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23c60cafe3
Additionally: other grammar fixes & improvements
351 lines
12 KiB
Markdown
351 lines
12 KiB
Markdown
# Basic tutorial 2: GStreamer concepts
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## Goal
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The previous tutorial showed how to build a pipeline automatically. Now
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we are going to build a pipeline manually by instantiating each element
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and linking them all together. In the process, we will learn:
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- What is a GStreamer element and how to create one.
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- How to connect elements to each other.
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- How to customize an element's behavior.
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- How to watch the bus for error conditions and extract information
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from GStreamer messages.
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## Manual Hello World
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Copy this code into a text file named `basic-tutorial-2.c` (or find it
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in your GStreamer installation).
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**basic-tutorial-2.c**
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``` c
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#include <gst/gst.h>
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int main(int argc, char *argv[]) {
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GstElement *pipeline, *source, *sink;
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GstBus *bus;
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GstMessage *msg;
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GstStateChangeReturn ret;
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/* Initialize GStreamer */
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gst_init (&argc, &argv);
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/* Create the elements */
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source = gst_element_factory_make ("videotestsrc", "source");
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sink = gst_element_factory_make ("autovideosink", "sink");
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/* Create the empty pipeline */
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pipeline = gst_pipeline_new ("test-pipeline");
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if (!pipeline || !source || !sink) {
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g_printerr ("Not all elements could be created.\n");
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return -1;
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}
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/* Build the pipeline */
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gst_bin_add_many (GST_BIN (pipeline), source, sink, NULL);
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if (gst_element_link (source, sink) != TRUE) {
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g_printerr ("Elements could not be linked.\n");
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gst_object_unref (pipeline);
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return -1;
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}
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/* Modify the source's properties */
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g_object_set (source, "pattern", 0, NULL);
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/* Start playing */
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ret = gst_element_set_state (pipeline, GST_STATE_PLAYING);
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if (ret == GST_STATE_CHANGE_FAILURE) {
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g_printerr ("Unable to set the pipeline to the playing state.\n");
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gst_object_unref (pipeline);
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return -1;
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}
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/* Wait until error or EOS */
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bus = gst_element_get_bus (pipeline);
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msg = gst_bus_timed_pop_filtered (bus, GST_CLOCK_TIME_NONE, GST_MESSAGE_ERROR | GST_MESSAGE_EOS);
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/* Parse message */
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if (msg != NULL) {
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GError *err;
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gchar *debug_info;
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switch (GST_MESSAGE_TYPE (msg)) {
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case GST_MESSAGE_ERROR:
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gst_message_parse_error (msg, &err, &debug_info);
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g_printerr ("Error received from element %s: %s\n", GST_OBJECT_NAME (msg->src), err->message);
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g_printerr ("Debugging information: %s\n", debug_info ? debug_info : "none");
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g_clear_error (&err);
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g_free (debug_info);
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break;
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case GST_MESSAGE_EOS:
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g_print ("End-Of-Stream reached.\n");
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break;
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default:
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/* We should not reach here because we only asked for ERRORs and EOS */
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g_printerr ("Unexpected message received.\n");
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break;
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}
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gst_message_unref (msg);
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}
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/* Free resources */
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gst_object_unref (bus);
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gst_element_set_state (pipeline, GST_STATE_NULL);
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gst_object_unref (pipeline);
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return 0;
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}
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```
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> ![Information](images/icons/emoticons/information.png)
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> Need help?
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>
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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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>
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> `` gcc basic-tutorial-2.c -o basic-tutorial-2 `pkg-config --cflags --libs gstreamer-1.0` ``
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>
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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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>
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>This tutorial opens a window and displays a test pattern, without audio
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>
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>Required libraries: `gstreamer-1.0`
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## Walkthrough
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The *elements* are GStreamer's basic construction blocks. They process
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the data as it flows *downstream* from the source elements (data producers)
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to the sink elements (data consumers), passing through filter elements.
