dynarmic/src/frontend/ir/ir_emitter.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.
*/
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#include "common/assert.h"
#include "frontend/ir/ir_emitter.h"
#include "frontend/ir/opcodes.h"
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namespace Dynarmic {
namespace IR {
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U1 IREmitter::Imm1(bool imm1) {
return U1(Value(imm1));
}
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U8 IREmitter::Imm8(u8 imm8) {
return U8(Value(imm8));
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}
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U32 IREmitter::Imm32(u32 imm32) {
return U32(Value(imm32));
}
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U64 IREmitter::Imm64(u64 imm64) {
return U64(Value(imm64));
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}
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void IREmitter::PushRSB(const LocationDescriptor& return_location) {
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Inst(Opcode::PushRSB, IR::Value(return_location.Value()));
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}
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U64 IREmitter::Pack2x32To1x64(const U32& lo, const U32& hi) {
return Inst<U64>(Opcode::Pack2x32To1x64, lo, hi);
}
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U32 IREmitter::LeastSignificantWord(const U64& value) {
return Inst<U32>(Opcode::LeastSignificantWord, value);
}
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ResultAndCarry<U32> IREmitter::MostSignificantWord(const U64& value) {
auto result = Inst<U32>(Opcode::MostSignificantWord, value);
auto carry_out = Inst<U1>(Opcode::GetCarryFromOp, result);
return {result, carry_out};
}
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U16 IREmitter::LeastSignificantHalf(U32U64 value) {
if (value.GetType() == Type::U64) {
value = LeastSignificantWord(value);
}
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return Inst<U16>(Opcode::LeastSignificantHalf, value);
}
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U8 IREmitter::LeastSignificantByte(U32U64 value) {
if (value.GetType() == Type::U64) {
value = LeastSignificantWord(value);
}
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return Inst<U8>(Opcode::LeastSignificantByte, value);
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}
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U1 IREmitter::MostSignificantBit(const U32& value) {
return Inst<U1>(Opcode::MostSignificantBit, value);
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}
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U1 IREmitter::IsZero(const U32& value) {
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return Inst<U1>(Opcode::IsZero32, value);
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}
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U1 IREmitter::IsZero(const U64& value) {
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return Inst<U1>(Opcode::IsZero64, value);
}
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U1 IREmitter::IsZero(const U32U64& value) {
if (value.GetType() == Type::U32) {
return Inst<U1>(Opcode::IsZero32, value);
} else {
return Inst<U1>(Opcode::IsZero64, value);
}
}
U1 IREmitter::TestBit(const U32U64& value, const U8& bit) {
if (value.GetType() == Type::U32) {
return Inst<U1>(Opcode::TestBit, IndeterminateExtendToLong(value), bit);
} else {
return Inst<U1>(Opcode::TestBit, value, bit);
}
}
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U32 IREmitter::ConditionalSelect(Cond cond, const U32& a, const U32& b) {
return Inst<U32>(Opcode::ConditionalSelect32, Value{cond}, a, b);
}
U64 IREmitter::ConditionalSelect(Cond cond, const U64& a, const U64& b) {
return Inst<U64>(Opcode::ConditionalSelect64, Value{cond}, a, b);
}
U32U64 IREmitter::ConditionalSelect(Cond cond, const U32U64& a, const U32U64& b) {
ASSERT(a.GetType() == b.GetType());
if (a.GetType() == Type::U32) {
return Inst<U32>(Opcode::ConditionalSelect32, Value{cond}, a, b);
} else {
return Inst<U64>(Opcode::ConditionalSelect64, Value{cond}, a, b);
}
}
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NZCV IREmitter::NZCVFrom(const Value& value) {
return Inst<NZCV>(Opcode::GetNZCVFromOp, value);
}
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ResultAndCarry<U32> IREmitter::LogicalShiftLeft(const U32& value_in, const U8& shift_amount, const U1& carry_in) {
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auto result = Inst<U32>(Opcode::LogicalShiftLeft32, value_in, shift_amount, carry_in);
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auto carry_out = Inst<U1>(Opcode::GetCarryFromOp, result);
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return {result, carry_out};
}
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ResultAndCarry<U32> IREmitter::LogicalShiftRight(const U32& value_in, const U8& shift_amount, const U1& carry_in) {
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auto result = Inst<U32>(Opcode::LogicalShiftRight32, value_in, shift_amount, carry_in);
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auto carry_out = Inst<U1>(Opcode::GetCarryFromOp, result);
