test/av1_inv_txfm2d_test.cc - aom - Git at Google

 /*
  * Copyright (c) 2016, 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 <stdio.h>
 #include <stdlib.h>

 #include "./av1_rtcd.h"
 #include "test/acm_random.h"
 #include "test/util.h"
 #include "test/av1_txfm_test.h"
 #include "av1/common/av1_inv_txfm1d_cfg.h"

 using libaom_test::ACMRandom;
 using libaom_test::input_base;
 using libaom_test::bd;
 using libaom_test::compute_avg_abs_error;
 using libaom_test::Fwd_Txfm2d_Func;
 using libaom_test::Inv_Txfm2d_Func;

 namespace {

 #if CONFIG_HIGHBITDEPTH
 // AV1InvTxfm2dParam argument list:
 // tx_type_, tx_size_, max_error_, max_avg_error_
 typedef std::tr1::tuple<TX_TYPE, TX_SIZE, int, double> AV1InvTxfm2dParam;

 class AV1InvTxfm2d : public ::testing::TestWithParam<AV1InvTxfm2dParam> {
  public:
   virtual void SetUp() {
     tx_type_ = GET_PARAM(0);
     tx_size_ = GET_PARAM(1);
     max_error_ = GET_PARAM(2);
     max_avg_error_ = GET_PARAM(3);
     txfm1d_size_ = libaom_test::get_txfm1d_size(tx_size_);
     txfm2d_size_ = txfm1d_size_ * txfm1d_size_;
   }

   void RunRoundtripCheck() {
     const Fwd_Txfm2d_Func fwd_txfm_func =
         libaom_test::fwd_txfm_func_ls[tx_size_];
     const Inv_Txfm2d_Func inv_txfm_func =
         libaom_test::inv_txfm_func_ls[tx_size_];
     double avg_abs_error = 0;
     ACMRandom rnd(ACMRandom::DeterministicSeed());

     const int count = 500;

     for (int ci = 0; ci < count; ci++) {
       int16_t expected[64 * 64] = { 0 };
       assert(txfm2d_size_ < ARRAY_SIZE(expected));

       for (int ni = 0; ni < txfm2d_size_; ++ni) {
         if (ci == 0) {
           int extreme_input = input_base - 1;
           expected[ni] = extreme_input;  // extreme case
         } else {
           expected[ni] = rnd.Rand16() % input_base;
         }
       }

       int32_t coeffs[64 * 64] = { 0 };
       assert(txfm2d_size_ < ARRAY_SIZE(coeffs));
       fwd_txfm_func(expected, coeffs, txfm1d_size_, tx_type_, bd);

       uint16_t actual[64 * 64] = { 0 };
       assert(txfm2d_size_ < ARRAY_SIZE(actual));
       inv_txfm_func(coeffs, actual, txfm1d_size_, tx_type_, bd);

       for (int ni = 0; ni < txfm2d_size_; ++ni) {
         EXPECT_GE(max_error_, abs(expected[ni] - actual[ni]));
       }
       avg_abs_error += compute_avg_abs_error<int16_t, uint16_t>(
           expected, actual, txfm2d_size_);
     }

     avg_abs_error /= count;
     // max_abs_avg_error comes from upper bound of
     // printf("txfm1d_size: %d accuracy_avg_abs_error: %f\n",
     // txfm1d_size_, avg_abs_error);
     EXPECT_GE(max_avg_error_, avg_abs_error);
   }

  private:
   int max_error_;
   double max_avg_error_;
   TX_TYPE tx_type_;
   TX_SIZE tx_size_;
   int txfm1d_size_;
   int txfm2d_size_;
 };

