//===----- AggressiveAntiDepBreaker.cpp - Anti-dep breaker -------- ---------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file implements the AggressiveAntiDepBreaker class, which // implements register anti-dependence breaking during post-RA // scheduling. It attempts to break all anti-dependencies within a // block. // //===----------------------------------------------------------------------===// #define DEBUG_TYPE "post-RA-sched" #include "AggressiveAntiDepBreaker.h" #include "llvm/CodeGen/MachineBasicBlock.h" #include "llvm/CodeGen/MachineFrameInfo.h" #include "llvm/CodeGen/MachineInstr.h" #include "llvm/Target/TargetInstrInfo.h" #include "llvm/Target/TargetMachine.h" #include "llvm/Target/TargetRegisterInfo.h" #include "llvm/Support/CommandLine.h" #include "llvm/Support/Debug.h" #include "llvm/Support/ErrorHandling.h" #include "llvm/Support/raw_ostream.h" using namespace llvm; static cl::opt AntiDepTrials("agg-antidep-trials", cl::desc("Maximum number of anti-dependency breaking passes"), cl::init(1), cl::Hidden); AggressiveAntiDepState::AggressiveAntiDepState(MachineBasicBlock *BB) : GroupNodes(TargetRegisterInfo::FirstVirtualRegister, 0) { // Initialize all registers to be in their own group. Initially we // assign the register to the same-indexed GroupNode. for (unsigned i = 0; i < TargetRegisterInfo::FirstVirtualRegister; ++i) GroupNodeIndices[i] = i; // Initialize the indices to indicate that no registers are live. std::fill(KillIndices, array_endof(KillIndices), ~0u); std::fill(DefIndices, array_endof(DefIndices), BB->size()); } unsigned AggressiveAntiDepState::GetGroup(unsigned Reg) { unsigned Node = GroupNodeIndices[Reg]; while (GroupNodes[Node] != Node) Node = GroupNodes[Node]; return Node; } void AggressiveAntiDepState::GetGroupRegs(unsigned Group, std::vector &Regs) { for (unsigned Reg = 0; Reg != TargetRegisterInfo::FirstVirtualRegister; ++Reg) { if (GetGroup(Reg) == Group) Regs.push_back(Reg); } } unsigned AggressiveAntiDepState::UnionGroups(unsigned Reg1, unsigned Reg2) { assert(GroupNodes[0] == 0 && "GroupNode 0 not parent!"); assert(GroupNodeIndices[0] == 0 && "Reg 0 not in Group 0!"); // find group for each register unsigned Group1 = GetGroup(Reg1); unsigned Group2 = GetGroup(Reg2); // if either group is 0, then that must become the parent unsigned Parent = (Group1 == 0) ? Group1 : Group2; unsigned Other = (Parent == Group1) ? Group2 : Group1; GroupNodes.at(Other) = Parent; return Parent; } unsigned AggressiveAntiDepState::LeaveGroup(unsigned Reg) { // Create a new GroupNode for Reg. Reg's existing GroupNode must // stay as is because there could be other GroupNodes referring to // it. unsigned idx = GroupNodes.size(); GroupNodes.push_back(idx); GroupNodeIndices[Reg] = idx; return idx; } bool AggressiveAntiDepState::IsLive(unsigned Reg) { // KillIndex must be defined and DefIndex not defined for a register // to be live. return((KillIndices[Reg] != ~0u) && (DefIndices[Reg] == ~0u)); } AggressiveAntiDepBreaker:: AggressiveAntiDepBreaker(MachineFunction& MFi) : AntiDepBreaker(), MF(MFi), MRI(MF.getRegInfo()), TRI(MF.getTarget().getRegisterInfo()), AllocatableSet(TRI->getAllocatableSet(MF)), State(NULL), SavedState(NULL) { } AggressiveAntiDepBreaker::~AggressiveAntiDepBreaker() { delete State; delete SavedState; } unsigned AggressiveAntiDepBreaker::GetMaxTrials() { if (AntiDepTrials <= 0) return 1; return AntiDepTrials; } void AggressiveAntiDepBreaker::StartBlock(MachineBasicBlock *BB) { assert(State == NULL); State = new AggressiveAntiDepState(BB); bool IsReturnBlock = (!BB->empty() && BB->back().getDesc().isReturn()); unsigned *KillIndices = State->GetKillIndices(); unsigned *DefIndices = State->GetDefIndices(); // Determine the live-out physregs for this block. if (IsReturnBlock) { // In a return block, examine the function live-out regs. for (MachineRegisterInfo::liveout_iterator I = MRI.liveout_begin(), E = MRI.liveout_end(); I != E; ++I) { unsigned Reg = *I; State->UnionGroups(Reg, 0); KillIndices[Reg] = BB->size(); DefIndices[Reg] = ~0u; // Repeat, for all aliases. for (const unsigned *Alias = TRI->getAliasSet(Reg); *Alias; ++Alias) { unsigned AliasReg = *Alias; State->UnionGroups(AliasReg, 0); KillIndices[AliasReg] = BB->size(); DefIndices[AliasReg] = ~0u; } } } else { // In a non-return block, examine the live-in regs of all successors. for (MachineBasicBlock::succ_iterator SI = BB->succ_begin(), SE = BB->succ_end(); SI != SE; ++SI) for (MachineBasicBlock::livein_iterator I = (*SI)->livein_begin(), E = (*SI)->livein_end(); I != E; ++I) { unsigned Reg = *I; State->UnionGroups(Reg, 0); KillIndices[Reg] = BB->size(); DefIndices[Reg] = ~0u; // Repeat, for all aliases. for (const unsigned *Alias = TRI->getAliasSet(Reg); *Alias; ++Alias) { unsigned AliasReg = *Alias; State->UnionGroups(AliasReg, 0); KillIndices[AliasReg] = BB->size(); DefIndices[AliasReg] = ~0u; } } } // Mark live-out callee-saved registers. In a return block this is // all callee-saved registers. In non-return this is any // callee-saved register that is not saved in the prolog. const MachineFrameInfo *MFI = MF.getFrameInfo(); BitVector Pristine = MFI->getPristineRegs(BB); for (const unsigned *I = TRI->getCalleeSavedRegs(); *I; ++I) { unsigned Reg = *I; if (!IsReturnBlock && !Pristine.test(Reg)) continue; State->UnionGroups(Reg, 0); KillIndices[Reg] = BB->size(); DefIndices[Reg] = ~0u; // Repeat, for all aliases. for (const unsigned *Alias = TRI->getAliasSet(Reg); *Alias; ++Alias) { unsigned AliasReg = *Alias; State->UnionGroups(AliasReg, 0); KillIndices[AliasReg] = BB->size(); DefIndices[AliasReg] = ~0u; } } } void AggressiveAntiDepBreaker::FinishBlock() { delete State; State = NULL; delete SavedState; SavedState = NULL; } void AggressiveAntiDepBreaker::Observe(MachineInstr *MI, unsigned Count, unsigned InsertPosIndex) { assert(Count < InsertPosIndex && "Instruction index out of expected range!"); std::set PassthruRegs; GetPassthruRegs(MI, PassthruRegs); PrescanInstruction(MI, Count, PassthruRegs); ScanInstruction(MI, Count); DEBUG(errs() << "Observe: "); DEBUG(MI->dump()); DEBUG(errs() << "\tRegs:"); unsigned *DefIndices = State->GetDefIndices(); for (unsigned Reg = 0; Reg != TargetRegisterInfo::FirstVirtualRegister; ++Reg) { // If Reg is current live, then mark that it can't be renamed as // we don't know the extent of its live-range anymore (now that it // has been scheduled). If it is not live but was defined in the // previous schedule region, then set its def index to the most // conservative location (i.e. the beginning of the previous // schedule region). if (State->IsLive(Reg)) { DEBUG(if (State->GetGroup(Reg) != 