/[schmitzm]/trunk/src/skrueger/geotools/XMapPane.java
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Contents of /trunk/src/skrueger/geotools/XMapPane.java

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Revision 655 - (show annotations)
Wed Feb 3 11:47:44 2010 UTC (15 years ago) by alfonx
Original Path: branches/2.0-RC2/src/skrueger/geotools/XMapPane.java
File size: 78974 byte(s) 
Moving towards the new XMapPaneTool concept
1 package skrueger.geotools;
2
3 import java.awt.Color;
4 import java.awt.Cursor;
5 import java.awt.Font;
6 import java.awt.Graphics;
7 import java.awt.Graphics2D;
8 import java.awt.Image;
9 import java.awt.Point;
10 import java.awt.Rectangle;
11 import java.awt.RenderingHints;
12 import java.awt.event.ActionEvent;
13 import java.awt.event.ActionListener;
14 import java.awt.event.ComponentAdapter;
15 import java.awt.event.ComponentEvent;
16 import java.awt.event.InputEvent;
17 import java.awt.event.MouseEvent;
18 import java.awt.event.MouseListener;
19 import java.awt.geom.AffineTransform;
20 import java.awt.geom.NoninvertibleTransformException;
21 import java.awt.geom.Point2D;
22 import java.awt.image.BufferedImage;
23 import java.io.IOException;
24 import java.util.ArrayList;
25 import java.util.HashMap;
26 import java.util.Map;
27 import java.util.Vector;
28
29 import javax.swing.JList;
30 import javax.swing.Timer;
31 import javax.swing.border.Border;
32
33 import org.apache.log4j.Logger;
34 import org.geotools.factory.GeoTools;
35 import org.geotools.feature.FeatureCollection;
36 import org.geotools.geometry.DirectPosition2D;
37 import org.geotools.geometry.jts.JTS;
38 import org.geotools.geometry.jts.ReferencedEnvelope;
39 import org.geotools.map.DefaultMapContext;
40 import org.geotools.map.MapContext;
41 import org.geotools.map.MapLayer;
42 import org.geotools.map.event.MapLayerEvent;
43 import org.geotools.map.event.MapLayerListEvent;
44 import org.geotools.map.event.MapLayerListListener;
45 import org.geotools.map.event.MapLayerListener;
46 import org.geotools.referencing.CRS;
47 import org.geotools.renderer.GTRenderer;
48 import org.geotools.renderer.label.LabelCacheImpl;
49 import org.geotools.renderer.lite.LabelCache;
50 import org.geotools.renderer.lite.RendererUtilities;
51 import org.geotools.renderer.lite.StreamingRenderer;
52 import org.geotools.swing.JMapPane;
53 import org.geotools.swing.event.MapMouseEvent;
54 import org.geotools.swing.event.MapPaneEvent;
55 import org.geotools.swing.event.MapPaneListener;
56 import org.opengis.feature.simple.SimpleFeature;
57 import org.opengis.feature.simple.SimpleFeatureType;
58 import org.opengis.referencing.FactoryException;
59 import org.opengis.referencing.crs.CoordinateReferenceSystem;
60 import org.opengis.referencing.operation.MathTransform;
61 import org.opengis.referencing.operation.TransformException;
62
63 import schmitzm.geotools.GTUtil;
64 import schmitzm.geotools.JTSUtil;
65 import schmitzm.geotools.gui.SelectableXMapPane;
66 import schmitzm.geotools.io.GeoImportUtil;
67 import schmitzm.geotools.map.event.JMapPaneListener;
68 import schmitzm.geotools.map.event.MapLayerAdapter;
69 import schmitzm.lang.LangUtil;
70 import schmitzm.swing.JPanel;
71 import schmitzm.swing.SwingUtil;
72 import schmitzm.swing.event.MouseInputType;
73
74 import com.vividsolutions.jts.geom.Coordinate;
75 import com.vividsolutions.jts.geom.Envelope;
76 import com.vividsolutions.jts.geom.Geometry;
77
78 /**
79 * The {@link XMapPane} class uses a Geotools {@link GTRenderer} to paint up to
80 * two {@link MapContext}s: a "local" {@link MapContext} and a "background"
81 * {@link MapContext}. The idea is, that rendering a background layer made up of
82 * e.g. OSM data, may take much longer than rendering local data.<br>
83 * Every {@link MapContext} is rendered on a {@link Thread} of it's own.
84 * Starting/ cancelling these threads is done by the {@link RenderingExecutor}.<br>
85 * <br>
86 * While the renderers are rending the map, a <br>
87 * The {@link XMapPane} is based on schmitzm {@link JPanel}, so
88 * {@link #print(Graphics)} will automatically set the background of components
89 * to pure white.
90 *
91 * The XMapPane has a {@link MouseListener} that manages zooming.<br>
92 * A logo/icon to float in the lower left corner may be set with
93 * {@link #setMapImage(BufferedImage)}<br>
94 *
95 * @see SelectableXMapPane - an extension of {@link XMapPane} that supports
96 * selecting features.
97 *
98 * @author stefan
99 *
100 */
101 public class XMapPane extends JPanel {
102
103 // private static final int IMAGETYPE = BufferedImage.TYPE_INT_RGB;
104 // private static final int IMAGETYPE_withAlpha =
105 // BufferedImage.TYPE_INT_ARGB;
106 private static final int IMAGETYPE = BufferedImage.TYPE_3BYTE_BGR;
107 public XMapPaneTool getTool() {
108 return tool;
109 }
110
111 private static final int IMAGETYPE_withAlpha = BufferedImage.TYPE_4BYTE_ABGR;
112
113 private final static Logger LOGGER = Logger.getLogger(XMapPane.class);
114
115 /**
116 * A flag indicating whether the {@link XMapPane} is accepting repaints from
117 * the EDT. @see {@link XMapPane#setPainting(boolean))
118 **/
119 private boolean acceptsRepaintCalls = true;
120
121 /**
122 * Main {@link MapContext} that holds all layers that are rendered into the
123 * {@link #localImage} by the {@link #localRenderer}
124 */
125 MapContext localContext;
126
127 /**
128 * {@link MapContext} holding the background layers. Use it for layers that
129 * CAN take very long for rendering, like layer from the Internet: WMS, WFS,
130 * OSM...<br>
131 * <code>null</code> by default.
132 *
133 * @see #setBgContext(MapContext)
134 * @see #getBgContext()
135 */
136 MapContext bgContext;
137
138 /**
139 * While threads are working, calls {@link XMapPane#updateFinalImage()}
140 * regularly and {@link #repaint()}. This {@link Timer} is stopped when all
141 * renderers have finished.
142 *
143 * @see INITIAL_REPAINT_DELAYAL
144 * @see #REPEATING_REPAINT_DELAY
145 */
146 final private Timer repaintTimer;
147
148 /**
149 * The initial delay in milliseconds until the {@link #finalImage} is
150 * updated the first time.
151 */
152 public static final int INITIAL_REPAINT_DELAY = 900;
153
154 /**
155 * While the {@link #bgExecuter} and {@link #localExecuter} are rendering,
156 * the {@link #repaintTimer} is regularly updating the {@link #finalImage}
157 * with previews.
158 */
159 public static final int REPEATING_REPAINT_DELAY = 500;
160
161 /**
162 * Default delay (milliseconds) before the map will be redrawn when resizing
163 * the pane. This is to avoid flickering while drag-resizing.
164 *
165 * @see #resizeTimer
166 */
167 public static final int DEFAULT_RESIZING_PAINT_DELAY = 600;
168
169 /**
170 * This not-repeating {@link Timer} is re-started whenever the component is
171 * resized. That means => only if the component is not resizing for
172 * {@link #DEFAULT_RESIZING_PAINT_DELAY} milliseconds, does the
173 * {@link XMapPane} react.
174 */
175 private final Timer resizeTimer;
176
177 /**
178 * Flag for no-tool.
179 */
180 public static final int NONE = -123;
181 //
182 // /**
183 // * Flag fuer Modus "Kartenausschnitt bewegen". Nicht fuer Window-Auswahl
184 // * moeglich!
185 // *
186 // * @see #setState(int)
187 // */
188 // public static final int PAN = 1;
189 //
190 // /**
191 // * Flag fuer Modus "Heran zoomen".
192 // *
193 // * @see #setState(int)
194 // * @see #setState(int)
195 // */
196 // public static final int ZOOM_IN = 2;
197 //
198 // /**
199 // * Flag fuer Modus "Heraus zoomen". Nicht fuer Window-Auswahl moeglich!
200 // *
201 // * @see #setState(int)
202 // */
203 // public static final int ZOOM_OUT = 3;
204
205 /**
206 * {@link Font} used to paint the wait messages into the map
207 *
208 * @see #addGadgets(Graphics2D, boolean)
209 */
210 final static Font waitFont = new Font("Arial", Font.BOLD, 28);
211
212 /**
213 * {@link Font} used to paint error messages into the map
214 *
215 * @see #addGadgets(Graphics2D, boolean)
216 */
217 final static Font errorFont = new Font("Arial", Font.BOLD, 13);
218
219 /**
220 * If last average last two renderings took more than that many ms, show the
221 * user a scaled preview
222 **/
223 private static final long PRESCALE_MINTIME = 230;
224
225 /**
226 * The wait message painted into the map while rendering is going on on
227 * another thread.
228 *
229 * @see #addGadgets(Graphics2D, boolean)
230 */
231 final String waitMsg = SwingUtil.R("WaitMess");
232
233 /**
234 * Konvertiert die Maus-Koordinaten (relativ zum <code>JMapPane</code>) in
235 * Karten-Koordinaten.
236 *
237 * @param e
238 * Maus-Ereignis
239 */
240 public static DirectPosition2D getMapCoordinatesFromEvent(final MouseEvent e) {
241 // aktuelle Geo-Position aus GeoMouseEvent ermitteln
242 if (e != null && e instanceof MapMouseEvent)
243 try {
244 return ((MapMouseEvent) e).getMapPosition();
245 } catch (final Exception err) {
246 LOGGER
247 .error(
248 "return ((GeoMouseEvent) e).getMapCoordinate(null).toPoint2D();",
249 err);
250 }
251
252 // aktuelle Geo-Position ueber Transformation des JMapPane berechnen
253 if (e != null && e.getSource() instanceof XMapPane) {
254
255 final XMapPane xMapPane = (XMapPane) e.getSource();
256
257 if (!xMapPane.isWellDefined())
258 return null;
259
260 final AffineTransform at = xMapPane.getScreenToWorld();
261 if (at != null) {
262 Point2D transformed = at.transform(e.getPoint(), null);
263 return new DirectPosition2D(xMapPane.getMapContext()
264 .getCoordinateReferenceSystem(), transformed.getX(),
265 transformed.getY());
266 }
267 return null;
268 }
269 throw new IllegalArgumentException(
270 "MouseEvent has to be of instance MapMouseEvent or come from an XMapPane");
271 }
272
273 /**
274 * Listens to changes of the "background" {@link MapContext} and triggers
275 * repaints where needed.
276 */
277 private final MapLayerListListener bgContextListener = new MapLayerListListener() {
278
279 @Override
280 public void layerAdded(final MapLayerListEvent event) {
281 final MapLayer layer = event.getLayer();
282 layer.addMapLayerListener(bgMapLayerListener);
283 requestStartRendering();
284 }
285
286 @Override
287 public void layerChanged(final MapLayerListEvent event) {
288 requestStartRendering();
289 }
290
291 @Override
292 public void layerMoved(final MapLayerListEvent event) {
293 requestStartRendering();
294 }
295
296 @Override
297 public void layerRemoved(final MapLayerListEvent event) {
298 if (event.getLayer() != null)
299 event.getLayer().removeMapLayerListener(bgMapLayerListener);
300 requestStartRendering();
301 }
302 };
303
304 /**
305 * This {@link RenderingExecutor} manages the creation and cancellation of
306 * up to one {@link Thread} for rendering the {@link #localContext}.
