#include <algorithm>
using namespace llvm;
-// An example for liveAt():
-//
-// this = [1,4), liveAt(0) will return false. The instruction defining this
-// spans slots [0,3]. The interval belongs to an spilled definition of the
-// variable it represents. This is because slot 1 is used (def slot) and spans
-// up to slot 3 (store slot).
-//
-bool LiveInterval::liveAt(SlotIndex I) const {
- Ranges::const_iterator r = std::upper_bound(ranges.begin(), ranges.end(), I);
-
- if (r == ranges.begin())
- return false;
-
- --r;
- return r->contains(I);
-}
-
-// liveBeforeAndAt - Check if the interval is live at the index and the index
-// just before it. If index is liveAt, check if it starts a new live range.
-// If it does, then check if the previous live range ends at index-1.
-bool LiveInterval::liveBeforeAndAt(SlotIndex I) const {
- Ranges::const_iterator r = std::upper_bound(ranges.begin(), ranges.end(), I);
-
- if (r == ranges.begin())
- return false;
-
- --r;
- if (!r->contains(I))
- return false;
- if (I != r->start)
- return true;
- // I is the start of a live range. Check if the previous live range ends
- // at I-1.
- if (r == ranges.begin())
- return false;
- return r->end == I;
+// CompEnd - Compare LiveRange ends.
+namespace {
+struct CompEnd {
+ bool operator()(const LiveRange &A, const LiveRange &B) const {
+ return A.end < B.end;
+ }
+};
}
-/// killedAt - Return true if a live range ends at index. Note that the kill
-/// point is not contained in the half-open live range. It is usually the
-/// getDefIndex() slot following its last use.
-bool LiveInterval::killedAt(SlotIndex I) const {
- Ranges::const_iterator r = std::lower_bound(ranges.begin(), ranges.end(), I);
-
- // Now r points to the first interval with start >= I, or ranges.end().
- if (r == ranges.begin())
- return false;
-
- --r;
- // Now r points to the last interval with end <= I.
- // r->end is the kill point.
- return r->end == I;
+LiveInterval::iterator LiveInterval::find(SlotIndex Pos) {
+ assert(Pos.isValid() && "Cannot search for an invalid index");
+ return std::upper_bound(begin(), end(), LiveRange(SlotIndex(), Pos, 0),
+ CompEnd());
}
/// killedInRange - Return true if the interval has kills in [Start,End).
return ranges.insert(it, LR);
}
-/// isInOneLiveRange - Return true if the range specified is entirely in
-/// a single LiveRange of the live interval.
-bool LiveInterval::isInOneLiveRange(SlotIndex Start, SlotIndex End) {
- Ranges::iterator I = std::upper_bound(ranges.begin(), ranges.end(), Start);
- if (I == ranges.begin())
- return false;
- --I;
- return I->containsRange(Start, End);
-}
-
/// removeRange - Remove the specified range from this interval. Note that
/// the range must be in a single LiveRange in its entirety.
void LiveInterval::removeRange(SlotIndex Start, SlotIndex End,
bool RemoveDeadValNo) {
// Find the LiveRange containing this span.
- Ranges::iterator I = std::upper_bound(ranges.begin(), ranges.end(), Start);
- assert(I != ranges.begin() && "Range is not in interval!");
- --I;
+ Ranges::iterator I = find(Start);
+ assert(I != ranges.end() && "Range is not in interval!");
assert(I->containsRange(Start, End) && "Range is not entirely in interval!");
// If the span we are removing is at the start of the LiveRange, adjust it.
markValNoForDeletion(ValNo);
}
-/// getLiveRangeContaining - Return the live range that contains the
-/// specified index, or null if there is none.
-LiveInterval::const_iterator
-LiveInterval::FindLiveRangeContaining(SlotIndex Idx) const {
- const_iterator It = std::upper_bound(begin(), end(), Idx);
- if (It != ranges.begin()) {
- --It;
- if (It->contains(Idx))
- return It;
- }
-
- return end();
-}
-
-LiveInterval::iterator
-LiveInterval::FindLiveRangeContaining(SlotIndex Idx) {
- iterator It = std::upper_bound(begin(), end(), Idx);
- if (It != begin()) {
- --It;
- if (It->contains(Idx))
- return It;
- }
-
- return end();
-}
-
/// findDefinedVNInfo - Find the VNInfo defined by the specified
/// index (register interval).
VNInfo *LiveInterval::findDefinedVNInfoForRegInt(SlotIndex Idx) const {
return 0;
}
-/// findDefinedVNInfo - Find the VNInfo defined by the specified
-/// register (stack inteval).
