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# Basic tutorial 9: Media information gathering
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{{ ALERT_PY.md }}
{{ ALERT_JS.md }}
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## Goal
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Sometimes you might want to quickly find out what kind of media a file
(or URI) contains, or if you will be able to play the media at all. You
can build a pipeline, set it to run, and watch the bus messages, but
GStreamer has a utility that does just that for you. This tutorial
shows:
- How to recover information regarding a URI
- How to find out if a URI is playable
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## Introduction
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`GstDiscoverer` is a utility object found in the `pbutils` library
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(Plug-in Base utilities) that accepts a URI or list of URIs, and returns
information about them. It can work in synchronous or asynchronous
modes.
In synchronous mode, there is only a single function to call,
`gst_discoverer_discover_uri()` , which blocks until the information is
ready. Due to this blocking, it is usually less interesting for
GUI-based applications and the asynchronous mode is used, as described
in this tutorial.
The recovered information includes codec descriptions, stream topology
(number of streams and sub-streams) and available metadata (like the
audio language).
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As an example, this is the result
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of discovering https://gstreamer.freedesktop.org/data/media/sintel\_trailer-480p.webm
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Duration: 0:00:52.250000000
Tags:
video codec: On2 VP8
language code: en
container format: Matroska
application name: ffmpeg2theora-0.24
encoder: Xiph.Org libVorbis I 20090709
encoder version: 0
audio codec: Vorbis
nominal bitrate: 80000
bitrate: 80000
Seekable: yes
Stream information:
container: WebM
audio: Vorbis
Tags:
language code: en
container format: Matroska
audio codec: Vorbis
application name: ffmpeg2theora-0.24
encoder: Xiph.Org libVorbis I 20090709
encoder version: 0
nominal bitrate: 80000
bitrate: 80000
video: VP8
Tags:
video codec: VP8 video
container format: Matroska
The following code tries to discover the URI provided through the
command line, and outputs the retrieved information (If no URI is
provided it uses a default one).
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This is a simplified version of what the `gst-discoverer-1.0` tool does
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([](tutorials/basic/gstreamer-tools.md)), which is
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an application that only displays data, but does not perform any
playback.
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## The GStreamer Discoverer
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Copy this code into a text file named `basic-tutorial-9.c` (or find it
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in your GStreamer installation).
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**basic-tutorial-9.c**
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``` c
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#include <string.h>
#include <gst/gst.h>
#include <gst/pbutils/pbutils.h>
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/* Structure to contain all our information, so we can pass it around */
typedef struct _CustomData {
GstDiscoverer *discoverer;
GMainLoop *loop;
} CustomData;
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/* Print a tag in a human-readable format (name: value) */
static void print_tag_foreach (const GstTagList *tags, const gchar *tag, gpointer user_data) {
GValue val = { 0, };
gchar *str;
gint depth = GPOINTER_TO_INT (user_data);
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gst_tag_list_copy_value (& val, tags, tag);
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if (G_VALUE_HOLDS_STRING (& val))
str = g_value_dup_string (&val);
else
str = gst_value_serialize (&val);
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g_print ("%*s%s: %s\n", 2 * depth, " ", gst_tag_get_nick (tag), str);
g_free (str);
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g_value_unset (&val);
}
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/* Print information regarding a stream */
static void print_stream_info (GstDiscovererStreamInfo *info, gint depth) {
gchar *desc = NULL;
GstCaps *caps;
const GstTagList *tags;
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caps = gst_discoverer_stream_info_get_caps (info);
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if (caps) {
if (gst_caps_is_fixed (caps))
desc = gst_pb_utils_get_codec_description (caps);
else
desc = gst_caps_to_string (caps);
gst_caps_unref (caps);
}
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g_print ("%*s%s: %s\n", 2 * depth, " ", gst_discoverer_stream_info_get_stream_type_nick (info), (desc ? desc : ""));
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if (desc) {
g_free (desc);
desc = NULL;
}
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tags = gst_discoverer_stream_info_get_tags (info);
if (tags) {
g_print ("%*sTags:\n", 2 * (depth + 1), " ");
gst_tag_list_foreach (tags, print_tag_foreach, GINT_TO_POINTER (depth + 2));
}
}
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/* Print information regarding a stream and its substreams, if any */
static void print_topology (GstDiscovererStreamInfo *info, gint depth) {
GstDiscovererStreamInfo *next;
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if (!info)
return;
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print_stream_info (info, depth);
