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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
 * 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_shared_Lowering_shared_inl_h
#define jit_shared_Lowering_shared_inl_h

#include "jit/shared/Lowering-shared.h"

#include "jit/MIR.h"
#include "jit/MIRGenerator.h"

namespace js {
namespace jit {

void
LIRGeneratorShared::emitAtUses(MInstruction* mir)
{
    MOZ_ASSERT(mir->canEmitAtUses());
    mir->setEmittedAtUses();
    mir->setVirtualRegister(0);
}

LUse
LIRGeneratorShared::use(MDefinition* mir, LUse policy)
{
    // It is illegal to call use() on an instruction with two defs.
#if BOX_PIECES > 1
    MOZ_ASSERT(mir->type() != MIRType::Value);
#endif
#if INT64_PIECES > 1
    MOZ_ASSERT(mir->type() != MIRType::Int64);
#endif
    ensureDefined(mir);
    policy.setVirtualRegister(mir->virtualRegister());
    return policy;
}

template <size_t X> void
LIRGeneratorShared::define(details::LInstructionFixedDefsTempsHelper<1, X>* lir, MDefinition* mir,
                           LDefinition::Policy policy)
{
    LDefinition::Type type = LDefinition::TypeFrom(mir->type());
    define(lir, mir, LDefinition(type, policy));
}

template <size_t X> void
LIRGeneratorShared::define(details::LInstructionFixedDefsTempsHelper<1, X>* lir, MDefinition* mir,
                           const LDefinition& def)
{
    // Call instructions should use defineReturn.
    MOZ_ASSERT(!lir->isCall());

    uint32_t vreg = getVirtualRegister();

    // Assign the definition and a virtual register. Then, propagate this
    // virtual register to the MIR, so we can map MIR to LIR during lowering.
    lir->setDef(0, def);
    lir->getDef(0)->setVirtualRegister(vreg);
    lir->setMir(mir);
    mir->setVirtualRegister(vreg);
    add(lir);
}

template <size_t X, size_t Y> void
LIRGeneratorShared::defineFixed(LInstructionHelper<1, X, Y>* lir, MDefinition* mir, const LAllocation& output)
{
    LDefinition::Type type = LDefinition::TypeFrom(mir->type());

    LDefinition def(type, LDefinition::FIXED);
    def.setOutput(output);

    define(lir, mir, def);
}

template <size_t Ops, size_t Temps> void
LIRGeneratorShared::defineInt64Fixed(LInstructionHelper<INT64_PIECES, Ops, Temps>* lir, MDefinition* mir,
                                     const LInt64Allocation& output)
{
    uint32_t vreg = getVirtualRegister();

#if JS_BITS_PER_WORD == 64
    LDefinition def(LDefinition::GENERAL, LDefinition::FIXED);
    def.setOutput(output.value());
    lir->setDef(0, def);
    lir->getDef(0)->setVirtualRegister(vreg);
#else
    LDefinition def0(LDefinition::GENERAL, LDefinition::FIXED);
    def0.setOutput(output.low());
    lir->setDef(0, def0);
    lir->getDef(0)->setVirtualRegister(vreg);

    getVirtualRegister();
    LDefinition def1(LDefinition::GENERAL, LDefinition::FIXED);
    def1.setOutput(output.high());
    lir->setDef(1, def1);
    lir->getDef(1)->setVirtualRegister(vreg + 1);
#endif

    lir->setMir(mir);
    mir->setVirtualRegister(vreg);
    add(lir);
}

template <size_t Ops, size_t Temps> void
LIRGeneratorShared::defineReuseInput(LInstructionHelper<1, Ops, Temps>* lir, MDefinition* mir, uint32_t operand)
{
    // Note: Any other operand that is not the same as this operand should be
    // marked as not being "atStart". The regalloc cannot handle those and can
    // overwrite the inputs!

    // The input should be used at the start of the instruction, to avoid moves.
    MOZ_ASSERT(lir->getOperand(operand)->toUse()->usedAtStart());

    LDefinition::Type type = LDefinition::TypeFrom(mir->type());

    LDefinition def(type, LDefinition::MUST_REUSE_INPUT);
    def.setReusedInput(operand);

    define(lir, mir, def);
}

template <size_t Ops, size_t Temps> void
LIRGeneratorShared::defineInt64ReuseInput(LInstructionHelper<INT64_PIECES, Ops, Temps>* lir,
                                          MDefinition* mir, uint32_t operand)
{
    // Note: Any other operand that is not the same as this operand should be
    // marked as not being "atStart". The regalloc cannot handle those and can
    // overwrite the inputs!

