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view dwt/widgets/Composite.d @ 361:4bffbf81e2d6
redirect direct prints to DwtLogger
| author | Frank Benoit <benoit@tionex.de> |
|---|---|
| date | Fri, 20 Mar 2009 21:00:06 +0100 |
| parents | f1bb3949939b |
| children |
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/******************************************************************************* * Copyright (c) 2000, 2008 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 * Port to the D programming language: * Frank Benoit <benoit@tionex.de> *******************************************************************************/ module dwt.widgets.Composite; import dwt.widgets.Control; import dwt.widgets.Scrollable; import dwt.widgets.Layout; import dwt.widgets.Decorations; import dwt.widgets.ScrollBar; import dwt.widgets.Shell; import dwt.widgets.Menu; import dwt.widgets.Event; import dwt.widgets.Widget; import dwt.widgets.Display; import dwt.graphics.GCData; import dwt.internal.gtk.OS; import dwt.graphics.GC; import dwt.DWT; import dwt.graphics.Region; import dwt.internal.cairo.Cairo; import dwt.internal.gtk.OS; import dwt.graphics.Rectangle; import dwt.dwthelper.utils; /** * Instances of this class are controls which are capable * of containing other controls. * <dl> * <dt><b>Styles:</b></dt> * <dd>NO_BACKGROUND, NO_FOCUS, NO_MERGE_PAINTS, NO_REDRAW_RESIZE, NO_RADIO_GROUP, EMBEDDED, DOUBLE_BUFFERED</dd> * <dt><b>Events:</b></dt> * <dd>(none)</dd> * </dl> * <p> * Note: The <code>NO_BACKGROUND</code>, <code>NO_FOCUS</code>, <code>NO_MERGE_PAINTS</code>, * and <code>NO_REDRAW_RESIZE</code> styles are intended for use with <code>Canvas</code>. * They can be used with <code>Composite</code> if you are drawing your own, but their * behavior is undefined if they are used with subclasses of <code>Composite</code> other * than <code>Canvas</code>. * </p><p> * Note: The <code>CENTER</code> style, although undefined for composites, has the * same value as <code>EMBEDDED</code> (which is used to embed widgets from other * widget toolkits into DWT). On some operating systems (GTK, Motif), this may cause * the children of this composite to be obscured. The <code>EMBEDDED</code> style * is for use by other widget toolkits and should normally never be used. * </p><p> * This class may be subclassed by custom control implementors * who are building controls that are constructed from aggregates * of other controls. * </p> * * @see Canvas * @see <a href="http://www.eclipse.org/swt/snippets/#composite">Composite snippets</a> * @see <a href="http://www.eclipse.org/swt/">Sample code and further information</a> */ public class Composite : Scrollable { alias Scrollable.computeSize computeSize; alias Scrollable.fixStyle fixStyle; alias Scrollable.forceFocus forceFocus; alias Scrollable.gtk_button_press_event gtk_button_press_event; alias Scrollable.moveAbove moveAbove; alias Scrollable.moveBelow moveBelow; alias Scrollable.setBounds setBounds; alias Scrollable.translateMnemonic translateMnemonic; alias Scrollable.translateTraversal translateTraversal; public int embeddedHandle; GtkIMContext* imHandle_; GtkWidget* socketHandle; Layout layout_; Control[] tabList; int layoutCount, backgroundMode; static const String NO_INPUT_METHOD = "dwt.internal.gtk.noInputMethod"; //$NON-NLS-1$ this () { /* Do nothing */ } /** * 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>DWT</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>DWT</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 parent a widget which will be the parent of the new instance (cannot be null) * @param style the style of widget to construct * * @exception IllegalArgumentException <ul> * <li>ERROR_NULL_ARGUMENT - if the parent is null</li> * </ul> * @exception DWTException <ul> * <li>ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the parent</li> * </ul> * * @see DWT#NO_BACKGROUND * @see DWT#NO_FOCUS * @see DWT#NO_MERGE_PAINTS * @see DWT#NO_REDRAW_RESIZE * @see DWT#NO_RADIO_GROUP * @see Widget#getStyle */ public this (Composite parent, int style) { super (parent, checkStyle (style)); } static int checkStyle (int style) { style &= ~DWT.TRANSPARENT; return style; } Control [] _getChildren () { auto parentHandle = parentingHandle (); auto list = OS.gtk_container_get_children (cast(GtkContainer*)parentHandle); if (list is null) return new Control [0]; int count = OS.g_list_length (list); Control [] children = new Control [count]; int i = 0; auto temp = list; while (temp !is null) { auto handle = cast(GtkWidget*)OS.g_list_data (temp); if (handle !is null) { Widget widget = display.getWidget (handle); if (widget !is null && widget !is this) { if (auto c = cast(Control)widget) { children [i++] = c; } } } temp = cast(GList*)OS.g_list_next (temp); } OS.g_list_free (list); if (i is count) return children; Control [] newChildren = new Control [i]; System.arraycopy (children, 0, newChildren, 0, i); return newChildren; } Control [] _getTabList () { if (tabList is null) return tabList; int count = 0; for (int i=0; i<tabList.length; i++) { if (!tabList [i].isDisposed ()) count++; } if (count is tabList.length) return tabList; Control [] newList = new Control [count]; int index = 0; for (int i=0; i<tabList.length; i++) { if (!tabList [i].isDisposed ()) { newList [index++] = tabList [i]; } } tabList = newList; return tabList; } /** * Clears any data that has been cached by a Layout for all widgets that * are in the parent hierarchy of the changed control up to and including the * receiver. If an ancestor does not have a layout, it is skipped. * * @param changed an array of controls that changed state and require a recalculation of size * * @exception IllegalArgumentException <ul> * <li>ERROR_INVALID_ARGUMENT - if the changed array is null any of its controls are null or have been disposed</li> * <li>ERROR_INVALID_PARENT - if any control in changed is not in the widget tree of the receiver</li> * </ul> * @exception DWTException <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 changed (Control[] changed) { checkWidget (); if (changed is null) error (DWT.ERROR_INVALID_ARGUMENT); for (int i=0; i<changed.length; i++) { Control control = changed [i]; if (control is null) error (DWT.ERROR_INVALID_ARGUMENT); if (control.isDisposed ()) error (DWT.ERROR_INVALID_ARGUMENT); bool ancestor = false; Composite composite = control.parent; while (composite !is null) { ancestor = composite is this; if (ancestor) break; composite = composite.parent; } if (!ancestor) error (DWT.ERROR_INVALID_PARENT); } for (int i=0; i<changed.length; i++) { Control child = changed [i]; Composite composite = child.parent; while (child !is this) { if (composite.layout_ is null || !composite.layout_.flushCache (child)) { composite.state |= LAYOUT_CHANGED; } child = composite; composite = child.parent; } } } override void checkBuffered () { if ((style & DWT.DOUBLE_BUFFERED) is 0 && (style & DWT.NO_BACKGROUND) !is 0) { return; } super.checkBuffered(); } override protected void checkSubclass () { /* Do nothing - Subclassing is allowed */ } override GtkStyle* childStyle () { if (scrolledHandle !is null) return null; return super.childStyle (); } override public Point computeSize (int wHint, int hHint, bool changed) { checkWidget (); if (wHint !is DWT.DEFAULT && wHint < 0) wHint = 0; if (hHint !is DWT.DEFAULT && hHint < 0) hHint = 0; Point size; if (layout_ !is null) { if (wHint is DWT.DEFAULT || hHint is DWT.DEFAULT) { changed |= (state & LAYOUT_CHANGED) !is 0; size = layout_.computeSize (this, wHint, hHint, changed); state &= ~LAYOUT_CHANGED; } else { size = new Point (wHint, hHint); } } else { size = minimumSize (wHint, hHint, changed); } if (size.x is 0) size.x = DEFAULT_WIDTH; if (size.y is 0) size.y = DEFAULT_HEIGHT; if (wHint !is DWT.DEFAULT) size.x = wHint; if (hHint !is DWT.DEFAULT) size.y = hHint; Rectangle trim = computeTrim (0, 0, size.x, size.y); return new Point (trim.width, trim.height); } override Control [] computeTabList () { Control result [] = super.computeTabList (); if (result.length is 0) return result; Control [] list = tabList !is null ? _getTabList () : _getChildren (); for (int i=0; i<list.length; i++) { Control child = list [i]; Control [] childList = child.computeTabList (); if (childList.length !is 0) { Control [] newResult = new Control [result.length + childList.length]; System.arraycopy (result, 0, newResult, 0, result.length); System.arraycopy (childList, 0, newResult, result.length, childList.length); result = newResult; } } return result; } override void createHandle (int index) { state |= HANDLE | CANVAS; bool scrolled = (style & (DWT.H_SCROLL | DWT.V_SCROLL)) !is 0; if (!scrolled) state |= THEME_BACKGROUND; createHandle (index, true, scrolled || (style & DWT.BORDER) !is 0); } void createHandle (int index, bool fixed, bool scrolled) { if (scrolled) { if (fixed) { fixedHandle = cast(GtkWidget*) OS.g_object_new (display.gtk_fixed_get_type (), null); if (fixedHandle is null) error (DWT.ERROR_NO_HANDLES); OS.gtk_fixed_set_has_window (cast(GtkFixed*)fixedHandle, true); } auto vadj = cast(GtkAdjustment*)OS.gtk_adjustment_new (0, 0, 100, 1, 10, 10); if (vadj is null) error (DWT.ERROR_NO_HANDLES); auto hadj = cast(GtkAdjustment*)OS.gtk_adjustment_new (0, 0, 100, 1, 10, 10); if (hadj is null) error (DWT.ERROR_NO_HANDLES); scrolledHandle = cast(GtkWidget*) OS.gtk_scrolled_window_new (hadj, vadj); if (scrolledHandle is null) DWT.error (DWT.ERROR_NO_HANDLES); } handle = cast(GtkWidget*)OS.g_object_new (display.gtk_fixed_get_type (), null); if (handle is null) DWT.error (DWT.ERROR_NO_HANDLES); OS.gtk_fixed_set_has_window (cast(GtkFixed*)handle, true); OS.GTK_WIDGET_SET_FLAGS(handle, OS.GTK_CAN_FOCUS); if ((style & DWT.EMBEDDED) is 0) { if ((state & CANVAS) !is 0) { /* Prevent an input method context from being created for the Browser widget */ if (display.getData (NO_INPUT_METHOD) is null) { imHandle_ = OS.gtk_im_multicontext_new (); if (imHandle_ is null) error (DWT.ERROR_NO_HANDLES); } } } if (scrolled) { if (fixed) OS.gtk_container_add (cast(GtkContainer*)fixedHandle, scrolledHandle); /* * Force the scrolledWindow to have a single child that is * not scrolled automatically. Calling gtk_container_add() * seems to add the child correctly but cause a warning. */ bool warnings = display.getWarnings (); display.setWarnings (false); OS.gtk_container_add (cast(GtkContainer*)scrolledHandle, handle); display.setWarnings (warnings); int hsp = (style & DWT.H_SCROLL) !is 0 ? OS.GTK_POLICY_ALWAYS : OS.GTK_POLICY_NEVER; int vsp = (style & DWT.V_SCROLL) !is 0 ? OS.GTK_POLICY_ALWAYS : OS.GTK_POLICY_NEVER; OS.gtk_scrolled_window_set_policy (cast(GtkScrolledWindow*)scrolledHandle, hsp, vsp); if (hasBorder ()) { OS.gtk_scrolled_window_set_shadow_type (cast(GtkScrolledWindow*)scrolledHandle, OS.GTK_SHADOW_ETCHED_IN); } } if ((style & DWT.EMBEDDED) !is 0) { socketHandle = OS.gtk_socket_new (); if (socketHandle is null) DWT.error (DWT.ERROR_NO_HANDLES); OS.gtk_container_add (cast(GtkContainer*)handle, cast(GtkWidget*)socketHandle); } if ((style & DWT.NO_REDRAW_RESIZE) !is 0 && (style & DWT.RIGHT_TO_LEFT) is 0) { OS.gtk_widget_set_redraw_on_allocate (handle, false); } /* * Bug in GTK. When a widget is double buffered and the back * pixmap is null, the double buffer pixmap is filled with the * background of the widget rather than the current contents of * the screen. If nothing is drawn during an expose event, * the pixels are altered. The fix is to clear double buffering * when NO_BACKGROUND is set and DOUBLE_BUFFERED * is not explicitly set. */ if ((style & DWT.DOUBLE_BUFFERED) is 0 && (style & DWT.NO_BACKGROUND) !is 0) { OS.gtk_widget_set_double_buffered (handle, false); } } override void deregister () { super.deregister (); if (socketHandle !is null) display.removeWidget (cast(GtkWidget*)socketHandle); } void drawBackground (GC gc, int x, int y, int width, int height) { Control control = findBackgroundControl (); if (control !is null) { GCData data = gc.getGCData (); auto cairo = data.cairo; if (cairo !is null) { Cairo.cairo_save (cairo); if (control.backgroundImage !is null) { Point pt = display.map (this, control, 0, 0); Cairo.cairo_translate (cairo, -pt.x, -pt.y); x += pt.x; y += pt.y; auto xDisplay = OS.GDK_DISPLAY (); auto xVisual = OS.gdk_x11_visual_get_xvisual (OS.gdk_visual_get_system()); auto drawable = control.backgroundImage.pixmap; auto xDrawable = OS.GDK_PIXMAP_XID (drawable); int w, h; OS.gdk_drawable_get_size (cast(GdkDrawable*)drawable, &w, &h); auto surface = Cairo.cairo_xlib_surface_create (xDisplay, xDrawable, xVisual, w, h); if (surface is null) error (DWT.ERROR_NO_HANDLES); auto pattern = Cairo.cairo_pattern_create_for_surface (surface); if (pattern is null) error (DWT.ERROR_NO_HANDLES); Cairo.cairo_pattern_set_extend (pattern, Cairo.CAIRO_EXTEND_REPEAT); if ((data.style & DWT.MIRRORED) !is 0) { double[] matrix = [-1.0, 0, 0, 1, 0, 0 ]; Cairo.cairo_pattern_set_matrix(pattern, cast(cairo_matrix_t*)matrix.ptr); } Cairo.cairo_set_source (cairo, pattern); Cairo.cairo_surface_destroy (surface); Cairo.cairo_pattern_destroy (pattern); } else { GdkColor* color = control.getBackgroundColor (); Cairo.cairo_set_source_rgba (cairo, (color.red & 0xFFFF) / cast(float)0xFFFF, (color.green & 0xFFFF) / cast(float)0xFFFF, (color.blue & 0xFFFF) / cast(float)0xFFFF, data.alpha / cast(float)0xFF); } Cairo.cairo_rectangle (cairo, x, y, width, height); Cairo.cairo_fill (cairo); Cairo.cairo_restore (cairo); } else { auto gdkGC = gc.handle; GdkGCValues* values = new GdkGCValues (); OS.gdk_gc_get_values (gdkGC, values); if (control.backgroundImage !is null) { Point pt = display.map (this, control, 0, 0); OS.gdk_gc_set_fill (gdkGC, OS.GDK_TILED); OS.gdk_gc_set_ts_origin (gdkGC, -pt.x, -pt.y); OS.gdk_gc_set_tile (gdkGC, control.backgroundImage.pixmap); OS.gdk_draw_rectangle (data.drawable, gdkGC, 1, x, y, width, height); OS.gdk_gc_set_fill (gdkGC, values.fill); OS.gdk_gc_set_ts_origin (gdkGC, values.ts_x_origin, values.ts_y_origin); } else { GdkColor* color = control.getBackgroundColor (); OS.gdk_gc_set_foreground (gdkGC, color); OS.gdk_draw_rectangle (data.drawable, gdkGC, 1, x, y, width, height); color.pixel = values.foreground.pixel; OS.gdk_gc_set_foreground (gdkGC, color); } } } else { gc.fillRectangle (x, y, width, height); } } override void enableWidget (bool enabled) { if ((state & CANVAS) !is 0) return; super.enableWidget (enabled); } Composite findDeferredControl () { return layoutCount > 0 ? this : parent.findDeferredControl (); } override Menu [] findMenus (Control control) { if (control is this) return new Menu [0]; Menu result [] = super.findMenus (control); Control [] children = _getChildren (); for (int i=0; i<children.length; i++) { Control child = children [i]; Menu [] menuList = child.findMenus (control); if (menuList.length !is 0) { Menu [] newResult = new Menu [result.length + menuList.length]; System.arraycopy (result, 0, newResult, 0, result.length); System.arraycopy (menuList, 0, newResult, result.length, menuList.length); result = newResult; } } return result; } override void fixChildren (Shell newShell, Shell oldShell, Decorations newDecorations, Decorations oldDecorations, Menu [] menus) { super.fixChildren (newShell, oldShell, newDecorations, oldDecorations, menus); Control [] children = _getChildren (); for (int i=0; i<children.length; i++) { children [i].fixChildren (newShell, oldShell, newDecorations, oldDecorations, menus); } } void fixModal(GtkWidget* group, GtkWidget* modalGroup) { Control[] controls = _getChildren (); for (int i = 0; i < controls.length; i++) { controls[i].fixModal (group, modalGroup); } } override void fixStyle () { super.fixStyle (); if (scrolledHandle is null) fixStyle (handle); Control[] children = _getChildren (); for (int i = 0; i < children.length; i++) { children [i].fixStyle (); } } void fixTabList (Control control) { if (tabList is null) return; int count = 0; for (int i=0; i<tabList.length; i++) { if (tabList [i] is control) count++; } if (count is 0) return; Control [] newList = null; int length = tabList.length - count; if (length !is 0) { newList = new Control [length]; int index = 0; for (int i=0; i<tabList.length; i++) { if (tabList [i] !is control) { newList [index++] = tabList [i]; } } } tabList = newList; } void fixZOrder () { if ((state & CANVAS) !is 0) return; auto parentHandle = parentingHandle (); auto parentWindow = OS.GTK_WIDGET_WINDOW (cast(GtkWidget*)parentHandle); if (parentWindow is null) return; GObject* userData; auto windowList = OS.gdk_window_get_children (parentWindow); if (windowList !is null) { auto windows = windowList; while (windows !is null) { auto window = cast(GdkDrawable*)OS.g_list_data (windows); if (window !is redrawWindow) { OS.gdk_window_get_user_data (window, cast(void**)&userData); if (userData is null || OS.G_OBJECT_TYPE (cast(GTypeInstance*)userData) !is display.gtk_fixed_get_type ()) { OS.gdk_window_lower (window); } } windows = cast(GList*)OS.g_list_next (windows); } OS.g_list_free (windowList); } } override GtkWidget* focusHandle () { if (socketHandle !is null) return socketHandle; return super.focusHandle (); } override bool forceFocus (GtkWidget* focusHandle) { if (socketHandle !is null) OS.GTK_WIDGET_SET_FLAGS (focusHandle, OS.GTK_CAN_FOCUS); bool result = super.forceFocus (focusHandle); if (socketHandle !is null) OS.GTK_WIDGET_UNSET_FLAGS (focusHandle, OS.GTK_CAN_FOCUS); return result; } /** * Returns the receiver's background drawing mode. This * will be one of the following constants defined in class * <code>DWT</code>: * <code>INHERIT_NONE</code>, <code>INHERIT_DEFAULT</code>, * <code>INHERTIT_FORCE</code>. * * @return the background mode * * @exception DWTException <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 DWT * * @since 3.2 */ public int getBackgroundMode () { checkWidget (); return backgroundMode; } /** * Returns a (possibly empty) array containing the receiver's children. * Children are returned in the order that they are drawn. The topmost * control appears at the beginning of the array. Subsequent controls * draw beneath this control and appear later in the array. * <p> * Note: This is not the actual structure used by the receiver * to maintain its list of children, so modifying the array will * not affect the receiver. * </p> * * @return an array of children * * @see Control#moveAbove * @see Control#moveBelow * * @exception DWTException <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 Control [] getChildren () { checkWidget(); return _getChildren (); } int getChildrenCount () { /* * NOTE: The current implementation will count * non-registered children. */ auto list = OS.gtk_container_get_children (cast(GtkContainer*)handle); if (list is null) return 0; int count = OS.g_list_length (list); OS.g_list_free (list); return count; } override public Rectangle getClientArea () { checkWidget(); if ((state & CANVAS) !is 0) { if ((state & ZERO_WIDTH) !is 0 && (state & ZERO_HEIGHT) !is 0) { return new Rectangle (0, 0, 0, 0); } forceResize (); auto clientHandle = clientHandle (); int width = (state & ZERO_WIDTH) !is 0 ? 0 : OS.GTK_WIDGET_WIDTH (clientHandle); int height = (state & ZERO_HEIGHT) !is 0 ? 0 : OS.GTK_WIDGET_HEIGHT (clientHandle); return new Rectangle (0, 0, width, height); } return super.getClientArea(); } int getClientWidth() { return (state & ZERO_WIDTH) !is 0 ? 0 : OS.GTK_WIDGET_WIDTH (clientHandle ()); } /** * Returns layout which is associated with the receiver, or * null if one has not been set. * * @return the receiver's layout or null * * @exception DWTException <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 Layout getLayout () { checkWidget(); return layout_; } /** * Returns <code>true</code> if the receiver has deferred * the performing of layout, and <code>false</code> otherwise. * * @return the receiver's deferred layout state * * @exception DWTException <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 #setLayoutDeferred(bool) * @see #isLayoutDeferred() * * @since 3.1 */ public bool getLayoutDeferred () { checkWidget (); return layoutCount > 0 ; } /** * Gets the (possibly empty) tabbing order for the control. * * @return tabList the ordered list of controls representing the tab order * * @exception DWTException <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 #setTabList */ public Control [] getTabList () { checkWidget (); Control [] tabList = _getTabList (); if (tabList is null) { int count = 0; Control [] list =_getChildren (); for (int i=0; i<list.length; i++) { if (list [i].isTabGroup ()) count++; } tabList = new Control [count]; int index = 0; for (int i=0; i<list.length; i++) { if (list [i].isTabGroup ()) { tabList [index++] = list [i]; } } } return tabList; } override int /*long*/ gtk_button_press_event (GtkWidget* widget, GdkEventButton* event) { auto result = super.gtk_button_press_event (widget, event); if (result !is 0) return result; if ((state & CANVAS) !is 0) { if ((style & DWT.NO_FOCUS) is 0 && hooksKeys ()) { if (event.button is 1) { if (getChildrenCount () is 0) setFocus (); } } } return result; } override int /*long*/ gtk_expose_event (GtkWidget* widget, GdkEventExpose* eventPtr) { if ((state & OBSCURED) !is 0) return 0; if ((state & CANVAS) is 0) { return super.gtk_expose_event (widget, eventPtr); } if ((style & DWT.NO_MERGE_PAINTS) is 0) { return super.gtk_expose_event (widget, eventPtr); } if (!hooks (DWT.Paint) && !filters (DWT.Paint)) return 0; GdkEventExpose* gdkEvent = eventPtr; GdkRectangle* rectangles; int n_rectangles; OS.gdk_region_get_rectangles (gdkEvent.region, &rectangles, &n_rectangles); for (int i=0; i<n_rectangles; i++) { Event event = new Event (); event.x = rectangles[i].x; event.y = rectangles[i].y; event.width = rectangles[i].width; event.height = rectangles[i].height; if ((style & DWT.MIRRORED) !is 0) event.x = getClientWidth () - event.width - event.x; auto damageRgn = OS.gdk_region_new (); OS.gdk_region_union_with_rect (damageRgn, rectangles + i ); GCData data = new GCData (); data.damageRgn = damageRgn; GC gc = event.gc = GC.gtk_new (this, data); OS.gdk_gc_set_clip_region (gc.handle, damageRgn); sendEvent (DWT.Paint, event); gc.dispose (); OS.gdk_region_destroy (damageRgn); event.gc = null; } OS.g_free (rectangles); return 0; } override int /*long*/ gtk_key_press_event (GtkWidget* widget, GdkEventKey* event) { auto result = super.gtk_key_press_event (widget, event); if (result !is 0) return result; /* * Feature in GTK. The default behavior when the return key * is pressed is to select the default button. This is not the * expected behavior for Composite and its subclasses. The * fix is to avoid calling the default handler. */ if ((state & CANVAS) !is 0 && socketHandle is null) { GdkEventKey* keyEvent = event; int key = keyEvent.keyval; switch (key) { case OS.GDK_Return: case OS.GDK_KP_Enter: return 1; default: } } return result; } override int /*long*/ gtk_focus (GtkWidget* widget, int directionType) { if (widget is socketHandle) return 0; return super.gtk_focus (widget, directionType); } override int /*long*/ gtk_focus_in_event (GtkWidget* widget, GdkEventFocus* event) { int /*long*/ result = super.gtk_focus_in_event (widget, event); return (state & CANVAS) !is 0 ? 1 : result; } override int /*long*/ gtk_focus_out_event (GtkWidget* widget, GdkEventFocus* event) { auto result = super.gtk_focus_out_event (widget, event); return (state & CANVAS) !is 0 ? 1 : result; } override int /*long*/ gtk_map (GtkWidget* widget) { fixZOrder (); return 0; } override int /*long*/ gtk_realize (GtkWidget* widget) { auto result = super.gtk_realize (widget); if ((style & DWT.NO_BACKGROUND) !is 0) { auto window = OS.GTK_WIDGET_WINDOW (paintHandle ()); if (window !is null) OS.gdk_window_set_back_pixmap (window, null, false); } if (socketHandle !is null) { embeddedHandle = OS.gtk_socket_get_id (cast(GtkSocket*)socketHandle); } return result; } override int /*long*/ gtk_scroll_child (GtkWidget* widget, int /*long*/ scrollType, int /*long*/ horizontal) { /* Stop GTK scroll child signal for canvas */ OS.g_signal_stop_emission_by_name (widget, OS.scroll_child.ptr); return 1; } override int /*long*/ gtk_style_set (GtkWidget* widget, int /*long*/ previousStyle) { auto result = super.gtk_style_set (widget, previousStyle); if ((style & DWT.NO_BACKGROUND) !is 0) { auto window = OS.GTK_WIDGET_WINDOW (paintHandle ()); if (window !is null) OS.gdk_window_set_back_pixmap (window, null, false); } return result; } bool hasBorder () { return (style & DWT.BORDER) !is 0; } override void hookEvents () { super.hookEvents (); if ((state & CANVAS) !is 0) { OS.gtk_widget_add_events (handle, OS.GDK_POINTER_MOTION_HINT_MASK); if (scrolledHandle !is null) { OS.g_signal_connect_closure (scrolledHandle, OS.scroll_child.ptr, display.closures [SCROLL_CHILD], false); } } } bool hooksKeys () { return hooks (DWT.KeyDown) || hooks (DWT.KeyUp); } override GtkIMContext* imHandle () { return imHandle_; } /** * Returns <code>true</code> if the receiver or any ancestor * up to and including the receiver's nearest ancestor shell * has deferred the performing of layouts. Otherwise, <code>false</code> * is returned. * * @return the receiver's deferred layout state * * @exception DWTException <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 #setLayoutDeferred(bool) * @see #getLayoutDeferred() * * @since 3.1 */ public bool isLayoutDeferred () { checkWidget (); return findDeferredControl () !is null; } override bool isTabGroup() { if ((state & CANVAS) !is 0) return true; return super.isTabGroup(); } /** * If the receiver has a layout, asks the layout to <em>lay out</em> * (that is, set the size and location of) the receiver's children. * If the receiver does not have a layout, do nothing. * <p> * This is equivalent to calling <code>layout(true)</code>. * </p> * <p> * Note: Layout is different from painting. If a child is * moved or resized such that an area in the parent is * exposed, then the parent will paint. If no child is * affected, the parent will not paint. * </p> * * @exception DWTException <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 void layout () { checkWidget (); layout (true); } /** * If the receiver has a layout, asks the layout to <em>lay out</em> * (that is, set the size and location of) the receiver's children. * If the argument is <code>true</code> the layout must not rely * on any information it has cached about the immediate children. If it * is <code>false</code> the layout may (potentially) optimize the * work it is doing by assuming that none of the receiver's * children has changed state since the last layout. * If the receiver does not have a layout, do nothing. * <p> * If a child is resized as a result of a call to layout, the * resize event will invoke the layout of the child. The layout * will cascade down through all child widgets in the receiver's widget * tree until a child is encountered that does not resize. Note that * a layout due to a resize will not flush any cached information * (same as <code>layout(false)</code>). * </p> * <p> * Note: Layout is different from painting. If a child is * moved or resized such that an area in the parent is * exposed, then the parent will paint. If no child is * affected, the parent will not paint. * </p> * * @param changed <code>true</code> if the layout must flush its caches, and <code>false</code> otherwise * * @exception DWTException <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 void layout (bool changed) { checkWidget (); if (layout_ is null) return; layout (changed, false); } /** * If the receiver has