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Represent RegUnit liveness with LiveRange instance

Browse Source 
Previously LiveInterval has been used, but having a spill weight and
register number is unnecessary for a register unit.

llvm-svn: 192397
This commit is contained in:
Matthias Braun 2013-10-10 21:29:02 +00:00
parent ace00a09c8
commit cf84f537f1
13 changed files with 132 additions and 129 deletions
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28
include/llvm/CodeGen/LiveIntervalAnalysis.h
View File

@ -90,9 +90,9 @@ namespace llvm {
/// block.
SmallVector<std::pair<unsigned, unsigned>, 8> RegMaskBlocks;
/// RegUnitIntervals - Keep a live interval for each register unit as a way
/// of tracking fixed physreg interference.
SmallVector<LiveInterval*, 0> RegUnitIntervals;
/// Keeps a live range set for each register unit to track fixed physreg
/// interference.
SmallVector<LiveRange*, 0> RegUnitRanges;
public:
static char ID; // Pass identification, replacement for typeid
@ -364,24 +364,24 @@ namespace llvm {
/// getRegUnit - Return the live range for Unit.
/// It will be computed if it doesn't exist.
LiveInterval &getRegUnit(unsigned Unit) {
LiveInterval *LI = RegUnitIntervals[Unit];
if (!LI) {
LiveRange &getRegUnit(unsigned Unit) {
LiveRange *LR = RegUnitRanges[Unit];
if (!LR) {
// Compute missing ranges on demand.
RegUnitIntervals[Unit] = LI = new LiveInterval(Unit, HUGE_VALF);
computeRegUnitInterval(*LI);
RegUnitRanges[Unit] = LR = new LiveRange();
computeRegUnitRange(*LR, Unit);
}
return *LI;
return *LR;
}
/// getCachedRegUnit - Return the live range for Unit if it has already
/// been computed, or NULL if it hasn't been computed yet.
LiveInterval *getCachedRegUnit(unsigned Unit) {
return RegUnitIntervals[Unit];
LiveRange *getCachedRegUnit(unsigned Unit) {
return RegUnitRanges[Unit];
}
const LiveInterval *getCachedRegUnit(unsigned Unit) const {
return RegUnitIntervals[Unit];
const LiveRange *getCachedRegUnit(unsigned Unit) const {
return RegUnitRanges[Unit];
}
private:
@ -397,7 +397,7 @@ namespace llvm {
void dumpInstrs() const;
void computeLiveInRegUnits();
void computeRegUnitInterval(LiveInterval&);
void computeRegUnitRange(LiveRange&, unsigned Unit);
void computeVirtRegInterval(LiveInterval&);
class HMEditor;

4
include/llvm/CodeGen/RegisterPressure.h
View File

@ -22,7 +22,7 @@
namespace llvm {
class LiveIntervals;
class LiveInterval;
class LiveRange;
class RegisterClassInfo;
class MachineInstr;
@ -424,7 +424,7 @@ public:
void dump() const;
protected:
const LiveInterval *getInterval(unsigned Reg) const;
const LiveRange *getLiveRange(unsigned Reg) const;
void increaseRegPressure(ArrayRef<unsigned> Regs);
void decreaseRegPressure(ArrayRef<unsigned> Regs);

6
lib/CodeGen/InlineSpiller.cpp
View File

@ -1106,10 +1106,10 @@ foldMemoryOperand(ArrayRef<std::pair<MachineInstr*, unsigned> > Ops,
// FoldMI does not define this physreg. Remove the LI segment.
assert(MO->isDead() && "Cannot fold physreg def");
for (MCRegUnitIterator Units(Reg, &TRI); Units.isValid(); ++Units) {
if (LiveInterval *LI = LIS.getCachedRegUnit(*Units)) {
if (LiveRange *LR = LIS.getCachedRegUnit(*Units)) {
SlotIndex Idx = LIS.getInstructionIndex(MI).getRegSlot();
if (VNInfo *VNI = LI->getVNInfoAt(Idx))
LI->removeValNo(VNI);
if (VNInfo *VNI = LR->getVNInfoAt(Idx))
LR->removeValNo(VNI);
}
}
}

