/* * Copyright Amazon.com Inc. 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.loopopts; import compiler.lib.ir_framework.*; import jdk.test.lib.Asserts; import jdk.test.lib.Utils; import java.util.Random; /* * @test * @bug 8323220 * @summary Test loop invariant code motion of add/sub through reassociation * @library /test/lib / * @run driver compiler.c2.loopopts.InvariantCodeMotionReassociateAddSub */ public class InvariantCodeMotionReassociateAddSub { private static final Random RANDOM = Utils.getRandomInstance(); private int size; private int inv1; private int inv2; public static void main(String[] args) { TestFramework.run(); } @DontInline private int blackhole(int i) { return i; } @DontInline private int blackhole(long i) { return (int)i; } @Setup public Object[] setup(SetupInfo info) { int count = info.invocationCounter(); size = count + 500; inv1 = count; if (RANDOM.nextInt() % 7 == 0) { // Setup inputs to be equals sometimes to avoid uncommon traps inv2 = inv1; } else { inv2 = count * 2; } return new Object[] { inv1, inv2, size }; } public void fail(int returnValue) { throw new RuntimeException("Illegal reassociation: returnValue=" + returnValue + ", inv1=" + inv1 + ", inv2=" + inv2 + ", size=" + size); } public void check(int returnValue, int expected) { if (returnValue != expected) { fail(returnValue); } } public void checkAdd(int returnValue) { check(returnValue, inv1 + inv2 + size - 1); } public void checkSubAdd(int returnValue) { check(returnValue, inv1 - inv2 + size - 1); } public void checkNegSubAdd(int returnValue) { check(returnValue, -inv1 - inv2 + size - 1); } public void checkAddSub(int returnValue) { check(returnValue, inv1 + inv2 - (size - 1)); } public void checkSubSub(int returnValue) { check(returnValue, inv1 - inv2 - (size - 1)); } @Test @Arguments(setup = "setup") @IR(counts = {IRNode.ADD_I, "3"}) public int addInt(int inv1, int inv2, int size) { int result = -1; for (int i = 0; i < size; ++i) { // Reassociate to `inv1 + inv2 + i` result = blackhole(inv1 + i + inv2); } return result; } @Check(test = "addInt") public void checkAddInt(int returnValue) { checkAdd(returnValue); } @Test @Arguments(setup = "setup") @IR(counts = {IRNode.ADD_L, "2"}) public int addLong(long inv1, long inv2, int size) { int result = -1; for (int i = 0; i < size; ++i) { // Reassociate to `inv1 + inv2 + i` result = blackhole(inv1 + i + inv2); } return result; } @Check(test = "addLong") public void checkAddLong(int returnValue) { checkAdd(returnValue); } @Test @Arguments(setup = "setup") @IR(counts = {IRNode.ADD_I, "3"}) public int addInt2(int inv1, int inv2, int size) { int result = -1; for (int i = 0; i < size; ++i) { // Reassociate to `inv1 + inv2 + i` result = blackhole(inv1 + (i + inv2)); } return result; } @Check(test = "addInt2") public void checkAddInt2(int returnValue) { checkAdd(returnValue); } @Test @Arguments(setup = "setup") @IR(counts = {IRNode.ADD_L, "2"}) public int addLong2(long inv1, long inv2, int size) { int result = -1; for (int i = 0; i < size; ++i) { // Reassociate to `inv1 + inv2 + i` result = blackhole(inv1 + (i + inv2)); } return result; } @Check(test = "addLong2") public void checkAddLong2(int returnValue) { checkAdd(returnValue); } @Test @Arguments(setup = "setup") @IR(counts = {IRNode.ADD_I, "2"}) @IR(counts = {IRNode.SUB_I, "1"}) public int minusAddInt(int inv1, int inv2, int size) { int result = -1; for (int i = 0; i < size; ++i) { // Reassociate to `inv1 - inv2 + i` result = blackhole(inv1 + (i - inv2)); } return result; } @Check(test = "minusAddInt") public void checkSubAddInt(int returnValue) { checkSubAdd(returnValue); } @Test @Arguments(setup = "setup") @IR(counts = {IRNode.ADD_L, "1"}) @IR(counts = {IRNode.SUB_L, "1"}) public int minusAddLong(long inv1, long inv2, int