GtkSharp/doc/en/Gtk/AccelMap.xml

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<Type Name="AccelMap" FullName="Gtk.AccelMap">
<TypeSignature Language="C#" Maintainer="auto" Value="public class AccelMap : GLib.Object" />
<AssemblyInfo>
<AssemblyName>gtk-sharp</AssemblyName>
<AssemblyPublicKey>[00 24 00 00 04 80 00 00 94 00 00 00 06 02 00 00 00 24 00 00 52 53 41 31 00 04 00 00 01 00 01 00 71 EB 6C 55 75 52 9C BF 72 44 F7 A6 EA 05 62 84 F9 EA E0 3B CF F2 CC 13 2C 9C 49 0A B3 09 EA B0 B5 6B CE 44 9D F5 03 D9 C0 A8 1E 52 05 85 CD BE 70 E2 FB 90 43 4B AC 04 FA 62 22 A8 00 98 B7 A1 A7 B3 AF 99 1A 41 23 24 BB 43 25 F6 B8 65 BB 64 EB F6 D1 C2 06 D5 73 2D DF BC 70 A7 38 9E E5 3E 0C 24 6E 32 79 74 1A D0 05 03 E4 98 42 E1 9B F3 7B 19 8B 40 21 26 CB 36 89 C2 EA 64 96 A4 7C B4]</AssemblyPublicKey>
<AssemblyVersion>2.6.0.0</AssemblyVersion>
</AssemblyInfo>
<ThreadSafetyStatement>Gtk# is thread aware, but not thread safe; See the <link location="node:gtk-sharp/programming/threads">Gtk# Thread Programming</link> for details.</ThreadSafetyStatement>
<Docs>
<summary>Global accelerator map for an entire application.</summary>
<remarks>This class is a singleton; only one can exist at a time.</remarks>
<since version="Gtk# 2.4" />
</Docs>
<Base>
<BaseTypeName>GLib.Object</BaseTypeName>
</Base>
<Interfaces>
</Interfaces>
<Members>
<Member MemberName="LookupEntry">
<MemberSignature Language="C#" Value="public static bool LookupEntry (string accel_path, Gtk.AccelKey key);" />
<MemberType>Method</MemberType>
<ReturnValue>
<ReturnType>System.Boolean</ReturnType>
</ReturnValue>
<Parameters>
<Parameter Name="accel_path" Type="System.String" />
<Parameter Name="key" Type="Gtk.AccelKey" />
</Parameters>
<Docs>
<summary>Looks up the accelerator entry for <paramref name="accel_path" /> and fills in <paramref name="key" />.</summary>
<param name="accel_path">a <see cref="T:System.String" />, a valid accelerator path</param>
<param name="key">a <see cref="T:Gtk.AccelKey" />, the accelerator key to be filled in (optional)</param>
<returns>a <see cref="T:System.Boolean" />, <see langword="true" /> if <paramref name="accel_path" /> is known, <see langword="false" /> otherwise.</returns>
<remarks>
</remarks>
</Docs>
</Member>
<Member MemberName="LockPath">
<MemberSignature Language="C#" Value="public static void LockPath (string accel_path);" />
<MemberType>Method</MemberType>
<ReturnValue>
<ReturnType>System.Void</ReturnType>
</ReturnValue>
<Parameters>
<Parameter Name="accel_path" Type="System.String" />
</Parameters>
<Docs>
<summary>
Locks the given accelerator path. If the accelerator map doesn't yet contain
an entry for <paramref name="accel_path" />, a new one is created.
</summary>
<param name="accel_path">a <see cref="T:System.String" /></param>
<remarks>
<para>
Locking an accelerator path prevents its accelerator from being changed
during runtime. A locked accelerator path can be unlocked by
<see cref="M:Gtk.AccelMap.UnlockPath" />.
Refer to <see cref="M:Gtk.AccelMap.ChangeEntry" />
for information about runtime accelerator changes.
</para>
<para>
If called more than once, <paramref name="accel_path" /> remains locked until
<see cref="M:Gtk.AccelMap.UnlockPath" />
has been called an equivalent number of times.
</para>
<para>
Note that locking of individual accelerator paths is independent from
locking the <see cref="T:Gtk.AccelGroup" /> containing them. For runtime accelerator
changes to be possible both the accelerator path and its
<see cref="T:Gtk.AccelGroup" /> have to be unlocked.
