forked from OSchip/llvm-project
[LAA] Remove RuntimeCheckingPtrGroup::RtCheck member (NFC).
This patch removes RtCheck from RuntimeCheckingPtrGroup to make it possible to construct RuntimeCheckingPtrGroup objects without a RuntimePointerChecking object. This should make it easier to re-use the code to generate runtime checks, e.g. in D102834. RtCheck was only used to access the pointer info for a given index. Instead, the start and end expressions can be passed directly. For code-gen, we also need to know the address space to use. This can also be explicitly passed at construction. Reviewed By: efriedma Differential Revision: https://reviews.llvm.org/D105481
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@ -341,17 +341,21 @@ struct RuntimeCheckingPtrGroup {
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/// pointer, with index \p Index in RtCheck.
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RuntimeCheckingPtrGroup(unsigned Index, RuntimePointerChecking &RtCheck);
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RuntimeCheckingPtrGroup(unsigned Index, const SCEV *Start, const SCEV *End,
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unsigned AS)
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: High(End), Low(Start), AddressSpace(AS) {
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Members.push_back(Index);
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}
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/// Tries to add the pointer recorded in RtCheck at index
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/// \p Index to this pointer checking group. We can only add a pointer
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/// to a checking group if we will still be able to get
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/// the upper and lower bounds of the check. Returns true in case
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/// of success, false otherwise.
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bool addPointer(unsigned Index);
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bool addPointer(unsigned Index, RuntimePointerChecking &RtCheck);
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bool addPointer(unsigned Index, const SCEV *Start, const SCEV *End,
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unsigned AS, ScalarEvolution &SE);
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/// Constitutes the context of this pointer checking group. For each
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/// pointer that is a member of this group we will retain the index
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/// at which it appears in RtCheck.
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RuntimePointerChecking &RtCheck;
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/// The SCEV expression which represents the upper bound of all the
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/// pointers in this group.
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const SCEV *High;
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@ -360,6 +364,8 @@ struct RuntimeCheckingPtrGroup {
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const SCEV *Low;
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/// Indices of all the pointers that constitute this grouping.
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SmallVector<unsigned, 2> Members;
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/// Address space of the involved pointers.
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unsigned AddressSpace;
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};
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/// A memcheck which made up of a pair of grouped pointers.
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@ -170,8 +170,10 @@ const SCEV *llvm::replaceSymbolicStrideSCEV(PredicatedScalarEvolution &PSE,
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RuntimeCheckingPtrGroup::RuntimeCheckingPtrGroup(
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unsigned Index, RuntimePointerChecking &RtCheck)
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: RtCheck(RtCheck), High(RtCheck.Pointers[Index].End),
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Low(RtCheck.Pointers[Index].Start) {
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: High(RtCheck.Pointers[Index].End), Low(RtCheck.Pointers[Index].Start),
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AddressSpace(RtCheck.Pointers[Index]
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.PointerValue->getType()
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->getPointerAddressSpace()) {
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Members.push_back(Index);
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}
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@ -279,18 +281,28 @@ static const SCEV *getMinFromExprs(const SCEV *I, const SCEV *J,
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return I;
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}
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bool RuntimeCheckingPtrGroup::addPointer(unsigned Index) {
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const SCEV *Start = RtCheck.Pointers[Index].Start;
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const SCEV *End = RtCheck.Pointers[Index].End;
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bool RuntimeCheckingPtrGroup::addPointer(unsigned Index,
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RuntimePointerChecking &RtCheck) {
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return addPointer(
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Index, RtCheck.Pointers[Index].Start, RtCheck.Pointers[Index].End,
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RtCheck.Pointers[Index].PointerValue->getType()->getPointerAddressSpace(),
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*RtCheck.SE);
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}
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bool RuntimeCheckingPtrGroup::addPointer(unsigned Index, const SCEV *Start,
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const SCEV *End, unsigned AS,
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ScalarEvolution &SE) {
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assert(AddressSpace == AS &&
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"all pointers in a checking group must be in the same address space");
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// Compare the starts and ends with the known minimum and maximum
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// of this set. We need to know how we compare against the min/max
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// of the set in order to be able to emit memchecks.
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const SCEV *Min0 = getMinFromExprs(Start, Low, RtCheck.SE);
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const SCEV *Min0 = getMinFromExprs(Start, Low, &SE);
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if (!Min0)
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return false;
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const SCEV *Min1 = getMinFromExprs(End, High, RtCheck.SE);
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const SCEV *Min1 = getMinFromExprs(End, High, &SE);
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if (!Min1)
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return false;
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@ -410,7 +422,7 @@ void RuntimePointerChecking::groupChecks(
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TotalComparisons++;
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if (Group.addPointer(Pointer)) {
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if (Group.addPointer(Pointer, *this)) {
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Merged = true;
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break;
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}
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@ -1524,14 +1524,8 @@ struct PointerBounds {
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static PointerBounds expandBounds(const RuntimeCheckingPtrGroup *CG,
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Loop *TheLoop, Instruction *Loc,
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SCEVExpander &Exp) {
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// TODO: Add helper to retrieve pointers to CG.
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Value *Ptr = CG->RtCheck.Pointers[CG->Members[0]].PointerValue;
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unsigned AS = Ptr->getType()->getPointerAddressSpace();
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LLVMContext &Ctx = Loc->getContext();
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// Use this type for pointer arithmetic.
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Type *PtrArithTy = Type::getInt8PtrTy(Ctx, AS);
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Type *PtrArithTy = Type::getInt8PtrTy(Ctx, CG->AddressSpace);
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Value *Start = nullptr, *End = nullptr;
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LLVM_DEBUG(dbgs() << "LAA: Adding RT check for range:\n");
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