dynarmic/src/backend_x64/reg_alloc.cpp

470 lines
14 KiB
C++
Raw Normal View History

2016-07-01 14:01:06 +01:00
/* 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 <algorithm>
2016-08-24 20:07:08 +01:00
#include <xbyak.h>
#include "backend_x64/abi.h"
2016-08-24 20:07:08 +01:00
#include "backend_x64/jitstate.h"
2016-07-01 14:01:06 +01:00
#include "backend_x64/reg_alloc.h"
#include "common/assert.h"
namespace Dynarmic {
namespace BackendX64 {
2016-12-03 11:29:50 +00:00
static u64 ImmediateToU64(const IR::Value& imm) {
switch (imm.GetType()) {
case IR::Type::U1:
2016-12-03 11:29:50 +00:00
return u64(imm.GetU1());
case IR::Type::U8:
2016-12-03 11:29:50 +00:00
return u64(imm.GetU8());
case IR::Type::U16:
return u64(imm.GetU16());
case IR::Type::U32:
2016-12-03 11:29:50 +00:00
return u64(imm.GetU32());
case IR::Type::U64:
return u64(imm.GetU64());
default:
ASSERT_MSG(false, "This should never happen.");
}
}
2017-02-24 19:42:36 +00:00
static bool IsSameHostLocClass(HostLoc a, HostLoc b) {
return (HostLocIsGPR(a) && HostLocIsGPR(b))
|| (HostLocIsXMM(a) && HostLocIsXMM(b))
|| (HostLocIsSpill(a) && HostLocIsSpill(b));
}
static void EmitMove(BlockOfCode* code, HostLoc to, HostLoc from) {
if (HostLocIsXMM(to) && HostLocIsXMM(from)) {
code->movaps(HostLocToXmm(to), HostLocToXmm(from));
} else if (HostLocIsGPR(to) && HostLocIsGPR(from)) {
code->mov(HostLocToReg64(to), HostLocToReg64(from));
} else if (HostLocIsXMM(to) && HostLocIsGPR(from)) {
code->movq(HostLocToXmm(to), HostLocToReg64(from));
2017-02-24 19:42:36 +00:00
} else if (HostLocIsGPR(to) && HostLocIsXMM(from)) {
code->movq(HostLocToReg64(to), HostLocToXmm(from));
2017-02-24 19:42:36 +00:00
} else if (HostLocIsXMM(to) && HostLocIsSpill(from)) {
code->movsd(HostLocToXmm(to), SpillToOpArg(from));
} else if (HostLocIsSpill(to) && HostLocIsXMM(from)) {
code->movsd(SpillToOpArg(to), HostLocToXmm(from));
} else if (HostLocIsGPR(to) && HostLocIsSpill(from)) {
code->mov(HostLocToReg64(to), SpillToOpArg(from));
} else if (HostLocIsSpill(to) && HostLocIsGPR(from)) {
code->mov(SpillToOpArg(to), HostLocToReg64(from));
} else {
ASSERT_MSG(false, "Invalid RegAlloc::EmitMove");
}
}
static void EmitExchange(BlockOfCode* code, HostLoc a, HostLoc b) {
if (HostLocIsGPR(a) && HostLocIsGPR(b)) {
code->xchg(HostLocToReg64(a), HostLocToReg64(b));
} else if (HostLocIsXMM(a) && HostLocIsXMM(b)) {
ASSERT_MSG(false, "Check your code: Exchanging XMM registers is unnecessary");
} else {
ASSERT_MSG(false, "Invalid RegAlloc::EmitExchange");
}
}
bool HostLocInfo::IsLocked() const {
return is_being_used;
}
bool HostLocInfo::IsEmpty() const {
return !is_being_used && values.empty();
}
bool HostLocInfo::IsLastUse() const {
return !is_being_used && std::all_of(values.begin(), values.end(), [](const auto& inst) { return !inst->HasUses(); });
}
bool HostLocInfo::ContainsValue(const IR::Inst* inst) const {
return std::find(values.begin(), values.end(), inst) != values.end();
}
void HostLocInfo::ReadLock() {
ASSERT(!is_scratch);
