/* GStreamer Editing Services * * Copyright (C) <2014> Thibault Saunier * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #ifdef HAVE_GST_VALIDATE #include #include #include #include "ges-internal.h" #include "ges-structured-interface.h" #define MONITOR_ON_PIPELINE "validate-monitor" #define RUNNER_ON_PIPELINE "runner-monitor" typedef struct { GMainLoop *ml; GError *error; } LoadTimelineData; static gboolean _get_clocktime (GstStructure * structure, const gchar * name, GstClockTime * val, GESFrameNumber * frames) { const GValue *gvalue = gst_structure_get_value (structure, name); if (!gvalue) return FALSE; if (frames && G_VALUE_TYPE (gvalue) == G_TYPE_STRING) { const gchar *str = g_value_get_string (gvalue); if (str && str[0] == 'f') { GValue v = G_VALUE_INIT; g_value_init (&v, G_TYPE_UINT64); if (gst_value_deserialize (&v, &str[1])) { *frames = g_value_get_uint64 (&v); if (val) *val = GST_CLOCK_TIME_NONE; g_value_reset (&v); return TRUE; } g_value_reset (&v); } } if (!val) return FALSE; return gst_validate_utils_get_clocktime (structure, name, val); } static void project_loaded_cb (GESProject * project, GESTimeline * timeline, LoadTimelineData * data) { g_main_loop_quit (data->ml); } static void error_loading_asset_cb (GESProject * project, GError * err, const gchar * unused_id, GType extractable_type, LoadTimelineData * data) { data->error = g_error_copy (err); g_main_loop_quit (data->ml); } static GESTimeline * _ges_load_timeline (GstValidateScenario * scenario, GstValidateAction * action, const gchar * project_uri) { GESProject *project = ges_project_new (project_uri); GESTimeline *timeline; LoadTimelineData data = { 0 }; data.ml = g_main_loop_new (NULL, TRUE); timeline = GES_TIMELINE (ges_asset_extract (GES_ASSET (project), &data.error)); if (!timeline) goto done; g_signal_connect (project, "loaded", (GCallback) project_loaded_cb, &data); g_signal_connect (project, "error-loading-asset", (GCallback) error_loading_asset_cb, &data); g_main_loop_run (data.ml); g_signal_handlers_disconnect_by_func (project, project_loaded_cb, &data); g_signal_handlers_disconnect_by_func (project, error_loading_asset_cb, &data); GST_INFO_OBJECT (scenario, "Loaded timeline from %s", project_uri); done: if (data.error) { GST_VALIDATE_REPORT_ACTION (scenario, action, SCENARIO_ACTION_EXECUTION_ERROR, "Can not load timeline from: %s (%s)", project_uri, data.error->message); g_clear_error (&data.error); gst_clear_object (&timeline); } g_main_loop_unref (data.ml); gst_object_unref (project); return timeline; } #ifdef G_HAVE_ISO_VARARGS #define REPORT_UNLESS(condition, errpoint, ...) \ G_STMT_START { \ if (!(condition)) { \ res = GST_VALIDATE_EXECUTE_ACTION_ERROR_REPORTED; \ gst_validate_report_action(GST_VALIDATE_REPORTER(scenario), action, \ SCENARIO_ACTION_EXECUTION_ERROR, \ __VA_ARGS__); \ goto errpoint; \ } \ } \ G_STMT_END #else /* G_HAVE_GNUC_VARARGS */ #ifdef G_HAVE_GNUC_VARARGS #define REPORT_UNLESS(condition, errpoint, args...) \ G_STMT_START { \ if (!(condition)) { \ res = GST_VALIDATE_EXECUTE_ACTION_ERROR_REPORTED; \ gst_validate_report_action(GST_VALIDATE_REPORTER(scenario), action, \ SCENARIO_ACTION_EXECUTION_ERROR, ##args); \ goto errpoint; \ } \ } \ G_STMT_END #endif /* G_HAVE_ISO_VARARGS */ #endif /* G_HAVE_GNUC_VARARGS */ #define DECLARE_AND_GET_TIMELINE_AND_PIPELINE(scenario, action) \ GESTimeline *timeline = NULL; \ GstElement *pipeline = NULL; \ const gchar *project_uri = \ gst_structure_get_string(action->structure, "project-uri"); \ if (!project_uri) { \ pipeline = gst_validate_scenario_get_pipeline(scenario); \ REPORT_UNLESS(GES_IS_PIPELINE(pipeline), done, \ "Can't execute a '%s' action after the pipeline " \ "has been destroyed.", \ action->type); \ g_object_get(pipeline, "timeline", &timeline, NULL); \ } else { \ timeline = _ges_load_timeline(scenario, action, project_uri); \ if (!timeline) \ return GST_VALIDATE_EXECUTE_ACTION_ERROR_REPORTED; \ } #define DECLARE_AND_GET_TIMELINE(scenario, action) \ DECLARE_AND_GET_TIMELINE_AND_PIPELINE(scenario, action); \ if (pipeline) \ gst_object_unref(pipeline); #define GES_START_VALIDATE_ACTION(funcname) \ static gint \ funcname(GstValidateScenario *scenario, GstValidateAction *action) { \ GstValidateActionReturn res = GST_VALIDATE_EXECUTE_ACTION_OK; \ DECLARE_AND_GET_TIMELINE_AND_PIPELINE(scenario, action); #define GST_END_VALIDATE_ACTION \ done: \ if (res == GST_VALIDATE_EXECUTE_ACTION_OK) { \ REPORT_UNLESS( \ _ges_save_timeline_if_needed(timeline, action->structure, NULL), \ done_no_save, "Could not save timeline to %s", \ gst_structure_get_string(action->structure, "project-id")); \ } \ \ done_no_save: \ gst_clear_object(&pipeline); \ gst_clear_object(&timeline); \ return res; \ } #define TRY_GET(name,type,var,def) G_STMT_START {\ if (!gst_structure_get (action->structure, name, type, var, NULL)) {\ *var = def; \ } \ } G_STMT_END GES_START_VALIDATE_ACTION (_serialize_project) { const gchar *uri = gst_structure_get_string (action->structure, "uri"); gchar *location = gst_uri_get_location (uri), *dir = g_path_get_dirname (location); gst_validate_printf (action, "Saving project to %s", uri); g_mkdir_with_parents (dir, 0755); g_free (location); g_free (dir); res = ges_timeline_save_to_uri (timeline, uri, NULL, TRUE, NULL); } GST_END_VALIDATE_ACTION; GES_START_VALIDATE_ACTION (_remove_asset) { const gchar *id = NULL; const gchar *type_string = NULL; GType type; GESAsset *asset; GESProject *project; project = ges_timeline_get_project (timeline); id = gst_structure_get_string (action->structure, "id"); type_string = gst_structure_get_string (action->structure, "type"); REPORT_UNLESS (type_string && id, done, "Missing parameters, we got type %s and id %s", type_string, id); REPORT_UNLESS ((type = g_type_from_name (type_string)), done, "This type doesn't exist : %s", type_string); asset = ges_project_get_asset (project, id, type); REPORT_UNLESS (asset, done, "No asset with id %s and type %s", id, type_string); res = ges_project_remove_asset (project, asset); gst_object_unref (asset); } GST_END_VALIDATE_ACTION; GES_START_VALIDATE_ACTION (_add_asset) { const gchar *id = NULL; const gchar *type_string = NULL; GType type; GESAsset *asset = NULL; GESProject *project; project = ges_timeline_get_project (timeline); id = gst_structure_get_string (action->structure, "id"); type_string = gst_structure_get_string (action->structure, "type"); gst_validate_printf (action, "Adding asset of type %s with ID %s\n", id, type_string); REPORT_UNLESS (type_string && id, beach, "Missing parameters, we got type %s and id %s", type_string, id); REPORT_UNLESS ((type = g_type_from_name (type_string)), beach, "This type doesn't exist : %s", type_string); asset = _ges_get_asset_from_timeline (timeline, type, id, NULL); REPORT_UNLESS (asset, beach, "Could not get asset for %s id: %s", type_string, id); res = ges_project_add_asset (project, asset); beach: gst_clear_object (&asset); } GST_END_VALIDATE_ACTION; GES_START_VALIDATE_ACTION (_add_layer) { GESLayer *layer; gint priority; gboolean auto_transition = FALSE; REPORT_UNLESS (gst_structure_get_int (action->structure, "priority", &priority), done, "priority is needed when adding a layer"); REPORT_UNLESS ((layer = _ges_get_layer_by_priority (timeline, priority)), done, "No layer with priority: %d", priority); gst_structure_get_boolean (action->structure, "auto-transition", &auto_transition); g_object_set (layer, "priority", priority, "auto-transition", auto_transition, NULL); gst_object_unref (layer); } GST_END_VALIDATE_ACTION; GES_START_VALIDATE_ACTION (_remove_layer) { GESLayer *layer = NULL; gint priority; REPORT_UNLESS (gst_structure_get_int (action->structure, "priority", &priority), done, "'priority' is required when removing a layer"); layer = _ges_get_layer_by_priority (timeline, priority); REPORT_UNLESS (layer, beach, "No layer with priority %d", priority); res = ges_timeline_remove_layer (timeline, layer); beach: gst_clear_object (&layer); } GST_END_VALIDATE_ACTION; GES_START_VALIDATE_ACTION (_remove_clip) { GESTimelineElement *clip; GESLayer *layer = NULL; const gchar *name; name = gst_structure_get_string (action->structure, "name"); clip = ges_timeline_get_element (timeline, name); REPORT_UNLESS (GES_IS_CLIP (clip), beach, "Couldnt' find clip: %s", name); layer = ges_clip_get_layer (GES_CLIP (clip)); REPORT_UNLESS (layer, beach, "Clip %s not in a layer", name); res = ges_layer_remove_clip (layer, GES_CLIP (clip)); beach: gst_clear_object (&layer); gst_clear_object (&clip); } GST_END_VALIDATE_ACTION; GES_START_VALIDATE_ACTION (_edit) { GList *layers = NULL; GESTimelineElement *element; GESFrameNumber fposition = GES_FRAME_NUMBER_NONE; GstClockTime position; GError *err = NULL; gboolean source_position = FALSE; gint new_layer_priority = -1; guint edge = GES_EDGE_NONE; guint mode = GES_EDIT_MODE_NORMAL; const gchar *edit_mode_str = NULL, *edge_str = NULL; const gchar *element_name; res = GST_VALIDATE_EXECUTE_ACTION_ERROR; element_name = gst_structure_get_string (action->structure, gst_structure_has_name (action->structure, "edit-container") ? "container-name" : "element-name"); element = ges_timeline_get_element (timeline, element_name); REPORT_UNLESS (element, beach, "Could not find element %s", element_name); if (!_get_clocktime (action->structure, "position", &position, &fposition)) { fposition = 0; if (!gst_structure_get_int (action->structure, "source-frame", (gint *) & fposition) && !gst_structure_get_int64 (action->structure, "source-frame", &fposition)) { gchar *structstr = gst_structure_to_string (action->structure); GST_VALIDATE_REPORT_ACTION (scenario, action, SCENARIO_ACTION_EXECUTION_ERROR, "could not find `position` or `source-frame` in %s", structstr); g_free (structstr); goto beach; } source_position = TRUE; position = GST_CLOCK_TIME_NONE; } if ((edit_mode_str = gst_structure_get_string (action->structure, "edit-mode"))) { REPORT_UNLESS (gst_validate_utils_enum_from_str (GES_TYPE_EDIT_MODE, edit_mode_str, &mode), beach, "Could not get enum from %s", edit_mode_str); } if ((edge_str = gst_structure_get_string (action->structure, "edge"))) { REPORT_UNLESS (gst_validate_utils_enum_from_str (GES_TYPE_EDGE, edge_str, &edge), beach, "Could not get enum from %s", edge_str); } if (GES_FRAME_NUMBER_IS_VALID (fposition)) { if (source_position) { GESClip *clip = NULL; if (GES_IS_CLIP (element)) clip = GES_CLIP (element); else if (GES_IS_TRACK_ELEMENT (element)) clip = GES_CLIP (element->parent); REPORT_UNLESS (clip, beach, "Could not get find element to edit using source frame for %" GST_PTR_FORMAT, action->structure); position = ges_clip_get_timeline_time_from_source_frame (clip, fposition, &err); } else { position = ges_timeline_get_frame_time (timeline, fposition); } REPORT_UNLESS (GST_CLOCK_TIME_IS_VALID (position), beach, "Invalid frame number '%" G_GINT64_FORMAT "': %s", fposition, err->message); } gst_structure_get_int (action->structure, "new-layer-priority", &new_layer_priority); if (!(res = ges_timeline_element_edit (element, layers, new_layer_priority, mode, edge, position))) { gchar *fpositionstr = GES_FRAME_NUMBER_IS_VALID (fposition) ? g_strdup_printf ("(%" G_GINT64_FORMAT ")", fposition) : NULL; GST_VALIDATE_REPORT_ACTION (scenario, action, SCENARIO_ACTION_EXECUTION_ERROR, "Could not edit '%s' to %" GST_TIME_FORMAT "%s in %s mode, edge: %s " "with new layer prio: %d", element_name, GST_TIME_ARGS (position), fpositionstr ? fpositionstr : "", edit_mode_str ? edit_mode_str : "normal", edge_str ? edge_str : "None", new_layer_priority); g_free (fpositionstr); goto beach; } beach: gst_clear_object (&element); g_clear_error (&err); } GST_END_VALIDATE_ACTION; static void _commit_done_cb (GstBus * bus, GstMessage * message, GstValidateAction * action) { gst_validate_action_set_done (action); g_signal_handlers_disconnect_by_func (bus, _commit_done_cb, action); } GES_START_VALIDATE_ACTION (_commit) { GstBus *bus; GstState state; bus = gst_pipeline_get_bus (GST_PIPELINE (pipeline)); gst_validate_printf (action, "Commiting timeline %s\n", GST_OBJECT_NAME (timeline)); g_signal_connect (bus, "message::async-done", G_CALLBACK (_commit_done_cb), action); gst_element_get_state (pipeline, &state, NULL, 0); if (!ges_timeline_commit (timeline) || state < GST_STATE_PAUSED) { g_signal_handlers_disconnect_by_func (bus, G_CALLBACK (_commit_done_cb), action); gst_object_unref (bus); goto done; } gst_object_unref (bus); res = GST_VALIDATE_EXECUTE_ACTION_ASYNC; } GST_END_VALIDATE_ACTION; GES_START_VALIDATE_ACTION (_split_clip) { const gchar *clip_name; GESTimelineElement *element; GstClockTime