/*************************************************************************** * hb-backend.c * * Fri Mar 28 10:38:44 2008 * Copyright 2008 John Stebbins * ****************************************************************************/ /* * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Library General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor Boston, MA 02110-1301, USA */ #define _GNU_SOURCE #include #include #include "hb.h" #include #include #include "hb-backend.h" #include "settings.h" #include "callbacks.h" #include "preview.h" #include "values.h" #include "lang.h" typedef struct { const gchar *option; const gchar *shortOpt; gdouble ivalue; const gchar *svalue; } options_map_t; typedef struct { gint count; options_map_t *map; } combo_opts_t; static const gchar *index_str[] = { "0", "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", }; static options_map_t d_par_opts[] = { {"Off", "0", 0, "0"}, {"Strict", "1", 1, "1"}, {"Loose", "2", 2, "2"}, {"Custom", "3", 3, "3"}, }; combo_opts_t par_opts = { sizeof(d_par_opts)/sizeof(options_map_t), d_par_opts }; static options_map_t d_alignment_opts[] = { {"2", "2", 2, "2"}, {"4", "4", 4, "4"}, {"8", "8", 8, "8"}, {"16", "16", 16, "16"}, }; combo_opts_t alignment_opts = { sizeof(d_alignment_opts)/sizeof(options_map_t), d_alignment_opts }; static options_map_t d_logging_opts[] = { {"0", "0", 0, "0"}, {"1", "1", 1, "1"}, {"2", "2", 2, "2"}, }; combo_opts_t logging_opts = { sizeof(d_logging_opts)/sizeof(options_map_t), d_logging_opts }; static options_map_t d_vqual_granularity_opts[] = { {"0.2", "0.2", 0.2, "0.2"}, {"0.25", "0.25", 0.25, "0.25"}, {"0.5", "0.5", 0.5, "0.5"}, {"1", "1", 1, "1"}, }; combo_opts_t vqual_granularity_opts = { sizeof(d_vqual_granularity_opts)/sizeof(options_map_t), d_vqual_granularity_opts }; static options_map_t d_container_opts[] = { {"MKV", "mkv", HB_MUX_MKV, "mkv"}, {"MP4", "mp4", HB_MUX_MP4, "mp4"}, {"M4V", "m4v", HB_MUX_MP4, "m4v"}, }; combo_opts_t container_opts = { sizeof(d_container_opts)/sizeof(options_map_t), d_container_opts }; static options_map_t d_detel_opts[] = { {"None", "none", 0, ""}, {"Custom", "custom", 1, ""}, {"Default","default",2, NULL}, }; combo_opts_t detel_opts = { sizeof(d_detel_opts)/sizeof(options_map_t), d_detel_opts }; static options_map_t d_decomb_opts[] = { {"None", "none", 0, ""}, {"Custom", "custom", 1, ""}, {"Default","default",2, NULL}, }; combo_opts_t decomb_opts = { sizeof(d_decomb_opts)/sizeof(options_map_t), d_decomb_opts }; static options_map_t d_deint_opts[] = { {"None", "none", 0, ""}, {"Custom", "custom", 1, ""}, {"Fast", "fast", 2, "-1:-1:-1:0:1"}, {"Slow", "slow", 3, "2:-1:-1:0:1"}, {"Slower", "slower", 4, "0:-1:-1:0:1"}, }; combo_opts_t deint_opts = { sizeof(d_deint_opts)/sizeof(options_map_t), d_deint_opts }; static options_map_t d_denoise_opts[] = { {"None", "none", 0, ""}, {"Custom", "custom", 1, ""}, {"Weak", "weak", 2, "2:1:2:3"}, {"Medium", "medium", 3, "3:2:2:3"}, {"Strong", "strong", 4, "7:7:5:5"}, }; combo_opts_t denoise_opts = { sizeof(d_denoise_opts)/sizeof(options_map_t), d_denoise_opts }; static options_map_t d_vcodec_opts[] = { {"H.264 (x264)", "x264", HB_VCODEC_X264, ""}, {"MPEG-4 (FFMPEG)", "ffmpeg", HB_VCODEC_FFMPEG, ""}, {"Theora", "theora", HB_VCODEC_THEORA, ""}, }; combo_opts_t vcodec_opts = { sizeof(d_vcodec_opts)/sizeof(options_map_t), d_vcodec_opts }; static options_map_t d_acodec_opts[] = { {"AAC (faac)", "faac", HB_ACODEC_FAAC, "faac"}, {"MP3 (lame)", "lame", HB_ACODEC_LAME, "lame"}, {"Vorbis", "vorbis", HB_ACODEC_VORBIS, "vorbis"}, {"AC3 (pass-thru)", "ac3", HB_ACODEC_AC3, "ac3"}, {"DTS (pass-thru)", "dts", HB_ACODEC_DCA, "dts"}, {"Auto Pass-Thru", "auto", HB_ACODEC_DCA|HB_ACODEC_AC3, "auto"}, }; combo_opts_t acodec_opts = { sizeof(d_acodec_opts)/sizeof(options_map_t), d_acodec_opts }; static options_map_t d_direct_opts[] = { {"None", "none", 0, "none"}, {"Spatial", "spatial", 1, "spatial"}, {"Temporal", "temporal", 2, "temporal"}, {"Automatic", "auto", 3, "auto"}, }; combo_opts_t direct_opts = { sizeof(d_direct_opts)/sizeof(options_map_t), d_direct_opts }; static options_map_t d_badapt_opts[] = { {"Off", "0", 0, "0"}, {"Fast", "1", 1, "1"}, {"Optimal", "2", 2, "2"}, }; combo_opts_t badapt_opts = { sizeof(d_badapt_opts)/sizeof(options_map_t), d_badapt_opts }; static options_map_t d_me_opts[] = { {"Diamond", "dia", 0, "dia"}, {"Hexagon", "hex", 1, "hex"}, {"Uneven Multi-Hexagon", "umh", 2, "umh"}, {"Exhaustive", "esa", 3, "esa"}, {"Hadamard Exhaustive", "tesa", 4, "tesa"}, }; combo_opts_t me_opts = { sizeof(d_me_opts)/sizeof(options_map_t), d_me_opts }; static options_map_t d_subme_opts[] = { {"1", "1", 1, "1"}, {"2", "2", 2, "2"}, {"3", "3", 3, "3"}, {"4", "4", 4, "4"}, {"5", "5", 5, "5"}, {"6", "6", 6, "6"}, {"7", "7", 7, "7"}, {"8", "8", 8, "8"}, {"9", "9", 9, "9"}, }; combo_opts_t subme_opts = { sizeof(d_subme_opts)/sizeof(options_map_t), d_subme_opts }; static options_map_t d_analyse_opts[] = { {"Some", "some", 0, "some"}, {"None", "none", 1, "none"}, {"All", "all", 2, "all"}, {"Custom", "custom", 3, "all"}, }; combo_opts_t analyse_opts = { sizeof(d_analyse_opts)/sizeof(options_map_t), d_analyse_opts }; static options_map_t d_trellis_opts[] = { {"Disabled", "0", 0, "0"}, {"Final Macro Block", "1", 1, "1"}, {"Always", "2", 2, "2"}, }; combo_opts_t trellis_opts = { sizeof(d_trellis_opts)/sizeof(options_map_t), d_trellis_opts }; combo_opts_t subtitle_opts = { 0, NULL }; combo_opts_t title_opts = { 0, NULL }; combo_opts_t audio_track_opts = { 0, NULL }; typedef struct { const gchar *name; combo_opts_t *opts; } combo_name_map_t; combo_name_map_t combo_name_map[] = { {"PicturePAR", &par_opts}, {"PictureModulus", &alignment_opts}, {"LoggingLevel", &logging_opts}, {"VideoQualityGranularity", &vqual_granularity_opts}, {"FileFormat", &container_opts}, {"PictureDeinterlace", &deint_opts}, {"PictureDecomb", &decomb_opts}, {"PictureDetelecine", &detel_opts}, {"PictureDenoise", &denoise_opts}, {"VideoEncoder", &vcodec_opts}, {"AudioEncoder", &acodec_opts}, {"x264_direct", &direct_opts}, {"x264_b_adapt", &badapt_opts}, {"x264_me", &me_opts}, {"x264_subme", &subme_opts}, {"x264_analyse", &analyse_opts}, {"x264_trellis", &trellis_opts}, {"Subtitles", &subtitle_opts}, {"title", &title_opts}, {"AudioTrack", &audio_track_opts}, {NULL, NULL} }; #if 0 typedef struct iso639_lang_t { char * eng_name; /* Description in English */ char * native_name; /* Description in native language */ char * iso639_1; /* ISO-639-1 (2 characters) code */ char * iso639_2; /* ISO-639-2/t (3 character) code */ char * iso639_2b; /* ISO-639-2/b code (if different from above) */ } iso639_lang_t; #endif const iso639_lang_t ghb_language_table[] = { { "Any", "", "zz", "und" }, { "Afar", "", "aa", "aar" }, { "Abkhazian", "", "ab", "abk" }, { "Afrikaans", "", "af", "afr" }, { "Akan", "", "ak", "aka" }, { "Albanian", "", "sq", "sqi", "alb" }, { "Amharic", "", "am", "amh" }, { "Arabic", "", "ar", "ara" }, { "Aragonese", "", "an", "arg" }, { "Armenian", "", "hy", "hye", "arm" }, { "Assamese", "", "as", "asm" }, { "Avaric", "", "av", "ava" }, { "Avestan", "", "ae", "ave" }, { "Aymara", "", "ay", "aym" }, { "Azerbaijani", "", "az", "aze" }, { "Bashkir", "", "ba", "bak" }, { "Bambara", "", "bm", "bam" }, { "Basque", "", "eu", "eus", "baq" }, { "Belarusian", "", "be", "bel" }, { "Bengali", "", "bn", "ben" }, { "Bihari", "", "bh", "bih" }, { "Bislama", "", "bi", "bis" }, { "Bosnian", "", "bs", "bos" }, { "Breton", "", "br", "bre" }, { "Bulgarian", "", "bg", "bul" }, { "Burmese", "", "my", "mya", "bur" }, { "Catalan", "", "ca", "cat" }, { "Chamorro", "", "ch", "cha" }, { "Chechen", "", "ce", "che" }, { "Chinese", "", "zh", "zho", "chi" }, { "Church Slavic", "", "cu", "chu" }, { "Chuvash", "", "cv", "chv" }, { "Cornish", "", "kw", "cor" }, { "Corsican", "", "co", "cos" }, { "Cree", "", "cr", "cre" }, { "Czech", "", "cs", "ces", "cze" }, { "Danish", "Dansk", "da", "dan" }, { "Divehi", "", "dv", "div" }, { "Dutch", "Nederlands", "nl", "nld", "dut" }, { "Dzongkha", "", "dz", "dzo" }, { "English", "English", "en", "eng" }, { "Esperanto", "", "eo", "epo" }, { "Estonian", "", "et", "est" }, { "Ewe", "", "ee", "ewe" }, { "Faroese", "", "fo", "fao" }, { "Fijian", "", "fj", "fij" }, { "Finnish", "Suomi", "fi", "fin" }, { "French", "Francais", "fr", "fra", "fre" }, { "Western Frisian", "", "fy", "fry" }, { "Fulah", "", "ff", "ful" }, { "Georgian", "", "ka", "kat", "geo" }, { "German", "Deutsch", "de", "deu", "ger" }, { "Gaelic (Scots)", "", "gd", "gla" }, { "Irish", "", "ga", "gle" }, { "Galician", "", "gl", "glg" }, { "Manx", "", "gv", "glv" }, { "Greek, Modern", "", "el", "ell", "gre" }, { "Guarani", "", "gn", "grn" }, { "Gujarati", "", "gu", "guj" }, { "Haitian", "", "ht", "hat" }, { "Hausa", "", "ha", "hau" }, { "Hebrew", "", "he", "heb" }, { "Herero", "", "hz", "her" }, { "Hindi", "", "hi", "hin" }, { "Hiri Motu", "", "ho", "hmo" }, { "Hungarian", "Magyar", "hu", "hun" }, { "Igbo", "", "ig", "ibo" }, { "Icelandic", "Islenska", "is", "isl", "ice" }, { "Ido", "", "io", "ido" }, { "Sichuan Yi", "", "ii", "iii" }, { "Inuktitut", "", "iu", "iku" }, { "Interlingue", "", "ie", "ile" }, { "Interlingua", "", "ia", "ina" }, { "Indonesian", "", "id", "ind" }, { "Inupiaq", "", "ik", "ipk" }, { "Italian", "Italiano", "it", "ita" }, { "Javanese", "", "jv", "jav" }, { "Japanese", "", "ja", "jpn" }, { "Kalaallisut", "", "kl", "kal" }, { "Kannada", "", "kn", "kan" }, { "Kashmiri", "", "ks", "kas" }, { "Kanuri", "", "kr", "kau" }, { "Kazakh", "", "kk", "kaz" }, { "Central Khmer", "", "km", "khm" }, { "Kikuyu", "", "ki", "kik" }, { "Kinyarwanda", "", "rw", "kin" }, { "Kirghiz", "", "ky", "kir" }, { "Komi", "", "kv", "kom" }, { "Kongo", "", "kg", "kon" }, { "Korean", "", "ko", "kor" }, { "Kuanyama", "", "kj", "kua" }, { "Kurdish", "", "ku", "kur" }, { "Lao", "", "lo", "lao" }, { "Latin", "", "la", "lat" }, { "Latvian", "", "lv", "lav" }, { "Limburgan", "", "li", "lim" }, { "Lingala", "", "ln", "lin" }, { "Lithuanian", "", "lt", "lit" }, { "Luxembourgish", "", "lb", "ltz" }, { "Luba-Katanga", "", "lu", "lub" }, { "Ganda", "", "lg", "lug" }, { "Macedonian", "", "mk", "mkd", "mac" }, { "Marshallese", "", "mh", "mah" }, { "Malayalam", "", "ml", "mal" }, { "Maori", "", "mi", "mri", "mao" }, { "Marathi", "", "mr", "mar" }, { "Malay", "", "ms", "msa", "msa" }, { "Malagasy", "", "mg", "mlg" }, { "Maltese", "", "mt", "mlt" }, { "Moldavian", "", "mo", "mol" }, { "Mongolian", "", "mn", "mon" }, { "Nauru", "", "na", "nau" }, { "Navajo", "", "nv", "nav" }, { "Ndebele, South", "", "nr", "nbl" }, { "Ndebele, North", "", "nd", "nde" }, { "Ndonga", "", "ng", "ndo" }, { "Nepali", "", "ne", "nep" }, { "Norwegian Nynorsk", "", "nn", "nno" }, { "Norwegian Bokmål", "", "nb", "nob" }, { "Norwegian", "Norsk", "no", "nor" }, { "Chichewa; Nyanja", "", "ny", "nya" }, { "Occitan", "", "oc", "oci" }, { "Ojibwa", "", "oj", "oji" }, { "Oriya", "", "or", "ori" }, { "Oromo", "", "om", "orm" }, { "Ossetian", "", "os", "oss" }, { "Panjabi", "", "pa", "pan" }, { "Persian", "", "fa", "fas", "per" }, { "Pali", "", "pi", "pli" }, { "Polish", "", "pl", "pol" }, { "Portuguese", "Portugues", "pt", "por" }, { "Pushto", "", "ps", "pus" }, { "Quechua", "", "qu", "que" }, { "Romansh", "", "rm", "roh" }, { "Romanian", "", "ro", "ron", "rum" }, { "Rundi", "", "rn", "run" }, { "Russian", "", "ru", "rus" }, { "Sango", "", "sg", "sag" }, { "Sanskrit", "", "sa", "san" }, { "Serbian", "", "sr", "srp", "scc" }, { "Croatian", "Hrvatski", "hr", "hrv", "scr" }, { "Sinhala", "", "si", "sin" }, { "Slovak", "", "sk", "slk", "slo" }, { "Slovenian", "", "sl", "slv" }, { "Northern Sami", "", "se", "sme" }, { "Samoan", "", "sm", "smo" }, { "Shona", "", "sn", "sna" }, { "Sindhi", "", "sd", "snd" }, { "Somali", "", "so", "som" }, { "Sotho, Southern", "", "st", "sot" }, { "Spanish", "Espanol", "es", "spa" }, { "Sardinian", "", "sc", "srd" }, { "Swati", "", "ss", "ssw" }, { "Sundanese", "", "su", "sun" }, { "Swahili", "", "sw", "swa" }, { "Swedish", "Svenska", "sv", "swe" }, { "Tahitian", "", "ty", "tah" }, { "Tamil", "", "ta", "tam" }, { "Tatar", "", "tt", "tat" }, { "Telugu", "", "te", "tel" }, { "Tajik", "", "tg", "tgk" }, { "Tagalog", "", "tl", "tgl" }, { "Thai", "", "th", "tha" }, { "Tibetan", "", "bo", "bod", "tib" }, { "Tigrinya", "", "ti", "tir" }, { "Tonga", "", "to", "ton" }, { "Tswana", "", "tn", "tsn" }, { "Tsonga", "", "ts", "tso" }, { "Turkmen", "", "tk", "tuk" }, { "Turkish", "", "tr", "tur" }, { "Twi", "", "tw", "twi" }, { "Uighur", "", "ug", "uig" }, { "Ukrainian", "", "uk", "ukr" }, { "Urdu", "", "ur", "urd" }, { "Uzbek", "", "uz", "uzb" }, { "Venda", "", "ve", "ven" }, { "Vietnamese", "", "vi", "vie" }, { "Volapük", "", "vo", "vol" }, { "Welsh", "", "cy", "cym", "wel" }, { "Walloon", "", "wa", "wln" }, { "Wolof", "", "wo", "wol" }, { "Xhosa", "", "xh", "xho" }, { "Yiddish", "", "yi", "yid" }, { "Yoruba", "", "yo", "yor" }, { "Zhuang", "", "za", "zha" }, { "Zulu", "", "zu", "zul" }, {NULL, NULL, NULL, NULL} }; #define