#ifndef LLVM_ANALYSIS_PHITRANSADDR_H
#define LLVM_ANALYSIS_PHITRANSADDR_H
-#include "llvm/Instruction.h"
#include "llvm/ADT/SmallVector.h"
+#include "llvm/IR/Instruction.h"
namespace llvm {
+ class AssumptionCache;
class DominatorTree;
- class TargetData;
+ class DataLayout;
class TargetLibraryInfo;
/// PHITransAddr - An address value which tracks and handles phi translation.
class PHITransAddr {
/// Addr - The actual address we're analyzing.
Value *Addr;
-
- /// TD - The target data we are playing with if known, otherwise null.
- const TargetData *TD;
+
+ /// The DataLayout we are playing with.
+ const DataLayout &DL;
/// TLI - The target library info if known, otherwise null.
const TargetLibraryInfo *TLI;
-
+
+ /// A cache of @llvm.assume calls used by SimplifyInstruction.
+ AssumptionCache *AC;
+
/// InstInputs - The inputs for our symbolic address.
SmallVector<Instruction*, 4> InstInputs;
+
public:
- PHITransAddr(Value *addr, const TargetData *td) : Addr(addr), TD(td), TLI(0) {
+ PHITransAddr(Value *addr, const DataLayout &DL, AssumptionCache *AC)
+ : Addr(addr), DL(DL), TLI(nullptr), AC(AC) {
// If the address is an instruction, the whole thing is considered an input.
if (Instruction *I = dyn_cast<Instruction>(Addr))
InstInputs.push_back(I);
}
-
+
Value *getAddr() const { return Addr; }
-
+
/// NeedsPHITranslationFromBlock - Return true if moving from the specified
/// BasicBlock to its predecessors requires PHI translation.
bool NeedsPHITranslationFromBlock(BasicBlock *BB) const {
return true;
return false;
}
-
+
/// IsPotentiallyPHITranslatable - If this needs PHI translation, return true
/// if we have some hope of doing it. This should be used as a filter to
/// avoid calling PHITranslateValue in hopeless situations.
bool IsPotentiallyPHITranslatable() const;
-
+
/// PHITranslateValue - PHI translate the current address up the CFG from
- /// CurBB to Pred, updating our state to reflect any needed changes. If the
- /// dominator tree DT is non-null, the translated value must dominate
+ /// CurBB to Pred, updating our state to reflect any needed changes. If
+ /// 'MustDominate' is true, the translated value must dominate
/// PredBB. This returns true on failure and sets Addr to null.
bool PHITranslateValue(BasicBlock *CurBB, BasicBlock *PredBB,
- const DominatorTree *DT);
-
+ const DominatorTree *DT, bool MustDominate);
+
/// PHITranslateWithInsertion - PHI translate this value into the specified
/// predecessor block, inserting a computation of the value if it is
/// unavailable.
///
Value *PHITranslateWithInsertion(BasicBlock *CurBB, BasicBlock *PredBB,
const DominatorTree &DT,
- SmallVectorImpl<Instruction*> &NewInsts);
-
+ SmallVectorImpl<Instruction *> &NewInsts);
+
void dump() const;
-
+
/// Verify - Check internal consistency of this data structure. If the
/// structure is valid, it returns true. If invalid, it prints errors and
/// returns false.
bool Verify() const;
+
private:
Value *PHITranslateSubExpr(Value *V, BasicBlock *CurBB, BasicBlock *PredBB,
const DominatorTree *DT);
-
+
/// InsertPHITranslatedSubExpr - Insert a computation of the PHI translated
/// version of 'V' for the edge PredBB->CurBB into the end of the PredBB
/// block. All newly created instructions are added to the NewInsts list.
///
Value *InsertPHITranslatedSubExpr(Value *InVal, BasicBlock *CurBB,
BasicBlock *PredBB, const DominatorTree &DT,
- SmallVectorImpl<Instruction*> &NewInsts);
-
+ SmallVectorImpl<Instruction *> &NewInsts);
+
/// AddAsInput - If the specified value is an instruction, add it as an input.
Value *AddAsInput(Value *V) {
// If V is an instruction, it is now an input.
InstInputs.push_back(VI);
return V;
}
-
};
} // end namespace llvm
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