/***************************************************************************** * This file is part of Kvazaar HEVC encoder. * * Copyright (C) 2013-2014 Tampere University of Technology and others (see * COPYING file). * * Kvazaar is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as published * by the Free Software Foundation. * * Kvazaar 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 Kvazaar. If not, see . ****************************************************************************/ /* * \file * */ #ifdef _WIN32 /* The following two defines must be located before the inclusion of any system header files. */ #define WINVER 0x0500 #define _WIN32_WINNT 0x0500 #include /* _setmode() */ #include /* _O_BINARY */ #endif #include #include #include #include "global.h" #include "config.h" #include "encoder.h" #include "cabac.h" #include "picture.h" #include "transform.h" // Assembly optimization headers #include "x86/cpu.h" /** * \brief Program main function. * \param argc Argument count from commandline * \param argv Argument list * \return Program exit state */ int main(int argc, char *argv[]) { int ecx = 0,edx =0; /* CPU feature bits */ enum { BIT_SSE3 = 0,BIT_SSSE3 = 9, BIT_SSE41 = 19, BIT_SSE42 = 20, BIT_MMX = 24, BIT_SSE = 25, BIT_SSE2 = 26, BIT_AVX = 28}; uint32_t cur_frame = 0; config *cfg = NULL; //!< Global configuration FILE *input = NULL; //!< input file (YUV) FILE *output = NULL; //!< output file (HEVC NAL stream) encoder_control *encoder = NULL; //!< Encoder control struct double psnr[3] = { 0.0, 0.0, 0.0 }; uint64_t curpos = 0; uint64_t lastpos = 0; #ifdef _DEBUG FILE *recout = fopen("encrec_832x480_60.yuv","wb"); //!< reconstructed YUV output (only on debug mode) #endif // Stdin and stdout need to be binary for input and output to work. // Stderr needs to be text mode to convert \n to \r\n in Windows. #ifdef _WIN32 _setmode( _fileno( stdin ), _O_BINARY ); _setmode( _fileno( stdout ), _O_BINARY ); _setmode( _fileno( stderr ), _O_TEXT ); #endif // Handle configuration cfg = config_alloc(); // If problem with configuration, print banner and shutdown if (!cfg || !config_init(cfg) || !config_read(cfg,argc,argv)) { fprintf(stderr, "/***********************************************/\n" " * Kvazaar HEVC Encoder v. " VERSION_STRING "*\n" " * Tampere University of Technology 2014 *\n" "/***********************************************/\n\n"); fprintf(stderr, "Usage:\n" "hevc_encoder -i -w -h -o \n" "\n" "Optional parameters:\n" " -n, --frames : number of frames to code [all]\n" " -q, --qp : Quantization Parameter [32]\n" " -p, --period : Period of intra pictures [0]\n" " 0: only first picture is intra\n" " 1: all pictures are intra\n" " 2-N: every Nth picture is intra\n" " --no-deblock : Disable deblocking filter\n" " --deblock : Deblocking filter parameters\n" " beta and tc range is -6..6 [0:0]\n" " --no-sao : Disable sample adaptive offset\n" "\n" " Video Usability Information:\n" " --sar : Specify Sample Aspect Ratio\n" " --overscan : Specify crop overscan setting [\"undef\"]\n" " - undef, show, crop\n" " --videoformat : Specify video format [\"undef\"]\n" " - component, pal, ntsc, secam, mac, undef\n" " --range : Specify color range [\"off\"]\n" " - off, on\n" " --colorprim : Specify color primaries [\"undef\"]\n" " - undef, bt709, bt470m, bt470bg,\n" " smpte170m, smpte240m, film, bt2020\n" " --transfer : Specify transfer characteristics [\"undef\"]\n" " - undef, bt709, bt470m, bt470bg,\n" " smpte170m, smpte240m, linear, log100,\n" " log316, iec61966-2-4, bt1361e,\n" " iec61966-2-1, bt2020-10, bt2020-12\n" " --colormatrix : Specify color matrix setting [\"undef\"]\n" " - undef, bt709, fcc, bt470bg, smpte170m,\n" " smpte240m, GBR, YCgCo, bt2020nc, bt2020c\n" " --chromaloc : Specify chroma sample location (0 to 5) [0]\n"); if (cfg) config_destroy(cfg); return EXIT_FAILURE; } // Dig CPU features with cpuid kvz_cpu_cpuid(&ecx,&edx); printf("CPU features enabled: "); // EDX if (edx & (1<input, cfg->output); printf(" Video size: %dx%d\n", cfg->width, cfg->height); // Check if the input file name is a dash, this means stdin if (!strcmp(cfg->input, "-")) { input = stdin; } else { // Otherwise we try to open the input file input = fopen(cfg->input, "rb"); } // Check that input was opened correctly if (input == NULL) { fprintf(stderr, "Could not open input file, shutting down!\n"); config_destroy(cfg); return EXIT_FAILURE; } // Open output file and check that it was opened correctly output = fopen(cfg->output, "wb"); if (output == NULL) { fprintf(stderr, "Could not open output file, shutting down!