/* 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 #include #include "backend_x64/reg_alloc.h" #include "common/assert.h" #include "common/x64/emitter.h" namespace Dynarmic { namespace BackendX64 { static Gen::OpArg ImmediateToOpArg(const IR::Value& imm) { switch (imm.GetType()) { case IR::Type::U1: return Gen::Imm32(imm.GetU1()); break; case IR::Type::U8: return Gen::Imm32(imm.GetU8()); break; case IR::Type::U32: return Gen::Imm32(imm.GetU32()); break; default: ASSERT_MSG(false, "This should never happen."); } } static Gen::X64Reg HostLocToX64(HostLoc loc) { DEBUG_ASSERT(HostLocIsRegister(loc)); DEBUG_ASSERT(loc != HostLoc::RSP); // HostLoc is ordered such that the numbers line up. if (HostLocIsGPR(loc)) { return static_cast(loc); } if (HostLocIsXMM(loc)) { return static_cast(size_t(loc) - size_t(HostLoc::XMM0)); } ASSERT_MSG(false, "This should never happen."); return Gen::INVALID_REG; } static Gen::OpArg SpillToOpArg(HostLoc loc) { static_assert(std::is_same::value, "Spill must be u64"); DEBUG_ASSERT(HostLocIsSpill(loc)); size_t i = static_cast(loc) - static_cast(HostLoc::FirstSpill); return Gen::MDisp(Gen::R15, static_cast(offsetof(JitState, Spill) + i * sizeof(u64))); } Gen::X64Reg RegAlloc::DefRegister(IR::Inst* def_inst, HostLocList desired_locations) { DEBUG_ASSERT(std::all_of(desired_locations.begin(), desired_locations.end(), HostLocIsRegister)); DEBUG_ASSERT_MSG(!ValueLocation(def_inst), "def_inst has already been defined"); HostLoc location = SelectARegister(desired_locations); if (IsRegisterOccupied(location)) { SpillRegister(location); } LocInfo(location).is_being_used = true; LocInfo(location).def = def_inst; DEBUG_ASSERT(LocInfo(location).IsDef()); return HostLocToX64(location); } void RegAlloc::RegisterAddDef(IR::Inst* def_inst, const IR::Value& use_inst) { DEBUG_ASSERT_MSG(!ValueLocation(def_inst), "def_inst has already been defined"); if (use_inst.IsImmediate()) { LoadImmediateIntoRegister(use_inst, DefRegister(def_inst, any_gpr)); return; } DEBUG_ASSERT_MSG(ValueLocation(use_inst.GetInst()), "use_inst must already be defined"); HostLoc location = *ValueLocation(use_inst.GetInst()); LocInfo(location).values.emplace_back(def_inst); DecrementRemainingUses(use_inst.GetInst()); DEBUG_ASSERT(LocInfo(location).IsIdle()); } Gen::X64Reg RegAlloc::UseDefRegister(IR::Value use_value, IR::Inst* def_inst, HostLocList desired_locations) { if (!use_value.IsImmediate()) { return UseDefRegister(use_value.GetInst(), def_inst, desired_locations); } return LoadImmediateIntoRegister(use_value, DefRegister(def_inst, desired_locations)); } Gen::X64Reg RegAlloc::UseDefRegister(IR::Inst* use_inst, IR::Inst* def_inst, HostLocList desired_locations) { DEBUG_ASSERT(std::all_of(desired_locations.begin(), desired_locations.end(), HostLocIsRegister)); DEBUG_ASSERT_MSG(!ValueLocation(def_inst), "def_inst has already been defined"); DEBUG_ASSERT_MSG(ValueLocation(use_inst), "use_inst has not been defined"); if (IsLastUse(use_inst)) { HostLoc current_location = *ValueLocation(use_inst); auto& loc_info = LocInfo(current_location); if (loc_info.IsIdle()) { loc_info.is_being_used = true; loc_info.def = def_inst; DEBUG_ASSERT(loc_info.IsUseDef()); if (HostLocIsSpill(current_location)) { HostLoc new_location = SelectARegister(desired_locations); if (IsRegisterOccupied(new_location)) { SpillRegister(new_location); } EmitMove(new_location, current_location); LocInfo(new_location) = LocInfo(current_location); LocInfo(current_location) = {}; return HostLocToX64(new_location); } else { return HostLocToX64(current_location); } } } bool is_floating_point = use_inst->GetType() == IR::Type::F32 || use_inst->GetType() == IR::Type::F64; Gen::X64Reg use_reg = UseRegister(use_inst, is_floating_point ? any_xmm : any_gpr); Gen::X64Reg def_reg = DefRegister(def_inst, desired_locations); if (is_floating_point) { code->MOVAPD(def_reg, Gen::R(use_reg)); } else { code->MOV(64, Gen::R(def_reg), Gen::R(use_reg)); } return def_reg; } std::tuple RegAlloc::UseDefOpArg(IR::Value use_value, IR::Inst* def_inst, HostLocList desired_locations) { DEBUG_ASSERT(std::all_of(desired_locations.begin(), desired_locations.end(), HostLocIsRegister)); DEBUG_ASSERT_MSG(!ValueLocation(def_inst), "def_inst has already been defined"); DEBUG_ASSERT_MSG(use_value.IsImmediate() || ValueLocation(use_value.GetInst()), "use_inst has not been defined"); if (!use_value.IsImmediate()) { IR::Inst* use_inst = use_value.GetInst(); if (IsLastUse(use_inst)) { HostLoc current_location = *ValueLocation(use_inst); auto& loc_info = LocInfo(current_location); if (!loc_info.IsIdle()) { if (HostLocIsSpill(current_location)) { loc_info.is_being_used = true; DEBUG_ASSERT(loc_info.IsUse()); return std::make_tuple(SpillToOpArg(current_location), DefRegister(def_inst, desired_locations)); } else { loc_info.is_being_used = true; loc_info.def = def_inst; DEBUG_ASSERT(loc_info.IsUseDef()); return std::make_tuple(Gen::R(HostLocToX64(current_location)), HostLocToX64(current_location)); } } } } Gen::OpArg use_oparg = UseOpArg(use_value, any_gpr); Gen::X64Reg def_reg = DefRegister(def_inst, desired_locations); return std::make_tuple(use_oparg, def_reg); } Gen::X64Reg RegAlloc::UseRegister(IR::Value use_value, HostLocList desired_locations) { if (!use_value.IsImmediate()) { return UseRegister(use_value.GetInst(), desired_locations); } return LoadImmediateIntoRegister(use_value, ScratchRegister(desired_locations)); } Gen::X64Reg RegAlloc::UseRegister(IR::Inst* use_inst, HostLocList desired_locations) { HostLoc current_location; bool was_being_used; std::tie(current_location, was_being_used) = UseHostLoc(use_inst, desired_locations); if (HostLocIsRegister(current_location)) { return HostLocToX64(current_location); } else if (HostLocIsSpill(current_location)) { HostLoc new_location = SelectARegister(desired_locations); if (IsRegisterOccupied(new_location)) { SpillRegister(new_location); } EmitMove(new_location, current_location); if (!was_being_used) { LocInfo(new_location) = LocInfo(current_location); LocInfo(current_location) = {}; DEBUG_ASSERT(LocInfo(new_location).IsUse()); } else { LocInfo(new_location).is_being_used = true; DEBUG_ASSERT(LocInfo(new_location).IsScratch()); } return HostLocToX64(new_location); } ASSERT_MSG(false, "Unknown current_location type"); return Gen::INVALID_REG; } Gen::OpArg RegAlloc::UseOpArg(IR::Value use_value, HostLocList desired_locations) { if (use_value.IsImmediate()) { return ImmediateToOpArg(use_value); } IR::Inst* use_inst = use_value.GetInst(); HostLoc current_location; bool