307 */
308 private final RenderingExecutor localExecuter = new RenderingExecutor(this);
309
310 /**
311 * This {@link RenderingExecutor} manages the creation and cancellation of
312 * up to one {@link Thread} for rendering the {@link #bgContext}.
313 */
314 protected RenderingExecutor bgExecuter;
315
316 /**
317 * The {@link #localRenderer} for the {@link #localContext} uses this
318 * {@link Image}.
319 */
320 private BufferedImage localImage;
321
322 /**
323 * The {@link #bgRenderer} for the {@link #bgContext} uses this
324 * {@link Image}.
325 */
326 private BufferedImage bgImage;
327
328 /**
329 * This {@link Image} is a merge of the {@link #bgImage},
330 * {@link #localImage} and {@link #addGadgets(Graphics2D, boolean)}. It is
331 * updated with {@link #updateFinalImage()} and used for painting in
332 * {@link #paintComponent(Graphics)}
333 */
334 private BufferedImage finalImage;
335
336 /**
337 * Optionally a transparent image to paint over the map in the lower right
338 * corner.
339 *
340 * @see #addGadgets(Graphics2D)
341 * @see #setMapImage(BufferedImage)
342 **/
343 private BufferedImage mapImage = null;
344
345 /**
346 * Listens to each layer in the local {@link MapContext} for changes and
347 * triggers repaints.
348 */
349 protected MapLayerListener bgMapLayerListener = new MapLayerAdapter() {
350
351 @Override
352 public void layerChanged(final MapLayerEvent event) {
353 requestStartRendering();
354 }
355
356 @Override
357 public void layerHidden(final MapLayerEvent event) {
358 requestStartRendering();
359 }
360
361 @Override
362 public void layerShown(final MapLayerEvent event) {
363 requestStartRendering();
364 }
365 };
366
367 /**
368 * A flag indicating if dispose() was already called. If true, then further
369 * use of this {@link SelectableXMapPane} is undefined.
370 */
371 private boolean disposed = false;
372
373 /**
374 * While dragging, the {@link #updateFinalImage()} method is translating the
375 * cached images while setting it together.
376 **/
377 private final Point imageOrigin = new Point(0, 0);
378 /**
379 * For every rendering thread started,
380 * {@link GTUtil#createGTRenderer(MapContext)} is called to create a new
381 * renderer. These Java2D rendering hints are passed to the
382 * {@link GTRenderer}. The java2dHints are the same for all renderers (bg
383 * and local).
384 */
385 private RenderingHints java2dHints;
386
387 protected LabelCache labelCache = new LabelCacheImpl();
388
389 /**
390 * Listens to changes of the "local" {@link MapContext} and triggers
391 * repaints where needed.
392 */
393 private final MapLayerListListener localContextListener = new MapLayerListListener() {
394
395 @Override
396 public void layerAdded(final MapLayerListEvent event) {
397 event.getLayer().addMapLayerListener(localMapLayerListener);
398
399 getLocalRenderer().setContext(getMapContext());
400 requestStartRendering();
401
402 }
403
404 @Override
405 public void layerChanged(final MapLayerListEvent event) {
406 // getLocalRenderer().setContext(getMapContext()); geht doch auch
407 // ohne?!?!? wow...
408 requestStartRendering();
409 }
410
411 @Override
412 public void layerMoved(final MapLayerListEvent event) {
413 getLocalRenderer().setContext(getMapContext());
414 requestStartRendering();
415 }
416
417 @Override
418 public void layerRemoved(final MapLayerListEvent event) {
419 if (event.getLayer() != null)
420 event.getLayer().removeMapLayerListener(localMapLayerListener);
421 getLocalRenderer().setContext(getMapContext());
422 requestStartRendering();
423 }
424 };
425
426 /**
427 * Listens to each layer in the local {@link MapContext} for changes and
428 * triggers repaints. We don't have to listen layerChanged, because that is
429 * already done in {@link #localContextListener}
430 */
431 protected MapLayerListener localMapLayerListener = new MapLayerAdapter() {
432
433 // @Override
434 // public void layerChanged(final MapLayerEvent event) {
435 // // getLocalRenderer().setContext(getMapContext()); // betters for SLD
436 // // // changes?!
437 // // requestStartRendering();
438 // }
439
440 @Override
441 public void layerHidden(final MapLayerEvent event) {
442 requestStartRendering();
443 }
444
445 @Override
446 public void layerShown(final MapLayerEvent event) {
447 requestStartRendering();
448 }
449 };
450
451 final private GTRenderer localRenderer = GTUtil.createGTRenderer();
452
453 private final GTRenderer bgRenderer = GTUtil.createGTRenderer();
454
455 /**
456 * the area of the map to draw
457 */
458 protected Envelope mapArea = null;
459
460 /**
461 * A flag set it {@link #setMapArea(Envelope)} to indicated the
462 * {@link #paintComponent(Graphics)} method, that the image on-screen is
463 * associated with {@link #oldMapArea} and may hence be scaled for a quick
464 * preview.<br>
465 * The flag is reset
466 **/
467 private boolean mapAreaChanged = false;
468
469 /**
470 * This color is used as the default background color when painting a map.
471 */
472 private Color mapBackgroundColor = null;
473
474 /**
475 * A flag indicating that the shown image is invalid and needs to be
476 * re-rendered.
477 */
478 protected boolean mapImageInvalid = true;
479
480 /**
481 * Holds a flag for each layer, whether it is regarded or ignored on
482 * {@link #SELECT_TOP}, {@link #SELECT_ALL} and {@link #SELECT_ONE_FROM_TOP}
483 * actions.
484 */
485 final protected HashMap<MapLayer, Boolean> mapLayerSelectable = new HashMap<MapLayer, Boolean>();
486
487 /**
488 * List of listeners of this {@link XMapPane}
489 */
490 protected Vector<JMapPaneListener> mapPaneListeners = new Vector<JMapPaneListener>();
491 /**
492 * If not <code>null</code>, the {@link XMapPane} will not allow to zoom/pan
493 * out of that area
494 **/
495 private Envelope maxExtend = null;
496 private Double maxZoomScale = Double.MIN_VALUE;
497
498 private Double minZoomScale = Double.MAX_VALUE;
499
500 /**
501 * We store the old mapArea for a moment to use it for the
502 * "quick scaled preview" in case of ZoomOut
503 **/
504 protected Envelope oldMapArea = null;
505
506 /**
507 * We store the old transform for a moment to use it for the
508 * "quick scaled preview" in case of ZoomIn
509 **/
510 protected AffineTransform oldScreenToWorld = null;
511
512 /**
513 * A flag indicating, that the image size has changed and the buffered
514 * images are not big enough any more
515 **/
516 protected boolean paneResized = true;
517
518 private BufferedImage preFinalImage;
519
520 // ** if 0, no quick preview will be shown **/
521 // private int quickPreviewHint = 0;
522
523 private Map<Object, Object> rendererHints = GTUtil
524 .getDefaultGTRendererHints(getLocalRenderer());
525
526 /**
527 * If set to <code>true</code>, the {@link #startRenderThreadsTimer} will
528 * start rendering {@link Thread}s
529 **/
530 private volatile Boolean requestStartRendering = false;
531
532 /**
533 * Transformation zwischen Fenster-Koordinaten und Karten-Koordinaten
534 * (lat/lon)
535 */
536 protected AffineTransform screenToWorld = null;
537
538 /**
539 * The flag {@link #requestStartRendering} can be set to true by events.
540 * This {@link Timer} checks the flag regularly and starts one renderer
541 * thread.
542 */
543 final private Timer startRenderThreadsTimer;
544 //
545 // /**
546 // * The default state is ZOOM_IN, hence by default the
547 // * {@link #xMapPaneMouseListener} is also enabled.
548 // **/
549 // private int state = ZOOM_IN;
550
551 /**
552 * Manuell gesetzter statischer Cursor, unabhaengig von der aktuellen
553 * MapPane-Funktion
554 */
555 protected Cursor staticCursor = null;
556
557 private AffineTransform worldToScreen;
558
559 // /**
560 // * This {@link MouseListener} is managing all zoom related tasks
561 // */
562 // private final ZoomXMapPaneMouseListener zoomMapPaneMouseListener = new
563 // ZoomXMapPaneMouseListener(
564 // this);
565
566 /**
567 * This {@link MouseListener} is managing all zoom related tasks
568 */
569 private final XMapPaneMouseListener xMapPaneMouseListener = new XMapPaneMouseListener(
570 this);
571
572 /** Is set if a renderer has an error **/
573 protected ArrayList<Exception> renderingErrors = new ArrayList<Exception>();
574
575 /**
576 * If <code>true</code>, then rendering exceptions are rendererd into the
577 * map pane
578 **/
579 private boolean showExceptions = false;
580
581 public XMapPane() {
582 this(null, null);
583 }
584
585 /**
586 * full constructor extending JPanel
587 *
588 * @param rendererHints
589 * may be <code>null</code>. Otherwise a {@link Map<Object,
590 * Object>} of {@link RenderingHints} to override the default
591 * from {@link GTUtil#getDefaultGTRendererHints(GTRenderer)}
592 *
593 * @param localContext
594 * The main {@link MapContext} to use. If <code>null</code>, an
595 * empty {@link DefaultMapContext} will be created.
596 */
597 public XMapPane(final MapContext localContext_,
598 final Map<Object, Object> rendererHints) {
599 super(true);
600
601 setRendererHints(rendererHints);
602
603 setOpaque(true);
604
605 if (localContext_ != null)
606 setLocalContext(localContext_);
607
608 /**
609 * Adding the #zoomMapPaneMouseListener
610 */
611 this.addMouseListener(xMapPaneMouseListener);
612 this.addMouseMotionListener(xMapPaneMouseListener);
613 this.addMouseWheelListener(xMapPaneMouseListener);
614
615 // By default the XMapPAne uses the ZOOM_IN tool.
616 setTool(XMapPaneTool.ZOOM_IN);
617
618 /*
619 * We use a Timer object to avoid rendering delays and flickering when
620 * the user is drag-resizing the parent container of this map pane.
621 *
622 * Using a ComponentListener doesn't work because, unlike a JFrame, the
623 * pane receives a stream of events during drag-resizing.
624 */
625 resizeTimer = new Timer(DEFAULT_RESIZING_PAINT_DELAY,
626 new ActionListener() {
627
628 public void actionPerformed(final ActionEvent e) {
629 if (!isWellDefined())
630 return;
631
632 // LOGGER.debug("resizeTimer performed");
633
634 // final Rectangle bounds = getVisibleRect();
635 //
636 // System.out.println("\n\ntimer performs with bounds = "
637 // + bounds);
638
639 // final Envelope geoMapArea = tranformWindowToGeo(
640 // bounds.x, bounds.y, bounds.x + bounds.width,
641 // bounds.y + bounds.height);
642
643 paneResized = true;
644 if (!setMapArea(getMapArea())) {
645 // It's important to request new rendering here.
646 // setMapArea only returns true and only calls
647 // requestStartRendering if the maparea has changed.
648 // But if the component is resized, the maparea
649 // doesn't have to change.
650 requestStartRendering();
651 }
652
653 }
654 });
655 resizeTimer.setRepeats(false);
656
657 this.addComponentListener(new ComponentAdapter() {
658
659 private Rectangle oldVisibleRect;
660
661 @Override
662 public void componentResized(final ComponentEvent e) {
663
664 // Seems to be called twice with the same size..
665 if (oldVisibleRect != null
666 && oldVisibleRect.equals(getVisibleRect())) {
667 // LOGGER.debug("skipping resize.");
668 return;
669 }
670
671 // LOGGER.debug("resized: " + getVisibleRect());
672 resizeTimer.restart();
673 oldVisibleRect = getVisibleRect();
674 }
675
676 });
677
678 /*
679 * Setting up the repaintTimer. Not started automatically.
