GtkSharp/gtk/Widget.cs
Mikkel Kruse Johnsen a8d9a119d8 Update to Gtk 3.18.2
Had to change gapi2xml.pl to use the new properties method/macro in gtkwindow.c
- Issue, "invisible-chars" and "inner-border" is generated twice in gtkentry.c

Made patch to gwin32registrykey to use little endian by default. So Windows om ARM may fail.
2015-11-10 11:37:34 +01:00

417 lines
14 KiB
C#

//
// Gtk.Widget.cs - Gtk Widget class customizations
//
// Authors: Rachel Hestilow <hestilow@ximian.com>,
// Brad Taylor <brad@getcoded.net>
//
// Copyright (C) 2007 Brad Taylor
// Copyright (C) 2002 Rachel Hestilow
//
// This program is free software; you can redistribute it and/or
// modify it under the terms of version 2 of the Lesser GNU General
// Public License as published by the Free Software Foundation.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public
// License along with this program; if not, write to the
// Free Software Foundation, Inc., 59 Temple Place - Suite 330,
// Boston, MA 02111-1307, USA.
namespace Gtk {
using System;
using System.Collections.Generic;
using System.Runtime.InteropServices;
public partial class Widget {
[Obsolete ("Replaced by Window property.")]
public Gdk.Window GdkWindow {
get { return Window; }
set { Window = value; }
}
public void AddAccelerator (string accel_signal, AccelGroup accel_group, AccelKey accel_key)
{
this.AddAccelerator (accel_signal, accel_group, (uint) accel_key.Key, accel_key.AccelMods, accel_key.AccelFlags);
}
/*
public int FocusLineWidth {
get {
return (int) StyleGetProperty ("focus-line-width");
}
}
*/
struct GClosure {
long fields;
IntPtr marshaler;
IntPtr data;
IntPtr notifiers;
}
[UnmanagedFunctionPointer (CallingConvention.Cdecl)]
delegate void ClosureMarshal (IntPtr closure, IntPtr return_val, uint n_param_vals, IntPtr param_values, IntPtr invocation_hint, IntPtr marshal_data);
[DllImport ("libgobject-2.0-0.dll", CallingConvention = CallingConvention.Cdecl)]
static extern IntPtr g_closure_new_simple (int closure_size, IntPtr dummy);
[DllImport ("libgobject-2.0-0.dll", CallingConvention = CallingConvention.Cdecl)]
static extern void g_closure_set_marshal (IntPtr closure, ClosureMarshal marshaler);
static IntPtr CreateClosure (ClosureMarshal marshaler) {
IntPtr raw_closure = g_closure_new_simple (Marshal.SizeOf (typeof (GClosure)), IntPtr.Zero);
g_closure_set_marshal (raw_closure, marshaler);
return raw_closure;
}
[DllImport ("libgobject-2.0-0.dll", CallingConvention = CallingConvention.Cdecl)]
static extern uint g_signal_newv (IntPtr signal_name, IntPtr gtype, GLib.Signal.Flags signal_flags, IntPtr closure, IntPtr accumulator, IntPtr accu_data, IntPtr c_marshaller, IntPtr return_type, uint n_params, [MarshalAs (UnmanagedType.LPArray)] IntPtr[] param_types);
static uint RegisterSignal (string signal_name, GLib.GType gtype, GLib.Signal.Flags signal_flags, GLib.GType return_type, GLib.GType[] param_types, ClosureMarshal marshaler)
{
IntPtr[] native_param_types = new IntPtr [param_types.Length];
for (int parm_idx = 0; parm_idx < param_types.Length; parm_idx++)
native_param_types [parm_idx] = param_types [parm_idx].Val;
IntPtr native_signal_name = GLib.Marshaller.StringToPtrGStrdup (signal_name);
try {