position; clip_name = gst_structure_get_string (action->structure, "clip-name"); element = ges_timeline_get_element (timeline, clip_name); REPORT_UNLESS (GES_IS_CLIP (element), beach, "Could not find clip: %s", clip_name); REPORT_UNLESS (gst_validate_action_get_clocktime (scenario, action, "position", &position), beach, "Could not find position in %" GST_PTR_FORMAT, action->structure); res = (ges_clip_split (GES_CLIP (element), position) != NULL); beach: gst_clear_object (&element); } GST_END_VALIDATE_ACTION; typedef struct { GstValidateScenario *scenario; GESTimelineElement *element; GstValidateActionReturn res; GstClockTime time; gboolean check_children; GstValidateAction *action; } PropertyData; static gboolean check_property (GQuark field_id, GValue * expected_value, PropertyData * data) { GValue cvalue = G_VALUE_INIT, *tvalue = NULL, comparable_value = G_VALUE_INIT, *observed_value; const gchar *property = g_quark_to_string (field_id); GstControlBinding *binding = NULL; if (!data->check_children) { GParamSpec *pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (data->element), property); if (!pspec) { GST_VALIDATE_REPORT_ACTION (data->scenario, data->action, SCENARIO_ACTION_EXECUTION_ERROR, "Could not get property %s on %" GES_FORMAT, property, GES_ARGS (data->element)); data->res = GST_VALIDATE_EXECUTE_ACTION_ERROR_REPORTED; return FALSE; } g_value_init (&cvalue, pspec->value_type); g_object_get_property (G_OBJECT (data->element), property, &cvalue); goto compare; } if (GST_CLOCK_TIME_IS_VALID (data->time)) { if (!GES_IS_TRACK_ELEMENT (data->element)) { GST_VALIDATE_REPORT_ACTION (data->scenario, data->action, SCENARIO_ACTION_EXECUTION_ERROR, "Could not get property at time for type %s - only GESTrackElement supported", G_OBJECT_TYPE_NAME (data->element)); data->res = GST_VALIDATE_EXECUTE_ACTION_ERROR_REPORTED; return FALSE; } binding = ges_track_element_get_control_binding (GES_TRACK_ELEMENT (data->element), property); if (binding) { tvalue = gst_control_binding_get_value (binding, data->time); if (!tvalue) { GST_VALIDATE_REPORT_ACTION (data->scenario, data->action, SCENARIO_ACTION_EXECUTION_ERROR, "Could not get property: %s at %" GST_TIME_FORMAT, property, GST_TIME_ARGS (data->time)); data->res = GST_VALIDATE_EXECUTE_ACTION_ERROR_REPORTED; return FALSE; } } } if (!tvalue && !ges_timeline_element_get_child_property (data->element, property, &cvalue)) { GST_VALIDATE_REPORT_ACTION (data->scenario, data->action, SCENARIO_ACTION_EXECUTION_ERROR, "Could not get property: %s:", property); data->res = GST_VALIDATE_EXECUTE_ACTION_ERROR_REPORTED; return FALSE; } compare: observed_value = tvalue ? tvalue : &cvalue; if (G_VALUE_TYPE (observed_value) != G_VALUE_TYPE (expected_value)) { g_value_init (&comparable_value, G_VALUE_TYPE (observed_value)); if (G_VALUE_TYPE (observed_value) == GST_TYPE_CLOCK_TIME) { GstClockTime t; if (gst_validate_utils_get_clocktime (data->action->structure, property, &t)) { g_value_set_uint64 (&comparable_value, t); expected_value = &comparable_value; } } else if (g_value_transform (expected_value, &comparable_value)) { expected_value = &comparable_value; } } if (gst_value_compare (observed_value, expected_value) != GST_VALUE_EQUAL) { gchar *expected = gst_value_serialize (expected_value), *observed = gst_value_serialize (observed_value); GST_VALIDATE_REPORT_ACTION (data->scenario, data->action, SCENARIO_ACTION_CHECK_ERROR, "%s:%s expected value: '(%s)%s' different than observed: '(%s)%s'", GES_TIMELINE_ELEMENT_NAME (data->element), property, G_VALUE_TYPE_NAME (observed_value), expected, G_VALUE_TYPE_NAME (expected_value), observed); g_free (expected); g_free (observed); data->res = GST_VALIDATE_EXECUTE_ACTION_ERROR_REPORTED; } if (G_VALUE_TYPE (&comparable_value) != G_TYPE_NONE) g_value_unset (&comparable_value); if (tvalue) { g_value_unset (tvalue); g_free (tvalue); } else g_value_reset (&cvalue); return TRUE; } static gboolean set_property (GQuark field_id, const GValue * value, PropertyData * data) { const gchar *property = g_quark_to_string (field_id); if (!ges_timeline_element_set_child_property (data->element, property, value)) { gchar *v = gst_value_serialize (value); GST_VALIDATE_REPORT_ACTION (data->scenario, data->action, SCENARIO_ACTION_EXECUTION_ERROR, "Could not set %s child property %s to %s", GES_TIMELINE_ELEMENT_NAME (data->element), property, v); data->res = GST_VALIDATE_EXECUTE_ACTION_ERROR_REPORTED; g_free (v); return FALSE; } return TRUE; } GES_START_VALIDATE_ACTION (set_or_check_properties) { GESTimelineElement *element; GstStructure *structure; const gchar *element_name; PropertyData data = { .scenario = scenario, .element = NULL, .res = GST_VALIDATE_EXECUTE_ACTION_OK, .time = GST_CLOCK_TIME_NONE, .check_children = !gst_structure_has_name (action->structure, "check-ges-properties"), .action = action, }; gst_validate_action_get_clocktime (scenario, action, "at-time", &data.time); structure = gst_structure_copy (action->structure); element_name = gst_structure_get_string (structure, "element-name"); element = ges_timeline_get_element (timeline, element_name); if (!element) { GST_VALIDATE_REPORT_ACTION (scenario, action, SCENARIO_ACTION_EXECUTION_ERROR, "Can not find element: %s", element_name); data.res = GST_VALIDATE_EXECUTE_ACTION_ERROR_REPORTED; goto local_done; } data.element = element; gst_structure_remove_fields (structure, "element-name", "at-time", "project-uri", NULL); gst_structure_foreach (structure, gst_structure_has_name (action->structure, "set-child-properties") ? (GstStructureForeachFunc) set_property : (GstStructureForeachFunc) check_property, &data); gst_object_unref (element); local_done: gst_structure_free (structure); res = data.res; } GST_END_VALIDATE_ACTION; GES_START_VALIDATE_ACTION (_set_track_restriction_caps) { GList *tmp; GstCaps *caps; GESTrackType track_types; const gchar *track_type_str = gst_structure_get_string (action->structure, "track-type"); const gchar *caps_str = gst_structure_get_string (action->structure, "caps"); REPORT_UNLESS (track_types = gst_validate_utils_flags_from_str (GES_TYPE_TRACK_TYPE, track_type_str), done, "Invalide track types: %s", track_type_str); REPORT_UNLESS (caps = gst_caps_from_string (caps_str), done, "Invalide track restriction caps: %s", caps_str); res = GST_VALIDATE_EXECUTE_ACTION_ERROR; for (tmp = timeline->tracks; tmp; tmp = tmp->next) { GESTrack *track = tmp->data; if (track->type & track_types) { gchar *str; str = gst_caps_to_string (caps); g_free (str); ges_track_set_restriction_caps (track, caps); res = GST_VALIDATE_EXECUTE_ACTION_OK; } } gst_caps_unref (caps); } GST_END_VALIDATE_ACTION; GES_START_VALIDATE_ACTION (_set_asset_on_element) { GESAsset *asset; GESTimelineElement *element; const gchar *element_name, *id; element_name = gst_structure_get_string (action->structure, "element-name"); element = ges_timeline_get_element (timeline, element_name); REPORT_UNLESS (element, done, "Can't find %s", element_name); id = gst_structure_get_string (action->structure, "asset-id"); gst_validate_printf (action, "Setting asset %s on element %s\n", id, element_name); asset = _ges_get_asset_from_timeline (timeline, G_OBJECT_TYPE (element), id, NULL); REPORT_UNLESS (asset, beach, "Could not find asset: %s", id); res = ges_extractable_set_asset (GES_EXTRACTABLE (element), asset); beach: gst_clear_object (&asset); gst_clear_object (&element); } GST_END_VALIDATE_ACTION; GES_START_VALIDATE_ACTION (_container_remove_child) { GESContainer *container = NULL; GESTimelineElement *child = NULL; const gchar *container_name, *child_name; container_name = gst_structure_get_string (action->structure, "container-name"); container = (GESContainer *) ges_timeline_get_element (timeline, container_name); REPORT_UNLESS (GES_IS_CONTAINER (container), beach, "Could not find container: %s", container_name); child_name = gst_structure_get_string (action->structure, "child-name"); child = ges_timeline_get_element (timeline, child_name); REPORT_UNLESS (GES_IS_TIMELINE_ELEMENT (child), beach, "Could not find %s", child_name); res = ges_container_remove (container, child); beach: gst_clear_object (&container); gst_clear_object (&child); } GST_END_VALIDATE_ACTION; GES_START_VALIDATE_ACTION (_ungroup) { GESContainer *container; gboolean recursive = FALSE; const gchar *container_name; container_name = gst_structure_get_string (action->structure, "container-name"); container = (GESContainer *) ges_timeline_get_element (timeline, container_name); REPORT_UNLESS (GES_IS_CONTAINER (container), beach, "Could not find %s", container_name); gst_structure_get_boolean (action->structure, "recursive", &recursive); g_list_free (ges_container_ungroup (container, recursive)); beach: gst_clear_object (&container); } GST_END_VALIDATE_ACTION; GES_START_VALIDATE_ACTION (_copy_element) { GESTimelineElement *element = NULL, *copied = NULL, *pasted = NULL; gboolean recursive = FALSE; const gchar *element_name, *paste_name; GstClockTime position; element_name = gst_structure_get_string (action->structure, "element-name"); element = ges_timeline_get_element (timeline, element_name); REPORT_UNLESS (GES_IS_CONTAINER (element), beach, "Could not find %s", element_name); if (!gst_structure_get_boolean (action->structure, "recursive", &recursive)) recursive = TRUE; REPORT_UNLESS (gst_validate_action_get_clocktime (scenario, action, "position", &position), beach, "Could not find position"); copied = ges_timeline_element_copy (element, recursive); pasted = ges_timeline_element_paste (copied, position); REPORT_UNLESS (pasted, beach, "Could not paste clip %s", element_name); paste_name = gst_structure_get_string (action->structure, "paste-name"); if (paste_name) REPORT_UNLESS (ges_timeline_element_set_name (pasted, paste_name), beach, "Could not set element name %s", paste_name); beach: gst_clear_object (&pasted); gst_clear_object (&element); /* `copied` is only used for the single paste operation, and is not * actually in any timeline. We own it (it is actually still floating). * `pasted` is the actual new object in the timeline. We own a * reference to it. */ gst_clear_object (&copied); } GST_END_VALIDATE_ACTION; GES_START_VALIDATE_ACTION (_set_control_source) { guint mode; GESTrackElement *element = NULL; GstControlSource *source = NULL; gchar *element_name, *property_name, *binding_type = NULL, *source_type = NULL, *interpolation_mode = NULL; REPORT_UNLESS (gst_structure_get (action->structure, "element-name", G_TYPE_STRING, &element_name, "property-name", G_TYPE_STRING, &property_name, NULL), beach, "Wrong parametters"); TRY_GET ("binding-type", G_TYPE_STRING, &binding_type, NULL); TRY_GET ("source-type", G_TYPE_STRING, &source_type, NULL); TRY_GET ("interpolation-mode", G_TYPE_STRING, &interpolation_mode, NULL); element = GES_TRACK_ELEMENT (ges_timeline_get_element (timeline, element_name)); REPORT_UNLESS (GES_IS_TRACK_ELEMENT (element), beach, "Could not find element %s", element_name); if (!binding_type) binding_type = g_strdup ("direct"); REPORT_UNLESS (source_type == NULL || !g_strcmp0 (source_type, "interpolation"), beach, "Interpolation type %s not supported", source_type); source = gst_interpolation_control_source_new (); if (interpolation_mode) REPORT_UNLESS (gst_validate_utils_enum_from_str (GST_TYPE_INTERPOLATION_MODE, interpolation_mode, &mode), beach, "Wrong intorpolation mode: %s", interpolation_mode); else mode = GST_INTERPOLATION_MODE_LINEAR; g_object_set (source, "mode", mode, NULL); res = ges_track_element_set_control_source (element, source, property_name, binding_type); beach: gst_clear_object (&element); gst_clear_object (&source); g_free (property_name); g_free (element_name); g_free (binding_type); g_free (source_type); g_free (interpolation_mode); } GST_END_VALIDATE_ACTION; GES_START_VALIDATE_ACTION (_validate_action_execute) { GError *err = NULL; ActionFromStructureFunc func; gst_structure_remove_field (action->structure, "playback-time"); if (gst_structure_has_name (action->structure, "add-keyframe") || gst_structure_has_name (action->structure, "remove-keyframe")) { func = _ges_add_remove_keyframe_from_struct; } else if (gst_structure_has_name (action->structure, "add-clip")) { func = _ges_add_clip_from_struct; } else if (gst_structure_has_name (action->structure, "container-add-child")) { func = _ges_container_add_child_from_struct; } else if (gst_structure_has_name (action->structure, "set-child-property")) { func = _ges_set_child_property_from_struct; } else { g_assert_not_reached (); } if (!func (timeline, action->structure, &err)) { GST_VALIDATE_REPORT_ACTION (scenario, action, g_quark_from_string ("scenario::execution-error"), "Could not execute %s (error: %s)", gst_structure_get_name (action->structure), err ? err->message : "None"); g_clear_error (&err); res = GST_VALIDATE_EXECUTE_ACTION_ERROR_REPORTED; } } GST_END_VALIDATE_ACTION; static void _project_loaded_cb (GESProject * project, GESTimeline * timeline, GstValidateAction * action) { gst_validate_action_set_done (action); } GES_START_VALIDATE_ACTION (_load_project) { GstState state; GESProject *project = NULL; GList *tmp, *tmp_full; gchar *uri = NULL; GError *error = NULL; const gchar *content = NULL; gchar *tmpfile = g_strdup_printf ("%s%s%s", g_get_tmp_dir (), G_DIR_SEPARATOR_S, "tmpxgesload.xges"); res = GST_VALIDATE_EXECUTE_ACTION_ASYNC; REPORT_UNLESS (GES_IS_PIPELINE (pipeline), local_done, "Not a GES pipeline, can't work with it"); gst_element_get_state (pipeline, &state, NULL, 0); gst_element_set_state (pipeline, GST_STATE_NULL); content = gst_structure_get_string (action->structure, "serialized-content"); if (content) { g_file_set_contents (tmpfile, content, -1, &error); REPORT_UNLESS (!error, local_done, "Could not set XML content: %s", error->message); uri = gst_filename_to_uri (tmpfile, &error); REPORT_UNLESS (!error, local_done, "Could not set filename to URI: %s", error->message); } else { uri = g_strdup (gst_structure_get_string (action->structure, "uri")); REPORT_UNLESS (uri, local_done, "None of 'uri' or 'content' passed as parametter" " can't load any timeline!"); } tmp_full = ges_timeline_get_layers (timeline); for (tmp = tmp_full; tmp; tmp = tmp->next) ges_timeline_remove_layer (timeline, tmp->data); g_list_free_full (tmp_full, gst_object_unref); tmp_full = ges_timeline_get_tracks (timeline); for (tmp = tmp_full; tmp; tmp = tmp->next) ges_timeline_remove_track (timeline, tmp->data); g_list_free_full (tmp_full, gst_object_unref); project = ges_project_new (uri); g_signal_connect (project, "loaded", G_CALLBACK (_project_loaded_cb), action); ges_project_load (project, gst_object_ref (timeline), &error); REPORT_UNLESS (!error, local_done, "Could not load timeline: %s", error->message); gst_element_set_state (pipeline, state); local_done: gst_clear_object (&project); g_clear_error (&error); g_free (uri); g_free (tmpfile); } GST_END_VALIDATE_ACTION; static gint prepare_seek_action (GstValidateAction * action) { gint res = GST_VALIDATE_EXECUTE_ACTION_ERROR; GESFrameNumber fstart, fstop; GstValidateScenario *scenario = gst_validate_action_get_scenario (action); GstValidateActionType *type = gst_validate_get_action_type (action->type); GError *err = NULL; DECLARE_AND_GET_TIMELINE (scenario, action); if (timeline && ges_util_structure_get_clocktime (action->structure, "start", NULL, &fstart)) { GstClockTime start = ges_timeline_get_frame_time (timeline, fstart); if (err) { GST_VALIDATE_REPORT_ACTION (scenario, action, SCENARIO_ACTION_EXECUTION_ERROR, "Invalid seeking frame number '%" G_GINT64_FORMAT "': %s", fstart, err->message); goto done; } gst_structure_set (action->structure, "start", G_TYPE_UINT64, start, NULL); } if (timeline && ges_util_structure_get_clocktime (action->structure, "stop", NULL, &fstop)) { GstClockTime stop = ges_timeline_get_frame_time (timeline, fstop); if (err) { GST_VALIDATE_REPORT_ACTION (scenario, action, SCENARIO_ACTION_EXECUTION_ERROR, "Invalid seeking frame number '%" G_GINT64_FORMAT "': %s", fstop, err->message); goto done; } gst_structure_set (action->structure, "stop", G_TYPE_UINT64, stop, NULL); } gst_object_unref (scenario); gst_object_unref (timeline); return type->overriden_type->prepare (action); done: gst_object_unref (scenario); gst_object_unref (timeline); return res; } static gint set_layer_active (GstValidateScenario * scenario, GstValidateAction * action) { gboolean active; gint i, layer_prio; GESLayer *layer; GList *tracks = NULL; GstValidateExecuteActionReturn res = GST_VALIDATE_EXECUTE_ACTION_OK; gchar **track_names = gst_validate_utils_get_strv (action->structure, "tracks"); DECLARE_AND_GET_TIMELINE (scenario, action); for (i = 0; track_names[i]; i++) { GESTrack *track = (GESTrack *) gst_bin_get_by_name (GST_BIN (timeline), track_names[i]); if (!track) { GST_VALIDATE_REPORT_ACTION (scenario, action, SCENARIO_ACTION_EXECUTION_ERROR, "Could not find track %s", track_names[i]); res = GST_VALIDATE_EXECUTE_ACTION_ERROR_REPORTED; goto done; } tracks = g_list_prepend (tracks, track); } if (!gst_structure_get_int (action->structure, "layer-priority", &layer_prio)) { GST_VALIDATE_REPORT_ACTION (scenario, action, SCENARIO_ACTION_EXECUTION_ERROR, "Could not find layer from %" GST_PTR_FORMAT, action->structure); res = GST_VALIDATE_EXECUTE_ACTION_ERROR_REPORTED; goto done; } if (!(layer = g_list_nth_data (timeline->layers, layer_prio))) { GST_VALIDATE_REPORT_ACTION (scenario, action, SCENARIO_ACTION_EXECUTION_ERROR, "Could not find layer %d", layer_prio); res = GST_VALIDATE_EXECUTE_ACTION_ERROR_REPORTED; goto done; } if (!gst_structure_get_boolean (action->structure, "active", &active)) { GST_VALIDATE_REPORT_ACTION (scenario, action, SCENARIO_ACTION_EXECUTION_ERROR, "Could not find 'active' boolean in %" GST_PTR_FORMAT, action->structure); res = GST_VALIDATE_EXECUTE_ACTION_ERROR_REPORTED; goto done; } if (!ges_layer_set_active_for_tracks (layer, active, tracks)) { GST_VALIDATE_REPORT_ACTION (scenario, action, SCENARIO_ACTION_EXECUTION_ERROR, "Could not set active for track defined in %" GST_PTR_FORMAT, action->structure); res = GST_VALIDATE_EXECUTE_ACTION_ERROR_REPORTED; goto done; } done: g_strfreev (track_names); gst_object_unref (timeline); g_list_free_full (tracks, gst_object_unref); return res; } #endif gboolean ges_validate_register_action_types (void) { #ifdef HAVE_GST_VALIDATE GstValidateActionType *validate_seek, *seek_override; gst_validate_init (); validate_seek = gst_validate_get_action_type ("seek"); /* *INDENT-OFF* */ seek_override = gst_validate_register_action_type("seek", "ges", validate_seek->execute, validate_seek->parameters, validate_seek->description, validate_seek->flags); gst_mini_object_unref(GST_MINI_OBJECT(validate_seek)); seek_override->prepare = prepare_seek_action; gst_validate_register_action_type ("edit-container", "ges", _edit, (GstValidateActionParameter []) { { .name = "container-name", .description = "The name of the GESContainer to edit", .mandatory = TRUE, .types = "string", }, { .name = "position", .description = "The new position of the GESContainer", .mandatory = FALSE, .types = "double or string", .possible_variables = "position: The current position in the stream\n" "duration: The duration of the stream", NULL }, { .name = "edit-mode", .description = "The GESEditMode to use to edit @container-name", .mandatory = FALSE, .types = "string", .def = "normal", }, { .name = "edge", .description = "The GESEdge to use to edit @container-name\n" "should be in [ start, end, none ] ", .mandatory = FALSE, .types = "string", .def = "none", }, { .name = "new-layer-priority", .description = "The priority of the layer @container should land in.