEST_P(SixtapPredictTest, TestWithRandomData) {
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TestWithRandomData(vp8_sixtap_predict16x16_c);
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}
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TEST_P(SixtapPredictTest, TestWithUnalignedDst) {
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TestWithUnalignedDst(vp8_sixtap_predict16x16_c);
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}
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TEST_P(SixtapPredictTest, TestWithPresetData) {
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// Test input
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static const uint8_t kTestData[kSrcSize] = {
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184, 4, 191, 82, 92, 41, 0, 1, 226, 236, 172, 20, 182, 42, 226,
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177, 79, 94, 77, 179, 203, 206, 198, 22, 192, 19, 75, 17, 192, 44,
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233, 120, 48, 168, 203, 141, 210, 203, 143, 180, 184, 59, 201, 110, 102,
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171, 32, 182, 10, 109, 105, 213, 60, 47, 236, 253, 67, 55, 14, 3,
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99, 247, 124, 148, 159, 71, 34, 114, 19, 177, 38, 203, 237, 239, 58,
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83, 155, 91, 10, 166, 201, 115, 124, 5, 163, 104, 2, 231, 160, 16,
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234, 4, 8, 103, 153, 167, 174, 187, 26, 193, 109, 64, 141, 90, 48,
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200, 174, 204, 36, 184, 114, 237, 43, 238, 242, 207, 86, 245, 182, 247,
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6, 161, 251, 14, 8, 148, 182, 182, 79, 208, 120, 188, 17, 6, 23,
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65, 206, 197, 13, 242, 126, 128, 224, 170, 110, 211, 121, 197, 200, 47,
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188, 207, 208, 184, 221, 216, 76, 148, 143, 156, 100, 8, 89, 117, 14,
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112, 183, 221, 54, 197, 208, 180, 69, 176, 94, 180, 131, 215, 121, 76,
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7, 54, 28, 216, 238, 249, 176, 58, 142, 64, 215, 242, 72, 49, 104,
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87, 161, 32, 52, 216, 230, 4, 141, 44, 181, 235, 224, 57, 195, 89,
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134, 203, 144, 162, 163, 126, 156, 84, 185, 42, 148, 145, 29, 221, 194,
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134, 52, 100, 166, 105, 60, 140, 110, 201, 184, 35, 181, 153, 93, 121,
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243, 227, 68, 131, 134, 232, 2, 35, 60, 187, 77, 209, 76, 106, 174,
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15, 241, 227, 115, 151, 77, 175, 36, 187, 121, 221, 223, 47, 118, 61,
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168, 105, 32, 237, 236, 167, 213, 238, 202, 17, 170, 24, 226, 247, 131,
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145, 6, 116, 117, 121, 11, 194, 41, 48, 126, 162, 13, 93, 209, 131,
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154, 122, 237, 187, 103, 217, 99, 60, 200, 45, 78, 115, 69, 49, 106,
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200, 194, 112, 60, 56, 234, 72, 251, 19, 120, 121, 182, 134, 215, 135,
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10, 114, 2, 247, 46, 105, 209, 145, 165, 153, 191, 243, 12, 5, 36,
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119, 206, 231, 231, 11, 32, 209, 83, 27, 229, 204, 149, 155, 83, 109,
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35, 93, 223, 37, 84, 14, 142, 37, 160, 52, 191, 96, 40, 204, 101,
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77, 67, 52, 53, 43, 63, 85, 253, 147, 113, 226, 96, 6, 125, 179,
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115, 161, 17, 83, 198, 101, 98, 85, 139, 3, 137, 75, 99, 178, 23,
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201, 255, 91, 253, 52, 134, 60, 138, 131, 208, 251, 101, 48, 2, 227,
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228, 118, 132, 245, 202, 75, 91, 44, 160, 231, 47, 41, 50, 147, 220,
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74, 92, 219, 165, 89, 16
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};
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// Expected results for xoffset = 2 and yoffset = 2.
