//===- polly/PolyhedralInfo.h - PolyhedralInfo class definition -*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// /// /// This file contains the declaration of the PolyhedralInfo class, which will /// provide an interface to expose polyhedral analysis information of Polly. /// /// This is work in progress. We will add more API's as and when deemed /// required. //===----------------------------------------------------------------------===/// #ifndef POLLY_POLYHEDRAL_INFO_H #define POLLY_POLYHEDRAL_INFO_H #include "llvm/Pass.h" #include "isl/ctx.h" #include "isl/union_map.h" namespace llvm { class Loop; } // namespace llvm namespace polly { class Scop; class ScopInfo; class DependenceInfoWrapperPass; class PolyhedralInfo : public llvm::FunctionPass { public: static char ID; // Pass identification, replacement for typeid /// Construct a new PolyhedralInfo pass. PolyhedralInfo() : FunctionPass(ID) {} ~PolyhedralInfo() {} /// Check if a given loop is parallel. /// /// @param L The loop. /// /// @return Returns true, if loop is parallel false otherwise. bool isParallel(llvm::Loop *L) const; /// Return the SCoP containing the @p L loop. /// /// @param L The loop. /// /// @return Returns the SCoP containing the given loop. /// Returns null if the loop is not contained in any SCoP. const Scop *getScopContainingLoop(llvm::Loop *L) const; /// Computes the partial schedule for the given @p L loop. /// /// @param S The SCoP containing the given loop /// @param L The loop. /// /// @return Returns the partial schedule for the given loop __isl_give isl_union_map *getScheduleForLoop(const Scop *S, llvm::Loop *L) const; /// Get the SCoP and dependence analysis information for @p F. bool runOnFunction(llvm::Function &F) override; /// Release the internal memory. void releaseMemory() override {} /// Print to @p OS if each dimension of a loop nest is parallel or not. void print(llvm::raw_ostream &OS, const llvm::Module *M = nullptr) const override; /// Register all analyses and transformation required. void getAnalysisUsage(llvm::AnalysisUsage &AU) const override; private: /// Check if a given loop is parallel or vectorizable. /// /// @param L The loop. /// @param MinDepDistPtr If not nullptr, the minimal dependence distance will /// be returned at the address of that pointer /// /// @return Returns true if loop is parallel or vectorizable, false /// otherwise. bool checkParallel(llvm::Loop *L, __isl_give isl_pw_aff **MinDepDistPtr = nullptr) const; ScopInfo *SI; DependenceInfoWrapperPass *DI; }; } // end namespace polly namespace llvm { class PassRegistry; void initializePolyhedralInfoPass(llvm::PassRegistry &); } // namespace llvm #endif