forked from AuroraMiddleware/gtk
1c856a208f
We already use the "logical/virtual" and "physical" names in the documentation, there's no reason to use loaded terms just because X11 uses them.
207 lines
9.5 KiB
Markdown
207 lines
9.5 KiB
Markdown
# Overview of GTK input and event handling {#input-overview}
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This chapter describes in detail how GTK handles input. If you are interested
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in what happens to translate a key press or mouse motion of the users into a
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change of a GTK widget, you should read this chapter. This knowledge will also
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be useful if you decide to implement your own widgets.
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## Devices and events
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The most basic input devices that every computer user has interacted with are
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keyboards and mice; beyond these, GTK supports touchpads, touchscreens and
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more exotic input devices such as graphics tablets. Inside GTK, every such
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input device is represented by a #GdkDevice object.
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To simplify dealing with the variability between these input devices, GTK
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has a concept of logical and physical devices. The concrete physical devices that
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have many different characteristics (mice may have 2 or 3 or 8 buttons,
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keyboards have different layouts and may or may not have a separate number
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block, etc) are represented as physical devices. Each physical device is
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associated with a virtual logical device. Logical devices always come in
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pointer/keyboard pairs - you can think of such a pair as a 'seat'.
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GTK widgets generally deal with the logical devices, and thus can be used
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with any pointing device or keyboard.
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When a user interacts with an input device (e.g. moves a mouse or presses
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a key on the keyboard), GTK receives events from the windowing system.
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These are typically directed at a specific surface - for pointer events,
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the surface under the pointer (grabs complicate this), for keyboard events,
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the surface with the keyboard focus.
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GDK translates these raw windowing system events into #GdkEvents.
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Typical input events are button clicks, pointer motion, key presses
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or touch events. These are all represented as #GdkEvents, but you can
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differentiate between different events by looking at their type, using
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gdk_event_get_event_type().
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Some events, such as touch events or button press-release pairs,
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are connected in to each other in an “event sequence” that
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univocally identifies events that are related to the same
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interaction.
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When GTK creates a GdkSurface, it connects to the #GdkSurface::event
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signal on it, which receives all of these input events. Surfaces have
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have signals and properties, e.g. to deal with window management
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related events.
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## Event propagation {#event-propagation}
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The function which initially receives input events on the GTK
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side is responsible for a number of tasks.
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1. Find the widget which got the event.
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2. Generate crossing (i.e. enter and leave) events when the focus or
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hover location change from one widget to another.
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3. Send the event to widgets.
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An event is propagated down and up the widget hierarchy in three phases
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(see #GtkPropagationPhase) towards a target widget.
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![Event propagation phases](capture-bubble.png)
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For key events, the top-level window gets a first shot at activating
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mnemonics and accelerators. If that does not consume the events,
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the target widget for event propagation is window's current focus
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widget (see gtk_window_get_focus()).
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For pointer events, the target widget is determined by picking
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the widget at the events coordinates (see gtk_window_pick()).
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In the first phase (the “capture” phase) the event is delivered to
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each widget from the top-most (the top-level #GtkWindow or grab widget)
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down to the target #GtkWidget.
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[Event controllers](event-controllers-and-gestures) that are attached
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with %GTK_PHASE_CAPTURE get a chance to react to the event.
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After the “capture” phase, the widget that was intended to be the
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destination of the event will run event controllers attached to
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it with %GTK_PHASE_TARGET. This is known as the “target” phase,
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and only happens on that widget.
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In the last phase (the “bubble” phase), the event is delivered
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to each widget from the target to the top-most, and event
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controllers attached with %GTK_PHASE_BUBBLE are run.
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Events are not delivered to a widget which is insensitive or unmapped.
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Any time during the propagation phase, a controller may indicate
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that a received event was consumed and propagation should
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therefore be stopped. If gestures are used, this may happen
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when the gesture claims the event touch sequence (or the
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pointer events) for its own. See the “gesture states” section
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below to learn more about gestures and sequences.
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## Keyboard input
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Every #GtkWindow maintains a single focus location (in
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the #GtkWindow:focus-widget property). The focus widget is the
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target widget for key events sent to the window. Only widgets which
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have #GtkWidget:can-focus set to %TRUE can become the focus. Typically
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these are input controls such as entries or text fields, but e.g.
