gstreamer/gst/gstmessage.h
Ali Sabil 136cfb3bed Convert unref/copy functions of GstMiniObject subclasses to static inline functions
unref and copy functions are sometimes used as function
pointers for example in the case of g_hash_table_new_full
as a GDestroyNotify function.

Currently GstBuffer, GstEvent, GstMessage and GstQuery
define their respective unref and copy functions as
macros, making use of gst_mini_object_unref/copy.
This approach works very well for most cases, except
for some automatically generated bindings (currently Vala),
where the memory management semantics are defined
declaratively.

The possible solutions would be to either convert all
the macros into static inline function, or change the
signature of gst_mini_object_unref to take a void*
instead of a GstMiniObject*.

Fixes bug #572480.
2009-02-22 18:51:08 +01:00

418 lines
16 KiB
C

/* GStreamer
* Copyright (C) 2004 Wim Taymans <wim@fluendo.com>
*
* gstmessage.h: Header for GstMessage 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.
*/
#ifndef __GST_MESSAGE_H__
#define __GST_MESSAGE_H__
G_BEGIN_DECLS
typedef struct _GstMessage GstMessage;
typedef struct _GstMessageClass GstMessageClass;
/**
* GstMessageType:
* @GST_MESSAGE_UNKNOWN: an undefined message
* @GST_MESSAGE_EOS: end-of-stream reached in a pipeline. The application will
* only receive this message in the PLAYING state and every time it sets a
* pipeline to PLAYING that is in the EOS state. The application can perform a
* flushing seek in the pipeline, which will undo the EOS state again.
* @GST_MESSAGE_ERROR: an error occured. Whe the application receives an error
* message it should stop playback of the pipeline and not assume that more
* data will be played.
* @GST_MESSAGE_WARNING: a warning occured.
* @GST_MESSAGE_INFO: an info message occured
* @GST_MESSAGE_TAG: a tag was found.
* @GST_MESSAGE_BUFFERING: the pipeline is buffering. When the application
* receives a buffering message in the PLAYING state for a non-live pipeline it
* must PAUSE the pipeline until the buffering completes, when the percentage
* field in the message is 100%. For live pipelines, no action must be
* performed and the buffering percentage can be used to inform the user about
* the progress.
* @GST_MESSAGE_STATE_CHANGED: a state change happened
* @GST_MESSAGE_STATE_DIRTY: an element changed state in a streaming thread.
* This message is deprecated.
* @GST_MESSAGE_STEP_DONE: a framestep finished. This message is not yet
* implemented.
* @GST_MESSAGE_CLOCK_PROVIDE: an element notifies its capability of providing
* a clock. This message is used internally and
* never forwarded to the application.
* @GST_MESSAGE_CLOCK_LOST: The current clock as selected by the pipeline became
* unusable. The pipeline will select a new clock on
* the next PLAYING state change.
* @GST_MESSAGE_NEW_CLOCK: a new clock was selected in the pipeline.
* @GST_MESSAGE_STRUCTURE_CHANGE: the structure of the pipeline changed. This
* message is used internally and never forwarded to the application.
* @GST_MESSAGE_STREAM_STATUS: status about a stream, emitted when it starts,
* stops, errors, etc.. Not implemented yet.
* @GST_MESSAGE_APPLICATION: message posted by the application, possibly
* via an application-specific element.
* @GST_MESSAGE_ELEMENT: element-specific message, see the specific element's
* documentation
* @GST_MESSAGE_SEGMENT_START: pipeline started playback of a segment. This
* message is used internally and never forwarded to the application.
* @GST_MESSAGE_SEGMENT_DONE: pipeline completed playback of a segment. This
* message is forwarded to the application after all elements that posted
* @GST_MESSAGE_SEGMENT_START posted a GST_MESSAGE_SEGMENT_DONE message.
* @GST_MESSAGE_DURATION: The duration of a pipeline changed. The application
* can get the new duration with a duration query.
* @GST_MESSAGE_ASYNC_START: Posted by elements when they start an ASYNC state
* change. This message is not forwarded to the application but is used
* internally. Since: 0.10.13.
* @GST_MESSAGE_ASYNC_DONE: Posted by elements when they complete an ASYNC state
* change. The application will only receive this message from the toplevel
* pipeline. Since: 0.10.13
* @GST_MESSAGE_LATENCY: Posted by elements when their latency changes. The
* pipeline will calculate and distribute a new latency. Since: 0.10.12
* @GST_MESSAGE_REQUEST_STATE: Posted by elements when they want the pipeline to
* change state. This message is a suggestion to the application which can
* decide to perform the state change on (part of) the pipeline. Since: 0.10.23.