680 */
681 repaintTimer = new Timer(REPEATING_REPAINT_DELAY, new ActionListener() {
682
683 @Override
684 public void actionPerformed(final ActionEvent e) {
685 if ((!localExecuter.isRunning())
686 && (bgExecuter != null && !bgExecuter.isRunning())) {
687 repaintTimer.stop();
688 } else {
689 updateFinalImage();
690 XMapPane.this.repaint(100);
691
692 }
693 }
694 });
695
696 repaintTimer.setInitialDelay(INITIAL_REPAINT_DELAY);
697 repaintTimer.setRepeats(true);
698
699 /*
700 * Setting up the startRenderThreadsTimer. This Timer starts
701 * automatically.
702 */
703 startRenderThreadsTimer = new Timer(100, new ActionListener() {
704
705 @Override
706 public void actionPerformed(final ActionEvent e) {
707 synchronized (requestStartRendering) {
708 if (requestStartRendering && isWellDefined()) {
709
710 if (localExecuter.isRunning()) {
711 localExecuter.cancelTask();
712 } else {
713 // Stupidly, but we have to recheck the
714 setMapArea(getMapArea());
715 requestStartRendering = false;
716 startRendering();
717 }
718 }
719 }
720 }
721 });
722 startRenderThreadsTimer.start();
723
724 }
725
726 /**
727 * Fuegt der Map einen Listener hinzu.
728 *
729 * @param l
730 * neuer Listener
731 */
732 public void addMapPaneListener(final JMapPaneListener l) {
733 mapPaneListeners.add(l);
734 }
735
736 /**
737 * Korrigiert den {@link Envelope} aka {@code mapArea} auf die beste
738 * erlaubte Flaeche damit die Massstabsbeschaenkungen noch eingehalten
739 * werden, FALLS der uebergeben Envelope nicht schon gueltig sein sollte.<br>
740 * Since 21. April 09: Before thecalculation starts, the aspect ratio is
741 * corrected. This change implies, that setMapArea() will most of the time
742 * not allow setting to a wrong aspectRatio.
743 *
744 * @author <a href="mailto:[email protected]">Stefan Alfons
745 * Kr&uuml;ger</a>
746 */
747 public ReferencedEnvelope bestAllowedMapArea(ReferencedEnvelope env) {
748
749 if (getWidth() == 0)
750 return env;
751
752 if (env == null)
753 return null;
754
755 Envelope newArea = null;
756
757 /**
758 * Correct the aspect Ratio before we check the rest. Otherwise we might
759 * easily fail. We allow to grow here, because we don't check against
760 * the maxExtend
761 */
762 final Rectangle curPaintArea = getVisibleRect();
763
764 env = JTSUtil.fixAspectRatio(curPaintArea, env, true);
765
766 final double scale = env.getWidth() / getWidth();
767 final double centerX = env.getMinX() + env.getWidth() / 2.;
768 final double centerY = env.getMinY() + env.getHeight() / 2.;
769 double newWidth2 = 0;
770 double newHeight2 = 0;
771 if (scale < getMaxZoomScale()) {
772 // ****************************************************************************
773 // Wir zoomen weiter rein als erlaubt => Anpassen des envelope
774 // ****************************************************************************
775 newWidth2 = getMaxZoomScale() * getWidth() / 2.;
776 newHeight2 = getMaxZoomScale() * getHeight() / 2.;
777 } else if (scale > getMinZoomScale()) {
778 // ****************************************************************************
779 // Wir zoomen weiter raus als erlaubt => Anpassen des envelope
780 // ****************************************************************************
781 newWidth2 = getMinZoomScale() * getWidth() / 2.;
782 newHeight2 = getMinZoomScale() * getHeight() / 2.;
783 } else {
784 // ****************************************************************************
785 // Die mapArea / der Envelope ist ist gueltig! Keine Aenderungen
786 // ****************************************************************************
787 newArea = env;
788 }
789
790 if (newArea == null) {
791
792 final Coordinate ll = new Coordinate(centerX - newWidth2, centerY
793 - newHeight2);
794 final Coordinate ur = new Coordinate(centerX + newWidth2, centerY
795 + newHeight2);
796
797 newArea = new Envelope(ll, ur);
798 }
799
800 final Envelope maxAllowedExtend = getMaxExtend();
801
802 while (maxAllowedExtend != null && !maxAllowedExtend.contains(newArea)
803 && newArea != null && !newArea.isNull()
804 && !Double.isNaN(newArea.getMinX())
805 && !Double.isNaN(newArea.getMaxX())
806 && !Double.isNaN(newArea.getMinY())
807 && !Double.isNaN(newArea.getMaxY())) {
808 /*
809 * If a maxExtend is set, we have to honour that...
810 */
811
812 // Exceeds top? Move down and maybe cut
813 if (newArea.getMaxY() > maxAllowedExtend.getMaxY()) {
814 final double divY = newArea.getMaxY()
815 - maxAllowedExtend.getMaxY();
816 // LOGGER.debug("Moving area down by " + divY);
817
818 newArea = new Envelope(new Coordinate(newArea.getMinX(),
819 newArea.getMinY() - divY), new Coordinate(newArea
820 .getMaxX(), newArea.getMaxY() - divY));
821
822 if (newArea.getMinY() < maxAllowedExtend.getMinY()) {
823 // LOGGER.debug("Now it exeeds the bottom border.. cut!");
824 // And cut the bottom if it moved out of the area
825 newArea = new Envelope(new Coordinate(newArea.getMinX(),
826 maxAllowedExtend.getMinY()), new Coordinate(newArea
827 .getMaxX(), newArea.getMaxY()));
828
829 // LOGGER.debug("and fix aspect ratio");
830
831 newArea = JTSUtil.fixAspectRatio(getVisibleRect(),
832 new ReferencedEnvelope(newArea, env
833 .getCoordinateReferenceSystem()), false);
834 }
835 }
836
837 // Exceeds bottom? Move up and maybe cut
838 if (newArea.getMinY() < maxAllowedExtend.getMinY()) {
839 final double divY = newArea.getMinY()
840 - maxAllowedExtend.getMinY();
841 // LOGGER.debug("Moving area up by " + divY);
842
843 newArea = new Envelope(new Coordinate(newArea.getMinX(),
844 newArea.getMinY() - divY), new Coordinate(newArea
845 .getMaxX(), newArea.getMaxY() - divY));
846
847 if (newArea.getMaxY() > maxAllowedExtend.getMaxY()) {
848 // LOGGER.debug("Now it exeeds the top border.. cut!");
849 // And cut the bottom if it moved out of the area
850 newArea = new Envelope(new Coordinate(newArea.getMinX(),
851 newArea.getMinY()), new Coordinate(newArea
852 .getMaxX(), maxAllowedExtend.getMaxY()));
853
854 // LOGGER.debug("and fix aspect ratio");
855
856 newArea = JTSUtil.fixAspectRatio(getVisibleRect(),
857 new ReferencedEnvelope(newArea, env
858 .getCoordinateReferenceSystem()), false);
859 }
860 }
861
862 // Exceeds to the right? move and maybe cut
863 if (newArea.getMaxX() > maxAllowedExtend.getMaxX()) {
864
865 // Move left..
866 final double divX = newArea.getMaxX()
867 - maxAllowedExtend.getMaxX();
868 // LOGGER.debug("Moving area left by " + divX);
869
870 newArea = new Envelope(new Coordinate(newArea.getMinX() - divX,
871 newArea.getMinY()), new Coordinate(newArea.getMaxX()
872 - divX, newArea.getMaxY()));
873
874 if (newArea.getMinX() < maxAllowedExtend.getMinX()) {
875 // LOGGER.debug("Now it exeeds the left border.. cut!");
876 // And cut the left if it moved out of the area
877 newArea = new Envelope(new Coordinate(maxAllowedExtend
878 .getMinX(), newArea.getMinY()), new Coordinate(
879 newArea.getMaxX(), newArea.getMaxY()));
880
881 // LOGGER.debug("and fix aspect ratio");
882
883 newArea = JTSUtil.fixAspectRatio(getVisibleRect(),
884 new ReferencedEnvelope(newArea, env
885 .getCoordinateReferenceSystem()), false);
886 }
887 }
888
889 // Exceeds to the left? move and maybe cut
890 if (newArea.getMinX() < maxAllowedExtend.getMinX()) {
891
892 // Move right..
893 final double divX = newArea.getMinX()
894 - maxAllowedExtend.getMinX();
895 // LOGGER.debug("Moving area right by " + divX);
896
897 newArea = new Envelope(new Coordinate(newArea.getMinX() - divX,
898 newArea.getMinY()), new Coordinate(newArea.getMaxX()
899 - divX, newArea.getMaxY()));
900
901 if (newArea.getMaxX() > maxAllowedExtend.getMaxX()) {
902 // LOGGER.debug("Now it exeeds the right border.. cut!");
903 // And cut the left if it moved out of the area
904 newArea = new Envelope(new Coordinate(newArea.getMinX(),
905 newArea.getMinY()), new Coordinate(maxAllowedExtend
906 .getMaxX(), newArea.getMaxY()));
907
908 // LOGGER.debug("and fix aspect ratio");
909
910 newArea = JTSUtil.fixAspectRatio(getVisibleRect(),
911 new ReferencedEnvelope(newArea, env
912 .getCoordinateReferenceSystem()), false);
913 }
914 }
915 }
916
917 return new ReferencedEnvelope(newArea, env
918 .getCoordinateReferenceSystem());
919 }
920
921 /**
922 * Should be called when the {@link JMapPane} is not needed no more to help
923 * the GarbageCollector
924 *
925 * Removes all {@link JMapPaneListener}s that are registered
926 *
927 * @author <a href="mailto:[email protected]">Stefan Alfons
928 * Kr&uuml;ger</a>
929 */
930 public void dispose() {
931 if (isDisposed())
932 return;
933
934 setPainting(false);
935
936 resizeTimer.stop();
937 startRenderThreadsTimer.stop();
938
939 disposed = true;
940
941 if (bgExecuter != null) {
942 bgExecuter.cancelTask();
943 bgExecuter.dispose();
944 }
945
946 if (localExecuter.isRunning()) {
947 int i = 0;
948 localExecuter.cancelTask();
949 while (i++ < 10 && localExecuter.isRunning()) {
950 try {
951 Thread.sleep(200);
952 } catch (final InterruptedException e) {
953 LOGGER
954 .warn(
955 "while XMapPane we are waiting for the localExcutor to stop",
956 e);
957 }
958 }
959 if (localExecuter.isRunning()) {
960 LOGGER
961 .warn("localExecutor Thread still running after 2s! Continuing anyways...");
962 }
963 localExecuter.dispose();
964 }
965
966 disposeImages();
967
968 // Remove all mapPaneListeners that have registered with us
969 mapPaneListeners.clear();
970
971 removeMouseMotionListener(xMapPaneMouseListener);
972 removeMouseListener(xMapPaneMouseListener);
973
974 if (localContext != null)
975 getMapContext().clearLayerList();
976 if (bgContext != null)
977 getBgContext().clearLayerList();
978
979 removeAll();
980 }
981
982 /**
983 * Draws a rectangle in XOR mode from the origin at {@link #startPos} to the
984 * given point. All in screen coordinates.
985 */
986 protected void drawRectangle(final Graphics graphics, final Point startPos,
987 final Point e) {
988 drawRectangle(graphics, startPos, e, Color.WHITE, false);
989 }
990
991 /**
992 * Draws a rectangle in XOR mode from the origin at {@link #startPos} to the
993 * given point. All in screen coordinates.