0) errs() << " " << TRI->getName(Reg) << "=g" << State->GetGroup(Reg) << "->g0(region live-out)"); State->UnionGroups(Reg, 0); } else if ((DefIndices[Reg] < InsertPosIndex) && (DefIndices[Reg] >= Count)) { DefIndices[Reg] = Count; } } DEBUG(errs() << '\n'); // We're starting a new schedule region so forget any saved state. delete SavedState; SavedState = NULL; } bool AggressiveAntiDepBreaker::IsImplicitDefUse(MachineInstr *MI, MachineOperand& MO) { if (!MO.isReg() || !MO.isImplicit()) return false; unsigned Reg = MO.getReg(); if (Reg == 0) return false; MachineOperand *Op = NULL; if (MO.isDef()) Op = MI->findRegisterUseOperand(Reg, true); else Op = MI->findRegisterDefOperand(Reg); return((Op != NULL) && Op->isImplicit()); } void AggressiveAntiDepBreaker::GetPassthruRegs(MachineInstr *MI, std::set& PassthruRegs) { for (unsigned i = 0, e = MI->getNumOperands(); i != e; ++i) { MachineOperand &MO = MI->getOperand(i); if (!MO.isReg()) continue; if ((MO.isDef() && MI->isRegTiedToUseOperand(i)) || IsImplicitDefUse(MI, MO)) { const unsigned Reg = MO.getReg(); PassthruRegs.insert(Reg); for (const unsigned *Subreg = TRI->getSubRegisters(Reg); *Subreg; ++Subreg) { PassthruRegs.insert(*Subreg); } } } } /// AntiDepPathStep - Return SUnit that SU has an anti-dependence on. static void AntiDepPathStep(SUnit *SU, AntiDepBreaker::AntiDepRegVector& Regs, std::vector& Edges) { AntiDepBreaker::AntiDepRegSet RegSet; for (unsigned i = 0, e = Regs.size(); i < e; ++i) RegSet.insert(Regs[i]); for (SUnit::pred_iterator P = SU->Preds.begin(), PE = SU->Preds.end(); P != PE; ++P) { if (P->getKind() == SDep::Anti) { unsigned Reg = P->getReg(); if (RegSet.count(Reg) != 0) { Edges.push_back(&*P); RegSet.erase(Reg); } } } assert(RegSet.empty() && "Expected all antidep registers to be found"); } void AggressiveAntiDepBreaker::HandleLastUse(unsigned Reg, unsigned KillIdx, const char *tag) { unsigned *KillIndices = State->GetKillIndices(); unsigned *DefIndices = State->GetDefIndices(); std::multimap& RegRefs = State->GetRegRefs(); if (!State->IsLive(Reg)) { KillIndices[Reg] = KillIdx; DefIndices[Reg] = ~0u; RegRefs.erase(Reg); State->LeaveGroup(Reg); DEBUG(errs() << "->g" << State->GetGroup(Reg) << tag); } // Repeat for subregisters. for (const unsigned *Subreg = TRI->getSubRegisters(Reg); *Subreg; ++Subreg) { unsigned SubregReg = *Subreg; if (!State->IsLive(SubregReg)) { KillIndices[SubregReg] = KillIdx; DefIndices[SubregReg] = ~0u; RegRefs.erase(SubregReg); State->LeaveGroup(SubregReg); DEBUG(errs() << " " << TRI->getName(SubregReg) << "->g" << State->GetGroup(SubregReg) << tag); } } } void AggressiveAntiDepBreaker::PrescanInstruction(MachineInstr *MI, unsigned Count, std::set& PassthruRegs) { unsigned *DefIndices = State->GetDefIndices(); std::multimap& RegRefs = State->GetRegRefs(); // Handle dead defs by simulating a last-use of the register just // after the def. A dead def can occur because the def is truely // dead, or because only a subregister is live at the def. If we // don't do this the dead def will be incorrectly merged into the // previous def. for (unsigned i = 0, e = MI->getNumOperands(); i != e; ++i) { MachineOperand &MO = MI->getOperand(i); if (!MO.isReg() || !MO.isDef()) continue; unsigned Reg = MO.getReg(); if (Reg == 0) continue; DEBUG(errs() << "\tDead Def: " << TRI->getName(Reg)); HandleLastUse(Reg, Count + 