Bin#

class Bin(**properties: Any)#

Superclasses: Element, Object, InitiallyUnowned, Object

Subclasses: Pipeline

Implemented Interfaces: ChildProxy

Bin is an element that can contain other Element, allowing them to be managed as a group. Pads from the child elements can be ghosted to the bin, see GhostPad. This makes the bin look like any other elements and enables creation of higher-level abstraction elements.

A new Bin is created with new(). Use a Pipeline instead if you want to create a toplevel bin because a normal bin doesn’t have a bus or handle clock distribution of its own.

After the bin has been created you will typically add elements to it with add(). You can remove elements with remove().

An element can be retrieved from a bin with get_by_name(), using the elements name. get_by_name_recurse_up() is mainly used for internal purposes and will query the parent bins when the element is not found in the current bin.

An iterator of elements in a bin can be retrieved with iterate_elements(). Various other iterators exist to retrieve the elements in a bin.

unref() is used to drop your reference to the bin.

The Bin::element-added signal is fired whenever a new element is added to the bin. Likewise the Bin::element-removed signal is fired whenever an element is removed from the bin.

A Bin internally intercepts every Message posted by its children and implements the following default behaviour for each of them:

EOS: This message is only posted by sinks in the PLAYING

state. If all sinks posted the EOS message, this bin will post and EOS message upwards.

SEGMENT_START: Just collected and never forwarded upwards. The messages are used to decide when all elements have completed playback of their segment.
SEGMENT_DONE: Is posted by Bin when all elements that posted a SEGMENT_START have posted a SEGMENT_DONE.
DURATION_CHANGED: Is posted by an element that detected a change in the stream duration. The duration change is posted to the application so that it can refetch the new duration with a duration query.

Note that these messages can be posted before the bin is prerolled, in which: case the duration query might fail.
Note also that there might be a discrepancy (due to internal buffering/queueing): between the stream being currently displayed and the returned duration query.
Applications might want to also query for duration (and changes) by: listening to the STREAM_START message, signaling the active start of a (new) stream.

CLOCK_LOST: This message is posted by an element when it can no longer provide a clock.

The default bin behaviour is to check if the lost clock was the one provided: by the bin. If so and the bin is currently in the PLAYING state, the message is forwarded to the bin parent.
This message is also generated when a clock provider is removed from: the bin. If this message is received by the application, it should PAUSE the pipeline and set it back to PLAYING to force a new clock distribution.

CLOCK_PROVIDE: This message is generated when an element can provide a clock. This mostly happens when a new clock provider is added to the bin.

The default behaviour of the bin is to mark the currently selected clock as: dirty, which will perform a clock recalculation the next time the bin is asked to provide a clock.
This message is never sent to the application but is forwarded to: the parent of the bin.

OTHERS: posted upwards.

A Bin implements the following default behaviour for answering to a Query:

DURATION: The bin will forward the query to all sink elements contained within and will return the maximum value. If no sinks are available in the bin, the query fails.
POSITION: The query is sent to all sink elements in the bin and the MAXIMUM of all values is returned. If no sinks are available in the bin, the query fails.
OTHERS: the query is forwarded to all sink elements, the result of the first sink that answers the query successfully is returned. If no sink is in the bin, the query fails.

A Bin will by default forward any event sent to it to all sink ( UPSTREAM ) or source ( DOWNSTREAM ) elements depending on the event type.

If all the elements return True, the bin will also return True, else False is returned. If no elements of the required type are in the bin, the event handler will return True.

Constructors#

class Bin

classmethod new(name: str | None = None) → Element#

Creates a new bin with the given name.

Parameters:: name – the name of the new bin

Methods#

class Bin

add(element: Element) → bool#

Adds the given element to the bin. Sets the element’s parent, and thus takes ownership of the element. An element can only be added to one bin.

If the element’s pads are linked to other pads, the pads will be unlinked before the element is added to the bin.

When you add an element to an already-running pipeline, you will have to take care to set the state of the newly-added element to the desired state (usually PLAYING or PAUSED, same you set the pipeline to originally) with set_state(), or use sync_state_with_parent(). The bin or pipeline will not take care of this for you.