LANG_TABLE_SIZE (sizeof(ghb_language_table)/ sizeof(iso639_lang_t)-1) static void audio_bitrate_opts_set(GtkBuilder *builder, const gchar *name); static void del_tree(const gchar *name, gboolean del_top) { const gchar *file; if (g_file_test(name, G_FILE_TEST_IS_DIR)) { GDir *gdir = g_dir_open(name, 0, NULL); file = g_dir_read_name(gdir); while (file) { gchar *path; path = g_strdup_printf("%s/%s", name, file); del_tree(path, TRUE); g_free(path); file = g_dir_read_name(gdir); } if (del_top) g_rmdir(name); g_dir_close(gdir); } else { g_unlink(name); } } const gchar* ghb_version() { return hb_get_version(NULL); } void ghb_vquality_range( signal_user_data_t *ud, gdouble *min, gdouble *max, gdouble *step, gdouble *page, gint *digits, gboolean *inverted) { gint vcodec = ghb_settings_combo_int(ud->settings, "VideoEncoder"); *page = 10; *digits = 0; switch (vcodec) { case HB_VCODEC_X264: { *min = 0; *max = 51; *step = ghb_settings_combo_double(ud->settings, "VideoQualityGranularity"); if (*step == 0.2 || *step == 0.5) *digits = 1; else if (*step == 0.25) *digits = 2; *inverted = TRUE; } break; case HB_VCODEC_XVID: case HB_VCODEC_FFMPEG: { *min = 1; *max = 31; *step = 1; *inverted = TRUE; } break; case HB_VCODEC_THEORA: { *min = 0; *max = 63; *step = 1; *inverted = FALSE; } break; default: { *min = 0; *max = 100; *step = 1; *inverted = FALSE; } break; } } static gint lookup_generic_int(combo_opts_t *opts, const GValue *gval) { gint ii; gchar *str; gint result = -1; str = ghb_value_string(gval); for (ii = 0; ii < opts->count; ii++) { if (strcmp(opts->map[ii].shortOpt, str) == 0) { result = opts->map[ii].ivalue; break; } } g_free(str); return result; } static gdouble lookup_generic_double(combo_opts_t *opts, const GValue *gval) { gint ii; gchar *str; gdouble result = -1; str = ghb_value_string(gval); for (ii = 0; ii < opts->count; ii++) { if (strcmp(opts->map[ii].shortOpt, str) == 0) { result = opts->map[ii].ivalue; break; } } g_free(str); return result; } static const gchar* lookup_generic_option(combo_opts_t *opts, const GValue *gval) { gint ii; gchar *str; const gchar *result = ""; str = ghb_value_string(gval); for (ii = 0; ii < opts->count; ii++) { if (strcmp(opts->map[ii].shortOpt, str) == 0) { result = opts->map[ii].option; break; } } g_free(str); return result; } static gint lookup_mix_int(const GValue *mix) { gint ii; gchar *str; gint result = 0; str = ghb_value_string(mix); for (ii = 0; ii < hb_audio_mixdowns_count; ii++) { if (strcmp(hb_audio_mixdowns[ii].short_name, str) == 0) { result = hb_audio_mixdowns[ii].amixdown; break; } } g_free(str); return result; } static const gchar* lookup_mix_option(const GValue *mix) { gint ii; gchar *str; gchar *result = "None"; str = ghb_value_string(mix); for (ii = 0; ii < hb_audio_mixdowns_count; ii++) { if (strcmp(hb_audio_mixdowns[ii].short_name, str) == 0) { result = hb_audio_mixdowns[ii].human_readable_name; break; } } g_free(str); return result; } static gint lookup_video_rate_int(const GValue *vrate) { gint ii; gchar *str; gint result = 0; str = ghb_value_string(vrate); for (ii = 0; ii < hb_video_rates_count; ii++) { if (strcmp(hb_video_rates[ii].string, str) == 0) { result = hb_video_rates[ii].rate; break; } } g_free(str); // Default to "same as source" return result; } static const gchar* lookup_video_rate_option(const GValue *vrate) { gint ii; gchar *str; const gchar *result = "Same as source"; str = ghb_value_string(vrate); for (ii = 0; ii < hb_video_rates_count; ii++) { if (strcmp(hb_video_rates[ii].string, str) == 0) { result = hb_video_rates[ii].string; break; } } g_free(str); // Default to "same as source" return result; } static gint lookup_audio_rate_int(const GValue *rate) { gint ii; gchar *str; gint result = 0; // Coincidentally, the string "source" will return 0 // which is our flag to use "same as source" str = ghb_value_string(rate); for (ii = 0; ii < hb_audio_rates_count; ii++) { if (strcmp(hb_audio_rates[ii].string, str) == 0) { result = hb_audio_rates[ii].rate; break; } } g_free(str); return result; } static const gchar* lookup_audio_rate_option(const GValue *rate) { gint ii; gchar *str; const gchar *result = "Same as source"; // Coincidentally, the string "source" will return 0 // which is our flag to use "same as source" str = ghb_value_string(rate); for (ii = 0; ii < hb_audio_rates_count; ii++) { if (strcmp(hb_audio_rates[ii].string, str) == 0) { result = hb_audio_rates[ii].string; break; } } g_free(str); return result; } static gint lookup_audio_bitrate_int(const GValue *rate) { gint ii; gchar *str; gint result = 0; // Coincidentally, the string "source" will return 0 // which is our flag to use "same as source" str = ghb_value_string(rate); for (ii = 0; ii < hb_audio_bitrates_count; ii++) { if (strcmp(hb_audio_bitrates[ii].string, str) == 0) { result = hb_audio_bitrates[ii].rate; break; } } g_free(str); return result; } static const gchar* lookup_audio_bitrate_option(const GValue *rate) { gint ii; gchar *str; const gchar *result = "Same as source"; // Coincidentally, the string "source" will return 0 // which is our flag to use "same as source" str = ghb_value_string(rate); for (ii = 0; ii < hb_audio_bitrates_count; ii++) { if (strcmp(hb_audio_bitrates[ii].string, str) == 0) { result = hb_audio_bitrates[ii].string; break; } } g_free(str); return result; } static gint lookup_audio_lang_int(const GValue *rate) { gint ii; gchar *str; gint result = 0; // Coincidentally, the string "source" will return 0 // which is our flag to use "same as source" str = ghb_value_string(rate); for (ii = 0; ii < LANG_TABLE_SIZE; ii++) { if (strcmp(ghb_language_table[ii].iso639_2, str) == 0) { result = ii; break; } } g_free(str); return result; } static const gchar* lookup_audio_lang_option(const GValue *rate) { gint ii; gchar *str; const gchar *result = "Same as source"; // Coincidentally, the string "source" will return 0 // which is our flag to use "same as source" str = ghb_value_string(rate); for (ii = 0; ii < LANG_TABLE_SIZE; ii++) { if (strcmp(ghb_language_table[ii].iso639_2, str) == 0) { result = ghb_language_table[ii].eng_name; break; } } g_free(str); return result; } static GValue* get_acodec_value(gint val) { GValue *value = NULL; gint ii; for (ii = 0; ii < acodec_opts.count; ii++) { if ((int)acodec_opts.map[ii].ivalue == val) { value = ghb_string_value_new(acodec_opts.map[ii].shortOpt); break; } } return value; } static GValue* get_amix_value(gint val) { GValue *value = NULL; gint ii; for (ii = 0; ii < hb_audio_mixdowns_count; ii++) { if (hb_audio_mixdowns[ii].amixdown == val) { value = ghb_string_value_new(hb_audio_mixdowns[ii].short_name); break; } } return value; } // Handle for libhb. Gets set by ghb_backend_init() static hb_handle_t * h_scan = NULL; static hb_handle_t * h_queue = NULL; extern void hb_get_tempory_directory(hb_handle_t *h, char path[512]); gchar* ghb_get_tmp_dir() { char dir[512]; hb_get_tempory_directory(h_scan, dir); return g_strdup(dir); } void ghb_hb_cleanup(gboolean partial) { char dir[512]; hb_get_tempory_directory(h_scan, dir); del_tree(dir, !partial); } gint ghb_get_title_number(gint titleindex) { hb_list_t * list; hb_title_t * title; if (h_scan == NULL) return 1; list = hb_get_titles( h_scan ); if( !hb_list_count( list ) ) { /* No valid title, stop right there */ return 1; } title = hb_list_item( list, titleindex ); if (title == NULL) return 1; // Bad titleindex return title->index; } static hb_audio_config_t* get_hb_audio(gint titleindex, gint track) { hb_list_t * list; hb_title_t * title; hb_audio_config_t *audio = NULL; if (h_scan == NULL) return NULL; list = hb_get_titles( h_scan ); if( !hb_list_count( list ) ) { /* No valid title, stop right there */ return NULL; } title = hb_list_item( list, titleindex ); if (title == NULL) return NULL; // Bad titleindex if (!hb_list_count(title->list_audio)) { return NULL; } audio = (hb_audio_config_t *)hb_list_audio_config_item(title->list_audio, track); return audio; } static gint search_rates(hb_rate_t *rates, gint rate, gint count) { gint ii; for (ii = 0; ii < count; ii++) { if (rates[ii].rate == rate) return ii; } return -1; } static gboolean find_combo_item_by_int(GtkTreeModel *store, gint value, GtkTreeIter *iter); static GtkListStore* get_combo_box_store(GtkBuilder *builder, const gchar *name) { GtkComboBox *combo; GtkListStore *store; g_debug("get_combo_box_store() %s\n", name); // First modify the combobox model to allow greying out of options combo = GTK_COMBO_BOX(GHB_WIDGET(builder, name)); store = GTK_LIST_STORE(gtk_combo_box_get_model (combo)); return store; } static void grey_combo_box_item(GtkBuilder *builder, const gchar *name, gint value, gboolean grey) { GtkListStore *store; GtkTreeIter iter; store = get_combo_box_store(builder, name); if (find_combo_item_by_int(GTK_TREE_MODEL(store), value, &iter)) { gtk_list_store_set(store, &iter, 1, !grey, -1); } } void ghb_grey_combo_options(GtkBuilder *builder) { GtkWidget *widget; gint container, track, titleindex, acodec; hb_audio_config_t *audio = NULL; GValue *gval; widget = GHB_WIDGET (builder, "title"); gval = ghb_widget_value(widget); titleindex = ghb_lookup_combo_int("title", gval); ghb_value_free(gval); widget = GHB_WIDGET (builder, "AudioTrack"); gval = ghb_widget_value(widget); track = ghb_lookup_combo_int("AudioTrack", gval); ghb_value_free(gval); audio = get_hb_audio(titleindex, track); widget = GHB_WIDGET (builder, "FileFormat"); gval = ghb_widget_value(widget); container = ghb_lookup_combo_int("FileFormat", gval); ghb_value_free(gval); grey_combo_box_item(builder, "x264_analyse", 3, TRUE); grey_combo_box_item(builder, "AudioEncoder", HB_ACODEC_FAAC, FALSE); grey_combo_box_item(builder, "AudioEncoder", HB_ACODEC_LAME, FALSE); grey_combo_box_item(builder, "AudioEncoder", HB_ACODEC_VORBIS, FALSE); gboolean allow_dca = TRUE; allow_dca = (container != HB_MUX_MP4); grey_combo_box_item(builder, "AudioEncoder", HB_ACODEC_AC3, FALSE); if (allow_dca) grey_combo_box_item(builder, "AudioEncoder", HB_ACODEC_DCA, FALSE); else grey_combo_box_item(builder, "AudioEncoder", HB_ACODEC_DCA, TRUE); if (audio && audio->in.codec != HB_ACODEC_AC3) { grey_combo_box_item(builder, "AudioEncoder", HB_ACODEC_AC3, TRUE); } if (audio && audio->in.codec != HB_ACODEC_DCA) { grey_combo_box_item(builder, "AudioEncoder", HB_ACODEC_DCA, TRUE); } grey_combo_box_item(builder, "VideoEncoder", HB_VCODEC_THEORA, FALSE); widget = GHB_WIDGET (builder, "AudioEncoder"); gval = ghb_widget_value(widget); acodec = ghb_lookup_combo_int("AudioEncoder", gval); ghb_value_free(gval); if (acodec != HB_ACODEC_AC3) { grey_combo_box_item(builder, "AudioMixdown", 0, TRUE); } if (container == HB_MUX_MP4) { grey_combo_box_item(builder, "AudioEncoder", HB_ACODEC_LAME, TRUE); grey_combo_box_item(builder, "AudioEncoder", HB_ACODEC_VORBIS, TRUE); grey_combo_box_item(builder, "VideoEncoder", HB_VCODEC_THEORA, TRUE); } else if (container == HB_MUX_AVI) { grey_combo_box_item(builder, "AudioEncoder", HB_ACODEC_FAAC, TRUE); grey_combo_box_item(builder, "AudioEncoder", HB_ACODEC_VORBIS, TRUE); grey_combo_box_item(builder, "VideoEncoder", HB_VCODEC_THEORA, TRUE); } else if (container == HB_MUX_OGM) { grey_combo_box_item(builder, "AudioEncoder", HB_ACODEC_FAAC, TRUE); } gboolean allow_mono = TRUE; gboolean allow_stereo = TRUE; gboolean allow_dolby = TRUE; gboolean allow_dpl2 = TRUE; gboolean allow_6ch = TRUE; if (audio) { allow_mono = (audio->in.codec & (HB_ACODEC_AC3|HB_ACODEC_DCA)) && (acodec != HB_ACODEC_LAME); gint layout = audio->in.channel_layout & HB_INPUT_CH_LAYOUT_DISCRETE_NO_LFE_MASK; allow_stereo = ((layout == HB_INPUT_CH_LAYOUT_MONO && !allow_mono) || layout >= HB_INPUT_CH_LAYOUT_STEREO); allow_dolby = (layout == HB_INPUT_CH_LAYOUT_3F1R) || (layout == HB_INPUT_CH_LAYOUT_3F2R) || (layout == HB_INPUT_CH_LAYOUT_DOLBY); allow_dpl2 = (layout == HB_INPUT_CH_LAYOUT_3F2R); allow_6ch = (audio->in.codec & (HB_ACODEC_AC3|HB_ACODEC_DCA)) && (acodec != HB_ACODEC_LAME) && (layout == HB_INPUT_CH_LAYOUT_3F2R) && (audio->in.channel_layout & HB_INPUT_CH_LAYOUT_HAS_LFE); } grey_combo_box_item(builder, "AudioMixdown", HB_AMIXDOWN_MONO, !allow_mono); grey_combo_box_item(builder, "AudioMixdown", HB_AMIXDOWN_STEREO, !allow_stereo); grey_combo_box_item(builder, "AudioMixdown", HB_AMIXDOWN_DOLBY, !allow_dolby); grey_combo_box_item(builder, "AudioMixdown", HB_AMIXDOWN_DOLBYPLII, !allow_dpl2); grey_combo_box_item(builder, "AudioMixdown", HB_AMIXDOWN_6CH, !allow_6ch); } gint ghb_get_best_mix(gint titleindex, gint track, gint acodec, gint mix) { hb_audio_config_t *audio = NULL; gboolean allow_mono = TRUE; gboolean allow_stereo = TRUE; gboolean allow_dolby = TRUE; gboolean allow_dpl2 = TRUE; gboolean allow_6ch = TRUE; if (acodec & (HB_ACODEC_AC3 | HB_ACODEC_DCA)) { // Audio codec pass-thru. No mixdown return 0; } audio = get_hb_audio(titleindex, track); if (audio) { allow_mono = (audio->in.codec & (HB_ACODEC_AC3|HB_ACODEC_DCA)) && (acodec != HB_ACODEC_LAME); gint layout = audio->in.channel_layout & HB_INPUT_CH_LAYOUT_DISCRETE_NO_LFE_MASK; allow_stereo = ((layout == HB_INPUT_CH_LAYOUT_MONO && !allow_mono) || layout >= HB_INPUT_CH_LAYOUT_STEREO); allow_dolby = (layout == HB_INPUT_CH_LAYOUT_3F1R) || (layout == HB_INPUT_CH_LAYOUT_3F2R) || (layout == HB_INPUT_CH_LAYOUT_DOLBY); allow_dpl2 = (layout == HB_INPUT_CH_LAYOUT_3F2R); allow_6ch = (audio->in.codec & (HB_ACODEC_AC3|HB_ACODEC_DCA)) && (acodec != HB_ACODEC_LAME) && (layout == HB_INPUT_CH_LAYOUT_3F2R) && (audio->in.channel_layout & HB_INPUT_CH_LAYOUT_HAS_LFE); } gboolean greater = FALSE; if (mix == 0) { // If no mix is specified, select the best available. mix = HB_AMIXDOWN_6CH; } if (mix == HB_AMIXDOWN_6CH) { greater = TRUE; if (allow_6ch) return HB_AMIXDOWN_6CH; } if (mix == HB_AMIXDOWN_DOLBYPLII || greater) { greater = TRUE; if (allow_dpl2) return HB_AMIXDOWN_DOLBYPLII; } if (mix == HB_AMIXDOWN_DOLBY || greater) { greater = TRUE; if (allow_dolby) return HB_AMIXDOWN_DOLBY; } if (mix == HB_AMIXDOWN_STEREO || greater) { greater = TRUE; if (allow_stereo) return HB_AMIXDOWN_STEREO; } if (mix == HB_AMIXDOWN_MONO || greater) { greater = TRUE; if (allow_mono) return HB_AMIXDOWN_MONO; } if (allow_stereo) return HB_AMIXDOWN_STEREO; if (allow_dolby) return HB_AMIXDOWN_DOLBY; if (allow_dpl2) return HB_AMIXDOWN_DOLBYPLII; if (allow_6ch) return HB_AMIXDOWN_6CH; return 0; } // Set up the model for the combo box static void init_combo_box(GtkBuilder *builder, const gchar *name) { GtkComboBox *combo; GtkListStore *store; GtkCellRenderer *cell; g_debug("init_combo_box() %s\n", name); // First modify the combobox model to allow greying out of options combo = GTK_COMBO_BOX(GHB_WIDGET(builder, name)); // Store contains: // 1 - String to display // 2 - bool indicating whether the entry is selectable (grey or not) // 3 - String that is used for presets // 4 - Int value determined by backend // 5 - String value determined by backend store = gtk_list_store_new(5, G_TYPE_STRING, G_TYPE_BOOLEAN, G_TYPE_STRING, G_TYPE_DOUBLE, G_TYPE_STRING); gtk_combo_box_set_model(combo, GTK_TREE_MODEL(store)); if (GTK_WIDGET_TYPE(combo) == GTK_TYPE_COMBO_BOX) { gtk_cell_layout_clear(GTK_CELL_LAYOUT(combo)); cell = GTK_CELL_RENDERER(gtk_cell_renderer_text_new()); gtk_cell_layout_pack_start(GTK_CELL_LAYOUT(combo), cell, TRUE); gtk_cell_layout_set_attributes(GTK_CELL_LAYOUT(combo), cell, "text", 0, "sensitive", 1, NULL); } else { // Combo box entry gtk_combo_box_entry_set_text_column(GTK_COMBO_BOX_ENTRY(combo), 0); } } static void audio_samplerate_opts_set(GtkBuilder *builder, const gchar *name, hb_rate_t *rates, gint count) { GtkTreeIter iter; GtkListStore *store; gint ii; g_debug("audio_samplerate_opts_set ()\n"); store = get_combo_box_store(builder, name); gtk_list_store_clear(store); // Add an item for "Same As Source" gtk_list_store_append(store, &iter); gtk_list_store_set(store, &iter, 0, "Same as source", 1, TRUE, 2, "source", 3, 0.0, 4, "source", -1); for (ii = 0; ii < count; ii++) { gtk_list_store_append(store, &iter); gtk_list_store_set(store, &iter, 0, rates[ii].string, 1, TRUE, 2, rates[ii].string, 3, (gdouble)rates[ii].rate, 4, rates[ii].string, -1); } } static void video_rate_opts_set(GtkBuilder *builder, const gchar *name, hb_rate_t *rates, gint count) { GtkTreeIter iter; GtkListStore *store; gint ii; g_debug("video_rate_opts_set ()\n"); store = get_combo_box_store(builder, name); gtk_list_store_clear(store); // Add an item for "Same As Source" gtk_list_store_append(store, &iter); gtk_list_store_set(store, &iter, 0, "Same as source", 1, TRUE, 2, "source", 3, 0.0, 4, "source", -1); for (ii = 0; ii < count; ii++) { gchar *desc = ""; gchar *option; if (strcmp(rates[ii].string, "23.976") == 0) { desc = "(NTSC Film)"; } else if (strcmp(rates[ii].string, "25") == 0) { desc = "(PAL Film/Video)"; } else if (strcmp(rates[ii].string, "29.97") == 0) { desc = "(NTSC Video)"; } option = g_strdup_printf ("%s %s", rates[ii].string, desc); gtk_list_store_append(store, &iter); gtk_list_store_set(store, &iter, 0, option, 1, TRUE, 2, rates[ii].string, 3, (gdouble)rates[ii].rate, 4, rates[ii].string, -1); g_free(option); } } static void mix_opts_set(GtkBuilder *builder, const gchar *name) { GtkTreeIter iter; GtkListStore *store; gint ii; g_debug("mix_opts_set ()\n"); store = get_combo_box_store(builder, name); gtk_list_store_clear(store); gtk_list_store_append(store, &iter); gtk_list_store_set(store, &iter, 0, "None", 1, TRUE, 2, "none", 3, 0.0, 4, "none", -1); for (ii = 0; ii < hb_audio_mixdowns_count; ii++) { gtk_list_store_append(store, &iter); gtk_list_store_set(store, &iter, 0, hb_audio_mixdowns[ii].human_readable_name, 1, TRUE, 2, hb_audio_mixdowns[ii].short_name, 3, (gdouble)hb_audio_mixdowns[ii].amixdown, 4, hb_audio_mixdowns[ii].internal_name, -1); } } static void language_opts_set(GtkBuilder *builder, const gchar *name) { GtkTreeIter iter; GtkListStore *store; gint ii; g_debug("language_opts_set ()\n"); store = get_combo_box_store(builder, name); gtk_list_store_clear(store); for (ii = 0; ii < LANG_TABLE_SIZE; ii++) { gtk_list_store_append(store, &iter); gtk_list_store_set(store, &iter, 0, ghb_language_table[ii].eng_name, 1, TRUE, 2, ghb_language_table[ii].iso639_2, 3, (gdouble)ii, 4, ghb_language_table[ii].iso639_1, -1); } } static gchar **titles = NULL; void title_opts_set(GtkBuilder *builder, const gchar *name) { GtkTreeIter iter; GtkListStore *store; hb_list_t * list = NULL; hb_title_t * title = NULL; gint ii; gint count = 0; g_debug("title_opts_set ()\n"); store = get_combo_box_store(builder, name); gtk_list_store_clear(store); if (h_scan != NULL) { list = hb_get_titles( h_scan ); count = hb_list_count( list ); if (count > 100) count = 100; } if (titles) g_strfreev(titles); if (title_opts.map) g_free(title_opts.map); if (count > 0) { title_opts.count = count; title_opts.map = g_malloc(count*sizeof(options_map_t)); titles = g_malloc((count+1) * sizeof(gchar*)); } else { title_opts.count = 1; title_opts.map = g_malloc(sizeof(options_map_t)); titles = NULL; } if( count <= 0 ) { // No titles. Fill in a default. gtk_list_store_append(store, &iter); gtk_list_store_set(store, &iter, 0, "No Titles", 1, TRUE, 2, "none", 3, -1.0, 4, "none", -1); title_opts.map[0].option = "No Titles"; title_opts.map[0].shortOpt = "none"; title_opts.map[0].ivalue = -1; title_opts.map[0].svalue = "none"; return; } for (ii = 0; ii < count; ii++) { title = (hb_title_t*)hb_list_item(list, ii); if (title->duration != 0) { titles[ii] = g_strdup_printf ("%d - %02dh%02dm%02ds", title->index, title->hours, title->minutes, title->seconds); } else { titles[ii] = g_strdup_printf ("%d - Unknown Length", title->index); } gtk_list_store_append(store, &iter); gtk_list_store_set(store, &iter, 0, titles[ii], 1, TRUE, 2, titles[ii], 3, (gdouble)ii, 4, titles[ii], -1); title_opts.map[ii].option = titles[ii]; title_opts.map[ii].shortOpt = titles[ii]; title_opts.map[ii].ivalue = ii; title_opts.map[ii].svalue = titles[ii]; } titles[ii] = NULL; } static gboolean find_combo_item_by_int(GtkTreeModel *store, gint value, GtkTreeIter *iter) { gdouble ivalue; gboolean foundit = FALSE; if (gtk_tree_model_get_iter_first (store, iter)) { do { gtk_tree_model_get(store, iter, 3, &ivalue, -1); if (value == (int)ivalue) { foundit = TRUE; break; } } while (gtk_tree_model_iter_next (store, iter)); } return foundit; } void audio_track_opts_set(GtkBuilder *builder, const gchar *name, gint titleindex) { GtkTreeIter iter; GtkListStore *store; hb_list_t * list = NULL; hb_title_t * title = NULL; hb_audio_config_t * audio; gint ii; gint count = 0; g_debug("audio_track_opts_set ()\n"); store = get_combo_box_store(builder, name); gtk_list_store_clear(store); if (h_scan != NULL) { list = hb_get_titles( h_scan ); title = (hb_title_t*)hb_list_item( list, titleindex ); if (title != NULL) { count = hb_list_count( title->list_audio ); } } if (count > 100) count = 100; if (audio_track_opts.map) g_free(audio_track_opts.map); if (count > 0) { audio_track_opts.count = count; audio_track_opts.map = g_malloc(count*sizeof(options_map_t)); } else { audio_track_opts.count = 1; audio_track_opts.map = g_malloc(sizeof(options_map_t)); } if( count <= 0 ) { // No audio. set some default gtk_list_store_append(store, &iter); gtk_list_store_set(store, &iter, 0, "No Audio", 1, TRUE, 2, "none", 3, -1.0, 4, "none", -1); audio_track_opts.map[0].option = "No Audio"; audio_track_opts.map[0].shortOpt = "none"; audio_track_opts.map[0].ivalue = -1; audio_track_opts.map[0].svalue = "none"; return; } for (ii = 0; ii < count; ii++) { audio = (hb_audio_config_t *) hb_list_audio_config_item( title->list_audio, ii ); gtk_list_store_append(store, &iter); gtk_list_store_set(store, &iter, 0, audio->lang.description, 1, TRUE, 2, index_str[ii], 3, (gdouble)ii, 4, index_str[ii], -1); audio_track_opts.map[ii].option = audio->lang.description, audio_track_opts.map[ii].shortOpt = index_str[ii]; audio_track_opts.map[ii].ivalue = ii; audio_track_opts.map[ii].svalue = index_str[ii]; } } void subtitle_opts_set(GtkBuilder *builder, const gchar *name, gint titleindex) { GtkTreeIter iter; GtkListStore *store; hb_list_t * list = NULL; hb_title_t * title = NULL; hb_subtitle_t * subtitle; gint ii; gint count = 0; g_debug("subtitle_opts_set () %s\n", name); store = get_combo_box_store(builder, name); gtk_list_store_clear(store); if (h_scan != NULL) { list = hb_get_titles( h_scan ); title = (hb_title_t*)hb_list_item( list, titleindex ); if (title != NULL) { count = hb_list_count( title->list_subtitle ); } } if (count > 100) count = 100; if (subtitle_opts.map) g_free(subtitle_opts.map); if (count > 0) { subtitle_opts.count = count+2; subtitle_opts.map = g_malloc((count+2)*sizeof(options_map_t)); } else { subtitle_opts.count = LANG_TABLE_SIZE+2; subtitle_opts.map = g_malloc((LANG_TABLE_SIZE+2)*sizeof(options_map_t)); } // Add options for "none" and "autoselect" gtk_list_store_append(store, &iter); gtk_list_store_set(store, &iter, 0, "None", 1, TRUE, 2, "none", 3, -2.0, 4, "none", -1); subtitle_opts.map[0].option = "None"; subtitle_opts.map[0].shortOpt = "none"; subtitle_opts.map[0].ivalue = -2; subtitle_opts.map[0].svalue = "none"; gtk_list_store_append(store, &iter); gtk_list_store_set(store, &iter, 0, "Autoselect", 1, TRUE, 2, "auto", 3, -1.0, 4, "auto", -1); subtitle_opts.map[1].option = "Same as audio"; subtitle_opts.map[1].shortOpt = "auto"; subtitle_opts.map[1].ivalue = -1; subtitle_opts.map[1].svalue = "auto"; if (count > 0) { for (ii = 0; ii < count; ii++) { subtitle = (hb_subtitle_t *)hb_list_item(title->list_subtitle, ii); gtk_list_store_append(store, &iter); gtk_list_store_set(store, &iter, 0, subtitle->lang, 1, TRUE, 2, subtitle->iso639_2, 3, (gdouble)ii, 4, subtitle->iso639_2, -1); subtitle_opts.map[ii+2].option = subtitle->lang; subtitle_opts.map[ii+2].shortOpt = subtitle->iso639_2; subtitle_opts.map[ii+2].ivalue = ii; subtitle_opts.map[ii+2].svalue = subtitle->iso639_2; } } else { for (ii = 0; ii < LANG_TABLE_SIZE; ii++) { gtk_list_store_append(store, &iter); gtk_list_store_set(store, &iter, 0, ghb_language_table[ii].eng_name, 1, TRUE, 2, ghb_language_table[ii].iso639_2, 3, (gdouble)ii, 4, ghb_language_table[ii].iso639_2, -1); subtitle_opts.map[ii+2].option = ghb_language_table[ii].eng_name; subtitle_opts.map[ii+2].shortOpt = ghb_language_table[ii].iso639_2; subtitle_opts.map[ii+2].ivalue = ii; subtitle_opts.map[ii+2].svalue = ghb_language_table[ii].iso639_2; } } } gint ghb_longest_title() { hb_list_t * list; hb_title_t * title; gint ii; gint count = 0; guint64 longest = 0; gint titleindex = 0; g_debug("ghb_longest_title ()\n"); if (h_scan == NULL) return 0; list = hb_get_titles( h_scan ); count = hb_list_count( list ); if (count > 100) count = 100; for (ii = 0; ii < count; ii++) { title = (hb_title_t*)hb_list_item(list, ii); if (title->duration > longest) { titleindex = ii; longest = title->duration; } } return titleindex; } gint ghb_find_audio_track( gint titleindex, const gchar *lang, gint acodec, GHashTable *track_indices) { hb_list_t * list; hb_title_t * title; hb_audio_config_t * audio; gint ii; gint count = 0; gint track = -1; gint max_chan = 0; gboolean *used; g_debug("find_audio_track ()\n"); if (h_scan == NULL) return -1; list = hb_get_titles( h_scan ); title = (hb_title_t*)hb_list_item( list, titleindex ); if (title != NULL) { count = hb_list_count( title->list_audio ); } if (count > 10) count = 10; used = g_hash_table_lookup(track_indices, &acodec); if (used == NULL) { used = g_malloc0(count * sizeof(gboolean)); g_hash_table_insert(track_indices, &acodec, used); } // Try to find an item that matches the preferred language and // the passthru codec type if (acodec & (HB_ACODEC_AC3 | HB_ACODEC_DCA)) { for (ii = 0; ii < count; ii++) { gint channels; if (used[ii]) continue; audio = (hb_audio_config_t*)hb_list_audio_config_item( title->list_audio, ii ); channels = HB_INPUT_CH_LAYOUT_GET_DISCRETE_COUNT( audio->in.channel_layout); // Find a track that is not visually impaired or dirctor's // commentary, and has the highest channel count. if ((audio->in.codec & acodec) && (audio->lang.type < 2) && ((strcmp(lang, audio->lang.iso639_2) == 0) || (strcmp(lang, "und") == 0))) { if (channels > max_chan) { track = ii; max_chan = channels; } } } } if (track > -1) { used[track] = TRUE; return track; } // Try to find an item that matches the preferred language for (ii = 0; ii < count; ii++) { if (used[ii]) continue; audio = (hb_audio_config_t*)hb_list_audio_config_item( title->list_audio, ii ); // Find a track that is not visually impaired or dirctor's commentary if ((audio->lang.type < 2) && ((strcmp(lang, audio->lang.iso639_2) == 0) || (strcmp(lang, "und") == 0))) { track = ii; break; } } if (track > -1) { used[track] = TRUE; return track; } // Try to fine an item that does not match the preferred language and // matches the passthru codec type if (acodec & (HB_ACODEC_AC3 | HB_ACODEC_DCA)) { for (ii = 0; ii < count; ii++) { gint channels; if (used[ii]) continue; audio = (hb_audio_config_t*)hb_list_audio_config_item( title->list_audio, ii ); channels = HB_INPUT_CH_LAYOUT_GET_DISCRETE_COUNT( audio->in.channel_layout); // Find a track that is not visually impaired or dirctor's // commentary, and has the highest channel count. if ((audio->in.codec & acodec) && (audio->lang.type < 2)) { if (channels > max_chan) { track = ii; max_chan = channels; } } } } if (track > -1) { used[track] = TRUE; return track; } // Try to fine an item that does not match the preferred language for (ii = 0; ii < count; ii++) { if (used[ii]) continue; audio = (hb_audio_config_t*)hb_list_audio_config_item( title->list_audio, ii ); // Find a track that is not visually impaired or dirctor's commentary if (audio->lang.type < 2) { track = ii; break; } } if (track > -1) { used[track] = TRUE; return track; } // Last ditch, anything goes for (ii = 0; ii < count; ii++) { audio = (hb_audio_config_t*)hb_list_audio_config_item( title->list_audio, ii ); if (!used[ii]) { track = ii; break; } } if (track > -1) { used[track] = TRUE; } return track; } static void generic_opts_set(GtkBuilder *builder, const gchar *name, combo_opts_t *opts) { GtkTreeIter iter; GtkListStore *store; gint ii; g_debug("generic_opts_set ()\n"); if (name == NULL || opts == NULL) return; store = get_combo_box_store(builder, name); gtk_list_store_clear(store); for (ii = 0; ii < opts->count; ii++) { gtk_list_store_append(store, &iter); gtk_list_store_set(store, &iter, 0, opts->map[ii].option, 1, TRUE, 2, opts->map[ii].shortOpt, 3, opts->map[ii].ivalue, 4, opts->map[ii].svalue, -1); } } combo_opts_t* find_combo_table(const gchar *name) { gint ii; for (ii = 0; combo_name_map[ii].name != NULL; ii++) { if (strcmp(name, combo_name_map[ii].name) == 0) { return combo_name_map[ii].opts; } } return NULL; } gint ghb_lookup_combo_int(const gchar *name, const GValue *gval) { if (strcmp(name, "AudioBitrate") == 0) return lookup_audio_bitrate_int(gval); else if (strcmp(name, "AudioSamplerate") == 0) return lookup_audio_rate_int(gval); else if (strcmp(name, "VideoFramerate") == 0) return lookup_video_rate_int(gval); else if (strcmp(name, "AudioMixdown") == 0) return lookup_mix_int(gval); else if (strcmp(name, "SourceAudioLang") == 0) return lookup_audio_lang_int(gval); else { return lookup_generic_int(find_combo_table(name), gval); } g_warning("ghb_lookup_combo_int() couldn't find %s", name); return 0; } gdouble ghb_lookup_combo_double(const gchar *name, const GValue *gval) { if (strcmp(name, "AudioBitrate") == 0) return lookup_audio_bitrate_int(gval); else if (strcmp(name, "AudioSamplerate") == 0) return lookup_audio_rate_int(gval); else if (strcmp(name, "VideoFramerate") == 0) return lookup_video_rate_int(gval); else if (strcmp(name, "AudioMixdown") == 0) return lookup_mix_int(gval); else if (strcmp(name, "SourceAudioLang") == 0) return lookup_audio_lang_int(gval); else { return lookup_generic_double(find_combo_table(name), gval); } g_warning("ghb_lookup_combo_double() couldn't find %s", name); return 0; } const gchar* ghb_lookup_combo_option(const gchar *name, const GValue *gval) { if (strcmp(name, "AudioBitrate") == 0) return lookup_audio_bitrate_option(gval); else if (strcmp(name, "AudioSamplerate") == 0) return lookup_audio_rate_option(gval); else if (strcmp(name, "VideoFramerate") == 0) return lookup_video_rate_option(gval); else if (strcmp(name, "AudioMixdown") == 0) return lookup_mix_option(gval); else if (strcmp(name, "SourceAudioLang") == 0) return lookup_audio_lang_option(gval); else { return lookup_generic_option(find_combo_table(name), gval); } g_warning("ghb_lookup_combo_int() couldn't find %s", name); return 0; } void ghb_update_ui_combo_box(GtkBuilder *builder, const gchar *name, gint user_data, gboolean all) { GtkComboBox *combo = NULL; gint signal_id; gint handler_id = 0; if (name != NULL) { g_debug("ghb_update_ui_combo_box() %s\n", name); // Clearing a combo box causes a rash of "changed" events, even when // the active item is -1 (inactive). To control things, I'm disabling // the event till things are settled down. combo = GTK_COMBO_BOX(GHB_WIDGET(builder, name)); signal_id = g_signal_lookup("changed", GTK_TYPE_COMBO_BOX); if (signal_id > 0) { // Valid signal id found. This should always succeed. handler_id = g_signal_handler_find ((gpointer)combo, G_SIGNAL_MATCH_ID, signal_id, 0, 0, 0, 0); if (handler_id > 0) { // This should also always succeed g_signal_handler_block ((gpointer)combo, handler_id); } } } if (all) { audio_bitrate_opts_set(builder, "AudioBitrate"); audio_samplerate_opts_set(builder, "AudioSamplerate", hb_audio_rates, hb_audio_rates_count); video_rate_opts_set(builder, "VideoFramerate", hb_video_rates, hb_video_rates_count); mix_opts_set(builder, "AudioMixdown"); language_opts_set(builder, "SourceAudioLang"); subtitle_opts_set(builder, "Subtitles", user_data); title_opts_set(builder, "title"); audio_track_opts_set(builder, "AudioTrack", user_data); generic_opts_set(builder, "VideoQualityGranularity", &vqual_granularity_opts); generic_opts_set(builder, "PicturePAR", &par_opts); generic_opts_set(builder, "PictureModulus", &alignment_opts); generic_opts_set(builder, "LoggingLevel", &logging_opts); generic_opts_set(builder, "FileFormat", &container_opts); generic_opts_set(builder, "PictureDeinterlace", &deint_opts); generic_opts_set(builder, "PictureDetelecine", &detel_opts); generic_opts_set(builder, "PictureDecomb", &decomb_opts); generic_opts_set(builder, "PictureDenoise", &denoise_opts); generic_opts_set(builder, "VideoEncoder", &vcodec_opts); generic_opts_set(builder, "AudioEncoder", &acodec_opts); generic_opts_set(builder, "x264_direct", &direct_opts); generic_opts_set(builder, "x264_b_adapt", &badapt_opts); generic_opts_set(builder, "x264_me", &me_opts); generic_opts_set(builder, "x264_subme", &subme_opts); generic_opts_set(builder, "x264_analyse", &analyse_opts); generic_opts_set(builder, "x264_trellis", &trellis_opts); } else { if (strcmp(name, "AudioBitrate") == 0) audio_bitrate_opts_set(builder, "AudioBitrate"); else if (strcmp(name, "AudioSamplerate") == 0) audio_samplerate_opts_set(builder, "AudioSamplerate", hb_audio_rates, hb_audio_rates_count); else if (strcmp(name, "VideoFramerate") == 0) video_rate_opts_set(builder, "VideoFramerate", hb_video_rates, hb_video_rates_count); else if (strcmp(name, "AudioMixdown") == 0) mix_opts_set(builder, "AudioMixdown"); else if (strcmp(name, "SourceAudioLang") == 0) language_opts_set(builder, "SourceAudioLang"); else if (strcmp(name, "Subtitles") == 0) subtitle_opts_set(builder, "Subtitles", user_data); else if (strcmp(name, "title") == 0) title_opts_set(builder, "title"); else if (strcmp(name, "AudioTrack") == 0) audio_track_opts_set(builder, "AudioTrack", user_data); else generic_opts_set(builder, name, find_combo_table(name)); } if (handler_id > 0) { g_signal_handler_unblock ((gpointer)combo, handler_id); } } static void init_ui_combo_boxes(GtkBuilder *builder) { gint ii; init_combo_box(builder, "AudioBitrate"); init_combo_box(builder, "AudioSamplerate"); init_combo_box(builder, "VideoFramerate"); init_combo_box(builder, "AudioMixdown"); init_combo_box(builder, "SourceAudioLang"); init_combo_box(builder, "Subtitles"); init_combo_box(builder, "title"); init_combo_box(builder, "AudioTrack"); for (ii = 0; combo_name_map[ii].name != NULL; ii++) { init_combo_box(builder, combo_name_map[ii].name); } } static const char * turbo_opts = "ref=1:subme=1:me=dia:analyse=none:trellis=0:" "no-fast-pskip=0:8x8dct=0:weightb=0"; // Construct the x264 options string // The result is allocated, so someone must free it at some point. gchar* ghb_build_x264opts_string(GValue *settings) { gchar *result; gchar *opts = ghb_settings_get_string(settings, "x264Option"); if (opts != NULL) { result = opts; } else { result = g_strdup(""); } return result; } void ghb_get_chapter_duration(gint ti, gint ii, gint *hh, gint *mm, gint *ss) { hb_list_t * list; hb_title_t * title; hb_chapter_t * chapter; gint count; g_debug("ghb_get_chapter_duration (title = %d)\n", ti); *hh = *mm = *ss = 0; if (h_scan == NULL) return; list = hb_get_titles( h_scan ); title = (hb_title_t*)hb_list_item( list, ti ); if (title == NULL) return; count = hb_list_count( title->list_chapter ); if (ii >= count) return; chapter = hb_list_item(title->list_chapter, ii); if (chapter == NULL) return; *hh = chapter->hours; *mm = chapter->minutes; *ss = chapter->seconds; } GValue* ghb_get_chapters(gint titleindex) { hb_list_t * list; hb_title_t * title; hb_chapter_t * chapter; gint count, ii; GValue *chapters = NULL; g_debug("ghb_get_chapters (title = %d)\n", titleindex); if (h_scan == NULL) return NULL; list = hb_get_titles( h_scan ); title = (hb_title_t*)hb_list_item( list, titleindex ); if (title == NULL) return NULL; count = hb_list_count( title->list_chapter ); chapters = ghb_array_value_new(count); for (ii = 0; ii < count; ii++) { chapter = hb_list_item(title->list_chapter, ii); if (chapter == NULL) break; if (chapter->title == NULL || chapter->title[0] == 0) { gchar *str; str = g_strdup_printf ("Chapter %2d", ii+1); ghb_array_append(chapters, ghb_string_value_new(str)); g_free(str); } else { ghb_array_append(chapters, ghb_string_value_new(chapter->title)); } } return chapters; } gboolean ghb_ac3_in_audio_list(const GValue *audio_list) { gint count, ii; count = ghb_array_len(audio_list); for (ii = 0; ii < count; ii++) { GValue *asettings; gint acodec; asettings = ghb_array_get_nth(audio_list, ii); acodec = ghb_settings_combo_int(asettings, "AudioEncoder"); if (acodec == HB_ACODEC_AC3) return TRUE; } return FALSE; } static void audio_bitrate_opts_add(GtkBuilder *builder, const gchar *name, gint rate) { GtkTreeIter iter; GtkListStore *store; gchar *str; g_debug("audio_rate_opts_add ()\n"); store = get_combo_box_store(builder, name); if (!find_combo_item_by_int(GTK_TREE_MODEL(store), rate, &iter)) { str = g_strdup_printf ("%d", rate); gtk_list_store_append(store, &iter); gtk_list_store_set(store, &iter, 0, str, 1, TRUE, 2, str, 3, (gdouble)rate, 4, str, -1); g_free(str); } } static void audio_bitrate_opts_clean(GtkBuilder *builder, const gchar *name, gint last_rate) { GtkTreeIter iter; GtkListStore *store; gdouble ivalue; gboolean done = FALSE; gint ii = 0; guint last = (guint)last_rate; g_debug("audio_bitrate_opts_clean ()\n"); store = get_combo_box_store(builder, name); if (gtk_tree_model_get_iter_first (GTK_TREE_MODEL(store), &iter)) { do { gtk_tree_model_get(GTK_TREE_MODEL(store), &iter, 3, &ivalue, -1); if (search_rates( hb_audio_bitrates, ivalue, hb_audio_bitrates_count) < 0) { done = !gtk_list_store_remove(store, &iter); } else if (ivalue > last) { ii++; gtk_list_store_set(store, &iter, 1, FALSE, -1); done = !gtk_tree_model_iter_next (GTK_TREE_MODEL(store), &iter); } else { ii++; gtk_list_store_set(store, &iter, 1, TRUE, -1); done = !gtk_tree_model_iter_next (GTK_TREE_MODEL(store), &iter); } } while (!done); } } static void audio_bitrate_opts_set(GtkBuilder *builder, const gchar *name) { GtkTreeIter iter; GtkListStore *store; gint ii; g_debug("audio_bitrate_opts_set ()\n"); store = get_combo_box_store(builder, name); gtk_list_store_clear(store); for (ii = 0; ii < hb_audio_bitrates_count; ii++) { gtk_list_store_append(store, &iter); gtk_list_store_set(store, &iter, 0, hb_audio_bitrates[ii].string, 1, TRUE, 2, hb_audio_bitrates[ii].string, 3, (gdouble)hb_audio_bitrates[ii].rate, 4, hb_audio_bitrates[ii].string, -1); } } void ghb_set_passthru_bitrate_opts(GtkBuilder *builder, gint bitrate) { audio_bitrate_opts_add(builder, "AudioBitrate", bitrate); } void ghb_set_default_bitrate_opts(GtkBuilder *builder, gint last_rate) { audio_bitrate_opts_clean(builder, "AudioBitrate", last_rate); } static ghb_status_t hb_status; void ghb_combo_init(GtkBuilder *builder) { // Set up the list model for the combos init_ui_combo_boxes(builder); // Populate all the combos ghb_update_ui_combo_box(builder, NULL, 0, TRUE); } void ghb_backend_init(gint debug) { /* Init libhb */ h_scan = hb_init( debug, 0 ); h_queue = hb_init( debug, 0 ); } void ghb_backend_close() { hb_close(&h_queue); hb_close(&h_scan); } void ghb_backend_scan(const gchar *path, gint titleindex, gint preview_count) { hb_scan( h_scan, path, titleindex, preview_count, 1 ); hb_status.scan.state |= GHB_STATE_SCANNING; // initialize count and cur to something that won't cause FPE // when computing progress hb_status.scan.title_count = 1; hb_status.scan.title_cur = 0; } void ghb_backend_queue_scan(const gchar *path, gint titlenum) { g_debug("ghb_backend_queue_scan()"); hb_scan( h_queue, path, titlenum, 10, 0 ); hb_status.queue.state |= GHB_STATE_SCANNING; } gint ghb_get_scan_state() { return hb_status.scan.state; } gint ghb_get_queue_state() { return hb_status.queue.state; } void ghb_clear_scan_state(gint state) { hb_status.scan.state &= ~state; } void ghb_clear_queue_state(gint state) { hb_status.queue.state &= ~state; } void ghb_set_scan_state(gint state) { hb_status.scan.state |= state; } void ghb_set_queue_state(gint state) { hb_status.queue.state |= state; } void ghb_get_status(ghb_status_t *status) { memcpy(status, &hb_status, sizeof(ghb_status_t)); } void ghb_track_status() { hb_state_t s_scan; hb_state_t s_queue; if (h_scan == NULL) return; hb_get_state( h_scan, &s_scan ); switch( s_scan.state ) { #define p s_scan.param.scanning case HB_STATE_SCANNING: { hb_status.scan.state |= GHB_STATE_SCANNING; hb_status.scan.title_count = p.title_count; hb_status.scan.title_cur = p.title_cur; } break; #undef p case HB_STATE_SCANDONE: { hb_status.scan.state &= ~GHB_STATE_SCANNING; hb_status.scan.state |= GHB_STATE_SCANDONE; } break; #define p s_scan.param.working case HB_STATE_WORKING: hb_status.scan.state |= GHB_STATE_WORKING; hb_status.scan.state &= ~GHB_STATE_PAUSED; hb_status.scan.job_cur = p.job_cur; hb_status.scan.job_count = p.job_count; hb_status.scan.progress = p.progress; hb_status.scan.rate_cur = p.rate_cur; hb_status.scan.rate_avg = p.rate_avg; hb_status.scan.hours = p.hours; hb_status.scan.minutes = p.minutes; hb_status.scan.seconds = p.seconds; hb_status.scan.unique_id = p.sequence_id & 0xFFFFFF; break; #undef p case HB_STATE_PAUSED: hb_status.scan.state |= GHB_STATE_PAUSED; break; case HB_STATE_MUXING: { hb_status.scan.state |= GHB_STATE_MUXING; } break; #define p s_scan.param.workdone case HB_STATE_WORKDONE: { hb_job_t *job; hb_status.scan.state |= GHB_STATE_WORKDONE; hb_status.scan.state &= ~GHB_STATE_MUXING; hb_status.scan.state &= ~GHB_STATE_PAUSED; hb_status.scan.state &= ~GHB_STATE_WORKING; switch (p.error) { case HB_ERROR_NONE: hb_status.scan.error = GHB_ERROR_NONE; break; case HB_ERROR_CANCELED: hb_status.scan.error = GHB_ERROR_CANCELED; break; default: hb_status.scan.error = GHB_ERROR_FAIL; break; } // Delete all remaining jobs of this encode. // An encode can be composed of multiple associated jobs. // When a job is stopped, libhb removes it from the job list, // but does not remove other jobs that may be associated with it. // Associated jobs are taged in the sequence id. while ((job = hb_job(h_scan, 0)) != NULL) hb_rem( h_scan, job ); } break; #undef p } hb_get_state( h_queue, &s_queue ); switch( s_queue.state ) { #define p s_queue.param.scanning case HB_STATE_SCANNING: { hb_status.queue.state |= GHB_STATE_SCANNING; hb_status.queue.title_count = p.title_count; hb_status.queue.title_cur = p.title_cur; } break; #undef p case HB_STATE_SCANDONE: { hb_status.queue.state &= ~GHB_STATE_SCANNING; hb_status.queue.state |= GHB_STATE_SCANDONE; } break; #define p s_queue.param.working case HB_STATE_WORKING: hb_status.queue.state |= GHB_STATE_WORKING; hb_status.queue.state &= ~GHB_STATE_PAUSED; hb_status.queue.job_cur = p.job_cur; hb_status.queue.job_count = p.job_count; hb_status.queue.progress = p.progress; hb_status.queue.rate_cur = p.rate_cur; hb_status.queue.rate_avg = p.rate_avg; hb_status.queue.hours = p.hours; hb_status.queue.minutes = p.minutes; hb_status.queue.seconds = p.seconds; hb_status.queue.unique_id = p.sequence_id & 0xFFFFFF; break; #undef p case HB_STATE_PAUSED: hb_status.queue.state |= GHB_STATE_PAUSED; break; case HB_STATE_MUXING: { hb_status.queue.state |= GHB_STATE_MUXING; } break; #define p s_queue.param.workdone case HB_STATE_WORKDONE: { hb_job_t *job; hb_status.queue.state |= GHB_STATE_WORKDONE; hb_status.queue.state &= ~GHB_STATE_MUXING; hb_status.queue.state &= ~GHB_STATE_PAUSED; hb_status.queue.state &= ~GHB_STATE_WORKING; switch (p.error) { case HB_ERROR_NONE: hb_status.queue.error = GHB_ERROR_NONE; break; case HB_ERROR_CANCELED: hb_status.queue.error = GHB_ERROR_CANCELED; break; default: hb_status.queue.error = GHB_ERROR_FAIL; break; } // Delete all remaining jobs of this encode. // An encode can be composed of multiple associated jobs. // When a job is stopped, libhb removes it from the job list, // but does not remove other jobs that may be associated with it. // Associated jobs are taged in the sequence id. while ((job = hb_job(h_queue, 0)) != NULL) hb_rem( h_queue, job ); } break; #undef p } } gboolean ghb_get_title_info(ghb_title_info_t *tinfo, gint titleindex) { hb_list_t * list; hb_title_t * title; if (h_scan == NULL) return FALSE; list = hb_get_titles( h_scan ); if( !hb_list_count( list ) ) { /* No valid title, stop right there */ return FALSE; } title = hb_list_item( list, titleindex ); if (title == NULL) return FALSE; // Bad titleindex tinfo->width = title->width; tinfo->height = title->height; memcpy(tinfo->crop, title->crop, 4 * sizeof(int)); // Don't allow crop to 0 if (title->crop[0] + title->crop[1] >= title->height) title->crop[0] = title->crop[1] = 0; if (title->crop[2] + title->crop[3] >= title->width) title->crop[2] = title->crop[3] = 0; tinfo->num_chapters = hb_list_count(title->list_chapter); tinfo->rate_base = title->rate_base; tinfo->rate = title->rate; hb_reduce(&(tinfo->aspect_n), &(tinfo->aspect_d), title->width * title->pixel_aspect_width, title->height * title->pixel_aspect_height); tinfo->hours = title->hours; tinfo->minutes = title->minutes; tinfo->seconds = title->seconds; tinfo->duration = title->duration; tinfo->angle_count = title->angle_count; return TRUE; } gboolean ghb_get_audio_info(ghb_audio_info_t *ainfo, gint titleindex, gint audioindex) { hb_audio_config_t *audio; audio = get_hb_audio(titleindex, audioindex); if (audio == NULL) return FALSE; // Bad audioindex ainfo->codec = audio->in.codec; ainfo->bitrate = audio->in.bitrate; ainfo->samplerate = audio->in.samplerate; return TRUE; } gboolean ghb_audio_is_passthru(gint acodec) { g_debug("ghb_audio_is_passthru () \n"); return (acodec & (HB_ACODEC_AC3 | HB_ACODEC_DCA)); } gint ghb_get_default_acodec() { return HB_ACODEC_FAAC; } static void picture_settings_deps(signal_user_data_t *ud) { gboolean autoscale, keep_aspect, enable_keep_aspect; gboolean enable_scale_width, enable_scale_height; gboolean enable_disp_width, enable_disp_height; gint pic_par; GtkWidget *widget; pic_par = ghb_settings_combo_int(ud->settings, "PicturePAR"); if (pic_par == 1) { ghb_ui_update(ud, "autoscale", ghb_boolean_value(TRUE)); ghb_ui_update(ud, "PictureModulus", ghb_int_value(2)); ghb_ui_update(ud, "PictureLooseCrop", ghb_boolean_value(TRUE)); } enable_keep_aspect = (pic_par != 1 && pic_par != 2); if (!enable_keep_aspect) { ghb_ui_update(ud, "PictureKeepRatio", ghb_boolean_value(TRUE)); } keep_aspect = ghb_settings_get_boolean(ud->settings, "PictureKeepRatio"); autoscale = ghb_settings_get_boolean(ud->settings, "autoscale"); enable_scale_width = !autoscale && (pic_par != 1); enable_scale_height = !autoscale && (pic_par != 1); enable_disp_width = (pic_par == 3) && !keep_aspect; enable_disp_height = FALSE; widget = GHB_WIDGET(ud->builder, "PictureModulus"); gtk_widget_set_sensitive(widget, pic_par != 1); widget = GHB_WIDGET(ud->builder, "PictureLooseCrop"); gtk_widget_set_sensitive(widget, pic_par != 1); widget = GHB_WIDGET(ud->builder, "scale_width"); gtk_widget_set_sensitive(widget, enable_scale_width); widget = GHB_WIDGET(ud->builder, "scale_height"); gtk_widget_set_sensitive(widget, enable_scale_height); widget = GHB_WIDGET(ud->builder, "PictureDisplayWidth"); gtk_widget_set_sensitive(widget, enable_disp_width); widget = GHB_WIDGET(ud->builder, "PictureDisplayHeight"); gtk_widget_set_sensitive(widget, enable_disp_height); widget = GHB_WIDGET(ud->builder, "PictureKeepRatio"); gtk_widget_set_sensitive(widget, enable_keep_aspect); widget = GHB_WIDGET(ud->builder, "autoscale"); gtk_widget_set_sensitive(widget, pic_par != 1); } void ghb_set_scale(signal_user_data_t *ud, gint mode) { hb_list_t * list; hb_title_t * title; hb_job_t * job; gboolean keep_aspect; gint pic_par; gboolean autocrop, autoscale, noscale; gint crop[4], width, height, par_width, par_height; gint crop_width, crop_height; gint aspect_n, aspect_d; gboolean keep_width = (mode & GHB_PIC_KEEP_WIDTH); gboolean keep_height = (mode & GHB_PIC_KEEP_HEIGHT); gint step; GtkWidget *widget; gint mod; gint max_width = 0; gint max_height = 0; static gboolean busy = FALSE; g_debug("ghb_set_scale ()\n"); if (h_scan == NULL) return; list = hb_get_titles( h_scan ); if( !hb_list_count( list ) ) { /* No valid title, stop right there */ return; } gint titleindex; titleindex = ghb_settings_combo_int(ud->settings, "title"); title = hb_list_item( list, titleindex ); if (title == NULL) return; job = title->job; if (job == NULL) return; picture_settings_deps(ud); if (busy) return; busy = TRUE; // First configure widgets mod = ghb_settings_combo_int(ud->settings, "PictureModulus"); pic_par = ghb_settings_combo_int(ud->settings, "PicturePAR"); keep_aspect = ghb_settings_get_boolean(ud->settings, "PictureKeepRatio"); autocrop = ghb_settings_get_boolean(ud->settings, "PictureAutoCrop"); autoscale = ghb_settings_get_boolean(ud->settings, "autoscale"); // "Noscale" is a flag that says we prefer to crop extra to satisfy // alignment constraints rather than scaling to satisfy them. noscale = ghb_settings_get_boolean(ud->settings, "PictureLooseCrop"); // Align dimensions to either 16 or 2 pixels // The scaler crashes if the dimensions are not divisible by 2 // x264 also will not accept dims that are not multiple of 2 if (autoscale) { keep_width = FALSE; keep_height = FALSE; } // Step needs to be at least 2 because odd widths cause scaler crash step = mod; widget = GHB_WIDGET (ud->builder, "scale_width"); gtk_spin_button_set_increments (GTK_SPIN_BUTTON(widget), step, 16); widget = GHB_WIDGET (ud->builder, "scale_height"); gtk_spin_button_set_increments (GTK_SPIN_BUTTON(widget), step, 16); if (noscale) { widget = GHB_WIDGET (ud->builder, "PictureTopCrop"); gtk_spin_button_set_increments (GTK_SPIN_BUTTON(widget), step, 16); widget = GHB_WIDGET (ud->builder, "PictureBottomCrop"); gtk_spin_button_set_increments (GTK_SPIN_BUTTON(widget), step, 16); widget = GHB_WIDGET (ud->builder, "PictureLeftCrop"); gtk_spin_button_set_increments (GTK_SPIN_BUTTON(widget), step, 16); widget = GHB_WIDGET (ud->builder, "PictureRightCrop"); gtk_spin_button_set_increments (GTK_SPIN_BUTTON(widget), step, 16); } else { widget = GHB_WIDGET (ud->builder, "PictureTopCrop"); gtk_spin_button_set_increments (GTK_SPIN_BUTTON(widget), 1, 16); widget = GHB_WIDGET (ud->builder, "PictureBottomCrop"); gtk_spin_button_set_increments (GTK_SPIN_BUTTON(widget), 1, 16); widget = GHB_WIDGET (ud->builder, "PictureLeftCrop"); gtk_spin_button_set_increments (GTK_SPIN_BUTTON(widget), 1, 16); widget = GHB_WIDGET (ud->builder, "PictureRightCrop"); gtk_spin_button_set_increments (GTK_SPIN_BUTTON(widget), 1, 16); } ghb_title_info_t tinfo; ghb_get_title_info (&tinfo, titleindex); if (autocrop) { crop[0] = tinfo.crop[0]; crop[1] = tinfo.crop[1]; crop[2] = tinfo.crop[2]; crop[3] = tinfo.crop[3]; ghb_ui_update(ud, "PictureTopCrop", ghb_int64_value(crop[0])); ghb_ui_update(ud, "PictureBottomCrop", ghb_int64_value(crop[1])); ghb_ui_update(ud, "PictureLeftCrop", ghb_int64_value(crop[2])); ghb_ui_update(ud, "PictureRightCrop", ghb_int64_value(crop[3])); } else { crop[0] = ghb_settings_get_int(ud->settings, "PictureTopCrop"); crop[1] = ghb_settings_get_int(ud->settings, "PictureBottomCrop"); crop[2] = ghb_settings_get_int(ud->settings, "PictureLeftCrop"); crop[3] = ghb_settings_get_int(ud->settings, "PictureRightCrop"); } if (noscale) { gint need1, need2; // Adjust the cropping to accomplish the desired width and height crop_width = tinfo.width - crop[2] - crop[3]; crop_height = tinfo.height - crop[0] - crop[1]; width = MOD_DOWN(crop_width, mod); height = MOD_DOWN(crop_height, mod); need1 = (crop_height - height) / 2; need2 = crop_height - height - need1; crop[0] += need1; crop[1] += need2; need1 = (crop_width - width) / 2; need2 = crop_width - width - need1; crop[2] += need1; crop[3] += need2; ghb_ui_update(ud, "PictureTopCrop", ghb_int64_value(crop[0])); ghb_ui_update(ud, "PictureBottomCrop", ghb_int64_value(crop[1])); ghb_ui_update(ud, "PictureLeftCrop", ghb_int64_value(crop[2])); ghb_ui_update(ud, "PictureRightCrop", ghb_int64_value(crop[3])); } hb_reduce(&aspect_n, &aspect_d, title->width * title->pixel_aspect_width, title->height * title->pixel_aspect_height); crop_width = title->width - crop[2] - crop[3]; crop_height = title->height - crop[0] - crop[1]; if (autoscale) { width = crop_width; height = crop_height; } else { width = ghb_settings_get_int(ud->settings, "scale_width"); height = ghb_settings_get_int(ud->settings, "scale_height"); max_width = MOD_DOWN( ghb_settings_get_int(ud->settings, "PictureWidth"), mod); max_height = MOD_DOWN( ghb_settings_get_int(ud->settings, "PictureHeight"), mod); } g_debug("max_width %d, max_height %d\n", max_width, max_height); if (width < 16) width = title->width - crop[2] - crop[3]; if (height < 16) height = title->height - crop[0] - crop[1]; width = MOD_ROUND(width, mod); height = MOD_ROUND(height, mod); // Adjust dims according to max values if (max_height) height = MIN(height, max_height); if (max_width) width = MIN(width, max_width); if (pic_par) { job->anamorphic.mode = pic_par; // The scaler crashes if the dimensions are not divisible by 2 // Align mod 2. And so does something in x264_encoder_headers() job->anamorphic.modulus = mod; if (keep_height && pic_par == 2) width = ((double)height * crop_width / crop_height) + 0.5; job->width = width; job->height = height; if (max_width) job->maxWidth = max_width; if (max_height) job->maxHeight = max_height; job->crop[0] = crop[0]; job->crop[1] = crop[1]; job->crop[2] = crop[2]; job->crop[3] = crop[3]; if (job->anamorphic.mode == 3 && !keep_aspect) { gint dar_width, dar_height; if (mode & GHB_PIC_KEEP_PAR) { par_width = ghb_settings_get_int(ud->settings, "PicturePARWidth"); par_height = ghb_settings_get_int(ud->settings, "PicturePARHeight"); dar_width = ((gdouble)width * par_width / par_height) + 0.5; dar_height = height; } else { dar_width = ghb_settings_get_int(ud->settings, "PictureDisplayWidth"); dar_height = ghb_settings_get_int(ud->settings, "PictureDisplayHeight"); } job->anamorphic.dar_width = dar_width; job->anamorphic.dar_height = dar_height; } else { job->anamorphic.dar_width = 0; job->anamorphic.dar_height = 0; } hb_set_anamorphic_size( job, &width, &height, &par_width, &par_height ); } else { job->anamorphic.mode = pic_par; if (keep_aspect) { gdouble par; gint new_width, new_height; // Compute pixel aspect ration. par = (gdouble)(title->height * aspect_n) / (title->width * aspect_d); // Must scale so that par becomes 1:1 // Try to keep largest dimension new_height = (crop_height * ((gdouble)width/crop_width) / par); new_width = (crop_width * ((gdouble)height/crop_height) * par); if (max_width && new_width > max_width) { height = new_height; } else if (max_height && new_height > max_height) { width = new_width; } else if (keep_width) { height = new_height; } else if (keep_height) { width = new_width; } else if (width > new_width) { height = new_height; } else { width = new_width; } g_debug("new w %d h %d\n", width, height); } width = MOD_ROUND(width, mod); height = MOD_ROUND(height, mod); if (max_height) height = MIN(height, max_height); if (max_width) width = MIN(width, max_width); par_width = par_height = 1; } ghb_ui_update(ud, "scale_width", ghb_int64_value(width)); ghb_ui_update(ud, "scale_height", ghb_int64_value(height)); gint disp_width, dar_width, dar_height; gchar *str; disp_width = (gdouble)(width * par_width / par_height) + 0.5; hb_reduce(&dar_width, &dar_height, disp_width, height); gint iaspect = dar_width * 9 / dar_height; if (dar_width > 2 * dar_height) { str = g_strdup_printf("%.2f : 1", (gdouble)dar_width / dar_height); } else if (iaspect <= 16 && iaspect >= 15) { str = g_strdup_printf("%.2f : 9", (gdouble)dar_width * 9 / dar_height); } else if (iaspect <= 12 && iaspect >= 11) { str = g_strdup_printf("%.2f : 3", (gdouble)dar_width * 3 / dar_height); } else { str = g_strdup_printf("%d : %d", dar_width, dar_height); } ghb_ui_update(ud, "display_aspect", ghb_string_value(str)); g_free(str); ghb_ui_update(ud, "par_width", ghb_int64_value(par_width)); ghb_ui_update(ud, "par_height", ghb_int64_value(par_height)); ghb_ui_update(ud, "PictureDisplayWidth", ghb_int64_value(disp_width)); ghb_ui_update(ud, "PictureDisplayHeight", ghb_int64_value(height)); busy = FALSE; } static void set_preview_job_settings(hb_job_t *job, GValue *settings) { job->crop[0] = ghb_settings_get_int(settings, "PictureTopCrop"); job->crop[1] = ghb_settings_get_int(settings, "PictureBottomCrop"); job->crop[2] = ghb_settings_get_int(settings, "PictureLeftCrop"); job->crop[3] = ghb_settings_get_int(settings, "PictureRightCrop"); job->anamorphic.mode = ghb_settings_combo_int(settings, "PicturePAR"); job->anamorphic.modulus = ghb_settings_combo_int(settings, "PictureModulus"); job->width = ghb_settings_get_int(settings, "scale_width"); job->height = ghb_settings_get_int(settings, "scale_height"); if (ghb_settings_get_boolean(settings, "show_crop")) { job->crop[0] = 0; job->crop[1] = 0; job->crop[2] = 0; job->crop[3] = 0; job->width = job->title->width; job->height = job->title->height; job->anamorphic.modulus = 2; } gint deint = ghb_settings_combo_int(settings, "PictureDeinterlace"); gint decomb = ghb_settings_combo_int(settings, "PictureDecomb"); job->deinterlace = (!decomb && deint == 0) ? 0 : 1; gboolean keep_aspect; keep_aspect = ghb_settings_get_boolean(settings, "PictureKeepRatio"); if (job->anamorphic.mode == 3 && !keep_aspect) { gint disp_width, disp_height; disp_width = ghb_settings_get_int(settings, "PictureDisplayWidth"); disp_height = ghb_settings_get_int(settings, "PictureDisplayHeight"); job->anamorphic.dar_width = disp_width; job->anamorphic.dar_height = disp_height; } else { job->anamorphic.dar_width = 0; job->anamorphic.dar_height = 0; } } gint ghb_calculate_target_bitrate(GValue *settings, gint titleindex) { hb_list_t * list; hb_title_t * title; hb_job_t * job; gint size; if (h_scan == NULL) return 1500; list = hb_get_titles( h_scan ); title = hb_list_item( list, titleindex ); if (title == NULL) return 1500; job = title->job; if (job == NULL) return 1500; size = ghb_settings_get_int(settings, "VideoTargetSize"); return hb_calc_bitrate( job, size ); } gboolean ghb_validate_filter_string(const gchar *str, gint max_fields) { gint fields = 0; gchar *end; gdouble val; if (str == NULL || *str == 0) return TRUE; while (*str) { val = g_strtod(str, &end); if (str != end) { // Found a numeric value fields++; // negative max_fields means infinate if (max_fields >= 0 && fields > max_fields) return FALSE; if (*end == 0) return TRUE; if (*end != ':') return FALSE; str = end + 1; } else return FALSE; } return FALSE; } gboolean ghb_validate_filters(signal_user_data_t *ud) { gchar *str; gint index; gchar *message; // deinte 4 index = ghb_settings_combo_int(ud->settings, "PictureDeinterlace"); if (index == 1) { str = ghb_settings_get_string(ud->settings, "PictureDeinterlaceCustom"); if (!ghb_validate_filter_string(str, 4)) { message = g_strdup_printf( "Invalid Deinterlace Settings:\n\n%s\n", str); ghb_message_dialog(GTK_MESSAGE_ERROR, message, "Cancel", NULL); g_free(message); g_free(str); return FALSE; } g_free(str); } // detel index = ghb_settings_combo_int(ud->settings, "PictureDetelecine"); if (index == 1) { str = ghb_settings_get_string(ud->settings, "PictureDetelecineCustom"); if (!ghb_validate_filter_string(str, 6)) { message = g_strdup_printf( "Invalid Detelecine Settings:\n\n%s\n", str); ghb_message_dialog(GTK_MESSAGE_ERROR, message, "Cancel", NULL); g_free(message); g_free(str); return FALSE; } g_free(str); } // decomb 4 index = ghb_settings_combo_int(ud->settings, "PictureDecomb"); if (index == 1) { str = ghb_settings_get_string(ud->settings, "PictureDecombCustom"); if (!ghb_validate_filter_string(str, 7)) { message = g_strdup_printf( "Invalid Decomb Settings:\n\n%s\n", str); ghb_message_dialog(GTK_MESSAGE_ERROR, message, "Cancel", NULL); g_free(message); g_free(str); return FALSE; } g_free(str); } // denois 4 index = ghb_settings_combo_int(ud->settings, "PictureDenoise"); if (index == 1) { str = ghb_settings_get_string(ud->settings, "PictureDenoiseCustom"); if (!ghb_validate_filter_string(str, 4)) { message = g_strdup_printf( "Invalid Denoise Settings:\n\n%s\n", str); ghb_message_dialog(GTK_MESSAGE_ERROR, message, "Cancel", NULL); g_free(str); g_free(message); return FALSE; } g_free(str); } return TRUE; } gboolean ghb_validate_video(signal_user_data_t *ud) { gint vcodec, mux; gchar *message; mux = ghb_settings_combo_int(ud->settings, "FileFormat"); vcodec = ghb_settings_combo_int(ud->settings, "VideoEncoder"); if ((mux == HB_MUX_MP4 || mux == HB_MUX_AVI) && (vcodec == HB_VCODEC_THEORA)) { // mp4|avi/theora combination is not supported. message = g_strdup_printf( "Theora is not supported in the MP4 and AVI containers.\n\n" "You should choose a different video codec or container.\n" "If you continue, XviD will be chosen for you."); if (!ghb_message_dialog(GTK_MESSAGE_WARNING, message, "Cancel", "Continue")) { g_free(message); return FALSE; } g_free(message); vcodec = HB_VCODEC_XVID; ghb_ui_update(ud, "VideoEncoder", ghb_int64_value(vcodec)); } return TRUE; } gboolean ghb_validate_audio(signal_user_data_t *ud) { hb_list_t * list; hb_title_t * title; gchar *message; GValue *value; if (h_scan == NULL) return FALSE; list = hb_get_titles( h_scan ); if( !hb_list_count( list ) ) { /* No valid title, stop right there */ g_message("No title found.