1 //===--- DataflowValues.h - Data structure for dataflow values --*- C++ -*-===// 2 // 3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 4 // See https://llvm.org/LICENSE.txt for license information. 5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 6 // 7 //===----------------------------------------------------------------------===// 8 // 9 // This file defines a skeleton data structure for encapsulating the dataflow 10 // values for a CFG. Typically this is subclassed to provide methods for 11 // computing these values from a CFG. 12 // 13 //===----------------------------------------------------------------------===// 14 15 #ifndef LLVM_CLANG_ANALYSES_DATAFLOW_VALUES 16 #define LLVM_CLANG_ANALYSES_DATAFLOW_VALUES 17 18 #include "clang/Analysis/CFG.h" 19 #include "clang/Analysis/ProgramPoint.h" 20 #include "llvm/ADT/DenseMap.h" 21 22 //===----------------------------------------------------------------------===// 23 /// Dataflow Directional Tag Classes. These are used for tag dispatching 24 /// within the dataflow solver/transfer functions to determine what direction 25 /// a dataflow analysis flows. 26 //===----------------------------------------------------------------------===// 27 28 namespace clang { 29 namespace dataflow { 30 struct forward_analysis_tag {}; 31 struct backward_analysis_tag {}; 32 } // end namespace dataflow 33 34 //===----------------------------------------------------------------------===// 35 /// DataflowValues. Container class to store dataflow values for a CFG. 36 //===----------------------------------------------------------------------===// 37 38 template <typename ValueTypes, 39 typename _AnalysisDirTag = dataflow::forward_analysis_tag > 40 class DataflowValues { 41 42 //===--------------------------------------------------------------------===// 43 // Type declarations. 44 //===--------------------------------------------------------------------===// 45 46 public: 47 typedef typename ValueTypes::ValTy ValTy; 48 typedef typename ValueTypes::AnalysisDataTy AnalysisDataTy; 49 typedef _AnalysisDirTag AnalysisDirTag; 50 typedef llvm::DenseMap<ProgramPoint, ValTy> EdgeDataMapTy; 51 typedef llvm::DenseMap<const CFGBlock*, ValTy> BlockDataMapTy; 52 typedef llvm::DenseMap<const Stmt*, ValTy> StmtDataMapTy; 53 54 //===--------------------------------------------------------------------===// 55 // Predicates. 56 //===--------------------------------------------------------------------===// 57 58 public: 59 /// isForwardAnalysis - Returns true if the dataflow values are computed 60 /// from a forward analysis. isForwardAnalysis()61 bool isForwardAnalysis() { return isForwardAnalysis(AnalysisDirTag()); } 62 63 /// isBackwardAnalysis - Returns true if the dataflow values are computed 64 /// from a backward analysis. isBackwardAnalysis()65 bool isBackwardAnalysis() { return !isForwardAnalysis(); } 66 67 private: isForwardAnalysis(dataflow::forward_analysis_tag)68 bool isForwardAnalysis(dataflow::forward_analysis_tag) { return true; } isForwardAnalysis(dataflow::backward_analysis_tag)69 bool isForwardAnalysis(dataflow::backward_analysis_tag) { return false; } 70 71 //===--------------------------------------------------------------------===// 72 // Initialization and accessors methods. 73 //===--------------------------------------------------------------------===// 74 75 public: DataflowValues()76 DataflowValues() : StmtDataMap(NULL) {} ~DataflowValues()77 ~DataflowValues() { delete StmtDataMap; } 78 79 /// InitializeValues - Invoked by the solver to initialize state needed for 80 /// dataflow analysis. This method is usually specialized by subclasses. InitializeValues(const CFG & cfg)81 void InitializeValues(const CFG& cfg) {} 82 83 84 /// getEdgeData - Retrieves the dataflow values associated with a 85 /// CFG edge. getEdgeData(const BlockEdge & E)86 ValTy& getEdgeData(const BlockEdge &E) { 87 typename EdgeDataMapTy::iterator I = EdgeDataMap.find(E); 88 assert (I != EdgeDataMap.end() && "No data associated with Edge."); 89 return I->second; 90 } 91 getEdgeData(const BlockEdge & E)92 const ValTy& getEdgeData(const BlockEdge &E) const { 93 return reinterpret_cast<DataflowValues*>(this)->getEdgeData(E); 94 } 95 96 /// getBlockData - Retrieves the dataflow values associated with a 97 /// specified CFGBlock. If the dataflow analysis is a forward analysis, 98 /// this data is associated with the END of the block. If the analysis 99 /// is a backwards analysis, it is associated with the ENTRY of the block. getBlockData(const CFGBlock * B)100 ValTy& getBlockData(const CFGBlock *B) { 101 typename BlockDataMapTy::iterator I = BlockDataMap.find(B); 102 assert (I != BlockDataMap.end() && "No data associated with block."); 103 return I->second; 104 } 105 getBlockData(const CFGBlock * B)106 const ValTy& getBlockData(const CFGBlock *B) const { 107 return const_cast<DataflowValues*>(this)->getBlockData(B); 108 } 109 110 /// getStmtData - Retrieves the dataflow values associated with a 111 /// specified Stmt. If the dataflow analysis is a forward analysis, 112 /// this data corresponds to the point immediately before a Stmt. 113 /// If the analysis is a backwards analysis, it is associated with 114 /// the point after a Stmt. This data is only computed for block-level 115 /// expressions, and only when requested when the analysis is executed. getStmtData(const Stmt * S)116 ValTy& getStmtData(const Stmt *S) { 117 assert (StmtDataMap && "Dataflow values were not computed for statements."); 118 typename StmtDataMapTy::iterator I = StmtDataMap->find(S); 119 assert (I != StmtDataMap->end() && "No data associated with statement."); 120 return I->second; 121 } 122 getStmtData(const Stmt * S)123 const ValTy& getStmtData(const Stmt *S) const { 124 return const_cast<DataflowValues*>(this)->getStmtData(S); 125 } 126 127 /// getEdgeDataMap - Retrieves the internal map between CFG edges and 128 /// dataflow values. Usually used by a dataflow solver to compute 129 /// values for blocks. getEdgeDataMap()130 EdgeDataMapTy& getEdgeDataMap() { return EdgeDataMap; } getEdgeDataMap()131 const EdgeDataMapTy& getEdgeDataMap() const { return EdgeDataMap; } 132 133 /// getBlockDataMap - Retrieves the internal map between CFGBlocks and 134 /// dataflow values. If the dataflow analysis operates in the forward 135 /// direction, the values correspond to the dataflow values at the start 136 /// of the block. Otherwise, for a backward analysis, the values correpsond 137 /// to the dataflow values at the end of the block. getBlockDataMap()138 BlockDataMapTy& getBlockDataMap() { return BlockDataMap; } getBlockDataMap()139 const BlockDataMapTy& getBlockDataMap() const { return BlockDataMap; } 140 141 /// getStmtDataMap - Retrieves the internal map between Stmts and 142 /// dataflow values. getStmtDataMap()143 StmtDataMapTy& getStmtDataMap() { 144 if (!StmtDataMap) StmtDataMap = new StmtDataMapTy(); 145 return *StmtDataMap; 146 } 147 getStmtDataMap()148 const StmtDataMapTy& getStmtDataMap() const { 149 return const_cast<DataflowValues*>(this)->getStmtDataMap(); 150 } 151 152 /// getAnalysisData - Retrieves the meta data associated with a 153 /// dataflow analysis for analyzing a particular CFG. 154 /// This is typically consumed by transfer function code (via the solver). 155 /// This can also be used by subclasses to interpret the dataflow values. getAnalysisData()156 AnalysisDataTy& getAnalysisData() { return AnalysisData; } getAnalysisData()157 const AnalysisDataTy& getAnalysisData() const { return AnalysisData; } 158 159 //===--------------------------------------------------------------------===// 160 // Internal data. 161 //===--------------------------------------------------------------------===// 162 163 protected: 164 EdgeDataMapTy EdgeDataMap; 165 BlockDataMapTy BlockDataMap; 166 StmtDataMapTy* StmtDataMap; 167 AnalysisDataTy AnalysisData; 168 }; 169 170 } // end namespace clang 171 #endif 172