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e978887fca
Original commit message from CVS: fix manual id's
192 lines
8.6 KiB
XML
192 lines
8.6 KiB
XML
<chapter id="chapter-dparams">
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<title>Dynamic Parameters</title>
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<sect1 id="section-dparams-getting-started">
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<title>Getting Started</title>
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<para>
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The Dynamic Parameters subsystem is contained within the
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<filename>gstcontrol</filename> library.
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You need to include the header in your application's source file:
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</para>
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<programlisting>
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...
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#include <gst/gst.h>
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#include <gst/control/control.h>
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...
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</programlisting>
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<para>
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Your application should link to the shared library <filename>gstcontrol</filename>.
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</para>
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<para>
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The <filename>gstcontrol</filename> library needs to be initialized
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when your application is run. This can be done after the the GStreamer
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library has been initialized.
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</para>
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<programlisting>
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...
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gst_init(&argc,&argv);
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gst_control_init(&argc,&argv);
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...
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</programlisting>
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</sect1>
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<sect1 id="section-dparams-creating">
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<title>Creating and Attaching Dynamic Parameters</title>
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<para>
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Once you have created your elements you can create and attach dparams to them.
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First you need to get the element's dparams manager. If you know exactly what kind of element
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you have, you may be able to get the dparams manager directly. However if this is not possible,
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you can get the dparams manager by calling <filename>gst_dpman_get_manager</filename>.
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</para>
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<para>
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Once you have the dparams manager, you must set the mode that the manager will run in.
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There is currently only one mode implemented called <filename>"synchronous"</filename> - this is used for real-time
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applications where the dparam value cannot be known ahead of time (such as a slider in a GUI).
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The mode is called <filename>"synchronous"</filename> because the dparams are polled by the element for changes before
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each buffer is processed. Another yet-to-be-implemented mode is <filename>"asynchronous"</filename>. This is used when
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parameter changes are known ahead of time - such as with a timelined editor. The mode is called
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<filename>"asynchronous"</filename> because parameter changes may happen in the middle of a buffer being processed.
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</para>
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<programlisting>
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GstElement *sinesrc;
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GstDParamManager *dpman;
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...
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sinesrc = gst_element_factory_make("sinesrc","sine-source");
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...
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dpman = gst_dpman_get_manager (sinesrc);
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gst_dpman_set_mode(dpman, "synchronous");
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</programlisting>
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<para>
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If you don't know the names of the required dparams for your element you can call
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<filename>gst_dpman_list_dparam_specs(dpman)</filename> to get a NULL terminated array of param specs.
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This array should be freed after use. You can find the name of the required dparam by calling
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<filename>g_param_spec_get_name</filename> on each param spec in the array. In our example,
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<filename>"volume"</filename> will be the name of our required dparam.
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</para>
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<para>
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Each type of dparam currently has its own <filename>new</filename> function. This may eventually
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be replaced by a factory method for creating new instances. A default dparam instance can be created
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with the <filename>gst_dparam_new</filename> function. Once it is created it can be attached to a
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required dparam in the element.
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</para>
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<programlisting>
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GstDParam *volume;
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...
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volume = gst_dparam_new(G_TYPE_FLOAT);
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if (gst_dpman_attach_dparam (dpman, "volume", volume)){
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/* the dparam was successfully attached */
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...
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}
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</programlisting>
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</sect1>
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<sect1 id="section-dparams-changing">
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<title>Changing Dynamic Parameter Values</title>
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<para>
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All interaction with dparams to actually set the dparam value is done through simple GObject properties.
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There is a property value for each type that dparams supports - these currently being
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<filename>"value_float"</filename>, <filename>"value_int"</filename> and <filename>"value_int64"</filename>.
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To set the value of a dparam, simply set the property which matches the type of your dparam instance.
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</para>
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<programlisting>
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#define ZERO(mem) memset(&mem, 0, sizeof(mem))
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...