\n"); return FALSE; } gint titleindex; titleindex = ghb_settings_combo_int(ud->settings, "title"); title = hb_list_item( list, titleindex ); if (title == NULL) return FALSE; gint mux = ghb_settings_combo_int(ud->settings, "FileFormat"); const GValue *audio_list; gint count, ii; audio_list = ghb_settings_get_value(ud->settings, "audio_list"); count = ghb_array_len(audio_list); for (ii = 0; ii < count; ii++) { GValue *asettings; hb_audio_config_t *taudio; asettings = ghb_array_get_nth(audio_list, ii); gint track = ghb_settings_combo_int(asettings, "AudioTrack"); gint codec = ghb_settings_combo_int(asettings, "AudioEncoder"); taudio = (hb_audio_config_t *) hb_list_audio_config_item( title->list_audio, track ); if (!(taudio->in.codec & codec) && (codec & (HB_ACODEC_AC3 | HB_ACODEC_DCA))) { // Not supported. AC3 is passthrough only, so input must be AC3 message = g_strdup_printf( "The source does not support Pass-Thru.\n\n" "You should choose a different audio codec.\n" "If you continue, one will be chosen for you."); if (!ghb_message_dialog(GTK_MESSAGE_WARNING, message, "Cancel", "Continue")) { g_free(message); return FALSE; } g_free(message); if (mux == HB_MUX_AVI) { codec = HB_ACODEC_LAME; } else { codec = HB_ACODEC_FAAC; } value = get_acodec_value(codec); ghb_settings_take_value(asettings, "AudioEncoder", value); } gchar *a_unsup = NULL; gchar *mux_s = NULL; if (mux == HB_MUX_MP4) { mux_s = "MP4"; // mp4/mp3|vorbis combination is not supported. if (codec == HB_ACODEC_LAME) { a_unsup = "MP3"; codec = HB_ACODEC_FAAC; } if (codec == HB_ACODEC_VORBIS) { a_unsup = "Vorbis"; codec = HB_ACODEC_FAAC; } if (codec == HB_ACODEC_DCA) { a_unsup = "DTS"; codec = HB_ACODEC_FAAC; } } else if (mux == HB_MUX_AVI) { mux_s = "AVI"; // avi/faac|vorbis combination is not supported. if (codec == HB_ACODEC_FAAC) { a_unsup = "FAAC"; codec = HB_ACODEC_LAME; } if (codec == HB_ACODEC_VORBIS) { a_unsup = "Vorbis"; codec = HB_ACODEC_LAME; } } else if (mux == HB_MUX_OGM) { mux_s = "OGM"; // avi/faac|vorbis combination is not supported. if (codec == HB_ACODEC_FAAC) { a_unsup = "FAAC"; codec = HB_ACODEC_VORBIS; } if (codec == HB_ACODEC_AC3) { a_unsup = "AC-3"; codec = HB_ACODEC_VORBIS; } if (codec == HB_ACODEC_DCA) { a_unsup = "DTS"; codec = HB_ACODEC_VORBIS; } } if (a_unsup) { message = g_strdup_printf( "%s is not supported in the %s container.\n\n" "You should choose a different audio codec.\n" "If you continue, one will be chosen for you.", a_unsup, mux_s); if (!ghb_message_dialog(GTK_MESSAGE_WARNING, message, "Cancel", "Continue")) { g_free(message); return FALSE; } g_free(message); value = get_acodec_value(codec); ghb_settings_take_value(asettings, "AudioEncoder", value); } gint mix = ghb_settings_combo_int (asettings, "AudioMixdown"); gboolean allow_mono = TRUE; gboolean allow_stereo = TRUE; gboolean allow_dolby = TRUE; gboolean allow_dpl2 = TRUE; gboolean allow_6ch = TRUE; allow_mono = (taudio->in.codec & (HB_ACODEC_AC3|HB_ACODEC_DCA)) && (codec != HB_ACODEC_LAME); gint layout = taudio->in.channel_layout & HB_INPUT_CH_LAYOUT_DISCRETE_NO_LFE_MASK; allow_stereo = ((layout == HB_INPUT_CH_LAYOUT_MONO && !allow_mono) || layout >= HB_INPUT_CH_LAYOUT_STEREO); allow_dolby = (layout == HB_INPUT_CH_LAYOUT_3F1R) || (layout == HB_INPUT_CH_LAYOUT_3F2R) || (layout == HB_INPUT_CH_LAYOUT_DOLBY); allow_dpl2 = (layout == HB_INPUT_CH_LAYOUT_3F2R); allow_6ch = (taudio->in.codec & (HB_ACODEC_AC3|HB_ACODEC_DCA)) && (codec != HB_ACODEC_LAME) && (layout == HB_INPUT_CH_LAYOUT_3F2R) && (taudio->in.channel_layout & HB_INPUT_CH_LAYOUT_HAS_LFE); gchar *mix_unsup = NULL; if (mix == HB_AMIXDOWN_MONO && !allow_mono) { mix_unsup = "mono"; } if (mix == HB_AMIXDOWN_STEREO && !allow_stereo) { mix_unsup = "stereo"; } if (mix == HB_AMIXDOWN_DOLBY && !allow_dolby) { mix_unsup = "Dolby"; } if (mix == HB_AMIXDOWN_DOLBYPLII && !allow_dpl2) { mix_unsup = "Dolby Pro Logic II"; } if (mix == HB_AMIXDOWN_6CH && !allow_6ch) { mix_unsup = "6 Channel"; } if (mix_unsup) { message = g_strdup_printf( "The source audio does not support %s mixdown.\n\n" "You should choose a different mixdown.\n" "If you continue, one will be chosen for you.", mix_unsup); if (!ghb_message_dialog(GTK_MESSAGE_WARNING, message, "Cancel", "Continue")) { g_free(message); return FALSE; } g_free(message); mix = ghb_get_best_mix(titleindex, track, codec, mix); value = get_amix_value(mix); ghb_settings_take_value(asettings, "AudioMixdown", value); } } return TRUE; } gboolean ghb_validate_vquality(GValue *settings) { gint vcodec; gchar *message; gint min, max; if (ghb_settings_get_boolean(settings, "nocheckvquality")) return TRUE; vcodec = ghb_settings_combo_int(settings, "VideoEncoder"); gdouble vquality; vquality = ghb_settings_get_double(settings, "VideoQualitySlider"); if (ghb_settings_get_boolean(settings, "vquality_type_constant")) { switch (vcodec) { case HB_VCODEC_X264: { min = 16; max = 30; } break; case HB_VCODEC_XVID: case HB_VCODEC_FFMPEG: { min = 1; max = 8; } break; case HB_VCODEC_THEORA: { min = 0; max = 63; } break; default: { min = 48; max = 62; } break; } if (vquality < min || vquality > max) { message = g_strdup_printf( "Interesting video quality choise: %d\n\n" "Typical values range from %d to %d.\n" "Are you sure you wish to use this setting?", (gint)vquality, min, max); if (!ghb_message_dialog(GTK_MESSAGE_QUESTION, message, "Cancel", "Continue")) { g_free(message); return FALSE; } g_free(message); } } return TRUE; } static void add_job(hb_handle_t *h, GValue *js, gint unique_id, gint titleindex) { hb_list_t * list; hb_title_t * title; hb_job_t * job; static gchar *x264opts; gint sub_id = 0; gboolean tweaks = FALSE; gchar *detel_str = NULL; gchar *decomb_str = NULL; gchar *deint_str = NULL; gchar *deblock_str = NULL; gchar *denoise_str = NULL; gchar *dest_str = NULL; g_debug("add_job()\n"); if (h == NULL) return; list = hb_get_titles( h ); if( !hb_list_count( list ) ) { /* No valid title, stop right there */ return; } title = hb_list_item( list, titleindex ); if (title == NULL) return; /* Set job settings */ job = title->job; if (job == NULL) return; job->start_at_preview = ghb_settings_get_int(js, "start_frame") + 1; if (job->start_at_preview) { job->seek_points = ghb_settings_get_int(js, "preview_count"); job->pts_to_stop = ghb_settings_get_int(js, "live_duration") * 90000LL; } tweaks = ghb_settings_get_boolean(js, "allow_tweaks"); job->mux = ghb_settings_combo_int(js, "FileFormat"); if (job->mux == HB_MUX_MP4) { job->largeFileSize = ghb_settings_get_boolean(js, "Mp4LargeFile"); job->mp4_optimize = ghb_settings_get_boolean(js, "Mp4HttpOptimize"); } else { job->largeFileSize = FALSE; job->mp4_optimize = FALSE; } if (!job->start_at_preview) { gint chapter_start, chapter_end; chapter_start = ghb_settings_get_int(js, "start_chapter"); chapter_end = ghb_settings_get_int(js, "end_chapter"); gint num_chapters = hb_list_count(title->list_chapter); job->chapter_start = MIN( num_chapters, chapter_start ); job->chapter_end = MAX( job->chapter_start, chapter_end ); job->chapter_markers = ghb_settings_get_boolean(js, "ChapterMarkers"); if (job->chapter_start == job->chapter_end) job->chapter_markers = 0; if ( job->chapter_markers ) { GValue *chapters; GValue *chapter; gint chap; gint count; chapters = ghb_settings_get_value(js, "chapter_list"); count = ghb_array_len(chapters); for(chap = chapter_start; chap <= chapter_end; chap++) { hb_chapter_t * chapter_s; gchar *name; name = NULL; if (chap-1 < count) { chapter = ghb_array_get_nth(chapters, chap-1); name = ghb_value_string(chapter); } if (name == NULL) { name = g_strdup_printf ("Chapter %2d", chap); } chapter_s = hb_list_item( job->title->list_chapter, chap - 1); strncpy(chapter_s->title, name, 1023); chapter_s->title[1023] = '\0'; g_free(name); } } } job->crop[0] = ghb_settings_get_int(js, "PictureTopCrop"); job->crop[1] = ghb_settings_get_int(js, "PictureBottomCrop"); job->crop[2] = ghb_settings_get_int(js, "PictureLeftCrop"); job->crop[3] = ghb_settings_get_int(js, "PictureRightCrop"); gint decomb = ghb_settings_combo_int(js, "PictureDecomb"); gint deint = ghb_settings_combo_int(js, "PictureDeinterlace"); if (!decomb) job->deinterlace = (deint != 0) ? 1 : 0; else job->deinterlace = 0; job->grayscale = ghb_settings_get_boolean(js, "VideoGrayScale"); job->anamorphic.mode = ghb_settings_combo_int(js, "PicturePAR"); job->anamorphic.modulus = ghb_settings_combo_int(js, "PictureModulus"); /* Add selected filters */ job->filters = hb_list_init(); gint detel = ghb_settings_combo_int(js, "PictureDetelecine"); if ( detel ) { if (detel != 1) { if (detel_opts.map[detel].svalue != NULL) detel_str = g_strdup(detel_opts.map[detel].svalue); } else detel_str = ghb_settings_get_string(js, "PictureDetelecineCustom"); hb_filter_detelecine.settings = detel_str; hb_list_add( job->filters, &hb_filter_detelecine ); } if ( decomb ) { if (decomb != 1) { if (decomb_opts.map[decomb].svalue != NULL) decomb_str = g_strdup(decomb_opts.map[decomb].svalue); } else decomb_str = ghb_settings_get_string(js, "PictureDecombCustom"); hb_filter_decomb.settings = decomb_str; hb_list_add( job->filters, &hb_filter_decomb ); } if( job->deinterlace ) { if (deint != 1) { if (deint_opts.map[deint].svalue != NULL) deint_str = g_strdup(deint_opts.map[deint].svalue); } else deint_str = ghb_settings_get_string(js, "PictureDeinterlaceCustom"); hb_filter_deinterlace.settings = deint_str; hb_list_add( job->filters, &hb_filter_deinterlace ); } gint deblock = ghb_settings_get_int(js, "PictureDeblock"); if( deblock >= 5 ) { deblock_str = g_strdup_printf("%d", deblock); hb_filter_deblock.settings = deblock_str; hb_list_add( job->filters, &hb_filter_deblock ); } gint denoise = ghb_settings_combo_int(js, "PictureDenoise"); if( denoise ) { if (denoise != 1) { if (denoise_opts.map[denoise].svalue != NULL) denoise_str = g_strdup(denoise_opts.map[denoise].svalue); } else denoise_str = ghb_settings_get_string(js, "PictureDenoiseCustom"); hb_filter_denoise.settings = denoise_str; hb_list_add( job->filters, &hb_filter_denoise ); } job->width = ghb_settings_get_int(js, "scale_width"); job->height = ghb_settings_get_int(js, "scale_height"); job->vcodec = ghb_settings_combo_int(js, "VideoEncoder"); if ((job->mux == HB_MUX_MP4 || job->mux == HB_MUX_AVI) && (job->vcodec == HB_VCODEC_THEORA)) { // mp4|avi/theora combination is not supported. job->vcodec = HB_VCODEC_XVID; } if ((job->vcodec == HB_VCODEC_X264) && (job->mux == HB_MUX_MP4)) { job->ipod_atom = ghb_settings_get_boolean(js, "Mp4iPodCompatible"); } if (ghb_settings_get_boolean(js, "vquality_type_constant")) { gdouble vquality; vquality = ghb_settings_get_double(js, "VideoQualitySlider"); job->vquality = vquality; job->vbitrate = 0; } else if (ghb_settings_get_boolean(js, "vquality_type_bitrate")) { job->vquality = -1.0; job->vbitrate = ghb_settings_get_int(js, "VideoAvgBitrate"); } gint vrate = ghb_settings_combo_int(js, "VideoFramerate"); if( vrate == 0 ) { job->vrate = title->rate; job->vrate_base = title->rate_base; job->cfr = 0; } else { job->vrate = 27000000; job->vrate_base = vrate; job->cfr = 1; } // AVI container does not support variable frame rate. // OGM supports variable frame rate, but bases all timing on // DTS, which breaks when b-frames are used since it is // impossible to reconstruct PTS from DTS when the framerate // is variable. if (job->mux == HB_MUX_AVI || job->mux == HB_MUX_OGM) { job->cfr = 1; } // First remove any audios that are already in the list // This happens if you are encoding the same title a second time. gint num_audio_tracks = hb_list_count(job->list_audio); gint ii; for(ii = 0; ii < num_audio_tracks; ii++) { hb_audio_t *audio = (hb_audio_t*)hb_list_item(job->list_audio, 0); hb_list_rem(job->list_audio, audio); } const GValue *audio_list; gint count; gint tcount = 0; audio_list = ghb_settings_get_value(js, "audio_list"); count = ghb_array_len(audio_list); for (ii = 0; ii < count; ii++) { GValue *asettings; hb_audio_config_t audio; hb_audio_config_t *taudio; hb_audio_config_init(&audio); asettings = ghb_array_get_nth(audio_list, ii); audio.in.track = ghb_settings_get_int(asettings, "AudioTrack"); audio.out.track = tcount; audio.out.codec = ghb_settings_combo_int(asettings, "AudioEncoder"); taudio = (hb_audio_config_t *) hb_list_audio_config_item( title->list_audio, audio.in.track ); if (audio.out.codec & (HB_ACODEC_AC3 | HB_ACODEC_DCA)) { if (!