1, ""); DEBUG(errs() << '\n'); } DEBUG(errs() << "\tDef Groups:"); for (unsigned i = 0, e = MI->getNumOperands(); i != e; ++i) { MachineOperand &MO = MI->getOperand(i); if (!MO.isReg() || !MO.isDef()) continue; unsigned Reg = MO.getReg(); if (Reg == 0) continue; DEBUG(errs() << " " << TRI->getName(Reg) << "=g" << State->GetGroup(Reg)); // If MI's defs have a special allocation requirement, don't allow // any def registers to be changed. Also assume all registers // defined in a call must not be changed (ABI). if (MI->getDesc().isCall() || MI->getDesc().hasExtraDefRegAllocReq()) { DEBUG(if (State->GetGroup(Reg) != 0) errs() << "->g0(alloc-req)"); State->UnionGroups(Reg, 0); } // Any aliased that are live at this point are completely or // partially defined here, so group those aliases with Reg. for (const unsigned *Alias = TRI->getAliasSet(Reg); *Alias; ++Alias) { unsigned AliasReg = *Alias; if (State->IsLive(AliasReg)) { State->UnionGroups(Reg, AliasReg); DEBUG(errs() << "->g" << State->GetGroup(Reg) << "(via " << TRI->getName(AliasReg) << ")"); } } // Note register reference... const TargetRegisterClass *RC = NULL; if (i < MI->getDesc().getNumOperands()) RC = MI->getDesc().OpInfo[i].getRegClass(TRI); AggressiveAntiDepState::RegisterReference RR = { &MO, RC }; RegRefs.insert(std::make_pair(Reg, RR)); } DEBUG(errs() << '\n'); // Scan the register defs for this instruction and update // live-ranges. for (unsigned i = 0, e = MI->getNumOperands(); i != e; ++i) { MachineOperand &MO = MI->getOperand(i); if (!MO.isReg() || !MO.isDef()) continue; unsigned Reg = MO.getReg(); if (Reg == 0) continue; // Ignore passthru registers for liveness... if (PassthruRegs.count(Reg) != 0) continue; // Update def for Reg and subregs. DefIndices[Reg] = Count; for (const unsigned *Subreg = TRI->getSubRegisters(Reg); *Subreg; ++Subreg) { unsigned SubregReg = *Subreg; DefIndices[SubregReg] = Count; } } } void AggressiveAntiDepBreaker::ScanInstruction(MachineInstr *MI, unsigned Count) { DEBUG(errs() << "\tUse Groups:"); std::multimap& RegRefs = State->GetRegRefs(); // Scan the register uses for this instruction and update // live-ranges, groups and RegRefs. for (unsigned i = 0, e = MI->getNumOperands(); i != e; ++i) { MachineOperand &MO = MI->getOperand(i); if (!MO.isReg() || !MO.isUse()) continue; unsigned Reg = MO.getReg(); if (Reg == 0) continue; DEBUG(errs() << " " << TRI->getName(Reg) << "=g" << State->GetGroup(Reg)); // It wasn't previously live but now it is, this is a kill. Forget // the previous live-range information and start a new live-range // for the register. HandleLastUse(Reg, Count, "(last-use)"); // If MI's uses have special allocation requirement, don't allow // any use registers to be changed. Also assume all registers // used in a call must not be changed (ABI). if (MI->getDesc().isCall() || MI->getDesc().hasExtraSrcRegAllocReq()) { DEBUG(if (State->GetGroup(Reg) != 0) errs() << "->g0(alloc-req)"); State->UnionGroups(Reg, 0); } // Note register reference... const TargetRegisterClass *RC = NULL; if (i < MI->getDesc().getNumOperands()) RC = MI->getDesc().OpInfo[i].getRegClass(TRI); AggressiveAntiDepState::RegisterReference RR = { &MO, RC }; RegRefs.insert(std::make_pair(Reg, RR)); } DEBUG(errs() << '\n'); // Form a group of all defs and uses of a KILL instruction to ensure // that all