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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
* vim: set ts=8 sts=4 et sw=4 tw=99:
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#ifndef jit_x86_shared_CodeGenerator_x86_shared_h
#define jit_x86_shared_CodeGenerator_x86_shared_h
#include "jit/shared/CodeGenerator-shared.h"
namespace js {
namespace jit {
class OutOfLineBailout;
class OutOfLineUndoALUOperation;
class OutOfLineLoadTypedArrayOutOfBounds;
class MulNegativeZeroCheck;
class ModOverflowCheck;
class ReturnZero;
class OutOfLineTableSwitch;
class CodeGeneratorX86Shared : public CodeGeneratorShared
{
friend class MoveResolverX86;
CodeGeneratorX86Shared* thisFromCtor() {
return this;
}
template <typename T>
void bailout(const T& t, LSnapshot* snapshot);
protected:
// Load a NaN or zero into a register for an out of bounds AsmJS or static
// typed array load.
class OutOfLineLoadTypedArrayOutOfBounds : public OutOfLineCodeBase<CodeGeneratorX86Shared>
{
AnyRegister dest_;
Scalar::Type viewType_;
public:
OutOfLineLoadTypedArrayOutOfBounds(AnyRegister dest, Scalar::Type viewType)
: dest_(dest), viewType_(viewType)
{}
AnyRegister dest() const { return dest_; }
Scalar::Type viewType() const { return viewType_; }
void accept(CodeGeneratorX86Shared* codegen) {
codegen->visitOutOfLineLoadTypedArrayOutOfBounds(this);
}
};
// Additional bounds check for vector Float to Int conversion, when the
// undefined pattern is seen. Might imply a bailout.
class OutOfLineSimdFloatToIntCheck : public OutOfLineCodeBase<CodeGeneratorX86Shared>
{
Register temp_;
FloatRegister input_;
LInstruction* ins_;
wasm::TrapOffset trapOffset_;
public:
OutOfLineSimdFloatToIntCheck(Register temp, FloatRegister input, LInstruction *ins,
wasm::TrapOffset trapOffset)
: temp_(temp), input_(input), ins_(ins), trapOffset_(trapOffset)
{}
Register temp() const { return temp_; }
FloatRegister input() const { return input_; }
LInstruction* ins() const { return ins_; }
wasm::TrapOffset trapOffset() const { return trapOffset_; }
void accept(CodeGeneratorX86Shared* codegen) {
codegen->visitOutOfLineSimdFloatToIntCheck(this);
}
};
public:
NonAssertingLabel deoptLabel_;
Operand ToOperand(const LAllocation& a);
Operand ToOperand(const LAllocation* a);
Operand ToOperand(const LDefinition* def);
#ifdef JS_PUNBOX64
Operand ToOperandOrRegister64(const LInt64Allocation input);
#else
Register64 ToOperandOrRegister64(const LInt64Allocation input);
#endif
MoveOperand toMoveOperand(LAllocation a) const;
void bailoutIf(Assembler::Condition condition, LSnapshot* snapshot);
void bailoutIf(Assembler::DoubleCondition condition, LSnapshot* snapshot);
void bailoutFrom(Label* label, LSnapshot* snapshot);
void bailout(LSnapshot* snapshot);
template <typename T1, typename T2>
void bailoutCmpPtr(Assembler::Condition c, T1 lhs, T2 rhs, LSnapshot* snapshot) {
masm.cmpPtr(lhs, rhs);
bailoutIf(c, snapshot);
}
void bailoutTestPtr(Assembler::Condition c, Register lhs, Register rhs, LSnapshot* snapshot) {
masm.testPtr(lhs, rhs);
bailoutIf(c, snapshot);
}
template <typename T1, typename T2>
void bailoutCmp32(Assembler::Condition c, T1 lhs, T2 rhs, LSnapshot* snapshot) {
masm.cmp32(lhs, rhs);
bailoutIf(c, snapshot);
}
template <typename T1, typename T2>
void bailoutTest32(Assembler::Condition c, T1 lhs, T2 rhs, LSnapshot* snapshot) {
masm.test32(lhs, rhs);
bailoutIf(c, snapshot);
}
void bailoutIfFalseBool(Register reg, LSnapshot* snapshot) {
masm.test32(reg, Imm32(0xFF));
bailoutIf(Assembler::Zero, snapshot);
}
void bailoutCvttsd2si(FloatRegister src, Register dest, LSnapshot* snapshot) {
// vcvttsd2si returns 0x80000000 on failure. Test for it by
// subtracting 1 and testing overflow. The other possibility is to test
// equality for INT_MIN after a comparison, but 1 costs fewer bytes to
// materialize.
