include/clang/StaticAnalyzer/Core/AnalyzerOptions.h - platform/prebuilts/clang/darwin-x86/sdk/3.5 - Git at Google

 //===--- AnalyzerOptions.h - Analysis Engine Options ------------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This header defines various options for the static analyzer that are set
 // by the frontend and are consulted throughout the analyzer.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_CLANG_ANALYZEROPTIONS_H
 #define LLVM_CLANG_ANALYZEROPTIONS_H

 #include "clang/Basic/LLVM.h"
 #include "llvm/ADT/IntrusiveRefCntPtr.h"
 #include "llvm/ADT/Optional.h"
 #include "llvm/ADT/StringMap.h"
 #include <string>
 #include <vector>

 namespace clang {
 class ASTConsumer;
 class DiagnosticsEngine;
 class Preprocessor;
 class LangOptions;

 /// Analysis - Set of available source code analyses.
 enum Analyses {
 #define ANALYSIS(NAME, CMDFLAG, DESC, SCOPE) NAME,
 #include "clang/StaticAnalyzer/Core/Analyses.def"
 NumAnalyses
 };

 /// AnalysisStores - Set of available analysis store models.
 enum AnalysisStores {
 #define ANALYSIS_STORE(NAME, CMDFLAG, DESC, CREATFN) NAME##Model,
 #include "clang/StaticAnalyzer/Core/Analyses.def"
 NumStores
 };

 /// AnalysisConstraints - Set of available constraint models.
 enum AnalysisConstraints {
 #define ANALYSIS_CONSTRAINTS(NAME, CMDFLAG, DESC, CREATFN) NAME##Model,
 #include "clang/StaticAnalyzer/Core/Analyses.def"
 NumConstraints
 };

 /// AnalysisDiagClients - Set of available diagnostic clients for rendering
 ///  analysis results.
 enum AnalysisDiagClients {
 #define ANALYSIS_DIAGNOSTICS(NAME, CMDFLAG, DESC, CREATFN) PD_##NAME,
 #include "clang/StaticAnalyzer/Core/Analyses.def"
 PD_NONE,
 NUM_ANALYSIS_DIAG_CLIENTS
 };

 /// AnalysisPurgeModes - Set of available strategies for dead symbol removal.
 enum AnalysisPurgeMode {
 #define ANALYSIS_PURGE(NAME, CMDFLAG, DESC) NAME,
 #include "clang/StaticAnalyzer/Core/Analyses.def"
 NumPurgeModes
 };

 /// AnalysisInlineFunctionSelection - Set of inlining function selection heuristics.
 enum AnalysisInliningMode {
 #define ANALYSIS_INLINING_MODE(NAME, CMDFLAG, DESC) NAME,
 #include "clang/StaticAnalyzer/Core/Analyses.def"
 NumInliningModes
 };

 /// \brief Describes the different kinds of C++ member functions which can be
 /// considered for inlining by the analyzer.
 ///
 /// These options are cumulative; enabling one kind of member function will
 /// enable all kinds with lower enum values.
 enum CXXInlineableMemberKind {
   // Uninitialized = 0,

   /// A dummy mode in which no C++ inlining is enabled.
   CIMK_None = 1,

   /// Refers to regular member function and operator calls.
   CIMK_MemberFunctions,

   /// Refers to constructors (implicit or explicit).
   ///
   /// Note that a constructor will not be inlined if the corresponding
   /// destructor is non-trivial.
   CIMK_Constructors,

   /// Refers to destructors (implicit or explicit).
   CIMK_Destructors
 };

 /// \brief Describes the different modes of inter-procedural analysis.
 enum IPAKind {
   IPAK_NotSet = 0,

   /// Perform only intra-procedural analysis.
   IPAK_None = 1,

   /// Inline C functions and blocks when their definitions are available.
   IPAK_BasicInlining = 2,

   /// Inline callees(C, C++, ObjC) when their definitions are available.
   IPAK_Inlining = 3,

   /// Enable inlining of dynamically dispatched methods.
   IPAK_DynamicDispatch = 4,

