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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/. */
#include "jit/arm64/MoveEmitter-arm64.h"
#include "jit/MacroAssembler-inl.h"
using namespace js;
using namespace js::jit;
MemOperand
MoveEmitterARM64::toMemOperand(const MoveOperand& operand) const
{
MOZ_ASSERT(operand.isMemory());
ARMRegister base(operand.base(), 64);
if (operand.base() == masm.getStackPointer())
return MemOperand(base, operand.disp() + (masm.framePushed() - pushedAtStart_));
return MemOperand(base, operand.disp());
}
void
MoveEmitterARM64::emit(const MoveResolver& moves)
{
if (moves.numCycles()) {
masm.reserveStack(sizeof(void*));
pushedAtCycle_ = masm.framePushed();
}
for (size_t i = 0; i < moves.numMoves(); i++)
emitMove(moves.getMove(i));
}
void
MoveEmitterARM64::finish()
{
assertDone();
masm.freeStack(masm.framePushed() - pushedAtStart_);
MOZ_ASSERT(masm.framePushed() == pushedAtStart_);
}
void
MoveEmitterARM64::emitMove(const MoveOp& move)
{
const MoveOperand& from = move.from();
const MoveOperand& to = move.to();
if (move.isCycleBegin()) {
MOZ_ASSERT(!inCycle_ && !move.isCycleEnd());
breakCycle(from, to, move.endCycleType());
inCycle_ = true;
} else if (move.isCycleEnd()) {
MOZ_ASSERT(inCycle_);
completeCycle(from, to, move.type());
inCycle_ = false;
return;
}
switch (move.type()) {
case MoveOp::FLOAT32:
emitFloat32Move(from, to);
break;
case MoveOp::DOUBLE:
emitDoubleMove(from, to);
break;
case MoveOp::INT32:
emitInt32Move(from, to);
break;
case MoveOp::GENERAL:
emitGeneralMove(from, to);
break;
default:
MOZ_CRASH("Unexpected move type");
}
}
void
MoveEmitterARM64::emitFloat32Move(const MoveOperand& from, const MoveOperand& to)
{
if (from.isFloatReg()) {
if (to.isFloatReg())
masm.Fmov(toFPReg(to, MoveOp::FLOAT32), toFPReg(from, MoveOp::FLOAT32));
else
masm.Str(toFPReg(from, MoveOp::FLOAT32), toMemOperand(to));
return;
}
if (to.isFloatReg()) {
masm.Ldr(toFPReg(to, MoveOp::FLOAT32), toMemOperand(from));
return;
}
vixl::UseScratchRegisterScope temps(&masm.asVIXL());
const ARMFPRegister scratch32 = temps.AcquireS();
masm.Ldr(scratch32, toMemOperand(from));
masm.Str(scratch32, toMemOperand(to));
}
void
MoveEmitterARM64::emitDoubleMove(const MoveOperand& from, const MoveOperand& to)
{
if (from.isFloatReg()) {
if (to.isFloatReg())
masm.Fmov(toFPReg(to, MoveOp::DOUBLE), toFPReg(from, MoveOp::DOUBLE));
else
masm.Str(toFPReg(from, MoveOp::DOUBLE), toMemOperand(to));
return;
}
if (to.isFloatReg()) {
masm.Ldr(toFPReg(to, MoveOp::DOUBLE), toMemOperand(from));
return;
}
vixl::UseScratchRegisterScope temps(&masm.asVIXL());
const ARMFPRegister scratch = temps.AcquireD();
masm.Ldr(scratch, toMemOperand(from));
masm.Str(scratch, toMemOperand(to));
}
void
MoveEmitterARM64::emitInt32Move(const MoveOperand& from, const MoveOperand& to)
{
if (from.isGeneralReg()) {
if (to.isGeneralReg())
masm.Mov(toARMReg32(to), toARMReg32(from));
else
masm.Str(toARMReg32(from), toMemOperand(to));
return;
}
if (to.isGeneralReg()) {
masm.Ldr(toARMReg32(to), toMemOperand(from));
return;
}
vixl::UseScratchRegisterScope temps(&masm.asVIXL());
const ARMRegister scratch32 = temps.AcquireW();
masm.Ldr(scratch32, toMemOperand(from));
masm.Str(scratch32, toMemOperand(to));
}
void
MoveEmitterARM64::emitGeneralMove(const MoveOperand& from, const MoveOperand& to)
{
if (from.isGeneralReg()) {
MOZ_ASSERT(to.isGeneralReg() || to.isMemory());
if (to.isGeneralReg())
masm.Mov(toARMReg64(to), toARMReg64(from));
else
masm.Str(toARMReg64(from), toMemOperand(to));
return;
}
// {Memory OR EffectiveAddress} -> Register move.
if (to.isGeneralReg()) {
MOZ_ASSERT(from.isMemoryOrEffectiveAddress());
if (from.isMemory())
masm.Ldr(toARMReg64(to), toMemOperand(from));
else
masm.Add(toARMReg64(to), toARMReg64(from), Operand(from.disp()));
return;
}
vixl::UseScratchRegisterScope temps(&masm.asVIXL());
const ARMRegister scratch64 = temps.AcquireX();
// Memory -> Memory move.
if (from.isMemory()) {
MOZ_ASSERT(to.isMemory());
masm.Ldr(scratch64, toMemOperand(from));
masm.Str(scratch64, toMemOperand(to));
return;
}
// EffectiveAddress -> Memory move.
