358 строки
11 KiB
C++
358 строки
11 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 "test/acm_random.h"
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#include "test/register_state_check.h"
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#include "third_party/googletest/src/include/gtest/gtest.h"
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extern "C" {
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#include "vpx_config.h"
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#include "vp8_rtcd.h"
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#include "vp8/common/blockd.h"
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#include "vpx_mem/vpx_mem.h"
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}
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namespace {
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using libvpx_test::ACMRandom;
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class IntraPredBase {
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protected:
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void SetupMacroblock(uint8_t *data, int block_size, int stride,
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int num_planes) {
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memset(&mb_, 0, sizeof(mb_));
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memset(&mi_, 0, sizeof(mi_));
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mb_.up_available = 1;
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mb_.left_available = 1;
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mb_.mode_info_context = &mi_;
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stride_ = stride;
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block_size_ = block_size;
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num_planes_ = num_planes;
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for (int p = 0; p < num_planes; p++)
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data_ptr_[p] = data + stride * (block_size + 1) * p +
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stride + block_size;
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}
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void FillRandom() {
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// Fill edges with random data
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ACMRandom rnd(ACMRandom::DeterministicSeed());
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for (int p = 0; p < num_planes_; p++) {
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for (int x = -1 ; x <= block_size_; x++)
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data_ptr_[p][x - stride_] = rnd.Rand8();
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for (int y = 0; y < block_size_; y++)
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data_ptr_[p][y * stride_ - 1] = rnd.Rand8();
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}
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}
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virtual void Predict(MB_PREDICTION_MODE mode) = 0;
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void SetLeftUnavailable() {
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mb_.left_available = 0;
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for (int p = 0; p < num_planes_; p++)
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for (int i = -1; i < block_size_; ++i)
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data_ptr_[p][stride_ * i - 1] = 129;
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}
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void SetTopUnavailable() {
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mb_.up_available = 0;
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for (int p = 0; p < num_planes_; p++)
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memset(&data_ptr_[p][-1 - stride_], 127, block_size_ + 2);
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}
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void SetTopLeftUnavailable() {
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SetLeftUnavailable();
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SetTopUnavailable();
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}
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int BlockSizeLog2Min1() const {
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switch (block_size_) {
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case 16:
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return 3;
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case 8:
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return 2;
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default:
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return 0;
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}
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}
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// check DC prediction output against a reference
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void CheckDCPrediction() const {
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for (int p = 0; p < num_planes_; p++) {
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// calculate expected DC
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int expected;
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if (mb_.up_available || mb_.left_available) {
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int sum = 0, shift = BlockSizeLog2Min1() + mb_.up_available +
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mb_.left_available;
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if (mb_.up_available)
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for (int x = 0; x < block_size_; x++)
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sum += data_ptr_[p][x - stride_];
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if (mb_.left_available)
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for (int y = 0; y < block_size_; y++)
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sum += data_ptr_[p][y * stride_ - 1];
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expected = (sum + (1 << (shift - 1))) >> shift;
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} else
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expected = 0x80;
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// check that all subsequent lines are equal to the first
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for (int y = 1; y < block_size_; ++y)
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ASSERT_EQ(0, memcmp(data_ptr_[p], &data_ptr_[p][y * stride_],
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block_size_));
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// within the first line, ensure that each pixel has the same value
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for (int x = 1; x < block_size_; ++x)
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ASSERT_EQ(data_ptr_[p][0], data_ptr_[p][x]);
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// now ensure that that pixel has the expected (DC) value
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ASSERT_EQ(expected, data_ptr_[p][0]);
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}
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}
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// check V prediction output against a reference
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void CheckVPrediction() const {
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// check that all lines equal the top border
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for (int p = 0; p < num_planes_; p++)
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for (int y = 0; y < block_size_; y++)
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ASSERT_EQ(0, memcmp(&data_ptr_[p][-stride_],
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&data_ptr_[p][y * stride_], block_size_));
