for (const VReg2SUnit &V2SU
: make_range(VRegUses.find(Reg), VRegUses.end())) {
SUnit *SU = V2SU.SU;
- DEBUG(dbgs() << " UpdateRegP: SU(" << SU->NodeNum << ") "
- << *SU->getInstr());
// If this use comes before the reaching def, it cannot be a last use, so
// descrease its pressure change.
if (!SU->isScheduled && SU != &ExitSU) {
LiveQueryResult LRQ
= LI.Query(LIS->getInstructionIndex(SU->getInstr()));
- if (LRQ.valueIn() == VNI)
- getPressureDiff(SU).addPressureChange(Reg, true, &MRI);
+ if (LRQ.valueIn() == VNI) {
+ PressureDiff &PDiff = getPressureDiff(SU);
+ PDiff.addPressureChange(Reg, true, &MRI);
+ DEBUG(
+ dbgs() << " UpdateRegP: SU(" << SU->NodeNum << ") "
+ << *SU->getInstr();
+ dbgs() << " to ";
+ PDiff.dump(*TRI);
+ );
+ }
}
}
}
// This may initialize a DFSResult to be used for queue priority.
SchedImpl->initialize(this);
- DEBUG(for (unsigned su = 0, e = SUnits.size(); su != e; ++su)
- SUnits[su].dumpAll(this));
+ DEBUG(
+ for (const SUnit &SU : SUnits) {
+ SU.dumpAll(this);
+ if (ShouldTrackPressure) {
+ dbgs() << " Pressure Diff : ";
+ getPressureDiff(&SU).dump(*TRI);
+ }
+ dbgs() << '\n';
+ }
+ );
if (ViewMISchedDAGs) viewGraph();
// Initialize ready queues now that the DAG and priority data are finalized.
// Update top scheduled pressure.
TopRPTracker.advance();
assert(TopRPTracker.getPos() == CurrentTop && "out of sync");
+ DEBUG(
+ dbgs() << "Top Pressure:\n";
+ dumpRegSetPressure(TopRPTracker.getRegSetPressureAtPos(), TRI);
+ );
+
updateScheduledPressure(SU, TopRPTracker.getPressure().MaxSetPressure);
}
}
SmallVector<unsigned, 8> LiveUses;
BotRPTracker.recede(&LiveUses);
assert(BotRPTracker.getPos() == CurrentBottom && "out of sync");
+ DEBUG(
+ dbgs() << "Bottom Pressure:\n";
+ dumpRegSetPressure(BotRPTracker.getRegSetPressureAtPos(), TRI);
+ );
+
updateScheduledPressure(SU, BotRPTracker.getPressure().MaxSetPressure);
updatePressureDiffs(LiveUses);
}