* @GST_MESSAGE_ANY: mask for all of the above messages.
*
* The different message types that are available.
*/
/* NOTE: keep in sync with quark registration in gstmessage.c
* NOTE: keep GST_MESSAGE_ANY a valid gint to avoid compiler warnings.
*/
typedef enum
{
GST_MESSAGE_UNKNOWN = 0,
GST_MESSAGE_EOS = (1 << 0),
GST_MESSAGE_ERROR = (1 << 1),
GST_MESSAGE_WARNING = (1 << 2),
GST_MESSAGE_INFO = (1 << 3),
GST_MESSAGE_TAG = (1 << 4),
GST_MESSAGE_BUFFERING = (1 << 5),
GST_MESSAGE_STATE_CHANGED = (1 << 6),
GST_MESSAGE_STATE_DIRTY = (1 << 7),
GST_MESSAGE_STEP_DONE = (1 << 8),
GST_MESSAGE_CLOCK_PROVIDE = (1 << 9),
GST_MESSAGE_CLOCK_LOST = (1 << 10),
GST_MESSAGE_NEW_CLOCK = (1 << 11),
GST_MESSAGE_STRUCTURE_CHANGE = (1 << 12),
GST_MESSAGE_STREAM_STATUS = (1 << 13),
GST_MESSAGE_APPLICATION = (1 << 14),
GST_MESSAGE_ELEMENT = (1 << 15),
GST_MESSAGE_SEGMENT_START = (1 << 16),
GST_MESSAGE_SEGMENT_DONE = (1 << 17),
GST_MESSAGE_DURATION = (1 << 18),
GST_MESSAGE_LATENCY = (1 << 19),
GST_MESSAGE_ASYNC_START = (1 << 20),
GST_MESSAGE_ASYNC_DONE = (1 << 21),
GST_MESSAGE_REQUEST_STATE = (1 << 22),
GST_MESSAGE_ANY = ~0
} GstMessageType;
#include <gst/gstminiobject.h>
#include <gst/gstobject.h>
#include <gst/gstelement.h>
#include <gst/gsttaglist.h>
#include <gst/gststructure.h>
/**
* GST_MESSAGE_TRACE_NAME:
*
* The name used for memory allocation tracing
*/
#define GST_MESSAGE_TRACE_NAME "GstMessage"
#define GST_TYPE_MESSAGE (gst_message_get_type())
#define GST_IS_MESSAGE(obj) (G_TYPE_CHECK_INSTANCE_TYPE ((obj), GST_TYPE_MESSAGE))
#define GST_IS_MESSAGE_CLASS(klass) (G_TYPE_CHECK_CLASS_TYPE ((klass), GST_TYPE_MESSAGE))
#define GST_MESSAGE_GET_CLASS(obj) (G_TYPE_INSTANCE_GET_CLASS ((obj), GST_TYPE_MESSAGE, GstMessageClass))
#define GST_MESSAGE(obj) (G_TYPE_CHECK_INSTANCE_CAST ((obj), GST_TYPE_MESSAGE, GstMessage))
#define GST_MESSAGE_CLASS(klass) (G_TYPE_CHECK_CLASS_CAST ((klass), GST_TYPE_MESSAGE, GstMessageClass))
#define GST_MESSAGE_CAST(obj) ((GstMessage*)(obj))
/* the lock is used to handle the synchronous handling of messages,
* the emiting thread is block until the handling thread processed
* the message using this mutex/cond pair */
#define GST_MESSAGE_GET_LOCK(message) (GST_MESSAGE(message)->lock)
#define GST_MESSAGE_LOCK(message) g_mutex_lock(GST_MESSAGE_GET_LOCK(message))
#define GST_MESSAGE_UNLOCK(message) g_mutex_unlock(GST_MESSAGE_GET_LOCK(message))
#define GST_MESSAGE_COND(message) (GST_MESSAGE(message)->cond)
#define GST_MESSAGE_WAIT(message) g_cond_wait(GST_MESSAGE_COND(message),GST_MESSAGE_GET_LOCK(message))
#define GST_MESSAGE_SIGNAL(message) g_cond_signal(GST_MESSAGE_COND(message))
/**
* GST_MESSAGE_TYPE:
* @message: a #GstMessage
*
* Get the #GstMessageType of @message.
