Mercurial > projects > dwt-linux
view dwt/widgets/Shell.d @ 30:5e5d1c9cffdb
ATK, Control
| author | Frank Benoit <benoit@tionex.de> |
|---|---|
| date | Wed, 09 Jan 2008 06:17:26 +0100 |
| parents | ffa3c27c4328 |
| children | 27324bbbac70 |
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/******************************************************************************* * Copyright (c) 2000, 2007 IBM Corporation and others. * All rights reserved. This program and the accompanying materials * are made available under the terms of the Eclipse Public License v1.0 * which accompanies this distribution, and is available at * http://www.eclipse.org/legal/epl-v10.html * * Contributors: * IBM Corporation - initial API and implementation *******************************************************************************/ module dwt.widgets.Shell; import dwt.widgets.Composite; import dwt.widgets.Control; import dwt.internal.gtk.c.gtktypes; class Shell : Composite { GtkWidget* shellHandle; bool isDisposed(); void dispose(); void fixStyle (); void redraw (bool); void layout (bool, bool); void setSavedFocus(Control); GtkWidget* vboxHandle; void fixShell (Shell newShell, Control control) ; void bringToTop (bool force); public void forceActive () ; void setActiveControl (Control control) ; void setToolTipText (GtkWidget* widget, char[] str) ; } /++ import dwt.*; import dwt.internal.*; import dwt.internal.gtk.*; import dwt.graphics.*; import dwt.events.*; /** * Instances of this class represent the "windows" * which the desktop or "window manager" is managing. * Instances that do not have a parent (that is, they * are built using the constructor, which takes a * <code>Display</code> as the argument) are described * as <em>top level</em> shells. Instances that do have * a parent are described as <em>secondary</em> or * <em>dialog</em> shells. * <p> * Instances are always displayed in one of the maximized, * minimized or normal states: * <ul> * <li> * When an instance is marked as <em>maximized</em>, the * window manager will typically resize it to fill the * entire visible area of the display, and the instance * is usually put in a state where it can not be resized * (even if it has style <code>RESIZE</code>) until it is * no longer maximized. * </li><li> * When an instance is in the <em>normal</em> state (neither * maximized or minimized), its appearance is controlled by * the style constants which were specified when it was created * and the restrictions of the window manager (see below). * </li><li> * When an instance has been marked as <em>minimized</em>, * its contents (client area) will usually not be visible, * and depending on the window manager, it may be * "iconified" (that is, replaced on the desktop by a small * simplified representation of itself), relocated to a * distinguished area of the screen, or hidden. Combinations * of these changes are also possible. * </li> * </ul> * </p><p> * The <em>modality</em> of an instance may be specified using * style bits. The modality style bits are used to determine * whether input is blocked for other shells on the display. * The <code>PRIMARY_MODAL</code> style allows an instance to block * input to its parent. The <code>APPLICATION_MODAL</code> style * allows an instance to block input to every other shell in the * display. The <code>SYSTEM_MODAL</code> style allows an instance * to block input to all shells, including shells belonging to * different applications. * </p><p> * Note: The styles supported by this class are treated * as <em>HINT</em>s, since the window manager for the * desktop on which the instance is visible has ultimate * control over the appearance and behavior of decorations * and modality. For example, some window managers only * support resizable windows and will always assume the * RESIZE style, even if it is not set. In addition, if a * modality style is not supported, it is "upgraded" to a * more restrictive modality style that is supported. For * example, if <code>PRIMARY_MODAL</code> is not supported, * it would be upgraded to <code>APPLICATION_MODAL</code>. * A modality style may also be "downgraded" to a less * restrictive style. For example, most operating systems * no longer support <code>SYSTEM_MODAL</code> because * it can freeze up the desktop, so this is typically * downgraded to <code>APPLICATION_MODAL</code>. * <dl> * <dt><b>Styles:</b></dt> * <dd>BORDER, CLOSE, MIN, MAX, NO_TRIM, RESIZE, TITLE, ON_TOP, TOOL</dd> * <dd>APPLICATION_MODAL, MODELESS, PRIMARY_MODAL, SYSTEM_MODAL</dd> * <dt><b>Events:</b></dt> * <dd>Activate, Close, Deactivate, Deiconify, Iconify</dd> * </dl> * Class <code>SWT</code> provides two "convenience constants" * for the most commonly required style combinations: * <dl> * <dt><code>SHELL_TRIM</code></dt> * <dd> * the result of combining the constants which are required * to produce a typical application top level shell: (that * is, <code>CLOSE | TITLE | MIN | MAX | RESIZE</code>) * </dd> * <dt><code>DIALOG_TRIM</code></dt> * <dd> * the result of combining the constants which are required * to produce a typical application dialog shell: (that * is, <code>TITLE | CLOSE | BORDER</code>) * </dd> * </dl> * </p> * <p> * Note: Only one of the styles APPLICATION_MODAL, MODELESS, * PRIMARY_MODAL and SYSTEM_MODAL may be specified. * </p><p> * IMPORTANT: This class is not intended to be subclassed. * </p> * * @see Decorations * @see SWT */ public class Shell extends Decorations { int /*long*/ shellHandle, tooltipsHandle, tooltipWindow; boolean mapped, moved, resized, opened; int oldX, oldY, oldWidth, oldHeight; int minWidth, minHeight; Control lastActive; Region region; static final int MAXIMUM_TRIM = 128; /** * Constructs a new instance of this class. This is equivalent * to calling <code>Shell((Display) null)</code>. * * @exception SWTException <ul> * <li>ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the parent</li> * <li>ERROR_INVALID_SUBCLASS - if this class is not an allowed subclass</li> * </ul> */ public Shell () { this ((Display) null); } /** * Constructs a new instance of this class given only the style * value describing its behavior and appearance. This is equivalent * to calling <code>Shell((Display) null, style)</code>. * <p> * The style value is either one of the style constants defined in * class <code>SWT</code> which is applicable to instances of this * class, or must be built by <em>bitwise OR</em>'ing together * (that is, using the <code>int</code> "|" operator) two or more * of those <code>SWT</code> style constants. The class description * lists the style constants that are applicable to the class. * Style bits are also inherited from superclasses. * </p> * * @param style the style of control to construct * * @exception SWTException <ul> * <li>ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the parent</li> * <li>ERROR_INVALID_SUBCLASS - if this class is not an allowed subclass</li> * </ul> * * @see SWT#BORDER * @see SWT#CLOSE * @see SWT#MIN * @see SWT#MAX * @see SWT#RESIZE * @see SWT#TITLE * @see SWT#NO_TRIM * @see SWT#SHELL_TRIM * @see SWT#DIALOG_TRIM * @see SWT#MODELESS * @see SWT#PRIMARY_MODAL * @see SWT#APPLICATION_MODAL * @see SWT#SYSTEM_MODAL */ public Shell (int style) { this ((Display) null, style); } /** * Constructs a new instance of this class given only the display * to create it on. It is created with style <code>SWT.SHELL_TRIM</code>. * <p> * Note: Currently, null can be passed in for the display argument. * This has the effect of creating the shell on the currently active * display if there is one. If there is no current display, the * shell is created on a "default" display. <b>Passing in null as * the display argument is not considered to be good coding style, * and may not be supported in a future release of SWT.