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mozilla-central/js/src/jit/x86/LIR-x86.h

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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*-

 * vim: set ts=8 sts=2 et sw=2 tw=80:

 * 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_LIR_x86_h

#define jit_x86_LIR_x86_h

namespace js {

namespace jit {

class LBoxFloatingPoint : public LInstructionHelper<2, 1, 2> {

  MIRType type_;

 public:

  LIR_HEADER(BoxFloatingPoint);

  LBoxFloatingPoint(const LAllocation& in, const LDefinition& temp,

                    const LDefinition& spectreTemp, MIRType type)

      : LInstructionHelper(classOpcode), type_(type) {

    MOZ_ASSERT(IsFloatingPointType(type));

    setOperand(0, in);

    setTemp(0, temp);

    setTemp(1, spectreTemp);

  const LDefinition* spectreTemp() { return getTemp(1); }

  MIRType type() const { return type_; }

  const char* extraName() const { return StringFromMIRType(type_); }

};

class LUnbox : public LInstructionHelper<1, 2, 0> {

 public:

  LIR_HEADER(Unbox);

  LUnbox() : LInstructionHelper(classOpcode) {}

  MUnbox* mir() const { return mir_->toUnbox(); }

  const LAllocation* payload() { return getOperand(0); }

  const LAllocation* type() { return getOperand(1); }

  const char* extraName() const { return StringFromMIRType(mir()->type()); }

};

class LUnboxFloatingPoint : public LInstructionHelper<1, 2, 0> {

  MIRType type_;

 public:

  LIR_HEADER(UnboxFloatingPoint);

  static const size_t Input = 0;

  LUnboxFloatingPoint(const LBoxAllocation& input, MIRType type)

      : LInstructionHelper(classOpcode), type_(type) {

    setBoxOperand(Input, input);

  MUnbox* mir() const { return mir_->toUnbox(); }

  MIRType type() const { return type_; }

  const char* extraName() const { return StringFromMIRType(type_); }

};

// Convert a 32-bit unsigned integer to a double.

class LWasmUint32ToDouble : public LInstructionHelper<1, 1, 1> {

 public:

  LIR_HEADER(WasmUint32ToDouble)

  LWasmUint32ToDouble(const LAllocation& input, const LDefinition& temp)

      : LInstructionHelper(classOpcode) {

    setOperand(0, input);

    setTemp(0, temp);

  const LDefinition* temp() { return getTemp(0); }

};

// Convert a 32-bit unsigned integer to a float32.

class LWasmUint32ToFloat32 : public LInstructionHelper<1, 1, 1> {

 public:

  LIR_HEADER(WasmUint32ToFloat32)

  LWasmUint32ToFloat32(const LAllocation& input, const LDefinition& temp)

      : LInstructionHelper(classOpcode) {

    setOperand(0, input);

    setTemp(0, temp);

  const LDefinition* temp() { return getTemp(0); }

};

class LDivOrModI64

    : public LCallInstructionHelper<INT64_PIECES, INT64_PIECES * 2 + 1, 0> {

 public:

  LIR_HEADER(DivOrModI64)

  static const size_t Lhs = 0;

  static const size_t Rhs = INT64_PIECES;

  static const size_t Instance = 2 * INT64_PIECES;

  LDivOrModI64(const LInt64Allocation& lhs, const LInt64Allocation& rhs,

               const LAllocation& instance)

      : LCallInstructionHelper(classOpcode) {

    setInt64Operand(Lhs, lhs);

    setInt64Operand(Rhs, rhs);

    setOperand(Instance, instance);

