/***************************************************************************** * This file is part of Kvazaar HEVC encoder. * * Copyright (C) 2013-2015 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 Lesser General Public License as published by the * Free Software Foundation; either version 2.1 of the License, or (at your * option) any later version. * * 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 Lesser 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 */ #include "config.h" #include #include #include kvz_config *kvz_config_alloc(void) { kvz_config *cfg = (kvz_config *)malloc(sizeof(kvz_config)); if (!cfg) { fprintf(stderr, "Failed to allocate a config object!\n"); return cfg; } FILL(*cfg, 0); return cfg; } int kvz_config_init(kvz_config *cfg) { cfg->width = 0; cfg->height = 0; cfg->framerate = 25; cfg->qp = 32; cfg->intra_period = 0; cfg->vps_period = 0; cfg->deblock_enable = 1; cfg->deblock_beta = 0; cfg->deblock_tc = 0; cfg->sao_enable = 1; cfg->rdoq_enable = 1; cfg->signhide_enable = true; cfg->rdo = 1; cfg->full_intra_search = 0; cfg->trskip_enable = 1; cfg->tr_depth_intra = 0; cfg->ime_algorithm = 0; /* hexbs */ cfg->fme_level = 1; cfg->source_scan_type = 0; /* progressive */ cfg->vui.sar_width = 0; cfg->vui.sar_height = 0; cfg->vui.overscan = 0; /* undef */ cfg->vui.videoformat = 5; /* undef */ cfg->vui.fullrange = 0; /* limited range */ cfg->vui.colorprim = 2; /* undef */ cfg->vui.transfer = 2; /* undef */ cfg->vui.colormatrix = 2; /* undef */ cfg->vui.chroma_loc = 0; /* left center */ cfg->aud_enable = 0; cfg->cqmfile = NULL; cfg->ref_frames = DEFAULT_REF_PIC_COUNT; cfg->gop_len = 0; cfg->bipred = 0; cfg->target_bitrate = 0; cfg->tiles_width_count = 0; cfg->tiles_height_count = 0; cfg->tiles_width_split = NULL; cfg->tiles_height_split = NULL; cfg->wpp = 0; cfg->owf = -1; cfg->slice_count = 1; cfg->slice_addresses_in_ts = MALLOC(int32_t, 1); cfg->slice_addresses_in_ts[0] = 0; cfg->threads = 0; cfg->cpuid = 1; // Defaults for what sizes of PUs are tried. cfg->pu_depth_inter.min = 0; // 0-3 cfg->pu_depth_inter.max = 3; // 0-3 cfg->pu_depth_intra.min = 1; // 0-4 cfg->pu_depth_intra.max = 4; // 0-4 cfg->add_encoder_info = true; return 1; } int kvz_config_destroy(kvz_config *cfg) { if (cfg) { FREE_POINTER(cfg->cqmfile); FREE_POINTER(cfg->tiles_width_split); FREE_POINTER(cfg->tiles_height_split); FREE_POINTER(cfg->slice_addresses_in_ts); } free(cfg); return 1; } static int atobool(const char *str) { if (!strcmp(str, "1") || !strcmp(str, "true") || !strcmp(str, "yes")) return 1; if (!strcmp(str, "0") || !strcmp(str, "false") || !strcmp(str, "no")) return 0; return 0; } static int parse_enum(const char *arg, const char * const *names, int8_t *dst) { int8_t i; for (i = 0; names[i]; i++) { if (!strcmp(arg, names[i])) { *dst = i; return 1; } } return 0; } static int parse_tiles_specification(const char* const arg, int32_t * const ntiles, int32_t** const array) { const char* current_arg = NULL; int32_t current_value; int32_t values[MAX_TILES_PER_DIM]; int i; //Free pointer in any case if (*array) { FREE_POINTER(*array); } //If the arg starts with u, we want an uniform split if (arg[0]=='u') { *ntiles = atoi(arg+1)-1; if (MAX_TILES_PER_DIM <= *ntiles || 0 > *ntiles) { fprintf(stderr, "Invalid number of tiles (0 < %d <= %d = MAX_TILES_PER_DIM)!