a layout, asks the layout to <em>lay out</em> * (that is, set the size and location of) the receiver's children. * If the changed argument is <code>true</code> the layout must not rely * on any information it has cached about its children. If it * is <code>false</code> the layout may (potentially) optimize the * work it is doing by assuming that none of the receiver's * children has changed state since the last layout. * If the all argument is <code>true</code> the layout will cascade down * through all child widgets in the receiver's widget tree, regardless of * whether the child has changed size. The changed argument is applied to * all layouts. If the all argument is <code>false</code>, the layout will * <em>not</em> cascade down through all child widgets in the receiver's widget * tree. However, if a child is resized as a result of a call to layout, the * resize event will invoke the layout of the child. Note that * a layout due to a resize will not flush any cached information * (same as <code>layout(false)</code>). * </p> * <p> * Note: Layout is different from painting. If a child is * moved or resized such that an area in the parent is * exposed, then the parent will paint. If no child is * affected, the parent will not paint. * </p> * * @param changed <code>true</code> if the layout must flush its caches, and <code>false</code> otherwise * @param all <code>true</code> if all children in the receiver's widget tree should be laid out, and <code>false</code> otherwise * * @exception DWTException <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 layout (bool changed, bool all) { checkWidget (); if (layout_ is null && !all) return; markLayout (changed, all); updateLayout (all); } /** * Forces a lay out (that is, sets the size and location) of all widgets that * are in the parent hierarchy of the changed control up to and including the * receiver. The layouts in the hierarchy must not rely on any information * cached about the changed control or any of its ancestors. The layout may * (potentially) optimize the work it is doing by assuming that none of the * peers of the changed control have changed state since the last layout. * If an ancestor does not have a layout, skip it. * <p> * Note: Layout is different from painting. If a child is * moved or resized such that an area in the parent is * exposed, then the parent will paint. If no child is * affected, the parent will not paint. * </p> * * @param changed a control that has had a state change which requires a recalculation of its size * * @exception IllegalArgumentException <ul> * <li>ERROR_INVALID_ARGUMENT - if the changed array is null any of its controls are null or have been disposed</li> * <li>ERROR_INVALID_PARENT - if any control in changed is not in the widget tree of the receiver</li> * </ul> * @exception DWTException <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 layout (Control [] changed) { checkWidget (); if (changed is null) error (DWT.ERROR_INVALID_ARGUMENT); for (int i=0; i<changed.length; i++) { Control control = changed [i]; if (control is null) error (DWT.ERROR_INVALID_ARGUMENT); if (control.isDisposed ()) error (DWT.ERROR_INVALID_ARGUMENT); bool ancestor = false; Composite composite = control.parent; while (composite !is null) { ancestor = composite is this; if (ancestor) break; composite = composite.parent; } if (!ancestor) error (DWT.ERROR_INVALID_PARENT); } int updateCount = 0; Composite [] update = new Composite [16]; for (int i=0; i<changed.length; i++) { Control child = changed [i]; Composite composite = child.parent; while (child !is this) { if (composite.layout_ !is null) { composite.state |= LAYOUT_NEEDED; if (!composite.layout_.flushCache (child)) { composite.state |= LAYOUT_CHANGED; } } if (updateCount is update.length) { Composite [] newUpdate = new Composite [update.length + 16]; System.arraycopy (update, 0, newUpdate, 0, update.length); update = newUpdate; } child = update [updateCount++] = composite; composite = child.parent; } } for (int i=updateCount-1; i>=0; i--) { update [i].updateLayout (false); } } override void markLayout (bool changed, bool all) { if (layout_ !is null) { state |= LAYOUT_NEEDED; if (changed) state |= LAYOUT_CHANGED; } if (all) { Control [] children = _getChildren (); for (int i=0; i<children.length; i++) { children [i].markLayout (changed, all); } } } void moveAbove (GtkWidget* child, GtkWidget* sibling) { if (child is sibling) return; auto parentHandle = parentingHandle (); auto fixed = cast(GtkFixed*)parentHandle; GList* children = fixed.children; if (children is null) return; void* data; GtkWidget* widget; void* childData; GList* childLink, siblingLink; GList* temp = children; while (temp !is null) { data = temp.data; widget = *cast(GtkWidget**) data; if (child is widget) { childLink = temp; childData = data; } else if (sibling is widget) { siblingLink = temp; } if (childData !is null && (sibling is null || siblingLink !is null)) break; temp = cast(GList*)OS.g_list_next (temp); } children = OS.g_list_remove_link (children, childLink); if (siblingLink is null || siblingLink.prev is null) { OS.g_list_free_1 (childLink); children = OS.g_list_prepend (children, childData); } else { temp = siblingLink.prev; childLink.prev = temp; temp.next = childLink; childLink.next = siblingLink; siblingLink.prev = childLink; } fixed.children = children; parentHandle = cast(GtkWidget*)fixed; } alias Scrollable.moveBelow moveBelow; void moveBelow (GtkWidget* child, GtkWidget* sibling) { if (child is