/* test.c Copyright (c) 2003-2017 HandBrake Team This file is part of the HandBrake source code Homepage: . It may be used under the terms of the GNU General Public License v2. For full terms see the file COPYING file or visit http://www.gnu.org/licenses/gpl-2.0.html */ #include #include #include #include #include #include #include #include #include #ifdef SYS_SunOS #include #endif #if defined( __MINGW32__ ) #include #include #endif #if defined( PTW32_STATIC_LIB ) #include #endif #include "hb.h" #include "lang.h" #include "parsecsv.h" #include "openclwrapper.h" #ifdef USE_QSV #include "qsv_common.h" #endif #if defined( __APPLE_CC__ ) #import #include #include #include #endif #define NLMEANS_DEFAULT_PRESET "medium" #define DEINTERLACE_DEFAULT_PRESET "default" #define DECOMB_DEFAULT_PRESET "default" #define DETELECINE_DEFAULT_PRESET "default" #define COMB_DETECT_DEFAULT_PRESET "default" #define HQDN3D_DEFAULT_PRESET "medium" #define ROTATE_DEFAULT "angle=180:hflip=0" #define DEBLOCK_DEFAULT "qp=5" /* Options */ static int debug = HB_DEBUG_ALL; static int dvdnav = 1; static char * input = NULL; static char * output = NULL; static char * format = NULL; static int titleindex = 1; static int titlescan = 0; static int main_feature = 0; static char * native_language = NULL; static int native_dub = 0; static int twoPass = -1; static int pad_disable = 0; static char * pad = NULL; static int deinterlace_disable = 0; static int deinterlace_custom = 0; static char * deinterlace = NULL; static int deblock_disable = 0; static char * deblock = NULL; static int hqdn3d_disable = 0; static int hqdn3d_custom = 0; static char * hqdn3d = NULL; static int nlmeans_disable = 0; static int nlmeans_custom = 0; static char * nlmeans = NULL; static char * nlmeans_tune = NULL; static int detelecine_disable = 0; static int detelecine_custom = 0; static char * detelecine = NULL; static int comb_detect_disable = 0; static int comb_detect_custom = 0; static char * comb_detect = NULL; static int decomb_disable = 0; static int decomb_custom = 0; static char * decomb = NULL; static char * rotate = NULL; static int grayscale = -1; static char * vcodec = NULL; static int audio_all = -1; static char ** audio_copy_list = NULL; static char ** audio_lang_list = NULL; static char ** atracks = NULL; static char ** acodecs = NULL; static char ** abitrates = NULL; static char ** aqualities = NULL; static char ** arates = NULL; static char ** mixdowns = NULL; static char ** normalize_mix_level = NULL; static char ** audio_dither = NULL; static char ** dynamic_range_compression = NULL; static char ** audio_gain = NULL; static char ** acompressions = NULL; static char * acodec_fallback = NULL; static char ** anames = NULL; static char ** subtitle_lang_list = NULL; static char ** subtracks = NULL; static char ** subforce = NULL; static int subtitle_all = -1; static int subburn = 0; static int subburn_native = 0; static int subdefault = 0; static char ** srtfile = NULL; static char ** srtcodeset = NULL; static char ** srtoffset = NULL; static char ** srtlang = NULL; static int srtdefault = -1; static int srtburn = -1; static int width = 0; static int height = 0; static int crop[4] = { -1,-1,-1,-1 }; static int loose_crop = -1; static char * vrate = NULL; static float vquality = HB_INVALID_VIDEO_QUALITY; static int vbitrate = 0; static int mux = 0; static int anamorphic_mode = -1; static int modulus = 0; static int par_height = -1; static int par_width = -1; static int display_width = -1; static int keep_display_aspect = 0; static int itu_par = -1; static int angle = 0; static int chapter_start = 0; static int chapter_end = 0; static int chapter_markers = -1; static char * marker_file = NULL; static char * encoder_preset = NULL; static char * encoder_tune = NULL; static char * encoder_profile = NULL; static char * encoder_level = NULL; static char * advanced_opts = NULL; static int maxHeight = 0; static int maxWidth = 0; static int fastfirstpass = -1; static char * preset_export_name = NULL; static char * preset_export_desc = NULL; static char * preset_export_file = NULL; static char * preset_name = NULL; static char * queue_import_name = NULL; static int cfr = -1; static int mp4_optimize = -1; static int ipod_atom = -1; static int color_matrix_code = -1; static int preview_count = 10; static int store_previews = 0; static int start_at_preview = 0; static int64_t start_at_pts = 0; static int start_at_frame = 0; static int64_t stop_at_pts = 0; static int stop_at_frame = 0; static uint64_t min_title_duration = 10; static int use_opencl = -1; #ifdef USE_QSV static int qsv_async_depth = -1; static int qsv_decode = -1; #endif /* Exit cleanly on Ctrl-C */ static volatile hb_error_code done_error = HB_ERROR_NONE; static volatile int die = 0; static volatile int work_done = 0; static void SigHandler( int ); /* Utils */ static void ShowHelp(); static void ShowCommands() { fprintf(stdout, "\nCommands:\n"); fprintf(stdout, " [h]elp Show this message\n"); fprintf(stdout, " [q]uit Exit HandBrakeCLI\n"); fprintf(stdout, " [p]ause Pause encoding\n"); fprintf(stdout, " [r]esume Resume encoding\n"); } static int ParseOptions( int argc, char ** argv ); static int CheckOptions( int argc, char ** argv ); static int HandleEvents( hb_handle_t * h, hb_dict_t *preset_dict ); static hb_dict_t * PreparePreset( const char *preset_name ); static hb_dict_t * PrepareJob( hb_handle_t *h, hb_title_t *title, hb_dict_t *preset_dict ); static void print_string_list(FILE *out, const char* const *list, const char *prefix); #ifdef __APPLE_CC__ static char* bsd_name_for_path(char *path); static int device_is_dvd(char *device); static io_service_t get_iokit_service( char *device ); static int is_dvd_service( io_service_t service ); static int is_whole_media_service( io_service_t service ); #endif /* Only print the "Muxing..." message once */ static int show_mux_warning = 1; /**************************************************************************** * hb_error_handler * * When using the CLI just display using hb_log as we always did in the past * make sure that we prefix with a nice ERROR message to catch peoples eyes. ****************************************************************************/ static void hb_cli_error_handler ( const char *errmsg ) { fprintf( stderr, "ERROR: %s\n", errmsg ); } static int get_argv_utf8(int *argc_ptr, char ***argv_ptr) { #if defined( __MINGW32__ ) int ret = 0; int argc; char **argv; wchar_t **argv_utf16 = CommandLineToArgvW(GetCommandLineW(), &argc); if (argv_utf16) { int i; int offset = (argc+1) * sizeof(char*); int size = offset; for(i = 0; i < argc; i++) size += WideCharToMultiByte(CP_UTF8, 0, argv_utf16[i], -1, NULL, 0, NULL, NULL ); argv = malloc(size); if (argv != NULL) { for (i = 0; i < argc; i++) { argv[i] = (char*)argv + offset; offset += WideCharToMultiByte(CP_UTF8, 0, argv_utf16[i], -1, argv[i], size-offset, NULL, NULL); } argv[argc] = NULL; ret = 1; } LocalFree(argv_utf16); } if (ret) { *argc_ptr = argc; *argv_ptr = argv; } return ret; #else // On other systems, assume command line is already utf8 return 1; #endif } static volatile int job_running = 0; void EventLoop(hb_handle_t *h, hb_dict_t *preset_dict) { /* Wait... */ work_done = 0; while (!die && !work_done) { #if defined( __MINGW32__ ) if( _kbhit() ) { switch( _getch() ) { case 0x03: /* ctrl-c */ case 'q': fprintf( stdout, "\nEncoding Quit by user command\n" ); done_error = HB_ERROR_CANCELED; die = 1; break; case 'p': fprintf(stdout, "\nEncoding Paused by user command, 'r' to resume\n"); hb_pause(h); hb_system_sleep_allow(h); break; case 'r': hb_system_sleep_prevent(h); hb_resume(h); break; case 'h': ShowCommands(); break; } } hb_snooze( 200 ); #elif !defined(SYS_BEOS) fd_set fds; struct timeval tv; int ret; char buf[257]; tv.tv_sec = 0; tv.tv_usec = 100000; FD_ZERO( &fds ); FD_SET( STDIN_FILENO, &fds ); ret = select( STDIN_FILENO + 1, &fds, NULL, NULL, &tv ); if( ret > 0 ) { int size = 0; while( size < 256 && read( STDIN_FILENO, &buf[size], 1 ) > 0 ) { if( buf[size] == '\n' ) { break; } size++; } if( size >= 256 || buf[size] == '\n' ) { switch( buf[0] ) { case 'q': fprintf( stdout, "\nEncoding Quit by user command\n" ); done_error = HB_ERROR_CANCELED; die = 1; break; case 'p': fprintf(stdout, "\nEncoding Paused by user command, 'r' to resume\n"); hb_pause(h); hb_system_sleep_allow(h); break; case 'r': hb_system_sleep_prevent(h); hb_resume(h); break; case 'h': ShowCommands(); break; } } } hb_snooze( 200 ); #else hb_snooze( 200 ); #endif HandleEvents( h, preset_dict ); } job_running = 0; } int RunQueueJob(hb_handle_t *h, hb_dict_t *job_dict) { if (job_dict == NULL) { return -1; } char * json_job; json_job = hb_value_get_json(job_dict); hb_value_free(&job_dict); if (json_job == NULL) { fprintf(stderr, "Error in setting up job! Aborting.\n"); return -1; } hb_add_json(h, json_job); free(json_job); job_running = 1; hb_start( h ); EventLoop(h, NULL); return 0; } int RunQueue(hb_handle_t *h, const char *queue_import_name) { hb_value_t * queue = hb_value_read_json(queue_import_name); if (hb_value_type(queue) == HB_VALUE_TYPE_DICT) { return RunQueueJob(h, hb_dict_get(queue, "Job")); } else if (hb_value_type(queue) == HB_VALUE_TYPE_ARRAY) { int ii, count, result = 0; count = hb_value_array_len(queue); for (ii = 0; ii < count; ii++) { hb_dict_t * entry = hb_value_array_get(queue, ii); int ret = RunQueueJob(h, hb_dict_get(entry, "Job")); if (ret < 0) { result = ret; } if (die) { break; } } return result; } else { fprintf(stderr, "Error: Invalid queue file %s\n", queue_import_name); return -1; } return 0; } int main( int argc, char ** argv ) { hb_handle_t * h; hb_global_init(); hb_presets_builtin_update(); hb_presets_cli_default_init(); /* Init libhb */ h = hb_init(4); // Show all logging until debug level is parsed // Get utf8 command line if windows get_argv_utf8(&argc, &argv); /* Parse command line */ if( ParseOptions( argc, argv ) || CheckOptions( argc, argv ) ) { return 1; } hb_log_level_set(h, debug); /* Register our error handler */ hb_register_error_handler(&hb_cli_error_handler); hb_dvd_set_dvdnav( dvdnav ); /* Show version */ fprintf( stderr, "%s - %s - %s\n", HB_PROJECT_TITLE, HB_PROJECT_BUILD_TITLE, HB_PROJECT_URL_WEBSITE ); /* Geeky */ fprintf( stderr, "%d CPU%s detected\n", hb_get_cpu_count(), hb_get_cpu_count() > 1 ? "s" : "" ); /* Exit ASAP on Ctrl-C */ signal( SIGINT, SigHandler ); if (queue_import_name != NULL) { hb_system_sleep_prevent(h); RunQueue(h, queue_import_name); } else { // Apply all command line overrides to the preset that are possible. // Some command line options are applied later to the job // (e.g. chapter names, explicit audio & subtitle tracks). hb_dict_t *preset_dict = PreparePreset(preset_name); if (preset_dict == NULL) { // An appropriate error message should have already // been spilled by PreparePreset. return 1; } if (preset_export_name != NULL) { hb_dict_set(preset_dict, "PresetName", hb_value_string(preset_export_name)); if (preset_export_desc != NULL) { hb_dict_set(preset_dict, "PresetDescription", hb_value_string(preset_export_desc)); } if (preset_export_file != NULL) { hb_presets_write_json(preset_dict, preset_export_file); } else { char *json; json = hb_presets_package_json(preset_dict); fprintf(stdout, "%s\n", json); } // If the user requested to export a preset, but not to // transcode or scan a file, exit here. if (input == NULL || (!titlescan && titleindex != 0 && output == NULL)) { hb_value_free(&preset_dict); return 0; } } /* Feed libhb with a DVD to scan */ fprintf( stderr, "Opening %s...\n", input ); if (main_feature) { /* * We need to scan for all the titles in order to * find the main feature */ titleindex = 0; } hb_system_sleep_prevent(h); hb_scan(h, input, titleindex, preview_count, store_previews, min_title_duration * 90000LL); EventLoop(h, preset_dict); hb_value_free(&preset_dict); } /* Clean up */ hb_close(&h); hb_global_close(); hb_str_vfree(audio_copy_list); hb_str_vfree(abitrates); hb_str_vfree(acompressions); hb_str_vfree(aqualities); hb_str_vfree(audio_dither); hb_str_vfree(acodecs); hb_str_vfree(arates); hb_str_vfree(atracks); hb_str_vfree(audio_lang_list); hb_str_vfree(audio_gain); hb_str_vfree(dynamic_range_compression); hb_str_vfree(mixdowns); hb_str_vfree(subtitle_lang_list); hb_str_vfree(subtracks); free(acodec_fallback); free(native_language); free(format); free(input); free(output); free(preset_name); free(encoder_preset); free(encoder_tune); free(advanced_opts); free(encoder_profile); free(encoder_level); free(rotate); free(deblock); free(detelecine); free(deinterlace); free(decomb); free(hqdn3d); free(nlmeans); free(nlmeans_tune); free(preset_export_name); free(preset_export_desc); free(preset_export_file); // write a carriage return to stdout // avoids overlap / line wrapping when stderr is redirected fprintf(stdout, "\n"); fprintf(stderr, "HandBrake has exited.