return g_signal_newv (native_signal_name, gtype.Val, signal_flags, CreateClosure (marshaler), IntPtr.Zero, IntPtr.Zero, IntPtr.Zero, return_type.Val, (uint) param_types.Length, native_param_types);
} finally {
GLib.Marshaller.Free (native_signal_name);
}
}
static void ActivateMarshal_cb (IntPtr raw_closure, IntPtr return_val, uint n_param_vals, IntPtr param_values, IntPtr invocation_hint, IntPtr marshal_data)
{
try {
GLib.Value inst_val = (GLib.Value) Marshal.PtrToStructure (param_values, typeof (GLib.Value));
Widget inst;
try {
inst = inst_val.Val as Widget;
} catch (GLib.MissingIntPtrCtorException) {
return;
}
inst.OnActivate ();
} catch (Exception e) {
GLib.ExceptionManager.RaiseUnhandledException (e, false);
}
}
static ClosureMarshal ActivateMarshalCallback;
static void ConnectActivate (GLib.GType gtype)
{
if (ActivateMarshalCallback == null)
ActivateMarshalCallback = new ClosureMarshal (ActivateMarshal_cb);
GtkWidgetClass klass = GetClassStruct (gtype, false);
klass.ActivateSignal = RegisterSignal ("activate_signal", gtype, GLib.Signal.Flags.RunLast, GLib.GType.None, new GLib.GType [0], ActivateMarshalCallback);
OverrideClassStruct (gtype, klass);
}
[GLib.DefaultSignalHandler (Type=typeof (Gtk.Widget), ConnectionMethod="ConnectActivate")]
protected virtual void OnActivate ()
{
}
private class BindingInvoker {
System.Reflection.MethodInfo mi;
object[] parms;
public BindingInvoker (System.Reflection.MethodInfo mi, object[] parms)
{
this.mi = mi;
this.parms = parms;
}
public void Invoke (Widget w)
{
mi.Invoke (w, parms);
}
}
/* As gtk_binding_entry_add_signall only allows passing long, double and string parameters
* to the specified signal, we cannot pass a pointer to the BindingInvoker directly to the signal.
* Instead, the signal takes the index of the BindingInvoker in binding_invokers.
*/
static IList<BindingInvoker> binding_invokers;
static void BindingMarshal_cb (IntPtr raw_closure, IntPtr return_val, uint n_param_vals, IntPtr param_values, IntPtr invocation_hint, IntPtr marshal_data)
{
try {
GLib.Value[] inst_and_params = new GLib.Value [n_param_vals];
int gvalue_size = Marshal.SizeOf (typeof (GLib.Value));
for (int idx = 0; idx < n_param_vals; idx++)
inst_and_params [idx] = (GLib.Value) Marshal.PtrToStructure (new IntPtr (param_values.ToInt64 () + idx * gvalue_size), typeof (GLib.Value));
Widget w = inst_and_params [0].Val as Widget;
BindingInvoker invoker = binding_invokers [(int) (long) inst_and_params [1]];
invoker.Invoke (w);
} catch (Exception e) {
GLib.ExceptionManager.RaiseUnhandledException (e, false);
}
}
static ClosureMarshal binding_delegate;
static ClosureMarshal BindingDelegate {
get {
if (binding_delegate == null)
binding_delegate = new ClosureMarshal (BindingMarshal_cb);
return binding_delegate;
}
}
[DllImport (Global.GtkNativeDll, CallingConvention = CallingConvention.Cdecl)]
static extern IntPtr gtk_binding_set_by_class (IntPtr class_ptr);
[DllImport (Global.GtkNativeDll, CallingConvention = CallingConvention.Cdecl)]
static extern void gtk_binding_entry_add_signall (IntPtr binding_set, uint keyval, Gdk.ModifierType modifiers, IntPtr signal_name, IntPtr binding_args);
[StructLayout(LayoutKind.Sequential)]
struct GtkBindingArg {
public IntPtr arg_type;
public GtkBindingArgData data;
}
[StructLayout(LayoutKind.Explicit)]
struct GtkBindingArgData {