</b> * </p> * * @param display the display to create the shell on * * @exception SWTException <ul> * <li>ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the parent</li> * <li>ERROR_INVALID_SUBCLASS - if this class is not an allowed subclass</li> * </ul> */ public Shell (Display display) { this (display, SWT.SHELL_TRIM); } /** * Constructs a new instance of this class given the display * to create it on and a style value describing its behavior * and appearance. * <p> * The style value is either one of the style constants defined in * class <code>SWT</code> which is applicable to instances of this * class, or must be built by <em>bitwise OR</em>'ing together * (that is, using the <code>int</code> "|" operator) two or more * of those <code>SWT</code> style constants. The class description * lists the style constants that are applicable to the class. * Style bits are also inherited from superclasses. * </p><p> * Note: Currently, null can be passed in for the display argument. * This has the effect of creating the shell on the currently active * display if there is one. If there is no current display, the * shell is created on a "default" display. <b>Passing in null as * the display argument is not considered to be good coding style, * and may not be supported in a future release of SWT.</b> * </p> * * @param display the display to create the shell on * @param style the style of control to construct * * @exception SWTException <ul> * <li>ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the parent</li> * <li>ERROR_INVALID_SUBCLASS - if this class is not an allowed subclass</li> * </ul> * * @see SWT#BORDER * @see SWT#CLOSE * @see SWT#MIN * @see SWT#MAX * @see SWT#RESIZE * @see SWT#TITLE * @see SWT#NO_TRIM * @see SWT#SHELL_TRIM * @see SWT#DIALOG_TRIM * @see SWT#MODELESS * @see SWT#PRIMARY_MODAL * @see SWT#APPLICATION_MODAL * @see SWT#SYSTEM_MODAL */ public Shell (Display display, int style) { this (display, null, style, 0, false); } Shell (Display display, Shell parent, int style, int /*long*/ handle, boolean embedded) { super (); checkSubclass (); if (display == null) display = Display.getCurrent (); if (display == null) display = Display.getDefault (); if (!display.isValidThread ()) { error (SWT.ERROR_THREAD_INVALID_ACCESS); } if (parent != null && parent.isDisposed ()) { error (SWT.ERROR_INVALID_ARGUMENT); } this.style = checkStyle (style); this.parent = parent; this.display = display; if (handle != 0) { if (embedded) { this.handle = handle; } else { shellHandle = handle; state |= FOREIGN_HANDLE; } } createWidget (0); } /** * Constructs a new instance of this class given only its * parent. It is created with style <code>SWT.DIALOG_TRIM</code>. * <p> * Note: Currently, null can be passed in for the parent. * This has the effect of creating the shell on the currently active * display if there is one. If there is no current display, the * shell is created on a "default" display. <b>Passing in null as * the parent is not considered to be good coding style, * and may not be supported in a future release of SWT.</b> * </p> * * @param parent a shell which will be the parent of the new instance * * @exception IllegalArgumentException <ul> * <li>ERROR_INVALID_ARGUMENT - if the parent is disposed</li> * </ul> * @exception SWTException <ul> * <li>ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the parent</li> * <li>ERROR_INVALID_SUBCLASS - if this class is not an allowed subclass</li> * </ul> */ public Shell (Shell parent) { this (parent, SWT.DIALOG_TRIM); } /** * Constructs a new instance of this class given its parent * and a style value describing its behavior and appearance. * <p> * The style value is either one of the style constants defined in * class <code>SWT</code> which is applicable to instances of this * class, or must be built by <em>bitwise OR</em>'ing together * (that is, using the <code>int</code> "|" operator) two or more * of those <code>SWT</code> style constants. The class description * lists the style constants that are applicable to the class. * Style bits are also inherited from superclasses. * </p><p> * Note: Currently, null can be passed in for the parent. * This has the effect of creating the shell on the currently active * display if there is one. If there is no current display, the * shell is created on a "default" display. <b>Passing in null as * the parent is not considered to be good coding style, * and may not be supported in a future release of SWT.</b> * </p> * * @param parent a shell which will be the parent of the new instance * @param style the style of control to construct * * @exception IllegalArgumentException <ul> * <li>ERROR_INVALID_ARGUMENT - if the parent is disposed</li> * </ul> * @exception SWTException <ul> * <li>ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the parent</li> * <li>ERROR_INVALID_SUBCLASS - if this class is not an allowed subclass</li> * </ul> * * @see SWT#BORDER * @see SWT#CLOSE * @see SWT#MIN * @see SWT#MAX * @see SWT#RESIZE * @see SWT#TITLE * @see SWT#NO_TRIM * @see SWT#SHELL_TRIM * @see SWT#DIALOG_TRIM * @see SWT#ON_TOP * @see SWT#TOOL * @see SWT#MODELESS * @see SWT#PRIMARY_MODAL * @see SWT#APPLICATION_MODAL * @see SWT#SYSTEM_MODAL */ public Shell (Shell parent, int style) { this (parent != null ? parent.display : null, parent, style, 0, false); } public static Shell gtk_new (Display display, int /*long*/ handle) { return new Shell (display, null, SWT.NO_TRIM, handle, true); } public static Shell internal_new (Display display, int /*long*/ handle) { return new Shell (display, null, SWT.NO_TRIM, handle, false); } static int checkStyle (int style) { style = Decorations.checkStyle (style); if ((style & SWT.ON_TOP) != 0) style &= ~SWT.SHELL_TRIM; int mask = SWT.SYSTEM_MODAL | SWT.APPLICATION_MODAL | SWT.PRIMARY_MODAL; int bits = style & ~mask; if ((style & SWT.SYSTEM_MODAL) != 0) return bits | SWT.SYSTEM_MODAL; if ((style & SWT.APPLICATION_MODAL) != 0) return bits | SWT.APPLICATION_MODAL; if ((style & SWT.PRIMARY_MODAL) != 0) return bits | SWT.PRIMARY_MODAL; return bits; } /** * Adds the listener to the collection of listeners who will * be notified when operations are performed on the receiver, * by sending the listener one of the messages defined in the * <code>ShellListener</code> interface. * * @param listener the listener which should be notified * * @exception IllegalArgumentException <ul> * <li>ERROR_NULL_ARGUMENT - if the