/* callbacks.c * * Copyright (C) 2008-2025 John Stebbins * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2, * as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . * * SPDX-License-Identifier: GPL-2.0-only */ #include "callbacks.h" #include "application.h" #include "audiohandler.h" #include "chapters.h" #include "ghb-button.h" #include "ghb-file-button.h" #include "hb-backend.h" #include "hb-dvd.h" #include "jobdict.h" #include "notifications.h" #include "presets.h" #include "preview.h" #include "queuehandler.h" #include "resources.h" #include "subtitlehandler.h" #include "util.h" #include "videohandler.h" #include #include #include #include #include #include #if defined( __FreeBSD__ ) || defined(__OpenBSD__) #include #endif #ifdef _WIN32 #include #include #else #include #include #include #endif static void add_video_file_filters(GtkFileChooser *chooser); static void update_queue_labels(signal_user_data_t *ud); static void load_all_titles(signal_user_data_t *ud, int titleindex); static GList* dvd_device_list(void); static void prune_logs(void); static gboolean can_suspend_logind(void); static void suspend_logind(void); static void quit_dialog_show(void); static void quit_dialog_response(GtkDialog *dialog, int response, gpointer data); static void queue_done_action(signal_user_data_t *ud); static gboolean has_drive = FALSE; static GtkFileChooser *source_dialog = NULL; static void source_dialog_start_scan(GtkFileChooser *chooser, int title_id); #if !defined(_WIN32) #define DBUS_LOGIND_SERVICE "org.freedesktop.login1" #define DBUS_LOGIND_PATH "/org/freedesktop/login1" #define DBUS_LOGIND_INTERFACE "org.freedesktop.login1.Manager" #endif #if !defined(_WIN32) static GDBusProxy * ghb_get_dbus_proxy(GBusType type, const gchar *name, const gchar *path, const gchar *interface) { GDBusConnection *conn; GDBusProxy *proxy; GError *error = NULL; ghb_log_func(); conn = g_bus_get_sync(type, NULL, &error); if (conn == NULL) { if (error != NULL) { g_warning("DBUS cannot connect: %s", error->message); g_error_free(error); } return NULL; } proxy = g_dbus_proxy_new_sync(conn, G_DBUS_PROXY_FLAGS_NONE, NULL, name, path, interface, NULL, NULL); if (proxy == NULL) g_warning("Could not get DBUS proxy: %s", name); g_object_unref(conn); return proxy; } #endif static gboolean can_suspend_logind (void) { gboolean can_suspend = FALSE; #if !defined(_WIN32) char *str = NULL; GDBusProxy *proxy; GError *error = NULL; GVariant *res; ghb_log_func(); proxy = ghb_get_dbus_proxy(G_BUS_TYPE_SYSTEM, DBUS_LOGIND_SERVICE, DBUS_LOGIND_PATH, DBUS_LOGIND_INTERFACE); if (proxy == NULL) return FALSE; res = g_dbus_proxy_call_sync(proxy, "CanSuspend", NULL, G_DBUS_CALL_FLAGS_NONE, -1, NULL, &error); if (!res) { if (error != NULL) { g_warning("CanSuspend failed: %s", error->message); g_error_free(error); } else g_warning("CanSuspend failed"); // Try to shutdown anyway can_suspend = TRUE; } else { g_variant_get(res, "(s)", &str); g_variant_unref(res); if (g_strcmp0(str, "yes") == 0) can_suspend = TRUE; g_free(str); } g_object_unref(G_OBJECT(proxy)); #endif return can_suspend; } static void suspend_logind (void) { #if !defined(_WIN32) GDBusProxy *proxy; GError *error = NULL; GVariant *res; ghb_log_func(); proxy = ghb_get_dbus_proxy(G_BUS_TYPE_SYSTEM, DBUS_LOGIND_SERVICE, DBUS_LOGIND_PATH, DBUS_LOGIND_INTERFACE); if (proxy == NULL) return; res = g_dbus_proxy_call_sync(proxy, "Suspend", g_variant_new("(b)", FALSE), G_DBUS_CALL_FLAGS_NONE, -1, NULL, &error); if (!res) { if (error != NULL) { g_warning("Suspend failed: %s", error->message); g_error_free(error); } else g_warning("Suspend failed"); } else { g_variant_unref(res); } g_object_unref(G_OBJECT(proxy)); #endif } static gboolean can_shutdown_logind (void) { gboolean can_shutdown = FALSE; #if !defined(_WIN32) char *str = NULL; GDBusProxy *proxy; GError *error = NULL; GVariant *res; ghb_log_func(); proxy = ghb_get_dbus_proxy(G_BUS_TYPE_SYSTEM, DBUS_LOGIND_SERVICE, DBUS_LOGIND_PATH, DBUS_LOGIND_INTERFACE); if (proxy == NULL) return FALSE; res = g_dbus_proxy_call_sync(proxy, "CanPowerOff", NULL, G_DBUS_CALL_FLAGS_NONE, -1, NULL, &error); if (!res) { if (error != NULL) { g_warning("CanPowerOff failed: %s", error->message); g_error_free(error); } else g_warning("CanPowerOff failed"); // Try to shutdown anyway can_shutdown = TRUE; } else { g_variant_get(res, "(s)", &str); g_variant_unref(res); if (g_strcmp0(str, "yes") == 0) can_shutdown = TRUE; g_free(str); } g_object_unref(G_OBJECT(proxy)); #endif return can_shutdown; } static void shutdown_logind (void) { #if !defined(_WIN32) GDBusProxy *proxy; GError *error = NULL; GVariant *res; ghb_log_func(); proxy = ghb_get_dbus_proxy(G_BUS_TYPE_SYSTEM, DBUS_LOGIND_SERVICE, DBUS_LOGIND_PATH, DBUS_LOGIND_INTERFACE); if (proxy == NULL) return; res = g_dbus_proxy_call_sync(proxy, "PowerOff", g_variant_new("(b)", FALSE), G_DBUS_CALL_FLAGS_NONE, -1, NULL, &error); if (!res) { if (error != NULL) { g_warning("PowerOff failed: %s", error->message); g_error_free(error); } else g_warning("PowerOff failed"); } else { g_variant_unref(res); } g_object_unref(G_OBJECT(proxy)); #endif } static guint suspend_cookie = 0; static void inhibit_suspend (void) { if (suspend_cookie) { // Already inhibited return; } suspend_cookie = gtk_application_inhibit(GTK_APPLICATION(GHB_APPLICATION_DEFAULT), NULL, GTK_APPLICATION_INHIBIT_SUSPEND | GTK_APPLICATION_INHIBIT_LOGOUT, _("An encode is in progress.")); } static void uninhibit_suspend (void) { if (suspend_cookie) { gtk_application_uninhibit(GTK_APPLICATION(GHB_APPLICATION_DEFAULT), suspend_cookie); suspend_cookie = 0; } } // This is a dependency map used for greying widgets // that are dependent on the state of another widget. // The enable_value comes from the values that are // obtained from ghb_widget_value(). For combo boxes // you will have to look further to combo box options // maps in hb-backend.c typedef struct { const char *source_widget; const char *source_property; const char *source_property_values; const char *target_widget; const char *target_property; gboolean invert; GBindingFlags flags; } GhbBinding; gboolean ghb_bind_property (GBinding *binding, const GValue *from_value, GValue *to_value, gpointer user_data) { const char *from_list, *from_str; g_return_val_if_fail(G_VALUE_HOLDS_BOOLEAN(to_value), FALSE); from_list = (const char *)user_data; if (G_VALUE_HOLDS_STRING(from_value)) { from_str = g_value_get_string(from_value); if (!from_str) return TRUE; g_value_set_boolean(to_value, g_str_match_string(from_str, from_list, FALSE)); } else if (G_VALUE_HOLDS_BOOLEAN(from_value)) { g_value_copy(from_value, to_value); } else if (G_VALUE_HOLDS_DOUBLE(from_value)) { long from_dbl = (long) g_value_get_double(from_value); long from_max = strtol(from_list, NULL, 10); g_value_set_boolean(to_value, from_dbl > from_max); } else { g_warning("Unrecognized binding value type"); return FALSE; } return TRUE; } gboolean ghb_bind_property_inverted (GBinding *binding, const GValue *from_value, GValue *to_value, gpointer user_data) { const char *from_list, *from_str; g_return_val_if_fail(G_VALUE_HOLDS_BOOLEAN(to_value), FALSE); from_list = (const char *)user_data; if (G_VALUE_HOLDS_STRING(from_value)) { from_str = g_value_get_string(from_value); if (!from_str) return TRUE; g_value_set_boolean(to_value, !g_str_match_string(from_str, from_list, FALSE)); } else if (G_VALUE_HOLDS_BOOLEAN(from_value)) g_value_set_boolean(to_value, !g_value_get_boolean(from_value)); else if (G_VALUE_HOLDS_DOUBLE(from_value)) { long from_dbl = (long) g_value_get_double(from_value); long from_max = strtol(from_list, NULL, 10); g_value_set_boolean(to_value, from_dbl <= from_max); } else { g_warning("Unrecognized binding value type"); return FALSE; } return TRUE; } static GhbBinding widget_bindings[] = { {"angle_adj", "upper", "1", "angle", "visible"}, {"angle_adj", "upper", "1", "angle_label", "visible"}, {"title", "active-id", "none", "PtoPType", "sensitive", TRUE}, {"title", "active-id", "none", "live_preview_play", "sensitive", TRUE}, {"title", "active-id", "none", "preview_frame", "sensitive", TRUE}, {"title", "active-id", "none", "chapters_tab", "sensitive", TRUE}, {"title", "active-id", "none", "start_point", "sensitive", TRUE}, {"title", "active-id", "none", "end_point", "sensitive", TRUE}, {"title", "active-id", "none", "angle", "sensitive", TRUE}, {"title", "active-id", "none", "angle_label", "sensitive", TRUE}, {"vquality_type_bitrate", "active", NULL, "VideoAvgBitrate", "sensitive"}, {"vquality_type_bitrate", "sensitive", NULL, "VideoAvgBitrate", "sensitive"}, {"vquality_type_constant", "active", NULL, "VideoQualitySlider", "sensitive"}, {"vquality_type_constant", "sensitive", NULL, "VideoQualitySlider", "sensitive"}, {"vquality_type_constant", "active", NULL, "video_quality_label", "sensitive"}, {"VideoFramerate", "active-id", "auto", "VideoFrameratePFR", "visible", TRUE}, {"VideoFramerate", "active-id", "auto", "VideoFramerateVFR", "visible"}, {"VideoMultiPass", "active", NULL, "VideoTurboMultiPass", "sensitive"}, {"PictureCombDetectPreset", "active-id", "custom1", "PictureCombDetectCustom", "visible"}, {"PictureDeinterlaceFilter", "active-id", "off", "PictureDeinterlaceOptions", "visible", TRUE}, {"PictureDeinterlacePreset", "active-id", "custom", "PictureDeinterlaceCustom", "visible"}, {"PictureDeblockPreset", "active-id", "off|custom", "PictureDeblockTune", "visible", TRUE}, {"PictureDeblockPreset", "active-id", "off|custom", "PictureDeblockTuneLabel", "visible", TRUE}, {"PictureDeblockPreset", "active-id", "custom2", "PictureDeblockCustom", "visible"}, {"PictureDenoiseFilter", "active-id", "off", "PictureDenoiseOptions", "visible", TRUE}, {"PictureDenoisePreset", "active-id", "custom3", "PictureDenoiseCustom", "visible"}, {"PictureDenoisePreset", "active-id", "custom4", "PictureDenoiseTune", "visible", TRUE}, {"PictureDenoisePreset", "active-id", "custom5", "PictureDenoiseTuneLabel", "visible", TRUE}, {"PictureChromaSmoothPreset", "active-id", "off|custom", "PictureChromaSmoothTune", "visible", TRUE}, {"PictureChromaSmoothPreset", "active-id", "off|custom", "PictureChromaSmoothTuneLabel", "visible", TRUE}, {"PictureChromaSmoothPreset", "active-id", "custom6", "PictureChromaSmoothCustom", "visible"}, {"PictureSharpenFilter", "active-id", "off", "PictureSharpenOptions", "visible", TRUE}, {"PictureSharpenPreset", "active-id", "custom7", "PictureSharpenCustom", "visible"}, {"PictureSharpenPreset", "active-id", "custom8", "PictureSharpenTune", "visible", TRUE}, {"PictureSharpenPreset", "active-id", "custom9", "PictureSharpenTuneLabel", "visible", TRUE}, {"PictureDetelecine", "active-id", "custom10", "PictureDetelecineCustom", "visible"}, {"PictureColorspacePreset", "active-id", "custom11", "PictureColorspaceCustom", "visible"}, {"VideoEncoder", "active-id", "svt_av1|svt_av1_10bit|x264|x264_10bit", "x264FastDecode", "visible"}, {"VideoEncoder", "active-id", "svt_av1|svt_av1_10bit|x264|x264_10bit|x265|x265_10bit|x265_12bit|x265_16bit|mpeg4|mpeg2|VP8|VP9|VP9_10bit|qsv_av1|qsv_av1_10bit|qsv_h264|qsv_h265|qsv_h265_10bit", "VideoOptionExtraWindow", "visible"}, {"VideoEncoder", "active-id", "svt_av1|svt_av1_10bit|x264|x264_10bit|x265|x265_10bit|x265_12bit|x265_16bit|mpeg4|mpeg2|VP8|VP9|VP9_10bit|qsv_av1|qsv_av1_10bit|qsv_h264|qsv_h265|qsv_h265_10bit", "VideoOptionExtraLabel", "visible"}, {"auto_name", "active", NULL, "autoname_box", "sensitive"}, {"CustomTmpEnable", "active", NULL, "CustomTmpDir", "sensitive"}, {"PresetCategory", "active-id", "new", "PresetCategoryName", "visible"}, {"PresetCategory", "active-id", "new", "PresetCategoryEntryLabel", "visible"}, {"DiskFreeCheck", "active", NULL, "DiskFreeLimitGB", "sensitive"}, {"LimitMaxDuration", "active", NULL, "MaxTitleDuration", "sensitive"}, {"SendFileTo", "active", NULL, "SendFileToTarget", "sensitive"} }; void ghb_bind_dependencies (void) { GhbBinding *binding; GObject *source, *target; GBindingTransformFunc func; int n_bindings = sizeof(widget_bindings) / sizeof(GhbBinding); for (int i = 0; i < n_bindings; i++) { binding = &widget_bindings[i]; func = (GBindingTransformFunc) (binding->invert ? ghb_bind_property_inverted : ghb_bind_property); source = ghb_builder_object(binding->source_widget); if (!G_IS_OBJECT(source)) g_warning("Invalid object name: %s", binding->source_widget); target = ghb_builder_object(binding->target_widget); if (!G_IS_OBJECT(target)) g_warning("Invalid object name: %s", binding->target_widget); g_object_bind_property_full(source, binding->source_property, target, binding->target_property, binding->flags | G_BINDING_SYNC_CREATE, func, NULL, (gpointer) gettext(binding->source_property_values), NULL); } } static void application_quit (void) { ghb_hb_cleanup(FALSE); prune_logs(); g_application_quit(g_application_get_default()); } G_MODULE_EXPORT void quit_action_cb (GSimpleAction *action, GVariant *param, gpointer data) { gint state = ghb_get_queue_state(); if (state & (GHB_STATE_WORKING|GHB_STATE_SEARCHING)) { quit_dialog_show(); return; } else { application_quit(); } } static gboolean uppers_and_unders(gchar *str) { if (str == NULL) return FALSE; str = g_strchomp(g_strchug(str)); while (*str) { if (*str == ' ') { return FALSE; } if (*str >= 'a' && *str <= 'z') { return FALSE; } str++; } return TRUE; } enum { CAMEL_FIRST_UPPER, CAMEL_OTHER }; static void camel_convert(gchar *str) { gint state = CAMEL_OTHER; if (str == NULL) return; while (*str) { if (*str == '_') *str = ' '; switch (state) { case CAMEL_OTHER: { if (*str >= 'A' && *str <= 'Z') state = CAMEL_FIRST_UPPER; else state = CAMEL_OTHER; } break; case CAMEL_FIRST_UPPER: default: { if (*str >= 'A' && *str <= 'Z') *str = *str - 'A' + 'a'; else state = CAMEL_OTHER; } break; } str++; } } #if defined(_WIN32) static gchar* get_dvd_device_name(gchar *device) { return g_strdup(device); } #else static gchar* get_dvd_device_name(GDrive *gd) { return g_drive_get_identifier(gd, G_VOLUME_IDENTIFIER_KIND_UNIX_DEVICE); } #endif static GHashTable *volname_hash = NULL; static GMutex volname_mutex_static; static GMutex *volname_mutex; static void free_volname_key(gpointer data) { if (data != NULL) g_free(data); } static void free_volname_value(gpointer data) { if (data != NULL) g_free(data); } #if defined(_WIN32) static gchar* get_direct_dvd_volume_name(const gchar *drive) { gchar *result = NULL; gchar vname[51], fsname[51]; if (GetVolumeInformation(drive, vname, 50, NULL, NULL, NULL, fsname, 50)) { result = g_strdup_printf("%s", vname); } return result; } #else static gchar* get_direct_dvd_volume_name(const gchar *drive) { gchar *result; result = ghb_dvd_volname (drive); return result; } #endif static gchar* get_dvd_volume_name(gpointer gd) { gchar *label = NULL; gchar *result; gchar *drive; drive = get_dvd_device_name(gd); if (drive == NULL) return NULL; g_mutex_lock(volname_mutex); label = g_strdup(g_hash_table_lookup(volname_hash, drive)); g_mutex_unlock(volname_mutex); if (label != NULL) { if (uppers_and_unders(label)) { camel_convert(label); } result = g_strdup_printf("%s (%s)", label, drive); g_free(label); } else { result = g_strdup_printf("%s", drive); } g_free(drive); return result; } void ghb_volname_cache_init(void) { g_mutex_init(&volname_mutex_static); volname_mutex = &volname_mutex_static; volname_hash = g_hash_table_new_full(g_str_hash, g_str_equal, free_volname_key, free_volname_value); } static void free_drive(gpointer drive) { #if defined(_WIN32) g_free(drive); #else g_object_unref(drive); #endif } gpointer ghb_cache_volnames(signal_user_data_t *ud) { GList *link, *drives; ghb_log_func(); link = drives = dvd_device_list(); if (drives == NULL) return NULL; g_mutex_lock(volname_mutex); g_hash_table_remove_all(volname_hash); while (link != NULL) { gchar *name, *drive; #if !defined(_WIN32) if (!g_drive_has_media (link->data)) { g_object_unref(link->data); link = link->next; continue; } #endif drive = get_dvd_device_name(link->data); name = get_direct_dvd_volume_name(drive); if (drive != NULL && name != NULL) { g_hash_table_insert(volname_hash, drive, name); } else { if (drive != NULL) g_free(drive); if (name != NULL) g_free(name); } free_drive(link->data); link = link->next; } g_mutex_unlock(volname_mutex); g_list_free(drives); g_idle_add((GSourceFunc)ghb_file_menu_add_dvd, ud); return NULL; } static const gchar* get_extension(signal_user_data_t *ud, GhbValue *settings) { const char *mux_id; const hb_container_t *mux; mux_id = ghb_dict_get_string(settings, "FileFormat"); mux = ghb_lookup_container_by_name(mux_id); if ((mux->format & HB_MUX_MASK_MP4) && ghb_dict_get_bool(ud->prefs, "UseM4v")) { return "m4v"; } return mux->default_extension; } gboolean ghb_check_name_template (signal_user_data_t *ud, const char *str) { if (ghb_dict_get_bool(ud->prefs, "auto_name")) { const gchar *template; template = ghb_dict_get_string(ud->prefs, "auto_name_template"); if (strstr(template, str) != NULL) return TRUE; } return FALSE; } typedef struct { const char *pattern; const char *format; } datemap; static int parse_datestring(const char *src, struct tm *tm) { datemap ymdThmsZ = {"[0-9]{4}-[0-1]?[0-9]-[0-3]?[0-9]T[0-9]{2}:[0-9]{2}:[0-9]{2}Z", "%Y-%m-%dT%H:%M:%SZ"}; datemap maps[1] = { ymdThmsZ }; for (guint i = 0; i < sizeof(maps); i++) { if (hb_validate_param_string(maps[i].pattern, src)) { av_small_strptime(src, maps[i].format, tm); return 1; } } return 0; } G_GNUC_STRFTIME(1) static char* get_creation_date(const char *pattern, const char *metaValue, const char *file) { char date[11] = ""; if (metaValue != NULL && strlen(metaValue) > 1) { struct tm tm; if (parse_datestring(metaValue, &tm)) { strftime(date, 11, pattern, &tm); } } else { GStatBuf stbuf; if (g_stat(file, &stbuf) == 0){ struct tm *tm; tm = localtime(&(stbuf.st_mtime)); strftime(date, 11, pattern, tm); } } return strdup(date); } static void make_unique_dest(const gchar *dest_dir, GString *str, const gchar * extension) { GString * uniq = g_string_new(str->str); int copy = 0; g_string_printf(uniq, "%s/%s.%s", dest_dir, str->str, extension); while (g_file_test(uniq->str, G_FILE_TEST_EXISTS)) { g_string_printf(uniq, "%s/%s (%d).