masm.vcvttsd2si(src, dest);
masm.cmp32(dest, Imm32(1));
bailoutIf(Assembler::Overflow, snapshot);
}
void bailoutCvttss2si(FloatRegister src, Register dest, LSnapshot* snapshot) {
// Same trick as explained in the above comment.
masm.vcvttss2si(src, dest);
masm.cmp32(dest, Imm32(1));
bailoutIf(Assembler::Overflow, snapshot);
}
protected:
bool generateOutOfLineCode();
void emitCompare(MCompare::CompareType type, const LAllocation* left, const LAllocation* right);
// Emits a branch that directs control flow to the true block if |cond| is
// true, and the false block if |cond| is false.
void emitBranch(Assembler::Condition cond, MBasicBlock* ifTrue, MBasicBlock* ifFalse,
Assembler::NaNCond ifNaN = Assembler::NaN_HandledByCond);
void emitBranch(Assembler::DoubleCondition cond, MBasicBlock* ifTrue, MBasicBlock* ifFalse);
void testNullEmitBranch(Assembler::Condition cond, const ValueOperand& value,
MBasicBlock* ifTrue, MBasicBlock* ifFalse)
{
cond = masm.testNull(cond, value);
emitBranch(cond, ifTrue, ifFalse);
}
void testUndefinedEmitBranch(Assembler::Condition cond, const ValueOperand& value,
MBasicBlock* ifTrue, MBasicBlock* ifFalse)
{
cond = masm.testUndefined(cond, value);
emitBranch(cond, ifTrue, ifFalse);
}
void testObjectEmitBranch(Assembler::Condition cond, const ValueOperand& value,
MBasicBlock* ifTrue, MBasicBlock* ifFalse)
{
cond = masm.testObject(cond, value);
emitBranch(cond, ifTrue, ifFalse);
}
void testZeroEmitBranch(Assembler::Condition cond, Register reg,
MBasicBlock* ifTrue, MBasicBlock* ifFalse)
{
MOZ_ASSERT(cond == Assembler::Equal || cond == Assembler::NotEqual);
masm.cmpPtr(reg, ImmWord(0));
emitBranch(cond, ifTrue, ifFalse);
}
void emitTableSwitchDispatch(MTableSwitch* mir, Register index, Register base);
void emitSimdExtractLane8x16(FloatRegister input, Register output, unsigned lane,
SimdSign signedness);
void emitSimdExtractLane16x8(FloatRegister input, Register output, unsigned lane,
SimdSign signedness);
void emitSimdExtractLane32x4(FloatRegister input, Register output, unsigned lane);
public:
CodeGeneratorX86Shared(MIRGenerator* gen, LIRGraph* graph, MacroAssembler* masm);
public:
// Instruction visitors.
