linux-x64/clang/include/clang/StaticAnalyzer/Core/BugReporter/BugReporter.h - hafnium/prebuilts - Git at Google

 //===- BugReporter.h - Generate PathDiagnostics -----------------*- C++ -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//
 //
 //  This file defines BugReporter, a utility class for generating
 //  PathDiagnostics for analyses based on ProgramState.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_CLANG_STATICANALYZER_CORE_BUGREPORTER_BUGREPORTER_H
 #define LLVM_CLANG_STATICANALYZER_CORE_BUGREPORTER_BUGREPORTER_H

 #include "clang/Basic/LLVM.h"
 #include "clang/Basic/SourceLocation.h"
 #include "clang/StaticAnalyzer/Core/BugReporter/BugReporterVisitors.h"
 #include "clang/StaticAnalyzer/Core/BugReporter/PathDiagnostic.h"
 #include "clang/StaticAnalyzer/Core/CheckerManager.h"
 #include "clang/StaticAnalyzer/Core/PathSensitive/ProgramState.h"
 #include "clang/StaticAnalyzer/Core/PathSensitive/SVals.h"
 #include "clang/StaticAnalyzer/Core/PathSensitive/SymExpr.h"
 #include "clang/StaticAnalyzer/Core/PathSensitive/ExplodedGraph.h"
 #include "llvm/ADT/ArrayRef.h"
 #include "llvm/ADT/DenseSet.h"
 #include "llvm/ADT/FoldingSet.h"
 #include "llvm/ADT/ImmutableSet.h"
 #include "llvm/ADT/None.h"
 #include "llvm/ADT/SmallSet.h"
 #include "llvm/ADT/SmallVector.h"
 #include "llvm/ADT/StringMap.h"
 #include "llvm/ADT/StringRef.h"
 #include "llvm/ADT/ilist.h"
 #include "llvm/ADT/ilist_node.h"
 #include "llvm/ADT/iterator_range.h"
 #include <cassert>
 #include <memory>
 #include <string>
 #include <utility>
 #include <vector>

 namespace clang {

 class AnalyzerOptions;
 class ASTContext;
 class Decl;
 class DiagnosticsEngine;
 class LocationContext;
 class SourceManager;
 class Stmt;

 namespace ento {

 class BugType;
 class CheckerBase;
 class ExplodedGraph;
 class ExplodedNode;
 class ExprEngine;
 class MemRegion;
 class SValBuilder;

 //===----------------------------------------------------------------------===//
 // Interface for individual bug reports.
 //===----------------------------------------------------------------------===//

 /// A mapping from diagnostic consumers to the diagnostics they should
 /// consume.
 using DiagnosticForConsumerMapTy =
     llvm::DenseMap<PathDiagnosticConsumer *, std::unique_ptr<PathDiagnostic>>;

 /// This class provides an interface through which checkers can create
 /// individual bug reports.
 class BugReport : public llvm::ilist_node<BugReport> {
 public:
   class NodeResolver {
     virtual void anchor();

   public:
     virtual ~NodeResolver() = default;

     virtual const ExplodedNode*
             getOriginalNode(const ExplodedNode *N) = 0;
   };

   using ranges_iterator = const SourceRange *;
   using VisitorList = SmallVector<std::unique_ptr<BugReporterVisitor>, 8>;
   using visitor_iterator = VisitorList::iterator;
   using ExtraTextList = SmallVector<StringRef, 2>;
   using NoteList = SmallVector<std::shared_ptr<PathDiagnosticNotePiece>, 4>;

 protected:
   friend class BugReportEquivClass;
   friend class BugReporter;

   const BugType& BT;
   const Decl *DeclWithIssue = nullptr;
   std::string ShortDescription;
   std::string Description;
   PathDiagnosticLocation Location;
   PathDiagnosticLocation UniqueingLocation;
   const Decl *UniqueingDecl;

   const ExplodedNode *ErrorNode = nullptr;
   SmallVector<SourceRange, 4> Ranges;
   ExtraTextList ExtraText;
   NoteList Notes;

   using Symbols = llvm::DenseSet<SymbolRef>;
   using Regions = llvm::DenseSet<const MemRegion *>;

   /// A (stack of) a set of symbols that are registered with this
   /// report as being "interesting", and thus used to help decide which
   /// diagnostics to include when constructing the final path diagnostic.
   /// The stack is largely used by BugReporter when generating PathDiagnostics
   /// for multiple PathDiagnosticConsumers.
   SmallVector<Symbols *, 2> interestingSymbols;

   /// A (stack of) set of regions that are registered with this report as being
   /// "interesting", and thus used to help decide which diagnostics
   /// to include when constructing the final path diagnostic.
   /// The stack is largely used by BugReporter when generating PathDiagnostics
   /// for multiple PathDiagnosticConsumers.
   SmallVector<Regions *, 2> interestingRegions;

   /// A set of location contexts that correspoind to call sites which should be
   /// considered "interesting".
   llvm::SmallSet<const LocationContext *, 2> InterestingLocationContexts;

   /// A set of custom visitors which generate "event" diagnostics at
   /// interesting points in the path.
   VisitorList Callbacks;

   /// Used for ensuring the visitors are only added once.
   llvm::FoldingSet<BugReporterVisitor> CallbacksSet;

   /// When set, this flag disables all callstack pruning from a diagnostic
   /// path.  This is useful for some reports that want maximum fidelty
   /// when reporting an issue.
   bool DoNotPrunePath = false;

