RegisterPressure.cpp [plain text]
#include "llvm/CodeGen/RegisterPressure.h"
#include "llvm/CodeGen/LiveInterval.h"
#include "llvm/CodeGen/LiveIntervalAnalysis.h"
#include "llvm/CodeGen/MachineRegisterInfo.h"
#include "llvm/CodeGen/RegisterClassInfo.h"
#include "llvm/Support/Debug.h"
#include "llvm/Support/raw_ostream.h"
using namespace llvm;
static void increaseSetPressure(std::vector<unsigned> &CurrSetPressure,
PSetIterator PSetI) {
unsigned Weight = PSetI.getWeight();
for (; PSetI.isValid(); ++PSetI)
CurrSetPressure[*PSetI] += Weight;
}
static void decreaseSetPressure(std::vector<unsigned> &CurrSetPressure,
PSetIterator PSetI) {
unsigned Weight = PSetI.getWeight();
for (; PSetI.isValid(); ++PSetI) {
assert(CurrSetPressure[*PSetI] >= Weight && "register pressure underflow");
CurrSetPressure[*PSetI] -= Weight;
}
}
LLVM_DUMP_METHOD
void llvm::dumpRegSetPressure(ArrayRef<unsigned> SetPressure,
const TargetRegisterInfo *TRI) {
bool Empty = true;
for (unsigned i = 0, e = SetPressure.size(); i < e; ++i) {
if (SetPressure[i] != 0) {
dbgs() << TRI->getRegPressureSetName(i) << "=" << SetPressure[i] << '\n';
Empty = false;
}
}
if (Empty)
dbgs() << "\n";
}
LLVM_DUMP_METHOD
void RegisterPressure::dump(const TargetRegisterInfo *TRI) const {
dbgs() << "Max Pressure: ";
dumpRegSetPressure(MaxSetPressure, TRI);
dbgs() << "Live In: ";
for (unsigned i = 0, e = LiveInRegs.size(); i < e; ++i)
dbgs() << PrintVRegOrUnit(LiveInRegs[i], TRI) << " ";
dbgs() << '\n';
dbgs() << "Live Out: ";
for (unsigned i = 0, e = LiveOutRegs.size(); i < e; ++i)
dbgs() << PrintVRegOrUnit(LiveOutRegs[i], TRI) << " ";
dbgs() << '\n';
}
LLVM_DUMP_METHOD
void RegPressureTracker::dump() const {
if (!isTopClosed() || !isBottomClosed()) {
dbgs() << "Curr Pressure: ";
dumpRegSetPressure(CurrSetPressure, TRI);
}
P.dump(TRI);
}
void PressureDiff::dump(const TargetRegisterInfo &TRI) const {
const char *sep = "";
for (const PressureChange &Change : *this) {
if (!Change.isValid())
break;
dbgs() << sep << TRI.getRegPressureSetName(Change.getPSet())
<< " " << Change.getUnitInc();
sep = " ";
}
dbgs() << '\n';
}
void RegPressureTracker::increaseRegPressure(ArrayRef<unsigned> RegUnits) {
for (unsigned i = 0, e = RegUnits.size(); i != e; ++i) {
PSetIterator PSetI = MRI->getPressureSets(RegUnits[i]);
unsigned Weight = PSetI.getWeight();
for (; PSetI.isValid(); ++PSetI) {
CurrSetPressure[*PSetI] += Weight;
if (CurrSetPressure[*PSetI] > P.MaxSetPressure[*PSetI]) {
P.MaxSetPressure[*PSetI] = CurrSetPressure[*PSetI];
}
}
}
}
void RegPressureTracker::decreaseRegPressure(ArrayRef<unsigned> RegUnits) {
for (unsigned I = 0, E = RegUnits.size(); I != E; ++I)
decreaseSetPressure(CurrSetPressure, MRI->getPressureSets(RegUnits[I]));
}
void IntervalPressure::reset() {
TopIdx = BottomIdx = SlotIndex();
MaxSetPressure.clear();
LiveInRegs.clear();
LiveOutRegs.clear();
}
void RegionPressure::reset() {