   /// Enable inlining of dynamically dispatched methods, bifurcate paths when
   /// exact type info is unavailable.
   IPAK_DynamicDispatchBifurcate = 5
 };

 class AnalyzerOptions : public RefCountedBase<AnalyzerOptions> {
 public:
   typedef llvm::StringMap<std::string> ConfigTable;

   /// \brief Pair of checker name and enable/disable.
   std::vector<std::pair<std::string, bool> > CheckersControlList;

   /// \brief A key-value table of use-specified configuration values.
   ConfigTable Config;
   AnalysisStores AnalysisStoreOpt;
   AnalysisConstraints AnalysisConstraintsOpt;
   AnalysisDiagClients AnalysisDiagOpt;
   AnalysisPurgeMode AnalysisPurgeOpt;

   std::string AnalyzeSpecificFunction;

   /// \brief The maximum number of times the analyzer visits a block.
   unsigned maxBlockVisitOnPath;


   unsigned ShowCheckerHelp : 1;
   unsigned AnalyzeAll : 1;
   unsigned AnalyzerDisplayProgress : 1;
   unsigned AnalyzeNestedBlocks : 1;

   /// \brief The flag regulates if we should eagerly assume evaluations of
   /// conditionals, thus, bifurcating the path.
   ///
   /// This flag indicates how the engine should handle expressions such as: 'x =
   /// (y != 0)'.  When this flag is true then the subexpression 'y != 0' will be
   /// eagerly assumed to be true or false, thus evaluating it to the integers 0
   /// or 1 respectively.  The upside is that this can increase analysis
   /// precision until we have a better way to lazily evaluate such logic.  The
   /// downside is that it eagerly bifurcates paths.
   unsigned eagerlyAssumeBinOpBifurcation : 1;

   unsigned TrimGraph : 1;
   unsigned visualizeExplodedGraphWithGraphViz : 1;
   unsigned visualizeExplodedGraphWithUbiGraph : 1;
   unsigned UnoptimizedCFG : 1;
   unsigned PrintStats : 1;

   /// \brief Do not re-analyze paths leading to exhausted nodes with a different
   /// strategy. We get better code coverage when retry is enabled.
   unsigned NoRetryExhausted : 1;

   /// \brief The inlining stack depth limit.
   unsigned InlineMaxStackDepth;

   /// \brief The mode of function selection used during inlining.
   AnalysisInliningMode InliningMode;

 private:
   /// \brief Describes the kinds for high-level analyzer mode.
   enum UserModeKind {
     UMK_NotSet = 0,
     /// Perform shallow but fast analyzes.
     UMK_Shallow = 1,
     /// Perform deep analyzes.
     UMK_Deep = 2
   };

   /// Controls the high-level analyzer mode, which influences the default
   /// settings for some of the lower-level config options (such as IPAMode).
   /// \sa getUserMode
   UserModeKind UserMode;

   /// Controls the mode of inter-procedural analysis.
   IPAKind IPAMode;

   /// Controls which C++ member functions will be considered for inlining.
   CXXInlineableMemberKind CXXMemberInliningMode;

   /// \sa includeTemporaryDtorsInCFG
   Optional<bool> IncludeTemporaryDtorsInCFG;

   /// \sa mayInlineCXXStandardLibrary
   Optional<bool> InlineCXXStandardLibrary;

   /// \sa mayInlineTemplateFunctions
   Optional<bool> InlineTemplateFunctions;

   /// \sa mayInlineCXXAllocator
   Optional<bool> InlineCXXAllocator;

   /// \sa mayInlineCXXContainerMethods
   Optional<bool> InlineCXXContainerMethods;

   /// \sa mayInlineCXXSharedPtrDtor
   Optional<bool> InlineCXXSharedPtrDtor;

   /// \sa mayInlineObjCMethod
   Optional<bool> ObjCInliningMode;

   // Cache of the "ipa-always-inline-size" setting.
   // \sa getAlwaysInlineSize
   Optional<unsigned> AlwaysInlineSize;

   /// \sa shouldSuppressNullReturnPaths
   Optional<bool> SuppressNullReturnPaths;

   // \sa getMaxInlinableSize
   Optional<unsigned> MaxInlinableSize;

   /// \sa shouldAvoidSuppressingNullArgumentPaths
   Optional<bool> AvoidSuppressingNullArgumentPaths;