   /// Used to track unique reasons why a bug report might be invalid.
   ///
   /// \sa markInvalid
   /// \sa removeInvalidation
   using InvalidationRecord = std::pair<const void *, const void *>;

   /// If non-empty, this bug report is likely a false positive and should not be
   /// shown to the user.
   ///
   /// \sa markInvalid
   /// \sa removeInvalidation
   llvm::SmallSet<InvalidationRecord, 4> Invalidations;

 private:
   // Used internally by BugReporter.
   Symbols &getInterestingSymbols();
   Regions &getInterestingRegions();

   void lazyInitializeInterestingSets();
   void pushInterestingSymbolsAndRegions();
   void popInterestingSymbolsAndRegions();

 public:
   BugReport(const BugType& bt, StringRef desc, const ExplodedNode *errornode)
       : BT(bt), Description(desc), ErrorNode(errornode) {}

   BugReport(const BugType& bt, StringRef shortDesc, StringRef desc,
             const ExplodedNode *errornode)
       : BT(bt), ShortDescription(shortDesc), Description(desc),
         ErrorNode(errornode) {}

   BugReport(const BugType &bt, StringRef desc, PathDiagnosticLocation l)
       : BT(bt), Description(desc), Location(l) {}

   /// Create a BugReport with a custom uniqueing location.
   ///
   /// The reports that have the same report location, description, bug type, and
   /// ranges are uniqued - only one of the equivalent reports will be presented
   /// to the user. This method allows to rest the location which should be used
   /// for uniquing reports. For example, memory leaks checker, could set this to
   /// the allocation site, rather then the location where the bug is reported.
   BugReport(BugType& bt, StringRef desc, const ExplodedNode *errornode,
             PathDiagnosticLocation LocationToUnique, const Decl *DeclToUnique)
       : BT(bt), Description(desc), UniqueingLocation(LocationToUnique),
         UniqueingDecl(DeclToUnique), ErrorNode(errornode) {}

   virtual ~BugReport();

   const BugType& getBugType() const { return BT; }
   //BugType& getBugType() { return BT; }

   /// True when the report has an execution path associated with it.
   ///
   /// A report is said to be path-sensitive if it was thrown against a
   /// particular exploded node in the path-sensitive analysis graph.
   /// Path-sensitive reports have their intermediate path diagnostics
   /// auto-generated, perhaps with the help of checker-defined visitors,
   /// and may contain extra notes.
   /// Path-insensitive reports consist only of a single warning message
   /// in a specific location, and perhaps extra notes.
   /// Path-sensitive checkers are allowed to throw path-insensitive reports.
   bool isPathSensitive() const { return ErrorNode != nullptr; }

   const ExplodedNode *getErrorNode() const { return ErrorNode; }

   StringRef getDescription() const { return Description; }

   StringRef getShortDescription(bool UseFallback = true) const {
     if (ShortDescription.empty() && UseFallback)
       return Description;
     return ShortDescription;
   }

   /// Indicates whether or not any path pruning should take place
   /// when generating a PathDiagnostic from this BugReport.
   bool shouldPrunePath() const { return !DoNotPrunePath; }

   /// Disable all path pruning when generating a PathDiagnostic.
   void disablePathPruning() { DoNotPrunePath = true; }

   void markInteresting(SymbolRef sym);
   void markInteresting(const MemRegion *R);
   void markInteresting(SVal V);
   void markInteresting(const LocationContext *LC);

   bool isInteresting(SymbolRef sym);
   bool isInteresting(const MemRegion *R);
   bool isInteresting(SVal V);
   bool isInteresting(const LocationContext *LC);

   /// Returns whether or not this report should be considered valid.
   ///
   /// Invalid reports are those that have been classified as likely false
   /// positives after the fact.
   bool isValid() const {
     return Invalidations.empty();
   }

   /// Marks the current report as invalid, meaning that it is probably a false
   /// positive and should not be reported to the user.
   ///
   /// The \p Tag and \p Data arguments are intended to be opaque identifiers for
   /// this particular invalidation, where \p Tag represents the visitor
   /// responsible for invalidation, and \p Data represents the reason this
   /// visitor decided to invalidate the bug report.
   ///
   /// \sa removeInvalidation
   void markInvalid(const void *Tag, const void *Data) {
     Invalidations.insert(std::make_pair(Tag, Data));
   }

   /// Return the canonical declaration, be it a method or class, where
   /// this issue semantically occurred.
   const Decl *getDeclWithIssue() const;

   /// Specifically set the Decl where an issue occurred.  This isn't necessary
   /// for BugReports that cover a path as it will be automatically inferred.
   void setDeclWithIssue(const Decl *declWithIssue) {
     DeclWithIssue = declWithIssue;
   }

   /// Add new item to the list of additional notes that need to be attached to
   /// this path-insensitive report. If you want to add extra notes to a
   /// path-sensitive report, you need to use a BugReporterVisitor because it
   /// allows you to specify where exactly in the auto-generated path diagnostic
   /// the extra note should appear.
   void addNote(StringRef Msg, const PathDiagnosticLocation &Pos,
                ArrayRef<SourceRange> Ranges) {
     auto P = std::make_shared<PathDiagnosticNotePiece>(Pos, Msg);

     for (const auto &R : Ranges)
       P->addRange(R);

