test/sun/java2d/pipe/RegionOps.java - platform/external/jetbrains/jdk8u_jdk - Git at Google

 /*
  * Copyright (c) 2009, 2011, Oracle and/or its affiliates. All rights reserved.
  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
  *
  * This code is free software; you can redistribute it and/or modify it
  * under the terms of the GNU General Public License version 2 only, as
  * published by the Free Software Foundation.
  *
  * This code is distributed in the hope that it will be useful, but WITHOUT
  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
  * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
  * version 2 for more details (a copy is included in the LICENSE file that
  * accompanied this code).
  *
  * You should have received a copy of the GNU General Public License version
  * 2 along with this work; if not, write to the Free Software Foundation,
  * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
  *
  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
  * or visit www.oracle.com if you need additional information or have any
  * questions.
  */

 /*
  * @test %W% %E%
  * @bug 6504874
  * @summary This test verifies the operation (and performance) of the
  *          various CAG operations on the internal Region class.
  * @run main RegionOps
  */

 import java.awt.Rectangle;
 import java.awt.geom.Area;
 import java.awt.geom.AffineTransform;
 import java.awt.image.BufferedImage;
 import java.util.Random;
 import sun.java2d.pipe.Region;

 public class RegionOps {
     public static final int DEFAULT_NUMREGIONS = 50;
     public static final int DEFAULT_MINSUBRECTS = 1;
     public static final int DEFAULT_MAXSUBRECTS = 10;

     public static final int MINCOORD = -20;
     public static final int MAXCOORD = 20;

     public static boolean useArea;

     static int numops;
     static int numErrors;
     static Random rand = new Random();
     static boolean skipCheck;
     static boolean countErrors;

     static {
         // Instantiating BufferedImage initializes sun.java2d
         BufferedImage bimg =
             new BufferedImage(1, 1, BufferedImage.TYPE_INT_RGB);
     }

     public static void usage(String error) {
         if (error != null) {
             System.err.println("Error: "+error);
         }
         System.err.println("Usage: java RegionOps "+
                            "[-regions N] [-rects M] "+
                            "[-[min|max]rects M] [-area]");
         System.err.println("                      "+
                            "[-add|union] [-sub|diff] "+
                            "[-int[ersect]] [-xor]");
         System.err.println("                      "+
                            "[-seed S] [-nocheck] [-count[errors]] [-help]");
         System.exit((error != null) ? 1 : 0);
     }

     public static void error(RectListImpl a, RectListImpl b, String problem) {
         System.err.println("Operating on:  "+a);
         if (b != null) {
             System.err.println("and:  "+b);
         }
         if (countErrors) {
             System.err.println(problem);
             numErrors++;
         } else {
             throw new RuntimeException(problem);
         }
     }

     public static void main(String argv[]) {
         int numregions = DEFAULT_NUMREGIONS;
         int minsubrects = DEFAULT_MINSUBRECTS;
         int maxsubrects = DEFAULT_MAXSUBRECTS;
         boolean doUnion = false;
         boolean doIntersect = false;
         boolean doSubtract = false;
         boolean doXor = false;

         for (int i = 0; i < argv.length; i++) {
             String arg = argv[i];
             if (arg.equalsIgnoreCase("-regions")) {
                 if (i+1 >= argv.length) {
                     usage("missing arg for -regions");
                 }
                 numregions = Integer.parseInt(argv[++i]);
             } else if (arg.equalsIgnoreCase("-rects")) {
                 if (i+1 >= argv.length) {
                     usage("missing arg for -rects");
                 }
                 minsubrects = maxsubrects = Integer.parseInt(argv[++i]);
             } else if (arg.equalsIgnoreCase("-minrects")) {
                 if (i+1 >= argv.length) {
                     usage("missing arg for -minrects");
                 }
                 minsubrects = Integer.parseInt(argv[++i]);
             } else if (arg.equalsIgnoreCase("-maxrects")) {
                 if (i+1 >= argv.length) {
                     usage("missing arg for -maxrects");
                 }
                 maxsubrects = Integer.parseInt(argv[++i]);
             } else if (arg.equalsIgnoreCase("-area")) {
                 useArea = true;
             } else if (arg.equalsIgnoreCase("-add") ||
                        arg.equalsIgnoreCase("-union"))
             {
                 doUnion = true;
             } else if (arg.equalsIgnoreCase("-sub") ||
                        arg.equalsIgnoreCase("-diff"))
             {
                 doSubtract = true;
             } else if (arg.equalsIgnoreCase("-int") ||
                        arg.equalsIgnoreCase("-intersect"))
             {
                 doIntersect = true;
             } else if (arg.equalsIgnoreCase("-xor")) {
                 doXor = true;
             } else if (arg.equalsIgnoreCase("-seed")) {
                 if (i+1 >= argv.length) {
                     usage("missing arg for -seed");
                 }
                 rand.setSeed(Long.decode(argv[++i]).longValue());
             } else if (arg.equalsIgnoreCase("-nocheck")) {
                 skipCheck = true;
             } else if (arg.equalsIgnoreCase("-count") ||
                        arg.equalsIgnoreCase("-counterrors"))
             {
                 countErrors = true;
             } else if (arg.equalsIgnoreCase("-help")) {
                 usage(null);
             } else {
                 usage("Unknown argument: "+arg);
             }
         }

