dynarmic/src/frontend/ir/microinstruction.cpp

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/* This file is part of the dynarmic project.
* Copyright (c) 2016 MerryMage
* This software may be used and distributed according to the terms of the GNU
* General Public License version 2 or any later version.
*/
#include <algorithm>
#include "common/assert.h"
#include "frontend/ir/microinstruction.h"
#include "frontend/ir/opcodes.h"
#include "frontend/ir/type.h"
namespace Dynarmic::IR {
bool Inst::IsArithmeticShift() const {
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return op == Opcode::ArithmeticShiftRight32 ||
op == Opcode::ArithmeticShiftRight64;
}
bool Inst::IsCircularShift() const {
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return op == Opcode::RotateRight32 ||
op == Opcode::RotateRight64 ||
op == Opcode::RotateRightExtended;
}
bool Inst::IsLogicalShift() const {
switch (op) {
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case Opcode::LogicalShiftLeft32:
case Opcode::LogicalShiftLeft64:
case Opcode::LogicalShiftRight32:
case Opcode::LogicalShiftRight64:
return true;
default:
return false;
}
}
bool Inst::IsShift() const {
return IsArithmeticShift() ||
IsCircularShift() ||
IsLogicalShift();
}
bool Inst::IsSharedMemoryRead() const {
switch (op) {
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case Opcode::A32ReadMemory8:
case Opcode::A32ReadMemory16:
case Opcode::A32ReadMemory32:
case Opcode::A32ReadMemory64:
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case Opcode::A64ReadMemory8:
case Opcode::A64ReadMemory16:
case Opcode::A64ReadMemory32:
case Opcode::A64ReadMemory64:
case Opcode::A64ReadMemory128:
return true;
default:
return false;
}
}
bool Inst::IsSharedMemoryWrite() const {
switch (op) {
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case Opcode::A32WriteMemory8:
case Opcode::A32WriteMemory16:
case Opcode::A32WriteMemory32:
case Opcode::A32WriteMemory64:
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case Opcode::A64WriteMemory8:
case Opcode::A64WriteMemory16:
case Opcode::A64WriteMemory32:
case Opcode::A64WriteMemory64:
case Opcode::A64WriteMemory128:
return true;
default:
return false;
}
}
bool Inst::IsSharedMemoryReadOrWrite() const {
return IsSharedMemoryRead() || IsSharedMemoryWrite();
}
bool Inst::IsExclusiveMemoryWrite() const {
switch (op) {
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case Opcode::A32ExclusiveWriteMemory8:
case Opcode::A32ExclusiveWriteMemory16:
case Opcode::A32ExclusiveWriteMemory32:
case Opcode::A32ExclusiveWriteMemory64:
case Opcode::A64ExclusiveWriteMemory8:
case Opcode::A64ExclusiveWriteMemory16:
case Opcode::A64ExclusiveWriteMemory32:
case Opcode::A64ExclusiveWriteMemory64:
case Opcode::A64ExclusiveWriteMemory128:
return true;
default:
return false;
}
}
bool Inst::IsMemoryRead() const {
return IsSharedMemoryRead();
}
bool Inst::IsMemoryWrite() const {
return IsSharedMemoryWrite() || IsExclusiveMemoryWrite();
}
bool Inst::IsMemoryReadOrWrite() const {
return IsMemoryRead() || IsMemoryWrite();
}
bool Inst::ReadsFromCPSR() const {
switch (op) {
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case Opcode::A32GetCpsr:
case Opcode::A32GetNFlag:
case Opcode::A32GetZFlag:
case Opcode::A32GetCFlag:
case Opcode::A32GetVFlag:
case Opcode::A32GetGEFlags:
case Opcode::A64GetCFlag:
case Opcode::ConditionalSelect32:
case Opcode::ConditionalSelect64:
case Opcode::ConditionalSelectNZCV:
return true;
default:
return false;
}
}
bool Inst::WritesToCPSR() const {
switch (op) {
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case Opcode::A32SetCpsr:
case Opcode::A32SetCpsrNZCV:
case Opcode::A32SetCpsrNZCVQ:
case Opcode::A32SetNFlag:
case Opcode::A32SetZFlag:
case Opcode::A32SetCFlag:
case Opcode::A32SetVFlag:
case Opcode::A32OrQFlag:
case Opcode::A32SetGEFlags:
case Opcode::A32SetGEFlagsCompressed:
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case Opcode::A64SetNZCV:
return true;
default:
return false;
}
}
bool Inst::WritesToSystemRegister() const {
switch (op) {
case Opcode::A64SetTPIDR:
return true;
default:
return false;
}
}
bool Inst::ReadsFromCoreRegister() const {
switch (op) {
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case Opcode::A32GetRegister:
case Opcode::A32GetExtendedRegister32:
case Opcode::A32GetExtendedRegister64:
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case Opcode::A64GetW:
case Opcode::A64GetX:
case Opcode::A64GetS:
case Opcode::A64GetD:
case Opcode::A64GetQ:
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case Opcode::A64GetSP:
return true;
default:
return false;
}
}
bool Inst::WritesToCoreRegister() const {
switch (op) {
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case Opcode::A32SetRegister:
case Opcode::A32SetExtendedRegister32:
case Opcode::A32SetExtendedRegister64:
case Opcode::A32BXWritePC:
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case Opcode::A64SetW:
case Opcode::A64SetX:
case Opcode::A64SetS:
case Opcode::A64SetD:
case Opcode::A64SetQ:
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case Opcode::A64SetSP:
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case Opcode::A64SetPC:
return true;
default:
return false;
}
}
bool Inst::ReadsFromFPCR() const {
switch (op) {
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case Opcode::A32GetFpscr:
case Opcode::A32GetFpscrNZCV:
case Opcode::A64GetFPCR:
return true;
default:
return false;
}
}
bool Inst::WritesToFPCR() const {
switch (op) {
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case Opcode::A32SetFpscr:
case Opcode::A32SetFpscrNZCV:
case Opcode::A64SetFPCR:
return true;
default:
return false;
}
}
bool Inst::ReadsFromFPSR() const {
return op == Opcode::A32GetFpscr ||
op == Opcode::A32GetFpscrNZCV ||
op == Opcode::A64GetFPSR ||
ReadsFromFPSRCumulativeExceptionBits() ||
ReadsFromFPSRCumulativeSaturationBit();
}
bool Inst::WritesToFPSR() const {
return op == Opcode::A32SetFpscr ||
op == Opcode::A32SetFpscrNZCV ||
op == Opcode::A64SetFPSR ||
WritesToFPSRCumulativeExceptionBits() ||
WritesToFPSRCumulativeSaturationBit();
}
bool Inst::ReadsFromFPSRCumulativeExceptionBits() const {
return ReadsFromAndWritesToFPSRCumulativeExceptionBits();
}
bool Inst::WritesToFPSRCumulativeExceptionBits() const {
return ReadsFromAndWritesToFPSRCumulativeExceptionBits();
}
bool Inst::ReadsFromAndWritesToFPSRCumulativeExceptionBits() const {
switch (op) {
case Opcode::FPAbs32:
case Opcode::FPAbs64:
case Opcode::FPAdd32:
case Opcode::FPAdd64:
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case Opcode::FPCompare32:
case Opcode::FPCompare64:
case Opcode::FPDiv32:
case Opcode::FPDiv64:
case Opcode::FPMax32:
case Opcode::FPMax64:
case Opcode::FPMaxNumeric32:
case Opcode::FPMaxNumeric64:
case Opcode::FPMin32:
case Opcode::FPMin64:
case Opcode::FPMinNumeric32:
case Opcode::FPMinNumeric64:
case Opcode::FPMul32:
case Opcode::FPMul64:
case Opcode::FPMulAdd32:
case Opcode::FPMulAdd64:
case Opcode::FPNeg32:
case Opcode::FPNeg64:
case Opcode::FPRoundInt32:
case Opcode::FPRoundInt64:
case Opcode::FPRSqrtEstimate32:
case Opcode::FPRSqrtEstimate64:
case Opcode::FPRSqrtStepFused32:
case Opcode::FPRSqrtStepFused64:
case Opcode::FPSqrt32:
case Opcode::FPSqrt64:
case Opcode::FPSub32:
case Opcode::FPSub64:
case Opcode::FPSingleToDouble:
case Opcode::FPDoubleToSingle:
case Opcode::FPDoubleToFixedS32:
case Opcode::FPDoubleToFixedS64:
case Opcode::FPDoubleToFixedU32:
case Opcode::FPDoubleToFixedU64:
case Opcode::FPSingleToFixedS32:
case Opcode::FPSingleToFixedS64:
case Opcode::FPSingleToFixedU32:
case Opcode::FPSingleToFixedU64:
case Opcode::FPU32ToSingle:
case Opcode::FPS32ToSingle:
case Opcode::FPU32ToDouble:
case Opcode::FPU64ToDouble:
case Opcode::FPU64ToSingle:
case Opcode::FPS32ToDouble:
case Opcode::FPS64ToDouble:
case Opcode::FPS64ToSingle:
case Opcode::FPVectorAbs16:
case Opcode::FPVectorAbs32:
case Opcode::FPVectorAbs64:
case Opcode::FPVectorAdd32:
case Opcode::FPVectorAdd64:
case Opcode::FPVectorDiv32:
case Opcode::FPVectorDiv64:
case Opcode::FPVectorEqual32:
case Opcode::FPVectorEqual64:
case Opcode::FPVectorGreater32:
case Opcode::FPVectorGreater64:
case Opcode::FPVectorGreaterEqual32:
case Opcode::FPVectorGreaterEqual64:
case Opcode::FPVectorMul32:
case Opcode::FPVectorMul64:
case Opcode::FPVectorPairedAddLower32:
case Opcode::FPVectorPairedAddLower64:
case Opcode::FPVectorPairedAdd32:
case Opcode::FPVectorPairedAdd64:
case Opcode::FPVectorRSqrtEstimate32:
case Opcode::FPVectorRSqrtEstimate64:
case Opcode::FPVectorRSqrtStepFused32:
case Opcode::FPVectorRSqrtStepFused64:
case Opcode::FPVectorS32ToSingle:
case Opcode::FPVectorS64ToDouble:
case Opcode::FPVectorSub32:
case Opcode::FPVectorSub64:
case Opcode::FPVectorU32ToSingle:
case Opcode::FPVectorU64ToDouble:
return true;
default:
return false;
}
}
bool Inst::ReadsFromFPSRCumulativeSaturationBit() const {
return false;
}
bool Inst::WritesToFPSRCumulativeSaturationBit() const {
return false;
}
bool Inst::CausesCPUException() const {
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return op == Opcode::Breakpoint ||
op == Opcode::A32CallSupervisor ||
op == Opcode::A64CallSupervisor ||
op == Opcode::A64ExceptionRaised;
}
bool Inst::AltersExclusiveState() const {
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return op == Opcode::A32ClearExclusive ||
op == Opcode::A32SetExclusive ||
op == Opcode::A64ClearExclusive ||
op == Opcode::A64SetExclusive ||
IsExclusiveMemoryWrite();
}
bool Inst::IsCoprocessorInstruction() const {
switch (op) {
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case Opcode::A32CoprocInternalOperation:
case Opcode::A32CoprocSendOneWord:
case Opcode::A32CoprocSendTwoWords:
case Opcode::A32CoprocGetOneWord:
case Opcode::A32CoprocGetTwoWords:
case Opcode::A32CoprocLoadWords:
case Opcode::A32CoprocStoreWords:
return true;
default:
return false;
}
}
bool Inst::MayHaveSideEffects() const {
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return op == Opcode::PushRSB ||
op == Opcode::A64SetCheckBit ||
op == Opcode::A64DataCacheOperationRaised ||
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op == Opcode::A64DataSynchronizationBarrier ||
op == Opcode::A64DataMemoryBarrier ||
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CausesCPUException() ||
WritesToCoreRegister() ||
WritesToSystemRegister() ||
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WritesToCPSR() ||
WritesToFPCR() ||
WritesToFPSR() ||
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AltersExclusiveState() ||
IsMemoryWrite() ||
IsCoprocessorInstruction();
}
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bool Inst::IsAPseudoOperation() const {
switch (op) {
case Opcode::GetCarryFromOp:
case Opcode::GetOverflowFromOp:
case Opcode::GetGEFromOp:
case Opcode::GetNZCVFromOp:
return true;
default:
return false;
}
}
bool Inst::MayGetNZCVFromOp() const {
switch (op) {
case Opcode::Add32:
case Opcode::Add64:
case Opcode::Sub32:
case Opcode::Sub64:
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case Opcode::And32:
case Opcode::And64:
case Opcode::Eor32:
case Opcode::Eor64:
case Opcode::Or32:
case Opcode::Or64:
case Opcode::Not32:
case Opcode::Not64:
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return true;
default:
return false;
}
}
bool Inst::AreAllArgsImmediates() const {
return std::all_of(args.begin(), args.begin() + NumArgs(), [](const auto& value){ return value.IsImmediate(); });
}
bool Inst::HasAssociatedPseudoOperation() const {
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return carry_inst || overflow_inst || ge_inst || nzcv_inst;
}
Inst* Inst::GetAssociatedPseudoOperation(Opcode opcode) {
// This is faster than doing a search through the block.
