cl::desc("Avoid coalescing physical register copies"),
cl::init(false), cl::Hidden);
-INITIALIZE_AG_PASS(SimpleRegisterCoalescing, RegisterCoalescer,
+INITIALIZE_AG_PASS_BEGIN(SimpleRegisterCoalescing, RegisterCoalescer,
"simple-register-coalescing", "Simple Register Coalescing",
- false, false, true);
+ false, false, true)
+INITIALIZE_PASS_DEPENDENCY(LiveIntervals)
+INITIALIZE_PASS_DEPENDENCY(SlotIndexes)
+INITIALIZE_PASS_DEPENDENCY(MachineLoopInfo)
+INITIALIZE_PASS_DEPENDENCY(StrongPHIElimination)
+INITIALIZE_PASS_DEPENDENCY(PHIElimination)
+INITIALIZE_PASS_DEPENDENCY(TwoAddressInstructionPass)
+INITIALIZE_AG_DEPENDENCY(AliasAnalysis)
+INITIALIZE_AG_PASS_END(SimpleRegisterCoalescing, RegisterCoalescer,
+ "simple-register-coalescing", "Simple Register Coalescing",
+ false, false, true)
char &llvm::SimpleRegisterCoalescingID = SimpleRegisterCoalescing::ID;
if (!li_->hasInterval(CP.getDstReg()))
return false;
- SlotIndex CopyIdx =
- li_->getInstructionIndex(CopyMI).getDefIndex();
+ SlotIndex CopyIdx = li_->getInstructionIndex(CopyMI).getDefIndex();
LiveInterval &IntA =
li_->getInterval(CP.isFlipped() ? CP.getDstReg() : CP.getSrcReg());
// BValNo is a value number in B that is defined by a copy from A. 'B3' in
// the example above.
- LiveInterval::iterator BLR = IntB.FindLiveRangeContaining(CopyIdx);
- if (BLR == IntB.end()) return false;
- VNInfo *BValNo = BLR->valno;
+ VNInfo *BValNo = IntB.getVNInfoAt(CopyIdx);
+ if (!BValNo || !BValNo->isDefByCopy())
+ return false;
- // Get the location that B is defined at. Two options: either this value has
- // an unknown definition point or it is defined at CopyIdx. If unknown, we
- // can't process it.
- if (!BValNo->isDefByCopy()) return false;
assert(BValNo->def == CopyIdx && "Copy doesn't define the value?");
// AValNo is the value number in A that defines the copy, A3 in the example.
- LiveInterval::iterator ALR =
- IntA.FindLiveRangeContaining(CopyIdx.getUseIndex()); //
+ VNInfo *AValNo = IntA.getVNInfoAt(CopyIdx.getUseIndex());
+ assert(AValNo && "COPY source not live");
- assert(ALR != IntA.end() && "Live range not found!");
- VNInfo *AValNo = ALR->valno;
// If other defs can reach uses of this def, then it's not safe to perform
// the optimization.
if (AValNo->isPHIDef() || AValNo->isUnused() || AValNo->hasPHIKill())
return false;
}
- DEBUG(dbgs() << "\tRemoveCopyByCommutingDef: " << *DefMI);
+ DEBUG(dbgs() << "\tRemoveCopyByCommutingDef: " << AValNo->def << '\t'
+ << *DefMI);
// At this point we have decided that it is legal to do this
// transformation. Start by commuting the instruction.
unsigned OpIdx = NewMI->findRegisterUseOperandIdx(IntA.reg, false);
NewMI->getOperand(OpIdx).setIsKill();
- bool BHasPHIKill = BValNo->hasPHIKill();
- SmallVector<VNInfo*, 4> BDeadValNos;
- std::map<SlotIndex, SlotIndex> BExtend;
-
// If ALR and BLR overlaps and end of BLR extends beyond end of ALR, e.g.
// A = or A, B
// ...
// C = A<kill>
// ...
// = B
- bool Extended = BLR->end > ALR->end && ALR->end != ALR->start;
- if (Extended)
- BExtend[ALR->end] = BLR->end;
// Update uses of IntA of the specific Val# with IntB.
for (MachineRegisterInfo::use_iterator UI = mri_->use_begin(IntA.reg),
UseMO.setReg(NewReg);
if (UseMI == CopyMI)
continue;
- if (UseMO.isKill()) {
- if (Extended)
- UseMO.setIsKill(false);
- }
if (!UseMI->isCopy())
continue;
if (UseMI->getOperand(0).getReg() != IntB.reg ||
UseMI->getOperand(0).getSubReg())
continue;
- // This copy will become a noop. If it's defining a new val#,
- // remove that val# as well. However this live range is being
- // extended to the end of the existing live range defined by the copy.