listener is null</li> * </ul> * @exception SWTException <ul> * <li>ERROR_WIDGET_DISPOSED - if the receiver has been disposed</li> * <li>ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the receiver</li> * </ul> * * @see ShellListener * @see #removeShellListener */ public void addShellListener (ShellListener listener) { checkWidget(); if (listener == null) error (SWT.ERROR_NULL_ARGUMENT); TypedListener typedListener = new TypedListener (listener); addListener (SWT.Close,typedListener); addListener (SWT.Iconify,typedListener); addListener (SWT.Deiconify,typedListener); addListener (SWT.Activate, typedListener); addListener (SWT.Deactivate, typedListener); } void adjustTrim () { if (display.ignoreTrim) return; int width = OS.GTK_WIDGET_WIDTH (shellHandle); int height = OS.GTK_WIDGET_HEIGHT (shellHandle); int /*long*/ window = OS.GTK_WIDGET_WINDOW (shellHandle); GdkRectangle rect = new GdkRectangle (); OS.gdk_window_get_frame_extents (window, rect); int trimWidth = Math.max (0, rect.width - width); int trimHeight = Math.max (0, rect.height - height); /* * Bug in GTK. gdk_window_get_frame_extents() fails for various window * managers, causing a large incorrect value to be returned as the trim. * The fix is to ignore the returned trim values if they are too large. */ if (trimWidth > MAXIMUM_TRIM || trimHeight > MAXIMUM_TRIM) { display.ignoreTrim = true; return; } boolean hasTitle = false, hasResize = false, hasBorder = false; if ((style & SWT.NO_TRIM) == 0) { hasTitle = (style & (SWT.MIN | SWT.MAX | SWT.TITLE | SWT.MENU)) != 0; hasResize = (style & SWT.RESIZE) != 0; hasBorder = (style & SWT.BORDER) != 0; } if (hasTitle) { if (hasResize) { display.titleResizeTrimWidth = trimWidth; display.titleResizeTrimHeight = trimHeight; return; } if (hasBorder) { display.titleBorderTrimWidth = trimWidth; display.titleBorderTrimHeight = trimHeight; return; } display.titleTrimWidth = trimWidth; display.titleTrimHeight = trimHeight; return; } if (hasResize) { display.resizeTrimWidth = trimWidth; display.resizeTrimHeight = trimHeight; return; } if (hasBorder) { display.borderTrimWidth = trimWidth; display.borderTrimHeight = trimHeight; return; } } void bringToTop (boolean force) { if (!OS.GTK_WIDGET_VISIBLE (shellHandle)) return; Display display = this.display; Shell activeShell = display.activeShell; if (activeShell == this) return; if (!force) { if (activeShell == null) return; if (!display.activePending) { int /*long*/ focusHandle = OS.gtk_window_get_focus (activeShell.shellHandle); if (focusHandle != 0 && !OS.GTK_WIDGET_HAS_FOCUS (focusHandle)) return; } } /* * Bug in GTK. When a shell that is not managed by the window * manage is given focus, GTK gets stuck in "focus follows pointer" * mode when the pointer is within the shell and its parent when * the shell is hidden or disposed. The fix is to use XSetInputFocus() * to assign focus when ever the active shell has not managed by * the window manager. * * NOTE: This bug is fixed in GTK+ 2.6.8 and above. */ boolean xFocus = false; if (activeShell != null) { if (OS.GTK_VERSION < OS.VERSION (2, 6, 8)) { xFocus = activeShell.isUndecorated (); } display.activeShell = null; display.activePending = true; } /* * Feature in GTK. When the shell is an override redirect * window, gdk_window_focus() does not give focus to the * window. The fix is to use XSetInputFocus() to force * the focus. */ int /*long*/ window = OS.GTK_WIDGET_WINDOW (shellHandle); if ((xFocus || (style & SWT.ON_TOP) != 0) && OS.GDK_WINDOWING_X11 ()) { int /*long*/ xDisplay = OS.gdk_x11_drawable_get_xdisplay (window); int /*long*/ xWindow = OS.gdk_x11_drawable_get_xid (window); OS.gdk_error_trap_push (); /* Use CurrentTime instead of the last event time to ensure that the shell becomes active */ OS.XSetInputFocus (xDisplay, xWindow, OS.RevertToParent, OS.CurrentTime); OS.gdk_error_trap_pop (); } else { /* * Bug in metacity. Calling gdk_window_focus() with a timestamp more * recent than the last user interaction time can cause windows not * to come forward in versions > 2.10.0. The fix is to use the last * user event time. */ if (display.windowManager.toLowerCase ().equals ("metacity")) { OS.gdk_window_focus (window, display.lastUserEventTime); } else { OS.gdk_window_focus (window, OS.GDK_CURRENT_TIME); } } display.activeShell = this; display.activePending = true; } void checkBorder () { /* Do nothing */ } void checkOpen () { if (!opened) resized = false; } int /*long*/ childStyle () { return 0; } /** * Requests that the window manager close the receiver in * the same way it would be closed when the user clicks on * the "close box" or performs some other platform specific * key or mouse combination that indicates the window * should be removed. * * @exception SWTException <ul> * <li>ERROR_WIDGET_DISPOSED - if the receiver has been disposed</li> * <li>ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the receiver</li> * </ul> * * @see SWT#Close * @see #dispose */ public void close () { checkWidget (); closeWidget (); } void closeWidget () { Event event = new Event (); sendEvent (SWT.Close, event); if (event.doit && !isDisposed ()) dispose (); } public Rectangle computeTrim (int x, int y, int width, int height) { checkWidget(); Rectangle trim = super.computeTrim (x, y, width, height); int border = 0; if ((style & (SWT.NO_TRIM | SWT.BORDER | SWT.SHELL_TRIM)) == 0) { border = OS.gtk_container_get_border_width (shellHandle); } int trimWidth = trimWidth (), trimHeight = trimHeight (); trim.x -= (trimWidth / 2) + border; trim.y -= trimHeight - (trimWidth / 2) + border; trim.width += trimWidth + border * 2; trim.height += trimHeight + border * 2; if (menuBar != null) { forceResize (); int menuBarHeight = OS.GTK_WIDGET_HEIGHT (menuBar.handle); trim.y -= menuBarHeight; trim.height += menuBarHeight; } return trim; } void createHandle (int index) { state |= HANDLE | CANVAS; if (shellHandle == 0) { if (handle == 0) { int type = OS.GTK_WINDOW_TOPLEVEL; if ((style & SWT.ON_TOP) != 0) type = OS.GTK_WINDOW_POPUP; shellHandle = OS.gtk_window_new (type); } else { shellHandle = OS.gtk_plug_new (handle); } if (shellHandle == 0) error (SWT.ERROR_NO_HANDLES); if (parent != null) { OS.gtk_window_set_transient_for (shellHandle, parent.topHandle ()); OS.gtk_window_set_destroy_with_parent (shellHandle, true); if (!isUndecorated ()) { OS.gtk_window_set_type_hint (shellHandle, OS.GDK_WINDOW_TYPE_HINT_DIALOG); } else { if (OS.GTK_VERSION >= OS.VERSION (2, 2, 0)) { OS.gtk_window_set_skip_taskbar_hint (shellHandle, true); } } } /* * Feature in GTK. The window size must be set when the window * is created or it will not be allowed to be resized smaller that the * initial size by the user. The fix is to set the size to zero. */ if ((style & SWT.RESIZE) != 0) { OS.gtk_widget_set_size_request (shellHandle, 0, 0); OS.gtk_window_set_resizable (shellHandle, true); } else { OS.gtk_window_set_resizable (shellHandle, false); } vboxHandle = OS.gtk_vbox_new (false, 0); if (vboxHandle == 0) error (SWT.ERROR_NO_HANDLES); createHandle (index, false, true); OS.gtk_container_add (vboxHandle, scrolledHandle); OS.gtk_box_set_child_packing (vboxHandle, scrolledHandle, true, true, 0, OS.GTK_PACK_END); OS.gtk_window_set_title (shellHandle, new byte [1]); if ((style & (SWT.NO_TRIM | SWT.BORDER | SWT.SHELL_TRIM)) == 0) { OS.gtk_container_set_border_width (shellHandle, 1); GdkColor color = new GdkColor (); OS.gtk_style_get_black (OS.gtk_widget_get_style (shellHandle), color); OS.gtk_widget_modify_bg (shellHandle, OS.GTK_STATE_NORMAL, color); } int bits = SWT.PRIMARY_MODAL | SWT.APPLICATION_MODAL | SWT.SYSTEM_MODAL; boolean modal = (style & bits) != 0; //TEMPORARY CODE if ((style & SWT.ON_TOP) == 0) modal |= (parent != null && (parent.style & bits) != 0); OS.gtk_window_set_modal (shellHandle, modal); } else { vboxHandle = OS.gtk_bin_get_child (shellHandle); if (vboxHandle == 0) error (SWT.ERROR_NO_HANDLES); int /*long*/ children = OS.gtk_container_get_children (vboxHandle); if (OS.g_list_length (children) > 0) { scrolledHandle = OS.g_list_data (children); } OS.g_list_free (children); if (scrolledHandle == 0) error (SWT.ERROR_NO_HANDLES); handle = OS.gtk_bin_get_child (scrolledHandle); if (handle == 0) error (SWT.ERROR_NO_HANDLES); } /* * Feature in GTK. Realizing the shell triggers a size allocate event, * which may be confused for a resize event from the window manager if * received too late. The fix is to realize the window during creation * to avoid confusion. */ OS.gtk_widget_realize (shellHandle); } int /*long*/ filterProc (int /*long*/ xEvent, int /*long*/ gdkEvent, int /*long*/ data2) { int eventType = OS.X_EVENT_TYPE (xEvent); if (eventType != OS.FocusOut && eventType != OS.FocusIn) return 0; XFocusChangeEvent xFocusEvent = new XFocusChangeEvent(); OS.memmove (xFocusEvent, xEvent, XFocusChangeEvent.sizeof); switch (eventType) { case OS.FocusIn: if (xFocusEvent.mode == OS.NotifyNormal || xFocusEvent.mode == OS.NotifyWhileGrabbed) { switch (xFocusEvent.detail) { case OS.NotifyNonlinear: case OS.NotifyNonlinearVirtual: case OS.NotifyAncestor: if (tooltipsHandle != 0) OS.gtk_tooltips_enable (tooltipsHandle); display.activeShell = this; display.activePending = false; sendEvent (SWT.Activate); break; } } break; case OS.FocusOut: if (xFocusEvent.mode == OS.NotifyNormal || xFocusEvent.mode == OS.NotifyWhileGrabbed) { switch (xFocusEvent.detail) { case OS.NotifyNonlinear: case OS.NotifyNonlinearVirtual: case OS.NotifyVirtual: if (tooltipsHandle != 0) OS.gtk_tooltips_disable (tooltipsHandle); Display display = this.display; sendEvent (SWT.Deactivate); setActiveControl (null); if (display.activeShell == this) { display.activeShell = null; display.activePending = false; } break; } } break; } return 0; } Control findBackgroundControl () { return (state & BACKGROUND) != 0 || backgroundImage != null ? this : null; } Composite findDeferredControl () { return layoutCount > 0 ? this : null; } boolean hasBorder () { return false; } void hookEvents () { super.hookEvents (); OS.g_signal_connect_closure_by_id (shellHandle, display.signalIds [KEY_PRESS_EVENT], 0, display.closures [KEY_PRESS_EVENT], false); OS.g_signal_connect_closure_by_id (shellHandle, display.signalIds [MAP_EVENT], 0, display.closures [MAP_EVENT], false); OS.g_signal_connect_closure_by_id (shellHandle, display.signalIds [UNMAP_EVENT], 0, display.closures [UNMAP_EVENT], false); OS.g_signal_connect_closure_by_id (shellHandle, display.signalIds [WINDOW_STATE_EVENT], 0, display.closures [WINDOW_STATE_EVENT], false); OS.g_signal_connect_closure_by_id (shellHandle, display.signalIds [SIZE_ALLOCATE], 0, display.closures [SIZE_ALLOCATE], false); OS.g_signal_connect_closure_by_id (shellHandle, display.signalIds [CONFIGURE_EVENT], 0, display.closures [CONFIGURE_EVENT], false); OS.g_signal_connect_closure_by_id (shellHandle, display.signalIds [DELETE_EVENT], 0, display.closures [DELETE_EVENT], false); OS.g_signal_connect_closure_by_id (shellHandle, display.signalIds [MAP_EVENT], 0, display.shellMapProcClosure, false); OS.g_signal_connect_closure_by_id (shellHandle, display.signalIds [ENTER_NOTIFY_EVENT], 0, display.closures [ENTER_NOTIFY_EVENT], false); OS.g_signal_connect_closure (shellHandle, OS.move_focus, display.closures [MOVE_FOCUS], false); int /*long*/ window = OS.GTK_WIDGET_WINDOW (shellHandle); OS.gdk_window_add_filter (window, display.filterProc, shellHandle); } public boolean isEnabled () { checkWidget (); return getEnabled (); } boolean isUndecorated () { return (style & (SWT.SHELL_TRIM | SWT.BORDER)) == SWT.NONE || (style & (SWT.NO_TRIM | SWT.ON_TOP)) != 0; } public boolean isVisible () { checkWidget(); return getVisible (); } void register () { super.register (); display.addWidget (shellHandle, this); } void releaseParent () { /* Do nothing */ } int /*long*/ topHandle () { return shellHandle; } void fixActiveShell () { if (display.activeShell == this) { Shell shell = null; if (parent != null && parent.isVisible ()) shell = parent.getShell (); if (shell == null && isUndecorated ()) { Shell [] shells = display.getShells (); for (int i = 0; i < shells.length; i++) { if (shells [i] != null && shells [i].isVisible ()) { shell = shells [i]; break; } } } if (shell != null) shell.bringToTop (false); } } void fixShell (Shell newShell, Control control) { if (this == newShell) return; if (control == lastActive) setActiveControl (null); String toolTipText = control.toolTipText; if (toolTipText != null) { control.setToolTipText (this, null); control.setToolTipText (newShell, toolTipText); } } void fixStyle (int /*long*/ handle) { } void forceResize () { forceResize (OS.GTK_WIDGET_WIDTH (vboxHandle), OS.GTK_WIDGET_HEIGHT (vboxHandle)); } void forceResize (int width, int height) { GtkRequisition requisition = new GtkRequisition (); OS.gtk_widget_size_request (vboxHandle, requisition); GtkAllocation allocation = new GtkAllocation (); int border = OS.gtk_container_get_border_width (shellHandle); allocation.x = border; allocation.y = border; allocation.width = width; allocation.height = height; OS.gtk_widget_size_allocate (vboxHandle, allocation); } public Point getLocation () { checkWidget (); int [] x = new int [1], y = new int [1]; OS.gtk_window_get_position (shellHandle, x,y); return new Point (x [0], y [0]); } /** * Returns a point describing the minimum receiver's size. The * x coordinate of the result is the minimum width of the receiver. * The y coordinate of the result is the minimum height of the * receiver. * * @return the receiver's size * * @exception SWTException <ul> * <li>ERROR_WIDGET_DISPOSED - if the receiver has been disposed</li> * <li>ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the receiver</li> * </ul> * * @since 3.1 */ public Point getMinimumSize () { checkWidget (); int width = Math.max (1, minWidth + trimWidth ()); int height = Math.max (1, minHeight + trimHeight ()); return new Point (width, height); } public Point getSize () { checkWidget (); int width = OS.GTK_WIDGET_WIDTH (vboxHandle); int height = OS.GTK_WIDGET_HEIGHT (vboxHandle); int border = 0; if ((style & (SWT.NO_TRIM | SWT.BORDER | SWT.SHELL_TRIM)) == 0) { border = OS.gtk_container_get_border_width (shellHandle); } return new Point (width + trimWidth () + 2*border, height + trimHeight () + 2*border); } public boolean getVisible () { checkWidget(); return OS.GTK_WIDGET_VISIBLE (shellHandle); } /** * Returns the region that defines the shape of the shell, * or null if the shell has the default shape. * * @return the region that defines the shape of the shell (or null) * * @exception SWTException <ul> * <li>ERROR_WIDGET_DISPOSED - if the receiver has been disposed</li> * <li>ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the receiver</li> * </ul> * * @since 3.0 * */ public Region getRegion () { checkWidget (); return region; } /** * Returns the receiver's input method editor mode. This * will be the result of bitwise OR'ing together one or * more of the following constants defined in class * <code>SWT</code>: * <code>NONE</code>, <code>ROMAN</code>, <code>DBCS</code>, * <code>PHONETIC</code>, <code>NATIVE</code>, <code>ALPHA</code>. * * @return the IME mode * * @exception SWTException <ul> * <li>ERROR_WIDGET_DISPOSED - if the receiver has been disposed</li> * <li>ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the receiver</li> * </ul> * * @see SWT */ public int getImeInputMode () { checkWidget(); return SWT.NONE; } Shell _getShell () { return this; } /** * Returns an array containing all shells which are * descendants of the receiver. * <p> * @return the dialog shells * * @exception SWTException <ul> * <li>ERROR_WIDGET_DISPOSED - if the receiver has been disposed</li> * <li>ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the receiver</li> * </ul> */ public Shell [] getShells () { checkWidget(); int count = 0; Shell [] shells = display.getShells (); for (int i=0; i<shells.length; i++) { Control shell = shells [i]; do { shell = shell.getParent (); } while (shell != null && shell != this); if (shell == this) count++; } int index = 0; Shell [] result = new Shell [count]; for (int i=0; i<shells.length; i++) { Control shell = shells [i]; do { shell = shell.getParent (); } while (shell != null && shell != this); if (shell == this) { result [index++] = shells [i]; } } return result; } int /*long*/ gtk_configure_event (int /*long*/ widget, int /*long*/ event) { int [] x = new int [1], y = new int [1]; OS.gtk_window_get_position (shellHandle, x, y); if (!moved || oldX != x [0] || oldY != y [0]) { moved = true; oldX = x [0]; oldY = y [0]; sendEvent (SWT.Move); // widget could be disposed at this point } return 0; } int /*long*/ gtk_delete_event (int /*long*/ widget, int /*long*/ event) { if (isEnabled()) closeWidget (); return 1; } int /*long*/ gtk_enter_notify_event (int /*long*/ widget, int /*long*/ event) { if (widget != shellHandle) { return super.gtk_enter_notify_event (widget, event); } return 0; } int /*long*/ gtk_focus (int /*long*/ widget, int /*long*/ directionType) { switch ((int)/*64*/directionType) { case OS.GTK_DIR_TAB_FORWARD: case OS.GTK_DIR_TAB_BACKWARD: Control control = display.getFocusControl (); if (control != null) { if ((control.state & CANVAS) != 0 && (control.style & SWT.EMBEDDED) != 0) { int traversal = directionType == OS.GTK_DIR_TAB_FORWARD ? SWT.TRAVERSE_TAB_NEXT : SWT.TRAVERSE_TAB_PREVIOUS; control.traverse (traversal); return 1; } } break; } return super.gtk_focus (widget, directionType); } int /*long*/ gtk_move_focus (int /*long*/ widget, int /*long*/ directionType) { Control control = display.getFocusControl (); if (control != null) { int /*long*/ focusHandle = control.focusHandle (); OS.gtk_widget_child_focus (focusHandle, (int)/*64*/directionType); } OS.g_signal_stop_emission_by_name (shellHandle, OS.move_focus); return 1; } int /*long*/ gtk_key_press_event (int /*long*/ widget, int /*long*/ event) { /* Stop menu mnemonics when the shell is disabled */ if (widget == shellHandle) { return (state & DISABLED) != 0 ? 1 : 0; } return super.gtk_key_press_event (widget, event); } int /*long*/ gtk_map_event (int /*long*/ widget, int /*long*/ event) { minimized = false; sendEvent (SWT.Deiconify); return 0; } int /*long*/ gtk_size_allocate (int /*long*/ widget, int /*long*/ allocation) { int width = OS.GTK_WIDGET_WIDTH (shellHandle); int height = OS.GTK_WIDGET_HEIGHT (shellHandle); if (!resized || oldWidth != width || oldHeight != height) { oldWidth = width; oldHeight = height; resizeBounds (width, height, true); } return 0; } int /*long*/ gtk_realize (int /*long*/ widget) { int /*long*/ result = super.gtk_realize (widget); int /*long*/ window = OS.GTK_WIDGET_WINDOW (shellHandle); if ((style & SWT.SHELL_TRIM) != SWT.SHELL_TRIM) { int decorations = 0; if ((style & SWT.NO_TRIM) == 0) { if ((style & SWT.MIN) != 0) decorations |= OS.GDK_DECOR_MINIMIZE; if ((style & SWT.MAX) != 0) decorations |= OS.GDK_DECOR_MAXIMIZE; if ((style & SWT.RESIZE) != 0) decorations |= OS.GDK_DECOR_RESIZEH; if ((style & SWT.BORDER) != 0) decorations |= OS.GDK_DECOR_BORDER; if ((style & SWT.MENU) != 0) decorations |= OS.GDK_DECOR_MENU; if ((style & SWT.TITLE) != 0) decorations |= OS.GDK_DECOR_TITLE; /* * Feature in GTK. Under some Window Managers (Sawmill), in order * to get any border at all from the window manager it is necessary to * set GDK_DECOR_BORDER. The fix is to force these bits when any * kind of border is requested. */ if ((style & SWT.RESIZE) != 0) decorations |= OS.GDK_DECOR_BORDER; } OS.gdk_window_set_decorations (window, decorations); } if ((style & SWT.ON_TOP) != 0) { OS.gdk_window_set_override_redirect (window, true); } return result; } int /*long*/ gtk_unmap_event (int /*long*/ widget, int /*long*/ event) { minimized = true; sendEvent (SWT.Iconify); return 0; } int /*long*/ gtk_window_state_event (int /*long*/ widget, int /*long*/ event) { GdkEventWindowState gdkEvent = new GdkEventWindowState (); OS.memmove (gdkEvent, event, GdkEventWindowState.sizeof); minimized = (gdkEvent.new_window_state & OS.GDK_WINDOW_STATE_ICONIFIED) != 0; maximized = (gdkEvent.new_window_state & OS.GDK_WINDOW_STATE_MAXIMIZED) != 0; return 0; } /** * Moves the receiver to the top of the drawing order for * the display on which it was created (so that all other * shells on that display, which are not the receiver's * children will be drawn behind it), marks it visible, * sets the focus and asks the window manager to make the * shell active. * * @exception SWTException <ul> * <li>ERROR_WIDGET_DISPOSED - if the receiver has been disposed</li> * <li>ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the receiver</li> * </ul> * * @see Control#moveAbove * @see Control#setFocus * @see Control#setVisible * @see Display#getActiveShell * @see Decorations#setDefaultButton(Button) * @see Shell#setActive * @see Shell#forceActive */ public void open () { checkWidget (); bringToTop (false); setVisible (true); if (isDisposed ()) return; if (!restoreFocus () && !traverseGroup (true)) setFocus (); } /** * Removes the listener from the collection of listeners who will * be notified when operations are performed on the receiver. * * @param listener the listener which should no longer be notified * * @exception IllegalArgumentException <ul> * <li>ERROR_NULL_ARGUMENT - if the listener is null</li> * </ul> * @exception SWTException <ul> * <li>ERROR_WIDGET_DISPOSED - if the receiver has been disposed</li> * <li>ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the receiver</li> * </ul> * * @see ShellListener * @see #addShellListener */ public void removeShellListener (ShellListener listener) { checkWidget(); if (listener == null) error (SWT.ERROR_NULL_ARGUMENT); if (eventTable == null) return; eventTable.unhook (SWT.Close, listener); eventTable.unhook (SWT.Iconify,listener); eventTable.unhook (SWT.Deiconify,listener); eventTable.unhook (SWT.Activate, listener); eventTable.unhook (SWT.Deactivate, listener); } /** * If the receiver is visible, moves it to the top of the * drawing order for the display on which it was created * (so that all other shells on that display, which are not * the receiver's children will be drawn behind it) and asks * the window manager to make the shell active * * @exception SWTException <ul> * <li>ERROR_WIDGET_DISPOSED - if the receiver has been disposed</li> * <li>ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the receiver</li> * </ul> * * @since 2.0 * @see Control#moveAbove * @see Control#setFocus * @see Control#setVisible * @see Display#getActiveShell * @see Decorations#setDefaultButton(Button) * @see Shell#open * @see Shell#setActive */ public void setActive () { checkWidget (); bringToTop (false); } void setActiveControl (Control control) { if (control != null && control.isDisposed ()) control = null; if (lastActive != null && lastActive.isDisposed ()) lastActive = null; if (lastActive == control) return; /* * Compute the list of controls to be activated and * deactivated by finding the first common parent * control. */ Control [] activate = (control == null) ? new Control[0] : control.getPath (); Control [] deactivate = (lastActive == null) ? new Control[0] : lastActive.getPath (); lastActive = control; int index = 0, length = Math.min (activate.length, deactivate.length); while (index < length) { if (activate [index] != deactivate [index]) break; index++; } /* * It is possible (but unlikely), that application * code could have destroyed some of the widgets. If * this happens, keep processing those widgets that * are not disposed. */ for (int i=deactivate.length-1; i>=index; --i) { if (!deactivate [i].isDisposed ()) { deactivate [i].sendEvent (SWT.Deactivate); } } for (int i=activate.length-1; i>=index; --i) { if (!activate [i].isDisposed ()) { activate [i].sendEvent (SWT.Activate); } } } void resizeBounds (int width, int height, boolean notify) { if (redrawWindow != 0) { OS.gdk_window_resize (redrawWindow, width, height); } if (enableWindow != 0) { OS.gdk_window_resize (enableWindow, width, height); } int border = OS.gtk_container_get_border_width (shellHandle); int boxWidth = width - 2*border; int boxHeight = height - 2*border; OS.gtk_widget_set_size_request (vboxHandle, boxWidth, boxHeight); forceResize (boxWidth, boxHeight); if (notify) { resized = true; sendEvent (SWT.Resize); if (isDisposed ()) return; if (layout != null) { markLayout (false, false); updateLayout (false); } } } int setBounds (int x, int y, int width, int height, boolean move, boolean resize) { /* * Bug in GTK. When either of the location or size of * a shell is changed while the shell is maximized, the * shell is moved to (0, 0). The fix is to explicitly * unmaximize the shell before setting the bounds to * anything different from the current bounds. */ if (getMaximized ()) { Rectangle rect = getBounds (); boolean sameOrigin = !move || (rect.x == x && rect.y == y); boolean sameExtent = !resize || (rect.width == width && rect.height == height); if (sameOrigin && sameExtent) return 0; setMaximized (false); } int result = 0; if (move) { int [] x_pos = new int [1], y_pos = new int [1]; OS.gtk_window_get_position (shellHandle, x_pos, y_pos); OS.gtk_window_move (shellHandle, x, y); if (x_pos [0] != x || y_pos [0] != y) { moved = true; oldX = x; oldY = y; sendEvent (SWT.Move); if (isDisposed ()) return 0; result |= MOVED; } } if (resize) { width = Math.max (1, Math.max (minWidth, width - trimWidth ())); height = Math.max (1, Math.max (minHeight, height - trimHeight ())); if ((style & SWT.RESIZE) != 0) OS.gtk_window_resize (shellHandle, width, height); boolean changed = width != oldWidth || height != oldHeight; if (changed) { oldWidth = width; oldHeight = height; result |= RESIZED; } resizeBounds (width, height, changed); } return result; } void setCursor (int /*long*/ cursor) { if (enableWindow != 0) { OS.gdk_window_set_cursor (enableWindow, cursor); if (!OS.GDK_WINDOWING_X11 ()) { OS.gdk_flush (); } else { int /*long*/ xDisplay = OS.GDK_DISPLAY (); OS.XFlush (xDisplay); } } super.setCursor (cursor); } public void setEnabled (boolean enabled) { checkWidget(); if (((state & DISABLED) == 0) == enabled) return; Display display = this.display; Control control = null; boolean fixFocus = false; if (!enabled) { if (display.focusEvent != SWT.FocusOut) { control = display.getFocusControl (); fixFocus = isFocusAncestor (control); } } if (enabled) { state &= ~DISABLED; } else { state |= DISABLED; } enableWidget (enabled); if (isDisposed ()) return; if (enabled) { if (enableWindow != 0) { OS.gdk_window_set_user_data (enableWindow, 0); OS.gdk_window_destroy (enableWindow); enableWindow = 0; } } else { int /*long*/ parentHandle = shellHandle; OS.gtk_widget_realize (parentHandle); int /*long*/ window = OS.GTK_WIDGET_WINDOW (parentHandle); Rectangle rect = getBounds (); GdkWindowAttr attributes = new GdkWindowAttr (); attributes.width = rect.width; attributes.height = rect.height; attributes.event_mask = (0xFFFFFFFF & ~OS.ExposureMask); attributes.wclass = OS.GDK_INPUT_ONLY; attributes.window_type = OS.GDK_WINDOW_CHILD; enableWindow = OS.gdk_window_new (window, attributes, 0); if (enableWindow != 0) { if (cursor != null) { OS.gdk_window_set_cursor (enableWindow, cursor.handle); if (!OS.GDK_WINDOWING_X11 ()) { OS.gdk_flush (); } else { int /*long*/ xDisplay = OS.GDK_DISPLAY (); OS.XFlush (xDisplay); } } OS.gdk_window_set_user_data (enableWindow, parentHandle); OS.gdk_window_show (enableWindow); } } if (fixFocus) fixFocus (control); if (enabled && display.activeShell == this) { if (!restoreFocus ()) traverseGroup (false); } } /** * Sets the input method editor mode to the argument which * should be the result of bitwise OR'ing together one or more * of the following constants defined in class <code>SWT</code>: * <code>NONE</code>, <code>ROMAN</code>, <code>DBCS</code>, * <code>PHONETIC</code>, <code>NATIVE</code>, <code>ALPHA</code>. * * @param mode the new IME mode * * @exception SWTException <ul> * <li>ERROR_WIDGET_DISPOSED - if the receiver has been disposed</li> * <li>ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the receiver</li> * </ul> * * @see SWT */ public void setImeInputMode (int mode) { checkWidget(); } void setInitialBounds () { if ((state & FOREIGN_HANDLE) != 0) return; Monitor monitor = getMonitor (); Rectangle rect = monitor.getClientArea (); int width = rect.width * 5 / 8; int height = rect.height * 5 / 8; if ((style & SWT.RESIZE) != 0) { OS.gtk_window_resize (shellHandle, width, height); } resizeBounds (width, height, false); } public