was_being_used; std::tie(current_location, was_being_used) = UseHostLoc(use_inst, desired_locations); if (HostLocIsRegister(current_location)) { return Gen::R(HostLocToX64(current_location)); } else if (HostLocIsSpill(current_location)) { return SpillToOpArg(current_location); } ASSERT_MSG(false, "Unknown current_location type"); return Gen::R(Gen::INVALID_REG); } Gen::X64Reg RegAlloc::UseScratchRegister(IR::Value use_value, HostLocList desired_locations) { if (!use_value.IsImmediate()) { return UseScratchRegister(use_value.GetInst(), desired_locations); } return LoadImmediateIntoRegister(use_value, ScratchRegister(desired_locations)); } Gen::X64Reg RegAlloc::UseScratchRegister(IR::Inst* use_inst, HostLocList desired_locations) { DEBUG_ASSERT(std::all_of(desired_locations.begin(), desired_locations.end(), HostLocIsRegister)); DEBUG_ASSERT_MSG(ValueLocation(use_inst), "use_inst has not been defined"); ASSERT_MSG(use_inst->use_count != 0, "use_inst ran out of uses. (Use-d an IR::Inst* too many times)"); HostLoc current_location = *ValueLocation(use_inst); HostLoc new_location = SelectARegister(desired_locations); if (IsRegisterOccupied(new_location)) { SpillRegister(new_location); } if (HostLocIsSpill(current_location)) { EmitMove(new_location, current_location); LocInfo(new_location).is_being_used = true; DecrementRemainingUses(use_inst); DEBUG_ASSERT(LocInfo(new_location).IsScratch()); return HostLocToX64(new_location); } else if (HostLocIsRegister(current_location)) { ASSERT(LocInfo(current_location).IsIdle() || LocInfo(current_location).IsUse() || LocInfo(current_location).IsUseDef()); if (current_location != new_location) { EmitMove(new_location, current_location); } else { ASSERT(LocInfo(current_location).IsIdle()); } LocInfo(new_location).is_being_used = true; LocInfo(new_location).values.clear(); DecrementRemainingUses(use_inst); DEBUG_ASSERT(LocInfo(new_location).IsScratch()); return HostLocToX64(new_location); } ASSERT_MSG(0, "Invalid current_location"); return Gen::INVALID_REG; } Gen::X64Reg RegAlloc::ScratchRegister(HostLocList desired_locations) { DEBUG_ASSERT(std::all_of(desired_locations.begin(), desired_locations.end(), HostLocIsRegister)); HostLoc location = SelectARegister(desired_locations); if (IsRegisterOccupied(location)) { SpillRegister(location); } // Update state LocInfo(location).is_being_used = true; DEBUG_ASSERT(LocInfo(location).IsScratch()); return HostLocToX64(location); } void RegAlloc::HostCall(IR::Inst* result_def, IR::Value arg0_use, IR::Value arg1_use, IR::Value arg2_use, IR::Value arg3_use) { constexpr HostLoc AbiReturn = HostLoc::RAX; #ifdef _WIN32 constexpr std::array AbiArgs = { HostLoc::RCX, HostLoc::RDX, HostLoc::R8, HostLoc::R9 }; /// Caller-saved registers other than AbiReturn or AbiArgs constexpr std::array OtherCallerSave = { HostLoc::R10, HostLoc::R11 }; #else constexpr std::array AbiArgs = { HostLoc::RDI, HostLoc::RSI, HostLoc::RDX, HostLoc::RCX }; /// Caller-saved registers other than AbiReturn or AbiArgs constexpr std::array OtherCallerSave = { HostLoc::R8, HostLoc::R9, HostLoc::R10, HostLoc::R11 }; #endif const std::array args = {&arg0_use, &arg1_use, &arg2_use, &arg3_use}; // TODO: This works but almost certainly leads to suboptimal generated code. for (HostLoc caller_save : OtherCallerSave) { ScratchRegister({caller_save}); } if (result_def) { DefRegister(result_def, {AbiReturn}); } else { ScratchRegister({AbiReturn}); } for (size_t i = 0; i < AbiArgs.size(); i++) { if (!args[i]->IsEmpty()) { UseScratchRegister(*args[i], {AbiArgs[i]}); } else { ScratchRegister({AbiArgs[i]}); } } // Flush all xmm registers for (auto xmm : any_xmm) { ScratchRegister({xmm}); } } HostLoc RegAlloc::SelectARegister(HostLocList desired_locations) const { std::vector candidates = desired_locations; // Find all locations that have not been allocated.. auto allocated_locs = std::partition(candidates.begin(), candidates.end(), [this](auto loc){ return !this->IsRegisterAllocated(loc); }); candidates.erase(allocated_locs, candidates.end()); ASSERT_MSG(!candidates.empty(), "All candidate registers have already been allocated"); // Selects the best location out of the available locations. // TODO: Actually do LRU or something. Currently we just try to pick something without a value if possible. std::partition(candidates.begin(), candidates.end(), [this](auto loc){ return !this->IsRegisterOccupied(loc); }); return candidates.front(); } boost::optional RegAlloc::ValueLocation(IR::Inst* value) const { for (size_t i = 0; i < HostLocCount; i++) for (IR::Inst* v : hostloc_info[i].values) if (v == value) return boost::make_optional(static_cast(i)); return boost::none; } bool RegAlloc::IsRegisterOccupied(HostLoc loc) const { const auto& info = LocInfo(loc); return !info.values.empty() || info.def; } bool RegAlloc::IsRegisterAllocated(HostLoc loc) const { return LocInfo(loc).is_being_used; } bool RegAlloc::IsLastUse(IR::Inst* inst) const { if (inst->use_count > 1) return false; return LocInfo(*ValueLocation(inst)).values.size() == 1; } void RegAlloc::SpillRegister(HostLoc loc) { ASSERT_MSG(HostLocIsRegister(loc), "Only registers can be spilled"); ASSERT_MSG(IsRegisterOccupied(loc), "There is no need to spill unoccupied registers"); ASSERT_MSG(!IsRegisterAllocated(loc), "Registers that have been allocated must not be spilt"); HostLoc new_loc = FindFreeSpill(); EmitMove(new_loc, loc); LocInfo(new_loc) = LocInfo(loc); LocInfo(loc) = {}; } HostLoc RegAlloc::FindFreeSpill() const { for (size_t i = 0; i < SpillCount; i++) if (!IsRegisterOccupied(HostLocSpill(i))) return HostLocSpill(i); ASSERT_MSG(0, "All spill locations are full"); } void RegAlloc::EndOfAllocScope() { for (auto& iter : hostloc_info) { iter.is_being_used = false; if (iter.def) { iter.values.clear(); iter.values.emplace_back(iter.def); iter.def = nullptr; } if (!iter.values.empty()) { auto to_erase = std::remove_if(iter.values.begin(), iter.values.end(), [](const auto& inst){ return inst->use_count <= 0; }); iter.values.erase(to_erase, iter.values.end()); } } } void RegAlloc::DecrementRemainingUses(IR::Inst* value) { ASSERT_MSG(value->use_count > 0, "value doesn't have any remaining uses"); value->use_count--; } void RegAlloc::AssertNoMoreUses() { ASSERT(std::all_of(hostloc_info.begin(), hostloc_info.end(), [](const auto& i){ return i.values.empty(); })); } void RegAlloc::Reset() { hostloc_info.fill({}); } void RegAlloc::EmitMove(HostLoc to, HostLoc from) { if (HostLocIsXMM(to) && HostLocIsSpill(from)) { code->MOVSD(HostLocToX64(to), SpillToOpArg(from)); } else if (HostLocIsSpill(to) && HostLocIsXMM(from)) { code->MOVSD(SpillToOpArg(to), HostLocToX64(from)); } else