\n"); config_destroy(cfg); return EXIT_FAILURE; } encoder = init_encoder_control(cfg); if (!encoder) return EXIT_FAILURE; // Set output file encoder->output = output; // input init (TODO: read from commandline / config) encoder->bitdepth = 8; encoder->frame = 0; encoder->QP = encoder->cfg->qp; encoder->in.video_format = FORMAT_420; // deblocking filter encoder->deblock_enable = encoder->cfg->deblock_enable; encoder->beta_offset_div2 = encoder->cfg->deblock_beta; encoder->tc_offset_div2 = encoder->cfg->deblock_tc; // SAO encoder->sao_enable = encoder->cfg->sao_enable; // VUI encoder->vui.sar_width = encoder->cfg->vui.sar_width; encoder->vui.sar_height = encoder->cfg->vui.sar_height; encoder->vui.overscan = encoder->cfg->vui.overscan; encoder->vui.videoformat = encoder->cfg->vui.videoformat; encoder->vui.fullrange = encoder->cfg->vui.fullrange; encoder->vui.colorprim = encoder->cfg->vui.colorprim; encoder->vui.transfer = encoder->cfg->vui.transfer; encoder->vui.colormatrix = encoder->cfg->vui.colormatrix; encoder->vui.chroma_loc = encoder->cfg->vui.chroma_loc; init_encoder_input(&encoder->in, input, cfg->width, cfg->height); // Init coeff data table encoder->in.cur_pic->coeff_y = MALLOC(coefficient, cfg->width * cfg->height); encoder->in.cur_pic->coeff_u = MALLOC(coefficient, (cfg->width * cfg->height) >> 2); encoder->in.cur_pic->coeff_v = MALLOC(coefficient, (cfg->width * cfg->height) >> 2); // Init predicted data table encoder->in.cur_pic->pred_y = MALLOC(pixel, cfg->width * cfg->height); encoder->in.cur_pic->pred_u = MALLOC(pixel, (cfg->width * cfg->height) >> 2); encoder->in.cur_pic->pred_v = MALLOC(pixel, (cfg->width * cfg->height) >> 2); // Start coding cycle while data on input and not on the last frame while(!cfg->frames || encoder->frame < cfg->frames) { int32_t diff; double temp_psnr[3]; // Read one frame from the input if (!read_one_frame(input, encoder)) { if (!feof(input)) printf("Failed to read a frame %d\n", encoder->frame); break; } // The actual coding happens here, after this function we have a coded frame encode_one_frame(encoder); #ifdef _DEBUG // Write reconstructed frame out (for debugging purposes) fwrite(encoder->in.cur_pic->y_recdata, cfg->width * cfg->height, 1, recout); fwrite(encoder->in.cur_pic->u_recdata, (cfg->width * cfg->height)>>2, 1, recout); fwrite(encoder->in.cur_pic->v_recdata, (cfg->width * cfg->height)>>2, 1, recout); #endif // Calculate the bytes pushed to output for this frame fgetpos(output,(fpos_t*)&curpos); diff = (int32_t)(curpos-lastpos); lastpos = curpos; // PSNR calculations temp_psnr[0] = image_psnr(encoder->in.cur_pic->y_data, encoder->in.cur_pic->y_recdata, cfg->width, cfg->height); temp_psnr[1] = image_psnr(encoder->in.cur_pic->u_data, encoder->in.cur_pic->u_recdata, cfg->width>>1, cfg->height>>1); temp_psnr[2] = image_psnr(encoder->in.cur_pic->v_data, encoder->in.cur_pic->v_recdata, cfg->width>>1, cfg->height>>1); printf("POC %4d (%c-frame) %10d bits PSNR: %2.4f %2.4f %2.4f\n", encoder->frame, "BPI"[encoder->in.cur_pic->slicetype%3], diff<<3, temp_psnr[0], temp_psnr[1], temp_psnr[2]); // Increment total PSNR psnr[0] += temp_psnr[0]; psnr[1] += temp_psnr[1]; psnr[2] += temp_psnr[2]; // TODO: add more than one reference // Remove the ref pic (if present) picture_list_rem(encoder->ref, 0, 1); // Add current picture as reference picture_list_add(encoder->ref, encoder->in.cur_pic); // Allocate new memory to current picture // TODO: reuse memory from old reference encoder->in.cur_pic = picture_init(encoder->in.width, encoder->in.height, encoder->in.width_in_lcu, encoder->in.height_in_lcu); // Copy pointer from the last cur_pic because we don't want to reallocate it MOVE_POINTER(encoder->in.cur_pic->coeff_y,encoder->ref->pics[0]->coeff_y); MOVE_POINTER(encoder->in.cur_pic->coeff_u,encoder->ref->pics[0]->coeff_u); MOVE_POINTER(encoder->in.cur_pic->coeff_v,encoder->ref->pics[0]->coeff_v); MOVE_POINTER(encoder->in.cur_pic->pred_y,encoder->ref->pics[0]->pred_y); MOVE_POINTER(encoder->in.cur_pic->pred_u,encoder->ref->pics[0]->pred_u); MOVE_POINTER(encoder->in.cur_pic->pred_v,encoder->ref->pics[0]->pred_v); encoder->frame++; encoder->poc++; } // Coding finished fgetpos(output,(fpos_t*)&curpos); // Print statistics of the coding printf(" Processed %d frames, %10d bits AVG PSNR: %2.4f %2.4f %2.4f\n", encoder->frame, ((int32_t)curpos)<<3, psnr[0] / encoder->frame, psnr[1] / encoder->frame, psnr[2] / encoder->frame); fclose(input); fclose(output); #ifdef _DEBUG fclose(recout); #endif // Deallocating config_destroy(cfg); scalinglist_destroy(); picture_list_destroy(encoder->ref); picture_destroy(encoder->in.cur_pic); FREE_POINTER(encoder->in.cur_pic); bitstream_free(encoder->stream); FREE_POINTER(encoder->stream); free(encoder); free_tables(); FREE_POINTER(g_exp_table); return EXIT_SUCCESS; }