TopPos = BottomPos = MachineBasicBlock::const_iterator();
MaxSetPressure.clear();
LiveInRegs.clear();
LiveOutRegs.clear();
}
void IntervalPressure::openTop(SlotIndex NextTop) {
if (TopIdx <= NextTop)
return;
TopIdx = SlotIndex();
LiveInRegs.clear();
}
void RegionPressure::openTop(MachineBasicBlock::const_iterator PrevTop) {
if (TopPos != PrevTop)
return;
TopPos = MachineBasicBlock::const_iterator();
LiveInRegs.clear();
}
void IntervalPressure::openBottom(SlotIndex PrevBottom) {
if (BottomIdx > PrevBottom)
return;
BottomIdx = SlotIndex();
LiveInRegs.clear();
}
void RegionPressure::openBottom(MachineBasicBlock::const_iterator PrevBottom) {
if (BottomPos != PrevBottom)
return;
BottomPos = MachineBasicBlock::const_iterator();
LiveInRegs.clear();
}
void LiveRegSet::init(const MachineRegisterInfo &MRI) {
const TargetRegisterInfo &TRI = *MRI.getTargetRegisterInfo();
unsigned NumRegUnits = TRI.getNumRegs();
unsigned NumVirtRegs = MRI.getNumVirtRegs();
Regs.setUniverse(NumRegUnits + NumVirtRegs);
this->NumRegUnits = NumRegUnits;
}
void LiveRegSet::clear() {
Regs.clear();
}
const LiveRange *RegPressureTracker::getLiveRange(unsigned Reg) const {
if (TargetRegisterInfo::isVirtualRegister(Reg))
return &LIS->getInterval(Reg);
return LIS->getCachedRegUnit(Reg);
}
void RegPressureTracker::reset() {
MBB = nullptr;
LIS = nullptr;
CurrSetPressure.clear();
LiveThruPressure.clear();
P.MaxSetPressure.clear();
if (RequireIntervals)
static_cast<IntervalPressure&>(P).reset();
else
static_cast<RegionPressure&>(P).reset();
LiveRegs.clear();
UntiedDefs.clear();
}
void RegPressureTracker::init(const MachineFunction *mf,
const RegisterClassInfo *rci,
const LiveIntervals *lis,
const MachineBasicBlock *mbb,
MachineBasicBlock::const_iterator pos,
bool ShouldTrackUntiedDefs)
{
reset();
MF = mf;
TRI = MF->getSubtarget().getRegisterInfo();
RCI = rci;
MRI = &MF->getRegInfo();
MBB = mbb;
TrackUntiedDefs = ShouldTrackUntiedDefs;
if (RequireIntervals) {
assert(lis && "IntervalPressure requires LiveIntervals");
LIS = lis;
}
CurrPos = pos;
CurrSetPressure.assign(TRI->getNumRegPressureSets(), 0);
P.MaxSetPressure = CurrSetPressure;
LiveRegs.init(*MRI);
if (TrackUntiedDefs)
UntiedDefs.setUniverse(MRI->getNumVirtRegs());
}
bool RegPressureTracker::isTopClosed() const {
if (RequireIntervals)
return static_cast<IntervalPressure&>(P).TopIdx.isValid();
return (static_cast<RegionPressure&>(P).TopPos ==
MachineBasicBlock::const_iterator());
}
bool RegPressureTracker::isBottomClosed() const {
if (RequireIntervals)
return static_cast<IntervalPressure&>(P).BottomIdx.isValid();
return (static_cast<RegionPressure&>(P).BottomPos ==
MachineBasicBlock::const_iterator());
}
SlotIndex RegPressureTracker::getCurrSlot() const {
MachineBasicBlock::const_iterator IdxPos = CurrPos;
while (IdxPos != MBB->end() && IdxPos->isDebugValue())
++IdxPos;
if (IdxPos == MBB->end())