%s", dest_dir, str->str, ++copy, extension); } if (copy) { g_string_append_printf(str, " (%d)", copy); } g_string_free(uniq, TRUE); } /* TODO: It would be better to cache this rather than query * the file system every time the output name changes */ static GDateTime * get_file_modification_date_time (const char *filename) { GFile *file; GFileInfo *info; GDateTime *datetime = NULL; file = g_file_new_for_path(filename); info = g_file_query_info(file, G_FILE_ATTRIBUTE_TIME_MODIFIED, G_FILE_QUERY_INFO_NONE, NULL, NULL); if (info != NULL) { datetime = g_file_info_get_modification_date_time(info); g_object_unref(info); } g_object_unref(file); return datetime; } static char * get_file_modification_date (const char *filename) { GDateTime *datetime; char *result = NULL; datetime = get_file_modification_date_time(filename); if (datetime != NULL) { result = g_date_time_format(datetime, "%Y-%m-%d"); g_date_time_unref(datetime); } return result; } static char * get_file_modification_time (const char *filename) { char *result = NULL; GDateTime *datetime; datetime = get_file_modification_date_time(filename); if (datetime != NULL) { result = g_date_time_format(datetime, "%H:%M"); g_date_time_unref(datetime); } return result; } static void set_destination_settings(signal_user_data_t *ud, GhbValue *settings) { const gchar *extension, *dest_file, *dest_dir; gchar *filename; extension = get_extension(ud, settings); ghb_log_func(); dest_file = ghb_dict_get_string(ud->settings, "dest_file"); if (dest_file == NULL) { // Initialize destination filename if it has no value yet. // If auto-naming is disabled, this will be the default filename. GString *str = g_string_new(""); const gchar *vol_name; vol_name = ghb_dict_get_string(settings, "volume"); g_string_append_printf(str, "%s", vol_name); g_string_append_printf(str, ".%s", extension); filename = g_string_free(str, FALSE); ghb_dict_set_string(settings, "dest_file", filename); g_free(filename); } ghb_dict_set(settings, "dest_dir", ghb_value_dup( ghb_dict_get_value(ud->prefs, "destination_dir"))); if (ghb_dict_get_bool(ud->prefs, "auto_name")) { GString *str = g_string_new(""); const gchar *p; p = ghb_dict_get_string(ud->prefs, "auto_name_template"); // {source-path} is only allowed as the first element of the // template since the path must come first in the filename if (p != NULL && (!strncasecmp(p, "{source-path}", strlen("{source-path}")) || !strncasecmp(p, "{source_path}", strlen("{source_path}")))) { const char *source = ghb_get_scan_source(); if (source != NULL) { char * dirname = g_path_get_dirname(source); // if dirname is a directory and it is writable... if (dirname != NULL && g_file_test(dirname, G_FILE_TEST_IS_DIR) && access(dirname, W_OK) == 0) { ghb_dict_set_string(settings, "dest_dir", dirname); } g_free(dirname); } p += strlen("{source-path}"); } while (*p) { if (!strncasecmp(p, "{source}", strlen("{source}"))) { const gchar *vol_name; vol_name = ghb_dict_get_string(settings, "volume"); g_string_append_printf(str, "%s", vol_name); p += strlen("{source}"); } else if (!strncasecmp(p, "{title}", strlen("{title}"))) { gint title = ghb_dict_get_int(settings, "title"); if (title >= 0) g_string_append_printf(str, "%d", title); p += strlen("{title}"); } else if (!strncasecmp(p, "{width}", strlen("{width}"))) { int width = ghb_dict_get_int(settings, "scale_width"); g_string_append_printf(str, "%d", width); p += strlen("{width}"); } else if (!strncasecmp(p, "{height}", strlen("{height}"))) { int height = ghb_dict_get_int(settings, "scale_height"); g_string_append_printf(str, "%d", height); p += strlen("{height}"); } else if (!strncasecmp(p, "{preset}", strlen("{preset}"))) { const gchar *preset_name; preset_name = ghb_dict_get_string(settings, "PresetName"); g_string_append_printf(str, "%s", preset_name); p += strlen("{preset}"); } else if (!strncasecmp(p, "{chapters}", strlen("{chapters}"))) { if (ghb_settings_combo_int(settings, "PtoPType") == 0) { gint start, end; start = ghb_dict_get_int(settings, "start_point"); end = ghb_dict_get_int(settings, "end_point"); if (start == end) g_string_append_printf(str, "%d", start); else g_string_append_printf(str, "%d-%d", start, end); } p += strlen("{chapters}"); } else if (!strncasecmp(p, "{time}", strlen("{time}"))) { char st[6]; struct tm *lt; time_t t = time(NULL); lt = localtime(&t); st[0] = 0; strftime(st, 6, "%H:%M", lt); g_string_append_printf(str, "%s", st); p += strlen("{time}"); } else if (!strncasecmp(p, "{date}", strlen("{date}"))) { char dt[11]; struct tm *lt; time_t t = time(NULL); lt = localtime(&t); dt[0] = 0; strftime(dt, 11, "%Y-%m-%d", lt); g_string_append_printf(str, "%s", dt); p += strlen("{date}"); } else if (!strncasecmp(p, "{creation-date}", strlen("{creation-date}"))) { gchar *val; const char *source = ghb_get_scan_source(); val = get_creation_date("%Y-%m-%d", ghb_dict_get_string(settings, "MetaReleaseDate"), source); g_string_append_printf(str, "%s", val); p += strlen("{creation-date}"); g_free(val); } else if (!strncasecmp(p, "{creation-time}", strlen("{creation-time}"))) { gchar *val; const char *source = ghb_get_scan_source(); val = get_creation_date("%H:%M", ghb_dict_get_string(settings, "MetaReleaseDate"), source); g_string_append_printf(str, "%s", val); p += strlen("{creation-time}"); g_free(val); } else if (!strncasecmp(p, "{modification-date}", strlen("{modification-date}"))) { gchar *val; const char *source = ghb_get_scan_source(); val = get_file_modification_date(source); if (val != NULL) g_string_append_printf(str, "%s", val); p += strlen("{modification-date}"); g_free(val); } else if (!strncasecmp(p, "{modification-time}", strlen("{modification-time}"))) { gchar *val; const char *source = ghb_get_scan_source(); val = get_file_modification_time(source); if (val != NULL) g_string_append_printf(str, "%s", val); p += strlen("{modification-time}"); g_free(val); } else if (!strncasecmp(p, "{quality}", strlen("{quality}"))) { if (ghb_dict_get_bool(settings, "vquality_type_constant")) { gint vcodec; const char *vqname; double vquality; vcodec = ghb_settings_video_encoder_codec(settings, "VideoEncoder"); vqname = hb_video_quality_get_name(vcodec); vquality = ghb_dict_get_double(settings, "VideoQualitySlider"); g_string_append_printf(str, "%s%.3g", vqname, vquality); } p += strlen("{quality}"); } else if (!strncasecmp(p, "{bitrate}", strlen("{bitrate}"))) { if (ghb_dict_get_bool(settings, "vquality_type_bitrate")) { int vbitrate; vbitrate = ghb_dict_get_int(settings, "VideoAvgBitrate"); g_string_append_printf(str, "%dkbps", vbitrate); } p += strlen("{bitrate}"); } else if (!strncasecmp(p, "{codec}", strlen("{codec}"))) { int vcodec; const char *codec; vcodec = ghb_settings_video_encoder_codec(settings, "VideoEncoder"); codec = hb_video_encoder_get_name(vcodec); if (codec) { g_string_append_len(str, codec, strcspn(codec, " (")); } else { g_string_append(str, "None"); } p += strlen("{codec}"); } else if (!strncasecmp(p, "{bit-depth}", strlen("{bit-depth}"))) { int vcodec, bit_depth; vcodec = ghb_settings_video_encoder_codec(settings, "VideoEncoder"); bit_depth = hb_video_encoder_get_depth(vcodec); g_string_append_printf(str, "%d", bit_depth); p += strlen("{bit-depth}"); } else { g_string_append_printf(str, "%c", *p); p++; } } dest_dir = ghb_dict_get_string(settings, "dest_dir"); make_unique_dest(dest_dir, str, extension); g_string_append_printf(str, ".%s", extension); filename = g_string_free(str, FALSE); ghb_dict_set_string(settings, "dest_file", filename); g_free(filename); } } void ghb_set_destination (signal_user_data_t *ud) { set_destination_settings(ud, ud->settings); ghb_ui_update("dest_file", ghb_dict_get_value(ud->settings, "dest_file")); } static void source_dialog_drive_list (GtkFileChooser *chooser, signal_user_data_t *ud) { GList *drives, *link; guint length, ii = 1; gchar **entries; ghb_log_func(); link = drives = dvd_device_list(); if (!link) { has_drive = FALSE; return; } has_drive = TRUE; length = g_list_length(drives); entries = g_malloc0_n(length + 2, sizeof(char*)); entries[0] = g_strdup(_("Not Selected")); while (link && ii <= length) { gchar *name = get_dvd_device_name(link->data); entries[ii] = name; link = link->next; ii++; } g_list_free(drives); gtk_file_chooser_add_choice(chooser, "drive", _("Detected DVD devices:"), (const gchar **) entries, (const gchar **) entries); gtk_file_chooser_set_choice(chooser, "drive", _("Not Selected")); g_strfreev(entries); } void ghb_break_pts_duration(gint64 ptsDuration, gint *hh, gint *mm, gdouble *ss) { *hh = ptsDuration / (90000 * 60 * 60); ptsDuration -= *hh * 90000 * 60 * 60; *mm = ptsDuration / (90000 * 60); ptsDuration -= *mm * 90000 * 60; *ss = (gdouble)ptsDuration / 90000; } void ghb_break_duration(gint64 duration, gint *hh, gint *mm, gint *ss) { *hh = duration / (60*60); *mm = (duration / 60) % 60; *ss = duration % 60; } static gint64 title_range_get_duration (GhbValue * settings, const hb_title_t * title) { gint64 start, end; if (ghb_settings_combo_int(settings, "PtoPType") == 0) { start = ghb_dict_get_int(settings, "start_point"); end = ghb_dict_get_int(settings, "end_point"); return ghb_chapter_range_get_duration(title, start, end) / 90000; } else if (ghb_settings_combo_int(settings, "PtoPType") == 1) { start = ghb_dict_get_int(settings, "start_point"); end = ghb_dict_get_int(settings, "end_point"); return end - start; } else if (ghb_settings_combo_int(settings, "PtoPType") == 2) { if (title != NULL) { gint64 frames; start = ghb_dict_get_int(settings, "start_point"); end = ghb_dict_get_int(settings, "end_point"); frames = end - start + 1; return frames * title->vrate.den / title->vrate.num; } else { return 0; } } return 0; } static void update_title_duration(signal_user_data_t *ud) { gint hh, mm, ss; gint64 duration; gchar *text; GtkWidget *widget; int title_id, titleindex; const hb_title_t *title; title_id = ghb_dict_get_int(ud->settings, "title"); title = ghb_lookup_title(title_id, &titleindex); widget = ghb_builder_widget("title_duration"); duration = title_range_get_duration(ud->settings, title); ghb_break_duration(duration, &hh, &mm, &ss); text = g_strdup_printf("%02d:%02d:%02d", hh, mm, ss); gtk_label_set_text(GTK_LABEL(widget), text); g_free(text); } void ghb_show_container_options(signal_user_data_t *ud) { GtkWidget *w1, *w2, *w3; w1 = ghb_builder_widget("AlignAVStart"); w2 = ghb_builder_widget("Optimize"); w3 = ghb_builder_widget("Mp4iPodCompatible"); const char *mux_id; const hb_container_t *mux; mux_id = ghb_dict_get_string(ud->settings, "FileFormat"); mux = ghb_lookup_container_by_name(mux_id); gint enc = ghb_settings_video_encoder_codec(ud->settings, "VideoEncoder"); gtk_widget_set_visible(w1, (mux->format & HB_MUX_MASK_MP4)); gtk_widget_set_visible(w2, (mux->format & HB_MUX_MASK_MP4)); gtk_widget_set_visible(w3, (mux->format & HB_MUX_MASK_MP4) && (enc == HB_VCODEC_X264_8BIT)); } static void adjustment_configure( GtkAdjustment *adj, double val, double min, double max, double step, double page, double page_sz) { gtk_adjustment_configure(adj, val, min, max, step, page, page_sz); } static void spin_configure (signal_user_data_t *ud, const char *name, double val, double min, double max) { GtkSpinButton *spin; GtkAdjustment *adj; double step, page, page_sz; spin = GTK_SPIN_BUTTON(ghb_builder_widget(name)); adj = gtk_spin_button_get_adjustment(spin); step = gtk_adjustment_get_step_increment(adj); page = gtk_adjustment_get_page_increment(adj); page_sz = gtk_adjustment_get_page_size(adj); adjustment_configure(adj, val, min, max, step, page, page_sz); } void ghb_scale_configure( signal_user_data_t *ud, const char *name, double val, double min, double max, double step, double page, int digits, gboolean inverted) { GtkScale *scale; GtkAdjustment *adj; double page_sz; scale = GTK_SCALE(ghb_builder_widget(name)); adj = gtk_range_get_adjustment(GTK_RANGE(scale)); page_sz = gtk_adjustment_get_page_size(adj); adjustment_configure(adj, val, min, max, step, page, page_sz); gtk_scale_set_digits(scale, digits); gtk_range_set_inverted(GTK_RANGE(scale), inverted); } static void set_widget_ranges (signal_user_data_t *ud, GhbValue *settings) { int title_id, titleindex; const hb_title_t * title; double val; title_id = ghb_dict_get_int(settings, "title"); title = ghb_lookup_title(title_id, &titleindex); // Reconfigure the UI combo boxes ghb_update_ui_combo_box(ud, "AudioTrack", title, FALSE); ghb_update_ui_combo_box(ud, "SubtitleTrack", title, FALSE); if (title != NULL) { // Set the limits of cropping. hb_set_anamorphic_size crashes if // you pass it a cropped width or height == 0. gint vbound, hbound; vbound = title->geometry.height; hbound = title->geometry.width; val = ghb_dict_get_int(ud->settings, "PictureTopCrop"); spin_configure(ud, "PictureTopCrop", val, 0, vbound); val = ghb_dict_get_int(ud->settings, "PictureBottomCrop"); spin_configure(ud, "PictureBottomCrop", val, 0, vbound); val = ghb_dict_get_int(ud->settings, "PictureLeftCrop"); spin_configure(ud, "PictureLeftCrop", val, 0, hbound); val = ghb_dict_get_int(ud->settings, "PictureRightCrop"); spin_configure(ud, "PictureRightCrop", val, 0, hbound); gint duration = title->duration / 90000; if (ghb_settings_combo_int(ud->settings, "PtoPType") == 0) { GhbValue *chapter_list = ghb_get_job_chapter_list(settings); gint num_chapters = ghb_array_len(chapter_list); val = ghb_dict_get_int(ud->settings, "start_point"); spin_configure(ud, "start_point", val, 1, num_chapters); val = ghb_dict_get_int(ud->settings, "end_point"); spin_configure(ud, "end_point", val, 1, num_chapters); } else if (ghb_settings_combo_int(ud->settings, "PtoPType") == 1) { val = ghb_dict_get_int(ud->settings, "start_point"); spin_configure(ud, "start_point", val, 0, duration * 2 - 1); val = ghb_dict_get_int(ud->settings, "end_point"); spin_configure(ud, "end_point", val, 0, duration * 2); } else if (ghb_settings_combo_int(ud->settings, "PtoPType") == 2) { gdouble max_frames; max_frames = (gdouble)duration * title->vrate.num / title->vrate.den; val = ghb_dict_get_int(ud->settings, "start_point"); spin_configure(ud, "start_point", val, 1, max_frames * 2); val = ghb_dict_get_int(ud->settings, "end_point"); spin_configure(ud, "end_point", val, 1, max_frames * 2); } val = ghb_dict_get_int(ud->settings, "angle"); spin_configure(ud, "angle", val, 1, title->angle_count); } float vqmin, vqmax, step, page; int inverted, digits; ghb_vquality_range(ud, &vqmin, &vqmax, &step, &page, &digits, &inverted); val = ghb_dict_get_double(ud->settings, "VideoQualitySlider"); ghb_scale_configure(ud, "VideoQualitySlider", val, vqmin, vqmax, step, page, digits, inverted); } static void check_chapter_markers(signal_user_data_t *ud) { GtkWidget *widget; gint start, end; if (ghb_settings_combo_int(ud->settings, "PtoPType") == 0) { start = ghb_dict_get_int(ud->settings, "start_point"); end = ghb_dict_get_int(ud->settings, "end_point"); widget = ghb_builder_widget("ChapterMarkers"); gtk_widget_set_sensitive(widget, end > start); widget = ghb_builder_widget("chapters_list"); gtk_widget_set_sensitive(widget, end > start); } } void ghb_load_settings(signal_user_data_t * ud) { const char * fullname; int type; gboolean preset_modified; static gboolean busy = FALSE; if (busy) return; busy = TRUE; fullname = ghb_dict_get_string(ud->settings, "PresetFullName"); type = ghb_dict_get_int(ud->settings, "Type"); preset_modified = ghb_dict_get_bool(ud->settings, "preset_modified"); if (preset_modified) { ghb_clear_presets_selection(ud); ghb_preset_menu_button_refresh(ud, fullname, type); } else { ghb_dict_set_bool(ud->settings, "preset_reload", TRUE); ghb_select_preset(ud, fullname, type); ghb_dict_set_bool(ud->settings, "preset_reload", FALSE); } busy = FALSE; ghb_load_post_settings(ud); } void ghb_load_post_settings(signal_user_data_t * ud) { static gboolean busy = FALSE; if (busy) return; busy = TRUE; ghb_set_clear_presets_inhibited(TRUE); ghb_set_scale_busy(TRUE); set_widget_ranges(ud, ud->settings); ghb_show_container_options(ud); check_chapter_markers(ud); ghb_clear_audio_selection(); ghb_clear_subtitle_selection(); ghb_settings_to_ui(ud, ud->settings); ghb_audio_defaults_to_ui(ud); ghb_subtitle_defaults_to_ui(ud); ghb_audio_list_refresh_all(ud); ghb_subtitle_list_refresh_all(ud); ghb_chapter_list_refresh_all(ud); update_title_duration(ud); ghb_update_title_info(ud); ghb_set_clear_presets_inhibited(FALSE); ghb_set_scale_busy(FALSE); busy = FALSE; ghb_picture_settings_deps(ud); } static void show_scan_progress(signal_user_data_t *ud) { GtkWidget * widget; GtkProgressBar * progress; GtkLabel * label; widget = ghb_builder_widget("SourceInfoBox"); gtk_widget_set_visible(widget, FALSE); widget = ghb_builder_widget("SourceScanBox"); gtk_widget_set_visible(widget, TRUE); progress = GTK_PROGRESS_BAR(ghb_builder_widget("scan_prog")); gtk_progress_bar_set_fraction(progress, 0); label = GTK_LABEL(ghb_builder_widget("source_scan_label")); gtk_label_set_text( label, _("Scanning ...") ); } static void hide_scan_progress(signal_user_data_t *ud) { GtkWidget * widget; GtkProgressBar * progress; progress = GTK_PROGRESS_BAR(ghb_builder_widget("scan_prog")); gtk_progress_bar_set_fraction(progress, 1.0); widget = ghb_builder_widget("SourceScanBox"); gtk_widget_set_visible(widget, FALSE); widget = ghb_builder_widget("SourceInfoBox"); gtk_widget_set_visible(widget, TRUE); } static void start_scan (signal_user_data_t *ud, const char *path, int title_id, int preview_count) { GtkWidget *widget; ghb_status_t status; ghb_get_status(&status); if (status.scan.state != GHB_STATE_IDLE) return; widget = ghb_builder_widget("sourcetoolbutton"); ghb_button_set_icon_name(GHB_BUTTON(widget), "hb-stop-small-symbolic"); ghb_button_set_label(GHB_BUTTON(widget), _("Stop Scan")); gtk_widget_set_tooltip_text(widget, _("Stop Scan")); widget = ghb_builder_widget("sourcetoolmenubutton"); gtk_widget_set_sensitive(widget, false); gboolean limit_max_duration = ghb_dict_get_bool(ud->prefs, "LimitMaxDuration"); ghb_backend_scan(path, title_id, preview_count, 90000L * ghb_dict_get_int(ud->prefs, "MinTitleDuration"), limit_max_duration ? 90000L * ghb_dict_get_int(ud->prefs, "MaxTitleDuration") : 0, ghb_dict_get_bool(ud->prefs, "KeepDuplicateTitles")); } static void start_scan_list (signal_user_data_t *ud, GListModel *files, int title_id, int preview_count) { GtkWidget *widget; ghb_status_t status; ghb_get_status(&status); if (status.scan.state != GHB_STATE_IDLE) return; widget = ghb_builder_widget("sourcetoolbutton"); ghb_button_set_icon_name(GHB_BUTTON(widget), "hb-stop-small-symbolic"); ghb_button_set_label(GHB_BUTTON(widget), _("Stop Scan")); gtk_widget_set_tooltip_text(widget, _("Stop Scan")); widget = ghb_builder_widget("sourcetoolmenubutton"); gtk_widget_set_sensitive(widget, false); gboolean limit_max_duration = ghb_dict_get_bool(ud->prefs, "LimitMaxDuration"); ghb_backend_scan_list(files, title_id, preview_count, 90000L * ghb_dict_get_int(ud->prefs, "MinTitleDuration"), limit_max_duration ? 