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static const int kExpectedDstStride = 16;
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static const uint8_t kExpectedDst[256] = {
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117, 102, 74, 135, 42, 98, 175, 206, 70, 73, 222, 197, 50, 24, 39,
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49, 38, 105, 90, 47, 169, 40, 171, 215, 200, 73, 109, 141, 53, 85,
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177, 164, 79, 208, 124, 89, 212, 18, 81, 145, 151, 164, 217, 153, 91,
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154, 102, 102, 159, 75, 164, 152, 136, 51, 213, 219, 186, 116, 193, 224,
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186, 36, 231, 208, 84, 211, 155, 167, 35, 59, 42, 76, 216, 149, 73,
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201, 78, 149, 184, 100, 96, 196, 189, 198, 188, 235, 195, 117, 129, 120,
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129, 49, 25, 133, 113, 69, 221, 114, 70, 143, 99, 157, 108, 189, 140,
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78, 6, 55, 65, 240, 255, 245, 184, 72, 90, 100, 116, 131, 39, 60,
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234, 167, 33, 160, 88, 185, 200, 157, 159, 176, 127, 151, 138, 102, 168,
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106, 170, 86, 82, 219, 189, 76, 33, 115, 197, 106, 96, 198, 136, 97,
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141, 237, 151, 98, 137, 191, 185, 2, 57, 95, 142, 91, 255, 185, 97,
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137, 76, 162, 94, 173, 131, 193, 161, 81, 106, 72, 135, 222, 234, 137,
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66, 137, 106, 243, 210, 147, 95, 15, 137, 110, 85, 66, 16, 96, 167,
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147, 150, 173, 203, 140, 118, 196, 84, 147, 160, 19, 95, 101, 123, 74,
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132, 202, 82, 166, 12, 131, 166, 189, 170, 159, 85, 79, 66, 57, 152,
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132, 203, 194, 0, 1, 56, 146, 180, 224, 156, 28, 83, 181, 79, 76,
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80, 46, 160, 175, 59, 106, 43, 87, 75, 136, 85, 189, 46, 71, 200,
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90
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};
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ASM_REGISTER_STATE_CHECK(
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predict_(const_cast<uint8_t *>(kTestData) + kSrcStride * 2 + 2,
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kSrcStride, 2, 2, dst_, dst_stride_));
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ASSERT_TRUE(
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CompareBuffers(kExpectedDst, kExpectedDstStride, dst_, dst_stride_));
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}
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INSTANTIATE_TEST_CASE_P(
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C, SixtapPredictTest,
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::testing::Values(make_tuple(16, 16, &vp8_sixtap_predict16x16_c),
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make_tuple(8, 8, &vp8_sixtap_predict8x8_c),
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make_tuple(8, 4, &vp8_sixtap_predict8x4_c),
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make_tuple(4, 4, &vp8_sixtap_predict4x4_c)));
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#if HAVE_NEON
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INSTANTIATE_TEST_CASE_P(
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NEON, SixtapPredictTest,
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::testing::Values(make_tuple(16, 16, &vp8_sixtap_predict16x16_neon),
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make_tuple(8, 8, &vp8_sixtap_predict8x8_neon),
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make_tuple(8, 4, &vp8_sixtap_predict8x4_neon),
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make_tuple(4, 4, &vp8_sixtap_predict4x4_neon)));
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#endif
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#if HAVE_MMX
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INSTANTIATE_TEST_CASE_P(
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MMX, SixtapPredictTest,
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::testing::Values(make_tuple(4, 4, &vp8_sixtap_predict4x4_mmx)));
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#endif
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#if HAVE_SSE2
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INSTANTIATE_TEST_CASE_P(
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SSE2, SixtapPredictTest,
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::testing::Values(make_tuple(16, 16, &vp8_sixtap_predict16x16_sse2),
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make_tuple(8, 8, &vp8_sixtap_predict8x8_sse2),
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make_tuple(8, 4, &vp8_sixtap_predict8x4_sse2)));
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#endif
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#if HAVE_SSSE3
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INSTANTIATE_TEST_CASE_P(
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SSSE3, SixtapPredictTest,
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::testing::Values(make_tuple(16, 16, &vp8_sixtap_predict16x16_ssse3),
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make_tuple(8, 8, &vp8_sixtap_predict8x8_ssse3),
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make_tuple(8, 4, &vp8_sixtap_predict8x4_ssse3),
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make_tuple(4, 4, &vp8_sixtap_predict4x4_ssse3)));
