// BlkExprDeclBitVector.h - Dataflow types for Bitvector Analysis --*- C++ --*-- // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file provides definition of dataflow types used by analyses such // as LiveVariables and UninitializedValues. The underlying dataflow values // are implemented as bitvectors, but the definitions in this file include // the necessary boilerplate to use with our dataflow framework. // //===----------------------------------------------------------------------===// #ifndef LLVM_CLANG_STMTDECLBVDVAL_H #define LLVM_CLANG_STMTDECLBVDVAL_H #include "clang/Analysis/CFG.h" #include "clang/AST/Decl.h" // for Decl* -> NamedDecl* conversion #include "llvm/ADT/BitVector.h" #include "llvm/ADT/DenseMap.h" namespace clang { class Stmt; class ASTContext; struct DeclBitVector_Types { class Idx { unsigned I; public: explicit Idx(unsigned i) : I(i) {} Idx() : I(~0U) {} bool isValid() const { return I != ~0U; } operator unsigned() const { assert (isValid()); return I; } }; //===--------------------------------------------------------------------===// // AnalysisDataTy - Whole-function meta data. //===--------------------------------------------------------------------===// class AnalysisDataTy { public: typedef llvm::DenseMap DMapTy; typedef DMapTy::const_iterator decl_iterator; protected: DMapTy DMap; unsigned NDecls; public: AnalysisDataTy() : NDecls(0) {} virtual ~AnalysisDataTy() {} bool isTracked(const NamedDecl* SD) { return DMap.find(SD) != DMap.end(); } Idx getIdx(const NamedDecl* SD) const { DMapTy::const_iterator I = DMap.find(SD); return I == DMap.end() ? Idx() : Idx(I->second); } unsigned getNumDecls() const { return NDecls; } void Register(const NamedDecl* SD) { if (!isTracked(SD)) DMap[SD] = NDecls++; } decl_iterator begin_decl() const { return DMap.begin(); } decl_iterator end_decl() const { return DMap.end(); } }; //===--------------------------------------------------------------------===// // ValTy - Dataflow value. //===--------------------------------------------------------------------===// class ValTy { llvm::BitVector DeclBV; public: void resetDeclValues(AnalysisDataTy& AD) { DeclBV.resize(AD.getNumDecls()); DeclBV.reset(); } void setDeclValues(AnalysisDataTy& AD) { DeclBV.resize(AD.getNumDecls()); DeclBV.set(); } void resetValues(AnalysisDataTy& AD) { resetDeclValues(AD); } bool operator==(const ValTy& RHS) const { assert (sizesEqual(RHS)); return DeclBV == RHS.DeclBV; } void copyValues(const ValTy& RHS) { DeclBV = RHS.DeclBV; } llvm::BitVector::reference getBit(unsigned i) { return DeclBV[i]; } bool getBit(unsigned i) const { return DeclBV[i]; } llvm::BitVector::reference operator()(const NamedDecl* ND, const AnalysisDataTy& AD) { return getBit(AD.getIdx(ND)); } bool operator()(const NamedDecl* ND, const AnalysisDataTy& AD) const { return getBit(AD.getIdx(ND)); } llvm::BitVector::reference getDeclBit(unsigned i) { return DeclBV[i]; } const llvm::BitVector::reference getDeclBit(unsigned i) const { return const_cast(DeclBV)[i]; } ValTy& operator|=(const ValTy& RHS) { assert (sizesEqual(RHS)); DeclBV |= RHS.DeclBV; return *this; } ValTy& operator&=(const ValTy& RHS) { assert (sizesEqual(RHS)); DeclBV &= RHS.DeclBV; return *this; } ValTy& OrDeclBits(const ValTy& RHS) { return operator|=(RHS); } ValTy& AndDeclBits(const ValTy& RHS) { return operator&=(RHS); } bool sizesEqual(const ValTy& RHS) const { return DeclBV.size() == RHS.DeclBV.size(); } }; //===--------------------------------------------------------------------===// // Some useful merge operations. //===--------------------------------------------------------------------===// struct Union { void