/***************************************************************************** * Copyright (C) 2013-2020 MulticoreWare, Inc * * Authors: Steve Borho * Min Chen * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02111, USA. * * This program is also available under a commercial proprietary license. * For more information, contact us at license @ x265.com. *****************************************************************************/ #ifndef _PIXELHARNESS_H_1 #define _PIXELHARNESS_H_1 1 #include "testharness.h" #include "primitives.h" class PixelHarness : public TestHarness { protected: enum { INCR = 32 }; enum { STRIDE = 64 }; enum { ITERS = 100 }; enum { MAX_HEIGHT = 64 }; enum { PAD_ROWS = 64 }; enum { BUFFSIZE = STRIDE * (MAX_HEIGHT + PAD_ROWS) + INCR * ITERS }; enum { TEST_CASES = 3 }; enum { SMAX = 1 << 12 }; enum { SMIN = (unsigned)-1 << 12 }; enum { RMAX = PIXEL_MAX - PIXEL_MIN }; //The maximum value obtained by subtracting pixel values (residual max) enum { RMIN = PIXEL_MIN - PIXEL_MAX }; //The minimum value obtained by subtracting pixel values (residual min) ALIGN_VAR_64(pixel, pbuf1[BUFFSIZE]); ALIGN_VAR_64(pixel, pbuf2[BUFFSIZE]); ALIGN_VAR_64(pixel, pbuf3[BUFFSIZE]); ALIGN_VAR_64(pixel, pbuf4[BUFFSIZE]); ALIGN_VAR_64(int, ibuf1[BUFFSIZE]); ALIGN_VAR_64(int8_t, psbuf1[BUFFSIZE]); ALIGN_VAR_64(int8_t, psbuf2[BUFFSIZE]); ALIGN_VAR_64(int8_t, psbuf3[BUFFSIZE]); ALIGN_VAR_64(int8_t, psbuf4[BUFFSIZE]); ALIGN_VAR_64(int8_t, psbuf5[BUFFSIZE]); ALIGN_VAR_64(int16_t, sbuf1[BUFFSIZE]); ALIGN_VAR_64(int16_t, sbuf2[BUFFSIZE]); ALIGN_VAR_64(int16_t, sbuf3[BUFFSIZE]); ALIGN_VAR_64(pixel, pixel_test_buff[TEST_CASES][BUFFSIZE]); ALIGN_VAR_64(int16_t, short_test_buff[TEST_CASES][BUFFSIZE]); ALIGN_VAR_64(int16_t, short_test_buff1[TEST_CASES][BUFFSIZE]); ALIGN_VAR_64(int16_t, short_test_buff2[TEST_CASES][BUFFSIZE]); ALIGN_VAR_64(int, int_test_buff[TEST_CASES][BUFFSIZE]); ALIGN_VAR_64(uint16_t, ushort_test_buff[TEST_CASES][BUFFSIZE]); ALIGN_VAR_64(uint8_t, uchar_test_buff[TEST_CASES][BUFFSIZE]); ALIGN_VAR_64(double, double_test_buff[TEST_CASES][BUFFSIZE]); ALIGN_VAR_64(int16_t, residual_test_buff[TEST_CASES][BUFFSIZE]); bool check_pixelcmp(pixelcmp_t ref, pixelcmp_t opt); bool check_pixel_sse(pixel_sse_t ref, pixel_sse_t opt); bool check_pixel_sse_ss(pixel_sse_ss_t ref, pixel_sse_ss_t opt); bool check_pixelcmp_x3(pixelcmp_x3_t ref, pixelcmp_x3_t opt); bool check_pixelcmp_x4(pixelcmp_x4_t ref, pixelcmp_x4_t opt); bool check_copy_pp(copy_pp_t ref, copy_pp_t opt); bool check_copy_sp(copy_sp_t ref, copy_sp_t opt); bool check_copy_ps(copy_ps_t ref, copy_ps_t opt); bool check_copy_ss(copy_ss_t ref, copy_ss_t opt); bool check_pixelavg_pp(pixelavg_pp_t ref, pixelavg_pp_t opt); bool check_pixelavg_pp_aligned(pixelavg_pp_t ref, pixelavg_pp_t opt); bool check_pixel_sub_ps(pixel_sub_ps_t ref, pixel_sub_ps_t opt); bool check_pixel_add_ps(pixel_add_ps_t ref, pixel_add_ps_t opt); bool check_pixel_add_ps_aligned(pixel_add_ps_t ref, pixel_add_ps_t opt); bool check_scale1D_pp(scale1D_t ref, scale1D_t opt); bool check_scale1D_pp_aligned(scale1D_t ref, scale1D_t opt); bool check_scale2D_pp(scale2D_t ref, scale2D_t opt); bool check_ssd_s(pixel_ssd_s_t ref, pixel_ssd_s_t opt); bool check_ssd_s_aligned(pixel_ssd_s_t ref, pixel_ssd_s_t opt); bool check_blockfill_s(blockfill_s_t ref, blockfill_s_t opt); bool check_blockfill_s_aligned(blockfill_s_t ref, blockfill_s_t opt); bool check_calresidual(calcresidual_t ref, calcresidual_t opt); bool check_calresidual_aligned(calcresidual_t ref, calcresidual_t