is_being_used = true;
}
void HostLocInfo::WriteLock() {
ASSERT(!is_being_used);
is_being_used = true;
is_scratch = true;
}
void HostLocInfo::AddValue(IR::Inst* inst) {
values.push_back(inst);
}
void HostLocInfo::EndOfAllocScope() {
const auto to_erase = std::remove_if(values.begin(), values.end(), [](const auto& inst) { return !inst->HasUses(); });
values.erase(to_erase, values.end());
is_being_used = false;
is_scratch = false;
}
IR::Type Argument::GetType() const {
return value.GetType();
}
bool Argument::IsImmediate() const {
return value.IsImmediate();
}
bool Argument::GetImmediateU1() const {
return value.GetU1();
}
u8 Argument::GetImmediateU8() const {
u64 imm = ImmediateToU64(value);
ASSERT(imm < 0x100);
return u8(imm);
}
u16 Argument::GetImmediateU16() const {
u64 imm = ImmediateToU64(value);
ASSERT(imm < 0x10000);
return u16(imm);
}
u32 Argument::GetImmediateU32() const {
u64 imm = ImmediateToU64(value);
ASSERT(imm < 0x100000000);
return u32(imm);
}
u64 Argument::GetImmediateU64() const {
return ImmediateToU64(value);
}
bool Argument::IsInGpr() const {
return HostLocIsGPR(*reg_alloc.ValueLocation(value.GetInst()));
}
bool Argument::IsInXmm() const {
return HostLocIsXMM(*reg_alloc.ValueLocation(value.GetInst()));
}
bool Argument::IsInMemory() const {
return HostLocIsSpill(*reg_alloc.ValueLocation(value.GetInst()));
}
std::array<Argument, 3> RegAlloc::GetArgumentInfo(IR::Inst* inst) {
2017-02-26 22:28:32 +00:00
std::array<Argument, 3> ret = { Argument{*this}, Argument{*this}, Argument{*this} };
for (size_t i = 0; i < inst->NumArgs(); i++) {
IR::Value arg = inst->GetArg(i);
ret[i].value = arg;
if (!arg.IsImmediate()) {
arg.GetInst()->DecrementRemainingUses();
}
}
return ret;
}
2017-02-26 22:28:32 +00:00
Xbyak::Reg64 RegAlloc::UseGpr(Argument& arg) {
ASSERT(!arg.allocated);
arg.allocated = true;
return HostLocToReg64(UseImpl(arg.value, any_gpr));
}
2017-02-26 22:28:32 +00:00
Xbyak::Xmm RegAlloc::UseXmm(Argument& arg) {
ASSERT(!arg.allocated);
arg.allocated = true;
return HostLocToXmm(UseImpl(arg.value, any_xmm));
}
2017-02-26 22:28:32 +00:00
OpArg RegAlloc::UseOpArg(Argument& arg) {
return UseGpr(arg);
2016-07-01 14:01:06 +01:00
}
2017-02-26 22:28:32 +00:00
void RegAlloc::Use(Argument& arg, HostLoc host_loc) {
ASSERT(!arg.allocated);
arg.allocated = true;
UseImpl(arg.value, {host_loc});
}
Xbyak::Reg64 RegAlloc::UseScratchGpr(Argument& arg) {
ASSERT(!arg.allocated);
arg.allocated = true;
return HostLocToReg64(UseScratchImpl(arg.value, any_gpr));
}
Xbyak::Xmm RegAlloc::UseScratchXmm(Argument& arg) {
ASSERT(!arg.allocated);
arg.allocated = true;
return HostLocToXmm(UseScratchImpl(arg.value, any_xmm));
}
void RegAlloc::UseScratch(Argument& arg, HostLoc host_loc) {
ASSERT(!arg.allocated);
arg.allocated = true;
UseScratchImpl(arg.value, {host_loc});
}
void RegAlloc::DefineValue(IR::Inst* inst, const Xbyak::Reg& reg) {
ASSERT(reg.getKind() == Xbyak::Operand::XMM || reg.getKind() == Xbyak::Operand::REG);