         if (maxsubrects < minsubrects) {
             usage("maximum number of subrectangles less than minimum");
         }

         if (minsubrects <= 0) {
             usage("minimum number of subrectangles must be positive");
         }

         if (!doUnion && !doSubtract && !doIntersect && !doXor) {
             doUnion = doSubtract = doIntersect = doXor = true;
         }

         long start = System.currentTimeMillis();
         RectListImpl rlist[] = new RectListImpl[numregions];
         int totalrects = 0;
         for (int i = 0; i < rlist.length; i++) {
             RectListImpl rli = RectListImpl.getInstance();
             int numsubrects =
                 minsubrects + rand.nextInt(maxsubrects - minsubrects + 1);
             for (int j = 0; j < numsubrects; j++) {
                 addRectTo(rli);
                 totalrects++;
             }
             rlist[i] = rli;
         }
         long end = System.currentTimeMillis();
         System.out.println((end-start)+"ms to create "+
                            rlist.length+" regions containing "+
                            totalrects+" subrectangles");

         start = System.currentTimeMillis();
         for (int i = 0; i < rlist.length; i++) {
             RectListImpl a = rlist[i];
             testTranslate(a);
             for (int j = i; j < rlist.length; j++) {
                 RectListImpl b = rlist[j];
                 if (doUnion) testUnion(a, b);
                 if (doSubtract) testDifference(a, b);
                 if (doIntersect) testIntersection(a, b);
                 if (doXor) testExclusiveOr(a, b);
             }
         }
         end = System.currentTimeMillis();
         System.out.println(numops+" ops took "+(end-start)+"ms");

         if (numErrors > 0) {
             throw new RuntimeException(numErrors+" errors encountered");
         }
     }

     public static void addRectTo(RectListImpl rli) {
         int lox = MINCOORD + rand.nextInt(MAXCOORD - MINCOORD + 1);
         int hix = MINCOORD + rand.nextInt(MAXCOORD - MINCOORD + 1);
         int loy = MINCOORD + rand.nextInt(MAXCOORD - MINCOORD + 1);
         int hiy = MINCOORD + rand.nextInt(MAXCOORD - MINCOORD + 1);
         rli.addRect(lox, loy, hix, hiy);
     }

     public static void checkEqual(RectListImpl a, RectListImpl b,
                                   String optype)
     {
         if (a.hashCode() != b.hashCode()) {
             error(a, b, "hashcode failed for "+optype);
         }
         if (!a.equals(b)) {
             error(a, b, "equals failed for "+optype);
         }
     }

     public static void testTranslate(RectListImpl a) {
         RectListImpl maxTrans =
             a.getTranslation(Integer.MAX_VALUE, Integer.MAX_VALUE)
             .getTranslation(Integer.MAX_VALUE, Integer.MAX_VALUE)
             .getTranslation(Integer.MAX_VALUE, Integer.MAX_VALUE);
         if (!maxTrans.checkTransEmpty()) {
             error(maxTrans, null, "overflow translated RectList not empty");
         }
         RectListImpl minTrans =
             a.getTranslation(Integer.MIN_VALUE, Integer.MIN_VALUE)
             .getTranslation(Integer.MIN_VALUE, Integer.MIN_VALUE)
             .getTranslation(Integer.MIN_VALUE, Integer.MIN_VALUE);
         if (!minTrans.checkTransEmpty()) {
             error(minTrans, null, "overflow translated RectList not empty");
         }
         testTranslate(a, Integer.MAX_VALUE, Integer.MAX_VALUE, false,
                       MINCOORD, 0, MINCOORD, 0);
         testTranslate(a, Integer.MAX_VALUE, Integer.MIN_VALUE, false,
                       MINCOORD, 0, 0, MAXCOORD);
         testTranslate(a, Integer.MIN_VALUE, Integer.MAX_VALUE, false,
                       0, MAXCOORD, MINCOORD, 0);
         testTranslate(a, Integer.MIN_VALUE, Integer.MIN_VALUE, false,
                       0, MAXCOORD, 0, MAXCOORD);
         for (int dy = -100; dy <= 100; dy += 50) {
             for (int dx = -100; dx <= 100; dx += 50) {
                 testTranslate(a, dx, dy, true,
                               MINCOORD, MAXCOORD,
                               MINCOORD, MAXCOORD);
             }
         }
     }