#if WIN64LONGS
[FieldOffset (0)] public int long_data;
#else
[FieldOffset (0)] public IntPtr long_data;
#endif
[FieldOffset (0)] public double double_data;
[FieldOffset (0)] public IntPtr string_data;
}
static void ClassInit (GLib.GType gtype, Type t)
{
object[] attrs = t.GetCustomAttributes (typeof (BindingAttribute), true);
if (attrs.Length == 0) return;
string signame = t.Name.Replace (".", "_") + "_bindings";
IntPtr native_signame = GLib.Marshaller.StringToPtrGStrdup (signame);
RegisterSignal (signame, gtype, GLib.Signal.Flags.RunLast | GLib.Signal.Flags.Action, GLib.GType.None, new GLib.GType[] {GLib.GType.Long}, BindingDelegate);
if (binding_invokers == null)
binding_invokers = new List<BindingInvoker> ();
foreach (BindingAttribute attr in attrs) {
System.Reflection.MethodInfo mi = t.GetMethod (attr.Handler, System.Reflection.BindingFlags.Instance | System.Reflection.BindingFlags.NonPublic | System.Reflection.BindingFlags.Public);
if (mi == null)
throw new Exception ("Instance method " + attr.Handler + " not found in " + t);
GtkBindingArg arg = new GtkBindingArg ();
arg.arg_type = GLib.GType.Long.Val;
var bi = new BindingInvoker (mi, attr.Parms);
binding_invokers.Add (bi);
int binding_invoker_idx = binding_invokers.IndexOf (bi);
#if WIN64LONGS
arg.data.long_data = binding_invoker_idx;
#else
arg.data.long_data = new IntPtr (binding_invoker_idx);
#endif
GLib.SList binding_args = new GLib.SList (new object[] {arg}, typeof (GtkBindingArg), false, false);
gtk_binding_entry_add_signall (gtk_binding_set_by_class (gtype.GetClassPtr ()), (uint) attr.Key, attr.Mod, native_signame, binding_args.Handle);
binding_args.Dispose ();
}
GLib.Marshaller.Free (native_signame);
}
public object StyleGetProperty (string property_name)
{
GLib.Value value;
try {
value = StyleGetPropertyValue (property_name);
} catch (ArgumentException) {
return null;
}
object ret = value.Val;
value.Dispose ();
return ret;
}
[DllImport (Global.GtkNativeDll, CallingConvention = CallingConvention.Cdecl)]
static extern IntPtr gtk_widget_class_find_style_property (IntPtr class_ptr, IntPtr property_name);
[DllImport (Global.GtkNativeDll, CallingConvention = CallingConvention.Cdecl)]
static extern IntPtr gtk_widget_style_get_property (IntPtr inst, IntPtr property_name, ref GLib.Value value);
internal GLib.Value StyleGetPropertyValue (string property_name)
{
IntPtr native_name = GLib.Marshaller.StringToPtrGStrdup (property_name);
try {
IntPtr pspec_ptr = gtk_widget_class_find_style_property (this.LookupGType ().GetClassPtr (), native_name);
if (pspec_ptr == IntPtr.Zero)
throw new ArgumentException (String.Format ("Cannot find style property \"{0}\"", property_name));
GLib.Value value = new GLib.Value ((new GLib.ParamSpec (pspec_ptr)).ValueType);
gtk_widget_style_get_property (Handle, native_name, ref value);
return value;
} finally {
GLib.Marshaller.Free (native_name);
}
}
[DllImport (Global.GtkNativeDll, CallingConvention = CallingConvention.Cdecl)]
static extern IntPtr gtk_widget_list_mnemonic_labels (IntPtr raw);
public Widget[] ListMnemonicLabels ()
{
IntPtr raw_ret = gtk_widget_list_mnemonic_labels (Handle);
if (raw_ret == IntPtr.Zero)
return new Widget [0];
GLib.List list = new GLib.List(raw_ret);
Widget[] result = new Widget [list.Count];