opt); bool check_transpose(transpose_t ref, transpose_t opt); bool check_weightp(weightp_pp_t ref, weightp_pp_t opt); bool check_weightp(weightp_sp_t ref, weightp_sp_t opt); bool check_downscale_t(downscale_t ref, downscale_t opt); bool check_cpy2Dto1D_shl_t(cpy2Dto1D_shl_t ref, cpy2Dto1D_shl_t opt); bool check_cpy2Dto1D_shr_t(cpy2Dto1D_shr_t ref, cpy2Dto1D_shr_t opt); bool check_cpy1Dto2D_shl_t(cpy1Dto2D_shl_t ref, cpy1Dto2D_shl_t opt); bool check_cpy1Dto2D_shl_aligned_t(cpy1Dto2D_shl_t ref, cpy1Dto2D_shl_t opt); bool check_cpy1Dto2D_shr_t(cpy1Dto2D_shr_t ref, cpy1Dto2D_shr_t opt); bool check_copy_cnt_t(copy_cnt_t ref, copy_cnt_t opt); bool check_pixel_var(var_t ref, var_t opt); bool check_ssim_4x4x2_core(ssim_4x4x2_core_t ref, ssim_4x4x2_core_t opt); bool check_ssim_end(ssim_end4_t ref, ssim_end4_t opt); bool check_addAvg(addAvg_t, addAvg_t); bool check_addAvg_aligned(addAvg_t, addAvg_t); bool check_saoCuOrgE0_t(saoCuOrgE0_t ref, saoCuOrgE0_t opt); bool check_saoCuOrgE1_t(saoCuOrgE1_t ref, saoCuOrgE1_t opt); bool check_saoCuOrgE2_t(saoCuOrgE2_t ref[], saoCuOrgE2_t opt[]); bool check_saoCuOrgE3_t(saoCuOrgE3_t ref, saoCuOrgE3_t opt); bool check_saoCuOrgE3_32_t(saoCuOrgE3_t ref, saoCuOrgE3_t opt); bool check_saoCuOrgB0_t(saoCuOrgB0_t ref, saoCuOrgB0_t opt); bool check_saoCuStatsBO_t(saoCuStatsBO_t ref, saoCuStatsBO_t opt); bool check_saoCuStatsE0_t(saoCuStatsE0_t ref, saoCuStatsE0_t opt); bool check_saoCuStatsE1_t(saoCuStatsE1_t ref, saoCuStatsE1_t opt); bool check_saoCuStatsE2_t(saoCuStatsE2_t ref, saoCuStatsE2_t opt); bool check_saoCuStatsE3_t(saoCuStatsE3_t ref, saoCuStatsE3_t opt); bool check_planecopy_sp(planecopy_sp_t ref, planecopy_sp_t opt); bool check_planecopy_cp(planecopy_cp_t ref, planecopy_cp_t opt); bool check_cutree_propagate_cost(cutree_propagate_cost ref, cutree_propagate_cost opt); bool check_cutree_fix8_pack(cutree_fix8_pack ref, cutree_fix8_pack opt); bool check_cutree_fix8_unpack(cutree_fix8_unpack ref, cutree_fix8_unpack opt); bool check_psyCost_pp(pixelcmp_t ref, pixelcmp_t opt); bool check_calSign(sign_t ref, sign_t opt); bool check_scanPosLast(scanPosLast_t ref, scanPosLast_t opt); bool check_findPosFirstLast(findPosFirstLast_t ref, findPosFirstLast_t opt); bool check_costCoeffNxN(costCoeffNxN_t ref, costCoeffNxN_t opt); bool check_costCoeffRemain(costCoeffRemain_t ref, costCoeffRemain_t opt); bool check_costC1C2Flag(costC1C2Flag_t ref, costC1C2Flag_t opt); bool check_pelFilterLumaStrong_V(pelFilterLumaStrong_t ref, pelFilterLumaStrong_t opt); bool check_pelFilterLumaStrong_H(pelFilterLumaStrong_t ref, pelFilterLumaStrong_t opt); bool check_pelFilterChroma_V(pelFilterChroma_t ref, pelFilterChroma_t opt); bool check_pelFilterChroma_H(pelFilterChroma_t ref, pelFilterChroma_t opt); bool check_integral_initv(integralv_t ref, integralv_t opt); bool check_integral_inith(integralh_t ref, integralh_t opt); bool check_ssimDist(ssimDistortion_t ref, ssimDistortion_t opt); bool check_normFact(normFactor_t ref, normFactor_t opt, int block); bool check_downscaleluma_t(downscaleluma_t ref, downscaleluma_t opt); public: PixelHarness(); const char *getName() const { return "pixel"; } bool testCorrectness(const EncoderPrimitives& ref, const EncoderPrimitives& opt); bool testPU(int part, const EncoderPrimitives& ref, const EncoderPrimitives& opt); void measureSpeed(const EncoderPrimitives& ref, const EncoderPrimitives& opt); void measurePartition(int part, const EncoderPrimitives& ref, const EncoderPrimitives& opt); }; #endif // ifndef _PIXELHARNESS_H_1