/* GStreamer * Copyright (C) 1999,2000 Erik Walthinsen * 2000 Wim Taymans * 2005 Wim Taymans * * gstevent.c: GstEvent subsystem * * 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. */ /** * SECTION:gstevent * @short_description: Structure describing events that are passed up and down * a pipeline * @see_also: #GstPad, #GstElement * * The event class provides factory methods to construct events for sending * and functions to query (parse) received events. * * Events are usually created with gst_event_new_*() which takes event-type * specific parameters as arguments. * To send an event application will usually use gst_element_send_event() and * elements will use gst_pad_send_event() or gst_pad_push_event(). * The event should be unreffed with gst_event_unref() if it has not been sent. * * Events that have been received can be parsed with their respective * gst_event_parse_*() functions. It is valid to pass %NULL for unwanted details. * * Events are passed between elements in parallel to the data stream. Some events * are serialized with buffers, others are not. Some events only travel downstream, * others only upstream. Some events can travel both upstream and downstream. * * The events are used to signal special conditions in the datastream such as * EOS (end of stream) or the start of a new stream-segment. * Events are also used to flush the pipeline of any pending data. * * Most of the event API is used inside plugins. Applications usually only * construct and use seek events. * To do that gst_event_new_seek() is used to create a seek event. It takes * the needed parameters to specify seeking time and mode. * * performing a seek on a pipeline * * GstEvent *event; * gboolean result; * ... * // construct a seek event to play the media from second 2 to 5, flush * // the pipeline to decrease latency. * event = gst_event_new_seek (1.0, * GST_FORMAT_TIME, * GST_SEEK_FLAG_FLUSH, * GST_SEEK_TYPE_SET, 2 * GST_SECOND, * GST_SEEK_TYPE_SET, 5 * GST_SECOND); * ... * result = gst_element_send_event (pipeline, event); * if (!result) * g_warning ("seek failed"); * ... * * * * Last reviewed on 2012-03-28 (0.11.3) */ #include "gst_private.h" #include /* memcpy */ #include "gstinfo.h" #include "gstevent.h" #include "gstenumtypes.h" #include "gstutils.h" #include "gstquark.h" #include "gstvalue.h" GType _gst_event_type = 0; typedef struct { GstEvent event; GstStructure *structure; } GstEventImpl; #define GST_EVENT_STRUCTURE(e) (((GstEventImpl *)(e))->structure) typedef struct { const gint type; const gchar *name; GQuark quark; } GstEventQuarks; static GstEventQuarks event_quarks[] = { {GST_EVENT_UNKNOWN, "unknown", 0}, {GST_EVENT_FLUSH_START, "flush-start", 0}, {GST_EVENT_FLUSH_STOP, "flush-stop", 0}, {GST_EVENT_STREAM_START, "stream-start", 0}, {GST_EVENT_CAPS, "caps", 0}, {GST_EVENT_STREAM_CONFIG, "stream-config", 0}, {GST_EVENT_SEGMENT, "segment", 0}, {GST_EVENT_TAG, "tag", 0}, {GST_EVENT_TOC, "toc", 0}, {GST_EVENT_BUFFERSIZE, "buffersize", 0}, {GST_EVENT_SINK_MESSAGE, "sink-message", 0}, {GST_EVENT_EOS, "eos", 0}, {GST_EVENT_SEGMENT_DONE, "segment-done", 0}, {GST_EVENT_GAP, "gap", 0}, {GST_EVENT_QOS, "qos", 0}, {GST_EVENT_SEEK, "seek", 0}, {GST_EVENT_NAVIGATION, "navigation", 0}, {GST_EVENT_LATENCY, "latency", 0}, {GST_EVENT_STEP, "step", 0}, {GST_EVENT_RECONFIGURE, "reconfigure", 0}, {GST_EVENT_TOC_SELECT, "toc-select", 0}, {GST_EVENT_CUSTOM_UPSTREAM, "custom-upstream", 0}, {GST_EVENT_CUSTOM_DOWNSTREAM, "custom-downstream", 0}, {GST_EVENT_CUSTOM_DOWNSTREAM_OOB, "custom-downstream-oob", 0}, {GST_EVENT_CUSTOM_DOWNSTREAM_STICKY, "custom-downstream-sticky", 0}, {GST_EVENT_CUSTOM_BOTH, "custom-both", 0}, {GST_EVENT_CUSTOM_BOTH_OOB, "custom-both-oob", 0}, {0, NULL, 0} }; GST_DEFINE_MINI_OBJECT_TYPE (GstEvent, gst_event); void _priv_gst_event_initialize (void) { gint i; _gst_event_type = gst_event_get_type (); g_type_class_ref (gst_seek_flags_get_type ()); g_type_class_ref (gst_seek_type_get_type ()); for (i = 0; event_quarks[i].name; i++) { event_quarks[i].quark = g_quark_from_static_string (event_quarks[i].name); } } /** * gst_event_type_get_name: * @type: the event type * * Get a printable name for the given event type. Do not modify or free. * * Returns: a reference to the static name of the event. */ const gchar * gst_event_type_get_name (GstEventType type) { gint i; for (i = 0; event_quarks[i].name; i++) { if (type == event_quarks[i].type) return event_quarks[i].name; } return "unknown"; } /** * gst_event_type_to_quark: * @type: the event type * * Get the unique quark for the given event type. * * Returns: the quark associated with the event type */ GQuark gst_event_type_to_quark (GstEventType type) { gint i; for (i = 0; event_quarks[i].name; i++) { if (type == event_quarks[i].type) return event_quarks[i].quark; } return 0; } /** * gst_event_type_get_flags: * @type: a #GstEventType * * Gets the #GstEventTypeFlags associated with @type. * * Returns: a #GstEventTypeFlags. */ GstEventTypeFlags gst_event_type_get_flags (GstEventType type) { GstEventTypeFlags ret; ret = type & ((1 << GST_EVENT_NUM_SHIFT) - 1); return ret; } static void _gst_event_free (GstEvent * event) { GstStructure *s; g_return_if_fail (event != NULL); g_return_if_fail (GST_IS_EVENT (event)); GST_CAT_LOG (GST_CAT_EVENT, "freeing event %p type %s", event, GST_EVENT_TYPE_NAME (event)); s = GST_EVENT_STRUCTURE (event); if (s) { gst_structure_set_parent_refcount (s, NULL); gst_structure_free (s); } g_slice_free1 (sizeof (GstEventImpl), event); } static void gst_event_init (GstEventImpl * event, GstEventType type); static GstEvent * _gst_event_copy (GstEvent * event) { GstEventImpl *copy; GstStructure *s; copy = g_slice_new0 (GstEventImpl); gst_event_init (copy, GST_EVENT_TYPE (event)); GST_EVENT_TIMESTAMP (copy) = GST_EVENT_TIMESTAMP (event); GST_EVENT_SEQNUM (copy) = GST_EVENT_SEQNUM (event); s = GST_EVENT_STRUCTURE (event); if (s) { GST_EVENT_STRUCTURE (copy) = gst_structure_copy (s); gst_structure_set_parent_refcount (GST_EVENT_STRUCTURE (copy), ©->event.mini_object.refcount); } else { GST_EVENT_STRUCTURE (copy) = NULL; } return GST_EVENT_CAST (copy); } static void gst_event_init (GstEventImpl * event, GstEventType type) { gst_mini_object_init (GST_MINI_OBJECT_CAST (event), 0, _gst_event_type, (GstMiniObjectCopyFunction) _gst_event_copy, NULL, (GstMiniObjectFreeFunction) _gst_event_free); GST_EVENT_TYPE (event) = type; GST_EVENT_TIMESTAMP (event) = GST_CLOCK_TIME_NONE; GST_EVENT_SEQNUM (event) = gst_util_seqnum_next (); } /** * gst_event_new_custom: * @type: The type of the new event * @structure: (transfer full): the structure for the event. The event will * take ownership of the structure. * * Create a new custom-typed event. This can be used for anything not * handled by other event-specific functions to pass an event to another * element. * * Make sure to allocate an event type with the #GST_EVENT_MAKE_TYPE macro, * assigning a free number and filling in the correct direction and * serialization flags. * * New custom events can also be created by subclassing the event type if * needed. * * Returns: (transfer full): the new custom event. */ GstEvent * gst_event_new_custom (GstEventType type, GstStructure * structure) { GstEventImpl *event; event = g_slice_new0 (GstEventImpl); GST_CAT_DEBUG (GST_CAT_EVENT, "creating new event %p %s %d", event, gst_event_type_get_name (type), type); if (structure) { /* structure must not have a parent */ if (!gst_structure_set_parent_refcount (structure, &event->event.mini_object.refcount)) goto had_parent; } gst_event_init (event, type); GST_EVENT_STRUCTURE (event) = structure; return GST_EVENT_CAST (event); /* ERRORS */ had_parent: { g_slice_free1 (sizeof (GstEventImpl), event); g_warning ("structure is already owned by another object"); return NULL; } } /** * gst_event_get_structure: * @event: The #GstEvent. * * Access the structure of the event. * * Returns: The structure of the event. The structure is still * owned by the event, which means that you should not free it and * that the pointer becomes invalid when you free the event. * * MT safe. */ const GstStructure * gst_event_get_structure (GstEvent * event) { g_return_val_if_fail (GST_IS_EVENT (event), NULL); return GST_EVENT_STRUCTURE (event); } /** * gst_event_writable_structure: * @event: The #GstEvent. * * Get a writable version of the structure. * * Returns: The structure of the event. The structure is still * owned by the event, which means that you should not free it and * that the pointer becomes invalid when you free the event. * This function checks if @event is writable and will never return NULL. * * MT safe. */ GstStructure * gst_event_writable_structure (GstEvent * event) { GstStructure *structure; g_return_val_if_fail (GST_IS_EVENT (event), NULL); g_return_val_if_fail (gst_event_is_writable (event), NULL); structure = GST_EVENT_STRUCTURE (event); if (structure == NULL) { structure = gst_structure_new_id_empty (gst_event_type_to_quark (GST_EVENT_TYPE (event))); gst_structure_set_parent_refcount (structure, &event->mini_object.refcount); GST_EVENT_STRUCTURE (event) = structure; } return structure; } /** * gst_event_has_name: * @event: The #GstEvent. * @name: name to check * * Checks if @event has the given @name. This function is usually used to * check the name of a custom event. * * Returns: %TRUE if @name matches the name of the event structure. */ gboolean gst_event_has_name (GstEvent * event, const gchar * name) { g_return_val_if_fail (GST_IS_EVENT (event), FALSE); if (GST_EVENT_STRUCTURE (event) == NULL) return FALSE; return gst_structure_has_name (GST_EVENT_STRUCTURE (event), name); } /** * gst_event_get_seqnum: * @event: A #GstEvent. * * Retrieve the sequence number of a event. * * Events have ever-incrementing sequence numbers, which may also be set * explicitly via gst_event_set_seqnum(). Sequence numbers are typically used to * indicate that a event corresponds to some other set of events or messages, * for example an EOS event corresponding to a SEEK event. It is considered good * practice to make this correspondence when possible, though it is not * required. * * Note that events and messages share the same sequence number incrementor; * two events or messages will never have the same sequence number unless * that correspondence was made explicitly. * * Returns: The event's sequence number. * * MT safe. */ guint32 gst_event_get_seqnum (GstEvent * event) { g_return_val_if_fail (GST_IS_EVENT (event), -1); return GST_EVENT_SEQNUM (event); } /** * gst_event_set_seqnum: * @event: A #GstEvent. * @seqnum: A sequence number. * * Set the sequence number of a event. * * This function might be called by the creator of a event to indicate that the * event relates to other events or messages. See gst_event_get_seqnum() for * more information. * * MT safe. */ void gst_event_set_seqnum (GstEvent * event, guint32 seqnum) { g_return_if_fail (GST_IS_EVENT (event)); GST_EVENT_SEQNUM (event) = seqnum; } /** * gst_event_new_flush_start: * * Allocate a new flush start event. The flush start event can be sent * upstream and downstream and travels out-of-bounds with the dataflow. * * It marks pads as being flushing and will make them return * #GST_FLOW_FLUSHING when used for data flow with gst_pad_push(), * gst_pad_chain(), gst_pad_get_range() and gst_pad_pull_range(). * Any event (except a #GST_EVENT_FLUSH_STOP) received * on a flushing pad will return %FALSE immediately. * * Elements should unlock any blocking functions and exit their streaming * functions as fast as possible when this event is received. * * This event is typically generated after a seek to flush out all queued data * in the pipeline so that the new media is played as soon as possible. * * Returns: (transfer full): a new flush start event. */ GstEvent * gst_event_new_flush_start (void) { return gst_event_new_custom (GST_EVENT_FLUSH_START, NULL); } /** * gst_event_new_flush_stop: * @reset_time: if time should be reset * * Allocate a new flush stop event. The flush stop event can be sent * upstream and downstream and travels serialized with the dataflow. * It is typically sent after sending a FLUSH_START event to make the * pads accept data again. * * Elements can process this event synchronized with the dataflow since * the preceeding FLUSH_START event stopped the dataflow. * * This event is typically generated to complete a seek and to resume * dataflow. * * Returns: (transfer full): a new flush stop event. */ GstEvent * gst_event_new_flush_stop (gboolean reset_time) { GstEvent *event; GST_CAT_INFO (GST_CAT_EVENT, "creating flush stop %d", reset_time); event = gst_event_new_custom (GST_EVENT_FLUSH_STOP, gst_structure_new_id (GST_QUARK (EVENT_FLUSH_STOP), GST_QUARK (RESET_TIME), G_TYPE_BOOLEAN, reset_time, NULL)); return event; } /** * gst_event_parse_flush_stop: * @event: The event to parse * @reset_time: (out): if time should be reset * * Parse the FLUSH_STOP event and retrieve the @reset_time member. */ void gst_event_parse_flush_stop (GstEvent * event, gboolean * reset_time) { GstStructure *structure; g_return_if_fail (GST_IS_EVENT (event)); g_return_if_fail (GST_EVENT_TYPE (event) == GST_EVENT_FLUSH_STOP); structure = GST_EVENT_STRUCTURE (event); if (G_LIKELY (reset_time)) *reset_time = g_value_get_boolean (gst_structure_id_get_value (structure, GST_QUARK (RESET_TIME))); } /** * gst_event_new_eos: * * Create a new EOS event. The eos event can only travel downstream * synchronized with the buffer flow. Elements that receive the EOS * event on a pad can return #GST_FLOW_EOS as a #GstFlowReturn * when data after the EOS event arrives. * * The EOS event will travel down to the sink elements in the pipeline * which will then post the #GST_MESSAGE_EOS on the bus after they have * finished playing any buffered data. * * When all sinks have posted an EOS message, an EOS message is * forwarded to the application. * * The EOS event itself will not cause any state transitions of the pipeline. * * Returns: (transfer full): the new EOS event. */ GstEvent * gst_event_new_eos (void) { return gst_event_new_custom (GST_EVENT_EOS, NULL); } /** * gst_event_new_gap: * @timestamp: the start time (pts) of the gap * @duration: the duration of the gap * * Create a new GAP event. A gap event can be thought of as conceptually * equivalent to a buffer to signal that there is no data for a certain * amount of time. This is useful to signal a gap to downstream elements * which may wait for data, such as muxers or mixers or overlays, especially * for sparse streams such as subtitle streams. * * Returns: (transfer full): the new GAP event. */ GstEvent * gst_event_new_gap (GstClockTime timestamp, GstClockTime duration) { GstEvent *event; g_return_val_if_fail (GST_CLOCK_TIME_IS_VALID (timestamp), NULL); g_return_val_if_fail (GST_CLOCK_TIME_IS_VALID (duration), NULL); GST_CAT_TRACE (GST_CAT_EVENT, "creating gap %" GST_TIME_FORMAT " - " "%" GST_TIME_FORMAT " (duration: %" GST_TIME_FORMAT ")", GST_TIME_ARGS (timestamp), GST_TIME_ARGS (timestamp + duration), GST_TIME_ARGS (duration)); event = gst_event_new_custom (GST_EVENT_GAP, gst_structure_new_id (GST_QUARK (EVENT_GAP), GST_QUARK (TIMESTAMP), GST_TYPE_CLOCK_TIME, timestamp, GST_QUARK (DURATION), GST_TYPE_CLOCK_TIME, duration, NULL)); return event; } /** * gst_event_parse_gap: * @event: a #GstEvent of type #GST_EVENT_GAP * @timestamp: (out) (allow-none): location where to store the * start time (pts) of the gap, or %NULL * @duration: (out) (allow-none): location where to store the duration of * the gap, or %NULL * * Extract timestamp and duration from a new GAP event. */ void gst_event_parse_gap (GstEvent * event, GstClockTime * timestamp, GstClockTime * duration) { GstStructure *structure; g_return_if_fail (GST_IS_EVENT (event)); g_return_if_fail (GST_EVENT_TYPE (event) == GST_EVENT_GAP); structure = GST_EVENT_STRUCTURE (event); gst_structure_id_get (structure, GST_QUARK (TIMESTAMP), GST_TYPE_CLOCK_TIME, timestamp, GST_QUARK (DURATION), GST_TYPE_CLOCK_TIME, duration, NULL); } /** * gst_event_new_caps: * @caps: (transfer none): a #GstCaps * * Create a new CAPS event for @caps. The caps event can only travel downstream * synchronized with the buffer flow and contains the format of the buffers * that will follow after the event. * * Returns: (transfer full): the new CAPS event. */ GstEvent * gst_event_new_caps (GstCaps * caps) { GstEvent *event; g_return_val_if_fail (caps != NULL, NULL); g_return_val_if_fail (gst_caps_is_fixed (caps), NULL); GST_CAT_INFO (GST_CAT_EVENT, "creating caps event %" GST_PTR_FORMAT, caps); event = gst_event_new_custom (GST_EVENT_CAPS, gst_structure_new_id (GST_QUARK (EVENT_CAPS), GST_QUARK (CAPS), GST_TYPE_CAPS, caps, NULL)); return event; } /** * gst_event_parse_caps: * @event: The event to parse * @caps: (out) (transfer none): A pointer to the caps * * Get the caps from @event. The caps remains valid as long as @event remains * valid. */ void gst_event_parse_caps (GstEvent * event, GstCaps ** caps) { GstStructure *structure; g_return_if_fail (GST_IS_EVENT (event)); g_return_if_fail (GST_EVENT_TYPE (event) == GST_EVENT_CAPS); structure = GST_EVENT_STRUCTURE (event); if (G_LIKELY (caps)) *caps = g_value_get_boxed (gst_structure_id_get_value (structure, GST_QUARK (CAPS))); } /** * gst_event_new_stream_config: * @flags: the stream config flags * * Create a new STREAM CONFIG event. The stream config event travels * downstream synchronized with the buffer flow and contains stream * configuration information for the stream, such as stream-headers * or setup-data. It is optional and should be sent after the CAPS * event. * * Returns: (transfer full): the new STREAM CONFIG event. */ GstEvent * gst_event_new_stream_config (GstStreamConfigFlags flags) { GstEvent *event; GST_CAT_INFO (GST_CAT_EVENT, "creating stream info event, flags=0x%x", flags); event = gst_event_new_custom (GST_EVENT_STREAM_CONFIG, gst_structure_new_id (GST_QUARK (EVENT_STREAM_CONFIG), GST_QUARK (FLAGS), GST_TYPE_STREAM_CONFIG_FLAGS, flags, NULL)); return event; } /** * gst_event_parse_stream_config: * @event: The event to parse * @flags: (out): a pointer to a variable to store the stream config flags * * Get the stream config flags from @event. */ void gst_event_parse_stream_config (GstEvent * event, GstStreamConfigFlags * flags) { GstStructure *structure; g_return_if_fail (GST_IS_EVENT (event)); g_return_if_fail (GST_EVENT_TYPE (event) == GST_EVENT_STREAM_CONFIG); structure = GST_EVENT_STRUCTURE (event); if (G_LIKELY (flags != NULL)) { *flags = g_value_get_enum (gst_structure_id_get_value (structure, GST_QUARK (FLAGS))); } } /** * gst_event_set_stream_config_setup_data: * @event: a stream config event * @buf: a #GstBuffer with setup data * * Set setup data on the stream info event to signal out of bound setup data * to downstream elements. Unlike stream headers, setup data contains data * that is required to interpret the data stream, but is not valid as-is * inside the data stream and thus can't just be prepended to or inserted * into the data stream. */ void gst_event_set_stream_config_setup_data (GstEvent * event, GstBuffer * buf) { GstStructure *s; g_return_if_fail (GST_IS_EVENT (event)); g_return_if_fail (GST_EVENT_TYPE (event) == GST_EVENT_STREAM_CONFIG); g_return_if_fail (GST_IS_BUFFER (buf) && gst_buffer_get_size (buf) > 0); s = GST_EVENT_STRUCTURE (event); gst_structure_id_set (s, GST_QUARK (SETUP_DATA), GST_TYPE_BUFFER, buf, NULL); } /** * gst_event_parse_stream_config_setup_data: * @event: a stream config event * @buf: (out) (transfer none): location