/******************************************************************************* * Copyright (c) 2000, 2012 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 *******************************************************************************/ package org.eclipse.swt.widgets; import org.eclipse.swt.*; import org.eclipse.swt.internal.gtk.*; import org.eclipse.swt.graphics.*; import org.eclipse.swt.events.*; /** * Instances of this class implement rubber banding rectangles that are * drawn onto a parent Composite or Display. * These rectangles can be specified to respond to mouse and key events * by either moving or resizing themselves accordingly. Trackers are * typically used to represent window geometries in a lightweight manner. * *
*
Styles:
*
LEFT, RIGHT, UP, DOWN, RESIZE
*
Events:
*
Move, Resize
*
*

* Note: Rectangle move behavior is assumed unless RESIZE is specified. *

* IMPORTANT: This class is not intended to be subclassed. *

* * @see Tracker snippets * @see Sample code and further information * @noextend This class is not intended to be subclassed by clients. */ public class Tracker extends Widget { Composite parent; Cursor cursor; long /*int*/ lastCursor, window, overlay; boolean tracking, cancelled, grabbed, stippled; Rectangle [] rectangles = new Rectangle [0], proportions = rectangles; Rectangle bounds; int cursorOrientation = SWT.NONE; int oldX, oldY; final static int STEPSIZE_SMALL = 1; final static int STEPSIZE_LARGE = 9; /** * Constructs a new instance of this class given its parent * and a style value describing its behavior and appearance. *

* The style value is either one of the style constants defined in * class SWT which is applicable to instances of this * class, or must be built by bitwise OR'ing together * (that is, using the int "|" operator) two or more * of those SWT style constants. The class description * lists the style constants that are applicable to the class. * Style bits are also inherited from superclasses. *

* * @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 * @exception SWTException * * @see SWT#LEFT * @see SWT#RIGHT * @see SWT#UP * @see SWT#DOWN * @see SWT#RESIZE * @see Widget#checkSubclass * @see Widget#getStyle */ public Tracker (Composite parent, int style) { super (parent, checkStyle(style)); this.parent = parent; } /** * Constructs a new instance of this class given the display * to create it on and a style value describing its behavior * and appearance. *

* The style value is either one of the style constants defined in * class SWT which is applicable to instances of this * class, or must be built by bitwise OR'ing together * (that is, using the int "|" operator) two or more * of those SWT style constants. The class description * lists the style constants that are applicable to the class. * Style bits are also inherited from superclasses. *

* Note: Currently, null can be passed in for the display argument. * This has the effect of creating the tracker on the currently active * display if there is one. If there is no current display, the * tracker is created on a "default" display. 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. *

* * @param display the display to create the tracker on * @param style the style of control to construct * * @exception SWTException * * @see SWT#LEFT * @see SWT#RIGHT * @see SWT#UP * @see SWT#DOWN * @see SWT#RESIZE */ public Tracker (Display display, int style) { if (display == null) display = Display.getCurrent (); if (display == null) display = Display.getDefault (); if (!display.isValidThread ()) { error (SWT.ERROR_THREAD_INVALID_ACCESS); } this.style = checkStyle (style); this.display = display; reskinWidget (); } /** * Adds the listener to the collection of listeners who will * be notified when the control is moved or resized, by sending * it one of the messages defined in the ControlListener * interface. * * @param listener the listener which should be notified * * @exception IllegalArgumentException * @exception SWTException * * @see ControlListener * @see #removeControlListener */ public void addControlListener(ControlListener listener) { checkWidget(); if (listener == null) error (SWT.ERROR_NULL_ARGUMENT); TypedListener typedListener = new TypedListener (listener); addListener (SWT.Resize, typedListener); addListener (SWT.Move, typedListener); } /** * Adds the listener to the collection of listeners who will * be notified when keys are pressed and released on the system keyboard, by sending * it one of the messages defined in the KeyListener * interface. * * @param listener the listener which should be notified * * @exception IllegalArgumentException * @exception SWTException * * @see KeyListener * @see #removeKeyListener */ public void addKeyListener(KeyListener listener) { checkWidget(); if (listener == null) error (SWT.ERROR_NULL_ARGUMENT); TypedListener typedListener = new TypedListener (listener); addListener(SWT.KeyUp,typedListener); addListener(SWT.KeyDown,typedListener); } Point adjustMoveCursor () { if (bounds == null) return null; int newX = bounds.x + bounds.width / 2; int newY = bounds.y; Point point = display.map (parent, null, newX, newY); display.setCursorLocation (point); /* * The call to XWarpPointer does not always place the pointer on the * exact location that is specified, so do a query (below) to get the * actual location of the pointer after it has been moved. */ int [] actualX = new int [1], actualY = new int [1], state = new int [1]; gdk_window_get_device_position (window, actualX, actualY, state); return new Point (actualX [0], actualY [0]); } Point adjustResizeCursor () { if (bounds == null) return null; int newX, newY; if ((cursorOrientation & SWT.LEFT) != 0) { newX = bounds.x; } else if ((cursorOrientation & SWT.RIGHT) != 0) { newX = bounds.x + bounds.width; } else { newX = bounds.x + bounds.width / 2; } if ((cursorOrientation & SWT.UP) != 0) { newY = bounds.y; } else if ((cursorOrientation & SWT.DOWN) != 0) { newY = bounds.y + bounds.height; } else { newY = bounds.y + bounds.height / 2; } Point point = display.map (parent, null, newX, newY); display.setCursorLocation (point); /* * The call to XWarpPointer does not always place the pointer on the * exact location that is specified, so do a query (below) to get the * actual location of the pointer after it has been moved. */ int [] actualX = new int [1], actualY = new int [1], state = new int [1]; gdk_window_get_device_position (window, actualX, actualY, state); return new Point (actualX [0], actualY [0]); } /** * Stops displaying the tracker rectangles. Note that this is not considered * to be a cancelation by the user. * * @exception SWTException */ public void close () { checkWidget(); tracking = false; } static int checkStyle (int style) { if ((style & (SWT.LEFT | SWT.RIGHT | SWT.UP | SWT.DOWN)) == 0) { style |= SWT.LEFT | SWT.RIGHT | SWT.UP | SWT.DOWN; } return style; } Rectangle computeBounds () { if (rectangles.length == 0) return null; int xMin = rectangles [0].x; int yMin = rectangles [0].y; int xMax = rectangles [0].x + rectangles [0].width; int yMax = rectangles [0].y + rectangles [0].height; for (int i = 1; i < rectangles.length; i++) { if (rectangles [i].x < xMin) xMin = rectangles [i].x; if (rectangles [i].y < yMin) yMin = rectangles [i].y; int rectRight = rectangles [i].x + rectangles [i].width; if (rectRight > xMax) xMax = rectRight; int rectBottom = rectangles [i].y + rectangles [i].height; if (rectBottom > yMax) yMax = rectBottom; } return new Rectangle (xMin, yMin, xMax - xMin, yMax - yMin); } Rectangle [] computeProportions (Rectangle [] rects) { Rectangle [] result = new Rectangle [rects.length]; bounds = computeBounds (); if (bounds != null) { for (int i = 0; i < rects.length; i++) { int x = 0, y = 0, width = 0, height = 0; if (bounds.width != 0) { x = (rects [i].x - bounds.x) * 100 / bounds.width; width = rects [i].width * 100 / bounds.width; } else { width = 100; } if (bounds.height != 0) { y = (rects [i].y - bounds.y) * 100 / bounds.height; height = rects [i].height * 100 / bounds.height; } else { height = 100; } result [i] = new Rectangle (x, y, width, height); } } return result; } void drawRectangles (Rectangle [] rects) { long /*int*/ window = OS.gdk_get_default_root_window(); if (parent != null) { window = gtk_widget_get_window (parent.paintHandle()); } if (window == 0) return; if (OS.GTK3) { if (overlay == 0) return; OS.gtk_widget_shape_combine_region (overlay, 0); long /*int*/ region = OS.gdk_region_new (); GdkRectangle rect = new GdkRectangle(); for (int i = 0; i < rects.length; i++) { Rectangle r = parent != null ? display.map(parent, null, rects[i]) : rects[i]; rect.x = r.x; rect.y = r.y; rect.width = r.width + 1; rect.height = 1; OS.gdk_region_union_with_rect(region, rect); rect.width = 1; rect.height = r.height + 1; OS.gdk_region_union_with_rect(region, rect); rect.x = r.x + r.width; OS.gdk_region_union_with_rect(region, rect); rect.x = r.x; rect.y = r.y + r.height; rect.width = r.width + 1; rect.height = 1; OS.gdk_region_union_with_rect(region, rect); } OS.gtk_widget_shape_combine_region (overlay, region); OS.gdk_region_destroy (region); long /*int*/ overlayWindow = OS.gtk_widget_get_window (overlay); OS.gdk_window_hide (overlayWindow); OS.gdk_window_show (overlayWindow); return; } long /*int*/ gc = OS.gdk_gc_new (window); if (gc == 0) return; long /*int*/ colormap = OS.gdk_colormap_get_system (); GdkColor color = new GdkColor (); OS.gdk_color_white (colormap, color); OS.gdk_gc_set_foreground (gc, color); OS.gdk_gc_set_subwindow (gc, OS.GDK_INCLUDE_INFERIORS); OS.gdk_gc_set_function (gc, OS.GDK_XOR); for (int i=0; iDisplay then these are screen * coordinates. * * @return the bounds of the Rectangles being drawn * * @exception SWTException */ public Rectangle [] getRectangles () { checkWidget(); Rectangle [] result = new Rectangle [rectangles.length]; for (int i = 0; i < rectangles.length; i++) { Rectangle current = rectangles [i]; result [i] = new Rectangle (current.x, current.y, current.width, current.height); } return result; } /** * Returns true if the rectangles are drawn with a stippled line, false otherwise. * * @return the stippled effect of the rectangles * * @exception SWTException */ public boolean getStippled () { checkWidget(); return stippled; } boolean grab () { long /*int*/ cursor = this.cursor != null ? this.cursor.handle : 0; int result = gdk_pointer_grab (window, OS.GDK_OWNERSHIP_NONE, false, OS.GDK_POINTER_MOTION_MASK | OS.GDK_BUTTON_RELEASE_MASK, window, cursor, OS.GDK_CURRENT_TIME); return result == OS.GDK_GRAB_SUCCESS; } long /*int*/ gtk_button_release_event (long /*int*/ widget, long /*int*/ event) { return gtk_mouse (OS.GDK_BUTTON_RELEASE, widget, event); } long /*int*/ gtk_key_press_event (long /*int*/ widget, long /*int*/ eventPtr) { long /*int*/ result = super.gtk_key_press_event (widget, eventPtr); if (result != 0) return result; GdkEventKey keyEvent = new GdkEventKey (); OS.memmove (keyEvent, eventPtr, GdkEventKey.sizeof); int stepSize = ((keyEvent.state & OS.GDK_CONTROL_MASK) != 0) ? STEPSIZE_SMALL : STEPSIZE_LARGE; int xChange = 0, yChange = 0; switch (keyEvent.keyval) { case OS.GDK_Escape: cancelled = true; // fallthrough case OS.GDK_Return: tracking = false; break; case OS.GDK_Left: xChange = -stepSize; break; case OS.GDK_Right: xChange = stepSize; break; case OS.GDK_Up: yChange = -stepSize; break; case OS.GDK_Down: yChange = stepSize; break; } if (xChange != 0 || yChange != 0) { Rectangle [] oldRectangles = rectangles; Rectangle [] rectsToErase = new Rectangle [rectangles.length]; for (int i = 0; i < rectangles.length; i++) { Rectangle current = rectangles [i]; rectsToErase [i] = new Rectangle (current.x, current.y, current.width, current.height); } Event event = new Event (); event.x = oldX + xChange; event.y = oldY + yChange; if (parent != null && (parent.style & SWT.MIRRORED) != 0) { event.x = parent.getClientWidth () - event.width - event.x; } if ((style & SWT.RESIZE) != 0) { resizeRectangles (xChange, yChange); sendEvent (SWT.Resize, event); /* * It is possible (but unlikely) that application * code could have disposed the widget in the resize * event. If this happens return false to indicate * that the tracking has failed. */ if (isDisposed ()) { cancelled = true; return 1; } boolean draw = false; /* * It is possible that application code could have * changed the rectangles in the resize event. If this * happens then only redraw the tracker if the rectangle * values have changed. */ if (rectangles != oldRectangles) { int length = rectangles.length; if (length != rectsToErase.length) { draw = true; } else { for (int i = 0; i < length; i++) { if (!rectangles [i].equals (rectsToErase [i])) { draw = true; break; } } } } else { draw = true; } if (draw) { if (!OS.GTK3) { drawRectangles (rectsToErase); update (); } drawRectangles (rectangles); } Point cursorPos = adjustResizeCursor (); if (cursorPos != null) { oldX = cursorPos.x; oldY = cursorPos.y; } } else { moveRectangles (xChange, yChange); sendEvent (SWT.Move, event); /* * It is possible (but unlikely) that application * code could have disposed the widget in the move * event. If this happens return false to indicate * that the tracking has failed. */ if (isDisposed ()) { cancelled = true; return 1; } boolean draw = false; /* * It is possible that application code could have * changed the rectangles in the move event. If this * happens then only redraw the tracker if the rectangle * values have changed. */ if (rectangles != oldRectangles) { int length = rectangles.length; if (length != rectsToErase.length) { draw = true; } else { for (int i = 0; i < length; i++) { if (!rectangles [i].equals (rectsToErase [i])) { draw = true; break; } } } } else { draw = true; } if (draw) { drawRectangles (rectsToErase); update (); drawRectangles (rectangles); } Point cursorPos = adjustMoveCursor (); if (cursorPos != null) { oldX = cursorPos.x; oldY = cursorPos.y; } } } return result; } long /*int*/ gtk_motion_notify_event (long /*int*/ widget, long /*int*/ eventPtr) { long /*int*/ cursor = this.cursor != null ? this.cursor.handle : 0; if (cursor != lastCursor) { ungrab (); grabbed = grab (); lastCursor = cursor; } return gtk_mouse (OS.GDK_MOTION_NOTIFY, widget, eventPtr); } long /*int*/ gtk_mouse (int eventType, long /*int*/ widget, long /*int*/ eventPtr) { int [] newX = new int [1], newY = new int [1]; gdk_window_get_device_position (window, newX, newY, null); if (oldX != newX [0] || oldY != newY [0]) { Rectangle [] oldRectangles = rectangles; Rectangle [] rectsToErase = new Rectangle [rectangles.length]; for (int i = 0; i < rectangles.length; i++) { Rectangle current = rectangles [i]; rectsToErase [i] = new Rectangle (current.x, current.y, current.width, current.height); } Event event = new Event (); if (parent == null) { event.x = newX [0]; event.y = newY [0]; } else { Point screenCoord = display.map (parent, null, newX [0], newY [0]); event.x = screenCoord.x; event.y = screenCoord.y; } if ((style & SWT.RESIZE) != 0) { resizeRectangles (newX [0] - oldX, newY [0] - oldY); sendEvent (SWT.Resize, event); /* * It is possible (but unlikely), that application * code could have disposed the widget in the resize * event. If this happens, return false to indicate * that the tracking has failed. */ if (isDisposed ()) { cancelled = true; return 1; } boolean draw = false; /* * It is possible that application code could have * changed the rectangles in the resize event. If this * happens then only redraw the tracker if the rectangle * values have changed. */ if (rectangles != oldRectangles) { int length = rectangles.length; if (length != rectsToErase.length) { draw = true; } else { for (int i = 0; i < length; i++) { if (!rectangles [i].equals (rectsToErase [i])) { draw = true; break; } } } } else { draw = true; } if (draw) { if (!OS.GTK3) { drawRectangles (rectsToErase); update (); } drawRectangles (rectangles); } Point