    // The input should be used at the start of the instruction, to avoid moves.
    MOZ_ASSERT(lir->getOperand(operand)->toUse()->usedAtStart());
#if JS_BITS_PER_WORD == 32
    MOZ_ASSERT(lir->getOperand(operand + 1)->toUse()->usedAtStart());
#endif
    MOZ_ASSERT(!lir->isCall());

    uint32_t vreg = getVirtualRegister();

    LDefinition def1(LDefinition::GENERAL, LDefinition::MUST_REUSE_INPUT);
    def1.setReusedInput(operand);
    lir->setDef(0, def1);
    lir->getDef(0)->setVirtualRegister(vreg);

#if JS_BITS_PER_WORD == 32
    getVirtualRegister();
    LDefinition def2(LDefinition::GENERAL, LDefinition::MUST_REUSE_INPUT);
    def2.setReusedInput(operand + 1);
    lir->setDef(1, def2);
    lir->getDef(1)->setVirtualRegister(vreg + 1);
#endif

    lir->setMir(mir);
    mir->setVirtualRegister(vreg);
    add(lir);

}

template <size_t Ops, size_t Temps> void
LIRGeneratorShared::defineBox(LInstructionHelper<BOX_PIECES, Ops, Temps>* lir, MDefinition* mir,
                              LDefinition::Policy policy)
{
    // Call instructions should use defineReturn.
    MOZ_ASSERT(!lir->isCall());
    MOZ_ASSERT(mir->type() == MIRType::Value);

    uint32_t vreg = getVirtualRegister();

#if defined(JS_NUNBOX32)
    lir->setDef(0, LDefinition(vreg + VREG_TYPE_OFFSET, LDefinition::TYPE, policy));
    lir->setDef(1, LDefinition(vreg + VREG_DATA_OFFSET, LDefinition::PAYLOAD, policy));
    getVirtualRegister();
#elif defined(JS_PUNBOX64)
    lir->setDef(0, LDefinition(vreg, LDefinition::BOX, policy));
#endif
    lir->setMir(mir);

    mir->setVirtualRegister(vreg);
    add(lir);
}

template <size_t Ops, size_t Temps> void
LIRGeneratorShared::defineInt64(LInstructionHelper<INT64_PIECES, Ops, Temps>* lir, MDefinition* mir,
                                LDefinition::Policy policy)
{
    // Call instructions should use defineReturn.
    MOZ_ASSERT(!lir->isCall());
    MOZ_ASSERT(mir->type() == MIRType::Int64);

    uint32_t vreg = getVirtualRegister();

#if JS_BITS_PER_WORD == 32
    lir->setDef(0, LDefinition(vreg + INT64LOW_INDEX, LDefinition::GENERAL, policy));
    lir->setDef(1, LDefinition(vreg + INT64HIGH_INDEX, LDefinition::GENERAL, policy));
    getVirtualRegister();
#else
    lir->setDef(0, LDefinition(vreg, LDefinition::GENERAL, policy));
#endif
    lir->setMir(mir);

    mir->setVirtualRegister(vreg);
    add(lir);
}

void
LIRGeneratorShared::defineSharedStubReturn(LInstruction* lir, MDefinition* mir)
{
    lir->setMir(mir);

    MOZ_ASSERT(lir->isBinarySharedStub() || lir->isUnarySharedStub() || lir->isNullarySharedStub());
    MOZ_ASSERT(mir->type() == MIRType::Value);

    uint32_t vreg = getVirtualRegister();

#if defined(JS_NUNBOX32)
    lir->setDef(TYPE_INDEX, LDefinition(vreg + VREG_TYPE_OFFSET, LDefinition::TYPE,
                                        LGeneralReg(JSReturnReg_Type)));
    lir->setDef(PAYLOAD_INDEX, LDefinition(vreg + VREG_DATA_OFFSET, LDefinition::PAYLOAD,
                                           LGeneralReg(JSReturnReg_Data)));
    getVirtualRegister();
#elif defined(JS_PUNBOX64)
    lir->setDef(0, LDefinition(vreg, LDefinition::BOX, LGeneralReg(JSReturnReg)));
#endif

    mir->setVirtualRegister(vreg);
    add(lir);
}

void
LIRGeneratorShared::defineReturn(LInstruction* lir, MDefinition* mir)
{
    lir->setMir(mir);