sibling) return; auto parentHandle = parentingHandle (); if (sibling is null && cast(GtkWidget*)parentHandle is cast(GtkWidget*)fixedHandle) { moveAbove (child, scrolledHandle !is null ? cast(GtkWidget*)scrolledHandle : handle); return; } auto fixed = cast(GtkFixed*)parentHandle; GList* children = fixed.children; if (children is null) return; void* data; GtkWidget* widget; void* childData; GList* childLink; GList* siblingLink; GList* temp = children; while (temp !is null) { data = temp.data; widget = *cast(GtkWidget**) temp.data; if (child is widget) { childLink = temp; childData = data; } else if (sibling is widget) { siblingLink = temp; } if (childData !is null && (sibling is null || siblingLink !is null)) break; temp = OS.g_list_next(temp); } children = OS.g_list_remove_link (children, childLink); if (siblingLink is null || OS.g_list_next(siblingLink) is null) { OS.g_list_free_1 (childLink); children = OS.g_list_append (children, childData); } else { temp = OS.g_list_next( siblingLink ); OS.g_list_set_next (childLink, temp); OS.g_list_set_previous (temp, childLink); OS.g_list_set_previous (childLink, siblingLink); OS.g_list_set_next (siblingLink, childLink); } fixed.children = children; parentHandle = cast(GtkWidget*)fixed; } void moveChildren(int oldWidth) { Control[] children = _getChildren (); for (int i = 0; i < children.length; i++) { Control child = children[i]; auto topHandle = child.topHandle (); int x = OS.GTK_WIDGET_X (topHandle); int y = OS.GTK_WIDGET_Y (topHandle); int controlWidth = (child.state & ZERO_WIDTH) !is 0 ? 0 : OS.GTK_WIDGET_WIDTH (topHandle); x = oldWidth - controlWidth - x; int clientWidth = getClientWidth (); x = clientWidth - controlWidth - x; if (child.enableWindow !is null) { OS.gdk_window_move (child.enableWindow, x, y); } child.moveHandle (x, y); /* * Cause a size allocation this widget's topHandle. Note that * all calls to gtk_widget_size_allocate() must be preceded by * a call to gtk_widget_size_request(). */ GtkRequisition requisition; gtk_widget_size_request (topHandle, &requisition); GtkAllocation allocation; allocation.x = x; allocation.y = y; allocation.width = OS.GTK_WIDGET_WIDTH (topHandle); allocation.height = OS.GTK_WIDGET_HEIGHT (topHandle); OS.gtk_widget_size_allocate (topHandle, &allocation); Control control = child.findBackgroundControl (); if (control !is null && control.backgroundImage !is null) { if (child.isVisible ()) child.redrawWidget (0, 0, 0, 0, true, true, true); } } } Point minimumSize (int wHint, int hHint, bool changed) { Control [] children = _getChildren (); int width = 0, height = 0; for (int i=0; i<children.length; i++) { Rectangle rect = children [i].getBounds (); width = Math.max (width, rect.x + rect.width); height = Math.max (height, rect.y + rect.height); } return new Point (width, height); } GtkWidget* parentingHandle () { if ((state & CANVAS) !is 0) return handle; return fixedHandle !is null ? fixedHandle : handle; } override void printWidget (GC gc, GdkDrawable* drawable, int depth, int x, int y) { Region oldClip = new Region (gc.getDevice ()); Region newClip = new Region (gc.getDevice ()); gc.getClipping (oldClip); Rectangle rect = getBounds (); newClip.add (oldClip); newClip.intersect (x, y, rect.width, rect.height); gc.setClipping (newClip); super.printWidget (gc, drawable, depth, x, y); Rectangle clientRect = getClientArea (); Point pt = display.map (this, parent, clientRect.x, clientRect.y); clientRect.x = x + pt.x - rect.x; clientRect.y = y + pt.y - rect.y; newClip.intersect (clientRect); gc.setClipping (newClip); Control [] children = _getChildren (); for (int i=children.length-1; i>=0; --i) { Control child = children [i]; if (child.getVisible ()) { Point location = child.getLocation (); child.printWidget (gc, drawable, depth, x + location.x, y + location.y); } } gc.setClipping (oldClip); oldClip.dispose (); newClip.dispose (); } override void redrawChildren () { super.redrawChildren (); Control [] children = _getChildren (); for (int i = 0; i < children.length; i++) { Control child = children [i]; if ((child.state & PARENT_BACKGROUND) !is 0) { child.redrawWidget (0, 0, 0, 0, true, false, true); child.redrawChildren (); } } } override void register () { super.register (); if (socketHandle !is null) display.addWidget (socketHandle, this); } override void releaseChildren (bool destroy) { Control [] children = _getChildren (); for (int i=0; i<children.length; i++) { Control child = children [i]; if (child !is null && !child.isDisposed ()) { child.release (false); } } super.releaseChildren (destroy); } override void releaseHandle () { super.releaseHandle (); socketHandle = null; embeddedHandle = 0; } override void releaseWidget () { super.releaseWidget (); if (imHandle_ !is null) OS.g_object_unref (imHandle_); imHandle_ = null; layout_ = null; tabList = null; } void removeControl (Control control) { fixTabList (control); } override void resizeHandle (int width, int height) { super.resizeHandle (width, height); if (socketHandle !is null) OS.gtk_widget_set_size_request (socketHandle, width, height); } /** * Sets the background drawing mode to the argument which should * be one of the following constants defined in class <code>DWT</code>: * <code>INHERIT_NONE</code>, <code>INHERIT_DEFAULT</code>, * <code>INHERIT_FORCE</code>. * * @param mode the new background mode * * @exception DWTException <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 DWT * * @since 3.2 */ public void setBackgroundMode (int mode) { checkWidget (); backgroundMode = mode; Control[] children = _getChildren (); for (int i = 0; i < children.length; i++) { children [i].updateBackgroundMode (); } } override int setBounds (int x, int y, int width, int height, bool move, bool resize) { int result = super.setBounds (x, y, width, height, move, resize); if ((result & RESIZED) !is 0 && layout_ !is null) { markLayout (false, false); updateLayout (false); } return result; } override public bool setFocus () { checkWidget(); Control [] children = _getChildren (); for (int i=0; i<children.length; i++) { Control child = children [i]; if (child.getVisible () && child.setFocus ()) return true; } return super.setFocus (); } /** * Sets the layout which is associated with the receiver to be * the argument which may be null. * * @param layout the receiver's new layout or null * * @exception DWTException <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 void setLayout (Layout layout) { checkWidget(); this.layout_ = layout; } /** * If the argument is <code>true</code>, causes subsequent layout * operations in the receiver or any of its children to be ignored. * No layout of any kind can occur in the receiver or any of its * children until the flag is set to false. * Layout operations that occurred while the flag was * <code>true</code> are remembered and when the flag is set to * <code>false</code>, the layout operations are performed in an * optimized manner. Nested calls to this method are stacked. * * @param defer the new defer state * * @exception DWTException <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 #layout(bool) * @see #layout(Control[]) * * @since 3.1 */ public void setLayoutDeferred (bool defer) { if (!defer) { if (--layoutCount is 0) { if ((state & LAYOUT_CHILD) !is 0 || (state & LAYOUT_NEEDED) !is 0) { updateLayout (true); } } } else { layoutCount++; } } override bool setScrollBarVisible (ScrollBar bar, bool visible) { bool changed = super.setScrollBarVisible (bar, visible); if (changed && layout_ !is null) { markLayout (false, false); updateLayout (false); } return changed; } override bool setTabGroupFocus (bool next) { if (isTabItem ()) return setTabItemFocus (next); bool takeFocus = (style & DWT.NO_FOCUS) is 0; if ((state & CANVAS) !is 0) takeFocus = hooksKeys (); if (socketHandle !is null) takeFocus = true; if (takeFocus && setTabItemFocus (next)) return true; Control [] children = _getChildren (); for (int i=0; i<children.length; i++) { Control child = children [i]; if (child.isTabItem () && child.setTabItemFocus (next)) return true; } return false; } override bool setTabItemFocus (bool next) { if (!super.setTabItemFocus (next)) return false; if (socketHandle !is null) { int direction = next ? OS.GTK_DIR_TAB_FORWARD : OS.GTK_DIR_TAB_BACKWARD; OS.GTK_WIDGET_UNSET_FLAGS (socketHandle, OS.GTK_HAS_FOCUS); OS.gtk_widget_child_focus (socketHandle, direction); OS.GTK_WIDGET_SET_FLAGS (socketHandle, OS.GTK_HAS_FOCUS); } return true; } /** * Sets the tabbing order for the specified controls to * match the order that they occur in the argument list. * * @param tabList the ordered list of controls representing the tab order or null * * @exception IllegalArgumentException <ul> * <li>ERROR_INVALID_ARGUMENT - if a widget in the tabList is null or has been disposed</li> * <li>ERROR_INVALID_PARENT - if widget in the tabList is not in the same widget tree</li> * </ul> * @exception DWTException <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 void setTabList (Control [] tabList) { checkWidget (); if (tabList !is null) { for (int i=0; i<tabList.length; i++) { Control control = tabList [i]; if (control is null) error (DWT.ERROR_INVALID_ARGUMENT); if (control.isDisposed ()) error (DWT.ERROR_INVALID_ARGUMENT); if (control.parent !is this) error (DWT.ERROR_INVALID_PARENT); } Control [] newList = new Control [tabList.length]; System.arraycopy (tabList, 0, newList, 0, tabList.length); tabList = newList; } this.tabList = tabList; } override void showWidget () { super.showWidget (); if (socketHandle !is null) { OS.gtk_widget_show (socketHandle); embeddedHandle = OS.gtk_socket_get_id (cast(GtkSocket*)socketHandle); } if (scrolledHandle is null) fixStyle (handle); } override bool translateMnemonic (Event event, Control control) { if (super.translateMnemonic (event, control)) return true; if (control !is null) { Control [] children = _getChildren (); for (int i=0; i<children.length; i++) { Control child = children [i]; if (child.translateMnemonic (event, control)) return true; } } return false; } override int traversalCode(int key, GdkEventKey* event) { if ((state & CANVAS) !is 0) { if ((style & DWT.NO_FOCUS) !is 0) return 0; if (hooksKeys ()) return 0; } return super.traversalCode (key, event); } override bool translateTraversal (GdkEventKey* keyEvent) { if (socketHandle !is null) return false; return super.translateTraversal (keyEvent); } override void updateBackgroundMode () { super.updateBackgroundMode (); Control [] children = _getChildren (); for (int i = 0; i < children.length; i++) { children [i].updateBackgroundMode (); } } override void updateLayout (bool all) { Composite parent = findDeferredControl (); if (parent !is null) { parent.state |= LAYOUT_CHILD; return; } if ((state & LAYOUT_NEEDED) !is 0) { bool changed = (state & LAYOUT_CHANGED) !is 0; state &= ~(LAYOUT_NEEDED | LAYOUT_CHANGED); layout_.layout (this, changed); } if (all) { state &= ~LAYOUT_CHILD; Control [] children = _getChildren (); for (int i=0; i<children.length; i++) { children [i].updateLayout (all); } } } }