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return {result, carry_out};
}
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ResultAndCarry<U32> IREmitter::ArithmeticShiftRight(const U32& value_in, const U8& shift_amount, const U1& carry_in) {
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auto result = Inst<U32>(Opcode::ArithmeticShiftRight32, value_in, shift_amount, carry_in);
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auto carry_out = Inst<U1>(Opcode::GetCarryFromOp, result);
return {result, carry_out};
}
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ResultAndCarry<U32> IREmitter::RotateRight(const U32& value_in, const U8& shift_amount, const U1& carry_in) {
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auto result = Inst<U32>(Opcode::RotateRight32, value_in, shift_amount, carry_in);
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auto carry_out = Inst<U1>(Opcode::GetCarryFromOp, result);
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return {result, carry_out};
}
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ResultAndCarry<U32> IREmitter::RotateRightExtended(const U32& value_in, const U1& carry_in) {
auto result = Inst<U32>(Opcode::RotateRightExtended, value_in, carry_in);
auto carry_out = Inst<U1>(Opcode::GetCarryFromOp, result);
return {result, carry_out};
}
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U32 IREmitter::LogicalShiftLeft(const U32& value_in, const U8& shift_amount) {
return Inst<U32>(Opcode::LogicalShiftLeft32, value_in, shift_amount, Imm1(0));
}
U64 IREmitter::LogicalShiftLeft(const U64& value_in, const U8& shift_amount) {
return Inst<U64>(Opcode::LogicalShiftLeft64, value_in, shift_amount);
}
U32 IREmitter::LogicalShiftRight(const U32& value_in, const U8& shift_amount) {
return Inst<U32>(Opcode::LogicalShiftRight32, value_in, shift_amount, Imm1(0));
}
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U64 IREmitter::LogicalShiftRight(const U64& value_in, const U8& shift_amount) {
return Inst<U64>(Opcode::LogicalShiftRight64, value_in, shift_amount);
}
U32U64 IREmitter::LogicalShiftLeft(const U32U64& value_in, const U8& shift_amount) {
if (value_in.GetType() == Type::U32) {
return Inst<U32>(Opcode::LogicalShiftLeft32, value_in, shift_amount, Imm1(0));
} else {
return Inst<U64>(Opcode::LogicalShiftLeft64, value_in, shift_amount);
}
}
U32U64 IREmitter::LogicalShiftRight(const U32U64& value_in, const U8& shift_amount) {
if (value_in.GetType() == Type::U32) {
return Inst<U32>(Opcode::LogicalShiftRight32, value_in, shift_amount, Imm1(0));
} else {
return Inst<U64>(Opcode::LogicalShiftRight64, value_in, shift_amount);
}
}
U32U64 IREmitter::ArithmeticShiftRight(const U32U64& value_in, const U8& shift_amount) {
if (value_in.GetType() == Type::U32) {
return Inst<U32>(Opcode::ArithmeticShiftRight32, value_in, shift_amount, Imm1(0));
} else {
return Inst<U64>(Opcode::ArithmeticShiftRight64, value_in, shift_amount);
}
}
U32U64 IREmitter::RotateRight(const U32U64& value_in, const U8& shift_amount) {
if (value_in.GetType() == Type::U32) {
return Inst<U32>(Opcode::RotateRight32, value_in, shift_amount, Imm1(0));
} else {
return Inst<U64>(Opcode::RotateRight64, value_in, shift_amount);
}
}
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ResultAndCarryAndOverflow<U32> IREmitter::AddWithCarry(const U32& a, const U32& b, const U1& carry_in) {
auto result = Inst<U32>(Opcode::Add32, a, b, carry_in);
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auto carry_out = Inst<U1>(Opcode::GetCarryFromOp, result);
auto overflow = Inst<U1>(Opcode::GetOverflowFromOp, result);
return {result, carry_out, overflow};
}
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U32U64 IREmitter::AddWithCarry(const U32U64& a, const U32U64& b, const U1& carry_in) {
ASSERT(a.GetType() == b.GetType());
if (a.GetType() == Type::U32) {
return Inst<U32>(Opcode::Add32, a, b, carry_in);
} else {
return Inst<U64>(Opcode::Add64, a, b, carry_in);
}
}
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U32 IREmitter::Add(const U32& a, const U32& b) {
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return Inst<U32>(Opcode::Add32, a, b, Imm1(0));
}
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U64 IREmitter::Add(const U64& a, const U64& b) {
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return Inst<U64>(Opcode::Add64, a, b, Imm1(0));
}
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U32U64 IREmitter::Add(const U32U64& a, const U32U64& b) {
ASSERT(a.GetType() == b.GetType());
if (a.GetType() == Type::U32) {
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return Inst<U32>(Opcode::Add32, a, b, Imm1(0));
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} else {
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return Inst<U64>(Opcode::Add64, a, b, Imm1(0));
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}
}
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ResultAndCarryAndOverflow<U32> IREmitter::SubWithCarry(const U32& a, const U32& b, const U1& carry_in) {
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// This is equivalent to AddWithCarry(a, Not(b), carry_in).
