}
}
+/// AddSchedBarrierDeps - Add dependencies from instructions in the current
+/// list of instructions being scheduled to scheduling barrier by adding
+/// the exit SU to the register defs and use list. This is because we want to
+/// make sure instructions which define registers that are either used by
+/// the terminator or are live-out are properly scheduled. This is
+/// especially important when the definition latency of the return value(s)
+/// are too high to be hidden by the branch or when the liveout registers
+/// used by instructions in the fallthrough block.
+void ScheduleDAGInstrs::AddSchedBarrierDeps() {
+ MachineInstr *ExitMI = InsertPos != BB->end() ? &*InsertPos : 0;
+ ExitSU.setInstr(ExitMI);
+ bool AllDepKnown = ExitMI &&
+ (ExitMI->getDesc().isCall() || ExitMI->getDesc().isBarrier());
+ if (ExitMI && AllDepKnown) {
+ // If it's a call or a barrier, add dependencies on the defs and uses of
+ // instruction.
+ for (unsigned i = 0, e = ExitMI->getNumOperands(); i != e; ++i) {
+ const MachineOperand &MO = ExitMI->getOperand(i);
+ if (!MO.isReg() || MO.isDef()) continue;
+ unsigned Reg = MO.getReg();
+ if (Reg == 0) continue;
+
+ assert(TRI->isPhysicalRegister(Reg) && "Virtual register encountered!");
+ Uses[Reg].push_back(&ExitSU);
+ }
+ } else {
+ // For others, e.g. fallthrough, conditional branch, assume the exit
+ // uses all the registers that are livein to the successor blocks.
+ SmallSet<unsigned, 8> Seen;
+ 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;
+ if (Seen.insert(Reg))
+ Uses[Reg].push_back(&ExitSU);
+ }
+ }
+}
+
void ScheduleDAGInstrs::BuildSchedGraph(AliasAnalysis *AA) {
// We'll be allocating one SUnit for each instruction, plus one for
// the region exit node.
// without emitting the info from the previous call.
DbgValueVec.clear();
+ // Model data dependencies between instructions being scheduled and the
+ // ExitSU.
+ AddSchedBarrierDeps();
+
// Walk the list of instructions, from bottom moving up.
for (MachineBasicBlock::iterator MII = InsertPos, MIE = Begin;
MII != MIE; --MII) {
"Cannot schedule terminators or labels!");
// Create the SUnit for this MI.
SUnit *SU = NewSUnit(MI);
+ SU->isCall = TID.isCall();
+ SU->isCommutable = TID.isCommutable();
// Assign the Latency field of SU using target-provided information.
if (UnitLatencies)
unsigned AOLatency = (Kind == SDep::Anti) ? 0 : 1;
for (unsigned i = 0, e = DefList.size(); i != e; ++i) {
SUnit *DefSU = DefList[i];
+ if (DefSU == &ExitSU)
+ continue;
if (DefSU != SU &&
(Kind != SDep::Output || !MO.isDead() ||
!DefSU->getInstr()->registerDefIsDead(Reg)))
std::vector<SUnit *> &DefList = Defs[*Alias];
for (unsigned i = 0, e = DefList.size(); i != e; ++i) {
SUnit *DefSU = DefList[i];
+ if (DefSU == &ExitSU)
+ continue;
if (DefSU != SU &&
(Kind != SDep::Output || !MO.isDead() ||
!DefSU->getInstr()->registerDefIsDead(*Alias)))
// TODO: Perhaps we should get rid of
// SpecialAddressLatency and just move this into
// adjustSchedDependency for the targets that care about it.