    MOZ_ASSERT(lir->isCall());

    uint32_t vreg = getVirtualRegister();

    switch (mir->type()) {
      case MIRType::Value:
#if defined(JS_NUNBOX32)
        lir->setDef(TYPE_INDEX, LDefinition(vreg + VREG_TYPE_OFFSET, LDefinition::TYPE,
                                            LGeneralReg(JSReturnReg_Type)));
        lir->setDef(PAYLOAD_INDEX, LDefinition(vreg + VREG_DATA_OFFSET, LDefinition::PAYLOAD,
                                               LGeneralReg(JSReturnReg_Data)));
        getVirtualRegister();
#elif defined(JS_PUNBOX64)
        lir->setDef(0, LDefinition(vreg, LDefinition::BOX, LGeneralReg(JSReturnReg)));
#endif
        break;
      case MIRType::Int64:
#if defined(JS_NUNBOX32)
        lir->setDef(INT64LOW_INDEX, LDefinition(vreg + INT64LOW_INDEX, LDefinition::GENERAL,
                                                LGeneralReg(ReturnReg64.low)));
        lir->setDef(INT64HIGH_INDEX, LDefinition(vreg + INT64HIGH_INDEX, LDefinition::GENERAL,
                                                 LGeneralReg(ReturnReg64.high)));
        getVirtualRegister();
#elif defined(JS_PUNBOX64)
        lir->setDef(0, LDefinition(vreg, LDefinition::GENERAL, LGeneralReg(ReturnReg)));
#endif
        break;
      case MIRType::Float32:
        lir->setDef(0, LDefinition(vreg, LDefinition::FLOAT32, LFloatReg(ReturnFloat32Reg)));
        break;
      case MIRType::Double:
        lir->setDef(0, LDefinition(vreg, LDefinition::DOUBLE, LFloatReg(ReturnDoubleReg)));
        break;
      case MIRType::Int8x16:
      case MIRType::Int16x8:
      case MIRType::Int32x4:
      case MIRType::Bool8x16:
      case MIRType::Bool16x8:
      case MIRType::Bool32x4:
        lir->setDef(0, LDefinition(vreg, LDefinition::SIMD128INT, LFloatReg(ReturnSimd128Reg)));
        break;
      case MIRType::Float32x4:
        lir->setDef(0, LDefinition(vreg, LDefinition::SIMD128FLOAT, LFloatReg(ReturnSimd128Reg)));
        break;
      default:
        LDefinition::Type type = LDefinition::TypeFrom(mir->type());
        MOZ_ASSERT(type != LDefinition::DOUBLE && type != LDefinition::FLOAT32);
        lir->setDef(0, LDefinition(vreg, type, LGeneralReg(ReturnReg)));
        break;
    }

    mir->setVirtualRegister(vreg);
    add(lir);
}

template <size_t Ops, size_t Temps> void
LIRGeneratorShared::defineSinCos(LInstructionHelper<2, Ops, Temps> *lir, MDefinition *mir,
                                 LDefinition::Policy policy)
{
    MOZ_ASSERT(lir->isCall());

    uint32_t vreg = getVirtualRegister();
    lir->setDef(0, LDefinition(vreg, LDefinition::DOUBLE, LFloatReg(ReturnDoubleReg)));
#if defined(JS_CODEGEN_ARM)
    lir->setDef(1, LDefinition(vreg + VREG_INCREMENT, LDefinition::DOUBLE,
                LFloatReg(FloatRegister(FloatRegisters::d1, FloatRegister::Double))));
#elif defined(JS_CODEGEN_ARM64)
    lir->setDef(1, LDefinition(vreg + VREG_INCREMENT, LDefinition::DOUBLE,
                LFloatReg(FloatRegister(FloatRegisters::d1, FloatRegisters::Double))));
#elif defined(JS_CODEGEN_MIPS32) || defined(JS_CODEGEN_MIPS64)
    lir->setDef(1, LDefinition(vreg + VREG_INCREMENT, LDefinition::DOUBLE, LFloatReg(f2)));
#elif defined(JS_CODEGEN_NONE)
    MOZ_CRASH();
#elif defined(JS_CODEGEN_X86) || defined(JS_CODEGEN_X64)
    lir->setDef(1, LDefinition(vreg + VREG_INCREMENT, LDefinition::DOUBLE, LFloatReg(xmm1)));
#else
#error "Unsupported architecture for SinCos"
#endif