8
lib/CodeGen/InterferenceCache.cpp
View File

@ -204,11 +204,11 @@ void InterferenceCache::Entry::update(unsigned MBBNum) {
// Fixed interference.
for (unsigned i = 0, e = RegUnits.size(); i != e; ++i) {
LiveInterval::iterator &I = RegUnits[i].FixedI;
LiveInterval *LI = RegUnits[i].Fixed;
if (I == LI->end() || I->start >= Stop)
LiveRange *LR = RegUnits[i].Fixed;
if (I == LR->end() || I->start >= Stop)
continue;
I = LI->advanceTo(I, Stop);
bool Backup = I == LI->end() || I->start >= Stop;
I = LR->advanceTo(I, Stop);
bool Backup = I == LR->end() || I->start >= Stop;
if (Backup)
--I;
SlotIndex StopI = I->end;

2
lib/CodeGen/InterferenceCache.h
View File

@ -72,7 +72,7 @@ class InterferenceCache {
unsigned VirtTag;
/// Fixed interference in RegUnit.
LiveInterval *Fixed;
LiveRange *Fixed;
/// Iterator pointing into the fixed RegUnit interference.
LiveInterval::iterator FixedI;

18
lib/CodeGen/LiveDebugVariables.cpp
View File

@ -220,13 +220,13 @@ public:
/// End points where VNI is no longer live are added to Kills.
/// @param Idx Starting point for the definition.
/// @param LocNo Location number to propagate.
/// @param LI Restrict liveness to where LI has the value VNI. May be null.
/// @param VNI When LI is not null, this is the value to restrict to.
/// @param LR Restrict liveness to where LR has the value VNI. May be null.
/// @param VNI When LR is not null, this is the value to restrict to.
/// @param Kills Append end points of VNI's live range to Kills.
/// @param LIS Live intervals analysis.
/// @param MDT Dominator tree.
void extendDef(SlotIndex Idx, unsigned LocNo,
LiveInterval *LI, const VNInfo *VNI,
LiveRange *LR, const VNInfo *VNI,
SmallVectorImpl<SlotIndex> *Kills,
LiveIntervals &LIS, MachineDominatorTree &MDT,
UserValueScopes &UVS);
@ -495,7 +495,7 @@ bool LDVImpl::collectDebugValues(MachineFunction &mf) {
}
void UserValue::extendDef(SlotIndex Idx, unsigned LocNo,
LiveInterval *LI, const VNInfo *VNI,
LiveRange *LR, const VNInfo *VNI,
SmallVectorImpl<SlotIndex> *Kills,
LiveIntervals &LIS, MachineDominatorTree &MDT,
UserValueScopes &UVS) {
@ -509,8 +509,8 @@ void UserValue::extendDef(SlotIndex Idx, unsigned LocNo,
// Limit to VNI's live range.
bool ToEnd = true;
if (LI && VNI) {
LiveInterval::Segment *Segment = LI->getSegmentContaining(Start);
if (LR && VNI) {
LiveInterval::Segment *Segment = LR->getSegmentContaining(Start);
if (!Segment || Segment->valno != VNI) {
if (Kills)
Kills->push_back(Start);
@ -669,10 +669,10 @@ UserValue::computeIntervals(MachineRegisterInfo &MRI,
// For physregs, use the live range of the first regunit as a guide.
unsigned Unit = *MCRegUnitIterator(Loc.getReg(), &TRI);
LiveInterval *LI = &LIS.getRegUnit(Unit);
const VNInfo *VNI = LI->getVNInfoAt(Idx);
LiveRange *LR = &LIS.getRegUnit(Unit);
const VNInfo *VNI = LR->getVNInfoAt(Idx);
// Don't track copies from physregs, it is too expensive.
extendDef(Idx, LocNo, LI, VNI, 0, LIS, MDT, UVS);
extendDef(Idx, LocNo, LR, VNI, 0, LIS, MDT, UVS);
}
// Finally, erase all the undefs.