(taudio->in.codec & audio.out.codec)) { // Not supported. AC3 is passthrough only, so input must be AC3 if (job->mux == HB_MUX_AVI) { audio.out.codec = HB_ACODEC_LAME; } else { audio.out.codec = HB_ACODEC_FAAC; } } else { audio.out.codec &= taudio->in.codec; } } if ((job->mux == HB_MUX_MP4) && ((audio.out.codec == HB_ACODEC_LAME) || (audio.out.codec == HB_ACODEC_VORBIS))) { // mp4/mp3|vorbis combination is not supported. audio.out.codec = HB_ACODEC_FAAC; } if ((job->mux == HB_MUX_AVI) && ((audio.out.codec == HB_ACODEC_FAAC) || (audio.out.codec == HB_ACODEC_VORBIS))) { // avi/faac|vorbis combination is not supported. audio.out.codec = HB_ACODEC_LAME; } if ((job->mux == HB_MUX_OGM) && ((audio.out.codec == HB_ACODEC_FAAC) || (audio.out.codec == HB_ACODEC_AC3) || (audio.out.codec == HB_ACODEC_DCA))) { // ogm/faac|ac3 combination is not supported. audio.out.codec = HB_ACODEC_VORBIS; } audio.out.dynamic_range_compression = ghb_settings_get_double(asettings, "AudioTrackDRCSlider"); // It would be better if this were done in libhb for us, but its not yet. if (audio.out.codec == HB_ACODEC_AC3 || audio.out.codec == HB_ACODEC_DCA) { audio.out.mixdown = 0; } else { audio.out.mixdown = ghb_settings_combo_int(asettings, "AudioMixdown"); // Make sure the mixdown is valid and pick a new one if not. audio.out.mixdown = ghb_get_best_mix(titleindex, audio.in.track, audio.out.codec, audio.out.mixdown); audio.out.bitrate = ghb_settings_combo_int(asettings, "AudioBitrate"); gint srate = ghb_settings_combo_int(asettings, "AudioSamplerate"); if (srate == 0) // 0 is same as source audio.out.samplerate = taudio->in.samplerate; else audio.out.samplerate = srate; } // Add it to the jobs audio list hb_audio_add( job, &audio ); tcount++; } // I was tempted to move this up with the reset of the video quality // settings, but I suspect the settings above need to be made // first in order for hb_calc_bitrate to be accurate. if (ghb_settings_get_boolean(js, "vquality_type_target")) { gint size; size = ghb_settings_get_int(js, "VideoTargetSize"); job->vbitrate = hb_calc_bitrate( job, size ); job->vquality = -1.0; } dest_str = ghb_settings_get_string(js, "destination"); job->file = dest_str; job->crf = ghb_settings_get_boolean(js, "constant_rate_factor"); // TODO: libhb holds onto a reference to the x264opts and is not // finished with it until encoding the job is done. But I can't // find a way to get at the job before it is removed in order to // free up the memory I am allocating here. // The short story is THIS LEAKS. x264opts = ghb_build_x264opts_string(js); if( x264opts != NULL && *x264opts != '\0' ) { job->x264opts = x264opts; } else /*avoids a bus error crash when options aren't specified*/ { job->x264opts = NULL; } gint subtitle; subtitle = ghb_settings_get_int(js, "subtitle_index"); if (subtitle == -1) { job->indepth_scan = 1; } else if (subtitle >= 0) { hb_subtitle_t * subt; subt = (hb_subtitle_t *)hb_list_item(title->list_subtitle, subtitle); if (subt != NULL) { hb_list_add(job->list_subtitle, subt); } } gboolean forced_subtitles = ghb_settings_get_boolean(js, "SubtitlesForced"); job->subtitle_force = forced_subtitles; if (job->indepth_scan == 1) { // Subtitle scan. Look for subtitle matching audio language char *x264opts_tmp; /* * When subtitle scan is enabled do a fast pre-scan job * which will determine which subtitles to enable, if any. */ job->pass = -1; job->indepth_scan = 1; x264opts_tmp = job->x264opts; job->x264opts = NULL; job->select_subtitle = malloc(sizeof(hb_subtitle_t*)); *(job->select_subtitle) = NULL; /* * Add the pre-scan job */ job->sequence_id = (unique_id & 0xFFFFFF) | (sub_id++ << 24); hb_add( h, job ); //if (job->x264opts != NULL) // g_free(job->x264opts); job->x264opts = x264opts_tmp; } else { job->select_subtitle = NULL; } if( ghb_settings_get_boolean(js, "VideoTwoPass") && !ghb_settings_get_boolean(js, "vquality_type_constant")) { /* * If subtitle_scan is enabled then only turn it on * for the second pass and then off again for the * second. */ hb_subtitle_t **subtitle_tmp = job->select_subtitle; job->select_subtitle = NULL; job->pass = 1; job->indepth_scan = 0; gchar *x264opts2 = NULL; if (x264opts) { x264opts2 = g_strdup(x264opts); } /* * If turbo options have been selected then append them * to the x264opts now (size includes one ':' and the '\0') */ if( ghb_settings_get_boolean(js, "VideoTurboTwoPass") ) { char *tmp_x264opts; if ( x264opts ) { tmp_x264opts = g_strdup_printf("%s:%s", x264opts, turbo_opts); g_free(x264opts); } else { /* * No x264opts to modify, but apply the turbo options * anyway as they may be modifying defaults */ tmp_x264opts = g_strdup_printf("%s", turbo_opts); } x264opts = tmp_x264opts; job->x264opts = x264opts; } job->sequence_id = (unique_id & 0xFFFFFF) | (sub_id++ << 24); hb_add( h, job ); //if (job->x264opts != NULL) // g_free(job->x264opts); job->select_subtitle = subtitle_tmp; job->pass = 2; /* * On the second pass we turn off subtitle scan so that we * can actually encode using any subtitles that were auto * selected in the first pass (using the whacky select-subtitle * attribute of the job). */ job->indepth_scan = 0; job->x264opts = x264opts2; job->sequence_id = (unique_id & 0xFFFFFF) | (sub_id++ << 24); hb_add( h, job ); //if (job->x264opts != NULL) // g_free(job->x264opts); } else { job->indepth_scan = 0; job->pass = 0; job->sequence_id = (unique_id & 0xFFFFFF) | (sub_id++ << 24); hb_add( h, job ); //if (job->x264opts != NULL) // g_free(job->x264opts); } if (detel_str) g_free(detel_str); if (decomb_str) g_free(decomb_str); if (deint_str) g_free(deint_str); if (deblock_str) g_free(deblock_str); if (denoise_str) g_free(denoise_str); if (dest_str) g_free(dest_str); } void ghb_add_job(GValue *js, gint unique_id) { // Since I'm doing a scan of the single title I want just prior // to adding the job, there is only the one title to choose from. add_job(h_queue, js, unique_id, 0); } void ghb_add_live_job(GValue *js, gint unique_id) { // Since I'm doing a scan of the single title I want just prior // to adding the job, there is only the one title to choose from. gint titleindex = ghb_settings_combo_int(js, "title"); add_job(h_scan, js, unique_id, titleindex); } void ghb_remove_job(gint unique_id) { hb_job_t * job; gint ii; // Multiples passes all get the same id // remove them all. // Go backwards through list, so reordering doesn't screw me. ii = hb_count(h_queue) - 1; while ((job = hb_job(h_queue, ii--)) != NULL) { if ((job->sequence_id & 0xFFFFFF) == unique_id) hb_rem(h_queue, job); } } void ghb_start_queue() { hb_start( h_queue ); } void ghb_stop_queue() { hb_stop( h_queue ); } void ghb_start_live_encode() { hb_start( h_scan ); } void ghb_stop_live_encode() { hb_stop( h_scan ); } void ghb_pause_queue() { hb_state_t s; hb_get_state2( h_queue, &s ); if( s.state == HB_STATE_PAUSED ) { hb_resume( h_queue ); } else { hb_pause( h_queue ); } } static void vert_line( GdkPixbuf * pb, guint8 r, guint8 g, guint8 b, gint x, gint y, gint len, gint width) { guint8 *pixels = gdk_pixbuf_get_pixels (pb); guint8 *dst; gint ii, jj; gint channels = gdk_pixbuf_get_n_channels (pb); gint stride = gdk_pixbuf_get_rowstride (pb); for (jj = 0; jj < width; jj++) { dst = pixels + y * stride + (x+jj) * channels; for (ii = 0; ii < len; ii++) { dst[0] = r; dst[1] = g; dst[2] = b; dst += stride; } } } static void horz_line( GdkPixbuf * pb, guint8 r, guint8 g, guint8 b, gint x, gint y, gint len, gint width) { guint8 *pixels = gdk_pixbuf_get_pixels (pb); guint8 *dst; gint ii, jj; gint channels = gdk_pixbuf_get_n_channels (pb); gint stride = gdk_pixbuf_get_rowstride (pb); for (jj = 0; jj < width; jj++) { dst = pixels + (y+jj) * stride + x * channels; for (ii = 0; ii < len; ii++) { dst[0] = r; dst[1] = g; dst[2] = b; dst += channels; } } } static void hash_pixbuf( GdkPixbuf * pb, gint x, gint y, gint w, gint h, gint step, gint orientation) { gint ii, jj; gint line_width = 8; struct { guint8 r; guint8 g; guint8 b; } c[4] = {{0x80, 0x80, 0x80},{0xC0, 0x80, 0x70},{0x80, 0xA0, 0x80},{0x70, 0x80, 0xA0}}; if (!orientation) { // vertical lines for (ii = x, jj = 0; ii+line_width < x+w; ii += step, jj++) { vert_line(pb, c[jj&3].r, c[jj&3].g, c[jj&3].b, ii, y, h, line_width); } } else { // horizontal lines for (ii = y, jj = 0; ii+line_width < y+h; ii += step, jj++) { horz_line(pb, c[jj&3].r, c[jj&3].g, c[jj&3].b, x, ii, w, line_width); } } } GdkPixbuf* ghb_get_preview_image( gint titleindex, gint index, signal_user_data_t *ud, gint *out_width, gint *out_height) { GValue *settings; hb_title_t *title; hb_list_t *list; settings = ud->settings; list = hb_get_titles( h_scan ); if( !hb_list_count( list ) ) { /* No valid title, stop right there */ return NULL; } title = hb_list_item( list, titleindex ); if (title == NULL) return NULL; if (title->job == NULL) return NULL; set_preview_job_settings(title->job, settings); // hb_get_preview doesn't compensate for anamorphic, so lets // calculate scale factors gint width, height, par_width = 1, par_height = 1; gint pic_par = ghb_settings_combo_int(settings, "PicturePAR"); if (pic_par) { hb_set_anamorphic_size( title->job, &width, &height, &par_width, &par_height ); } // Make sure we have a big enough buffer to receive the image from libhb gint dstWidth = title->job->width; gint dstHeight= title->job->height; static guint8 *buffer = NULL; static gint bufferSize = 0; gint newSize; newSize = dstWidth * dstHeight * 4; if( bufferSize < newSize ) { bufferSize = newSize; buffer = (guint8*) g_realloc( buffer, bufferSize ); } hb_get_preview( h_scan, title, index, buffer ); // Create an GdkPixbuf and copy the libhb image into it, converting it from // libhb's format something suitable. // The image data returned by hb_get_preview is 4 bytes per pixel, // BGRA format. Alpha is ignored. GdkPixbuf *preview = gdk_pixbuf_new(GDK_COLORSPACE_RGB, FALSE, 8, dstWidth, dstHeight); guint8 *pixels = gdk_pixbuf_get_pixels (preview); guint32 *src = (guint32*)buffer; guint8 *dst = pixels; gint ii, jj; gint channels = gdk_pixbuf_get_n_channels (preview); gint stride = gdk_pixbuf_get_rowstride (preview); guint8 *tmp; for (ii = 0; ii < dstHeight; ii++) { tmp = dst; for (jj = 0; jj < dstWidth; jj++) { tmp[0] = src[0] >> 16; tmp[1] = src[0] >> 8; tmp[2] = src[0] >> 0; tmp += channels; src++; } dst += stride; } gint w = ghb_settings_get_int(settings, "scale_width"); gint h = ghb_settings_get_int(settings, "scale_height"); ghb_par_scale(ud, &w, &h, par_width, par_height); gint c0, c1, c2, c3; c0 = ghb_settings_get_int(settings, "PictureTopCrop"); c1 = ghb_settings_get_int(settings, "PictureBottomCrop"); c2 = ghb_settings_get_int(settings, "PictureLeftCrop"); c3 = ghb_settings_get_int(settings, "PictureRightCrop"); gdouble xscale = (gdouble)w / (gdouble)(title->width - c2 - c3); gdouble yscale = (gdouble)h / (gdouble)(title->height - c0 - c1); ghb_par_scale(ud, &dstWidth, &dstHeight, par_width, par_height); *out_width = w; *out_height = h; if (ghb_settings_get_boolean(settings, "reduce_hd_preview")) { GdkScreen *ss; gint s_w, s_h; gint orig_w, orig_h; gint factor = 80; if (ghb_settings_get_boolean(settings, "preview_fullscreen")) { factor = 100; } ss = gdk_screen_get_default(); s_w = gdk_screen_get_width(ss); s_h = gdk_screen_get_height(ss); orig_w = dstWidth; orig_h = dstHeight; if (dstWidth > s_w * factor / 100) { dstWidth = s_w * factor / 100; dstHeight = dstHeight * dstWidth / orig_w; } if (dstHeight > s_h * factor / 100) { dstHeight = s_h * factor / 100; dstWidth = dstWidth * dstHeight / orig_h; } xscale *= (gdouble)dstWidth / orig_w; yscale *= (gdouble)dstHeight / orig_h; w *= (gdouble)dstWidth / orig_w; h *= (gdouble)dstHeight / orig_h; } g_debug("scaled %d x %d", dstWidth, dstHeight); GdkPixbuf *scaled_preview; scaled_preview = gdk_pixbuf_scale_simple(preview, dstWidth, dstHeight, GDK_INTERP_HYPER); if (ghb_settings_get_boolean(settings, "show_crop")) { c0 *= yscale; c1 *= yscale; c2 *= xscale; c3 *= xscale; // Top hash_pixbuf(scaled_preview, c2, 0, w, c0, 32, 0); // Bottom hash_pixbuf(scaled_preview, c2, dstHeight-c1, w, c1, 32, 0); // Left hash_pixbuf(scaled_preview, 0, c0, c2, h, 32, 1); // Right hash_pixbuf(scaled_preview, dstWidth-c3, c0, c3, h, 32, 1); } g_object_unref (preview); return scaled_preview; } static void sanitize_volname(gchar *name) { gchar *a, *b; a = b = name; while (*b) { switch(*b) { case '<': b++; break; case '>': b++; break; default: *a = *b; a++; b++; break; } } *a = 0; } gchar* ghb_dvd_volname(const gchar *device) { gchar *name; name = hb_dvd_name((gchar*)device); if (name != NULL && name[0] != 0) { name = g_strdup(name); sanitize_volname(name); return name; } return NULL; }