3 KiB
Controller
The controller subsystem allows to automate element property changes. It works so that all parameter changes are time based and elements request property updates at processing time.
Element view
Elements don’t need to do much. They need to: - mark object properties that can be changed while processing with GST_PARAM_CONTROLLABLE - call gst_object_sync_values (self, timestamp) in the processing function before accessing the parameters.
All ordered property types can be automated (int, double, boolean, enum). Other property types can also be automated by using special control bindings. One can e.g. write a control-binding that updates a text property based on timestamps.
Application view
Applications need to setup the property automation. For that they need to create a GstControlSource and attach it to a property using GstControlBinding. Various control-sources and control-bindings exist. All control sources produce control value sequences in the form of gdouble values. The control bindings map them to the value range and type of the bound property.
One control-source can be attached to one or more properties at the same time. If it is attached multiple times, then each control-binding will scale and convert the control values to the target property type and range.
One can create complex control-curves by using a GstInterpolationControlSource. This allows the classic user editable control-curve (often seen in audio/video editors). Another way is to use computed control curves. GstLFOControlSource can generate various repetitive signals. Those can be made more complex by chaining the control sources. One can attach another control-source to e.g. modulate the frequency of the first GstLFOControlSource.
In most cases GstControlBindingDirect will be the binding to be used. Other control bindings are there to handle special cases, such as having 1-4 control- sources and combine their values into a single guint to control a rgba-color property.
TODO
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control-source value ranges - control sources should ideally emit values between [0.0 and 1.0] - right now lfo-control-sources emits values between [-1.0 and 1.0] - we can make control-sources announce that or fix it in a lfo2-control-source
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ranged-control-binding - it might be a nice thing to have a control-binding that has scale and offset properties - when attaching a control-source to e.g. volume, one needs to be aware that the values go from [0.0 to 4.0] - we can also have a "mapping-mode"={AS_IS, TRANSFORMED} on direct-control-binding and two extra properties that are used in TRANSFORMED mode
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control-setup descriptions - it would be nice to have a way to parse a textual control-setup description. This could be used in gst-launch and in presets. It needs to be complemented with a formatter (for the preset storage or e.g. for debug logging). - this could be function-style: direct(control-source=lfo(waveform=sine,offset=0.5)) or gst-launch style (looks weird) lfo wave=sine offset=0.5 ! direct .control-source