     public static void testTranslate(RectListImpl a, int dx, int dy,
                                      boolean isNonDestructive,
                                      int xmin, int xmax,
                                      int ymin, int ymax)
     {
         RectListImpl theTrans = a.getTranslation(dx, dy); numops++;
         if (skipCheck) return;
         RectListImpl unTrans = theTrans.getTranslation(-dx, -dy);
         if (isNonDestructive) checkEqual(a, unTrans, "Translate");
         for (int x = xmin; x < xmax; x++) {
             for (int y = ymin; y < ymax; y++) {
                 boolean inside = a.contains(x, y);
                 if (theTrans.contains(x+dx, y+dy) != inside) {
                     error(a, null, "translation failed for "+
                           dx+", "+dy+" at "+x+", "+y);
                 }
             }
         }
     }

     public static void testUnion(RectListImpl a, RectListImpl b) {
         RectListImpl aUb = a.getUnion(b); numops++;
         RectListImpl bUa = b.getUnion(a); numops++;
         if (skipCheck) return;
         checkEqual(aUb, bUa, "Union");
         testUnion(a, b, aUb);
         testUnion(a, b, bUa);
     }

     public static void testUnion(RectListImpl a, RectListImpl b,
                                  RectListImpl theUnion)
     {
         for (int x = MINCOORD; x < MAXCOORD; x++) {
             for (int y = MINCOORD; y < MAXCOORD; y++) {
                 boolean inside = (a.contains(x, y) || b.contains(x, y));
                 if (theUnion.contains(x, y) != inside) {
                     error(a, b, "union failed at "+x+", "+y);
                 }
             }
         }
     }

     public static void testDifference(RectListImpl a, RectListImpl b) {
         RectListImpl aDb = a.getDifference(b); numops++;
         RectListImpl bDa = b.getDifference(a); numops++;
         if (skipCheck) return;
         // Note that difference is not commutative so we cannot check equals
         // checkEqual(a, b, "Difference");
         testDifference(a, b, aDb);
         testDifference(b, a, bDa);
     }

     public static void testDifference(RectListImpl a, RectListImpl b,
                                       RectListImpl theDifference)
     {
         for (int x = MINCOORD; x < MAXCOORD; x++) {
             for (int y = MINCOORD; y < MAXCOORD; y++) {
                 boolean inside = (a.contains(x, y) && !b.contains(x, y));
                 if (theDifference.contains(x, y) != inside) {
                     error(a, b, "difference failed at "+x+", "+y);
                 }
             }
         }
     }

     public static void testIntersection(RectListImpl a, RectListImpl b) {
         RectListImpl aIb = a.getIntersection(b); numops++;
         RectListImpl bIa = b.getIntersection(a); numops++;
         if (skipCheck) return;
         checkEqual(aIb, bIa, "Intersection");
         testIntersection(a, b, aIb);
         testIntersection(a, b, bIa);
     }

     public static void testIntersection(RectListImpl a, RectListImpl b,
                                         RectListImpl theIntersection)
     {
         for (int x = MINCOORD; x < MAXCOORD; x++) {
             for (int y = MINCOORD; y < MAXCOORD; y++) {
                 boolean inside = (a.contains(x, y) && b.contains(x, y));
                 if (theIntersection.contains(x, y) != inside) {
                     error(a, b, "intersection failed at "+x+", "+y);
                 }
             }
         }
     }

     public static void testExclusiveOr(RectListImpl a, RectListImpl b) {
         RectListImpl aXb = a.getExclusiveOr(b); numops++;
         RectListImpl bXa = b.getExclusiveOr(a); numops++;
         if (skipCheck) return;
         checkEqual(aXb, bXa, "ExclusiveOr");
         testExclusiveOr(a, b, aXb);
         testExclusiveOr(a, b, bXa);
     }

     public static void testExclusiveOr(RectListImpl a, RectListImpl b,
                                        RectListImpl theExclusiveOr)
     {
         for (int x = MINCOORD; x < MAXCOORD; x++) {
             for (int y = MINCOORD; y < MAXCOORD; y++) {
                 boolean inside = (a.contains(x, y) != b.contains(x, y));
                 if (theExclusiveOr.contains(x, y) != inside) {
                     error(a, b, "xor failed at "+x+", "+y);
                 }
             }
         }
     }

     public abstract static class RectListImpl {
         public static RectListImpl getInstance() {
             if (useArea) {
                 return new AreaImpl();
             } else {
                 return new RegionImpl();
             }
         }

         public abstract void addRect(int lox, int loy, int hix, int hiy);

         public abstract RectListImpl getTranslation(int dx, int dy);

         public abstract RectListImpl getIntersection(RectListImpl rli);
         public abstract RectListImpl getExclusiveOr(RectListImpl rli);
         public abstract RectListImpl getDifference(RectListImpl rli);
         public abstract RectListImpl getUnion(RectListImpl rli);

