ShortcutsSectionProtocol

public protocol ShortcutsSectionProtocol : BoxProtocol

A GtkShortcutsSection collects all the keyboard shortcuts and gestures for a major application mode. If your application needs multiple sections, you should give each section a unique GtkShortcutsSection:section-name and a GtkShortcutsSection:title that can be shown in the section selector of the GtkShortcutsWindow.

The GtkShortcutsSection:max-height property can be used to influence how the groups in the section are distributed over pages and columns.

This widget is only meant to be used with GtkShortcutsWindow.

The ShortcutsSectionProtocol protocol exposes the methods and properties of an underlying GtkShortcutsSection instance. The default implementation of these can be found in the protocol extension below. For a concrete class that implements these methods and properties, see ShortcutsSection. Alternatively, use ShortcutsSectionRef as a lighweight, unowned reference if you already have an instance you just want to use.

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  • ptr

    Untyped pointer to the underlying GtkShortcutsSection instance.

    Declaration

    Swift

    var ptr: UnsafeMutableRawPointer! { get }
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  • shortcuts_section_ptr Default implementation

    Typed pointer to the underlying GtkShortcutsSection instance.

    Default Implementation

    Return the stored, untyped pointer as a typed pointer to the GtkShortcutsSection instance.

    Declaration

    Swift

    var shortcuts_section_ptr: UnsafeMutablePointer<GtkShortcutsSection>! { get }
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  • Required Initialiser for types conforming to ShortcutsSectionProtocol

    Declaration

    Swift

    init(raw: UnsafeMutableRawPointer)
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ShortcutsSection Class

  • Bind a ShortcutsSectionPropertyName source property to a given target object.

    Declaration

    Swift

    @discardableResult
@inlinable
func bind<Q, T>(property source_property: ShortcutsSectionPropertyName, to target: T, _ target_property: Q, flags f: BindingFlags = .default, transformFrom transform_from: @escaping GLibObject.ValueTransformer = { $0.transform(destValue: $1) }, transformTo transform_to: @escaping GLibObject.ValueTransformer = { $0.transform(destValue: $1) }) -> BindingRef! where Q : PropertyNameProtocol, T : ObjectProtocol

    Parameters

    source_property

    the source property to bind
    target

    the target object to bind to
    target_property

    the target property to bind to
    flags

    the flags to pass to the Binding
    transform_from

    ValueTransformer to use for forward transformation
    transform_to

    ValueTransformer to use for backwards transformation

    Return Value

    binding reference or nil in case of an error

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  • get(property:) Extension method

    Get the value of a ShortcutsSection property

    Declaration

    Swift

    @inlinable
func get(property: ShortcutsSectionPropertyName) -> GLibObject.Value

    Parameters

    property

    the property to get the value for

    Return Value

    the value of the named property

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  • set(property:value:) Extension method

    Set the value of a ShortcutsSection property. Note that this will only have an effect on properties that are writable and not construct-only!

    Declaration

    Swift

    @inlinable
func set(property: ShortcutsSectionPropertyName, value v: GLibObject.Value)

    Parameters

    property

    the property to get the value for

    Return Value

    the value of the named property

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ShortcutsSection signals

  • Connect a Swift signal handler to the given, typed ShortcutsSectionSignalName signal

    Declaration

    Swift

    @discardableResult
@inlinable
func connect(signal s: ShortcutsSectionSignalName, flags f: ConnectFlags = ConnectFlags(0), handler h: @escaping SignalHandler) -> Int

    Parameters

    signal

    The signal to connect
    flags

    The connection flags to use
    data

    A pointer to user data to provide to the callback
    destroyData

    A GClosureNotify C function to destroy the data pointed to by userData
    handler

    The Swift signal handler (function or callback) to invoke on the given signal

    Return Value

    The signal handler ID (always greater than 0 for successful connections)

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  • Connect a C signal handler to the given, typed ShortcutsSectionSignalName signal

    Declaration

    Swift

    @discardableResult
@inlinable
func connect(signal s: ShortcutsSectionSignalName, flags f: ConnectFlags = ConnectFlags(0), data userData: gpointer!, destroyData destructor: GClosureNotify? = nil, signalHandler h: @escaping GCallback) -> Int