- if (SpecialAddressLatency != 0 && !UnitLatencies) {
+ if (SpecialAddressLatency != 0 && !UnitLatencies &&
+ UseSU != &ExitSU) {
MachineInstr *UseMI = UseSU->getInstr();
const TargetInstrDesc &UseTID = UseMI->getDesc();
int RegUseIndex = UseMI->findRegisterUseOperandIdx(Reg);
assert(RegUseIndex >= 0 && "UseMI doesn's use register!");
- if ((UseTID.mayLoad() || UseTID.mayStore()) &&
+ if (RegUseIndex >= 0 &&
+ (UseTID.mayLoad() || UseTID.mayStore()) &&
(unsigned)RegUseIndex < UseTID.getNumOperands() &&
UseTID.OpInfo[RegUseIndex].isLookupPtrRegClass())
LDataLatency += SpecialAddressLatency;
// Treat all other stores conservatively.
goto new_alias_chain;
}
+
+ if (!ExitSU.isPred(SU))
+ // Push store's up a bit to avoid them getting in between cmp
+ // and branches.
+ ExitSU.addPred(SDep(SU, SDep::Order, 0,
+ /*Reg=*/0, /*isNormalMemory=*/false,
+ /*isMustAlias=*/false,
+ /*isArtificial=*/true));
} else if (TID.mayLoad()) {
bool MayAlias = true;
TrueMemOrderLatency = 0;
// extra time.
if (SU->getInstr()->getDesc().mayLoad())
SU->Latency += 2;
- } else
- SU->Latency =
- InstrItins->getStageLatency(SU->getInstr()->getDesc().getSchedClass());
+ } else {
+ SU->Latency = TII->getInstrLatency(InstrItins, SU->getInstr());
+ }
}
void ScheduleDAGInstrs::ComputeOperandLatency(SUnit *Def, SUnit *Use,
MachineInstr *DefMI = Def->getInstr();
int DefIdx = DefMI->findRegisterDefOperandIdx(Reg);
if (DefIdx != -1) {
+ const MachineOperand &MO = DefMI->getOperand(DefIdx);
+ if (MO.isReg() && MO.isImplicit() &&
+ DefIdx >= (int)DefMI->getDesc().getNumOperands()) {
+ // This is an implicit def, getOperandLatency() won't return the correct
+ // latency. e.g.
+ // %D6<def>, %D7<def> = VLD1q16 %R2<kill>, 0, ..., %Q3<imp-def>
+ // %Q1<def> = VMULv8i16 %Q1<kill>, %Q3<kill>, ...
+ // What we want is to compute latency between def of %D6/%D7 and use of
+ // %Q3 instead.
+ DefIdx = DefMI->findRegisterDefOperandIdx(Reg, false, true, TRI);
+ }
MachineInstr *UseMI = Use->getInstr();
// For all uses of the register, calculate the maxmimum latency
int Latency = -1;
- for (unsigned i = 0, e = UseMI->getNumOperands(); i != e; ++i) {
- const MachineOperand &MO = UseMI->getOperand(i);
- if (!MO.isReg() || !MO.isUse())
- continue;
- unsigned MOReg = MO.getReg();
- if (MOReg != Reg)
- continue;
-
- int UseCycle = TII->getOperandLatency(InstrItins, DefMI, DefIdx, UseMI, i);
- Latency = std::max(Latency, UseCycle);
-
- // If we found a latency, then replace the existing dependence latency.
- if (Latency >= 0)
- dep.setLatency(Latency);
+ if (UseMI) {
+ for (unsigned i = 0, e = UseMI->getNumOperands(); i != e; ++i) {
+ const MachineOperand &MO = UseMI->getOperand(i);
+ if (!MO.isReg() || !MO.isUse())
+ continue;
+ unsigned MOReg = MO.getReg();
+ if (MOReg != Reg)
+ continue;
+
+ int UseCycle = TII->getOperandLatency(InstrItins, DefMI, DefIdx,
+ UseMI, i);
+ Latency = std::max(Latency, UseCycle);
+ }
+ } else {
+ // UseMI is null, then it must be a scheduling barrier.
+ if (!InstrItins || InstrItins->isEmpty())
+ return;
+ unsigned DefClass = DefMI->getDesc().getSchedClass();
+ Latency = InstrItins->getOperandCycle(DefClass, DefIdx);
}
+
+ // If we found a latency, then replace the existing dependence latency.
+ if (Latency >= 0)
+ dep.setLatency(Latency);
}
}
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