return LIS->getMBBEndIdx(MBB);
return LIS->getInstructionIndex(IdxPos).getRegSlot();
}
void RegPressureTracker::closeTop() {
if (RequireIntervals)
static_cast<IntervalPressure&>(P).TopIdx = getCurrSlot();
else
static_cast<RegionPressure&>(P).TopPos = CurrPos;
assert(P.LiveInRegs.empty() && "inconsistent max pressure result");
P.LiveInRegs.reserve(LiveRegs.size());
LiveRegs.appendTo(P.LiveInRegs);
}
void RegPressureTracker::closeBottom() {
if (RequireIntervals)
static_cast<IntervalPressure&>(P).BottomIdx = getCurrSlot();
else
static_cast<RegionPressure&>(P).BottomPos = CurrPos;
assert(P.LiveOutRegs.empty() && "inconsistent max pressure result");
P.LiveOutRegs.reserve(LiveRegs.size());
LiveRegs.appendTo(P.LiveOutRegs);
}
void RegPressureTracker::closeRegion() {
if (!isTopClosed() && !isBottomClosed()) {
assert(LiveRegs.size() == 0 && "no region boundary");
return;
}
if (!isBottomClosed())
closeBottom();
else if (!isTopClosed())
closeTop();
}
void RegPressureTracker::initLiveThru(const RegPressureTracker &RPTracker) {
LiveThruPressure.assign(TRI->getNumRegPressureSets(), 0);
assert(isBottomClosed() && "need bottom-up tracking to intialize.");
for (unsigned i = 0, e = P.LiveOutRegs.size(); i < e; ++i) {
unsigned Reg = P.LiveOutRegs[i];
if (TargetRegisterInfo::isVirtualRegister(Reg)
&& !RPTracker.hasUntiedDef(Reg)) {
increaseSetPressure(LiveThruPressure, MRI->getPressureSets(Reg));
}
}
}
static bool containsReg(ArrayRef<unsigned> RegUnits, unsigned RegUnit) {
return std::find(RegUnits.begin(), RegUnits.end(), RegUnit) != RegUnits.end();
}
namespace {
class RegisterOperands {
const TargetRegisterInfo *TRI;
const MachineRegisterInfo *MRI;
bool IgnoreDead;
public:
SmallVector<unsigned, 8> Uses;
SmallVector<unsigned, 8> Defs;
SmallVector<unsigned, 8> DeadDefs;
RegisterOperands(const TargetRegisterInfo *tri,
const MachineRegisterInfo *mri, bool ID = false):
TRI(tri), MRI(mri), IgnoreDead(ID) {}
void collect(const MachineOperand &MO) {
if (!MO.isReg() || !MO.getReg())
return;
if (MO.readsReg())
pushRegUnits(MO.getReg(), Uses);
if (MO.isDef()) {
if (MO.isDead()) {
if (!IgnoreDead)
pushRegUnits(MO.getReg(), DeadDefs);
}
else
pushRegUnits(MO.getReg(), Defs);
}
}
protected:
void pushRegUnits(unsigned Reg, SmallVectorImpl<unsigned> &RegUnits) {
if (TargetRegisterInfo::isVirtualRegister(Reg)) {
if (containsReg(RegUnits, Reg))
return;
RegUnits.push_back(Reg);
}
else if (MRI->isAllocatable(Reg)) {
for (MCRegUnitIterator Units(Reg, TRI); Units.isValid(); ++Units) {
if (containsReg(RegUnits, *Units))
continue;
RegUnits.push_back(*Units);
}
}
}
};
}
static void collectOperands(const MachineInstr *MI,
RegisterOperands &RegOpers) {
for (ConstMIBundleOperands OperI(MI); OperI.isValid(); ++OperI)
RegOpers.collect(*OperI);
SmallVectorImpl<unsigned>::iterator I =
std::remove_if(RegOpers.DeadDefs.begin(), RegOpers.DeadDefs.end(),
