diff --git a/llvm/lib/CodeGen/AssignmentTrackingAnalysis.cpp b/llvm/lib/CodeGen/AssignmentTrackingAnalysis.cpp --- a/llvm/lib/CodeGen/AssignmentTrackingAnalysis.cpp +++ b/llvm/lib/CodeGen/AssignmentTrackingAnalysis.cpp @@ -1,4 +1,5 @@ #include "llvm/CodeGen/AssignmentTrackingAnalysis.h" +#include "llvm/ADT/BitVector.h" #include "llvm/ADT/DenseMapInfo.h" #include "llvm/ADT/IntervalMap.h" #include "llvm/ADT/PostOrderIterator.h" @@ -79,6 +80,8 @@ SmallVector SingleLocVars; public: + unsigned getNumVariables() const { return Variables.size(); } + /// Find or insert \p V and return the ID. VariableID insertVariable(DebugVariable V) { return static_cast(Variables.insert(V)); @@ -967,14 +970,17 @@ } }; - using AssignmentMap = DenseMap; - using LocMap = DenseMap; - using OverlapMap = DenseMap>; + using AssignmentMap = SmallVector; + using LocMap = SmallVector; + using OverlapMap = DenseMap>; using UntaggedStoreAssignmentMap = DenseMap>>; private: + /// The highest numbered VariableID for partially promoted variables plus 1, + /// the values for which start at 1. + unsigned TrackedVariablesVectorSize = 0; /// Map a variable to the set of variables that it fully contains. OverlapMap VarContains; /// Map untagged stores to the variable fragments they assign to. Used by @@ -990,30 +996,23 @@ void emitDbgValue(LocKind Kind, const DbgVariableIntrinsic *Source, Instruction *After); - static bool mapsAreEqual(const AssignmentMap &A, const AssignmentMap &B) { - if (A.size() != B.size()) - return false; - for (const auto &Pair : A) { - VariableID Var = Pair.first; - const Assignment &AV = Pair.second; - auto R = B.find(Var); - // Check if this entry exists in B, otherwise ret false. - if (R == B.end()) - return false; - // Check that the assignment value is the same. - if (!AV.isSameSourceAssignment(R->second)) - return false; - } - return true; + static bool mapsAreEqual(const BitVector &Mask, const AssignmentMap &A, + const AssignmentMap &B) { + return llvm::all_of(Mask.set_bits(), [&](unsigned VarID) { + return A[VarID].isSameSourceAssignment(B[VarID]); + }); } /// Represents the stack and debug assignments in a block. Used to describe /// the live-in and live-out values for blocks, as well as the "current" /// value as we process each instruction in a block. struct BlockInfo { - /// Dominating assignment to memory for each variable. + /// The set of variables (VariableID) being tracked in this block. + BitVector VariableIDsInBlock; + /// Dominating assignment to memory for each variable, indexed by + /// VariableID. AssignmentMap StackHomeValue; - /// Dominating assignemnt to each variable. + /// Dominating assignemnt to each variable, indexed by VariableID. AssignmentMap DebugValue; /// Location kind for each variable. LiveLoc indicates whether the /// dominating assignment in StackHomeValue (LocKind::Mem), DebugValue @@ -1024,20 +1023,138 @@ /// merge of multiple assignments (both are Status::NoneOrPhi). In other /// words, the memory location may well be valid while both DebugValue and /// StackHomeValue contain Assignments that have a Status of NoneOrPhi. + /// Indexed by VariableID. LocMap LiveLoc; + public: + enum AssignmentKind { Stack, Debug }; + const AssignmentMap &getAssignmentMap(AssignmentKind Kind) const { + switch (Kind) { + case Stack: + return StackHomeValue; + case Debug: + return DebugValue; + } + llvm_unreachable("Unknown AssignmentKind"); + } + AssignmentMap &getAssignmentMap(AssignmentKind Kind) { + return const_cast( + const_cast(this)->getAssignmentMap(Kind)); + } + + bool isVariableTracked(VariableID Var) const { + return VariableIDsInBlock[static_cast(Var)]; + } + + const Assignment &getAssignment(AssignmentKind Kind, VariableID Var) const { + assert(isVariableTracked(Var) && "Var not tracked in block"); + return getAssignmentMap(Kind)[static_cast(Var)]; + } + + LocKind getLocKind(VariableID