where to store the #GstBuffer with setup data * * Extracts the setup data buffer from the stream info event. Will store * %NULL in @buf if the event contains no setup data. The buffer returned * will remain valid as long as @event remains valid. The caller should * acquire a reference to to @buf if needed. * * Returns: TRUE if @event contained setup data and @buf has been set, * otherwise FALSE. */ gboolean gst_event_parse_stream_config_setup_data (GstEvent * event, GstBuffer ** buf) { const GValue *val; GstStructure *s; g_return_val_if_fail (GST_IS_EVENT (event), FALSE); g_return_val_if_fail (GST_EVENT_TYPE (event) == GST_EVENT_STREAM_CONFIG, FALSE); g_return_val_if_fail (buf != NULL, FALSE); s = GST_EVENT_STRUCTURE (event); val = gst_structure_id_get_value (s, GST_QUARK (SETUP_DATA)); if (val != NULL) *buf = g_value_get_boxed (val); else *buf = NULL; return (*buf != NULL); } /** * gst_event_add_stream_config_header: * @event: a stream config event * @buf: a #GstBuffer with stream header data * * Adds a stream header to the stream info event to signal stream headers to * to downstream elements such as multifilesink, tcpserversink etc. Stream * headers can be and should usually be prepended to the data stream at any * point in the stream (which requires a streamable format), e.g. to a new * client connecting, or when starting a new file segment. stream header * buffers will all be used together in the order they were added to the * stream config event. Stream headers are sent as buffers at the beginning * of the data flow in addition to the stream config event. Elements that * care about stream headers need to make sure that they don't insert or * interpret these header buffers twice if they interpret them. */ void gst_event_add_stream_config_header (GstEvent * event, GstBuffer * buf) { GstStructure *s; GValue buf_val = { 0, }; GValue *val; g_return_if_fail (GST_IS_EVENT (event)); g_return_if_fail (GST_EVENT_TYPE (event) == GST_EVENT_STREAM_CONFIG); g_return_if_fail (GST_IS_BUFFER (buf) && gst_buffer_get_size (buf) > 0); g_value_init (&buf_val, GST_TYPE_BUFFER); g_value_set_boxed (&buf_val, buf); s = GST_EVENT_STRUCTURE (event); val = (GValue *) gst_structure_id_get_value (s, GST_QUARK (STREAM_HEADERS)); if (val == NULL) { GValue new_array = { 0, }; g_value_init (&new_array, GST_TYPE_ARRAY); gst_value_array_append_value (&new_array, &buf_val); gst_structure_id_take_value (s, GST_QUARK (STREAM_HEADERS), &new_array); } else { gst_value_array_append_value (val, &buf_val); } g_value_unset (&buf_val); } /** * gst_event_get_n_stream_config_headers: * @event: a stream config event * * Extract the number of stream header buffers. * * Returns: the number of stream header buffers attached to the stream info * @event. */ guint gst_event_get_n_stream_config_headers (GstEvent * event) { const GValue *val; GstStructure *s; guint num = 0; g_return_val_if_fail (GST_IS_EVENT (event), 0); g_return_val_if_fail (GST_EVENT_TYPE (event) == GST_EVENT_STREAM_CONFIG, 0); s = GST_EVENT_STRUCTURE (event); val = gst_structure_id_get_value (s, GST_QUARK (STREAM_HEADERS)); if (val != NULL) num = gst_value_array_get_size (val); return num; } /** * gst_event_parse_nth_stream_config_header: * @event: a stream config event * @index: number of the stream header to retrieve * @buf: (out) (transfer none): location where to store the n-th stream * header #GstBuffer * * Retrieves the n-th stream header buffer attached to the stream config * event and stores it in @buf. Will store %NULL in @buf if there is no such * stream header. * * Returns: TRUE if @event contained a stream header at @index and @buf has * been set, otherwise FALSE. */ gboolean gst_event_parse_nth_stream_config_header (GstEvent * event, guint index, GstBuffer ** buf) { const GValue *val, *buf_val; GstStructure *s; GstBuffer *ret = NULL; g_return_val_if_fail (GST_IS_EVENT (event), FALSE); g_return_val_if_fail (GST_EVENT_TYPE (event) == GST_EVENT_STREAM_CONFIG, FALSE); g_return_val_if_fail (buf != NULL, FALSE); s = GST_EVENT_STRUCTURE (event); val = gst_structure_id_get_value (s, GST_QUARK (STREAM_HEADERS)); if (val != NULL) { buf_val = gst_value_array_get_value (val, index); if (buf_val != NULL) ret = g_value_get_boxed (buf_val); } *buf = ret; return (ret != NULL); } /** * gst_event_new_segment: * @segment: (transfer none): a #GstSegment * * Create a new SEGMENT event for @segment. The segment event can only travel * downstream synchronized with the buffer flow and contains timing information * and playback properties for the buffers that will follow. * * The newsegment event marks the range of buffers to be processed. All * data not within the segment range is not to be processed. This can be * used intelligently by plugins to apply more efficient methods of skipping * unneeded data. The valid range is expressed with the @start and @stop * values. * * The time value of the segment is used in conjunction with the start * value to convert the buffer timestamps into the stream time. This is * usually done in sinks to report the current stream_time. * @time represents the stream_time of a buffer carrying a timestamp of * @start. @time cannot be -1. * * @start cannot be -1, @stop can be -1. If there * is a valid @stop given, it must be greater or equal the @start, including * when the indicated playback @rate is < 0. * * The @applied_rate value provides information about any rate adjustment that * has already been made to the timestamps and content on the buffers of the * stream. (@rate * @applied_rate) should always equal the rate that has been * requested for playback. For example, if an element has an input segment * with intended playback @rate of 2.0 and applied_rate of 1.0, it can adjust * incoming timestamps and buffer content by half and output a newsegment event * with @rate of 1.0 and @applied_rate of 2.0 * * After a newsegment event, the buffer stream time is calculated with: * * time + (TIMESTAMP(buf) - start) * ABS (rate * applied_rate) * * Returns: (transfer full): the new SEGMENT event. */ GstEvent * gst_event_new_segment (const GstSegment * segment) { GstEvent *event; g_return_val_if_fail (segment != NULL, NULL); g_return_val_if_fail (segment->rate != 0.0, NULL); g_return_val_if_fail (segment->applied_rate != 0.0, NULL); g_return_val_if_fail (segment->format != GST_FORMAT_UNDEFINED, NULL); GST_CAT_INFO (GST_CAT_EVENT, "creating segment event %" GST_SEGMENT_FORMAT, segment); event = gst_event_new_custom (GST_EVENT_SEGMENT, gst_structure_new_id (GST_QUARK (EVENT_SEGMENT), GST_QUARK (SEGMENT), GST_TYPE_SEGMENT, segment, NULL)); return event; } /** * gst_event_parse_segment: * @event: The event to parse * @segment: (out) (transfer none): a pointer to a #GstSegment * * Parses a segment @event and stores the result in the given @segment location. * @segment remains valid only until the @event is freed. Don't modify the segment * and make a copy if you want to modify it or store it for later use. */ void gst_event_parse_segment (GstEvent * event, const GstSegment ** segment) { GstStructure *structure; g_return_if_fail (GST_IS_EVENT (event)); g_return_if_fail (GST_EVENT_TYPE (event) == GST_EVENT_SEGMENT); if (segment) { structure = GST_EVENT_STRUCTURE (event); *segment = g_value_get_boxed (gst_structure_id_get_value (structure, GST_QUARK (SEGMENT))); } } /** * gst_event_copy_segment: * @event: The event to parse * @segment: a pointer to a #GstSegment * * Parses a segment @event and copies the #GstSegment into the location * given by @segment. */ void gst_event_copy_segment (GstEvent * event, GstSegment * segment) { const GstSegment *src; g_return_if_fail (GST_IS_EVENT (event)); g_return_if_fail (GST_EVENT_TYPE (event) == GST_EVENT_SEGMENT); if (segment) { gst_event_parse_segment (event, &src); gst_segment_copy_into (src, segment); } } /** * gst_event_new_tag: * @taglist: (transfer full): metadata list. The event will take ownership * of the taglist. * * Generates a metadata tag event from the given @taglist. * * The scope of the taglist specifies if the taglist applies to the * complete medium or only to this specific stream. As the tag event * is a sticky event, elements should merge tags received from * upstream with a given scope with their own tags with the same * scope and create a new tag event from it. * * Returns: (transfer full): a new #GstEvent */ GstEvent * gst_event_new_tag (GstTagList * taglist) { GstStructure *s; GValue val = G_VALUE_INIT; const gchar *names[] = { "GstTagList-stream", "GstTagList-global" }; g_return_val_if_fail (taglist != NULL, NULL); s = gst_structure_new_empty (names[gst_tag_list_get_scope (taglist)]); g_value_init (&val, GST_TYPE_TAG_LIST); g_value_take_boxed (&val, taglist); gst_structure_id_take_value (s, GST_QUARK (TAGLIST), &val); return gst_event_new_custom (GST_EVENT_TAG, s); } /** * gst_event_parse_tag: * @event: a tag event * @taglist: (out) (transfer none): pointer to metadata list * * Parses a tag @event and stores the results in the given @taglist location. * No reference to the taglist will be returned, it remains valid only until * the @event is freed. Don't modify or free the taglist, make a copy if you * want to modify it or store it for later use. */ void gst_event_parse_tag (GstEvent * event, GstTagList ** taglist) { const GValue *val; g_return_if_fail (GST_IS_EVENT (event)); g_return_if_fail (GST_EVENT_TYPE (event) == GST_EVENT_TAG); val = gst_structure_id_get_value (GST_EVENT_STRUCTURE (event), GST_QUARK (TAGLIST)); if (taglist) *taglist = (GstTagList *) g_value_get_boxed (val); } /* buffersize event */ /** * gst_event_new_buffer_size: * @format: buffer format * @minsize: minimum buffer size * @maxsize: maximum buffer size * @async: thread behavior * * Create a new buffersize event. The event is sent downstream and notifies * elements that they should provide a buffer of the specified dimensions. * * When the @async flag is set, a thread boundary is preferred. * * Returns: (transfer full): a new #GstEvent */ GstEvent * gst_event_new_buffer_size (GstFormat format, gint64 minsize, gint64 maxsize, gboolean async) { GstEvent *event; GstStructure *structure; GST_CAT_INFO (GST_CAT_EVENT, "creating buffersize format %s, minsize %" G_GINT64_FORMAT ", maxsize %" G_GINT64_FORMAT ", async %d", gst_format_get_name (format), minsize, maxsize, async); structure = gst_structure_new_id (GST_QUARK (EVENT_BUFFER_SIZE), GST_QUARK (FORMAT), GST_TYPE_FORMAT, format, GST_QUARK (MINSIZE), G_TYPE_INT64, minsize, GST_QUARK (MAXSIZE), G_TYPE_INT64, maxsize, GST_QUARK (ASYNC), G_TYPE_BOOLEAN, async, NULL); event = gst_event_new_custom (GST_EVENT_BUFFERSIZE, structure); return event; } /** * gst_event_parse_buffer_size: * @event: The event to query * @format: (out): A pointer to store the format in * @minsize: (out): A pointer to store the minsize in * @maxsize: (out): A pointer to store the maxsize in * @async: (out): A pointer to store the async-flag in * * Get the format, minsize, maxsize and async-flag in the buffersize event. */ void gst_event_parse_buffer_size (GstEvent * event, GstFormat * format, gint64 * minsize, gint64 * maxsize, gboolean * async) { const GstStructure *structure; g_return_if_fail (GST_IS_EVENT (event)); g_return_if_fail (GST_EVENT_TYPE (event) == GST_EVENT_BUFFERSIZE); structure = GST_EVENT_STRUCTURE (event); if (format) *format = (GstFormat) g_value_get_enum (gst_structure_id_get_value (structure, GST_QUARK (FORMAT))); if (minsize) *minsize = g_value_get_int64 (gst_structure_id_get_value (structure, GST_QUARK (MINSIZE))); if (maxsize) *maxsize = g_value_get_int64 (gst_structure_id_get_value (structure, GST_QUARK (MAXSIZE))); if (async) *async = g_value_get_boolean (gst_structure_id_get_value (structure, GST_QUARK (ASYNC))); } /** * gst_event_new_qos: * @type: the QoS type * @proportion: the proportion of the qos message * @diff: The time difference of the last Clock sync * @timestamp: The timestamp of the buffer * * Allocate a new qos event with the given values. * The QOS event is generated in an element that wants an upstream * element to either reduce or increase its rate because of * high/low CPU load or other resource usage such as network performance or * throttling. Typically sinks generate these events for each buffer * they receive. * * @type indicates the reason for the QoS event. #GST_QOS_TYPE_OVERFLOW is * used when a buffer arrived in time or when the sink cannot keep up with * the upstream datarate. #GST_QOS_TYPE_UNDERFLOW is when the sink is not * receiving buffers fast enough and thus has to drop late buffers. * #GST_QOS_TYPE_THROTTLE is used when the datarate is artificially limited * by the application, for example to reduce power consumption. * * @proportion indicates the real-time performance of the streaming in the * element that generated the QoS event (usually the sink). The value is * generally computed based on more long term statistics about the streams * timestamps compared to the clock. * A value < 1.0 indicates that the upstream element is producing data faster * than real-time. A value > 1.0 indicates that the upstream element is not * producing data fast enough. 