994 */
995 protected void drawRectangle(final Graphics graphics, final Point startPos,
996 final Point e, Color color, boolean fill) {
997
998 if (!isWellDefined())
999 return;
1000
1001 // undraw last box/draw new box
1002 final int left = Math.min(startPos.x, e.x);
1003 final int right = Math.max(startPos.x, e.x);
1004 final int top = Math.max(startPos.y, e.y);
1005 final int bottom = Math.min(startPos.y, e.y);
1006 final int width = right - left;
1007 final int height = top - bottom;
1008
1009 if (width == 0 && height == 0)
1010 return;
1011
1012 graphics.setXORMode(color);
1013
1014 if (fill) {
1015 graphics.fillRect(left, bottom, width, height);
1016 graphics.setXORMode(Color.WHITE);
1017 }
1018
1019
1020 graphics.drawRect(left, bottom, width, height);
1021 }
1022
1023 /**
1024 * Diretly paints scaled preview into the {@link SelectableXMapPane}. Used
1025 * to give the user something to look at while we are rendering. Method
1026 * should be called after {@link #setMapArea(Envelope)} has been set to the
1027 * new mapArea and transform has been reset.<br>
1028 *
1029 * @param g
1030 * Graphics2D to paint the preview into
1031 */
1032 protected boolean drawScaledPreviewImage_Zoom(final Graphics2D graphics) {
1033
1034 // if (1 == 1)return false;
1035 // if (quickPreviewHint == 0)
1036 // return false;
1037
1038 if (oldMapArea == null)
1039 return false;
1040
1041 if (getPreFinalImage() == null)
1042 return false;
1043
1044 final Rectangle visibleArea = getVisibleRect();
1045
1046 // Calculate the oldMapArea in the current WindowCoordinates:
1047 final Envelope oldMapWindow = tranformGeoToWindow(oldMapArea.getMinX(),
1048 oldMapArea.getMinY(), oldMapArea.getMaxX(), oldMapArea
1049 .getMaxY());
1050
1051 final int xx1 = (int) Math.round(oldMapWindow.getMinX());
1052 final int yy1 = (int) Math.round(oldMapWindow.getMinY());
1053 final int xx2 = (int) Math.round(oldMapWindow.getMaxX());
1054 final int yy2 = (int) Math.round(oldMapWindow.getMaxY());
1055
1056 graphics.setRenderingHint(RenderingHints.KEY_INTERPOLATION,
1057 RenderingHints.VALUE_INTERPOLATION_NEAREST_NEIGHBOR);
1058 graphics.setRenderingHint(RenderingHints.KEY_ANTIALIASING,
1059 RenderingHints.VALUE_ANTIALIAS_OFF);
1060 graphics.setRenderingHint(RenderingHints.KEY_RENDERING,
1061 RenderingHints.VALUE_RENDER_SPEED);
1062
1063 graphics.drawImage(getPreFinalImage(), xx1, yy1, xx2, yy2,
1064 (int) visibleArea.getMinX(), (int) visibleArea.getMinY(),
1065 (int) visibleArea.getMaxX(), (int) visibleArea.getMaxY(),
1066 getMapBackgroundColor(), null);
1067
1068 final Rectangle painedArea = new Rectangle(xx1, yy1, xx2 - xx1, yy2
1069 - yy1);
1070
1071 SwingUtil.clearAround(graphics, painedArea, visibleArea,
1072 getMapBackgroundColor());
1073
1074 addGadgets(graphics, true);
1075
1076 // quickPreviewHint = 0;
1077
1078 repaintTimer.restart();
1079
1080 // Something has been drawn
1081 return true;
1082 }
1083
1084 public MapContext getBgContext() {
1085 return bgContext;
1086 }
1087
1088 /**
1089 * Lazyly initializes a {@link BufferedImage} for the background renderer.
1090 */
1091 private Image getBgImage() {
1092 if (bgImage == null) {
1093 bgImage = new BufferedImage(getVisibleRect().width,
1094 getVisibleRect().height, IMAGETYPE);
1095 SwingUtil.clearImage(finalImage, getMapBackgroundColor());
1096 }
1097
1098 return bgImage;
1099 }
1100
1101 public MapContext getMapContext() {
1102 if (localContext == null) {
1103 setLocalContext(new DefaultMapContext());
1104 }
1105 return localContext;
1106 }
1107
1108 private BufferedImage getFinalImage() {
1109 //
1110 if (finalImage == null) {
1111 // Rectangle curPaintArea = getVisibleRect();
1112 finalImage = new BufferedImage(getVisibleRect().width,
1113 getVisibleRect().height, IMAGETYPE);
1114 SwingUtil.clearImage(finalImage, getMapBackgroundColor());
1115
1116 // requestStartRendering();
1117 }
1118 return finalImage;
1119 }
1120
1121 /**
1122 * Lazyly initializes a {@link BufferedImage} for the background renderer.
1123 */
1124 private BufferedImage getLocalImage() {
1125
1126 if (localImage == null) {
1127 localImage = new BufferedImage(getVisibleRect().width,
1128 getVisibleRect().height, IMAGETYPE_withAlpha);
1129 SwingUtil.clearImage(localImage, getMapBackgroundColor());
1130 }
1131
1132 return localImage;
1133 }
1134
1135 /**
1136 * Returns a copy of the mapArea
1137 *
1138 * @return
1139 */
1140 public ReferencedEnvelope getMapArea() {
1141 if (mapArea == null) {
1142 ReferencedEnvelope mapArea_ = null;
1143 try {
1144 mapArea_ = localContext.getLayerBounds();
1145 } catch (final Exception e) {
1146 LOGGER.warn("localContext.getLayerBounds()", e);
1147 }
1148
1149 if (mapArea_ == null && bgContext != null) {
1150 try {
1151 mapArea_ = bgContext.getLayerBounds();
1152 } catch (final IOException e) {
1153 LOGGER.warn("bgContext.getLayerBounds()", e);
1154 }
1155 }
1156
1157 if (mapArea_ != null) {
1158 mapArea = bestAllowedMapArea(mapArea_);
1159 requestStartRendering();
1160 }
1161 }
1162
1163 if (mapArea == null)
1164 return null;
1165
1166 // TODO is needed at all, this should go to setMapArea maybe
1167 if (localContext.getCoordinateReferenceSystem() == null)
1168 try {
1169 localContext.setCoordinateReferenceSystem(GeoImportUtil
1170 .getDefaultCRS());
1171 } catch (final Exception e) {
1172 throw new RuntimeException("setting context CRS:", e);
1173 }
1174
1175 return new ReferencedEnvelope(mapArea, localContext
1176 .getCoordinateReferenceSystem());
1177 }
1178
1179 /**
1180 * Returns the background {@link Color} of the map pane. If not set, the
1181 * methods looks for a parent component and will use its background color.
1182 * If no parent component is available, WHITE is returned.
1183 **/
1184 public Color getMapBackgroundColor() {
1185 if (mapBackgroundColor == null) {
1186 if (getParent() != null)
1187 return getParent().getBackground();
1188 else
1189 return Color.WHITE;
1190 }
1191 return mapBackgroundColor;
1192 }
1193
1194 /**
1195 * Get the BufferedImage to use as a flaoting icon in the lower right
1196 * corner.
1197 *
1198 * @return <code>null</code> if the feature is deactivated.
1199 */
1200 public BufferedImage getMapImage() {
1201 return mapImage;
1202 }
1203
1204 /**
1205 * Returns the evelope of the viewable area. The JMapPane will never show
1206 * anything outside of this extend. If this has been set to
1207 * <code>null</code> via {@link #setMaxExtend(Envelope)}, it tries to return
1208 * quickly the context's bounds. It it takes to long to determine the
1209 * context bounds, <code>null</code> is returned.
1210 *
1211 * @param maxExtend
1212 * <code>null</code> to not have this restriction.
1213 */
1214
1215 public Envelope getMaxExtend() {
1216 if (maxExtend == null) {
1217
1218 // The next command may take long time!
1219 // long start = System.currentTimeMillis();
1220 final ReferencedEnvelope layerBounds = GTUtil
1221 .getVisibleLayoutBounds(localContext);
1222 //
1223 // LOGGER.info(
1224 // (System.currentTimeMillis()-start)+"m to get maxExtend");
1225 //
1226 if (layerBounds == null) {
1227 // // TODO Last fallback could be the CRS valid area
1228 return null;
1229 }
1230
1231 // Vergrößerung um 10% nochmal rausgenommen
1232 // // // Kartenbereich um 10% vergroessern
1233 // return JTSUtil.fixAspectRatio(getVisibleRect(), JTSUtil
1234 // .expandEnvelope(layerBounds, 0.1), true);
1235
1236 return JTSUtil.fixAspectRatio(getVisibleRect(), layerBounds, true);
1237 }
1238 return maxExtend;
1239 }
1240
1241 /**
1242 * Retuns the maximum allowed zoom scale. This is the smaller number value
1243 * of the two. Defaults to {@link Double}.MIN_VALUE
1244 *
1245 * @author <a href="mailto:[email protected]">Stefan Alfons
1246 * Kr&uuml;ger</a>
1247 */
1248 public Double getMaxZoomScale() {
1249 return maxZoomScale;
1250 }
1251
1252 /**
1253 * Retuns the minimum allowed zoom scale. This is the bigger number value of
1254 * the two. Defaults to {@link Double}.MAX_VALUE
1255 *
1256 * @author <a href="mailto:[email protected]">Stefan Alfons
1257 * Kr&uuml;ger</a>
1258 */
1259 public Double getMinZoomScale() {
1260 return minZoomScale;
1261 }
1262
1263 private Image getPreFinalImage() {
1264 return preFinalImage;
1265 }
1266
1267 public Map<Object, Object> getRendererHints() {
1268 // Clear label cache
1269 labelCache.clear();
1270 rendererHints.put(StreamingRenderer.LABEL_CACHE_KEY, labelCache);
1271
1272 return rendererHints;
1273 }
1274
1275 /**
1276 * Liefert eine affine Transformation, um von den Fenster-Koordinaten in die
1277 * Karten-Koordinaten (Lat/Lon) umzurechnen.
1278 *
1279 * @return eine Kopie der aktuellen Transformation; <code>null</code> wenn
1280 * noch keine Karte angezeigt wird
1281 */
1282 public AffineTransform getScreenToWorld() {
1283 if (screenToWorld == null)
1284 resetTransforms();
1285 // nur Kopie der Transformation zurueckgeben!
1286 if (screenToWorld == null)
1287 return null;
1288 return new AffineTransform(screenToWorld);
1289 }
1290
1291 // public int getState() {
1292 // return state;
1293 // }
1294
1295 /**
1296 * Liefert den statisch eingestellten Cursor, der unabhaengig von der
1297 * eingestellten MapPane-Aktion (Zoom, Auswahl, ...) verwendet wird.
1298 *
1299 * @return {@code null}, wenn kein statischer Cursor verwendet, sondern der
1300 * Cursor automatisch je nach MapPane-Aktion eingestellt wird.
1301 */
1302 public Cursor getStaticCursor() {
1303 return this.staticCursor;
1304 }
1305
1306 public AffineTransform getWorldToScreenTransform() {
1307 if (worldToScreen == null) {
1308 resetTransforms();
1309 }
1310 // nur Kopie der Transformation zurueckgeben!
1311 return new AffineTransform(worldToScreen);
1312 }
1313
1314 /**
1315 * A flag indicating if dispose() has already been called. If true, then
1316 * further use of this {@link SelectableXMapPane} is undefined.
1317 */
1318 private boolean isDisposed() {
1319 return disposed;
1320 }
1321
1322 /**
1323 * Returns whether a layer is regarded or ignored on {@link #SELECT_TOP},
1324 * {@link #SELECT_ALL} and {@link #SELECT_ONE_FROM_TOP} actions. Returns
1325 * <code>true</code> if the selectability has not been defined.