139
lib/CodeGen/LiveIntervalAnalysis.cpp
View File

@ -95,9 +95,9 @@ void LiveIntervals::releaseMemory() {
RegMaskBits.clear();
RegMaskBlocks.clear();
for (unsigned i = 0, e = RegUnitIntervals.size(); i != e; ++i)
delete RegUnitIntervals[i];
RegUnitIntervals.clear();
for (unsigned i = 0, e = RegUnitRanges.size(); i != e; ++i)
delete RegUnitRanges[i];
RegUnitRanges.clear();
// Release VNInfo memory regions, VNInfo objects don't need to be dtor'd.
VNInfoAllocator.Reset();
@ -139,9 +139,9 @@ void LiveIntervals::print(raw_ostream &OS, const Module* ) const {
OS << "********** INTERVALS **********\n";
// Dump the regunits.
for (unsigned i = 0, e = RegUnitIntervals.size(); i != e; ++i)
if (LiveInterval *LI = RegUnitIntervals[i])
OS << PrintRegUnit(i, TRI) << " = " << *LI << '\n';
for (unsigned i = 0, e = RegUnitRanges.size(); i != e; ++i)
if (LiveRange *LR = RegUnitRanges[i])
OS << PrintRegUnit(i, TRI) << " = " << *LR << '\n';
// Dump the virtregs.
for (unsigned i = 0, e = MRI->getNumVirtRegs(); i != e; ++i) {
@ -227,12 +227,10 @@ void LiveIntervals::computeRegMasks() {
// interference.
//
/// computeRegUnitInterval - Compute the live interval of a register unit, based
/// on the uses and defs of aliasing registers. The interval should be empty,
/// computeRegUnitInterval - Compute the live range of a register unit, based
/// on the uses and defs of aliasing registers. The range should be empty,
/// or contain only dead phi-defs from ABI blocks.
void LiveIntervals::computeRegUnitInterval(LiveInterval &LI) {
unsigned Unit = LI.reg;
void LiveIntervals::computeRegUnitRange(LiveRange &LR, unsigned Unit) {
assert(LRCalc && "LRCalc not initialized.");
LRCalc->reset(MF, getSlotIndexes(), DomTree, &getVNInfoAllocator());
@ -245,18 +243,18 @@ void LiveIntervals::computeRegUnitInterval(LiveInterval &LI) {
for (MCSuperRegIterator Supers(*Roots, TRI, /*IncludeSelf=*/true);
Supers.isValid(); ++Supers) {
if (!MRI->reg_empty(*Supers))
LRCalc->createDeadDefs(LI, *Supers);
LRCalc->createDeadDefs(LR, *Supers);
}
}
// Now extend LI to reach all uses.
// Now extend LR to reach all uses.
// Ignore uses of reserved registers. We only track defs of those.
for (MCRegUnitRootIterator Roots(Unit, TRI); Roots.isValid(); ++Roots) {
for (MCSuperRegIterator Supers(*Roots, TRI, /*IncludeSelf=*/true);
Supers.isValid(); ++Supers) {
unsigned Reg = *Supers;
if (!MRI->isReserved(Reg) && !MRI->reg_empty(Reg))
LRCalc->extendToUses(LI, Reg);
LRCalc->extendToUses(LR, Reg);
}
}
}
@ -267,11 +265,11 @@ void LiveIntervals::computeRegUnitInterval(LiveInterval &LI) {
/// without a corresponding def when entering the entry block or a landing pad.
///
void LiveIntervals::computeLiveInRegUnits() {
RegUnitIntervals.resize(TRI->getNumRegUnits());
RegUnitRanges.resize(TRI->getNumRegUnits());
DEBUG(dbgs() << "Computing live-in reg-units in ABI blocks.\n");
// Keep track of the intervals allocated.
SmallVector<LiveInterval*, 8> NewIntvs;
// Keep track of the live range sets allocated.
SmallVector<unsigned, 8> NewRanges;
// Check all basic blocks for live-ins.