for (int i = 0; i < list.Count; i++)
result [i] = list [i] as Widget;
return result;
}
/*
public void ModifyBase (Gtk.StateType state)
{
gtk_widget_modify_base (Handle, (int) state, IntPtr.Zero);
}
*/
public void ModifyBg (Gtk.StateType state)
{
gtk_widget_modify_bg (Handle, (int) state, IntPtr.Zero);
}
public void ModifyFg (Gtk.StateType state)
{
gtk_widget_modify_fg (Handle, (int) state, IntPtr.Zero);
}
/*
public void ModifyText (Gtk.StateType state)
{
gtk_widget_modify_text (Handle, (int) state, IntPtr.Zero);
}
*/
public void Path (out string path, out string path_reversed)
{
uint len;
Path (out len, out path, out path_reversed);
}
static IDictionary<IntPtr, Delegate> destroy_handlers;
static IDictionary<IntPtr, Delegate> DestroyHandlers {
get {
if (destroy_handlers == null)
destroy_handlers = new Dictionary<IntPtr, Delegate> ();
return destroy_handlers;
}
}
private static void OverrideDestroyed (GLib.GType gtype)
{
// Do Nothing. We don't want to hook into the native vtable.
// We will manually invoke the VM on signal invocation. The signal
// always raises before the default handler because this signal
// is RUN_CLEANUP.
}
[GLib.DefaultSignalHandler(Type=typeof(Gtk.Widget), ConnectionMethod="OverrideDestroyed")]
protected virtual void OnDestroyed ()
{
if (DestroyHandlers.ContainsKey (Handle)) {
EventHandler handler = (EventHandler) DestroyHandlers [Handle];
handler (this, EventArgs.Empty);
DestroyHandlers.Remove (Handle);
}
}
[GLib.Signal("destroy")]
public event EventHandler Destroyed {
add {
Delegate delegate_handler;
DestroyHandlers.TryGetValue (Handle, out delegate_handler);
var handler = delegate_handler as EventHandler;
DestroyHandlers [Handle] = Delegate.Combine (handler, value);
}
remove {
Delegate delegate_handler;
DestroyHandlers.TryGetValue (Handle, out delegate_handler);
var handler = delegate_handler as EventHandler;
handler = (EventHandler) Delegate.Remove (handler, value);
if (handler != null)
DestroyHandlers [Handle] = handler;
else
DestroyHandlers.Remove (Handle);
}
}
event EventHandler InternalDestroyed {
add {
AddSignalHandler ("destroy", value);
}
remove {
RemoveSignalHandler ("destroy", value);
}
}
static void NativeDestroy (object o, EventArgs args)
{
Gtk.Widget widget = o as Gtk.Widget;
if (widget == null)
return;
widget.OnDestroyed ();
}
static EventHandler native_destroy_handler;
static EventHandler NativeDestroyHandler {
get {
if (native_destroy_handler == null)
native_destroy_handler = new EventHandler (NativeDestroy);
return native_destroy_handler;
}
}
protected override void CreateNativeObject (string[] names, GLib.Value[] vals)
{
base.CreateNativeObject (names, vals);
}
protected override void Dispose (bool disposing)
{
if (Handle == IntPtr.Zero)
return;
InternalDestroyed -= NativeDestroyHandler;
base.Dispose (disposing);
}
protected override IntPtr Raw {
get {
return base.Raw;
}
set {
base.Raw = value;
if (value != IntPtr.Zero)
InternalDestroyed += NativeDestroyHandler;
}
}
[DllImport (Global.GtkNativeDll, CallingConvention = CallingConvention.Cdecl)]
private static extern void gtk_widget_destroy (IntPtr raw);
public virtual void Destroy ()
{
if (Handle == IntPtr.Zero)
return;
gtk_widget_destroy (Handle);
InternalDestroyed -= NativeDestroyHandler;
}
}
}