\n", *ntiles + 1, MAX_TILES_PER_DIM); return 0; } //Done with parsing return 1; } //We have a comma-separated list of int for the split... current_arg = arg; *ntiles = 0; do { int ret = sscanf(current_arg, "%d", ¤t_value); if (ret != 1) { fprintf(stderr, "Could not parse integer \"%s\"!\n", current_arg); return 0; } current_arg = strchr(current_arg, ','); //Skip the , if we found one if (current_arg) ++current_arg; values[*ntiles] = current_value; ++(*ntiles); if (MAX_TILES_PER_DIM <= *ntiles) break; } while (current_arg); if (MAX_TILES_PER_DIM <= *ntiles || 0 >= *ntiles) { fprintf(stderr, "Invalid number of tiles (0 < %d <= %d = MAX_TILES_PER_DIM)!\n", *ntiles + 1, MAX_TILES_PER_DIM); return 0; } *array = MALLOC(int32_t, *ntiles); if (!*array) { fprintf(stderr, "Could not allocate array for tiles\n"); return 0; } //TODO: memcpy? for (i = 0; i < *ntiles; ++i) { (*array)[i] = values[i]; } return 1; } static int parse_slice_specification(const char* const arg, int32_t * const nslices, int32_t** const array) { const char* current_arg = NULL; int32_t current_value; int32_t values[MAX_SLICES]; int i; //Free pointer in any case if (*array) { FREE_POINTER(*array); } //If the arg starts with u, we want an uniform split if (arg[0]=='u') { *nslices = atoi(arg+1); if (MAX_SLICES <= *nslices || 0 >= *nslices) { fprintf(stderr, "Invalid number of tiles (0 < %d <= %d = MAX_SLICES)!\n", *nslices + 1, MAX_SLICES); return 0; } //Done with parsing return 1; } //We have a comma-separated list of int for the split... current_arg = arg; //We always have a slice starting at 0 values[0] = 0; *nslices = 1; do { int ret = sscanf(current_arg, "%d", ¤t_value); if (ret != 1) { fprintf(stderr, "Could not parse integer \"%s\"!\n", current_arg); return 0; } current_arg = strchr(current_arg, ','); //Skip the , if we found one if (current_arg) ++current_arg; values[*nslices] = current_value; ++(*nslices); if (MAX_SLICES <= *nslices) break; } while (current_arg); if (MAX_SLICES <= *nslices || 0 >= *nslices) { fprintf(stderr, "Invalid number of slices (0 < %d <= %d = MAX_SLICES)!\n", *nslices, MAX_SLICES); return 0; } *array = MALLOC(int32_t, *nslices); if (!*array) { fprintf(stderr, "Could not allocate array for slices\n"); return 0; } //TODO: memcpy? for (i = 0; i < *nslices; ++i) { (*array)[i] = values[i]; } return 1; } int kvz_config_parse(kvz_config *cfg, const char *name, const char *value) { static const char * const me_names[] = { "hexbs", "tz", NULL }; static const char * const source_scan_type_names[] = { "progressive", "tff", "bff", NULL }; static const char * const overscan_names[] = { "undef", "show", "crop", NULL }; static const char * const videoformat_names[] = { "component", "pal", "ntsc", "secam", "mac", "undef", NULL }; static const char * const range_names[] = { "tv", "pc", NULL }; static const char * const colorprim_names[] = { "", "bt709", "undef", "", "bt470m", "bt470bg", "smpte170m", "smpte240m", "film", "bt2020", NULL }; static const char * const transfer_names[] = { "", "bt709", "undef", "", "bt470m", "bt470bg", "smpte170m", "smpte240m", "linear", "log100", "log316", "iec61966-2-4", "bt1361e", "iec61966-2-1", "bt2020-10", "bt2020-12", NULL }; static const char * const colormatrix_names[] = { "GBR", "bt709", "undef", "", "fcc", "bt470bg", "smpte170m", "smpte240m", "YCgCo", "bt2020nc", "bt2020c", NULL }; static const char * const preset_values[11][26] = { { "ultrafast", "pu-depth-intra", "2-3", "pu-depth-inter", "1-3", "rd", "0", "me", "hexbs", "ref", "1", "deblock", "0", "signhide", "0", "subme", "0", "sao", "0", "rdoq", "0", "transform-skip", "0", "full-intra-search", "0", NULL }, { "superfast", "pu-depth-intra", "1-3", "pu-depth-inter", "1-3", "rd", "1", "me", "hexbs", "ref", "1", "deblock", "0", "signhide", "0", "subme", "0", "sao", "0", "rdoq", "0", "transform-skip", "0", "full-intra-search", "0", NULL }, { "veryfast", "pu-depth-intra", "1-3", "pu-depth-inter", "0-3", "rd", "1", "me", "hexbs", "ref", "2", "deblock", "1", "signhide", "0", "subme", "0", "sao", "0", "rdoq", "0", "transform-skip", "0", "full-intra-search", "0", NULL }, { "faster", "pu-depth-intra", "1-3", "pu-depth-inter", "0-3", "rd", "1", "me", "hexbs", "ref", "2", "deblock", "1", "signhide", "1", "subme", "0", "sao", "0", "rdoq", "0", "transform-skip", "0", "full-intra-search", "0", NULL }, { "fast", "pu-depth-intra", "1-3", "pu-depth-inter", "0-3", "rd", "1", "me", "hexbs", "ref", "2", "deblock", "1", "signhide", "1", "subme", "1", "sao", "0", "rdoq", "0", "transform-skip", "0", "full-intra-search", "0", NULL }, { "medium", "pu-depth-intra", "1-4", "pu-depth-inter", "0-3", "rd", "1", "me", "hexbs", "ref", "3", "deblock", "1", "signhide", "1", "subme", "1", "sao", "0", "rdoq", "0", "transform-skip", "0", "full-intra-search", "0", NULL }, { "slow", "pu-depth-intra", "1-4", "pu-depth-inter", "0-3", "rd", "2", "me", "hexbs", "ref", "3", "deblock", "1", "signhide", "1", "subme", "1", "sao", "1", "rdoq", "0", "transform-skip", "0", "full-intra-search", "0", NULL }, { "slower", "pu-depth-intra", "1-4", "pu-depth-inter", "0-3", "rd", "2", "me", "tz", "ref", "4", "deblock", "1", "signhide", "1", "subme", "1", "sao", "1", "rdoq", "1", "transform-skip", "0", "full-intra-search", "0", NULL }, { "veryslow", "pu-depth-intra", "1-4", "pu-depth-inter", "0-3", "rd", "2", "me", "tz", "ref", "4", "deblock", "1", "signhide", "1", "subme", "1", "sao", "1", "rdoq", "1", "transform-skip", "1", "full-intra-search", "0", NULL }, { "placebo", "pu-depth-intra", "0-4", "pu-depth-inter", "0-3", "rd", "3", "me", "tz", "ref", "6", "deblock", "1", "signhide", "1", "subme", "1", "sao", "1", "rdoq", "1", "transform-skip", "1", "full-intra-search", "1", NULL }, { NULL } }; if (!name) return 0; if (!value) value = "true"; // Treat "--no-param" as --param 0 if ((!strncmp(name, "no-", 3))) { name += 3; value = atobool(value) ? "false" : "true"; } #define OPT(STR) (!strcmp(name, STR)) if OPT("width") cfg->width = atoi(value); else if OPT("height") cfg->height = atoi(value); else if OPT("input-res") if (!strcmp(value, "auto")) { return 1; } else { return (sscanf(value, "%dx%d", &cfg->width, &cfg->height) == 2); } else if OPT("input-fps") cfg->framerate = atof(value); else if OPT("qp") cfg->qp = atoi(value); else if OPT("period") cfg->intra_period = atoi(value); else if OPT("vps-period") cfg->vps_period = atoi(value); else if OPT("ref") cfg->ref_frames = atoi(value); else if OPT("deblock") { int beta, tc; if (2 == sscanf(value, "%d:%d", &beta, &tc)) { cfg->deblock_enable = 1; cfg->deblock_beta = beta; cfg->deblock_tc = tc; } else if (sscanf(value, "%d", &beta)) { cfg->deblock_enable = 1; cfg->deblock_beta = beta; cfg->deblock_tc = cfg->deblock_beta; } else { cfg->deblock_enable = atobool(value); } } else if OPT("sao") cfg->sao_enable = atobool(value); else if OPT("rdoq") cfg->rdoq_enable = atobool(value); else if OPT("signhide") cfg->signhide_enable = (bool)atobool(value); else if OPT("rd") cfg->rdo = atoi(value); else if OPT("full-intra-search") cfg->full_intra_search = atobool(value); else if OPT("transform-skip") cfg->trskip_enable = atobool(value); else if OPT("tr-depth-intra") cfg->tr_depth_intra = atoi(value); else if OPT("me") { int8_t ime_algorithm = 0; if (!parse_enum(value, me_names, &ime_algorithm)) return 0; cfg->ime_algorithm = ime_algorithm; } else if OPT("subme") cfg->fme_level = atoi(value); else if OPT("source-scan-type") return parse_enum(value, source_scan_type_names, &cfg->source_scan_type); else if OPT("sar") return sscanf(value, "%d:%d", &cfg->vui.sar_width, &cfg->vui.sar_height) == 2; else if OPT("overscan") return parse_enum(value, overscan_names, &cfg->vui.overscan); else if OPT("videoformat") return parse_enum(value, videoformat_names, &cfg->vui.videoformat); else if OPT("range") return parse_enum(value, range_names, &cfg->vui.fullrange); else if OPT("colorprim") return parse_enum(value, colorprim_names, &cfg->vui.colorprim); else if OPT("transfer") return parse_enum(value, transfer_names, &cfg->vui.transfer); else if OPT("colormatrix") return parse_enum(value, colormatrix_names, &cfg->vui.colormatrix); else if OPT("chromaloc") cfg->vui.chroma_loc = atoi(value); else if OPT("aud") cfg->aud_enable = atobool(value); else if OPT("cqmfile") cfg->cqmfile = strdup(value); else if OPT("tiles-width-split") return parse_tiles_specification(value, &cfg->tiles_width_count, &cfg->tiles_width_split); else if OPT("tiles-height-split") return parse_tiles_specification(value, &cfg->tiles_height_count, &cfg->tiles_height_split); else if OPT("wpp") cfg->wpp = atobool(value); else if OPT("owf") { cfg->owf = atoi(value); if (cfg->owf == 0 && !strcmp(value, "auto")) { // -1 means automatic selection cfg->owf = -1; } } else if OPT("slice-addresses") return