/* * Copyright (C) 2007 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ import java.util.Arrays; /** * System.arraycopy cases */ public class Main { public static void main(String args[]) { testObjectCopy(); testOverlappingMoves(); testFloatAndDouble(); testArrayCopyChar(); } public static void testObjectCopy() { String[] stringArray = new String[8]; Object[] objectArray = new Object[8]; for (int i = 0; i < stringArray.length; i++) stringArray[i] = new String(Integer.toString(i)); System.out.println("string -> object"); System.arraycopy(stringArray, 0, objectArray, 0, stringArray.length); System.out.println("object -> string"); System.arraycopy(objectArray, 0, stringArray, 0, stringArray.length); System.out.println("object -> string (modified)"); objectArray[4] = new ImplA(); try { System.arraycopy(objectArray, 0, stringArray, 0,stringArray.length); } catch (ArrayStoreException ase) { System.out.println("caught ArrayStoreException (expected)"); } } static final int ARRAY_SIZE = 8; static void initByteArray(byte[] array) { for (int i = 0; i < ARRAY_SIZE; i++) { array[i] = (byte) i; } } static void initShortArray(short[] array) { for (int i = 0; i < ARRAY_SIZE; i++) { array[i] = (short) i; } } static void initIntArray(int[] array) { for (int i = 0; i < ARRAY_SIZE; i++) { array[i] = (int) i; } } static void initLongArray(long[] array) { for (int i = 0; i < ARRAY_SIZE; i++) { array[i] = (long) i; } } static void initCharArray(char[] array) { for (int i = 0; i < ARRAY_SIZE; i++) { array[i] = (char) i; } } /* * Perform an array copy operation on primitive arrays with different * element widths. */ static void makeCopies(int srcPos, int dstPos, int length) { byte[] byteArray = new byte[ARRAY_SIZE]; short[] shortArray = new short[ARRAY_SIZE]; int[] intArray = new int[ARRAY_SIZE]; long[] longArray = new long[ARRAY_SIZE]; char[] charArray = new char[ARRAY_SIZE]; initByteArray(byteArray); initShortArray(shortArray); initIntArray(intArray); initLongArray(longArray); initCharArray(charArray); System.arraycopy(byteArray, srcPos, byteArray, dstPos, length); System.arraycopy(shortArray, srcPos, shortArray, dstPos, length); System.arraycopy(intArray, srcPos, intArray, dstPos, length); System.arraycopy(longArray, srcPos, longArray, dstPos, length); System.arraycopy(charArray, srcPos, charArray, dstPos, length); for (int i = 0; i < ARRAY_SIZE; i++) { if (intArray[i] != byteArray[i]) { System.out.println("mismatch int vs byte at " + i + " : " + Arrays.toString(byteArray)); break; } else if (intArray[i] != shortArray[i]) { System.out.println("mismatch int vs short at " + i + " : " + Arrays.toString(shortArray)); break; } else if (intArray[i] != longArray[i]) { System.out.println("mismatch int vs long at " + i + " : " + Arrays.toString(longArray)); break; } else if (intArray[i] != charArray[i]) { System.out.println("mismatch int vs char at " + i + " : " + Arrays.toString(charArray)); break; } } System.out.println("copy: " + srcPos + "," + dstPos + "," + length + ": " + Arrays.toString(intArray)); } public static void testOverlappingMoves() { /* do nothing */ makeCopies(0, 0, 0); /* do more nothing */ makeCopies(0, 0, ARRAY_SIZE); /* copy forward, even alignment */ makeCopies(0, 2, 4); /* copy backward, even alignment */ makeCopies(2, 0, 4); /* copy forward, odd alignment */ makeCopies(1, 3, 4); /* copy backward, odd alignment */ makeCopies(3, 1, 4); /* copy backward, odd length */ makeCopies(3, 1, 5); /* copy forward, odd length */ makeCopies(1, 3, 5); /* copy forward, mixed alignment */ makeCopies(0, 3, 5); /* copy backward, mixed alignment */ makeCopies(3, 0, 5); /* copy forward, mixed alignment, trivial length */ makeCopies(0, 5, 1); } private static void testFloatAndDouble() { // Float & double copies have the same implementation as int & long. However, there are // protective DCHECKs in the code (there is nothing unifying like ByteSizedArray or // ShortSizedArray). Just test that we don't fail those checks. final int len = 10; System.arraycopy(new float[len], 0, new float[len], 0, len); System.arraycopy(new double[len], 0, new double[len], 0, len); } static final char SRC_INIT_CHAR = '1'; static final char DST_CHAR = '0'; /* Return a char array of the specified length. * If do_increment is true, populate the array with (numerically) ascending * characters starting from initChar (note: char wraps-around on overflow). * If do_increment is false, populate all array elements with initChar. */ public static char[] createCharArray(int length, char initChar, boolean do_increment) { char[] charArr = new char[length]; char nextChar = initChar; for (int i = 0; i < length; ++i) { charArr[i] = nextChar; if (do_increment) { nextChar++; } } return charArr; } public static boolean