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view graal/com.oracle.graal.compiler.ptx.test/src/com/oracle/graal/compiler/ptx/test/IntegerPTXTest.java @ 12503:d7f8dd4fe876
minor reformatting based on 'mx eclipseformat'
author | Doug Simon <doug.simon@oracle.com> |
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date | Mon, 21 Oct 2013 18:10:32 +0200 |
parents | 280f97f13d54 |
children | 884bee435276 |
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/* * Copyright (c) 2013, 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. */ package com.oracle.graal.compiler.ptx.test; import org.junit.*; import java.lang.reflect.Method; public class IntegerPTXTest extends PTXTestBase { @Test public void testAdd() { // @formatter:off /* Integer r4 = (Integer) invoke(compile("testAdd2B"), (byte) 6, (byte) 4); if (r4 == null) { printReport("testAdd2B FAILED"); } else if (r4.intValue() == testAdd2B((byte) 6, (byte) 4)) { printReport("testAdd2B PASSED"); } else { printReport("testAdd2B FAILED"); } */ // @formatter:on Integer r4 = (Integer) invoke(compile("testAdd2I"), 18, 24); if (r4 == null) { printReport("testAdd2I FAILED"); } else if (r4.intValue() == testAdd2I(18, 24)) { printReport("testAdd2I PASSED"); } else { printReport("testAdd2I FAILED"); } Long r2 = (Long) invoke(compile("testAdd2L"), (long) 12, (long) 6); if (r2 == null) { printReport("testAdd2L FAILED"); } else if (r2.longValue() == testAdd2L(12, 6)) { printReport("testAdd2L PASSED"); } else { printReport("testAdd2L FAILED"); } r4 = (Integer) invoke(compile("testAddIConst"), 5); if (r4 == null) { printReport("testAddIConst FAILED"); } else if (r4.intValue() == testAddIConst(5)) { printReport("testAddIConst PASSED"); } else { printReport("testAddIConst FAILED"); } r4 = (Integer) invoke(compile("testAddConstI"), 7); if (r4 == null) { printReport("testAddConstI FAILED"); } else if (r4.intValue() == testAddConstI(7)) { printReport("testAddConstI PASSED"); } else { printReport("testAddConstI FAILED"); } } public static int testAdd2I(int a, int b) { return a + b; } public static long testAdd2L(long a, long b) { return a + b; } public static int testAdd2B(byte a, byte b) { return a + b; } public static int testAddIConst(int a) { return a + 32; } public static int testAddConstI(int a) { return 32 + a; } @Test public void testSub() { Integer r1 = (Integer) invoke(compile("testSub2I"), 18, 4); if (r1 == null) { printReport("testSub2I FAILED"); } else if (r1.intValue() == testSub2I(18, 4)) { printReport("testSub2I PASSED"); } else { printReport("testSub2I FAILED"); } Long r2 = (Long) invoke(compile("testSub2L"), (long) 12, (long) 6); if (r2 == null) { printReport("testSub2I FAILED (null return value)"); } else if (r2.longValue() == testSub2L(12, 6)) { printReport("testSub2I PASSED"); } else { printReport("testSub2I FAILED"); } r1 = (Integer) invoke(compile("testSubIConst"), 35); if (r1 == null) { printReport("testSubIConst FAILED"); } else if (r1.intValue() == testSubIConst(35)) { printReport("testSubIConst PASSED"); } else { printReport("testSubIConst FAILED"); } r1 = (Integer) invoke(compile("testSubConstI"), 12); if (r1 == null) { printReport("testSubConstI FAILED"); } else if (r1.intValue() == testSubConstI(12)) { printReport("testSubConstI PASSED"); } else { printReport("testSubConstI FAILED"); } } public static int testSub2I(int a, int b) { return a - b; } public static long testSub2L(long a, long b) { return a - b; } public static int testSubIConst(int a) { return a - 32; } public static int testSubConstI(int a) { return 32 - a; } @Test public void testMul() { Integer r1 = (Integer) invoke(compile("testMul2I"), 8, 4); if (r1 == null) { printReport("testMul2I FAILED"); } else if (r1.intValue() == testMul2I(8, 4)) { printReport("testMul2I PASSED"); } else { printReport("testMul2I FAILED"); } Long r2 = (Long) invoke(compile("testMul2L"), (long) 12, (long) 6); if (r2 == null) { printReport("testMul2L FAILED"); } else if (r2.longValue() == testMul2L(12, 6)) { printReport("testMul2L PASSED"); } else { printReport("testMul2L FAILED"); } r1 = (Integer) invoke(compile("testMulIConst"), 