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      1 //===- PHITransAddr.h - PHI Translation for Addresses -----------*- C++ -*-===//
      2 //
      3 //                     The LLVM Compiler Infrastructure
      4 //
      5 // This file is distributed under the University of Illinois Open Source
      6 // License. See LICENSE.TXT for details.
      7 //
      8 //===----------------------------------------------------------------------===//
      9 //
     10 // This file declares the PHITransAddr class.
     11 //
     12 //===----------------------------------------------------------------------===//
     13 
     14 #ifndef LLVM_ANALYSIS_PHITRANSADDR_H
     15 #define LLVM_ANALYSIS_PHITRANSADDR_H
     16 
     17 #include "llvm/ADT/SmallVector.h"
     18 #include "llvm/IR/Instruction.h"
     19 
     20 namespace llvm {
     21   class DominatorTree;
     22   class DataLayout;
     23   class TargetLibraryInfo;
     24 
     25 /// PHITransAddr - An address value which tracks and handles phi translation.
     26 /// As we walk "up" the CFG through predecessors, we need to ensure that the
     27 /// address we're tracking is kept up to date.  For example, if we're analyzing
     28 /// an address of "&A[i]" and walk through the definition of 'i' which is a PHI
     29 /// node, we *must* phi translate i to get "&A[j]" or else we will analyze an
     30 /// incorrect pointer in the predecessor block.
     31 ///
     32 /// This is designed to be a relatively small object that lives on the stack and
     33 /// is copyable.
     34 ///
     35 class PHITransAddr {
     36   /// Addr - The actual address we're analyzing.
     37   Value *Addr;
     38 
     39   /// TD - The target data we are playing with if known, otherwise null.
     40   const DataLayout *TD;
     41 
     42   /// TLI - The target library info if known, otherwise null.
     43   const TargetLibraryInfo *TLI;
     44 
     45   /// InstInputs - The inputs for our symbolic address.
     46   SmallVector<Instruction*, 4> InstInputs;
     47 public:
     48   PHITransAddr(Value *addr, const DataLayout *td) : Addr(addr), TD(td), TLI(0) {
     49     // If the address is an instruction, the whole thing is considered an input.
     50     if (Instruction *I = dyn_cast<Instruction>(Addr))
     51       InstInputs.push_back(I);
     52   }
     53 
     54   Value *getAddr() const { return Addr; }
     55 
     56   /// NeedsPHITranslationFromBlock - Return true if moving from the specified
     57   /// BasicBlock to its predecessors requires PHI translation.
     58   bool NeedsPHITranslationFromBlock(BasicBlock *BB) const {
     59     // We do need translation if one of our input instructions is defined in
     60     // this block.
     61     for (unsigned i = 0, e = InstInputs.size(); i != e; ++i)
     62       if (InstInputs[i]->getParent() == BB)
     63         return true;
     64     return false;
     65   }
     66 
     67   /// IsPotentiallyPHITranslatable - If this needs PHI translation, return true
     68   /// if we have some hope of doing it.  This should be used as a filter to
     69   /// avoid calling PHITranslateValue in hopeless situations.
     70   bool IsPotentiallyPHITranslatable() const;
     71 
     72   /// PHITranslateValue - PHI translate the current address up the CFG from
     73   /// CurBB to Pred, updating our state to reflect any needed changes.  If the
     74   /// dominator tree DT is non-null, the translated value must dominate
     75   /// PredBB.  This returns true on failure and sets Addr to null.
     76   bool PHITranslateValue(BasicBlock *CurBB, BasicBlock *PredBB,
     77                          const DominatorTree *DT);
     78 
     79   /// PHITranslateWithInsertion - PHI translate this value into the specified
     80   /// predecessor block, inserting a computation of the value if it is
     81   /// unavailable.
     82   ///
     83   /// All newly created instructions are added to the NewInsts list.  This
     84   /// returns null on failure.
     85   ///
     86   Value *PHITranslateWithInsertion(BasicBlock *CurBB, BasicBlock *PredBB,
     87                                    const DominatorTree &DT,
     88                                    SmallVectorImpl<Instruction*> &NewInsts);
     89 
     90   void dump() const;
     91 
     92   /// Verify - Check internal consistency of this data structure.  If the
     93   /// structure is valid, it returns true.  If invalid, it prints errors and
     94   /// returns false.
     95   bool Verify() const;
     96 private:
     97   Value *PHITranslateSubExpr(Value *V, BasicBlock *CurBB, BasicBlock *PredBB,
     98                              const DominatorTree *DT);
     99 
    100   /// InsertPHITranslatedSubExpr - Insert a computation of the PHI translated
    101   /// version of 'V' for the edge PredBB->CurBB into the end of the PredBB
    102   /// block.  All newly created instructions are added to the NewInsts list.
    103   /// This returns null on failure.
    104   ///
    105   Value *InsertPHITranslatedSubExpr(Value *InVal, BasicBlock *CurBB,
    106                                     BasicBlock *PredBB, const DominatorTree &DT,
    107                                     SmallVectorImpl<Instruction*> &NewInsts);
    108 
    109   /// AddAsInput - If the specified value is an instruction, add it as an input.
    110   Value *AddAsInput(Value *V) {
    111     // If V is an instruction, it is now an input.
    112     if (Instruction *VI = dyn_cast<Instruction>(V))
    113       InstInputs.push_back(VI);
    114     return V;
    115   }
    116 
    117 };
    118 
    119 } // end namespace llvm
    120 
    121 #endif
    122