for (MachineFunction::const_iterator MFI = MF->begin(), MFE = MF->end();
@ -289,23 +287,25 @@ void LiveIntervals::computeLiveInRegUnits() {
LIE = MBB->livein_end(); LII != LIE; ++LII) {
for (MCRegUnitIterator Units(*LII, TRI); Units.isValid(); ++Units) {
unsigned Unit = *Units;
LiveInterval *Intv = RegUnitIntervals[Unit];
if (!Intv) {
Intv = RegUnitIntervals[Unit] = new LiveInterval(Unit, HUGE_VALF);
NewIntvs.push_back(Intv);
LiveRange *LR = RegUnitRanges[Unit];
if (!LR) {
LR = RegUnitRanges[Unit] = new LiveRange();
NewRanges.push_back(Unit);
}
VNInfo *VNI = Intv->createDeadDef(Begin, getVNInfoAllocator());
VNInfo *VNI = LR->createDeadDef(Begin, getVNInfoAllocator());
(void)VNI;
DEBUG(dbgs() << ' ' << PrintRegUnit(Unit, TRI) << '#' << VNI->id);
}
}
DEBUG(dbgs() << '\n');
}
DEBUG(dbgs() << "Created " << NewIntvs.size() << " new intervals.\n");
DEBUG(dbgs() << "Created " << NewRanges.size() << " new intervals.\n");
// Compute the 'normal' part of the intervals.
for (unsigned i = 0, e = NewIntvs.size(); i != e; ++i)
computeRegUnitInterval(*NewIntvs[i]);
// Compute the 'normal' part of the ranges.
for (unsigned i = 0, e = NewRanges.size(); i != e; ++i) {
unsigned Unit = NewRanges[i];
computeRegUnitRange(*RegUnitRanges[Unit], Unit);
}
}
@ -514,7 +514,7 @@ void LiveIntervals::pruneValue(LiveInterval *LI, SlotIndex Kill,
void LiveIntervals::addKillFlags(const VirtRegMap *VRM) {
// Keep track of regunit ranges.
SmallVector<std::pair<LiveInterval*, LiveInterval::iterator>, 8> RU;
SmallVector<std::pair<LiveRange*, LiveRange::iterator>, 8> RU;
for (unsigned i = 0, e = MRI->getNumVirtRegs(); i != e; ++i) {
unsigned Reg = TargetRegisterInfo::index2VirtReg(i);
@ -529,10 +529,10 @@ void LiveIntervals::addKillFlags(const VirtRegMap *VRM) {
RU.clear();
for (MCRegUnitIterator Units(VRM->getPhys(Reg), TRI); Units.isValid();
++Units) {
LiveInterval *RUInt = &getRegUnit(*Units);
if (RUInt->empty())
LiveRange &RURanges = getRegUnit(*Units);
if (RURanges.empty())
continue;
RU.push_back(std::make_pair(RUInt, RUInt->find(LI->begin()->end)));
RU.push_back(std::make_pair(&RURanges, RURanges.find(LI->begin()->end)));
}
// Every instruction that kills Reg corresponds to a segment range end
@ -556,12 +556,12 @@ void LiveIntervals::addKillFlags(const VirtRegMap *VRM) {
// There should be no kill flag on FOO when %vreg5 is rewritten as %EAX.
bool CancelKill = false;
for (unsigned u = 0, e = RU.size(); u != e; ++u) {
LiveInterval *RInt = RU[u].first;
LiveInterval::iterator &I = RU[u].second;
if (I == RInt->end())
LiveRange &RRanges = *RU[u].first;
LiveRange::iterator &I = RU[u].second;
if (I == RRanges.end())
continue;
I = RInt->advanceTo(I, RI->end);
if (I == RInt->end() || I->start >= RI->end)
I = RRanges.advanceTo(I, RI->end);
if (I == RRanges.end() || I->start >= RI->end)
continue;
// I is overlapping RI.
CancelKill = true;
@ -710,7 +710,7 @@ private:
const TargetRegisterInfo& TRI;
SlotIndex OldIdx;
SlotIndex NewIdx;
SmallPtrSet<LiveInterval*, 8> Updated;
SmallPtrSet<LiveRange*, 8> Updated;
bool UpdateFlags;
public:
@ -724,7 +724,7 @@ public:
// physregs, even those that aren't needed for regalloc, in order to update
// kill flags. This is wasteful. Eventually, LiveVariables will strip all kill
// flags, and postRA passes will use a live register utility instead.
LiveInterval *getRegUnitLI(unsigned Unit) {
LiveRange *getRegUnitLI(unsigned Unit) {
if (UpdateFlags)
return &LIS.getRegUnit(Unit);
return LIS.getCachedRegUnit(Unit);
@ -749,15 +749,16 @@ public:
if (!Reg)
continue;
if (TargetRegisterInfo::isVirtualRegister(Reg)) {
updateRange(LIS.getInterval(Reg));
LiveInterval &LI = LIS.getInterval(Reg);
updateRange(LI, Reg);
continue;
}
// For physregs, only update the regunits that actually have a
// precomputed live range.
for (MCRegUnitIterator Units(Reg, &TRI); Units.isValid(); ++Units)
if (LiveInterval *LI = getRegUnitLI(*Units))
updateRange(*LI);
if (LiveRange *LR = getRegUnitLI(*Units))
updateRange(*LR, *Units);
}
if (hasRegMask)
updateRegMaskSlots();
@ -766,26 +767,26 @@ public:
private:
/// Update a single live range, assuming an instruction has been moved from
/// OldIdx to NewIdx.
void updateRange(LiveInterval &LI) {
if (!Updated.insert(&LI))
void updateRange(LiveRange &LR, unsigned Reg) {
if (!Updated.insert(&LR))
return;
DEBUG({
dbgs() << " ";
if (TargetRegisterInfo::isVirtualRegister(LI.reg))
dbgs() << PrintReg(LI.reg);
if (TargetRegisterInfo::isVirtualRegister(Reg))
dbgs() << PrintReg(Reg);
else
dbgs() << PrintRegUnit(LI.reg, &TRI);
dbgs() << ":\t" << LI << '\n';
dbgs() << PrintRegUnit(Reg, &TRI);
dbgs() << ":\t" << LR << '\n';
});
if (SlotIndex::isEarlierInstr(OldIdx, NewIdx))
handleMoveDown(LI);
handleMoveDown(LR);
else
handleMoveUp(LI);
DEBUG(dbgs() << " -->\t" << LI << '\n');
LI.verify();
handleMoveUp(LR, Reg);
DEBUG(dbgs() << " -->\t" << LR << '\n');
LR.verify();
}
/// Update LI to reflect an instruction has been moved downwards from OldIdx
/// Update LR to reflect an instruction has been moved downwards from OldIdx
/// to NewIdx.
///
/// 1. Live def at OldIdx:
@ -805,11 +806,11 @@ private:
/// 5. Value read at OldIdx, killed before NewIdx:
/// Extend kill to NewIdx.
///
void handleMoveDown(LiveInterval &LI) {
void handleMoveDown(LiveRange &LR) {
// First look for a kill at OldIdx.
LiveInterval::iterator I = LI.find(OldIdx.getBaseIndex());
LiveInterval::iterator E = LI.end();
// Is LI even live at OldIdx?
LiveRange::iterator I = LR.find(OldIdx.getBaseIndex());
LiveRange::iterator E = LR.end();
// Is LR even live at OldIdx?
if (I == E || SlotIndex::isEarlierInstr(OldIdx, I->start))
return;
@ -826,7 +827,7 @@ private:
for (MIBundleOperands MO(KillMI); MO.isValid(); ++MO)
if (MO->isReg() && MO->isUse())
MO->setIsKill(false);
// Adjust I->end to reach NewIdx. This may temporarily make LI invalid by
// Adjust I->end to reach NewIdx. This may temporarily make LR invalid by
// overlapping ranges. Case 5 above.
I->end = NewIdx.getRegSlot(I->end.isEarlyClobber());
// If this was a kill, there may also be a def. Otherwise we're done.
@ -855,16 +856,16 @@ private:
assert((I->end == OldIdx.getDeadSlot() ||
