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view graal/com.oracle.graal.lir.amd64/src/com/oracle/graal/lir/amd64/AMD64ArrayEqualsOp.java @ 16877:6adb14d2320c
truffle.jar should always be on the bootclasspath regardless of the 'graal' status of the vm.
author | Gilles Duboscq <duboscq@ssw.jku.at> |
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date | Wed, 20 Aug 2014 17:10:13 +0200 |
parents | c0b8d395368b |
children | 8fc336a04d77 |
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/* * Copyright (c) 2013, 2014, 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.lir.amd64; import static com.oracle.graal.api.code.ValueUtil.*; import static com.oracle.graal.compiler.common.UnsafeAccess.*; import static com.oracle.graal.lir.LIRInstruction.OperandFlag.*; import java.lang.reflect.*; import com.oracle.graal.amd64.*; import com.oracle.graal.amd64.AMD64.CPUFeature; import com.oracle.graal.api.code.*; import com.oracle.graal.api.meta.*; import com.oracle.graal.asm.*; import com.oracle.graal.asm.amd64.*; import com.oracle.graal.asm.amd64.AMD64Address.Scale; import com.oracle.graal.asm.amd64.AMD64Assembler.ConditionFlag; import com.oracle.graal.lir.*; import com.oracle.graal.lir.asm.*; import com.oracle.graal.lir.gen.*; /** * Emits code which compares two arrays of the same length. If the CPU supports any vector * instructions specialized code is emitted to leverage these instructions. */ @Opcode("ARRAY_EQUALS") public class AMD64ArrayEqualsOp extends AMD64LIRInstruction { private final Kind kind; private final int arrayBaseOffset; private final int arrayIndexScale; @Def({REG}) protected Value resultValue; @Alive({REG}) protected Value array1Value; @Alive({REG}) protected Value array2Value; @Alive({REG}) protected Value lengthValue; @Temp({REG}) protected Value temp1; @Temp({REG}) protected Value temp2; @Temp({REG}) protected Value temp3; @Temp({REG}) protected Value temp4; @Temp({REG, ILLEGAL}) protected Value vectorTemp1; @Temp({REG, ILLEGAL}) protected Value vectorTemp2; public AMD64ArrayEqualsOp(LIRGeneratorTool tool, Kind kind, Value result, Value array1, Value array2, Value length) { this.kind = kind; Class<?> arrayClass = Array.newInstance(kind.toJavaClass(), 0).getClass(); this.arrayBaseOffset = unsafe.arrayBaseOffset(arrayClass); this.arrayIndexScale = unsafe.arrayIndexScale(arrayClass); this.resultValue = result; this.array1Value = array1; this.array2Value = array2; this.lengthValue = length; // Allocate some temporaries. this.temp1 = tool.newVariable(LIRKind.derivedReference(tool.target().wordKind)); this.temp2 = tool.newVariable(LIRKind.derivedReference(tool.target().wordKind)); this.temp3 = tool.newVariable(LIRKind.value(tool.target().wordKind)); this.temp4 = tool.newVariable(LIRKind.value(tool.target().wordKind)); // We only need the vector temporaries if we generate SSE code. if (supportsSSE41(tool.target())) { this.vectorTemp1 = tool.newVariable(LIRKind.value(Kind.Double)); this.vectorTemp2 = tool.newVariable(LIRKind.value(Kind.Double)); } else { this.vectorTemp1 = Value.ILLEGAL; this.vectorTemp2 = Value.ILLEGAL; } } @Override public void emitCode(CompilationResultBuilder crb, AMD64MacroAssembler masm) { Register result = asRegister(resultValue); Register array1 = asRegister(temp1); Register array2 = asRegister(temp2); Register length = asRegister(temp3); Label trueLabel = new Label(); Label falseLabel = new Label(); Label done = new Label(); // Load array base addresses. masm.leaq(array1, new AMD64Address(asRegister(array1Value), arrayBaseOffset)); masm.leaq(array2, new AMD64Address(asRegister(array2Value), arrayBaseOffset)); // Get array length in bytes. masm.imull(length, asRegister(lengthValue), arrayIndexScale); masm.movl(result, length); // copy if (supportsSSE41(crb.target)) { emitSSE41Compare(crb, masm, result, array1, array2, length, trueLabel, falseLabel); } emit8ByteCompare(crb, masm, result, array1, array2, length, trueLabel, falseLabel); emitTailCompares(masm, result, array1, array2, length, trueLabel, falseLabel); // Return true masm.bind(trueLabel); masm.movl(result, 1); masm.jmpb(done); // Return false masm.bind(falseLabel); masm.xorl(result, result); // That's it masm.bind(done); } /** * Returns if the underlying AMD64 architecture supports SSE 4.1 instructions. * * @param target target description of the underlying architecture * @return true if the underlying architecture supports SSE 4.1 */ private static boolean supportsSSE41(TargetDescription target) { AMD64 arch = (AMD64) target.arch; return arch.getFeatures().contains(CPUFeature.SSE4_1); } /** * Vector size used in {@link #emitSSE41Compare}. */ private static final int SSE4_1_VECTOR_SIZE = 16; /** * Emits code that uses SSE4.1 128-bit (16-byte) vector compares. */ private void emitSSE41Compare(CompilationResultBuilder crb, AMD64MacroAssembler masm, Register