MOZ_ASSERT(from.isEffectiveAddress());
MOZ_ASSERT(to.isMemory());
masm.Add(scratch64, toARMReg64(from), Operand(from.disp()));
masm.Str(scratch64, toMemOperand(to));
}
MemOperand
MoveEmitterARM64::cycleSlot()
{
// Using SP as stack pointer requires alignment preservation below.
MOZ_ASSERT(!masm.GetStackPointer64().Is(sp));
// emit() already allocated a slot for resolving the cycle.
MOZ_ASSERT(pushedAtCycle_ != -1);
return MemOperand(masm.GetStackPointer64(), masm.framePushed() - pushedAtCycle_);
}
void
MoveEmitterARM64::breakCycle(const MoveOperand& from, const MoveOperand& to, MoveOp::Type type)
{
switch (type) {
case MoveOp::FLOAT32:
if (to.isMemory()) {
vixl::UseScratchRegisterScope temps(&masm.asVIXL());
const ARMFPRegister scratch32 = temps.AcquireS();
masm.Ldr(scratch32, toMemOperand(to));
masm.Str(scratch32, cycleSlot());
} else {
masm.Str(toFPReg(to, type), cycleSlot());
}
break;
case MoveOp::DOUBLE:
if (to.isMemory()) {
vixl::UseScratchRegisterScope temps(&masm.asVIXL());
const ARMFPRegister scratch64 = temps.AcquireD();
masm.Ldr(scratch64, toMemOperand(to));
masm.Str(scratch64, cycleSlot());
} else {
masm.Str(toFPReg(to, type), cycleSlot());
}
break;
case MoveOp::INT32:
if (to.isMemory()) {
vixl::UseScratchRegisterScope temps(&masm.asVIXL());
const ARMRegister scratch32 = temps.AcquireW();
masm.Ldr(scratch32, toMemOperand(to));
masm.Str(scratch32, cycleSlot());
} else {
masm.Str(toARMReg32(to), cycleSlot());
}
break;
case MoveOp::GENERAL:
if (to.isMemory()) {
vixl::UseScratchRegisterScope temps(&masm.asVIXL());
const ARMRegister scratch64 = temps.AcquireX();
masm.Ldr(scratch64, toMemOperand(to));
masm.Str(scratch64, cycleSlot());
} else {
masm.Str(toARMReg64(to), cycleSlot());
}
break;
default:
MOZ_CRASH("Unexpected move type");
}
}
void
MoveEmitterARM64::completeCycle(const MoveOperand& from, const MoveOperand& to, MoveOp::Type type)
{
switch (type) {
case MoveOp::FLOAT32:
if (to.isMemory()) {
vixl::UseScratchRegisterScope temps(&masm.asVIXL());
const ARMFPRegister scratch32 = temps.AcquireS();
masm.Ldr(scratch32, cycleSlot());
masm.Str(scratch32, toMemOperand(to));
} else {
masm.Ldr(toFPReg(to, type), cycleSlot());
}
break;
case MoveOp::DOUBLE:
if (to.isMemory()) {
vixl::UseScratchRegisterScope temps(&masm.asVIXL());
const ARMFPRegister scratch = temps.AcquireD();
masm.Ldr(scratch, cycleSlot());
masm.Str(scratch, toMemOperand(to));
} else {
masm.Ldr(toFPReg(to, type), cycleSlot());
}
break;
case MoveOp::INT32:
if (to.isMemory()) {
vixl::UseScratchRegisterScope temps(&masm.asVIXL());
const ARMRegister scratch32 = temps.AcquireW();
masm.Ldr(scratch32, cycleSlot());
masm.Str(scratch32, toMemOperand(to));
} else {
masm.Ldr(toARMReg64(to), cycleSlot());
}
break;
case MoveOp::GENERAL:
if (to.isMemory()) {
vixl::UseScratchRegisterScope temps(&masm.asVIXL());
const ARMRegister scratch64 = temps.AcquireX();
masm.Ldr(scratch64, cycleSlot());
masm.Str(scratch64, toMemOperand(to));
} else {
masm.Ldr(toARMReg64(to), cycleSlot());
}
break;
default:
MOZ_CRASH("Unexpected move type");
}
}
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