Var) const { + assert(isVariableTracked(Var) && "Var not tracked in block"); + return LiveLoc[static_cast(Var)]; + } + + /// Set LocKind for \p Var only: does not set LocKind for VariableIDs of + /// fragments contained win \p Var. + void setLocKind(VariableID Var, LocKind K) { + VariableIDsInBlock.set(static_cast(Var)); + LiveLoc[static_cast(Var)] = K; + } + + /// Set the assignment in the \p Kind assignment map for \p Var only: does + /// not set the assignment for VariableIDs of fragments contained win \p + /// Var. + void setAssignment(AssignmentKind Kind, VariableID Var, + const Assignment &AV) { + VariableIDsInBlock.set(static_cast(Var)); + getAssignmentMap(Kind)[static_cast(Var)] = AV; + } + + /// Return true if there is an assignment matching \p AV in the \p Kind + /// assignment map. Does consider assignments for VariableIDs of fragments + /// contained win \p Var. + bool hasAssignment(AssignmentKind Kind, VariableID Var, + const Assignment &AV) const { + if (!isVariableTracked(Var)) + return false; + return AV.isSameSourceAssignment(getAssignment(Kind, Var)); + } + /// Compare every element in each map to determine structural equality /// (slow). bool operator==(const BlockInfo &Other) const { - return LiveLoc == Other.LiveLoc && - mapsAreEqual(StackHomeValue, Other.StackHomeValue) && - mapsAreEqual(DebugValue, Other.DebugValue); + return VariableIDsInBlock == Other.VariableIDsInBlock && + LiveLoc == Other.LiveLoc && + mapsAreEqual(VariableIDsInBlock, StackHomeValue, + Other.StackHomeValue) && + mapsAreEqual(VariableIDsInBlock, DebugValue, Other.DebugValue); } bool operator!=(const BlockInfo &Other) const { return !(*this == Other); } bool isValid() { return LiveLoc.size() == DebugValue.size() && LiveLoc.size() == StackHomeValue.size(); } + + /// Clear everything and initialise with ⊤-values for all variables. + void init(int NumVars) { + StackHomeValue.clear(); + DebugValue.clear(); + LiveLoc.clear(); + VariableIDsInBlock = BitVector(NumVars); + StackHomeValue.insert(StackHomeValue.begin(), NumVars, + Assignment::makeNoneOrPhi()); + DebugValue.insert(DebugValue.begin(), NumVars, + Assignment::makeNoneOrPhi()); + LiveLoc.insert(LiveLoc.begin(), NumVars, LocKind::None); + } + + /// Helper for join. + template + static void joinElmt(int Index, SmallVector &Target, + const SmallVector &A, + const SmallVector &B, + ElmtType (*Fn)(FnInputType, FnInputType)) { + Target[Index] = Fn(A[Index], B[Index]); + } + + /// See comment for AssignmentTrackingLowering::joinBlockInfo. + static BlockInfo join(const BlockInfo &A, const BlockInfo &B, int NumVars) { + // Join A and B. + // + // Intersect = join(a, b) for a in A, b in B where Var(a) == Var(b) + // Difference = join(x, ⊤) for x where Var(x) is in A xor B + // Join = Intersect ∪ Difference + // + // This is achieved by performing a join on elements from A and B with + // variables common to both A and B (join elements indexed by var + // intersect), then adding ⊤-value elements for vars in A xor B. The + // latter part is equivalent to performing join on elements with variables + // in A xor B with the ⊤-value for the map element since join(x, ⊤) = ⊤. + // BlockInfo::init initializes all variable entries to the ⊤ value so we + // don't need to explicitly perform that step as Join.VariableIDsInBlock + // is set to the union of the variables in A and B at the end of this + // function. + BlockInfo Join; + Join.init(NumVars); + + BitVector Intersect = A.VariableIDsInBlock; + Intersect &= B.VariableIDsInBlock; + + for (auto VarID : Intersect.set_bits()) { + joinElmt(VarID, Join.LiveLoc, A.LiveLoc, B.LiveLoc, joinKind); + joinElmt(VarID, Join.DebugValue, A.DebugValue, B.DebugValue, + joinAssignment); + joinElmt(VarID, Join.StackHomeValue, A.StackHomeValue, B.StackHomeValue, + joinAssignment); + } + + Join.VariableIDsInBlock = A.VariableIDsInBlock; + Join.VariableIDsInBlock |= B.VariableIDsInBlock; + assert(Join.isValid()); + return Join; + } }; Function &Fn; @@ -1082,11 +1199,8 @@ /// (⊤) in this case (unknown location / assignment). ///@{ static LocKind joinKind(LocKind A, LocKind B); - static LocMap joinLocMap(const LocMap &A, const LocMap &B); static Assignment joinAssignment(const Assignment &A, const Assignment &B); - static AssignmentMap joinAssignmentMap(const AssignmentMap &A, - const AssignmentMap &B); - static BlockInfo joinBlockInfo(const BlockInfo &A, const BlockInfo &B); + BlockInfo joinBlockInfo(const BlockInfo &A, const BlockInfo &B); ///@} /// Process the instructions in \p BB updating \p LiveSet along the way. \p @@ -1119,8 +1233,15 @@ /// have been called for \p Var first. LocKind getLocKind(BlockInfo *LiveSet, VariableID Var); /// Return true if \p Var has an assignment in \p M matching \p AV. - bool hasVarWithAssignment(VariableID Var, const Assignment &AV, - const AssignmentMap &M); + bool hasVarWithAssignment(BlockInfo *LiveSet, BlockInfo::AssignmentKind Kind, + VariableID Var, const Assignment &AV); + /// Return the set of VariableIDs corresponding the fragments contained fully + /// within the variable/fragment \p Var. + ArrayRef getContainedFragments(VariableID Var) const; + + /// Mark \p Var as having been touched this frame. Note, this applies only + /// to the exact fragment \p Var and not to any fragments contained within. + void touchFragment(VariableID Var); /// Emit info for variables that are fully promoted. bool emitPromotedVarLocs(FunctionVarLocsBuilder *FnVarLocs); @@ -1135,66 +1256,60 @@ }; } // namespace +ArrayRef +AssignmentTrackingLowering::getContainedFragments(VariableID Var) const { + auto R = VarContains.find(Var); + if (R == VarContains.end()) + return std::nullopt; + return R->second; +} + +void AssignmentTrackingLowering::touchFragment(VariableID Var) { + VarsTouchedThisFrame.insert(Var); +} + void AssignmentTrackingLowering::setLocKind(BlockInfo *LiveSet, VariableID Var, LocKind K) { auto SetKind = [this](BlockInfo *LiveSet, VariableID Var, LocKind K) { - VarsTouchedThisFrame.insert(Var); - LiveSet->LiveLoc[Var] = K; + LiveSet->setLocKind(Var, K); + touchFragment(Var); }; SetKind(LiveSet, Var, K); // Update the LocKind for all fragments contained within Var. - for (VariableID Frag : VarContains[Var]) + for (VariableID Frag : getContainedFragments(Var)) SetKind(LiveSet, Frag, K); } AssignmentTrackingLowering::LocKind AssignmentTrackingLowering::getLocKind(BlockInfo *LiveSet, VariableID Var) { - auto Pair = LiveSet->LiveLoc.find(Var); - assert(Pair != LiveSet->LiveLoc.end()); - return Pair->second; + return LiveSet->getLocKind(Var); } void AssignmentTrackingLowering::addMemDef(BlockInfo *LiveSet, VariableID Var, const Assignment &AV) { - auto AddDef = [](BlockInfo *LiveSet, VariableID Var, Assignment AV) { - LiveSet->StackHomeValue[Var] = AV; - // Add default (Var -> ⊤) to DebugValue if Var isn't in DebugValue yet. - LiveSet->DebugValue.insert({Var, Assignment::makeNoneOrPhi()}); - // Add default (Var -> ⊤) to LiveLocs if Var isn't in LiveLocs yet. Callers - // of addMemDef will call setLocKind to override. - LiveSet->LiveLoc.insert({Var, LocKind::None}); - }; - AddDef(LiveSet, Var, AV); + LiveSet->setAssignment(BlockInfo::Stack, Var, AV); // Use this assigment for all fragments contained within Var, but do not // provide a Source because we cannot convert Var's value to a value for the // fragment. Assignment FragAV = AV; FragAV.Source = nullptr; - for (VariableID Frag : VarContains[Var]) - AddDef(LiveSet, Frag, FragAV); + for (VariableID Frag : getContainedFragments(Var)) + LiveSet->setAssignment(BlockInfo::Stack, Frag, FragAV); } void AssignmentTrackingLowering::addDbgDef(BlockInfo *LiveSet, VariableID Var, const Assignment &AV) { - auto AddDef = [](BlockInfo *LiveSet, VariableID