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auto result = Inst<U32>(Opcode::Sub32, a, b, carry_in);
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auto carry_out = Inst<U1>(Opcode::GetCarryFromOp, result);
auto overflow = Inst<U1>(Opcode::GetOverflowFromOp, result);
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return {result, carry_out, overflow};
}
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U32U64 IREmitter::SubWithCarry(const U32U64& a, const U32U64& b, const U1& carry_in) {
ASSERT(a.GetType() == b.GetType());
if (a.GetType() == Type::U32) {
return Inst<U32>(Opcode::Sub32, a, b, carry_in);
} else {
return Inst<U64>(Opcode::Sub64, a, b, carry_in);
}
}
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U32 IREmitter::Sub(const U32& a, const U32& b) {
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return Inst<U32>(Opcode::Sub32, a, b, Imm1(1));
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}
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U64 IREmitter::Sub(const U64& a, const U64& b) {
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return Inst<U64>(Opcode::Sub64, a, b, Imm1(1));
}
U32U64 IREmitter::Sub(const U32U64& a, const U32U64& b) {
ASSERT(a.GetType() == b.GetType());
if (a.GetType() == Type::U32) {
return Inst<U32>(Opcode::Sub32, a, b, Imm1(1));
} else {
return Inst<U64>(Opcode::Sub64, a, b, Imm1(1));
}
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}
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U32 IREmitter::Mul(const U32& a, const U32& b) {
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return Inst<U32>(Opcode::Mul32, a, b);
}
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U64 IREmitter::Mul(const U64& a, const U64& b) {
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return Inst<U64>(Opcode::Mul64, a, b);
}
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U32U64 IREmitter::Mul(const U32U64& a, const U32U64& b) {
if (a.GetType() == Type::U32) {
return Inst<U32>(Opcode::Mul32, a, b);
}
return Inst<U64>(Opcode::Mul64, a, b);
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}
U32 IREmitter::UnsignedDiv(const U32& a, const U32& b) {
return Inst<U32>(Opcode::UnsignedDiv32, a, b);
}
U64 IREmitter::UnsignedDiv(const U64& a, const U64& b) {
return Inst<U64>(Opcode::UnsignedDiv64, a, b);
}
U32U64 IREmitter::UnsignedDiv(const U32U64& a, const U32U64& b) {
if (a.GetType() == Type::U32) {
return Inst<U32>(Opcode::UnsignedDiv32, a, b);
}
return Inst<U64>(Opcode::UnsignedDiv64, a, b);
}
U32 IREmitter::SignedDiv(const U32& a, const U32& b) {
return Inst<U32>(Opcode::SignedDiv32, a, b);
}
U64 IREmitter::SignedDiv(const U64& a, const U64& b) {
return Inst<U64>(Opcode::SignedDiv64, a, b);
}
U32U64 IREmitter::SignedDiv(const U32U64& a, const U32U64& b) {
if (a.GetType() == Type::U32) {
return Inst<U32>(Opcode::SignedDiv32, a, b);
}
return Inst<U64>(Opcode::SignedDiv64, a, b);
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}
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U32 IREmitter::And(const U32& a, const U32& b) {
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return Inst<U32>(Opcode::And32, a, b);
}
U32U64 IREmitter::And(const U32U64& a, const U32U64& b) {
ASSERT(a.GetType() == b.GetType());
if (a.GetType() == Type::U32) {
return Inst<U32>(Opcode::And32, a, b);
} else {
return Inst<U64>(Opcode::And64, a, b);
}
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}
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U32 IREmitter::Eor(const U32& a, const U32& b) {
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return Inst<U32>(Opcode::Eor32, a, b);
}
U32U64 IREmitter::Eor(const U32U64& a, const U32U64& b) {
ASSERT(a.GetType() == b.GetType());
if (a.GetType() == Type::U32) {
return Inst<U32>(Opcode::Eor32, a, b);
} else {
return Inst<U64>(Opcode::Eor64, a, b);
}
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}
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U32 IREmitter::Or(const U32& a, const U32& b) {
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return Inst<U32>(Opcode::Or32, a, b);
}
U32U64 IREmitter::Or(const U32U64& a, const U32U64& b) {
ASSERT(a.GetType() == b.GetType());
if (a.GetType() == Type::U32) {
return Inst<U32>(Opcode::Or32, a, b);
} else {
return Inst<U64>(Opcode::Or64, a, b);
}
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}
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U32 IREmitter::Not(const U32& a) {
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return Inst<U32>(Opcode::Not32, a);
}