     Notes.push_back(std::move(P));
   }

   // FIXME: Instead of making an override, we could have default-initialized
   // Ranges with {}, however it crashes the MSVC 2013 compiler.
   void addNote(StringRef Msg, const PathDiagnosticLocation &Pos) {
     std::vector<SourceRange> Ranges;
     addNote(Msg, Pos, Ranges);
   }

   virtual const NoteList &getNotes() {
     return Notes;
   }

   /// This allows for addition of meta data to the diagnostic.
   ///
   /// Currently, only the HTMLDiagnosticClient knows how to display it.
   void addExtraText(StringRef S) {
     ExtraText.push_back(S);
   }

   virtual const ExtraTextList &getExtraText() {
     return ExtraText;
   }

   /// Return the "definitive" location of the reported bug.
   ///
   ///  While a bug can span an entire path, usually there is a specific
   ///  location that can be used to identify where the key issue occurred.
   ///  This location is used by clients rendering diagnostics.
   virtual PathDiagnosticLocation getLocation(const SourceManager &SM) const;

   /// Get the location on which the report should be uniqued.
   PathDiagnosticLocation getUniqueingLocation() const {
     return UniqueingLocation;
   }

   /// Get the declaration containing the uniqueing location.
   const Decl *getUniqueingDecl() const {
     return UniqueingDecl;
   }

   const Stmt *getStmt() const;

   /// Add a range to a bug report.
   ///
   /// Ranges are used to highlight regions of interest in the source code.
   /// They should be at the same source code line as the BugReport location.
   /// By default, the source range of the statement corresponding to the error
   /// node will be used; add a single invalid range to specify absence of
   /// ranges.
   void addRange(SourceRange R) {
     assert((R.isValid() || Ranges.empty()) && "Invalid range can only be used "
                            "to specify that the report does not have a range.");
     Ranges.push_back(R);
   }

   /// Get the SourceRanges associated with the report.
   virtual llvm::iterator_range<ranges_iterator> getRanges();

   /// Add custom or predefined bug report visitors to this report.
   ///
   /// The visitors should be used when the default trace is not sufficient.
   /// For example, they allow constructing a more elaborate trace.
   /// \sa registerConditionVisitor(), registerTrackNullOrUndefValue(),
   /// registerFindLastStore(), registerNilReceiverVisitor(), and
   /// registerVarDeclsLastStore().
   void addVisitor(std::unique_ptr<BugReporterVisitor> visitor);

   /// Remove all visitors attached to this bug report.
   void clearVisitors();

   /// Iterators through the custom diagnostic visitors.
   visitor_iterator visitor_begin() { return Callbacks.begin(); }
   visitor_iterator visitor_end() { return Callbacks.end(); }

   /// Profile to identify equivalent bug reports for error report coalescing.
   /// Reports are uniqued to ensure that we do not emit multiple diagnostics
   /// for each bug.
   virtual void Profile(llvm::FoldingSetNodeID& hash) const;
 };

 //===----------------------------------------------------------------------===//
 // BugTypes (collections of related reports).
 //===----------------------------------------------------------------------===//

 class BugReportEquivClass : public llvm::FoldingSetNode {
   friend class BugReporter;

   /// List of *owned* BugReport objects.
   llvm::ilist<BugReport> Reports;

   void AddReport(std::unique_ptr<BugReport> R) {
     Reports.push_back(R.release());
   }

 public:
   BugReportEquivClass(std::unique_ptr<BugReport> R) { AddReport(std::move(R)); }
   ~BugReportEquivClass();

   void Profile(llvm::FoldingSetNodeID& ID) const {
     assert(!Reports.empty());
     Reports.front().Profile(ID);
   }

   using iterator = llvm::ilist<BugReport>::iterator;
   using const_iterator = llvm::ilist<BugReport>::const_iterator;

   iterator begin() { return Reports.begin(); }
   iterator end() { return Reports.end(); }

   const_iterator begin() const { return Reports.begin(); }
   const_iterator end() const { return Reports.end(); }
 };

 //===----------------------------------------------------------------------===//
 // BugReporter and friends.
 //===----------------------------------------------------------------------===//

 class BugReporterData {
 public:
   virtual ~BugReporterData();

   virtual DiagnosticsEngine& getDiagnostic() = 0;
   virtual ArrayRef<PathDiagnosticConsumer*> getPathDiagnosticConsumers() = 0;
   virtual ASTContext &getASTContext() = 0;
   virtual SourceManager &getSourceManager() = 0;
   virtual AnalyzerOptions &getAnalyzerOptions() = 0;
 };

 /// BugReporter is a utility class for generating PathDiagnostics for analysis.
 /// It collects the BugReports and BugTypes and knows how to generate
 /// and flush the corresponding diagnostics.
 ///
 /// The base class is used for generating path-insensitive
 class BugReporter {
 public:
   enum Kind { BaseBRKind, GRBugReporterKind };

 private:
   using BugTypesTy = llvm::ImmutableSet<BugType *>;

   BugTypesTy::Factory F;
   BugTypesTy BugTypes;

   const Kind kind;
   BugReporterData& D;

   /// Generate and flush the diagnostics for the given bug report.
   void FlushReport(BugReportEquivClass& EQ);

   /// Generate the diagnostics for the given bug report.
   std::unique_ptr<DiagnosticForConsumerMapTy>
   generateDiagnosticForConsumerMap(BugReport *exampleReport,
                                    ArrayRef<PathDiagnosticConsumer *> consumers,
                                    ArrayRef<BugReport *> bugReports);

   /// The set of bug reports tracked by the BugReporter.
   llvm::FoldingSet<BugReportEquivClass> EQClasses;