void setMaximized (boolean maximized) { checkWidget(); super.setMaximized (maximized); if (maximized) { OS.gtk_window_maximize (shellHandle); } else { OS.gtk_window_unmaximize (shellHandle); } } public void setMenuBar (Menu menu) { checkWidget(); if (menuBar == menu) return; boolean both = menu != null && menuBar != null; if (menu != null) { if ((menu.style & SWT.BAR) == 0) error (SWT.ERROR_MENU_NOT_BAR); if (menu.parent != this) error (SWT.ERROR_INVALID_PARENT); } if (menuBar != null) { int /*long*/ menuHandle = menuBar.handle; OS.gtk_widget_hide (menuHandle); destroyAccelGroup (); } menuBar = menu; if (menuBar != null) { int /*long*/ menuHandle = menu.handle; OS.gtk_widget_show (menuHandle); createAccelGroup (); menuBar.addAccelerators (accelGroup); } int width = OS.GTK_WIDGET_WIDTH (vboxHandle); int height = OS.GTK_WIDGET_HEIGHT (vboxHandle); resizeBounds (width, height, !both); } public void setMinimized (boolean minimized) { checkWidget(); if (this.minimized == minimized) return; super.setMinimized (minimized); if (minimized) { OS.gtk_window_iconify (shellHandle); } else { OS.gtk_window_deiconify (shellHandle); bringToTop (false); } } /** * Sets the receiver's minimum size to the size specified by the arguments. * If the new minimum size is larger than the current size of the receiver, * the receiver is resized to the new minimum size. * * @param width the new minimum width for the receiver * @param height the new minimum height for the receiver * * @exception SWTException <ul> * <li>ERROR_WIDGET_DISPOSED - if the receiver has been disposed</li> * <li>ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the receiver</li> * </ul> * * @since 3.1 */ public void setMinimumSize (int width, int height) { checkWidget (); GdkGeometry geometry = new GdkGeometry (); minWidth = geometry.min_width = Math.max (width, trimWidth ()) - trimWidth (); minHeight = geometry.min_height = Math.max (height, trimHeight ()) - trimHeight (); OS.gtk_window_set_geometry_hints (shellHandle, 0, geometry, OS.GDK_HINT_MIN_SIZE); } /** * Sets the receiver's minimum size to the size specified by the argument. * If the new minimum size is larger than the current size of the receiver, * the receiver is resized to the new minimum size. * * @param size the new minimum size for the receiver * * @exception IllegalArgumentException <ul> * <li>ERROR_NULL_ARGUMENT - if the point is null</li> * </ul> * @exception SWTException <ul> * <li>ERROR_WIDGET_DISPOSED - if the receiver has been disposed</li> * <li>ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the receiver</li> * </ul> * * @since 3.1 */ public void setMinimumSize (Point size) { checkWidget (); if (size == null) error (SWT.ERROR_NULL_ARGUMENT); setMinimumSize (size.x, size.y); } /** * Sets the shape of the shell to the region specified * by the argument. When the argument is null, the * default shape of the shell is restored. The shell * must be created with the style SWT.NO_TRIM in order * to specify a region. * * @param region the region that defines the shape of the shell (or null) * * @exception IllegalArgumentException <ul> * <li>ERROR_INVALID_ARGUMENT - if the region has been disposed</li> * </ul> * @exception SWTException <ul> * <li>ERROR_WIDGET_DISPOSED - if the receiver has been disposed</li> * <li>ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the receiver</li> * </ul> * * @since 3.0 * */ public void setRegion (Region region) { checkWidget (); if ((style & SWT.NO_TRIM) == 0) return; if (region != null && region.isDisposed()) error (SWT.ERROR_INVALID_ARGUMENT); int /*long*/ window = OS.GTK_WIDGET_WINDOW (shellHandle); int /*long*/ shape_region = (region == null) ? 0 : region.handle; OS.gdk_window_shape_combine_region (window, shape_region, 0, 0); this.region = region; } /* * Shells are never labelled by other widgets, so no initialization is needed. */ void setRelations() { } public void setText (String string) { super.setText (string); /* * GTK bug 82013. For some reason, if the title string * is less than 7 bytes long and is not terminated by * a space, some window managers occasionally draw * garbage after the last character in the title. * The fix is to pad the title. */ int length = string.length (); char [] chars = new char [Math.max (6, length) + 1]; string.getChars (0, length , chars, 0); for (int i=length; i<chars.length; i++) chars [i] = ' '; byte [] buffer = Converter.wcsToMbcs (null, chars, true); OS.gtk_window_set_title (shellHandle, buffer); } public void setVisible (boolean visible) { checkWidget(); if ((OS.GTK_WIDGET_MAPPED (shellHandle) == visible)) return; if (visible) { sendEvent (SWT.Show); if (isDisposed ()) return; /* * In order to ensure that the shell is visible * and fully painted, dispatch events such as * GDK_MAP and GDK_CONFIGURE, until the GDK_MAP * event for the shell is received. * * Note that if the parent is minimized or withdrawn * from the desktop, this should not be done since * the shell not will be mapped until the parent is * unminimized or shown on the desktop. */ OS.gtk_widget_show (shellHandle); if (!OS.GTK_IS_PLUG (shellHandle)) { mapped = false; if (isDisposed ()) return; display.dispatchEvents = new int [] { OS.GDK_EXPOSE, OS.GDK_FOCUS_CHANGE, OS.GDK_CONFIGURE, OS.GDK_MAP, OS.GDK_UNMAP, OS.GDK_NO_EXPOSE, }; Display display = this.display; display.putGdkEvents(); boolean iconic = false; Shell shell = parent != null ? parent.getShell() : null; do { OS.g_main_context_iteration (0, false); if (isDisposed ()) break; iconic = minimized || (shell != null && shell.minimized); } while (!mapped && !iconic); display.dispatchEvents = null; if (isDisposed ()) return; if (!iconic) { update (true, true); if (isDisposed ()) return; adjustTrim (); } } mapped = true; int mask = SWT.PRIMARY_MODAL | SWT.APPLICATION_MODAL | SWT.SYSTEM_MODAL; if ((style & mask) != 0) { OS.gdk_pointer_ungrab (OS.GDK_CURRENT_TIME); } opened = true; if (!moved) { moved = true; Point location = getLocation(); oldX = location.x; oldY = location.y; sendEvent (SWT.Move); if (isDisposed ()) return; } if (!resized) { resized = true; Point size = getSize (); oldWidth = size.x - trimWidth (); oldHeight = size.y - trimHeight (); sendEvent (SWT.Resize); if (isDisposed ()) return; if (layout != null) { markLayout (false, false); updateLayout (false); } } } else { fixActiveShell (); OS.gtk_widget_hide (shellHandle); sendEvent (SWT.Hide); } } void setZOrder (Control sibling, boolean above, boolean fixRelations) { /* * Bug in GTK+. Changing the toplevel window Z-order causes * X to send a resize event. Before the shell is mapped, these * resize events always have a size of 200x200, causing extra * layout work to occur. The fix is to modify the Z-order only * if the shell has already been mapped at least once. */ /* Shells are never included in labelled-by relations */ if (mapped) setZOrder (sibling, above, false, false); } int /*long*/ shellMapProc (int /*long*/ handle, int /*long*/ arg0, int /*long*/ user_data) { mapped = true; display.dispatchEvents = null; return 0; } void showWidget () { if ((state & FOREIGN_HANDLE) != 