parse_slice_specification(value, &cfg->slice_count, &cfg->slice_addresses_in_ts); else if OPT("threads") cfg->threads = atoi(value); else if OPT("cpuid") cfg->cpuid = atoi(value); else if OPT("pu-depth-inter") return sscanf(value, "%d-%d", &cfg->pu_depth_inter.min, &cfg->pu_depth_inter.max) == 2; else if OPT("pu-depth-intra") return sscanf(value, "%d-%d", &cfg->pu_depth_intra.min, &cfg->pu_depth_intra.max) == 2; else if OPT("info") cfg->add_encoder_info = atobool(value); else if OPT("gop") { // TODO: Defining the whole GOP structure via parameters if(atoi(value) == 8) { // GOP cfg->gop_len = 8; cfg->gop[0].poc_offset = 8; cfg->gop[0].qp_offset = 1; cfg->gop[0].layer = 1; cfg->gop[0].qp_factor = 0.442; cfg->gop[0].is_ref = 1; cfg->gop[0].ref_pos_count = 0; cfg->gop[0].ref_neg_count = 3; cfg->gop[0].ref_neg[0] = 8; cfg->gop[0].ref_neg[1] = 12; cfg->gop[0].ref_neg[2] = 16; cfg->gop[1].poc_offset = 4; cfg->gop[1].qp_offset = 2; cfg->gop[1].layer = 2; cfg->gop[1].qp_factor = 0.3536; cfg->gop[1].is_ref = 1; cfg->gop[1].ref_neg_count = 2; cfg->gop[1].ref_neg[0] = 4; cfg->gop[1].ref_neg[1] = 8; cfg->gop[1].ref_pos_count = 1; cfg->gop[1].ref_pos[0] = 4; cfg->gop[2].poc_offset = 2; cfg->gop[2].qp_offset = 3; cfg->gop[2].layer = 3; cfg->gop[2].qp_factor = 0.3536; cfg->gop[2].is_ref = 1; cfg->gop[2].ref_neg_count = 2; cfg->gop[2].ref_neg[0] = 2; cfg->gop[2].ref_neg[1] = 6; cfg->gop[2].ref_pos_count = 2; cfg->gop[2].ref_pos[0] = 2; cfg->gop[2].ref_pos[1] = 6; cfg->gop[3].poc_offset = 1; cfg->gop[3].qp_offset = 4; cfg->gop[3].layer = 4; cfg->gop[3].qp_factor = 0.68; cfg->gop[3].is_ref = 0; cfg->gop[3].ref_neg_count = 1; cfg->gop[3].ref_neg[0] = 1; cfg->gop[3].ref_pos_count = 3; cfg->gop[3].ref_pos[0] = 1; cfg->gop[3].ref_pos[1] = 3; cfg->gop[3].ref_pos[2] = 7; cfg->gop[4].poc_offset = 3; cfg->gop[4].qp_offset = 4; cfg->gop[4].layer = 4; cfg->gop[4].qp_factor = 0.68; cfg->gop[4].is_ref = 0; cfg->gop[4].ref_neg_count = 2; cfg->gop[4].ref_neg[0] = 1; cfg->gop[4].ref_neg[1] = 3; cfg->gop[4].ref_pos_count = 2; cfg->gop[4].ref_pos[0] = 1; cfg->gop[4].ref_pos[1] = 5; cfg->gop[5].poc_offset = 6; cfg->gop[5].qp_offset = 3; cfg->gop[5].layer = 3; cfg->gop[5].qp_factor = 0.3536; cfg->gop[5].is_ref = 1; cfg->gop[5].ref_neg_count = 2; cfg->gop[5].ref_neg[0] = 2; cfg->gop[5].ref_neg[1] = 6; cfg->gop[5].ref_pos_count = 1; cfg->gop[5].ref_pos[0] = 2; cfg->gop[6].poc_offset = 5; cfg->gop[6].qp_offset = 4; cfg->gop[6].layer = 4; cfg->gop[6].qp_factor = 0.68; cfg->gop[6].is_ref = 0; cfg->gop[6].ref_neg_count = 2; cfg->gop[6].ref_neg[0] = 1; cfg->gop[6].ref_neg[1] = 5; cfg->gop[6].ref_pos_count = 2; cfg->gop[6].ref_pos[0] = 1; cfg->gop[6].ref_pos[1] = 3; cfg->gop[7].poc_offset = 7; cfg->gop[7].qp_offset = 4; cfg->gop[7].layer = 4; cfg->gop[7].qp_factor = 0.68; cfg->gop[7].is_ref = 0; cfg->gop[7].ref_neg_count = 3; cfg->gop[7].ref_neg[0] = 1; cfg->gop[7].ref_neg[1] = 3; cfg->gop[7].ref_neg[2] = 7; cfg->gop[7].ref_pos_count = 1; cfg->gop[7].ref_pos[0] = 1; } else if (atoi(value)) { fprintf(stderr, "Input error: unsupported gop length, must