   /// A vector of BugReports for tracking the allocated pointers and cleanup.
   std::vector<BugReportEquivClass *> EQClassesVector;

 protected:
   BugReporter(BugReporterData& d, Kind k)
       : BugTypes(F.getEmptySet()), kind(k), D(d) {}

 public:
   BugReporter(BugReporterData& d)
       : BugTypes(F.getEmptySet()), kind(BaseBRKind), D(d) {}
   virtual ~BugReporter();

   /// Generate and flush diagnostics for all bug reports.
   void FlushReports();

   Kind getKind() const { return kind; }

   DiagnosticsEngine& getDiagnostic() {
     return D.getDiagnostic();
   }

   ArrayRef<PathDiagnosticConsumer*> getPathDiagnosticConsumers() {
     return D.getPathDiagnosticConsumers();
   }

   /// Iterator over the set of BugTypes tracked by the BugReporter.
   using iterator = BugTypesTy::iterator;
   iterator begin() { return BugTypes.begin(); }
   iterator end() { return BugTypes.end(); }

   /// Iterator over the set of BugReports tracked by the BugReporter.
   using EQClasses_iterator = llvm::FoldingSet<BugReportEquivClass>::iterator;
   EQClasses_iterator EQClasses_begin() { return EQClasses.begin(); }
   EQClasses_iterator EQClasses_end() { return EQClasses.end(); }

   ASTContext &getContext() { return D.getASTContext(); }

   SourceManager &getSourceManager() { return D.getSourceManager(); }

   AnalyzerOptions &getAnalyzerOptions() { return D.getAnalyzerOptions(); }

   virtual std::unique_ptr<DiagnosticForConsumerMapTy>
   generatePathDiagnostics(ArrayRef<PathDiagnosticConsumer *> consumers,
                           ArrayRef<BugReport *> &bugReports) {
     return {};
   }

   void Register(const BugType *BT);

   /// Add the given report to the set of reports tracked by BugReporter.
   ///
   /// The reports are usually generated by the checkers. Further, they are
   /// folded based on the profile value, which is done to coalesce similar
   /// reports.
   void emitReport(std::unique_ptr<BugReport> R);

   void EmitBasicReport(const Decl *DeclWithIssue, const CheckerBase *Checker,
                        StringRef BugName, StringRef BugCategory,
                        StringRef BugStr, PathDiagnosticLocation Loc,
                        ArrayRef<SourceRange> Ranges = None);

   void EmitBasicReport(const Decl *DeclWithIssue, CheckName CheckName,
                        StringRef BugName, StringRef BugCategory,
                        StringRef BugStr, PathDiagnosticLocation Loc,
                        ArrayRef<SourceRange> Ranges = None);

 private:
   llvm::StringMap<BugType *> StrBugTypes;

   /// Returns a BugType that is associated with the given name and
   /// category.
   BugType *getBugTypeForName(CheckName CheckName, StringRef name,
                              StringRef category);
 };

 /// GRBugReporter is used for generating path-sensitive reports.
 class GRBugReporter : public BugReporter {
   ExprEngine& Eng;

 public:
   GRBugReporter(BugReporterData& d, ExprEngine& eng)
       : BugReporter(d, GRBugReporterKind), Eng(eng) {}

   ~GRBugReporter() override;

   /// getGraph - Get the exploded graph created by the analysis engine
   ///  for the analyzed method or function.
   ExplodedGraph &getGraph();

   /// getStateManager - Return the state manager used by the analysis
   ///  engine.
   ProgramStateManager &getStateManager();

   /// \p bugReports A set of bug reports within a *single* equivalence class
   ///
   /// \return A mapping from consumers to the corresponding diagnostics.
   /// Iterates through the bug reports within a single equivalence class,
   /// stops at a first non-invalidated report.
   std::unique_ptr<DiagnosticForConsumerMapTy>
   generatePathDiagnostics(ArrayRef<PathDiagnosticConsumer *> consumers,
                           ArrayRef<BugReport *> &bugReports) override;

   /// classof - Used by isa<>, cast<>, and dyn_cast<>.
   static bool classof(const BugReporter* R) {
     return R->getKind() == GRBugReporterKind;
   }
 };


 class NodeMapClosure : public BugReport::NodeResolver {
   InterExplodedGraphMap &M;

 public:
   NodeMapClosure(InterExplodedGraphMap &m) : M(m) {}

   const ExplodedNode *getOriginalNode(const ExplodedNode *N) override {
     return M.lookup(N);
   }
 };

 class BugReporterContext {
   GRBugReporter &BR;
   NodeMapClosure NMC;

   virtual void anchor();

 public:
   BugReporterContext(GRBugReporter &br, InterExplodedGraphMap &Backmap)
       : BR(br), NMC(Backmap) {}

   virtual ~BugReporterContext() = default;

   GRBugReporter& getBugReporter() { return BR; }

   ExplodedGraph &getGraph() { return BR.getGraph(); }

   ProgramStateManager& getStateManager() {
     return BR.getStateManager();
   }

   SValBuilder &getSValBuilder() {
     return getStateManager().getSValBuilder();
   }

   ASTContext &getASTContext() {
     return BR.getContext();
   }

   SourceManager& getSourceManager() {
     return BR.getSourceManager();
   }

   AnalyzerOptions &getAnalyzerOptions() {
     return BR.getAnalyzerOptions();
   }

   NodeMapClosure& getNodeResolver() { return NMC; }
 };