    getVirtualRegister();

    lir->setMir(mir);
    mir->setVirtualRegister(vreg);
    add(lir);

    return;
}

// In LIR, we treat booleans and integers as the same low-level type (INTEGER).
// When snapshotting, we recover the actual JS type from MIR. This function
// checks that when making redefinitions, we don't accidentally coerce two
// incompatible types.
static inline bool
IsCompatibleLIRCoercion(MIRType to, MIRType from)
{
    if (to == from)
        return true;
    if ((to == MIRType::Int32 || to == MIRType::Boolean) &&
        (from == MIRType::Int32 || from == MIRType::Boolean)) {
        return true;
    }
    // SIMD types can be coerced with from*Bits operators.
    if (IsSimdType(to) && IsSimdType(from))
        return true;
    return false;
}


// We can redefine the sin(x) and cos(x) function to return the sincos result.
void
LIRGeneratorShared::redefine(MDefinition* def, MDefinition* as, MMathFunction::Function func)
{
    MOZ_ASSERT(def->isMathFunction());
    MOZ_ASSERT(def->type() == MIRType::Double && as->type() == MIRType::SinCosDouble);
    MOZ_ASSERT(MMathFunction::Sin == func || MMathFunction::Cos == func);

    ensureDefined(as);
    MMathFunction *math = def->toMathFunction();

    MOZ_ASSERT(math->function() == MMathFunction::Cos ||
               math->function() == MMathFunction::Sin);

    // The sincos returns two values:
    // - VREG: it returns the sin's value of the sincos;
    // - VREG + VREG_INCREMENT: it returns the cos' value of the sincos.
    if (math->function() == MMathFunction::Sin)
        def->setVirtualRegister(as->virtualRegister());
    else
        def->setVirtualRegister(as->virtualRegister() + VREG_INCREMENT);
}

void
LIRGeneratorShared::redefine(MDefinition* def, MDefinition* as)
{
    MOZ_ASSERT(IsCompatibleLIRCoercion(def->type(), as->type()));

    // Try to emit MIR marked as emitted-at-uses at, well, uses. For
    // snapshotting reasons we delay the MIRTypes match, or when we are
    // coercing between bool and int32 constants.
    if (as->isEmittedAtUses() &&
        (def->type() == as->type() ||
         (as->isConstant() &&
          (def->type() == MIRType::Int32 || def->type() == MIRType::Boolean) &&
          (as->type() == MIRType::Int32 || as->type() == MIRType::Boolean))))
    {
        MInstruction* replacement;
        if (def->type() != as->type()) {
            if (as->type() == MIRType::Int32)
                replacement = MConstant::New(alloc(), BooleanValue(as->toConstant()->toInt32()));
            else
                replacement = MConstant::New(alloc(), Int32Value(as->toConstant()->toBoolean()));
            def->block()->insertBefore(def->toInstruction(), replacement);
            emitAtUses(replacement->toInstruction());
        } else {
            replacement = as->toInstruction();
        }
        def->replaceAllUsesWith(replacement);
    } else {
        ensureDefined(as);
        def->setVirtualRegister(as->virtualRegister());

#ifdef DEBUG
        if (JitOptions.runExtraChecks &&
            def->resultTypeSet() && as->resultTypeSet() &&
            !def->resultTypeSet()->equals(as->resultTypeSet()))
        {
            switch (def->type()) {
              case MIRType::Object:
              case MIRType::ObjectOrNull:
              case MIRType::String:
              case MIRType::Symbol: {
                LAssertResultT* check = new(alloc()) LAssertResultT(useRegister(def));
                add(check, def->toInstruction());
                break;
              }
              case MIRType::Value: {
                LAssertResultV* check = new(alloc()) LAssertResultV(useBox(def));
                add(check, def->toInstruction());
                break;
              }
              default:
                break;
            }
        }
#endif
    }
}

void
LIRGeneratorShared::ensureDefined(MDefinition* mir)
{
    if (mir->isEmittedAtUses()) {
        mir->toInstruction()->accept(this);
        MOZ_ASSERT(mir->isLowered());
    }
}

LUse
LIRGeneratorShared::useRegister(MDefinition* mir)
{
    return use(mir, LUse(LUse::REGISTER));
}