   /// \sa shouldSuppressInlinedDefensiveChecks
   Optional<bool> SuppressInlinedDefensiveChecks;

   /// \sa shouldSuppressFromCXXStandardLibrary
   Optional<bool> SuppressFromCXXStandardLibrary;

   /// \sa reportIssuesInMainSourceFile
   Optional<bool> ReportIssuesInMainSourceFile;

   /// \sa StableReportFilename
   Optional<bool> StableReportFilename;

   /// \sa getGraphTrimInterval
   Optional<unsigned> GraphTrimInterval;

   /// \sa getMaxTimesInlineLarge
   Optional<unsigned> MaxTimesInlineLarge;

   /// \sa getMaxNodesPerTopLevelFunction
   Optional<unsigned> MaxNodesPerTopLevelFunction;

 public:
   /// Interprets an option's string value as a boolean.
   ///
   /// Accepts the strings "true" and "false".
   /// If an option value is not provided, returns the given \p DefaultVal.
   bool getBooleanOption(StringRef Name, bool DefaultVal);

   /// Variant that accepts a Optional value to cache the result.
   bool getBooleanOption(Optional<bool> &V, StringRef Name, bool DefaultVal);

   /// Interprets an option's string value as an integer value.
   int getOptionAsInteger(StringRef Name, int DefaultVal);

   /// \brief Retrieves and sets the UserMode. This is a high-level option,
   /// which is used to set other low-level options. It is not accessible
   /// outside of AnalyzerOptions.
   UserModeKind getUserMode();

   /// \brief Returns the inter-procedural analysis mode.
   IPAKind getIPAMode();

   /// Returns the option controlling which C++ member functions will be
   /// considered for inlining.
   ///
   /// This is controlled by the 'c++-inlining' config option.
   ///
   /// \sa CXXMemberInliningMode
   bool mayInlineCXXMemberFunction(CXXInlineableMemberKind K);

   /// Returns true if ObjectiveC inlining is enabled, false otherwise.
   bool mayInlineObjCMethod();

   /// Returns whether or not the destructors for C++ temporary objects should
   /// be included in the CFG.
   ///
   /// This is controlled by the 'cfg-temporary-dtors' config option, which
   /// accepts the values "true" and "false".
   bool includeTemporaryDtorsInCFG();

   /// Returns whether or not C++ standard library functions may be considered
   /// for inlining.
   ///
   /// This is controlled by the 'c++-stdlib-inlining' config option, which
   /// accepts the values "true" and "false".
   bool mayInlineCXXStandardLibrary();

   /// Returns whether or not templated functions may be considered for inlining.
   ///
   /// This is controlled by the 'c++-template-inlining' config option, which
   /// accepts the values "true" and "false".
   bool mayInlineTemplateFunctions();

   /// Returns whether or not allocator call may be considered for inlining.
   ///
   /// This is controlled by the 'c++-allocator-inlining' config option, which
   /// accepts the values "true" and "false".
   bool mayInlineCXXAllocator();

   /// Returns whether or not methods of C++ container objects may be considered
   /// for inlining.
   ///
   /// This is controlled by the 'c++-container-inlining' config option, which
   /// accepts the values "true" and "false".
   bool mayInlineCXXContainerMethods();

   /// Returns whether or not the destructor of C++ 'shared_ptr' may be
   /// considered for inlining.
   ///
   /// This covers std::shared_ptr, std::tr1::shared_ptr, and boost::shared_ptr,
   /// and indeed any destructor named "~shared_ptr".
   ///
   /// This is controlled by the 'c++-shared_ptr-inlining' config option, which
   /// accepts the values "true" and "false".
   bool mayInlineCXXSharedPtrDtor();

   /// Returns whether or not paths that go through null returns should be
   /// suppressed.
   ///
   /// This is a heuristic for avoiding bug reports with paths that go through
   /// inlined functions that are more defensive than their callers.
   ///
   /// This is controlled by the 'suppress-null-return-paths' config option,
   /// which accepts the values "true" and "false".
   bool shouldSuppressNullReturnPaths();