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next = gst_discoverer_stream_info_get_next (info);
if (next) {
print_topology (next, depth + 1);
gst_discoverer_stream_info_unref (next);
} else if (GST_IS_DISCOVERER_CONTAINER_INFO (info)) {
GList *tmp, *streams;
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streams = gst_discoverer_container_info_get_streams (GST_DISCOVERER_CONTAINER_INFO (info));
for (tmp = streams; tmp; tmp = tmp->next) {
GstDiscovererStreamInfo *tmpinf = (GstDiscovererStreamInfo * ) tmp->data;
print_topology (tmpinf, depth + 1);
}
gst_discoverer_stream_info_list_free (streams);
}
}
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/* This function is called every time the discoverer has information regarding
* one of the URIs we provided.*/
static void on_discovered_cb (GstDiscoverer *discoverer, GstDiscovererInfo *info, GError *err, CustomData *data) {
GstDiscovererResult result;
const gchar *uri;
const GstTagList *tags;
GstDiscovererStreamInfo *sinfo;
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uri = gst_discoverer_info_get_uri (info);
result = gst_discoverer_info_get_result (info);
switch (result) {
case GST_DISCOVERER_URI_INVALID:
g_print ("Invalid URI '%s'\n", uri);
break;
case GST_DISCOVERER_ERROR:
g_print ("Discoverer error: %s\n", err->message);
break;
case GST_DISCOVERER_TIMEOUT:
g_print ("Timeout\n");
break;
case GST_DISCOVERER_BUSY:
g_print ("Busy\n");
break;
case GST_DISCOVERER_MISSING_PLUGINS:{
const GstStructure *s;
gchar *str;
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s = gst_discoverer_info_get_misc (info);
str = gst_structure_to_string (s);
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g_print ("Missing plugins: %s\n", str);
g_free (str);
break;
}
case GST_DISCOVERER_OK:
g_print ("Discovered '%s'\n", uri);
break;
}
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if (result != GST_DISCOVERER_OK) {
g_printerr ("This URI cannot be played\n");
return;
}
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/* If we got no error, show the retrieved information */
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g_print ("\nDuration: %" GST_TIME_FORMAT "\n", GST_TIME_ARGS (gst_discoverer_info_get_duration (info)));
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tags = gst_discoverer_info_get_tags (info);
if (tags) {
g_print ("Tags:\n");
gst_tag_list_foreach (tags, print_tag_foreach, GINT_TO_POINTER (1));
}
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g_print ("Seekable: %s\n", (gst_discoverer_info_get_seekable (info) ? "yes" : "no"));
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g_print ("\n");
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sinfo = gst_discoverer_info_get_stream_info (info);
if (!sinfo)
return;
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g_print ("Stream information:\n");
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print_topology (sinfo, 1);
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gst_discoverer_stream_info_unref (sinfo);
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g_print ("\n");
}
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/* This function is called when the discoverer has finished examining
* all the URIs we provided.*/
static void on_finished_cb (GstDiscoverer *discoverer, CustomData *data) {
g_print ("Finished discovering\n");
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g_main_loop_quit (data->loop);
}
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int main (int argc, char **argv) {
CustomData data;
GError *err = NULL;
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gchar *uri = "https://gstreamer.freedesktop.org/data/media/sintel_trailer-480p.webm";
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/* if a URI was provided, use it instead of the default one */
if (argc > 1) {
uri = argv[1];
}
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/* Initialize custom data structure */
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memset (& data, 0, sizeof (data));
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/* Initialize GStreamer */
gst_init (& argc, &argv);
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g_print ("Discovering '%s'\n", uri);
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/* Instantiate the Discoverer */
data.discoverer = gst_discoverer_new (5 * GST_SECOND, &err);
if (!data.discoverer) {
g_print ("Error creating discoverer instance: %s\n", err->message);
g_clear_error (&err);
return -1;
}
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/* Connect to the interesting signals */
g_signal_connect (data.discoverer, "discovered", G_CALLBACK (on_discovered_cb), &data);
g_signal_connect (data.discoverer, "finished", G_CALLBACK (on_finished_cb), &data);
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/* Start the discoverer process (nothing to do yet) */
gst_discoverer_start (data.discoverer);
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/* Add a request to process asynchronously the URI passed through the command line */
if (!gst_discoverer_discover_uri_async (data.discoverer, uri)) {
g_print ("Failed to start discovering URI '%s'\n", uri);
g_object_unref (data.discoverer);
return -1;
}
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/* Create a GLib Main Loop and set it to run, so we can wait for the signals */
data.loop = g_main_loop_new (NULL, FALSE);
g_main_loop_run (data.loop);
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/* Stop the discoverer process */
gst_discoverer_stop (data.discoverer);
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/* Free resources */
g_object_unref (data.discoverer);
g_main_loop_unref (data.loop);
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return 0;
}
```
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> ![Information](images/icons/emoticons/information.svg)
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> Need help?