\n"); return done_error; } static void PrintTitleInfo( hb_title_t * title, int feature ) { int i; fprintf( stderr, "+ title %d:\n", title->index ); if ( title->index == feature ) { fprintf( stderr, " + Main Feature\n" ); } if ( title->type == HB_STREAM_TYPE || title->type == HB_FF_STREAM_TYPE ) { fprintf( stderr, " + stream: %s\n", title->path ); } else if ( title->type == HB_DVD_TYPE ) { fprintf( stderr, " + vts %d, ttn %d, cells %d->%d (%"PRIu64" blocks)\n", title->vts, title->ttn, title->cell_start, title->cell_end, title->block_count ); } else if( title->type == HB_BD_TYPE ) { fprintf( stderr, " + playlist: %05d.MPLS\n", title->playlist ); } if (title->angle_count > 1) fprintf( stderr, " + angle(s) %d\n", title->angle_count ); fprintf( stderr, " + duration: %02d:%02d:%02d\n", title->hours, title->minutes, title->seconds ); fprintf( stderr, " + size: %dx%d, pixel aspect: %d/%d, display aspect: %.2f, %.3f fps\n", title->geometry.width, title->geometry.height, title->geometry.par.num, title->geometry.par.den, (float)title->dar.num / title->dar.den, (float)title->vrate.num / title->vrate.den ); fprintf( stderr, " + autocrop: %d/%d/%d/%d\n", title->crop[0], title->crop[1], title->crop[2], title->crop[3] ); fprintf(stderr, " + support opencl: %s\n", title->opencl_support ? "yes" : "no"); fprintf( stderr, " + chapters:\n" ); for( i = 0; i < hb_list_count( title->list_chapter ); i++ ) { hb_chapter_t * chapter; chapter = hb_list_item( title->list_chapter, i ); fprintf( stderr, " + %d: cells %d->%d, %"PRIu64" blocks, duration " "%02d:%02d:%02d\n", chapter->index, chapter->cell_start, chapter->cell_end, chapter->block_count, chapter->hours, chapter->minutes, chapter->seconds ); } fprintf( stderr, " + audio tracks:\n" ); for( i = 0; i < hb_list_count( title->list_audio ); i++ ) { hb_audio_config_t *audio; audio = hb_list_audio_config_item( title->list_audio, i ); if( ( audio->in.codec == HB_ACODEC_AC3 ) || ( audio->in.codec == HB_ACODEC_DCA) ) { fprintf( stderr, " + %d, %s (iso639-2: %s), %dHz, %dbps\n", i + 1, audio->lang.description, audio->lang.iso639_2, audio->in.samplerate, audio->in.bitrate ); } else { fprintf( stderr, " + %d, %s (iso639-2: %s)\n", i + 1, audio->lang.description, audio->lang.iso639_2 ); } } fprintf( stderr, " + subtitle tracks:\n" ); for( i = 0; i < hb_list_count( title->list_subtitle ); i++ ) { hb_subtitle_t *subtitle; subtitle = hb_list_item( title->list_subtitle, i ); fprintf( stderr, " + %d, %s (iso639-2: %s) (%s)(%s)\n", i + 1, subtitle->lang, subtitle->iso639_2, (subtitle->format == TEXTSUB) ? "Text" : "Bitmap", hb_subsource_name(subtitle->source)); } if(title->detected_interlacing) { /* Interlacing was found in half or more of the preview frames */ fprintf( stderr, " + combing detected, may be interlaced or telecined\n"); } } static void PrintTitleSetInfo( hb_title_set_t * title_set ) { int i; hb_title_t * title; for( i = 0; i < hb_list_count( title_set->list_title ); i++ ) { title = hb_list_item( title_set->list_title, i ); PrintTitleInfo( title, title_set->feature ); } } static int test_sub_list( char ** list, int pos ) { int i; if ( list == NULL || pos == 0 ) return 0; if ( list[0] == NULL && pos == 1 ) return 1; for ( i = 0; list[i] != NULL; i++ ) { int idx = strtol( list[i], NULL, 0 ); if ( idx == pos ) return 1; } return 0; } void write_chapter_names(hb_dict_t *job_dict, const char *marker_file) { if (marker_file == NULL) return; hb_csv_file_t * file = hb_open_csv_file(marker_file); hb_csv_cell_t * cell; int row = 0; if (file == NULL) { fprintf(stderr, "Cannot open chapter marker file, using defaults\n"); return; } fprintf(stderr, "Reading chapter markers from file %s\n", marker_file); hb_value_array_t *chapter_array; chapter_array = hb_dict_get(hb_dict_get(job_dict, "Destination"), "ChapterList"); if (chapter_array == NULL) return; /* Parse the cells */ while (NULL != (cell = hb_read_next_cell(file))) { /* We have a chapter number */ if (cell->cell_col == 0) { row = cell->cell_row; } /* We have a chapter name */ if (cell->cell_col == 1 && row == cell->cell_row) { /* If we have a valid chapter, add chapter entry */ hb_dict_t *chapter_dict = hb_value_array_get(chapter_array, row); if (chapter_dict != NULL) { hb_dict_set(chapter_dict, "Name", hb_value_string(cell->cell_text)); } } hb_dispose_cell( cell ); } hb_close_csv_file( file ); } static void lang_list_remove(hb_value_array_t *list, const char *lang) { int count = hb_value_array_len(list); int ii; for (ii = count - 1; ii >= 0; ii--) { const char *tmp = hb_value_get_string(hb_value_array_get(list, ii)); if (!strncmp(lang, tmp, 4)) hb_value_array_remove(list, ii); } } static int HandleEvents(hb_handle_t * h, hb_dict_t *preset_dict) { hb_state_t s; hb_get_state( h, &s ); switch( s.state ) { case HB_STATE_IDLE: /* Nothing to do */ break; #define p s.param.scanning case HB_STATE_SCANNING: /* Show what title is currently being scanned */ if (p.preview_cur) { fprintf(stderr, "\rScanning title %d of %d, preview %d, %.2f %%", p.title_cur, p.title_count, p.preview_cur, 100 * p.progress); } else { fprintf(stderr, "\rScanning title %d of %d, %.2f %%", p.title_cur, p.title_count, 100 * p.progress); } fflush(stderr); break; #undef p case HB_STATE_SCANDONE: { hb_title_set_t * title_set; hb_title_t * title; if (job_running) { // SCANDONE generated by a scan during execution of the job break; } title_set = hb_get_title_set( h ); if( !title_set || !hb_list_count( title_set->list_title ) ) { /* No valid title, stop right there */ fprintf( stderr, "No title found.\n" ); done_error = HB_ERROR_WRONG_INPUT; die = 1; break; } if (main_feature) { int i; int main_feature_idx=0; int main_feature_pos=-1; int main_feature_time=0; int title_time; fprintf( stderr, "Searching for main feature title...\n" ); for( i = 0; i < hb_list_count( title_set->list_title ); i++ ) { title = hb_list_item( title_set->list_title, i ); title_time = (title->hours*60*60 ) + (title->minutes *60) + (title->seconds); fprintf( stderr, " + Title (%d) index %d has length %dsec\n", i, title->index, title_time ); if( main_feature_time < title_time ) { main_feature_time = title_time; main_feature_pos = i; main_feature_idx = title->index; } if( title_set->feature == title->index ) { main_feature_pos = i; main_feature_idx = title->index; break; } } if( main_feature_pos == -1 ) { fprintf( stderr, "No main feature title found.\n" ); done_error = HB_ERROR_WRONG_INPUT; die = 1; break; } titleindex = main_feature_idx; fprintf(stderr, "Found main feature title %d\n", main_feature_idx); title = hb_list_item(title_set->list_title, main_feature_pos); } else { title = hb_list_item(title_set->list_title, 0); } if (!titleindex || titlescan) { /* Scan-only mode, print infos and exit */ PrintTitleSetInfo( title_set ); die = 1; break; } fprintf( stderr, "+ Using preset: %s\n", hb_value_get_string(hb_dict_get(preset_dict, "PresetName"))); PrintTitleInfo(title, title_set->feature); // All overrides to the preset are complete // Initialize the job from preset + overrides // and apply job specific command line overrides hb_dict_t *job_dict = PrepareJob(h, title, preset_dict); if (job_dict == NULL) { die = 1; return -1; } char * json_job; json_job = hb_value_get_json(job_dict); hb_value_free(&job_dict); if (json_job == NULL) { fprintf(stderr, "Error in setting up job! Aborting.\n"); die = 1; return -1; } hb_add_json(h, json_job); free(json_job); job_running = 1; hb_start( h ); break; } #define p s.param.working case HB_STATE_SEARCHING: fprintf( stdout, "\rEncoding: task %d of %d, Searching for start time, %.2f %%", p.pass, p.pass_count, 100.0 * p.progress ); if( p.seconds > -1 ) { fprintf( stdout, " (ETA %02dh%02dm%02ds)", p.hours, p.minutes, p.seconds ); } fflush(stdout); break; case HB_STATE_WORKING: fprintf( stdout, "\rEncoding: task %d of %d, %.2f %%", p.pass, p.pass_count, 100.0 * p.progress ); if( p.seconds > -1 ) { fprintf( stdout, " (%.2f fps, avg %.2f fps, ETA " "%02dh%02dm%02ds)", p.rate_cur, p.rate_avg, p.hours, p.minutes, p.seconds ); } fflush(stdout); break; #undef p #define p s.param.muxing case HB_STATE_MUXING: { if (show_mux_warning) { fprintf( stdout, "\rMuxing: this may take awhile..." ); fflush(stdout); show_mux_warning = 0; } break; } #undef p #define p s.param.workdone case HB_STATE_WORKDONE: /* Print error if any, then exit */ switch( p.error ) { case HB_ERROR_NONE: fprintf( stderr, "\nEncode done!\n" ); break; case HB_ERROR_CANCELED: fprintf( stderr, "\nEncode canceled.\n" ); break; default: fprintf( stderr, "\nEncode failed (error %x).\n", p.error ); } done_error = p.error; work_done = 1; job_running = 0; break; #undef p } return 0; } /**************************************************************************** * SigHandler: ****************************************************************************/ static volatile int64_t i_die_date = 0; void SigHandler( int i_signal ) { done_error = HB_ERROR_CANCELED; if( die == 0 ) { die = 1; i_die_date = hb_get_date(); fprintf( stderr, "Signal %d received, terminating - do it " "again in case it gets stuck\n", i_signal ); } else if( i_die_date + 500 < hb_get_date() ) { fprintf( stderr, "Dying badly, files might remain in your /tmp\n" ); exit( done_error ); } } /**************************************************************************** * ShowHelp: ****************************************************************************/ static void showFilterPresets(FILE* const out, int filter_id) { char ** names = hb_filter_get_presets_short_name(filter_id); int ii, count = 0; // Count number of entries we want to display for (ii = 0; names[ii] != NULL; ii++) { if (!strcasecmp(names[ii], "custom") || // skip custom !strcasecmp(names[ii], "off") || // skip off !strcasecmp(names[ii], "default")) // skip default continue; count++; } // If there are no entries, display nothing. if (count == 0) { return; } fprintf(out, " Presets:\n"); for (ii = 0; names[ii] != NULL; ii++) { if (!strcasecmp(names[ii], "custom") || // skip custom !strcasecmp(names[ii], "off") || // skip off !strcasecmp(names[ii], "default")) // skip default continue; fprintf(out, " %s\n", names[ii]); } hb_str_vfree(names); } static void showFilterTunes(FILE* const out, int filter_id) { char ** tunes = hb_filter_get_tunes_short_name(filter_id); int ii, count = 0; // Count number of entries we want to display for (ii = 0; tunes[ii] != NULL; ii++) { /* if (!strcasecmp(tunes[ii], "custom") || // skip custom !strcasecmp(tunes[ii], "off") || // skip off !strcasecmp(tunes[ii], "default")) // skip default continue; */ count++; } // If there are no entries, display nothing. if (count == 0) { return; } fprintf(out, " Tunes:\n"); for (ii = 0; tunes[ii] != NULL; ii++) { /* if (!strcasecmp(tunes[ii], "custom") || // skip custom !strcasecmp(tunes[ii], "off") || // skip off !strcasecmp(tunes[ii], "default")) // skip default continue; */ fprintf(out, " %s\n", tunes[ii]); } hb_str_vfree(tunes); } static void showFilterKeys(FILE* const out, int filter_id) { char ** keys = hb_filter_get_keys(filter_id); char * colon = "", * newline; int ii, linelen = 0; fprintf(out, " Custom Format:\n" " "); for (ii = 0; keys[ii] != NULL; ii++) { int c = tolower(keys[ii][0]); int len = strlen(keys[ii]) + 3; if (linelen + len > 48) { newline = "\n "; linelen = 0; } else { newline = ""; } fprintf(out, "%s%s%s=%c", colon, newline, keys[ii], c); linelen += len; colon = ":"; } fprintf(out, "\n"); hb_str_vfree(keys); } static void showFilterDefault(FILE* const out, int filter_id) { const char * preset = "default"; fprintf(out, " Default:\n" " "); switch (filter_id) { case HB_FILTER_NLMEANS: preset = NLMEANS_DEFAULT_PRESET; break; case HB_FILTER_DEINTERLACE: preset = DEINTERLACE_DEFAULT_PRESET; break; case HB_FILTER_DECOMB: preset = DECOMB_DEFAULT_PRESET; break; case HB_FILTER_DETELECINE: preset = DETELECINE_DEFAULT_PRESET; break; case HB_FILTER_HQDN3D: preset = HQDN3D_DEFAULT_PRESET; break; case HB_FILTER_COMB_DETECT: preset = COMB_DETECT_DEFAULT_PRESET; break; default: break; } switch (filter_id) { case HB_FILTER_DEINTERLACE: case HB_FILTER_NLMEANS: case HB_FILTER_DECOMB: case HB_FILTER_DETELECINE: case HB_FILTER_HQDN3D: case HB_FILTER_COMB_DETECT: { hb_dict_t * settings; settings = hb_generate_filter_settings(filter_id, preset, NULL, NULL); char * str = hb_filter_settings_string(filter_id, settings); hb_value_free(&settings); char ** split = hb_str_vsplit(str, ':'); char * colon = "", * newline; int ii, linelen = 0; for (ii = 0; split[ii] != NULL; ii++) { int len = strlen(split[ii]) + 1; if (linelen + len > 48) { newline = "\n "; linelen = 0; } else { newline = ""; } fprintf(out, "%s%s%s", colon, newline, split[ii]); linelen += len; colon = ":"; } hb_str_vfree(split); free(str); } break; case HB_FILTER_ROTATE: fprintf(out, "%s", ROTATE_DEFAULT); break; case HB_FILTER_DEBLOCK: fprintf(out, "%s", DEBLOCK_DEFAULT); break; default: break; } fprintf(out, "\n"); } static void ShowHelp() { int i, clock_min, clock_max, clock; const hb_rate_t *rate; const hb_dither_t *dither; const hb_mixdown_t *mixdown; const hb_encoder_t *encoder; const hb_container_t *container; FILE* const out = stdout; fprintf( out, "Usage: HandBrakeCLI [options] -i -o \n" "\n" "General Options --------------------------------------------------------------\n" "\n" " -h, --help Print help\n" " --version Print version\n" " -v, --verbose[=number] Be verbose (optional argument: logging level)\n" " -Z. --preset Select preset by name (case-sensitive)\n" " Enclose names containing spaces in double quotation\n" " marks (e.g. \"Preset Name\")\n" " -z, --preset-list List available presets\n" " --preset-import-file \n" " Import presets from a json preset file.\n" " 'filespec' may be a list of files separated\n" " by spaces, or it may use shell wildcards.\n" " --preset-import-gui Import presets from GUI config preset file.\n" " --preset-export \n" " Create a new preset from command line options and\n" " write a json representation of the preset to the\n" " console or a file if '--preset-export-file' is\n" " specified. The required argument will be the name\n" " of the new preset.\n" " --preset-export-file \n" " Write new preset generated by '--preset-export'\n" " to file 'filename'.\n" " --preset-export-description \n" " Add a description to the new preset created with\n" " '--preset-export'\n" " --queue-import-file \n" " Import an encode queue file created by the GUI\n" " --no-dvdnav Do not use dvdnav for reading DVDs\n" " --no-opencl Disable use of OpenCL\n" "\n" "\n" "Source Options ---------------------------------------------------------------\n" "\n" " -i, --input Set input file or device (\"source\")\n" " -t, --title Select a title to encode (0 to scan all titles\n" " only, default: 1)\n" " --min-duration Set the minimum title duration (in seconds).\n" " Shorter titles will be ignored (default: 10).\n" " --scan Scan selected title only.\n" " --main-feature Detect and select the main feature title.\n" " -c, --chapters Select chapters (e.g. \"1-3\" for chapters\n" " 1 to 3 or \"3\" for chapter 3 only,\n" " default: all chapters)\n" " --angle Select the video angle (DVD or Blu-ray only)\n" " --previews \n" " Select how many preview images are generated,\n" " and whether to store to disk (0 or 1).\n" " (default: 10:0)\n" " --start-at-preview \n" " Start encoding at a given preview.