</para>
</remarks>
</Docs>
</Member>
<Member MemberName="UnlockPath">
<MemberSignature Language="C#" Value="public static void UnlockPath (string accel_path);" />
<MemberType>Method</MemberType>
<ReturnValue>
<ReturnType>System.Void</ReturnType>
</ReturnValue>
<Parameters>
<Parameter Name="accel_path" Type="System.String" />
</Parameters>
<Docs>
<summary>
Undoes the last call to <see cref="M:Gtk.AccelMap.LockPath" />
on this <paramref name="accel_path" />.
</summary>
<param name="accel_path">a <see cref="T:System.String" />, a valid accelerator path</param>
<remarks>
Refer to <see cref="M:Gtk.AccelMap.LockPath" /> for information
about accelerator path locking.</remarks>
</Docs>
</Member>
<Member MemberName="ChangeEntry">
<MemberSignature Language="C#" Value="public static bool ChangeEntry (string accel_path, uint accel_key, Gdk.ModifierType accel_mods, bool replace);" />
<MemberType>Method</MemberType>
<ReturnValue>
<ReturnType>System.Boolean</ReturnType>
</ReturnValue>
<Parameters>
<Parameter Name="accel_path" Type="System.String" />
<Parameter Name="accel_key" Type="System.UInt32" />
<Parameter Name="accel_mods" Type="Gdk.ModifierType" />
<Parameter Name="replace" Type="System.Boolean" />
</Parameters>
<Docs>
<summary>
Changes the <paramref name="accel_key" /> and <paramref name="accel_mods" /> currently associated with
<paramref name="accel_path" />.
</summary>
<param name="accel_path">a <see cref="T:System.String" /></param>
<param name="accel_key">a <see cref="T:System.UInt32" /></param>
<param name="accel_mods">a <see cref="T:System.Int32" /></param>
<param name="replace">a <see cref="T:System.Boolean" /></param>
<returns>a <see cref="T:System.Boolean" /></returns>
<remarks>
Due to conflicts with other accelerators, a change may not always be possible. The
<paramref name="replace" /> parameter indicates whether other accelerators may be deleted to resolve such
conflicts. A change will only occur if all conflicts could be resolved (which might not be the case if conflicting accelerators are locked). Successful
changes are indicated by a <see langword="true" /> return value.
</remarks>
</Docs>
</Member>
<Member MemberName="Load">
<MemberSignature Language="C#" Value="public static void Load (string file_name);" />
<MemberType>Method</MemberType>
<ReturnValue>
<ReturnType>System.Void</ReturnType>
</ReturnValue>
<Parameters>
<Parameter Name="file_name" Type="System.String" />
</Parameters>
<Docs>
<summary>
Parses a file previously saved with <see cref="M:Gtk.AccelMap.Save" />
for accelerator specifications, and propagates them accordingly.
</summary>
<param name="file_name">a <see cref="T:System.String" /></param>
<remarks>
</remarks>
</Docs>
</Member>
<Member MemberName="SaveFd">
<MemberSignature Language="C#" Value="public static void SaveFd (int fd);" />
<MemberType>Method</MemberType>
<ReturnValue>
<ReturnType>System.Void</ReturnType>
</ReturnValue>
<Parameters>
<Parameter Name="fd" Type="System.Int32" />
</Parameters>
<Docs>
<summary>
File descriptor variant of <see cref="M:Gtk.AccelMap.Save" />.
</summary>
<param name="fd">a <see cref="T:System.Int32" />, a valid writeable file descriptor</param>
<remarks>
</remarks>
</Docs>
</Member>
<Member MemberName="Save">
<MemberSignature Language="C#" Value="public static void Save (string file_name);" />
<MemberType>Method</MemberType>
<ReturnValue>
<ReturnType>System.Void</ReturnType>
</ReturnValue>
<Parameters>
<Parameter Name="file_name" Type="System.String" />
</Parameters>
<Docs>
<summary>
Saves current accelerator specifications (accelerator path, key
and modifiers) to <paramref name="file_name" />.
The file is written in a format suitable to be read back in by
<see cref="M:Gtk.AccelMap.Load" />.
</summary>
<param name="file_name">a <see cref="T:System.String" />, a file to contain accelerator specifications</param>
<remarks>
</remarks>
</Docs>
</Member>
<Member MemberName="LoadFd">
<MemberSignature Language="C#" Value="public static void LoadFd (int fd);" />
<MemberType>Method</MemberType>
<ReturnValue>
<ReturnType>System.Void</ReturnType>
</ReturnValue>
<Parameters>
<Parameter Name="fd" Type="System.Int32" />
</Parameters>
<Docs>
<summary>
File descriptor variant of <see cref="M:Gtk.AccelMap.Load" />.