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![](images/figure-1.png)
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**Figure 1**. Example pipeline
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### Element creation
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We will skip GStreamer initialization, since it is the same as the
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previous tutorial:
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``` c
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/* Create the elements */
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source = gst_element_factory_make ("videotestsrc", "source");
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sink = gst_element_factory_make ("autovideosink", "sink");
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```
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As seen in this code, new elements can be created
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with `gst_element_factory_make()`. The first parameter is the type of
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element to create ([Basic tutorial 14: Handy
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elements](tutorials/basic/handy-elements.md) shows a
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few common types, and [Basic tutorial 10: GStreamer
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tools](tutorials/basic/gstreamer-tools.md) shows how to
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obtain the list of all available types). The second parameter is the
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name we want to give to this particular instance. Naming your elements
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is useful to retrieve them later if you didn't keep a pointer (and for
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more meaningful debug output). If you pass NULL for the name, however,
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GStreamer will provide a unique name for you.
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For this tutorial we create two elements: a `videotestsrc` and
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an `autovideosink`.
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`videotestsrc` is a source element (it produces data), which creates a
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test video pattern. This element is useful for debugging purposes (and
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tutorials) and is not usually found in real applications.
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`autovideosink` is a sink element (it consumes data), which displays on
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a window the images it receives. There exist several video sinks,
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depending on the operating system, with a varying range of capabilities.
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`autovideosink` automatically selects and instantiates the best one, so
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you do not have to worry with the details, and your code is more
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platform-independent.
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### Pipeline creation
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``` c
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/* Create the empty pipeline */
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pipeline = gst_pipeline_new ("test-pipeline");
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```
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All elements in GStreamer must typically be contained inside a pipeline
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before they can be used, because it takes care of some clocking and
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messaging functions. We create the pipeline with `gst_pipeline_new()`.
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``` c
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/* Build the pipeline */
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gst_bin_add_many (GST_BIN (pipeline), source, sink, NULL);
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if (gst_element_link (source, sink) != TRUE) {
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g_printerr ("Elements could not be linked.\n");
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gst_object_unref (pipeline);
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return -1;
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}
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```
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A pipeline is a particular type of `bin`, which is the element used to
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contain other elements. Therefore all methods which apply to bins also
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apply to pipelines. In our case, we call `gst_bin_add_many()` to add the
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elements to the pipeline (mind the cast). This function accepts a list
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of elements to be added, ending with `NULL`. Individual elements can be
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added with `gst_bin_add()`.
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These elements, however, are not linked with each other yet. For this,
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we need to use `gst_element_link()`. Its first parameter is the source,
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and the second one the destination. The order counts, because links must
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be established following the data flow (this is, from source elements to
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sink elements). Keep in mind that only elements residing in the same bin
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can be linked together, so remember to add them to the pipeline before
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trying to link them!
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### Properties
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``` c
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/* Modify the source's properties */
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g_object_set (source, "pattern", 0, NULL);
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```
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Most GStreamer elements have customizable properties: named attributes
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that can be modified to change the element's behavior (writable
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properties) or inquired to find out about the element's internal state
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(readable properties).
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Properties are read from with `g_object_get()` and written to
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with `g_object_set()`.
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`g_object_set()` accepts a `NULL`-terminated list of property-name,
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property-value pairs, so multiple properties can be changed in one go.
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GStreamer elements are all a particular kind of `GObject`, which is the
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entity offering property facilities. This is why the property handling
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methods have the `g_` prefix.
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The line of code above changes the “pattern” property of `videotestsrc`,
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which controls the type of test video the element outputs. Try different
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values!
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The names and possible values of all the properties an element exposes
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can be found using the gst-inspect-1.0 tool described in [Basic tutorial 10:
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GStreamer tools](tutorials/basic/gstreamer-tools.md).
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### Error checking
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At this point, we have the whole pipeline built and setup, and the rest
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of the tutorial is very similar to the previous one, but we are going to
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add more error checking:
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``` c
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/* Start playing */
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ret = gst_element_set_state (pipeline, GST_STATE_PLAYING);
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if (ret == GST_STATE_CHANGE_FAILURE) {
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g_printerr ("Unable to set the pipeline to the playing state.\n");
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gst_object_unref (pipeline);
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return -1;
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}
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```
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We call `gst_element_set_state()`, but this time we check its return
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value for errors. Changing states is a delicate process and a few more
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details are given in [Basic tutorial 3: Dynamic
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pipelines](tutorials/basic/dynamic-pipelines.md).