         // Used for making sure that 3xMAX translates yields an empty region
         public abstract boolean checkTransEmpty();

         public abstract boolean contains(int x, int y);

         public abstract int hashCode();
         public abstract boolean equals(RectListImpl other);
     }

     public static class AreaImpl extends RectListImpl {
         Area theArea;

         public AreaImpl() {
         }

         public AreaImpl(Area a) {
             theArea = a;
         }

         public void addRect(int lox, int loy, int hix, int hiy) {
             Area a2 = new Area(new Rectangle(lox, loy, hix-lox, hiy-loy));
             if (theArea == null) {
                 theArea = a2;
             } else {
                 theArea.add(a2);
             }
         }

         public RectListImpl getTranslation(int dx, int dy) {
             AffineTransform at = AffineTransform.getTranslateInstance(dx, dy);
             return new AreaImpl(theArea.createTransformedArea(at));
         }

         public RectListImpl getIntersection(RectListImpl rli) {
             Area a2 = new Area(theArea);
             a2.intersect(((AreaImpl) rli).theArea);
             return new AreaImpl(a2);
         }

         public RectListImpl getExclusiveOr(RectListImpl rli) {
             Area a2 = new Area(theArea);
             a2.exclusiveOr(((AreaImpl) rli).theArea);
             return new AreaImpl(a2);
         }

         public RectListImpl getDifference(RectListImpl rli) {
             Area a2 = new Area(theArea);
             a2.subtract(((AreaImpl) rli).theArea);
             return new AreaImpl(a2);
         }

         public RectListImpl getUnion(RectListImpl rli) {
             Area a2 = new Area(theArea);
             a2.add(((AreaImpl) rli).theArea);
             return new AreaImpl(a2);
         }

         // Used for making sure that 3xMAX translates yields an empty region
         public boolean checkTransEmpty() {
             // Area objects will actually survive 3 MAX translates so just
             // pretend that it had the intended effect...
             return true;
         }

         public boolean contains(int x, int y) {
             return theArea.contains(x, y);
         }

         public int hashCode() {
             // Area does not override hashCode...
             return 0;
         }

         public boolean equals(RectListImpl other) {
             return theArea.equals(((AreaImpl) other).theArea);
         }

         public String toString() {
             return theArea.toString();
         }
     }

     public static class RegionImpl extends RectListImpl {
         Region theRegion;

         public RegionImpl() {
         }

         public RegionImpl(Region r) {
             theRegion = r;
         }

         public void addRect(int lox, int loy, int hix, int hiy) {
             Region r2 = Region.getInstanceXYXY(lox, loy, hix, hiy);
             if (theRegion == null) {
                 theRegion = r2;
             } else {
                 theRegion = theRegion.getUnion(r2);
             }
         }

         public RectListImpl getTranslation(int dx, int dy) {
             return new RegionImpl(theRegion.getTranslatedRegion(dx, dy));
         }

         public RectListImpl getIntersection(RectListImpl rli) {
             Region r2 = ((RegionImpl) rli).theRegion;
             r2 = theRegion.getIntersection(r2);
             return new RegionImpl(r2);
         }

         public RectListImpl getExclusiveOr(RectListImpl rli) {
             Region r2 = ((RegionImpl) rli).theRegion;
             r2 = theRegion.getExclusiveOr(r2);
             return new RegionImpl(r2);
         }

         public RectListImpl getDifference(RectListImpl rli) {
             Region r2 = ((RegionImpl) rli).theRegion;
             r2 = theRegion.getDifference(r2);
             return new RegionImpl(r2);
         }

         public RectListImpl getUnion(RectListImpl rli) {
             Region r2 = ((RegionImpl) rli).theRegion;
             r2 = theRegion.getUnion(r2);
             return new RegionImpl(r2);
         }