U32U64 IREmitter::Not(const U32U64& a) {
if (a.GetType() == Type::U32) {
return Inst<U32>(Opcode::Not32, a);
} else {
return Inst<U64>(Opcode::Not64, a);
}
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}
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U64 IREmitter::SignExtendToLong(const UAny& a) {
switch (a.GetType()) {
case Type::U8:
return Inst<U64>(Opcode::SignExtendByteToLong, a);
case Type::U16:
return Inst<U64>(Opcode::SignExtendHalfToLong, a);
case Type::U32:
return Inst<U64>(Opcode::SignExtendWordToLong, a);
case Type::U64:
return U64(a);
default:
ASSERT_MSG(false, "Unreachable");
return {};
}
}
U32 IREmitter::SignExtendToWord(const UAny& a) {
switch (a.GetType()) {
case Type::U8:
return Inst<U32>(Opcode::SignExtendByteToWord, a);
case Type::U16:
return Inst<U32>(Opcode::SignExtendHalfToWord, a);
case Type::U32:
return U32(a);
case Type::U64:
return Inst<U32>(Opcode::LeastSignificantWord, a);
default:
ASSERT_MSG(false, "Unreachable");
return {};
}
}
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U64 IREmitter::SignExtendWordToLong(const U32& a) {
return Inst<U64>(Opcode::SignExtendWordToLong, a);
}
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U32 IREmitter::SignExtendHalfToWord(const U16& a) {
return Inst<U32>(Opcode::SignExtendHalfToWord, a);
}
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U32 IREmitter::SignExtendByteToWord(const U8& a) {
return Inst<U32>(Opcode::SignExtendByteToWord, a);
}
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U64 IREmitter::ZeroExtendToLong(const UAny& a) {
switch (a.GetType()) {
case Type::U8:
return Inst<U64>(Opcode::ZeroExtendByteToLong, a);
case Type::U16:
return Inst<U64>(Opcode::ZeroExtendHalfToLong, a);
case Type::U32:
return Inst<U64>(Opcode::ZeroExtendWordToLong, a);
case Type::U64:
return U64(a);
default:
ASSERT_MSG(false, "Unreachable");
return {};
}
}
U32 IREmitter::ZeroExtendToWord(const UAny& a) {
switch (a.GetType()) {
case Type::U8:
return Inst<U32>(Opcode::ZeroExtendByteToWord, a);
case Type::U16:
return Inst<U32>(Opcode::ZeroExtendHalfToWord, a);
case Type::U32:
return U32(a);
case Type::U64:
return Inst<U32>(Opcode::LeastSignificantWord, a);
default:
ASSERT_MSG(false, "Unreachable");
return {};
}
}
U128 IREmitter::ZeroExtendToQuad(const UAny& a) {
return Inst<U128>(Opcode::ZeroExtendLongToQuad, ZeroExtendToLong(a));
}
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U64 IREmitter::ZeroExtendWordToLong(const U32& a) {
return Inst<U64>(Opcode::ZeroExtendWordToLong, a);
}
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U32 IREmitter::ZeroExtendHalfToWord(const U16& a) {
return Inst<U32>(Opcode::ZeroExtendHalfToWord, a);
}
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U32 IREmitter::ZeroExtendByteToWord(const U8& a) {
return Inst<U32>(Opcode::ZeroExtendByteToWord, a);
}
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U32 IREmitter::IndeterminateExtendToWord(const UAny& a) {
// TODO: Implement properly
return ZeroExtendToWord(a);
}
U64 IREmitter::IndeterminateExtendToLong(const UAny& a) {
// TODO: Implement properly
return ZeroExtendToLong(a);
}
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U32 IREmitter::ByteReverseWord(const U32& a) {
return Inst<U32>(Opcode::ByteReverseWord, a);
}
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U16 IREmitter::ByteReverseHalf(const U16& a) {
return Inst<U16>(Opcode::ByteReverseHalf, a);
}
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U64 IREmitter::ByteReverseDual(const U64& a) {
return Inst<U64>(Opcode::ByteReverseDual, a);
}
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U32 IREmitter::CountLeadingZeros(const U32& a) {
return Inst<U32>(Opcode::CountLeadingZeros32, a);
}
U64 IREmitter::CountLeadingZeros(const U64& a) {
return Inst<U64>(Opcode::CountLeadingZeros64, a);
}
U32U64 IREmitter::CountLeadingZeros(const U32U64& a) {
if (a.GetType() == IR::Type::U32) {
return Inst<U32>(Opcode::CountLeadingZeros32, a);
}
return Inst<U64>(Opcode::CountLeadingZeros64, a);
}
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ResultAndOverflow<U32> IREmitter::SignedSaturatedAdd(const U32& a, const U32& b) {
auto result = Inst<U32>(Opcode::SignedSaturatedAdd, a, b);
auto overflow = Inst<U1>(Opcode::GetOverflowFromOp, result);
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return {result, overflow};
}
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ResultAndOverflow<U32> IREmitter::SignedSaturatedSub(const U32& a, const U32& b) {
auto result = Inst<U32>(Opcode::SignedSaturatedSub, a, b);
