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backend/arm64: Implement Add

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Merry 2022-07-23 14:54:43 +01:00 committed by merry
parent 679efb9c44
commit 21601764de
1 changed files with 100 additions and 8 deletions
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108
src/dynarmic/backend/arm64/emit_arm64_data_processing.cpp
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@ -415,20 +415,112 @@ void EmitIR<IR::Opcode::RotateRightMasked64>(oaknut::CodeGenerator& code, EmitCo
ASSERT_FALSE("Unimplemented"); ASSERT_FALSE("Unimplemented");
} }
template<size_t bitsize, typename EmitFn>
static void MaybeAddSubImm(oaknut::CodeGenerator& code, u64 imm, EmitFn emit_fn) {
static_assert(bitsize == 32 || bitsize == 64);
if constexpr (bitsize == 32) {
imm = static_cast<u32>(imm);
}
if (oaknut::AddSubImm::is_valid(imm)) {
emit_fn(imm);
} else {
code.MOV(Rscratch0<bitsize>(), imm);
emit_fn(Rscratch0<bitsize>());
}
}
template<size_t bitsize>
static void EmitAdd(oaknut::CodeGenerator& code, EmitContext& ctx, IR::Inst* inst) {
const auto nzcv_inst = inst->GetAssociatedPseudoOperation(IR::Opcode::GetNZCVFromOp);
auto args = ctx.reg_alloc.GetArgumentInfo(inst);
auto Rresult = ctx.reg_alloc.WriteReg<bitsize>(inst);
auto Ra = ctx.reg_alloc.ReadReg<bitsize>(args[0]);
if (nzcv_inst) {
if (args[1].IsImmediate()) {
const u64 imm = args[1].GetImmediateU64();
if (args[2].IsImmediate()) {
auto flags = ctx.reg_alloc.WriteFlags(nzcv_inst);
RegAlloc::Realize(Rresult, Ra, flags);
if (args[2].GetImmediateU1()) {
MaybeAddSubImm<bitsize>(code, ~imm, [&](const auto b) { code.SUBS(Rresult, *Ra, b); });
} else {
MaybeAddSubImm<bitsize>(code, imm, [&](const auto b) { code.ADDS(Rresult, *Ra, b); });
}
} else {
RegAlloc::Realize(Rresult, Ra);
ctx.reg_alloc.ReadWriteFlags(args[2], nzcv_inst);
code.MOV(Rscratch0<bitsize>(), imm);
code.ADCS(Rresult, Ra, Rscratch0<bitsize>());
}
} else {
auto Rb = ctx.reg_alloc.ReadReg<bitsize>(args[1]);
if (args[2].IsImmediate()) {
auto flags = ctx.reg_alloc.WriteFlags(nzcv_inst);
RegAlloc::Realize(Rresult, Ra, Rb, flags);
if (args[2].GetImmediateU1()) {
code.MVN(Rscratch0<bitsize>(), Rb);
code.SUBS(Rresult, *Ra, Rscratch0<bitsize>());
} else {
code.ADDS(Rresult, *Ra, Rb);
}
} else {
RegAlloc::Realize(Rresult, Ra, Rb);
ctx.reg_alloc.ReadWriteFlags(args[2], nzcv_inst);
code.ADCS(Rresult, Ra, Rb);
}
}
} else {
if (args[1].IsImmediate()) {
const u64 imm = args[1].GetImmediateU64();
RegAlloc::Realize(Rresult, Ra);
if (args[2].IsImmediate()) {
if (args[2].GetImmediateU1()) {
MaybeAddSubImm<bitsize>(code, ~imm, [&](const auto b) { code.SUB(Rresult, *Ra, b); });
} else {
MaybeAddSubImm<bitsize>(code, imm, [&](const auto b) { code.ADD(Rresult, *Ra, b); });
}
} else {
code.MOV(Rscratch0<bitsize>(), imm);
code.ADC(Rresult, Ra, Rscratch0<bitsize>());
}
} else {
auto Rb = ctx.reg_alloc.ReadReg<bitsize>(args[1]);
RegAlloc::Realize(Rresult, Ra, Rb);
if (args[2].IsImmediate()) {
if (args[2].GetImmediateU1()) {
code.MVN(Rscratch0<bitsize>(), Rb);
code.SUB(Rresult, *Ra, Rscratch0<bitsize>());
} else {
code.ADD(Rresult, *Ra, Rb);
}
} else {
code.ADC(Rresult, Ra, Rb);
}
}
}
}
template<> template<>
void EmitIR<IR::Opcode::Add32>(oaknut::CodeGenerator& code, EmitContext& ctx, IR::Inst* inst) { void EmitIR<IR::Opcode::Add32>(oaknut::CodeGenerator& code, EmitContext& ctx, IR::Inst* inst) {
(void)code; EmitAdd<32>(code, ctx, inst);
(void)ctx;
(void)inst;
ASSERT_FALSE("Unimplemented");
} }
template<> template<>
void EmitIR<IR::Opcode::Add64>(oaknut::CodeGenerator& code, EmitContext& ctx, IR::Inst* inst) { void EmitIR<IR::Opcode::Add64>(oaknut::CodeGenerator& code, EmitContext& ctx, IR::Inst* inst) {
(void)code; EmitAdd<64>(code, ctx, inst);
(void)ctx;
(void)inst;
ASSERT_FALSE("Unimplemented");
} }
template<> template<>