HostLoc hostloc = static_cast<HostLoc>(reg.getIdx() + static_cast<size_t>(reg.getKind() == Xbyak::Operand::XMM ? HostLoc::XMM0 : HostLoc::RAX));
DefineValueImpl(inst, hostloc);
}
void RegAlloc::DefineValue(IR::Inst* inst, Argument& arg) {
ASSERT(!arg.allocated);
arg.allocated = true;
DefineValueImpl(inst, arg.value);
}
2016-07-22 23:55:00 +01:00
2017-02-26 22:28:32 +00:00
Xbyak::Reg64 RegAlloc::ScratchGpr(HostLocList desired_locations) {
return HostLocToReg64(ScratchImpl(desired_locations));
2016-07-22 23:55:00 +01:00
}
2017-02-26 22:28:32 +00:00
Xbyak::Xmm RegAlloc::ScratchXmm(HostLocList desired_locations) {
return HostLocToXmm(ScratchImpl(desired_locations));
}
HostLoc RegAlloc::UseImpl(IR::Value use_value, HostLocList desired_locations) {
if (use_value.IsImmediate()) {
return LoadImmediate(use_value, ScratchImpl(desired_locations));
}
2016-07-01 14:01:06 +01:00
2017-02-26 22:28:32 +00:00
IR::Inst* use_inst = use_value.GetInst();
2017-02-24 19:42:36 +00:00
const HostLoc current_location = *ValueLocation(use_inst);
const bool can_use_current_location = std::find(desired_locations.begin(), desired_locations.end(), current_location) != desired_locations.end();
if (can_use_current_location) {
LocInfo(current_location).ReadLock();
2016-08-24 20:07:08 +01:00
return current_location;
}
2016-07-01 14:01:06 +01:00
2017-02-24 19:42:36 +00:00
if (LocInfo(current_location).IsLocked()) {
2017-02-26 22:28:32 +00:00
return UseScratchImpl(use_value, desired_locations);
2017-02-24 19:42:36 +00:00
}
const HostLoc destination_location = SelectARegister(desired_locations);
if (IsSameHostLocClass(destination_location, current_location)) {
Exchange(destination_location, current_location);
} else {
MoveOutOfTheWay(destination_location);
Move(destination_location, current_location);
}
LocInfo(destination_location).ReadLock();
2017-02-24 19:42:36 +00:00
return destination_location;
}
2016-07-01 14:01:06 +01:00
2017-02-26 22:28:32 +00:00
HostLoc RegAlloc::UseScratchImpl(IR::Value use_value, HostLocList desired_locations) {
if (use_value.IsImmediate()) {
return LoadImmediate(use_value, ScratchImpl(desired_locations));
2016-07-22 23:55:00 +01:00
}
2017-02-26 22:28:32 +00:00
IR::Inst* use_inst = use_value.GetInst();
const HostLoc current_location = *ValueLocation(use_inst);
2016-07-18 15:11:16 +01:00
const bool can_use_current_location = std::find(desired_locations.begin(), desired_locations.end(), current_location) != desired_locations.end();
if (can_use_current_location && !LocInfo(current_location).IsLocked()) {
MoveOutOfTheWay(current_location);
LocInfo(current_location).WriteLock();
return current_location;
2016-07-18 15:11:16 +01:00
}
const HostLoc destination_location = SelectARegister(desired_locations);
MoveOutOfTheWay(destination_location);
CopyToScratch(destination_location, current_location);
LocInfo(destination_location).WriteLock();
return destination_location;
2016-07-18 15:11:16 +01:00
}
2017-02-26 22:28:32 +00:00
HostLoc RegAlloc::ScratchImpl(HostLocList desired_locations) {