virtual void visitDouble(LDouble* ins);
virtual void visitFloat32(LFloat32* ins);
virtual void visitMinMaxD(LMinMaxD* ins);
virtual void visitMinMaxF(LMinMaxF* ins);
virtual void visitAbsD(LAbsD* ins);
virtual void visitAbsF(LAbsF* ins);
virtual void visitClzI(LClzI* ins);
virtual void visitCtzI(LCtzI* ins);
virtual void visitPopcntI(LPopcntI* ins);
virtual void visitPopcntI64(LPopcntI64* lir);
virtual void visitSqrtD(LSqrtD* ins);
virtual void visitSqrtF(LSqrtF* ins);
virtual void visitPowHalfD(LPowHalfD* ins);
virtual void visitAddI(LAddI* ins);
virtual void visitAddI64(LAddI64* ins);
virtual void visitSubI(LSubI* ins);
virtual void visitSubI64(LSubI64* ins);
virtual void visitMulI(LMulI* ins);
virtual void visitMulI64(LMulI64* ins);
virtual void visitDivI(LDivI* ins);
virtual void visitDivPowTwoI(LDivPowTwoI* ins);
virtual void visitDivOrModConstantI(LDivOrModConstantI* ins);
virtual void visitModI(LModI* ins);
virtual void visitModPowTwoI(LModPowTwoI* ins);
virtual void visitBitNotI(LBitNotI* ins);
virtual void visitBitOpI(LBitOpI* ins);
virtual void visitBitOpI64(LBitOpI64* ins);
virtual void visitShiftI(LShiftI* ins);
virtual void visitShiftI64(LShiftI64* ins);
virtual void visitUrshD(LUrshD* ins);
virtual void visitTestIAndBranch(LTestIAndBranch* test);
virtual void visitTestDAndBranch(LTestDAndBranch* test);
virtual void visitTestFAndBranch(LTestFAndBranch* test);
virtual void visitCompare(LCompare* comp);
virtual void visitCompareAndBranch(LCompareAndBranch* comp);
virtual void visitCompareD(LCompareD* comp);
virtual void visitCompareDAndBranch(LCompareDAndBranch* comp);
virtual void visitCompareF(LCompareF* comp);
virtual void visitCompareFAndBranch(LCompareFAndBranch* comp);
virtual void visitBitAndAndBranch(LBitAndAndBranch* baab);
virtual void visitNotI(LNotI* comp);
virtual void visitNotD(LNotD* comp);
virtual void visitNotF(LNotF* comp);
virtual void visitMathD(LMathD* math);
virtual void visitMathF(LMathF* math);
virtual void visitFloor(LFloor* lir);
virtual void visitFloorF(LFloorF* lir);
virtual void visitCeil(LCeil* lir);
virtual void visitCeilF(LCeilF* lir);
virtual void visitRound(LRound* lir);
virtual void visitRoundF(LRoundF* lir);
virtual void visitGuardShape(LGuardShape* guard);
virtual void visitGuardObjectGroup(LGuardObjectGroup* guard);
virtual void visitGuardClass(LGuardClass* guard);
virtual void visitEffectiveAddress(LEffectiveAddress* ins);
virtual void visitUDivOrMod(LUDivOrMod* ins);
virtual void visitUDivOrModConstant(LUDivOrModConstant *ins);
virtual void visitWasmStackArg(LWasmStackArg* ins);
virtual void visitWasmStackArgI64(LWasmStackArgI64* ins);
virtual void visitWasmSelect(LWasmSelect* ins);
virtual void visitWasmReinterpret(LWasmReinterpret* lir);
virtual void visitMemoryBarrier(LMemoryBarrier* ins);
virtual void visitWasmAddOffset(LWasmAddOffset* lir);
virtual void visitWasmTruncateToInt32(LWasmTruncateToInt32* lir);
virtual void visitAtomicTypedArrayElementBinop(LAtomicTypedArrayElementBinop* lir);
virtual void visitAtomicTypedArrayElementBinopForEffect(LAtomicTypedArrayElementBinopForEffect* lir);
virtual void visitCompareExchangeTypedArrayElement(LCompareExchangeTypedArrayElement* lir);
virtual void visitAtomicExchangeTypedArrayElement(LAtomicExchangeTypedArrayElement* lir);
virtual void visitCopySignD(LCopySignD* lir);
virtual void visitCopySignF(LCopySignF* lir);
virtual void visitRotateI64(LRotateI64* lir);
void visitOutOfLineLoadTypedArrayOutOfBounds(OutOfLineLoadTypedArrayOutOfBounds* ool);
void visitNegI(LNegI* lir);
void visitNegD(LNegD* lir);
void visitNegF(LNegF* lir);
void visitOutOfLineWasmTruncateCheck(OutOfLineWasmTruncateCheck* ool);