switch (opcode) {
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case Opcode::GetCarryFromOp:
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ASSERT(!carry_inst || carry_inst->GetOpcode() == Opcode::GetCarryFromOp);
return carry_inst;
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case Opcode::GetOverflowFromOp:
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ASSERT(!overflow_inst || overflow_inst->GetOpcode() == Opcode::GetOverflowFromOp);
return overflow_inst;
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case Opcode::GetGEFromOp:
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ASSERT(!ge_inst || ge_inst->GetOpcode() == Opcode::GetGEFromOp);
return ge_inst;
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case Opcode::GetNZCVFromOp:
ASSERT(!nzcv_inst || nzcv_inst->GetOpcode() == Opcode::GetNZCVFromOp);
return nzcv_inst;
default:
break;
}
ASSERT_MSG(false, "Not a valid pseudo-operation");
return nullptr;
}
Type Inst::GetType() const {
if (op == Opcode::Identity)
return args[0].GetType();
return GetTypeOf(op);
}
size_t Inst::NumArgs() const {
return GetNumArgsOf(op);
}
Value Inst::GetArg(size_t index) const {
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ASSERT(index < GetNumArgsOf(op));
ASSERT(!args[index].IsEmpty());
return args[index];
}
void Inst::SetArg(size_t index, Value value) {
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ASSERT(index < GetNumArgsOf(op));
ASSERT(AreTypesCompatible(value.GetType(), GetArgTypeOf(op, index)));
if (!args[index].IsImmediate()) {
UndoUse(args[index]);
}
if (!value.IsImmediate()) {
Use(value);
}
args[index] = value;
}
void Inst::Invalidate() {
ClearArgs();
op = Opcode::Void;
}
void Inst::ClearArgs() {
for (auto& value : args) {
if (!value.IsImmediate()) {
UndoUse(value);
}
value = {};
}
}
void Inst::ReplaceUsesWith(Value replacement) {
Invalidate();
op = Opcode::Identity;
if (!replacement.IsImmediate()) {
Use(replacement);
}
args[0] = replacement;
}
void Inst::Use(const Value& value) {
value.GetInst()->use_count++;
switch (op){
case Opcode::GetCarryFromOp:
ASSERT_MSG(!value.GetInst()->carry_inst, "Only one of each type of pseudo-op allowed");
value.GetInst()->carry_inst = this;
break;
case Opcode::GetOverflowFromOp:
ASSERT_MSG(!value.GetInst()->overflow_inst, "Only one of each type of pseudo-op allowed");
value.GetInst()->overflow_inst = this;
break;
case Opcode::GetGEFromOp:
ASSERT_MSG(!value.GetInst()->ge_inst, "Only one of each type of pseudo-op allowed");
value.GetInst()->ge_inst = this;
break;
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case Opcode::GetNZCVFromOp:
ASSERT_MSG(!value.GetInst()->nzcv_inst, "Only one of each type of pseudo-op allowed");
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ASSERT_MSG(value.GetInst()->MayGetNZCVFromOp(), "This value doesn't support the GetNZCVFromOp pseduo-op");
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value.GetInst()->nzcv_inst = this;
break;
default:
break;
}
}
void Inst::UndoUse(const Value& value) {
value.GetInst()->use_count--;
switch (op){
case Opcode::GetCarryFromOp:
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ASSERT(value.GetInst()->carry_inst->GetOpcode() == Opcode::GetCarryFromOp);
value.GetInst()->carry_inst = nullptr;
break;
case Opcode::GetOverflowFromOp:
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ASSERT(value.GetInst()->overflow_inst->GetOpcode() == Opcode::GetOverflowFromOp);
value.GetInst()->overflow_inst = nullptr;
break;
case Opcode::GetGEFromOp:
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ASSERT(value.GetInst()->ge_inst->GetOpcode() == Opcode::GetGEFromOp);
value.GetInst()->ge_inst = nullptr;
break;
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case Opcode::GetNZCVFromOp:
ASSERT(value.GetInst()->nzcv_inst->GetOpcode() == Opcode::GetNZCVFromOp);
value.GetInst()->nzcv_inst = nullptr;
break;
default:
break;
}
}
} // namespace Dynarmic::IR