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/*
* Copyright (c) 2017, Alliance for Open Media. All rights reserved
*
* This source code is subject to the terms of the BSD 2 Clause License and
* the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
* was not distributed with this source code in the LICENSE file, you can
* obtain it at www.aomedia.org/license/software. If the Alliance for Open
* Media Patent License 1.0 was not distributed with this source code in the
* PATENTS file, you can obtain it at www.aomedia.org/license/patent.
*/
#include <math.h>
#include <stdlib.h>
#include <string.h>
#include "third_party/googletest/src/googletest/include/gtest/gtest.h"
#include "test/register_state_check.h"
#include "test/function_equivalence_test.h"
#include "config/aom_config.h"
#include "config/aom_dsp_rtcd.h"
#include "config/av1_rtcd.h"
#include "aom/aom_integer.h"
#include "av1/common/enums.h"
using libaom_test::FunctionEquivalenceTest;
namespace {
template <typename F, typename T>
class UpsampleTest : public FunctionEquivalenceTest<F> {
protected:
static const int kIterations = 1000000;
static const int kMinEdge = 4;
static const int kMaxEdge = 24;
static const int kBufSize = 2 * 64 + 32;
static const int kOffset = 16;
virtual ~UpsampleTest() {}
virtual void Execute(T *edge_tst) = 0;
void Common() {
edge_ref_ = &edge_ref_data_[kOffset];
edge_tst_ = &edge_tst_data_[kOffset];
Execute(edge_tst_);
const int max_idx = (size_ - 1) * 2;
for (int r = -2; r <= max_idx; ++r) {
ASSERT_EQ(edge_ref_[r], edge_tst_[r]);
}
}
T edge_ref_data_[kBufSize];
T edge_tst_data_[kBufSize];
T *edge_ref_;
T *edge_tst_;
int size_;
};
//////////////////////////////////////////////////////////////////////////////
// 8 bit version
//////////////////////////////////////////////////////////////////////////////
typedef void (*UP8B)(uint8_t *p, int size);
typedef libaom_test::FuncParam<UP8B> TestFuncs;
class UpsampleTest8B : public UpsampleTest<UP8B, uint8_t> {
protected:
void Execute(uint8_t *edge_tst) {
params_.ref_func(edge_ref_, size_);
API_REGISTER_STATE_CHECK(params_.tst_func(edge_tst, size_));
}
};
TEST_P(UpsampleTest8B, RandomValues) {
for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
size_ = 4 * (this->rng_(4) + 1);
int i, pix = 0;
for (i = 0; i < kOffset + size_; ++i) {
pix = rng_.Rand8();
edge_ref_data_[i] = pix;
edge_tst_data_[i] = edge_ref_data_[i];
}
// Extend final sample
while (i < kBufSize) {
edge_ref_data_[i] = pix;
edge_tst_data_[i] = pix;
i++;
}
Common();
}
}
#if HAVE_SSE4_1
INSTANTIATE_TEST_SUITE_P(
SSE4_1, UpsampleTest8B,
::testing::Values(TestFuncs(av1_upsample_intra_edge_c,
av1_upsample_intra_edge_sse4_1)));
#endif // HAVE_SSE4_1
//////////////////////////////////////////////////////////////////////////////
// High bit-depth version
//////////////////////////////////////////////////////////////////////////////
typedef void (*UPHB)(uint16_t *p, int size, int bd);
typedef libaom_test::FuncParam<UPHB> TestFuncsHBD;
class UpsampleTestHB : public UpsampleTest<UPHB, uint16_t> {
protected:
void Execute(uint16_t *edge_tst) {
params_.ref_func(edge_ref_, size_, bit_depth_);
API_REGISTER_STATE_CHECK(params_.tst_func(edge_tst, size_, bit_depth_));
}
int bit_depth_;
};
TEST_P(UpsampleTestHB, RandomValues) {
for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
switch (rng_(3)) {
case 0: bit_depth_ = 8; break;
case 1: bit_depth_ = 10; break;
default: bit_depth_ = 12; break;
}
const int hi = 1 << bit_depth_;
size_ = 4 * (this->rng_(4) + 1);
int i, pix = 0;
for (i = 0; i < kOffset + size_; ++i) {
pix = rng_(hi);
edge_ref_data_[i] = pix;
edge_tst_data_[i] = pix;
}
// Extend final sample
while (i < kBufSize) {
edge_ref_data_[i] = pix;
edge_tst_data_[i] = pix;
i++;
}
Common();
}
}
#if HAVE_SSE4_1
INSTANTIATE_TEST_SUITE_P(
SSE4_1, UpsampleTestHB,
::testing::Values(TestFuncsHBD(av1_upsample_intra_edge_high_c,
av1_upsample_intra_edge_high_sse4_1)));
#endif // HAVE_SSE4_1
template <typename F, typename T>
class FilterEdgeTest : public FunctionEquivalenceTest<F> {
protected:
static const int kIterations = 1000000;
static const int kMaxEdge = 2 * 64;
static const int kBufSize = kMaxEdge + 32;
static const int kOffset = 15;
virtual ~FilterEdgeTest() {}