registers are renamed as a group. if (MI->getOpcode() == TargetInstrInfo::KILL) { DEBUG(errs() << "\tKill Group:"); unsigned FirstReg = 0; for (unsigned i = 0, e = MI->getNumOperands(); i != e; ++i) { MachineOperand &MO = MI->getOperand(i); if (!MO.isReg()) continue; unsigned Reg = MO.getReg(); if (Reg == 0) continue; if (FirstReg != 0) { DEBUG(errs() << "=" << TRI->getName(Reg)); State->UnionGroups(FirstReg, Reg); } else { DEBUG(errs() << " " << TRI->getName(Reg)); FirstReg = Reg; } } DEBUG(errs() << "->g" << State->GetGroup(FirstReg) << '\n'); } } BitVector AggressiveAntiDepBreaker::GetRenameRegisters(unsigned Reg) { BitVector BV(TRI->getNumRegs(), false); bool first = true; // Check all references that need rewriting for Reg. For each, use // the corresponding register class to narrow the set of registers // that are appropriate for renaming. std::pair::iterator, std::multimap::iterator> Range = State->GetRegRefs().equal_range(Reg); for (std::multimap::iterator Q = Range.first, QE = Range.second; Q != QE; ++Q) { const TargetRegisterClass *RC = Q->second.RC; if (RC == NULL) continue; BitVector RCBV = TRI->getAllocatableSet(MF, RC); if (first) { BV |= RCBV; first = false; } else { BV &= RCBV; } DEBUG(errs() << " " << RC->getName()); } return BV; } bool AggressiveAntiDepBreaker::FindSuitableFreeRegisters( unsigned AntiDepGroupIndex, std::map &RenameMap) { unsigned *KillIndices = State->GetKillIndices(); unsigned *DefIndices = State->GetDefIndices(); std::multimap& RegRefs = State->GetRegRefs(); // Collect all registers in the same group as AntiDepReg. These all // need to be renamed together if we are to break the // anti-dependence. std::vector Regs; State->GetGroupRegs(AntiDepGroupIndex, Regs); assert(Regs.size() > 0 && "Empty register group!"); if (Regs.size() == 0) return false; // Find the "superest" register in the group. At the same time, // collect the BitVector of registers that can be used to rename // each register. DEBUG(errs() << "\tRename Candidates for Group g" << AntiDepGroupIndex << ":\n"); std::map RenameRegisterMap; unsigned SuperReg = 0; for (unsigned i = 0, e = Regs.size(); i != e; ++i) { unsigned Reg = Regs[i]; if ((SuperReg == 0) || TRI->isSuperRegister(SuperReg, Reg)) SuperReg = Reg; // If Reg has any references, then collect possible rename regs if (RegRefs.count(Reg) > 0) { DEBUG(errs() << "\t\t" << TRI->getName(Reg) << ":"); BitVector BV = GetRenameRegisters(Reg); RenameRegisterMap.insert(std::pair(Reg, BV)); DEBUG(errs() << " ::"); DEBUG(for (int r = BV.find_first(); r != -1; r = BV.find_next(r)) errs() << " " << TRI->getName(r)); DEBUG(errs() << "\n"); } } // All group registers should be a subreg of SuperReg. for (unsigned i = 0, e = Regs.size(); i != e; ++i) { unsigned Reg = Regs[i]; if (Reg == SuperReg) continue; bool IsSub = TRI->isSubRegister(SuperReg, Reg); assert(IsSub && "Expecting group subregister"); if (!IsSub) return false; } // FIXME: for now just handle single register in group case... // FIXME: check only regs that have references... if (Regs.size() > 1) return false; // Check each possible rename register for SuperReg. If that register // is available, and the corresponding registers are available for // the other group subregisters, then we can use those registers to // rename. DEBUG(errs() << "\tFind Register:"); BitVector SuperBV = RenameRegisterMap[SuperReg]; for (int r = SuperBV.find_first(); r != -1; r = SuperBV.find_next(r)) { const unsigned Reg = (unsigned)r; // Don't replace a register with itself. if (Reg == SuperReg) continue; DEBUG(errs() << " " << TRI->getName(Reg)); // If Reg is dead and Reg's most recent def is not before // SuperRegs's kill, it's safe to replace SuperReg with // Reg. We must also check all subregisters of Reg. if (State->IsLive(Reg) || (KillIndices[SuperReg] > DefIndices[Reg])) { DEBUG(errs() << "(live)"); continue; } else { bool found = false; for (const unsigned *Subreg = TRI->getSubRegisters(Reg); *Subreg; ++Subreg) { unsigned SubregReg = *Subreg; if (State->IsLive(SubregReg) || (KillIndices[SuperReg] > DefIndices[SubregReg])) { DEBUG(errs() << "(subreg " << TRI->getName(SubregReg) << " live)"); found = true; break; } } if (found) continue; } if (Reg != 0) { DEBUG(errs() << '\n'); RenameMap.insert(std::pair(SuperReg, Reg)); return true; } } DEBUG(errs() << '\n'); // No registers are free and available! return false; } /// BreakAntiDependencies - Identifiy anti-dependencies within the /// ScheduleDAG and break them by renaming registers. /// unsigned AggressiveAntiDepBreaker::BreakAntiDependencies( std::vector& SUnits, CandidateMap& Candidates, MachineBasicBlock::iterator& Begin, MachineBasicBlock::iterator& End, unsigned InsertPosIndex) { unsigned *KillIndices = State->GetKillIndices(); unsigned *DefIndices = State->GetDefIndices(); std::multimap& RegRefs = State->GetRegRefs(); // Nothing to do if no candidates. if (Candidates.empty()) { DEBUG(errs() << "\n===== No anti-dependency candidates\n"); return 0; } // The code below assumes that there is at least one instruction, // so just duck out immediately if the block is empty. if (SUnits.empty()) return 0; // Manage saved state to enable multiple passes... if (AntiDepTrials > 1) { if (SavedState == NULL) { SavedState = new AggressiveAntiDepState(*State); } else { delete State; State = new AggressiveAntiDepState(*SavedState); } } // ...need a map from MI to SUnit. std::map MISUnitMap; DEBUG(errs() << "\n===== Attempting to break " << Candidates.size() << " anti-dependencies\n"); for (unsigned i = 0, e = SUnits.size(); i != e; ++i) { SUnit *SU = &SUnits[i]; MISUnitMap.insert(std::pair(SU->getInstr(), SU)); } #ifndef NDEBUG { DEBUG(errs() << "Available regs:"); for (unsigned Reg = 0; Reg < TRI->getNumRegs(); ++Reg) { if (!State->IsLive(Reg)) DEBUG(errs() << " " << TRI->getName(Reg)); } DEBUG(errs() << '\n'); } #endif // Attempt to break anti-dependence edges. Walk the instructions // from the bottom up, tracking information about liveness as we go // to help determine which registers are available. unsigned Broken = 0; unsigned Count = InsertPosIndex - 1; for (MachineBasicBlock::iterator I = End, E = Begin; I != E; --Count) { MachineInstr *MI = --I; DEBUG(errs() << "Anti: "); DEBUG(MI->dump()); std::set PassthruRegs; GetPassthruRegs(MI, PassthruRegs); // Process the defs in MI... PrescanInstruction(MI, Count, PassthruRegs); std::vector Edges; SUnit *PathSU = MISUnitMap[MI]; AntiDepBreaker::CandidateMap::iterator citer = Candidates.find(PathSU); if (citer != Candidates.end()) AntiDepPathStep(PathSU, citer->second, Edges); // Ignore KILL instructions (they form a group in ScanInstruction // but don't cause any anti-dependence