 } // namespace ento

 } // namespace clang

 #endif // LLVM_CLANG_STATICANALYZER_CORE_BUGREPORTER_BUGREPORTER_H
	//===- BugReporter.h - Generate PathDiagnostics ------------------ C++ --===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//
	//
	// This file defines BugReporter, a utility class for generating
	// PathDiagnostics for analyses based on ProgramState.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_CLANG_STATICANALYZER_CORE_BUGREPORTER_BUGREPORTER_H
	#define LLVM_CLANG_STATICANALYZER_CORE_BUGREPORTER_BUGREPORTER_H

	#include "clang/Basic/LLVM.h"
	#include "clang/Basic/SourceLocation.h"
	#include "clang/StaticAnalyzer/Core/BugReporter/BugReporterVisitors.h"
	#include "clang/StaticAnalyzer/Core/BugReporter/PathDiagnostic.h"
	#include "clang/StaticAnalyzer/Core/CheckerManager.h"
	#include "clang/StaticAnalyzer/Core/PathSensitive/ProgramState.h"
	#include "clang/StaticAnalyzer/Core/PathSensitive/SVals.h"
	#include "clang/StaticAnalyzer/Core/PathSensitive/SymExpr.h"
	#include "clang/StaticAnalyzer/Core/PathSensitive/ExplodedGraph.h"
	#include "llvm/ADT/ArrayRef.h"
	#include "llvm/ADT/DenseSet.h"
	#include "llvm/ADT/FoldingSet.h"
	#include "llvm/ADT/ImmutableSet.h"
	#include "llvm/ADT/None.h"
	#include "llvm/ADT/SmallSet.h"
	#include "llvm/ADT/SmallVector.h"
	#include "llvm/ADT/StringMap.h"
	#include "llvm/ADT/StringRef.h"
	#include "llvm/ADT/ilist.h"
	#include "llvm/ADT/ilist_node.h"
	#include "llvm/ADT/iterator_range.h"
	#include <cassert>
	#include <memory>
	#include <string>
	#include <utility>
	#include <vector>

	namespace clang {

	class AnalyzerOptions;
	class ASTContext;
	class Decl;
	class DiagnosticsEngine;
	class LocationContext;
	class SourceManager;
	class Stmt;

	namespace ento {

	class BugType;
	class CheckerBase;
	class ExplodedGraph;
	class ExplodedNode;
	class ExprEngine;
	class MemRegion;
	class SValBuilder;

	//===----------------------------------------------------------------------===//
	// Interface for individual bug reports.
	//===----------------------------------------------------------------------===//

	/// A mapping from diagnostic consumers to the diagnostics they should
	/// consume.
	using DiagnosticForConsumerMapTy =
	llvm::DenseMap<PathDiagnosticConsumer *, std::unique_ptr<PathDiagnostic>>;

	/// This class provides an interface through which checkers can create
	/// individual bug reports.
	class BugReport : public llvm::ilist_node<BugReport> {
	public:
	class NodeResolver {
	virtual void anchor();

	public:
	virtual ~NodeResolver() = default;

	virtual const ExplodedNode*
	getOriginalNode(const ExplodedNode *N) = 0;
	};

	using ranges_iterator = const SourceRange *;
	using VisitorList = SmallVector<std::unique_ptr<BugReporterVisitor>, 8>;
	using visitor_iterator = VisitorList::iterator;
	using ExtraTextList = SmallVector<StringRef, 2>;
	using NoteList = SmallVector<std::shared_ptr<PathDiagnosticNotePiece>, 4>;

	protected:
	friend class BugReportEquivClass;
	friend class BugReporter;

	const BugType& BT;
	const Decl *DeclWithIssue = nullptr;
	std::string ShortDescription;
	std::string Description;
	PathDiagnosticLocation Location;
	PathDiagnosticLocation UniqueingLocation;
	const Decl *UniqueingDecl;

	const ExplodedNode *ErrorNode = nullptr;
	SmallVector<SourceRange, 4> Ranges;
	ExtraTextList ExtraText;
	NoteList Notes;

	using Symbols = llvm::DenseSet<SymbolRef>;
	using Regions = llvm::DenseSet<const MemRegion *>;

	/// A (stack of) a set of symbols that are registered with this
	/// report as being "interesting", and thus used to help decide which
	/// diagnostics to include when constructing the final path diagnostic.
	/// The stack is largely used by BugReporter when generating PathDiagnostics
	/// for multiple PathDiagnosticConsumers.
	SmallVector<Symbols *, 2> interestingSymbols;

	/// A (stack of) set of regions that are registered with this report as being
	/// "interesting", and thus used to help decide which diagnostics
	/// to include when constructing the final path diagnostic.
	/// The stack is largely used by BugReporter when generating PathDiagnostics
	/// for multiple PathDiagnosticConsumers.
	SmallVector<Regions *, 2> interestingRegions;

	/// A set of location contexts that correspoind to call sites which should be
	/// considered "interesting".
	llvm::SmallSet<const LocationContext *, 2> InterestingLocationContexts;

	/// A set of custom visitors which generate "event" diagnostics at
	/// interesting points in the path.
	VisitorList Callbacks;

	/// Used for ensuring the visitors are only added once.
	llvm::FoldingSet<BugReporterVisitor> CallbacksSet;

	/// When set, this flag disables all callstack pruning from a diagnostic
	/// path. This is useful for some reports that want maximum fidelty
	/// when reporting an issue.
	bool DoNotPrunePath = false;