LUse
LIRGeneratorShared::useRegisterAtStart(MDefinition* mir)
{
    return use(mir, LUse(LUse::REGISTER, true));
}

LUse
LIRGeneratorShared::use(MDefinition* mir)
{
    return use(mir, LUse(LUse::ANY));
}

LUse
LIRGeneratorShared::useAtStart(MDefinition* mir)
{
    return use(mir, LUse(LUse::ANY, true));
}

LAllocation
LIRGeneratorShared::useOrConstant(MDefinition* mir)
{
    if (mir->isConstant())
        return LAllocation(mir->toConstant());
    return use(mir);
}

LAllocation
LIRGeneratorShared::useOrConstantAtStart(MDefinition* mir)
{
    if (mir->isConstant())
        return LAllocation(mir->toConstant());
    return useAtStart(mir);
}

LAllocation
LIRGeneratorShared::useRegisterOrConstant(MDefinition* mir)
{
    if (mir->isConstant())
        return LAllocation(mir->toConstant());
    return useRegister(mir);
}

LAllocation
LIRGeneratorShared::useRegisterOrConstantAtStart(MDefinition* mir)
{
    if (mir->isConstant())
        return LAllocation(mir->toConstant());
    return useRegisterAtStart(mir);
}

LAllocation
LIRGeneratorShared::useRegisterOrZeroAtStart(MDefinition* mir)
{
    if (mir->isConstant() && mir->toConstant()->isInt32(0))
        return LAllocation();
    return useRegisterAtStart(mir);
}

LAllocation
LIRGeneratorShared::useRegisterOrNonDoubleConstant(MDefinition* mir)
{
    if (mir->isConstant() && mir->type() != MIRType::Double && mir->type() != MIRType::Float32)
        return LAllocation(mir->toConstant());
    return useRegister(mir);
}

#if defined(JS_CODEGEN_ARM) || defined(JS_CODEGEN_ARM64)
LAllocation
LIRGeneratorShared::useAnyOrConstant(MDefinition* mir)
{
    return useRegisterOrConstant(mir);
}
LAllocation
LIRGeneratorShared::useStorable(MDefinition* mir)
{
    return useRegister(mir);
}
LAllocation
LIRGeneratorShared::useStorableAtStart(MDefinition* mir)
{
    return useRegisterAtStart(mir);
}

LAllocation
LIRGeneratorShared::useAny(MDefinition* mir)
{
    return useRegister(mir);
}
#else
LAllocation
LIRGeneratorShared::useAnyOrConstant(MDefinition* mir)
{
    return useOrConstant(mir);
}

LAllocation
LIRGeneratorShared::useAny(MDefinition* mir)
{
    return use(mir);
}
LAllocation
LIRGeneratorShared::useStorable(MDefinition* mir)
{
    return useRegisterOrConstant(mir);
}
LAllocation
LIRGeneratorShared::useStorableAtStart(MDefinition* mir)
{
    return useRegisterOrConstantAtStart(mir);
}

#endif

LAllocation
LIRGeneratorShared::useKeepalive(MDefinition* mir)
{
    return use(mir, LUse(LUse::KEEPALIVE));
}

LAllocation
LIRGeneratorShared::useKeepaliveOrConstant(MDefinition* mir)
{
    if (mir->isConstant())
        return LAllocation(mir->toConstant());
    return useKeepalive(mir);
}

LUse
LIRGeneratorShared::useFixed(MDefinition* mir, Register reg)
{
    return use(mir, LUse(reg));
}

LUse
LIRGeneratorShared::useFixedAtStart(MDefinition* mir, Register reg)
{
    return use(mir, LUse(reg, true));
}

LUse
LIRGeneratorShared::useFixed(MDefinition* mir, FloatRegister reg)
{
    return use(mir, LUse(reg));
}

LUse
LIRGeneratorShared::useFixed(MDefinition* mir, AnyRegister reg)
{
    return reg.isFloat() ? use(mir, LUse(reg.fpu())) : use(mir, LUse(reg.gpr()));
}

LUse
LIRGeneratorShared::useFixedAtStart(MDefinition* mir, AnyRegister reg)
{
    return reg.isFloat() ? use(mir, LUse(reg.fpu(), true)) : use(mir, LUse(reg.gpr(), true));
}

LDefinition
LIRGeneratorShared::temp(LDefinition::Type type, LDefinition::Policy policy)
{
    return LDefinition(getVirtualRegister(), type, policy);
}