 TEST_P(AV1InvTxfm2d, RunRoundtripCheck) { RunRoundtripCheck(); }

 const AV1InvTxfm2dParam av1_inv_txfm2d_param[] = {
 #if CONFIG_EXT_TX
   AV1InvTxfm2dParam(FLIPADST_DCT, TX_4X4, 2, 0.002),
   AV1InvTxfm2dParam(DCT_FLIPADST, TX_4X4, 2, 0.002),
   AV1InvTxfm2dParam(FLIPADST_FLIPADST, TX_4X4, 2, 0.002),
   AV1InvTxfm2dParam(ADST_FLIPADST, TX_4X4, 2, 0.002),
   AV1InvTxfm2dParam(FLIPADST_ADST, TX_4X4, 2, 0.002),
   AV1InvTxfm2dParam(FLIPADST_DCT, TX_8X8, 2, 0.02),
   AV1InvTxfm2dParam(DCT_FLIPADST, TX_8X8, 2, 0.02),
   AV1InvTxfm2dParam(FLIPADST_FLIPADST, TX_8X8, 2, 0.02),
   AV1InvTxfm2dParam(ADST_FLIPADST, TX_8X8, 2, 0.02),
   AV1InvTxfm2dParam(FLIPADST_ADST, TX_8X8, 2, 0.02),
   AV1InvTxfm2dParam(FLIPADST_DCT, TX_16X16, 2, 0.04),
   AV1InvTxfm2dParam(DCT_FLIPADST, TX_16X16, 2, 0.04),
   AV1InvTxfm2dParam(FLIPADST_FLIPADST, TX_16X16, 11, 0.04),
   AV1InvTxfm2dParam(ADST_FLIPADST, TX_16X16, 2, 0.04),
   AV1InvTxfm2dParam(FLIPADST_ADST, TX_16X16, 2, 0.04),
   AV1InvTxfm2dParam(FLIPADST_DCT, TX_32X32, 4, 0.4),
   AV1InvTxfm2dParam(DCT_FLIPADST, TX_32X32, 4, 0.4),
   AV1InvTxfm2dParam(FLIPADST_FLIPADST, TX_32X32, 4, 0.4),
   AV1InvTxfm2dParam(ADST_FLIPADST, TX_32X32, 4, 0.4),
   AV1InvTxfm2dParam(FLIPADST_ADST, TX_32X32, 4, 0.4),
 #endif
   AV1InvTxfm2dParam(DCT_DCT, TX_4X4, 2, 0.002),
   AV1InvTxfm2dParam(ADST_DCT, TX_4X4, 2, 0.002),
   AV1InvTxfm2dParam(DCT_ADST, TX_4X4, 2, 0.002),
   AV1InvTxfm2dParam(ADST_ADST, TX_4X4, 2, 0.002),
   AV1InvTxfm2dParam(DCT_DCT, TX_8X8, 2, 0.02),
   AV1InvTxfm2dParam(ADST_DCT, TX_8X8, 2, 0.02),
   AV1InvTxfm2dParam(DCT_ADST, TX_8X8, 2, 0.02),
   AV1InvTxfm2dParam(ADST_ADST, TX_8X8, 2, 0.02),
   AV1InvTxfm2dParam(DCT_DCT, TX_16X16, 2, 0.04),
   AV1InvTxfm2dParam(ADST_DCT, TX_16X16, 2, 0.04),
   AV1InvTxfm2dParam(DCT_ADST, TX_16X16, 2, 0.04),
   AV1InvTxfm2dParam(ADST_ADST, TX_16X16, 2, 0.04),
   AV1InvTxfm2dParam(DCT_DCT, TX_32X32, 4, 0.4),
   AV1InvTxfm2dParam(ADST_DCT, TX_32X32, 4, 0.4),
   AV1InvTxfm2dParam(DCT_ADST, TX_32X32, 4, 0.4),
   AV1InvTxfm2dParam(ADST_ADST, TX_32X32, 4, 0.4)
 };

 INSTANTIATE_TEST_CASE_P(C, AV1InvTxfm2d,
                         ::testing::ValuesIn(av1_inv_txfm2d_param));

