////// // There should be a copyright thing here but I'm in too much of a hurry to add // one right now. I don't care much what the copyright is though so if someone // wants to put the appropriate one here, go right ahead (I think GPL probably // unless that causes a problem with running on proprietory JVMs or testing // proprietory class libraries or anything. ////// import java.util.*; /** * Test of most of the methods in the Arrays class. The class prints out a * single pass/fail message, and enumerates all failures. The message is in the * PASS: or FAIL: format that dejagnu uses, but other than that I don't know * enough to make it a "proper" testsuite. */ public class ArraysTest { static int passed = 0; static int failed = 0; public static void main(String[] args) { testBool(); testByte(); testChar(); testShort(); testInt(); testLong(); testFloat(); testDouble(); testObject(); if (failed != 0) { System.out.println(" (" + failed + " fails and " + passed + " passes)."); } else { System.out.println("PASSED: [Arrays] All " + passed + " tests."); } } static void testBool() { boolean[] a1 = new boolean[] {true, false, false, true, true, false, true}; boolean[] a2 = new boolean[] {false, false, false, true, true, true, true}; boolean[] a3 = new boolean[] {true, false, false, true, true, false, true}; passfail("boolean equals", !Arrays.equals(a1, a2) && Arrays.equals(a1, a3)); Arrays.fill(a1, false); boolean filled = true; for (int i = 0; filled && i < a1.length; i++) { filled = a1[i] == false; } passfail("boolean fill", filled); } static void testByte() { byte[] a1 = new byte[] {3, -2, 0, 1, 4, 0, -5}; byte[] a2 = new byte[] {-5, -2, 0, 0, 1, 3, 4}; boolean firstEq = Arrays.equals(a1, a2); Arrays.sort(a1); boolean sorted = true; for (int i = 0; sorted && i < a1.length - 1; i++) { sorted = !(a1[i] > a1[i+1]); // the odd way of writing <= is so that we // aren't tooo mean to NaNs } passfail("byte sort", sorted); passfail("byte search", Arrays.binarySearch(a2, (byte)1) == 4 && Arrays.binarySearch(a2, (byte)-1) == -3); passfail("byte equals", !firstEq && Arrays.equals(a1, a2)); Arrays.fill(a1, (byte)6); boolean filled = true; for (int i = 0; filled && i < a1.length; i++) { filled = a1[i] == (byte)6; } passfail("byte fill", filled); } static void testChar() { char[] a1 = new char[] {'i', 'd', 'f', 'g', 'j', 'f', 'a'}; char[] a2 = new char[] {'a', 'd', 'f', 'f', 'g', 'i', 'j'}; boolean firstEq = Arrays.equals(a1, a2); Arrays.sort(a1); boolean sorted = true; for (int i = 0; sorted && i < a1.length - 1; i++) { sorted = !(a1[i] > a1[i+1]); // the odd way of writing <= is so that we // aren't tooo mean to NaNs } passfail("char sort", sorted); passfail("char search", Arrays.binarySearch(a2, 'i') == 5 && Arrays.binarySearch(a2, 'e') == -3); passfail("char equals", !firstEq && Arrays.equals(a1, a2)); Arrays.fill(a1, 'Q'); boolean filled = true; for (int i = 0; filled && i < a1.length; i++) { filled = a1[i] == 'Q'; } passfail("char fill", filled); } static void testShort() { short[] a1 = new short[] {3, -2, 0, 1, 4, 0, -5}; short[] a2 = new short[] {-5, -2, 0, 0, 1, 3, 4}; boolean firstEq = Arrays.equals(a1, a2); Arrays.sort(a1); boolean sorted = true; for (int i = 0; sorted && i < a1.length - 1; i++) { sorted = !(a1[i] > a1[i+1]); // the odd way of writing <= is so that we // aren't tooo mean to NaNs } passfail("short sort", sorted); passfail("short search", Arrays.binarySearch(a2, (short)1) == 4 && Arrays.binarySearch(a2, (short)-1) == -3); passfail("short equals", !firstEq && Arrays.equals(a1, a2)); Arrays.fill(a1, (short)6); boolean filled = true; for (int i = 0; filled && i < a1.length; i++) { filled = a1[i] == (short)6; } passfail("short fill", filled); } static void testInt() { int[] a1 = new int[] {3, -2, 0, 1, 4, 0, -5}; int[] a2 = new int[] {-5, -2, 0, 0, 1, 3, 4}; boolean firstEq = Arrays.equals(a1, a2); Arrays.sort(a1); boolean sorted = true; for (int i = 0; sorted && i < a1.length - 1; i++) { sorted = !(a1[i] > a1[i+1]); // the odd way of writing <= is so that we // aren't tooo mean to NaNs } passfail("int sort", sorted); passfail("int search", Arrays.binarySearch(a2, 1) == 4 && Arrays.binarySearch(a2, -1) == -3); passfail("int equals", !firstEq && Arrays.equals(a1, a2)); Arrays.fill(a1, 6); boolean filled = true; for (int i = 0; filled && i < a1.length; i++) { filled = a1[i] == 6; } passfail("int fill", filled); } static void testLong() { long[] a1 = new long[] {3, -2, 0, 1, 4, 0, -5}; long[] a2 = new long[] {-5, -2, 0, 0, 1, 3, 4}; boolean firstEq = Arrays.equals(a1, a2); Arrays.sort(a1); boolean sorted = true; for (int i = 0; sorted && i < a1.length - 1; i++) { sorted = !