auto overflow = Inst<U1>(Opcode::GetOverflowFromOp, result);
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return {result, overflow};
}
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ResultAndOverflow<U32> IREmitter::UnsignedSaturation(const U32& a, size_t bit_size_to_saturate_to) {
ASSERT(bit_size_to_saturate_to <= 31);
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auto result = Inst<U32>(Opcode::UnsignedSaturation, a, Imm8(static_cast<u8>(bit_size_to_saturate_to)));
auto overflow = Inst<U1>(Opcode::GetOverflowFromOp, result);
return {result, overflow};
}
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ResultAndOverflow<U32> IREmitter::SignedSaturation(const U32& a, size_t bit_size_to_saturate_to) {
ASSERT(bit_size_to_saturate_to >= 1 && bit_size_to_saturate_to <= 32);
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auto result = Inst<U32>(Opcode::SignedSaturation, a, Imm8(static_cast<u8>(bit_size_to_saturate_to)));
auto overflow = Inst<U1>(Opcode::GetOverflowFromOp, result);
return {result, overflow};
}
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ResultAndGE<U32> IREmitter::PackedAddU8(const U32& a, const U32& b) {
auto result = Inst<U32>(Opcode::PackedAddU8, a, b);
auto ge = Inst<U32>(Opcode::GetGEFromOp, result);
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return {result, ge};
}
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ResultAndGE<U32> IREmitter::PackedAddS8(const U32& a, const U32& b) {
auto result = Inst<U32>(Opcode::PackedAddS8, a, b);
auto ge = Inst<U32>(Opcode::GetGEFromOp, result);
return {result, ge};
}
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ResultAndGE<U32> IREmitter::PackedAddU16(const U32& a, const U32& b) {
auto result = Inst<U32>(Opcode::PackedAddU16, a, b);
auto ge = Inst<U32>(Opcode::GetGEFromOp, result);
return {result, ge};
}
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ResultAndGE<U32> IREmitter::PackedAddS16(const U32& a, const U32& b) {
auto result = Inst<U32>(Opcode::PackedAddS16, a, b);
auto ge = Inst<U32>(Opcode::GetGEFromOp, result);
return {result, ge};
}
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ResultAndGE<U32> IREmitter::PackedSubU8(const U32& a, const U32& b) {
auto result = Inst<U32>(Opcode::PackedSubU8, a, b);
auto ge = Inst<U32>(Opcode::GetGEFromOp, result);
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return {result, ge};
}
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ResultAndGE<U32> IREmitter::PackedSubS8(const U32& a, const U32& b) {
auto result = Inst<U32>(Opcode::PackedSubS8, a, b);
auto ge = Inst<U32>(Opcode::GetGEFromOp, result);
return {result, ge};
}
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ResultAndGE<U32> IREmitter::PackedSubU16(const U32& a, const U32& b) {
auto result = Inst<U32>(Opcode::PackedSubU16, a, b);
auto ge = Inst<U32>(Opcode::GetGEFromOp, result);
return {result, ge};
}
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ResultAndGE<U32> IREmitter::PackedSubS16(const U32& a, const U32& b) {
auto result = Inst<U32>(Opcode::PackedSubS16, a, b);
auto ge = Inst<U32>(Opcode::GetGEFromOp, result);
return {result, ge};
}
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ResultAndGE<U32> IREmitter::PackedAddSubU16(const U32& a, const U32& b) {
auto result = Inst<U32>(Opcode::PackedAddSubU16, a, b);
auto ge = Inst<U32>(Opcode::GetGEFromOp, result);
return {result, ge};
}
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ResultAndGE<U32> IREmitter::PackedAddSubS16(const U32& a, const U32& b) {
auto result = Inst<U32>(Opcode::PackedAddSubS16, a, b);
auto ge = Inst<U32>(Opcode::GetGEFromOp, result);
return {result, ge};
}
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ResultAndGE<U32> IREmitter::PackedSubAddU16(const U32& a, const U32& b) {
auto result = Inst<U32>(Opcode::PackedSubAddU16, a, b);
auto ge = Inst<U32>(Opcode::GetGEFromOp, result);
return {result, ge};
}
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ResultAndGE<U32> IREmitter::PackedSubAddS16(const U32& a, const U32& b) {
auto result = Inst<U32>(Opcode::PackedSubAddS16, a, b);
auto ge = Inst<U32>(Opcode::GetGEFromOp, result);
return {result, ge};
}
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U32 IREmitter::PackedHalvingAddU8(const U32& a, const U32& b) {
return Inst<U32>(Opcode::PackedHalvingAddU8, a, b);
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}
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U32 IREmitter::PackedHalvingAddS8(const U32& a, const U32& b) {
return Inst<U32>(Opcode::PackedHalvingAddS8, a, b);
}