size) { int result = -1; for (int i = 0; i < size; ++i) { // Reassociate to `inv1 - inv2 + i` result = blackhole(inv1 + (i - inv2)); } return result; } @Check(test = "minusAddLong") public void checkSubAddLong(int returnValue) { checkSubAdd(returnValue); } @Test @Arguments(setup = "setup") @IR(counts = {IRNode.ADD_I, "2"}) @IR(counts = {IRNode.SUB_I, "1"}) public int minusAddInt2(int inv1, int inv2, int size) { int result = -1; for (int i = 0; i < size; ++i) { // Reassociate to `inv1 - inv2 + i` result = blackhole(inv1 - (inv2 - i)); } return result; } @Check(test = "minusAddInt2") public void checkSubAddInt2(int returnValue) { checkSubAdd(returnValue); } @Test @Arguments(setup = "setup") @IR(counts = {IRNode.ADD_L, "1"}) @IR(counts = {IRNode.SUB_L, "1"}) public int minusAddLong2(long inv1, long inv2, int size) { int result = -1; for (int i = 0; i < size; ++i) { // Reassociate to `inv1 - inv2 + i` result = blackhole(inv1 - (inv2 - i)); } return result; } @Check(test = "minusAddLong2") public void checkSubAddLong2(int returnValue) { checkSubAdd(returnValue); } @Test @Arguments(setup = "setup") @IR(counts = {IRNode.ADD_I, "2"}) @IR(counts = {IRNode.SUB_I, "1"}) public int minusAddInt3(int inv1, int inv2, int size) { int result = -1; for (int i = 0; i < size; ++i) { // Reassociate to `inv1 - inv2 + i` result = blackhole(i - inv2 + inv1); } return result; } @Check(test = "minusAddInt3") public void checkSubAddInt3(int returnValue) { checkSubAdd(returnValue); } @Test @Arguments(setup = "setup") @IR(counts = {IRNode.ADD_L, "1"}) @IR(counts = {IRNode.SUB_L, "1"}) public int minusAddLong3(long inv1, long inv2, int size) { int result = -1; for (int i = 0; i < size; ++i) { // Reassociate to `inv1 - inv2 + i` result = blackhole(i - inv2 + inv1); } return result; } @Check(test = "minusAddLong3") public void checkSubAddLong3(int returnValue) { checkSubAdd(returnValue); } @Test @Arguments(setup = "setup") @IR(counts = {IRNode.ADD_I, "2"}) @IR(counts = {IRNode.SUB_I, "1"}) public int negAddInt(int inv1, int inv2, int size) { int result = -1; for (int i = 0; i < size; ++i) { // Reassociate to `-inv2 + inv1 + i` result = blackhole(i + inv1 - inv2); } return result; } @Check(test = "negAddInt") public void checkNegAddInt(int returnValue) { checkSubAdd(returnValue); } @Test @Arguments(setup = "setup") @IR(counts = {IRNode.ADD_L, "1"}) @IR(counts = {IRNode.SUB_L, "1"}) public int negAddLong(long inv1, long inv2, int size) { int result = -1; for (int i = 0; i < size; ++i) { // Reassociate to `-inv2 + inv1 + i` result = blackhole(i + inv1 - inv2); } return result; } @Check(test = "negAddLong") public void checkNegAddLong(int returnValue) { checkSubAdd(returnValue); } @Test @Arguments(setup = "setup") @IR(counts = {IRNode.ADD_I, "2"}) @IR(counts = {IRNode.SUB_I, "2"}) public int negSubAddInt(int inv1, int inv2, int size) { int result = -1; for (int i = 0; i < size; ++i) { // Reassociate to `-inv1 - inv2 + i` result = blackhole(i - inv1 - inv2); } return result; } @Check(test = "negSubAddInt") public void checkNegSubAddInt(int returnValue) { checkNegSubAdd(returnValue); } @Test @Arguments(setup = "setup") @IR(counts = {IRNode.ADD_L, "1"}) @IR(counts = {IRNode.SUB_L, "2"}) public int negSubAddLong(long inv1, long inv2, int size) { int result = -1; for (int i = 0; i < size; ++i) { // Reassociate to `-inv1 - inv2 + i` result = blackhole(i - inv1 - inv2); } return result; } @Check(test = "negSubAddLong") public void checkNegSubAddLong(int returnValue) { checkNegSubAdd(returnValue); } @Test @Arguments(setup = "setup") @IR(counts = {IRNode.ADD_I, "3"}) @IR(counts = {IRNode.SUB_I, "1"}) public int addSubInt(int inv1, int inv2, int size) { int result = -1; for (int i = 0; i < size; ++i) { // Reassociate to `inv1 + inv2 - i` result = blackhole(inv1 + (inv2 - i)); } return result; } @Check(test = "addSubInt") public void checkAddSubInt(int returnValue) { checkAddSub(returnValue); } @Test @Arguments(setup = "setup") @IR(counts = {IRNode.ADD_L, "1"}) @IR(counts = {IRNode.SUB_L, "1"}) public int addSubLong(long inv1, long inv2, int size) { int result = -1; for (int i = 0; i < size; ++i) { // Reassociate to `inv1 + inv2 - i` result = blackhole(inv1 + (inv2 - i)); } return result; } @Check(test = "addSubLong") public void checkAddSubLong(int returnValue) { checkAddSub(returnValue); } @Test @Arguments(setup = "setup") @IR(counts = {IRNode.ADD_I, "3"}) @IR(counts = {IRNode.SUB_I, "1"}) public int addSubInt2(int inv1, int inv2, int size) { int result = -1; for (int i = 0; i < size; ++i) { // Reassociate to `inv1 + inv2 - i` result = blackhole(inv1 - (i - inv2)); } return result; } @Check(test = "addSubInt2") public void checkAddSubInt2(int returnValue) { checkAddSub(returnValue); } @Test @Arguments(setup = "setup") @IR(counts = {IRNode.ADD_L, "1"}) @IR(counts = {IRNode.SUB_L, "1"}) public int addSubLong2(long inv1, long inv2, int size) { int result = -1; for (int i = 0; i < size; ++i) { // Reassociate to `inv1 + inv2 - i` result = blackhole(inv1 - (i - inv2)); } return result; } @Check(test = "addSubLong2") public void checkAddSubLong2(int returnValue) { checkAddSub(returnValue); } @Test @Arguments(setup = "setup") @IR(counts = {IRNode.ADD_I, "3"}) @IR(counts = {IRNode.SUB_I, "1"}) public int addSubInt3(int inv1, int inv2, int size) { int result = -1; for (int i = 0; i < size; ++i) { // Reassociate to `inv1 + inv2 - i` result = blackhole(inv2 - i + inv1); } return result; } @Check(test = "addSubInt3") public void checkAddSubInt3(int returnValue) { checkAddSub(returnValue); } @Test @Arguments(setup = "setup") @IR(counts = {IRNode.ADD_L, "1"}) @IR(counts = {IRNode.SUB_L, "1"}) public int addSubLong3(long inv1, long inv2, int size) { int result = -1; for (int i = 0; i < size; ++i) { // Reassociate to `inv1 + inv2 - i` result = blackhole(inv2 - i + inv1); } return result; } @Check(test = "addSubLong3") public void checkAddSubLong3(int returnValue) { checkAddSub(returnValue); } @Test @Arguments(setup = "setup") @IR(counts = {IRNode.ADD_I, "2"}) @IR(counts = {IRNode.SUB_I, "2"}) public int subSubInt(int inv1, int inv2, int size) { int result = -1; for (int i = 0; i < size; ++i) { // Reassociate to `inv1 - inv2 - i` result = blackhole(inv1 - (i + inv2)); } return result; } @Check(test = "subSubInt") public void checkSubSubInt(int returnValue) { checkSubSub(returnValue); } @Test @Arguments(setup = "setup") @IR(failOn = {IRNode.ADD_L}) @IR(counts = {IRNode.SUB_L, "2"}) public int subSubLong(long inv1, long inv2, int size) { int result = -1; for (int i = 0; i < size; ++i) { // Reassociate to `inv1 - inv2 - i` result = blackhole(inv1 - (i + inv2)); } return result; } @Check(test = "subSubLong") public void checkSubSubLong(int returnValue) { checkSubSub(returnValue); } @Test @Arguments(setup = "setup") @IR(counts = {IRNode.ADD_I, "2"}) @IR(counts = {IRNode.SUB_I, "2"}) public int subSubInt2(int inv1, int inv2, int size) { int result = -1; for (int i = 0; i < size; ++i) { // Reassociate to `inv1 - inv2 - i` result = blackhole(inv1 - i - inv2); } return result; } @Check(test = "subSubInt2") public void checkSubSubInt2(int returnValue) { checkSubSub(returnValue); } @Test @Arguments(setup = "setup") @IR(failOn = {IRNode.ADD_L}) @IR(counts = {IRNode.SUB_L, "2"}) public int subSubLong2(long inv1, long inv2, int size) { int result = -1; for (int i = 0; i < size; ++i) { // Reassociate to `inv1 - inv2 - i` result = blackhole(inv1 - i - inv2); } return result; } @Check(test = "subSubLong2") public void checkSubSubLong2(int returnValue) { checkSubSub(returnValue); } }