    Parameters

    signal

    The signal to connect
    flags

    The connection flags to use
    data

    A pointer to user data to provide to the callback
    destroyData

    A GClosureNotify C function to destroy the data pointed to by userData
    signalHandler

    The C function to be called on the given signal

    Return Value

    The signal handler ID (always greater than 0 for successful connections)

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  • Note

    This represents the underlying change-current-page signal

    Declaration

    Swift

    @discardableResult
@inlinable
func onChangeCurrentPage(flags: ConnectFlags = ConnectFlags(0), handler: @escaping (_ unownedSelf: ShortcutsSectionRef, _ object: Int) -> Bool) -> Int

    Parameters

    flags

    Flags
    unownedSelf

    Reference to instance of self
    object

    none
    handler

    The signal handler to call Run the given callback whenever the changeCurrentPage signal is emitted
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  • changeCurrentPageSignal Extension method

    Typed change-current-page signal for using the connect(signal:) methods

    Declaration

    Swift

    static var changeCurrentPageSignal: ShortcutsSectionSignalName { get }
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  • The notify signal is emitted on an object when one of its properties has its value set through g_object_set_property(), g_object_set(), et al.

    Note that getting this signal doesn’t itself guarantee that the value of the property has actually changed. When it is emitted is determined by the derived GObject class. If the implementor did not create the property with G_PARAM_EXPLICIT_NOTIFY, then any call to g_object_set_property() results in notify being emitted, even if the new value is the same as the old. If they did pass G_PARAM_EXPLICIT_NOTIFY, then this signal is emitted only when they explicitly call g_object_notify() or g_object_notify_by_pspec(), and common practice is to do that only when the value has actually changed.

    This signal is typically used to obtain change notification for a single property, by specifying the property name as a detail in the g_signal_connect() call, like this:

    (C Language Example):

    g_signal_connect (text_view->buffer, "notify::paste-target-list",
                  G_CALLBACK (gtk_text_view_target_list_notify),
                  text_view)

    It is important to note that you must use canonical parameter names as detail strings for the notify signal.

    Note

    This represents the underlying notify::max-height signal

    Declaration

    Swift

    @discardableResult
@inlinable
func onNotifyMaxHeight(flags: ConnectFlags = ConnectFlags(0), handler: @escaping (_ unownedSelf: ShortcutsSectionRef, _ pspec: ParamSpecRef) -> Void) -> Int

    Parameters

    flags

    Flags
    unownedSelf

    Reference to instance of self
    pspec

    the GParamSpec of the property which changed.
    handler

    The signal handler to call Run the given callback whenever the notifyMaxHeight signal is emitted
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  • notifyMaxHeightSignal Extension method

    Typed notify::max-height signal for using the connect(signal:) methods

    Declaration

    Swift

    static var notifyMaxHeightSignal: ShortcutsSectionSignalName { get }
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  • The notify signal is emitted on an object when one of its properties has its value set through g_object_set_property(), g_object_set(), et al.

    Note that getting this signal doesn’t itself guarantee that the value of the property has actually changed. When it is emitted is determined by the derived GObject class. If the implementor did not create the property with G_PARAM_EXPLICIT_NOTIFY, then any call to g_object_set_property() results in notify being emitted, even if the new value is the same as the old. If they did pass G_PARAM_EXPLICIT_NOTIFY, then this signal is emitted only when they explicitly call g_object_notify() or g_object_notify_by_pspec(), and common practice is to do that only when the value has actually changed.

    This signal is typically used to obtain change notification for a single property, by specifying the property name as a detail in the g_signal_connect() call, like this:

    (C Language Example):

    g_signal_connect (text_view->buffer, "notify::paste-target-list",
                  G_CALLBACK (gtk_text_view_target_list_notify),
                  text_view)

    It is important to note that you must use canonical parameter names as detail strings for the notify signal.