         // Used for making sure that 3xMAX translates yields an empty region
         public boolean checkTransEmpty() {
             // Region objects should be empty after 3 MAX translates...
             return theRegion.isEmpty();
         }

         public boolean contains(int x, int y) {
             return theRegion.contains(x, y);
         }

         public int hashCode() {
             return theRegion.hashCode();
         }

         public boolean equals(RectListImpl other) {
             return theRegion.equals(((RegionImpl) other).theRegion);
         }

         public String toString() {
             return theRegion.toString();
         }
     }
 }
	/*
	* Copyright (c) 2009, 2011, Oracle and/or its affiliates. All rights reserved.
	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
	*
	* This code is free software; you can redistribute it and/or modify it
	* under the terms of the GNU General Public License version 2 only, as
	* published by the Free Software Foundation.
	*
	* This code is distributed in the hope that it will be useful, but WITHOUT
	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
	* version 2 for more details (a copy is included in the LICENSE file that
	* accompanied this code).
	*
	* You should have received a copy of the GNU General Public License version
	* 2 along with this work; if not, write to the Free Software Foundation,
	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
	*
	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
	* or visit www.oracle.com if you need additional information or have any
	* questions.
	*/

	/*
	* @test %W% %E%
	* @bug 6504874
	* @summary This test verifies the operation (and performance) of the
	* various CAG operations on the internal Region class.
	* @run main RegionOps
	*/

	import java.awt.Rectangle;
	import java.awt.geom.Area;
	import java.awt.geom.AffineTransform;
	import java.awt.image.BufferedImage;
	import java.util.Random;
	import sun.java2d.pipe.Region;

	public class RegionOps {
	public static final int DEFAULT_NUMREGIONS = 50;
	public static final int DEFAULT_MINSUBRECTS = 1;
	public static final int DEFAULT_MAXSUBRECTS = 10;

	public static final int MINCOORD = -20;
	public static final int MAXCOORD = 20;

	public static boolean useArea;

	static int numops;
	static int numErrors;
	static Random rand = new Random();
	static boolean skipCheck;
	static boolean countErrors;

	static {
	// Instantiating BufferedImage initializes sun.java2d
	BufferedImage bimg =
	new BufferedImage(1, 1, BufferedImage.TYPE_INT_RGB);
	}

	public static void usage(String error) {
	if (error != null) {
	System.err.println("Error: "+error);
	}
	System.err.println("Usage: java RegionOps "+
	"[-regions N] [-rects M] "+
	"[-[min\|max]rects M] [-area]");
	System.err.println(" "+
	"[-add\|union] [-sub\|diff] "+
	"[-int[ersect]] [-xor]");
	System.err.println(" "+
	"[-seed S] [-nocheck] [-count[errors]] [-help]");
	System.exit((error != null) ? 1 : 0);
	}

	public static void error(RectListImpl a, RectListImpl b, String problem) {
	System.err.println("Operating on: "+a);
	if (b != null) {
	System.err.println("and: "+b);
	}
	if (countErrors) {
	System.err.println(problem);
	numErrors++;
	} else {
	throw new RuntimeException(problem);
	}
	}

	public static void main(String argv[]) {
	int numregions = DEFAULT_NUMREGIONS;
	int minsubrects = DEFAULT_MINSUBRECTS;
	int maxsubrects = DEFAULT_MAXSUBRECTS;
	boolean doUnion = false;
	boolean doIntersect = false;
	boolean doSubtract = false;
	boolean doXor = false;

	for (int i = 0; i < argv.length; i++) {
	String arg = argv[i];
	if (arg.equalsIgnoreCase("-regions")) {
	if (i+1 >= argv.length) {
	usage("missing arg for -regions");
	}
	numregions = Integer.parseInt(argv[++i]);
	} else if (arg.equalsIgnoreCase("-rects")) {
	if (i+1 >= argv.length) {
	usage("missing arg for -rects");
	}
	minsubrects = maxsubrects = Integer.parseInt(argv[++i]);
	} else if (arg.equalsIgnoreCase("-minrects")) {
	if (i+1 >= argv.length) {
	usage("missing arg for -minrects");
	}
	minsubrects = Integer.parseInt(argv[++i]);
	} else if (arg.equalsIgnoreCase("-maxrects")) {
	if (i+1 >= argv.length) {
	usage("missing arg for -maxrects");
	}
	maxsubrects = Integer.parseInt(argv[++i]);
	} else if (arg.equalsIgnoreCase("-area")) {
	useArea = true;
	} else if (arg.equalsIgnoreCase("-add") \|\|
	arg.equalsIgnoreCase("-union"))
	{
	doUnion = true;
	} else if (arg.equalsIgnoreCase("-sub") \|\|
	arg.equalsIgnoreCase("-diff"))
	{
	doSubtract = true;
	} else if (arg.equalsIgnoreCase("-int") \|\|
	arg.equalsIgnoreCase("-intersect"))
	{
	doIntersect = true;
	} else if (arg.equalsIgnoreCase("-xor")) {
	doXor = true;
	} else if (arg.equalsIgnoreCase("-seed")) {
	if (i+1 >= argv.length) {
	usage("missing arg for -seed");
	}
	rand.setSeed(Long.decode(argv[++i]).longValue());
	} else if (arg.equalsIgnoreCase("-nocheck")) {
	skipCheck = true;
	} else if (arg.equalsIgnoreCase("-count") \|\|
	arg.equalsIgnoreCase("-counterrors"))
	{
	countErrors = true;
	} else if (arg.equalsIgnoreCase("-help")) {
	usage(null);
	} else {
	usage("Unknown argument: "+arg);
	}
	}