1326 *
1327 * @param layer
1328 * a layer
1329 */
1330 public boolean isMapLayerSelectable(final MapLayer layer) {
1331 final Boolean selectable = mapLayerSelectable.get(layer);
1332 return selectable == null ? true : selectable;
1333 }
1334
1335 /**
1336 * Return <code>true</code> if a CRS and a {@link #mapArea} are set and the
1337 * {@link XMapPane} is visible and has bounds set.
1338 */
1339 public boolean isWellDefined() {
1340 try {
1341 if (getMapContext() == null)
1342 return false;
1343 if (getMapContext().getLayerCount() <= 0)
1344 return false;
1345 if (getVisibleRect().getWidth() == 0)
1346 return false;
1347 if (getVisibleRect().getHeight() == 0)
1348 return false;
1349 // if (getMapArea() == null)
1350 // return false;
1351 } catch (final Exception e) {
1352 return false;
1353 }
1354 return true;
1355 }
1356
1357 /**
1358 * Usually called from {@link XMapPaneAction_Pan} to pan the image.
1359 *
1360 * @param startPos
1361 * in screen coordinates
1362 * @param lastPos
1363 * in screen coordinates
1364 */
1365 public void pan(final int dX, final int dY) {
1366
1367 // Panning needs a panning coursor
1368 if (getCursor() != SwingUtil.PANNING_CURSOR) {
1369 setCursor(SwingUtil.PANNING_CURSOR);
1370
1371 // While panning, we deactivate the rendering. So the tasks are
1372 // ready to start when the panning is finished.
1373 if (bgExecuter != null && bgExecuter.isRunning())
1374 bgExecuter.cancelTask();
1375 if (localExecuter.isRunning())
1376 localExecuter.cancelTask();
1377 }
1378 //
1379 // if (lastPos.x > 0 && lastPos.y > 0) {
1380 // final int dx = event.getX() - lastPos.x;
1381 // final int dy = event.getY() - lastPos.y;
1382
1383 // TODO Stop dragging when the drag would not be valid...
1384 // boolean dragValid = true;
1385 // // check if this panning results in a valid mapArea
1386 // {
1387 // Rectangle winBounds = xMapPane.getBounds();
1388 // winBounds.translate(xMapPane.imageOrigin.x,
1389 // -xMapPane.imageOrigin.y);
1390 // Envelope newMapAreaBefore = xMapPane.tranformWindowToGeo(
1391 // winBounds.x, winBounds.y, winBounds.x
1392 // + winBounds.width, winBounds.y
1393 // + winBounds.height);
1394 //
1395 //
1396 // winBounds = xMapPane.getBounds();
1397 // Point testIng = new Point(xMapPane.imageOrigin);
1398 // testIng.translate(dx, dy);
1399 // winBounds.translate(testIng.x, -testIng.y);
1400 // Envelope newMapAreaAfter = xMapPane.tranformWindowToGeo(
1401 // winBounds.x, winBounds.y, winBounds.x
1402 // + winBounds.width, winBounds.y
1403 // + winBounds.height);
1404 //
1405 // // If the last drag doesn't change the MapArea anymore cancel
1406 // it.
1407 // if (xMapPane.bestAllowedMapArea(newMapAreaAfter).equals(
1408 // xMapPane.bestAllowedMapArea(newMapAreaBefore))){
1409 // dragValid = false;
1410 // return;
1411 // }
1412 // }
1413
1414 getImageOrigin().translate(dX, dY);
1415 updateFinalImage();
1416 repaint();
1417 // }
1418
1419 // } else if ((getState() == XMapPane.ZOOM_IN)
1420 // || (getState() == XMapPane.ZOOM_OUT)
1421 // || (getState() == XMapPane.SELECT_ALL)
1422 // || (getState() == XMapPane.SELECT_TOP)) {
1423 //
1424 // // Draws a rectangle
1425 // final Graphics2D graphics = (Graphics2D) getGraphics();
1426 // drawRectangle(graphics, startPos, event.getPoint());
1427 // if ((lastPos.x > 0) && (lastPos.y > 0))
1428 // drawRectangle(graphics, startPos, lastPos);
1429 // graphics.dispose();
1430 // }
1431 }
1432
1433 /**
1434 * Called by the {@link RenderingExecutor} when rendering was cancelled.
1435 */
1436 public void onRenderingCancelled() {
1437 // LOGGER.debug("Rendering cancelled");
1438 repaintTimer.stop();
1439 }
1440
1441 /**
1442 * Called by the {@link RenderingExecutor} when rendering has been
1443 * completed.
1444 *
1445 * @param l
1446 * long ms the rendering took
1447 */
1448 public void onRenderingCompleted(final long l) {
1449 lastRenderingDuration = (lastRenderingDuration + l) / 2;
1450 // LOGGER
1451 // .debug("complete rendering after " + lastRenderingDuration
1452 // + "ms");
1453
1454 repaintTimer.stop();
1455
1456 // We "forget" about an exception every time we complete a rendering
1457 // thread successfully
1458 if (renderingErrors.size() > 0)
1459 renderingErrors.remove(0);
1460
1461 updateFinalImage();
1462 repaint();
1463 }
1464
1465 /**
1466 * Called by the {@linkplain XMapPane.RenderingTask} when rendering failed.
1467 * Publishes a {@linkplain MapPaneEvent} of type {@code
1468 * MapPaneEvent.Type.RENDERING_STOPPED} to listeners.
1469 *
1470 * @param renderingError
1471 * The error that occured during rendering
1472 *
1473 * @see MapPaneListener#onRenderingStopped(org.geotools.swing.event.MapPaneEvent)
1474 */
1475 public void onRenderingFailed(final Exception renderingError) {
1476
1477 // Store the exceptions so we can show it to the user:
1478 if (!(renderingError instanceof java.lang.IllegalArgumentException && renderingError
1479 .getMessage().equals(
1480 "Argument \"sourceCRS\" should not be null.")))
1481 this.renderingErrors.add(renderingError);
1482 if (renderingErrors.size() > 3)
1483 renderingErrors.remove(0);
1484
1485 repaintTimer.stop();
1486
1487 LOGGER.warn("Rendering failed", renderingError);
1488 updateFinalImage();
1489 repaint();
1490
1491 }
1492
1493 @Override
1494 protected void paintComponent(final Graphics g) {
1495
1496 // Maybe update the cursor and maybe stop the repainting timer
1497 updateCursor();
1498
1499 if (!acceptsRepaintCalls)
1500 return;
1501
1502 if (!isWellDefined())
1503 return;
1504 //
1505 // if (paneResized) {
1506 // // ((Graphics2D) g).setBackground(getMapBackgroundColor());
1507 // // g.clearRect(0, 0, getVisibleRect().width,
1508 // getVisibleRect().height);
1509 // return;
1510 // }
1511
1512 // super.paintComponent(g); // candidate for removal
1513
1514 boolean paintedSomething = false;
1515
1516 if (mapImageInvalid) { /* if the map changed then redraw */
1517
1518 mapImageInvalid = false; // Reset for next round
1519
1520 // If the new mapArea and the oldMapArea intersect, we can draw some
1521 // quick scaled preview to make the user feel that something is
1522 // happening.
1523 if (lastRenderingDuration > PRESCALE_MINTIME && mapAreaChanged
1524 && oldMapArea != null
1525 && getMapArea().intersects(oldMapArea)
1526 && !getMapArea().equals(oldMapArea) && !paneResized) {
1527
1528 mapAreaChanged = false;
1529
1530 // if (getMapArea().covers(oldMapArea)) {
1531 // // quickPreviewHint = ZOOM_OUT;
1532 // paintedSomething = drawScaledPreviewImage_Zoom((Graphics2D)
1533 // g);
1534 // } else if (oldMapArea.covers(getMapArea())) {
1535 // quickPreviewHint = ZOOM_IN;
1536 paintedSomething = drawScaledPreviewImage_Zoom((Graphics2D) g);
1537 // }
1538 }
1539 }
1540
1541 if (!paintedSomething) {
1542
1543 g.drawImage(getFinalImage(), 0, 0, null);
1544
1545 paintedSomething = true; // cand. for removal
1546 }
1547
1548 }
1549
1550 /**
1551 * Heavily works on releasing all resources related to the four
1552 * {@link Image}s used to cache the results of the different renderers.<br>
1553 * In November 2009 i had some memory leaking problems with {@link XMapPane}
1554 * . The resources of the buffered images were never released. It seem to be
1555 * important to call the GC right after flushing the images.<br>
1556 * Hence this method may take a while, because it calls the GC up to four
1557 * times.
1558 */
1559 private void disposeImages() {
1560
1561 // System.out.println("vorher = "
1562 // + new MbDecimalFormatter().format(LangUtil.gcTotal()));
1563 // bi.flush();
1564 // return bi = null;
1565 // System.out.println("nacher = "
1566 // + new MbDecimalFormatter().format(LangUtil.gcTotal()));
1567 //
1568 // System.out.println("\n");
1569
1570 if (preFinalImage != null) {
1571 preFinalImage.flush();
1572 preFinalImage = null;
1573 LangUtil.gc();
1574 }
1575 if (finalImage != null) {
1576 finalImage.flush();
1577 finalImage = null;
1578 LangUtil.gc();
1579 }
1580 if (localImage != null) {
1581 localImage.flush();
1582 localImage = null;
1583 LangUtil.gc();
1584 }
1585 if (bgImage != null) {
1586 bgImage.flush();
1587 bgImage = null;
1588 LangUtil.gc();
1589 }
1590
1591 }
1592 //
1593 // /**
1594 // * Performs a {@value #PAN} action. During panning, the displacement is
1595 // * stored in {@link #imageOrigin} object. Calling {@link #performPan()} will
1596 // * reset the offset and call {@link #setMapArea(Envelope)}.
1597 // */
1598 // public void performPan() {
1599 //
1600 // final Rectangle winBounds = getVisibleRect();
1601 //
1602 // winBounds.translate(-imageOrigin.x, -imageOrigin.y);
1603 // final Envelope newMapArea = tranformWindowToGeo(winBounds.x,
1604 // winBounds.y, winBounds.x + winBounds.width, winBounds.y
1605 // + winBounds.height);
1606 //
1607 // imageOrigin.x = 0;
1608 // imageOrigin.y = 0;
1609 //
1610 // if (!setMapArea(newMapArea)) {
1611 // /**
1612 // * If setMapArea returns true, the finalImage is updated anyways.
1613 // * This if-case exists to ensure that we repaint a correct image
1614 // * even if the new panning area has been denied.
1615 // */
1616 // updateFinalImage();
1617 // repaint();
1618 // }
1619 //
1620 // if (getCursor() == SwingUtil.PANNING_CURSOR)
1621 // setCursor(SwingUtil.PAN_CURSOR);
1622 // }
1623
1624 /**
1625 * Entfernt einen Listener von der Map.
1626 *
1627 * @param l
1628 * zu entfernender Listener
1629 */
1630 public void removeMapPaneListener(final JMapPaneListener l) {
1631 mapPaneListeners.remove(l);
1632 }
1633
1634 /**
1635 * Cancels all running renderers and sets the flag to start new ones. <br>
1636 *
1637 * @see #startRenderThreadsTimer
1638 */
1639 private void requestStartRendering() {
1640 if (bgExecuter != null)
1641 bgExecuter.cancelTask();
1642
1643 localExecuter.cancelTask();
1644
1645 mapImageInvalid = true;
1646 if (paneResized) {
1647 paneResized = false;
1648 disposeImages();
1649 }
1650 requestStartRendering = true;
1651
1652 }
1653
1654 /**
1655 * Calculate the affine transforms used to convert between world and pixel
1656 * coordinates. The calculations here are very basic and assume a cartesian
1657 * reference system.
