Mercurial > hg > truffle
view graal/com.oracle.graal.lir.amd64/src/com/oracle/graal/lir/amd64/AMD64Move.java @ 11959:23ccaa863eda
made CodeCacheProvider independent of MetaAccessProvider (GRAAL-511)
| author | Doug Simon <doug.simon@oracle.com> |
|---|---|
| date | Thu, 10 Oct 2013 16:14:55 +0200 |
| parents | df18a4214c7c |
| children | 0b7172f093d0 |
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/* * Copyright (c) 2011, 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.lir.amd64; import static com.oracle.graal.api.code.ValueUtil.*; import static com.oracle.graal.lir.LIRInstruction.OperandFlag.*; import static java.lang.Double.*; import static java.lang.Float.*; import com.oracle.graal.amd64.*; 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.graph.*; import com.oracle.graal.lir.*; import com.oracle.graal.lir.StandardOp.MoveOp; import com.oracle.graal.lir.asm.*; public class AMD64Move { @Opcode("MOVE") public static class MoveToRegOp extends AMD64LIRInstruction implements MoveOp { @Def({REG, HINT}) protected AllocatableValue result; @Use({REG, STACK, CONST}) protected Value input; public MoveToRegOp(AllocatableValue result, Value input) { this.result = result; this.input = input; } @Override public void emitCode(TargetMethodAssembler tasm, AMD64MacroAssembler masm) { move(tasm, masm, getResult(), getInput()); } @Override public Value getInput() { return input; } @Override public AllocatableValue getResult() { return result; } } @Opcode("MOVE") public static class MoveFromRegOp extends AMD64LIRInstruction implements MoveOp { @Def({REG, STACK}) protected AllocatableValue result; @Use({REG, CONST, HINT}) protected Value input; public MoveFromRegOp(AllocatableValue result, Value input) { this.result = result; this.input = input; } @Override public void emitCode(TargetMethodAssembler tasm, AMD64MacroAssembler masm) { move(tasm, masm, getResult(), getInput()); } @Override public Value getInput() { return input; } @Override public AllocatableValue getResult() { return result; } } public abstract static class MemOp extends AMD64LIRInstruction { protected final Kind kind; @Use({COMPOSITE}) protected AMD64AddressValue address; @State protected LIRFrameState state; public MemOp(Kind kind, AMD64AddressValue address, LIRFrameState state) { this.kind = kind; this.address = address; this.state = state; } protected abstract void emitMemAccess(AMD64MacroAssembler masm); @Override public void emitCode(TargetMethodAssembler tasm, AMD64MacroAssembler masm) { if (state != null) { tasm.recordImplicitException(masm.codeBuffer.position(), state); } emitMemAccess(masm); } } public static class LoadOp extends MemOp { @Def({REG}) protected AllocatableValue result; public LoadOp(Kind kind, AllocatableValue result, AMD64AddressValue address, LIRFrameState state) { super(kind, address, state); this.result = result; } @Override public void emitMemAccess(AMD64MacroAssembler masm) { switch (kind) { case Boolean: case Byte: masm.movsxb(asRegister(result), address.toAddress()); break; case Char: masm.movzxl(asRegister(result), address.toAddress()); break; case Short: masm.movswl(asRegister(result), address.toAddress()); break; case Int: masm.movslq(asRegister(result), address.toAddress()); break; case Long: masm.movq(asRegister(result), address.toAddress()); break; case Float: masm.movflt(asFloatReg(result), address.toAddress()); break; case Double: masm.movdbl(asDoubleReg(result), address.toAddress()); break; case Object: masm.movq(asRegister(result), address.toAddress()); break; default: throw GraalInternalError.shouldNotReachHere(); } } } public static class StoreOp extends MemOp { @Use({REG}) protected AllocatableValue input; public StoreOp(Kind kind, AMD64AddressValue address, AllocatableValue input, LIRFrameState state) { super(kind, address, state); this.input = input; } @Override public void emitMemAccess(AMD64MacroAssembler masm) { assert isRegister(input); switch (kind) { case Boolean: case Byte: masm.movb(address.toAddress(), asRegister(input)); break; case Char: case Short: masm.movw(address.toAddress(), asRegister(input)); break; case Int: masm.movl(address.toAddress(), asRegister(input)); break; case Long: masm.movq(address.toAddress(), asRegister(input)); break; case Float: masm.movflt(address.toAddress(), asFloatReg(input)); break; case Double: masm.movsd(address.toAddress(), asDoubleReg(input)); break; case Object: masm.movq(address.toAddress(), asRegister(input)); break; default: throw GraalInternalError.shouldNotReachHere(); } } } public static class StoreConstantOp extends MemOp { protected final Constant input; public StoreConstantOp(Kind kind, AMD64AddressValue address, Constant input, LIRFrameState state) { super(kind, address, state); this.input = input; } @Override public void emitMemAccess(AMD64MacroAssembler masm) { switch (kind) { case Boolean: case Byte: masm.movb(address.toAddress(), input.asInt() & 0xFF); break; case Char: case Short: masm.movw(address.toAddress(), input.asInt() & 0xFFFF); break; case Int: masm.movl(address.toAddress(), input.asInt()); break; case Long: if (NumUtil.isInt(input.asLong())) { masm.movslq(address.toAddress(), (int) input.asLong()); } else { throw GraalInternalError.shouldNotReachHere("Cannot store 64-bit constants to memory"); } break; case Float: masm.movl(address.toAddress(), floatToRawIntBits(input.asFloat())); break; case Double: throw GraalInternalError.shouldNotReachHere("Cannot store 64-bit constants to memory"); case Object: if (input.isNull()) { masm.movptr(address.toAddress(), 0); } else { throw GraalInternalError.shouldNotReachHere("Cannot store 64-bit constants to memory"); } break; default: throw GraalInternalError.shouldNotReachHere(); } } } public static class LeaOp extends AMD64LIRInstruction { @Def({REG}) protected AllocatableValue result; @Use({COMPOSITE, UNINITIALIZED}) protected AMD64AddressValue address; public LeaOp(AllocatableValue result, AMD64AddressValue address) { this.result = result; this.address = address; } @Override public void emitCode(TargetMethodAssembler tasm, AMD64MacroAssembler masm) { masm.leaq(asLongReg(result), address.toAddress()); } } public static class StackLeaOp extends AMD64LIRInstruction { @Def({REG}) protected AllocatableValue result; @Use({STACK, UNINITIALIZED}) protected StackSlot slot; public StackLeaOp(AllocatableValue result, StackSlot slot) { this.result = result; this.slot = slot; } @Override public void emitCode(TargetMethodAssembler tasm, AMD64MacroAssembler masm) { masm.leaq(asLongReg(result), (AMD64Address) tasm.asAddress(slot)); } } public static class MembarOp extends AMD64LIRInstruction { private final int barriers; public MembarOp(final int barriers) { this.barriers = barriers; } @Override public void emitCode(TargetMethodAssembler tasm, AMD64MacroAssembler masm) { masm.membar(barriers); } } public static class NullCheckOp extends AMD64LIRInstruction { @Use({REG}) protected AllocatableValue input; @State protected LIRFrameState state; public NullCheckOp(Variable input, LIRFrameState state) { this.input = input; this.state = state; } @Override public void emitCode(TargetMethodAssembler tasm, AMD64MacroAssembler masm) { tasm.recordImplicitException(masm.codeBuffer.position(), state); masm.nullCheck(asRegister(input)); } } @Opcode("CAS") public static class CompareAndSwapOp extends AMD64LIRInstruction { @Def protected AllocatableValue result; @Use({COMPOSITE}) protected AMD64AddressValue address; @Use protected AllocatableValue cmpValue; @Use protected AllocatableValue newValue; public CompareAndSwapOp(AllocatableValue result, AMD64AddressValue address, AllocatableValue cmpValue, AllocatableValue newValue) { this.result = result; this.address = address; this.cmpValue = cmpValue; this.newValue = newValue; } @Override public void emitCode(TargetMethodAssembler tasm, AMD64MacroAssembler masm) { compareAndSwap(tasm, masm, result, address, cmpValue, newValue); } } public static void move(TargetMethodAssembler tasm, AMD64MacroAssembler masm, Value result, Value input) { if (isRegister(input)) { if (isRegister(result)) { reg2reg(masm, result, input); } else if (isStackSlot(result)) { reg2stack(tasm, masm, result, input); } else { throw GraalInternalError.shouldNotReachHere(); } } else if (isStackSlot(input)) { if (isRegister(result)) { stack2reg(tasm, masm, result, input); } else { throw GraalInternalError.shouldNotReachHere(); } } else if (isConstant(input)) { if (isRegister(result)) { const2reg(tasm, masm, result, (Constant) input); } else if (isStackSlot(result)) { const2stack(tasm, masm, result, (Constant) input); } else { throw GraalInternalError.shouldNotReachHere(); } } else { throw GraalInternalError.shouldNotReachHere(); } } private static void reg2reg(AMD64MacroAssembler masm, Value result, Value input) { if (asRegister(input).equals(asRegister(result))) { return; } switch (input.getKind()) { case Int: masm.movl(asRegister(result), asRegister(input)); break; case Long: masm.movq(asRegister(result), asRegister(input)); break; case Float: masm.movflt(asFloatReg(result), asFloatReg(input)); break; case Double: masm.movdbl(asDoubleReg(result), asDoubleReg(input)); break; case Object: masm.movq(asRegister(result), asRegister(input)); break; default: throw GraalInternalError.shouldNotReachHere("kind=" + result.getKind()); } } private static void reg2stack(TargetMethodAssembler tasm, AMD64MacroAssembler masm, Value result, Value input) { AMD64Address