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git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@11286 91177308-0d34-0410-b5e6-96231b3b80d8
179 lines
7.6 KiB
C++
179 lines
7.6 KiB
C++
//===- llvm/Analysis/AliasAnalysis.h - Alias Analysis Interface -*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file was developed by the LLVM research group and is distributed under
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// the University of Illinois Open Source License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file defines the generic AliasAnalysis interface, which is used as the
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// common interface used by all clients of alias analysis information, and
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// implemented by all alias analysis implementations. Mod/Ref information is
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// also captured by this interface.
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//
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// Implementations of this interface must implement the various virtual methods,
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// which automatically provides functionality for the entire suite of client
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// APIs.
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//
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// This API represents memory as a (Pointer, Size) pair. The Pointer component
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// specifies the base memory address of the region, the Size specifies how large
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// of an area is being queried. If Size is 0, two pointers only alias if they
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// are exactly equal. If size is greater than zero, but small, the two pointers
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// alias if the areas pointed to overlap. If the size is very large (ie, ~0U),
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// then the two pointers alias if they may be pointing to components of the same
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// memory object. Pointers that point to two completely different objects in
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// memory never alias, regardless of the value of the Size component.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_ANALYSIS_ALIAS_ANALYSIS_H
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#define LLVM_ANALYSIS_ALIAS_ANALYSIS_H
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#include "llvm/Support/CallSite.h"
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#include "llvm/Pass.h" // Need this for IncludeFile
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namespace llvm {
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class LoadInst;
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class StoreInst;
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class TargetData;
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class AliasAnalysis {
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const TargetData *TD;
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protected:
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/// InitializeAliasAnalysis - Subclasses must call this method to initialize
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/// the AliasAnalysis interface before any other methods are called. This is
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/// typically called by the run* methods of these subclasses. This may be
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/// called multiple times.
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///
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void InitializeAliasAnalysis(Pass *P);
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// getAnalysisUsage - All alias analysis implementations should invoke this
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// directly (using AliasAnalysis::getAnalysisUsage(AU)) to make sure that
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// TargetData is required by the pass.
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virtual void getAnalysisUsage(AnalysisUsage &AU) const;
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public:
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AliasAnalysis() : TD(0) {}
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virtual ~AliasAnalysis(); // We want to be subclassed
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/// getTargetData - Every alias analysis implementation depends on the size of
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/// data items in the current Target. This provides a uniform way to handle
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/// it.
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const TargetData &getTargetData() const { return *TD; }
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//===--------------------------------------------------------------------===//
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/// Alias Queries...
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///
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/// Alias analysis result - Either we know for sure that it does not alias, we
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/// know for sure it must alias, or we don't know anything: The two pointers
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/// _might_ alias. This enum is designed so you can do things like:
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/// if (AA.alias(P1, P2)) { ... }
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/// to check to see if two pointers might alias.
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///
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enum AliasResult { NoAlias = 0, MayAlias = 1, MustAlias = 2 };
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/// alias - The main low level interface to the alias analysis implementation.
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/// Returns a Result indicating whether the two pointers are aliased to each
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/// other. This is the interface that must be implemented by specific alias
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/// analysis implementations.
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///
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virtual AliasResult alias(const Value *V1, unsigned V1Size,
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const Value *V2, unsigned V2Size) {
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return MayAlias;
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}
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/// getMustAliases - If there are any pointers known that must alias this
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/// pointer, return them now. This allows alias-set based alias analyses to
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/// perform a form a value numbering (which is exposed by load-vn). If an
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/// alias analysis supports this, it should ADD any must aliased pointers to
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/// the specified vector.
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///
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virtual void getMustAliases(Value *P, std::vector<Value*> &RetVals) {}
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/// pointsToConstantMemory - If the specified pointer is known to point into
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/// constant global memory, return true. This allows disambiguation of store
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/// instructions from constant pointers.
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///
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virtual bool pointsToConstantMemory(const Value *P) { return false; }
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//===--------------------------------------------------------------------===//
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/// Simple mod/ref information...
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///
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/// ModRefResult - Represent the result of a mod/ref query. Mod and Ref are
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/// bits which may be or'd together.
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///
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enum ModRefResult { NoModRef = 0, Ref = 1, Mod = 2, ModRef = 3 };
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/// getModRefInfo - Return information about whether or not an instruction may
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/// read or write memory specified by the pointer operand. An instruction
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/// that doesn't read or write memory may be trivially LICM'd for example.
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/// getModRefInfo (for call sites) - Return whether information about whether
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/// a particular call site modifies or reads the memory specified by the
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/// pointer.
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///
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virtual ModRefResult getModRefInfo(CallSite CS, Value *P, unsigned Size) {
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// If P points to a constant memory location, the call definitely could not
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// modify the memory location.
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return pointsToConstantMemory(P) ? Ref : ModRef;
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}
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/// getModRefInfo - Return information about whether two call sites may refer
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/// to the same set of memory locations. This function returns NoModRef if
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/// the two calls refer to disjoint memory locations, Ref if they both read
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/// some of the same memory, Mod if they both write to some of the same
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/// memory, and ModRef if they read and write to the same memory.
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///
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virtual ModRefResult getModRefInfo(CallSite CS1, CallSite CS2) {
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return ModRef;
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}
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/// Convenience functions...
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ModRefResult getModRefInfo(LoadInst *L, Value *P, unsigned Size);
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ModRefResult getModRefInfo(StoreInst*S, Value *P, unsigned Size);
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ModRefResult getModRefInfo(CallInst *C, Value *P, unsigned Size) {
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return getModRefInfo(CallSite(C), P, Size);
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}
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ModRefResult getModRefInfo(InvokeInst*I, Value *P, unsigned Size) {
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return getModRefInfo(CallSite(I), P, Size);
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}
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ModRefResult getModRefInfo(Instruction *I, Value *P, unsigned Size) {
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switch (I->getOpcode()) {
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case Instruction::Load: return getModRefInfo((LoadInst*)I, P, Size);
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case Instruction::Store: return getModRefInfo((StoreInst*)I, P, Size);
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case Instruction::Call: return getModRefInfo((CallInst*)I, P, Size);
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case Instruction::Invoke: return getModRefInfo((InvokeInst*)I, P, Size);
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default: return NoModRef;
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}
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}
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/// canBasicBlockModify - Return true if it is possible for execution of the
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/// specified basic block to modify the value pointed to by Ptr.
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///
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bool canBasicBlockModify(const BasicBlock &BB, const Value *P, unsigned Size);
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/// canInstructionRangeModify - Return true if it is possible for the
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/// execution of the specified instructions to modify the value pointed to by
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/// Ptr. The instructions to consider are all of the instructions in the
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/// range of [I1,I2] INCLUSIVE. I1 and I2 must be in the same basic block.
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///
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bool canInstructionRangeModify(const Instruction &I1, const Instruction &I2,
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const Value *Ptr, unsigned Size);
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};
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// Because of the way .a files work, we must force the BasicAA implementation to
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// be pulled in if the AliasAnalysis header is included. Otherwise we run
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// the risk of AliasAnalysis being used, but the default implementation not
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// being linked into the tool that uses it.
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//
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extern void BasicAAStub();
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static IncludeFile HDR_INCLUDE_BASICAA_CPP((void*)&BasicAAStub);
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} // End llvm namespace
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#endif
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