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dynarmic/src/frontend/A64/translate/impl/data_processing_logical.cpp
MerryMage 0641445e51 A64: Implement logical
2020-04-22 20:42:45 +01:00

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/* This file is part of the dynarmic project.
* Copyright (c) 2018 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 "frontend/A64/translate/impl/impl.h"
namespace Dynarmic {
namespace A64 {
bool TranslatorVisitor::AND_imm(bool sf, bool N, Imm<6> immr, Imm<6> imms, Reg Rn, Reg Rd) {
size_t datasize = sf ? 64 : 32;
if (!sf && N) return ReservedValue();
u64 imm;
if (auto masks = DecodeBitMasks(N, imms, immr, true)) {
imm = masks->wmask;
} else {
return ReservedValue();
}
auto operand1 = X(datasize, Rn);
auto result = ir.And(operand1, I(datasize, imm));
if (Rd == Reg::SP) {
SP(datasize, result);
} else {
X(datasize, Rd, result);
}
return true;
}
bool TranslatorVisitor::ORR_imm(bool sf, bool N, Imm<6> immr, Imm<6> imms, Reg Rn, Reg Rd) {
size_t datasize = sf ? 64 : 32;
if (!sf && N) return ReservedValue();
u64 imm;
if (auto masks = DecodeBitMasks(N, imms, immr, true)) {
imm = masks->wmask;
} else {
return ReservedValue();
}
auto operand1 = X(datasize, Rn);
auto result = ir.Or(operand1, I(datasize, imm));
if (Rd == Reg::SP) {
SP(datasize, result);
} else {
X(datasize, Rd, result);
}
return true;
}
bool TranslatorVisitor::EOR_imm(bool sf, bool N, Imm<6> immr, Imm<6> imms, Reg Rn, Reg Rd) {
size_t datasize = sf ? 64 : 32;
if (!sf && N) return ReservedValue();
u64 imm;
if (auto masks = DecodeBitMasks(N, imms, immr, true)) {
imm = masks->wmask;
} else {
return ReservedValue();
}
auto operand1 = X(datasize, Rn);
auto result = ir.Eor(operand1, I(datasize, imm));
if (Rd == Reg::SP) {
SP(datasize, result);
} else {
X(datasize, Rd, result);
}
return true;
}
bool TranslatorVisitor::ANDS_imm(bool sf, bool N, Imm<6> immr, Imm<6> imms, Reg Rn, Reg Rd) {
size_t datasize = sf ? 64 : 32;
if (!sf && N) return ReservedValue();
u64 imm;
if (auto masks = DecodeBitMasks(N, imms, immr, true)) {
imm = masks->wmask;
} else {
return ReservedValue();
}
auto operand1 = X(datasize, Rn);
auto result = ir.And(operand1, I(datasize, imm));
ir.SetNZCV(ir.NZCVFrom(result));
X(datasize, Rd, result);
return true;
}
bool TranslatorVisitor::AND_shift(bool sf, Imm<2> shift, Reg Rm, Imm<6> imm6, Reg Rn, Reg Rd) {
size_t datasize = sf ? 64 : 32;
if (!sf && imm6.Bit<5>()) return ReservedValue();
u8 shift_amount = imm6.ZeroExtend<u8>();
auto operand1 = X(datasize, Rn);
auto operand2 = ShiftReg(datasize, Rm, shift, ir.Imm8(shift_amount));
auto result = ir.And(operand1, operand2);
X(datasize, Rd, result);
return true;
}
bool TranslatorVisitor::BIC_shift(bool sf, Imm<2> shift, Reg Rm, Imm<6> imm6, Reg Rn, Reg Rd) {
size_t datasize = sf ? 64 : 32;
if (!sf && imm6.Bit<5>()) return ReservedValue();
u8 shift_amount = imm6.ZeroExtend<u8>();