std::bind1st(std::ptr_fun(containsReg), RegOpers.Defs));
RegOpers.DeadDefs.erase(I, RegOpers.DeadDefs.end());
}
void PressureDiffs::init(unsigned N) {
Size = N;
if (N <= Max) {
memset(PDiffArray, 0, N * sizeof(PressureDiff));
return;
}
Max = Size;
free(PDiffArray);
PDiffArray = reinterpret_cast<PressureDiff*>(calloc(N, sizeof(PressureDiff)));
}
void PressureDiff::addPressureChange(unsigned RegUnit, bool IsDec,
const MachineRegisterInfo *MRI) {
PSetIterator PSetI = MRI->getPressureSets(RegUnit);
int Weight = IsDec ? -PSetI.getWeight() : PSetI.getWeight();
for (; PSetI.isValid(); ++PSetI) {
PressureDiff::iterator I = nonconst_begin(), E = nonconst_end();
for (; I != E && I->isValid(); ++I) {
if (I->getPSet() >= *PSetI)
break;
}
if (I == E)
break;
if (!I->isValid() || I->getPSet() != *PSetI) {
PressureChange PTmp = PressureChange(*PSetI);
for (PressureDiff::iterator J = I; J != E && PTmp.isValid(); ++J)
std::swap(*J, PTmp);
}
unsigned NewUnitInc = I->getUnitInc() + Weight;
if (NewUnitInc != 0) {
I->setUnitInc(NewUnitInc);
} else {
PressureDiff::iterator J;
for (J = std::next(I); J != E && J->isValid(); ++J, ++I)
*I = *J;
if (J != E)
*I = *J;
}
}
}
static void collectPDiff(PressureDiff &PDiff, RegisterOperands &RegOpers,
const MachineRegisterInfo *MRI) {
assert(!PDiff.begin()->isValid() && "stale PDiff");
for (unsigned i = 0, e = RegOpers.Defs.size(); i != e; ++i)
PDiff.addPressureChange(RegOpers.Defs[i], true, MRI);
for (unsigned i = 0, e = RegOpers.Uses.size(); i != e; ++i)
PDiff.addPressureChange(RegOpers.Uses[i], false, MRI);
}
void RegPressureTracker::addLiveRegs(ArrayRef<unsigned> Regs) {
for (unsigned i = 0, e = Regs.size(); i != e; ++i) {
if (LiveRegs.insert(Regs[i]))
increaseRegPressure(Regs[i]);
}
}
void RegPressureTracker::discoverLiveIn(unsigned Reg) {
assert(!LiveRegs.contains(Reg) && "avoid bumping max pressure twice");
if (containsReg(P.LiveInRegs, Reg))
return;
P.LiveInRegs.push_back(Reg);
increaseSetPressure(P.MaxSetPressure, MRI->getPressureSets(Reg));
}
void RegPressureTracker::discoverLiveOut(unsigned Reg) {
assert(!LiveRegs.contains(Reg) && "avoid bumping max pressure twice");
if (containsReg(P.LiveOutRegs, Reg))
return;
P.LiveOutRegs.push_back(Reg);
increaseSetPressure(P.MaxSetPressure, MRI->getPressureSets(Reg));
}
bool RegPressureTracker::recede(SmallVectorImpl<unsigned> *LiveUses,
PressureDiff *PDiff) {
if (CurrPos == MBB->begin()) {
closeRegion();
return false;
}
if (!isBottomClosed())
closeBottom();
if (!RequireIntervals && isTopClosed())
static_cast<RegionPressure&>(P).openTop(CurrPos);
do
--CurrPos;
while (CurrPos != MBB->begin() && CurrPos->isDebugValue());
if (CurrPos->isDebugValue()) {
closeRegion();
return false;
}
SlotIndex SlotIdx;
if (RequireIntervals)
SlotIdx = LIS->getInstructionIndex(CurrPos).getRegSlot();
if (RequireIntervals && isTopClosed())
static_cast<IntervalPressure&>(P).openTop(SlotIdx);
