/* * Copyright (c) 2023, 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 compiler.c2.irTests; import jdk.test.lib.Asserts; import compiler.lib.ir_framework.*; import java.util.Random; import jdk.test.lib.Utils; /* * @test * @summary Test that patterns involving duplicated conversion nodes behind phi are properly optimized. * @bug 8316918 * @library /test/lib / * @requires vm.compiler2.enabled * @run driver compiler.c2.irTests.TestPhiDuplicatedConversion */ public class TestPhiDuplicatedConversion { public static void main(String[] args) { TestFramework.run(); } @Test @IR(counts = {IRNode.CONV, "1"}) public static float int2Float(boolean c, int a, int b) { return c ? a : b; } @Test @IR(counts = {IRNode.CONV, "1"}) public static double int2Double(boolean c, int a, int b) { return c ? a : b; } @Test @IR(counts = {IRNode.CONV, "1"}) public static long int2Long(boolean c, int a, int b) { return c ? a : b; } @Test @IR(counts = {IRNode.CONV, "1"}) public static int float2Int(boolean c, float a, float b) { return c ? (int)a : (int)b; } @Test @IR(counts = {IRNode.CONV, "1"}) public static double float2Double(boolean c, float a, float b) { return c ? (double)a : (double)b; } @Test @IR(counts = {IRNode.CONV, "1"}) public static long float2Long(boolean c, float a, float b) { return c ? (long)a : (long)b; } @Test @IR(counts = {IRNode.CONV, "1"}) public static int double2Int(boolean c, double a, double b) { return c ? (int)a : (int)b; } @Test @IR(counts = {IRNode.CONV, "1"}) public static float double2Float(boolean c, double a, double b) { return c ? (float)a : (float)b; } @Test @IR(counts = {IRNode.CONV, "1"}) public static long double2Long(boolean c, double a, double b) { return c ? (long)a : (long)b; } @Test @IR(counts = {IRNode.CONV, "1"}) public static float long2Float(boolean c, long a, long b) { return c ? a : b; } @Test @IR(counts = {IRNode.CONV, "1"}) public static double long2Double(boolean c, long a, long b) { return c ? a : b; } @Test @IR(counts = {IRNode.CONV, "1"}) public static int long2Int(boolean c, long a, long b) { return c ? (int)a : (int)b; } @Test @IR(counts = {IRNode.CONV, "1"}, applyIfCPUFeatureOr = {"f16c", "true", "avx512vl", "true", "asimd", "true"}) public static short float2HalfFloat(boolean c, float a, float b) { return c ? Float.floatToFloat16(a) : Float.floatToFloat16(b); } @Test @IR(counts = {IRNode.CONV, "1"}, applyIfCPUFeatureOr = {"f16c", "true", "avx512vl", "true", "asimd", "true"}) public static float halfFloat2Float(boolean c, short a, short b) { return c ? Float.float16ToFloat(a) : Float.float16ToFloat(b); } @Run(test = {"int2Float", "int2Double", "int2Long", "float2Int", "float2Double", "float2Long", "double2Int", "double2Float", "double2Long", "long2Float", "long2Double", "long2Int", "float2HalfFloat", "halfFloat2Float"}) public void runTests() { assertResults(true, 10, 20, 3.14f, -1.6f, 3.1415, -1.618, 30L, 400L, Float.floatToFloat16(10.5f), Float.floatToFloat16(20.5f)); assertResults(false, 10, 20, 3.14f, -1.6f, 3.1415, -1.618, 30L, 400L, Float.floatToFloat16(10.5f), Float.floatToFloat16(20.5f)); } @DontCompile public void assertResults(boolean c, int intA, int intB, float floatA, float floatB, double doubleA, double doubleB, long longA, long longB, short halfFloatA, short halfFloatB) { Asserts.assertEQ(c ? (float)intA : (float)intB, int2Float(c, intA, intB)); Asserts.assertEQ(c ? (double)intA : (double)intB, int2Double(c, intA, intB)); Asserts.assertEQ(c ? (long)intA : (long)intB, int2Long(c, intA, intB)); Asserts.assertEQ(c ? (int)floatA : (int)floatB, float2Int(c, floatA, floatB)); Asserts.assertEQ(c ? (double)floatA : (double)floatB, float2Double(c, floatA, floatB)); Asserts.assertEQ(c ? (long)floatA : (long)floatB, float2Long(c, floatA, floatB)); Asserts.assertEQ(c ? (int)doubleA : (int)doubleB, double2Int(c, doubleA, doubleB)); Asserts.assertEQ(c ? (float)doubleA : (float)doubleB, double2Float(c, doubleA, doubleB)); Asserts.assertEQ(c ? (long)doubleA : (long)doubleB, double2Long(c, doubleA, doubleB)); Asserts.assertEQ(c ? (float)longA : (float)longB, long2Float(c, longA, longB)); Asserts.assertEQ(c ? (double)longA : (double)longB, long2Double(c, longA, longB)); Asserts.assertEQ(c ? (int)longA : (int)longB, long2Int(c, longA, longB)); Asserts.assertEQ(c ? Float.floatToFloat16(floatA) : Float.floatToFloat16(floatB), float2HalfFloat(c, floatA, floatB)); Asserts.assertEQ(c ? Float.float16ToFloat(halfFloatA) : Float.float16ToFloat(halfFloatB), halfFloat2Float(c, halfFloatA, halfFloatB)); } }