1.0 is the ideal @proportion value. The * proportion value can safely be used to lower or increase the quality of * the element. * * @diff is the difference against the clock in running time of the last * buffer that caused the element to generate the QOS event. A negative value * means that the buffer with @timestamp arrived in time. A positive value * indicates how late the buffer with @timestamp was. When throttling is * enabled, @diff will be set to the requested throttling interval. * * @timestamp is the timestamp of the last buffer that cause the element * to generate the QOS event. It is expressed in running time and thus an ever * increasing value. * * The upstream element can use the @diff and @timestamp values to decide * whether to process more buffers. For possitive @diff, all buffers with * timestamp <= @timestamp + @diff will certainly arrive late in the sink * as well. A (negative) @diff value so that @timestamp + @diff would yield a * result smaller than 0 is not allowed. * * The application can use general event probes to intercept the QoS * event and implement custom application specific QoS handling. * * Returns: (transfer full): a new QOS event. */ GstEvent * gst_event_new_qos (GstQOSType type, gdouble proportion, GstClockTimeDiff diff, GstClockTime timestamp) { GstEvent *event; GstStructure *structure; /* diff must be positive or timestamp + diff must be positive */ g_return_val_if_fail (diff >= 0 || -diff <= timestamp, NULL); GST_CAT_LOG (GST_CAT_EVENT, "creating qos type %d, proportion %lf, diff %" G_GINT64_FORMAT ", timestamp %" GST_TIME_FORMAT, type, proportion, diff, GST_TIME_ARGS (timestamp)); structure = gst_structure_new_id (GST_QUARK (EVENT_QOS), GST_QUARK (TYPE), GST_TYPE_QOS_TYPE, type, GST_QUARK (PROPORTION), G_TYPE_DOUBLE, proportion, GST_QUARK (DIFF), G_TYPE_INT64, diff, GST_QUARK (TIMESTAMP), G_TYPE_UINT64, timestamp, NULL); event = gst_event_new_custom (GST_EVENT_QOS, structure); return event; } /** * gst_event_parse_qos: * @event: The event to query * @type: (out): A pointer to store the QoS type in * @proportion: (out): A pointer to store the proportion in * @diff: (out): A pointer to store the diff in * @timestamp: (out): A pointer to store the timestamp in * * Get the type, proportion, diff and timestamp in the qos event. See * gst_event_new_qos() for more information about the different QoS values. */ void gst_event_parse_qos (GstEvent * event, GstQOSType * type, gdouble * proportion, GstClockTimeDiff * diff, GstClockTime * timestamp) { const GstStructure *structure; g_return_if_fail (GST_IS_EVENT (event)); g_return_if_fail (GST_EVENT_TYPE (event) == GST_EVENT_QOS); structure = GST_EVENT_STRUCTURE (event); if (type) *type = (GstQOSType) g_value_get_enum (gst_structure_id_get_value (structure, GST_QUARK (TYPE))); if (proportion) *proportion = g_value_get_double (gst_structure_id_get_value (structure, GST_QUARK (PROPORTION))); if (diff) *diff = g_value_get_int64 (gst_structure_id_get_value (structure, GST_QUARK (DIFF))); if (timestamp) *timestamp = g_value_get_uint64 (gst_structure_id_get_value (structure, GST_QUARK (TIMESTAMP))); } /** * gst_event_new_seek: * @rate: The new playback rate * @format: The format of the seek values * @flags: The optional seek flags * @start_type: The type and flags for the new start position * @start: The value of the new start position * @stop_type: The type and flags for the new stop position * @stop: The value of the new stop position * * Allocate a new seek event with the given parameters. * * The seek event configures playback of the pipeline between @start to @stop * at the speed given in @rate, also called a playback segment. * The @start and @stop values are expressed in @format. * * A @rate of 1.0 means normal playback rate, 2.0 means double speed. * Negatives values means backwards playback. A value of 0.0 for the * rate is not allowed and should be accomplished instead by PAUSING the * pipeline. * * A pipeline has a default playback segment configured with a start * position of 0, a stop position of -1 and a rate of 1.0. The currently * configured playback segment can be queried with #GST_QUERY_SEGMENT. * * @start_type and @stop_type specify how to adjust the currently configured * start and stop fields in playback segment. Adjustments can be made relative * or absolute to the last configured values. A type of #GST_SEEK_TYPE_NONE * means that the position should not be updated. * * When the rate is positive and @start has been updated, playback will start * from the newly configured start position. * * For negative rates, playback will start from the newly configured stop * position (if any). If the stop position is updated, it must be different from * -1 (#GST_CLOCK_TIME_NONE) for negative rates. * * It is not possible to seek relative to the current playback position, to do * this, PAUSE the pipeline, query the current playback position with * #GST_QUERY_POSITION and update the playback segment current position with a * #GST_SEEK_TYPE_SET to the desired position. * * Returns: (transfer full): a new seek event. */ GstEvent * gst_event_new_seek (gdouble rate, GstFormat format, GstSeekFlags flags, GstSeekType start_type, gint64 start, GstSeekType stop_type, gint64 stop) { GstEvent *event; GstStructure *structure; g_return_val_if_fail (rate != 0.0, NULL); if (format == GST_FORMAT_TIME) { GST_CAT_INFO (GST_CAT_EVENT, "creating seek rate %lf, format TIME, flags %d, " "start_type %d, start %" GST_TIME_FORMAT ", " "stop_type %d, stop %" GST_TIME_FORMAT, rate, flags, start_type, GST_TIME_ARGS (start), stop_type, GST_TIME_ARGS (stop)); } else { GST_CAT_INFO (GST_CAT_EVENT, "creating seek rate %lf, format %s, flags %d, " "start_type %d, start %" G_GINT64_FORMAT ", " "stop_type %d, stop %" G_GINT64_FORMAT, rate, gst_format_get_name (format), flags, start_type, start, stop_type, stop); } structure = gst_structure_new_id (GST_QUARK (EVENT_SEEK), GST_QUARK (RATE), G_TYPE_DOUBLE, rate, GST_QUARK (FORMAT), GST_TYPE_FORMAT, format, GST_QUARK (FLAGS), GST_TYPE_SEEK_FLAGS, flags, GST_QUARK (CUR_TYPE), GST_TYPE_SEEK_TYPE, start_type, GST_QUARK (CUR), G_TYPE_INT64, start, GST_QUARK (STOP_TYPE), GST_TYPE_SEEK_TYPE, stop_type, GST_QUARK (STOP), G_TYPE_INT64, stop, NULL); event = gst_event_new_custom (GST_EVENT_SEEK, structure); return event; } /** * gst_event_parse_seek: * @event: a seek event * @rate: (out): result location for the rate * @format: (out): result location for the stream format * @flags: (out): result location for the #GstSeekFlags * @start_type: (out): result location for the #GstSeekType of the start position * @start: (out): result location for the start postion expressed in @format * @stop_type: (out): result location for the #GstSeekType of the stop position * @stop: (out): result location for the stop postion expressed in @format * * Parses a seek @event and stores the results in the given result locations. */ void gst_event_parse_seek (GstEvent * event, gdouble * rate, GstFormat * format, GstSeekFlags * flags, GstSeekType * start_type, gint64 * start, GstSeekType * stop_type, gint64 * stop) { const GstStructure *structure; g_return_if_fail (GST_IS_EVENT (event)); g_return_if_fail (GST_EVENT_TYPE (event) == GST_EVENT_SEEK); structure = GST_EVENT_STRUCTURE (event); if (rate) *rate = g_value_get_double (gst_structure_id_get_value (structure, GST_QUARK (RATE))); if (format) *format = (GstFormat) g_value_get_enum (gst_structure_id_get_value (structure, GST_QUARK (FORMAT))); if (flags) *flags = (GstSeekFlags) g_value_get_flags (gst_structure_id_get_value (structure, GST_QUARK (FLAGS))); if (start_type) *start_type = (GstSeekType) g_value_get_enum (gst_structure_id_get_value (structure, GST_QUARK (CUR_TYPE))); if (start) *start = g_value_get_int64 (gst_structure_id_get_value (structure, GST_QUARK (CUR))); if (stop_type) *stop_type = (GstSeekType) g_value_get_enum (gst_structure_id_get_value (structure, GST_QUARK (STOP_TYPE))); if (stop) *stop = g_value_get_int64 (gst_structure_id_get_value (structure, GST_QUARK (STOP))); } /** * gst_event_new_navigation: * @structure: (transfer full): description of the event. The event will take * ownership of the structure. * * Create a new navigation event from the given description. * * Returns: (transfer full): a new #GstEvent */ GstEvent * gst_event_new_navigation (GstStructure * structure) { g_return_val_if_fail (structure != NULL, NULL); return gst_event_new_custom (GST_EVENT_NAVIGATION, structure); } /** * gst_event_new_latency: * @latency: the new latency value * * Create a new latency event. The event is sent upstream from the sinks and * notifies elements that they should add an additional @latency to the * running time before synchronising against the clock. * * The latency is mostly used in live sinks and is always expressed in * the time format. * * Returns: (transfer full): a new #GstEvent */ GstEvent * gst_event_new_latency (GstClockTime latency) { GstEvent *event; GstStructure *structure; GST_CAT_INFO (GST_CAT_EVENT, "creating latency event %" GST_TIME_FORMAT, GST_TIME_ARGS (latency)); structure = gst_structure_new_id (GST_QUARK (EVENT_LATENCY), GST_QUARK (LATENCY), G_TYPE_UINT64, latency, NULL); event = gst_event_new_custom (GST_EVENT_LATENCY, structure); return event; } /** * gst_event_parse_latency: * @event: The event to query * @latency: (out): A pointer to store the latency in. * * Get the latency in the latency event. */ void gst_event_parse_latency (GstEvent * event, GstClockTime * latency) { g_return_if_fail (GST_IS_EVENT (event)); g_return_if_fail (GST_EVENT_TYPE (event) == GST_EVENT_LATENCY); if (latency) *latency = g_value_get_uint64 (gst_structure_id_get_value (GST_EVENT_STRUCTURE (event), GST_QUARK (LATENCY))); } /** * gst_event_new_step: * @format: the format of @amount * @amount: the amount of data to step * @rate: the step rate * @flush: flushing steps * @intermediate: intermediate steps * * Create a new step event. The purpose of the step event is to instruct a sink * to skip @amount (expressed in @format) of media. It can be used to implement * stepping through the video frame by frame or for doing fast trick modes. * * A rate of <= 0.0 is not allowed. Pause the pipeline, for the effect of rate * = 0.0 or first reverse the direction of playback using a seek event to get * the same effect as rate < 0.0. * * The @flush flag will clear any pending data in the pipeline before starting * the step operation. * * The @intermediate flag instructs the pipeline that this step operation is * part of a larger step operation. * * Returns: (transfer full): a new #GstEvent */ GstEvent * gst_event_new_step (GstFormat format, guint64 amount, gdouble rate, gboolean flush, gboolean intermediate) { GstEvent *event; GstStructure *structure; g_return_val_if_fail (rate > 0.0, NULL); GST_CAT_INFO (GST_CAT_EVENT, "creating step event"); structure = gst_structure_new_id (GST_QUARK (EVENT_STEP), GST_QUARK (FORMAT), GST_TYPE_FORMAT, format, GST_QUARK (AMOUNT), G_TYPE_UINT64, amount, GST_QUARK (RATE), G_TYPE_DOUBLE, rate, GST_QUARK (FLUSH), G_TYPE_BOOLEAN, flush, GST_QUARK (INTERMEDIATE), G_TYPE_BOOLEAN, intermediate, NULL); event = gst_event_new_custom (GST_EVENT_STEP, structure); return event; } /** * gst_event_parse_step: * @event: The event to query * @format: (out) (allow-none): a pointer to store the format in * @amount: (out) (allow-none): a pointer to store the amount in * @rate: (out) (allow-none): a pointer to store the rate in * @flush: (out) (allow-none): a pointer to store the flush boolean in * @intermediate: (out) (allow-none): a pointer to store the intermediate * boolean in * * Parse the step event. */ void gst_event_parse_step (GstEvent * event, GstFormat * format, guint64 * amount, gdouble * rate, gboolean * flush, gboolean * intermediate) { const GstStructure *structure; g_return_if_fail (GST_IS_EVENT (event)); g_return_if_fail (GST_EVENT_TYPE (event) == GST_EVENT_STEP); structure = GST_EVENT_STRUCTURE (event); if (format) *format = (GstFormat) g_value_get_enum (gst_structure_id_get_value (structure, GST_QUARK (FORMAT))); if (amount) *amount = g_value_get_uint64 (gst_structure_id_get_value (structure, GST_QUARK (AMOUNT))); if (rate) *rate = g_value_get_double (gst_structure_id_get_value (structure, GST_QUARK (RATE))); if (flush) *flush = g_value_get_boolean (gst_structure_id_get_value (structure, GST_QUARK (FLUSH))); if (intermediate) *intermediate = g_value_get_boolean (gst_structure_id_get_value (structure, GST_QUARK (INTERMEDIATE))); } /** * gst_event_new_reconfigure: * Create a new reconfigure event. The purpose of the reconfingure event is * to travel upstream and make elements renegotiate their caps or reconfigure * their buffer pools. This is useful when changing properties on elements * or changing the topology of the pipeline. * * Returns: (transfer full): a new #GstEvent */ GstEvent * gst_event_new_reconfigure (void) { GstEvent *event; GST_CAT_INFO (GST_CAT_EVENT, "creating reconfigure event"); event = gst_event_new_custom (GST_EVENT_RECONFIGURE, NULL); return event; } /** * gst_event_new_sink_message: * @name: a name for the event * @msg: (transfer none): the #GstMessage to be posted * * Create a new sink-message event. The purpose of the sink-message event is * to instruct a sink to post the message contained in the event synchronized * with the stream. * * @name is used to store multiple sticky events on one pad. * * Returns: (transfer full): a new #GstEvent */ /* FIXME 0.11: take ownership of msg for consistency? */ GstEvent * gst_event_new_sink_message (const gchar * name, GstMessage * msg) { GstEvent *event; GstStructure *structure; g_return_val_if_fail (msg != NULL, NULL); GST_CAT_INFO (GST_CAT_EVENT, "creating sink-message event"); structure = gst_structure_new_id (g_quark_from_string (name), GST_QUARK (MESSAGE), GST_TYPE_MESSAGE, msg, NULL); event = gst_event_new_custom (GST_EVENT_SINK_MESSAGE, structure); return event; } /** * gst_event_parse_sink_message: * @event: The event to query * @msg: (out) (transfer full): a pointer to store the #GstMessage in. * * Parse the sink-message event. Unref @msg after usage. */ void gst_event_parse_sink_message (GstEvent * event, GstMessage ** msg) { const GstStructure *structure; g_return_if_fail (GST_IS_EVENT (event)); g_return_if_fail (GST_EVENT_TYPE (event) == GST_EVENT_SINK_MESSAGE); structure = GST_EVENT_STRUCTURE (event); if (msg) *msg = GST_MESSAGE (g_value_dup_boxed (gst_structure_id_get_value (structure, GST_QUARK (MESSAGE)))); } /** * gst_event_new_stream_start: * * Create a new STREAM_START event. The stream start event can only * travel downstream synchronized with the buffer flow. It is expected * to be the first event that is sent for a new stream. * * Source elements, demuxers and other elements that create new streams * are supposed to send this event as the first event of a new stream. It * should not be send after a flushing seek or in similar situations * and is used to mark the beginning of a new logical stream. Elements * combining multiple streams must ensure that this event is only forwarded * downstream once and not for every single input stream. * * Returns: (transfer full): the new STREAM_START event. */ GstEvent * gst_event_new_stream_start (void) { return gst_event_new_custom (GST_EVENT_STREAM_START, NULL); } /** * gst_event_new_toc: * @toc: (transfer none): #GstToc structure. * @updated: whether @toc was updated or not. * * Generate a TOC event from the given @toc. The purpose of the TOC event is to * inform elements that some kind of the TOC was found. * * Returns: (transfer full): a new #GstEvent. */ GstEvent * gst_event_new_toc (GstToc * toc, gboolean updated) { GstStructure *toc_struct; g_return_val_if_fail (toc != NULL, NULL); GST_CAT_INFO (GST_CAT_EVENT, "creating toc event"); toc_struct = gst_structure_new_id (GST_QUARK (EVENT_TOC), GST_QUARK (TOC), GST_TYPE_TOC, toc, GST_QUARK (UPDATED), G_TYPE_BOOLEAN, updated, NULL); return gst_event_new_custom (GST_EVENT_TOC, toc_struct); } /** * gst_event_parse_toc: * @event: a TOC event. * @toc: (out) (transfer full): pointer to #GstToc structure. * @updated: (out): pointer to store TOC updated flag. * * Parse a TOC @event and store the results in the given @toc and @updated locations. */ void gst_event_parse_toc (GstEvent * event, GstToc ** toc, gboolean * updated) { const GstStructure *structure; g_return_if_fail (event != NULL); g_return_if_fail (GST_EVENT_TYPE (event) == GST_EVENT_TOC); g_return_if_fail (toc != NULL); structure = gst_event_get_structure (event); gst_structure_id_get (structure, GST_QUARK (TOC), GST_TYPE_TOC, toc, GST_QUARK (UPDATED), G_TYPE_BOOLEAN, updated, NULL); } /** * gst_event_new_toc_select: * @uid: UID in the TOC to start playback from. * * Generate a TOC select event with the given @uid. The purpose of the * TOC select event is to start playback based on the TOC's entry with the * given @uid. * * Returns: a new #GstEvent. */ GstEvent * gst_event_new_toc_select (const gchar * uid) { GstStructure *structure; g_return_val_if_fail (uid != NULL, NULL); GST_CAT_INFO (GST_CAT_EVENT, "creating toc select event for UID: %s", uid); structure = gst_structure_new_id (GST_QUARK (EVENT_TOC_SELECT), GST_QUARK (UID), G_TYPE_STRING, uid, NULL); return gst_event_new_custom (GST_EVENT_TOC_SELECT, structure); } /** * gst_event_parse_toc_select: * @event: a TOC select event. * @uid: (out): storage for the selection UID. * * Parse a TOC select @event and store the results in the given @uid location. */ void gst_event_parse_toc_select (GstEvent * event, gchar ** uid) { const GstStructure *structure; const GValue *val; g_return_if_fail (event != NULL); g_return_if_fail (GST_EVENT_TYPE (event) == GST_EVENT_TOC_SELECT); structure = gst_event_get_structure (event); val = gst_structure_id_get_value (structure, GST_QUARK (UID)); if (uid != NULL) *uid = g_strdup (g_value_get_string (val)); } /** * gst_event_new_segment_done: * @format: The format of the position being done * @position: The position of the segment being done * * Create a new segment-done event. This event is sent by elements that * finish playback of a segment as a result of a segment seek. * * Returns: (transfer full): a new #GstEvent */ GstEvent * gst_event_new_segment_done (GstFormat format, gint64 position) { GstEvent *event; GstStructure *structure; GST_CAT_INFO (GST_CAT_EVENT, "creating segment-done event"); structure = gst_structure_new_id (GST_QUARK (EVENT_SEGMENT_DONE), GST_QUARK (FORMAT), GST_TYPE_FORMAT, format, GST_QUARK (POSITION), G_TYPE_INT64, position, NULL); event = gst_event_new_custom (GST_EVENT_SEGMENT_DONE, structure); return event; } /** * gst_event_parse_segment_done: * @event: A valid #GstEvent of type GST_EVENT_SEGMENT_DONE. * @format: (out): Result location for the format, or NULL * @position: (out): Result location for the position, or NULL * * Extracts the position and format from the segment done message. * */ void gst_event_parse_segment_done (GstEvent * event, GstFormat * format, gint64 * position) { const GstStructure *structure; const GValue *val; g_return_if_fail (event != NULL); g_return_if_fail (GST_EVENT_TYPE (event) == GST_EVENT_SEGMENT_DONE); structure = gst_event_get_structure (event); val = gst_structure_id_get_value (structure, GST_QUARK (FORMAT)); if (format != NULL) *format = g_value_get_enum (val); val = gst_structure_id_get_value (structure, GST_QUARK (POSITION)); if (position != NULL) *position = g_value_get_int64 (val); }