Mercurial > hg > truffle
view graal/com.oracle.graal.compiler.ptx/src/com/oracle/graal/compiler/ptx/PTXLIRGenerator.java @ 8592:a80bf36c6a1e
Refactor to shared template method signature comparison.
author | Christian Humer <christian.humer@gmail.com> |
---|---|
date | Mon, 01 Apr 2013 11:52:38 +0200 |
parents | acc24060b64f |
children | bea614953503 |
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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; import static com.oracle.graal.api.code.ValueUtil.*; import static com.oracle.graal.lir.ptx.PTXArithmetic.*; import static com.oracle.graal.lir.ptx.PTXBitManipulationOp.IntrinsicOpcode.*; import static com.oracle.graal.lir.ptx.PTXCompare.*; import com.oracle.graal.api.code.*; import com.oracle.graal.api.meta.*; import com.oracle.graal.asm.*; import com.oracle.graal.compiler.gen.*; import com.oracle.graal.compiler.target.*; import com.oracle.graal.graph.*; import com.oracle.graal.lir.*; import com.oracle.graal.lir.StandardOp.JumpOp; import com.oracle.graal.lir.ptx.*; import com.oracle.graal.lir.ptx.PTXArithmetic.Op1Stack; import com.oracle.graal.lir.ptx.PTXArithmetic.Op2Reg; import com.oracle.graal.lir.ptx.PTXArithmetic.Op2Stack; import com.oracle.graal.lir.ptx.PTXArithmetic.ShiftOp; import com.oracle.graal.lir.ptx.PTXCompare.CompareOp; import com.oracle.graal.lir.ptx.PTXControlFlow.BranchOp; import com.oracle.graal.lir.ptx.PTXControlFlow.ReturnOp; import com.oracle.graal.lir.ptx.PTXMove.LoadOp; import com.oracle.graal.lir.ptx.PTXMove.MoveFromRegOp; import com.oracle.graal.lir.ptx.PTXMove.MoveToRegOp; import com.oracle.graal.lir.ptx.PTXMove.StoreOp; import com.oracle.graal.nodes.*; import com.oracle.graal.nodes.calc.*; import com.oracle.graal.nodes.java.*; /** * This class implements the PTX specific portion of the LIR generator. */ public class PTXLIRGenerator extends LIRGenerator { public static class PTXSpillMoveFactory implements LIR.SpillMoveFactory { @Override public LIRInstruction createMove(Value result, Value input) { throw new InternalError("NYI"); } } public PTXLIRGenerator(StructuredGraph graph, CodeCacheProvider runtime, TargetDescription target, FrameMap frameMap, ResolvedJavaMethod method, LIR lir) { super(graph, runtime, target, frameMap, method, lir); lir.spillMoveFactory = new PTXSpillMoveFactory(); } @Override protected void emitNode(ValueNode node) { if (node instanceof LIRGenLowerable) { ((LIRGenLowerable) node).generate(this); } else { super.emitNode(node); } } @Override public boolean canStoreConstant(Constant c) { // Operand b must be in the .reg state space. return false; } @Override public boolean canInlineConstant(Constant c) { switch (c.getKind()) { case Long: return NumUtil.isInt(c.asLong()) && !runtime.needsDataPatch(c); case Object: return c.isNull(); default: return true; } } @Override public Variable emitMove(Value input) { Variable result = newVariable(input.getKind()); emitMove(result, input); return result; } @Override public void emitMove(Value dst, Value src) { if (isRegister(src) || isStackSlot(dst)) { append(new MoveFromRegOp(dst, src)); } else { append(new MoveToRegOp(dst, src)); } } private PTXAddressValue prepareAddress(Kind kind, Value base, int displacement, Value index, int scale) { AllocatableValue baseRegister; long finalDisp = displacement; if (isConstant(base)) { if (asConstant(base).isNull()) { baseRegister = AllocatableValue.UNUSED; } else if (asConstant(base).getKind() != Kind.Object) { finalDisp += asConstant(base).asLong(); baseRegister = AllocatableValue.UNUSED; } else { baseRegister = load(base); } } else if (base == Value.ILLEGAL) { baseRegister = AllocatableValue.UNUSED; } else { baseRegister = asAllocatable(base); } if (index != Value.ILLEGAL) { if (isConstant(index)) { finalDisp += asConstant(index).asLong() * scale; } else { Value indexRegister; if (scale != 1) { indexRegister = emitMul(index, Constant.forInt(scale)); } else { indexRegister = index; } if (baseRegister == AllocatableValue.UNUSED) { baseRegister = asAllocatable(indexRegister); } else { baseRegister = emitAdd(baseRegister, indexRegister); } } } return new PTXAddressValue(kind, baseRegister, finalDisp); } @Override public Variable emitLoad(Kind kind, Value base, int displacement, Value index, int scale, boolean canTrap) { PTXAddressValue loadAddress = prepareAddress(kind, base, displacement, index, scale); Variable result = newVariable(loadAddress.getKind()); append(new LoadOp(result, loadAddress, canTrap ? state() : null)); return result; } @Override public void emitStore(Kind kind, Value base, int displacement, Value index, int scale, Value inputVal, boolean canTrap) { PTXAddressValue storeAddress = prepareAddress(kind, base, displacement, index, scale); Variable input = load(inputVal); append(new StoreOp(storeAddress, input, canTrap ? state() : null)); } @Override public Variable emitLea(Value base, int displacement, Value index, int scale) { throw new InternalError("NYI"); } @Override public Variable emitLea(StackSlot address) { throw new InternalError("NYI"); } @Override public void emitJump(LabelRef label) { append(new JumpOp(label)); } @Override public void emitCompareBranch(Value left, Value right, Condition cond, boolean unorderedIsTrue, LabelRef label) { switch (left.getKind().getStackKind()) { case Int: append(new CompareOp(ICMP, cond, left, right)); append(new BranchOp(cond, label)); break; case Object: append(new CompareOp(ACMP, cond, left, right)); append(new BranchOp(cond, label)); break; default: throw GraalInternalError.shouldNotReachHere("" + left.getKind()); } } @Override public void emitOverflowCheckBranch(LabelRef label, boolean negated) { throw new InternalError("NYI"); } @Override public void emitIntegerTestBranch(Value left, Value right, boolean negated, LabelRef label) { throw new InternalError("NYI"); } @Override public Variable emitConditionalMove(Value left, Value right, Condition cond, boolean unorderedIsTrue, Value trueValue, Value falseValue) { throw new InternalError("NYI"); } @Override public Variable emitIntegerTestMove(Value left, Value right, Value trueValue, Value falseValue) { throw new InternalError("NYI"); } @Override public Variable emitNegate(Value input) { Variable result = newVariable(input.getKind()); switch (input.getKind()) { case Int: append(new Op1Stack(INEG, result, input)); break; default: throw GraalInternalError.shouldNotReachHere(); } return result; } @Override public Variable emitAdd(Value a, Value b) { Variable result = newVariable(a.getKind()); switch (a.getKind()) { case Int: append(new Op2Stack(IADD, result, a, loadNonConst(b))); break; default: throw GraalInternalError.shouldNotReachHere(); } return result; } @Override public Variable emitSub(Value a, Value b) { Variable result = newVariable(a.getKind()); switch (a.getKind()) { case Int: append(new Op2Stack(ISUB, result, a, loadNonConst(b))); break; default: throw GraalInternalError.shouldNotReachHere(); } return result; } @Override public Variable emitMul(Value a, Value b) { Variable result = newVariable(a.getKind()); switch (a.getKind()) { case Int: append(new Op2Reg(IMUL, result, a, loadNonConst(b))); break; default: throw GraalInternalError.shouldNotReachHere(); } return result; } @Override protected boolean peephole(ValueNode valueNode) { // No peephole optimizations for now return false; } @Override public Value emitDiv(Value a, Value b) { throw new InternalError("NYI"); } @Override public Value emitRem(Value a, Value b) { throw new InternalError("NYI"); } @Override public Variable emitUDiv(Value a, Value b) { throw new InternalError("NYI"); } @Override public Variable emitURem(Value a, Value b) { throw new InternalError("NYI"); } @Override public Variable emitAnd(Value a, Value b) { Variable result = newVariable(a.getKind()); switch (a.getKind()) { case Int: append(new