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#endif
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#if HAVE_MSA
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INSTANTIATE_TEST_CASE_P(
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MSA, SixtapPredictTest,
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::testing::Values(make_tuple(16, 16, &vp8_sixtap_predict16x16_msa),
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make_tuple(8, 8, &vp8_sixtap_predict8x8_msa),
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make_tuple(8, 4, &vp8_sixtap_predict8x4_msa),
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make_tuple(4, 4, &vp8_sixtap_predict4x4_msa)));
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#endif
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#if HAVE_MMI
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INSTANTIATE_TEST_CASE_P(
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MMI, SixtapPredictTest,
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::testing::Values(make_tuple(16, 16, &vp8_sixtap_predict16x16_mmi),
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make_tuple(8, 8, &vp8_sixtap_predict8x8_mmi),
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make_tuple(8, 4, &vp8_sixtap_predict8x4_mmi),
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make_tuple(4, 4, &vp8_sixtap_predict4x4_mmi)));
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#endif
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class BilinearPredictTest : public PredictTestBase {};
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TEST_P(BilinearPredictTest, TestWithRandomData) {
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TestWithRandomData(vp8_bilinear_predict16x16_c);
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}
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TEST_P(BilinearPredictTest, TestWithUnalignedDst) {
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TestWithUnalignedDst(vp8_bilinear_predict16x16_c);
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}
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INSTANTIATE_TEST_CASE_P(
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C, BilinearPredictTest,
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::testing::Values(make_tuple(16, 16, &vp8_bilinear_predict16x16_c),
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make_tuple(8, 8, &vp8_bilinear_predict8x8_c),
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make_tuple(8, 4, &vp8_bilinear_predict8x4_c),
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make_tuple(4, 4, &vp8_bilinear_predict4x4_c)));
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#if HAVE_NEON
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INSTANTIATE_TEST_CASE_P(
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NEON, BilinearPredictTest,
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::testing::Values(make_tuple(16, 16, &vp8_bilinear_predict16x16_neon),
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make_tuple(8, 8, &vp8_bilinear_predict8x8_neon),
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make_tuple(8, 4, &vp8_bilinear_predict8x4_neon),
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make_tuple(4, 4, &vp8_bilinear_predict4x4_neon)));
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#endif
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#if HAVE_MMX
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INSTANTIATE_TEST_CASE_P(
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MMX, BilinearPredictTest,
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::testing::Values(make_tuple(8, 4, &vp8_bilinear_predict8x4_mmx),
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make_tuple(4, 4, &vp8_bilinear_predict4x4_mmx)));
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#endif
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#if HAVE_SSE2
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INSTANTIATE_TEST_CASE_P(
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SSE2, BilinearPredictTest,
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::testing::Values(make_tuple(16, 16, &vp8_bilinear_predict16x16_sse2),
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make_tuple(8, 8, &vp8_bilinear_predict8x8_sse2)));
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#endif
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#if HAVE_SSSE3
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INSTANTIATE_TEST_CASE_P(
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SSSE3, BilinearPredictTest,
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::testing::Values(make_tuple(16, 16, &vp8_bilinear_predict16x16_ssse3),
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make_tuple(8, 8, &vp8_bilinear_predict8x8_ssse3)));
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#endif
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#if HAVE_MSA
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INSTANTIATE_TEST_CASE_P(
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MSA, BilinearPredictTest,
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::testing::Values(make_tuple(16, 16, &vp8_bilinear_predict16x16_msa),
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make_tuple(8, 8, &vp8_bilinear_predict8x8_msa),
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make_tuple(8, 4, &vp8_bilinear_predict8x4_msa),
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make_tuple(4, 4, &vp8_bilinear_predict4x4_msa)));
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#endif
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} // namespace
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