SlotIndex::isSameInstr(I->end, NewIdx)) &&
"Cannot move def below kill");
LiveInterval::iterator NewI = LI.advanceTo(I, NewIdx.getRegSlot());
LiveRange::iterator NewI = LR.advanceTo(I, NewIdx.getRegSlot());
if (NewI != E && SlotIndex::isSameInstr(NewI->start, NewIdx)) {
// There is an existing def at NewIdx, case 4 above. The def at OldIdx is
// coalesced into that value.
assert(NewI->valno != DefVNI && "Multiple defs of value?");
LI.removeValNo(DefVNI);
LR.removeValNo(DefVNI);
return;
}
// There was no existing def at NewIdx. Turn *I into a dead def at NewIdx.
// If the def at OldIdx was dead, we allow it to be moved across other LI
// If the def at OldIdx was dead, we allow it to be moved across other LR
// values. The new range should be placed immediately before NewI, move any
// intermediate ranges up.
assert(NewI != I && "Inconsistent iterators");
@ -873,7 +874,7 @@ private:
= LiveRange::Segment(DefVNI->def, NewIdx.getDeadSlot(), DefVNI);
}
/// Update LI to reflect an instruction has been moved upwards from OldIdx
/// Update LR to reflect an instruction has been moved upwards from OldIdx
/// to NewIdx.
///
/// 1. Live def at OldIdx:
@ -893,11 +894,11 @@ private:
/// Hoist kill to NewIdx, then scan for last kill between NewIdx and
/// OldIdx.
///
void handleMoveUp(LiveInterval &LI) {
void handleMoveUp(LiveRange &LR, unsigned Reg) {
// First look for a kill at OldIdx.
LiveInterval::iterator I = LI.find(OldIdx.getBaseIndex());
LiveInterval::iterator E = LI.end();
// Is LI even live at OldIdx?
LiveRange::iterator I = LR.find(OldIdx.getBaseIndex());
LiveRange::iterator E = LR.end();
// Is LR even live at OldIdx?
if (I == E || SlotIndex::isEarlierInstr(OldIdx, I->start))
return;
@ -914,7 +915,7 @@ private:
if (I == E || !SlotIndex::isSameInstr(I->start, OldIdx)) {
// No def, search for the new kill.
// This can never be an early clobber kill since there is no def.
llvm::prior(I)->end = findLastUseBefore(LI.reg).getRegSlot();
llvm::prior(I)->end = findLastUseBefore(Reg).getRegSlot();
return;
}
}
@ -926,18 +927,18 @@ private:
DefVNI->def = NewIdx.getRegSlot(I->start.isEarlyClobber());
// Check for an existing def at NewIdx.
LiveInterval::iterator NewI = LI.find(NewIdx.getRegSlot());
LiveRange::iterator NewI = LR.find(NewIdx.getRegSlot());
if (SlotIndex::isSameInstr(NewI->start, NewIdx)) {
assert(NewI->valno != DefVNI && "Same value defined more than once?");
// There is an existing def at NewIdx.
if (I->end.isDead()) {
// Case 3: Remove the dead def at OldIdx.
LI.removeValNo(DefVNI);
LR.removeValNo(DefVNI);
return;
}
// Case 4: Replace def at NewIdx with live def at OldIdx.
I->start = DefVNI->def;
LI.removeValNo(NewI->valno);
LR.removeValNo(NewI->valno);
return;
}
@ -948,7 +949,7 @@ private:
return;
}
// DefVNI is a dead def. It may have been moved across other values in LI,
// DefVNI is a dead def. It may have been moved across other values in LR,
// so move I up to NewI. Slide [NewI;I) down one position.
std::copy_backward(NewI, I, llvm::next(I));
*NewI = LiveRange::Segment(DefVNI->def, NewIdx.getDeadSlot(), DefVNI);