virtual void Execute(T *edge_tst) = 0;
void Common() {
edge_ref_ = &edge_ref_data_[kOffset];
edge_tst_ = &edge_tst_data_[kOffset];
Execute(edge_tst_);
for (int r = 0; r < size_; ++r) {
ASSERT_EQ(edge_ref_[r], edge_tst_[r]);
}
}
T edge_ref_data_[kBufSize];
T edge_tst_data_[kBufSize];
T *edge_ref_;
T *edge_tst_;
int size_;
int strength_;
};
//////////////////////////////////////////////////////////////////////////////
// 8 bit version
//////////////////////////////////////////////////////////////////////////////
typedef void (*FE8B)(uint8_t *p, int size, int strength);
typedef libaom_test::FuncParam<FE8B> FilterEdgeTestFuncs;
class FilterEdgeTest8B : public FilterEdgeTest<FE8B, uint8_t> {
protected:
void Execute(uint8_t *edge_tst) {
params_.ref_func(edge_ref_, size_, strength_);
API_REGISTER_STATE_CHECK(params_.tst_func(edge_tst, size_, strength_));
}
};
TEST_P(FilterEdgeTest8B, RandomValues) {
for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
strength_ = this->rng_(4);
size_ = 4 * (this->rng_(128 / 4) + 1) + 1;
int i, pix = 0;
for (i = 0; i < kOffset + size_; ++i) {
pix = rng_.Rand8();
edge_ref_data_[i] = pix;
edge_tst_data_[i] = pix;
}
Common();
}
}
#if HAVE_SSE4_1
INSTANTIATE_TEST_SUITE_P(
SSE4_1, FilterEdgeTest8B,
::testing::Values(FilterEdgeTestFuncs(av1_filter_intra_edge_c,
av1_filter_intra_edge_sse4_1)));
#endif // HAVE_SSE4_1
//////////////////////////////////////////////////////////////////////////////
// High bit-depth version
//////////////////////////////////////////////////////////////////////////////
typedef void (*FEHB)(uint16_t *p, int size, int strength);
typedef libaom_test::FuncParam<FEHB> FilterEdgeTestFuncsHBD;
class FilterEdgeTestHB : public FilterEdgeTest<FEHB, uint16_t> {
protected:
void Execute(uint16_t *edge_tst) {
params_.ref_func(edge_ref_, size_, strength_);
API_REGISTER_STATE_CHECK(params_.tst_func(edge_tst, size_, strength_));
}
int bit_depth_;
};
TEST_P(FilterEdgeTestHB, RandomValues) {
for (int iter = 0; iter < kIterations && !HasFatalFailure(); ++iter) {
switch (rng_(3)) {
case 0: bit_depth_ = 8; break;
case 1: bit_depth_ = 10; break;
default: bit_depth_ = 12; break;
}
const int hi = 1 << bit_depth_;
strength_ = this->rng_(4);
size_ = 4 * (this->rng_(128 / 4) + 1) + 1;
int i, pix = 0;
for (i = 0; i < kOffset + size_; ++i) {
pix = rng_(hi);
edge_ref_data_[i] = pix;
edge_tst_data_[i] = pix;
}
Common();
}
}
#if HAVE_SSE4_1
INSTANTIATE_TEST_SUITE_P(SSE4_1, FilterEdgeTestHB,
::testing::Values(FilterEdgeTestFuncsHBD(
av1_filter_intra_edge_high_c,
av1_filter_intra_edge_high_sse4_1)));
#endif // HAVE_SSE4_1
// Speed tests
TEST_P(UpsampleTest8B, DISABLED_Speed) {
const int test_count = 10000000;
size_ = kMaxEdge;
for (int i = 0; i < kOffset + size_; ++i) {
edge_tst_data_[i] = rng_.Rand8();
}
edge_tst_ = &edge_tst_data_[kOffset];
for (int iter = 0; iter < test_count; ++iter) {
API_REGISTER_STATE_CHECK(params_.tst_func(edge_tst_, size_));
}
}
TEST_P(UpsampleTestHB, DISABLED_Speed) {
const int test_count = 10000000;
size_ = kMaxEdge;
bit_depth_ = 12;
const int hi = 1 << bit_depth_;
for (int i = 0; i < kOffset + size_; ++i) {
edge_tst_data_[i] = rng_(hi);
}
edge_tst_ = &edge_tst_data_[kOffset];
for (int iter = 0; iter < test_count; ++iter) {
API_REGISTER_STATE_CHECK(params_.tst_func(edge_tst_, size_, bit_depth_));
}
}
TEST_P(FilterEdgeTest8B, DISABLED_Speed) {
const int test_count = 10000000;
size_ = kMaxEdge;
strength_ = 1;
for (int i = 0; i < kOffset + size_; ++i) {
edge_tst_data_[i] = rng_.Rand8();
}
edge_tst_ = &edge_tst_data_[kOffset];
for (int iter = 0; iter < test_count; ++iter) {
API_REGISTER_STATE_CHECK(params_.tst_func(edge_tst_, size_, strength_));
// iterate over filter strengths (1,2,3)
strength_ = (strength_ == 3) ? 1 : strength_ + 1;
}
}
TEST_P(FilterEdgeTestHB, DISABLED_Speed) {
const int test_count = 10000000;
size_ = kMaxEdge;
strength_ = 1;
bit_depth_ = 12;
const int hi = 1 << bit_depth_;
for (int i = 0; i < kOffset + size_; ++i) {
edge_tst_data_[i] = rng_(hi);
}
edge_tst_ = &edge_tst_data_[kOffset];
for (int iter = 0; iter < test_count; ++iter) {
API_REGISTER_STATE_CHECK(params_.tst_func(edge_tst_, size_, strength_));
// iterate over filter strengths (1,2,3)
strength_ = (strength_ == 3) ? 1 : strength_ + 1;
}
}
} // namespace