	if (maxsubrects < minsubrects) {
	usage("maximum number of subrectangles less than minimum");
	}

	if (minsubrects <= 0) {
	usage("minimum number of subrectangles must be positive");
	}

	if (!doUnion && !doSubtract && !doIntersect && !doXor) {
	doUnion = doSubtract = doIntersect = doXor = true;
	}

	long start = System.currentTimeMillis();
	RectListImpl rlist[] = new RectListImpl[numregions];
	int totalrects = 0;
	for (int i = 0; i < rlist.length; i++) {
	RectListImpl rli = RectListImpl.getInstance();
	int numsubrects =
	minsubrects + rand.nextInt(maxsubrects - minsubrects + 1);
	for (int j = 0; j < numsubrects; j++) {
	addRectTo(rli);
	totalrects++;
	}
	rlist[i] = rli;
	}
	long end = System.currentTimeMillis();
	System.out.println((end-start)+"ms to create "+
	rlist.length+" regions containing "+
	totalrects+" subrectangles");

	start = System.currentTimeMillis();
	for (int i = 0; i < rlist.length; i++) {
	RectListImpl a = rlist[i];
	testTranslate(a);
	for (int j = i; j < rlist.length; j++) {
	RectListImpl b = rlist[j];
	if (doUnion) testUnion(a, b);
	if (doSubtract) testDifference(a, b);
	if (doIntersect) testIntersection(a, b);
	if (doXor) testExclusiveOr(a, b);
	}
	}
	end = System.currentTimeMillis();
	System.out.println(numops+" ops took "+(end-start)+"ms");

	if (numErrors > 0) {
	throw new RuntimeException(numErrors+" errors encountered");
	}
	}

	public static void addRectTo(RectListImpl rli) {
	int lox = MINCOORD + rand.nextInt(MAXCOORD - MINCOORD + 1);
	int hix = MINCOORD + rand.nextInt(MAXCOORD - MINCOORD + 1);
	int loy = MINCOORD + rand.nextInt(MAXCOORD - MINCOORD + 1);
	int hiy = MINCOORD + rand.nextInt(MAXCOORD - MINCOORD + 1);
	rli.addRect(lox, loy, hix, hiy);
	}

	public static void checkEqual(RectListImpl a, RectListImpl b,
	String optype)
	{
	if (a.hashCode() != b.hashCode()) {
	error(a, b, "hashcode failed for "+optype);
	}
	if (!a.equals(b)) {
	error(a, b, "equals failed for "+optype);
	}
	}

	public static void testTranslate(RectListImpl a) {
	RectListImpl maxTrans =
	a.getTranslation(Integer.MAX_VALUE, Integer.MAX_VALUE)
	.getTranslation(Integer.MAX_VALUE, Integer.MAX_VALUE)
	.getTranslation(Integer.MAX_VALUE, Integer.MAX_VALUE);
	if (!maxTrans.checkTransEmpty()) {
	error(maxTrans, null, "overflow translated RectList not empty");
	}
	RectListImpl minTrans =
	a.getTranslation(Integer.MIN_VALUE, Integer.MIN_VALUE)
	.getTranslation(Integer.MIN_VALUE, Integer.MIN_VALUE)
	.getTranslation(Integer.MIN_VALUE, Integer.MIN_VALUE);
	if (!minTrans.checkTransEmpty()) {
	error(minTrans, null, "overflow translated RectList not empty");
	}
	testTranslate(a, Integer.MAX_VALUE, Integer.MAX_VALUE, false,
	MINCOORD, 0, MINCOORD, 0);
	testTranslate(a, Integer.MAX_VALUE, Integer.MIN_VALUE, false,
	MINCOORD, 0, 0, MAXCOORD);
	testTranslate(a, Integer.MIN_VALUE, Integer.MAX_VALUE, false,
	0, MAXCOORD, MINCOORD, 0);
	testTranslate(a, Integer.MIN_VALUE, Integer.MIN_VALUE, false,
	0, MAXCOORD, 0, MAXCOORD);
	for (int dy = -100; dy <= 100; dy += 50) {
	for (int dx = -100; dx <= 100; dx += 50) {
	testTranslate(a, dx, dy, true,
	MINCOORD, MAXCOORD,
	MINCOORD, MAXCOORD);
	}
	}
	}