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``` c
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/* Wait until error or EOS */
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bus = gst_element_get_bus (pipeline);
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msg = gst_bus_timed_pop_filtered (bus, GST_CLOCK_TIME_NONE, GST_MESSAGE_ERROR | GST_MESSAGE_EOS);
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/* Parse message */
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if (msg != NULL) {
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GError *err;
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gchar *debug_info;
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switch (GST_MESSAGE_TYPE (msg)) {
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case GST_MESSAGE_ERROR:
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gst_message_parse_error (msg, &err, &debug_info);
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g_printerr ("Error received from element %s: %s\n", GST_OBJECT_NAME (msg->src), err->message);
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g_printerr ("Debugging information: %s\n", debug_info ? debug_info : "none");
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g_clear_error (&err);
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g_free (debug_info);
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break;
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case GST_MESSAGE_EOS:
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g_print ("End-Of-Stream reached.\n");
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break;
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default:
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/* We should not reach here because we only asked for ERRORs and EOS */
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g_printerr ("Unexpected message received.\n");
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break;
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}
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gst_message_unref (msg);
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}
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```
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`gst_bus_timed_pop_filtered()` waits for execution to end and returns
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with a `GstMessage` which we previously ignored. We
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asked `gst_bus_timed_pop_filtered()` to return when GStreamer
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encountered either an error condition or an `EOS`, so we need to check
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which one happened, and print a message on screen (Your application will
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probably want to undertake more complex actions).
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`GstMessage` is a very versatile structure which can deliver virtually
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any kind of information. Fortunately, GStreamer provides a series of
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parsing functions for each kind of message.
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In this case, once we know the message contains an error (by using the
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`GST_MESSAGE_TYPE()` macro), we can use
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`gst_message_parse_error()` which returns a GLib `GError` error
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structure and a string useful for debugging. Examine the code to see how
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these are used and freed afterward.
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### The GStreamer bus
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At this point it is worth introducing the GStreamer bus a bit more
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formally. It is the object responsible for delivering to the application
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the `GstMessage`s generated by the elements, in order and to the
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application thread. This last point is important, because the actual
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streaming of media is done in another thread than the application.
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Messages can be extracted from the bus synchronously with
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`gst_bus_timed_pop_filtered()` and its siblings, or asynchronously,
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using signals (shown in the next tutorial). Your application should
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always keep an eye on the bus to be notified of errors and other
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playback-related issues.
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The rest of the code is the cleanup sequence, which is the same as
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in [Basic tutorial 1: Hello
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world!](tutorials/basic/hello-world.md).
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## Exercise
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If you feel like practicing, try this exercise: Add a video filter
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element in between the source and the sink of this pipeline. Use
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`vertigotv` for a nice effect. You will need to create it, add it to the
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pipeline, and link it with the other elements.
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Depending on your platform and available plugins, you might get a
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“negotiation” error, because the sink does not understand what the
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filter is producing (more about negotiation in [Basic tutorial 6: Media
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formats and Pad
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Capabilities](tutorials/basic/media-formats-and-pad-capabilities.md)).
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In this case, try to add an element called `videoconvert` after the
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filter (this is, build a pipeline of 4 elements. More on
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`videoconvert` in [Basic tutorial 14: Handy
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elements](tutorials/basic/handy-elements.md)).
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## Conclusion
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This tutorial showed:
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- How to create elements with `gst_element_factory_make()`
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- How to create an empty pipeline with `gst_pipeline_new()`
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- How to add elements to the pipeline with `gst_bin_add_many()`
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- How to link the elements with each other with `gst_element_link()`
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This concludes the first of the two tutorials devoted to basic GStreamer
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concepts. The second one comes next.
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Remember that attached to this page you should find the complete source
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code of the tutorial and any accessory files needed to build it.
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It has been a pleasure having you here, and see you soon!
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