	/// Used to track unique reasons why a bug report might be invalid.
	///
	/// \sa markInvalid
	/// \sa removeInvalidation
	using InvalidationRecord = std::pair<const void , const void >;

	/// If non-empty, this bug report is likely a false positive and should not be
	/// shown to the user.
	///
	/// \sa markInvalid
	/// \sa removeInvalidation
	llvm::SmallSet<InvalidationRecord, 4> Invalidations;

	private:
	// Used internally by BugReporter.
	Symbols &getInterestingSymbols();
	Regions &getInterestingRegions();

	void lazyInitializeInterestingSets();
	void pushInterestingSymbolsAndRegions();
	void popInterestingSymbolsAndRegions();

	public:
	BugReport(const BugType& bt, StringRef desc, const ExplodedNode *errornode)
	: BT(bt), Description(desc), ErrorNode(errornode) {}

	BugReport(const BugType& bt, StringRef shortDesc, StringRef desc,
	const ExplodedNode *errornode)
	: BT(bt), ShortDescription(shortDesc), Description(desc),
	ErrorNode(errornode) {}

	BugReport(const BugType &bt, StringRef desc, PathDiagnosticLocation l)
	: BT(bt), Description(desc), Location(l) {}

	/// Create a BugReport with a custom uniqueing location.
	///
	/// The reports that have the same report location, description, bug type, and
	/// ranges are uniqued - only one of the equivalent reports will be presented
	/// to the user. This method allows to rest the location which should be used
	/// for uniquing reports. For example, memory leaks checker, could set this to
	/// the allocation site, rather then the location where the bug is reported.
	BugReport(BugType& bt, StringRef desc, const ExplodedNode *errornode,
	PathDiagnosticLocation LocationToUnique, const Decl *DeclToUnique)
	: BT(bt), Description(desc), UniqueingLocation(LocationToUnique),
	UniqueingDecl(DeclToUnique), ErrorNode(errornode) {}

	virtual ~BugReport();

	const BugType& getBugType() const { return BT; }
	//BugType& getBugType() { return BT; }

	/// True when the report has an execution path associated with it.
	///
	/// A report is said to be path-sensitive if it was thrown against a
	/// particular exploded node in the path-sensitive analysis graph.
	/// Path-sensitive reports have their intermediate path diagnostics
	/// auto-generated, perhaps with the help of checker-defined visitors,
	/// and may contain extra notes.
	/// Path-insensitive reports consist only of a single warning message
	/// in a specific location, and perhaps extra notes.
	/// Path-sensitive checkers are allowed to throw path-insensitive reports.
	bool isPathSensitive() const { return ErrorNode != nullptr; }

	const ExplodedNode *getErrorNode() const { return ErrorNode; }

	StringRef getDescription() const { return Description; }

	StringRef getShortDescription(bool UseFallback = true) const {
	if (ShortDescription.empty() && UseFallback)
	return Description;
	return ShortDescription;
	}

	/// Indicates whether or not any path pruning should take place
	/// when generating a PathDiagnostic from this BugReport.
	bool shouldPrunePath() const { return !DoNotPrunePath; }

	/// Disable all path pruning when generating a PathDiagnostic.
	void disablePathPruning() { DoNotPrunePath = true; }

	void markInteresting(SymbolRef sym);
	void markInteresting(const MemRegion *R);
	void markInteresting(SVal V);
	void markInteresting(const LocationContext *LC);

	bool isInteresting(SymbolRef sym);
	bool isInteresting(const MemRegion *R);
	bool isInteresting(SVal V);
	bool isInteresting(const LocationContext *LC);

	/// Returns whether or not this report should be considered valid.
	///
	/// Invalid reports are those that have been classified as likely false
	/// positives after the fact.
	bool isValid() const {
	return Invalidations.empty();
	}

	/// Marks the current report as invalid, meaning that it is probably a false
	/// positive and should not be reported to the user.
	///
	/// The \p Tag and \p Data arguments are intended to be opaque identifiers for
	/// this particular invalidation, where \p Tag represents the visitor
	/// responsible for invalidation, and \p Data represents the reason this
	/// visitor decided to invalidate the bug report.
	///
	/// \sa removeInvalidation
	void markInvalid(const void Tag, const void Data) {
	Invalidations.insert(std::make_pair(Tag, Data));
	}

	/// Return the canonical declaration, be it a method or class, where
	/// this issue semantically occurred.
	const Decl *getDeclWithIssue() const;

	/// Specifically set the Decl where an issue occurred. This isn't necessary
	/// for BugReports that cover a path as it will be automatically inferred.
	void setDeclWithIssue(const Decl *declWithIssue) {
	DeclWithIssue = declWithIssue;
	}

	/// Add new item to the list of additional notes that need to be attached to
	/// this path-insensitive report. If you want to add extra notes to a
	/// path-sensitive report, you need to use a BugReporterVisitor because it
	/// allows you to specify where exactly in the auto-generated path diagnostic
	/// the extra note should appear.
	void addNote(StringRef Msg, const PathDiagnosticLocation &Pos,
	ArrayRef<SourceRange> Ranges) {
	auto P = std::make_shared<PathDiagnosticNotePiece>(Pos, Msg);

	for (const auto &R : Ranges)
	P->addRange(R);