  MDefinition* mir() const {

    MOZ_ASSERT(mir_->isWasmBuiltinDivI64() || mir_->isWasmBuiltinModI64());

    return mir_;

  bool canBeDivideByZero() const {

    if (mir_->isWasmBuiltinModI64()) {

      return mir_->toWasmBuiltinModI64()->canBeDivideByZero();

    return mir_->toWasmBuiltinDivI64()->canBeDivideByZero();

  bool canBeNegativeOverflow() const {

    if (mir_->isWasmBuiltinModI64()) {

      return mir_->toWasmBuiltinModI64()->canBeNegativeDividend();

    return mir_->toWasmBuiltinDivI64()->canBeNegativeOverflow();

  wasm::BytecodeOffset bytecodeOffset() const {

    MOZ_ASSERT(mir_->isWasmBuiltinDivI64() || mir_->isWasmBuiltinModI64());

    if (mir_->isWasmBuiltinModI64()) {

      return mir_->toWasmBuiltinModI64()->bytecodeOffset();

    return mir_->toWasmBuiltinDivI64()->bytecodeOffset();

};

class LUDivOrModI64

    : public LCallInstructionHelper<INT64_PIECES, INT64_PIECES * 2 + 1, 0> {

 public:

  LIR_HEADER(UDivOrModI64)

  static const size_t Lhs = 0;

  static const size_t Rhs = INT64_PIECES;

  static const size_t Instance = 2 * INT64_PIECES;

  LUDivOrModI64(const LInt64Allocation& lhs, const LInt64Allocation& rhs,

                const LAllocation& instance)

      : LCallInstructionHelper(classOpcode) {

    setInt64Operand(Lhs, lhs);

    setInt64Operand(Rhs, rhs);

    setOperand(Instance, instance);

  MDefinition* mir() const {

    MOZ_ASSERT(mir_->isWasmBuiltinDivI64() || mir_->isWasmBuiltinModI64());

    return mir_;

  bool canBeDivideByZero() const {

    if (mir_->isWasmBuiltinModI64()) {

      return mir_->toWasmBuiltinModI64()->canBeDivideByZero();

    return mir_->toWasmBuiltinDivI64()->canBeDivideByZero();

  bool canBeNegativeOverflow() const {

    if (mir_->isWasmBuiltinModI64()) {

      return mir_->toWasmBuiltinModI64()->canBeNegativeDividend();

    return mir_->toWasmBuiltinDivI64()->canBeNegativeOverflow();

  wasm::BytecodeOffset bytecodeOffset() const {

    MOZ_ASSERT(mir_->isWasmBuiltinDivI64() || mir_->isWasmBuiltinModI64());

    if (mir_->isWasmBuiltinModI64()) {

      return mir_->toWasmBuiltinModI64()->bytecodeOffset();

    return mir_->toWasmBuiltinDivI64()->bytecodeOffset();

};

class LWasmTruncateToInt64 : public LInstructionHelper<INT64_PIECES, 1, 1> {

 public:

  LIR_HEADER(WasmTruncateToInt64);

  LWasmTruncateToInt64(const LAllocation& in, const LDefinition& temp)

      : LInstructionHelper(classOpcode) {

    setOperand(0, in);

    setTemp(0, temp);

  MWasmTruncateToInt64* mir() const { return mir_->toWasmTruncateToInt64(); }

  const LDefinition* temp() { return getTemp(0); }

};

class LWasmAtomicLoadI64 : public LInstructionHelper<INT64_PIECES, 2, 2> {

 public:

  LIR_HEADER(WasmAtomicLoadI64);

  LWasmAtomicLoadI64(const LAllocation& memoryBase, const LAllocation& ptr,

                     const LDefinition& t1, const LDefinition& t2)

      : LInstructionHelper(classOpcode) {

    setOperand(0, memoryBase);

    setOperand(1, ptr);

    setTemp(0, t1);

    setTemp(1, t2);

  MWasmLoad* mir() const { return mir_->toWasmLoad(); }

  const LAllocation* memoryBase() { return getOperand(0); }

  const LAllocation* ptr() { return getOperand(1); }

  const LDefinition* t1() { return getTemp(0); }

  const LDefinition* t2() { return getTemp(1); }

};

class LWasmAtomicStoreI64 : public LInstructionHelper<0, 2 + INT64_PIECES, 2> {

 public:

  LIR_HEADER(WasmAtomicStoreI64);

  LWasmAtomicStoreI64(const LAllocation& memoryBase, const LAllocation& ptr,

                      const LInt64Allocation& value, const LDefinition& t1,

                      const LDefinition& t2)

      : LInstructionHelper(classOpcode) {

    setOperand(0, memoryBase);

    setOperand(1, ptr);

    setInt64Operand(2, value);

    setTemp(0, t1);

    setTemp(1, t2);

  MWasmStore* mir() const { return mir_->toWasmStore(); }

  const LAllocation* memoryBase() { return getOperand(0); }

  const LAllocation* ptr() { return getOperand(1); }

  const LInt64Allocation value() { return getInt64Operand(2); }

  const LDefinition* t1() { return getTemp(0); }

  const LDefinition* t2() { return getTemp(1); }

};

class LWasmCompareExchangeI64

    : public LInstructionHelper<INT64_PIECES, 2 + 2 * INT64_PIECES, 0> {

 public:

  LIR_HEADER(WasmCompareExchangeI64);

  LWasmCompareExchangeI64(const LAllocation& memoryBase, const LAllocation& ptr,

                          const LInt64Allocation& expected,

                          const LInt64Allocation& replacement)

      : LInstructionHelper(classOpcode) {

    setOperand(0, memoryBase);

    setOperand(1, ptr);

    setInt64Operand(2, expected);

    setInt64Operand(2 + INT64_PIECES, replacement);

  MWasmCompareExchangeHeap* mir() const {

    return mir_->toWasmCompareExchangeHeap();

  const LAllocation* memoryBase() { return getOperand(0); }

  const LAllocation* ptr() { return getOperand(1); }

  const LInt64Allocation expected() { return getInt64Operand(2); }

  const LInt64Allocation replacement() {

    return getInt64Operand(2 + INT64_PIECES);

};

class LWasmAtomicExchangeI64

    : public LInstructionHelper<INT64_PIECES, 2 + INT64_PIECES, 0> {

  const wasm::MemoryAccessDesc& access_;

 public:

  LIR_HEADER(WasmAtomicExchangeI64);

  LWasmAtomicExchangeI64(const LAllocation& memoryBase, const LAllocation& ptr,

                         const LInt64Allocation& value,

                         const wasm::MemoryAccessDesc& access)

      : LInstructionHelper(classOpcode), access_(access) {

    setOperand(0, memoryBase);

    setOperand(1, ptr);

    setInt64Operand(2, value);

  const LAllocation* memoryBase() { return getOperand(0); }

  const LAllocation* ptr() { return getOperand(1); }

  const LInt64Allocation value() { return getInt64Operand(2); }

  const wasm::MemoryAccessDesc& access() { return access_; }

};

class LWasmAtomicBinopI64

    : public LInstructionHelper<INT64_PIECES, 2 + INT64_PIECES, 0> {

  const wasm::MemoryAccessDesc& access_;

  AtomicOp op_;

 public:

  LIR_HEADER(WasmAtomicBinopI64);

  LWasmAtomicBinopI64(const LAllocation& memoryBase, const LAllocation& ptr,

                      const LInt64Allocation& value,

                      const wasm::MemoryAccessDesc& access, AtomicOp op)

      : LInstructionHelper(classOpcode), access_(access), op_(op) {

    setOperand(0, memoryBase);

    setOperand(1, ptr);

    setInt64Operand(2, value);

  const LAllocation* memoryBase() { return getOperand(0); }

  const LAllocation* ptr() { return getOperand(1); }

  const LInt64Allocation value() { return getInt64Operand(2); }

  const wasm::MemoryAccessDesc& access() { return access_; }

  AtomicOp operation() const { return op_; }

};

}  // namespace jit

}  // namespace js

#endif /* jit_x86_LIR_x86_h */