cursorPos = adjustResizeCursor (); if (cursorPos != null) { newX [0] = cursorPos.x; newY [0] = cursorPos.y; } } else { moveRectangles (newX [0] - oldX, newY [0] - oldY); sendEvent (SWT.Move, event); /* * It is possible (but unlikely), that application * code could have disposed the widget in the move * event. If this happens, return false to indicate * that the tracking has failed. */ if (isDisposed ()) { cancelled = true; return 1; } boolean draw = false; /* * It is possible that application code could have * changed the rectangles in the move event. If this * happens then only redraw the tracker if the rectangle * values have changed. */ if (rectangles != oldRectangles) { int length = rectangles.length; if (length != rectsToErase.length) { draw = true; } else { for (int i = 0; i < length; i++) { if (!rectangles [i].equals (rectsToErase [i])) { draw = true; break; } } } } else { draw = true; } if (draw) { if (!OS.GTK3) { drawRectangles (rectsToErase); update (); } drawRectangles (rectangles); } } oldX = newX [0]; oldY = newY [0]; } tracking = eventType != OS.GDK_BUTTON_RELEASE; return 0; } void moveRectangles (int xChange, int yChange) { if (bounds == null) return; if (xChange < 0 && ((style & SWT.LEFT) == 0)) xChange = 0; if (xChange > 0 && ((style & SWT.RIGHT) == 0)) xChange = 0; if (yChange < 0 && ((style & SWT.UP) == 0)) yChange = 0; if (yChange > 0 && ((style & SWT.DOWN) == 0)) yChange = 0; if (xChange == 0 && yChange == 0) return; if (parent != null && (parent.style & SWT.MIRRORED) != 0) xChange *= -1; bounds.x += xChange; bounds.y += yChange; for (int i = 0; i < rectangles.length; i++) { rectangles [i].x += xChange; rectangles [i].y += yChange; } } /** * Displays the Tracker rectangles for manipulation by the user. Returns when * the user has either finished manipulating the rectangles or has cancelled the * Tracker. * * @return true if the user did not cancel the Tracker, false otherwise * * @exception SWTException */ public boolean open () { checkWidget(); window = OS.gdk_get_default_root_window(); if (parent != null) { window = gtk_widget_get_window (parent.paintHandle()); } if (window == 0) return false; cancelled = false; tracking = true; if (!OS.GTK3) { update (); drawRectangles (rectangles); } int [] oldX = new int [1], oldY = new int [1], state = new int [1]; gdk_window_get_device_position (window, oldX, oldY, state); /* * if exactly one of UP/DOWN is specified as a style then set the cursor * orientation accordingly (the same is done for LEFT/RIGHT styles below) */ int vStyle = style & (SWT.UP | SWT.DOWN); if (vStyle == SWT.UP || vStyle == SWT.DOWN) { cursorOrientation |= vStyle; } int hStyle = style & (SWT.LEFT | SWT.RIGHT); if (hStyle == SWT.LEFT || hStyle == SWT.RIGHT) { cursorOrientation |= hStyle; } int mask = OS.GDK_BUTTON1_MASK | OS.GDK_BUTTON2_MASK | OS.GDK_BUTTON3_MASK; boolean mouseDown = (state [0] & mask) != 0; if (!mouseDown) { Point cursorPos = null; if ((style & SWT.RESIZE) != 0) { cursorPos = adjustResizeCursor (); } else { cursorPos = adjustMoveCursor (); } if (cursorPos != null) { oldX [0] = cursorPos.x; oldY [0] = cursorPos.y; } } this.oldX = oldX [0]; this.oldY = oldY [0]; grabbed = grab (); lastCursor = this.cursor != null ? this.cursor.handle : 0; if (OS.GTK3) { overlay = OS.gtk_window_new (OS.GTK_WINDOW_POPUP); OS.gtk_window_set_skip_taskbar_hint (overlay, true); OS.gtk_window_set_title (overlay, new byte [1]); OS.gtk_widget_realize (overlay); long /*int*/ overlayWindow = OS.gtk_widget_get_window (overlay); OS.gdk_window_set_override_redirect (overlayWindow, true); OS.gtk_widget_override_background_color (overlay, OS.GTK_STATE_FLAG_NORMAL, new GdkRGBA()); long /*int*/ region = OS.gdk_region_new (); OS.gtk_widget_shape_combine_region (overlay, region); OS.gtk_widget_input_shape_combine_region (overlay, region); OS.gdk_region_destroy (region); Rectangle bounds = display.getBounds(); OS.gtk_window_move (overlay, bounds.x, bounds.y); OS.gtk_window_resize (overlay, bounds.width, bounds.height); OS.gtk_widget_show (overlay); } /* Tracker behaves like a Dialog with its own OS event loop. */ Display display = this.display; Tracker oldTracker = display.tracker; display.tracker = this; try { while (tracking) { if (parent != null && parent.isDisposed ()) break; display.runSkin (); display.runDeferredLayouts (); /* * This call to gdk_threads_leave() is a temporary work around * to avoid deadlocks when gdk_threads_init() is called by native * code outside of SWT (i.e AWT, etc). It ensures that the current * thread leaves the GTK lock before calling the function below. */ OS.gdk_threads_leave(); OS.g_main_context_iteration (0, true); display.runAsyncMessages (false); } } finally { display.tracker = oldTracker; } if (!isDisposed ()) { if (!OS.GTK3) { update (); drawRectangles (rectangles); } } ungrab (); if (overlay != 0) { OS.gtk_widget_destroy (overlay); overlay = 0; } window = 0; return !cancelled; } boolean processEvent (long /*int*/ eventPtr) { GdkEvent gdkEvent = new GdkEvent(); OS.memmove (gdkEvent, eventPtr, GdkEvent.sizeof); long /*int*/ widget = OS.gtk_get_event_widget (eventPtr); switch (gdkEvent.type) { case OS.GDK_MOTION_NOTIFY: gtk_motion_notify_event (widget, eventPtr); break; case OS.GDK_BUTTON_RELEASE: gtk_button_release_event (widget, eventPtr); break; case OS.GDK_KEY_PRESS: gtk_key_press_event (widget, eventPtr); break; case OS.GDK_KEY_RELEASE: gtk_key_release_event (widget, eventPtr); break; case OS.GDK_BUTTON_PRESS: case OS.GDK_2BUTTON_PRESS: case OS.GDK_3BUTTON_PRESS: case OS.GDK_ENTER_NOTIFY: case OS.GDK_LEAVE_NOTIFY: /* Do not dispatch these */ break; case OS.GDK_EXPOSE: update (); if (!OS.GTK3) drawRectangles (rectangles); OS.gtk_main_do_event (eventPtr); if (!OS.GTK3) drawRectangles (rectangles); break; default: return true; } return false; } void releaseWidget () { super.releaseWidget (); parent = null; rectangles = proportions = null; bounds = null; } /** * Removes the listener from the collection of listeners who will * be notified when the control is moved or resized. * * @param listener the listener which should no longer be notified * * @exception IllegalArgumentException * @exception SWTException * * @see ControlListener * @see #addControlListener */ public void removeControlListener (ControlListener listener) { checkWidget(); if (listener == null) error (SWT.ERROR_NULL_ARGUMENT); if (eventTable == null) return; eventTable.unhook (SWT.Resize, listener); eventTable.unhook (SWT.Move, listener); } /** * Removes the listener from the collection of listeners who will * be notified when keys are pressed and released on the system keyboard. * * @param listener the listener which should no longer be notified * * @exception IllegalArgumentException * @exception SWTException * * @see KeyListener * @see #addKeyListener */ public void removeKeyListener(KeyListener listener) { checkWidget(); if (listener == null) error (SWT.ERROR_NULL_ARGUMENT); if (eventTable == null) return; eventTable.unhook (SWT.KeyUp, listener); eventTable.unhook (SWT.KeyDown, listener); } void resizeRectangles (int xChange, int yChange) { if (bounds == null) return; if (parent != null && (parent.style & SWT.MIRRORED) != 0) xChange *= -1; /* * If the cursor orientation has not been set in the orientation of * this change then try to set it here. */ if (xChange < 0 && ((style & SWT.LEFT) != 0) && ((cursorOrientation & SWT.RIGHT) == 0)) { cursorOrientation |= SWT.LEFT; } if (xChange > 0 && ((style & SWT.RIGHT) != 0) && ((cursorOrientation & SWT.LEFT) == 0)) { cursorOrientation |= SWT.RIGHT; } if (yChange < 0 && ((style & SWT.UP) != 0) && ((cursorOrientation & SWT.DOWN) == 0)) { cursorOrientation |= SWT.UP; } if (yChange > 0 && ((style & SWT.DOWN) != 0) && ((cursorOrientation & SWT.UP) == 0)) { cursorOrientation |= SWT.DOWN; } /* * If the bounds will flip about the x or y axis then apply the adjustment * up to the axis (ie.