LInt64Definition
LIRGeneratorShared::tempInt64(LDefinition::Policy policy)
{
#if JS_BITS_PER_WORD == 32
    LDefinition high = temp(LDefinition::GENERAL, policy);
    LDefinition low = temp(LDefinition::GENERAL, policy);
    return LInt64Definition(high, low);
#else
    return LInt64Definition(temp(LDefinition::GENERAL, policy));
#endif
}

LDefinition
LIRGeneratorShared::tempFixed(Register reg)
{
    LDefinition t = temp(LDefinition::GENERAL);
    t.setOutput(LGeneralReg(reg));
    return t;
}

LDefinition
LIRGeneratorShared::tempFloat32()
{
    return temp(LDefinition::FLOAT32);
}

LDefinition
LIRGeneratorShared::tempDouble()
{
    return temp(LDefinition::DOUBLE);
}

LDefinition
LIRGeneratorShared::tempCopy(MDefinition* input, uint32_t reusedInput)
{
    MOZ_ASSERT(input->virtualRegister());
    LDefinition t = temp(LDefinition::TypeFrom(input->type()), LDefinition::MUST_REUSE_INPUT);
    t.setReusedInput(reusedInput);
    return t;
}

template <typename T> void
LIRGeneratorShared::annotate(T* ins)
{
    ins->setId(lirGraph_.getInstructionId());
}

template <typename T> void
LIRGeneratorShared::add(T* ins, MInstruction* mir)
{
    MOZ_ASSERT(!ins->isPhi());
    current->add(ins);
    if (mir) {
        MOZ_ASSERT(current == mir->block()->lir());
        ins->setMir(mir);
    }
    annotate(ins);
}

#ifdef JS_NUNBOX32
// Returns the virtual register of a js::Value-defining instruction. This is
// abstracted because MBox is a special value-returning instruction that
// redefines its input payload if its input is not constant. Therefore, it is
// illegal to request a box's payload by adding VREG_DATA_OFFSET to its raw id.
static inline uint32_t
VirtualRegisterOfPayload(MDefinition* mir)
{
    if (mir->isBox()) {
        MDefinition* inner = mir->toBox()->getOperand(0);
        if (!inner->isConstant() && inner->type() != MIRType::Double && inner->type() != MIRType::Float32)
            return inner->virtualRegister();
    }
    if (mir->isTypeBarrier())
        return VirtualRegisterOfPayload(mir->getOperand(0));
    return mir->virtualRegister() + VREG_DATA_OFFSET;
}

// Note: always call ensureDefined before calling useType/usePayload,
// so that emitted-at-use operands are handled correctly.
LUse
LIRGeneratorShared::useType(MDefinition* mir, LUse::Policy policy)
{
    MOZ_ASSERT(mir->type() == MIRType::Value);

    return LUse(mir->virtualRegister() + VREG_TYPE_OFFSET, policy);
}

LUse
LIRGeneratorShared::usePayload(MDefinition* mir, LUse::Policy policy)
{
    MOZ_ASSERT(mir->type() == MIRType::Value);

    return LUse(VirtualRegisterOfPayload(mir), policy);
}

LUse
LIRGeneratorShared::usePayloadAtStart(MDefinition* mir, LUse::Policy policy)
{
    MOZ_ASSERT(mir->type() == MIRType::Value);

    return LUse(VirtualRegisterOfPayload(mir), policy, true);
}

LUse
LIRGeneratorShared::usePayloadInRegisterAtStart(MDefinition* mir)
{
    return usePayloadAtStart(mir, LUse::REGISTER);
}

void
LIRGeneratorShared::fillBoxUses(LInstruction* lir, size_t n, MDefinition* mir)
{
    ensureDefined(mir);
    lir->getOperand(n)->toUse()->setVirtualRegister(mir->virtualRegister() + VREG_TYPE_OFFSET);
    lir->getOperand(n + 1)->toUse()->setVirtualRegister(VirtualRegisterOfPayload(mir));
}
#endif

LUse
LIRGeneratorShared::useRegisterForTypedLoad(MDefinition* mir, MIRType type)
{
    MOZ_ASSERT(type != MIRType::Value && type != MIRType::None);
    MOZ_ASSERT(mir->type() == MIRType::Object || mir->type() == MIRType::Slots);