   /// Returns whether a bug report should \em not be suppressed if its path
   /// includes a call with a null argument, even if that call has a null return.
   ///
   /// This option has no effect when #shouldSuppressNullReturnPaths() is false.
   ///
   /// This is a counter-heuristic to avoid false negatives.
   ///
   /// This is controlled by the 'avoid-suppressing-null-argument-paths' config
   /// option, which accepts the values "true" and "false".
   bool shouldAvoidSuppressingNullArgumentPaths();

   /// Returns whether or not diagnostics containing inlined defensive NULL
   /// checks should be suppressed.
   ///
   /// This is controlled by the 'suppress-inlined-defensive-checks' config
   /// option, which accepts the values "true" and "false".
   bool shouldSuppressInlinedDefensiveChecks();

   /// Returns whether or not diagnostics reported within the C++ standard
   /// library should be suppressed.
   ///
   /// This is controlled by the 'suppress-c++-stdlib' config option,
   /// which accepts the values "true" and "false".
   bool shouldSuppressFromCXXStandardLibrary();

   /// Returns whether or not the diagnostic report should be always reported
   /// in the main source file and not the headers.
   ///
   /// This is controlled by the 'report-in-main-source-file' config option,
   /// which accepts the values "true" and "false".
   bool shouldReportIssuesInMainSourceFile();

   /// Returns whether or not the report filename should be random or not.
   ///
   /// This is controlled by the 'stable-report-filename' config option,
   /// which accepts the values "true" and "false". Default = false
   bool shouldWriteStableReportFilename();

   /// Returns whether irrelevant parts of a bug report path should be pruned
   /// out of the final output.
   ///
   /// This is controlled by the 'prune-paths' config option, which accepts the
   /// values "true" and "false".
   bool shouldPrunePaths();

   /// Returns true if 'static' initializers should be in conditional logic
   /// in the CFG.
   bool shouldConditionalizeStaticInitializers();

   // Returns the size of the functions (in basic blocks), which should be
   // considered to be small enough to always inline.
   //
   // This is controlled by "ipa-always-inline-size" analyzer-config option.
   unsigned getAlwaysInlineSize();

   // Returns the bound on the number of basic blocks in an inlined function
   // (50 by default).
   //
   // This is controlled by "-analyzer-config max-inlinable-size" option.
   unsigned getMaxInlinableSize();

   /// Returns true if the analyzer engine should synthesize fake bodies
   /// for well-known functions.
   bool shouldSynthesizeBodies();

   /// Returns how often nodes in the ExplodedGraph should be recycled to save
   /// memory.
   ///
   /// This is controlled by the 'graph-trim-interval' config option. To disable
   /// node reclamation, set the option to "0".
   unsigned getGraphTrimInterval();

   /// Returns the maximum times a large function could be inlined.
   ///
   /// This is controlled by the 'max-times-inline-large' config option.
   unsigned getMaxTimesInlineLarge();

   /// Returns the maximum number of nodes the analyzer can generate while
   /// exploring a top level function (for each exploded graph).
   /// 150000 is default; 0 means no limit.
   ///
   /// This is controlled by the 'max-nodes' config option.
   unsigned getMaxNodesPerTopLevelFunction();

 public:
   AnalyzerOptions() :
     AnalysisStoreOpt(RegionStoreModel),
     AnalysisConstraintsOpt(RangeConstraintsModel),
     AnalysisDiagOpt(PD_HTML),
     AnalysisPurgeOpt(PurgeStmt),
     ShowCheckerHelp(0),
     AnalyzeAll(0),
     AnalyzerDisplayProgress(0),
     AnalyzeNestedBlocks(0),
     eagerlyAssumeBinOpBifurcation(0),
     TrimGraph(0),
     visualizeExplodedGraphWithGraphViz(0),
     visualizeExplodedGraphWithUbiGraph(0),
     UnoptimizedCFG(0),
     PrintStats(0),
     NoRetryExhausted(0),
     // Cap the stack depth at 4 calls (5 stack frames, base + 4 calls).
     InlineMaxStackDepth(5),
     InliningMode(NoRedundancy),
     UserMode(UMK_NotSet),
     IPAMode(IPAK_NotSet),
     CXXMemberInliningMode() {}