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buttons can take the focus too.
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Input widgets can be given the focus by clicking on them, but focus
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can also be moved around with certain key events (this is known as
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“keyboard navigation”). GTK reserves the Tab key to move the focus
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to the next location, and Shift-Tab to move it back to the previous
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one. In addition many containers allow “directional navigation” with
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the arrow keys.
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Many widgets can be “activated” to trigger and action. E.g., you can
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activate a button or switch by clicking on them, but you can also
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activate them with the keyboard, by using the Enter or Space keys.
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Apart from keyboard navigation, activation and directly typing into
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entries or text views, GTK widgets can use key events for activating
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“shortcuts”. Shortcuts generally act as a quick way to move the focus
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around or to activate a widget that does not currently have the focus.
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GTK has traditionally supported different kinds of shortcuts:
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Accelerators
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: Accelerators are any other shortcuts that can be activated regardless
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of where the focus is, and typically trigger global actions, such as
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Ctrl-Q to quit an application.
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Mnmemonics
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: Mnemonics are usually triggered using Alt as a modifier for a letter.
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They are used in places where a label is associated with a control,
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and are indicated by underlining the letter in the label. As a special
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case, inside menus (i.e. inside #GtkPopoverMenu), mnemonics can be
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trigered without the modifier.
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Key bindings
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: Key bindings are specific to individual widgets, such as Ctrl-C or
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Ctrl-V in an entry copy to or paste from the clipboard. They are only
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triggered when the widget has focus.
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GTK handles accelerators and mnemonics in a global scope, during the
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capture phase, and key bindings locally, during the target phase.
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Under the hood, all shortcuts are represented as instances of #GtkShortcut,
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and they are managed by #GtkShortcutController.
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## Event controllers and gestures {#event-controllers-and-gestures}
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Event controllers are standalone objects that can perform
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specific actions upon received #GdkEvents. These are tied
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to a #GtkWidget, and can be told of the event propagation
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phase at which they will manage the events.
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Gestures are a set of specific controllers that are prepared
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to handle pointer and/or touch events, each gesture
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implementation attempts to recognize specific actions out the
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received events, notifying of the state/progress accordingly to
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let the widget react to those. On multi-touch gestures, every
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interacting touch sequence will be tracked independently.
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Since gestures are “simple” units, it is not uncommon to tie
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several together to perform higher level actions, grouped
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gestures handle the same event sequences simultaneously, and
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those sequences share a same state across all grouped
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gestures. Some examples of grouping may be:
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- A “drag” and a “swipe” gestures may want grouping.
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The former will report events as the dragging happens,
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the latter will tell the swipe X/Y velocities only after
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recognition has finished.
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- Grouping a “drag” gesture with a “pan” gesture will only
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effectively allow dragging in the panning orientation, as
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both gestures share state.
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- If “press” and “long press” are wanted simultaneously,
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those would need grouping.
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Shortcuts are handled by #GtkShortcutController, which is
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a complex event handler that can either activate shortcuts
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itself, or propagate them to another controller, depending
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on its #GtkShortcutController:scope.
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## Gesture states
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Gestures have a notion of “state” for each individual touch
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sequence. When events from a touch sequence are first received,
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the touch sequence will have “none” state, this means the touch
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sequence is being handled by the gesture to possibly trigger
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actions, but the event propagation will not be stopped.
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When the gesture enters recognition, or at a later point in time,
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the widget may choose to claim the touch sequences (individually
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or as a group), hence stopping event propagation after the event
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is run through every gesture in that widget and propagation phase.
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Anytime this happens, the touch sequences are cancelled downwards
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the propagation chain, to let these know that no further events
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will be sent.
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Alternatively, or at a later point in time, the widget may choose
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to deny the touch sequences, thus letting those go through again
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in event propagation. When this happens in the capture phase, and
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if there are no other claiming gestures in the widget,
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a %GDK_TOUCH_BEGIN/%GDK_BUTTON_PRESS event will be emulated and
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propagated downwards, in order to preserve consistency.
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Grouped gestures always share the same state for a given touch
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sequence, so setting the state on one does transfer the state to
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the others. They also are mutually exclusive, within a widget
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where may be only one gesture group claiming a given sequence.
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If another gesture group claims later that same sequence, the
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first group will deny the sequence:
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