if (HostLocIsXMM(to) && HostLocIsXMM(from)) { code->MOVAPS(HostLocToX64(to), Gen::R(HostLocToX64(from))); } else if (HostLocIsGPR(to) && HostLocIsSpill(from)) { code->MOV(64, Gen::R(HostLocToX64(to)), SpillToOpArg(from)); } else if (HostLocIsSpill(to) && HostLocIsGPR(from)) { code->MOV(64, SpillToOpArg(to), Gen::R(HostLocToX64(from))); } else if (HostLocIsGPR(to) && HostLocIsGPR(from)){ code->MOV(64, Gen::R(HostLocToX64(to)), Gen::R(HostLocToX64(from))); } else { ASSERT_MSG(false, "Invalid RegAlloc::EmitMove"); } } void RegAlloc::EmitExchange(HostLoc a, HostLoc b) { if (HostLocIsGPR(a) && HostLocIsGPR(b)) { code->XCHG(64, Gen::R(HostLocToX64(a)), Gen::R(HostLocToX64(b))); } else if (HostLocIsXMM(a) && HostLocIsXMM(b)) { ASSERT_MSG(false, "Exchange is unnecessary for XMM registers"); } else { ASSERT_MSG(false, "Invalid RegAlloc::EmitExchange"); } } std::tuple RegAlloc::UseHostLoc(IR::Inst* use_inst, HostLocList desired_locations) { DEBUG_ASSERT(std::all_of(desired_locations.begin(), desired_locations.end(), HostLocIsRegister)); DEBUG_ASSERT_MSG(ValueLocation(use_inst), "use_inst has not been defined"); HostLoc current_location = *ValueLocation(use_inst); auto iter = std::find(desired_locations.begin(), desired_locations.end(), current_location); if (iter != desired_locations.end()) { if (LocInfo(current_location).IsDef()) { HostLoc new_location = SelectARegister(desired_locations); if (IsRegisterOccupied(new_location)) { SpillRegister(new_location); } EmitMove(new_location, current_location); LocInfo(new_location).is_being_used = true; LocInfo(new_location).values.emplace_back(use_inst); DecrementRemainingUses(use_inst); DEBUG_ASSERT(LocInfo(new_location).IsUse()); return std::make_tuple(new_location, false); } else { bool was_being_used = LocInfo(current_location).is_being_used; ASSERT(LocInfo(current_location).IsUse() || LocInfo(current_location).IsIdle()); LocInfo(current_location).is_being_used = true; DecrementRemainingUses(use_inst); DEBUG_ASSERT(LocInfo(current_location).IsUse()); return std::make_tuple(current_location, was_being_used); } } if (HostLocIsSpill(current_location)) { bool was_being_used = LocInfo(current_location).is_being_used; LocInfo(current_location).is_being_used = true; DecrementRemainingUses(use_inst); DEBUG_ASSERT(LocInfo(current_location).IsUse()); return std::make_tuple(current_location, was_being_used); } else if (HostLocIsRegister(current_location)) { HostLoc new_location = SelectARegister(desired_locations); ASSERT(LocInfo(current_location).IsIdle()); EmitExchange(new_location, current_location); std::swap(LocInfo(new_location), LocInfo(current_location)); LocInfo(new_location).is_being_used = true; DecrementRemainingUses(use_inst); DEBUG_ASSERT(LocInfo(new_location).IsUse()); return std::make_tuple(new_location, false); } ASSERT_MSG(0, "Invalid current_location"); return std::make_tuple(static_cast(-1), false); } Gen::X64Reg RegAlloc::LoadImmediateIntoRegister(IR::Value imm, Gen::X64Reg reg) { ASSERT_MSG(imm.IsImmediate(), "imm is not an immediate"); Gen::OpArg op_arg = ImmediateToOpArg(imm); if (op_arg.GetImmValue() == 0) code->XOR(32, Gen::R(reg), Gen::R(reg)); else code->MOV(32, Gen::R(reg), op_arg); return reg; } } // namespace BackendX64 } // namespace Dynarmic