result, Register array1, Register array2, Register length, Label trueLabel, Label falseLabel) { assert supportsSSE41(crb.target); Register vector1 = asDoubleReg(vectorTemp1); Register vector2 = asDoubleReg(vectorTemp2); Label loop = new Label(); Label compareTail = new Label(); // Compare 16-byte vectors masm.andl(result, SSE4_1_VECTOR_SIZE - 1); // tail count (in bytes) masm.andl(length, ~(SSE4_1_VECTOR_SIZE - 1)); // vector count (in bytes) masm.jccb(ConditionFlag.Zero, compareTail); masm.leaq(array1, new AMD64Address(array1, length, Scale.Times1, 0)); masm.leaq(array2, new AMD64Address(array2, length, Scale.Times1, 0)); masm.negq(length); // Align the main loop masm.align(crb.target.wordSize * 2); masm.bind(loop); masm.movdqu(vector1, new AMD64Address(array1, length, Scale.Times1, 0)); masm.movdqu(vector2, new AMD64Address(array2, length, Scale.Times1, 0)); masm.pxor(vector1, vector2); masm.ptest(vector1, vector1); masm.jcc(ConditionFlag.NotZero, falseLabel); masm.addq(length, SSE4_1_VECTOR_SIZE); masm.jcc(ConditionFlag.NotZero, loop); masm.testl(result, result); masm.jcc(ConditionFlag.Zero, trueLabel); /* * Compare the remaining bytes with an unaligned memory load aligned to the end of the * array. */ masm.movdqu(vector1, new AMD64Address(array1, result, Scale.Times1, -SSE4_1_VECTOR_SIZE)); masm.movdqu(vector2, new AMD64Address(array2, result, Scale.Times1, -SSE4_1_VECTOR_SIZE)); masm.pxor(vector1, vector2); masm.ptest(vector1, vector1); masm.jcc(ConditionFlag.NotZero, falseLabel); masm.jmp(trueLabel); masm.bind(compareTail); masm.movl(length, result); } /** * Vector size used in {@link #emit8ByteCompare}. */ private static final int VECTOR_SIZE = 8; /** * Emits code that uses 8-byte vector compares. */ private void emit8ByteCompare(CompilationResultBuilder crb, AMD64MacroAssembler masm, Register result, Register array1, Register array2, Register length, Label trueLabel, Label falseLabel) { Label loop = new Label(); Label compareTail = new Label(); Register temp = asRegister(temp4); masm.andl(result, VECTOR_SIZE - 1); // tail count (in bytes) masm.andl(length, ~(VECTOR_SIZE - 1)); // vector count (in bytes) masm.jccb(ConditionFlag.Zero, compareTail); masm.leaq(array1, new AMD64Address(array1, length, Scale.Times1, 0)); masm.leaq(array2, new AMD64Address(array2, length, Scale.Times1, 0)); masm.negq(length); // Align the main loop masm.align(crb.target.wordSize * 2); masm.bind(loop); masm.movq(temp, new AMD64Address(array1, length, Scale.Times1, 0)); masm.cmpq(temp, new AMD64Address(array2, length, Scale.Times1, 0)); masm.jccb(ConditionFlag.NotEqual, falseLabel); masm.addq(length, VECTOR_SIZE); masm.jccb(ConditionFlag.NotZero, loop); masm.testl(result, result); masm.jccb(ConditionFlag.Zero, trueLabel); /* * Compare the remaining bytes with an unaligned memory load aligned to the end of the * array. */ masm.movq(temp, new AMD64Address(array1, result, Scale.Times1, -VECTOR_SIZE)); masm.cmpq(temp, new AMD64Address(array2, result, Scale.Times1, -VECTOR_SIZE)); masm.jccb(ConditionFlag.NotEqual, falseLabel); masm.jmpb(trueLabel); masm.bind(compareTail); masm.movl(length, result); } /** * Emits code to compare the remaining 1 to 4 bytes. */ private void emitTailCompares(AMD64MacroAssembler masm, Register result, Register array1, Register array2, Register length, Label trueLabel, Label falseLabel) { Label compare2Bytes = new Label(); Label compare1Byte = new Label(); Register temp = asRegister(temp4); if (kind.getByteCount() <= 4) { // Compare trailing 4 bytes, if any. masm.testl(result, 4); masm.jccb(ConditionFlag.Zero, compare2Bytes); masm.movl(temp, new AMD64Address(array1, 0)); masm.cmpl(temp, new AMD64Address(array2, 0)); masm.jccb(ConditionFlag.NotEqual, falseLabel); if (kind.getByteCount() <= 2) { // Move array pointers forward. masm.leaq(array1, new AMD64Address(array1, 4)); masm.leaq(array2, new AMD64Address(array2, 4)); // Compare trailing 2 bytes, if any. masm.bind(compare2Bytes); masm.testl(result, 2); masm.jccb(ConditionFlag.Zero, compare1Byte); masm.movzwl(temp, new AMD64Address(array1, 0)); masm.movzwl(length, new AMD64Address(array2, 0)); masm.cmpl(temp, length); masm.jccb(ConditionFlag.NotEqual, falseLabel); // The one-byte tail compare is only required for boolean and byte arrays. if (kind.getByteCount() <= 1) { // Move array pointers forward before we compare the last trailing byte. masm.leaq(array1, new AMD64Address(array1, 2)); masm.leaq(array2, new AMD64Address(array2, 2)); // Compare trailing byte, if any. masm.bind(compare1Byte); masm.testl(result, 1); masm.jccb(ConditionFlag.Zero, trueLabel); masm.movzbl(temp, new AMD64Address(array1, 0)); masm.movzbl(length, new AMD64Address(array2, 0)); masm.cmpl(temp, length); masm.jccb(ConditionFlag.NotEqual, falseLabel); } else { masm.bind(compare1Byte); } } else { masm.bind(compare2Bytes); } } } }