include/clang/Analysis/FlowSensitive/DataflowValues.h - platform/prebuilts/clang/darwin-x86/sdk/3.5 - Git at Google

 //===--- DataflowValues.h - Data structure for dataflow values --*- 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 a skeleton data structure for encapsulating the dataflow
 // values for a CFG.  Typically this is subclassed to provide methods for
 // computing these values from a CFG.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_CLANG_ANALYSES_DATAFLOW_VALUES
 #define LLVM_CLANG_ANALYSES_DATAFLOW_VALUES

 #include "clang/Analysis/CFG.h"
 #include "clang/Analysis/ProgramPoint.h"
 #include "llvm/ADT/DenseMap.h"

 //===----------------------------------------------------------------------===//
 /// Dataflow Directional Tag Classes.  These are used for tag dispatching
 ///  within the dataflow solver/transfer functions to determine what direction
 ///  a dataflow analysis flows.
 //===----------------------------------------------------------------------===//

 namespace clang {
 namespace dataflow {
   struct forward_analysis_tag {};
   struct backward_analysis_tag {};
 } // end namespace dataflow

 //===----------------------------------------------------------------------===//
 /// DataflowValues.  Container class to store dataflow values for a CFG.
 //===----------------------------------------------------------------------===//

 template <typename ValueTypes,
           typename _AnalysisDirTag = dataflow::forward_analysis_tag >
 class DataflowValues {

   //===--------------------------------------------------------------------===//
   // Type declarations.
   //===--------------------------------------------------------------------===//

 public:
   typedef typename ValueTypes::ValTy               ValTy;
   typedef typename ValueTypes::AnalysisDataTy      AnalysisDataTy;
   typedef _AnalysisDirTag                          AnalysisDirTag;
   typedef llvm::DenseMap<ProgramPoint, ValTy>      EdgeDataMapTy;
   typedef llvm::DenseMap<const CFGBlock*, ValTy>   BlockDataMapTy;
   typedef llvm::DenseMap<const Stmt*, ValTy>       StmtDataMapTy;

   //===--------------------------------------------------------------------===//
   // Predicates.
   //===--------------------------------------------------------------------===//

 public:
   /// isForwardAnalysis - Returns true if the dataflow values are computed
   ///  from a forward analysis.
   bool isForwardAnalysis() { return isForwardAnalysis(AnalysisDirTag()); }

   /// isBackwardAnalysis - Returns true if the dataflow values are computed
   ///  from a backward analysis.
   bool isBackwardAnalysis() { return !isForwardAnalysis(); }

 private:
   bool isForwardAnalysis(dataflow::forward_analysis_tag)  { return true; }
   bool isForwardAnalysis(dataflow::backward_analysis_tag) { return false; }

   //===--------------------------------------------------------------------===//
   // Initialization and accessors methods.
   //===--------------------------------------------------------------------===//

 public:
   DataflowValues() : StmtDataMap(NULL) {}
   ~DataflowValues() { delete StmtDataMap; }

   /// InitializeValues - Invoked by the solver to initialize state needed for
   ///  dataflow analysis.  This method is usually specialized by subclasses.
   void InitializeValues(const CFG& cfg) {}


   /// getEdgeData - Retrieves the dataflow values associated with a
   ///  CFG edge.
   ValTy& getEdgeData(const BlockEdge &E) {
     typename EdgeDataMapTy::iterator I = EdgeDataMap.find(E);
     assert (I != EdgeDataMap.end() && "No data associated with Edge.");
     return I->second;
   }

   const ValTy& getEdgeData(const BlockEdge &E) const {
     return reinterpret_cast<DataflowValues*>(this)->getEdgeData(E);
   }

   /// getBlockData - Retrieves the dataflow values associated with a
   ///  specified CFGBlock.  If the dataflow analysis is a forward analysis,
   ///  this data is associated with the END of the block.  If the analysis
   ///  is a backwards analysis, it is associated with the ENTRY of the block.
   ValTy& getBlockData(const CFGBlock *B) {
     typename BlockDataMapTy::iterator I = BlockDataMap.find(B);
     assert (I != BlockDataMap.end() && "No data associated with block.");
     return I->second;
   }

   const ValTy& getBlockData(const CFGBlock *B) const {
     return const_cast<DataflowValues*>(this)->getBlockData(B);
   }