</summary>
<param name="fd">a <see cref="T:System.Int32" />, a valid readable file descriptor.</param>
<remarks>
</remarks>
</Docs>
</Member>
<Member MemberName="AddEntry">
<MemberSignature Language="C#" Value="public static void AddEntry (string accel_path, uint accel_key, Gdk.ModifierType accel_mods);" />
<MemberType>Method</MemberType>
<ReturnValue>
<ReturnType>System.Void</ReturnType>
</ReturnValue>
<Parameters>
<Parameter Name="accel_path" Type="System.String" />
<Parameter Name="accel_key" Type="System.UInt32" />
<Parameter Name="accel_mods" Type="Gdk.ModifierType" />
</Parameters>
<Docs>
<summary>
Registers a new accelerator with the global accelerator map.
</summary>
<param name="accel_path">a <see cref="T:System.String" /></param>
<param name="accel_key">a <see cref="T:System.UInt32" /></param>
<param name="accel_mods">a <see cref="T:System.Int32" /></param>
<remarks>
This function should only be called once per <paramref name="accel_path" />
with the canonical <paramref name="accel_key" /> and <paramref name="accel_mods" /> for this path.
To change the accelerator during runtime programatically, use
<see cref="M:Gtk.AccelMap.ChangeEntry" />.
The accelerator path must consist of "&lt;WINDOWTYPE&gt;/Category1/Category2/.../Action",
where &lt;WINDOWTYPE&gt; should be a unique application-specific identifier, that
corresponds to the kind of window the accelerator is being used in, e.g. "Gimp-Image",
"Abiword-Document" or "Gnumeric-Settings".
The Category1/.../Action portion is most appropriately chosen by the action the
accelerator triggers, i.e. for accelerators on menu items, choose the item's menu path,
e.g. "File/Save As", "Image/View/Zoom" or "Edit/Select All".
So a full valid accelerator path may look like:
"&lt;Gimp-Toolbox&gt;/File/Dialogs/Tool Options...".
</remarks>
</Docs>
</Member>
<Member MemberName="AddFilter">
<MemberSignature Language="C#" Value="public static void AddFilter (string filter_pattern);" />
<MemberType>Method</MemberType>
<ReturnValue>
<ReturnType>System.Void</ReturnType>
</ReturnValue>
<Parameters>
<Parameter Name="filter_pattern" Type="System.String" />
</Parameters>
<Docs>
<summary>
Adds a filter to the global list of accel path filters.
</summary>
<param name="filter_pattern">a <see cref="T:System.String" /></param>
<remarks>
<para>
Accel map entries whose accel path matches one of the filters
are skipped by <see cref="M:Gtk.AccelMap.Foreach" />.
</para>
<para>
This function is intended for Gtk# modules that create their own
menus but don't want them to be saved into the applications
accelerator map dump.
</para>
</remarks>
</Docs>
</Member>
<Member MemberName="Get">
<MemberSignature Language="C#" Value="public static Gtk.AccelMap Get ();" />
<MemberType>Method</MemberType>
<ReturnValue>
<ReturnType>Gtk.AccelMap</ReturnType>
</ReturnValue>
<Parameters />
<Docs>
<summary>
Gets the singleton global<see cref="T:Gtk.AccelMap" />. object. This object
is useful only for notification of changes to the accelerator
map via the internal "changed" signal; it isn't a parameter to the
other accelerator map functions.
</summary>
<returns>a <see cref="T:Gtk.AccelMap" /></returns>
<remarks>
</remarks>
</Docs>
</Member>
<Member MemberName="Foreach">
<MemberSignature Language="C#" Value="public static void Foreach (IntPtr data, Gtk.AccelMapForeach foreach_func);" />
<MemberType>Method</MemberType>
<ReturnValue>
<ReturnType>System.Void</ReturnType>
</ReturnValue>
<Parameters>
<Parameter Name="data" Type="System.IntPtr" />
<Parameter Name="foreach_func" Type="Gtk.AccelMapForeach" />
</Parameters>
<Docs>
<summary>
Loops over the entries in the accelerator map whose accel path
doesn't match any of the filters added with
<see cref="M:Gtk.AccelMap.AddFilter" />
and executes <paramref name="foreach_func" /> on each.
</summary>
<param name="data">a <see cref="T:System.IntPtr" />, data to pass to <paramref name="foreach_func" /></param>
<param name="foreach_func">a <see cref="T:Gtk.AccelMapForeach" />, function to execute on each accel map entrey</param>
<remarks>
See also <see cref="M:Gtk.AccelMap.ForeachUnfiltered" />.
XXX: See http://bugzilla.ximian.com/show_bug.cgi?id=70912.