- where bounds width/height becomes 0), change the * cursor's orientation accordingly, and flip each Rectangle's origin (only * necessary for > 1 Rectangles) */ if ((cursorOrientation & SWT.LEFT) != 0) { if (xChange > bounds.width) { if ((style & SWT.RIGHT) == 0) return; cursorOrientation |= SWT.RIGHT; cursorOrientation &= ~SWT.LEFT; bounds.x += bounds.width; xChange -= bounds.width; bounds.width = 0; if (proportions.length > 1) { for (int i = 0; i < proportions.length; i++) { Rectangle proportion = proportions [i]; proportion.x = 100 - proportion.x - proportion.width; } } } } else if ((cursorOrientation & SWT.RIGHT) != 0) { if (bounds.width < -xChange) { if ((style & SWT.LEFT) == 0) return; cursorOrientation |= SWT.LEFT; cursorOrientation &= ~SWT.RIGHT; xChange += bounds.width; bounds.width = 0; if (proportions.length > 1) { for (int i = 0; i < proportions.length; i++) { Rectangle proportion = proportions [i]; proportion.x = 100 - proportion.x - proportion.width; } } } } if ((cursorOrientation & SWT.UP) != 0) { if (yChange > bounds.height) { if ((style & SWT.DOWN) == 0) return; cursorOrientation |= SWT.DOWN; cursorOrientation &= ~SWT.UP; bounds.y += bounds.height; yChange -= bounds.height; bounds.height = 0; if (proportions.length > 1) { for (int i = 0; i < proportions.length; i++) { Rectangle proportion = proportions [i]; proportion.y = 100 - proportion.y - proportion.height; } } } } else if ((cursorOrientation & SWT.DOWN) != 0) { if (bounds.height < -yChange) { if ((style & SWT.UP) == 0) return; cursorOrientation |= SWT.UP; cursorOrientation &= ~SWT.DOWN; yChange += bounds.height; bounds.height = 0; if (proportions.length > 1) { for (int i = 0; i < proportions.length; i++) { Rectangle proportion = proportions [i]; proportion.y = 100 - proportion.y - proportion.height; } } } } // apply the bounds adjustment if ((cursorOrientation & SWT.LEFT) != 0) { bounds.x += xChange; bounds.width -= xChange; } else if ((cursorOrientation & SWT.RIGHT) != 0) { bounds.width += xChange; } if ((cursorOrientation & SWT.UP) != 0) { bounds.y += yChange; bounds.height -= yChange; } else if ((cursorOrientation & SWT.DOWN) != 0) { bounds.height += yChange; } Rectangle [] newRects = new Rectangle [rectangles.length]; for (int i = 0; i < rectangles.length; i++) { Rectangle proportion = proportions[i]; newRects[i] = new Rectangle ( proportion.x * bounds.width / 100 + bounds.x, proportion.y * bounds.height / 100 + bounds.y, proportion.width * bounds.width / 100, proportion.height * bounds.height / 100); } rectangles = newRects; } /** * Sets the Cursor of the Tracker. If this cursor is null * then the cursor reverts to the default. * * @param newCursor the new Cursor to display * * @exception SWTException */ public void setCursor (Cursor newCursor) { checkWidget (); cursor = newCursor; } /** * Specifies the rectangles that should be drawn, expressed relative to the parent * widget. If the parent is a Display then these are screen coordinates. * * @param rectangles the bounds of the rectangles to be drawn * * @exception IllegalArgumentException * @exception SWTException */ public void setRectangles (Rectangle [] rectangles) { checkWidget(); if (rectangles == null) error (SWT.ERROR_NULL_ARGUMENT); int length = rectangles.length; this.rectangles = new Rectangle [length]; for (int i = 0; i < length; i++) { Rectangle current = rectangles [i]; if (current == null) error (SWT.ERROR_NULL_ARGUMENT); this.rectangles [i] = new Rectangle (current.x, current.y, current.width, current.height); } proportions = computeProportions (rectangles); } /** * Changes the appearance of the line used to draw the rectangles. * * @param stippled true if rectangle should appear stippled * * @exception SWTException */ public void setStippled (boolean stippled) { checkWidget(); this.stippled = stippled; } void ungrab () { if (grabbed) gdk_pointer_ungrab (window, OS.GDK_CURRENT_TIME); } void update () { if (parent != null) { if (parent.isDisposed ()) return; parent.getShell ().update (); } else { display.update (); } } }