\n" " --start-at \n" " Start encoding at a given duration (in seconds),\n" " frame, or pts (on a 90kHz clock)\n" " (e.g. duration:10, frame:300, pts:900000)\n" " --stop-at \n" " Stop encoding at a given duration (in seconds),\n" " frame, or pts (on a 90kHz clock)\n" " (e.g. duration:10, frame:300, pts:900000)\n" "\n" "\n" "Destination Options ----------------------------------------------------------\n" "\n" " -o, --output Set destination file name\n" " -f, --format Select container format:\n"); container = NULL; while ((container = hb_container_get_next(container)) != NULL) { fprintf(out, " %s\n", container->short_name); } fprintf(out, " default: auto-detected from destination file name)\n" " -m, --markers Add chapter markers\n" " --no-markers Disable preset chapter markers\n" " -O, --optimize Optimize MP4 files for HTTP streaming (fast start,\n" " s.s. rewrite file to place MOOV atom at beginning)\n" " --no-optimize Disable preset 'optimize'\n" " -I, --ipod-atom Add iPod 5G compatibility atom to MP4 container\n" " --no-ipod-atom Disable iPod 5G atom\n" " -P, --use-opencl Use OpenCL where applicable\n" "\n" "\n" "Video Options ----------------------------------------------------------------\n" "\n" " -e, --encoder Select video encoder:\n"); encoder = NULL; while ((encoder = hb_video_encoder_get_next(encoder)) != NULL) { fprintf(out, " %s\n", encoder->short_name); } fprintf(out, " --encoder-preset \n" " Adjust video encoding settings for a particular\n" " speed/efficiency tradeoff (encoder-specific)\n" " --encoder-preset-list \n" " List supported --encoder-preset values for the\n" " specified video encoder\n" " --encoder-tune \n" " Adjust video encoding settings for a particular\n" " type of souce or situation (encoder-specific)\n" " --encoder-tune-list \n" " List supported --encoder-tune values for the\n" " specified video encoder\n" " -x, --encopts Specify advanced encoding options in the same\n" " style as mencoder (all encoders except theora):\n" " option1=value1:option2=value2\n" " --encoder-profile \n" " Ensure compliance with the requested codec\n" " profile (encoder-specific)\n" " --encoder-profile-list \n" " List supported --encoder-profile values for the\n" " specified video encoder\n" " --encoder-level \n" " Ensures compliance with the requested codec\n" " level (encoder-specific)\n" " --encoder-level-list \n" " List supported --encoder-level values for the\n" " specified video encoder\n" " -q, --quality Set video quality (e.g. 22.0)\n" " -b, --vb Set video bitrate in kbit/s (default: 1000)\n" " -2, --two-pass Use two-pass mode\n" " --no-two-pass Disable two-pass mode\n" " -T, --turbo When using 2-pass use \"turbo\" options on the\n" " first pass to improve speed\n" " (works with x264 and x265)\n" " --no-turbo Disable 2-pass mode's \"turbo\" first pass\n" " -r, --rate Set video framerate\n" " (" ); i = 0; rate = NULL; while ((rate = hb_video_framerate_get_next(rate)) != NULL) { if (i > 0) { // separate multiple items i++; fprintf(out, "/"); } if (hb_video_framerate_get_next(rate) != NULL) { if (i + strlen(rate->name) > 32) { // break long lines i = 0; fprintf(out, "\n "); } i += strlen(rate->name); } fprintf(out, "%s", rate->name); } fprintf( out, "\n" " or a number between " ); hb_video_framerate_get_limits(&clock_min, &clock_max, &clock); fprintf(out, "%i and %i", (clock / clock_max), (clock / clock_min)); fprintf( out, ").\n" " Be aware that not specifying a framerate lets\n" " HandBrake preserve a source's time stamps,\n" " potentially creating variable framerate video\n" " --vfr, --cfr, --pfr Select variable, constant or peak-limited\n" " frame rate control. VFR preserves the source\n" " timing. CFR makes the output constant rate at\n" " the rate given by the -r flag (or the source's\n" " average rate if no -r is given). PFR doesn't\n" " allow the rate to go over the rate specified\n" " with the -r flag but won't change the source\n" " timing if it's below that rate.\n" " If none of these flags are given, the default\n" " is --pfr when -r is given and --vfr otherwise\n" "\n" "\n" "Audio Options ----------------------------------------------------------------\n" "\n" " --audio-lang-list \n" " Specifiy a comma separated list of audio\n" " languages you would like to select from the\n" " source title. By default, the first audio\n" " matching each language will be added to your\n" " output. Provide the language's ISO 639-2 code\n" " (e.g. fre, eng, spa, dut, et cetera)\n" " Use code 'und' (Unknown) to match all languages.\n" " --all-audio Select all audio tracks matching languages in\n" " the specified language list (--audio-lang-list).\n" " Any language if list is not specified.\n" " --first-audio Select first audio track matching languages in\n" " the specified language list (--audio-lang-list).\n" " Any language if list is not specified.\n" " -a, --audio Select audio track(s), separated by commas\n" " (\"none\" for no audio, \"1,2,3\" for multiple\n" " tracks, default: first one).\n" " Multiple output tracks can be used for one input.\n" " -E, --aencoder Select audio encoder(s):\n" ); encoder = NULL; while ((encoder = hb_audio_encoder_get_next(encoder)) != NULL) { fprintf(out, " %s\n", encoder->short_name); } fprintf(out, " \"copy:\" will pass through the corresponding\n" " audio track without modification, if pass through\n" " is supported for the audio type.\n" " Separate tracks by commas.\n" " Defaults:\n"); container = NULL; while ((container = hb_container_get_next(container)) != NULL) { int audio_encoder = hb_audio_encoder_get_default(container->format); fprintf(out, " %-8s %s\n", container->short_name, hb_audio_encoder_get_short_name(audio_encoder)); } fprintf(out, " --audio-copy-mask \n" " Set audio codecs that are permitted when the\n" " \"copy\" audio encoder option is specified\n" " (" ); i = 0; encoder = NULL; while ((encoder = hb_audio_encoder_get_next(encoder)) != NULL) { if ((encoder->codec & HB_ACODEC_PASS_FLAG) && (encoder->codec != HB_ACODEC_AUTO_PASS)) { if (i) { fprintf(out, "/"); } i = 1; // skip "copy:" fprintf(out, "%s", encoder->short_name + 5); } } fprintf(out, ")\n" " Separated by commas for multiple allowed options.\n" " --audio-fallback \n" " Set audio codec to use when it is not possible\n" " to copy an audio track without re-encoding.\n" " -B, --ab Set audio track bitrate(s) in kbit/s.\n" " (default: determined by the selected codec, mixdown,\n" " and samplerate combination).\n" " Separate tracks by commas.\n" " -Q, --aq Set audio quality metric.\n" " Separate tracks by commas.\n" " -C, --ac Set audio compression metric.\n" " (available depending on selected codec)\n" " Separate tracks by commas.\n" " -6, --mixdown Format(s) for audio downmixing/upmixing:\n"); // skip HB_AMIXDOWN_NONE mixdown = hb_mixdown_get_next(NULL); while((mixdown = hb_mixdown_get_next(mixdown)) != NULL) { fprintf(out, " %s\n", mixdown->short_name); } fprintf(out, " Separate tracks by commas.\n" " Defaults:\n"); encoder = NULL; while((encoder = hb_audio_encoder_get_next(encoder)) != NULL) { if (!(encoder->codec & HB_ACODEC_PASS_FLAG)) { // layout: UINT64_MAX (all channels) should work with any mixdown int mixdown = hb_mixdown_get_default(encoder->codec, UINT64_MAX); // assumes that the encoder short name is <= 16 characters long fprintf(out, " %-16s up to %s\n", encoder->short_name, hb_mixdown_get_short_name(mixdown)); } } fprintf(out, " --normalize-mix Normalize audio mix levels to prevent clipping.\n" " Separate tracks by commas.\n" " 0 = Disable Normalization (default)\n" " 1 = Enable Normalization\n" " -R, --arate Set audio samplerate(s)\n" " (" ); rate = NULL; while ((rate = hb_audio_samplerate_get_next(rate)) != NULL) { fprintf(out, "%s", rate->name); if (hb_audio_samplerate_get_next(rate) != NULL) { fprintf(out, "/"); } } fprintf( out, " kHz)\n" " Separate tracks by commas.\n" " -D, --drc Apply extra dynamic range compression to the\n" " audio, making soft sounds louder. Range is 1.0\n" " to 4.0 (too loud), with 1.5 - 2.5 being a useful\n" " range.\n" " Separate tracks by commas.\n" " --gain Amplify or attenuate audio before encoding. Does\n" " NOT work with audio passthru (copy). Values are\n" " in dB. Negative values attenuate, positive\n" " values amplify. A 1 dB difference is barely\n" " audible.\n" " --adither Select dithering to apply before encoding audio:\n"); dither = NULL; while ((dither = hb_audio_dither_get_next(dither)) != NULL) { if (dither->method == hb_audio_dither_get_default()) { fprintf(out, " %s (default)\n", dither->short_name); } else { fprintf(out, " %s\n", dither->short_name); } } fprintf(out, " Separate tracks by commas.\n" " Supported by encoder(s):\n"); encoder = NULL; while ((encoder = hb_audio_encoder_get_next(encoder)) != NULL) { if (hb_audio_dither_is_supported(encoder->codec)) { fprintf(out, " %s\n", encoder->short_name); } } fprintf(out, " -A, --aname Set audio track name(s).\n" " Separate tracks by commas.\n" "\n" "\n" "Picture Options --------------------------------------------------------------\n" "\n" " -w, --width Set storage width in pixels\n" " -l, --height Set storage height in pixels\n" " --crop \n" " Set picture cropping in pixels\n" " (default: automatically remove black bars)\n" " --loose-crop Always crop to a multiple of the modulus\n" " --no-loose-crop Disable preset 'loose-crop'\n" " -Y, --maxHeight \n" " Set maximum height in pixels\n" " -X, --maxWidth \n" " Set maximum width in pixels\n" " --non-anamorphic Set pixel aspect ratio to 1:1\n" " --auto-anamorphic Store pixel aspect ratio that maximizes storage\n" " resolution\n" " --loose-anamorphic Store pixel aspect ratio that is as close as\n" " possible to the source video pixel aspect ratio\n" " --custom-anamorphic Store pixel aspect ratio in video stream and\n" " directly control all parameters.\n" " --display-width \n" " Set display width in pixels, for custom anamorphic.\n" " This determines the display aspect during playback,\n" " which may differ from the storage aspect.\n" " --keep-display-aspect Preserve the source's display aspect ratio\n" " when using custom anamorphic\n" " --no-keep-display-aspect\n" " Disable preset 'keep-display-aspect'\n" " --pixel-aspect \n" " Set pixel aspect for custom anamorphic\n" " (--display-width and --pixel-aspect are mutually\n" " exclusive.\n" " --itu-par Use wider ITU pixel aspect values for loose and\n" " custom anamorphic, useful with underscanned sources\n" " --no-itu-par Disable preset 'itu-par'\n" " --modulus Set storage width and height modulus\n" " Dimensions will be made divisible by this number.\n" " (default: set by preset, typically 2)\n" " -M, --color-matrix \n" " Set the color space signaled by the output:\n" " 2020\n" " 709\n" " 601\n" " ntsc (same as 601)\n" " pal\n" " (default: auto-detected from source)\n" "\n" "\n" "Filters Options --------------------------------------------------------------\n" "\n" " --comb-detect[=string] Detect interlace artifacts in frames.\n" " If not accompanied by the decomb or deinterlace\n" " filters, this filter only logs the interlaced\n" " frame count to the activity log.\n" " If accompanied by the decomb or deinterlace\n" " filters, it causes these filters to selectively\n" " deinterlace only those frames where interlacing\n" " is detected.\n"); showFilterPresets(out, HB_FILTER_COMB_DETECT); showFilterKeys(out, HB_FILTER_COMB_DETECT); showFilterDefault(out, HB_FILTER_COMB_DETECT); fprintf( out, " --no-comb-detect Disable preset comb-detect filter\n" " -d, --deinterlace[=string]\n" " Deinterlace video using libav yadif.\n"); showFilterPresets(out, HB_FILTER_DEINTERLACE); showFilterKeys(out, HB_FILTER_DEINTERLACE); showFilterDefault(out, HB_FILTER_DEINTERLACE); fprintf( out, " --no-deinterlace Disable preset deinterlace filter\n" " -5, --decomb[=string] Deinterlace video using a combination of yadif,\n" " blend, cubic, or EEDI2 interpolation.\n"); showFilterPresets(out, HB_FILTER_DECOMB); showFilterKeys(out, HB_FILTER_DECOMB); showFilterDefault(out, HB_FILTER_DECOMB); fprintf( out, " --no-decomb Disable preset decomb filter\n" " -9, --detelecine[=string]\n" " Detelecine (ivtc) video with pullup filter\n" " Note: this filter drops duplicate frames to\n" " restore the pre-telecine framerate, unless you\n" " specify a constant framerate\n" " (--rate 29.97 --cfr)\n"); showFilterPresets(out, HB_FILTER_DETELECINE); showFilterKeys(out, HB_FILTER_DETELECINE); showFilterDefault(out, HB_FILTER_DETELECINE); fprintf( out, " --no-detelecine Disable preset detelecine filter\n" " -8, --hqdn3d[=string] Denoise video with hqdn3d filter\n"); showFilterPresets(out, HB_FILTER_HQDN3D); showFilterKeys(out, HB_FILTER_HQDN3D); showFilterDefault(out, HB_FILTER_HQDN3D); fprintf( out, " --no-hqdn3d Disable preset hqdn3d filter\n" " --denoise[=string] Legacy alias for '--hqdn3d'\n" " --nlmeans[=string] Denoise video with NLMeans filter\n"); showFilterPresets(out, HB_FILTER_NLMEANS); showFilterKeys(out, HB_FILTER_NLMEANS); showFilterDefault(out, HB_FILTER_NLMEANS); fprintf( out, " --no-nlmeans Disable preset NLMeans filter\n" " --nlmeans-tune Tune NLMeans filter to content type\n"); showFilterTunes(out, HB_FILTER_NLMEANS); fprintf( out, " Applies to NLMeans presets only (does not affect\n" " custom settings)\n" " -7, --deblock[=string] Deblock video with pp7 filter\n"); showFilterKeys(out, HB_FILTER_DEBLOCK); showFilterDefault(out, HB_FILTER_DEBLOCK); fprintf( out, " --no-deblock Disable preset deblock filter\n" " --rotate[=string] Rotate image or flip its axes.\n" " angle rotates clockwise, can be one of:\n" " 0, 90, 180, 270\n" " hflip=1 flips the image on the x axis (horizontally).\n"); showFilterKeys(out, HB_FILTER_ROTATE); showFilterDefault(out, HB_FILTER_ROTATE); fprintf( out, " --pad Pad image with borders (e.g. letterbox).\n" " The padding color may be set (default black).\n" " Color may be an HTML color name or RGB value.\n" " The position of image in pad may also be set.\n"); showFilterKeys(out, HB_FILTER_PAD); fprintf( out, " -g, --grayscale Grayscale encoding\n" " --no-grayscale Disable preset 'grayscale'\n" "\n" "\n" "Subtitles Options ------------------------------------------------------------\n" "\n" " --subtitle-lang-list \n" " Specifiy a comma separated list of subtitle\n" " languages you would like to select from the\n" " source title. By default, the first subtitle\n" " matching each language will be added to your\n" " output. Provide the language's ISO 639-2 code\n" " (e.g. fre, eng, spa, dut, et cetera)\n" " --all-subtitles Select all subtitle tracks matching languages in\n" " the specified language list\n" " (--subtitle-lang-list).\n" " Any language if list is not specified.\n" " --first-subtitle Select first subtitle track matching languages in\n" " the specified language list\n" " (--subtitle-lang-list).\n" " Any language if list is not specified.\n" " -s, --subtitle Select subtitle track(s), separated by commas\n" " More than one output track can be used for one\n" " input. \"none\" for no subtitles.\n" " Example: \"1,2,3\" for multiple tracks.\n" " A special track name \"scan\" adds an extra first\n" " pass. This extra pass scans subtitles matching\n" " the language of the first audio or the language \n" " selected by --native-language.\n" " The one that's only used 10 percent of the time\n" " or less is selected. This should locate subtitles\n" " for short foreign language segments. Best used in\n" " conjunction with --subtitle-forced.\n" " -F, --subtitle-forced[=string]\n" " Only display subtitles from the selected stream\n" " if the subtitle has the forced flag set. The\n" " values in 'string' are indexes into the\n" " subtitle list specified with '--subtitle'.\n" " Separate tracks by commas.\n" " Example: \"1,2,3\" for multiple tracks.\n" " If \"string\" is omitted, the first track is\n" " forced.