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96 lines
4.4 KiB
Markdown
96 lines
4.4 KiB
Markdown
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Title: Signals
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SPDX-License-Identifier: LGPL-2.1-or-later
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SPDX-FileCopyrightText: 2000, 2001 Tim Janik
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SPDX-FileCopyrightText: 2000 Owen Taylor
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SPDX-FileCopyrightText: 2002, 2014 Matthias Clasen
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SPDX-FileCopyrightText: 2014 Collabora, Ltd.
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SPDX-FileCopyrightText: 2019 Endless Mobile, Inc.
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# Signals
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The basic concept of the signal system is that of the emission
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of a signal. Signals are introduced per-type and are identified
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through strings. Signals introduced for a parent type are available
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in derived types as well, so basically they are a per-type facility
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that is inherited.
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A signal emission mainly involves invocation of a certain set of
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callbacks in precisely defined manner. There are two main categories
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of such callbacks, per-object ones and user provided ones.
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(Although signals can deal with any kind of instantiatable type, I'm
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referring to those types as "object types" in the following, simply
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because that is the context most users will encounter signals in.)
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The per-object callbacks are most often referred to as "object method
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handler" or "default (signal) handler", while user provided callbacks are
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usually just called "signal handler".
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The object method handler is provided at signal creation time (this most
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frequently happens at the end of an object class' creation), while user
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provided handlers are frequently connected and disconnected to/from a
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certain signal on certain object instances.
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A signal emission consists of five stages, unless prematurely stopped:
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1. Invocation of the object method handler for `G_SIGNAL_RUN_FIRST` signals
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2. Invocation of normal user-provided signal handlers (where the @after
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flag is not set)
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3. Invocation of the object method handler for `G_SIGNAL_RUN_LAST` signals
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4. Invocation of user provided signal handlers (where the @after flag is set)
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5. Invocation of the object method handler for `G_SIGNAL_RUN_CLEANUP` signals
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The user-provided signal handlers are called in the order they were
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connected in.
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All handlers may prematurely stop a signal emission, and any number of
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handlers may be connected, disconnected, blocked or unblocked during
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a signal emission.
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There are certain criteria for skipping user handlers in stages 2 and 4
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of a signal emission.
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First, user handlers may be blocked. Blocked handlers are omitted during
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callback invocation, to return from the blocked state, a handler has to
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get unblocked exactly the same amount of times it has been blocked before.
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Second, upon emission of a `G_SIGNAL_DETAILED` signal, an additional
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`detail` argument passed in to [func@GObject.signal_emit] has to match
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the detail argument of the signal handler currently subject to invocation.
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Specification of no detail argument for signal handlers (omission of the
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detail part of the signal specification upon connection) serves as a
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wildcard and matches any detail argument passed in to emission.
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While the `detail` argument is typically used to pass an object property name
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(as with `GObject::notify`), no specific format is mandated for the detail
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string, other than that it must be non-empty.
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## Memory management of signal handlers
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If you are connecting handlers to signals and using a `GObject` instance as
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your signal handler user data, you should remember to pair calls to
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[func@GObject.signal_connect] with calls to [func@GObject.signal_handler_disconnect]
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or [func@GObject.signal_handlers_disconnect_by_func]. While signal handlers are
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automatically disconnected when the object emitting the signal is finalised,
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they are not automatically disconnected when the signal handler user data is
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destroyed. If this user data is a `GObject` instance, using it from a
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signal handler after it has been finalised is an error.
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There are two strategies for managing such user data. The first is to
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disconnect the signal handler (using [func@GObject.signal_handler_disconnect]
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or [func@GObject.signal_handlers_disconnect_by_func]) when the user data (object)
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is finalised; this has to be implemented manually. For non-threaded programs,
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[func@GObject.signal_connect_object] can be used to implement this automatically.
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Currently, however, it is unsafe to use in threaded programs.
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The second is to hold a strong reference on the user data until after the
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signal is disconnected for other reasons. This can be implemented
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automatically using [func@GObject.signal_connect_data].
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The first approach is recommended, as the second approach can result in
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effective memory leaks of the user data if the signal handler is never
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disconnected for some reason.
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