/* * Copyright (c) 2015 The WebM project authors. All Rights Reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #include #include #include #include "./vp10_rtcd.h" #include "test/acm_random.h" #include "test/util.h" #include "test/vp10_txfm_test.h" #include "vp10/common/vp10_inv_txfm2d_cfg.h" using libvpx_test::ACMRandom; using libvpx_test::input_base; using libvpx_test::bd; using libvpx_test::compute_avg_abs_error; using libvpx_test::Fwd_Txfm2d_Func; using libvpx_test::Inv_Txfm2d_Func; namespace { #if CONFIG_VPX_HIGHBITDEPTH // VP10InvTxfm2dParam argument list: // tx_type_, tx_size_, max_error_, max_avg_error_ typedef std::tr1::tuple VP10InvTxfm2dParam; class VP10InvTxfm2d : public ::testing::TestWithParam { 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_ = libvpx_test::get_txfm1d_size(tx_size_); txfm2d_size_ = txfm1d_size_ * txfm1d_size_; count_ = 500; input_ = reinterpret_cast (vpx_memalign(16, sizeof(int16_t) * txfm2d_size_)); ref_input_ = reinterpret_cast (vpx_memalign(16, sizeof(uint16_t) * txfm2d_size_)); output_ = reinterpret_cast (vpx_memalign(16, sizeof(int32_t) * txfm2d_size_)); } void RunRoundtripCheck() { const Fwd_Txfm2d_Func fwd_txfm_func = libvpx_test::fwd_txfm_func_ls[tx_size_]; const Inv_Txfm2d_Func inv_txfm_func = libvpx_test::inv_txfm_func_ls[tx_size_]; double avg_abs_error = 0; ACMRandom rnd(ACMRandom::DeterministicSeed()); for (int ci = 0; ci < count_; ci++) { for (int ni = 0; ni < txfm2d_size_; ++ni) { if (ci == 0) { int extreme_input = input_base - 1; input_[ni] = extreme_input; // extreme case ref_input_[ni] = 0; } else { input_[ni] = rnd.Rand16() % input_base; ref_input_[ni] = 0; } } fwd_txfm_func(input_, output_, txfm1d_size_, tx_type_, bd); inv_txfm_func(output_, ref_input_, txfm1d_size_, tx_type_, bd); for (int ni = 0; ni < txfm2d_size_; ++ni) { EXPECT_GE(max_error_, abs(input_[ni] - ref_input_[ni])); } avg_abs_error += compute_avg_abs_error( input_, ref_input_, 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); } virtual void TearDown() { vpx_free(input_); vpx_free(output_); vpx_free(ref_input_); } private: int count_; int max_error_; double max_avg_error_; TX_TYPE tx_type_; TX_SIZE tx_size_; int txfm1d_size_; int txfm2d_size_; int16_t* input_; uint16_t* ref_input_; int32_t* output_; }; TEST_P(VP10InvTxfm2d, RunRoundtripCheck) { RunRoundtripCheck(); } const VP10InvTxfm2dParam vp10_inv_txfm2d_param[] = { #if CONFIG_EXT_TX VP10InvTxfm2dParam(FLIPADST_DCT, TX_4X4, 2, 0.002), VP10InvTxfm2dParam(DCT_FLIPADST, TX_4X4, 2, 0.002), VP10InvTxfm2dParam(FLIPADST_FLIPADST, TX_4X4, 2, 0.002), VP10InvTxfm2dParam(ADST_FLIPADST, TX_4X4, 2, 0.002), VP10InvTxfm2dParam(FLIPADST_ADST, TX_4X4, 2, 0.002), VP10InvTxfm2dParam(FLIPADST_DCT, TX_8X8, 2, 0.02), VP10InvTxfm2dParam(DCT_FLIPADST, TX_8X8, 2, 0.02), VP10InvTxfm2dParam(FLIPADST_FLIPADST, TX_8X8, 2, 0.02), VP10InvTxfm2dParam(ADST_FLIPADST, TX_8X8, 2, 0.02), VP10InvTxfm2dParam(FLIPADST_ADST, TX_8X8, 2, 0.02), VP10InvTxfm2dParam(FLIPADST_DCT, TX_16X16, 2, 0.04), VP10InvTxfm2dParam(DCT_FLIPADST, TX_16X16, 2, 0.04), VP10InvTxfm2dParam(FLIPADST_FLIPADST, TX_16X16, 11, 0.04), VP10InvTxfm2dParam(ADST_FLIPADST, TX_16X16, 2, 0.04), VP10InvTxfm2dParam(FLIPADST_ADST, TX_16X16, 2, 0.04), VP10InvTxfm2dParam(FLIPADST_DCT, TX_32X32, 4, 0.4), VP10InvTxfm2dParam(DCT_FLIPADST, TX_32X32, 4, 0.4), VP10InvTxfm2dParam(FLIPADST_FLIPADST, TX_32X32, 4, 0.4), VP10InvTxfm2dParam(ADST_FLIPADST, TX_32X32, 4, 0.4), VP10InvTxfm2dParam(FLIPADST_ADST, TX_32X32, 4, 0.4), #endif VP10InvTxfm2dParam(DCT_DCT, TX_4X4, 2, 0.002), VP10InvTxfm2dParam(ADST_DCT, TX_4X4, 2, 0.002), VP10InvTxfm2dParam(DCT_ADST, TX_4X4, 2, 0.002), VP10InvTxfm2dParam(ADST_ADST, TX_4X4, 2, 0.002), VP10InvTxfm2dParam(DCT_DCT, TX_8X8, 2, 0.02), VP10InvTxfm2dParam(ADST_DCT, TX_8X8, 2, 0.02), VP10InvTxfm2dParam(DCT_ADST, TX_8X8, 2, 0.02), VP10InvTxfm2dParam(ADST_ADST, TX_8X8, 2, 0.02), VP10InvTxfm2dParam(DCT_DCT, TX_16X16, 2, 0.04), VP10InvTxfm2dParam(ADST_DCT, TX_16X16, 2, 0.04), VP10InvTxfm2dParam(DCT_ADST, TX_16X16, 2, 0.04), VP10InvTxfm2dParam(ADST_ADST, TX_16X16, 2, 0.04), VP10InvTxfm2dParam(DCT_DCT, TX_32X32, 4, 0.4), VP10InvTxfm2dParam(ADST_DCT, TX_32X32, 4, 0.4), VP10InvTxfm2dParam(DCT_ADST, TX_32X32, 4, 0.4), VP10InvTxfm2dParam(ADST_ADST, TX_32X32, 4, 0.4) }; INSTANTIATE_TEST_CASE_P( C, VP10InvTxfm2d, ::testing::ValuesIn(vp10_inv_txfm2d_param)); #endif // CONFIG_VPX_HIGHBITDEPTH } // namespace