breaking themselves) if (MI->getOpcode() != TargetInstrInfo::KILL) { // Attempt to break each anti-dependency... for (unsigned i = 0, e = Edges.size(); i != e; ++i) { SDep *Edge = Edges[i]; SUnit *NextSU = Edge->getSUnit(); if (Edge->getKind() != SDep::Anti) continue; unsigned AntiDepReg = Edge->getReg(); DEBUG(errs() << "\tAntidep reg: " << TRI->getName(AntiDepReg)); assert(AntiDepReg != 0 && "Anti-dependence on reg0?"); if (!AllocatableSet.test(AntiDepReg)) { // Don't break anti-dependencies on non-allocatable registers. DEBUG(errs() << " (non-allocatable)\n"); continue; } else if (PassthruRegs.count(AntiDepReg) != 0) { // If the anti-dep register liveness "passes-thru", then // don't try to change it. It will be changed along with // the use if required to break an earlier antidep. DEBUG(errs() << " (passthru)\n"); continue; } else { // No anti-dep breaking for implicit deps MachineOperand *AntiDepOp = MI->findRegisterDefOperand(AntiDepReg); assert(AntiDepOp != NULL && "Can't find index for defined register operand"); if ((AntiDepOp == NULL) || AntiDepOp->isImplicit()) { DEBUG(errs() << " (implicit)\n"); continue; } // If the SUnit has other dependencies on the SUnit that // it anti-depends on, don't bother breaking the // anti-dependency since those edges would prevent such // units from being scheduled past each other // regardless. for (SUnit::pred_iterator P = PathSU->Preds.begin(), PE = PathSU->Preds.end(); P != PE; ++P) { if ((P->getSUnit() == NextSU) && (P->getKind() != SDep::Anti)) { DEBUG(errs() << " (real dependency)\n"); AntiDepReg = 0; break; } } if (AntiDepReg == 0) continue; } assert(AntiDepReg != 0); if (AntiDepReg == 0) continue; // Determine AntiDepReg's register group. const unsigned GroupIndex = State->GetGroup(AntiDepReg); if (GroupIndex == 0) { DEBUG(errs() << " (zero group)\n"); continue; } DEBUG(errs() << '\n'); // Look for a suitable register to use to break the anti-dependence. std::map RenameMap; if (FindSuitableFreeRegisters(GroupIndex, RenameMap)) { DEBUG(errs() << "\tBreaking anti-dependence edge on " << TRI->getName(AntiDepReg) << ":"); // Handle each group register... for (std::map::iterator S = RenameMap.begin(), E = RenameMap.end(); S != E; ++S) { unsigned CurrReg = S->first; unsigned NewReg = S->second; DEBUG(errs() << " " << TRI->getName(CurrReg) << "->" << TRI->getName(NewReg) << "(" << RegRefs.count(CurrReg) << " refs)"); // Update the references to the old register CurrReg to // refer to the new register NewReg. std::pair::iterator, std::multimap::iterator> Range = RegRefs.equal_range(CurrReg); for (std::multimap::iterator Q = Range.first, QE = Range.second; Q != QE; ++Q) { Q->second.Operand->setReg(NewReg); } // We just went back in time and modified history; the // liveness information for CurrReg is now inconsistent. Set // the state as if it were dead. State->UnionGroups(NewReg, 0); RegRefs.erase(NewReg); DefIndices[NewReg] = DefIndices[CurrReg]; KillIndices[NewReg] = KillIndices[CurrReg]; State->UnionGroups(CurrReg, 0); RegRefs.erase(CurrReg); DefIndices[CurrReg] = KillIndices[CurrReg]; KillIndices[CurrReg] = ~0u; assert(((KillIndices[CurrReg] == ~0u) != (DefIndices[CurrReg] == ~0u)) && "Kill and Def maps aren't consistent for AntiDepReg!"); } ++Broken; DEBUG(errs() << '\n'); } } } ScanInstruction(MI, Count); } return Broken; }