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U32 IREmitter::PackedHalvingSubU8(const U32& a, const U32& b) {
return Inst<U32>(Opcode::PackedHalvingSubU8, a, b);
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}
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U32 IREmitter::PackedHalvingSubS8(const U32& a, const U32& b) {
return Inst<U32>(Opcode::PackedHalvingSubS8, a, b);
}
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U32 IREmitter::PackedHalvingAddU16(const U32& a, const U32& b) {
return Inst<U32>(Opcode::PackedHalvingAddU16, a, b);
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}
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U32 IREmitter::PackedHalvingAddS16(const U32& a, const U32& b) {
return Inst<U32>(Opcode::PackedHalvingAddS16, a, b);
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}
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U32 IREmitter::PackedHalvingSubU16(const U32& a, const U32& b) {
return Inst<U32>(Opcode::PackedHalvingSubU16, a, b);
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}
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U32 IREmitter::PackedHalvingSubS16(const U32& a, const U32& b) {
return Inst<U32>(Opcode::PackedHalvingSubS16, a, b);
}
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U32 IREmitter::PackedHalvingAddSubU16(const U32& a, const U32& b) {
return Inst<U32>(Opcode::PackedHalvingAddSubU16, a, b);
}
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U32 IREmitter::PackedHalvingAddSubS16(const U32& a, const U32& b) {
return Inst<U32>(Opcode::PackedHalvingAddSubS16, a, b);
}
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U32 IREmitter::PackedHalvingSubAddU16(const U32& a, const U32& b) {
return Inst<U32>(Opcode::PackedHalvingSubAddU16, a, b);
}
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U32 IREmitter::PackedHalvingSubAddS16(const U32& a, const U32& b) {
return Inst<U32>(Opcode::PackedHalvingSubAddS16, a, b);
}
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U32 IREmitter::PackedSaturatedAddU8(const U32& a, const U32& b) {
return Inst<U32>(Opcode::PackedSaturatedAddU8, a, b);
}
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U32 IREmitter::PackedSaturatedAddS8(const U32& a, const U32& b) {
return Inst<U32>(Opcode::PackedSaturatedAddS8, a, b);
}
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U32 IREmitter::PackedSaturatedSubU8(const U32& a, const U32& b) {
return Inst<U32>(Opcode::PackedSaturatedSubU8, a, b);
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}
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U32 IREmitter::PackedSaturatedSubS8(const U32& a, const U32& b) {
return Inst<U32>(Opcode::PackedSaturatedSubS8, a, b);
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}
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U32 IREmitter::PackedSaturatedAddU16(const U32& a, const U32& b) {
return Inst<U32>(Opcode::PackedSaturatedAddU16, a, b);
}
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U32 IREmitter::PackedSaturatedAddS16(const U32& a, const U32& b) {
return Inst<U32>(Opcode::PackedSaturatedAddS16, a, b);
}
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U32 IREmitter::PackedSaturatedSubU16(const U32& a, const U32& b) {
return Inst<U32>(Opcode::PackedSaturatedSubU16, a, b);
}
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U32 IREmitter::PackedSaturatedSubS16(const U32& a, const U32& b) {
return Inst<U32>(Opcode::PackedSaturatedSubS16, a, b);
}
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U32 IREmitter::PackedAbsDiffSumS8(const U32& a, const U32& b) {
return Inst<U32>(Opcode::PackedAbsDiffSumS8, a, b);
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}
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U32 IREmitter::PackedSelect(const U32& ge, const U32& a, const U32& b) {
return Inst<U32>(Opcode::PackedSelect, ge, a, b);
}
UAny IREmitter::VectorGetElement(size_t esize, const U128& a, size_t index) {
ASSERT_MSG(esize * index < 128, "Invalid index");
switch (esize) {
case 8:
return Inst<U8>(Opcode::VectorGetElement8, a, Imm8(static_cast<u8>(index)));
case 16:
return Inst<U16>(Opcode::VectorGetElement16, a, Imm8(static_cast<u8>(index)));
case 32:
return Inst<U32>(Opcode::VectorGetElement32, a, Imm8(static_cast<u8>(index)));
case 64:
return Inst<U64>(Opcode::VectorGetElement64, a, Imm8(static_cast<u8>(index)));
default:
ASSERT_MSG(false, "Unreachable");
return {};
}
}
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U128 IREmitter::VectorAdd8(const U128& a, const U128& b) {