   /// getStmtData - Retrieves the dataflow values associated with a
   ///  specified Stmt.  If the dataflow analysis is a forward analysis,
   ///  this data corresponds to the point immediately before a Stmt.
   ///  If the analysis is a backwards analysis, it is associated with
   ///  the point after a Stmt.  This data is only computed for block-level
   ///  expressions, and only when requested when the analysis is executed.
   ValTy& getStmtData(const Stmt *S) {
     assert (StmtDataMap && "Dataflow values were not computed for statements.");
     typename StmtDataMapTy::iterator I = StmtDataMap->find(S);
     assert (I != StmtDataMap->end() && "No data associated with statement.");
     return I->second;
   }

   const ValTy& getStmtData(const Stmt *S) const {
     return const_cast<DataflowValues*>(this)->getStmtData(S);
   }

   /// getEdgeDataMap - Retrieves the internal map between CFG edges and
   ///  dataflow values.  Usually used by a dataflow solver to compute
   ///  values for blocks.
   EdgeDataMapTy& getEdgeDataMap() { return EdgeDataMap; }
   const EdgeDataMapTy& getEdgeDataMap() const { return EdgeDataMap; }

   /// getBlockDataMap - Retrieves the internal map between CFGBlocks and
   /// dataflow values.  If the dataflow analysis operates in the forward
   /// direction, the values correspond to the dataflow values at the start
   /// of the block.  Otherwise, for a backward analysis, the values correpsond
   /// to the dataflow values at the end of the block.
   BlockDataMapTy& getBlockDataMap() { return BlockDataMap; }
   const BlockDataMapTy& getBlockDataMap() const { return BlockDataMap; }

   /// getStmtDataMap - Retrieves the internal map between Stmts and
   /// dataflow values.
   StmtDataMapTy& getStmtDataMap() {
     if (!StmtDataMap) StmtDataMap = new StmtDataMapTy();
     return *StmtDataMap;
   }

   const StmtDataMapTy& getStmtDataMap() const {
     return const_cast<DataflowValues*>(this)->getStmtDataMap();
   }

   /// getAnalysisData - Retrieves the meta data associated with a
   ///  dataflow analysis for analyzing a particular CFG.
   ///  This is typically consumed by transfer function code (via the solver).
   ///  This can also be used by subclasses to interpret the dataflow values.
   AnalysisDataTy& getAnalysisData() { return AnalysisData; }
   const AnalysisDataTy& getAnalysisData() const { return AnalysisData; }

   //===--------------------------------------------------------------------===//
   // Internal data.
   //===--------------------------------------------------------------------===//

 protected:
   EdgeDataMapTy      EdgeDataMap;
   BlockDataMapTy     BlockDataMap;
   StmtDataMapTy*     StmtDataMap;
   AnalysisDataTy     AnalysisData;
 };

 } // end namespace clang
 #endif
	//===--- DataflowValues.h - Data structure for dataflow values --- 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 a skeleton data structure for encapsulating the dataflow
	// values for a CFG. Typically this is subclassed to provide methods for
	// computing these values from a CFG.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_CLANG_ANALYSES_DATAFLOW_VALUES
	#define LLVM_CLANG_ANALYSES_DATAFLOW_VALUES

	#include "clang/Analysis/CFG.h"
	#include "clang/Analysis/ProgramPoint.h"
	#include "llvm/ADT/DenseMap.h"

	//===----------------------------------------------------------------------===//
	/// Dataflow Directional Tag Classes. These are used for tag dispatching
	/// within the dataflow solver/transfer functions to determine what direction
	/// a dataflow analysis flows.
	//===----------------------------------------------------------------------===//

	namespace clang {
	namespace dataflow {
	struct forward_analysis_tag {};
	struct backward_analysis_tag {};
	} // end namespace dataflow

	//===----------------------------------------------------------------------===//
	/// DataflowValues. Container class to store dataflow values for a CFG.
	//===----------------------------------------------------------------------===//

	template <typename ValueTypes,
	typename _AnalysisDirTag = dataflow::forward_analysis_tag >
	class DataflowValues {

	//===--------------------------------------------------------------------===//
	// Type declarations.
	//===--------------------------------------------------------------------===//

	public:
	typedef typename ValueTypes::ValTy ValTy;
	typedef typename ValueTypes::AnalysisDataTy AnalysisDataTy;
	typedef _AnalysisDirTag AnalysisDirTag;
	typedef llvm::DenseMap<ProgramPoint, ValTy> EdgeDataMapTy;
	typedef llvm::DenseMap<const CFGBlock*, ValTy> BlockDataMapTy;
	typedef llvm::DenseMap<const Stmt*, ValTy> StmtDataMapTy;

	//===--------------------------------------------------------------------===//
	// Predicates.
	//===--------------------------------------------------------------------===//

	public:
	/// isForwardAnalysis - Returns true if the dataflow values are computed
	/// from a forward analysis.
	bool isForwardAnalysis() { return isForwardAnalysis(AnalysisDirTag()); }