	public static void testTranslate(RectListImpl a, int dx, int dy,
	boolean isNonDestructive,
	int xmin, int xmax,
	int ymin, int ymax)
	{
	RectListImpl theTrans = a.getTranslation(dx, dy); numops++;
	if (skipCheck) return;
	RectListImpl unTrans = theTrans.getTranslation(-dx, -dy);
	if (isNonDestructive) checkEqual(a, unTrans, "Translate");
	for (int x = xmin; x < xmax; x++) {
	for (int y = ymin; y < ymax; y++) {
	boolean inside = a.contains(x, y);
	if (theTrans.contains(x+dx, y+dy) != inside) {
	error(a, null, "translation failed for "+
	dx+", "+dy+" at "+x+", "+y);
	}
	}
	}
	}

	public static void testUnion(RectListImpl a, RectListImpl b) {
	RectListImpl aUb = a.getUnion(b); numops++;
	RectListImpl bUa = b.getUnion(a); numops++;
	if (skipCheck) return;
	checkEqual(aUb, bUa, "Union");
	testUnion(a, b, aUb);
	testUnion(a, b, bUa);
	}

	public static void testUnion(RectListImpl a, RectListImpl b,
	RectListImpl theUnion)
	{
	for (int x = MINCOORD; x < MAXCOORD; x++) {
	for (int y = MINCOORD; y < MAXCOORD; y++) {
	boolean inside = (a.contains(x, y) \|\| b.contains(x, y));
	if (theUnion.contains(x, y) != inside) {
	error(a, b, "union failed at "+x+", "+y);
	}
	}
	}
	}

	public static void testDifference(RectListImpl a, RectListImpl b) {
	RectListImpl aDb = a.getDifference(b); numops++;
	RectListImpl bDa = b.getDifference(a); numops++;
	if (skipCheck) return;
	// Note that difference is not commutative so we cannot check equals
	// checkEqual(a, b, "Difference");
	testDifference(a, b, aDb);
	testDifference(b, a, bDa);
	}

	public static void testDifference(RectListImpl a, RectListImpl b,
	RectListImpl theDifference)
	{
	for (int x = MINCOORD; x < MAXCOORD; x++) {
	for (int y = MINCOORD; y < MAXCOORD; y++) {
	boolean inside = (a.contains(x, y) && !b.contains(x, y));
	if (theDifference.contains(x, y) != inside) {
	error(a, b, "difference failed at "+x+", "+y);
	}
	}
	}
	}

	public static void testIntersection(RectListImpl a, RectListImpl b) {
	RectListImpl aIb = a.getIntersection(b); numops++;
	RectListImpl bIa = b.getIntersection(a); numops++;
	if (skipCheck) return;
	checkEqual(aIb, bIa, "Intersection");
	testIntersection(a, b, aIb);
	testIntersection(a, b, bIa);
	}

	public static void testIntersection(RectListImpl a, RectListImpl b,
	RectListImpl theIntersection)
	{
	for (int x = MINCOORD; x < MAXCOORD; x++) {
	for (int y = MINCOORD; y < MAXCOORD; y++) {
	boolean inside = (a.contains(x, y) && b.contains(x, y));
	if (theIntersection.contains(x, y) != inside) {
	error(a, b, "intersection failed at "+x+", "+y);
	}
	}
	}
	}

	public static void testExclusiveOr(RectListImpl a, RectListImpl b) {
	RectListImpl aXb = a.getExclusiveOr(b); numops++;
	RectListImpl bXa = b.getExclusiveOr(a); numops++;
	if (skipCheck) return;
	checkEqual(aXb, bXa, "ExclusiveOr");
	testExclusiveOr(a, b, aXb);
	testExclusiveOr(a, b, bXa);
	}

	public static void testExclusiveOr(RectListImpl a, RectListImpl b,
	RectListImpl theExclusiveOr)
	{
	for (int x = MINCOORD; x < MAXCOORD; x++) {
	for (int y = MINCOORD; y < MAXCOORD; y++) {
	boolean inside = (a.contains(x, y) != b.contains(x, y));
	if (theExclusiveOr.contains(x, y) != inside) {
	error(a, b, "xor failed at "+x+", "+y);
	}
	}
	}
	}

	public abstract static class RectListImpl {
	public static RectListImpl getInstance() {
	if (useArea) {
	return new AreaImpl();
	} else {
	return new RegionImpl();
	}
	}

	public abstract void addRect(int lox, int loy, int hix, int hiy);

	public abstract RectListImpl getTranslation(int dx, int dy);

	public abstract RectListImpl getIntersection(RectListImpl rli);
	public abstract RectListImpl getExclusiveOr(RectListImpl rli);
	public abstract RectListImpl getDifference(RectListImpl rli);
	public abstract RectListImpl getUnion(RectListImpl rli);