(a1[i] > a1[i+1]); // the odd way of writing <= is so that we // aren't tooo mean to NaNs } passfail("long sort", sorted); passfail("long search", Arrays.binarySearch(a2, 1L) == 4 && Arrays.binarySearch(a2, -1L) == -3); passfail("long equals", !firstEq && Arrays.equals(a1, a2)); Arrays.fill(a1, 6L); boolean filled = true; for (int i = 0; filled && i < a1.length; i++) { filled = a1[i] == 6L; } passfail("long fill", filled); } static void testFloat() { float[] a1 = new float[] {-4.0f, 75.3f, Float.POSITIVE_INFINITY, -0.0f, -3324.342f, 0.0f, 3.14f, 2.5f, 1.0f, 1.0f}; float[] a2 = new float[] {-3324.342f, -4.0f, -0.0f, 0.0f, 1.0f, 1.0f, 2.5f, 3.14f, 75.3f, Float.POSITIVE_INFINITY}; boolean firstEq = Arrays.equals(a1, a2); Arrays.sort(a1); boolean sorted = true; for (int i = 0; sorted && i < a1.length - 1; i++) { sorted = !(a1[i] > a1[i+1]); // the odd way of writing <= is so that we // aren't tooo mean to NaNs } passfail("float sort", sorted); passfail("float search", Arrays.binarySearch(a2, 3.14f) == 7 && Arrays.binarySearch(a2, -1.0f) == -3); passfail("float equals", !firstEq && Arrays.equals(a1, a2)); Arrays.fill(a1, 27.0f); boolean filled = true; for (int i = 0; filled && i < a1.length; i++) { filled = a1[i] == 27.0f; } passfail("float fill", filled); } static void testDouble() { double[] a1 = new double[] {-4.0d, 75.3d, Double.POSITIVE_INFINITY, -0.0d, -3324.342d, 0.0d, 3.14d, 2.5d, 1.0d, 1.0d}; double[] a2 = new double[] {-3324.342d, -4.0d, -0.0d, 0.0d, 1.0d, 1.0d, 2.5d, 3.14d, 75.3d, Double.POSITIVE_INFINITY}; boolean firstEq = Arrays.equals(a1, a2); Arrays.sort(a1); boolean sorted = true; for (int i = 0; sorted && i < a1.length - 1; i++) { sorted = !(a1[i] > a1[i+1]); // the odd way of writing <= is so that we // aren't tooo mean to NaNs } passfail("double sort", sorted); passfail("double search", Arrays.binarySearch(a2, 3.14d) == 7 && Arrays.binarySearch(a2, -1.0d) == -3); passfail("double equals", !firstEq && Arrays.equals(a1, a2)); Arrays.fill(a1, 27.0d); boolean filled = true; for (int i = 0; filled && i < a1.length; i++) { filled = a1[i] == 27.0d; } passfail("double fill", filled); } static void testObject() { String[] a1 = new String[] {"this", "is", "a", "string", "test", "which", "will", "hopefully", "demonstrate", "that", "sorting", "works"}; String[] a2 = new String[] {"a", "demonstrate", "hopefully", "is", "sorting", "string", "test", "that", "this", "which", "will", "works"}; String[] a3 = new String[] {"this", "is", "a", "reverse", "string", "test", "which", "will", "hopefully", "demonstrate", "that", "sorting", "works", "with", "comparators"}; String[] a4 = new String[] {"works", "with", "will", "which", "this", "that", "test", "string", "sorting", "reverse", "is", "hopefully", "demonstrate", "comparators", "a"}; final String list = "[works, with, will, which, this, that, test, string," + " sorting, reverse, is, hopefully, demonstrate," + " comparators, a]"; boolean firstEq = Arrays.equals(a1, a2); Arrays.sort(a1); boolean sorted = true; for (int i = 0; sorted && i < a1.length - 1; i++) { sorted = a1[i].compareTo(a1[i+1]) <= 0; } passfail("object sort", sorted); passfail("object search", Arrays.binarySearch(a2, "hopefully") == 2 && Arrays.binarySearch(a2, "strange") == -6); passfail("object equals", !firstEq && Arrays.equals(a1, a2)); Arrays.fill(a1, "blah"); boolean filled = true; for (int i = 0; filled && i < a1.length; i++) { filled = a1[i].equals("blah"); } passfail("object fill", filled); Comparator c = new ReverseOrder(); Arrays.sort(a3, c); passfail("comparator sort", Arrays.equals(a3, a4)); passfail("comparator search", Arrays.binarySearch(a4, "sorting", c) == 8 && Arrays.binarySearch(a4, "nice", c) == -11); // toList doesn't exist -gcb // passfail("toList toString", Arrays.toList(a4).toString().equals(list)); } static void passfail(String desc, boolean didpass) { if (didpass) { passed++; } else { if (failed++ != 0) { System.out.print(", " + desc); } else { System.out.print("FAILED: [Arrays] " + desc); } } } } class ReverseOrder implements Comparator { public int compare(Object a, Object b) { return -((Comparable)a).compareTo(b); } }