*/
#define GST_MESSAGE_TYPE(message) (GST_MESSAGE(message)->type)
/**
* GST_MESSAGE_TYPE_NAME:
* @message: a #GstMessage
*
* Get a constant string representation of the #GstMessageType of @message.
*
* Since: 0.10.4
*/
#define GST_MESSAGE_TYPE_NAME(message) gst_message_type_get_name(GST_MESSAGE_TYPE(message))
/**
* GST_MESSAGE_TIMESTAMP:
* @message: a #GstMessage
*
* Get the timestamp of @message. This is the timestamp when the message
* was created.
*/
#define GST_MESSAGE_TIMESTAMP(message) (GST_MESSAGE(message)->timestamp)
/**
* GST_MESSAGE_SRC:
* @message: a #GstMessage
*
* Get the object that posted @message.
*/
#define GST_MESSAGE_SRC(message) (GST_MESSAGE(message)->src)
/**
* GstStructureChangeType:
* @GST_STRUCTURE_CHANGE_TYPE_PAD_LINK: Pad linking is starting or done.
* @GST_STRUCTURE_CHANGE_TYPE_PAD_UNLINK: Pad unlinking is starting or done.
*
* The type of a #GstMessageStructureChange.
*
* Since: 0.10.22
*/
typedef enum {
GST_STRUCTURE_CHANGE_TYPE_PAD_LINK = 0,
GST_STRUCTURE_CHANGE_TYPE_PAD_UNLINK = 1
} GstStructureChangeType;
/**
* GstMessage:
* @mini_object: the parent structure
* @type: the #GstMessageType of the message
* @timestamp: the timestamp of the message
* @src: the src of the message
* @structure: the #GstStructure containing the message info.
*
* A #GstMessage.
*/
struct _GstMessage
{
GstMiniObject mini_object;
/*< private > *//* with MESSAGE_LOCK */
GMutex *lock; /* lock and cond for async delivery */
GCond *cond;
/*< public > *//* with COW */
GstMessageType type;
guint64 timestamp;
GstObject *src;
GstStructure *structure;
/*< private > */
union {
struct {
guint32 seqnum;
} ABI;
/* + 0 to mark ABI change for future greppage */
gpointer _gst_reserved[GST_PADDING + 0];
} abidata;
};
struct _GstMessageClass {
GstMiniObjectClass mini_object_class;
/*< private > */
gpointer _gst_reserved[GST_PADDING];
};
GType gst_message_get_type (void);
const gchar* gst_message_type_get_name (GstMessageType type);
GQuark gst_message_type_to_quark (GstMessageType type);
/* refcounting */
/**
* gst_message_ref:
* @msg: the message to ref
*
* Convenience macro to increase the reference count of the message.
*
* Returns: @msg (for convenience when doing assignments)
*/
#ifdef _FOOL_GTK_DOC_
G_INLINE_FUNC GstMessage * gst_message_ref (GstMessage * msg);
#endif
static inline GstMessage *
gst_message_ref (GstMessage * msg)
{
return (GstMessage *) gst_mini_object_ref (GST_MINI_OBJECT (msg));
}
/**
* gst_message_unref:
* @msg: the message to unref
*
* Convenience macro to decrease the reference count of the message, possibly
* freeing it.
*/
#ifdef _FOOL_GTK_DOC_
G_INLINE_FUNC void gst_message_unref (GstMessage * msg);
#endif
static inline void
gst_message_unref (GstMessage * msg)
{
gst_mini_object_unref (GST_MINI_OBJECT_CAST (msg));
}
/* copy message */
/**
* gst_message_copy:
* @msg: the message to copy
*
* Creates a copy of the message. Returns a copy of the message.
*
* MT safe
*/
#ifdef _FOOL_GTK_DOC_
G_INLINE_FUNC GstMessage * gst_message_copy (const GstMessage * msg);
#endif
static inline GstMessage *
gst_message_copy (const GstMessage * msg)
{
return GST_MESSAGE (gst_mini_object_copy (GST_MINI_OBJECT_CAST (msg)));
}
/**
* gst_message_make_writable:
* @msg: the message to make writable
*
* Checks if a message is writable. If not, a writable copy is made and
* returned. Returns a message (possibly a duplicate) that is writable.