	// Used for making sure that 3xMAX translates yields an empty region
	public abstract boolean checkTransEmpty();

	public abstract boolean contains(int x, int y);

	public abstract int hashCode();
	public abstract boolean equals(RectListImpl other);
	}

	public static class AreaImpl extends RectListImpl {
	Area theArea;

	public AreaImpl() {
	}

	public AreaImpl(Area a) {
	theArea = a;
	}

	public void addRect(int lox, int loy, int hix, int hiy) {
	Area a2 = new Area(new Rectangle(lox, loy, hix-lox, hiy-loy));
	if (theArea == null) {
	theArea = a2;
	} else {
	theArea.add(a2);
	}
	}

	public RectListImpl getTranslation(int dx, int dy) {
	AffineTransform at = AffineTransform.getTranslateInstance(dx, dy);
	return new AreaImpl(theArea.createTransformedArea(at));
	}

	public RectListImpl getIntersection(RectListImpl rli) {
	Area a2 = new Area(theArea);
	a2.intersect(((AreaImpl) rli).theArea);
	return new AreaImpl(a2);
	}

	public RectListImpl getExclusiveOr(RectListImpl rli) {
	Area a2 = new Area(theArea);
	a2.exclusiveOr(((AreaImpl) rli).theArea);
	return new AreaImpl(a2);
	}

	public RectListImpl getDifference(RectListImpl rli) {
	Area a2 = new Area(theArea);
	a2.subtract(((AreaImpl) rli).theArea);
	return new AreaImpl(a2);
	}

	public RectListImpl getUnion(RectListImpl rli) {
	Area a2 = new Area(theArea);
	a2.add(((AreaImpl) rli).theArea);
	return new AreaImpl(a2);
	}

	// Used for making sure that 3xMAX translates yields an empty region
	public boolean checkTransEmpty() {
	// Area objects will actually survive 3 MAX translates so just
	// pretend that it had the intended effect...
	return true;
	}

	public boolean contains(int x, int y) {
	return theArea.contains(x, y);
	}

	public int hashCode() {
	// Area does not override hashCode...
	return 0;
	}

	public boolean equals(RectListImpl other) {
	return theArea.equals(((AreaImpl) other).theArea);
	}

	public String toString() {
	return theArea.toString();
	}
	}

	public static class RegionImpl extends RectListImpl {
	Region theRegion;

	public RegionImpl() {
	}

	public RegionImpl(Region r) {
	theRegion = r;
	}

	public void addRect(int lox, int loy, int hix, int hiy) {
	Region r2 = Region.getInstanceXYXY(lox, loy, hix, hiy);
	if (theRegion == null) {
	theRegion = r2;
	} else {
	theRegion = theRegion.getUnion(r2);
	}
	}

	public RectListImpl getTranslation(int dx, int dy) {
	return new RegionImpl(theRegion.getTranslatedRegion(dx, dy));
	}

	public RectListImpl getIntersection(RectListImpl rli) {
	Region r2 = ((RegionImpl) rli).theRegion;
	r2 = theRegion.getIntersection(r2);
	return new RegionImpl(r2);
	}

	public RectListImpl getExclusiveOr(RectListImpl rli) {
	Region r2 = ((RegionImpl) rli).theRegion;
	r2 = theRegion.getExclusiveOr(r2);
	return new RegionImpl(r2);
	}

	public RectListImpl getDifference(RectListImpl rli) {
	Region r2 = ((RegionImpl) rli).theRegion;
	r2 = theRegion.getDifference(r2);
	return new RegionImpl(r2);
	}

	public RectListImpl getUnion(RectListImpl rli) {
	Region r2 = ((RegionImpl) rli).theRegion;
	r2 = theRegion.getUnion(r2);
	return new RegionImpl(r2);
	}

	// Used for making sure that 3xMAX translates yields an empty region
	public boolean checkTransEmpty() {
	// Region objects should be empty after 3 MAX translates...
	return theRegion.isEmpty();
	}

	public boolean contains(int x, int y) {
	return theRegion.contains(x, y);
	}

	public int hashCode() {
	return theRegion.hashCode();
	}

	public boolean equals(RectListImpl other) {
	return theRegion.equals(((RegionImpl) other).theRegion);
	}

	public String toString() {
	return theRegion.toString();
	}
	}
	}