auto operand1 = X(datasize, Rn);
auto operand2 = ShiftReg(datasize, Rm, shift, ir.Imm8(shift_amount));
operand2 = ir.Not(operand2);
auto result = ir.And(operand1, operand2);
X(datasize, Rd, result);
return true;
}
bool TranslatorVisitor::ORR_shift(bool sf, Imm<2> shift, Reg Rm, Imm<6> imm6, Reg Rn, Reg Rd) {
size_t datasize = sf ? 64 : 32;
if (!sf && imm6.Bit<5>()) return ReservedValue();
u8 shift_amount = imm6.ZeroExtend<u8>();
auto operand1 = X(datasize, Rn);
auto operand2 = ShiftReg(datasize, Rm, shift, ir.Imm8(shift_amount));
auto result = ir.Or(operand1, operand2);
X(datasize, Rd, result);
return true;
}
bool TranslatorVisitor::ORN_shift(bool sf, Imm<2> shift, Reg Rm, Imm<6> imm6, Reg Rn, Reg Rd) {
size_t datasize = sf ? 64 : 32;
if (!sf && imm6.Bit<5>()) return ReservedValue();
u8 shift_amount = imm6.ZeroExtend<u8>();
auto operand1 = X(datasize, Rn);
auto operand2 = ShiftReg(datasize, Rm, shift, ir.Imm8(shift_amount));
operand2 = ir.Not(operand2);
auto result = ir.Or(operand1, operand2);
X(datasize, Rd, result);
return true;
}
bool TranslatorVisitor::EOR_shift(bool sf, Imm<2> shift, Reg Rm, Imm<6> imm6, Reg Rn, Reg Rd) {
size_t datasize = sf ? 64 : 32;
if (!sf && imm6.Bit<5>()) return ReservedValue();
u8 shift_amount = imm6.ZeroExtend<u8>();
auto operand1 = X(datasize, Rn);
auto operand2 = ShiftReg(datasize, Rm, shift, ir.Imm8(shift_amount));
auto result = ir.Eor(operand1, operand2);
X(datasize, Rd, result);
return true;
}
bool TranslatorVisitor::EON(bool sf, Imm<2> shift, Reg Rm, Imm<6> imm6, Reg Rn, Reg Rd) {
size_t datasize = sf ? 64 : 32;
if (!sf && imm6.Bit<5>()) return ReservedValue();
u8 shift_amount = imm6.ZeroExtend<u8>();
auto operand1 = X(datasize, Rn);
auto operand2 = ShiftReg(datasize, Rm, shift, ir.Imm8(shift_amount));
operand2 = ir.Not(operand2);
auto result = ir.Eor(operand1, operand2);
X(datasize, Rd, result);
return true;
}
bool TranslatorVisitor::ANDS_shift(bool sf, Imm<2> shift, Reg Rm, Imm<6> imm6, Reg Rn, Reg Rd) {
size_t datasize = sf ? 64 : 32;
if (!sf && imm6.Bit<5>()) return ReservedValue();
u8 shift_amount = imm6.ZeroExtend<u8>();
auto operand1 = X(datasize, Rn);
auto operand2 = ShiftReg(datasize, Rm, shift, ir.Imm8(shift_amount));
auto result = ir.And(operand1, operand2);
ir.SetNZCV(ir.NZCVFrom(result));
X(datasize, Rd, result);
return true;
}
bool TranslatorVisitor::BICS(bool sf, Imm<2> shift, Reg Rm, Imm<6> imm6, Reg Rn, Reg Rd) {
size_t datasize = sf ? 64 : 32;
if (!sf && imm6.Bit<5>()) return ReservedValue();
u8 shift_amount = imm6.ZeroExtend<u8>();
auto operand1 = X(datasize, Rn);
auto operand2 = ShiftReg(datasize, Rm, shift, ir.Imm8(shift_amount));
operand2 = ir.Not(operand2);
auto result = ir.And(operand1, operand2);
ir.SetNZCV(ir.NZCVFrom(result));
X(datasize, Rd, result);
return true;
}
} // namespace A64
} // namespace Dynarmic
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