\n" " --subtitle-burned[=number]\n" " \"Burn\" the selected subtitle into the video\n" " track. If \"subtitle\" is omitted, the first\n" " track is burned. \"subtitle\" is an index into\n" " the subtitle list specified with '--subtitle'\n" " or \"native\" to burn the subtitle track that may\n" " be added by the 'native-language' option.\n" " --subtitle-default[=number or \"none\"]\n" " Flag the selected subtitle as the default\n" " subtitle to be displayed upon playback. Setting\n" " no default means no subtitle will be displayed\n" " automatically. 'number' is an index into the\n" " subtitle list specified with '--subtitle'.\n" " \"none\" may be used to override an automatically\n" " selected default subtitle track.\n" " -N, --native-language \n" " Specifiy your language preference. When the first\n" " audio track does not match your native language\n" " then select the first subtitle that does. When\n" " used in conjunction with --native-dub the audio\n" " track is changed in preference to subtitles.\n" " Provide the language's ISO 639-2 code\n" " (e.g. fre, eng, spa, dut, et cetera)\n" " --native-dub Used in conjunction with --native-language\n" " requests that if no audio tracks are selected the\n" " default selected audio track will be the first\n" " one that matches the --native-language. If there\n" " are no matching audio tracks then the first\n" " matching subtitle track is used instead.\n" " --srt-file SubRip SRT filename(s), separated by commas.\n" " --srt-codeset \n" " Character codeset(s) that the SRT file(s) are\n" " encoded as, separated by commas.\n" " If not specified, 'latin1' is assumed.\n" " Command 'iconv -l' provides a list of valid codesets.\n" " --srt-offset Offset (in milliseconds) to apply to the SRT\n" " file(s), separated by commas. If not specified,\n" " zero is assumed. Offsets may be negative.\n" " --srt-lang SRT track language as an ISO 639-2 code\n" " (e.g. fre, eng, spa, dut, et cetera)\n" " If not specified, then 'und' is used.\n" " Separate by commas.\n" " --srt-default[=number]\n" " Flag the selected SRT as the default subtitle\n" " to be displayed during playback.\n" " Setting no default means no subtitle will be\n" " automatically displayed. If 'number' is omitted,\n" " the first SRT is the default.\n" " 'number' is a 1-based index into the 'srt-file' list\n" " --srt-burn[=number] \"Burn\" the selected SRT subtitle into\n" " the video track.\n" " If 'number' is omitted, the first SRT is burned.\n" " 'number' is a 1-based index into the 'srt-file' list\n" "\n" ); #ifdef USE_QSV if (hb_qsv_available()) { fprintf( out, "\n" "-- Intel Quick Sync Video Options --------------------------------------------\n" "\n" " --enable-qsv-decoding Allow QSV hardware decoding of the video track\n" " --disable-qsv-decoding Disable QSV hardware decoding of the video track,\n" " forcing software decoding instead\n" " --qsv-async-depth[=number]\n" " Set the number of asynchronous operations that\n" " should be performed before the result is\n" " explicitly synchronized.\n" " Omit 'number' for zero.\n" " (default: 4)\n" "\n" ); } #endif } /**************************************************************************** * ShowPresets: ****************************************************************************/ static const char * reverse_search_char(const char *front, const char *back, char delim) { while (back != front && *back != delim) back--; return back; } #if defined( __MINGW32__ ) static char * my_strndup(const char *src, int len) { int src_len = strlen(src); int alloc = src_len < len ? src_len + 1 : len + 1; char *result = malloc(alloc); strncpy(result, src, alloc - 1); result[alloc - 1] = 0; return result; } #else #define my_strndup strndup #endif static char** str_width_split( const char *str, int width ) { const char * pos; const char * end; char ** ret; int count, ii; int len; char delem = ' '; if ( str == NULL || str[0] == 0 ) { ret = malloc( sizeof(char*) ); if ( ret == NULL ) return ret; *ret = NULL; return ret; } len = strlen(str); // Find number of elements in the string count = 1; pos = str; end = pos + width; while (end < str + len) { end = reverse_search_char(pos, end, delem); if (end == pos) { // Shouldn't happen for reasonable input break; } count++; pos = end + 1; end = pos + width; } count++; ret = calloc( ( count + 1 ), sizeof(char*) ); if ( ret == NULL ) return ret; pos = str; end = pos + width; for (ii = 0; ii < count - 1 && end < str + len; ii++) { end = reverse_search_char(pos, end, delem); if (end == pos) { break; } ret[ii] = my_strndup(pos, end - pos); pos = end + 1; end = pos + width; } if (*pos != 0 && ii < count - 1) { ret[ii] = my_strndup(pos, width); } return ret; } static void Indent(FILE *f, char *whitespace, int indent) { int ii; for (ii = 0; ii < indent; ii++) { fprintf(f, "%s", whitespace); } } static void ShowPresets(hb_value_array_t *presets, int indent, int descriptions) { if (presets == NULL) presets = hb_presets_get(); int count = hb_value_array_len(presets); int ii; for (ii = 0; ii < count; ii++) { const char *name; hb_dict_t *preset_dict = hb_value_array_get(presets, ii); name = hb_value_get_string(hb_dict_get(preset_dict, "PresetName")); Indent(stderr, " ", indent); if (hb_value_get_bool(hb_dict_get(preset_dict, "Folder"))) { indent++; fprintf(stderr, "%s/\n", name); hb_value_array_t *children; children = hb_dict_get(preset_dict, "ChildrenArray"); if (children == NULL) continue; ShowPresets(children, indent, descriptions); indent--; } else { fprintf(stderr, "%s\n", name); if (descriptions) { const char *desc; desc = hb_value_get_string(hb_dict_get(preset_dict, "PresetDescription")); if (desc != NULL && desc[0] != 0) { int ii; char **split = str_width_split(desc, 60); for (ii = 0; split[ii] != NULL; ii++) { Indent(stderr, " ", indent+1); fprintf(stderr, "%s\n", split[ii]); } hb_str_vfree(split); } } } } } static double parse_hhmmss_strtok() { /* Assumes strtok has already been called on a string. Intends to parse * hh:mm:ss.ss or mm:ss.ss or ss.ss or ss into double seconds. Actually * parses a list of doubles separated by colons, multiplying the current * result by 60 then adding in the next value. Malformed input does not * result in a explicit error condition but instead returns an * intermediate result. */ double duration = 0; char* str; while ((str = strtok(NULL, ":")) != NULL) duration = 60*duration + strtod(str, NULL); return duration; } /**************************************************************************** * ParseOptions: ****************************************************************************/ static int ParseOptions( int argc, char ** argv ) { #define PREVIEWS 257 #define START_AT_PREVIEW 258 #define START_AT 259 #define STOP_AT 260 #define ANGLE 261 #define DVDNAV 262 #define DISPLAY_WIDTH 263 #define PIXEL_ASPECT 264 #define MODULUS 265 #define KEEP_DISPLAY_ASPECT 266 #define SUB_BURNED 267 #define SUB_DEFAULT 268 #define NATIVE_DUB 269 #define SRT_FILE 270 #define SRT_CODESET 271 #define SRT_OFFSET 272 #define SRT_LANG 273 #define SRT_DEFAULT 274 #define SRT_BURN 275 #define ROTATE_FILTER 276 #define SCAN_ONLY 277 #define MAIN_FEATURE 278 #define MIN_DURATION 279 #define AUDIO_GAIN 280 #define ALLOWED_AUDIO_COPY 281 #define AUDIO_FALLBACK 282 #define LOOSE_CROP 283 #define ENCODER_PRESET 284 #define ENCODER_PRESET_LIST 285 #define ENCODER_TUNE 286 #define ENCODER_TUNE_LIST 287 #define ENCODER_PROFILE 288 #define ENCODER_PROFILE_LIST 289 #define ENCODER_LEVEL 290 #define ENCODER_LEVEL_LIST 291 #define NORMALIZE_MIX 293 #define AUDIO_DITHER 294 #define QSV_BASELINE 295 #define QSV_ASYNC_DEPTH 296 #define QSV_IMPLEMENTATION 297 #define FILTER_NLMEANS 298 #define FILTER_NLMEANS_TUNE 299 #define AUDIO_LANG_LIST 300 #define SUBTITLE_LANG_LIST 301 #define PRESET_EXPORT 302 #define PRESET_EXPORT_DESC 303 #define PRESET_EXPORT_FILE 304 #define PRESET_IMPORT 305 #define PRESET_IMPORT_GUI 306 #define VERSION 307 #define DESCRIBE 308 #define PAD 309 #define FILTER_COMB_DETECT 310 #define QUEUE_IMPORT 311 for( ;; ) { static struct option long_options[] = { { "help", no_argument, NULL, 'h' }, { "version", no_argument, NULL, VERSION }, { "describe", no_argument, NULL, DESCRIBE }, { "verbose", optional_argument, NULL, 'v' }, { "no-dvdnav", no_argument, NULL, DVDNAV }, { "no-opencl", no_argument, &use_opencl, 0 }, #ifdef USE_QSV { "qsv-baseline", no_argument, NULL, QSV_BASELINE, }, { "qsv-async-depth", required_argument, NULL, QSV_ASYNC_DEPTH, }, { "qsv-implementation", required_argument, NULL, QSV_IMPLEMENTATION, }, { "disable-qsv-decoding", no_argument, &qsv_decode, 0, }, { "enable-qsv-decoding", no_argument, &qsv_decode, 1, }, #endif { "format", required_argument, NULL, 'f' }, { "input", required_argument, NULL, 'i' }, { "output", required_argument, NULL, 'o' }, { "optimize", no_argument, NULL, 'O' }, { "no-optimize", no_argument, &mp4_optimize, 0 }, { "ipod-atom", no_argument, NULL, 'I' }, { "no-ipod-atom",no_argument, &ipod_atom, 0 }, { "use-opencl", no_argument, NULL, 'P' }, { "title", required_argument, NULL, 't' }, { "min-duration",required_argument, NULL, MIN_DURATION }, { "scan", no_argument, NULL, SCAN_ONLY }, { "main-feature",no_argument, NULL, MAIN_FEATURE }, { "chapters", required_argument, NULL, 'c' }, { "angle", required_argument, NULL, ANGLE }, { "markers", optional_argument, NULL, 'm' }, { "no-markers", no_argument, &chapter_markers, 0 }, { "audio-lang-list", required_argument, NULL, AUDIO_LANG_LIST }, { "all-audio", no_argument, &audio_all, 1 }, { "first-audio", no_argument, &audio_all, 0 }, { "audio", required_argument, NULL, 'a' }, { "mixdown", required_argument, NULL, '6' }, { "normalize-mix", required_argument, NULL, NORMALIZE_MIX }, { "drc", required_argument, NULL, 'D' }, { "gain", required_argument, NULL, AUDIO_GAIN }, { "adither", required_argument, NULL, AUDIO_DITHER }, { "subtitle-lang-list", required_argument, NULL, SUBTITLE_LANG_LIST }, { "all-subtitles", no_argument, &subtitle_all, 1 }, { "first-subtitle", no_argument, &subtitle_all, 0 }, { "subtitle", required_argument, NULL, 's' }, { "subtitle-forced", optional_argument, NULL, 'F' }, { "subtitle-burned", optional_argument, NULL, SUB_BURNED }, { "subtitle-default", optional_argument, NULL, SUB_DEFAULT }, { "srt-file", required_argument, NULL, SRT_FILE }, { "srt-codeset", required_argument, NULL, SRT_CODESET }, { "srt-offset", required_argument, NULL, SRT_OFFSET }, { "srt-lang", required_argument, NULL, SRT_LANG }, { "srt-default", optional_argument, NULL, SRT_DEFAULT }, { "srt-burn", optional_argument, NULL, SRT_BURN }, { "native-language", required_argument, NULL,'N' }, { "native-dub", no_argument, NULL, NATIVE_DUB }, { "encoder", required_argument, NULL, 'e' }, { "aencoder", required_argument, NULL, 'E' }, { "two-pass", no_argument, NULL, '2' }, { "no-two-pass", no_argument, &twoPass, 0 }, { "deinterlace", optional_argument, NULL, 'd' }, { "no-deinterlace", no_argument, &deinterlace_disable, 1 }, { "deblock", optional_argument, NULL, '7' }, { "no-deblock", no_argument, &deblock_disable, 1 }, { "denoise", optional_argument, NULL, '8' }, { "hqdn3d", optional_argument, NULL, '8' }, { "no-hqdn3d", no_argument, &hqdn3d_disable, 1 }, { "nlmeans", optional_argument, NULL, FILTER_NLMEANS }, { "no-nlmeans", no_argument, &nlmeans_disable, 1 }, { "nlmeans-tune",required_argument, NULL, FILTER_NLMEANS_TUNE }, { "detelecine", optional_argument, NULL, '9' }, { "no-detelecine", no_argument, &detelecine_disable, 1 }, { "no-comb-detect", no_argument, &comb_detect_disable, 1 }, { "comb-detect", optional_argument, NULL, FILTER_COMB_DETECT }, { "decomb", optional_argument, NULL, '5' }, { "no-decomb", no_argument, &decomb_disable, 1 }, { "grayscale", no_argument, NULL, 'g' }, { "no-grayscale",no_argument, &grayscale, 0 }, { "rotate", optional_argument, NULL, ROTATE_FILTER }, { "non-anamorphic", no_argument, &anamorphic_mode, HB_ANAMORPHIC_NONE }, { "auto-anamorphic", no_argument, &anamorphic_mode, HB_ANAMORPHIC_AUTO }, { "loose-anamorphic", no_argument, &anamorphic_mode, HB_ANAMORPHIC_LOOSE }, { "custom-anamorphic", no_argument, &anamorphic_mode, HB_ANAMORPHIC_CUSTOM }, { "display-width", required_argument, NULL, DISPLAY_WIDTH }, { "keep-display-aspect", optional_argument, NULL, KEEP_DISPLAY_ASPECT }, { "no-keep-display-aspect", no_argument, &keep_display_aspect, 0 }, { "pixel-aspect", required_argument, NULL, PIXEL_ASPECT }, { "modulus", required_argument, NULL, MODULUS }, { "itu-par", no_argument, &itu_par, 1 }, { "no-itu-par", no_argument, &itu_par, 0 }, { "width", required_argument, NULL, 'w' }, { "height", required_argument, NULL, 'l' }, { "crop", required_argument, NULL, 'n' }, { "loose-crop", optional_argument, NULL, LOOSE_CROP }, { "no-loose-crop", no_argument, &loose_crop, 0 }, { "pad", required_argument, NULL, PAD }, { "no-pad", no_argument, &pad_disable, 1 }, // mapping of legacy option names for backwards compatibility { "qsv-preset", required_argument, NULL, ENCODER_PRESET, }, { "x264-preset", required_argument, NULL, ENCODER_PRESET, }, { "x265-preset", required_argument, NULL, ENCODER_PRESET, }, { "x264-tune", required_argument, NULL, ENCODER_TUNE, }, { "x265-tune", required_argument, NULL, ENCODER_TUNE, }, { "x264-profile", required_argument, NULL, ENCODER_PROFILE, }, { "h264-profile", required_argument, NULL, ENCODER_PROFILE, }, { "h265-profile", required_argument, NULL, ENCODER_PROFILE, }, { "h264-level", required_argument, NULL, ENCODER_LEVEL, }, { "h265-level", required_argument, NULL, ENCODER_LEVEL, }, // encoder preset/tune/options/profile/level { "encoder-preset", required_argument, NULL, ENCODER_PRESET, }, { "encoder-preset-list", required_argument, NULL, ENCODER_PRESET_LIST, }, { "encoder-tune", required_argument, NULL, ENCODER_TUNE, }, { "encoder-tune-list", required_argument, NULL, ENCODER_TUNE_LIST, }, { "encopts", required_argument, NULL, 'x', }, { "encoder-profile", required_argument, NULL, ENCODER_PROFILE, }, { "encoder-profile-list", required_argument, NULL, ENCODER_PROFILE_LIST, }, { "encoder-level", required_argument, NULL, ENCODER_LEVEL, }, { "encoder-level-list", required_argument, NULL, ENCODER_LEVEL_LIST, }, { "vb", required_argument, NULL, 'b' }, { "quality", required_argument, NULL, 'q' }, { "ab", required_argument, NULL, 'B' }, { "aq", required_argument, NULL, 'Q' }, { "ac", required_argument, NULL, 'C' }, { "rate", required_argument, NULL, 'r' }, { "arate", required_argument, NULL, 'R' }, { "turbo", no_argument, NULL, 'T' }, { "no-turbo", no_argument, &fastfirstpass, 0 }, { "maxHeight", required_argument, NULL, 'Y' }, { "maxWidth", required_argument, NULL, 'X' }, { "preset", required_argument, NULL, 'Z' }, { "preset-list", no_argument, NULL, 'z' }, { "preset-import-file", no_argument, NULL, PRESET_IMPORT }, { "preset-import-gui", no_argument, NULL, PRESET_IMPORT_GUI }, { "preset-export", required_argument, NULL, PRESET_EXPORT }, { "preset-export-file", required_argument, NULL, PRESET_EXPORT_FILE }, { "preset-export-description", required_argument, NULL, PRESET_EXPORT_DESC }, { "queue-import-file", required_argument, NULL, QUEUE_IMPORT }, { "aname", required_argument, NULL, 'A' }, { "color-matrix",required_argument, NULL, 'M' }, { "previews", required_argument, NULL, PREVIEWS }, { "start-at-preview", required_argument, NULL, START_AT_PREVIEW }, { "start-at", required_argument, NULL, START_AT }, { "stop-at", required_argument, NULL, STOP_AT }, { "vfr", no_argument, &cfr, 0 }, { "cfr", no_argument, &cfr, 1 }, { "pfr", no_argument, &cfr, 2 }, { "audio-copy-mask", required_argument, NULL, ALLOWED_AUDIO_COPY }, { "audio-fallback", required_argument, NULL, AUDIO_FALLBACK }, { 0, 0, 0, 0 } }; int option_index = 0; int c; int cur_optind; cur_optind = optind; c = getopt_long( argc, argv, ":hv::C:f:i:Io:Pt:c:m::M:a:A:6:s:F::N:e:E:Q:C:" "2d::D:7::8::9::5::gOw:l:n:b:q:B:r:R:x:TY:X:Z:z", long_options, &option_index ); if( c < 0 ) { break; } switch( c ) { case 0: /* option was handled entirely in getopt_long */ break; case 'h': ShowHelp(); exit( 0 ); case VERSION: printf("HandBrake %s\n", hb_get_version(NULL)); exit(0); case DESCRIBE: printf("%s\n", hb_get_full_description()); exit(0); case 'v': if( optarg != NULL ) { debug = atoi( optarg ); } else { debug = 1; } break; case 'Z': preset_name = strdup(optarg); break; case 'z': ShowPresets(NULL, 0, 1); exit ( 0 ); case PRESET_EXPORT: preset_export_name = strdup(optarg); break; case PRESET_EXPORT_DESC: preset_export_desc = strdup(optarg); break; case PRESET_EXPORT_FILE: preset_export_file = strdup(optarg); break; case PRESET_IMPORT: { // Import list of preset files while (optind < argc && argv[optind][0] != '-') { int result = hb_presets_add_path(argv[optind]); if (result < 0) { fprintf(stderr, "Preset import failed, file (%s)\n", argv[optind]); } optind++; } } break; case PRESET_IMPORT_GUI: hb_presets_gui_init(); break; case QUEUE_IMPORT: queue_import_name = strdup(optarg); break; case DVDNAV: dvdnav = 0; break; case 'f': format = strdup( optarg ); break; case 'i': input = strdup( optarg ); #ifdef __APPLE_CC__ char *devName = bsd_name_for_path( input ); // alloc if( devName != NULL ) { if( device_is_dvd( devName )) { free( input ); input = malloc( strlen( "/dev/" ) + strlen( devName ) + 1 ); if( input == NULL ) { fprintf( stderr, "ERROR: malloc() failed while attempting to set device path.\n" ); free( devName ); return -1; } sprintf( input, "/dev/%s", devName ); } free( devName ); } #endif break; case 'o': output = strdup( optarg ); break; case 'O': mp4_optimize = 1; break; case 'I': ipod_atom = 1; break; case 'P': use_opencl = 1; break; case 't': titleindex = atoi( optarg ); break; case SCAN_ONLY: titlescan = 1; break; case MAIN_FEATURE: main_feature = 1; break; case 'c': { int start, end; if( sscanf( optarg, "%d-%d", &start, &end ) == 2 ) { chapter_start = start; chapter_end = end; } else if( sscanf( optarg, "%d", &start ) == 1 ) { chapter_start = start; chapter_end = chapter_start; } else { fprintf( stderr, "chapters: Invalid syntax (%s)\n", optarg ); return -1; } break; } case ANGLE: angle = atoi( optarg ); break; case 'm': if( optarg != NULL ) { marker_file = strdup( optarg ); } chapter_markers = 1; break; case AUDIO_LANG_LIST: audio_lang_list = hb_str_vsplit(optarg, ','); break; case SUBTITLE_LANG_LIST: subtitle_lang_list = hb_str_vsplit(optarg, ','); break; case 'a': if( optarg != NULL ) { atracks = hb_str_vsplit(optarg, ','); } else { atracks = hb_str_vsplit("1", ','); } break; case '6': if( optarg != NULL ) { mixdowns = hb_str_vsplit(optarg, ','); } break; case 'D': if( optarg != NULL ) { dynamic_range_compression = hb_str_vsplit(optarg, ','); } break; case AUDIO_GAIN: if( optarg != NULL ) { audio_gain = hb_str_vsplit(optarg, ','); } break; case AUDIO_DITHER: if (optarg != NULL) { audio_dither = hb_str_vsplit(optarg, ','); } break; case NORMALIZE_MIX: normalize_mix_level = hb_str_vsplit(optarg, ','); break; case 's': subtracks = hb_str_vsplit( optarg, ',' ); break; case 'F': subforce = hb_str_vsplit( optarg, ',' ); break; case SUB_BURNED: if (optarg != NULL) { if (!strcasecmp(optarg, "native") || !strcasecmp(optarg, "scan")) subburn_native = 1; else { subburn = strtol(optarg, NULL, 0); } } else { subburn = 1; } if (subburn > 0) { if (subtracks != NULL && hb_str_vlen(subtracks) >= subburn && !strcasecmp("scan", subtracks[subburn-1])) { subburn_native = 1; } } break; case SUB_DEFAULT: if (optarg != NULL) { if (!strcasecmp("none", optarg)) { subdefault = -1; } else { subdefault = strtol(optarg, NULL, 0); } } else { subdefault = 1; } break; case 'N': { const iso639_lang_t *lang = lang_lookup(optarg); if (lang != NULL) { native_language = strdup(lang->iso639_2); } else { fprintf(stderr, "Invalid native language (%s)\n", optarg); return -1; } } break; case NATIVE_DUB: native_dub = 1; break; case SRT_FILE: srtfile = hb_str_vsplit( optarg, ',' ); break; case SRT_CODESET: srtcodeset = hb_str_vsplit( optarg, ',' ); break; case SRT_OFFSET: srtoffset = hb_str_vsplit( optarg, ',' ); break; case SRT_LANG: srtlang = hb_str_vsplit( optarg, ',' ); break; case SRT_DEFAULT: if( optarg != NULL ) { srtdefault = atoi( optarg ); } else { srtdefault = 1 ; } break; case SRT_BURN: if( optarg != NULL ) { srtburn = atoi( optarg ); } else { srtburn = 1 ; } break; case '2': twoPass = 1; break; case 'd': free(deinterlace); if (optarg != NULL) { deinterlace = strdup(optarg); } else { deinterlace = strdup(DEINTERLACE_DEFAULT_PRESET); } break; case '7': free(deblock); if( optarg != NULL ) { deblock = strdup(optarg); } else { deblock = strdup(DEBLOCK_DEFAULT); } break; case '8': free(hqdn3d); if (optarg != NULL) { hqdn3d = strdup(optarg); } else { hqdn3d = strdup(HQDN3D_DEFAULT_PRESET); } break; case FILTER_NLMEANS: free(nlmeans); if (optarg != NULL) { nlmeans = strdup(optarg); } else { nlmeans = strdup(NLMEANS_DEFAULT_PRESET); } break; case FILTER_NLMEANS_TUNE: free(nlmeans_tune); nlmeans_tune = strdup(optarg); break; case '9': free(detelecine); if (optarg != NULL) { detelecine = strdup(optarg); } else { detelecine = strdup(DETELECINE_DEFAULT_PRESET); } break; case FILTER_COMB_DETECT: free(comb_detect); if (optarg != NULL) { comb_detect = strdup(optarg); } else { comb_detect = strdup(COMB_DETECT_DEFAULT_PRESET); } break; case '5': free(decomb); if (optarg != NULL) { decomb = strdup(optarg); } else { decomb = strdup(DECOMB_DEFAULT_PRESET); } break; case 'g': grayscale = 1; break; case ROTATE_FILTER: free(rotate); if (optarg != NULL) { rotate = strdup(optarg); } else { rotate = strdup(ROTATE_DEFAULT); } break; case KEEP_DISPLAY_ASPECT: if( optarg != NULL ) { keep_display_aspect = atoi(optarg); } else { keep_display_aspect = 1; } break; case DISPLAY_WIDTH: if( optarg != NULL ) { display_width = atoi(optarg); } break; case PIXEL_ASPECT: if( optarg != NULL ) { sscanf(optarg, "%i:%i", &par_width, &par_height); } break; case MODULUS: if( optarg != NULL ) { modulus = atoi(optarg); } break; case 'e': { vcodec = strdup(optarg); break; } case 'E': if( optarg != NULL ) { acodecs = hb_str_vsplit(optarg, ','); } break; case 'w': width = atoi( optarg ); break; case 'l': height = atoi( optarg ); break; case 'n': { int i; char * tmp = optarg; for( i = 0; i < 4; i++ ) { if( !*tmp ) break; crop[i] = strtol( tmp, &tmp, 0 ); tmp++; } break; } case LOOSE_CROP: if (optarg != NULL) loose_crop = atoi(optarg); else loose_crop = 1; break; case PAD: { free(pad); if (optarg != NULL) { pad = strdup(optarg); } break; } case 'r': { vrate = strdup(optarg); if ( cfr != 1 && cfr != 2 ) { cfr = 2; } break; } case 'R': arates = hb_str_vsplit( optarg, ',' ); break; case 'b': vbitrate = atoi( optarg ); break; case 'q': vquality = atof( optarg ); break; case 'B': abitrates = hb_str_vsplit( optarg, ',' ); break; case 'Q': aqualities = hb_str_vsplit( optarg, ',' ); break; case 'C': acompressions = hb_str_vsplit( optarg, ',' ); break; case ENCODER_PRESET: encoder_preset = strdup( optarg ); break; case ENCODER_TUNE: encoder_tune = strdup( optarg ); break; case 'x': advanced_opts = strdup( optarg ); break; case ENCODER_PROFILE: encoder_profile = strdup( optarg ); break; case ENCODER_LEVEL: encoder_level = strdup( optarg ); break; case ENCODER_PRESET_LIST: fprintf(stderr, "Available --encoder-preset values for '%s' encoder:\n", hb_video_encoder_get_short_name(hb_video_encoder_get_from_name(optarg))); print_string_list(stderr, hb_video_encoder_get_presets(hb_video_encoder_get_from_name(optarg)), " "); exit(0); case ENCODER_TUNE_LIST: fprintf(stderr, "Available --encoder-tune values for '%s' encoder:\n", hb_video_encoder_get_short_name(hb_video_encoder_get_from_name(optarg))); print_string_list(stderr, hb_video_encoder_get_tunes(hb_video_encoder_get_from_name(optarg)), " "); exit(0); case ENCODER_PROFILE_LIST: fprintf(stderr, "Available --encoder-profile values for '%s' encoder:\n", hb_video_encoder_get_short_name(hb_video_encoder_get_from_name(optarg))); print_string_list(stderr, hb_video_encoder_get_profiles(hb_video_encoder_get_from_name(optarg)), " "); exit(0); case ENCODER_LEVEL_LIST: fprintf(stderr, "Available --encoder-level values for '%s' encoder:\n", hb_video_encoder_get_short_name(hb_video_encoder_get_from_name(optarg))); print_string_list(stderr, hb_video_encoder_get_levels(hb_video_encoder_get_from_name(optarg)), " "); exit(0); case 'T': fastfirstpass = 1; break; case 'Y': maxHeight = atoi( optarg ); break; case 'X': maxWidth = atoi (optarg ); break; case 'A': if( optarg != NULL ) { anames = hb_str_vsplit( optarg, ',' ); } break; case PREVIEWS: sscanf( optarg, "%i:%i", &preview_count, &store_previews ); break; case START_AT_PREVIEW: start_at_preview = atoi( optarg ); break; case START_AT: { char * start_at_string = NULL; char * start_at_token = NULL; start_at_string = strdup( optarg ); start_at_token = strtok( start_at_string, ":"); if( !strcmp( start_at_token, "frame" ) ) { start_at_token = strtok( NULL, ":"); start_at_frame = atoi(start_at_token); } else if( !strcmp( start_at_token, "pts" ) ) { start_at_token = strtok( NULL, ":"); sscanf( start_at_token, "%"SCNd64, &start_at_pts ); } else if( !strcmp( start_at_token, "duration" ) ) { double duration_seconds = parse_hhmmss_strtok(); start_at_pts = (int64_t)(duration_seconds * 90e3); } free( start_at_string ); break; } case STOP_AT: { char * stop_at_string = NULL; char * stop_at_token = NULL; stop_at_string = strdup( optarg ); stop_at_token = strtok( stop_at_string, ":"); if( !strcmp( stop_at_token, "frame" ) ) { stop_at_token = strtok( NULL, ":"); stop_at_frame = atoi(stop_at_token); } else if( !strcmp( stop_at_token, "pts" ) ) { stop_at_token = strtok( NULL, ":"); sscanf( stop_at_token, "%"SCNd64, &stop_at_pts ); } else if( !strcmp( stop_at_token, "duration" ) ) { double duration_seconds = parse_hhmmss_strtok(); stop_at_pts = (int64_t)(duration_seconds * 90e3); } free( stop_at_string ); break; } case ALLOWED_AUDIO_COPY: { audio_copy_list = hb_str_vsplit(optarg, ','); break; } case AUDIO_FALLBACK: acodec_fallback = strdup( optarg ); break; case 'M': if( optarg != NULL ) { if( !strcmp( optarg, "601" ) || !strcmp( optarg, "ntsc" ) ) color_matrix_code = 1; else if( !strcmp( optarg, "pal" ) ) color_matrix_code = 2; else if( !strcmp( optarg, "709" ) ) color_matrix_code = 3; else if( !strcmp( optarg, "2020" ) ) color_matrix_code = 4; } break; case MIN_DURATION: min_title_duration = strtol( optarg, NULL, 0 ); break; #ifdef USE_QSV case QSV_BASELINE: hb_qsv_force_workarounds(); break; case QSV_ASYNC_DEPTH: qsv_async_depth = atoi(optarg); break; case QSV_IMPLEMENTATION: hb_qsv_impl_set_preferred(optarg); break; #endif case ':': fprintf( stderr, "missing parameter (%s)\n", argv[cur_optind] ); return -1; default: case '?': fprintf( stderr, "unknown option (%s)\n", argv[cur_optind] ); return -1; } } if (deblock != NULL) { if (deblock_disable) { fprintf(stderr, "Incompatible options --deblock and --no-deblock\n"); return -1; } if (hb_validate_filter_string(HB_FILTER_DEBLOCK, deblock)) { fprintf(stderr, "Invalid deblock option %s\n", deblock); return -1; } } if (detelecine != NULL) { if (detelecine_disable) { fprintf(stderr, "Incompatible options --detelecine and --no-detelecine\n"); return -1; } if (!hb_validate_filter_preset(HB_FILTER_DETELECINE, detelecine, NULL, NULL)) { // Nothing to do, but must validate preset before // attempting to validate custom settings to prevent potential // false positive } else if (!hb_validate_filter_string(HB_FILTER_DETELECINE, detelecine)) { detelecine_custom = 1; } else { fprintf(stderr, "Invalid detelecine option %s\n", detelecine); return -1; } } if (pad != NULL) { if (pad_disable) { fprintf(stderr, "Incompatible options --pad and --no-pad\n"); return -1; } else if (hb_validate_filter_string(HB_FILTER_PAD, pad)) { fprintf(stderr, "Invalid pad option %s\n", pad); return -1; } } if (deinterlace != NULL) { if (deinterlace_disable) { fprintf(stderr, "Incompatible options --deinterlace and --no-deinterlace\n"); return -1; } if (!hb_validate_filter_preset(HB_FILTER_DEINTERLACE, deinterlace, NULL, NULL)) { // Nothing to do, but must validate preset before // attempting to validate custom settings to prevent potential // false positive } else if (!hb_validate_filter_string(HB_FILTER_DEINTERLACE, deinterlace)) { deinterlace_custom = 1; } else { fprintf(stderr, "Invalid deinterlace option %s\n", deinterlace); return -1; } } if (comb_detect != NULL) { if (comb_detect_disable) { fprintf(stderr, "Incompatible options --comb-detect and --no-comb-detect\n"); return -1; } if (!hb_validate_filter_preset(HB_FILTER_COMB_DETECT, comb_detect, NULL, NULL)) { // Nothing to do, but must validate preset before // attempting to validate custom settings to prevent potential // false positive } else if (!hb_validate_filter_string(HB_FILTER_COMB_DETECT, comb_detect)) { comb_detect_custom = 1; } else { fprintf(stderr, "Invalid comb-detect option %s\n", comb_detect); return -1; } } if (decomb != NULL) { if (decomb_disable) { fprintf(stderr, "Incompatible options --decomb and --no-decomb\n"); return -1; } if (!hb_validate_filter_preset(HB_FILTER_DECOMB, decomb, NULL, NULL)) { // Nothing to do, but must validate preset before // attempting to validate custom settings to prevent potential // false positive } else if (!hb_validate_filter_string(HB_FILTER_DECOMB, decomb)) { decomb_custom = 1; } else { fprintf(stderr, "Invalid decomb option %s\n", decomb); return -1; } } if (hqdn3d != NULL) { if (hqdn3d_disable) { fprintf(stderr, "Incompatible options --hqdn3d and --no-hqdn3d\n"); return -1; } if (!hb_validate_filter_preset(HB_FILTER_HQDN3D, hqdn3d, NULL, NULL)) { // Nothing to do, but must validate preset before // attempting to validate custom settings to prevent potential // false positive } else if (!hb_validate_filter_string(HB_FILTER_HQDN3D, hqdn3d)) { hqdn3d_custom = 1; } else { fprintf(stderr, "Invalid hqdn3d option %s\n", hqdn3d); return -1; } } if (nlmeans != NULL) { if (nlmeans_disable) { fprintf(stderr, "Incompatible options --nlmeans and --no-nlmeans\n"); return -1; } if (!hb_validate_filter_preset(HB_FILTER_NLMEANS, nlmeans, nlmeans_tune, NULL)) { // Nothing to do, but must validate preset before // attempting to validate custom settings to prevent potential // false positive } else if (!hb_validate_filter_string(HB_FILTER_NLMEANS, nlmeans)) { nlmeans_custom = 1; } else { fprintf(stderr, "Invalid nlmeans option %s\n", nlmeans); return -1; } } return 0; } static int foreign_audio_scan(char **subtracks) { if (subtracks != NULL) { int count = hb_str_vlen(subtracks); int ii; for (ii = 0; ii < count; ii++) { if (!strcasecmp(subtracks[0], "scan")) { return 1; } } } return 0; } static int count_subtitles(char **subtracks) { int subtitle_track_count = 0; if (subtracks != NULL) { int count = hb_str_vlen(subtracks); int ii; for (ii = 0; ii < count; ii++) { if (strcasecmp(subtracks[0], "scan") && strcasecmp(subtracks[0], "none")) { subtitle_track_count++; } } } return subtitle_track_count; } static int CheckOptions( int argc, char ** argv ) { if (queue_import_name != NULL) { // Everything should be defined in the queue. return 0; } if (preset_export_name == NULL && (input == NULL || *input == '\0')) { fprintf( stderr, "Missing input device. Run %s --help for " "syntax.