return Inst<U128>(Opcode::VectorAdd8, a, b);
}
U128 IREmitter::VectorAdd16(const U128& a, const U128& b) {
return Inst<U128>(Opcode::VectorAdd16, a, b);
}
U128 IREmitter::VectorAdd32(const U128& a, const U128& b) {
return Inst<U128>(Opcode::VectorAdd32, a, b);
}
U128 IREmitter::VectorAdd64(const U128& a, const U128& b) {
return Inst<U128>(Opcode::VectorAdd64, a, b);
}
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U128 IREmitter::VectorAnd(const U128& a, const U128& b) {
return Inst<U128>(Opcode::VectorAnd, a, b);
}
U128 IREmitter::VectorLowerBroadcast8(const U8& a) {
return Inst<U128>(Opcode::VectorLowerBroadcast8, a);
}
U128 IREmitter::VectorLowerBroadcast16(const U16& a) {
return Inst<U128>(Opcode::VectorLowerBroadcast16, a);
}
U128 IREmitter::VectorLowerBroadcast32(const U32& a) {
return Inst<U128>(Opcode::VectorLowerBroadcast32, a);
}
U128 IREmitter::VectorBroadcast8(const U8& a) {
return Inst<U128>(Opcode::VectorBroadcast8, a);
}
U128 IREmitter::VectorBroadcast16(const U16& a) {
return Inst<U128>(Opcode::VectorBroadcast16, a);
}
U128 IREmitter::VectorBroadcast32(const U32& a) {
return Inst<U128>(Opcode::VectorBroadcast32, a);
}
U128 IREmitter::VectorBroadcast64(const U64& a) {
return Inst<U128>(Opcode::VectorBroadcast64, a);
}
U128 IREmitter::VectorLowerPairedAdd8(const U128& a, const U128& b) {
return Inst<U128>(Opcode::VectorLowerPairedAdd8, a, b);
}
U128 IREmitter::VectorLowerPairedAdd16(const U128& a, const U128& b) {
return Inst<U128>(Opcode::VectorLowerPairedAdd16, a, b);
}
U128 IREmitter::VectorLowerPairedAdd32(const U128& a, const U128& b) {
return Inst<U128>(Opcode::VectorLowerPairedAdd32, a, b);
}
U128 IREmitter::VectorPairedAdd8(const U128& a, const U128& b) {
return Inst<U128>(Opcode::VectorPairedAdd8, a, b);
}
U128 IREmitter::VectorPairedAdd16(const U128& a, const U128& b) {
return Inst<U128>(Opcode::VectorPairedAdd16, a, b);
}
U128 IREmitter::VectorPairedAdd32(const U128& a, const U128& b) {
return Inst<U128>(Opcode::VectorPairedAdd32, a, b);
}
U128 IREmitter::VectorPairedAdd64(const U128& a, const U128& b) {
return Inst<U128>(Opcode::VectorPairedAdd64, a, b);
}
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U128 IREmitter::VectorZeroUpper(const U128& a) {
return Inst<U128>(Opcode::VectorZeroUpper, a);
}
U32 IREmitter::FPAbs32(const U32& a) {
return Inst<U32>(Opcode::FPAbs32, a);
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}
U64 IREmitter::FPAbs64(const U64& a) {
return Inst<U64>(Opcode::FPAbs64, a);
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}
U32 IREmitter::FPAdd32(const U32& a, const U32& b, bool fpscr_controlled) {
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ASSERT(fpscr_controlled);
return Inst<U32>(Opcode::FPAdd32, a, b);
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}
U64 IREmitter::FPAdd64(const U64& a, const U64& b, bool fpscr_controlled) {
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ASSERT(fpscr_controlled);
return Inst<U64>(Opcode::FPAdd64, a, b);
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}
void IREmitter::FPCompare32(const U32& a, const U32& b, bool exc_on_qnan, bool fpscr_controlled) {
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ASSERT(fpscr_controlled);
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Inst(Opcode::FPCompare32, a, b, Imm1(exc_on_qnan));
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}
void IREmitter::FPCompare64(const U64& a, const U64& b, bool exc_on_qnan, bool fpscr_controlled) {
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ASSERT(fpscr_controlled);
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Inst(Opcode::FPCompare64, a, b, Imm1(exc_on_qnan));
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}
U32 IREmitter::FPDiv32(const U32& a, const U32& b, bool fpscr_controlled) {
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ASSERT(fpscr_controlled);
return Inst<U32>(Opcode::FPDiv32, a, b);
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}
U64 IREmitter::FPDiv64(const U64& a, const U64& b, bool fpscr_controlled) {
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ASSERT(fpscr_controlled);
return Inst<U64>(Opcode::FPDiv64, a, b);
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}
U32 IREmitter::FPMul32(const U32& a, const U32& b, bool fpscr_controlled) {
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ASSERT(fpscr_controlled);
return Inst<U32>(Opcode::FPMul32, a, b);
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}
U64 IREmitter::FPMul64(const U64& a, const U64& b, bool fpscr_controlled) {