>
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> If you need help to compile this code, refer to the **Building the tutorials** section for your platform: [Linux](installing/on-linux.md#InstallingonLinux-Build), [Mac OS X](installing/on-mac-osx.md#InstallingonMacOSX-Build) or [Windows](installing/on-windows.md#InstallingonWindows-Build), or use this specific command on Linux:
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>
> ``gcc basic-tutorial-9.c -o basic-tutorial-9 `pkg-config --cflags --libs gstreamer-1.0 gstreamer-pbutils-1.0` ``
>
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>If you need help to run this code, refer to the **Running the tutorials** section for your platform: [Linux ](installing/on-linux.md#InstallingonLinux-Run ), [Mac OS X ](installing/on-mac-osx.md#InstallingonMacOSX-Run ) or [Windows ](installing/on-windows.md#InstallingonWindows-Run ).
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>
> This tutorial opens the URI passed as the first parameter in the command line (or a default URI if none is provided) and outputs information about it on the screen. If the media is located on the Internet, the application might take a bit to react depending on your connection speed.
>
> Required libraries: `gstreamer-pbutils-1.0` `gstreamer-1.0`
## Walkthrough
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These are the main steps to use the `GstDiscoverer` :
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``` c
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/* Instantiate the Discoverer */
data.discoverer = gst_discoverer_new (5 * GST_SECOND, &err);
if (!data.discoverer) {
g_print ("Error creating discoverer instance: %s\n", err->message);
g_clear_error (&err);
return -1;
}
```
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`gst_discoverer_new()` creates a new Discoverer object. The first
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parameter is the timeout per file, in nanoseconds (use the
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`GST_SECOND` macro for simplicity).
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``` c
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/* Connect to the interesting signals */
g_signal_connect (data.discoverer, "discovered", G_CALLBACK (on_discovered_cb), &data);
g_signal_connect (data.discoverer, "finished", G_CALLBACK (on_finished_cb), &data);
```
Connect to the interesting signals, as usual. We discuss them in the
snippet for their callbacks.
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``` c
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/* Start the discoverer process (nothing to do yet) */
gst_discoverer_start (data.discoverer);
```
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`gst_discoverer_start()` launches the discovering process, but we have
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not provided any URI to discover yet. This is done
next:
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``` c
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/* Add a request to process asynchronously the URI passed through the command line */
if (!gst_discoverer_discover_uri_async (data.discoverer, uri)) {
g_print ("Failed to start discovering URI '%s'\n", uri);
g_object_unref (data.discoverer);
return -1;
}
```
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`gst_discoverer_discover_uri_async()` enqueues the provided URI for
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discovery. Multiple URIs can be enqueued with this function. As the
discovery process for each of them finishes, the registered callback
functions will be fired
up.
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``` c
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/* Create a GLib Main Loop and set it to run, so we can wait for the signals */
data.loop = g_main_loop_new (NULL, FALSE);
g_main_loop_run (data.loop);
```
The usual GLib main loop is instantiated and executed. We will get out
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of it when `g_main_loop_quit()` is called from the
`on_finished_cb` callback.
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``` c
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/* Stop the discoverer process */
gst_discoverer_stop (data.discoverer);
```
Once we are done with the discoverer, we stop it with
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`gst_discoverer_stop()` and unref it with `g_object_unref()` .
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Let's review now the callbacks we have
registered:
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``` c
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/* This function is called every time the discoverer has information regarding
* one of the URIs we provided.*/
static void on_discovered_cb (GstDiscoverer *discoverer, GstDiscovererInfo *info, GError *err, CustomData *data) {
GstDiscovererResult result;
const gchar *uri;
const GstTagList *tags;
GstDiscovererStreamInfo *sinfo;
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uri = gst_discoverer_info_get_uri (info);
result = gst_discoverer_info_get_result (info);
```
We got here because the Discoverer has finished working on one URI, and
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provides us a `GstDiscovererInfo` structure with all the information.