\n", argv[0] ); return 1; } /* Parse format */ if (titleindex > 0 && !titlescan) { if (preset_export_name == NULL && (output == NULL || *output == '\0')) { fprintf( stderr, "Missing output file name. Run %s --help " "for syntax.\n", argv[0] ); return 1; } if (format == NULL && output != NULL) { /* autodetect */ const char *extension = strrchr(output, '.'); if (extension != NULL) { // skip '.' mux = hb_container_get_from_extension(extension + 1); } hb_container_t * c = hb_container_get_from_format(mux); if (c != NULL) format = strdup(c->short_name); } } int subtitle_track_count = count_subtitles(subtracks); if (subtitle_track_count > 0 && subtitle_lang_list != NULL) { fprintf(stderr, "Incompatible options: --subtitle-lang-list and --subtitle\n"); return 1; } if (subtitle_track_count > 0 && subtitle_all != -1) { fprintf(stderr, "Incompatible options: --all-subtitles/--first-subtitle and --subtitle\n"); return 1; } if (atracks != NULL && audio_lang_list != NULL) { fprintf(stderr, "Incompatible options: --audio-lang-list and --audio\n"); return 1; } if (atracks != NULL && audio_all != -1) { fprintf(stderr, "Incompatible options: --all-audio/--first-audio and --audio\n"); return 1; } if ((par_width > 0 && par_height > 0) && display_width > 0) { fprintf(stderr, "Incompatible options: --display-width and --pixel-aspect\n"); return 1; } if (preset_export_file != NULL && preset_export_name == NULL) { fprintf(stderr, "Error: --preset-export-file requires option --preset-export\n"); return 1; } if (preset_export_desc != NULL && preset_export_name == NULL) { fprintf(stderr, "Error: --preset-export-desc requires option --preset-export\n"); return 1; } return 0; } static hb_dict_t * PreparePreset(const char *preset_name) { int ii; hb_dict_t *preset; if (preset_name != NULL) { preset = hb_preset_search(preset_name, 1 /*recurse*/); if (preset == NULL) { fprintf(stderr, "Invalid preset %s\n" "Valid presets are:\n", preset_name); ShowPresets(NULL, 1, 1); return NULL; } } else { preset = hb_presets_get_default(); } if (preset == NULL) { fprintf(stderr, "Error loading presets! Aborting.\n"); return NULL; } preset = hb_value_dup(preset); int subtitle_track_count = count_subtitles(subtracks); // Apply any overrides that can be made directly to the preset if (format != NULL) { hb_dict_set(preset, "FileFormat", hb_value_string(format)); } if (mp4_optimize != -1) { hb_dict_set(preset, "Mp4HttpOptimize", hb_value_bool(mp4_optimize)); } if (ipod_atom != -1) { hb_dict_set(preset, "Mp4iPodCompatible", hb_value_bool(ipod_atom)); } if (chapter_markers != -1) { hb_dict_set(preset, "ChapterMarkers", hb_value_bool(chapter_markers)); } hb_value_array_t *subtitle_lang_array; subtitle_lang_array = hb_dict_get(preset, "SubtitleLanguageList"); if (subtitle_lang_array == NULL) { subtitle_lang_array = hb_value_array_init(); hb_dict_set(preset, "SubtitleLanguageList", subtitle_lang_array); } if (subtitle_lang_list != NULL) { hb_value_array_clear(subtitle_lang_array); int count = hb_str_vlen(subtitle_lang_list); for (ii = 0; ii < count; ii++) { const iso639_lang_t *lang = lang_lookup(subtitle_lang_list[ii]); if (lang != NULL) { hb_value_array_append(subtitle_lang_array, hb_value_string(lang->iso639_2)); } else { fprintf(stderr, "Warning: Invalid subtitle language (%s)\n", subtitle_lang_list[ii]); return NULL; } } if (subtitle_all == -1) { subtitle_all = 0; } } if (native_language != NULL) { // Add native language subtitles if audio is not native lang_list_remove(subtitle_lang_array, native_language); hb_value_array_insert(subtitle_lang_array, 0, hb_value_string(native_language)); hb_dict_set(preset, "SubtitleAddForeignAudioSubtitle", hb_value_bool(1)); } if (foreign_audio_scan(subtracks)) { // Add foreign audio search hb_dict_set(preset, "SubtitleAddForeignAudioSearch", hb_value_bool(1)); } // Subtitle burn behavior const char *burn = "none"; if (subtitle_track_count == 0) { if (subburn_native && subburn == 1) { burn = "foreign_first"; } else if (subburn_native) { burn = "foreign"; } else if (subburn == 1) { burn = "first"; } } else { if (subburn_native) { burn = "foreign"; } } hb_dict_set(preset, "SubtitleBurnBehavior", hb_value_string(burn)); const char *selection = NULL; if (subtitle_track_count == 0 && subtitle_all != -1) { selection = subtitle_all == 1 ? "all" : "first"; } else if (subtitle_track_count > 0) { selection = "none"; } if (selection != NULL) { hb_dict_set(preset, "SubtitleTrackSelectionBehavior", hb_value_string(selection)); } if (audio_copy_list != NULL) { // Create autopassthru copy mask hb_value_array_t *array = hb_value_array_init(); for (ii = 0; audio_copy_list[ii] != NULL; ii++) { hb_value_array_append(array, hb_value_string(audio_copy_list[ii])); } hb_dict_set(preset, "AudioCopyMask", array); } if (acodec_fallback != NULL) { hb_dict_set(preset, "AudioEncoderFallback", hb_value_string(acodec_fallback)); } hb_value_array_t *audio_lang_array; audio_lang_array = hb_dict_get(preset, "AudioLanguageList"); if (audio_lang_array == NULL) { audio_lang_array = hb_value_array_init(); hb_dict_set(preset, "AudioLanguageList", audio_lang_array); } if (audio_lang_list != NULL) { hb_value_array_clear(audio_lang_array); int count = hb_str_vlen(audio_lang_list); for (ii = 0; ii < count; ii++) { const iso639_lang_t *lang = lang_lookup(audio_lang_list[ii]); if (lang != NULL) { hb_value_array_append(audio_lang_array, hb_value_string(lang->iso639_2)); } else { fprintf(stderr, "Warning: Invalid audio language (%s)\n", audio_lang_list[ii]); return NULL; } } hb_dict_set(preset, "AudioTrackSelectionBehavior", hb_value_string("first")); } if (native_dub && native_language) { // Add native language audio lang_list_remove(audio_lang_array, native_language); hb_value_array_insert(audio_lang_array, 0, hb_value_string(native_language)); } if (audio_all != -1) { hb_dict_set(preset, "AudioTrackSelectionBehavior", hb_value_string(audio_all == 1 ? "all" : "first")); } // Audio overrides if (atracks == NULL && ( acodecs != NULL || abitrates != NULL || arates != NULL || mixdowns != NULL || normalize_mix_level != NULL || audio_dither != NULL || dynamic_range_compression != NULL || audio_gain != NULL || aqualities != NULL || acompressions != NULL || anames != NULL)) { // No explicit audio tracks, but track settings modified. // Modify the presets audio settings. hb_value_array_t *list; list = hb_dict_get(preset, "AudioList"); if (list == NULL) { list = hb_value_array_init(); hb_dict_set(preset, "AudioList", list); } int count = MAX(hb_str_vlen(mixdowns), MAX(hb_str_vlen(dynamic_range_compression), MAX(hb_str_vlen(audio_gain), MAX(hb_str_vlen(audio_dither), MAX(hb_str_vlen(normalize_mix_level), MAX(hb_str_vlen(arates), MAX(hb_str_vlen(abitrates), MAX(hb_str_vlen(aqualities), MAX(hb_str_vlen(acompressions), MAX(hb_str_vlen(acodecs), hb_str_vlen(anames))))))))))); hb_dict_t *audio_dict; // Add audio dict entries to list if needed for (ii = 0; ii < count; ii++) { audio_dict = hb_value_array_get(list, ii); if (audio_dict == NULL) { audio_dict = hb_dict_init(); hb_value_array_append(list, audio_dict); } } // Update codecs if (hb_str_vlen(acodecs) > 0) { for (ii = 0; acodecs[ii] != NULL; ii++) { audio_dict = hb_value_array_get(list, ii); hb_dict_set(audio_dict, "AudioEncoder", hb_value_string(acodecs[ii])); } // Apply last codec in list to all other entries for (; ii < count; ii++) { audio_dict = hb_value_array_get(list, ii); hb_dict_set(audio_dict, "AudioEncoder", hb_value_string(acodecs[ii-1])); } } // Update qualities if (hb_str_vlen(aqualities) > 0) { for (ii = 0; aqualities[ii] != NULL && aqualities[ii][0] != 0; ii++) { audio_dict = hb_value_array_get(list, ii); hb_dict_set(audio_dict, "AudioTrackQualityEnable", hb_value_bool(1)); hb_dict_set(audio_dict, "AudioTrackQuality", hb_value_double(strtod(aqualities[ii], NULL))); } } // Update bitrates if (hb_str_vlen(abitrates) > 0) { for (ii = 0; abitrates[ii] != NULL && abitrates[ii][0] != 0; ii++) { audio_dict = hb_value_array_get(list, ii); if (hb_value_get_bool(hb_dict_get(audio_dict, "AudioTrackQualityEnable"))) { continue; } hb_dict_set(audio_dict, "AudioBitrate", hb_value_int(atoi(abitrates[ii]))); } // Apply last bitrate in list to all other entries if (abitrates[ii-1][0] != 0) for (; ii < count; ii++) { audio_dict = hb_value_array_get(list, ii); if (hb_value_get_bool(hb_dict_get(audio_dict, "AudioTrackQualityEnable"))) { continue; } hb_dict_set(audio_dict, "AudioBitrate", hb_value_int(atoi(abitrates[ii-1]))); } } // Update samplerates if (hb_str_vlen(arates) > 0) { for (ii = 0; arates[ii] != NULL && arates[ii][0] != 0; ii++) { audio_dict = hb_value_array_get(list, ii); hb_dict_set(audio_dict, "AudioSamplerate", hb_value_string(arates[ii])); } // Apply last samplerate in list to all other entries if (arates[ii-1][0] != 0) for (; ii < count; ii++) { audio_dict = hb_value_array_get(list, ii); hb_dict_set(audio_dict, "AudioSamplerate", hb_value_string(arates[ii-1])); } } // Update mixdowns if (hb_str_vlen(mixdowns) > 0) { for (ii = 0; mixdowns[ii] != NULL && mixdowns[ii][0] != 0; ii++) { audio_dict = hb_value_array_get(list, ii); hb_dict_set(audio_dict, "AudioMixdown", hb_value_string(mixdowns[ii])); } // Apply last codec in list to all other entries if (mixdowns[ii-1][0] != 0) for (; ii < count; ii++) { audio_dict = hb_value_array_get(list, ii); hb_dict_set(audio_dict, "AudioMixdown", hb_value_string(mixdowns[ii-1])); } } // Update mixdowns normalization if (hb_str_vlen(normalize_mix_level) > 0) { for (ii = 0; normalize_mix_level[ii] != NULL && normalize_mix_level[ii][0] != 0; ii++) { audio_dict = hb_value_array_get(list, ii); hb_dict_set(audio_dict, "AudioNormalizeMixLevel", hb_value_bool(atoi(normalize_mix_level[ii]))); } // Apply last mix norm in list to all other entries if (normalize_mix_level[ii-1][0] != 0) for (; ii < count; ii++) { audio_dict = hb_value_array_get(list, ii); hb_dict_set(audio_dict, "AudioNormalizeMixLevel", hb_value_bool( atoi(normalize_mix_level[ii-1]))); } } // Update DRC if (hb_str_vlen(dynamic_range_compression) > 0) { for (ii = 0;dynamic_range_compression[ii] != NULL && dynamic_range_compression[ii][0] != 0; ii++) { audio_dict = hb_value_array_get(list, ii); hb_dict_set(audio_dict, "AudioTrackDRCSlider", hb_value_double( strtod(dynamic_range_compression[ii], NULL))); } // Apply last DRC in list to all other entries if (dynamic_range_compression[ii-1][0] != 0) for (; ii < count; ii++) { audio_dict = hb_value_array_get(list, ii); hb_dict_set(audio_dict, "AudioTrackDRCSlider", hb_value_double( strtod(dynamic_range_compression[ii-1], NULL))); } } // Update Gain if (hb_str_vlen(audio_gain) > 0) { for (ii = 0; audio_gain[ii] != NULL && audio_gain[ii][0] != 0; ii++) { audio_dict = hb_value_array_get(list, ii); hb_dict_set(audio_dict, "AudioTrackGainSlider", hb_value_double( strtod(audio_gain[ii], NULL))); } // Apply last gain in list to all other entries if (audio_gain[ii-1][0] != 0) for (; ii < count; ii++) { audio_dict = hb_value_array_get(list, ii); hb_dict_set(audio_dict, "AudioTrackGainSlider", hb_value_double( strtod(audio_gain[ii-1], NULL))); } } // Update dither method if (hb_str_vlen(audio_dither) > 0) { for (ii = 0; audio_dither[ii] != NULL && audio_dither[ii][0] != 0; ii++) { audio_dict = hb_value_array_get(list, ii); hb_dict_set(audio_dict, "AudioDitherMethod", hb_value_string(audio_dither[ii])); } // Apply last dither in list to all other entries if (audio_dither[ii-1][0] != 0) for (; ii < count; ii++) { audio_dict = hb_value_array_get(list, ii); hb_dict_set(audio_dict, "AudioDitherMethod", hb_value_string(audio_dither[ii-1])); } } // Update compression if (hb_str_vlen(acompressions) > 0) { for (ii = 0; acompressions[ii] != NULL && acompressions[ii][0] != 0; ii++) { audio_dict = hb_value_array_get(list, ii); hb_dict_set(audio_dict, "AudioCompressionLevel", hb_value_double( strtod(acompressions[ii], NULL))); } // Apply last compression in list to all other entries if (acompressions[ii-1][0] != 0) for (; ii < count; ii++) { audio_dict = hb_value_array_get(list, ii); hb_dict_set(audio_dict, "AudioCompressionLevel", hb_value_double( strtod(acompressions[ii-1], NULL))); } } // Update track names if (hb_str_vlen(anames) > 0) { for (ii = 0; anames[ii] != NULL && anames[ii][0] != 0; ii++) { audio_dict = hb_value_array_get(list, ii); hb_dict_set(audio_dict, "AudioTrackName", hb_value_string(anames[ii])); } } } if (atracks != NULL) { // User has specified explicit audio tracks // Disable preset's audio track selection hb_dict_set(preset, "AudioTrackSelectionBehavior", hb_value_string("none")); } if (vcodec != NULL) { const char *s; int old, new; s = hb_value_get_string(hb_dict_get(preset, "VideoEncoder")); old = hb_video_encoder_get_from_name(s); new = hb_video_encoder_get_from_name(vcodec); if (old != new) { // If the user explicitly changes a video encoder, remove the // preset VideoPreset, VideoTune, VideoProfile, VideoLevel, and // VideoOptionExtra. // // Use defaults for the encoder since these settings may not be // compatible across