    Note

    This represents the underlying notify::section-name signal

    Declaration

    Swift

    @discardableResult
@inlinable
func onNotifySectionName(flags: ConnectFlags = ConnectFlags(0), handler: @escaping (_ unownedSelf: ShortcutsSectionRef, _ pspec: ParamSpecRef) -> Void) -> Int

    Parameters

    flags

    Flags
    unownedSelf

    Reference to instance of self
    pspec

    the GParamSpec of the property which changed.
    handler

    The signal handler to call Run the given callback whenever the notifySectionName signal is emitted
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  • notifySectionNameSignal Extension method

    Typed notify::section-name signal for using the connect(signal:) methods

    Declaration

    Swift

    static var notifySectionNameSignal: ShortcutsSectionSignalName { get }
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  • The notify signal is emitted on an object when one of its properties has its value set through g_object_set_property(), g_object_set(), et al.

    Note that getting this signal doesn’t itself guarantee that the value of the property has actually changed. When it is emitted is determined by the derived GObject class. If the implementor did not create the property with G_PARAM_EXPLICIT_NOTIFY, then any call to g_object_set_property() results in notify being emitted, even if the new value is the same as the old. If they did pass G_PARAM_EXPLICIT_NOTIFY, then this signal is emitted only when they explicitly call g_object_notify() or g_object_notify_by_pspec(), and common practice is to do that only when the value has actually changed.

    This signal is typically used to obtain change notification for a single property, by specifying the property name as a detail in the g_signal_connect() call, like this:

    (C Language Example):

    g_signal_connect (text_view->buffer, "notify::paste-target-list",
                  G_CALLBACK (gtk_text_view_target_list_notify),
                  text_view)

    It is important to note that you must use canonical parameter names as detail strings for the notify signal.

    Note

    This represents the underlying notify::title signal

    Declaration

    Swift

    @discardableResult
@inlinable
func onNotifyTitle(flags: ConnectFlags = ConnectFlags(0), handler: @escaping (_ unownedSelf: ShortcutsSectionRef, _ pspec: ParamSpecRef) -> Void) -> Int

    Parameters

    flags

    Flags
    unownedSelf

    Reference to instance of self
    pspec

    the GParamSpec of the property which changed.
    handler

    The signal handler to call Run the given callback whenever the notifyTitle signal is emitted
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  • notifyTitleSignal Extension method

    Typed notify::title signal for using the connect(signal:) methods

    Declaration

    Swift

    static var notifyTitleSignal: ShortcutsSectionSignalName { get }
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  • The notify signal is emitted on an object when one of its properties has its value set through g_object_set_property(), g_object_set(), et al.

    Note that getting this signal doesn’t itself guarantee that the value of the property has actually changed. When it is emitted is determined by the derived GObject class. If the implementor did not create the property with G_PARAM_EXPLICIT_NOTIFY, then any call to g_object_set_property() results in notify being emitted, even if the new value is the same as the old. If they did pass G_PARAM_EXPLICIT_NOTIFY, then this signal is emitted only when they explicitly call g_object_notify() or g_object_notify_by_pspec(), and common practice is to do that only when the value has actually changed.

    This signal is typically used to obtain change notification for a single property, by specifying the property name as a detail in the g_signal_connect() call, like this:

    (C Language Example):

    g_signal_connect (text_view->buffer, "notify::paste-target-list",
                  G_CALLBACK (gtk_text_view_target_list_notify),
                  text_view)

    It is important to note that you must use canonical parameter names as detail strings for the notify signal.

    Note

    This represents the underlying notify::view-name signal

    Declaration

    Swift

    @discardableResult
@inlinable
func onNotifyViewName(flags: ConnectFlags = ConnectFlags(0), handler: @escaping (_ unownedSelf: ShortcutsSectionRef, _ pspec: ParamSpecRef) -> Void) -> Int

    Parameters

    flags

    Flags
    unownedSelf

    Reference to instance of self
    pspec

    the GParamSpec of the property which changed.
    handler

    The signal handler to call Run the given callback whenever the notifyViewName signal is emitted
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  • notifyViewNameSignal Extension method

    Typed notify::view-name signal for using the connect(signal:) methods

    Declaration

    Swift

    static var notifyViewNameSignal: ShortcutsSectionSignalName { get }
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