1658 * <p>
1659 * Tne transform is calculated such that {@code envelope} will be centred in
1660 * the display
1661 *
1662 * @param envelope
1663 * the current map extent (world coordinates)
1664 * @param paintArea
1665 * the current map pane extent (screen units)
1666 */
1667 private void resetTransforms() {
1668 // System.out
1669 // .println("paintArea in resetTeansofrms = " + getVisibleRect());
1670 if (!isWellDefined())
1671 return;
1672
1673 if (mapArea == null)
1674 return;
1675
1676 final ReferencedEnvelope refMapEnv = new ReferencedEnvelope(mapArea,
1677 getMapContext().getCoordinateReferenceSystem());
1678
1679 worldToScreen = RendererUtilities.worldToScreenTransform(refMapEnv,
1680 getVisibleRect());
1681
1682 try {
1683 screenToWorld = worldToScreen.createInverse();
1684
1685 } catch (final NoninvertibleTransformException ex) {
1686 LOGGER
1687 .error("can't invert worldToScreen to get screenToWorld!",
1688 ex);
1689 }
1690 }
1691
1692 public void setBgContext(final MapContext context) {
1693
1694 // Remove the default listener from the old context
1695 if (this.bgContext != null) {
1696 this.bgContext.removeMapLayerListListener(bgContextListener);
1697
1698 // adding listener to all layers
1699 for (final MapLayer mapLayer : bgContext.getLayers()) {
1700 mapLayer.removeMapLayerListener(bgMapLayerListener);
1701 }
1702 }
1703
1704 this.bgContext = context;
1705
1706 if (context != null) {
1707 // setMapArea(bgContext.getAreaOfInterest());
1708
1709 this.bgContext.addMapLayerListListener(bgContextListener);
1710
1711 // adding listener to all layers
1712 for (final MapLayer mapLayer : bgContext.getLayers()) {
1713 mapLayer.addMapLayerListener(bgMapLayerListener);
1714 }
1715 }
1716
1717 requestStartRendering();
1718 }
1719
1720 public void setJava2dHints(final RenderingHints java2dHints) {
1721 this.java2dHints = java2dHints;
1722 }
1723
1724 public void setLocalContext(final MapContext context) {
1725 // Remove the default listener from the old context
1726 if (this.localContext != null) {
1727 this.localContext.removeMapLayerListListener(localContextListener);
1728
1729 // adding listener to all layers
1730 for (final MapLayer mapLayer : localContext.getLayers()) {
1731 mapLayer.removeMapLayerListener(localMapLayerListener);
1732 }
1733 }
1734
1735 this.localContext = context;
1736
1737 if (context != null) {
1738
1739 // setMapArea(localContext.getAreaOfInterest());
1740
1741 getLocalRenderer().setContext(localContext);
1742
1743 this.localContext.addMapLayerListListener(localContextListener);
1744
1745 // adding listener to all layers
1746 for (final MapLayer mapLayer : localContext.getLayers()) {
1747 mapLayer.addMapLayerListener(localMapLayerListener);
1748 }
1749 }
1750
1751 requestStartRendering();
1752
1753 }
1754
1755 public void setBorder(final Border b) {
1756 super.setBorder(b);
1757 }
1758
1759 /**
1760 * Triggers to repaint (fast) and re-render (slow) the JMapPane.
1761 */
1762 public void refresh() {
1763 mapImageInvalid = true;
1764 repaint();
1765 }
1766
1767 // /**
1768 // * Triggers to use new {@link GTRenderer} and refresh the map. Should be
1769 // * called after {@link Style}s have been changed because GTRenderer is
1770 // * otherwise not working well.
1771 // */
1772 // public void refreshRenderers() {
1773 // localRenderer = GTUtil.createGTRenderer();
1774 // setLocalContext(getMapContext());
1775 // mapImageInvalid = true;
1776 // repaint();
1777 // }
1778
1779 /**
1780 * Set the new map area.
1781 *
1782 * @param newMapArea
1783 * @return <code>true</code> if the mapArea has been changed and a repaint
1784 * has been triggered.
1785 */
1786 public boolean setMapArea(final Envelope newMapArea) {
1787 if (newMapArea == null)
1788 return false;
1789 if (getMapContext().getCoordinateReferenceSystem() == null)
1790 return false;
1791 return setMapArea(new ReferencedEnvelope(newMapArea, getMapContext()
1792 .getCoordinateReferenceSystem()));
1793 }
1794
1795 /**
1796 * Set the new map area.
1797 *
1798 * @param newMapArea
1799 * @return <code>true</code> if the mapArea has been changed and a repaint
1800 * has been triggered.
1801 */
1802 public boolean setMapArea(final ReferencedEnvelope newMapArea) {
1803
1804 if (newMapArea == null
1805 || bestAllowedMapArea(newMapArea).equals(mapArea)) {
1806 // No change.. no need to repaint
1807 return false;
1808 }
1809
1810 // Testing, whether NaN or Infinity are used in the newMapArea
1811 if (newMapArea.isNull() || Double.isInfinite(newMapArea.getMaxX())
1812 || Double.isInfinite(newMapArea.getMaxY())
1813 || Double.isInfinite(newMapArea.getMinX())
1814 || Double.isInfinite(newMapArea.getMinY())) {
1815 // No change.. ugly new values
1816 LOGGER.warn("setMapArea has been called with newArea = "
1817 + newMapArea);
1818 return false;
1819 }
1820
1821 final Envelope candNew = bestAllowedMapArea(newMapArea);
1822
1823 // Testing, whether the difference if just minimal
1824 if (mapArea != null) {
1825 final double tolX = mapArea.getWidth() / 1000.;
1826 final double tolY = mapArea.getHeight() / 1000.;
1827 if ((candNew.getMinX() - tolX < mapArea.getMinX())
1828 && (mapArea.getMinX() < candNew.getMinX() + tolX)
1829 && (candNew.getMaxX() - tolX < mapArea.getMaxX())
1830 && (mapArea.getMaxX() < candNew.getMaxX() + tolX)
1831
1832 && (candNew.getMinY() - tolY < mapArea.getMinY())
1833 && (mapArea.getMinY() < candNew.getMinY() + tolY)
1834 && (candNew.getMaxY() - tolY < mapArea.getMaxY())
1835 && (mapArea.getMaxY() < candNew.getMaxY() + tolY)
1836
1837 ) {
1838 // The two mapAreas only differ my 1/1000th.. ignore
1839
1840 return false;
1841 }
1842 }
1843
1844 // New map are is accepted:
1845 oldMapArea = mapArea;
1846 mapArea = candNew;
1847 resetTransforms();
1848
1849 if (localContext != null) {
1850 localContext.setAreaOfInterest(mapArea, localContext
1851 .getCoordinateReferenceSystem());
1852 }
1853 if (bgContext != null) {
1854 bgContext.setAreaOfInterest(mapArea, localContext
1855 .getCoordinateReferenceSystem());
1856 }
1857
1858 mapAreaChanged = true;
1859
1860 repaint(200); // Do not remove it!
1861
1862 requestStartRendering();
1863
1864 return true;
1865 }
1866
1867 /**
1868 * Set the background color of the map.
1869 *
1870 * @param if <code>null</code>, white is used.
1871 */
1872 public void setMapBackgroundColor(final Color bgColor) {
1873 this.mapBackgroundColor = bgColor;
1874 }
1875
1876 /**
1877 * Set the BufferedImage to use as a flaoting icon in the lower right corner
1878 *
1879 * @param mapImageIcon
1880 * <code>null</code> is allowed and deactivates this icon.
1881 */
1882 public void setMapImage(final BufferedImage mapImage) {
1883 this.mapImage = mapImage;
1884 }
1885
1886 /**
1887 * Sets whether a layer is regarded or ignored on {@link #SELECT_TOP},
1888 * {@link #SELECT_ALL} and {@link #SELECT_ONE_FROM_TOP} actions.
1889 *
1890 * @param layer
1891 * a layer
1892 * @param selectable
1893 * if {@code false} the layer is ignored during the upper
1894 * mentioned actions. If <code>null</code>, the default (true)
1895 * will be used.
1896 */
1897 public void setMapLayerSelectable(final MapLayer layer,
1898 final Boolean selectable) {
1899 if (selectable == null)
1900 mapLayerSelectable.remove(layer);
1901 else
1902 mapLayerSelectable.put(layer, selectable);
1903 }
1904
1905 /**
1906 * Defines an evelope of the viwable area. The JMapPane will never show
1907 * anything outside of this extend.
1908 *
1909 * @param maxExtend
1910 * <code>null</code> to not have this restriction.
1911 */
1912 public void setMaxExtend(final Envelope maxExtend) {
1913 this.maxExtend = maxExtend;
1914 }
1915
1916 /**
1917 * Set the maximum allowed zoom scale. This is the smaller number value of
1918 * the two. If <code>null</code> is passed, Double.MINVALUE are used which
1919 * mean there is no restriction.
1920 *
1921 * @author <a href="mailto:[email protected]">Stefan Alfons
1922 * Kr&uuml;ger</a>
1923 */
1924 public void setMaxZoomScale(final Double maxZoomScale) {
1925 this.maxZoomScale = maxZoomScale == null ? Double.MIN_VALUE
1926 : maxZoomScale;
1927 }
1928
1929 // /** Stored the time used for the last real rendering in ms. **/
1930 private long lastRenderingDuration = 1000;
1931 private XMapPaneTool tool = null;
1932
1933 /**
1934 * Set the minimum (nearest) allowed zoom scale. This is the bigger number
1935 * value of the two. If <code>null</code> is passed, Double.MAXVALUE are
1936 * used which mean there is no restriction.
1937 *
1938 *
1939 * @author <a href="mailto:[email protected]">Stefan Alfons
1940 * Kr&uuml;ger</a>
1941 */
1942 public void setMinZoomScale(final Double minZoomScale) {
1943 this.minZoomScale = minZoomScale == null ? Double.MAX_VALUE
1944 : minZoomScale;
1945 }
1946
1947 /**
1948 * If <code>true</code>, allow the {@link XMapPane} to process #repaint()
1949 * requests. Otherwise the map will not paint anything and not start any
1950 * rendering {@link Thread}s.
1951 */
1952 public void setPainting(final boolean b) {
1953 acceptsRepaintCalls = b;
1954 if (acceptsRepaintCalls == true)
1955 repaint();
1956 }
1957
1958 private void setRendererHints(final Map<Object, Object> rendererHints) {
1959 if (rendererHints != null)
1960 this.rendererHints = rendererHints;
1961 }
1962
1963 // @Deprecated
1964 // public void setState(final int state) {
1965 // this.state = state;
1966 //
1967 // // throw new RuntimeException("Old concept.. migrate to new concept!");
1968 //
1969 // // xMapPaneMouseListener.setEnabled((state == ZOOM_IN
1970 // // || state == ZOOM_OUT || state == PAN));
1971 //
1972 // // Je nach Aktion den Cursor umsetzen
1973 // updateCursor();
1974 // }
1975
1976 public void configureMouse(MouseInputType type, XMapPaneAction action) {
1977 xMapPaneMouseListener.actions.put(type, action);
1978 }
1979
1980 /**
1981 * Configure the {@link XMapPaneTool} that active on the map. Passing
1982 * <code>null</code> will set the NO_ACTION tool.
1983 */
1984 public void setTool(XMapPaneTool tool) {
1985 if (tool == null)
1986 tool = XMapPaneTool.NO_ACTION;
1987 this.tool = tool;
1988 xMapPaneMouseListener.configure(tool);
1989 setCursor(tool.cursor);
1990 }
1991
1992 /**
1993 * Standardmaessig wird der Cursor automatisch je nach MapPane-Aktion (Zoom,
1994 * Auswahl, ...) gesetzt. Mit dieser Methode kann ein statischer Cursor
1995 * gesetzt werden, der unabhaengig von der aktuellen MapPanes-Aktion
1996 * beibehalten wird. Um diesen statischen Cursor wieder zu entfernen, kann
1997 * {@code null} als Parameter uebergeben werden
1998 *
1999 * @param cursor
2000 * Cursor
2001 */
2002 public void setStaticCursor(final Cursor cursor) {
2003 this.staticCursor = cursor;
2004 if (cursor != null)
2005 super.setCursor(cursor);
2006 }
2007
2008 /**
2009 * Starts rendering on one or two threads
2010 */
2011 private void startRendering() {
2012
2013 if (!isWellDefined() || !acceptsRepaintCalls) {
2014 // if we are not ready to start rendering, try it again the next
2015 // time the timer is chacking the flag.