-VNInfo *LiveInterval::findDefinedVNInfoForStackInt(unsigned reg) const {
- for (LiveInterval::const_vni_iterator i = vni_begin(), e = vni_end();
- i != e; ++i) {
- if ((*i)->getReg() == reg)
- return *i;
- }
- return 0;
-}
-
/// join - Join two live intervals (this, and other) together. This applies
/// mappings to the value numbers in the LHS/RHS intervals as specified. If
/// the intervals are not joinable, this aborts.
}
-/// MergeInClobberRanges - For any live ranges that are not defined in the
-/// current interval, but are defined in the Clobbers interval, mark them
-/// used with an unknown definition value.
-void LiveInterval::MergeInClobberRanges(LiveIntervals &li_,
- const LiveInterval &Clobbers,
- VNInfo::Allocator &VNInfoAllocator) {
- if (Clobbers.empty()) return;
-
- DenseMap<VNInfo*, VNInfo*> ValNoMaps;
- VNInfo *UnusedValNo = 0;
- iterator IP = begin();
- for (const_iterator I = Clobbers.begin(), E = Clobbers.end(); I != E; ++I) {
- // For every val# in the Clobbers interval, create a new "unknown" val#.
- VNInfo *ClobberValNo = 0;
- DenseMap<VNInfo*, VNInfo*>::iterator VI = ValNoMaps.find(I->valno);
- if (VI != ValNoMaps.end())
- ClobberValNo = VI->second;
- else if (UnusedValNo)
- ClobberValNo = UnusedValNo;
- else {
- UnusedValNo = ClobberValNo =
- getNextValue(li_.getInvalidIndex(), 0, false, VNInfoAllocator);
- ValNoMaps.insert(std::make_pair(I->valno, ClobberValNo));
- }
-
- bool Done = false;
- SlotIndex Start = I->start, End = I->end;
- // If a clobber range starts before an existing range and ends after
- // it, the clobber range will need to be split into multiple ranges.
- // Loop until the entire clobber range is handled.
- while (!Done) {
- Done = true;
- IP = std::upper_bound(IP, end(), Start);
- SlotIndex SubRangeStart = Start;
- SlotIndex SubRangeEnd = End;
-
- // If the start of this range overlaps with an existing liverange, trim it.
- if (IP != begin() && IP[-1].end > SubRangeStart) {
- SubRangeStart = IP[-1].end;
- // Trimmed away the whole range?
- if (SubRangeStart >= SubRangeEnd) continue;
- }
- // If the end of this range overlaps with an existing liverange, trim it.
- if (IP != end() && SubRangeEnd > IP->start) {
- // If the clobber live range extends beyond the existing live range,
- // it'll need at least another live range, so set the flag to keep
- // iterating.
- if (SubRangeEnd > IP->end) {
- Start = IP->end;
- Done = false;
- }
- SubRangeEnd = IP->start;
- // If this trimmed away the whole range, ignore it.
- if (SubRangeStart == SubRangeEnd) continue;
- }
-
- // Insert the clobber interval.
- IP = addRangeFrom(LiveRange(SubRangeStart, SubRangeEnd, ClobberValNo),
- IP);
- UnusedValNo = 0;
- }
- }
-
- if (UnusedValNo) {
- // Delete the last unused val#.
- valnos.pop_back();
- }
-}
-
-void LiveInterval::MergeInClobberRange(LiveIntervals &li_,
- SlotIndex Start,
- SlotIndex End,
- VNInfo::Allocator &VNInfoAllocator) {
- // Find a value # to use for the clobber ranges. If there is already a value#
- // for unknown values, use it.
- VNInfo *ClobberValNo =
- getNextValue(li_.getInvalidIndex(), 0, false, VNInfoAllocator);
-
- iterator IP = begin();
- IP = std::upper_bound(IP, end(), Start);
-
- // If the start of this range overlaps with an existing liverange, trim it.
- if (IP != begin() && IP[-1].end > Start) {
- Start = IP[-1].end;
- // Trimmed away the whole range?
- if (Start >= End) return;
- }
- // If the end of this range overlaps with an existing liverange, trim it.
- if (IP != end() && End > IP->start) {
- End = IP->start;
- // If this trimmed away the whole range, ignore it.
- if (Start == End) return;
- }
-
- // Insert the clobber interval.
- addRangeFrom(LiveRange(Start, End, ClobberValNo), IP);
-}
/// MergeValueNumberInto - This method is called when two value nubmers
/// are found to be equivalent. This eliminates V1, replacing all
}
}
+ // Merge the relevant flags.