6
lib/CodeGen/LiveRangeEdit.cpp
View File

@ -262,9 +262,9 @@ void LiveRangeEdit::eliminateDeadDef(MachineInstr *MI, ToShrinkSet &ToShrink) {
else if (MOI->isDef()) {
for (MCRegUnitIterator Units(Reg, MRI.getTargetRegisterInfo());
Units.isValid(); ++Units) {
if (LiveInterval *LI = LIS.getCachedRegUnit(*Units)) {
if (VNInfo *VNI = LI->getVNInfoAt(Idx))
LI->removeValNo(VNI);
if (LiveRange *LR = LIS.getCachedRegUnit(*Units)) {
if (VNInfo *VNI = LR->getVNInfoAt(Idx))
LR->removeValNo(VNI);
}
}
}

6
lib/CodeGen/LiveRegMatrix.cpp
View File

@ -119,9 +119,11 @@ bool LiveRegMatrix::checkRegUnitInterference(LiveInterval &VirtReg,
if (VirtReg.empty())
return false;
CoalescerPair CP(VirtReg.reg, PhysReg, *TRI);
for (MCRegUnitIterator Units(PhysReg, TRI); Units.isValid(); ++Units)
if (VirtReg.overlaps(LIS->getRegUnit(*Units), CP, *LIS->getSlotIndexes()))
for (MCRegUnitIterator Units(PhysReg, TRI); Units.isValid(); ++Units) {
const LiveRange &UnitRange = LIS->getRegUnit(*Units);
if (VirtReg.overlaps(UnitRange, CP, *LIS->getSlotIndexes()))
return true;
}
return false;
}

12
lib/CodeGen/MachineVerifier.cpp
View File

@ -1018,16 +1018,16 @@ void MachineVerifier::checkLiveness(const MachineOperand *MO, unsigned MONum) {
// Check the cached regunit intervals.
if (TargetRegisterInfo::isPhysicalRegister(Reg) && !isReserved(Reg)) {
for (MCRegUnitIterator Units(Reg, TRI); Units.isValid(); ++Units) {
if (const LiveInterval *LI = LiveInts->getCachedRegUnit(*Units)) {
LiveQueryResult LRQ = LI->Query(UseIdx);
if (const LiveRange *LR = LiveInts->getCachedRegUnit(*Units)) {
LiveQueryResult LRQ = LR->Query(UseIdx);
if (!LRQ.valueIn()) {
report("No live segment at use", MO, MONum);
*OS << UseIdx << " is not live in " << PrintRegUnit(*Units, TRI)
<< ' ' << *LI << '\n';
<< ' ' << *LR << '\n';
}
if (MO->isKill() && !LRQ.isKill()) {
report("Live range continues after kill flag", MO, MONum);
*OS << PrintRegUnit(*Units, TRI) << ' ' << *LI << '\n';
*OS << PrintRegUnit(*Units, TRI) << ' ' << *LR << '\n';
}
}
}
@ -1352,8 +1352,8 @@ void MachineVerifier::verifyLiveIntervals() {
// Verify all the cached regunit intervals.
for (unsigned i = 0, e = TRI->getNumRegUnits(); i != e; ++i)
if (const LiveInterval *LI = LiveInts->getCachedRegUnit(i))
verifyLiveInterval(*LI);
if (const LiveRange *LR = LiveInts->getCachedRegUnit(i))
verifyLiveRange(*LR, i);
}
void MachineVerifier::verifyLiveRangeValue(const LiveRange &LR,