RegisterOperands RegOpers(TRI, MRI);
collectOperands(CurrPos, RegOpers);
if (PDiff)
collectPDiff(*PDiff, RegOpers, MRI);
increaseRegPressure(RegOpers.DeadDefs);
decreaseRegPressure(RegOpers.DeadDefs);
for (unsigned i = 0, e = RegOpers.Defs.size(); i < e; ++i) {
unsigned Reg = RegOpers.Defs[i];
bool DeadDef = false;
if (RequireIntervals) {
const LiveRange *LR = getLiveRange(Reg);
if (LR) {
LiveQueryResult LRQ = LR->Query(SlotIdx);
DeadDef = LRQ.isDeadDef();
}
}
if (DeadDef) {
if (PDiff)
PDiff->addPressureChange(Reg, false, MRI);
} else {
if (LiveRegs.erase(Reg))
decreaseRegPressure(Reg);
else
discoverLiveOut(Reg);
}
}
for (unsigned i = 0, e = RegOpers.Uses.size(); i < e; ++i) {
unsigned Reg = RegOpers.Uses[i];
if (!LiveRegs.contains(Reg)) {
if (RequireIntervals) {
const LiveRange *LR = getLiveRange(Reg);
if (LR) {
LiveQueryResult LRQ = LR->Query(SlotIdx);
if (!LRQ.isKill() && !LRQ.valueDefined())
discoverLiveOut(Reg);
}
}
increaseRegPressure(Reg);
LiveRegs.insert(Reg);
if (LiveUses && !containsReg(*LiveUses, Reg))
LiveUses->push_back(Reg);
}
}
if (TrackUntiedDefs) {
for (unsigned i = 0, e = RegOpers.Defs.size(); i < e; ++i) {
unsigned Reg = RegOpers.Defs[i];
if (TargetRegisterInfo::isVirtualRegister(Reg) && !LiveRegs.contains(Reg))
UntiedDefs.insert(Reg);
}
}
return true;
}
bool RegPressureTracker::advance() {
assert(!TrackUntiedDefs && "unsupported mode");
if (CurrPos == MBB->end()) {
closeRegion();
return false;
}
if (!isTopClosed())
closeTop();
SlotIndex SlotIdx;
if (RequireIntervals)
SlotIdx = getCurrSlot();
if (isBottomClosed()) {
if (RequireIntervals)
static_cast<IntervalPressure&>(P).openBottom(SlotIdx);
else
static_cast<RegionPressure&>(P).openBottom(CurrPos);
}
RegisterOperands RegOpers(TRI, MRI);
collectOperands(CurrPos, RegOpers);
for (unsigned i = 0, e = RegOpers.Uses.size(); i < e; ++i) {
unsigned Reg = RegOpers.Uses[i];
bool isLive = LiveRegs.contains(Reg);
if (!isLive)
discoverLiveIn(Reg);
bool lastUse = false;
if (RequireIntervals) {
const LiveRange *LR = getLiveRange(Reg);
lastUse = LR && LR->Query(SlotIdx).isKill();
}
else {
lastUse = !TargetRegisterInfo::isVirtualRegister(Reg);
}
if (lastUse && isLive) {
LiveRegs.erase(Reg);
decreaseRegPressure(Reg);
}
else if (!lastUse && !isLive)
increaseRegPressure(Reg);
}
for (unsigned i = 0, e = RegOpers.Defs.size(); i < e; ++i) {
unsigned Reg = RegOpers.Defs[i];
if (LiveRegs.insert(Reg))
increaseRegPressure(Reg);
}
increaseRegPressure(RegOpers.DeadDefs);
decreaseRegPressure(RegOpers.DeadDefs);
do
++CurrPos;
while (CurrPos != MBB->end() && CurrPos->isDebugValue());
return true;
}
static void computeExcessPressureDelta(ArrayRef<unsigned> OldPressureVec,
ArrayRef<unsigned> NewPressureVec,
RegPressureDelta &Delta,
const RegisterClassInfo *RCI,
ArrayRef<unsigned> LiveThruPressureVec) {
Delta.Excess = PressureChange();
for (unsigned i = 0, e = OldPressureVec.size(); i < e; ++i) {