90000L * ghb_dict_get_int(ud->prefs, "MaxTitleDuration") : 0, ghb_dict_get_bool(ud->prefs, "KeepDuplicateTitles")); } gboolean ghb_idle_scan(signal_user_data_t *ud) { gchar *path; // ghb_do_scan replaces "source" key in dict, so we must // make a copy of the string. path = g_strdup(ghb_get_scan_source()); ghb_do_scan(ud, path, 0, TRUE); g_free(path); return FALSE; } extern GhbValue *ghb_queue_edit_settings; static gchar *last_scan_file = NULL; void ghb_do_scan_list (signal_user_data_t *ud, GListModel *files, int title_id, gboolean force) { int titleindex; if (!g_list_model_get_n_items(files)) return; g_autoptr(GFile) file = g_list_model_get_item(files, 0); const char *filename = g_file_peek_path(file); ghb_log_func(); if (!force && last_scan_file != NULL && strcmp(last_scan_file, filename) == 0) { if (ghb_queue_edit_settings != NULL) { title_id = ghb_dict_get_int(ghb_queue_edit_settings, "title"); ghb_lookup_title(title_id, &titleindex); ghb_array_replace(ud->settings_array, titleindex, ghb_queue_edit_settings); ud->settings = ghb_queue_edit_settings; ghb_load_settings(ud); ghb_queue_edit_settings = NULL; } else { ghb_lookup_title(title_id, &titleindex); load_all_titles(ud, titleindex); } return; } if (last_scan_file != NULL) g_free(last_scan_file); last_scan_file = NULL; if (filename != NULL) { gint preview_count; last_scan_file = g_strdup(filename); ghb_set_scan_source(filename); show_scan_progress(ud); prune_logs(); preview_count = ghb_dict_get_int(ud->prefs, "preview_count"); start_scan_list(ud, files, title_id, preview_count); } } void ghb_do_scan (signal_user_data_t *ud, const char *filename, int title_id, gboolean force) { int titleindex; ghb_log_func(); if (!force && last_scan_file != NULL && strcmp(last_scan_file, filename) == 0) { if (ghb_queue_edit_settings != NULL) { title_id = ghb_dict_get_int(ghb_queue_edit_settings, "title"); ghb_lookup_title(title_id, &titleindex); ghb_array_replace(ud->settings_array, titleindex, ghb_queue_edit_settings); ud->settings = ghb_queue_edit_settings; ghb_load_settings(ud); ghb_queue_edit_settings = NULL; } else { ghb_lookup_title(title_id, &titleindex); load_all_titles(ud, titleindex); } return; } if (last_scan_file != NULL) g_free(last_scan_file); last_scan_file = NULL; if (filename != NULL) { const gchar *path; gint preview_count; last_scan_file = g_strdup(filename); ghb_set_scan_source(filename); show_scan_progress(ud); path = ghb_get_scan_source(); prune_logs(); preview_count = ghb_dict_get_int(ud->prefs, "preview_count"); start_scan(ud, path, title_id, preview_count); } } static void single_title_dialog_response (GtkMessageDialog *dialog, int response, GtkFileChooser *chooser) { GtkWidget *msg = gtk_message_dialog_get_message_area(dialog); GtkWidget *spin = gtk_widget_get_last_child(msg); int result = gtk_spin_button_get_value_as_int(GTK_SPIN_BUTTON(spin)); gtk_window_destroy(GTK_WINDOW(dialog)); if (response == GTK_RESPONSE_OK) { source_dialog_start_scan(chooser, result); } else { source_dialog = NULL; ghb_file_chooser_destroy(chooser); } } static void single_title_dialog (GtkFileChooser *chooser) { GtkWidget *dialog, *spin, *msg; GtkAdjustment *adj; GtkApplication *app = GTK_APPLICATION(g_application_get_default()); dialog = gtk_message_dialog_new(gtk_application_get_active_window(app), GTK_DIALOG_MODAL | GTK_DIALOG_DESTROY_WITH_PARENT, GTK_MESSAGE_QUESTION, GTK_BUTTONS_OK, "Title Number:"); adj = gtk_adjustment_new(1, 0, 1000, 1, 10, 10); spin = gtk_spin_button_new(adj, 1, 0); gtk_widget_set_visible(spin, TRUE); msg = gtk_message_dialog_get_message_area(GTK_MESSAGE_DIALOG(dialog)); gtk_box_append(GTK_BOX(msg), spin); g_signal_connect(dialog, "response", G_CALLBACK(single_title_dialog_response), chooser); gtk_widget_set_visible(dialog, TRUE); } static void source_dialog_response_cb(GtkFileChooser *chooser, GtkResponseType response, signal_user_data_t *ud) { if (response == GTK_RESPONSE_ACCEPT) { if (g_strcmp0(gtk_file_chooser_get_choice(chooser, "single"), "true") == 0) { single_title_dialog(chooser); return; } else { source_dialog_start_scan(chooser, 0); } } else { source_dialog = NULL; ghb_file_chooser_destroy(chooser); } } static int file_name_compare (GFile *file1, GFile *file2, gpointer data) { return g_strcmp0(g_file_peek_path(file1), g_file_peek_path(file2)); } static gboolean file_has_allowed_extension (GFile *file, hb_list_t *exclude_extensions) { const char *filename = g_file_peek_path(file); for (int i = 0; i < hb_list_count(exclude_extensions); i++) { if (hb_str_ends_with(filename, hb_list_item(exclude_extensions, i))) { g_debug("Excluded file %s", filename); return FALSE; } } g_debug("Found file %s", filename); return TRUE; } static void scan_directory (GFile *dir, GListStore *file_list, gboolean recursive) { g_autoptr(GFileEnumerator) dir_enum = NULL; g_autoptr(GError) error = NULL; ghb_log("Searching directory %s", g_file_peek_path(dir)); // Get info about the files in the directory dir_enum = g_file_enumerate_children(dir, "standard::name,standard::is-symlink,standard::type", G_FILE_QUERY_INFO_NONE, NULL, &error); if (dir_enum) { GFileInfo *info; GFile *file; hb_list_t *extensions = ghb_get_excluded_extensions_list(); while (g_file_enumerator_iterate(dir_enum, &info, &file, NULL, &error)) { if (!info) break; // Avoid symlinks to directories in order to avoid infinite loops if (recursive && !g_file_info_get_is_symlink(info) && g_file_info_get_file_type(info) == G_FILE_TYPE_DIRECTORY) { scan_directory(file, file_list, TRUE); } else if (g_file_info_get_file_type(info) == G_FILE_TYPE_REGULAR && file_has_allowed_extension(file, extensions)) { g_debug("Found file: %s", g_file_peek_path(file)); g_list_store_insert_sorted(file_list, g_object_ref(file), (GCompareDataFunc) file_name_compare, NULL); } } if (error) { g_warning("Could not scan files: %s", error->message); } ghb_free_list(extensions); } else { g_warning("Could not enumerate directory: %s", error->message); } } static void source_dialog_start_scan (GtkFileChooser *chooser, int title_id) { gboolean recursive = FALSE; g_autoptr(GListModel) files = NULL; g_autofree char *def_src = NULL; signal_user_data_t *ud = ghb_ud(); if (gtk_file_chooser_get_action(chooser) == GTK_FILE_CHOOSER_ACTION_SELECT_FOLDER) { // The recursive choice only exists in directory mode recursive = !g_strcmp0(gtk_file_chooser_get_choice(chooser, "recursive"), "true"); ghb_dict_set_bool(ud->prefs, "RecursiveFolderScan", recursive); ghb_pref_save(ud->prefs, "RecursiveFolderScan"); } else if (has_drive) { // The drive choice only exists in file mode when a DVD drive is detected const char *drivename = gtk_file_chooser_get_choice(chooser, "drive"); if (drivename && g_strcmp0(drivename, _("Not Selected"))) { files = G_LIST_MODEL(g_list_store_new(G_TYPE_FILE)); g_list_store_append(G_LIST_STORE(files), g_file_new_for_path(drivename)); def_src = g_strdup(drivename); } } if (!def_src) { g_autoptr(GListModel) selected_files = gtk_file_chooser_get_files(chooser); if (g_list_model_get_n_items(selected_files)) { g_autoptr(GFile) file = g_list_model_get_item(selected_files, 0); def_src = g_file_get_path(file); } if (recursive) { // Scan the directories provided for files GListStore *out_files = g_list_store_new(G_TYPE_FILE); for (guint i = 0; i < g_list_model_get_n_items(selected_files); i++) { g_autoptr(GFile) dir = g_list_model_get_item(selected_files, i); scan_directory(dir, out_files, TRUE); } files = G_LIST_MODEL(out_files); ghb_log("Recursive scan found %u files", g_list_model_get_n_items(files)); } else { // Use the list of chosen files or folders directly files = g_steal_pointer(&selected_files); } } if (def_src != NULL && def_src[0] != '\0') { const char *sourcename = ghb_get_scan_source(); // ghb_do_scan replaces "source" key in dict, so we must // be finished with sourcename before calling ghb_do_scan // since the memory it references will be freed if (strcmp(sourcename, def_src) != 0) { ghb_dict_set_string(ud->prefs, "default_source", def_src); ghb_pref_save(ud->prefs, "default_source"); ghb_dvd_set_current(def_src, ud); } if (files) ghb_do_scan_list(ud, files, title_id, TRUE); } source_dialog = NULL; ghb_file_chooser_destroy(chooser); } /* This set of functions became very complicated in GTK4 due to the removal * of gtk_dialog_run(). Here's a quick guide: * do_source_dialog(): creates file chooser and connects signal -> * source_dialog_response_cb(): checks if single title is checked. * If so, calls -> * single_title_dialog(): creates dialog and connects signal -> * single_title_dialog_response(): calls -> * source_dialog_start_scan() with title id from dialog * If not, calls -> * source_dialog_start_scan() with title id 0 */ static void do_source_dialog(gboolean dir, signal_user_data_t *ud) { GtkFileChooser *chooser; GtkWindow *hb_window; const gchar *sourcename; ghb_log_func(); if (source_dialog) return; hb_window = gtk_application_get_active_window(GTK_APPLICATION(GHB_APPLICATION_DEFAULT)); chooser = source_dialog = ghb_file_chooser_new( dir ? _("Open Source Directory") : _("Open Source"), hb_window, dir ? GTK_FILE_CHOOSER_ACTION_SELECT_FOLDER : GTK_FILE_CHOOSER_ACTION_OPEN, _("_Open"), _("_Cancel")); sourcename = ghb_get_scan_source(); if (dir) { gtk_file_chooser_add_choice(chooser, "recursive", _("Recursively scan directories"), NULL, NULL); gtk_file_chooser_set_choice(chooser, "recursive", ghb_dict_get_bool(ud->prefs, "RecursiveFolderScan") ? "true" : "false"); } else { gtk_file_chooser_set_select_multiple(chooser, TRUE); source_dialog_drive_list(chooser, ud); add_video_file_filters(chooser); } gtk_file_chooser_add_choice(chooser, "single", _("Single Title"), NULL, NULL); ghb_file_chooser_set_modal(chooser, TRUE); g_signal_connect(chooser, "response", G_CALLBACK(source_dialog_response_cb), ud); ghb_file_chooser_set_initial_file(chooser, sourcename); ghb_file_chooser_show(chooser); } #if 0 G_MODULE_EXPORT void source_button_clicked_cb(GtkButton *button, signal_user_data_t *ud) { ghb_status_t status; ghb_get_status(&status); if (status.scan.state & GHB_STATE_SCANNING) { ghb_backend_scan_stop(); } else { do_source_dialog(FALSE, ud); } } #else G_MODULE_EXPORT void source_action_cb(GSimpleAction *action, GVariant *param, signal_user_data_t *ud) { ghb_status_t status; ghb_get_status(&status); if (status.scan.state & GHB_STATE_SCANNING) { ghb_backend_scan_stop(); } else { do_source_dialog(FALSE, ud); } } #endif G_MODULE_EXPORT void source_dir_action_cb(GSimpleAction *action, GVariant * param, signal_user_data_t *ud) { do_source_dialog(TRUE, ud); } G_MODULE_EXPORT void dvd_source_activate_cb(GSimpleAction *action, GVariant *param, signal_user_data_t *ud) { const gchar *filename; const gchar *sourcename; // ghb_do_scan replaces "source" key in dict, so we must // be finished with sourcename before calling ghb_do_scan // since the memory it references will be freed sourcename = ghb_get_scan_source(); filename = g_variant_get_string(param, NULL); if (strcmp(sourcename, filename) != 0) { ghb_dict_set_string(ud->prefs, "default_source", filename); ghb_pref_save(ud->prefs, "default_source"); ghb_dvd_set_current(filename, ud); } ghb_do_scan(ud, filename, 0, TRUE); } void ghb_update_destination_extension(signal_user_data_t *ud) { static const char *containers[] = {".mkv", ".mp4", ".m4v", ".webm", ".error", NULL}; gchar *filename; const gchar *extension; gint ii; GtkEditable *entry; static gboolean busy = FALSE; ghb_log_func(); // Since this function modifies the thing that triggers it's // invocation, check to see if busy to prevent accidental infinite // recursion. if (busy) return; busy = TRUE; extension = get_extension(ud, ud->settings); entry = GTK_EDITABLE(ghb_builder_widget("dest_file")); filename = g_strdup(gtk_editable_get_text(entry)); for (ii = 0; containers[ii] != NULL; ii++) { if (g_str_has_suffix(filename, containers[ii])) { gchar *pos; gchar *new_name; pos = g_strrstr( filename, "." ); if (pos == NULL) { // No period? shouldn't happen break; } *pos = 0; if (strcmp(extension, &pos[1]) == 0) { // Extension is already correct break; } new_name = g_strjoin(".", filename, extension, NULL); ghb_ui_update("dest_file", ghb_string_value(new_name)); g_free(new_name); break; } } g_free(filename); busy = FALSE; } static void destination_select_title(GtkEntry *entry) { const gchar *dest; gint start, end; dest = gtk_editable_get_text(GTK_EDITABLE(entry)); for (end = strlen(dest)-1; end > 0; end--) { if (dest[end] == '.') { break; } } for (start = end; start >= 0; start--) { if (dest[start] == G_DIR_SEPARATOR) { start++; break; } } if (start < 0) start = 0; if (start < end) { gtk_editable_select_region(GTK_EDITABLE(entry), start, end); } } G_MODULE_EXPORT gboolean destination_grab_cb( GtkEntry *entry, signal_user_data_t *ud) { destination_select_title(entry); return FALSE; } static void update_default_destination(signal_user_data_t *ud) { const gchar *dest_dir, *def_dest; dest_dir = ghb_dict_get_string(ud->settings, "dest_dir"); def_dest = ghb_dict_get_string(ud->prefs, "destination_dir"); if (dest_dir != NULL && def_dest != NULL && dest_dir[0] != 0 && strcmp(dest_dir, def_dest) != 0) { ghb_dict_set_string(ud->prefs, "destination_dir", dest_dir); ghb_pref_save(ud->prefs, "destination_dir"); } } G_MODULE_EXPORT void dest_dir_set_cb (GhbFileButton *dest_chooser, GParamSpec *pspec, gpointer data) { const gchar *dest_file, *dest_dir; gchar *dest; signal_user_data_t *ud = ghb_ud(); ghb_log_func(); ghb_widget_to_setting(ud->settings, (GtkWidget*)dest_chooser); dest_file = ghb_dict_get_string(ud->settings, "dest_file"); dest_dir = ghb_dict_get_string(ud->settings, "dest_dir"); dest = g_strdup_printf("%s" G_DIR_SEPARATOR_S "%s", dest_dir, dest_file); ghb_dict_set_string(ud->settings, "destination", dest); GhbValue *dest_dict = ghb_get_job_dest_settings(ud->settings); ghb_dict_set_string(dest_dict, "File", dest); g_free(dest); update_default_destination(ud); } G_MODULE_EXPORT void dest_file_changed_cb (GtkEntry *entry, gpointer data) { const gchar *dest_file, *dest_dir; gchar *dest; signal_user_data_t *ud = ghb_ud(); ghb_log_func(); ghb_update_destination_extension(ud); ghb_widget_to_setting(ud->settings, (GtkWidget*)entry); // This signal goes off with ever keystroke, so I'm putting this // update on the timer. dest_file = ghb_dict_get_string(ud->settings, "dest_file"); dest_dir = ghb_dict_get_string(ud->settings, "dest_dir"); dest = g_strdup_printf("%s" G_DIR_SEPARATOR_S "%s", dest_dir, dest_file); ghb_dict_set_string(ud->settings, "destination", dest); GhbValue *dest_dict = ghb_get_job_dest_settings(ud->settings); ghb_dict_set_string(dest_dict, "File", dest); g_free(dest); } static void destination_response_cb(GtkFileChooser *chooser, GtkResponseType response, signal_user_data_t *ud) { GtkEditable *entry; g_autofree char *basename = NULL; if (response == GTK_RESPONSE_ACCEPT) { g_autoptr(GFile) file = gtk_file_chooser_get_file(chooser); const char *filename = g_file_peek_path(file); g_autofree char *dirname = g_path_get_dirname(filename); basename = g_path_get_basename(filename); entry = GTK_EDITABLE(ghb_builder_widget("dest_file")); gtk_editable_set_text(entry, basename); GhbFileButton *dest_chooser = GHB_FILE_BUTTON(ghb_builder_widget("dest_dir")); ghb_file_button_set_filename(dest_chooser, dirname); } ghb_file_chooser_destroy(chooser); } G_MODULE_EXPORT void destination_action_cb(GSimpleAction *action, GVariant *param, signal_user_data_t *ud) { GtkFileChooser *chooser; GtkWindow *hb_window; const gchar *destname; hb_window = GTK_WINDOW(ghb_builder_widget("hb_window")); destname = ghb_dict_get_string(ud->settings, "destination"); chooser = ghb_file_chooser_new("Choose Destination", hb_window, GTK_FILE_CHOOSER_ACTION_SAVE, _("_Save"), _("_Cancel")); ghb_file_chooser_set_initial_file(chooser, destname); ghb_file_chooser_set_modal(chooser, TRUE); g_signal_connect(chooser, "response", G_CALLBACK(destination_response_cb), ud); ghb_file_chooser_show(chooser); } G_MODULE_EXPORT gboolean window_close_request_cb(GtkWidget *widget, gpointer data) { ghb_log_func(); gint state = ghb_get_queue_state(); if (state & (GHB_STATE_WORKING | GHB_STATE_SEARCHING)) { quit_dialog_show(); return TRUE; } else { application_quit(); return FALSE; } } static void update_acodec(signal_user_data_t *ud) { ghb_audio_list_refresh_all(ud); ghb_grey_combo_options(ud); } G_MODULE_EXPORT void container_changed_cb(GtkWidget *widget, gpointer data) { ghb_log_func(); signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); const char * mux_id = ghb_dict_get_string(ud->settings, "FileFormat"); GhbValue *dest_dict = ghb_get_job_dest_settings(ud->settings); ghb_dict_set_string(dest_dict, "Mux", mux_id); const hb_container_t *mux = ghb_lookup_container_by_name(mux_id); if (!(mux->format & HB_MUX_MASK_MP4)) { ghb_ui_update("AlignAVStart", ghb_boolean_value(FALSE)); } ghb_show_container_options(ud); update_acodec(ud); ghb_update_destination_extension(ud); ghb_clear_presets_selection(ud); ghb_live_reset(ud); ghb_subtitle_prune(ud); ghb_subtitle_list_refresh_all(ud); ghb_audio_list_refresh_selected(ud); } static gchar* get_aspect_string(gint aspect_n, gint aspect_d) { gchar *aspect; if (aspect_d < 10) { aspect = g_strdup_printf("%d:%d", aspect_n, aspect_d); } else { gdouble aspect_nf = (gdouble)aspect_n / aspect_d; aspect = g_strdup_printf("%.2f:1", aspect_nf); } return aspect; } void ghb_update_title_info(signal_user_data_t *ud) { GtkWidget * widget; GString * info; gchar * text; gchar * aspect; int title_id, titleindex; int audio_count, subtitle_count; const hb_title_t * title; const hb_geometry_t * geo; gint aspect_n, aspect_d; title_id = ghb_dict_get_int(ud->settings, "title"); title = ghb_lookup_title(title_id, &titleindex); if (title == NULL) return; update_title_duration(ud); geo = &title->geometry; hb_reduce(&aspect_n, &aspect_d, geo->width * geo->par.num, geo->height * geo->par.den); aspect = get_aspect_string(aspect_n, aspect_d); audio_count = hb_list_count(title->list_audio); subtitle_count = hb_list_count(title->list_subtitle); info = g_string_sized_new(256); g_string_append_printf(info, ", %dx%d", geo->width, geo->height); int screen_width = geo->width * geo->par.num / geo->par.den; if (geo->width != screen_width) g_string_append_printf(info, " (%dx%d)", screen_width, geo->height); g_string_append_printf(info, ", %s, %.6g %s, ", aspect, (double) title->vrate.num / title->vrate.den, _("FPS")); if (title->dovi.dv_profile) { g_string_append_printf(info, _("Dolby Vision %d.