 };

 typedef IntrusiveRefCntPtr<AnalyzerOptions> AnalyzerOptionsRef;

 }

 #endif
	//===--- AnalyzerOptions.h - Analysis Engine Options ------------- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This header defines various options for the static analyzer that are set
	// by the frontend and are consulted throughout the analyzer.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_CLANG_ANALYZEROPTIONS_H
	#define LLVM_CLANG_ANALYZEROPTIONS_H

	#include "clang/Basic/LLVM.h"
	#include "llvm/ADT/IntrusiveRefCntPtr.h"
	#include "llvm/ADT/Optional.h"
	#include "llvm/ADT/StringMap.h"
	#include <string>
	#include <vector>

	namespace clang {
	class ASTConsumer;
	class DiagnosticsEngine;
	class Preprocessor;
	class LangOptions;

	/// Analysis - Set of available source code analyses.
	enum Analyses {
	#define ANALYSIS(NAME, CMDFLAG, DESC, SCOPE) NAME,
	#include "clang/StaticAnalyzer/Core/Analyses.def"
	NumAnalyses
	};

	/// AnalysisStores - Set of available analysis store models.
	enum AnalysisStores {
	#define ANALYSIS_STORE(NAME, CMDFLAG, DESC, CREATFN) NAME##Model,
	#include "clang/StaticAnalyzer/Core/Analyses.def"
	NumStores
	};

	/// AnalysisConstraints - Set of available constraint models.
	enum AnalysisConstraints {
	#define ANALYSIS_CONSTRAINTS(NAME, CMDFLAG, DESC, CREATFN) NAME##Model,
	#include "clang/StaticAnalyzer/Core/Analyses.def"
	NumConstraints
	};

	/// AnalysisDiagClients - Set of available diagnostic clients for rendering
	/// analysis results.
	enum AnalysisDiagClients {
	#define ANALYSIS_DIAGNOSTICS(NAME, CMDFLAG, DESC, CREATFN) PD_##NAME,
	#include "clang/StaticAnalyzer/Core/Analyses.def"
	PD_NONE,
	NUM_ANALYSIS_DIAG_CLIENTS
	};

	/// AnalysisPurgeModes - Set of available strategies for dead symbol removal.
	enum AnalysisPurgeMode {
	#define ANALYSIS_PURGE(NAME, CMDFLAG, DESC) NAME,
	#include "clang/StaticAnalyzer/Core/Analyses.def"
	NumPurgeModes
	};

	/// AnalysisInlineFunctionSelection - Set of inlining function selection heuristics.
	enum AnalysisInliningMode {
	#define ANALYSIS_INLINING_MODE(NAME, CMDFLAG, DESC) NAME,
	#include "clang/StaticAnalyzer/Core/Analyses.def"
	NumInliningModes
	};

	/// \brief Describes the different kinds of C++ member functions which can be
	/// considered for inlining by the analyzer.
	///
	/// These options are cumulative; enabling one kind of member function will
	/// enable all kinds with lower enum values.
	enum CXXInlineableMemberKind {
	// Uninitialized = 0,

	/// A dummy mode in which no C++ inlining is enabled.
	CIMK_None = 1,

	/// Refers to regular member function and operator calls.
	CIMK_MemberFunctions,

	/// Refers to constructors (implicit or explicit).
	///
	/// Note that a constructor will not be inlined if the corresponding
	/// destructor is non-trivial.
	CIMK_Constructors,

	/// Refers to destructors (implicit or explicit).
	CIMK_Destructors
	};

	/// \brief Describes the different modes of inter-procedural analysis.
	enum IPAKind {
	IPAK_NotSet = 0,

	/// Perform only intra-procedural analysis.
	IPAK_None = 1,

	/// Inline C functions and blocks when their definitions are available.
	IPAK_BasicInlining = 2,

	/// Inline callees(C, C++, ObjC) when their definitions are available.
	IPAK_Inlining = 3,

	/// Enable inlining of dynamically dispatched methods.
	IPAK_DynamicDispatch = 4,

	/// Enable inlining of dynamically dispatched methods, bifurcate paths when
	/// exact type info is unavailable.
	IPAK_DynamicDispatchBifurcate = 5
	};

	class AnalyzerOptions : public RefCountedBase<AnalyzerOptions> {
	public:
	typedef llvm::StringMap<std::string> ConfigTable;