encoders. hb_dict_remove(preset, "VideoPreset"); hb_dict_remove(preset, "VideoTune"); hb_dict_remove(preset, "VideoProfile"); hb_dict_remove(preset, "VideoLevel"); hb_dict_remove(preset, "VideoOptionExtra"); } hb_dict_set(preset, "VideoEncoder", hb_value_string(vcodec)); } if (encoder_preset != NULL) { hb_dict_set(preset, "VideoPreset", hb_value_string(encoder_preset)); } if (encoder_tune != NULL) { hb_dict_set(preset, "VideoTune", hb_value_string(encoder_tune)); } if (encoder_profile != NULL) { hb_dict_set(preset, "VideoProfile", hb_value_string(encoder_profile)); } if (encoder_level != NULL) { hb_dict_set(preset, "VideoLevel", hb_value_string(encoder_level)); } if (advanced_opts != NULL) { hb_dict_set(preset, "VideoOptionExtra", hb_value_string(advanced_opts)); } if (vquality > HB_INVALID_VIDEO_QUALITY) { hb_dict_set(preset, "VideoQualityType", hb_value_int(2)); hb_dict_set(preset, "VideoQualitySlider", hb_value_double(vquality)); } else if (vbitrate != 0) { hb_dict_set(preset, "VideoQualityType", hb_value_int(1)); hb_dict_set(preset, "VideoAvgBitrate", hb_value_int(vbitrate)); if (twoPass == 1) { hb_dict_set(preset, "VideoTwoPass", hb_value_bool(1)); } else if (twoPass == 0) { hb_dict_set(preset, "VideoTwoPass", hb_value_bool(0)); } if (fastfirstpass == 1) { hb_dict_set(preset, "VideoTurboTwoPass", hb_value_bool(1)); } else if (fastfirstpass == 0) { hb_dict_set(preset, "VideoTurboTwoPass", hb_value_bool(0)); } } const char *vrate_preset; const char *cfr_preset; vrate_preset = hb_value_get_string(hb_dict_get(preset, "VideoFramerate")); cfr_preset = hb_value_get_string(hb_dict_get(preset, "VideoFramerateMode")); if (vrate != NULL) { hb_dict_set(preset, "VideoFramerate", hb_value_string(vrate)); if (cfr_preset == NULL || strcmp(cfr_preset, "") == 0) { hb_dict_set(preset, "VideoFramerateMode", hb_value_string("pfr")); } } else if (vrate_preset == NULL || strcmp(vrate_preset, "") == 0) { hb_dict_set(preset, "VideoFramerate", hb_value_string("auto")); if (cfr_preset == NULL || strcmp(cfr_preset, "") == 0) { hb_dict_set(preset, "VideoFramerateMode", hb_value_string("vfr")); } } if (cfr != -1) { hb_dict_set(preset, "VideoFramerateMode", hb_value_string(cfr == 0 ? "vfr" : cfr == 1 ? "cfr" : "pfr")); } if (color_matrix_code > 0) { hb_dict_set(preset, "VideoColorMatrixCode", hb_value_int(color_matrix_code)); } #ifdef USE_QSV if (qsv_async_depth >= 0) { hb_dict_set(preset, "VideoQSVAsyncDepth", hb_value_int(qsv_async_depth)); } if (qsv_decode != -1) { hb_dict_set(preset, "VideoQSVDecode", hb_value_int(qsv_decode)); } #endif if (use_opencl != -1) { hb_dict_set(preset, "VideoScaler", hb_value_string(use_opencl ? "opencl" : "swscale")); } if (maxWidth > 0) { hb_dict_set(preset, "PictureWidth", hb_value_int(maxWidth)); } if (maxHeight > 0) { hb_dict_set(preset, "PictureHeight", hb_value_int(maxHeight)); } if (width > 0) { hb_dict_set(preset, "PictureForceWidth", hb_value_int(width)); } if (height > 0) { hb_dict_set(preset, "PictureForceHeight", hb_value_int(height)); } if (crop[0] >= 0 || crop[1] >= 0 || crop[2] >= 0 || crop[3] >= 0) { hb_dict_set(preset, "PictureAutoCrop", hb_value_bool(0)); } if (crop[0] >= 0) { hb_dict_set(preset, "PictureTopCrop", hb_value_int(crop[0])); } if (crop[1] >= 0) { hb_dict_set(preset, "PictureBottomCrop", hb_value_int(crop[1])); } if (crop[2] >= 0) { hb_dict_set(preset, "PictureLeftCrop", hb_value_int(crop[2])); } if (crop[3] >= 0) { hb_dict_set(preset, "PictureRightCrop", hb_value_int(crop[3])); } if (loose_crop != -1) { hb_dict_set(preset, "PictureLooseCrop", hb_value_bool(loose_crop)); } if (display_width > 0) { keep_display_aspect = 0; anamorphic_mode = HB_ANAMORPHIC_CUSTOM; hb_dict_set(preset, "PictureDARWidth", hb_value_int(display_width)); } else if (par_width > 0 && par_height > 0) { keep_display_aspect = 0; anamorphic_mode = HB_ANAMORPHIC_CUSTOM; hb_dict_set(preset, "PicturePARWidth", hb_value_int(par_width)); hb_dict_set(preset, "PicturePARHeight", hb_value_int(par_height)); } if (anamorphic_mode != -1) { hb_dict_set(preset, "PicturePAR", hb_value_int(anamorphic_mode)); } if (keep_display_aspect != -1) { hb_dict_set(preset, "PictureKeepRatio", hb_value_bool(keep_display_aspect)); } if (itu_par != -1) { hb_dict_set(preset, "PictureItuPAR", hb_value_bool(itu_par)); } if (modulus > 0) { hb_dict_set(preset, "PictureModulus", hb_value_int(modulus)); } if (grayscale != -1) { hb_dict_set(preset, "VideoGrayScale", hb_value_bool(grayscale)); } if (decomb_disable || deinterlace_disable) { hb_dict_set(preset, "PictureDeinterlaceFilter", hb_value_string("off")); } if (comb_detect_disable) { hb_dict_set(preset, "PictureCombDetectPreset", hb_value_string("off")); } if (comb_detect != NULL) { if (!comb_detect_custom) { hb_dict_set(preset, "PictureCombDetectPreset", hb_value_string(comb_detect)); } else { hb_dict_set(preset, "PictureCombDetectPreset", hb_value_string("custom")); hb_dict_set(preset, "PictureCombDetectCustom", hb_value_string(comb_detect)); } } if (deinterlace != NULL) { hb_dict_set(preset, "PictureDeinterlaceFilter", hb_value_string("deinterlace")); if (!deinterlace_custom) { hb_dict_set(preset, "PictureDeinterlacePreset", hb_value_string(deinterlace)); } else { hb_dict_set(preset, "PictureDeinterlacePreset", hb_value_string("custom")); hb_dict_set(preset, "PictureDeinterlaceCustom", hb_value_string(deinterlace)); } } if (decomb != NULL) { hb_dict_set(preset, "PictureDeinterlaceFilter", hb_value_string("decomb")); if (!decomb_custom) { hb_dict_set(preset, "PictureDeinterlacePreset", hb_value_string(decomb)); } else { hb_dict_set(preset, "PictureDeinterlacePreset", hb_value_string("custom")); hb_dict_set(preset, "PictureDeinterlaceCustom", hb_value_string(decomb)); } } if (detelecine_disable) { hb_dict_set(preset, "PictureDetelecine", hb_value_string("off")); } if (detelecine != NULL) { if (!detelecine_custom) { hb_dict_set(preset, "PictureDetelecine", hb_value_string(detelecine)); } else { hb_dict_set(preset, "PictureDetelecine", hb_value_string("custom")); hb_dict_set(preset, "PictureDetelecineCustom", hb_value_string(detelecine)); } } const char *s; s = hb_value_get_string(hb_dict_get(preset, "PictureDenoiseFilter")); if (hqdn3d_disable && !strcasecmp(s, "hqdn3d")) { hb_dict_set(preset, "PictureDenoiseFilter", hb_value_string("off")); } if (hqdn3d != NULL) { hb_dict_set(preset, "PictureDenoiseFilter", hb_value_string("hqdn3d")); if (!hqdn3d_custom) { hb_dict_set(preset, "PictureDenoisePreset", hb_value_string(hqdn3d)); } else { hb_dict_set(preset, "PictureDenoisePreset", hb_value_string("custom")); hb_dict_set(preset, "PictureDenoiseCustom", hb_value_string(hqdn3d)); } } if (nlmeans_disable && !strcasecmp(s, "nlmeans")) { hb_dict_set(preset, "PictureDenoiseFilter", hb_value_string("off")); } if (nlmeans != NULL) { hb_dict_set(preset, "PictureDenoiseFilter", hb_value_string("nlmeans")); if (!nlmeans_custom) { hb_dict_set(preset, "PictureDenoisePreset", hb_value_string(nlmeans)); if (nlmeans_tune != NULL) { hb_dict_set(preset, "PictureDenoiseTune", hb_value_string(nlmeans_tune)); } } else { hb_dict_set(preset, "PictureDenoisePreset", hb_value_string("custom")); hb_dict_set(preset, "PictureDenoiseCustom", hb_value_string(nlmeans)); } } if (deblock_disable) { hb_dict_set(preset, "PictureDeblock", hb_value_string("0")); } if (deblock != NULL) { hb_dict_set(preset, "PictureDeblock", hb_value_string("custom")); hb_dict_set(preset, "PictureDeblockCustom", hb_value_string(deblock)); } if (rotate != NULL) { hb_dict_set(preset, "PictureRotate", hb_value_string(rotate)); } if (pad_disable) { hb_dict_set(preset, "PicturePad", hb_value_string("off")); } if (pad != NULL) { hb_dict_set(preset, "PicturePad", hb_value_string(pad)); } return preset; } static int add_sub(hb_value_array_t *list, hb_title_t *title, int track, int out_track, int *one_burned) { hb_subtitle_t *subtitle; // Check that the track exists subtitle = hb_list_item(title->list_subtitle, track); if (subtitle == NULL) { fprintf(stderr, "Warning: Could not find subtitle track %d, skipped\n", track + 1); return -1; } int burn = !*one_burned && subburn == out_track && hb_subtitle_can_burn(subtitle->source); *one_burned |= burn; int def = subdefault == out_track; int force = test_sub_list(subforce, out_track); if (!burn && !hb_subtitle_can_pass(subtitle->source, mux)) { // Only allow one subtitle to be burned into video if (*one_burned) { fprintf(stderr, "Warning: Skipping subtitle track %d, can't have more than one track burnt in\n", track + 1); return -1; } *one_burned = 1; } hb_dict_t *subtitle_dict = hb_dict_init(); hb_dict_set(subtitle_dict, "Track", hb_value_int(track)); hb_dict_set(subtitle_dict, "Default", hb_value_bool(def)); hb_dict_set(subtitle_dict, "Forced", hb_value_bool(force)); hb_dict_set(subtitle_dict, "Burn", hb_value_bool(burn)); hb_value_array_append(list, subtitle_dict); return 0; } static int add_srt(hb_value_array_t *list, int track, int *one_burned) { char *codeset = "ISO-8859-1"; int64_t offset = 0; char *iso639_2 = "und"; int burn = !*one_burned && srtburn == track + 1 && hb_subtitle_can_burn(SRTSUB); *one_burned |= burn; int def = srtdefault == track + 1; if (srtcodeset && track < hb_str_vlen(srtcodeset) && srtcodeset[track]) codeset = srtcodeset[track]; if (srtoffset && track < hb_str_vlen(srtoffset) && srtoffset[track]) offset = strtoll(srtoffset[track], NULL, 0); if (srtlang && track < hb_str_vlen(srtlang) && srtlang[track]) { const iso639_lang_t *lang = lang_lookup(srtlang[track]); if (lang != NULL) { iso639_2 = lang->iso639_2; } else { fprintf(stderr, "Warning: Invalid SRT language (%s)\n", srtlang[track]); } } hb_dict_t *subtitle_dict = hb_dict_init(); hb_dict_t *srt_dict = hb_dict_init(); hb_dict_set(subtitle_dict, "SRT", srt_dict); hb_dict_set(subtitle_dict, "Default", hb_value_bool(def)); hb_dict_set(subtitle_dict, "Burn", hb_value_bool(burn)); hb_dict_set(subtitle_dict, "Offset", hb_value_int(offset)); hb_dict_set(srt_dict, "Filename", hb_value_string(srtfile[track])); hb_dict_set(srt_dict, "Language", hb_value_string(iso639_2)); hb_dict_set(srt_dict, "Codeset", hb_value_string(codeset)); hb_value_array_append(list, subtitle_dict); return 0; } static int add_audio(hb_value_array_t *list, hb_title_t *title, int track) { // Check that the track exists if (hb_list_item(title->list_audio, track-1) == NULL) { fprintf(stderr, "Warning: Could not find audio track %d, skipped\n", track); return -1; } hb_dict_t *audio_dict = hb_dict_init(); hb_dict_set(audio_dict, "Track", hb_value_int(track-1)); hb_value_array_append(list, audio_dict); return 0; } static hb_dict_t* PrepareJob(hb_handle_t *h, hb_title_t *title, hb_dict_t *preset_dict) { hb_dict_t *job_dict; job_dict = hb_preset_job_init(h, title->index, preset_dict); if (job_dict == NULL) { fprintf(stderr, "Failed to initialize job\n"); return NULL; } hb_dict_t *dest_dict = hb_dict_get(job_dict, "Destination"); if (hb_value_get_bool(hb_dict_get(dest_dict, "ChapterMarkers"))) { write_chapter_names(job_dict, marker_file); } hb_dict_set(dest_dict, "File", hb_value_string(output)); // Now that the job is initialized, we need to find out // what muxer is being used. mux = hb_container_get_from_name( hb_value_get_string(hb_dict_get(dest_dict, "Mux"))); // Now set non-preset settings in the job dict int range_start = 0, range_end = 0, range_seek_points = 0; const char *range_type = "chapter"; if (chapter_start && chapter_end && !start_at_pts && !stop_at_pts && !start_at_frame && !stop_at_frame && !start_at_preview ) { range_type = "chapter"; int chapter_count = hb_list_count(title->list_chapter); range_start = MAX(1, chapter_start); range_end = MAX(chapter_start, MIN(chapter_count, chapter_end)); } else if (start_at_preview) { range_type = "preview"; range_start = start_at_preview -1; range_end = stop_at_pts; range_seek_points = preview_count; } else if (start_at_pts || stop_at_pts) { range_type = "time"; range_start = start_at_pts; range_end = stop_at_pts; } else if (start_at_frame || stop_at_frame) { range_type = "frame"; range_start = start_at_frame; range_end = stop_at_frame; } if (range_start || range_end) { hb_dict_t *range_dict = hb_dict_get( hb_dict_get(job_dict, "Source"), "Range"); hb_dict_set(range_dict, "Type", hb_value_string(range_type)); if (range_start) hb_dict_set(range_dict, "Start", hb_value_int(range_start)); else hb_dict_remove(range_dict, "Start"); if (range_end) hb_dict_set(range_dict, "End", hb_value_int(range_end)); else hb_dict_remove(range_dict, "End"); if (range_seek_points) hb_dict_set(range_dict, "SeekPoints", hb_value_int(range_seek_points)); } if (angle) { hb_dict_t *source_dict = hb_dict_get(job_dict, "Source"); hb_dict_set(source_dict, "Angle", hb_value_int(angle)); } hb_dict_t *subtitles_dict = hb_dict_get(job_dict, "Subtitle"); hb_value_array_t * subtitle_array; hb_dict_t * subtitle_search; subtitle_array = hb_dict_get(subtitles_dict, "SubtitleList"); subtitle_search = hb_dict_get(subtitles_dict, "Search"); hb_dict_t *audios_dict = hb_dict_get(job_dict, "Audio"); hb_value_array_t * audio_array = hb_dict_get(audios_dict, "AudioList"); hb_dict_t *audio_dict; /* Grab audio tracks */ if (atracks != NULL) { int track_count; int ii; if (atracks[0] != NULL && strcasecmp("none", atracks[0])) { // First "track" is not "none", add tracks for (ii = 0; atracks[ii] != NULL; ii++) { int first, last, track; if (sscanf(atracks[ii], "%d-%d", &first, &last ) == 2) { for (track = first - 1; track < last; track++) { add_audio(audio_array, title, track); } } else if (sscanf(atracks[ii], "%d", &track) == 1) { add_audio(audio_array, title, track); } else { fprintf(stderr, "ERROR: unable to parse audio input \"%s\", skipping\n", atracks[ii]); } } } track_count = hb_value_array_len(audio_array); // Now we need to take care of initializing subtitle selection // for foreign audio since this could not be done by the preset // due to disabling of preset audio selection. // Determine the language of the first audio track if (track_count > 0) { audio_dict = hb_value_array_get(audio_array, 0); int track = hb_value_get_int(hb_dict_get(audio_dict, "Track")); hb_audio_config_t *audio; audio = hb_list_audio_config_item(title->list_audio, track); if (audio != NULL) { hb_preset_job_add_subtitles(h, title->index, preset_dict, job_dict); } } /* Audio Codecs */ int acodec = HB_ACODEC_INVALID; ii = 0; if (acodecs != NULL) { for (; acodecs[ii] != NULL && ii < track_count; ii++) { audio_dict = hb_value_array_get(audio_array, ii); acodec = hb_audio_encoder_get_from_name(acodecs[ii]); if (acodec <= 0) { fprintf(stderr, "Invalid codec %s, using default for container.