dest = (AMD64Address) tasm.asAddress(result); switch (input.getKind()) { case Int: masm.movl(dest, asRegister(input)); break; case Long: masm.movq(dest, asRegister(input)); break; case Float: masm.movflt(dest, asFloatReg(input)); break; case Double: masm.movsd(dest, asDoubleReg(input)); break; case Object: masm.movq(dest, asRegister(input)); break; default: throw GraalInternalError.shouldNotReachHere(); } } private static void stack2reg(TargetMethodAssembler tasm, AMD64MacroAssembler masm, Value result, Value input) { AMD64Address src = (AMD64Address) tasm.asAddress(input); switch (input.getKind()) { case Int: masm.movl(asRegister(result), src); break; case Long: masm.movq(asRegister(result), src); break; case Float: masm.movflt(asFloatReg(result), src); break; case Double: masm.movdbl(asDoubleReg(result), src); break; case Object: masm.movq(asRegister(result), src); break; default: throw GraalInternalError.shouldNotReachHere(); } } private static void const2reg(TargetMethodAssembler tasm, AMD64MacroAssembler masm, Value result, Constant input) { /* * Note: we use the kind of the input operand (and not the kind of the result operand) * because they don't match in all cases. For example, an object constant can be loaded to a * long register when unsafe casts occurred (e.g., for a write barrier where arithmetic * operations are then performed on the pointer). */ switch (input.getKind().getStackKind()) { case Int: if (tasm.codeCache.needsDataPatch(input)) { tasm.recordDataReferenceInCode(input, 0, true); } // Do not optimize with an XOR as this instruction may be between // a CMP and a Jcc in which case the XOR will modify the condition // flags and interfere with the Jcc. masm.movl(asRegister(result), input.asInt()); break; case Long: if (tasm.codeCache.needsDataPatch(input)) { tasm.recordDataReferenceInCode(input, 0, true); } // Do not optimize with an XOR as this instruction may be between // a CMP and a Jcc in which case the XOR will modify the condition // flags and interfere with the Jcc. masm.movq(asRegister(result), input.asLong()); break; case Float: // This is *not* the same as 'constant == 0.0f' in the case where constant is -0.0f if (Float.floatToRawIntBits(input.asFloat()) == Float.floatToRawIntBits(0.0f)) { assert !tasm.codeCache.needsDataPatch(input); masm.xorps(asFloatReg(result), asFloatReg(result)); } else { masm.movflt(asFloatReg(result), (AMD64Address) tasm.asFloatConstRef(input)); } break; case Double: // This is *not* the same as 'constant == 0.0d' in the case where constant is -0.0d if (Double.doubleToRawLongBits(input.asDouble()) == Double.doubleToRawLongBits(0.0d)) { assert !tasm.codeCache.needsDataPatch(input); masm.xorpd(asDoubleReg(result), asDoubleReg(result)); } else { masm.movdbl(asDoubleReg(result), (AMD64Address) tasm.asDoubleConstRef(input)); } break; case Object: // Do not optimize with an XOR as this instruction may be between // a CMP and a Jcc in which case the XOR will modify the condition // flags and interfere with the Jcc. if (input.isNull()) { masm.movq(asRegister(result), 0x0L); } else if (tasm.target.inlineObjects) { tasm.recordDataReferenceInCode(input, 0, true); masm.movq(asRegister(result), 0xDEADDEADDEADDEADL); } else { masm.movq(asRegister(result), (AMD64Address) tasm.recordDataReferenceInCode(input, 0, false)); } break; default: throw GraalInternalError.shouldNotReachHere(); } } private static void const2stack(TargetMethodAssembler tasm, AMD64MacroAssembler masm, Value result, Constant input) { assert !tasm.codeCache.needsDataPatch(input); AMD64Address dest = (AMD64Address) tasm.asAddress(result); switch (input.getKind().getStackKind()) { case Int: masm.movl(dest, input.asInt()); break; case Long: masm.movlong(dest, input.asLong()); break; case Float: masm.movl(dest, floatToRawIntBits(input.asFloat())); break; case Double: masm.movlong(dest, doubleToRawLongBits(input.asDouble())); break; case Object: if (input.isNull()) { masm.movlong(dest, 0L); } else { throw GraalInternalError.shouldNotReachHere("Non-null object constants must be in register"); } break; default: throw GraalInternalError.shouldNotReachHere(); } } protected static void compareAndSwap(TargetMethodAssembler tasm, AMD64MacroAssembler masm, AllocatableValue result, AMD64AddressValue address, AllocatableValue cmpValue, AllocatableValue newValue) { assert asRegister(cmpValue).equals(AMD64.rax) && asRegister(result).equals(AMD64.rax); if (tasm.target.isMP) { masm.lock(); } switch (cmpValue.getKind()) { case Int: masm.cmpxchgl(asRegister(newValue), address.toAddress()); break; case Long: case Object: masm.cmpxchgq(asRegister(newValue), address.toAddress()); break; default: throw GraalInternalError.shouldNotReachHere(); } } }