unsigned POld = OldPressureVec[i];
unsigned PNew = NewPressureVec[i];
int PDiff = (int)PNew - (int)POld;
if (!PDiff) continue;
unsigned Limit = RCI->getRegPressureSetLimit(i);
if (!LiveThruPressureVec.empty())
Limit += LiveThruPressureVec[i];
if (Limit > POld) {
if (Limit > PNew)
PDiff = 0; else
PDiff = PNew - Limit; }
else if (Limit > PNew)
PDiff = Limit - POld;
if (PDiff) {
Delta.Excess = PressureChange(i);
Delta.Excess.setUnitInc(PDiff);
break;
}
}
}
static void computeMaxPressureDelta(ArrayRef<unsigned> OldMaxPressureVec,
ArrayRef<unsigned> NewMaxPressureVec,
ArrayRef<PressureChange> CriticalPSets,
ArrayRef<unsigned> MaxPressureLimit,
RegPressureDelta &Delta) {
Delta.CriticalMax = PressureChange();
Delta.CurrentMax = PressureChange();
unsigned CritIdx = 0, CritEnd = CriticalPSets.size();
for (unsigned i = 0, e = OldMaxPressureVec.size(); i < e; ++i) {
unsigned POld = OldMaxPressureVec[i];
unsigned PNew = NewMaxPressureVec[i];
if (PNew == POld) continue;
if (!Delta.CriticalMax.isValid()) {
while (CritIdx != CritEnd && CriticalPSets[CritIdx].getPSet() < i)
++CritIdx;
if (CritIdx != CritEnd && CriticalPSets[CritIdx].getPSet() == i) {
int PDiff = (int)PNew - (int)CriticalPSets[CritIdx].getUnitInc();
if (PDiff > 0) {
Delta.CriticalMax = PressureChange(i);
Delta.CriticalMax.setUnitInc(PDiff);
}
}
}
if (!Delta.CurrentMax.isValid() && PNew > MaxPressureLimit[i]) {
Delta.CurrentMax = PressureChange(i);
Delta.CurrentMax.setUnitInc(PNew - POld);
if (CritIdx == CritEnd || Delta.CriticalMax.isValid())
break;
}
}
}
void RegPressureTracker::bumpUpwardPressure(const MachineInstr *MI) {
assert(!MI->isDebugValue() && "Expect a nondebug instruction.");
RegisterOperands RegOpers(TRI, MRI, true);
collectOperands(MI, RegOpers);
increaseRegPressure(RegOpers.DeadDefs);
decreaseRegPressure(RegOpers.DeadDefs);
for (unsigned i = 0, e = RegOpers.Defs.size(); i < e; ++i) {
unsigned Reg = RegOpers.Defs[i];
bool DeadDef = false;
if (RequireIntervals) {
const LiveRange *LR = getLiveRange(Reg);
if (LR) {
SlotIndex SlotIdx = LIS->getInstructionIndex(MI);
LiveQueryResult LRQ = LR->Query(SlotIdx);
DeadDef = LRQ.isDeadDef();
}
}
if (!DeadDef) {
if (!containsReg(RegOpers.Uses, Reg))
decreaseRegPressure(Reg);
}
}
for (unsigned i = 0, e = RegOpers.Uses.size(); i < e; ++i) {
unsigned Reg = RegOpers.Uses[i];
if (!LiveRegs.contains(Reg))
increaseRegPressure(Reg);
}
}
void RegPressureTracker::
getMaxUpwardPressureDelta(const MachineInstr *MI, PressureDiff *PDiff,
RegPressureDelta &Delta,
ArrayRef<PressureChange> CriticalPSets,
ArrayRef<unsigned> MaxPressureLimit) {
std::vector<unsigned> SavedPressure = CurrSetPressure;
std::vector<unsigned> SavedMaxPressure = P.MaxSetPressure;
bumpUpwardPressure(MI);
computeExcessPressureDelta(SavedPressure, CurrSetPressure, Delta, RCI,
LiveThruPressure);
computeMaxPressureDelta(SavedMaxPressure, P.MaxSetPressure, CriticalPSets,
