/* * Copyright (c) 2016, 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 * @bug 7107905 * @summary Test verifies whether equals() and hashCode() methods in * IndexColorModel works properly for IndexColorModel unique * properties. * @run main IndexColorModelEqualsTest */ import java.awt.image.DataBuffer; import java.awt.image.IndexColorModel; import java.math.BigInteger; public class IndexColorModelEqualsTest { private static void testColorMapEquality() { // test with different cmap values. IndexColorModel model1 = new IndexColorModel(8, 3, new int[] {1, 2, 3}, 0, true, -1, DataBuffer.TYPE_BYTE); IndexColorModel model2 = new IndexColorModel(8, 3, new int[] {4, 5, 6}, 0, true, -1, DataBuffer.TYPE_BYTE); if (model1.equals(model2)) { throw new RuntimeException("equals() method is determining" + " ColorMap equality improperly"); } if (model2.equals(model1)) { throw new RuntimeException("equals() method is determining" + " ColorMap equality improperly"); } } private static void testSizeEquality() { // test with different size for cmap. IndexColorModel model1 = new IndexColorModel(8, 4, new int[] {1, 2, 3, 4}, 0, true, -1, DataBuffer.TYPE_BYTE); IndexColorModel model2 = new IndexColorModel(8, 3, new int[] {1, 2, 3}, 0, true, -1, DataBuffer.TYPE_BYTE); if (model1.equals(model2)) { throw new RuntimeException("equals() method is determining" + " Map size equality improperly"); } if (model2.equals(model1)) { throw new RuntimeException("equals() method is determining" + " Map size equality improperly"); } } private static void testTransparentIndexEquality() { // test with different values for transparent_index. IndexColorModel model1 = new IndexColorModel(8, 3, new int[] {1, 2, 3}, 0, true, 1, DataBuffer.TYPE_BYTE); IndexColorModel model2 = new IndexColorModel(8, 3, new int[] {1, 2, 3}, 0, true, 2, DataBuffer.TYPE_BYTE); if (model1.equals(model2)) { throw new RuntimeException("equals() method is determining" + " TransparentIndex equality improperly"); } if (model2.equals(model1)) { throw new RuntimeException("equals() method is determining" + " TransparentIndex equality improperly"); } } private static void testValidPixelsEquality() { // test with different valid pixels. /* * In setRGBs() function of IndexColorModel we override * transparent_index value to map to pixel value if alpha is 0x00 * so we should have atleast minimum alpha value to verify * equality of validBits thats why we have color value as * 16777216(2 ^ 24). */ int color = 16777216; IndexColorModel model1 = new IndexColorModel(8, 3, new int[] {color, color, color}, 0, DataBuffer.TYPE_BYTE, new BigInteger("1")); IndexColorModel model2 = new IndexColorModel(8, 3, new int[] {color, color, color}, 0, DataBuffer.TYPE_BYTE, new BigInteger("2")); if (model1.equals(model2)) { throw new RuntimeException("equals() method is determining" + " Valid pixels equality improperly"); } if (model2.equals(model1)) { throw new RuntimeException("equals() method is determining" + " Valid pixels equality improperly"); } } private static void testConstructor1() { /* * verify equality with constructor * IndexColorModel(int bits, int size, byte[] r, byte[] g, byte[] b) */ IndexColorModel model1 = new IndexColorModel(8, 2, new byte[] {1, 2}, new byte[] {1, 2}, new byte[] {1, 2}); IndexColorModel model2 = new IndexColorModel(8, 2, new byte[] {1, 2}, new byte[] {1, 2}, new byte[] {1, 2}); if (model1.equals(null)) { throw new RuntimeException("equals(null) returns true"); } if (!(model1.equals(model2))) { throw new RuntimeException("equals() method is not working" + " properly"); } if (!(model2.equals(model1))) { throw new RuntimeException("equals() method is not working" + " properly"); } if (model1.hashCode() != model2.hashCode()) { throw new RuntimeException("HashCode is not same for same" + " IndexColorModels"); } } private static void testConstructor2() { /* * verify equality with constructor * IndexColorModel(int bits, int size, byte[] r, byte[] g, byte[] b, * byte[] a) */ IndexColorModel model1 = new IndexColorModel(8, 2, new byte[] {1, 2}, new byte[] {1, 2}, new byte[] {1, 2}, new byte[] {1, 2}); IndexColorModel model2 = new IndexColorModel(8, 2, new byte[] {1, 2}, new byte[] {1, 2}, new byte[] {1, 2}, new byte[] {1, 2}); if (model1.equals(null)) { throw new RuntimeException("equals(null) returns true"); } if (!(model1.equals(model2))) { throw new RuntimeException("equals() method is not working" + " properly"); } if (!