Op2Stack(IAND, result, a, loadNonConst(b))); break; default: throw GraalInternalError.shouldNotReachHere(); } return result; } @Override public Variable emitOr(Value a, Value b) { throw new InternalError("NYI"); } @Override public Variable emitXor(Value a, Value b) { throw new InternalError("NYI"); } @Override public Variable emitShl(Value a, Value b) { throw new InternalError("NYI"); } @Override public Variable emitShr(Value a, Value b) { throw new InternalError("NYI"); } @Override public Variable emitUShr(Value a, Value b) { Variable result = newVariable(a.getKind()); switch (a.getKind()) { case Int: append(new ShiftOp(IUSHR, result, a, b)); break; default: GraalInternalError.shouldNotReachHere(); } return result; } @Override public Variable emitConvert(ConvertNode.Op opcode, Value inputVal) { throw new InternalError("NYI"); } @Override public void emitDeoptimize(DeoptimizationAction action, DeoptimizationReason reason) { append(new ReturnOp(Value.ILLEGAL)); } @Override public void emitMembar(int barriers) { throw new InternalError("NYI"); } @Override protected void emitDirectCall(DirectCallTargetNode callTarget, Value result, Value[] parameters, Value[] temps, LIRFrameState callState) { throw new InternalError("NYI"); } @Override protected void emitIndirectCall(IndirectCallTargetNode callTarget, Value result, Value[] parameters, Value[] temps, LIRFrameState callState) { throw new InternalError("NYI"); } @Override protected void emitCall(RuntimeCallTarget callTarget, Value result, Value[] arguments, Value[] temps, LIRFrameState info) { throw new InternalError("NYI"); } @Override public void emitBitCount(Variable result, Value value) { if (value.getKind().getStackKind() == Kind.Int) { append(new PTXBitManipulationOp(IPOPCNT, result, value)); } else { append(new PTXBitManipulationOp(LPOPCNT, result, value)); } } @Override public void emitBitScanForward(Variable result, Value value) { throw new InternalError("NYI"); } @Override public void emitBitScanReverse(Variable result, Value value) { throw new InternalError("NYI"); } @Override public void emitMathAbs(Variable result, Variable input) { throw new InternalError("NYI"); } @Override public void emitMathSqrt(Variable result, Variable input) { throw new InternalError("NYI"); } @Override public void emitMathLog(Variable result, Variable input, boolean base10) { throw new InternalError("NYI"); } @Override public void emitMathCos(Variable result, Variable input) { throw new InternalError("NYI"); } @Override public void emitMathSin(Variable result, Variable input) { throw new InternalError("NYI"); } @Override public void emitMathTan(Variable result, Variable input) { throw new InternalError("NYI"); } @Override public void emitByteSwap(Variable result, Value input) { throw new InternalError("NYI"); } @Override protected void emitReturn(Value input) { append(new ReturnOp(input)); } @Override protected void emitSequentialSwitch(Constant[] keyConstants, LabelRef[] keyTargets, LabelRef defaultTarget, Value key) { throw new InternalError("NYI"); } @Override protected void emitSwitchRanges(int[] lowKeys, int[] highKeys, LabelRef[] targets, LabelRef defaultTarget, Value key) { throw new InternalError("NYI"); } @Override protected void emitTableSwitch(int lowKey, LabelRef defaultTarget, LabelRef[] targets, Value key) { throw new InternalError("NYI"); } @Override public void visitCompareAndSwap(CompareAndSwapNode node) { throw new InternalError("NYI"); } @Override public void visitBreakpointNode(BreakpointNode node) { throw new InternalError("NYI"); } @Override public void visitExceptionObject(ExceptionObjectNode i) { throw new InternalError("NYI"); } @Override public void visitSafepointNode(SafepointNode i) { throw new InternalError("NYI"); } @Override public void emitUnwind(Value operand) { // TODO Auto-generated method stub } @Override public void emitNullCheck(ValueNode v) { throw new InternalError("NYI"); } }