Parameters:: element – the Element to add

do_add_element(self, element: Element) → bool#

Parameters:: element

do_deep_element_added(self, sub_bin: Bin, child: Element) → None#

Parameters:

sub_bin
child

do_deep_element_removed(self, sub_bin: Bin, child: Element) → None#

Parameters:

sub_bin
child

do_do_latency(self) → bool#

do_element_added(self, child: Element) → None#

Parameters:: child

do_element_removed(self, child: Element) → None#

Parameters:: child

do_handle_message(self, message: Message) → None#

Parameters:: message

do_remove_element(self, element: Element) → bool#

Parameters:: element

find_unlinked_pad(direction: PadDirection) → Pad | None#

Recursively looks for elements with an unlinked pad of the given direction within the specified bin and returns an unlinked pad if one is found, or None otherwise. If a pad is found, the caller owns a reference to it and should use unref() on the pad when it is not needed any longer.

Parameters:: direction – whether to look for an unlinked source or sink pad

get_by_interface(iface: GType) → Element | None#

Looks for an element inside the bin that implements the given interface. If such an element is found, it returns the element. You can cast this element to the given interface afterwards. If you want all elements that implement the interface, use iterate_all_by_interface(). This function recurses into child bins.

Parameters:: iface – the Type of an interface

get_by_name(name: str) → Element | None#

Gets the element with the given name from a bin. This function recurses into child bins.

Parameters:: name – the element name to search for

get_by_name_recurse_up(name: str) → Element | None#

Gets the element with the given name from this bin. If the element is not found, a recursion is performed on the parent bin.

Parameters:: name – the element name to search for

get_suppressed_flags() → ElementFlags#: Added in version 1.10.

iterate_all_by_element_factory_name(factory_name: str) → Iterator | None#

Looks for all elements inside the bin with the given element factory name. The function recurses inside child bins. The iterator will yield a series of Element.

Added in version 1.18.

Parameters:: factory_name – the name of the ElementFactory

iterate_all_by_interface(iface: GType) → Iterator | None#

Looks for all elements inside the bin that implements the given interface. You can safely cast all returned elements to the given interface. The function recurses inside child bins. The iterator will yield a series of Element.

Parameters:: iface – the Type of an interface

iterate_elements() → Iterator | None#: Gets an iterator for the elements in this bin.

iterate_recurse() → Iterator | None#: Gets an iterator for the elements in this bin. This iterator recurses into GstBin children.

iterate_sinks() → Iterator | None#: Gets an iterator for all elements in the bin that have the GST_ELEMENT_FLAG_SINK flag set.

iterate_sorted() → Iterator | None#

Gets an iterator for the elements in this bin in topologically sorted order. This means that the elements are returned from the most downstream elements (sinks) to the sources.

This function is used internally to perform the state changes of the bin elements and for clock selection.

iterate_sources() → Iterator | None#: Gets an iterator for all elements in the bin that have the GST_ELEMENT_FLAG_SOURCE flag set.

recalculate_latency() → bool#

Queries bin for the current latency and reconfigures this latency on all the elements using a LATENCY event.

This method is typically called on the pipeline when a GST_MESSAGE_LATENCY is posted on the bus.

This function simply emits the Bin::do-latency signal so any custom latency calculations will be performed.

remove(element: Element) → bool#

Removes the element from the bin, unparenting it as well. Unparenting the element means that the element will be dereferenced, so if the bin holds the only reference to the element, the element will be freed in the process of removing it from the bin. If you want the element to still exist after removing, you need to call ref() before removing it from the bin.

If the element’s pads are linked to other pads, the pads will be unlinked before the element is removed from the bin.

Parameters:: element – the Element to remove

set_suppressed_flags(flags: ElementFlags) → None#

Suppresses the given flags on the bin. ElementFlags of a child element are propagated when it is added to the bin. When suppressed flags are set, those specified flags will not be propagated to the bin.

Added in version 1.10.

Parameters:: flags – the ElementFlags to suppress

sync_children_states() → bool#: Synchronizes the state of every child of bin with the state of bin. See also sync_state_with_parent().

Added in version 1.6.

Properties#

class Bin

props.async_handling: bool#: The type of the None singleton.

props.message_forward: bool#: The type of the None singleton.