	/// \brief Pair of checker name and enable/disable.
	std::vector<std::pair<std::string, bool> > CheckersControlList;

	/// \brief A key-value table of use-specified configuration values.
	ConfigTable Config;
	AnalysisStores AnalysisStoreOpt;
	AnalysisConstraints AnalysisConstraintsOpt;
	AnalysisDiagClients AnalysisDiagOpt;
	AnalysisPurgeMode AnalysisPurgeOpt;

	std::string AnalyzeSpecificFunction;

	/// \brief The maximum number of times the analyzer visits a block.
	unsigned maxBlockVisitOnPath;


	unsigned ShowCheckerHelp : 1;
	unsigned AnalyzeAll : 1;
	unsigned AnalyzerDisplayProgress : 1;
	unsigned AnalyzeNestedBlocks : 1;

	/// \brief The flag regulates if we should eagerly assume evaluations of
	/// conditionals, thus, bifurcating the path.
	///
	/// This flag indicates how the engine should handle expressions such as: 'x =
	/// (y != 0)'. When this flag is true then the subexpression 'y != 0' will be
	/// eagerly assumed to be true or false, thus evaluating it to the integers 0
	/// or 1 respectively. The upside is that this can increase analysis
	/// precision until we have a better way to lazily evaluate such logic. The
	/// downside is that it eagerly bifurcates paths.
	unsigned eagerlyAssumeBinOpBifurcation : 1;

	unsigned TrimGraph : 1;
	unsigned visualizeExplodedGraphWithGraphViz : 1;
	unsigned visualizeExplodedGraphWithUbiGraph : 1;
	unsigned UnoptimizedCFG : 1;
	unsigned PrintStats : 1;

	/// \brief Do not re-analyze paths leading to exhausted nodes with a different
	/// strategy. We get better code coverage when retry is enabled.
	unsigned NoRetryExhausted : 1;

	/// \brief The inlining stack depth limit.
	unsigned InlineMaxStackDepth;

	/// \brief The mode of function selection used during inlining.
	AnalysisInliningMode InliningMode;

	private:
	/// \brief Describes the kinds for high-level analyzer mode.
	enum UserModeKind {
	UMK_NotSet = 0,
	/// Perform shallow but fast analyzes.
	UMK_Shallow = 1,
	/// Perform deep analyzes.
	UMK_Deep = 2
	};

	/// Controls the high-level analyzer mode, which influences the default
	/// settings for some of the lower-level config options (such as IPAMode).
	/// \sa getUserMode
	UserModeKind UserMode;

	/// Controls the mode of inter-procedural analysis.
	IPAKind IPAMode;

	/// Controls which C++ member functions will be considered for inlining.
	CXXInlineableMemberKind CXXMemberInliningMode;

	/// \sa includeTemporaryDtorsInCFG
	Optional<bool> IncludeTemporaryDtorsInCFG;

	/// \sa mayInlineCXXStandardLibrary
	Optional<bool> InlineCXXStandardLibrary;

	/// \sa mayInlineTemplateFunctions
	Optional<bool> InlineTemplateFunctions;

	/// \sa mayInlineCXXAllocator
	Optional<bool> InlineCXXAllocator;

	/// \sa mayInlineCXXContainerMethods
	Optional<bool> InlineCXXContainerMethods;

	/// \sa mayInlineCXXSharedPtrDtor
	Optional<bool> InlineCXXSharedPtrDtor;

	/// \sa mayInlineObjCMethod
	Optional<bool> ObjCInliningMode;

	// Cache of the "ipa-always-inline-size" setting.
	// \sa getAlwaysInlineSize
	Optional<unsigned> AlwaysInlineSize;

	/// \sa shouldSuppressNullReturnPaths
	Optional<bool> SuppressNullReturnPaths;

	// \sa getMaxInlinableSize
	Optional<unsigned> MaxInlinableSize;

	/// \sa shouldAvoidSuppressingNullArgumentPaths
	Optional<bool> AvoidSuppressingNullArgumentPaths;