+ V2->mergeFlags(V1);
+
// Now that V1 is dead, remove it.
markValNoForDeletion(V1);
}
void LiveInterval::print(raw_ostream &OS, const TargetRegisterInfo *TRI) const {
- if (isStackSlot())
- OS << "SS#" << getStackSlotIndex();
- else if (TRI && TargetRegisterInfo::isPhysicalRegister(reg))
- OS << TRI->getName(reg);
- else
- OS << "%reg" << reg;
-
- OS << ',' << weight;
+ OS << PrintReg(reg, TRI);
+ if (weight != 0)
+ OS << ',' << weight;
if (empty())
OS << " EMPTY";
if (vni->isUnused()) {
OS << "x";
} else {
- if (!vni->isDefAccurate() && !vni->isPHIDef())
- OS << "?";
- else
- OS << vni->def;
+ OS << vni->def;
+ if (vni->isPHIDef())
+ OS << "-phidef";
if (vni->hasPHIKill())
OS << "-phikill";
if (vni->hasRedefByEC())
void LiveRange::print(raw_ostream &os) const {
os << *this;
}
+
+unsigned ConnectedVNInfoEqClasses::Classify(const LiveInterval *LI) {
+ // Create initial equivalence classes.
+ eqClass_.clear();
+ eqClass_.grow(LI->getNumValNums());
+
+ const VNInfo *used = 0, *unused = 0;
+
+ // Determine connections.
+ for (LiveInterval::const_vni_iterator I = LI->vni_begin(), E = LI->vni_end();
+ I != E; ++I) {
+ const VNInfo *VNI = *I;
+ // Group all unused values into one class.
+ if (VNI->isUnused()) {
+ if (unused)
+ eqClass_.join(unused->id, VNI->id);
+ unused = VNI;
+ continue;
+ }
+ used = VNI;
+ if (VNI->isPHIDef()) {
+ const MachineBasicBlock *MBB = lis_.getMBBFromIndex(VNI->def);
+ assert(MBB && "Phi-def has no defining MBB");
+ // Connect to values live out of predecessors.
+ for (MachineBasicBlock::const_pred_iterator PI = MBB->pred_begin(),
+ PE = MBB->pred_end(); PI != PE; ++PI)
+ if (const VNInfo *PVNI =
+ LI->getVNInfoAt(lis_.getMBBEndIdx(*PI).getPrevSlot()))
+ eqClass_.join(VNI->id, PVNI->id);
+ } else {
+ // Normal value defined by an instruction. Check for two-addr redef.
+ // FIXME: This could be coincidental. Should we really check for a tied
+ // operand constraint?
+ // Note that VNI->def may be a use slot for an early clobber def.
+ if (const VNInfo *UVNI = LI->getVNInfoAt(VNI->def.getPrevSlot()))
+ eqClass_.join(VNI->id, UVNI->id);
+ }
+ }
+
+ // Lump all the unused values in with the last used value.
+ if (used && unused)
+ eqClass_.join(used->id, unused->id);
+
+ eqClass_.compress();
+ return eqClass_.getNumClasses();
+}
+
+void ConnectedVNInfoEqClasses::Distribute(LiveInterval *LIV[]) {
+ assert(LIV[0] && "LIV[0] must be set");
+ LiveInterval &LI = *LIV[0];
+
+ // First move runs to new intervals.
+ LiveInterval::iterator J = LI.begin(), E = LI.end();
+ while (J != E && eqClass_[J->valno->id] == 0)
+ ++J;
+ for (LiveInterval::iterator I = J; I != E; ++I) {
+ if (unsigned eq = eqClass_[I->valno->id]) {
+ assert((LIV[eq]->empty() || LIV[eq]->expiredAt(I->start)) &&
+ "New intervals should be empty");
+ LIV[eq]->ranges.push_back(*I);
+ } else
+ *J++ = *I;
+ }
+ LI.ranges.erase(J, E);
+
+ // Transfer VNInfos to their new owners and renumber them.
+ unsigned j = 0, e = LI.getNumValNums();
+ while (j != e && eqClass_[j] == 0)
+ ++j;
+ for (unsigned i = j; i != e; ++i) {
+ VNInfo *VNI = LI.getValNumInfo(i);
+ if (unsigned eq = eqClass_[i]) {
+ VNI->id = LIV[eq]->getNumValNums();
+ LIV[eq]->valnos.push_back(VNI);
+ } else {
+ VNI->id = j;
+ LI.valnos[j++] = VNI;
+ }
+ }
+ LI.valnos.resize(j);
+}
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