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//===- llvm/PassAnalysisSupport.h - Analysis Pass Support code --*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file defines stuff that is used to define and "use" Analysis Passes. // This file is automatically #included by Pass.h, so: // // NO .CPP FILES SHOULD INCLUDE THIS FILE DIRECTLY // // Instead, #include Pass.h // //===----------------------------------------------------------------------===// #ifndef LLVM_PASS_ANALYSIS_SUPPORT_H #define LLVM_PASS_ANALYSIS_SUPPORT_H #include "llvm/Pass.h" #include "llvm/ADT/SmallVector.h" #include "llvm/ADT/StringRef.h" #include <vector> namespace llvm { //===----------------------------------------------------------------------===// // AnalysisUsage - Represent the analysis usage information of a pass. This // tracks analyses that the pass REQUIRES (must be available when the pass // runs), REQUIRES TRANSITIVE (must be available throughout the lifetime of the // pass), and analyses that the pass PRESERVES (the pass does not invalidate the // results of these analyses). This information is provided by a pass to the // Pass infrastructure through the getAnalysisUsage virtual function. // class AnalysisUsage { public: typedef SmallVector<AnalysisID, 32> VectorType; private: // Sets of analyses required and preserved by a pass VectorType Required, RequiredTransitive, Preserved; bool PreservesAll; public: AnalysisUsage() : PreservesAll(false) {} // addRequired - Add the specified ID to the required set of the usage info // for a pass. // AnalysisUsage &addRequiredID(const void *ID); AnalysisUsage &addRequiredID(char &ID); template<class PassClass> AnalysisUsage &addRequired() { return addRequiredID(PassClass::ID); } AnalysisUsage &addRequiredTransitiveID(char &ID); template<class PassClass> AnalysisUsage &addRequiredTransitive() { return addRequiredTransitiveID(PassClass::ID); } // addPreserved - Add the specified ID to the set of analyses preserved by // this pass // AnalysisUsage &addPreservedID(const void *ID) { Preserved.push_back(ID); return *this; } AnalysisUsage &addPreservedID(char &ID) { Preserved.push_back(&ID); return *this; } // addPreserved - Add the specified Pass class to the set of analyses // preserved by this pass. // template<class PassClass> AnalysisUsage &addPreserved() { Preserved.push_back(&PassClass::ID); return *this; } // addPreserved - Add the Pass with the specified argument string to the set // of analyses preserved by this pass. If no such Pass exists, do nothing. // This can be useful when a pass is trivially preserved, but may not be // linked in. Be careful about spelling! // AnalysisUsage &addPreserved(StringRef Arg); // setPreservesAll - Set by analyses that do not transform their input at all void setPreservesAll() { PreservesAll = true; } bool getPreservesAll() const { return PreservesAll; } /// setPreservesCFG - This function should be called by the pass, iff they do /// not: /// /// 1. Add or remove basic blocks from the function /// 2. Modify terminator instructions in any way. /// /// This function annotates the AnalysisUsage info object to say that analyses /// that only depend on the CFG are preserved by this pass. /// void setPreservesCFG(); const VectorType &getRequiredSet() const { return Required; } const VectorType &getRequiredTransitiveSet() const { return RequiredTransitive; } const VectorType &getPreservedSet() const { return Preserved; } }; //===----------------------------------------------------------------------===// // AnalysisResolver - Simple interface used by Pass objects to pull all // analysis information out of pass manager that is responsible to manage // the pass. // class PMDataManager; class AnalysisResolver { private: AnalysisResolver(); // DO NOT IMPLEMENT public: explicit AnalysisResolver(PMDataManager &P) : PM(P) { } inline PMDataManager &getPMDataManager() { return PM; } // Find pass that is implementing PI. Pass *findImplPass(AnalysisID PI) { Pass *ResultPass = 0; for (unsigned i = 0; i < AnalysisImpls.size() ; ++i) { if (AnalysisImpls[i].first == PI) { ResultPass = AnalysisImpls[i].second; break; } } return ResultPass; } // Find pass that is implementing PI. Initialize pass for Function F. Pass *findImplPass(Pass *P, AnalysisID PI, Function &F); void addAnalysisImplsPair(AnalysisID