 #endif  // CONFIG_HIGHBITDEPTH

 }  // namespace
	/*
	* Copyright (c) 2016, 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 <stdio.h>
	#include <stdlib.h>

	#include "./av1_rtcd.h"
	#include "test/acm_random.h"
	#include "test/util.h"
	#include "test/av1_txfm_test.h"
	#include "av1/common/av1_inv_txfm1d_cfg.h"

	using libaom_test::ACMRandom;
	using libaom_test::input_base;
	using libaom_test::bd;
	using libaom_test::compute_avg_abs_error;
	using libaom_test::Fwd_Txfm2d_Func;
	using libaom_test::Inv_Txfm2d_Func;

	namespace {

	#if CONFIG_HIGHBITDEPTH
	// AV1InvTxfm2dParam argument list:
	// tx_type_, tx_size_, max_error_, max_avg_error_
	typedef std::tr1::tuple<TX_TYPE, TX_SIZE, int, double> AV1InvTxfm2dParam;

	class AV1InvTxfm2d : public ::testing::TestWithParam<AV1InvTxfm2dParam> {
	public:
	virtual void SetUp() {
	tx_type_ = GET_PARAM(0);
	tx_size_ = GET_PARAM(1);
	max_error_ = GET_PARAM(2);
	max_avg_error_ = GET_PARAM(3);
	txfm1d_size_ = libaom_test::get_txfm1d_size(tx_size_);
	txfm2d_size_ = txfm1d_size_ * txfm1d_size_;
	}

	void RunRoundtripCheck() {
	const Fwd_Txfm2d_Func fwd_txfm_func =
	libaom_test::fwd_txfm_func_ls[tx_size_];
	const Inv_Txfm2d_Func inv_txfm_func =
	libaom_test::inv_txfm_func_ls[tx_size_];
	double avg_abs_error = 0;
	ACMRandom rnd(ACMRandom::DeterministicSeed());

	const int count = 500;

	for (int ci = 0; ci < count; ci++) {
	int16_t expected[64 * 64] = { 0 };
	assert(txfm2d_size_ < ARRAY_SIZE(expected));

	for (int ni = 0; ni < txfm2d_size_; ++ni) {
	if (ci == 0) {
	int extreme_input = input_base - 1;
	expected[ni] = extreme_input; // extreme case
	} else {
	expected[ni] = rnd.Rand16() % input_base;
	}
	}

	int32_t coeffs[64 * 64] = { 0 };
	assert(txfm2d_size_ < ARRAY_SIZE(coeffs));
	fwd_txfm_func(expected, coeffs, txfm1d_size_, tx_type_, bd);

	uint16_t actual[64 * 64] = { 0 };
	assert(txfm2d_size_ < ARRAY_SIZE(actual));
	inv_txfm_func(coeffs, actual, txfm1d_size_, tx_type_, bd);

	for (int ni = 0; ni < txfm2d_size_; ++ni) {
	EXPECT_GE(max_error_, abs(expected[ni] - actual[ni]));
	}
	avg_abs_error += compute_avg_abs_error<int16_t, uint16_t>(
	expected, actual, txfm2d_size_);
	}

	avg_abs_error /= count;
	// max_abs_avg_error comes from upper bound of
	// printf("txfm1d_size: %d accuracy_avg_abs_error: %f\n",
	// txfm1d_size_, avg_abs_error);
	EXPECT_GE(max_avg_error_, avg_abs_error);
	}

	private:
	int max_error_;
	double max_avg_error_;
	TX_TYPE tx_type_;
	TX_SIZE tx_size_;
	int txfm1d_size_;
	int txfm2d_size_;
	};