operator()(ValTy& Dst, ValTy& Src) { Dst |= Src; } }; struct Intersect { void operator()(ValTy& Dst, ValTy& Src) { Dst &= Src; } }; }; struct StmtDeclBitVector_Types { //===--------------------------------------------------------------------===// // AnalysisDataTy - Whole-function meta data. //===--------------------------------------------------------------------===// class AnalysisDataTy : public DeclBitVector_Types::AnalysisDataTy { ASTContext* ctx; CFG* cfg; public: AnalysisDataTy() : ctx(0), cfg(0) {} virtual ~AnalysisDataTy() {} void setContext(ASTContext& c) { ctx = &c; } ASTContext& getContext() { assert(ctx && "ASTContext should not be NULL."); return *ctx; } void setCFG(CFG& c) { cfg = &c; } CFG& getCFG() { assert(cfg && "CFG should not be NULL."); return *cfg; } bool isTracked(const Stmt* S) { return cfg->isBlkExpr(S); } using DeclBitVector_Types::AnalysisDataTy::isTracked; unsigned getIdx(const Stmt* S) const { CFG::BlkExprNumTy I = cfg->getBlkExprNum(S); assert(I && "Stmtession not tracked for bitvector."); return I; } using DeclBitVector_Types::AnalysisDataTy::getIdx; unsigned getNumBlkExprs() const { return cfg->getNumBlkExprs(); } }; //===--------------------------------------------------------------------===// // ValTy - Dataflow value. //===--------------------------------------------------------------------===// class ValTy : public DeclBitVector_Types::ValTy { llvm::BitVector BlkExprBV; typedef DeclBitVector_Types::ValTy ParentTy; static inline ParentTy& ParentRef(ValTy& X) { return static_cast(X); } static inline const ParentTy& ParentRef(const ValTy& X) { return static_cast(X); } public: void resetBlkExprValues(AnalysisDataTy& AD) { BlkExprBV.resize(AD.getNumBlkExprs()); BlkExprBV.reset(); } void setBlkExprValues(AnalysisDataTy& AD) { BlkExprBV.resize(AD.getNumBlkExprs()); BlkExprBV.set(); } void resetValues(AnalysisDataTy& AD) { resetDeclValues(AD); resetBlkExprValues(AD); } void setValues(AnalysisDataTy& AD) { setDeclValues(AD); setBlkExprValues(AD); } bool operator==(const ValTy& RHS) const { return ParentRef(*this) == ParentRef(RHS) && BlkExprBV == RHS.BlkExprBV; } void copyValues(const ValTy& RHS) { ParentRef(*this).copyValues(ParentRef(RHS)); BlkExprBV = RHS.BlkExprBV; } llvm::BitVector::reference operator()(const Stmt* S, const AnalysisDataTy& AD) { return BlkExprBV[AD.getIdx(S)]; } const llvm::BitVector::reference operator()(const Stmt* S, const AnalysisDataTy& AD) const { return const_cast(*this)(S,AD); } using DeclBitVector_Types::ValTy::operator(); llvm::BitVector::reference getStmtBit(unsigned i) { return BlkExprBV[i]; } const llvm::BitVector::reference getStmtBit(unsigned i) const { return const_cast(BlkExprBV)[i]; } ValTy& OrBlkExprBits(const ValTy& RHS) { BlkExprBV |= RHS.BlkExprBV; return *this; } ValTy& AndBlkExprBits(const ValTy& RHS) { BlkExprBV &= RHS.BlkExprBV; return *this; } ValTy& operator|=(const ValTy& RHS) { assert (sizesEqual(RHS)); ParentRef(*this) |= ParentRef(RHS); BlkExprBV |= RHS.BlkExprBV; return *this; } ValTy& operator&=(const ValTy& RHS) { assert (sizesEqual(RHS)); ParentRef(*this) &= ParentRef(RHS); BlkExprBV &= RHS.BlkExprBV; return *this; } bool sizesEqual(const ValTy& RHS) const { return ParentRef(*this).sizesEqual(ParentRef(RHS)) && BlkExprBV.size() == RHS.BlkExprBV.size(); } }; //===--------------------------------------------------------------------===// // Some useful merge operations. //===--------------------------------------------------------------------===// struct Union { void operator()(ValTy& Dst, ValTy& Src) { Dst |= Src; } }; struct Intersect { void operator()(ValTy& Dst, ValTy& Src) { Dst &= Src; } }; }; } // end namespace clang #endif