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ASSERT(fpscr_controlled);
return Inst<U64>(Opcode::FPMul64, a, b);
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}
U32 IREmitter::FPNeg32(const U32& a) {
return Inst<U32>(Opcode::FPNeg32, a);
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}
U64 IREmitter::FPNeg64(const U64& a) {
return Inst<U64>(Opcode::FPNeg64, a);
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}
U32 IREmitter::FPSqrt32(const U32& a) {
return Inst<U32>(Opcode::FPSqrt32, a);
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}
U64 IREmitter::FPSqrt64(const U64& a) {
return Inst<U64>(Opcode::FPSqrt64, a);
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}
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U32 IREmitter::FPSub32(const U32& a, const U32& b, bool fpscr_controlled) {
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ASSERT(fpscr_controlled);
return Inst<U32>(Opcode::FPSub32, a, b);
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}
U64 IREmitter::FPSub64(const U64& a, const U64& b, bool fpscr_controlled) {
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ASSERT(fpscr_controlled);
return Inst<U64>(Opcode::FPSub64, a, b);
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}
U32 IREmitter::FPDoubleToSingle(const U64& a, bool fpscr_controlled) {
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ASSERT(fpscr_controlled);
return Inst<U32>(Opcode::FPDoubleToSingle, a);
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}
U64 IREmitter::FPSingleToDouble(const U32& a, bool fpscr_controlled) {
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ASSERT(fpscr_controlled);
return Inst<U64>(Opcode::FPSingleToDouble, a);
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}
U32 IREmitter::FPSingleToS32(const U32& a, bool round_towards_zero, bool fpscr_controlled) {
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ASSERT(fpscr_controlled);
return Inst<U32>(Opcode::FPSingleToS32, a, Imm1(round_towards_zero));
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}
U32 IREmitter::FPSingleToU32(const U32& a, bool round_towards_zero, bool fpscr_controlled) {
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ASSERT(fpscr_controlled);
return Inst<U32>(Opcode::FPSingleToU32, a, Imm1(round_towards_zero));
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}
U32 IREmitter::FPDoubleToS32(const U32& a, bool round_towards_zero, bool fpscr_controlled) {
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ASSERT(fpscr_controlled);
return Inst<U32>(Opcode::FPDoubleToS32, a, Imm1(round_towards_zero));
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}
U32 IREmitter::FPDoubleToU32(const U32& a, bool round_towards_zero, bool fpscr_controlled) {
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ASSERT(fpscr_controlled);
return Inst<U32>(Opcode::FPDoubleToU32, a, Imm1(round_towards_zero));
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}
U32 IREmitter::FPS32ToSingle(const U32& a, bool round_to_nearest, bool fpscr_controlled) {
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ASSERT(fpscr_controlled);
return Inst<U32>(Opcode::FPS32ToSingle, a, Imm1(round_to_nearest));
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}
U32 IREmitter::FPU32ToSingle(const U32& a, bool round_to_nearest, bool fpscr_controlled) {
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ASSERT(fpscr_controlled);
return Inst<U32>(Opcode::FPU32ToSingle, a, Imm1(round_to_nearest));
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}
U64 IREmitter::FPS32ToDouble(const U32& a, bool round_to_nearest, bool fpscr_controlled) {
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ASSERT(fpscr_controlled);
return Inst<U64>(Opcode::FPS32ToDouble, a, Imm1(round_to_nearest));
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}
U64 IREmitter::FPU32ToDouble(const U32& a, bool round_to_nearest, bool fpscr_controlled) {
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ASSERT(fpscr_controlled);
return Inst<U64>(Opcode::FPU32ToDouble, a, Imm1(round_to_nearest));
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}
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void IREmitter::Breakpoint() {
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Inst(Opcode::Breakpoint);
}
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void IREmitter::SetTerm(const Terminal& terminal) {
block.SetTerminal(terminal);
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}
} // namespace IR
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} // namespace Dynarmic