	/// isBackwardAnalysis - Returns true if the dataflow values are computed
	/// from a backward analysis.
	bool isBackwardAnalysis() { return !isForwardAnalysis(); }

	private:
	bool isForwardAnalysis(dataflow::forward_analysis_tag) { return true; }
	bool isForwardAnalysis(dataflow::backward_analysis_tag) { return false; }

	//===--------------------------------------------------------------------===//
	// Initialization and accessors methods.
	//===--------------------------------------------------------------------===//

	public:
	DataflowValues() : StmtDataMap(NULL) {}
	~DataflowValues() { delete StmtDataMap; }

	/// InitializeValues - Invoked by the solver to initialize state needed for
	/// dataflow analysis. This method is usually specialized by subclasses.
	void InitializeValues(const CFG& cfg) {}


	/// getEdgeData - Retrieves the dataflow values associated with a
	/// CFG edge.
	ValTy& getEdgeData(const BlockEdge &E) {
	typename EdgeDataMapTy::iterator I = EdgeDataMap.find(E);
	assert (I != EdgeDataMap.end() && "No data associated with Edge.");
	return I->second;
	}

	const ValTy& getEdgeData(const BlockEdge &E) const {
	return reinterpret_cast<DataflowValues*>(this)->getEdgeData(E);
	}

	/// getBlockData - Retrieves the dataflow values associated with a
	/// specified CFGBlock. If the dataflow analysis is a forward analysis,
	/// this data is associated with the END of the block. If the analysis
	/// is a backwards analysis, it is associated with the ENTRY of the block.
	ValTy& getBlockData(const CFGBlock *B) {
	typename BlockDataMapTy::iterator I = BlockDataMap.find(B);
	assert (I != BlockDataMap.end() && "No data associated with block.");
	return I->second;
	}

	const ValTy& getBlockData(const CFGBlock *B) const {
	return const_cast<DataflowValues*>(this)->getBlockData(B);
	}

	/// getStmtData - Retrieves the dataflow values associated with a
	/// specified Stmt. If the dataflow analysis is a forward analysis,
	/// this data corresponds to the point immediately before a Stmt.
	/// If the analysis is a backwards analysis, it is associated with
	/// the point after a Stmt. This data is only computed for block-level
	/// expressions, and only when requested when the analysis is executed.
	ValTy& getStmtData(const Stmt *S) {
	assert (StmtDataMap && "Dataflow values were not computed for statements.");
	typename StmtDataMapTy::iterator I = StmtDataMap->find(S);
	assert (I != StmtDataMap->end() && "No data associated with statement.");
	return I->second;
	}

	const ValTy& getStmtData(const Stmt *S) const {
	return const_cast<DataflowValues*>(this)->getStmtData(S);
	}

	/// getEdgeDataMap - Retrieves the internal map between CFG edges and
	/// dataflow values. Usually used by a dataflow solver to compute
	/// values for blocks.
	EdgeDataMapTy& getEdgeDataMap() { return EdgeDataMap; }
	const EdgeDataMapTy& getEdgeDataMap() const { return EdgeDataMap; }

	/// getBlockDataMap - Retrieves the internal map between CFGBlocks and
	/// dataflow values. If the dataflow analysis operates in the forward
	/// direction, the values correspond to the dataflow values at the start
	/// of the block. Otherwise, for a backward analysis, the values correpsond
	/// to the dataflow values at the end of the block.
	BlockDataMapTy& getBlockDataMap() { return BlockDataMap; }
	const BlockDataMapTy& getBlockDataMap() const { return BlockDataMap; }

	/// getStmtDataMap - Retrieves the internal map between Stmts and
	/// dataflow values.
	StmtDataMapTy& getStmtDataMap() {
	if (!StmtDataMap) StmtDataMap = new StmtDataMapTy();
	return *StmtDataMap;
	}

	const StmtDataMapTy& getStmtDataMap() const {
	return const_cast<DataflowValues*>(this)->getStmtDataMap();
	}

	/// getAnalysisData - Retrieves the meta data associated with a
	/// dataflow analysis for analyzing a particular CFG.
	/// This is typically consumed by transfer function code (via the solver).
	/// This can also be used by subclasses to interpret the dataflow values.
	AnalysisDataTy& getAnalysisData() { return AnalysisData; }
	const AnalysisDataTy& getAnalysisData() const { return AnalysisData; }

	//===--------------------------------------------------------------------===//
	// Internal data.
	//===--------------------------------------------------------------------===//

	protected:
	EdgeDataMapTy EdgeDataMap;
	BlockDataMapTy BlockDataMap;
	StmtDataMapTy* StmtDataMap;
	AnalysisDataTy AnalysisData;
	};

	} // end namespace clang
	#endif