#ifdef JS_PUNBOX64
    // On x64, masm.loadUnboxedValue emits slightly less efficient code when
    // the input and output use the same register and we're not loading an
    // int32/bool/double, so we just call useRegister in this case.
    if (type != MIRType::Int32 && type != MIRType::Boolean && type != MIRType::Double)
        return useRegister(mir);
#endif

    return useRegisterAtStart(mir);
}

LBoxAllocation
LIRGeneratorShared::useBox(MDefinition* mir, LUse::Policy policy, bool useAtStart)
{
    MOZ_ASSERT(mir->type() == MIRType::Value);

    ensureDefined(mir);

#if defined(JS_NUNBOX32)
    return LBoxAllocation(LUse(mir->virtualRegister(), policy, useAtStart),
                          LUse(VirtualRegisterOfPayload(mir), policy, useAtStart));
#else
    return LBoxAllocation(LUse(mir->virtualRegister(), policy, useAtStart));
#endif
}

LBoxAllocation
LIRGeneratorShared::useBoxOrTypedOrConstant(MDefinition* mir, bool useConstant)
{
    if (mir->type() == MIRType::Value)
        return useBox(mir);


    if (useConstant && mir->isConstant()) {
#if defined(JS_NUNBOX32)
        return LBoxAllocation(LAllocation(mir->toConstant()), LAllocation());
#else
        return LBoxAllocation(LAllocation(mir->toConstant()));
#endif
    }

#if defined(JS_NUNBOX32)
    return LBoxAllocation(useRegister(mir), LAllocation());
#else
    return LBoxAllocation(useRegister(mir));
#endif
}

LInt64Allocation
LIRGeneratorShared::useInt64(MDefinition* mir, LUse::Policy policy, bool useAtStart)
{
    MOZ_ASSERT(mir->type() == MIRType::Int64);

    ensureDefined(mir);

    uint32_t vreg = mir->virtualRegister();
#if JS_BITS_PER_WORD == 32
    return LInt64Allocation(LUse(vreg + INT64HIGH_INDEX, policy, useAtStart),
                            LUse(vreg + INT64LOW_INDEX, policy, useAtStart));
#else
    return LInt64Allocation(LUse(vreg, policy, useAtStart));
#endif
}

LInt64Allocation
LIRGeneratorShared::useInt64Fixed(MDefinition* mir, Register64 regs, bool useAtStart)
{
    MOZ_ASSERT(mir->type() == MIRType::Int64);

    ensureDefined(mir);

    uint32_t vreg = mir->virtualRegister();
#if JS_BITS_PER_WORD == 32
    return LInt64Allocation(LUse(regs.high, vreg + INT64HIGH_INDEX, useAtStart),
                            LUse(regs.low, vreg + INT64LOW_INDEX, useAtStart));
#else
    return LInt64Allocation(LUse(regs.reg, vreg, useAtStart));
#endif
}

LInt64Allocation
LIRGeneratorShared::useInt64(MDefinition* mir, bool useAtStart)
{
    // On 32-bit platforms, always load the value in registers.
#if JS_BITS_PER_WORD == 32
    return useInt64(mir, LUse::REGISTER, useAtStart);
#else
    return useInt64(mir, LUse::ANY, useAtStart);
#endif
}

LInt64Allocation
LIRGeneratorShared::useInt64AtStart(MDefinition* mir)
{
    return useInt64(mir, /* useAtStart = */ true);
}

LInt64Allocation
LIRGeneratorShared::useInt64Register(MDefinition* mir, bool useAtStart)
{
    return useInt64(mir, LUse::REGISTER, useAtStart);
}

LInt64Allocation
LIRGeneratorShared::useInt64OrConstant(MDefinition* mir, bool useAtStart)
{
    if (mir->isConstant()) {
#if defined(JS_NUNBOX32)
        return LInt64Allocation(LAllocation(mir->toConstant()), LAllocation());
#else
        return LInt64Allocation(LAllocation(mir->toConstant()));
#endif
    }
    return useInt64(mir, useAtStart);
}

LInt64Allocation
LIRGeneratorShared::useInt64RegisterOrConstant(MDefinition* mir, bool useAtStart)
{
    if (mir->isConstant()) {
#if defined(JS_NUNBOX32)
        return LInt64Allocation(LAllocation(mir->toConstant()), LAllocation());
#else
        return LInt64Allocation(LAllocation(mir->toConstant()));
#endif
    }
    return useInt64Register(mir, useAtStart);
}

} // namespace jit
} // namespace js

#endif /* jit_shared_Lowering_shared_inl_h */