6
lib/CodeGen/RegAllocGreedy.cpp
View File

@ -1466,9 +1466,9 @@ void RAGreedy::calcGapWeights(unsigned PhysReg,
// Add fixed interference.
for (MCRegUnitIterator Units(PhysReg, TRI); Units.isValid(); ++Units) {
const LiveInterval &LI = LIS->getRegUnit(*Units);
LiveInterval::const_iterator I = LI.find(StartIdx);
LiveInterval::const_iterator E = LI.end();
const LiveRange &LR = LIS->getRegUnit(*Units);
LiveRange::const_iterator I = LR.find(StartIdx);
LiveRange::const_iterator E = LR.end();
// Same loop as above. Mark any overlapped gaps as HUGE_VALF.
for (unsigned Gap = 0; I != E && I->start < StopIdx; ++I) {

4
lib/CodeGen/RegisterCoalescer.cpp
View File

@ -874,8 +874,8 @@ bool RegisterCoalescer::reMaterializeTrivialDef(CoalescerPair &CP,
for (unsigned i = 0, e = NewMIImplDefs.size(); i != e; ++i) {
unsigned Reg = NewMIImplDefs[i];
for (MCRegUnitIterator Units(Reg, TRI); Units.isValid(); ++Units)
if (LiveInterval *LI = LIS->getCachedRegUnit(*Units))
LI->createDeadDef(NewMIIdx.getRegSlot(), LIS->getVNInfoAllocator());
if (LiveRange *LR = LIS->getCachedRegUnit(*Units))
LR->createDeadDef(NewMIIdx.getRegSlot(), LIS->getVNInfoAllocator());
}
DEBUG(dbgs() << "Remat: " << *NewMI);

22
lib/CodeGen/RegisterPressure.cpp
View File

@ -147,7 +147,7 @@ void RegionPressure::openBottom(MachineBasicBlock::const_iterator PrevBottom) {
LiveInRegs.clear();
}
const LiveInterval *RegPressureTracker::getInterval(unsigned Reg) const {
const LiveRange *RegPressureTracker::getLiveRange(unsigned Reg) const {
if (TargetRegisterInfo::isVirtualRegister(Reg))
return &LIS->getInterval(Reg);
return LIS->getCachedRegUnit(Reg);
@ -510,10 +510,9 @@ bool RegPressureTracker::recede(SmallVectorImpl<unsigned> *LiveUses,
if (!LiveRegs.contains(Reg)) {
// Adjust liveouts if LiveIntervals are available.
if (RequireIntervals) {
const LiveInterval *LI = getInterval(Reg);
// Check if this LR is killed and not redefined here.
if (LI) {
LiveQueryResult LRQ = LI->Query(SlotIdx);
const LiveRange *LR = getLiveRange(Reg);
if (LR) {
LiveQueryResult LRQ = LR->Query(SlotIdx);
if (!LRQ.isKill() && !LRQ.valueDefined())
discoverLiveOut(Reg);
}
@ -570,8 +569,8 @@ bool RegPressureTracker::advance() {
// Kill liveness at last uses.
bool lastUse = false;
if (RequireIntervals) {
const LiveInterval *LI = getInterval(Reg);
lastUse = LI && LI->Query(SlotIdx).isKill();
const LiveRange *LR = getLiveRange(Reg);
lastUse = LR && LR->Query(SlotIdx).isKill();
}
else {
// Allocatable physregs are always single-use before register rewriting.
@ -894,11 +893,12 @@ void RegPressureTracker::bumpDownwardPressure(const MachineInstr *MI) {
// FIXME: allow the caller to pass in the list of vreg uses that remain
// to be bottom-scheduled to avoid searching uses at each query.
SlotIndex CurrIdx = getCurrSlot();
const LiveInterval *LI = getInterval(Reg);
if (LI) {
LiveQueryResult LRQ = LI->Query(SlotIdx);
if (LRQ.isKill() && !findUseBetween(Reg, CurrIdx, SlotIdx, MRI, LIS))
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)) {