+ RuntimePointerChecking(ScalarEvolution *SE) : Need(false), SE(SE) {}
+
+ /// Reset the state of the pointer runtime information.
+ void reset() {
+ Need = false;
+ Pointers.clear();
+ }
+
+ /// Insert a pointer and calculate the start and end SCEVs.
+ void insert(Loop *Lp, Value *Ptr, bool WritePtr, unsigned DepSetId,
+ unsigned ASId, const ValueToValueMap &Strides);
+
+ /// \brief No run-time memory checking is necessary.
+ bool empty() const { return Pointers.empty(); }
+
+ /// A grouping of pointers. A single memcheck is required between
+ /// two groups.
+ struct CheckingPtrGroup {
+ /// \brief Create a new pointer checking group containing a single
+ /// pointer, with index \p Index in RtCheck.
+ CheckingPtrGroup(unsigned Index, RuntimePointerChecking &RtCheck)
+ : RtCheck(RtCheck), High(RtCheck.Pointers[Index].End),
+ Low(RtCheck.Pointers[Index].Start) {
+ Members.push_back(Index);
+ }
+
+ /// \brief Tries to add the pointer recorded in RtCheck at index
+ /// \p Index to this pointer checking group. We can only add a pointer
+ /// to a checking group if we will still be able to get
+ /// the upper and lower bounds of the check. Returns true in case
+ /// of success, false otherwise.
+ bool addPointer(unsigned Index);
+
+ /// Constitutes the context of this pointer checking group. For each
+ /// pointer that is a member of this group we will retain the index
+ /// at which it appears in RtCheck.
+ RuntimePointerChecking &RtCheck;
+ /// The SCEV expression which represents the upper bound of all the
+ /// pointers in this group.
+ const SCEV *High;
+ /// The SCEV expression which represents the lower bound of all the
+ /// pointers in this group.
+ const SCEV *Low;
+ /// Indices of all the pointers that constitute this grouping.
+ SmallVector<unsigned, 2> Members;
+ };
+
+ /// \brief Groups pointers such that a single memcheck is required
+ /// between two different groups. This will clear the CheckingGroups vector
+ /// and re-compute it. We will only group dependecies if \p UseDependencies
+ /// is true, otherwise we will create a separate group for each pointer.
+ void groupChecks(MemoryDepChecker::DepCandidates &DepCands,
+ bool UseDependencies);
+
+ /// \brief Decide if we need to add a check between two groups of pointers,
+ /// according to needsChecking.
+ bool needsChecking(const CheckingPtrGroup &M, const CheckingPtrGroup &N,
+ const SmallVectorImpl<int> *PtrPartition) const;
+
+ /// \brief Return true if any pointer requires run-time checking according
+ /// to needsChecking.
+ bool needsAnyChecking(const SmallVectorImpl<int> *PtrPartition) const;
+
+ /// \brief Returns the number of run-time checks required according to
+ /// needsChecking.
+ unsigned getNumberOfChecks(const SmallVectorImpl<int> *PtrPartition) const;
+
+ /// \brief Print the list run-time memory checks necessary.
+ ///
+ /// If \p PtrPartition is set, it contains the partition number for
+ /// pointers (-1 if the pointer belongs to multiple partitions). In this
+ /// case omit checks between pointers belonging to the same partition.
+ void print(raw_ostream &OS, unsigned Depth = 0,
+ const SmallVectorImpl<int> *PtrPartition = nullptr) const;
+
+ /// This flag indicates if we need to add the runtime check.
+ bool Need;
+
+ /// Information about the pointers that may require checking.
+ SmallVector<PointerInfo, 2> Pointers;
+
+ /// Holds a partitioning of pointers into "check groups".
+ SmallVector<CheckingPtrGroup, 2> CheckingGroups;
+
+ /// \brief Check if pointers are in the same partition
+ ///
+ /// \p PtrToPartition contains the partition number for pointers (-1 if the
+ /// pointer belongs to multiple partitions).
+ static bool
+ arePointersInSamePartition(const SmallVectorImpl<int> &PtrToPartition,
+ unsigned PtrIdx1, unsigned PtrIdx2);
+
+private:
+ /// \brief Decide whether we need to issue a run-time check for pointer at
+ /// index \p I and \p J to prove their independence.
+ ///
+ /// If \p PtrPartition is set, it contains the partition number for
+ /// pointers (-1 if the pointer belongs to multiple partitions). In this
+ /// case omit checks between pointers belonging to the same partition.
+ bool needsChecking(unsigned I, unsigned J,
+ const SmallVectorImpl<int> *PtrPartition) const;
+
+ /// Holds a pointer to the ScalarEvolution analysis.
+ ScalarEvolution *SE;
+};
+
+/// \brief Drive the analysis of memory accesses in the loop
+///
+/// This class is responsible for analyzing the memory accesses of a loop. It
+/// collects the accesses and then its main helper the AccessAnalysis class
+/// finds and categorizes the dependences in buildDependenceSets.
+///
+/// For memory dependences that can be analyzed at compile time, it determines
+/// whether the dependence is part of cycle inhibiting vectorization. This work
+/// is delegated to the MemoryDepChecker class.
+///
+/// For memory dependences that cannot be determined at compile time, it
+/// generates run-time checks to prove independence. This is done by
+/// AccessAnalysis::canCheckPtrAtRT and the checks are maintained by the
+/// RuntimePointerCheck class.
+class LoopAccessInfo {
+public:
+ LoopAccessInfo(Loop *L, ScalarEvolution *SE, const DataLayout &DL,
+ const TargetLibraryInfo *TLI, AliasAnalysis *AA,
+ DominatorTree *DT, LoopInfo *LI,
+ const ValueToValueMap &Strides);