4); if (r1 == null) { printReport("testMulIConst FAILED"); } else if (r1.intValue() == testMulIConst(4)) { printReport("testMulIConst PASSED"); } else { printReport("testMulIConst FAILED"); } r1 = (Integer) invoke(compile("testMulConstI"), 5); if (r1 == null) { printReport("testMulConstI FAILED"); } else if (r1.intValue() == testMulConstI(5)) { printReport("testMulConstI PASSED"); } else { printReport("testMulConstI FAILED"); } } public static int testMul2I(int a, int b) { return a * b; } public static long testMul2L(long a, long b) { return a * b; } public static int testMulIConst(int a) { return a * 32; } public static int testMulConstI(int a) { return 32 * a; } @Test public void testDiv() { Integer r1 = (Integer) invoke(compile("testDiv2I"), 8, 4); if (r1 == null) { printReport("testDiv2I FAILED (null value returned)"); } else if (r1.intValue() == testDiv2I(8, 4)) { printReport("testDiv2I PASSED"); } else { printReport("testDiv2I FAILED"); } Long r2 = (Long) invoke(compile("testDiv2L"), (long) 12, (long) 6); if (r2 == null) { printReport("testDiv2L FAILED (null value returned)"); } else if (r2.longValue() == testDiv2L(12, 6)) { printReport("testDiv2L PASSED"); } else { printReport("testDiv2L FAILED"); } r1 = (Integer) invoke(compile("testDivIConst"), 64); if (r1 == null) { printReport("testDivIConst FAILED (null value returned)"); } else if (r1.intValue() == testDivIConst(64)) { printReport("testDivIConst PASSED"); } else { printReport("testDivIConst FAILED"); } r1 = (Integer) invoke(compile("testDivConstI"), 8); if (r1 == null) { printReport("testDivConstI FAILED (null value returned)"); } else if (r1.intValue() == testDivConstI(8)) { printReport("testDivConstI PASSED"); } else { printReport("testDivConstI FAILED"); } } public static int testDiv2I(int a, int b) { return a / b; } public static long testDiv2L(long a, long b) { return a / b; } public static int testDivIConst(int a) { return a / 32; } public static int testDivConstI(int a) { return 32 / a; } @Ignore @Test public void testRem() { Integer r1 = (Integer) invoke(compile("testRem2I"), 8, 4); if (r1 == null) { printReport("testRem2I FAILED (null value returned)"); } else if (r1.intValue() == testRem2I(8, 4)) { printReport("testRem2I PASSED"); } else { printReport("testRem2I FAILED"); } Long r2 = (Long) invoke(compile("testRem2L"), (long) 12, (long) 6); if (r2 == null) { printReport("testRem2L FAILED (null value returned)"); } else if (r1.longValue() == testRem2L(12, 6)) { printReport("testRem2L PASSED"); } else { printReport("testRem2L FAILED"); } } public static int testRem2I(int a, int b) { return a % b; } public static long testRem2L(long a, long b) { return a % b; } @Ignore @Test public void testIntConversion() { Long r1 = (Long) invoke(compile("testI2L"), 8); if (r1 == null) { printReport("testI2L FAILED (null value returned)"); } else if (r1.longValue() == testI2L(8)) { printReport("testI2L PASSED"); } else { printReport("testI2L FAILED"); } Integer r2 = (Integer) invoke(compile("testL2I"), (long) 12); if (r2 == null) { printReport("testL2I FAILED (null value returned)"); } else if (r1.longValue() == testL2I(12)) { printReport("testL2I PASSED"); } else { printReport("testL2I FAILED"); } // invoke(compile("testI2C"), 65); // invoke(compile("testI2B"), 9); // invoke(compile("testI2F"), 17); // invoke(compile("testI2D"), 22); } public static long testI2L(int a) { return a; } public static char testI2C(int a) { return (char) a; } public static byte testI2B(int a) { return (byte) a; } public static float testI2F(int a) { return a; } public static double testI2D(int a) { return a; } public static int testL2I(long a) { return (int) a; } public static void main(String[] args) { IntegerPTXTest test = new IntegerPTXTest(); for (Method m : IntegerPTXTest.class.getMethods()) { String name = m.getName(); if (m.getAnnotation(Test.class) == null && name.startsWith("test")) { // CheckStyle: stop system..print check System.out.println(name + ": \n" + new String(test.compile(name).getTargetCode())); // CheckStyle: resume system..print check } } } }