	TEST_P(AV1InvTxfm2d, RunRoundtripCheck) { RunRoundtripCheck(); }

	const AV1InvTxfm2dParam av1_inv_txfm2d_param[] = {
	#if CONFIG_EXT_TX
	AV1InvTxfm2dParam(FLIPADST_DCT, TX_4X4, 2, 0.002),
	AV1InvTxfm2dParam(DCT_FLIPADST, TX_4X4, 2, 0.002),
	AV1InvTxfm2dParam(FLIPADST_FLIPADST, TX_4X4, 2, 0.002),
	AV1InvTxfm2dParam(ADST_FLIPADST, TX_4X4, 2, 0.002),
	AV1InvTxfm2dParam(FLIPADST_ADST, TX_4X4, 2, 0.002),
	AV1InvTxfm2dParam(FLIPADST_DCT, TX_8X8, 2, 0.02),
	AV1InvTxfm2dParam(DCT_FLIPADST, TX_8X8, 2, 0.02),
	AV1InvTxfm2dParam(FLIPADST_FLIPADST, TX_8X8, 2, 0.02),
	AV1InvTxfm2dParam(ADST_FLIPADST, TX_8X8, 2, 0.02),
	AV1InvTxfm2dParam(FLIPADST_ADST, TX_8X8, 2, 0.02),
	AV1InvTxfm2dParam(FLIPADST_DCT, TX_16X16, 2, 0.04),
	AV1InvTxfm2dParam(DCT_FLIPADST, TX_16X16, 2, 0.04),
	AV1InvTxfm2dParam(FLIPADST_FLIPADST, TX_16X16, 11, 0.04),
	AV1InvTxfm2dParam(ADST_FLIPADST, TX_16X16, 2, 0.04),
	AV1InvTxfm2dParam(FLIPADST_ADST, TX_16X16, 2, 0.04),
	AV1InvTxfm2dParam(FLIPADST_DCT, TX_32X32, 4, 0.4),
	AV1InvTxfm2dParam(DCT_FLIPADST, TX_32X32, 4, 0.4),
	AV1InvTxfm2dParam(FLIPADST_FLIPADST, TX_32X32, 4, 0.4),
	AV1InvTxfm2dParam(ADST_FLIPADST, TX_32X32, 4, 0.4),
	AV1InvTxfm2dParam(FLIPADST_ADST, TX_32X32, 4, 0.4),
	#endif
	AV1InvTxfm2dParam(DCT_DCT, TX_4X4, 2, 0.002),
	AV1InvTxfm2dParam(ADST_DCT, TX_4X4, 2, 0.002),
	AV1InvTxfm2dParam(DCT_ADST, TX_4X4, 2, 0.002),
	AV1InvTxfm2dParam(ADST_ADST, TX_4X4, 2, 0.002),
	AV1InvTxfm2dParam(DCT_DCT, TX_8X8, 2, 0.02),
	AV1InvTxfm2dParam(ADST_DCT, TX_8X8, 2, 0.02),
	AV1InvTxfm2dParam(DCT_ADST, TX_8X8, 2, 0.02),
	AV1InvTxfm2dParam(ADST_ADST, TX_8X8, 2, 0.02),
	AV1InvTxfm2dParam(DCT_DCT, TX_16X16, 2, 0.04),
	AV1InvTxfm2dParam(ADST_DCT, TX_16X16, 2, 0.04),
	AV1InvTxfm2dParam(DCT_ADST, TX_16X16, 2, 0.04),
	AV1InvTxfm2dParam(ADST_ADST, TX_16X16, 2, 0.04),
	AV1InvTxfm2dParam(DCT_DCT, TX_32X32, 4, 0.4),
	AV1InvTxfm2dParam(ADST_DCT, TX_32X32, 4, 0.4),
	AV1InvTxfm2dParam(DCT_ADST, TX_32X32, 4, 0.4),
	AV1InvTxfm2dParam(ADST_ADST, TX_32X32, 4, 0.4)
	};

	INSTANTIATE_TEST_CASE_P(C, AV1InvTxfm2d,
	::testing::ValuesIn(av1_inv_txfm2d_param));

	#endif // CONFIG_HIGHBITDEPTH

	} // namespace