MaxPressureLimit, Delta);
assert(Delta.CriticalMax.getUnitInc() >= 0 &&
Delta.CurrentMax.getUnitInc() >= 0 && "cannot decrease max pressure");
P.MaxSetPressure.swap(SavedMaxPressure);
CurrSetPressure.swap(SavedPressure);
#ifndef NDEBUG
if (!PDiff)
return;
RegPressureDelta Delta2;
getUpwardPressureDelta(MI, *PDiff, Delta2, CriticalPSets, MaxPressureLimit);
if (Delta != Delta2) {
dbgs() << "PDiff: ";
PDiff->dump(*TRI);
dbgs() << "DELTA: " << *MI;
if (Delta.Excess.isValid())
dbgs() << "Excess1 " << TRI->getRegPressureSetName(Delta.Excess.getPSet())
<< " " << Delta.Excess.getUnitInc() << "\n";
if (Delta.CriticalMax.isValid())
dbgs() << "Critic1 " << TRI->getRegPressureSetName(Delta.CriticalMax.getPSet())
<< " " << Delta.CriticalMax.getUnitInc() << "\n";
if (Delta.CurrentMax.isValid())
dbgs() << "CurrMx1 " << TRI->getRegPressureSetName(Delta.CurrentMax.getPSet())
<< " " << Delta.CurrentMax.getUnitInc() << "\n";
if (Delta2.Excess.isValid())
dbgs() << "Excess2 " << TRI->getRegPressureSetName(Delta2.Excess.getPSet())
<< " " << Delta2.Excess.getUnitInc() << "\n";
if (Delta2.CriticalMax.isValid())
dbgs() << "Critic2 " << TRI->getRegPressureSetName(Delta2.CriticalMax.getPSet())
<< " " << Delta2.CriticalMax.getUnitInc() << "\n";
if (Delta2.CurrentMax.isValid())
dbgs() << "CurrMx2 " << TRI->getRegPressureSetName(Delta2.CurrentMax.getPSet())
<< " " << Delta2.CurrentMax.getUnitInc() << "\n";
llvm_unreachable("RegP Delta Mismatch");
}
#endif
}
void RegPressureTracker::
getUpwardPressureDelta(const MachineInstr *MI, PressureDiff &PDiff,
RegPressureDelta &Delta,
ArrayRef<PressureChange> CriticalPSets,
ArrayRef<unsigned> MaxPressureLimit) const {
unsigned CritIdx = 0, CritEnd = CriticalPSets.size();
for (PressureDiff::const_iterator
PDiffI = PDiff.begin(), PDiffE = PDiff.end();
PDiffI != PDiffE && PDiffI->isValid(); ++PDiffI) {
unsigned PSetID = PDiffI->getPSet();
unsigned Limit = RCI->getRegPressureSetLimit(PSetID);
if (!LiveThruPressure.empty())
Limit += LiveThruPressure[PSetID];
unsigned POld = CurrSetPressure[PSetID];
unsigned MOld = P.MaxSetPressure[PSetID];
unsigned MNew = MOld;
unsigned PNew = POld + PDiffI->getUnitInc();
assert((PDiffI->getUnitInc() >= 0) == (PNew >= POld)
&& "PSet overflow/underflow");
if (PNew > MOld)
MNew = PNew;
if (!Delta.Excess.isValid()) {
unsigned ExcessInc = 0;
if (PNew > Limit)
ExcessInc = POld > Limit ? PNew - POld : PNew - Limit;
else if (POld > Limit)
ExcessInc = Limit - POld;
if (ExcessInc) {
Delta.Excess = PressureChange(PSetID);
Delta.Excess.setUnitInc(ExcessInc);
}
}
if (MNew == MOld)
continue;
if (!Delta.CriticalMax.isValid()) {
while (CritIdx != CritEnd && CriticalPSets[CritIdx].getPSet() < PSetID)
++CritIdx;
if (CritIdx != CritEnd && CriticalPSets[CritIdx].getPSet() == PSetID) {
int CritInc = (int)MNew - (int)CriticalPSets[CritIdx].getUnitInc();