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}
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// check H prediction output against a reference
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void CheckHPrediction() const {
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// for each line, ensure that each pixel is equal to the left border
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for (int p = 0; p < num_planes_; p++)
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for (int y = 0; y < block_size_; y++)
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for (int x = 0; x < block_size_; x++)
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ASSERT_EQ(data_ptr_[p][-1 + y * stride_],
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data_ptr_[p][x + y * stride_]);
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}
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static int ClipByte(int value) {
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if (value > 255)
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return 255;
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else if (value < 0)
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return 0;
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return value;
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}
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// check TM prediction output against a reference
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void CheckTMPrediction() const {
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for (int p = 0; p < num_planes_; p++)
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for (int y = 0; y < block_size_; y++)
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for (int x = 0; x < block_size_; x++) {
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const int expected = ClipByte(data_ptr_[p][x - stride_]
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+ data_ptr_[p][stride_ * y - 1]
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- data_ptr_[p][-1 - stride_]);
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ASSERT_EQ(expected, data_ptr_[p][y * stride_ + x]);
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}
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}
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// Actual test
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void RunTest() {
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{
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SCOPED_TRACE("DC_PRED");
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FillRandom();
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Predict(DC_PRED);
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CheckDCPrediction();
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}
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{
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SCOPED_TRACE("DC_PRED LEFT");
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FillRandom();
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SetLeftUnavailable();
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Predict(DC_PRED);
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CheckDCPrediction();
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}
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{
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SCOPED_TRACE("DC_PRED TOP");
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FillRandom();
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SetTopUnavailable();
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Predict(DC_PRED);
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CheckDCPrediction();
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}
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{
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SCOPED_TRACE("DC_PRED TOP_LEFT");
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FillRandom();
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SetTopLeftUnavailable();
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Predict(DC_PRED);
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CheckDCPrediction();
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}
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{
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SCOPED_TRACE("H_PRED");
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FillRandom();
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Predict(H_PRED);
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CheckHPrediction();
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}
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{
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SCOPED_TRACE("V_PRED");
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FillRandom();
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Predict(V_PRED);
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CheckVPrediction();
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}
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{
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SCOPED_TRACE("TM_PRED");
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FillRandom();
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Predict(TM_PRED);
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CheckTMPrediction();
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}
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}
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MACROBLOCKD mb_;
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MODE_INFO mi_;
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uint8_t *data_ptr_[2]; // in the case of Y, only [0] is used
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int stride_;
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int block_size_;
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int num_planes_;
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};
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typedef void (*intra_pred_y_fn_t)(MACROBLOCKD *x,
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uint8_t *yabove_row,
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uint8_t *yleft,
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int left_stride,
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uint8_t *ypred_ptr,
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int y_stride);
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class IntraPredYTest : public ::testing::TestWithParam<intra_pred_y_fn_t>,
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protected IntraPredBase {
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public:
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static void SetUpTestCase() {
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data_array_ = 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(data_array_);
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data_array_ = NULL;
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}
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protected:
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static const int kBlockSize = 16;
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static const int kDataAlignment = 16;
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static const int kStride = kBlockSize * 3;
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// We use 48 so that the data pointer of the first pixel in each row of
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// each macroblock is 16-byte aligned, and this gives us access to the
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// top-left and top-right corner pixels belonging to the top-left/right
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// macroblocks.
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// We use 17 lines so we have one line above us for top-prediction.