+ // This copy will become a noop. If it's defining a new val#, merge it into
+ // BValNo.
SlotIndex DefIdx = UseIdx.getDefIndex();
- const LiveRange *DLR = IntB.getLiveRangeContaining(DefIdx);
- if (!DLR)
+ VNInfo *DVNI = IntB.getVNInfoAt(DefIdx);
+ if (!DVNI)
continue;
- BHasPHIKill |= DLR->valno->hasPHIKill();
- assert(DLR->valno->def == DefIdx);
- BDeadValNos.push_back(DLR->valno);
- BExtend[DLR->start] = DLR->end;
+ DEBUG(dbgs() << "\t\tnoop: " << DefIdx << '\t' << *UseMI);
+ assert(DVNI->def == DefIdx);
+ BValNo = IntB.MergeValueNumberInto(BValNo, DVNI);
JoinedCopies.insert(UseMI);
}
- // We need to insert a new liverange: [ALR.start, LastUse). It may be we can
- // simply extend BLR if CopyMI doesn't end the range.
- DEBUG({
- dbgs() << "Extending: ";
- IntB.print(dbgs(), tri_);
- });
-
- // Remove val#'s defined by copies that will be coalesced away.
- for (unsigned i = 0, e = BDeadValNos.size(); i != e; ++i) {
- VNInfo *DeadVNI = BDeadValNos[i];
- if (TargetRegisterInfo::isPhysicalRegister(IntB.reg)) {
- for (const unsigned *AS = tri_->getAliasSet(IntB.reg); *AS; ++AS) {
- if (!li_->hasInterval(*AS))
- continue;
- LiveInterval &ASLI = li_->getInterval(*AS);
- if (const LiveRange *ASLR = ASLI.getLiveRangeContaining(DeadVNI->def))
- ASLI.removeValNo(ASLR->valno);
- }
- }
- IntB.removeValNo(BDeadValNos[i]);
- }
-
// Extend BValNo by merging in IntA live ranges of AValNo. Val# definition
// is updated.
VNInfo *ValNo = BValNo;
for (LiveInterval::iterator AI = IntA.begin(), AE = IntA.end();
AI != AE; ++AI) {
if (AI->valno != AValNo) continue;
- SlotIndex End = AI->end;
- std::map<SlotIndex, SlotIndex>::iterator
- EI = BExtend.find(End);
- if (EI != BExtend.end())
- End = EI->second;
- IntB.addRange(LiveRange(AI->start, End, ValNo));
+ IntB.addRange(LiveRange(AI->start, AI->end, ValNo));
}
- ValNo->setHasPHIKill(BHasPHIKill);
-
- DEBUG({
- dbgs() << " result = ";
- IntB.print(dbgs(), tri_);
- dbgs() << "\nShortening: ";
- IntA.print(dbgs(), tri_);
- });
+ DEBUG(dbgs() << "\t\textended: " << IntB << '\n');
IntA.removeValNo(AValNo);
-
- DEBUG({
- dbgs() << " result = ";
- IntA.print(dbgs(), tri_);
- dbgs() << '\n';
- });
-
+ DEBUG(dbgs() << "\t\ttrimmed: " << IntA << '\n');
++numCommutes;
return true;
}
if (!MO.isReg() || !MO.isKill()) continue;
unsigned reg = MO.getReg();
if (!reg || !li_->hasInterval(reg)) continue;
- if (!li_->getInterval(reg).killedAt(DefIdx))
+ if (!li_->getInterval(reg).killedAt(DefIdx)) {
MO.setIsKill(false);
+ continue;
+ }
+ // When leaving a kill flag on a physreg, check if any subregs should
+ // remain alive.
+ if (!TargetRegisterInfo::isPhysicalRegister(reg))
+ continue;
+ for (const unsigned *SR = tri_->getSubRegisters(reg);
+ unsigned S = *SR; ++SR)
+ if (li_->hasInterval(S) && li_->getInterval(S).liveAt(DefIdx))
+ MI->addRegisterDefined(S, tri_);
}
}
}