\n" "If the layer you're trying to move the container to doesn't exist, it will\n" "be created automatically. -1 means no move.", .mandatory = FALSE, .types = "int", .def = "-1", }, { .name = "project-uri", .description = "The project URI with the serialized timeline to execute the action on", .types = "string", .mandatory = FALSE, }, {NULL} }, "Allows to edit a container (like a GESClip), for more details, have a look at:\n" "ges_timeline_element_edit documentation, Note that the timeline will\n" "be commited, and flushed so that the edition is taken into account", GST_VALIDATE_ACTION_TYPE_NONE); gst_validate_register_action_type ("edit", "ges", _edit, (GstValidateActionParameter []) { { .name = "element-name", .description = "The name of the element to edit", .mandatory = TRUE, .types = "string", }, { .name = "position", .description = "The new position of the element", .mandatory = FALSE, .types = "double or string", .possible_variables = "position: The current position in the stream\n" "duration: The duration of the stream", NULL }, { .name = "source-frame", .description = "The new frame of the element, computed from the @element-name" "clip's source frame.", .mandatory = FALSE, .types = "double or string", NULL }, { .name = "edit-mode", .description = "The GESEditMode to use to edit @element-name", .mandatory = FALSE, .types = "string", .def = "normal", }, { .name = "edge", .description = "The GESEdge to use to edit @element-name\n" "should be in [ start, end, none ] ", .mandatory = FALSE, .types = "string", .def = "none", }, { .name = "new-layer-priority", .description = "The priority of the layer @element should land in.\n" "If the layer you're trying to move the element to doesn't exist, it will\n" "be created automatically. -1 means no move.", .mandatory = FALSE, .types = "int", .def = "-1", }, { .name = "project-uri", .description = "The project URI with the serialized timeline to execute the action on", .types = "string", .mandatory = FALSE, }, {NULL} }, "Allows to edit a element (like a GESClip), for more details, have a look at:\n" "ges_timeline_element_edit documentation, Note that the timeline will\n" "be commited, and flushed so that the edition is taken into account", GST_VALIDATE_ACTION_TYPE_NONE); gst_validate_register_action_type ("add-asset", "ges", _add_asset, (GstValidateActionParameter []) { { .name = "id", .description = "Adds an asset to a project.", .mandatory = TRUE, NULL }, { .name = "type", .description = "The type of asset to add", .mandatory = TRUE, NULL }, { .name = "project-uri", .description = "The project URI with the serialized timeline to execute the action on", .types = "string", .mandatory = FALSE, }, {NULL} }, "Allows to add an asset to the current project", GST_VALIDATE_ACTION_TYPE_NONE); gst_validate_register_action_type ("remove-asset", "ges", _remove_asset, (GstValidateActionParameter []) { { .name = "id", .description = "The ID of the clip to remove", .mandatory = TRUE, NULL }, { .name = "type", .description = "The type of asset to remove", .mandatory = TRUE, NULL }, { .name = "project-uri", .description = "The project URI with the serialized timeline to execute the action on", .types = "string", .mandatory = FALSE, }, { NULL } }, "Allows to remove an asset from the current project", GST_VALIDATE_ACTION_TYPE_NONE); gst_validate_register_action_type ("add-layer", "ges", _add_layer, (GstValidateActionParameter []) { { .name = "priority", .description = "The priority of the new layer to add," "if not specified, the new layer will be" " appended to the timeline", .mandatory = FALSE, NULL }, { .name = "project-uri", .description = "The project URI with the serialized timeline to execute the action on", .types = "string", .mandatory = FALSE, }, { NULL } }, "Allows to add a layer to the current timeline", GST_VALIDATE_ACTION_TYPE_NONE); gst_validate_register_action_type ("remove-layer", "ges", _remove_layer, (GstValidateActionParameter []) { { .name = "priority", .description = "The priority of the layer to remove", .mandatory = TRUE, NULL }, { .name = "auto-transition", .description = "Wheter auto-transition is activated on the new layer.", .mandatory = FALSE, .types="boolean", .def = "False" }, { .name = "project-uri", .description = "The nested timeline to add clip to", .types = "string", .mandatory = FALSE, }, { NULL } }, "Allows to remove a layer from the current timeline", GST_VALIDATE_ACTION_TYPE_NONE); gst_validate_register_action_type ("add-clip", "ges", _validate_action_execute, (GstValidateActionParameter []) { { .name = "name", .description = "The name of the clip to add", .types = "string", .mandatory = TRUE, }, { .name = "layer-priority", .description = "The priority of the clip to add", .types = "int", .mandatory = TRUE, }, { .name = "asset-id", .description = "The id of the asset from which to extract the clip", .types = "string", .mandatory = TRUE, }, { .name = "type", .description = "The type of the clip to create", .types = "string", .mandatory = TRUE, }, { .name = "start", .description = "The start value to set on the new GESClip.", .types = "double or string", .mandatory = FALSE, }, { .name = "inpoint", .description = "The inpoint value to set on the new GESClip", .types = "double or string", .mandatory = FALSE, }, { .name = "duration", .description = "The duration value to set on the new GESClip", .types = "double or string", .mandatory = FALSE, }, { .name = "project-uri", .description = "The project URI with the serialized timeline to execute the action on", .types = "string", .mandatory = FALSE, }, {NULL} }, "Allows