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static const int kDataBufferSize = kStride * (kBlockSize + 1);
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virtual void SetUp() {
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pred_fn_ = GetParam();
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SetupMacroblock(data_array_, kBlockSize, kStride, 1);
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}
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virtual void Predict(MB_PREDICTION_MODE mode) {
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mb_.mode_info_context->mbmi.mode = mode;
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REGISTER_STATE_CHECK(pred_fn_(&mb_,
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data_ptr_[0] - kStride,
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data_ptr_[0] - 1, kStride,
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data_ptr_[0], kStride));
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}
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intra_pred_y_fn_t pred_fn_;
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static uint8_t* data_array_;
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};
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uint8_t* IntraPredYTest::data_array_ = NULL;
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TEST_P(IntraPredYTest, IntraPredTests) {
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RunTest();
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}
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INSTANTIATE_TEST_CASE_P(C, IntraPredYTest,
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::testing::Values(
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vp8_build_intra_predictors_mby_s_c));
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#if HAVE_SSE2
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INSTANTIATE_TEST_CASE_P(SSE2, IntraPredYTest,
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::testing::Values(
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vp8_build_intra_predictors_mby_s_sse2));
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#endif
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#if HAVE_SSSE3
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INSTANTIATE_TEST_CASE_P(SSSE3, IntraPredYTest,
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::testing::Values(
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vp8_build_intra_predictors_mby_s_ssse3));
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#endif
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typedef void (*intra_pred_uv_fn_t)(MACROBLOCKD *x,
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uint8_t *uabove_row,
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uint8_t *vabove_row,
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uint8_t *uleft,
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uint8_t *vleft,
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int left_stride,
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uint8_t *upred_ptr,
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uint8_t *vpred_ptr,
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int pred_stride);
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class IntraPredUVTest : public ::testing::TestWithParam<intra_pred_uv_fn_t>,
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protected IntraPredBase {
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public:
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static void SetUpTestCase() {
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data_array_ = 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(data_array_);
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data_array_ = NULL;
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}
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protected:
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static const int kBlockSize = 8;
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static const int kDataAlignment = 8;
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static const int kStride = kBlockSize * 3;
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// We use 24 so that the data pointer of the first pixel in each row of
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// each macroblock is 8-byte aligned, and this gives us access to the
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// top-left and top-right corner pixels belonging to the top-left/right
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// macroblocks.
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// We use 9 lines so we have one line above us for top-prediction.
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// [0] = U, [1] = V
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static const int kDataBufferSize = 2 * kStride * (kBlockSize + 1);
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virtual void SetUp() {
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pred_fn_ = GetParam();
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SetupMacroblock(data_array_, kBlockSize, kStride, 2);
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}
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virtual void Predict(MB_PREDICTION_MODE mode) {
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mb_.mode_info_context->mbmi.uv_mode = mode;
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pred_fn_(&mb_, data_ptr_[0] - kStride, data_ptr_[1] - kStride,
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data_ptr_[0] - 1, data_ptr_[1] - 1, kStride,
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data_ptr_[0], data_ptr_[1], kStride);
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}
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intra_pred_uv_fn_t pred_fn_;
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// We use 24 so that the data pointer of the first pixel in each row of
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// each macroblock is 8-byte aligned, and this gives us access to the
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// top-left and top-right corner pixels belonging to the top-left/right
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// macroblocks.
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// We use 9 lines so we have one line above us for top-prediction.
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// [0] = U, [1] = V
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static uint8_t* data_array_;
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};
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uint8_t* IntraPredUVTest::data_array_ = NULL;
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TEST_P(IntraPredUVTest, IntraPredTests) {
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RunTest();
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}
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INSTANTIATE_TEST_CASE_P(C, IntraPredUVTest,
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::testing::Values(
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vp8_build_intra_predictors_mbuv_s_c));
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#if HAVE_SSE2
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INSTANTIATE_TEST_CASE_P(SSE2, IntraPredUVTest,
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::testing::Values(
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vp8_build_intra_predictors_mbuv_s_sse2));
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#endif
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#if HAVE_SSSE3
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INSTANTIATE_TEST_CASE_P(SSSE3, IntraPredUVTest,
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::testing::Values(
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vp8_build_intra_predictors_mbuv_s_ssse3));
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#endif
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} // namespace
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