	Notes.push_back(std::move(P));
	}

	// FIXME: Instead of making an override, we could have default-initialized
	// Ranges with {}, however it crashes the MSVC 2013 compiler.
	void addNote(StringRef Msg, const PathDiagnosticLocation &Pos) {
	std::vector<SourceRange> Ranges;
	addNote(Msg, Pos, Ranges);
	}

	virtual const NoteList &getNotes() {
	return Notes;
	}

	/// This allows for addition of meta data to the diagnostic.
	///
	/// Currently, only the HTMLDiagnosticClient knows how to display it.
	void addExtraText(StringRef S) {
	ExtraText.push_back(S);
	}

	virtual const ExtraTextList &getExtraText() {
	return ExtraText;
	}

	/// Return the "definitive" location of the reported bug.
	///
	/// While a bug can span an entire path, usually there is a specific
	/// location that can be used to identify where the key issue occurred.
	/// This location is used by clients rendering diagnostics.
	virtual PathDiagnosticLocation getLocation(const SourceManager &SM) const;

	/// Get the location on which the report should be uniqued.
	PathDiagnosticLocation getUniqueingLocation() const {
	return UniqueingLocation;
	}

	/// Get the declaration containing the uniqueing location.
	const Decl *getUniqueingDecl() const {
	return UniqueingDecl;
	}

	const Stmt *getStmt() const;

	/// Add a range to a bug report.
	///
	/// Ranges are used to highlight regions of interest in the source code.
	/// They should be at the same source code line as the BugReport location.
	/// By default, the source range of the statement corresponding to the error
	/// node will be used; add a single invalid range to specify absence of
	/// ranges.
	void addRange(SourceRange R) {
	assert((R.isValid() \|\| Ranges.empty()) && "Invalid range can only be used "
	"to specify that the report does not have a range.");
	Ranges.push_back(R);
	}

	/// Get the SourceRanges associated with the report.
	virtual llvm::iterator_range<ranges_iterator> getRanges();

	/// Add custom or predefined bug report visitors to this report.
	///
	/// The visitors should be used when the default trace is not sufficient.
	/// For example, they allow constructing a more elaborate trace.
	/// \sa registerConditionVisitor(), registerTrackNullOrUndefValue(),
	/// registerFindLastStore(), registerNilReceiverVisitor(), and
	/// registerVarDeclsLastStore().
	void addVisitor(std::unique_ptr<BugReporterVisitor> visitor);

	/// Remove all visitors attached to this bug report.
	void clearVisitors();

	/// Iterators through the custom diagnostic visitors.
	visitor_iterator visitor_begin() { return Callbacks.begin(); }
	visitor_iterator visitor_end() { return Callbacks.end(); }

	/// Profile to identify equivalent bug reports for error report coalescing.
	/// Reports are uniqued to ensure that we do not emit multiple diagnostics
	/// for each bug.
	virtual void Profile(llvm::FoldingSetNodeID& hash) const;
	};

	//===----------------------------------------------------------------------===//
	// BugTypes (collections of related reports).
	//===----------------------------------------------------------------------===//

	class BugReportEquivClass : public llvm::FoldingSetNode {
	friend class BugReporter;

	/// List of owned BugReport objects.
	llvm::ilist<BugReport> Reports;

	void AddReport(std::unique_ptr<BugReport> R) {
	Reports.push_back(R.release());
	}

	public:
	BugReportEquivClass(std::unique_ptr<BugReport> R) { AddReport(std::move(R)); }
	~BugReportEquivClass();

	void Profile(llvm::FoldingSetNodeID& ID) const {
	assert(!Reports.empty());
	Reports.front().Profile(ID);
	}

	using iterator = llvm::ilist<BugReport>::iterator;
	using const_iterator = llvm::ilist<BugReport>::const_iterator;

	iterator begin() { return Reports.begin(); }
	iterator end() { return Reports.end(); }

	const_iterator begin() const { return Reports.begin(); }
	const_iterator end() const { return Reports.end(); }
	};

	//===----------------------------------------------------------------------===//
	// BugReporter and friends.
	//===----------------------------------------------------------------------===//

	class BugReporterData {
	public:
	virtual ~BugReporterData();

	virtual DiagnosticsEngine& getDiagnostic() = 0;
	virtual ArrayRef<PathDiagnosticConsumer*> getPathDiagnosticConsumers() = 0;
	virtual ASTContext &getASTContext() = 0;
	virtual SourceManager &getSourceManager() = 0;
	virtual AnalyzerOptions &getAnalyzerOptions() = 0;
	};

	/// BugReporter is a utility class for generating PathDiagnostics for analysis.
	/// It collects the BugReports and BugTypes and knows how to generate
	/// and flush the corresponding diagnostics.
	///
	/// The base class is used for generating path-insensitive
	class BugReporter {
	public:
	enum Kind { BaseBRKind, GRBugReporterKind };

	private:
	using BugTypesTy = llvm::ImmutableSet<BugType *>;

	BugTypesTy::Factory F;
	BugTypesTy BugTypes;

	const Kind kind;
	BugReporterData& D;

	/// Generate and flush the diagnostics for the given bug report.
	void FlushReport(BugReportEquivClass& EQ);

	/// Generate the diagnostics for the given bug report.
	std::unique_ptr<DiagnosticForConsumerMapTy>
	generateDiagnosticForConsumerMap(BugReport *exampleReport,
	ArrayRef<PathDiagnosticConsumer *> consumers,
	ArrayRef<BugReport *> bugReports);

	/// The set of bug reports tracked by the BugReporter.
	llvm::FoldingSet<BugReportEquivClass> EQClasses;