*
* MT safe
*/
#define gst_message_make_writable(msg) GST_MESSAGE (gst_mini_object_make_writable (GST_MINI_OBJECT (msg)))
/* identifiers for events and messages */
guint32 gst_message_get_seqnum (GstMessage *message);
void gst_message_set_seqnum (GstMessage *message, guint32 seqnum);
/* EOS */
GstMessage * gst_message_new_eos (GstObject * src);
/* ERROR */
GstMessage * gst_message_new_error (GstObject * src, GError * error, const gchar * debug);
void gst_message_parse_error (GstMessage *message, GError **gerror, gchar **debug);
/* WARNING */
GstMessage * gst_message_new_warning (GstObject * src, GError * error, const gchar * debug);
void gst_message_parse_warning (GstMessage *message, GError **gerror, gchar **debug);
/* INFO */
GstMessage * gst_message_new_info (GstObject * src, GError * error, const gchar * debug);
void gst_message_parse_info (GstMessage *message, GError **gerror, gchar **debug);
/* TAG */
GstMessage * gst_message_new_tag (GstObject * src, GstTagList * tag_list);
void gst_message_parse_tag (GstMessage *message, GstTagList **tag_list);
/* BUFFERING */
GstMessage * gst_message_new_buffering (GstObject * src, gint percent);
void gst_message_parse_buffering (GstMessage *message, gint *percent);
void gst_message_set_buffering_stats (GstMessage *message, GstBufferingMode mode,
gint avg_in, gint avg_out,
gint64 buffering_left);
void gst_message_parse_buffering_stats (GstMessage *message, GstBufferingMode *mode,
gint *avg_in, gint *avg_out,
gint64 *buffering_left);
/* STATE_CHANGED */
GstMessage * gst_message_new_state_changed (GstObject * src, GstState oldstate,
GstState newstate, GstState pending);
void gst_message_parse_state_changed (GstMessage *message, GstState *oldstate,
GstState *newstate, GstState *pending);
/* STATE_DIRTY */
GstMessage * gst_message_new_state_dirty (GstObject * src);
/* CLOCK_PROVIDE */
GstMessage * gst_message_new_clock_provide (GstObject * src, GstClock *clock, gboolean ready);
void gst_message_parse_clock_provide (GstMessage *message, GstClock **clock,
gboolean *ready);
/* CLOCK_LOST */
GstMessage * gst_message_new_clock_lost (GstObject * src, GstClock *clock);
void gst_message_parse_clock_lost (GstMessage *message, GstClock **clock);
/* NEW_CLOCK */
GstMessage * gst_message_new_new_clock (GstObject * src, GstClock *clock);
void gst_message_parse_new_clock (GstMessage *message, GstClock **clock);
/* APPLICATION */
GstMessage * gst_message_new_application (GstObject * src, GstStructure * structure);
/* ELEMENT */
GstMessage * gst_message_new_element (GstObject * src, GstStructure * structure);
/* SEGMENT_START */
GstMessage * gst_message_new_segment_start (GstObject * src, GstFormat format, gint64 position);
void gst_message_parse_segment_start (GstMessage *message, GstFormat *format,
gint64 *position);
/* SEGMENT_DONE */
GstMessage * gst_message_new_segment_done (GstObject * src, GstFormat format, gint64 position);
void gst_message_parse_segment_done (GstMessage *message, GstFormat *format,
gint64 *position);
/* DURATION */
GstMessage * gst_message_new_duration (GstObject * src, GstFormat format, gint64 duration);
void gst_message_parse_duration (GstMessage *message, GstFormat *format,
gint64 *duration);
/* LATENCY */
GstMessage * gst_message_new_latency (GstObject * src);
/* ASYNC_START */
GstMessage * gst_message_new_async_start (GstObject * src, gboolean new_base_time);
void gst_message_parse_async_start (GstMessage *message, gboolean *new_base_time);
/* ASYNC_DONE */
GstMessage * gst_message_new_async_done (GstObject * src);
/* STRUCTURE CHANGE */
GstMessage * gst_message_new_structure_change (GstObject * src, GstStructureChangeType type,
GstElement *owner, gboolean busy);
void gst_message_parse_structure_change (GstMessage *message, GstStructureChangeType *type,
GstElement **owner, gboolean *busy);
/* REQUEST_STATE */
GstMessage * gst_message_new_request_state (GstObject * src, GstState state);
void gst_message_parse_request_state (GstMessage * message, GstState *state);
/* custom messages */
GstMessage * gst_message_new_custom (GstMessageType type,
GstObject * src,
GstStructure * structure);
const GstStructure * gst_message_get_structure (GstMessage *message);
G_END_DECLS
#endif /* __GST_MESSAGE_H__ */