2016 requestStartRendering = true;
2017 return;
2018 }
2019
2020 if (bgExecuter != null) {
2021 // Stop all renderers
2022 bgExecuter.cancelTask();
2023 }
2024
2025 localExecuter.cancelTask();
2026
2027 final Rectangle curPaintArea = getVisibleRect();
2028
2029 /**
2030 * We have to set new renderer
2031 */
2032
2033 if (getBgContext() != null) {
2034 bgRenderer.setJava2DHints(getJava2dHints());
2035 bgRenderer.setRendererHints(getRendererHints());
2036
2037 // bgExecuter = new RenderingExecutor();
2038 // LOGGER.debug("starting bg renderer:");
2039 // // /* System.out.println("rendering"); */
2040 // final GTRenderer createGTRenderer = GTUtil.createGTRenderer(
2041 // bgContext, getRendererHints());
2042 // createGTRenderer.setJava2DHints(getJava2dHints());
2043 // bgExecuter.submit(getBgContext().getAreaOfInterest(),
2044 // curPaintArea,
2045 // (Graphics2D) getBgImage().getGraphics(), createGTRenderer);
2046 }
2047
2048 if (getMapContext() != null) {
2049 // localExecuter = new RenderingExecutor(this, 150l);
2050 // LOGGER.debug("starting local renderer:");
2051
2052 getLocalRenderer().setJava2DHints(getJava2dHints());
2053 getLocalRenderer().setRendererHints(getRendererHints());
2054
2055 final boolean submitted = localExecuter.submit(getMapArea(),
2056 curPaintArea, (Graphics2D) getLocalImage().getGraphics(),
2057 getLocalRenderer());
2058 if (submitted)
2059 repaintTimer.restart();
2060 else
2061 requestStartRendering = true; // Try to start rendering
2062 // again in
2063 // a moment
2064 }
2065
2066 updateCursor();
2067 }
2068
2069 private RenderingHints getJava2dHints() {
2070 return java2dHints;
2071 }
2072
2073 /**
2074 * Transformiert einen Geo-Koordinaten-Bereich in Fenster-Koordinaten.
2075 *
2076 * @param ox
2077 * X-Koordinate der VON-Position
2078 * @param oy
2079 * Y-Koordinate der VON-Position
2080 * @param px
2081 * X-Koordinate der BIS-Position
2082 * @param py
2083 * Y-Koordinate der BIS-Position
2084 * @param winToGeotransform
2085 * Eine Window to Geo transform. If <code>null</code>,
2086 * {@link #getScreenToWorld()} is used.
2087 */
2088 public Envelope tranformGeoToWindow(final double ox, final double oy,
2089 final double px, final double py) {
2090 final AffineTransform at = getWorldToScreenTransform();
2091 Point2D geoO;
2092 // try {
2093 geoO = at.transform(new Point2D.Double(ox, oy), null);
2094 final Point2D geoP = at.transform(new Point2D.Double(px, py), null);
2095 return new Envelope(geoO.getX(), geoP.getX(), geoO.getY(), geoP.getY());
2096 // } catch (final NoninvertibleTransformException e) {
2097 // LOGGER.error(e);
2098 // return new Envelope(ox, oy, px, py);
2099 // }
2100 }
2101
2102 /**
2103 * Transformiert einen Fenster-Koordinaten-Bereich in Geo-Koordinaten.
2104 *
2105 * @param ox
2106 * X-Koordinate der VON-Position
2107 * @param oy
2108 * Y-Koordinate der VON-Position
2109 * @param px
2110 * X-Koordinate der BIS-Position
2111 * @param py
2112 * Y-Koordinate der BIS-Position
2113 */
2114 public Envelope tranformWindowToGeo(final int ox, final int oy,
2115 final int px, final int py) {
2116 final AffineTransform at = getScreenToWorld();
2117 final Point2D geoO = at.transform(new Point2D.Double(ox, oy), null);
2118 final Point2D geoP = at.transform(new Point2D.Double(px, py), null);
2119
2120 // Mmmmm... don't really understand why its x,x,y,y
2121 // return new Envelope(geoO.getX(), geoP.getX(), geoO.getY(),
2122 // geoP.getY());
2123 return new Envelope(new Coordinate(geoO.getX(), geoO.getY()),
2124 new Coordinate(geoP.getX(), geoP.getY()));
2125 }
2126
2127 /**
2128 * Will update the cursor. If all rendering is finished also stops the
2129 * {@link #repaintTimer}
2130 */
2131 public void updateCursor() {
2132
2133 // if the renderers have stopped, also stop the timer that is updating
2134 // the final image
2135 if (bgExecuter != null && bgExecuter.isRunning()
2136 || localExecuter.isRunning()) {
2137 setCursor(Cursor.getPredefinedCursor(Cursor.WAIT_CURSOR));
2138 return;
2139 } else {
2140 // Allow one last rendering
2141 if (repaintTimer.isRunning()) {
2142 // System.out.println("one last rendering....");
2143 repaintTimer.stop();
2144 updateFinalImage();
2145 repaint();
2146 }
2147 }
2148
2149 //
2150 // wenn manueller Cursor gesetzt ist, dann diesen verwenden (unabhaengig
2151 // von der aktuellen Aktion
2152 if (this.staticCursor != null) {
2153 setCursor(staticCursor);
2154 return;
2155 }
2156
2157 if (getCursor() == SwingUtil.PANNING_CURSOR) {
2158 // This cursor will reset itself
2159 return;
2160 }
2161
2162 setCursor(tool.cursor);
2163
2164 //
2165 // // Set the cursor depending on what tool is in use...
2166 // switch (state) {
2167 // case SELECT_TOP:
2168 // case SELECT_ONE_FROM_TOP:
2169 // case SELECT_ALL:
2170 // setCursor(SwingUtil.CROSSHAIR_CURSOR);
2171 // break;
2172 // case ZOOM_IN:
2173 // setCursor(SwingUtil.ZOOMIN_CURSOR);
2174 // break;
2175 // case ZOOM_OUT:
2176 // setCursor(SwingUtil.ZOOMOUT_CURSOR);
2177 // break;
2178 // case PAN:
2179 // setCursor(SwingUtil.PAN_CURSOR);
2180 // break;
2181 // default:
2182 // setCursor(Cursor.getPredefinedCursor(Cursor.DEFAULT_CURSOR));
2183 // break;
2184 // }
2185 }
2186
2187 /**
2188 * The renderers are all rendering into their own {@link Image}s. This
2189 * method combines all images to one {@link #finalImage}. The
2190 * {@link #repaintTimer} is calling this method regularely to update the
2191 * {@link #finalImage} even if the renderers are still working.
2192 */
2193 synchronized protected Image updateFinalImage() {
2194
2195 // Render the two map images first, into the preFinalImage
2196 if (bgExecuter != null) {
2197 final Graphics2D preFinalG = (Graphics2D) getPreFinalImage()
2198 .getGraphics();
2199 preFinalG.setBackground(getMapBackgroundColor());
2200
2201 preFinalG.drawImage(getBgImage(), 0, 0, getMapBackgroundColor(),
2202 null);
2203
2204 // // Draw the local layers image
2205 preFinalG.drawImage(getLocalImage(), 0, 0, null);
2206 preFinalG.dispose();
2207
2208 } else {
2209 preFinalImage = getLocalImage();
2210 }
2211
2212 final Graphics2D finalG = getFinalImage().createGraphics();
2213 finalG.setBackground(getMapBackgroundColor());
2214 finalG.drawImage(getPreFinalImage(), getImageOrigin().x, getImageOrigin().y,
2215 getMapBackgroundColor(), null);
2216
2217 // When panning, we have to clear the area around the image
2218 final Rectangle painedArea = new Rectangle(getImageOrigin().x,
2219 getImageOrigin().y, getFinalImage().getWidth(), getFinalImage()
2220 .getHeight());
2221 SwingUtil.clearAround(finalG, painedArea, getVisibleRect(),
2222 getMapBackgroundColor());
2223
2224 // addGadgets(finalG, false);
2225
2226 finalG.dispose();
2227
2228 return finalImage;
2229 }
2230
2231 /**
2232 * Paints some optional stuff into the given {@link Graphics2D}. Usually
2233 * called as the last layer when {@link #updateFinalImage()}
2234 *
2235 * @param forceWait
2236 * if <code>true</code>, a Wait-message will be painted even
2237 * though the rendering threads may not yet have started. If
2238 * <code>false</code>, it will only depend on
2239 * {@link #localExecuter.isRunning} and #bgExecuter.isRunning
2240 */
2241 private void addGadgets(final Graphics2D graphics, final boolean forceWait) {
2242
2243 // Paint a logo to the bottom right if available
2244 if (mapImage != null) {
2245 final Rectangle visibleRect = getVisibleRect();
2246 graphics.drawImage(mapImage, visibleRect.width
2247 - mapImage.getWidth() - 10, getVisibleRect().height
2248 - mapImage.getHeight() - 10, null);
2249 }
2250
2251 int y = 17;
2252
2253 // If the rendering process is still running, indicate this is the image
2254 if (forceWait || bgExecuter != null && bgExecuter.isRunning()
2255 || localExecuter.isRunning()) {
2256
2257 y += 8;
2258
2259 final Color c = graphics.getColor();
2260 graphics.setFont(waitFont);
2261
2262 graphics.setColor(getMapBackgroundColor());
2263 graphics.drawString(waitMsg, 5, y);
2264 graphics.setColor(getMapBackgroundColor());
2265 graphics.drawString(waitMsg, 7, y + 2);
2266 graphics.setColor(Color.BLACK);
2267 graphics.drawString(waitMsg, 6, y + 1);
2268
2269 graphics.setColor(c);
2270
2271 y += 21;
2272 }
2273
2274 if (!renderingErrors.isEmpty() && isShowExceptions()) {
2275
2276 final Color c = graphics.getColor();
2277 graphics.setFont(errorFont);
2278
2279 for (final Exception ex : renderingErrors) {
2280
2281 String errStr = ex.getLocalizedMessage();
2282
2283 if (errStr == null)
2284 errStr = ex.getMessage();
2285 if (errStr == null)
2286 errStr = "unknown error: " + ex.getClass().getSimpleName();
2287
2288 graphics.setColor(getMapBackgroundColor());
2289 graphics.drawString(errStr, 5, y);
2290 graphics.setColor(Color.RED);
2291 graphics.drawString(errStr, 6, y + 1);
2292
2293 y += 19;
2294 }
2295
2296 graphics.setColor(c);
2297 }
2298
2299 }
2300
2301 /**
2302 * Sets the {@link #mapArea} to best possibly present the given features. If
2303 * only one single point is given, the window is moved over the point.
2304 *
2305 * @param features
2306 * if <code>null</code> or size==0, the function doesn nothing.