PI, Pass *P) { if (findImplPass(PI) == P) return; std::pair<AnalysisID, Pass*> pir = std::make_pair(PI,P); AnalysisImpls.push_back(pir); } /// clearAnalysisImpls - Clear cache that is used to connect a pass to the /// the analysis (PassInfo). void clearAnalysisImpls() { AnalysisImpls.clear(); } // getAnalysisIfAvailable - Return analysis result or null if it doesn't exist Pass *getAnalysisIfAvailable(AnalysisID ID, bool Direction) const; private: // AnalysisImpls - This keeps track of which passes implements the interfaces // that are required by the current pass (to implement getAnalysis()). std::vector<std::pair<AnalysisID, Pass*> > AnalysisImpls; // PassManager that is used to resolve analysis info PMDataManager &PM; }; /// getAnalysisIfAvailable<AnalysisType>() - Subclasses use this function to /// get analysis information that might be around, for example to update it. /// This is different than getAnalysis in that it can fail (if the analysis /// results haven't been computed), so should only be used if you can handle /// the case when the analysis is not available. This method is often used by /// transformation APIs to update analysis results for a pass automatically as /// the transform is performed. /// template<typename AnalysisType> AnalysisType *Pass::getAnalysisIfAvailable() const { assert(Resolver && "Pass not resident in a PassManager object!"); const void *PI = &AnalysisType::ID; Pass *ResultPass = Resolver->getAnalysisIfAvailable(PI, true); if (ResultPass == 0) return 0; // Because the AnalysisType may not be a subclass of pass (for // AnalysisGroups), we use getAdjustedAnalysisPointer here to potentially // adjust the return pointer (because the class may multiply inherit, once // from pass, once from AnalysisType). return (AnalysisType*)ResultPass->getAdjustedAnalysisPointer(PI); } /// getAnalysis<AnalysisType>() - This function is used by subclasses to get /// to the analysis information that they claim to use by overriding the /// getAnalysisUsage function. /// template<typename AnalysisType> AnalysisType &Pass::getAnalysis() const { assert(Resolver && "Pass has not been inserted into a PassManager object!"); return getAnalysisID<AnalysisType>(&AnalysisType::ID); } template<typename AnalysisType> AnalysisType &Pass::getAnalysisID(AnalysisID PI) const { assert(PI && "getAnalysis for unregistered pass!"); assert(Resolver&&"Pass has not been inserted into a PassManager object!"); // PI *must* appear in AnalysisImpls. Because the number of passes used // should be a small number, we just do a linear search over a (dense) // vector. Pass *ResultPass = Resolver->findImplPass(PI); assert (ResultPass && "getAnalysis*() called on an analysis that was not " "'required' by pass!"); // Because the AnalysisType may not be a subclass of pass (for // AnalysisGroups), we use getAdjustedAnalysisPointer here to potentially // adjust the return pointer (because the class may multiply inherit, once // from pass, once from AnalysisType). return *(AnalysisType*)ResultPass->getAdjustedAnalysisPointer(PI); } /// getAnalysis<AnalysisType>() - This function is used by subclasses to get /// to the analysis information that they claim to use by overriding the /// getAnalysisUsage function. /// template<typename AnalysisType> AnalysisType &Pass::getAnalysis(Function &F) { assert(Resolver &&"Pass has not been inserted into a PassManager object!"); return getAnalysisID<AnalysisType>(&AnalysisType::ID, F); } template<typename AnalysisType> AnalysisType &Pass::getAnalysisID(AnalysisID PI, Function &F) { assert(PI && "getAnalysis for unregistered pass!"); assert(Resolver && "Pass has not been inserted into a PassManager object!"); // PI *must* appear in AnalysisImpls. Because the number of passes used // should be a small number, we just do a linear search over a (dense) // vector. Pass *ResultPass = Resolver->findImplPass(this, PI, F); assert(ResultPass && "Unable to find requested analysis info"); // Because the AnalysisType may not be a subclass of pass (for // AnalysisGroups), we use getAdjustedAnalysisPointer here to potentially // adjust the return pointer (because the class may multiply inherit, once // from pass, once from AnalysisType). return *(AnalysisType*)ResultPass->getAdjustedAnalysisPointer(PI); } } // End llvm namespace #endif