%d"), title->dovi.dv_profile, title->dovi.dv_bl_signal_compatibility_id); if (title->hdr_10_plus) g_string_append_printf(info, " %s", _("HDR10+")); } else if (title->hdr_10_plus) g_string_append(info, _("HDR10+")); else if (title->mastering.has_primaries && title->mastering.has_luminance) g_string_append(info, _("HDR10")); else if (title->color_transfer == 16 || title->color_transfer == 18) g_string_append(info, _("HDR")); else g_string_append(info, _("SDR")); g_string_append(info, " ("); int bit_depth = hb_get_bit_depth(title->pix_fmt); if (bit_depth) { // TRANSLATORS: This is the bit depth of the video g_string_append_printf(info, _("%d-bit"), bit_depth); g_string_append_c(info, ' '); } int h_shift, v_shift, chroma_available; chroma_available = hb_get_chroma_sub_sample(title->pix_fmt, &h_shift, &v_shift); if (chroma_available == 0) { int h_value = 4 >> h_shift; int v_value = v_shift ? 0 : h_value; g_string_append_printf(info, "4:%d:%d", h_value, v_value); } if (bit_depth || chroma_available == 0) { g_string_append(info, ", "); } g_string_append_printf(info, "%d-%d-%d)", title->color_prim, title->color_transfer, title->color_matrix); g_string_append_printf(info, ", %d %s", audio_count, ngettext("Audio Track", "Audio Tracks", audio_count)); if (subtitle_count) g_string_append_printf(info, ", %d %s", subtitle_count, ngettext("Subtitle Track", "Subtitle Tracks", subtitle_count)); widget = ghb_builder_widget("source_info_label"); gtk_label_set_text(GTK_LABEL(widget), info->str); g_string_free(info, TRUE); text = g_strdup_printf("%d x %d", geo->width, geo->height); ghb_ui_update("source_storage_size", ghb_string_value(text)); g_free(text); text = g_strdup_printf("%d x %d", geo->width * geo->par.num / geo->par.den, geo->height); ghb_ui_update("source_display_size", ghb_string_value(text)); g_free(text); ghb_ui_update("source_aspect_ratio", ghb_string_value(aspect)); free(aspect); } static void update_meta(GhbValue *settings, const char *name, const char *val) { GhbValue *metadata = ghb_get_job_metadata_settings(settings); if (val == NULL || val[0] == 0) ghb_dict_remove(metadata, name); else ghb_dict_set_string(metadata, name, val); } static void mini_preview_update (gboolean has_preview, signal_user_data_t *ud) { GtkWidget *widget; if (ghb_dict_get_bool(ud->prefs, "ShowMiniPreview") && has_preview) { widget = ghb_builder_widget("summary_image"); gtk_widget_set_visible(widget, FALSE); widget = ghb_builder_widget("summary_preview_image"); gtk_widget_set_visible(gtk_widget_get_parent(widget), TRUE); } else { widget = ghb_builder_widget("summary_image"); gtk_widget_set_visible(widget, TRUE); widget = ghb_builder_widget("summary_preview_image"); gtk_widget_set_visible(gtk_widget_get_parent(widget), FALSE); } } void ghb_update_summary_info(signal_user_data_t *ud) { GString * str; char * text; int title_id; GtkWidget * widget; GhbValue * titleDict; title_id = ghb_dict_get_int(ud->settings, "title"); titleDict = ghb_get_title_dict(title_id); if (titleDict == NULL) { // No title, clear summary widget = ghb_builder_widget("tracks_summary"); gtk_label_set_text(GTK_LABEL(widget), ""); widget = ghb_builder_widget("filters_summary"); gtk_label_set_text(GTK_LABEL(widget), ""); widget = ghb_builder_widget("dimensions_summary"); gtk_label_set_text(GTK_LABEL(widget), "--"); mini_preview_update(FALSE, ud); return; } mini_preview_update(TRUE, ud); // Video Track const hb_encoder_t * video_encoder; const hb_rate_t * fps; hb_rational_t vrate; char * rate_str; str = g_string_new(""); video_encoder = ghb_settings_video_encoder(ud->settings, "VideoEncoder"); fps = ghb_settings_video_framerate(ud->settings, "VideoFramerate"); if (fps->rate == 0) { hb_dict_extract_rational(&vrate, titleDict, "FrameRate"); } else { vrate.num = 27000000; vrate.den = fps->rate; } rate_str = g_strdup_printf("%.6g", (gdouble)vrate.num / vrate.den); g_string_append_printf(str, "%s, %s %s", video_encoder->name, rate_str, _("FPS")); g_free(rate_str); if (ghb_dict_get_bool(ud->settings, "VideoFramerateCFR")) { g_string_append_printf(str, " %s", _("CFR")); } else if (ghb_dict_get_bool(ud->settings, "VideoFrameratePFR")) { g_string_append_printf(str, " %s", _("PFR")); } else if (ghb_dict_get_bool(ud->settings, "VideoFramerateVFR")) { g_string_append_printf(str, " %s", _("VFR")); } // Audio Tracks (show at most 3 tracks) GhbValue * audioList; GhbValue * sourceAudioList; int ii, count, show; sourceAudioList = ghb_dict_get(titleDict, "AudioList"); audioList = ghb_get_job_audio_list(ud->settings); show = count = ghb_array_len(audioList); if (count > 3) { show = 2; } for (ii = 0; ii < show; ii++) { GhbValue * asettings, * asource; const hb_mixdown_t * audio_mix; const hb_encoder_t * audio_encoder; const char * lang; int track; asettings = ghb_array_get(audioList, ii); track = ghb_dict_get_int(asettings, "Track"); asource = ghb_array_get(sourceAudioList, track); lang = ghb_dict_get_string(asource, "Language"); audio_encoder = ghb_settings_audio_encoder(asettings, "Encoder"); if (audio_encoder->codec & HB_ACODEC_PASS_FLAG) { g_string_append_printf(str, "\n%s, %s", lang, audio_encoder->name); } else { audio_mix = ghb_settings_mixdown(asettings, "Mixdown"); g_string_append_printf(str, "\n%s, %s, %s", lang, audio_encoder->name, audio_mix->name); } } if (show < count) { g_string_append_printf(str, "\n"); g_string_append_printf(str, ngettext("+ %d more audio track", "+ %d more audio tracks", count - show), count - show); } // Subtitle Tracks (show at most 3 tracks) GhbValue * subtitleDict; GhbValue * searchDict; GhbValue * subtitleList; GhbValue * sourceSubtitleList; gboolean search; sourceSubtitleList = ghb_dict_get(titleDict, "SubtitleList"); subtitleDict = ghb_get_job_subtitle_settings(ud->settings); subtitleList = ghb_dict_get(subtitleDict, "SubtitleList"); searchDict = ghb_dict_get(subtitleDict, "Search"); search = ghb_dict_get_bool(searchDict, "Enable"); show = count = ghb_array_len(subtitleList) + search; if (count > 3) { show = 2; } if (search) { gboolean force, burn, def; force = ghb_dict_get_bool(searchDict, "Forced"); burn = ghb_dict_get_bool(searchDict, "Burn"); def = ghb_dict_get_bool(searchDict, "Default"); g_string_append_printf(str, "\n%s", _("Foreign Audio Scan")); if (force) { g_string_append_printf(str, _(", Forced Only")); } if (burn) { g_string_append_printf(str, _(", Burned")); } else if (def) { g_string_append_printf(str, _(", Default")); } show--; count--; } for (ii = 0; ii < show; ii++) { GhbValue * subsettings, * subsource; int track; char * desc; gboolean force, burn, def; subsettings = ghb_array_get(subtitleList, ii); track = ghb_dict_get_int(subsettings, "Track"); subsource = ghb_array_get(sourceSubtitleList, track); desc = ghb_subtitle_short_description(subsource, subsettings); force = ghb_dict_get_bool(subsettings, "Forced"); burn = ghb_dict_get_bool(subsettings, "Burn"); def = ghb_dict_get_bool(subsettings, "Default"); g_string_append_printf(str, "\n%s", desc); free(desc); if (force) { g_string_append_printf(str, _(", Forced Only")); } if (burn) { g_string_append_printf(str, _(", Burned")); } else if (def) { g_string_append_printf(str, _(", Default")); } } if (show < count) { g_string_append_printf(str, "\n"); g_string_append_printf(str, ngettext("+ %d more subtitle track", "+ %d more subtitle tracks", count - show), count - show); } if (ghb_dict_get_bool(ud->settings, "ChapterMarkers")) { g_string_append_printf(str, "\n%s", _("Chapter Markers")); } text = g_string_free(str, FALSE); widget = ghb_builder_widget("tracks_summary"); gtk_label_set_text(GTK_LABEL(widget), text); g_free(text); // Filters gboolean detel, comb_detect, yadif, decomb, deblock, nlmeans, denoise, bwdif; gboolean unsharp, lapsharp, hflip, rot, gray, colorspace, chroma_smooth; const char * sval; sval = ghb_dict_get_string(ud->settings, "PictureDetelecine"); detel = sval != NULL && !!strcasecmp(sval, "off"); sval = ghb_dict_get_string(ud->settings, "PictureCombDetectPreset"); comb_detect = sval != NULL && !!strcasecmp(sval, "off"); sval = ghb_dict_get_string(ud->settings, "PictureDeinterlaceFilter"); yadif = sval != NULL && !strcasecmp(sval, "deinterlace"); bwdif = sval != NULL && !strcasecmp(sval, "bwdif"); decomb = sval != NULL && !strcasecmp(sval, "decomb"); sval = ghb_dict_get_string(ud->settings, "PictureDeblockPreset"); deblock = sval != NULL && !!strcasecmp(sval, "off"); sval = ghb_dict_get_string(ud->settings, "PictureDenoiseFilter"); nlmeans = sval != NULL && !strcasecmp(sval, "nlmeans"); denoise = sval != NULL && !strcasecmp(sval, "hqdn3d"); sval = ghb_dict_get_string(ud->settings, "PictureSharpenFilter"); unsharp = sval != NULL && !strcasecmp(sval, "unsharp"); lapsharp = sval != NULL && !strcasecmp(sval, "lapsharp"); hflip = ghb_dict_get_bool(ud->settings, "hflip"); sval = ghb_dict_get_string(ud->settings, "rotate"); rot = sval != NULL && !!strcasecmp(sval, "0"); gray = ghb_dict_get_bool(ud->settings, "VideoGrayScale"); sval = ghb_dict_get_string(ud->settings, "PictureColorspacePreset"); colorspace = sval != NULL && !!strcasecmp(sval, "off"); sval = ghb_dict_get_string(ud->settings, "PictureChromaSmoothPreset"); chroma_smooth = sval != NULL && !!strcasecmp(sval, "off"); str = g_string_new(""); sval = ""; if (detel) { hb_filter_object_t * filter = hb_filter_get(HB_FILTER_DETELECINE); g_string_append_printf(str, "%s%s", sval, ghb_get_filter_name(filter)); sval = ", "; } if (comb_detect) { hb_filter_object_t * filter = hb_filter_get(HB_FILTER_COMB_DETECT); g_string_append_printf(str, "%s%s", sval, ghb_get_filter_name(filter)); sval = ", "; } if (yadif) { hb_filter_object_t * filter = hb_filter_get(HB_FILTER_YADIF); g_string_append_printf(str, "%s%s", sval, ghb_get_filter_name(filter)); sval = ", "; } if (bwdif) { hb_filter_object_t * filter = hb_filter_get(HB_FILTER_BWDIF); g_string_append_printf(str, "%s%s", sval, ghb_get_filter_name(filter)); sval = ", "; } if (decomb) { hb_filter_object_t * filter = hb_filter_get(HB_FILTER_DECOMB); g_string_append_printf(str, "%s%s", sval, ghb_get_filter_name(filter)); sval = ", "; } if (deblock) { hb_filter_object_t * filter = hb_filter_get(HB_FILTER_DEBLOCK); g_string_append_printf(str, "%s%s", sval, ghb_get_filter_name(filter)); sval = ", "; } if (nlmeans) { hb_filter_object_t * filter = hb_filter_get(HB_FILTER_NLMEANS); g_string_append_printf(str, "%s%s", sval, ghb_get_filter_name(filter)); sval = ", "; } if (denoise) { hb_filter_object_t * filter = hb_filter_get(HB_FILTER_DENOISE); g_string_append_printf(str, "%s%s", sval, ghb_get_filter_name(filter)); sval = ", "; } if (chroma_smooth) { hb_filter_object_t * filter = hb_filter_get(HB_FILTER_CHROMA_SMOOTH); g_string_append_printf(str, "%s%s", sval, ghb_get_filter_name(filter)); sval = ", "; } if (unsharp) { hb_filter_object_t * filter = hb_filter_get(HB_FILTER_UNSHARP); g_string_append_printf(str, "%s%s", sval, ghb_get_filter_name(filter)); sval = ", "; } if (rot || hflip) { hb_filter_object_t * filter = hb_filter_get(HB_FILTER_ROTATE); g_string_append_printf(str, "%s%s", sval, ghb_get_filter_name(filter)); sval = ", "; } if (lapsharp) { hb_filter_object_t * filter = hb_filter_get(HB_FILTER_LAPSHARP); g_string_append_printf(str, "%s%s", sval, ghb_get_filter_name(filter)); sval = ", "; } if (gray) { hb_filter_object_t * filter = hb_filter_get(HB_FILTER_GRAYSCALE); g_string_append_printf(str, "%s%s", sval, ghb_get_filter_name(filter)); sval = ", "; } if (colorspace) { hb_filter_object_t * filter = hb_filter_get(HB_FILTER_COLORSPACE); g_string_append_printf(str, "%s%s", sval,ghb_get_filter_name(filter)); sval = ", "; } text = g_string_free(str, FALSE); widget = ghb_builder_widget("filters_summary"); gtk_label_set_text(GTK_LABEL(widget), text); g_free(text); double display_width; int width, height, display_height, par_width, par_height; char * display_aspect; width = ghb_dict_get_int(ud->settings, "scale_width"); height = ghb_dict_get_int(ud->settings, "scale_height"); display_width = ghb_dict_get_int(ud->settings, "PictureDARWidth"); display_height = ghb_dict_get_int(ud->settings, "DisplayHeight"); par_width = ghb_dict_get_int(ud->settings, "PicturePARWidth"); par_height = ghb_dict_get_int(ud->settings, "PicturePARHeight"); display_width = (double)width * par_width / par_height; display_aspect = ghb_get_display_aspect_string(display_width, display_height); display_width = ghb_dict_get_int(ud->settings, "PictureDARWidth"); text = g_strdup_printf("%dx%d %s, %dx%d %s\n%d:%d %s\n%s %s", width, height, _("storage"), (int)display_width, display_height, _("display"), par_width, par_height,_("Pixel Aspect Ratio"), display_aspect, _("Display Aspect Ratio")); widget = ghb_builder_widget("dimensions_summary"); gtk_label_set_text(GTK_LABEL(widget), text); g_free(text); g_free(display_aspect); ghb_value_free(&titleDict); } void ghb_set_title_settings(signal_user_data_t *ud, GhbValue *settings) { int title_id, titleindex; const hb_title_t * title; title_id = ghb_dict_get_int(settings, "title"); title = ghb_lookup_title(title_id, &titleindex); ghb_subtitle_set_pref_lang(settings); if (title != NULL) { GhbValue * job_dict, * title_dict; char * label; job_dict = hb_preset_job_init(ghb_scan_handle(), title_id, settings); ghb_dict_set(settings, "Job", job_dict); title_dict = hb_title_to_dict(ghb_scan_handle(), title_id); ghb_dict_set(settings, "Title", title_dict); GhbValue *chapter_list = ghb_get_job_chapter_list(settings); gint num_chapters = ghb_array_len(chapter_list); ghb_dict_set_int(settings, "angle", 1); ghb_dict_set_string(settings, "PtoPType", "chapter"); ghb_dict_set_int(settings, "start_point", 1); ghb_dict_set_int(settings, "end_point", num_chapters); ghb_dict_set_int(settings, "source_width", title->geometry.width); ghb_dict_set_int(settings, "source_height", title->geometry.height); ghb_dict_set_string(settings, "source", title->path); label = ghb_create_source_label(title); ghb_dict_set_string(settings, "source_label", label); g_free(label); label = ghb_create_volume_label(title); ghb_dict_set_string(settings, "volume", label); g_free(label); int angle, hflip; hb_geometry_crop_t srcGeo; srcGeo.geometry = title->geometry; memcpy(srcGeo.crop, &title->crop, 4 * sizeof(int)); angle = ghb_dict_get_int(settings, "rotate"); hflip = ghb_dict_get_int(settings, "hflip"); hb_rotate_geometry(&srcGeo, &srcGeo, angle, hflip); ghb_apply_crop(settings, &srcGeo, title); int crop[4]; crop[0] = ghb_dict_get_int(settings, "PictureTopCrop"); crop[1] = ghb_dict_get_int(settings, "PictureBottomCrop"); crop[2] = ghb_dict_get_int(settings, "PictureLeftCrop"); crop[3] = ghb_dict_get_int(settings, "PictureRightCrop"); ghb_dict_set_int(settings, "scale_width", srcGeo.geometry.width - crop[2] - crop[3]); // If anamorphic or keep_aspect, the height will // be automatically calculated gboolean keep_aspect; gint pic_par; keep_aspect = ghb_dict_get_bool(settings, "PictureKeepRatio"); pic_par = ghb_settings_combo_int(settings, "PicturePAR"); if (!keep_aspect || pic_par == HB_ANAMORPHIC_NONE || pic_par == HB_ANAMORPHIC_AUTO || pic_par == HB_ANAMORPHIC_CUSTOM) { ghb_dict_set_int(settings, "scale_height", srcGeo.geometry.height - crop[0] - crop[1]); } ghb_set_scale_settings(ud, settings, GHB_PIC_USE_MAX); ghb_dict_set_int(settings, "angle_count", title->angle_count); // Clear UI settings for new title ghb_dict_set_string(settings, "MetaName", ""); ghb_dict_set_string(settings, "MetaArtist", ""); ghb_dict_set_string(settings, "MetaReleaseDate", ""); ghb_dict_set_string(settings, "MetaComment", ""); ghb_dict_set_string(settings, "MetaAlbumArtist", ""); ghb_dict_set_string(settings, "MetaGenre", ""); ghb_dict_set_string(settings, "MetaDescription", ""); ghb_dict_set_string(settings, "MetaLongDescription", ""); if (ghb_dict_get_bool(settings, "MetadataPassthru")) { if (title->metadata && title->metadata->dict) { hb_dict_iter_t iter = hb_dict_iter_init(title->metadata->dict); while (iter != HB_DICT_ITER_DONE) { const char * key; hb_value_t * val; hb_dict_iter_next_ex(title->metadata->dict, &iter, &key, &val); if (key != NULL && val != NULL) { const char * str = hb_value_get_string(val); update_meta(settings, key, str); if (!strcmp(key, "Album")) { key = "Name"; } char * ui_key = g_strdup_printf("Meta%s", key); ghb_dict_set_string(settings, ui_key, str); free(ui_key); } } } } else { GhbValue * meta = ghb_get_job_metadata_settings(settings); hb_dict_clear(meta); } ghb_sanitize_audio_track_settings(settings); } else { ghb_dict_set_string(settings, "source_label", _("No Title Found")); ghb_dict_set_string(settings, "volume", _("New Video")); ghb_set_scale_settings(ud, settings, GHB_PIC_USE_MAX); } set_destination_settings(ud, settings); const char *dest_file, *dest_dir; char *dest; dest_file = ghb_dict_get_string(settings, "dest_file"); dest_dir = ghb_dict_get_string(settings, "dest_dir"); dest = g_strdup_printf("%s" G_DIR_SEPARATOR_S "%s", dest_dir, dest_file); ghb_dict_set_string(settings, "destination", dest); GhbValue *dest_dict = ghb_get_job_dest_settings(settings); ghb_dict_set_string(dest_dict, "File", dest); g_free(dest); ghb_dict_set_int(settings, "preview_frame", 2); } void ghb_set_current_title_settings(signal_user_data_t *ud) { ghb_set_title_settings(ud, ud->settings); ghb_update_summary_info(ud); } static void load_all_titles(signal_user_data_t *ud, int titleindex) { gint ii, count; GhbValue *preset; GhbValue *settings_array; const hb_title_t *title; hb_list_t *list = ghb_get_title_list(); count = hb_list_count(list); if (count == 0) count = 1; settings_array = ghb_array_new(); // Start with a clean job ghb_dict_remove(ud->settings, "Job"); preset = ghb_get_current_preset(ud); if (preset != NULL) { ghb_preset_to_settings(ud->settings, preset); ghb_value_free(&preset); } for (ii = 0; ii < count; ii++) { GhbValue *settings = ghb_value_dup(ud->settings); title = hb_list_item(list, ii); ghb_dict_set_int(settings, "title", title ? title->index : -1); ghb_set_title_settings(ud, settings); ghb_array_append(settings_array, settings); } if (titleindex < 0 || titleindex >= count) { titleindex = 0; } ghb_value_free(&ud->settings_array); ud->settings_array = settings_array; ud->settings = ghb_array_get(ud->settings_array, titleindex); ghb_update_summary_info(ud); } static gboolean update_preview = FALSE; G_MODULE_EXPORT void title_changed_cb (GtkWidget *widget, gpointer data) { gint title_id, titleindex, count; const hb_title_t * title; signal_user_data_t *ud = ghb_ud(); title_id = ghb_widget_int(widget); title = ghb_lookup_title(title_id, &titleindex); count = ghb_array_len(ud->settings_array); int idx = (titleindex >= 0 && titleindex < count) ? titleindex : 0; if (ghb_dict_get_bool(ud->prefs, "SyncTitleSettings")) { GhbValue * preset = ghb_settings_to_preset(ud->settings); GhbValue * settings = ghb_array_get(ud->settings_array, idx); if (preset != NULL) { ghb_preset_to_settings(settings, preset); ghb_set_title_settings(ud, settings); } ghb_value_free(&preset); } ud->settings = ghb_array_get(ud->settings_array, idx); ghb_load_settings(ud); ghb_audio_set_actions_enabled(ud, title != NULL); ghb_subtitle_set_actions_enabled(ud, title != NULL); ghb_grey_combo_options(ud); if (title != NULL) { gint preview_count; preview_count = title->preview_count; if (preview_count < 1) { preview_count = 1; } widget = ghb_builder_widget("preview_frame"); gtk_range_set_range(GTK_RANGE(widget), 1, preview_count); ghb_reset_preview_image(ud); } ghb_update_summary_info(ud); } G_MODULE_EXPORT void ptop_widget_changed_cb (GtkWidget *widget, gpointer data) { gint title_id, titleindex; const hb_title_t * title; gboolean numeric = TRUE; GtkSpinButton *spin; GhbValue *range; signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); ghb_live_reset(ud); // Update type in Job range = ghb_get_job_range_settings(ud->settings); ghb_dict_set_string(range, "Type", ghb_dict_get_string(ud->settings, "PtoPType")); title_id = ghb_dict_get_int(ud->settings, "title"); title = ghb_lookup_title(title_id, &titleindex); if (title == NULL) return; if (ghb_settings_combo_int(ud->settings, "PtoPType") == 1) numeric = FALSE; spin = GTK_SPIN_BUTTON(ghb_builder_widget("start_point")); gtk_spin_button_set_numeric(spin, numeric); spin = GTK_SPIN_BUTTON(ghb_builder_widget("end_point")); gtk_spin_button_set_numeric(spin, numeric); gint duration = title->duration / 90000; if (ghb_settings_combo_int(ud->settings, "PtoPType") == 0) { GhbValue *chapter_list = ghb_get_job_chapter_list(ud->settings); gint num_chapters = ghb_array_len(chapter_list); spin_configure(ud, "start_point", 1, 1, num_chapters); spin_configure(ud, "end_point", num_chapters, 1, num_chapters); } else if (ghb_settings_combo_int(ud->settings, "PtoPType") == 1) { spin_configure(ud, "start_point", 0, 0, duration * 2 - 1); spin_configure(ud, "end_point", duration, 0, duration * 2); } else if (ghb_settings_combo_int(ud->settings, "PtoPType") == 2) { gdouble max_frames = (gdouble)duration * title->vrate.num / title->vrate.den; spin_configure(ud, "start_point", 1, 1, max_frames * 2); spin_configure(ud, "end_point", max_frames, 1, max_frames * 2); } } G_MODULE_EXPORT void setting_widget_changed_cb (GtkWidget *widget, gpointer data) { signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); ghb_update_summary_info(ud); ghb_clear_presets_selection(ud); ghb_live_reset(ud); } G_MODULE_EXPORT void meta_pass_changed_cb (GtkWidget *widget, gpointer data) { setting_widget_changed_cb(widget, data); int title_id, titleindex; const hb_title_t * title; signal_user_data_t *ud = ghb_ud(); title_id = ghb_dict_get_int(ud->settings, "title"); title = ghb_lookup_title(title_id, &titleindex); if (title != NULL && ghb_dict_get_bool(ud->settings, "MetadataPassthru")) { // Reload metadata from title if (title->metadata && title->metadata->dict) { hb_dict_iter_t iter = hb_dict_iter_init(title->metadata->dict); while (iter != HB_DICT_ITER_DONE) { const char * key; hb_value_t * val; hb_dict_iter_next_ex(title->metadata->dict, &iter, &key, &val); if (key != NULL && val != NULL) { const char * str = hb_value_get_string(val); update_meta(ud->settings, key, str); if (!strcmp(key, "Album")) { key = "Name"; } char * ui_key = g_strdup_printf("Meta%s", key); ghb_dict_set_string(ud->settings, ui_key, str); free(ui_key); } } } } else { // Clear metadata ghb_dict_set_string(ud->settings, "MetaName", ""); ghb_dict_set_string(ud->settings, "MetaArtist", ""); ghb_dict_set_string(ud->settings, "MetaReleaseDate", ""); ghb_dict_set_string(ud->settings, "MetaComment", ""); ghb_dict_set_string(ud->settings, "MetaAlbumArtist", ""); ghb_dict_set_string(ud->settings, "MetaGenre", ""); ghb_dict_set_string(ud->settings, "MetaDescription", ""); ghb_dict_set_string(ud->settings, "MetaLongDescription", ""); GhbValue * meta = ghb_get_job_metadata_settings(ud->settings); hb_dict_clear(meta); } // Update UI ghb_ui_update_from_settings("MetaName", ud->settings); ghb_ui_update_from_settings("MetaArtist", ud->settings); ghb_ui_update_from_settings("MetaReleaseDate", ud->settings); ghb_ui_update_from_settings("MetaComment", ud->settings); ghb_ui_update_from_settings("MetaAlbumArtist", ud->settings); ghb_ui_update_from_settings("MetaGenre", ud->settings); ghb_ui_update_from_settings("MetaDescription", ud->settings); ghb_ui_update_from_settings("MetaLongDescription", ud->settings); } G_MODULE_EXPORT void filter_widget_changed_cb (GtkWidget *widget, gpointer data) { setting_widget_changed_cb(widget, data); update_preview = TRUE; } G_MODULE_EXPORT void nonsetting_widget_changed_cb (GtkWidget *widget, gpointer data) { signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); ghb_update_summary_info(ud); ghb_live_reset(ud); } G_MODULE_EXPORT void comb_detect_widget_changed_cb (GtkWidget *widget, gpointer data) { signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); ghb_clear_presets_selection(ud); ghb_live_reset(ud); const char * comb_detect; comb_detect = ghb_dict_get_string(ud->settings, "PictureCombDetectPreset"); if (strcasecmp(comb_detect, "off")) { const char * deint; deint = ghb_dict_get_string(ud->settings, "PictureDeinterlaceFilter"); if (!strcasecmp(deint, "off")) { ghb_ui_update("PictureDeinterlaceFilter", ghb_string_value("decomb")); } } ghb_update_summary_info(ud); } G_MODULE_EXPORT void deint_filter_changed_cb (GtkWidget *widget, gpointer data) { signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); ghb_clear_presets_selection(ud); ghb_live_reset(ud); ghb_update_ui_combo_box(ud, "PictureDeinterlacePreset", NULL, FALSE); ghb_ui_update("PictureDeinterlacePreset", ghb_dict_get(ud->settings, "PictureDeinterlacePreset")); const char * deint; deint = ghb_dict_get_string(ud->settings, "PictureDeinterlaceFilter"); if (!strcasecmp(deint, "off")) { ghb_ui_update("PictureCombDetectPreset", ghb_string_value("off")); } ghb_update_summary_info(ud); } G_MODULE_EXPORT void denoise_filter_changed_cb (GtkWidget *widget, gpointer data) { signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); ghb_clear_presets_selection(ud); ghb_live_reset(ud); ghb_update_ui_combo_box(ud, "PictureDenoisePreset", NULL, FALSE); ghb_ui_update("PictureDenoisePreset", ghb_dict_get(ud->settings, "PictureDenoisePreset")); ghb_update_summary_info(ud); } G_MODULE_EXPORT void sharpen_filter_changed_cb (GtkWidget *widget, gpointer data) { signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); ghb_clear_presets_selection(ud); ghb_live_reset(ud); ghb_update_ui_combo_box(ud, "PictureSharpenPreset", NULL, FALSE); ghb_update_ui_combo_box(ud, "PictureSharpenTune", NULL, FALSE); ghb_ui_update("PictureSharpenPreset", ghb_dict_get(ud->settings, "PictureSharpenPreset")); ghb_ui_update("PictureSharpenTune", ghb_string_value("none")); ghb_update_summary_info(ud); } G_MODULE_EXPORT void title_angle_changed_cb (GtkWidget *widget, gpointer data) { signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); ghb_live_reset(ud); GhbValue *source = ghb_get_job_source_settings(ud->settings); ghb_dict_set_int(source, "Angle", ghb_dict_get_int(ud->settings, "angle")); } G_MODULE_EXPORT void meta_name_changed_cb (GtkWidget *widget, gpointer data) { const char *val; signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); val = ghb_dict_get_string(ud->settings, "MetaName"); update_meta(ud->settings, "Name", val); } G_MODULE_EXPORT void meta_artist_changed_cb (GtkWidget *widget, gpointer data) { const char *val; signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); val = ghb_dict_get_string(ud->settings, "MetaArtist"); update_meta(ud->settings, "Artist", val); } G_MODULE_EXPORT void meta_album_artist_changed_cb (GtkWidget *widget, gpointer data) { const char *val; signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); val = ghb_dict_get_string(ud->settings, "MetaAlbumArtist"); update_meta(ud->settings, "AlbumArtist", val); } G_MODULE_EXPORT void meta_release_date_changed_cb (GtkWidget *widget, gpointer data) { const char *val; signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); val = ghb_dict_get_string(ud->settings, "MetaReleaseDate"); update_meta(ud->settings, "ReleaseDate", val); } G_MODULE_EXPORT void meta_comment_changed_cb (GtkWidget *widget, gpointer data) { const char *val; signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); val = ghb_dict_get_string(ud->settings, "MetaComment"); update_meta(ud->settings, "Comment", val); } G_MODULE_EXPORT void meta_genre_changed_cb (GtkWidget *widget, gpointer data) { const char *val; signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); val = ghb_dict_get_string(ud->settings, "MetaGenre"); update_meta(ud->settings, "Genre", val); } G_MODULE_EXPORT void meta_description_changed_cb (GtkWidget *widget, gpointer data) { const char *val; signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); val = ghb_dict_get_string(ud->settings, "MetaDescription"); update_meta(ud->settings, "Description", val); } G_MODULE_EXPORT void plot_changed_cb(GtkWidget *widget, signal_user_data_t *ud) { GtkWidget * textview; const char * val; textview = GTK_WIDGET(ghb_builder_widget("MetaLongDescription")); ghb_widget_to_setting(ud->settings, textview); val = ghb_dict_get_string(ud->settings, "MetaLongDescription"); update_meta(ud->settings, "LongDescription", val); } G_MODULE_EXPORT void chapter_markers_changed_cb (GtkWidget *widget, gpointer data) { signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); ghb_clear_presets_selection(ud); ghb_live_reset(ud); GhbValue *dest; int start, end; gboolean markers; dest = ghb_get_job_dest_settings(ud->settings); markers = ghb_dict_get_bool(ud->settings, "ChapterMarkers"); start = ghb_dict_get_int(ud->settings, "start_point"); end = ghb_dict_get_int(ud->settings, "end_point"); markers &= (end > start); ghb_dict_set_bool(dest, "ChapterMarkers", markers); ghb_update_summary_info(ud); } G_MODULE_EXPORT void vquality_type_changed_cb (GtkWidget *widget, gpointer data) { signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); ghb_update_multipass(ud); ghb_clear_presets_selection(ud); ghb_live_reset(ud); if (ghb_check_name_template(ud, "{quality}") || ghb_check_name_template(ud, "{bitrate}")) ghb_set_destination(ud); } G_MODULE_EXPORT void vbitrate_changed_cb (GtkWidget *widget, gpointer data) { signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); ghb_clear_presets_selection(ud); ghb_live_reset(ud); if (ghb_check_name_template(ud, "{bitrate}")) ghb_set_destination(ud); } G_MODULE_EXPORT void vquality_changed_cb (GtkWidget *widget, gpointer data) { signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); ghb_clear_presets_selection(ud); ghb_live_reset(ud); gint vcodec; double vquality; vcodec = ghb_settings_video_encoder_codec(ud->settings, "VideoEncoder"); vquality = ghb_dict_get_double(ud->settings, "VideoQualitySlider"); if (vcodec == HB_VCODEC_X264_8BIT && vquality < 1.0) { // Set Profile to auto for lossless x264 ghb_ui_update("VideoProfile", ghb_string_value("auto")); } gdouble step; float min, max, min_step; int direction; hb_video_quality_get_limits(vcodec, &min, &max, &min_step, &direction); step = ghb_settings_combo_double(ud->prefs, "VideoQualityGranularity"); if (step < min_step) { step = min_step; } gdouble val = gtk_range_get_value(GTK_RANGE(widget)); if (val < 0) { val = ((int)((val - step / 2) / step)) * step; } else { val = ((int)((val + step / 2) / step)) * step; } if (val < min) { val = min; } if (val > max) { val = max; } gtk_range_set_value(GTK_RANGE(widget), val); if (ghb_check_name_template(ud, "{quality}")) ghb_set_destination(ud); } static void set_has_chapter_markers (gboolean markers, signal_user_data_t *ud) { GhbValue *dest = ghb_get_job_dest_settings(ud->settings); if (ghb_check_name_template(ud, "{chapters}")) ghb_set_destination(ud); GtkWidget *widget = ghb_builder_widget("ChapterMarkers"); gtk_widget_set_sensitive(widget, markers); update_title_duration(ud); markers &= ghb_dict_get_int(ud->settings, "ChapterMarkers"); ghb_dict_set_bool(dest, "ChapterMarkers", markers); } enum { PTOP_NONE, PTOP_START, PTOP_END }; /* * Reads the text entered in the spin button text field and converts * it to the correct format for the current mode. */ G_MODULE_EXPORT gboolean ptop_read_value_cb (GtkWidget *widget, gdouble *val, gpointer data) { const gchar *text; int64_t result; gdouble ss = 0; int hh = 0, mm = 0; signal_user_data_t *ud = ghb_ud(); text = gtk_editable_get_text(GTK_EDITABLE(widget)); if (ghb_settings_combo_int(ud->settings, "PtoPType") != 1) { result = strtol(text, NULL, 10); *val = (gdouble) result; return TRUE; } result = sscanf(text, "%2d:%2d:%lf", &hh, &mm, &ss); if (result != 1 && result != 3) return FALSE; if (result == 1) { sscanf(text, "%lf", val); return TRUE; } *val = hh * 3600 + mm * 60 + ss; return TRUE; } /* * Formats the current start or end point into a string which is then * displayed in the spin button text entry. */ G_MODULE_EXPORT gboolean ptop_format_value_cb (GtkWidget *widget, gpointer data) { signal_user_data_t *ud = ghb_ud(); if (ghb_settings_combo_int(ud->settings, "PtoPType") != 1) return FALSE; GtkAdjustment *adjustment; gchar *text; double ss; int hh, mm; adjustment = gtk_spin_button_get_adjustment(GTK_SPIN_BUTTON(widget)); ss = gtk_adjustment_get_value(adjustment); hh = (int) (ss / 3600); ss = ss - hh * 3600; mm = (int) (ss / 60); ss = ss - mm * 60; text = g_strdup_printf ("%02d:%02d:%05.2f", hh, mm, ss); gtk_editable_set_text(GTK_EDITABLE(widget), text); g_free (text); return TRUE; } /* * Updates the settings of the current job with the values currently being * entered by the user. This function is called every time the text in the * spin button changes but doesn't change the values currently displayed. * However, if the user starts the encode, the updated value will be used. */ static void ptop_update_bg (int side_changed, double new_val, gpointer data) { double start_val = 0.0, end_val = 0.0, min_val, max_val; int64_t start_int = 0, end_int = 0; GtkAdjustment *start_adj, *end_adj; signal_user_data_t *ud = ghb_ud(); GhbValue *range = ghb_get_job_range_settings(ud->settings); start_adj = GTK_ADJUSTMENT(ghb_builder_object("start_point_adj")); end_adj = GTK_ADJUSTMENT(ghb_builder_object("end_point_adj")); start_val = gtk_adjustment_get_value(start_adj); end_val = gtk_adjustment_get_value(end_adj); if (side_changed == PTOP_START) { min_val = gtk_adjustment_get_lower(start_adj); max_val = gtk_adjustment_get_upper(start_adj); if (new_val < min_val) start_val = min_val; else if (new_val > max_val) start_val = max_val; else start_val = new_val; end_val = (end_val > start_val) ? end_val : start_val; } else { min_val = gtk_adjustment_get_lower(end_adj); max_val = gtk_adjustment_get_upper(end_adj); if (new_val < min_val) end_val = min_val; else if (new_val > max_val) end_val = max_val; else end_val = new_val; start_val = (end_val > start_val) ? start_val : end_val; } if (ghb_settings_combo_int(ud->settings, "PtoPType") == 1) { start_int = (int64_t) nearbyint(start_val * 90000); end_int = (int64_t) nearbyint(end_val * 90000); if (start_int == end_int) { if (side_changed == PTOP_START && start_int > 0) start_int -= 1; else end_int += 1; } ghb_dict_set_double(ud->settings, "start_point", start_val); ghb_dict_set_double(ud->settings, "end_point", end_val); } else { start_int = (int64_t) nearbyint(start_val); end_int = (int64_t) nearbyint(end_val); ghb_dict_set_int(ud->settings, "start_point", start_int); ghb_dict_set_int(ud->settings, "end_point", end_int); } ghb_dict_set_int(range, "Start", start_int); ghb_dict_set_int(range, "End", end_int); if (ghb_settings_combo_int(ud->settings, "PtoPType") == 0) set_has_chapter_markers (end_int > start_int, ud); } G_MODULE_EXPORT void start_point_changed_cb (GtkWidget *widget, gpointer data) { double new_val = 0.0; ptop_read_value_cb(widget, &new_val, data); ptop_update_bg(PTOP_START, new_val, data); } G_MODULE_EXPORT void end_point_changed_cb (GtkWidget *widget, gpointer data) { double new_val = 0.0; ptop_read_value_cb(widget, &new_val, data); ptop_update_bg(PTOP_END, new_val, data); } /* * Refreshes the UI by updating the underlying GtkAdjustments with * the values set by the user. This function is only called when the * focus changes to avoid changing the text while the user is typing. */ G_MODULE_EXPORT void ptop_update_ui_cb (GtkWidget *widget, gpointer data) { GtkAdjustment *adj; double value; signal_user_data_t *ud = ghb_ud(); adj = GTK_ADJUSTMENT(ghb_builder_object("start_point_adj")); value = ghb_dict_get_double(ud->settings, "start_point"); gtk_adjustment_set_value(adj, value); adj = GTK_ADJUSTMENT(ghb_builder_object("end_point_adj")); value = ghb_dict_get_double(ud->settings, "end_point"); gtk_adjustment_set_value(adj, value); } G_MODULE_EXPORT void scale_width_changed_cb (GtkWidget *widget, gpointer data) { ghb_log_func(); signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); ghb_clear_presets_selection(ud); if (gtk_widget_is_sensitive(widget)) ghb_set_scale(ud, GHB_PIC_KEEP_WIDTH); update_preview = TRUE; ghb_live_reset(ud); } G_MODULE_EXPORT void scale_height_changed_cb (GtkWidget *widget, gpointer data) { ghb_log_func(); signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); ghb_clear_presets_selection(ud); if (gtk_widget_is_sensitive(widget)) ghb_set_scale(ud, GHB_PIC_KEEP_HEIGHT); update_preview = TRUE; ghb_live_reset(ud); } G_MODULE_EXPORT void crop_changed_cb (GtkWidget *widget, gpointer data) { ghb_log_func(); signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); ghb_clear_presets_selection(ud); if (gtk_widget_is_sensitive(widget)) ghb_set_scale(ud, 0); update_preview = TRUE; ghb_live_reset(ud); } G_MODULE_EXPORT void pad_changed_cb (GtkWidget *widget, gpointer data) { ghb_log_func(); signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); ghb_clear_presets_selection(ud); ghb_live_reset(ud); if (gtk_widget_is_sensitive(widget)) ghb_set_scale(ud, 0); update_preview = TRUE; } G_MODULE_EXPORT void display_width_changed_cb (GtkWidget *widget, gpointer data) { ghb_log_func(); signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); ghb_clear_presets_selection(ud); ghb_live_reset(ud); if (gtk_widget_is_sensitive(widget)) ghb_set_scale(ud, GHB_PIC_KEEP_DISPLAY_WIDTH); update_preview = TRUE; } G_MODULE_EXPORT void display_height_changed_cb (GtkWidget *widget, gpointer data) { ghb_log_func(); signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); ghb_clear_presets_selection(ud); ghb_live_reset(ud); if (gtk_widget_is_sensitive(widget)) ghb_set_scale(ud, GHB_PIC_KEEP_DISPLAY_HEIGHT); update_preview = TRUE; } G_MODULE_EXPORT void par_changed_cb (GtkWidget *widget, gpointer data) { ghb_log_func(); signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); ghb_clear_presets_selection(ud); ghb_live_reset(ud); if (gtk_widget_is_sensitive(widget)) ghb_set_scale(ud, GHB_PIC_KEEP_HEIGHT); update_preview = TRUE; } G_MODULE_EXPORT void scale_changed_cb (GtkWidget *widget, gpointer data) { ghb_log_func(); signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); ghb_clear_presets_selection(ud); ghb_live_reset(ud); if (gtk_widget_is_sensitive(widget)) ghb_set_scale(ud, 0); update_preview = TRUE; } G_MODULE_EXPORT void rotate_changed_cb (GtkWidget *widget, gpointer data) { int angle, hflip, prev_angle, prev_hflip; signal_user_data_t *ud = ghb_ud(); ghb_log_func(); prev_angle = ghb_dict_get_int(ud->settings, "rotate"); prev_hflip = ghb_dict_get_int(ud->settings, "hflip"); ghb_widget_to_setting(ud->settings, widget); ghb_clear_presets_selection(ud); ghb_live_reset(ud); hb_geometry_crop_t geo; // First normalize current settings to 0 angle 0 hflip geo.geometry.width = ghb_dict_get_int(ud->settings, "scale_width"); geo.geometry.height = ghb_dict_get_int(ud->settings, "scale_height"); geo.geometry.par.num = ghb_dict_get_int(ud->settings, "PicturePARWidth"); geo.geometry.par.den = ghb_dict_get_int(ud->settings, "PicturePARHeight"); geo.crop[0] = ghb_dict_get_int(ud->settings, "PictureTopCrop"); geo.crop[1] = ghb_dict_get_int(ud->settings, "PictureBottomCrop"); geo.crop[2] = ghb_dict_get_int(ud->settings, "PictureLeftCrop"); geo.crop[3] = ghb_dict_get_int(ud->settings, "PictureRightCrop"); geo.pad[0] = ghb_dict_get_int(ud->settings, "PicturePadTop"); geo.pad[1] = ghb_dict_get_int(ud->settings, "PicturePadBottom"); geo.pad[2] = ghb_dict_get_int(ud->settings, "PicturePadLeft"); geo.pad[3] = ghb_dict_get_int(ud->settings, "PicturePadRight"); // Normally hflip is applied, then rotation. // To revert, must apply rotation then hflip. hb_rotate_geometry(&geo, &geo, 360 - prev_angle, 0); hb_rotate_geometry(&geo, &geo, 0, prev_hflip); const hb_title_t * title; int title_id, titleindex; title_id = ghb_dict_get_int(ud->settings, "title"); title = ghb_lookup_title(title_id, &titleindex); if (title != NULL) { // If there is a title, reset to title width/height so that // dimension limits get properly re-applied geo.geometry.width = title->geometry.width; geo.geometry.height = title->geometry.height; } // rotate dimensions to new angle and hflip angle = ghb_dict_get_int(ud->settings, "rotate"); hflip = ghb_dict_get_int(ud->settings, "hflip"); hb_rotate_geometry(&geo, &geo, angle, hflip); ghb_dict_set_int(ud->settings, "scale_width", geo.geometry.width - geo.crop[2] - geo.crop[3]); ghb_dict_set_int(ud->settings, "scale_height", geo.geometry.height - geo.crop[0] - geo.crop[1]); ghb_dict_set_int(ud->settings, "PicturePARWidth", geo.geometry.par.num); ghb_dict_set_int(ud->settings, "PicturePARHeight", geo.geometry.par.den); ghb_dict_set_int(ud->settings, "PictureTopCrop", geo.crop[0]); ghb_dict_set_int(ud->settings, "PictureBottomCrop", geo.crop[1]); ghb_dict_set_int(ud->settings, "PictureLeftCrop", geo.crop[2]); ghb_dict_set_int(ud->settings, "PictureRightCrop", geo.crop[3]); ghb_dict_set_int(ud->settings, "PicturePadTop", geo.pad[0]); ghb_dict_set_int(ud->settings, "PicturePadBottom", geo.pad[1]); ghb_dict_set_int(ud->settings, "PicturePadLeft", geo.pad[2]); ghb_dict_set_int(ud->settings, "PicturePadRight", geo.pad[3]); ghb_set_scale(ud, 0); update_preview = TRUE; } G_MODULE_EXPORT void resolution_limit_changed_cb (GtkWidget *widget, gpointer data) { ghb_log_func(); signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->settings, widget); ghb_clear_presets_selection(ud); ghb_live_reset(ud); const gchar * resolution_limit; int width, height; resolution_limit = ghb_dict_get_string(ud->settings, "resolution_limit"); ghb_lookup_resolution_limit_dimensions(resolution_limit, &width, &height); if (width >= 0 && height >= 0) { ghb_dict_set_int(ud->settings, "PictureWidth", width); ghb_dict_set_int(ud->settings, "PictureHeight", height); } ghb_set_scale(ud, GHB_PIC_KEEP_HEIGHT); update_preview = TRUE; } G_MODULE_EXPORT void generic_entry_changed_cb (GtkEntry *entry, gpointer data) { // Normally (due to user input) I only want to process the entry // when editing is done and the focus-out signal is sent. // But... there's always a but. // If the entry is changed by software, the focus-out signal is not sent. // The changed signal is sent ... so here we are. // I don't want to process upon every keystroke, so I prevent processing // while the widget has focus. ghb_log_func(); signal_user_data_t *ud = ghb_ud(); if (!gtk_widget_has_focus((GtkWidget*)entry)) { ghb_widget_to_setting(ud->settings, (GtkWidget*)entry); } } gboolean prefs_require_restart = FALSE; G_MODULE_EXPORT void preferences_action_cb (GSimpleAction *action, GVariant *param, gpointer data) { GtkWidget *dialog; prefs_require_restart = FALSE; dialog = ghb_builder_widget("prefs_dialog"); gtk_widget_set_visible(dialog, TRUE); } G_MODULE_EXPORT gboolean prefs_response_cb (GtkWindow *dialog, gpointer data) { ghb_prefs_store(); gtk_widget_set_visible(GTK_WIDGET(dialog), FALSE); if (prefs_require_restart) { GtkWindow *hb_window = GTK_WINDOW(ghb_builder_widget("hb_window")); // Toss up a warning dialog ghb_question_dialog_run(hb_window, GHB_ACTION_NORMAL, _("_Quit"), NULL, _("Settings Changed"), _("You must restart HandBrake now.")); application_quit(); } return TRUE; } typedef struct { GtkMessageDialog *dlg; const gchar *msg; const gchar *action; gint timeout; signal_user_data_t *ud; } countdown_t; static gboolean quit_cb(countdown_t *cd) { cd->timeout--; if (cd->timeout <= 0) { gtk_window_destroy(GTK_WINDOW(cd->dlg)); application_quit(); return FALSE; } else { gtk_message_dialog_format_secondary_text(cd->dlg, _("%s in %d seconds…"), cd->action, cd->timeout); return TRUE; } } static gboolean shutdown_cb(countdown_t *cd) { cd->timeout--; gtk_message_dialog_format_secondary_text(cd->dlg, _("%s in %d seconds…"), cd->action, cd->timeout); if (cd->timeout == 0) { ghb_hb_cleanup(FALSE); prune_logs(); shutdown_logind(); g_application_quit(g_application_get_default()); return FALSE; } return TRUE; } static gboolean suspend_cb(countdown_t *cd) { cd->timeout--; gtk_message_dialog_format_secondary_text(cd->dlg, _("%s in %d seconds…"), cd->action, cd->timeout); if (cd->timeout == 0) { gtk_window_destroy(GTK_WINDOW(cd->dlg)); suspend_logind(); return FALSE; } return TRUE; } static void countdown_dialog_response (GtkDialog *dialog, int response, guint *timeout_id) { if (response == GTK_RESPONSE_CANCEL) { GMainContext *mc; GSource *source; mc = g_main_context_default(); source = g_main_context_find_source_by_id(mc, *timeout_id); if (source != NULL) g_source_destroy(source); gtk_window_destroy(GTK_WINDOW(dialog)); } g_free(timeout_id); } void ghb_countdown_dialog_show (const gchar *message, const gchar *action, GSourceFunc action_func, int timeout, signal_user_data_t *ud) { GtkWindow *hb_window; GtkWidget *dialog, *box, *label; guint *timeout_id = g_new(guint, 1); countdown_t *cd = g_new(countdown_t, 1); cd->msg = message; cd->action = action; cd->timeout = timeout; cd->ud = ud; // Toss up a warning dialog hb_window = GTK_WINDOW(ghb_builder_widget("hb_window")); dialog = gtk_message_dialog_new(hb_window, GTK_DIALOG_MODAL, GTK_MESSAGE_INFO, GTK_BUTTONS_CANCEL, "%s", message); gtk_message_dialog_format_secondary_text(GTK_MESSAGE_DIALOG(dialog), _("%s in %d seconds…"), action, timeout); box = gtk_message_dialog_get_message_area(GTK_MESSAGE_DIALOG(dialog)); label = gtk_widget_get_last_child(box); gtk_widget_add_css_class(label, "numeric"); cd->dlg = GTK_MESSAGE_DIALOG(dialog); *timeout_id = g_timeout_add(1000, action_func, cd); g_signal_connect(dialog, "response", G_CALLBACK(countdown_dialog_response), timeout_id); gtk_widget_set_visible(dialog, TRUE); } G_GNUC_PRINTF(6, 0) static GtkMessageDialog * question_dialog_va (GtkWindow *parent, GhbActionStyle accept_style, const char *accept_button, const char *cancel_button, const char *title, const char *format, va_list va_args) { GtkWidget *dialog, *button; if (parent == NULL) { GtkApplication *app = GTK_APPLICATION(g_application_get_default()); parent = gtk_application_get_active_window(app); } // Toss up a warning dialog dialog = gtk_message_dialog_new(parent, GTK_DIALOG_MODAL, GTK_MESSAGE_QUESTION, GTK_BUTTONS_NONE, "%s", title); if (format) { char *message; message = g_strdup_vprintf(format, va_args); gtk_message_dialog_format_secondary_text(GTK_MESSAGE_DIALOG(dialog), "%s", message); g_free(message); } if (cancel_button != NULL) { gtk_dialog_add_button(GTK_DIALOG(dialog), cancel_button, GTK_RESPONSE_CANCEL); } if (accept_button != NULL) { button = gtk_dialog_add_button(GTK_DIALOG(dialog), accept_button, GTK_RESPONSE_ACCEPT); switch (accept_style) { case GHB_ACTION_SUGGESTED: gtk_widget_add_css_class(button, "suggested-action"); break; case GHB_ACTION_DESTRUCTIVE: gtk_widget_add_css_class(button, "destructive-action"); default: break; } } return GTK_MESSAGE_DIALOG(dialog); } GtkMessageDialog * ghb_question_dialog_new (GtkWindow *parent, GhbActionStyle accept_style, const char *accept_button, const char *cancel_button, const char *title, const char *format, ...) { va_list args; GtkMessageDialog *dialog; va_start(args, format); dialog = question_dialog_va(parent, accept_style, accept_button, cancel_button, title, format, args); va_end(args); return dialog; } gboolean ghb_question_dialog_run (GtkWindow *parent, GhbActionStyle accept_style, const char *accept_button, const char *cancel_button, const char *title, const char *format, ...) { va_list args; GtkMessageDialog *dialog; GtkResponseType response; va_start(args, format); dialog = question_dialog_va(parent, accept_style, accept_button, cancel_button, title, format, args); va_end(args); response = ghb_dialog_run(GTK_DIALOG(dialog)); gtk_window_destroy(GTK_WINDOW(dialog)); if (response == GTK_RESPONSE_ACCEPT) { return TRUE; } return FALSE; } void message_dialog_destroy (GtkDialog *dialog, int response, gpointer user_data) { gtk_window_destroy(GTK_WINDOW(dialog)); } /** * Displays a modal message dialog which will be destroyed automatically. * Use for warnings which don't need a response. * * @type: The @GtkMessageType for the dialog * @title: The title of the dialog * @message: The detail text of the dialog */ void ghb_alert_dialog_show (GtkMessageType type, const char *title, const char *format, ...) { GtkWindow *parent; GtkWidget *dialog; char *message; va_list args; parent = gtk_application_get_active_window(GTK_APPLICATION(g_application_get_default())); dialog = gtk_message_dialog_new(parent, GTK_DIALOG_MODAL | GTK_DIALOG_DESTROY_WITH_PARENT, type, GTK_BUTTONS_CLOSE, "%s", title); if (format != NULL) { va_start(args, format); message = g_strdup_vprintf(format, args); va_end(args); gtk_message_dialog_format_secondary_text(GTK_MESSAGE_DIALOG(dialog), "%s", message); g_free(message); } g_signal_connect(dialog, "response", G_CALLBACK(message_dialog_destroy), NULL); gtk_widget_set_visible(dialog, TRUE); } GtkWidget * ghb_cancel_dialog_new (GtkWindow *parent, const char *title, const char *message, const char *cancel_all_button, const char *cancel_current_button, const char *finish_button, const char *continue_button) { GtkWidget *dialog, *cancel; dialog = gtk_message_dialog_new(parent, GTK_DIALOG_MODAL, GTK_MESSAGE_WARNING, GTK_BUTTONS_NONE, "%s", title); gtk_message_dialog_format_secondary_text(GTK_MESSAGE_DIALOG(dialog), "%s", message); gtk_window_set_transient_for(GTK_WINDOW(dialog), parent); gtk_window_set_modal(GTK_WINDOW(dialog), TRUE); cancel = gtk_dialog_add_button(GTK_DIALOG(dialog), cancel_all_button, 1); gtk_widget_add_css_class(cancel, "destructive-action"); if (cancel_current_button != NULL) { cancel = gtk_dialog_add_button(GTK_DIALOG(dialog), cancel_current_button, 2); gtk_widget_add_css_class(cancel, "destructive-action"); } if (finish_button != NULL) { gtk_dialog_add_button (GTK_DIALOG(dialog), finish_button, 3); } if (continue_button != NULL) { gtk_dialog_add_button(GTK_DIALOG(dialog), continue_button, 4); } return dialog; } static void stop_encode_dialog_response (GtkDialog *dialog, int response, signal_user_data_t *ud) { g_signal_handlers_disconnect_by_data(dialog, ud); gtk_window_destroy(GTK_WINDOW(dialog)); switch (response) { case 1: ghb_stop_queue(); ghb_set_cancel_status(GHB_CANCEL_ALL); break; case 2: ghb_stop_queue(); ghb_set_cancel_status(GHB_CANCEL_CURRENT); break; case 3: ghb_set_cancel_status(GHB_CANCEL_FINISH); break; case 4: default: ghb_set_cancel_status(GHB_CANCEL_NONE); break; } } void ghb_stop_encode_dialog_show (signal_user_data_t *ud) { GtkWindow *window = gtk_application_get_active_window( GTK_APPLICATION(g_application_get_default())); GtkWidget *dialog = ghb_cancel_dialog_new(window, _("Stop Encoding?"), _("Your movie will be lost if you don't continue encoding."), _("Cancel Current and Stop"), _("Cancel Current, Start Next"), _("Finish Current and Stop"), _("Continue Encoding")); g_signal_connect(dialog, "response", G_CALLBACK(stop_encode_dialog_response), ud); gtk_widget_set_visible(dialog, TRUE); } static void quit_dialog_response (GtkDialog *dialog, int response, gpointer data) { gtk_window_destroy(GTK_WINDOW(dialog)); if (response == 1) { application_quit(); } } static void quit_dialog_show (void) { GtkWindow *window = gtk_application_get_active_window( GTK_APPLICATION(g_application_get_default())); g_warn_if_fail(GTK_IS_APPLICATION_WINDOW(window)); GtkWidget *dialog = ghb_cancel_dialog_new(window, _("Quit HandBrake?"), _("Your movie will be lost if you don't continue encoding."), _("Cancel All and Quit"), NULL, NULL, _("Continue Encoding")); g_signal_connect(dialog, "response", G_CALLBACK(quit_dialog_response), NULL); gtk_widget_set_visible(dialog, TRUE); } static void start_new_log(signal_user_data_t *ud, GhbValue *uiDict) { time_t _now; struct tm *now; gchar *log_path, *pos, *basename, *dest_dir; const gchar *destname; // queue_activity_buffer is about to be reused, make sure // queue is showing the correct buffer ghb_queue_select_log(ud); // Erase current contents of queue activity gtk_text_buffer_set_text(ud->queue_activity_buffer, "", 0); _now = time(NULL); now = localtime(&_now); destname = ghb_dict_get_string(uiDict, "destination"); basename = g_path_get_basename(destname); if (ghb_dict_get_bool(ud->prefs, "EncodeLogLocation")) { dest_dir = g_path_get_dirname (destname); } else { dest_dir = ghb_get_user_config_dir("EncodeLogs"); } pos = g_strrstr( basename, "." ); if (pos != NULL) { *pos = 0; } log_path = g_strdup_printf("%s/%s %d-%02d-%02d %02d-%02d-%02d.log", dest_dir, basename, now->tm_year + 1900, now->tm_mon + 1, now->tm_mday, now->tm_hour, now->tm_min, now->tm_sec); g_free(basename); g_free(dest_dir); if (ud->job_activity_log) g_io_channel_unref(ud->job_activity_log); ud->job_activity_log = g_io_channel_new_file (log_path, "w", NULL); if (ud->job_activity_log) { gchar *ver_str; ver_str = g_strdup_printf("Handbrake Version: %s (%d)\n", hb_get_version(NULL), hb_get_build(NULL)); g_io_channel_write_chars (ud->job_activity_log, ver_str, -1, NULL, NULL); g_free(ver_str); ghb_dict_set_string(uiDict, "ActivityFilename", log_path); } g_free(log_path); } static void submit_job(signal_user_data_t *ud, GhbValue *queueDict) { const char *name, *type, *modified; GhbValue *uiDict; gboolean preset_modified; ghb_log_func(); if (queueDict == NULL) return; uiDict = ghb_dict_get(queueDict, "uiSettings"); preset_modified = ghb_dict_get_bool(uiDict, "preset_modified"); name = ghb_dict_get_string(uiDict, "PresetFullName"); type = ghb_dict_get_int(uiDict, "Type") == 1 ? "Custom " : ""; modified = preset_modified ? "Modified " : ""; ghb_log("%s%sPreset: %s", modified, type, name); ghb_dict_set_int(uiDict, "job_status", GHB_QUEUE_RUNNING); start_new_log(ud, uiDict); GhbValue *job_dict = ghb_dict_get(queueDict, "Job"); int unique_id = ghb_add_job(ghb_queue_handle(), job_dict); ghb_dict_set_int(uiDict, "job_unique_id", unique_id); time_t now = time(NULL); ghb_dict_set_int(uiDict, "job_start_time", now); ghb_start_queue(); // Show queue progress bar int index = ghb_find_queue_job(ud->queue, unique_id, NULL); ghb_queue_item_set_status(ud, index, GHB_QUEUE_RUNNING); } static void prune_logs (void) { gchar *dest_dir; gint days; signal_user_data_t *ud = ghb_ud(); // Only prune logs stored in the default config dir location days = ghb_settings_combo_int(ud->prefs, "LogLongevity"); if (days > 365) return; dest_dir = ghb_get_user_config_dir("EncodeLogs"); if (g_file_test(dest_dir, G_FILE_TEST_IS_DIR)) { const gchar *file; gint duration = days * 24 * 60 * 60; GDir *gdir = g_dir_open(dest_dir, 0, NULL); time_t now; now = time(NULL); file = g_dir_read_name(gdir); while (file) { gchar *path; GStatBuf stbuf; path = g_strdup_printf("%s/%s", dest_dir, file); g_stat(path, &stbuf); if (now - stbuf.st_mtime > duration) { g_unlink(path); } g_free(path); file = g_dir_read_name(gdir); } g_dir_close(gdir); } g_free(dest_dir); ghb_preview_cleanup(ud); } static gint queue_pending_count(GhbValue *queue) { gint nn, ii, count; GhbValue *queueDict, *uiDict; gint status; nn = 0; count = ghb_array_len(queue); for (ii = 0; ii < count; ii++) { queueDict = ghb_array_get(queue, ii); uiDict = ghb_dict_get(queueDict, "uiSettings"); status = ghb_dict_get_int(uiDict, "job_status"); if (status == GHB_QUEUE_PENDING) { nn++; } } return nn; } void ghb_update_pending(signal_user_data_t *ud) { GtkLabel *label; gint pending; gchar *str = NULL; pending = queue_pending_count(ud->queue); if (pending < 0) pending = 0; str = g_strdup_printf(ngettext("%d encode pending", "%d encodes pending", pending), pending); label = GTK_LABEL(ghb_builder_widget("pending_status")); gtk_label_set_text(label, pending ? str : ""); // Hide this label if no pending items label = GTK_LABEL(ghb_builder_widget("queue_status_label")); gtk_label_set_text(label, str); g_free(str); update_queue_labels(ud); } void ghb_start_next_job(signal_user_data_t *ud) { gint count, ii; GhbValue *queueDict, *uiDict; gint status; GtkWidget *progress; ghb_log_func(); progress = ghb_builder_widget("progressbar"); gtk_widget_set_visible(progress, TRUE); count = ghb_array_len(ud->queue); for (ii = 0; ii < count; ii++) { queueDict = ghb_array_get(ud->queue, ii); uiDict = ghb_dict_get(queueDict, "uiSettings"); status = ghb_dict_get_int(uiDict, "job_status"); if (status == GHB_QUEUE_PENDING) { inhibit_suspend(); submit_job(ud, queueDict); ghb_update_pending(ud); return; } } // Nothing pending uninhibit_suspend(); ghb_send_notification(GHB_NOTIFY_QUEUE_DONE, 0, ud); queue_done_action(ud); ghb_update_pending(ud); gtk_widget_set_visible(progress, FALSE); ghb_reset_disk_space_check(); } static gchar* working_status_string(signal_user_data_t *ud, ghb_instance_status_t *status) { gchar *task_str, *job_str, *status_str; gint qcount; gint index; qcount = ghb_array_len(ud->queue); index = ghb_find_queue_job(ud->queue, status->unique_id, NULL); if (qcount > 1) { job_str = g_strdup_printf(_("job %d of %d, "), index+1, qcount); } else { job_str = g_strdup(""); } if (status->pass_count > 1) { if (status->pass_id == HB_PASS_SUBTITLE) { task_str = g_strdup_printf(_("pass %d (subtitle scan) of %d, "), status->pass, status->pass_count); } else { task_str = g_strdup_printf(_("pass %d of %d, "), status->pass, status->pass_count); } } else { task_str = g_strdup(""); } if(status->seconds > -1) { if (status->rate_cur > 0.0) { status_str= g_strdup_printf( _("Encoding: %s%s%.2f %%" " (%.2f fps, avg %.2f fps, ETA %02dh%02dm%02ds)"), job_str, task_str, 100.0 * status->progress, status->rate_cur, status->rate_avg, status->hours, status->minutes, status->seconds ); } else { status_str= g_strdup_printf( _("Encoding: %s%s%.2f %%" " (ETA %02dh%02dm%02ds)"), job_str, task_str, 100.0 * status->progress, status->hours, status->minutes, status->seconds ); } } else { status_str= g_strdup_printf( _("Encoding: %s%s%.2f %%"), job_str, task_str, 100.0 * status->progress ); } g_free(task_str); g_free(job_str); return status_str; } static gchar* searching_status_string(signal_user_data_t *ud, ghb_instance_status_t *status) { gchar *task_str, *job_str, *status_str; gint qcount; gint index; qcount = ghb_array_len(ud->queue); index = ghb_find_queue_job(ud->queue, status->unique_id, NULL); if (qcount > 1) { job_str = g_strdup_printf(_("job %d of %d, "), index+1, qcount); } else { job_str = g_strdup(""); } task_str = g_strdup_printf(_("Searching for start time, ")); if(status->seconds > -1) { status_str= g_strdup_printf( _("Encoding: %s%s%.2f %%" " (ETA %02dh%02dm%02ds)"), job_str, task_str, 100.0 * status->progress, status->hours, status->minutes, status->seconds ); } else { status_str= g_strdup_printf( _("Encoding: %s%s%.2f %%"), job_str, task_str, 100.0 * status->progress ); } g_free(task_str); g_free(job_str); return status_str; } static gboolean is_flatpak = FALSE; static gboolean flatpak_spawn_enable = FALSE; static guint flatpak_spawn_watch_id = 0; static void flatpak_spawn_allowed (GDBusConnection *connection, const char *name, const char *name_owner, gpointer user_data) { flatpak_spawn_enable = TRUE; g_bus_unwatch_name(flatpak_spawn_watch_id); } static void flatpak_spawn_disallowed (GDBusConnection *connection, const char *name, gpointer user_data) { gtk_widget_set_sensitive(ghb_builder_widget("SendFileTo"), FALSE); g_bus_unwatch_name(flatpak_spawn_watch_id); } // Disable flatpak-spawn option if the org.freedesktop.Flatpak bus name is unavailable void ghb_check_send_to_available (void) { if (g_access("/.flatpak-info", F_OK) == 0) { is_flatpak = TRUE; flatpak_spawn_watch_id = g_bus_watch_name(G_BUS_TYPE_SESSION, "org.freedesktop.Flatpak", G_BUS_NAME_WATCHER_FLAGS_NONE, (GBusNameAppearedCallback) flatpak_spawn_allowed, (GBusNameVanishedCallback) flatpak_spawn_disallowed, NULL, NULL); } } static void send_to_external_app(gint index, signal_user_data_t * ud) { gboolean send_file_to = ghb_dict_get_bool(ud->prefs, "SendFileTo"); const gchar * send_file_to_target = ghb_dict_get_string(ud->prefs, "SendFileToTarget"); if (send_file_to && send_file_to_target != NULL && send_file_to_target[0] != '\0') { if (is_flatpak && !flatpak_spawn_enable) { ghb_log("Could not run command outside Flatpak as fr.handbrake.ghb " "doesn't have the --talk-name=org.freedesktop.Flatpak override"); return; } GhbValue *queueDict, *jobDict, *destDict; queueDict = ghb_array_get(ud->queue, index); jobDict = ghb_dict_get(queueDict, "Job"); destDict = ghb_dict_get(jobDict, "Destination"); gchar * file = g_shell_quote(ghb_dict_get_string(destDict, "File")); gchar * command_str; if (is_flatpak) { command_str = g_strjoin(" ", "flatpak-spawn", "--host", "--", send_file_to_target, file, NULL); } else { command_str = g_strjoin(" ", send_file_to_target, file, NULL); } gchar ** command_array = NULL; GError * error = NULL; ghb_log("Running command `%s`", command_str); if (g_shell_parse_argv(command_str, NULL, &command_array, &error)) { g_spawn_async( NULL, command_array, NULL, G_SPAWN_SEARCH_PATH | G_SPAWN_STDERR_TO_DEV_NULL | G_SPAWN_STDOUT_TO_DEV_NULL, NULL, NULL, NULL, &error); g_strfreev(command_array); } if (error != NULL) { ghb_log("Failed to run command `%s`: %s", command_str, error->message); g_error_free(error); } g_free(command_str); g_free(file); } } static void ghb_backend_events(signal_user_data_t *ud) { ghb_status_t status; gchar * status_str; GtkProgressBar * progress; GtkLabel * work_status; GhbValue * queueDict = NULL; gint index = -1; static gint prev_scan_state = -1; static gint prev_queue_state = -1; static gint event_sequence = 0; event_sequence++; ghb_track_status(); ghb_get_status(&status); if (prev_scan_state != status.scan.state || prev_queue_state != status.queue.state) { ghb_queue_buttons_grey(ud); prev_scan_state = status.scan.state; prev_queue_state = status.queue.state; } progress = GTK_PROGRESS_BAR(ghb_builder_widget("progressbar")); work_status = GTK_LABEL(ghb_builder_widget("work_status")); if (status.scan.state == GHB_STATE_IDLE && status.queue.state == GHB_STATE_IDLE) { static gboolean prev_dvdnav; gboolean dvdnav = ghb_dict_get_bool(ud->prefs, "use_dvdnav"); if (dvdnav != prev_dvdnav) { hb_dvd_set_dvdnav(dvdnav); prev_dvdnav = dvdnav; } } // First handle the status of title scans // Then handle the status of the queue if (status.scan.state & GHB_STATE_SCANNING) { GtkProgressBar *scan_prog; GtkLabel *label; scan_prog = GTK_PROGRESS_BAR(ghb_builder_widget("scan_prog")); label = GTK_LABEL(ghb_builder_widget("source_scan_label")); if (status.scan.title_cur == 0) { status_str = g_strdup (_("Scanning...")); } else { if (status.scan.preview_cur == 0) status_str = g_strdup_printf(_("Scanning title %d of %d..."), status.scan.title_cur, status.scan.title_count ); else status_str = g_strdup_printf( _("Scanning title %d of %d preview %d..."), status.scan.title_cur, status.scan.title_count, status.scan.preview_cur); } gtk_label_set_text(label, status_str); g_free(status_str); if (status.scan.title_count > 0) { gtk_progress_bar_set_fraction(scan_prog, status.scan.progress); } } else if (status.scan.state & GHB_STATE_SCANDONE) { GtkWidget *widget; widget = ghb_builder_widget("sourcetoolbutton"); ghb_button_set_icon_name(GHB_BUTTON(widget), "hb-source"); ghb_button_set_label(GHB_BUTTON(widget), _("Open Source")); gtk_widget_set_tooltip_text(widget, _("Choose Video Source")); widget = ghb_builder_widget("sourcetoolmenubutton"); gtk_widget_set_sensitive(widget, true); hide_scan_progress(ud); int title_id, titleindex; const hb_title_t *title; title_id = ghb_longest_title(); title = ghb_lookup_title(title_id, &titleindex); ghb_update_ui_combo_box(ud, "title", NULL, FALSE); load_all_titles(ud, titleindex); ghb_clear_scan_state(GHB_STATE_SCANDONE); // Are there really any titles. if (title == NULL) { ghb_ui_update("title", ghb_string_value("none")); } else { ghb_ui_update("title", ghb_int_value(title->index)); } if (ghb_queue_edit_settings != NULL) { // Switch to the correct title in the list ghb_ui_update("title", ghb_dict_get_value(ghb_queue_edit_settings, "title")); // The above should cause the current title index to update title_id = ghb_dict_get_int(ud->settings, "title"); title = ghb_lookup_title(title_id, &titleindex); ghb_array_replace(ud->settings_array, titleindex, ghb_queue_edit_settings); ud->settings = ghb_queue_edit_settings; ghb_load_settings(ud); ghb_queue_edit_settings = NULL; } } if (status.queue.unique_id != 0) { index = ghb_find_queue_job(ud->queue, status.queue.unique_id, &queueDict); if ((status.queue.state & GHB_STATE_WORKING) && !(status.queue.state & GHB_STATE_PAUSED) && (event_sequence % 50 == 0)) // check every 10 seconds { ghb_low_disk_check(ud); } } if (status.queue.state & GHB_STATE_SCANNING) { // This needs to be in scanning and working since scanning // happens fast enough that it can be missed gtk_label_set_text(work_status, _("Scanning ...")); gtk_progress_bar_set_fraction(progress, status.queue.progress); ghb_queue_update_live_stats(ud, index, &status.queue); ghb_queue_progress_set_fraction(ud, index, status.queue.progress); } else if (status.queue.state & GHB_STATE_SCANDONE) { ghb_clear_queue_state(GHB_STATE_SCANDONE); } else if (status.queue.state & GHB_STATE_PAUSED) { gtk_label_set_text (work_status, _("Paused")); ghb_queue_update_live_stats(ud, index, &status.queue); } else if (status.queue.state & GHB_STATE_SEARCHING) { status_str = searching_status_string(ud, &status.queue); gtk_label_set_text (work_status, status_str); gtk_progress_bar_set_fraction(progress, status.queue.progress); ghb_queue_progress_set_fraction(ud, index, status.queue.progress); g_free(status_str); } else if (status.queue.state & GHB_STATE_WORKING) { status_str = working_status_string(ud, &status.queue); gtk_label_set_text (work_status, status_str); gtk_progress_bar_set_fraction (progress, status.queue.progress); ghb_queue_update_live_stats(ud, index, &status.queue); ghb_queue_progress_set_fraction(ud, index, status.queue.progress); g_free(status_str); } else if (status.queue.state & GHB_STATE_WORKDONE) { gint qstatus; switch (status.queue.error) { case GHB_ERROR_NONE: gtk_label_set_text(work_status, _("Encode Done!")); qstatus = GHB_QUEUE_DONE; send_to_external_app(index, ud); ghb_send_notification (GHB_NOTIFY_ITEM_DONE, index, ud); break; case GHB_ERROR_CANCELED: gtk_label_set_text(work_status, _("Encode Canceled.")); qstatus = GHB_QUEUE_CANCELED; break; case GHB_ERROR_FAIL: default: gtk_label_set_text(work_status, _("Encode Failed.")); ghb_send_notification (GHB_NOTIFY_ITEM_FAILED, index, ud); qstatus = GHB_QUEUE_FAIL; } if (queueDict != NULL) { GhbValue *uiDict = ghb_dict_get(queueDict, "uiSettings"); ghb_dict_set_int(uiDict, "job_status", qstatus); time_t now = time(NULL); ghb_dict_set_int(uiDict, "job_finish_time", now); ghb_dict_set_int(uiDict, "job_pause_time_ms", status.queue.paused); } ghb_queue_update_live_stats(ud, index, &status.queue); gtk_progress_bar_set_fraction(progress, 1.0); ghb_queue_item_set_status(ud, index, qstatus); ghb_queue_progress_set_fraction(ud, index, 1.0); ghb_clear_queue_state(GHB_STATE_WORKDONE); if (ud->job_activity_log) g_io_channel_unref(ud->job_activity_log); ud->job_activity_log = NULL; if (ghb_dict_get_bool(ud->prefs, "RemoveFinishedJobs") && status.queue.error == GHB_ERROR_NONE) { ghb_queue_remove_row_at_index(index); } if (ghb_get_cancel_status() != GHB_CANCEL_ALL && ghb_get_cancel_status() != GHB_CANCEL_FINISH) { ghb_start_next_job(ud); } else { uninhibit_suspend(); gtk_widget_set_visible(GTK_WIDGET(progress), FALSE); ghb_reset_disk_space_check(); } ghb_save_queue(ud->queue); ghb_set_cancel_status(GHB_CANCEL_NONE); } else if (status.queue.state & GHB_STATE_MUXING) { gtk_label_set_text (work_status, _("Muxing: This may take a while...")); } if (status.live.state & GHB_STATE_WORKING) { GtkProgressBar *live_progress; live_progress = GTK_PROGRESS_BAR( ghb_builder_widget("live_encode_progress")); status_str = working_status_string(ud, &status.live); gtk_progress_bar_set_text (live_progress, status_str); gtk_progress_bar_set_fraction (live_progress, status.live.progress); g_free(status_str); } if (status.live.state & GHB_STATE_WORKDONE) { switch( status.live.error ) { case GHB_ERROR_NONE: { ghb_live_encode_done(ud, TRUE); } break; default: { ghb_live_encode_done(ud, FALSE); } break; } ghb_clear_live_state(GHB_STATE_WORKDONE); } } G_MODULE_EXPORT gboolean ghb_timer_cb(gpointer data) { signal_user_data_t *ud = (signal_user_data_t*)data; ghb_backend_events(ud); if (update_preview) { g_debug("Updating preview"); ghb_set_preview_image(ud); update_preview = FALSE; } return TRUE; } static void append_activity(GtkTextBuffer * tb, const char * text, gsize length) { if (text == NULL || length <= 0) { return; } GtkTextIter iter; gtk_text_buffer_get_end_iter(tb, &iter); gtk_text_buffer_insert(tb, &iter, text, -1); } G_MODULE_EXPORT gboolean ghb_log_cb(GIOChannel *source, GIOCondition cond, gpointer data) { gchar *text = NULL; gsize length, outlength; GError *gerror = NULL; GIOStatus status; signal_user_data_t *ud = (signal_user_data_t*)data; status = g_io_channel_read_line (source, &text, &length, NULL, &gerror); // Trim nils from end of text, they cause g_io_channel_write_chars to // fail with an assertion that aborts while (length > 0 && text[length-1] == 0) length--; if (text != NULL && length > 0) { gchar *utf8_text; // Assume logging is in current locale utf8_text = g_locale_to_utf8(text, -1, NULL, &length, NULL); if (utf8_text != NULL) { // Write to activity windows append_activity(ud->activity_buffer, utf8_text, length); append_activity(ud->queue_activity_buffer, utf8_text, length); // Write log files #if defined(_WIN32) gsize one = 1; utf8_text[length-1] = '\r'; #endif if (ud->activity_log != NULL) { g_io_channel_write_chars (ud->activity_log, utf8_text, length, &outlength, NULL); #if defined(_WIN32) g_io_channel_write_chars (ud->activity_log, "\n", one, &one, NULL); #endif g_io_channel_flush(ud->activity_log, NULL); } if (ud->job_activity_log) { g_io_channel_write_chars (ud->job_activity_log, utf8_text, length, &outlength, NULL); #if defined(_WIN32) g_io_channel_write_chars (ud->activity_log, "\n", one, &outlength, NULL); #endif g_io_channel_flush(ud->job_activity_log, NULL); } g_free(utf8_text); } } if (text != NULL) g_free(text); if (status != G_IO_STATUS_NORMAL) { // This should never happen, but if it does I would get into an // infinite loop. Returning false removes this callback. g_warning("Error while reading activity from pipe"); if (gerror != NULL) { g_warning("%s", gerror->message); g_error_free (gerror); } return FALSE; } if (gerror != NULL) g_error_free (gerror); return TRUE; } G_MODULE_EXPORT void show_activity_action_cb(GSimpleAction *action, GVariant *value, signal_user_data_t *ud) { GtkWidget *activity_window = ghb_builder_widget("activity_window"); gtk_window_present(GTK_WINDOW(activity_window)); } void ghb_log (const char *log, ...) { va_list args; time_t _now; struct tm *now; gchar fmt[362]; _now = time(NULL); now = localtime( &_now ); snprintf(fmt, 362, "[%02d:%02d:%02d] gtkgui: %s\n", now->tm_hour, now->tm_min, now->tm_sec, log); va_start(args, log); vfprintf(stderr, fmt, args); va_end(args); } #if GTK_CHECK_VERSION(4, 10, 0) G_GNUC_BEGIN_IGNORE_DEPRECATIONS static void browse_uri_finish (GtkUriLauncher *launcher, GAsyncResult *result, gpointer data) { g_autoptr(GError) error = NULL; gtk_uri_launcher_launch_finish(launcher, result, &error); if (error) { g_warning("Could not open URL: %s", error->message); } } void ghb_browse_uri (const char *uri) { GtkUriLauncher *launcher = gtk_uri_launcher_new(uri); GtkApplication *app = GTK_APPLICATION(g_application_get_default()); GtkWindow *parent = gtk_application_get_active_window(app); gtk_uri_launcher_launch(launcher, parent, NULL, (GAsyncReadyCallback) browse_uri_finish, NULL); } static void file_open_finish (GtkFileLauncher *launcher, GAsyncResult *result, gpointer data) { g_autoptr(GError) error = NULL; if (!gtk_file_launcher_launch_finish(launcher, result, &error)) { g_warning("Unable to open file: %s", error->message); } g_object_unref(launcher); } static void file_open_containing_folder_finish (GtkFileLauncher *launcher, GAsyncResult *result, gpointer data) { g_autoptr(GError) error = NULL; if (!gtk_file_launcher_open_containing_folder_finish(launcher, result, &error)) { g_warning("Unable to open containing folder: %s", error->message); } g_object_unref(launcher); } void ghb_file_open (GFile *file) { if (!file) return; GtkFileLauncher *launcher = gtk_file_launcher_new(file); GtkApplication *app = GTK_APPLICATION(g_application_get_default()); GtkWindow *parent = gtk_application_get_active_window(app); gtk_file_launcher_launch(launcher, parent, NULL, (GAsyncReadyCallback) file_open_finish, NULL); } void ghb_file_open_containing_folder (GFile *file) { if (!file) return; GtkApplication *app = GTK_APPLICATION(g_application_get_default()); GtkWindow *parent = gtk_application_get_active_window(app); if (g_file_test(g_file_peek_path(file), G_FILE_TEST_EXISTS)) { GtkFileLauncher *launcher = gtk_file_launcher_new(file); gtk_file_launcher_open_containing_folder(launcher, parent, NULL, (GAsyncReadyCallback) file_open_containing_folder_finish, NULL); } else { g_autoptr(GFile) dir = g_file_get_parent(file); GtkFileLauncher *launcher = gtk_file_launcher_new(dir); gtk_file_launcher_launch(launcher, parent, NULL, (GAsyncReadyCallback) file_open_finish, NULL); } } G_GNUC_END_IGNORE_DEPRECATIONS #else static void browse_uri_finish (GtkWindow *parent, GAsyncResult *result, gpointer data) { g_autoptr(GError) error = NULL; gtk_show_uri_full_finish(parent, result, &error); if (error) { g_warning("Could not open URL: %s", error->message); } } void ghb_browse_uri (const gchar *uri) { GtkApplication *app = GTK_APPLICATION(g_application_get_default()); GtkWindow *parent = gtk_application_get_active_window(app); gtk_show_uri_full(parent, uri, GDK_CURRENT_TIME, NULL, (GAsyncReadyCallback)browse_uri_finish, NULL); } void ghb_file_open (GFile *file) { const gchar *path = g_file_peek_path(file); g_autoptr(GError) error = NULL; g_autofree char *uri = g_filename_to_uri(path, NULL, &error); if (uri) ghb_browse_uri(uri); else ghb_log("Could not convert path '%s' to URI: %s", path, error->message); } void ghb_file_open_containing_folder (GFile *file) { if (!file) return; g_autoptr(GFile) dir = g_file_get_parent(file); g_autofree char *uri = g_file_get_uri(dir); ghb_browse_uri(uri); } #endif // GTK_CHECK_VERSION(4, 10, 0) G_MODULE_EXPORT void about_action_cb (GSimpleAction *action, GVariant *param, signal_user_data_t *ud) { GtkWidget *widget = ghb_builder_widget("hb_about"); char repo_hash[10]; g_snprintf(repo_hash, 10, HB_PROJECT_REPO_HASH); const char *runtime = "Native"; #ifdef __linux__ if (g_access("/.flatpak-info", F_OK) == 0) { runtime = "Flatpak"; } else if (getenv("SNAP")) { runtime = "Snap"; } #endif const char *build_features = #if HB_PROJECT_FEATURE_QSV "- Intel QuickSync\n" #endif #if HB_PROJECT_FEATURE_NVENC "- Nvidia NVEnc\n" #endif #if HB_PROJECT_FEATURE_VCE "- AMD VCN\n" #endif #if HB_PROJECT_FEATURE_FDK_AAC "- fdk-aac\n" #endif #if HB_PROJECT_FEATURE_X265 "- x265\n" #endif #if HB_PROJECT_FEATURE_LIBDOVI "- libdovi\n" #endif ""; g_autofree char *sys_info = g_strdup_printf( "Runtime environment: %s\n" "Commit hash: %s\n" "Build date: %s\n" "GTK version: %d.%d.%d (built against %d.%d.%d)\n" "GLib version: %d.%d.