to add a clip to a given layer", GST_VALIDATE_ACTION_TYPE_NONE); gst_validate_register_action_type ("remove-clip", "ges", _remove_clip, (GstValidateActionParameter []) { { .name = "name", .description = "The name of the clip to remove", .types = "string", .mandatory = TRUE, }, { .name = "project-uri", .description = "The project URI with the serialized timeline to execute the action on", .types = "string", .mandatory = FALSE, }, {NULL} }, "Allows to remove a clip from a given layer", GST_VALIDATE_ACTION_TYPE_NONE); gst_validate_register_action_type ("serialize-project", "ges", _serialize_project, (GstValidateActionParameter []) { { .name = "uri", .description = "The uri where to store the serialized project", .types = "string", .mandatory = TRUE, }, {NULL} }, "serializes a project", GST_VALIDATE_ACTION_TYPE_NONE); gst_validate_register_action_type ("set-child-property", "ges", _validate_action_execute, (GstValidateActionParameter []) { { .name = "element-name", .description = "The name of the element on which to modify the property", .types = "string", .mandatory = TRUE, }, { .name = "property", .description = "The name of the property to modify", .types = "string", .mandatory = TRUE, }, { .name = "value", .description = "The value of the property", .types = "gvalue", .mandatory = TRUE, }, { .name = "project-uri", .description = "The project URI with the serialized timeline to execute the action on", .types = "string", .mandatory = FALSE, }, {NULL} }, "Allows to change child property of an object", GST_VALIDATE_ACTION_TYPE_NONE); gst_validate_register_action_type ("set-layer-active", "ges", set_layer_active, (GstValidateActionParameter []) { { .name = "layer-priority", .description = "The priority of the layer to set activness on", .types = "gint", .mandatory = TRUE, }, { .name = "active", .description = "The activness of the layer", .types = "gboolean", .mandatory = TRUE, }, { .name = "tracks", .description = "tracks", .types = "{string, }", .mandatory = FALSE, }, {NULL} }, "Set activness of a layer (on optional tracks).", GST_VALIDATE_ACTION_TYPE_NONE); gst_validate_register_action_type ("set-ges-properties", "ges", set_or_check_properties, (GstValidateActionParameter []) { { .name = "element-name", .description = "The name of the element on which to set properties", .types = "string", .mandatory = TRUE, }, {NULL} }, "Set `element-name` properties values defined by the" " fields in the following format: `property_name=expected-value`", GST_VALIDATE_ACTION_TYPE_NONE); gst_validate_register_action_type ("check-ges-properties", "ges", set_or_check_properties, (GstValidateActionParameter []) { { .name = "element-name", .description = "The name of the element on which to check properties", .types = "string", .mandatory = TRUE, }, {NULL} }, "Check `element-name` properties values defined by the" " fields in the following format: `property_name=expected-value`", GST_VALIDATE_ACTION_TYPE_NONE); gst_validate_register_action_type ("check-child-properties", "ges", set_or_check_properties, (GstValidateActionParameter []) { { .name = "element-name", .description = "The name of the element on which to check children properties", .types = "string", .mandatory = TRUE, }, { .name = "at-time", .description = "The time at which to check the values, taking into" " account the ControlBinding if any set.", .types = "string", .mandatory = FALSE, }, {NULL} }, "Check `element-name` children properties values defined by the" " fields in the following format: `property_name=expected-value`", GST_VALIDATE_ACTION_TYPE_NONE); gst_validate_register_action_type ("set-child-properties", "ges", set_or_check_properties, (GstValidateActionParameter []) { { .name = "element-name", .description = "The name of the element on which to modify child properties", .types = "string", .mandatory = TRUE, }, {NULL} }, "Sets `element-name` children properties values defined by the" " fields in the following format: `property-name=new-value`", GST_VALIDATE_ACTION_TYPE_NONE); gst_validate_register_action_type ("split-clip", "ges", _split_clip, (GstValidateActionParameter []) { { .name = "clip-name", .description = "The name of the clip to split", .types = "string", .mandatory = TRUE, }, { .name = "position", .description = "The position at which to split the clip", .types = "double or string", .mandatory = TRUE, }, { .name = "project-uri", .description = "The project URI with the serialized timeline to execute the action on", .types = "string", .mandatory = FALSE, }, {NULL} }, "Split a clip at a specified position.", GST_VALIDATE_ACTION_TYPE_NONE); gst_validate_register_action_type ("set-track-restriction-caps", "ges", _set_track_restriction_caps, (GstValidateActionParameter []) { { .name = "track-type", .description = "The type of track to set restriction caps on", .types = "string", .mandatory = TRUE, }, { .name = "caps", .description = "The caps to set on the track", .types = "string", .mandatory = TRUE, }, { .name = "project-uri", .description = "The project URI with the serialized timeline to execute the action on", .types = "string", .mandatory = FALSE, }, {NULL} }, "Sets restriction caps on tracks of a specific type.", GST_VALIDATE_ACTION_TYPE_NONE); gst_validate_register_action_type ("element-set-asset", "ges", _set_asset_on_element, (GstValidateActionParameter []) { { .name = "element-name", .description = "The name of the TimelineElement to set an asset on", .types = "string", .mandatory = TRUE, }, { .name = "asset-id", .description = "The id of the asset from which to extract the clip", .types = "string", .mandatory = TRUE, }, { .name = "project-uri", .description = "The project URI with the serialized timeline to execute the action on", .types = "string", .mandatory = FALSE, }, {NULL} }, "Sets restriction caps on tracks of a specific type.", GST_VALIDATE_ACTION_TYPE_NONE); gst_validate_register_action_type ("container-add-child", "ges", _validate_action_execute, (GstValidateActionParameter []) { { .name = "container-name", .description = "The name of the GESContainer to add a child to", .types = "string", .mandatory = TRUE, }, { .name = "child-name", .description = "The name of the child to add to @container-name", .types = "string", .mandatory = FALSE, .def = "NULL" }, { .name = "asset-id", .description = "The id of the asset from which to extract the child", .types = "string", .mandatory = TRUE, .def = "NULL" }, { .name = "child-type", .description = "The type of the child to create", .types = "string", .mandatory = FALSE, .def = "NULL" }, { .name = "project-uri", .description = "The project URI with the serialized timeline to execute the action on", .types = "string", .mandatory = FALSE, }, {NULL} }, "Add a child to @container-name. If asset-id and child-type are specified," " the child will be created and added. Otherwize @child-name has to be specified" " and will be added to the container.", GST_VALIDATE_ACTION_TYPE_NONE); gst_validate_register_action_type ("container-remove-child", "ges", _container_remove_child, (GstValidateActionParameter []) { { .name = "container-name", .description = "The name of the GESContainer to remove a child from", .types = "string", .mandatory = TRUE, }, { .name = "child-name", .description = "The name of the child to reomve from @container-name", .types = "string", .mandatory = TRUE, }, { .name = "project-uri", .description = "The project URI with the serialized timeline to execute the action on", .types = "string", .mandatory = FALSE, }, {NULL} }, "Remove a child from @container-name.", FALSE); gst_validate_register_action_type ("ungroup-container", "ges", _ungroup, (GstValidateActionParameter []) { { .name = "container-name", .description = "The name of the GESContainer to ungroup children from", .types = "string", .mandatory = TRUE, }, { .name = "recursive", .description = "Wether to recurse ungrouping or not.", .types = "boolean", .mandatory = FALSE, }, { .name = "project-uri", .description = "The project URI with the serialized timeline to execute the action on", .types = "string", .mandatory = FALSE, }, {NULL} }, "Ungroup children of @container-name.", FALSE); gst_validate_register_action_type ("set-control-source", "ges", _set_control_source, (GstValidateActionParameter []) { { .name = "element-name", .description = "The name of the GESTrackElement to set the control source on", .types = "string", .mandatory = TRUE, }, { .name = "property-name", .description = "The name of the property for which to set a control source", .types = "string", .mandatory = TRUE, }, { .name = "binding-type", .description = "The name of the type of binding to use", .types = "string", .mandatory = FALSE, .def = "direct", }, { .name = "source-type", .description = "The name of the type of ControlSource to use", .types = "string", .mandatory = FALSE, .def = "interpolation", }, { .name = "interpolation-mode", .description = "The name of the GstInterpolationMode to on the source", .types = "string", .mandatory = FALSE, .def = "linear", }, { .name = "project-uri", .description = "The project URI with the serialized timeline to execute the action on", .types = "string", .mandatory = FALSE, }, {NULL} }, "Adds a GstControlSource on @element-name::@property-name" " allowing you to then add keyframes on that property.", GST_VALIDATE_ACTION_TYPE_NONE); gst_validate_register_action_type ("add-keyframe", "ges", _validate_action_execute, (GstValidateActionParameter []) { { .name = "element-name", .description = "The name of the GESTrackElement to add a keyframe on", .types = "string", .mandatory = TRUE, }, { .name = "property-name", .description = "The name of the property for which to add a keyframe on", .types = "string", .mandatory = TRUE, }, { .name = "timestamp", .description = "The timestamp of the keyframe", .types = "string or float", .mandatory = TRUE, }, { .name = "value", .description = "The value of the keyframe", .types = "float", .mandatory = TRUE, }, { .name = "project-uri", .description = "The project URI with the serialized timeline to execute the action on", .types = "string", .mandatory = FALSE, }, {NULL} }, "Remove a child from @container-name.", GST_VALIDATE_ACTION_TYPE_NONE); gst_validate_register_action_type ("copy-element", "ges", _copy_element, (GstValidateActionParameter []) { { .name = "element-name", .description = "The name of the GESTtimelineElement to copy", .types = "string", .mandatory = TRUE, }, { .name = "recurse", .description = "Copy recursively or not", .types = "boolean", .def = "true", .mandatory = FALSE, }, { .name = "position", .description = "The time where to paste the element", .types = "string or float", .mandatory = TRUE, }, { .name = "paste-name", .description = "The name of the copied element", .types = "string", .mandatory = FALSE, }, { .name = "project-uri", .description = "The project URI with the serialized timeline to execute the action on", .types = "string", .mandatory = FALSE, }, {NULL} }, "Remove a child from @container-name.", GST_VALIDATE_ACTION_TYPE_NONE); gst_validate_register_action_type ("remove-keyframe", "ges", _validate_action_execute, (GstValidateActionParameter []) { { .name = "element-name", .description = "The name of the GESTrackElement to add a keyframe on", .types = "string", .mandatory = TRUE, }, { .name = "property-name", .description = "The name of the property for which to add a keyframe on", .types = "string", .mandatory = TRUE, }, { .name = "timestamp", .description = "The timestamp of the keyframe", .types = "string or float", .mandatory = TRUE, }, { .name = "project-uri", .description = "The project URI with the serialized timeline to execute the action on", .types = "string", .mandatory = FALSE, }, {NULL} }, "Remove a child from @container-name.", GST_VALIDATE_ACTION_TYPE_NONE); gst_validate_register_action_type ("load-project", "ges", _load_project, (GstValidateActionParameter []) { { .name = "serialized-content", .description = "The full content of the XML describing project in XGES format.", .mandatory = FALSE, .types = "string", NULL }, { .name = "uri", .description = "The uri of the project to load (used only if serialized-content is not provided)", .mandatory = FALSE, .types = "string", NULL }, {NULL} }, "Loads a project either from its content passed in the 'serialized-content' field or using the provided 'uri'.\n" "Note that it will completely clean the previous timeline", GST_VALIDATE_ACTION_TYPE_NONE); gst_validate_register_action_type ("commit", "ges", _commit, NULL, "Commit the timeline.", GST_VALIDATE_ACTION_TYPE_ASYNC); /* *INDENT-ON* */ return TRUE; #else return FALSE; #endif }