Var, Assignment AV) { - LiveSet->DebugValue[Var] = AV; - // Add default (Var -> ⊤) to StackHome if Var isn't in StackHome yet. - LiveSet->StackHomeValue.insert({Var, Assignment::makeNoneOrPhi()}); - // Add default (Var -> ⊤) to LiveLocs if Var isn't in LiveLocs yet. Callers - // of addDbgDef will call setLocKind to override. - LiveSet->LiveLoc.insert({Var, LocKind::None}); - }; - AddDef(LiveSet, Var, AV); + LiveSet->setAssignment(BlockInfo::Debug, Var, AV); // Use this assigment for all fragments contained within Var, but do not // provide a Source because we cannot convert Var's value to a value for the // fragment. Assignment FragAV = AV; FragAV.Source = nullptr; - for (VariableID Frag : VarContains[Var]) - AddDef(LiveSet, Frag, FragAV); + for (VariableID Frag : getContainedFragments(Var)) + LiveSet->setAssignment(BlockInfo::Debug, Frag, FragAV); } static DIAssignID *getIDFromInst(const Instruction &I) { @@ -1206,24 +1321,16 @@ } /// Return true if \p Var has an assignment in \p M matching \p AV. -bool AssignmentTrackingLowering::hasVarWithAssignment(VariableID Var, - const Assignment &AV, - const AssignmentMap &M) { - auto AssignmentIsMapped = [](VariableID Var, const Assignment &AV, - const AssignmentMap &M) { - auto R = M.find(Var); - if (R == M.end()) - return false; - return AV.isSameSourceAssignment(R->second); - }; - - if (!AssignmentIsMapped(Var, AV, M)) +bool AssignmentTrackingLowering::hasVarWithAssignment( + BlockInfo *LiveSet, BlockInfo::AssignmentKind Kind, VariableID Var, + const Assignment &AV) { + if (!LiveSet->hasAssignment(Kind, Var, AV)) return false; // Check all the frags contained within Var as these will have all been // mapped to AV at the last store to Var. - for (VariableID Frag : VarContains[Var]) - if (!AssignmentIsMapped(Frag, AV, M)) + for (VariableID Frag : getContainedFragments(Var)) + if (!LiveSet->hasAssignment(Kind, Frag, AV)) return false; return true; } @@ -1410,13 +1517,14 @@ // The last assignment to the stack is now AV. Check if the last debug // assignment has a matching Assignment. - if (hasVarWithAssignment(Var, AV, LiveSet->DebugValue)) { + if (hasVarWithAssignment(LiveSet, BlockInfo::Debug, Var, AV)) { // The StackHomeValue and DebugValue for this variable match so we can // emit a stack home location here. LLVM_DEBUG(dbgs() << "Mem, Stack matches Debug program\n";); LLVM_DEBUG(dbgs() << " Stack val: "; AV.dump(dbgs()); dbgs() << "\n"); LLVM_DEBUG(dbgs() << " Debug val: "; - LiveSet->DebugValue[Var].dump(dbgs()); dbgs() << "\n"); + LiveSet->DebugValue[static_cast(Var)].dump(dbgs()); + dbgs() << "\n"); setLocKind(LiveSet, Var, LocKind::Mem); emitDbgValue(LocKind::Mem, DAI, &I); continue; @@ -1439,7 +1547,8 @@ // There's been an assignment to memory that we were using as a // location for this variable, and the Assignment doesn't match what // we'd expect to see in memory. - if (LiveSet->DebugValue[Var].Status == Assignment::NoneOrPhi) { + Assignment DbgAV = LiveSet->getAssignment(BlockInfo::Debug, Var); + if (DbgAV.Status == Assignment::NoneOrPhi) { // We need to terminate any previously open location now. LLVM_DEBUG(dbgs() << "None, No Debug value available\n";); setLocKind(LiveSet, Var, LocKind::None); @@ -1448,9 +1557,8 @@ // The previous DebugValue Value can be used here. LLVM_DEBUG(dbgs() << "Val, Debug value is Known\n";); setLocKind(LiveSet, Var, LocKind::Val); - Assignment PrevAV = LiveSet->DebugValue.lookup(Var); - if (PrevAV.Source) { - emitDbgValue(LocKind::Val, PrevAV.Source, &I); + if (DbgAV.Source) { + emitDbgValue(LocKind::Val, DbgAV.Source, &I); } else { // PrevAV.Source is nullptr so we must emit undef here. emitDbgValue(LocKind::None, DAI, &I); @@ -1484,7 +1592,7 @@ // Check if the DebugValue and StackHomeValue both hold the same // Assignment. - if (hasVarWithAssignment(Var, AV, LiveSet->StackHomeValue)) { + if (hasVarWithAssignment(LiveSet, BlockInfo::Stack, Var, AV)) { // They match. We can use the stack home because the debug intrinsics state // that an assignment happened here, and we know that specific assignment // was the last one to take place in memory for this variable. @@ -1601,58 +1709,6 @@ return A == B ? A : LocKind::None; } -AssignmentTrackingLowering::LocMap -AssignmentTrackingLowering::joinLocMap(const LocMap &A, const LocMap &B) { - // Join A and B. - // - // U = join(a, b) for a in A, b in B where Var(a) == Var(b) - // D = join(x, ⊤) for x where Var(x) is in A xor B - // Join = U ∪ D - // - // This is achieved by performing a join on elements from A and B with - // variables common to both A and B (join elements indexed by var intersect), - // then adding LocKind::None elements for vars in A xor B. The latter part is - // equivalent to performing join on elements with variables in A xor B with - // LocKind::None (⊤) since join(x, ⊤) = ⊤. - LocMap Join(std::max(A.size(), B.size())); - SmallVector SymmetricDifference; - // Insert the join of the elements with common vars into Join. Add the - // remaining elements to into SymmetricDifference. - for (const auto &[Var, Loc] : A) { - // If this Var doesn't exist in B then add it to the symmetric difference - // set. - auto R = B.find(Var); - if (R == B.end()) { - SymmetricDifference.push_back(Var); - continue; - } - // There is an entry for Var in both, join it. - Join[Var] = joinKind(Loc, R->second); - } - unsigned IntersectSize = Join.size(); - (void)IntersectSize; - - // Check if A and B contain the same variables. - if (SymmetricDifference.empty() && A.size() == B.size()) - return Join; - - // Add the elements in B with variables that are not in A into - // SymmetricDifference. - for (const auto &Pair : B) { - VariableID Var = Pair.first; - if (A.count(Var) == 0) - SymmetricDifference.push_back(Var); - } - - // Add SymmetricDifference elements to Join and return the result. - for (const auto &Var : SymmetricDifference) - Join.insert({Var, LocKind::None}); - - assert(Join.size() == (IntersectSize + SymmetricDifference.size())); - assert(Join.size() >= A.size() && Join.size() >= B.size()); - return Join; -} - AssignmentTrackingLowering::Assignment AssignmentTrackingLowering::joinAssignment(const Assignment &A, const Assignment &B) { @@ -1695,68 +1751,10 @@ return Assignment::make(A.ID, Source); } -AssignmentTrackingLowering::AssignmentMap -AssignmentTrackingLowering::joinAssignmentMap(const AssignmentMap &A, - const AssignmentMap &B) { - // Join A and B. - // - // U = join(a, b) for a in A, b in B where Var(a) == Var(b) - // D = join(x, ⊤) for x where Var(x) is in A xor B - // Join = U ∪ D - // - // This is achieved by performing a join on elements from A and B with - // variables common to both A and B (join elements indexed by var intersect), - // then adding LocKind::None elements for vars in A xor B. The latter part is - // equivalent to performing join on elements with variables in A xor B with - // Status::NoneOrPhi (⊤) since join(x, ⊤) = ⊤. - AssignmentMap Join(std::max(A.size(), B.size())); - SmallVector SymmetricDifference; - // Insert the join of the elements with common vars into Join. Add the - // remaining elements to into SymmetricDifference. - for (const auto &[Var, AV] : A) { - // If this Var doesn't exist in B then add it to the symmetric difference - // set. - auto R = B.find(Var); - if (R == B.end()) { - SymmetricDifference.push_back(Var); - continue; - } - // There is an entry for Var in both, join it. - Join[Var] = joinAssignment(AV, R->second); - } - unsigned IntersectSize = Join.size(); - (void)IntersectSize; - - // Check if A and B contain the same variables. - if (SymmetricDifference.empty() && A.size() == B.size()) - return Join; - - // Add the elements in B with variables that are not in A into - // SymmetricDifference. - for (const auto &Pair : B) { - VariableID Var = Pair.first; - if (A.count(Var) == 0) - SymmetricDifference.push_back(Var); - } - - // Add SymmetricDifference elements to Join and return the result. - for (auto Var : SymmetricDifference) - Join.insert({Var, Assignment::makeNoneOrPhi()}); - - assert(Join.size() == (IntersectSize + SymmetricDifference.size())); - assert(Join.size() >= A.size() && Join.size() >= B.size()); - return Join; -} - AssignmentTrackingLowering::BlockInfo AssignmentTrackingLowering::joinBlockInfo(const BlockInfo &A, const BlockInfo &B) { - BlockInfo Join; - Join.LiveLoc = joinLocMap(A.LiveLoc, B.LiveLoc); - Join.StackHomeValue = joinAssignmentMap(A.StackHomeValue, B.StackHomeValue); - Join.DebugValue = joinAssignmentMap(A.DebugValue, B.DebugValue); - assert(Join.isValid()); - return Join; + return BlockInfo::join(A, B, TrackedVariablesVectorSize); } bool AssignmentTrackingLowering::join( @@ -1789,6 +1787,9 @@ FirstJoin = false; } + if (FirstJoin) + BBLiveIn.init(TrackedVariablesVectorSize); + auto CurrentLiveInEntry = LiveIn.find(&BB); // Check if there isn't an entry, or there is but the LiveIn set has changed // (expensive check). @@ -1835,7 +1836,13 @@ /// y does not contain all overlaps because partial overlaps are excluded. /// /// While we're iterating over the function, add single location defs for -/// dbg.declares to \p FnVarLocs +/// dbg.declares to \p FnVarLocs. +/// +/// Variables that are interesting to this pass in are added to +/// FnVarLocs->Variables first. TrackedVariablesVectorSize is set to the ID of +/// the last interesting variable plus 1, meaning variables with ID 1 +/// (inclusive) to TrackedVariablesVectorSize (exclusive) are interesting. The +/// subsequent variables are either stack homed or fully promoted. /// /// Finally, populate UntaggedStoreVars with a mapping of untagged stores to /// the stored-to variable fragments. @@ -1844,7 +1851,8 @@ /// to iterate over the function as they can be achieved together in one pass. static AssignmentTrackingLowering::OverlapMap buildOverlapMapAndRecordDeclares( Function &Fn, FunctionVarLocsBuilder *FnVarLocs, - AssignmentTrackingLowering::UntaggedStoreAssignmentMap &UntaggedStoreVars) { + AssignmentTrackingLowering::UntaggedStoreAssignmentMap &UntaggedStoreVars, + unsigned &TrackedVariablesVectorSize) { DenseSet Seen; // Map of Variable: [Fragments]. DenseMap> FragmentMap; @@ -1855,12 +1863,11 @@ // UntaggedStoreVars. // We need to add fragments for untagged stores too so that we can correctly // clobber overlapped fragment locations later. + SmallVector Declares; for (auto &BB : Fn) { for (auto &I : BB) { if (auto *DDI = dyn_cast(&I)) { - FnVarLocs->addSingleLocVar(DebugVariable(DDI), DDI->getExpression(), - DDI->getDebugLoc(), - DDI->getWrappedLocation()); + Declares.push_back(DDI); } else if (auto *DII = dyn_cast(&I)) { DebugVariable DV = DebugVariable(DII); DebugAggregate DA = {DV.getVariable(), DV.getInlinedAt()}; @@ -1935,6 +1942,15 @@ } } + // VariableIDs are 1-based so the variable-tracking bitvector needs + // NumVariables plus 1 bits. + TrackedVariablesVectorSize = FnVarLocs->getNumVariables() + 1; + + // Finally, insert the declares afterwards, so the first IDs are all + // partially stack homed vars. + for (auto *DDI : Declares) + FnVarLocs->addSingleLocVar(DebugVariable(DDI), DDI->getExpression(), + DDI->getDebugLoc(), DDI->getWrappedLocation()); return Map; } @@ -1955,8 +1971,8 @@ // Note that this pass doesn't handle partial overlaps correctly (FWIW // neither does LiveDebugVariables) because that is difficult to do and // appears to be rare occurance. - VarContains = - buildOverlapMapAndRecordDeclares(Fn, FnVarLocs, UntaggedStoreVars); + VarContains = buildOverlapMapAndRecordDeclares( + Fn, FnVarLocs, UntaggedStoreVars, TrackedVariablesVectorSize); // Prepare for traversal. ReversePostOrderTraversal RPOT(&Fn);