%d (built against %d.%d.%d)\n" "Built with support for: \n%s", runtime, repo_hash, HB_PROJECT_REPO_DATE, gtk_get_major_version(), gtk_get_minor_version(), gtk_get_micro_version(), GTK_MAJOR_VERSION, GTK_MINOR_VERSION, GTK_MICRO_VERSION, glib_major_version, glib_minor_version, glib_micro_version, GLIB_MAJOR_VERSION, GLIB_MINOR_VERSION, GLIB_MICRO_VERSION, build_features); gtk_about_dialog_set_version(GTK_ABOUT_DIALOG(widget), HB_PROJECT_VERSION); gtk_about_dialog_set_system_information(GTK_ABOUT_DIALOG(widget), sys_info); gtk_widget_set_visible(widget, TRUE); } #define HB_DOCS "https://handbrake.fr/docs/" G_MODULE_EXPORT void guide_action_cb(GSimpleAction *action, GVariant *param, signal_user_data_t *ud) { ghb_browse_uri(HB_DOCS); } static void update_queue_labels(signal_user_data_t *ud) { GtkWidget *button; int pending; char *str; button = ghb_builder_widget("show_queue"); pending = queue_pending_count(ud->queue); if (pending > 0) { str = g_strdup_printf("%d", pending); ghb_button_set_indicator_label(GHB_BUTTON(button), str); g_free(str); } else { ghb_button_set_indicator_label(GHB_BUTTON(button), NULL); } } void ghb_hbfd(signal_user_data_t *ud, gboolean hbfd) { GtkWidget *widget; ghb_log_func(); widget = ghb_builder_widget("queue_pause"); gtk_widget_set_visible(widget, !hbfd); widget = ghb_builder_widget("queue_add_split_button"); gtk_widget_set_visible(widget, !hbfd); widget = ghb_builder_widget("show_queue"); gtk_widget_set_visible(widget, !hbfd); widget = ghb_builder_widget("show_activity"); gtk_widget_set_visible(widget, !hbfd); widget = ghb_builder_widget("SettingsStackSwitcher"); gtk_widget_set_visible(widget, !hbfd); widget = ghb_builder_widget("SettingsStack"); gtk_widget_set_visible(widget, !hbfd); widget = ghb_builder_widget("hb_window"); gtk_window_set_default_size(GTK_WINDOW(widget), 16, 16); } G_MODULE_EXPORT void hbfd_action_cb(GSimpleAction *action, GVariant *value, signal_user_data_t *ud) { gboolean state = g_variant_get_boolean(value); g_simple_action_set_state(action, value); ghb_dict_set(ud->prefs, "hbfd", ghb_boolean_value(state)); ghb_hbfd(ud, state); ghb_pref_save(ud->prefs, "hbfd"); } G_MODULE_EXPORT void activity_font_changed_cb(GtkWidget *widget, gpointer data) { signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->prefs, widget); const gchar *name = ghb_get_setting_key(widget); ghb_pref_set(ud->prefs, name); int size = ghb_dict_get_int(ud->prefs, "ActivityFontSize"); const char *font = ghb_dict_get_string(ud->prefs, "ActivityFontFamily"); const gchar *css_template = " \n\ .ghb-monospace \n\ { \n\ font-family: %s; \n\ font-size: %dpt; \n\ } \n\ "; char * css = g_strdup_printf(css_template, font, size); GtkCssProvider * provider = gtk_css_provider_new(); gtk_css_provider_load_from_data(provider, css, -1); GtkWidget * win = ghb_builder_widget("hb_window"); GdkDisplay *dd = gtk_widget_get_display(win); gtk_style_context_add_provider_for_display(dd, GTK_STYLE_PROVIDER(provider), GTK_STYLE_PROVIDER_PRIORITY_APPLICATION); g_object_unref(provider); g_free(css); } // Changes the setting for the current session // and also saves it for future sessions G_MODULE_EXPORT void when_complete_changed_cb (GtkWidget *widget, gpointer data) { signal_user_data_t *ud = ghb_ud(); GhbValue * value = ghb_widget_value(widget); ghb_set_queue_done_action(gtk_combo_box_get_active(GTK_COMBO_BOX(widget))); ghb_ui_update("MainWhenComplete", value); ghb_ui_update("QueueWhenComplete", value); ghb_value_free(&value); ghb_widget_to_setting (ud->prefs, widget); const gchar *name = ghb_get_setting_key(widget); ghb_pref_set(ud->prefs, name); ghb_prefs_store(); } // Only changes the setting for the current session G_MODULE_EXPORT void temp_when_complete_changed_cb (GtkWidget *widget, gpointer data) { GhbValue * value = ghb_widget_value(widget); ghb_set_queue_done_action(gtk_combo_box_get_active(GTK_COMBO_BOX(widget))); ghb_ui_update("MainWhenComplete", value); ghb_ui_update("QueueWhenComplete", value); ghb_value_free(&value); } G_MODULE_EXPORT void pref_changed_cb (GtkWidget *widget, gpointer data) { signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting (ud->prefs, widget); const gchar *name = ghb_get_setting_key(widget); ghb_pref_set(ud->prefs, name); } G_MODULE_EXPORT void excluded_extensions_update (GObject *gobject, GParamSpec *pspec, gpointer user_data) { GtkWidget *widget = ghb_builder_widget("ExcludedFileExtensions"); signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting(ud->prefs, widget); const gchar *name = ghb_get_setting_key(widget); ghb_pref_set(ud->prefs, name); } G_MODULE_EXPORT void log_level_changed_cb (GtkWidget *widget, gpointer data) { signal_user_data_t *ud = ghb_ud(); pref_changed_cb(widget, ud); int level = ghb_dict_get_int(ud->prefs, "LoggingLevel"); ghb_log_level_set(level); } G_MODULE_EXPORT void use_m4v_changed_cb (GtkWidget *widget, gpointer data) { signal_user_data_t *ud = ghb_ud(); ghb_log_func(); ghb_widget_to_setting (ud->prefs, widget); const gchar *name = ghb_get_setting_key(widget); ghb_pref_set(ud->prefs, name); ghb_update_destination_extension(ud); } G_MODULE_EXPORT void tmp_dir_enable_changed_cb (GtkWidget *widget, gpointer data) { pref_changed_cb(widget, ghb_ud()); prefs_require_restart = TRUE; } G_MODULE_EXPORT void ui_language_changed_cb (GtkWidget *widget, gpointer data) { pref_changed_cb(widget, ghb_ud()); prefs_require_restart = TRUE; } G_MODULE_EXPORT void temp_dir_changed_cb (GhbFileButton *dest_chooser, GParamSpec *pspec, gpointer data) { char * orig_tmp_dir = NULL; const char * tmp_dir; signal_user_data_t *ud = ghb_ud(); tmp_dir = ghb_dict_get_string(ud->prefs, "CustomTmpDir"); if (tmp_dir != NULL) { orig_tmp_dir = g_strdup(tmp_dir); } ghb_widget_to_setting(ud->prefs, GTK_WIDGET(dest_chooser)); tmp_dir = ghb_dict_get_string(ud->prefs, "CustomTmpDir"); if (tmp_dir == NULL) { tmp_dir = ""; } if (orig_tmp_dir == NULL || strcmp(orig_tmp_dir, tmp_dir)) { ghb_pref_set(ud->prefs, "CustomTmpDir"); prefs_require_restart = TRUE; } } G_MODULE_EXPORT void vqual_granularity_changed_cb(GtkWidget *widget, gpointer data) { ghb_log_func(); signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting (ud->prefs, widget); const gchar *name = ghb_get_setting_key(widget); ghb_pref_set(ud->prefs, name); float val, vqmin, vqmax, step, page; int inverted, digits; ghb_vquality_range(ud, &vqmin, &vqmax, &step, &page, &digits, &inverted); val = ghb_dict_get_double(ud->settings, "VideoQualitySlider"); ghb_scale_configure(ud, "VideoQualitySlider", val, vqmin, vqmax, step, page, digits, inverted); } G_MODULE_EXPORT void tweaks_changed_cb (GtkWidget *widget, gpointer data) { ghb_log_func(); signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting (ud->prefs, widget); const gchar *name = ghb_get_setting_key(widget); ghb_pref_set(ud->prefs, name); } G_MODULE_EXPORT void show_preview_changed_cb (GtkWidget *widget, gpointer data) { ghb_log_func(); signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting (ud->prefs, widget); const gchar *name = ghb_get_setting_key(widget); ghb_pref_set(ud->prefs, name); mini_preview_update(TRUE, ud); } G_MODULE_EXPORT void hbfd_feature_changed_cb (GtkWidget *widget, gpointer data) { signal_user_data_t *ud = ghb_ud(); ghb_widget_to_setting (ud->prefs, widget); const gchar *name = ghb_get_setting_key(widget); ghb_pref_set(ud->prefs, name); gboolean hbfd = ghb_dict_get_bool(ud->prefs, "hbfd_feature"); GMenu *view_menu = G_MENU(ghb_builder_object("view-menu")); GMenuModel *hbfd_menu = G_MENU_MODEL(ghb_builder_object("hbfd-section")); if (hbfd) { const GhbValue *val; val = ghb_dict_get_value(ud->prefs, "hbfd"); ghb_ui_settings_update(ud, ud->prefs, "hbfd", val); GMenuItem *hbfd_item = g_menu_item_new_from_model(hbfd_menu, 0); g_menu_prepend_item(view_menu, hbfd_item); } else { g_menu_remove(view_menu, 0); } } gboolean ghb_file_menu_add_dvd(signal_user_data_t *ud) { GList *link, *drives; ghb_log_func(); GMenu *dvd_menu = G_MENU(ghb_builder_object("dvd-list")); // Clear previous dvd items from list g_menu_remove_all(dvd_menu); link = drives = dvd_device_list(); if (drives != NULL) { GMenuModel *dvd_template = G_MENU_MODEL(ghb_builder_object("dvd")); while (link != NULL) { gchar *action = g_strdup_printf("app.dvd-open('%s')", get_dvd_device_name(link->data)); gchar *name = get_dvd_volume_name(link->data); if (name != NULL) { GMenuItem *item = g_menu_item_new_from_model(dvd_template, 0); g_menu_item_set_label(item, name); g_menu_item_set_detailed_action(item, action); g_menu_append_item(dvd_menu, item); g_object_unref(item); g_free(name); } g_free(action); free_drive(link->data); link = link->next; } g_list_free(drives); } return FALSE; } gboolean ghb_is_cd(GDrive *gd); static GList* dvd_device_list (void) { GList *dvd_devices = NULL; #if defined(_WIN32) gint ii, drives; gchar drive[5]; strcpy(drive, "A:" G_DIR_SEPARATOR_S); drives = GetLogicalDrives(); for (ii = 0; ii < 26; ii++) { if (drives & 0x01) { guint dtype; drive[0] = 'A' + ii; dtype = GetDriveType(drive); if (dtype == DRIVE_CDROM) { dvd_devices = g_list_append(dvd_devices, (gpointer)g_strdup(drive)); } } drives >>= 1; } #else GVolumeMonitor *gvm; GList *drives, *link; gvm = g_volume_monitor_get (); drives = g_volume_monitor_get_connected_drives (gvm); link = drives; while (link != NULL) { GDrive *gd; gd = (GDrive*)link->data; if (ghb_is_cd(gd)) { dvd_devices = g_list_append(dvd_devices, gd); } else g_object_unref (gd); link = link->next; } g_list_free(drives); #endif return dvd_devices; } gboolean ghb_is_cd(GDrive *gd) { GIcon *gicon; gboolean ret = FALSE; char **names; if (!g_drive_is_media_removable (gd)) return ret; gicon = g_drive_get_icon (gd); if (!gicon) return ret; if (!G_IS_THEMED_ICON (gicon)) { g_object_unref (gicon); return ret; } g_object_get (gicon, "names", &names, NULL); ret = g_strv_contains ((const char * const *) names, "drive-optical"); g_strfreev (names); g_object_unref (gicon); return ret; } #if defined(_WIN32) static void handle_media_change(const gchar *device, gboolean insert, signal_user_data_t *ud) { guint dtype; static gint ins_count = 0; static gint rem_count = 0; // The media change event in windows bounces around a bit // so I debounce it here // DVD insertion detected. Scan it. dtype = GetDriveType(device); if (dtype != DRIVE_CDROM) return; if (insert) { rem_count = 0; ins_count++; if (ins_count == 2) { g_thread_new("Cache Volume Names", (GThreadFunc)ghb_cache_volnames, ud); if (ghb_dict_get_bool(ud->prefs, "AutoScan") && ud->current_dvd_device != NULL && strcmp(device, ud->current_dvd_device) == 0) { show_scan_progress(ud); gint preview_count; preview_count = ghb_dict_get_int(ud->prefs, "preview_count"); ghb_set_scan_source(device); start_scan(ud, device, 0, preview_count); } } } else { ins_count = 0; rem_count++; if (rem_count == 2) { g_thread_new("Cache Volume Names", (GThreadFunc)ghb_cache_volnames, ud); if (ud->current_dvd_device != NULL && strcmp(device, ud->current_dvd_device) == 0) { ghb_hb_cleanup(TRUE); prune_logs(); ghb_set_scan_source("/dev/null"); start_scan(ud, "/dev/null", 0, 1); } } } } static gchar FindDriveFromMask(ULONG unitmask) { gchar cc; for (cc = 0; cc < 26; cc++) { if (unitmask & 0x01) return 'A' + cc; unitmask >>= 1; } return 0; } void wm_drive_changed(MSG *msg, signal_user_data_t *ud) { PDEV_BROADCAST_HDR bch = (PDEV_BROADCAST_HDR)msg->lParam; gchar drive[4]; g_strlcpy(drive, "A:" G_DIR_SEPARATOR_S, 4); switch (msg->wParam) { case DBT_DEVICEARRIVAL: { if (bch->dbch_devicetype == DBT_DEVTYP_VOLUME) { PDEV_BROADCAST_VOLUME bcv = (PDEV_BROADCAST_VOLUME)bch; if (bcv->dbcv_flags & DBTF_MEDIA) { drive[0] = FindDriveFromMask(bcv->dbcv_unitmask); handle_media_change(drive, TRUE, ud); } } } break; case DBT_DEVICEREMOVECOMPLETE: { if (bch->dbch_devicetype == DBT_DEVTYP_VOLUME) { PDEV_BROADCAST_VOLUME bcv = (PDEV_BROADCAST_VOLUME)bch; if (bcv->dbcv_flags & DBTF_MEDIA) { drive[0] = FindDriveFromMask(bcv->dbcv_unitmask); handle_media_change(drive, FALSE, ud); } } } break; default: ; } } #else G_MODULE_EXPORT void drive_changed_cb(GVolumeMonitor *gvm, GDrive *gd, signal_user_data_t *ud) { gchar *device; gint state; ghb_log_func(); g_thread_new("Cache Volume Names", (GThreadFunc)ghb_cache_volnames, ud); state = ghb_get_scan_state(); device = g_drive_get_identifier(gd, G_VOLUME_IDENTIFIER_KIND_UNIX_DEVICE); if (ud->current_dvd_device == NULL || strcmp(device, ud->current_dvd_device) != 0 || state != GHB_STATE_IDLE ) { return; } if (g_drive_has_media(gd)) { if (ghb_dict_get_bool(ud->prefs, "AutoScan")) { show_scan_progress(ud); gint preview_count; preview_count = ghb_dict_get_int(ud->prefs, "preview_count"); ghb_set_scan_source(device); start_scan(ud, device, 0, preview_count); } } else { ghb_hb_cleanup(TRUE); prune_logs(); ghb_set_scan_source("/dev/null"); start_scan(ud, "/dev/null", 0, 1); } } #endif G_MODULE_EXPORT void easter_egg_multi_cb (GtkGesture *gest, int n_press, double x, double y, gpointer data) { if (n_press == 3) { GtkWidget *widget; widget = ghb_builder_widget("allow_tweaks"); gtk_widget_set_visible(widget, !gtk_widget_get_visible(widget)); widget = ghb_builder_widget("hbfd_feature"); gtk_widget_set_visible(widget, !gtk_widget_get_visible(widget)); } } G_MODULE_EXPORT gchar* format_deblock_cb(GtkScale *scale, gdouble val, signal_user_data_t *ud) { if (val < 5.0) { return g_strdup_printf(_("Off")); } else { return g_strdup_printf("%d", (gint)val); } } static void queue_done_action (signal_user_data_t *ud) { switch (ghb_get_queue_done_action()) { case 1: ghb_countdown_dialog_show(_("Your encode is complete."), _("Quitting HandBrake"), (GSourceFunc)quit_cb, 60, ud); break; case 2: if (can_suspend_logind()) { ghb_countdown_dialog_show(_("Your encode is complete."), _("Putting computer to sleep"), (GSourceFunc)suspend_cb, 60, ud); } break; case 3: if (can_shutdown_logind()) { ghb_countdown_dialog_show(_("Your encode is complete."), _("Shutting down the computer"), (GSourceFunc)shutdown_cb, 60, ud); } default: break; } } G_MODULE_EXPORT void hb_window_save_size_cb (GtkWidget *widget, GParamSpec *spec, gpointer data) { signal_user_data_t *ud = ghb_ud(); if (gtk_widget_get_visible(widget)) { gint w, h, ww, wh; w = ghb_dict_get_int(ud->prefs, "window_width"); h = ghb_dict_get_int(ud->prefs, "window_height"); gtk_window_get_default_size(GTK_WINDOW(widget), &ww, &wh); if ( w != ww || h != wh ) { ghb_dict_set_int(ud->prefs, "window_width", ww); ghb_dict_set_int(ud->prefs, "window_height", wh); ghb_pref_set(ud->prefs, "window_width"); ghb_pref_set(ud->prefs, "window_height"); ghb_prefs_store(); } } } void ghb_list_box_remove_all (GtkListBox *lb) { GtkWidget *row; while ((row = gtk_widget_get_last_child(GTK_WIDGET(lb)))) { gtk_list_box_remove(lb, row); } } static void lang_combo_search( GtkComboBox * combo, guint keyval, signal_user_data_t *ud) { if (combo == NULL) { return; } GtkTreeModel * model = GTK_TREE_MODEL(gtk_combo_box_get_model(combo)); GtkTreeIter iter, prev_iter; gchar * lang; gunichar key_char; gunichar first_char; int pos = 0, count = 2048; key_char = g_unichar_toupper(gdk_keyval_to_unicode(keyval)); if (gtk_combo_box_get_active_iter(combo, &iter)) { while (pos <= count) { pos++; prev_iter = iter; if (!gtk_tree_model_iter_next(model, &iter)) { GtkTreePath * path = gtk_tree_model_get_path(model, &prev_iter); gint * ind = gtk_tree_path_get_indices(path);; count = ind[0]; gtk_tree_path_free(path); gtk_tree_model_get_iter_first(model, &iter); } gtk_tree_model_get(model, &iter, 0, &lang, -1); first_char = g_unichar_toupper(g_utf8_get_char(lang)); g_free(lang); if (first_char == key_char) { gtk_combo_box_set_active_iter(combo, &iter); break; } } } } G_MODULE_EXPORT void presets_list_context_menu_cb (GtkGesture *gest, gint n_press, double x, double y, gpointer data) { if (n_press == 1) { GtkWidget *menu = ghb_builder_widget("preset-context-menu"); gtk_popover_set_pointing_to(GTK_POPOVER(menu), &(const GdkRectangle){ x, y, 1, 1 }); gtk_popover_popup(GTK_POPOVER(menu)); } } GtkFileFilter *ghb_add_file_filter(GtkFileChooser *chooser, const char *name, const char *id) { GtkFileFilter *filter = GTK_FILE_FILTER(ghb_builder_object(id)); gtk_file_filter_set_name(filter, name); gtk_file_chooser_add_filter(chooser, filter); return filter; } static void add_video_file_filters (GtkFileChooser *chooser) { ghb_add_file_filter(chooser, _("All Files"), "FilterAll"); ghb_add_file_filter(chooser, _("Video"), "SourceFilterVideo"); ghb_add_file_filter(chooser, g_content_type_get_description("video/mp4"), "SourceFilterMP4"); ghb_add_file_filter(chooser, g_content_type_get_description("video/mp2t"), "SourceFilterTS"); ghb_add_file_filter(chooser, g_content_type_get_description("video/mpeg"), "SourceFilterMPG"); ghb_add_file_filter(chooser, g_content_type_get_description("video/x-matroska"), "SourceFilterMKV"); ghb_add_file_filter(chooser, g_content_type_get_description("video/webm"), "SourceFilterWebM"); ghb_add_file_filter(chooser, g_content_type_get_description("video/ogg"), "SourceFilterOGG"); ghb_add_file_filter(chooser, g_content_type_get_description("video/x-msvideo"), "SourceFilterAVI"); ghb_add_file_filter(chooser, g_content_type_get_description("video/x-flv"), "SourceFilterFLV"); ghb_add_file_filter(chooser, g_content_type_get_description("video/quicktime"), "SourceFilterMOV"); ghb_add_file_filter(chooser, g_content_type_get_description("video/x-ms-wmv"), "SourceFilterWMV"); ghb_add_file_filter(chooser, "EVO", "SourceFilterEVO"); ghb_add_file_filter(chooser, "VOB", "SourceFilterVOB"); } G_MODULE_EXPORT gboolean combo_search_key_press_cb( GtkEventControllerKey * keycon, guint keyval, guint keycode, GdkModifierType state, signal_user_data_t * ud) { GtkComboBox * combo; combo = GTK_COMBO_BOX(gtk_event_controller_get_widget( GTK_EVENT_CONTROLLER(keycon))); lang_combo_search(combo, keyval, ud); return FALSE; } G_MODULE_EXPORT void log_copy_action_cb (GSimpleAction *action, GVariant *param, signal_user_data_t *ud) { GtkTextIter start, end; GdkClipboard *clipboard = gdk_display_get_clipboard(gdk_display_get_default()); GtkTextView *log = GTK_TEXT_VIEW(ghb_builder_widget("activity_view")); GtkTextBuffer *buffer = gtk_text_view_get_buffer(log); gtk_text_buffer_get_start_iter(buffer, &start); gtk_text_buffer_get_end_iter(buffer, &end); gtk_text_buffer_select_range(buffer, &start, &end); gtk_text_buffer_copy_clipboard(buffer, clipboard); gtk_text_buffer_select_range(buffer, &start, &start); } G_MODULE_EXPORT void log_directory_action_cb (GSimpleAction *action, GVariant *param, signal_user_data_t *ud) { g_autofree char *path = ghb_get_user_config_dir("EncodeLogs"); g_autoptr(GFile) file = g_file_new_for_path(path); ghb_file_open(file); }