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The first step is to retrieve the particular URI this call refers to (in
case we had multiple discover process running, which is not the case in
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this example) with `gst_discoverer_info_get_uri()` and the discovery
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result with `gst_discoverer_info_get_result()` .
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``` c
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switch (result) {
case GST_DISCOVERER_URI_INVALID:
g_print ("Invalid URI '%s'\n", uri);
break;
case GST_DISCOVERER_ERROR:
g_print ("Discoverer error: %s\n", err->message);
break;
case GST_DISCOVERER_TIMEOUT:
g_print ("Timeout\n");
break;
case GST_DISCOVERER_BUSY:
g_print ("Busy\n");
break;
case GST_DISCOVERER_MISSING_PLUGINS:{
const GstStructure *s;
gchar *str;
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s = gst_discoverer_info_get_misc (info);
str = gst_structure_to_string (s);
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g_print ("Missing plugins: %s\n", str);
g_free (str);
break;
}
case GST_DISCOVERER_OK:
g_print ("Discovered '%s'\n", uri);
break;
}
if (result != GST_DISCOVERER_OK) {
g_printerr ("This URI cannot be played\n");
return;
}
```
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As the code shows, any result other than `GST_DISCOVERER_OK` means that
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there has been some kind of problem, and this URI cannot be played. The
reasons can vary, but the enum values are quite explicit
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(`GST_DISCOVERER_BUSY` can only happen when in synchronous mode, which
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is not used in this example).
If no error happened, information can be retrieved from the
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`GstDiscovererInfo` structure with the different
`gst_discoverer_info_get_*` methods (like,
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`gst_discoverer_info_get_duration()` , for example).
Bits of information which are made of lists, like tags and stream info,
needs some extra parsing:
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``` c
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tags = gst_discoverer_info_get_tags (info);
if (tags) {
g_print ("Tags:\n");
gst_tag_list_foreach (tags, print_tag_foreach, GINT_TO_POINTER (1));
}
```
Tags are metadata (labels) attached to the media. They can be examined
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with `gst_tag_list_foreach()` , which will call `print_tag_foreach` for
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each tag found (the list could also be traversed manually, for example,
or a specific tag could be searched for with
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`gst_tag_list_get_string()` ). The code for `print_tag_foreach` is pretty
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much self-explanatory.
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``` c
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sinfo = gst_discoverer_info_get_stream_info (info);
if (!sinfo)
return;
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g_print ("Stream information:\n");
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print_topology (sinfo, 1);
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gst_discoverer_stream_info_unref (sinfo);
```
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`gst_discoverer_info_get_stream_info()` returns
a `GstDiscovererStreamInfo` structure that is parsed in
the `print_topology` function, and then discarded
with `gst_discoverer_stream_info_unref()` .
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``` c
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/* Print information regarding a stream and its substreams, if any */
static void print_topology (GstDiscovererStreamInfo *info, gint depth) {
GstDiscovererStreamInfo *next;
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if (!info)
return;
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print_stream_info (info, depth);
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next = gst_discoverer_stream_info_get_next (info);
if (next) {
print_topology (next, depth + 1);
gst_discoverer_stream_info_unref (next);
} else if (GST_IS_DISCOVERER_CONTAINER_INFO (info)) {
GList *tmp, *streams;
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streams = gst_discoverer_container_info_get_streams (GST_DISCOVERER_CONTAINER_INFO (info));
for (tmp = streams; tmp; tmp = tmp->next) {
GstDiscovererStreamInfo *tmpinf = (GstDiscovererStreamInfo * ) tmp->data;
print_topology (tmpinf, depth + 1);
}
gst_discoverer_stream_info_list_free (streams);
}
}
```
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The `print_stream_info` function's code is also pretty much
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self-explanatory: it prints the stream's capabilities and then the
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associated caps, using `print_tag_foreach` too.
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Then, `print_topology` looks for the next element to display. If
`gst_discoverer_stream_info_get_next()` returns a non-NULL stream info,
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it refers to our descendant and that should be displayed. Otherwise, if
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we are a container, recursively call `print_topology` on each of our
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children obtained with `gst_discoverer_container_info_get_streams()` .
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Otherwise, we are a final stream, and do not need to recurse (This part
of the Discoverer API is admittedly a bit obscure).
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## Conclusion
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This tutorial has shown:
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- How to recover information regarding a URI using the `GstDiscoverer`
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- How to find out if a URI is playable by looking at the return code
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obtained with `gst_discoverer_info_get_result()` .
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It has been a pleasure having you here, and see you soon!