2016-07-01 14:01:06 +01:00
HostLoc location = SelectARegister(desired_locations);
MoveOutOfTheWay(location);
LocInfo(location).WriteLock();
2016-08-24 20:07:08 +01:00
return location;
2016-07-22 23:55:00 +01:00
}
2017-02-26 22:28:32 +00:00
void RegAlloc::HostCall(IR::Inst* result_def, boost::optional<Argument&> arg0, boost::optional<Argument&> arg1, boost::optional<Argument&> arg2, boost::optional<Argument&> arg3) {
constexpr size_t args_count = 4;
constexpr std::array<HostLoc, args_count> args_hostloc = { ABI_PARAM1, ABI_PARAM2, ABI_PARAM3, ABI_PARAM4 };
2017-02-26 22:28:32 +00:00
const std::array<boost::optional<Argument&>, args_count> args = { arg0, arg1, arg2, arg3 };
2017-02-26 22:28:32 +00:00
const static std::vector<HostLoc> other_caller_save = [args_hostloc]() {
std::vector<HostLoc> ret(ABI_ALL_CALLER_SAVE.begin(), ABI_ALL_CALLER_SAVE.end());
for (auto hostloc : args_hostloc)
ret.erase(std::find(ret.begin(), ret.end(), hostloc));
return ret;
}();
2017-02-26 22:28:32 +00:00
ScratchGpr({ABI_RETURN});
if (result_def) {
2017-02-26 22:28:32 +00:00
DefineValueImpl(result_def, ABI_RETURN);
}
for (size_t i = 0; i < args_count; i++) {
if (args[i]) {
UseScratch(*args[i], args_hostloc[i]);
}
}
for (size_t i = 0; i < args_count; i++) {
2017-02-26 22:28:32 +00:00
if (!args[i]) {
// TODO: Force spill
ScratchGpr({args_hostloc[i]});
}
}
for (HostLoc caller_saved : other_caller_save) {
2017-02-26 22:28:32 +00:00
ScratchImpl({caller_saved});
}
}
2017-02-26 22:28:32 +00:00
void RegAlloc::EndOfAllocScope() {
for (auto& iter : hostloc_info) {
iter.EndOfAllocScope();
}
}
void RegAlloc::AssertNoMoreUses() {
ASSERT(std::all_of(hostloc_info.begin(), hostloc_info.end(), [](const auto& i) { return i.IsEmpty(); }));
}
HostLoc RegAlloc::SelectARegister(HostLocList desired_locations) const {
2016-07-01 14:01:06 +01:00
std::vector<HostLoc> candidates = desired_locations;
// Find all locations that have not been allocated..
auto allocated_locs = std::partition(candidates.begin(), candidates.end(), [this](auto loc){
2017-02-24 20:14:02 +00:00
return !this->LocInfo(loc).IsLocked();
2016-07-01 14:01:06 +01:00
});
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){
2017-02-24 20:14:02 +00:00
return this->LocInfo(loc).IsEmpty();
2016-07-01 14:01:06 +01:00
});
return candidates.front();
}
boost::optional<HostLoc> RegAlloc::ValueLocation(const IR::Inst* value) const {
2016-07-22 23:55:00 +01:00
for (size_t i = 0; i < HostLocCount; i++)
if (hostloc_info[i].ContainsValue(value))
return boost::make_optional<HostLoc>(static_cast<HostLoc>(i));
2016-07-01 14:01:06 +01:00
return boost::none;
2016-07-01 14:01:06 +01:00
}
2017-02-26 22:28:32 +00:00
void RegAlloc::DefineValueImpl(IR::Inst* def_inst, HostLoc host_loc) {
2017-02-26 23:27:41 +00:00
ASSERT_MSG(!ValueLocation(def_inst), "def_inst has already been defined");
LocInfo(host_loc).AddValue(def_inst);
}
2017-02-26 22:28:32 +00:00
void RegAlloc::DefineValueImpl(IR::Inst* def_inst, const IR::Value& use_inst) {
2017-02-26 23:27:41 +00:00