	/// \sa shouldSuppressInlinedDefensiveChecks
	Optional<bool> SuppressInlinedDefensiveChecks;

	/// \sa shouldSuppressFromCXXStandardLibrary
	Optional<bool> SuppressFromCXXStandardLibrary;

	/// \sa reportIssuesInMainSourceFile
	Optional<bool> ReportIssuesInMainSourceFile;

	/// \sa StableReportFilename
	Optional<bool> StableReportFilename;

	/// \sa getGraphTrimInterval
	Optional<unsigned> GraphTrimInterval;

	/// \sa getMaxTimesInlineLarge
	Optional<unsigned> MaxTimesInlineLarge;

	/// \sa getMaxNodesPerTopLevelFunction
	Optional<unsigned> MaxNodesPerTopLevelFunction;

	public:
	/// Interprets an option's string value as a boolean.
	///
	/// Accepts the strings "true" and "false".
	/// If an option value is not provided, returns the given \p DefaultVal.
	bool getBooleanOption(StringRef Name, bool DefaultVal);

	/// Variant that accepts a Optional value to cache the result.
	bool getBooleanOption(Optional<bool> &V, StringRef Name, bool DefaultVal);

	/// Interprets an option's string value as an integer value.
	int getOptionAsInteger(StringRef Name, int DefaultVal);

	/// \brief Retrieves and sets the UserMode. This is a high-level option,
	/// which is used to set other low-level options. It is not accessible
	/// outside of AnalyzerOptions.
	UserModeKind getUserMode();

	/// \brief Returns the inter-procedural analysis mode.
	IPAKind getIPAMode();

	/// Returns the option controlling which C++ member functions will be
	/// considered for inlining.
	///
	/// This is controlled by the 'c++-inlining' config option.
	///
	/// \sa CXXMemberInliningMode
	bool mayInlineCXXMemberFunction(CXXInlineableMemberKind K);

	/// Returns true if ObjectiveC inlining is enabled, false otherwise.
	bool mayInlineObjCMethod();

	/// Returns whether or not the destructors for C++ temporary objects should
	/// be included in the CFG.
	///
	/// This is controlled by the 'cfg-temporary-dtors' config option, which
	/// accepts the values "true" and "false".
	bool includeTemporaryDtorsInCFG();

	/// Returns whether or not C++ standard library functions may be considered
	/// for inlining.
	///
	/// This is controlled by the 'c++-stdlib-inlining' config option, which
	/// accepts the values "true" and "false".
	bool mayInlineCXXStandardLibrary();

	/// Returns whether or not templated functions may be considered for inlining.
	///
	/// This is controlled by the 'c++-template-inlining' config option, which
	/// accepts the values "true" and "false".
	bool mayInlineTemplateFunctions();

	/// Returns whether or not allocator call may be considered for inlining.
	///
	/// This is controlled by the 'c++-allocator-inlining' config option, which
	/// accepts the values "true" and "false".
	bool mayInlineCXXAllocator();

	/// Returns whether or not methods of C++ container objects may be considered
	/// for inlining.
	///
	/// This is controlled by the 'c++-container-inlining' config option, which
	/// accepts the values "true" and "false".
	bool mayInlineCXXContainerMethods();

	/// Returns whether or not the destructor of C++ 'shared_ptr' may be
	/// considered for inlining.
	///
	/// This covers std::shared_ptr, std::tr1::shared_ptr, and boost::shared_ptr,
	/// and indeed any destructor named "~shared_ptr".
	///
	/// This is controlled by the 'c++-shared_ptr-inlining' config option, which
	/// accepts the values "true" and "false".
	bool mayInlineCXXSharedPtrDtor();

	/// Returns whether or not paths that go through null returns should be
	/// suppressed.
	///
	/// This is a heuristic for avoiding bug reports with paths that go through
	/// inlined functions that are more defensive than their callers.
	///
	/// This is controlled by the 'suppress-null-return-paths' config option,
	/// which accepts the values "true" and "false".
	bool shouldSuppressNullReturnPaths();