be 0 or 8\n"); return 0; } } else if OPT("bipred") cfg->bipred = atobool(value); else if OPT("bitrate") cfg->target_bitrate = atoi(value); else if OPT("preset") { bool preset_found = false; int preset_line = 0; int preset_value = 0; // Find the selected preset from the list while (preset_values[preset_line][0] != NULL) { if (!strcmp(value, preset_values[preset_line][0])) { preset_found = true; fprintf(stderr, "Using preset %s: ", value); // Loop all the name and value pairs and push to the config parser for (preset_value = 1; preset_values[preset_line][preset_value] != NULL; preset_value+=2) { fprintf(stderr, "--%s=%s ", preset_values[preset_line][preset_value], preset_values[preset_line][preset_value + 1]); kvz_config_parse(cfg, preset_values[preset_line][preset_value], preset_values[preset_line][preset_value + 1]); } fprintf(stderr, "\n"); break; } preset_line++; } if (!preset_found) { fprintf(stderr, "Input error: unknown preset \"%s\"\n", value); return 0; } } else return 0; #undef OPT return 1; } /** * \brief Check that configuration is sensible. * * \param cfg config to check * \return 1 if the config is ok, otherwise 1 */ int kvz_config_validate(const kvz_config *const cfg) { int error = 0; if (cfg->width <= 0) { fprintf(stderr, "Input error: width must be positive\n"); error = 1; } if (cfg->height <= 0) { fprintf(stderr, "Input error: height must be positive\n"); error = 1; } if (cfg->width % 2 != 0) { fprintf(stderr, "Input error: width must be a multiple of two\n"); error = 1; } if (cfg->height % 2 != 0) { fprintf(stderr, "Input error: height must be a multiple of two\n"); error = 1; } if (cfg->framerate <= 0.0) { fprintf(stderr, "Input error: --input-fps must be positive\n"); error = 1; } if (cfg->gop_len && cfg->intra_period && cfg->intra_period % cfg->gop_len != 0) { fprintf(stderr, "Input error: intra period (%d) not a multiple of gop length (%d)\n", cfg->intra_period, cfg->gop_len); error = 1; } if (cfg->ref_frames < 1 || cfg->ref_frames >= MAX_REF_PIC_COUNT) { fprintf(stderr, "Input error: --ref out of range [1..%d]\n", MAX_REF_PIC_COUNT - 1); error = 1; } if (cfg->deblock_beta < -6 || cfg->deblock_beta > 6) { fprintf(stderr, "Input error: deblock beta parameter out of range [-6..6]\n"); error = 1; } if (cfg->deblock_tc < -6 || cfg->deblock_tc > 6) { fprintf(stderr, "Input error: deblock tc parameter out of range [-6..6]\n"); error = 1; } if (cfg->rdo < 0 || cfg->rdo > 3) { fprintf(stderr, "Input error: --rd parameter out of range [0..3]\n"); error = 1; } if (cfg->tr_depth_intra < 0 || cfg->tr_depth_intra > 4) { // range is 0 .. CtbLog2SizeY - Log2MinTrafoSize fprintf(stderr, "Input error: --tr-depth-intra is out of range [0..4]\n"); error = 1; } if (cfg->fme_level != 0 && cfg->fme_level != 1) { fprintf(stderr, "Input error: invalid --subme parameter (must be 0 or 1)\n"); error = 1; } if (cfg->vui.chroma_loc < 0 || cfg->vui.chroma_loc > 5) { fprintf(stderr, "Input error: --chromaloc parameter out of range [0..5]\n"); error = 1; } if (cfg->owf < -1) { fprintf(stderr, "Input error: --owf must be nonnegative or -1\n"); error = 1; } if (cfg->target_bitrate < 0) { fprintf(stderr, "Input error: --bitrate must be nonnegative\n"); error = 1; } if (!WITHIN(cfg->pu_depth_inter.min, PU_DEPTH_INTER_MIN, PU_DEPTH_INTER_MAX) || !WITHIN(cfg->pu_depth_inter.max, PU_DEPTH_INTER_MIN, PU_DEPTH_INTER_MAX)) { fprintf(stderr, "Input error: illegal value for --pu-depth-inter (%d-%d)\n", cfg->pu_depth_inter.min, cfg->pu_depth_inter.max); error = 1; } else if (cfg->pu_depth_inter.min > cfg->pu_depth_inter.max) { fprintf(stderr, "Input error: Inter PU depth min (%d) > max (%d)\n", cfg->pu_depth_inter.min, cfg->pu_depth_inter.max); error = 1; } if (!WITHIN(cfg->pu_depth_intra.min, PU_DEPTH_INTRA_MIN, PU_DEPTH_INTRA_MAX) || !WITHIN(cfg->pu_depth_intra.max, PU_DEPTH_INTRA_MIN, PU_DEPTH_INTRA_MAX)) { fprintf(stderr, "Input error: illegal value for --pu-depth-intra (%d-%d)\n", cfg->pu_depth_intra.min, cfg->pu_depth_intra.max); error = 1; } else if (cfg->pu_depth_intra.min > cfg->pu_depth_intra.max) { fprintf(stderr, "Input error: Intra PU depth min (%d) > max (%d)\n", cfg->pu_depth_intra.min, cfg->pu_depth_intra.max); error = 1; } // Tile separation should be at round position in terms of LCU, should be monotonic, and should not start by 0 if (cfg->tiles_width_split) { int i; int32_t prev_tile_split = 0; for (i=0; i < cfg->tiles_width_count; ++i) { if (cfg->tiles_width_split[i] <= prev_tile_split) { fprintf(stderr, "Input error: tile separations in width should be strictly monotonic (%d <= %d)\n", cfg->tiles_width_split[i], prev_tile_split); error = 1; break; } if ((cfg->tiles_width_split[i] % LCU_WIDTH) != 0) { fprintf(stderr, "Input error: tile separation in width %d (at %d) is not at a multiple of LCU_WIDTH (%d)\n", i, cfg->tiles_width_split[i], LCU_WIDTH); error = 1; break; } prev_tile_split = cfg->tiles_width_split[i]; } if (cfg->tiles_width_split[cfg->tiles_width_count-1] >= cfg->width) { fprintf(stderr, "Input error: last x tile separation in width (%d) should smaller than image width (%d)\n", cfg->tiles_width_split[cfg->tiles_width_count-1], cfg->width); error = 1; } } if (cfg->tiles_height_split) { int i; int32_t prev_tile_split = 0; for (i=0; i < cfg->tiles_height_count; ++i) { if (cfg->tiles_height_split[i] <= prev_tile_split) { fprintf(stderr, "Input error: tile separations in height should be strictly monotonic (%d <= %d)\n", cfg->tiles_height_split[i], prev_tile_split); error = 1; break; } if ((cfg->tiles_height_split[i] % LCU_WIDTH) != 0) { fprintf(stderr, "Input error: tile separation in height %d (at %d) is not at a multiple of LCU_WIDTH (%d)\n", i, cfg->tiles_height_split[i], LCU_WIDTH); error = 1; break; } prev_tile_split = cfg->tiles_height_split[i]; } if (cfg->tiles_height_split[cfg->tiles_height_count-1] >= cfg->height) { fprintf(stderr, "Input error: last tile separation in height (%d) should smaller than image height (%d)\n", cfg->tiles_height_split[cfg->tiles_height_count-1], cfg->height); error = 1; } } return !error; }