// SIMD operators
void visitSimdValueInt32x4(LSimdValueInt32x4* lir);
void visitSimdValueFloat32x4(LSimdValueFloat32x4* lir);
void visitSimdSplatX16(LSimdSplatX16* lir);
void visitSimdSplatX8(LSimdSplatX8* lir);
void visitSimdSplatX4(LSimdSplatX4* lir);
void visitSimd128Int(LSimd128Int* ins);
void visitSimd128Float(LSimd128Float* ins);
void visitInt32x4ToFloat32x4(LInt32x4ToFloat32x4* ins);
void visitFloat32x4ToInt32x4(LFloat32x4ToInt32x4* ins);
void visitFloat32x4ToUint32x4(LFloat32x4ToUint32x4* ins);
void visitSimdReinterpretCast(LSimdReinterpretCast* lir);
void visitSimdExtractElementB(LSimdExtractElementB* lir);
void visitSimdExtractElementI(LSimdExtractElementI* lir);
void visitSimdExtractElementU2D(LSimdExtractElementU2D* lir);
void visitSimdExtractElementF(LSimdExtractElementF* lir);
void visitSimdInsertElementI(LSimdInsertElementI* lir);
void visitSimdInsertElementF(LSimdInsertElementF* lir);
void visitSimdSwizzleI(LSimdSwizzleI* lir);
void visitSimdSwizzleF(LSimdSwizzleF* lir);
void visitSimdShuffleX4(LSimdShuffleX4* lir);
void visitSimdShuffle(LSimdShuffle* lir);
void visitSimdUnaryArithIx16(LSimdUnaryArithIx16* lir);
void visitSimdUnaryArithIx8(LSimdUnaryArithIx8* lir);
void visitSimdUnaryArithIx4(LSimdUnaryArithIx4* lir);
void visitSimdUnaryArithFx4(LSimdUnaryArithFx4* lir);
void visitSimdBinaryCompIx16(LSimdBinaryCompIx16* lir);
void visitSimdBinaryCompIx8(LSimdBinaryCompIx8* lir);
void visitSimdBinaryCompIx4(LSimdBinaryCompIx4* lir);
void visitSimdBinaryCompFx4(LSimdBinaryCompFx4* lir);
void visitSimdBinaryArithIx16(LSimdBinaryArithIx16* lir);
void visitSimdBinaryArithIx8(LSimdBinaryArithIx8* lir);
void visitSimdBinaryArithIx4(LSimdBinaryArithIx4* lir);
void visitSimdBinaryArithFx4(LSimdBinaryArithFx4* lir);
void visitSimdBinarySaturating(LSimdBinarySaturating* lir);
void visitSimdBinaryBitwise(LSimdBinaryBitwise* lir);
void visitSimdShift(LSimdShift* lir);
void visitSimdSelect(LSimdSelect* ins);
void visitSimdAllTrue(LSimdAllTrue* ins);
void visitSimdAnyTrue(LSimdAnyTrue* ins);
template <class T, class Reg> void visitSimdGeneralShuffle(LSimdGeneralShuffleBase* lir, Reg temp);
void visitSimdGeneralShuffleI(LSimdGeneralShuffleI* lir);
void visitSimdGeneralShuffleF(LSimdGeneralShuffleF* lir);
// Out of line visitors.
void visitOutOfLineBailout(OutOfLineBailout* ool);
void visitOutOfLineUndoALUOperation(OutOfLineUndoALUOperation* ool);
void visitMulNegativeZeroCheck(MulNegativeZeroCheck* ool);
void visitModOverflowCheck(ModOverflowCheck* ool);
void visitReturnZero(ReturnZero* ool);
void visitOutOfLineTableSwitch(OutOfLineTableSwitch* ool);
void visitOutOfLineSimdFloatToIntCheck(OutOfLineSimdFloatToIntCheck* ool);
void generateInvalidateEpilogue();
// Generating a result.
template<typename S, typename T>
void atomicBinopToTypedIntArray(AtomicOp op, Scalar::Type arrayType, const S& value,
const T& mem, Register temp1, Register temp2, AnyRegister output);
// Generating no result.
template<typename S, typename T>
void atomicBinopToTypedIntArray(AtomicOp op, Scalar::Type arrayType, const S& value, const T& mem);
void setReturnDoubleRegs(LiveRegisterSet* regs);
void canonicalizeIfDeterministic(Scalar::Type type, const LAllocation* value);
};
// An out-of-line bailout thunk.
class OutOfLineBailout : public OutOfLineCodeBase<CodeGeneratorX86Shared>
{
LSnapshot* snapshot_;
public:
explicit OutOfLineBailout(LSnapshot* snapshot)
: snapshot_(snapshot)
{ }
void accept(CodeGeneratorX86Shared* codegen);
LSnapshot* snapshot() const {
return snapshot_;
}
};
} // namespace jit
} // namespace js
#endif /* jit_x86_shared_CodeGenerator_x86_shared_h */
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