	/// A vector of BugReports for tracking the allocated pointers and cleanup.
	std::vector<BugReportEquivClass *> EQClassesVector;

	protected:
	BugReporter(BugReporterData& d, Kind k)
	: BugTypes(F.getEmptySet()), kind(k), D(d) {}

	public:
	BugReporter(BugReporterData& d)
	: BugTypes(F.getEmptySet()), kind(BaseBRKind), D(d) {}
	virtual ~BugReporter();

	/// Generate and flush diagnostics for all bug reports.
	void FlushReports();

	Kind getKind() const { return kind; }

	DiagnosticsEngine& getDiagnostic() {
	return D.getDiagnostic();
	}

	ArrayRef<PathDiagnosticConsumer*> getPathDiagnosticConsumers() {
	return D.getPathDiagnosticConsumers();
	}

	/// Iterator over the set of BugTypes tracked by the BugReporter.
	using iterator = BugTypesTy::iterator;
	iterator begin() { return BugTypes.begin(); }
	iterator end() { return BugTypes.end(); }

	/// Iterator over the set of BugReports tracked by the BugReporter.
	using EQClasses_iterator = llvm::FoldingSet<BugReportEquivClass>::iterator;
	EQClasses_iterator EQClasses_begin() { return EQClasses.begin(); }
	EQClasses_iterator EQClasses_end() { return EQClasses.end(); }

	ASTContext &getContext() { return D.getASTContext(); }

	SourceManager &getSourceManager() { return D.getSourceManager(); }

	AnalyzerOptions &getAnalyzerOptions() { return D.getAnalyzerOptions(); }

	virtual std::unique_ptr<DiagnosticForConsumerMapTy>
	generatePathDiagnostics(ArrayRef<PathDiagnosticConsumer *> consumers,
	ArrayRef<BugReport *> &bugReports) {
	return {};
	}

	void Register(const BugType *BT);

	/// Add the given report to the set of reports tracked by BugReporter.
	///
	/// The reports are usually generated by the checkers. Further, they are
	/// folded based on the profile value, which is done to coalesce similar
	/// reports.
	void emitReport(std::unique_ptr<BugReport> R);

	void EmitBasicReport(const Decl DeclWithIssue, const CheckerBase Checker,
	StringRef BugName, StringRef BugCategory,
	StringRef BugStr, PathDiagnosticLocation Loc,
	ArrayRef<SourceRange> Ranges = None);

	void EmitBasicReport(const Decl *DeclWithIssue, CheckName CheckName,
	StringRef BugName, StringRef BugCategory,
	StringRef BugStr, PathDiagnosticLocation Loc,
	ArrayRef<SourceRange> Ranges = None);

	private:
	llvm::StringMap<BugType *> StrBugTypes;

	/// Returns a BugType that is associated with the given name and
	/// category.
	BugType *getBugTypeForName(CheckName CheckName, StringRef name,
	StringRef category);
	};

	/// GRBugReporter is used for generating path-sensitive reports.
	class GRBugReporter : public BugReporter {
	ExprEngine& Eng;

	public:
	GRBugReporter(BugReporterData& d, ExprEngine& eng)
	: BugReporter(d, GRBugReporterKind), Eng(eng) {}

	~GRBugReporter() override;

	/// getGraph - Get the exploded graph created by the analysis engine
	/// for the analyzed method or function.
	ExplodedGraph &getGraph();

	/// getStateManager - Return the state manager used by the analysis
	/// engine.
	ProgramStateManager &getStateManager();

	/// \p bugReports A set of bug reports within a single equivalence class
	///
	/// \return A mapping from consumers to the corresponding diagnostics.
	/// Iterates through the bug reports within a single equivalence class,
	/// stops at a first non-invalidated report.
	std::unique_ptr<DiagnosticForConsumerMapTy>
	generatePathDiagnostics(ArrayRef<PathDiagnosticConsumer *> consumers,
	ArrayRef<BugReport *> &bugReports) override;

	/// classof - Used by isa<>, cast<>, and dyn_cast<>.
	static bool classof(const BugReporter* R) {
	return R->getKind() == GRBugReporterKind;
	}
	};


	class NodeMapClosure : public BugReport::NodeResolver {
	InterExplodedGraphMap &M;

	public:
	NodeMapClosure(InterExplodedGraphMap &m) : M(m) {}

	const ExplodedNode getOriginalNode(const ExplodedNode N) override {
	return M.lookup(N);
	}
	};

	class BugReporterContext {
	GRBugReporter &BR;
	NodeMapClosure NMC;

	virtual void anchor();

	public:
	BugReporterContext(GRBugReporter &br, InterExplodedGraphMap &Backmap)
	: BR(br), NMC(Backmap) {}

	virtual ~BugReporterContext() = default;

	GRBugReporter& getBugReporter() { return BR; }

	ExplodedGraph &getGraph() { return BR.getGraph(); }

	ProgramStateManager& getStateManager() {
	return BR.getStateManager();
	}

	SValBuilder &getSValBuilder() {
	return getStateManager().getSValBuilder();
	}

	ASTContext &getASTContext() {
	return BR.getContext();
	}

	SourceManager& getSourceManager() {
	return BR.getSourceManager();
	}

	AnalyzerOptions &getAnalyzerOptions() {
	return BR.getAnalyzerOptions();
	}

	NodeMapClosure& getNodeResolver() { return NMC; }
	};

	} // namespace ento

	} // namespace clang

	#endif // LLVM_CLANG_STATICANALYZER_CORE_BUGREPORTER_BUGREPORTER_H