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209 lines
7 KiB
Text
209 lines
7 KiB
Text
GstMiniObject
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-------------
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This document describes the design of the miniobject base class.
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The miniobject abstract base class is used to construct lightweight refcounted
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and boxed types that are frequently created and destroyed.
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Requirements
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~~~~~~~~~~~~
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- Be lightweight
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- Refcounted
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- I must be possible to control access to the object, ie. when the object is
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readable and writable.
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- Subclasses must be able to use their own allocator for the memory.
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Usage
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~~~~~
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Users of the GstMiniObject infrastructure will need to define a structure that
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includes the GstMiniObject structure as the first field.
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struct {
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GstMiniObject mini_object;
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/* my fields */
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...
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} MyObject
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The subclass should then implement a constructor method where it allocates the
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memory for its structure and initializes the miniobject structure with
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gst_mini_object_init(). Copy and Free functions are provided to the
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gst_mini_object_init() function.
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MyObject *
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my_object_new()
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{
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MyObject *res = g_slice_new (MyObject);
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gst_mini_object_init (GST_MINI_OBJECT_CAST (res), 0,
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MY_TYPE_OBJECT,
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(GstMiniObjectCopyFunction) _my_object_copy,
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(GstMiniObjectDisposeFunction) NULL,
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(GstMiniObjectFreeFunction) _my_object_free);
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/* other init */
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.....
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return res;
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}
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The Free function is responsible for freeing the allocated memory for
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the structure.
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static void
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_my_object_free (MyObject *obj)
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{
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/* other cleanup */
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...
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g_slice_free (MyObject, obj);
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}
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Lifecycle
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~~~~~~~~~
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GstMiniObject is refcounted. When a GstMiniObject is first created,
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it has a refcount of 1.
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Each variable holding a reference to a GstMiniObject is responsible for
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updating the refcount. This includes incrementing the refcount with
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gst_mini_object_ref() when a reference is kept to a miniobject or
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gst_mini_object_unref() when a reference is released.
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When the refcount reaches 0, and thus no objects hold a reference to the
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miniobject anymore, we can free the miniobject.
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When freeing the miniobject, first the GstMiniObjectDisposeFunction is called.
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This function is allowed to revive the object again by incrementing the
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refcount, in which case it should return FALSE from the dispose function. The
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dispose function is used by GstBuffer to revive the buffer back into the
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GstBufferPool when needed.
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When the dispose function returns TRUE, the GstMiniObjectFreeFunction will be
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called and the miniobject will be freed.
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Copy
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~~~~
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A miniobject can be copied with gst_mini_object_copy(). This function will
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call the custom copy function that was provided when registering the new
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GstMiniObject subclass.
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The copy function should try to preserve as much info from the original object
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as possible.
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The new copy should be writable.
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Access management
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~~~~~~~~~~~~~~~~~
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GstMiniObject can be shared between multiple threads. It is important that when
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a thread writes to a GstMiniObject that the other threads don't not see the
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changes.
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To avoid exposing changes from one thread to another thread, the miniobjects
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are managed in a Copy-On-Write way. A copy is only made when it is known that
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the object is shared between multiple objects or threads.
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There are 2 methods implemented for controlling access to the miniobject.
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- A first method relies on the refcount of the object to control writability.
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Objects using this method have the LOCKABLE flag unset.
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- A second method relies on a separate counter for controlling
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the access to the object. Objects using this method have the LOCKABLE flag
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set.
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You can check if an object is writable with gst_mini_object_is_writable() and
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you can make any miniobject writable with gst_mini_object_make_writable().
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This will create a writable copy when the object was not writable.
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non-LOCKABLE GstMiniObjects
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---------------------------
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These GstMiniObjects have the LOCKABLE flag unset. They use the refcount value
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to control writability of the object.
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When the refcount of the miniobject is > 1, the objects it referenced by at
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least 2 objects and is thus considered unwritable. A copy must be made before a
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modification to the object can be done.
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Using the refcount to control writability is problematic for many language
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bindings that can keep additional references to the objects. This method is
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mainly for historical reasons until all users of the miniobjects are
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converted to use the LOCAKBLE flag.
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LOCKABLE GstMiniObjects
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-----------------------
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These GstMiniObjects have the LOCKABLE flag set. They use a separate counter
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for controlling writability and access to the object.
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It consists of 2 components:
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* exclusive counter
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Each object that wants to keep a reference to a GstMiniObject and doesn't want to
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see the changes from other owners of the same GstMiniObject needs to lock the
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GstMiniObject in EXCLUSIVE mode, which will increase the exclusive counter.
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The exclusive counter counts the amount of objects that share this
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GstMiniObject. The counter is initially 0, meaning that the object is not shared with
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any object.
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When a reference to a GstMiniObject release, both the ref count and the
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exclusive counter will be decreased with gst_mini_object_unref() and
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gst_mini_object_unlock () respectively.
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* locking
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All read and write access must be performed between a gst_mini_object_lock() and
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gst_mini_object_unlock() pair with the requested access method.
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A gst_mini_object_lock() can fail when a WRITE lock is requested and the exclusive
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counter is > 1. Indeed a GstMiniObject object with an exclusive counter > 1 is
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locked EXCLUSIVELY by at least 2 objects and is therefore not writable.
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Once the GstMiniObject is locked with a certain access mode, it can be recursively
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locked with the same or narrower access mode. For example, first locking the
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GstMiniObject in READWRITE mode allows you to recusively lock the
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GstMiniObject in
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READWRITE, READ and WRITE mode. Memory locked in READ mode cannot be locked
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recursively in WRITE or READWRITE mode.
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Note that multiple threads can READ lock the GstMiniObject concurrently but cannot
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lock the object in WRITE mode because the exclusive counter must be > 1.
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All calls to gst_mini_object_lock() need to be paired with one
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gst_mini_object_unlock() call with the same access mode. When the last refcount
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of the object is removed, there should be no more outstanding locks.
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Note that a shared counter of both 0 and 1 leaves the GstMiniObject writable. The
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reason is to make it easy to create and pass ownership of the GstMiniObject to
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another object while keeping it writable. When the GstMiniObject is
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created with a shared count of 0, it is writable. When the GstMiniObject is then
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added to another object, the shared count is incremented to 1 and the
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GstMiniObject remains writable. The 0 share counter has a similar purpose as the floating
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reference in GObject.
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Weak references
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~~~~~~~~~~~~~~~
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GstMiniObject has support for weak references. A callback will be called when
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the object is freed for all registered weak references.
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QData
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~~~~~
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Extra data can be associated with a GstMiniObject by using the QData API.
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