verifyCorrectness(char[] src, char[] dst, int copiedPrefixLength) { for (int i = 0; i < dst.length; ++i) { if (i < copiedPrefixLength) { // Check that we copied source array. if (dst[i] != src[i]) { return false; } } else { // Check that we didn't write more chars than necessary. if (dst[i] != DST_CHAR) { return false; } } } return true; } public static void testArrayCopyCharConstCase2() { final int copy_length = 2; char[] src = createCharArray(2 * copy_length, SRC_INIT_CHAR, true); char[] dst = createCharArray(4 * copy_length, DST_CHAR, false); System.arraycopy(src, 0, dst, 0, copy_length); boolean passed = verifyCorrectness(src, dst, copy_length); if (!passed) { System.out.println("arraycopy(char) const case 2 failed"); } else { System.out.println("arraycopy(char) const case 2 passed"); } } public static void testArrayCopyCharConstCase3() { final int copy_length = 3; char[] src = createCharArray(2 * copy_length, SRC_INIT_CHAR, true); char[] dst = createCharArray(4 * copy_length, DST_CHAR, false); System.arraycopy(src, 0, dst, 0, copy_length); boolean passed = verifyCorrectness(src, dst, copy_length); if (!passed) { System.out.println("arraycopy(char) const case 3 failed"); } else { System.out.println("arraycopy(char) const case 3 passed"); } } public static void testArrayCopyCharConstCase5() { final int copy_length = 5; char[] src = createCharArray(2 * copy_length, SRC_INIT_CHAR, true); char[] dst = createCharArray(4 * copy_length, DST_CHAR, false); System.arraycopy(src, 0, dst, 0, copy_length); boolean passed = verifyCorrectness(src, dst, copy_length); if (!passed) { System.out.println("arraycopy(char) const case 5 failed"); } else { System.out.println("arraycopy(char) const case 5 passed"); } } public static void testArrayCopyCharConstCase7() { final int copy_length = 7; char[] src = createCharArray(2 * copy_length, SRC_INIT_CHAR, true); char[] dst = createCharArray(4 * copy_length, DST_CHAR, false); System.arraycopy(src, 0, dst, 0, copy_length); boolean passed = verifyCorrectness(src, dst, copy_length); if (!passed) { System.out.println("arraycopy(char) const case 7 failed"); } else { System.out.println("arraycopy(char) const case 7 passed"); } } public static void testArrayCopyCharConstCase8() { final int copy_length = 8; char[] src = createCharArray(2 * copy_length, SRC_INIT_CHAR, true); char[] dst = createCharArray(4 * copy_length, DST_CHAR, false); System.arraycopy(src, 0, dst, 0, copy_length); boolean passed = verifyCorrectness(src, dst, copy_length); if (!passed) { System.out.println("arraycopy(char) const case 8 failed"); } else { System.out.println("arraycopy(char) const case 8 passed"); } } public static void testArrayCopyCharConstCase9() { final int copy_length = 9; char[] src = createCharArray(2 * copy_length, SRC_INIT_CHAR, true); char[] dst = createCharArray(4 * copy_length, DST_CHAR, false); System.arraycopy(src, 0, dst, 0, copy_length); boolean passed = verifyCorrectness(src, dst, copy_length); if (!passed) { System.out.println("arraycopy(char) const case 9 failed"); } else { System.out.println("arraycopy(char) const case 9 passed"); } } public static void testArrayCopyCharConstCase11() { final int copy_length = 11; char[] src = createCharArray(2 * copy_length, SRC_INIT_CHAR, true); char[] dst = createCharArray(4 * copy_length, DST_CHAR, false); System.arraycopy(src, 0, dst, 0, copy_length); boolean passed = verifyCorrectness(src, dst, copy_length); if (!passed) { System.out.println("arraycopy(char) const case 11 failed"); } else { System.out.println("arraycopy(char) const case 11 passed"); } } public static void testArrayCopyCharCase(int copy_length) { char[] src = createCharArray(2 * copy_length, SRC_INIT_CHAR, true); char[] dst = createCharArray(4 * copy_length, DST_CHAR, false); System.arraycopy(src, 0, dst, 0, copy_length); boolean passed = verifyCorrectness(src, dst, copy_length); if (!passed) { System.out.println("arraycopy(char) " + copy_length + " failed"); } else { System.out.println("arraycopy(char) " + copy_length + " passed"); } } public static void testArrayCopyChar() { testArrayCopyCharConstCase2(); testArrayCopyCharConstCase3(); testArrayCopyCharConstCase5(); testArrayCopyCharConstCase7(); testArrayCopyCharConstCase8(); testArrayCopyCharConstCase9(); testArrayCopyCharConstCase11(); testArrayCopyCharCase(0); testArrayCopyCharCase(1); testArrayCopyCharCase(3); testArrayCopyCharCase(4); testArrayCopyCharCase(5); testArrayCopyCharCase(7); testArrayCopyCharCase(15); testArrayCopyCharCase(16); testArrayCopyCharCase(17); testArrayCopyCharCase(31); testArrayCopyCharCase(32); testArrayCopyCharCase(33); testArrayCopyCharCase(63); testArrayCopyCharCase(64); testArrayCopyCharCase(65); testArrayCopyCharCase(255); testArrayCopyCharCase(513); testArrayCopyCharCase(1025); } }