</remarks>
</Docs>
</Member>
<Member MemberName="ForeachUnfiltered">
<MemberSignature Language="C#" Value="public static void ForeachUnfiltered (IntPtr data, Gtk.AccelMapForeach foreach_func);" />
<MemberType>Method</MemberType>
<ReturnValue>
<ReturnType>System.Void</ReturnType>
</ReturnValue>
<Parameters>
<Parameter Name="data" Type="System.IntPtr" />
<Parameter Name="foreach_func" Type="Gtk.AccelMapForeach" />
</Parameters>
<Docs>
<summary>Loops over all entries in the accelerator map and executes
* <paramref name="foreach_func" /> on each.</summary>
<param name="data">a <see cref="T:System.IntPtr" /></param>
<param name="foreach_func">a <see cref="T:Gtk.AccelMapForeach" /></param>
<remarks>
See also <see cref="M:Gtk.AccelMap.Foreach" />.
</remarks>
</Docs>
</Member>
<Member MemberName=".ctor">
<MemberSignature Language="C#" Value="protected AccelMap (GLib.GType gtype);" />
<MemberType>Constructor</MemberType>
<ReturnValue />
<Parameters>
<Parameter Name="gtype" Type="GLib.GType" />
</Parameters>
<Docs>
<summary>Protected Constructor.</summary>
<param name="gtype">a <see cref="T:GLib.GType" /></param>
<remarks>Chain to this constructor if you have manually registered a native <see cref="T:GLib.GType" /> value for your subclass.</remarks>
</Docs>
<Attributes>
<Attribute>
<AttributeName>System.Obsolete(Message=null, IsError=False)</AttributeName>
</Attribute>
</Attributes>
</Member>
<Member MemberName=".ctor">
<MemberSignature Language="C#" Value="public AccelMap (IntPtr raw);" />
<MemberType>Constructor</MemberType>
<ReturnValue />
<Parameters>
<Parameter Name="raw" Type="System.IntPtr" />
</Parameters>
<Docs>
<summary>Internal constructor</summary>
<param name="raw">a <see cref="T:System.IntPtr" /></param>
<remarks>This is not typically used by C# code.</remarks>
</Docs>
</Member>
<Member MemberName=".ctor">
<MemberSignature Language="C#" Value="protected AccelMap ();" />
<MemberType>Constructor</MemberType>
<ReturnValue />
<Parameters />
<Docs>
<summary>Protected constructor.</summary>
<remarks>
</remarks>
</Docs>
</Member>
<Member MemberName="GType">
<MemberSignature Language="C#" Value="public static GLib.GType GType { get; };" />
<MemberType>Property</MemberType>
<ReturnValue>
<ReturnType>GLib.GType</ReturnType>
</ReturnValue>
<Parameters />
<Docs>
<summary>GType Property.</summary>
<value>a <see cref="T:GLib.GType" /></value>
<remarks>Returns the native <see cref="T:GLib.GType" /> value for <see cref="T:Gtk.AccelMap" />.</remarks>
</Docs>
</Member>
<Member MemberName="MapChanged">
<MemberSignature Language="C#" Value="public event Gtk.MapChangedHandler MapChanged;" />
<MemberType>Event</MemberType>
<ReturnValue>
<ReturnType>Gtk.MapChangedHandler</ReturnType>
</ReturnValue>
<Parameters />
<Docs>
<summary>Fired when there is a change to the global accelerator map.</summary>
<remarks>
</remarks>
</Docs>
<Attributes>
<Attribute>
<AttributeName>GLib.Signal(CName="changed")</AttributeName>
</Attribute>
</Attributes>
</Member>
<Member MemberName="OnMapChanged">
<MemberSignature Language="C#" Value="protected virtual void OnMapChanged (string accel_path, uint accel_key, Gdk.ModifierType accel_mods);" />
<MemberType>Method</MemberType>
<ReturnValue>
<ReturnType>System.Void</ReturnType>
</ReturnValue>
<Parameters>
<Parameter Name="accel_path" Type="System.String" />
<Parameter Name="accel_key" Type="System.UInt32" />
<Parameter Name="accel_mods" Type="Gdk.ModifierType" />
</Parameters>
<Docs>
<summary>Default handler for the <see cref="M:Gtk.AccelMap.MapChanged" /> event.</summary>
<param name="accel_path">a <see cref="T:System.String" /></param>
<param name="accel_key">a <see cref="T:System.UInt32" /></param>
<param name="accel_mods">a <see cref="T:System.Int32" /></param>
<remarks>Override this method in a subclass to provide a default handler for the <see cref="M:Gtk.AccelMap.MapChanged" /> event.</remarks>
</Docs>
</Member>
</Members>
</Type>