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gfloat set_to_value;
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GstDParam *volume;
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GValue set_val;
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ZERO(set_val);
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g_value_init(&set_val, G_TYPE_FLOAT);
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...
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g_value_set_float(&set_val, set_to_value);
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g_object_set_property(G_OBJECT(volume), "value_float", &set_val);
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</programlisting>
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<para>Or if you create an actual GValue instance:</para>
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<programlisting>
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gfloat set_to_value;
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GstDParam *volume;
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GValue *set_val;
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set_val = g_new0(GValue,1);
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g_value_init(set_val, G_TYPE_FLOAT);
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...
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g_value_set_float(set_val, set_to_value);
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g_object_set_property(G_OBJECT(volume), "value_float", set_val);
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</programlisting>
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</sect1>
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<sect1 id="section-dparams-types">
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<title>Different Types of Dynamic Parameter</title>
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<para>
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There are currently only two implementations of dparams so far. They are both for real-time use so
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should be run in the <filename>"synchronous"</filename> mode.
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</para>
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<sect2>
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<title>GstDParam - the base dparam type</title>
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<para>
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All dparam implementations will subclass from this type. It provides a basic implementation which simply
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propagates any value changes as soon as it can.
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A new instance can be created with the function <filename>GstDParam* gst_dparam_new (GType type)</filename>.
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It has the following object properties:
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</para>
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<itemizedlist>
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<listitem><para><filename>"value_float"</filename>
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- the property to set and get if it is a float dparam
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</para></listitem>
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<listitem><para><filename>"value_int"</filename>
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- the property to set and get if it is an integer dparam
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</para></listitem>
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<listitem><para><filename>"value_int64"</filename>
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- the property to set and get if it is a 64 bit integer dparam
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</para></listitem>
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<listitem><para><filename>"is_log"</filename>
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- readonly boolean which is TRUE if the param should be displayed on a log scale
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</para></listitem>
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<listitem><para><filename>"is_rate"</filename>
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- readonly boolean which is TRUE if the value is a proportion of the sample rate.
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For example with a sample rate of 44100, 0.5 would be 22050 Hz and 0.25 would be 11025 Hz.
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</para></listitem>
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</itemizedlist>
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</sect2>
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<sect2>
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<title>GstDParamSmooth - smoothing real-time dparam</title>
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<para>
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Some parameter changes can create audible artifacts if they change too rapidly. The GstDParamSmooth
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implementation can greatly reduce these artifacts by limiting the rate at which the value can change.
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This is currently only supported for float dparams - the other types fall back to the default implementation.
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A new instance can be created with the function <filename>GstDParam* gst_dpsmooth_new (GType type)</filename>.
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It has the following object properties:
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</para>
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<itemizedlist>
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<listitem><para><filename>"update_period"</filename>
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- an int64 value specifying the number nanoseconds between updates. This will be ignored in
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<filename>"synchronous"</filename> mode since the buffer size dictates the update period.
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</para></listitem>
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<listitem><para><filename>"slope_time"</filename>
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- an int64 value specifying the time period to use in the maximum slope calculation
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</para></listitem>
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<listitem><para><filename>"slope_delta_float"</filename>
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- a float specifying the amount a float value can change in the given slope_time.
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</para></listitem>
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</itemizedlist>
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<para>
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Audible artifacts may not be completely eliminated by using this dparam. The only way to eliminate
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artifacts such as "zipper noise" would be for the element to implement its required dparams using the
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array method. This would allow dparams to change parameters at the sample rate which should eliminate
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any artifacts.
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</para>
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</sect2>
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<sect2>
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<title>Timelined dparams</title>
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<para>
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A yet-to-be-implemented subclass of GstDParam will add an API which allows the creation and manipulation
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of points on a timeline. This subclass will also provide a dparam implementation which uses linear
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interpolation between these points to find the dparam value at any given time. Further subclasses can
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extend this functionality to implement more exotic interpolation algorithms such as splines.
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</para>
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</sect2>
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</sect1>
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</chapter>
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