2307 */
2308 public void zoomTo(
2309 final FeatureCollection<SimpleFeatureType, SimpleFeature> features) {
2310
2311 // if (!isWellDefined()) return;
2312
2313 final CoordinateReferenceSystem mapCRS = getMapContext()
2314 .getCoordinateReferenceSystem();
2315 final CoordinateReferenceSystem fCRS = features.getSchema()
2316 .getCoordinateReferenceSystem();
2317
2318 ReferencedEnvelope _mapArea;
2319 if (mapArea == null)
2320 _mapArea = features.getBounds();
2321 else
2322 _mapArea = getMapArea();
2323 double width = _mapArea.getWidth();
2324 double height = _mapArea.getHeight();
2325 final double ratio = height / width;
2326
2327 if (features == null || features.size() == 0) {
2328 // feature count == 0 Zoom to the full extend
2329 return;
2330 } else if (features.size() == 1) {
2331
2332 // feature count == 1 Just move the window to the point and zoom 'a
2333 // bit'
2334 final SimpleFeature singleFeature = features.iterator().next();
2335
2336 if (((Geometry) singleFeature.getDefaultGeometry())
2337 .getCoordinates().length > 1) {
2338 // System.out.println("Zoomed to only pne poylgon");
2339 // Poly
2340 // TODO max width vs. height
2341 width = features.getBounds().getWidth() * 3;
2342 height = ratio * width;
2343 } else {
2344 // System.out.println("Zoomed in a bit becasue only one point");
2345 // width *= .9;
2346 // height *= .9;
2347 }
2348
2349 Coordinate centre = features.getBounds().centre();
2350 if (!mapCRS.equals(fCRS)) {
2351 // only to calculations if the CRS differ
2352 try {
2353 MathTransform fToMap;
2354 fToMap = CRS.findMathTransform(fCRS, mapCRS);
2355 // centre is transformed to the mapCRS
2356 centre = JTS.transform(centre, null, fToMap);
2357 } catch (final FactoryException e) {
2358 LOGGER.error("Looking for a Math transform", e);
2359 } catch (final TransformException e) {
2360 LOGGER.error("Looking for a Math transform", e);
2361 }
2362 }
2363
2364 final Coordinate newLeftBottom = new Coordinate(centre.x - width
2365 / 2., centre.y - height / 2.);
2366 final Coordinate newTopRight = new Coordinate(
2367 centre.x + width / 2., centre.y + height / 2.);
2368
2369 final Envelope newMapArea = new Envelope(newLeftBottom, newTopRight);
2370
2371 setMapArea(newMapArea);
2372
2373 } else {
2374 final ReferencedEnvelope fBounds = features.getBounds();
2375
2376 ReferencedEnvelope bounds;
2377 if (!mapCRS.equals(fCRS)) {
2378 bounds = JTSUtil.transformEnvelope(fBounds, mapCRS);
2379 } else {
2380 bounds = fBounds;
2381 }
2382 // BB umrechnen von Layer-CRS in Map-CRS
2383
2384 // Expand a bit
2385 bounds.expandBy(bounds.getWidth() / 6., bounds.getHeight() / 6.);
2386
2387 setMapArea(bounds);
2388 }
2389 }
2390
2391 /**
2392 * Zooms towards a point.
2393 *
2394 * @param center
2395 * position in window coordinates
2396 * @param zoomFactor
2397 * > 1 for zoom in, < 1 for zoom out. Default is 1.33
2398 */
2399 public void zoomTo(final Point center) {
2400 zoomTo(center, null);
2401 }
2402
2403 /**
2404 * Zooms towards a point.
2405 *
2406 * @param center
2407 * position in window coordinates
2408 * @param zoomFaktor
2409 * > 1 for zoom out, < 1 for zoom in. Default is .5
2410 */
2411 public void zoomTo(Point center, Double zoomFaktor) {
2412 if (zoomFaktor == null || zoomFaktor == 0.)
2413 zoomFaktor = .5;
2414
2415 final Point2D gcenter = getScreenToWorld().transform(center, null);
2416 center = null;
2417
2418 if (Double.isNaN(gcenter.getX()) || Double.isNaN(gcenter.getY())
2419 || Double.isInfinite(gcenter.getX())
2420 || Double.isInfinite(gcenter.getY())
2421
2422 ) {
2423 // Not inside valid CRS area! cancel
2424 return;
2425 }
2426
2427 final Envelope mapArea = getMapArea();
2428
2429 final Envelope newMapArea = new Envelope(mapArea);
2430 newMapArea.expandBy((mapArea.getWidth() * zoomFaktor - mapArea
2431 .getWidth()) / 2., (mapArea.getHeight() * zoomFaktor - mapArea
2432 .getHeight()) / 2.);
2433
2434 // // Move the newMapArea above the new center if we zoom in:
2435 newMapArea.translate(gcenter.getX() - mapArea.centre().x, gcenter
2436 .getY()
2437 - mapArea.centre().y);
2438
2439 setMapArea(newMapArea);
2440 }
2441
2442 /**
2443 * Shall non-fatal rendering exceptions be reported in the mappane or be
2444 * dropped quitely.
2445 */
2446 public void setShowExceptions(final boolean showExceptions) {
2447 this.showExceptions = showExceptions;
2448 }
2449
2450 /**
2451 * Shall exceptions be reported in the mappane?
2452 */
2453 public boolean isShowExceptions() {
2454 return showExceptions;
2455 }
2456
2457 public GTRenderer getLocalRenderer() {
2458 return localRenderer;
2459 }
2460
2461 /**
2462 * Setzt den Kartenausschnitt auf die Ausdehnung eines bestimmten Layers.
2463 * Macht nichts, wenn {@code null} uebergeben wird.
2464 *
2465 * <br>
2466 *
2467 * @param layer
2468 * ein Layer
2469 */
2470 public void zoomToLayer(MapLayer layer) {
2471 if (layer == null)
2472 return;
2473 try {
2474
2475 // BB umrechnen von Layer-CRS in Map-CRS
2476 final CoordinateReferenceSystem targetCRS = getMapContext()
2477 .getCoordinateReferenceSystem();
2478 final CoordinateReferenceSystem sourceCRS = layer
2479 .getFeatureSource().getSchema()
2480 .getCoordinateReferenceSystem();
2481
2482 Envelope mapAreaNew;
2483 if (!CRS.equalsIgnoreMetadata(sourceCRS, targetCRS)) {
2484 mapAreaNew = JTSUtil.transformEnvelope(layer.getFeatureSource()
2485 .getBounds(), sourceCRS, targetCRS);
2486 } else {
2487 try {
2488 mapAreaNew = layer.getFeatureSource().getBounds();
2489 } catch (java.lang.IllegalArgumentException e) {
2490 LOGGER.error("Can't calc layers bounds...", e);
2491 mapAreaNew = null;
2492
2493 /**
2494 *
2495 23.10.2009 11:20:50
2496 * org.geotools.data.shapefile.shp.PolygonHandler read
2497 * WARNUNG: only one hole in this polygon record ERROR
2498 * JMapPane zoomToLayer Zoom to layer did not terminate
2499 * correctly java.lang.IllegalArgumentException: Points of
2500 * LinearRing do not form a closed linestring at
2501 * com.vividsolutions
2502 * .jts.geom.LinearRing.validateConstruction
2503 * (LinearRing.java:105) at
2504 * com.vividsolutions.jts.geom.LinearRing
2505 * .<init>(LinearRing.java:100) at
2506 * com.vividsolutions.jts.geom
2507 * .GeometryFactory.createLinearRing
2508 * (GeometryFactory.java:339) at
2509 * org.geotools.data.shapefile.
2510 * shp.PolygonHandler.read(PolygonHandler.java:188) at
2511 * org.geotools
2512 * .data.shapefile.shp.ShapefileReader$Record.shape
2513 * (ShapefileReader.java:106) at
2514 * org.geotools.data.shapefile.
2515 * ShapefileAttributeReader.next(
2516 * ShapefileAttributeReader.java:157) at
2517 * org.geotools.data.shapefile
2518 * .indexed.IndexedShapefileAttributeReader
2519 * .next(IndexedShapefileAttributeReader.java:122) at
2520 * org.geotools
2521 * .data.FIDFeatureReader.next(FIDFeatureReader.java:96) at
2522 * org.geotools.data.FIDFeatureReader.next(FIDFeatureReader.
2523 * java:55) at org.geotools.data.MaxFeatureReader.next(
2524 * MaxFeatureReader.java:61) at
2525 * org.geotools.data.MaxFeatureReader
2526 * .next(MaxFeatureReader.java:61)
2527 **/
2528 }
2529 }
2530
2531 // Kartenbereich um 10% vergroessern, damit z.B. auch ein
2532 // Punkt-Layer,
2533 // welches nur aus 2 Punnkten besteht, sichtbar ist (Punkte liegen
2534 // sonst
2535 // genau auf dem Rand der angezeigten Flaeche)
2536
2537 if (mapAreaNew != null) {
2538 mapAreaNew.expandBy(mapAreaNew.getWidth() * 0.1, mapAreaNew
2539 .getHeight() * 0.1);
2540 setMapArea(mapAreaNew);
2541 } else {
2542 LOGGER
2543 .warn("Couldn't transformEnvelope when zooming to the layer");
2544 }
2545 } catch (Exception err) {
2546 LOGGER.error("Zoom to layer did not terminate correctly", err);
2547 }
2548 }
2549
2550 /**
2551 * Zooms the {@link SelectableXMapPane} to the {@link Envelope} of a layer.
2552 *
2553 * <br>
2554 * A refresh of the map is not done automatically
2555 *
2556 * @param index
2557 * Index of the {@link MapLayer} in the {@link MapContext} (from
2558 * back to top)
2559 *
2560 * @author <a href="mailto:[email protected]">Stefan Alfons
2561 * Kr&uuml;ger</a>
2562 */
2563 public void zoomToLayer(int index) {
2564 final MapContext context = getMapContext();
2565 if (context != null)
2566 zoomToLayer(context.getLayer(index));
2567 }
2568
2569 /**
2570 * Zooms the {@link SelectableXMapPane} to the {@link Envelope} of the
2571 * selected layer. The layer is selected by the idx, counting from front to
2572 * back, like humans would expect in a {@link JList}
2573 *
2574 * <br>
2575 * A refresh of the map is not done automatically
2576 *
2577 *
2578 *
2579 * @param index
2580 * Reverse index of the {@link MapLayer} in the
2581 * {@link MapContext}
2582 *
2583 * @author <a href="mailto:[email protected]">Stefan Alfons
2584 * Kr&uuml;ger</a>
2585 */
2586 public void zoomToLayerIdxReverse(int index) {
2587 zoomToLayer(getMapContext().getLayerCount() - 1 - index);
2588 }
2589
2590 /**
2591 * Aktiviert oder deaktiviert das AntiAliasing for diese
2592 * {@link SelectableXMapPane}. AntiALiasing ist besonders fuer
2593 * Textbeschriftung sehr schoen, verbraucht aber auch mehr Performance.
2594 *
2595 * @author <a href="mailto:[email protected]">Stefan Alfons
2596 * Kr&uuml;ger</a>
2597 */
2598 public void setAntiAliasing(final boolean aa) {
2599 // LOGGER.info("Setting AntiAliasing for this JMapPane to " + aa);
2600 RenderingHints java2DHints = java2dHints;
2601 if (java2DHints == null) {
2602 java2DHints = GeoTools.getDefaultHints();
2603 }
2604
2605 java2DHints.put(RenderingHints.KEY_ANTIALIASING,
2606 aa ? RenderingHints.VALUE_ANTIALIAS_ON
2607 : RenderingHints.VALUE_ANTIALIAS_OFF);
2608 java2DHints.put(RenderingHints.KEY_TEXT_ANTIALIASING,
2609 aa ? RenderingHints.VALUE_TEXT_ANTIALIAS_ON
2610 : RenderingHints.VALUE_TEXT_ANTIALIAS_OFF);
2611 java2DHints.put(RenderingHints.KEY_RENDERING,
2612 aa ? RenderingHints.VALUE_RENDER_QUALITY
2613 : RenderingHints.VALUE_RENDER_SPEED);
2614
2615 }
2616
2617 public Point getImageOrigin() {
2618 return imageOrigin;
2619 }
2620
2621 }
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