\n", acodecs[ii]); acodec = hb_audio_encoder_get_default(mux); } hb_dict_set(audio_dict, "Encoder", hb_value_int(acodec)); } if (acodecs[ii] != NULL) { fprintf(stderr, "Dropping excess audio encoders\n"); } } if (ii != 1) { acodec = hb_audio_encoder_get_default(mux); } for (; ii < track_count; ii++) { // We have fewer inputs than audio tracks, use the // default codec for this container for the remaining // tracks. Unless we only have one input then use that // codec instead. audio_dict = hb_value_array_get(audio_array, ii); hb_dict_set(audio_dict, "Encoder", hb_value_int(acodec)); } /* Sample Rate */ int arate = 0; ii = 0; if (arates != NULL) { for (; arates[ii] != NULL && ii < track_count; ii++) { if (!strcasecmp(arates[ii], "auto")) { arate = 0; } else { arate = hb_audio_samplerate_get_from_name(arates[ii]); } if (arate <= 0) { fprintf(stderr, "Invalid sample rate %s, using input rate\n", arates[ii]); arate = 0; } audio_dict = hb_value_array_get(audio_array, ii); hb_dict_set(audio_dict, "Samplerate", hb_value_int(arate)); } if (arates[ii] != NULL) { fprintf(stderr, "Dropping excess audio sample rates\n"); } } // If exactly one samplerate was specified, apply it to the reset // of the tracks. // // For any tracks that we do not set the rate for, libhb will // assign the source audio track's rate if (ii == 1) for (; ii < track_count; ii++) { audio_dict = hb_value_array_get(audio_array, ii); hb_dict_set(audio_dict, "Samplerate", hb_value_int(arate)); } /* Audio Mixdown */ int mix = HB_AMIXDOWN_NONE; ii = 0; if (mixdowns != NULL) { for (; mixdowns[ii] != NULL && ii < track_count; ii++) { mix = hb_mixdown_get_from_name(mixdowns[ii]); audio_dict = hb_value_array_get(audio_array, ii); hb_dict_set(audio_dict, "Mixdown", hb_value_int(mix)); } if (mixdowns[ii] != NULL) { fprintf(stderr, "Dropping excess audio mixdowns\n"); } } // If exactly one mix was specified, apply it to the reset // of the tracks if (ii == 1) for (; ii < track_count; ii++) { audio_dict = hb_value_array_get(audio_array, ii); hb_dict_set(audio_dict, "Mixdown", hb_value_int(mix)); } /* Audio Bitrate */ int abitrate = 0; ii = 0; if (abitrates != NULL) { for (; abitrates[ii] != NULL && ii < track_count; ii++) { if (*abitrates[ii]) { abitrate = atoi(abitrates[ii]); audio_dict = hb_value_array_get(audio_array, ii); hb_dict_set(audio_dict, "Bitrate", hb_value_int(abitrate)); } } if (abitrates[ii] != NULL) { fprintf(stderr, "Dropping excess audio bitrates\n"); } } // If exactly one bitrate was specified, apply it to the reset // of the tracks if (ii == 1) for (; ii < track_count; ii++) { audio_dict = hb_value_array_get(audio_array, ii); hb_dict_set(audio_dict, "Bitrate", hb_value_int(abitrate)); } /* Audio Quality */ double aquality = 0.; ii = 0; if (aqualities != NULL) { for (; aqualities[ii] != NULL && ii < track_count; ii++) { if (*aqualities[ii]) { aquality = atof(aqualities[ii]); audio_dict = hb_value_array_get(audio_array, ii); hb_dict_set(audio_dict, "Quality", hb_value_double(aquality)); hb_dict_set(audio_dict, "Bitrate", hb_value_int(-1)); } } if (aqualities[ii] != NULL) { fprintf(stderr, "Dropping excess audio qualities\n"); } } // If exactly one quality was specified, apply it to the reset // of the tracks that do not already have the bitrate set. if (ii == 1) for (; ii < track_count; ii++) { audio_dict = hb_value_array_get(audio_array, ii); abitrate = hb_value_get_int(hb_dict_get(audio_dict, "Bitrate")); if (abitrate <= 0) { hb_dict_set(audio_dict, "Quality", hb_value_double(aquality)); hb_dict_set(audio_dict, "Bitrate", hb_value_int(-1)); } } /* Audio Compression Level */ double acompression; ii = 0; if (acompressions != NULL) { for (; acompressions[ii] != NULL && ii < track_count; ii++) { if (*acompressions[ii]) { acompression = atof(acompressions[ii]); audio_dict = hb_value_array_get(audio_array, ii); hb_dict_set(audio_dict, "CompressionLevel", hb_value_double(acompression)); } } if (acompressions[ii] != NULL) { fprintf(stderr, "Dropping excess audio compression levels\n"); } } // Compression levels are codec specific values. So don't // try to apply to other tracks. /* Audio DRC */ ii = 0; double drc = 0.; if (dynamic_range_compression) { char **drcs = dynamic_range_compression; for (; drcs[ii] != NULL && ii < track_count; ii++) { drc = atof(drcs[ii]); audio_dict = hb_value_array_get(audio_array, ii); hb_dict_set(audio_dict, "DRC", hb_value_double(drc)); } if (drcs[ii] != NULL) { fprintf(stderr, "Dropping excess audio dynamic range controls\n"); } } // If exactly one DRC was specified, apply it to the reset // of the tracks if (ii == 1) for (; ii < track_count; ii++) { audio_dict = hb_value_array_get(audio_array, ii); hb_dict_set(audio_dict, "DRC", hb_value_double(drc)); } /* Audio Gain */ ii = 0; double gain = 1.; if (audio_gain) { for (; audio_gain[ii] != NULL && ii < track_count; ii++) { gain = atof(audio_gain[ii]); audio_dict = hb_value_array_get(audio_array, ii); hb_dict_set(audio_dict, "Gain", hb_value_double(gain)); } if (audio_gain[ii] != NULL) { fprintf(stderr, "Dropping excess audio gains\n"); } } // If exactly one gain was specified, apply it to the reset // of the tracks if (ii == 1) for (; ii < track_count; ii++) { audio_dict = hb_value_array_get(audio_array, ii); hb_dict_set(audio_dict, "Gain", hb_value_double(gain)); } /* Audio Dither */ int dither = 0; ii = 0; if (audio_dither != NULL) { for (; audio_dither[ii] != NULL && ii < track_count; ii++) { if (*audio_dither[ii]) { dither = hb_audio_dither_get_from_name(audio_dither[ii]); audio_dict = hb_value_array_get(audio_array, ii); hb_dict_set(audio_dict, "DitherMethod", hb_value_int(dither)); } } if (audio_dither[ii] != NULL) { fprintf(stderr, "Dropping excess audio dither methods\n"); } } // If exactly one dither was specified, apply it to the reset // of the tracks if (ii == 1) for (; ii < track_count; ii++) { int codec; audio_dict = hb_value_array_get(audio_array, ii); codec = hb_value_get_int(hb_dict_get(audio_dict, "Encoder")); if (hb_audio_dither_is_supported(codec)) { hb_dict_set(audio_dict, "DitherMethod", hb_value_double(dither)); } } /* Audio Mix Normalization */ int norm = 0; ii = 0; if (normalize_mix_level) { char **nmls = normalize_mix_level; for (; nmls[ii] != NULL && ii < track_count; ii++) { norm = atoi(nmls[ii]); audio_dict = hb_value_array_get(audio_array, ii); hb_dict_set(audio_dict, "NormalizeMixLevel", hb_value_bool(norm)); } if (nmls[ii] != NULL) { fprintf(stderr, "Dropping excess audio mixdown normalizations\n"); } } // If exactly one norm was specified, apply it to the reset // of the tracks if (ii == 1) for (; ii < track_count; ii++) { audio_dict = hb_value_array_get(audio_array, ii); hb_dict_set(audio_dict, "NormalizeMixLevel", hb_value_bool(norm)); } /* Audio Track Names */ ii = 0; if (anames != NULL) { for (; anames[ii] != NULL && ii < track_count; ii++) { if (*anames[ii]) { audio_dict = hb_value_array_get(audio_array, ii); hb_dict_set(audio_dict, "Name", hb_value_string(anames[ii])); } } if (anames[ii] != NULL) { fprintf(stderr, "Dropping excess audio track names\n"); } } // If exactly one name was specified, apply it to the reset // of the tracks if (ii == 1 && *anames[0]) for (; ii < track_count; ii++) { audio_dict = hb_value_array_get(audio_array, ii); hb_dict_set(audio_dict, "Name", hb_value_string(anames[0])); } } int one_burned = 0; if (subtracks != NULL) { int ii, out_track = 0; for (ii = 0; subtracks[ii] != NULL; ii++) { if (strcasecmp(subtracks[ii], "none" ) == 0) { // Taken care of already when initializing the job // from a preset continue; } if (strcasecmp(subtracks[ii], "scan" ) == 0) { // Taken care of already when initializing the job // from a preset out_track++; int def = subdefault == ii + 1; int force = test_sub_list(subforce, out_track); int burn = subburn == ii + 1; hb_dict_set(subtitle_search, "Default", hb_value_bool(def)); hb_dict_set(subtitle_search, "Forced", hb_value_bool(force)); hb_dict_set(subtitle_search, "Burn", hb_value_bool(burn)); continue; } int first, last, track; if (sscanf(subtracks[ii], "%d-%d", &first, &last ) == 2) { for (track = first - 1; track < last; track++) { if (add_sub(subtitle_array, title, track - 1, out_track + 1, &one_burned) == 0) { out_track++; } } } else if (sscanf(subtracks[ii], "%d", &track) == 1) { if (add_sub(subtitle_array, title, track - 1, out_track + 1, &one_burned) == 0) { out_track++; } } else { fprintf(stderr, "ERROR: unable to parse subtitle input \"%s\", skipping\n", subtracks[ii]); } } } else { if (subdefault || srtdefault > 0) { // "Default" flag can not be applied till after subtitles have // been selected. Apply it here if subtitle selection was // made by the preset. hb_value_t *sub_dict = hb_dict_get(job_dict, "Subtitle"); hb_value_t *sub_list = hb_dict_get(sub_dict, "SubtitleList"); int ii; // disable any currently set default flag for (ii = 0; ii < hb_value_array_len(sub_list); ii++) { hb_value_t *sub = hb_value_array_get(sub_list, ii); hb_dict_set(sub, "Default", hb_value_bool(0)); } if (subdefault > 0 && hb_value_array_len(sub_list) >= subdefault) { hb_value_t *sub = hb_value_array_get(sub_list, subdefault - 1); hb_dict_set(sub, "Default", hb_value_bool(1)); } } if (subforce != NULL) { // "Forced" flag is not set during preset initialization except // for "foreign audio" subtitles. Set additional request forced // subtitle tracks here. hb_value_t *sub_dict = hb_dict_get(job_dict, "Subtitle"); hb_value_t *sub_list = hb_dict_get(sub_dict, "SubtitleList"); int ii; for (ii = 0; subforce[ii] != NULL; ii++ ) { int idx = strtol(subforce[ii], NULL, 0) - 1; if (idx >= 0 && hb_value_array_len(sub_list) > idx) { hb_value_t *sub = hb_value_array_get(sub_list, idx); hb_dict_set(sub, "Forced", hb_value_bool(1)); } } } } if (srtfile != NULL) { int ii; for (ii = 0; srtfile[ii] != NULL; ii++) { add_srt(subtitle_array, ii, &one_burned); } } return job_dict; } static void print_string_list(FILE *out, const char* const *list, const char *prefix) { if (out != NULL && prefix != NULL) { if (list != NULL) { while (*list != NULL) { fprintf(out, "%s%s\n", prefix, *list++); } } else { fprintf(out, "%s" "Option not supported by encoder\n", prefix); } } } #ifdef __APPLE_CC__ /**************************************************************************** * bsd_name_for_path * * Returns the BSD device name for the block device that contains the * passed-in path. Returns NULL on failure. ****************************************************************************/ static char* bsd_name_for_path(char *path) { OSStatus err; FSRef ref; err = FSPathMakeRef( (const UInt8 *) input, &ref, NULL ); if( err != noErr ) { return NULL; } // Get the volume reference number. FSCatalogInfo catalogInfo; err = FSGetCatalogInfo( &ref, kFSCatInfoVolume, &catalogInfo, NULL, NULL, NULL); if( err != noErr ) { return NULL; } FSVolumeRefNum volRefNum = catalogInfo.volume; // Now let's get the device name GetVolParmsInfoBuffer volumeParms; err = FSGetVolumeParms( volRefNum, &volumeParms, sizeof( volumeParms ) ); if( err != noErr ) { return NULL; } // A version 4 GetVolParmsInfoBuffer contains the BSD node name in the vMDeviceID field. // It is actually a char * value. This is mentioned in the header CoreServices/CarbonCore/Files.h. if( volumeParms.vMVersion < 4 ) { return NULL; } // vMDeviceID might be zero as is reported with experimental ZFS (zfs-119) support in Leopard. if( !volumeParms.vMDeviceID ) { return NULL; } return strdup( volumeParms.vMDeviceID ); } /**************************************************************************** * device_is_dvd * * Returns whether or not the passed in BSD device represents a DVD, or other * optical media. ****************************************************************************/ static int device_is_dvd(char *device) { io_service_t service = get_iokit_service(device); if( service == IO_OBJECT_NULL ) { return 0; } int result = is_dvd_service(service); IOObjectRelease(service); return result; } /**************************************************************************** * get_iokit_service * * Returns the IOKit service object for the passed in BSD device name. ****************************************************************************/ static io_service_t get_iokit_service( char *device ) { CFMutableDictionaryRef matchingDict; matchingDict = IOBSDNameMatching( kIOMasterPortDefault, 0, device ); if( matchingDict == NULL ) { return IO_OBJECT_NULL; } // Fetch the object with the matching BSD node name. There should only be // one match, so IOServiceGetMatchingService is used instead of // IOServiceGetMatchingServices to simplify the code. return IOServiceGetMatchingService( kIOMasterPortDefault, matchingDict ); } /**************************************************************************** * is_dvd_service * * Returns whether or not the service passed in is a DVD. * * Searches for an IOMedia object that represents the entire (whole) media that * the volume is on. If the volume is on partitioned media, the whole media * object will be a parent of the volume's media object. If the media is not * partitioned, the volume's media object will be the whole media object. ****************************************************************************/ static int is_dvd_service( io_service_t service ) { kern_return_t kernResult; io_iterator_t iter; // Create an iterator across all parents of the service object passed in. kernResult = IORegistryEntryCreateIterator( service, kIOServicePlane, kIORegistryIterateRecursively | kIORegistryIterateParents, &iter ); if( kernResult != KERN_SUCCESS ) { return 0; } if( iter == IO_OBJECT_NULL ) { return 0; } // A reference on the initial service object is released in the do-while // loop below, so add a reference to balance. IOObjectRetain( service ); int result = 0; do { if( is_whole_media_service( service ) && IOObjectConformsTo( service, kIODVDMediaClass) ) { result = 1; } IOObjectRelease( service ); } while( !result && (service = IOIteratorNext( iter )) ); IOObjectRelease( iter ); return result; } /**************************************************************************** * is_whole_media_service * * Returns whether or not the service passed in is an IOMedia service and * represents the "whole" media instead of just a partition. * * The whole media object is indicated in the IORegistry by the presence of a * property with the key "Whole" and value "Yes". ****************************************************************************/ static int is_whole_media_service( io_service_t service ) { int result = 0; if( IOObjectConformsTo( service, kIOMediaClass ) ) { CFTypeRef wholeMedia = IORegistryEntryCreateCFProperty( service, CFSTR( kIOMediaWholeKey ), kCFAllocatorDefault, 0 ); if ( !wholeMedia ) { return 0; } result = CFBooleanGetValue( (CFBooleanRef)wholeMedia ); CFRelease( wholeMedia ); } return result; } #endif // __APPLE_CC__