	/// Returns whether a bug report should \em not be suppressed if its path
	/// includes a call with a null argument, even if that call has a null return.
	///
	/// This option has no effect when #shouldSuppressNullReturnPaths() is false.
	///
	/// This is a counter-heuristic to avoid false negatives.
	///
	/// This is controlled by the 'avoid-suppressing-null-argument-paths' config
	/// option, which accepts the values "true" and "false".
	bool shouldAvoidSuppressingNullArgumentPaths();

	/// Returns whether or not diagnostics containing inlined defensive NULL
	/// checks should be suppressed.
	///
	/// This is controlled by the 'suppress-inlined-defensive-checks' config
	/// option, which accepts the values "true" and "false".
	bool shouldSuppressInlinedDefensiveChecks();

	/// Returns whether or not diagnostics reported within the C++ standard
	/// library should be suppressed.
	///
	/// This is controlled by the 'suppress-c++-stdlib' config option,
	/// which accepts the values "true" and "false".
	bool shouldSuppressFromCXXStandardLibrary();

	/// Returns whether or not the diagnostic report should be always reported
	/// in the main source file and not the headers.
	///
	/// This is controlled by the 'report-in-main-source-file' config option,
	/// which accepts the values "true" and "false".
	bool shouldReportIssuesInMainSourceFile();

	/// Returns whether or not the report filename should be random or not.
	///
	/// This is controlled by the 'stable-report-filename' config option,
	/// which accepts the values "true" and "false". Default = false
	bool shouldWriteStableReportFilename();

	/// Returns whether irrelevant parts of a bug report path should be pruned
	/// out of the final output.
	///
	/// This is controlled by the 'prune-paths' config option, which accepts the
	/// values "true" and "false".
	bool shouldPrunePaths();

	/// Returns true if 'static' initializers should be in conditional logic
	/// in the CFG.
	bool shouldConditionalizeStaticInitializers();

	// Returns the size of the functions (in basic blocks), which should be
	// considered to be small enough to always inline.
	//
	// This is controlled by "ipa-always-inline-size" analyzer-config option.
	unsigned getAlwaysInlineSize();

	// Returns the bound on the number of basic blocks in an inlined function
	// (50 by default).
	//
	// This is controlled by "-analyzer-config max-inlinable-size" option.
	unsigned getMaxInlinableSize();

	/// Returns true if the analyzer engine should synthesize fake bodies
	/// for well-known functions.
	bool shouldSynthesizeBodies();

	/// Returns how often nodes in the ExplodedGraph should be recycled to save
	/// memory.
	///
	/// This is controlled by the 'graph-trim-interval' config option. To disable
	/// node reclamation, set the option to "0".
	unsigned getGraphTrimInterval();

	/// Returns the maximum times a large function could be inlined.
	///
	/// This is controlled by the 'max-times-inline-large' config option.
	unsigned getMaxTimesInlineLarge();

	/// Returns the maximum number of nodes the analyzer can generate while
	/// exploring a top level function (for each exploded graph).
	/// 150000 is default; 0 means no limit.
	///
	/// This is controlled by the 'max-nodes' config option.
	unsigned getMaxNodesPerTopLevelFunction();

	public:
	AnalyzerOptions() :
	AnalysisStoreOpt(RegionStoreModel),
	AnalysisConstraintsOpt(RangeConstraintsModel),
	AnalysisDiagOpt(PD_HTML),
	AnalysisPurgeOpt(PurgeStmt),
	ShowCheckerHelp(0),
	AnalyzeAll(0),
	AnalyzerDisplayProgress(0),
	AnalyzeNestedBlocks(0),
	eagerlyAssumeBinOpBifurcation(0),
	TrimGraph(0),
	visualizeExplodedGraphWithGraphViz(0),
	visualizeExplodedGraphWithUbiGraph(0),
	UnoptimizedCFG(0),
	PrintStats(0),
	NoRetryExhausted(0),
	// Cap the stack depth at 4 calls (5 stack frames, base + 4 calls).
	InlineMaxStackDepth(5),
	InliningMode(NoRedundancy),
	UserMode(UMK_NotSet),
	IPAMode(IPAK_NotSet),
	CXXMemberInliningMode() {}

	};

	typedef IntrusiveRefCntPtr<AnalyzerOptions> AnalyzerOptionsRef;

	}

	#endif