ASSERT_MSG(!ValueLocation(def_inst), "def_inst has already been defined");
2016-07-01 14:01:06 +01:00
2017-02-26 22:28:32 +00:00
if (use_inst.IsImmediate()) {
HostLoc location = ScratchImpl(any_gpr);
DefineValueImpl(def_inst, location);
LoadImmediate(use_inst, location);
return;
}
2017-02-26 23:27:41 +00:00
ASSERT_MSG(ValueLocation(use_inst.GetInst()), "use_inst must already be defined");
2017-02-26 22:28:32 +00:00
HostLoc location = *ValueLocation(use_inst.GetInst());
DefineValueImpl(def_inst, location);
}
2017-02-26 22:28:32 +00:00
HostLoc RegAlloc::LoadImmediate(IR::Value imm, HostLoc host_loc) {
ASSERT_MSG(imm.IsImmediate(), "imm is not an immediate");
2016-08-24 20:07:08 +01:00
Xbyak::Reg64 reg = HostLocToReg64(host_loc);
2016-12-03 11:29:50 +00:00
u64 imm_value = ImmediateToU64(imm);
2016-08-24 20:07:08 +01:00
if (imm_value == 0)
2016-12-03 11:29:50 +00:00
code->xor_(reg.cvt32(), reg.cvt32());
2016-08-06 21:04:13 +01:00
else
2016-12-03 11:29:50 +00:00
code->mov(reg, imm_value);
2016-08-24 20:07:08 +01:00
return host_loc;
}
2017-02-24 19:42:36 +00:00
void RegAlloc::Move(HostLoc to, HostLoc from) {
ASSERT(LocInfo(to).IsEmpty() && !LocInfo(from).IsLocked());
if (LocInfo(from).IsEmpty()) {
return;
}
LocInfo(to) = LocInfo(from);
LocInfo(from) = {};
EmitMove(code, to, from);
}
void RegAlloc::CopyToScratch(HostLoc to, HostLoc from) {
ASSERT(LocInfo(to).IsEmpty() && !LocInfo(from).IsEmpty());
EmitMove(code, to, from);
}
2017-02-24 19:42:36 +00:00
void RegAlloc::Exchange(HostLoc a, HostLoc b) {
ASSERT(!LocInfo(a).IsLocked() && !LocInfo(b).IsLocked());
if (LocInfo(a).IsEmpty()) {
Move(a, b);
return;
}
if (LocInfo(b).IsEmpty()) {
Move(b, a);
return;
}
std::swap(LocInfo(a), LocInfo(b));
EmitExchange(code, a, b);
}
void RegAlloc::MoveOutOfTheWay(HostLoc reg) {
ASSERT(!LocInfo(reg).IsLocked());
2017-02-24 20:14:02 +00:00
if (!LocInfo(reg).IsEmpty()) {
2017-02-24 19:42:36 +00:00
SpillRegister(reg);
}
}
2017-02-26 22:28:32 +00:00
void RegAlloc::SpillRegister(HostLoc loc) {
ASSERT_MSG(HostLocIsRegister(loc), "Only registers can be spilled");
ASSERT_MSG(!LocInfo(loc).IsEmpty(), "There is no need to spill unoccupied registers");
ASSERT_MSG(!LocInfo(loc).IsLocked(), "Registers that have been allocated must not be spilt");
HostLoc new_loc = FindFreeSpill();
Move(new_loc, loc);
}
HostLoc RegAlloc::FindFreeSpill() const {
for (size_t i = 0; i < SpillCount; i++)
if (LocInfo(HostLocSpill(i)).IsEmpty())
return HostLocSpill(i);
ASSERT_MSG(false, "All spill locations are full");
}
HostLocInfo& RegAlloc::LocInfo(HostLoc loc) {
2017-02-26 23:27:41 +00:00
ASSERT(loc != HostLoc::RSP && loc != HostLoc::R15);
2017-02-26 22:28:32 +00:00
return hostloc_info[static_cast<size_t>(loc)];
}
const HostLocInfo& RegAlloc::LocInfo(HostLoc loc) const {
2017-02-26 23:27:41 +00:00
ASSERT(loc != HostLoc::RSP && loc != HostLoc::R15);
2017-02-26 22:28:32 +00:00
return hostloc_info[static_cast<size_t>(loc)];
}
2016-07-01 14:01:06 +01:00
} // namespace BackendX64
} // namespace Dynarmic