/* 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 "common/assert.h" #include "frontend/A64/ir_emitter.h" #include "frontend/ir/opcodes.h" namespace Dynarmic::A64 { using Opcode = IR::Opcode; u64 IREmitter::PC() { return current_location->PC(); } u64 IREmitter::AlignPC(size_t alignment) { u64 pc = PC(); return static_cast(pc - pc % alignment); } void IREmitter::SetCheckBit(const IR::U1& value) { Inst(Opcode::A64SetCheckBit, value); } IR::U1 IREmitter::GetCFlag() { return Inst(Opcode::A64GetCFlag); } void IREmitter::SetNZCV(const IR::NZCV& nzcv) { Inst(Opcode::A64SetNZCV, nzcv); } void IREmitter::CallSupervisor(u32 imm) { Inst(Opcode::A64CallSupervisor, Imm32(imm)); } void IREmitter::ExceptionRaised(Exception exception) { Inst(Opcode::A64ExceptionRaised, Imm64(PC()), Imm64(static_cast(exception))); } void IREmitter::DataCacheOperationRaised(DataCacheOperation op, const IR::U64& value) { Inst(Opcode::A64DataCacheOperationRaised, Imm64(static_cast(op)), value); } void IREmitter::DataSynchronizationBarrier() { Inst(Opcode::A64DataSynchronizationBarrier); } void IREmitter::DataMemoryBarrier() { Inst(Opcode::A64DataMemoryBarrier); } IR::U64 IREmitter::GetCNTPCT() { return Inst(Opcode::A64GetCNTPCT); } IR::U32 IREmitter::GetCTR() { return Inst(Opcode::A64GetCTR); } IR::U32 IREmitter::GetDCZID() { return Inst(Opcode::A64GetDCZID); } IR::U64 IREmitter::GetTPIDRRO() { return Inst(Opcode::A64GetTPIDRRO); } void IREmitter::ClearExclusive() { Inst(Opcode::A64ClearExclusive); } void IREmitter::SetExclusive(const IR::U64& vaddr, size_t byte_size) { ASSERT(byte_size == 1 || byte_size == 2 || byte_size == 4 || byte_size == 8 || byte_size == 16); Inst(Opcode::A64SetExclusive, vaddr, Imm8(u8(byte_size))); } IR::U8 IREmitter::ReadMemory8(const IR::U64& vaddr) { return Inst(Opcode::A64ReadMemory8, vaddr); } IR::U16 IREmitter::ReadMemory16(const IR::U64& vaddr) { return Inst(Opcode::A64ReadMemory16, vaddr); } IR::U32 IREmitter::ReadMemory32(const IR::U64& vaddr) { return Inst(Opcode::A64ReadMemory32, vaddr); } IR::U64 IREmitter::ReadMemory64(const IR::U64& vaddr) { return Inst(Opcode::A64ReadMemory64, vaddr); } IR::U128 IREmitter::ReadMemory128(const IR::U64& vaddr) { return Inst(Opcode::A64ReadMemory128, vaddr); } void IREmitter::WriteMemory8(const IR::U64& vaddr, const IR::U8& value) { Inst(Opcode::A64WriteMemory8, vaddr, value); } void IREmitter::WriteMemory16(const IR::U64& vaddr, const IR::U16& value) { Inst(Opcode::A64WriteMemory16, vaddr, value); } void IREmitter::WriteMemory32(const IR::U64& vaddr, const IR::U32& value) { Inst(Opcode::A64WriteMemory32, vaddr, value); } void IREmitter::WriteMemory64(const IR::U64& vaddr, const IR::U64& value) { Inst(Opcode::A64WriteMemory64, vaddr, value); } void IREmitter::WriteMemory128(const IR::U64& vaddr, const IR::U128& value) { Inst(Opcode::A64WriteMemory128, vaddr, value); } IR::U32 IREmitter::ExclusiveWriteMemory8(const IR::U64& vaddr, const IR::U8& value) { return Inst(Opcode::A64ExclusiveWriteMemory8, vaddr, value); } IR::U32 IREmitter::ExclusiveWriteMemory16(const IR::U64& vaddr, const IR::U16& value) { return Inst(Opcode::A64ExclusiveWriteMemory16, vaddr, value); } IR::U32 IREmitter::ExclusiveWriteMemory32(const IR::U64& vaddr, const IR::U32& value) { return Inst(Opcode::A64ExclusiveWriteMemory32, vaddr, value); } IR::U32 IREmitter::ExclusiveWriteMemory64(const IR::U64& vaddr, const IR::U64& value) { return Inst(Opcode::A64ExclusiveWriteMemory64, vaddr, value); } IR::U32 IREmitter::ExclusiveWriteMemory128(const IR::U64& vaddr, const IR::U128& value) { return Inst(Opcode::A64ExclusiveWriteMemory128, vaddr, value); } IR::U32 IREmitter::GetW(Reg reg) { if (reg == Reg::ZR) return Imm32(0); return Inst(Opcode::A64GetW, IR::Value(reg)); } IR::U64 IREmitter::GetX(Reg reg) { if (reg == Reg::ZR) return Imm64(0); return Inst(Opcode::A64GetX, IR::Value(reg)); } IR::U128 IREmitter::GetS(Vec vec) { return Inst(Opcode::A64GetS, IR::Value(vec)); } IR::U128 IREmitter::GetD(Vec vec) { return Inst(Opcode::A64GetD, IR::Value(vec)); } IR::U128 IREmitter::GetQ(Vec vec) { return Inst(Opcode::A64GetQ, IR::Value(vec)); } IR::U64 IREmitter::GetSP() { return Inst(Opcode::A64GetSP); } IR::U32 IREmitter::GetFPCR() { return Inst(Opcode::A64GetFPCR); } IR::U32 IREmitter::GetFPSR() { return Inst(Opcode::A64GetFPSR); } void IREmitter::SetW(const Reg reg, const IR::U32& value) { if (reg == Reg::ZR) return; Inst(Opcode::A64SetW, IR::Value(reg), value); } void IREmitter::SetX(const Reg reg, const IR::U64& value) { if (reg == Reg::ZR) return; Inst(Opcode::A64SetX, IR::Value(reg), value); } void IREmitter::SetS(const Vec vec, const IR::U128& value) { Inst(Opcode::A64SetS, IR::Value(vec), value); } void IREmitter::SetD(const Vec vec, const IR::U128& value) { Inst(Opcode::A64SetD, IR::Value(vec), value); } void IREmitter::SetQ(const Vec vec, const IR::U128& value) { Inst(Opcode::A64SetQ, IR::Value(vec), value); } void IREmitter::SetSP(const IR::U64& value) { Inst(Opcode::A64SetSP, value); } void IREmitter::SetFPCR(const IR::U32& value) { Inst(Opcode::A64SetFPCR, value); } void IREmitter::SetFPSR(const IR::U32& value) { Inst(Opcode::A64SetFPSR, value); } void IREmitter::SetPC(const IR::U64& value) { Inst(Opcode::A64SetPC, value); } } // namespace Dynarmic::A64