(model2.equals(model1))) { throw new RuntimeException("equals() method is not working" + " properly"); } if (model1.hashCode() != model2.hashCode()) { throw new RuntimeException("HashCode is not same for same" + " IndexColorModels"); } } private static void testConstructor3() { /* * verify equality with constructor * IndexColorModel(int bits, int size, byte[] r, byte[] g, byte[] b, * int trans) */ IndexColorModel model1 = new IndexColorModel(8, 2, new byte[] {1, 2}, new byte[] {1, 2}, new byte[] {1, 2}, 1); IndexColorModel model2 = new IndexColorModel(8, 2, new byte[] {1, 2}, new byte[] {1, 2}, new byte[] {1, 2}, 1); if (model1.equals(null)) { throw new RuntimeException("equals(null) returns true"); } if (!(model1.equals(model2))) { throw new RuntimeException("equals() method is not working" + " properly"); } if (!(model2.equals(model1))) { throw new RuntimeException("equals() method is not working" + " properly"); } if (model1.hashCode() != model2.hashCode()) { throw new RuntimeException("HashCode is not same for same" + " IndexColorModels"); } } private static void testConstructor4() { /* * verify equality with constructor * IndexColorModel(int bits, int size, byte[] cmap, int start, * boolean hasalpha) */ IndexColorModel model1 = new IndexColorModel(8, 1, new byte[] {1, 2, 3, 4}, 0, true); IndexColorModel model2 = new IndexColorModel(8, 1, new byte[] {1, 2, 3, 4}, 0, true); if (model1.equals(null)) { throw new RuntimeException("equals(null) returns true"); } if (!(model1.equals(model2))) { throw new RuntimeException("equals() method is not working" + " properly"); } if (!(model2.equals(model1))) { throw new RuntimeException("equals() method is not working" + " properly"); } if (model1.hashCode() != model2.hashCode()) { throw new RuntimeException("HashCode is not same for same" + " IndexColorModels"); } } private static void testConstructor5() { /* * verify equality with constructor * IndexColorModel(int bits, int size, byte[] cmap, int start, * boolean hasalpha, int trans) */ IndexColorModel model1 = new IndexColorModel(8, 1, new byte[] {1, 2, 3, 4}, 0, true, 0); IndexColorModel model2 = new IndexColorModel(8, 1, new byte[] {1, 2, 3, 4}, 0, true, 0); if (model1.equals(null)) { throw new RuntimeException("equals(null) returns true"); } if (!(model1.equals(model2))) { throw new RuntimeException("equals() method is not working" + " properly"); } if (!(model2.equals(model1))) { throw new RuntimeException("equals() method is not working" + " properly"); } if (model1.hashCode() != model2.hashCode()) { throw new RuntimeException("HashCode is not same for same" + " IndexColorModels"); } } private static void testConstructor6() { /* * verify equality with constructor * IndexColorModel(int bits, int size, int[] cmap, int start, * boolean hasalpha, int trans, int transferType) */ IndexColorModel model1 = new IndexColorModel(8, 3, new int[] {1, 2, 3}, 0, true, -1, DataBuffer.TYPE_BYTE); IndexColorModel model2 = new IndexColorModel(8, 3, new int[] {1, 2, 3}, 0, true, -1, DataBuffer.TYPE_BYTE); if (model1.equals(null)) { throw new RuntimeException("equals(null) returns true"); } if (!(model1.equals(model2))) { throw new RuntimeException("equals() method is not working" + " properly"); } if (!(model2.equals(model1))) { throw new RuntimeException("equals() method is not working" + " properly"); } if (model1.hashCode() != model2.hashCode()) { throw new RuntimeException("HashCode is not same for same" + " IndexColorModels"); } } private static void testConstructor7() { /* * verify equality with constructor * IndexColorModel(int bits, int size, int[] cmap, int start, * int transferType, BigInteger validBits) */ /* * In setRGBs() function of IndexColorModel we override * transparent_index value to map to pixel value if alpha is 0x00 * so we should have atleast minimum alpha value to keep * both model1 and model2 same. */ int color = 16777216; IndexColorModel model1 = new IndexColorModel(8, 3, new int[] {color, color, color}, 0, DataBuffer.TYPE_BYTE, new BigInteger("1")); IndexColorModel model2 = new IndexColorModel(8, 3, new int[] {color, color, color}, 0, DataBuffer.TYPE_BYTE, new BigInteger("1")); if (model1.equals(null)) { throw new RuntimeException("equals(null) returns true"); } if (!(model1.equals(model2))) { throw new RuntimeException("equals() method is not working" + " properly"); } if (!(model2.equals(model1))) { throw new RuntimeException("equals() method is not working" + " properly"); } if (model1.hashCode() != model2.hashCode()) { throw new RuntimeException("HashCode is not same for same" + " IndexColorModels"); } } private static void testSameIndexColorModel() { testConstructor1(); testConstructor2(); testConstructor3(); testConstructor4(); testConstructor5(); testConstructor6(); testConstructor7(); } public static void main(String[] args) { /* test whether equals() method works properly for parameters * unique to IndexColorModel. */ testColorMapEquality(); testSizeEquality(); testTransparentIndexEquality(); testValidPixelsEquality(); // verify same IndexColorModel equality using different constructors. testSameIndexColorModel(); } }