if (CritInc > 0 && CritInc <= INT16_MAX) {
Delta.CriticalMax = PressureChange(PSetID);
Delta.CriticalMax.setUnitInc(CritInc);
}
}
}
if (!Delta.CurrentMax.isValid() && MNew > MaxPressureLimit[PSetID]) {
Delta.CurrentMax = PressureChange(PSetID);
Delta.CurrentMax.setUnitInc(MNew - MOld);
}
}
}
static bool findUseBetween(unsigned Reg, SlotIndex PriorUseIdx,
SlotIndex NextUseIdx, const MachineRegisterInfo &MRI,
const LiveIntervals *LIS) {
for (const MachineInstr &MI : MRI.use_nodbg_instructions(Reg)) {
SlotIndex InstSlot = LIS->getInstructionIndex(&MI).getRegSlot();
if (InstSlot >= PriorUseIdx && InstSlot < NextUseIdx)
return true;
}
return false;
}
void RegPressureTracker::bumpDownwardPressure(const MachineInstr *MI) {
assert(!MI->isDebugValue() && "Expect a nondebug instruction.");
RegisterOperands RegOpers(TRI, MRI);
collectOperands(MI, RegOpers);
SlotIndex SlotIdx;
if (RequireIntervals)
SlotIdx = LIS->getInstructionIndex(MI).getRegSlot();
for (unsigned i = 0, e = RegOpers.Uses.size(); i < e; ++i) {
unsigned Reg = RegOpers.Uses[i];
if (RequireIntervals) {
SlotIndex CurrIdx = getCurrSlot();
const LiveRange *LR = getLiveRange(Reg);
if (LR) {
LiveQueryResult LRQ = LR->Query(SlotIdx);
if (LRQ.isKill() && !findUseBetween(Reg, CurrIdx, SlotIdx, *MRI, LIS))
decreaseRegPressure(Reg);
}
}
else if (!TargetRegisterInfo::isVirtualRegister(Reg)) {
decreaseRegPressure(Reg);
}
}
increaseRegPressure(RegOpers.Defs);
increaseRegPressure(RegOpers.DeadDefs);
decreaseRegPressure(RegOpers.DeadDefs);
}
void RegPressureTracker::
getMaxDownwardPressureDelta(const MachineInstr *MI, RegPressureDelta &Delta,
ArrayRef<PressureChange> CriticalPSets,
ArrayRef<unsigned> MaxPressureLimit) {
std::vector<unsigned> SavedPressure = CurrSetPressure;
std::vector<unsigned> SavedMaxPressure = P.MaxSetPressure;
bumpDownwardPressure(MI);
computeExcessPressureDelta(SavedPressure, CurrSetPressure, Delta, RCI,
LiveThruPressure);
computeMaxPressureDelta(SavedMaxPressure, P.MaxSetPressure, CriticalPSets,
MaxPressureLimit, Delta);
assert(Delta.CriticalMax.getUnitInc() >= 0 &&
Delta.CurrentMax.getUnitInc() >= 0 && "cannot decrease max pressure");
P.MaxSetPressure.swap(SavedMaxPressure);
CurrSetPressure.swap(SavedPressure);
}
void RegPressureTracker::
getUpwardPressure(const MachineInstr *MI,
std::vector<unsigned> &PressureResult,
std::vector<unsigned> &MaxPressureResult) {
PressureResult = CurrSetPressure;
MaxPressureResult = P.MaxSetPressure;
bumpUpwardPressure(MI);
P.MaxSetPressure.swap(MaxPressureResult);
CurrSetPressure.swap(PressureResult);
}
void RegPressureTracker::
getDownwardPressure(const MachineInstr *MI,
std::vector<unsigned> &PressureResult,
std::vector<unsigned> &MaxPressureResult) {
PressureResult = CurrSetPressure;
MaxPressureResult = P.MaxSetPressure;
bumpDownwardPressure(MI);
P.MaxSetPressure.swap(MaxPressureResult);
CurrSetPressure.swap(PressureResult);
}