0) return; OS.gtk_container_add (shellHandle, vboxHandle); if (scrolledHandle != 0) OS.gtk_widget_show (scrolledHandle); if (handle != 0) OS.gtk_widget_show (handle); if (vboxHandle != 0) OS.gtk_widget_show (vboxHandle); } int /*long*/ sizeAllocateProc (int /*long*/ handle, int /*long*/ arg0, int /*long*/ user_data) { int offset = 16; int [] x = new int [1], y = new int [1]; OS.gdk_window_get_pointer (0, x, y, null); y [0] += offset; int /*long*/ screen = OS.gdk_screen_get_default (); if (screen != 0) { int monitorNumber = OS.gdk_screen_get_monitor_at_point (screen, x[0], y[0]); GdkRectangle dest = new GdkRectangle (); OS.gdk_screen_get_monitor_geometry (screen, monitorNumber, dest); int width = OS.GTK_WIDGET_WIDTH (handle); int height = OS.GTK_WIDGET_HEIGHT (handle); if (x[0] + width > dest.x + dest.width) { x [0] = (dest.x + dest.width) - width; } if (y[0] + height > dest.y + dest.height) { y[0] = (dest.y + dest.height) - height; } } OS.gtk_window_move (handle, x [0], y [0]); return 0; } int /*long*/ sizeRequestProc (int /*long*/ handle, int /*long*/ arg0, int /*long*/ user_data) { OS.gtk_widget_hide (handle); return 0; } boolean traverseEscape () { if (parent == null) return false; if (!isVisible () || !isEnabled ()) return false; close (); return true; } int trimHeight () { if ((style & SWT.NO_TRIM) != 0) return 0; boolean hasTitle = false, hasResize = false, hasBorder = false; hasTitle = (style & (SWT.MIN | SWT.MAX | SWT.TITLE | SWT.MENU)) != 0; hasResize = (style & SWT.RESIZE) != 0; hasBorder = (style & SWT.BORDER) != 0; if (hasTitle) { if (hasResize) return display.titleResizeTrimHeight; if (hasBorder) return display.titleBorderTrimHeight; return display.titleTrimHeight; } if (hasResize) return display.resizeTrimHeight; if (hasBorder) return display.borderTrimHeight; return 0; } int trimWidth () { if ((style & SWT.NO_TRIM) != 0) return 0; boolean hasTitle = false, hasResize = false, hasBorder = false; hasTitle = (style & (SWT.MIN | SWT.MAX | SWT.TITLE | SWT.MENU)) != 0; hasResize = (style & SWT.RESIZE) != 0; hasBorder = (style & SWT.BORDER) != 0; if (hasTitle) { if (hasResize) return display.titleResizeTrimWidth; if (hasBorder) return display.titleBorderTrimWidth; return display.titleTrimWidth; } if (hasResize) return display.resizeTrimWidth; if (hasBorder) return display.borderTrimWidth; return 0; } void deregister () { super.deregister (); display.removeWidget (shellHandle); } public void dispose () { /* * Note: It is valid to attempt to dispose a widget * more than once. If this happens, fail silently. */ if (isDisposed()) return; fixActiveShell (); OS.gtk_widget_hide (shellHandle); super.dispose (); } /** * If the receiver is visible, moves it to the top of the * drawing order for the display on which it was created * (so that all other shells on that display, which are not * the receiver's children will be drawn behind it) and forces * the window manager to make the shell active. * * @exception SWTException <ul> * <li>ERROR_WIDGET_DISPOSED - if the receiver has been disposed</li> * <li>ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the receiver</li> * </ul> * * @since 2.0 * @see Control#moveAbove * @see Control#setFocus * @see Control#setVisible * @see Display#getActiveShell * @see Decorations#setDefaultButton(Button) * @see Shell#open * @see Shell#setActive */ public void forceActive () { checkWidget (); bringToTop (true); } public Rectangle getBounds () { checkWidget (); int [] x = new int [1], y = new int [1]; OS.gtk_window_get_position (shellHandle, x, y); int width = OS.GTK_WIDGET_WIDTH (vboxHandle); int height = OS.GTK_WIDGET_HEIGHT (vboxHandle); int border = 0; if ((style & (SWT.NO_TRIM | SWT.BORDER | SWT.SHELL_TRIM)) == 0) { border = OS.gtk_container_get_border_width (shellHandle); } return new Rectangle (x [0], y [0], width + trimWidth () + 2*border, height + trimHeight () + 2*border); } void releaseHandle () { super.releaseHandle (); shellHandle = 0; } void releaseChildren (boolean destroy) { Shell [] shells = getShells (); for (int i=0; i<shells.length; i++) { Shell shell = shells [i]; if (shell != null && !shell.isDisposed ()) { shell.release (false); } } super.releaseChildren (destroy); } void releaseWidget () { super.releaseWidget (); destroyAccelGroup (); if (display.activeShell == this) display.activeShell = null; if (tooltipsHandle != 0) OS.g_object_unref (tooltipsHandle); tooltipsHandle = 0; int /*long*/ window = OS.GTK_WIDGET_WINDOW (shellHandle); OS.gdk_window_remove_filter(window, display.filterProc, shellHandle); region = null; lastActive = null; } void setToolTipText (int /*long*/ widget, String string) { byte [] buffer = null; if (string != null && string.length () > 0) { buffer = Converter.wcsToMbcs (null, string, true); } if (tooltipsHandle == 0) { tooltipsHandle = OS.gtk_tooltips_new (); if (tooltipsHandle == 0) error (SWT.ERROR_NO_HANDLES); OS.g_object_ref (tooltipsHandle); OS.gtk_object_sink (tooltipsHandle); } /* * Feature in GTK. There is no API to position a tooltip. * The fix is to connect to the size_allocate signal for * the tooltip window and position it before it is mapped. * * Bug in Solaris-GTK. Invoking gtk_tooltips_force_window() * can cause a crash in older versions of GTK. The fix is * to avoid this call if the GTK version is older than 2.2.x. */ if (OS.GTK_VERSION >= OS.VERSION (2, 2, 1)) { OS.gtk_tooltips_force_window (tooltipsHandle); } int /*long*/ tipWindow = OS.GTK_TOOLTIPS_TIP_WINDOW (tooltipsHandle); if (tipWindow != 0 && tipWindow != tooltipWindow) { OS.g_signal_connect (tipWindow, OS.size_allocate, display.sizeAllocateProc, shellHandle); tooltipWindow = tipWindow; } /* * Bug in GTK. If the cursor is inside the window when a new * tooltip is set and the old tooltip is hidden, the new tooltip * is not displayed until the mouse re-enters the window. The * fix is force the new tooltip to be active. */ boolean set = true; if (tipWindow != 0) { if ((OS.GTK_WIDGET_FLAGS (widget) & (OS.GTK_REALIZED | OS.GTK_VISIBLE)) != 0) { int [] x = new int [1], y = new int [1]; int /*long*/ window = OS.gdk_window_at_pointer (x, y); if (window != 0) { int /*long*/ [] user_data = new int /*long*/ [1]; OS.gdk_window_get_user_data (window, user_data); if (widget == user_data [0]) { /* * Feature in GTK. Calling gtk_tooltips_set_tip() positions and * shows the tooltip. If the tooltip is already visible, moving * it to a new location in the size_allocate signal causes flashing. * The fix is to hide the tip window in the size_request signal * and before the new tooltip is forced to be active. */ set = false; int handler_id = OS.g_signal_connect (tipWindow, OS.size_request, display.sizeRequestProc, shellHandle); OS.gtk_tooltips_set_tip (tooltipsHandle, widget, buffer, null); OS.gtk_widget_hide (tipWindow); int /*long*/ data = OS.gtk_tooltips_data_get (widget); OS.GTK_TOOLTIPS_SET_ACTIVE (tooltipsHandle, data); OS.gtk_tooltips_set_tip (tooltipsHandle, widget, buffer, null); if (handler_id != 0) OS.g_signal_handler_disconnect (tipWindow, handler_id); } } } } if (set) OS.gtk_tooltips_set_tip (tooltipsHandle, widget, buffer, null); } } ++/