include/swift/Frontend/FrontendOptions.h - third_party/swift - Git at Google

 //===--- FrontendOptions.h --------------------------------------*- C++ -*-===//
 //
 // This source file is part of the Swift.org open source project
 //
 // Copyright (c) 2014 - 2017 Apple Inc. and the Swift project authors
 // Licensed under Apache License v2.0 with Runtime Library Exception
 //
 // See https://swift.org/LICENSE.txt for license information
 // See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
 //
 //===----------------------------------------------------------------------===//

 #ifndef SWIFT_FRONTEND_FRONTENDOPTIONS_H
 #define SWIFT_FRONTEND_FRONTENDOPTIONS_H

 #include "swift/AST/Module.h"
 #include "swift/Frontend/FrontendInputsAndOutputs.h"
 #include "swift/Frontend/InputFile.h"
 #include "llvm/ADT/Hashing.h"

 #include <string>
 #include <vector>

 namespace llvm {
   class MemoryBuffer;
 }

 namespace swift {


 /// Options for controlling the behavior of the frontend.
 class FrontendOptions {
   friend class ArgsToFrontendOptionsConverter;

 public:
   FrontendInputsAndOutputs InputsAndOutputs;

   /// The kind of input on which the frontend should operate.
   InputFileKind InputKind = InputFileKind::IFK_Swift;

   void forAllOutputPaths(const InputFile &input,
                          std::function<void(StringRef)> fn) const;

   bool isOutputFileDirectory() const;

   /// A list of arbitrary modules to import and make implicitly visible.
   std::vector<std::string> ImplicitImportModuleNames;

   /// An Objective-C header to import and make implicitly visible.
   std::string ImplicitObjCHeaderPath;

   /// The name of the module which the frontend is building.
   std::string ModuleName;

   /// The name of the library to link against when using this module.
   std::string ModuleLinkName;

   /// The path to which we should output fixits as source edits.
   std::string FixitsOutputPath;

   /// Arguments which should be passed in immediate mode.
   std::vector<std::string> ImmediateArgv;

   /// \brief A list of arguments to forward to LLVM's option processing; this
   /// should only be used for debugging and experimental features.
   std::vector<std::string> LLVMArgs;

   /// The path to output swift interface files for the compiled source files.
   std::string DumpAPIPath;

   /// The path to collect the group information for the compiled source files.
   std::string GroupInfoPath;

   /// The path to which we should store indexing data, if any.
   std::string IndexStorePath;

   /// Emit index data for imported serialized swift system modules.
   bool IndexSystemModules = false;

   /// If non-zero, warn when a function body takes longer than this many
   /// milliseconds to type-check.
   ///
   /// Intended for debugging purposes only.
   unsigned WarnLongFunctionBodies = 0;

   /// If non-zero, warn when type-checking an expression takes longer
   /// than this many milliseconds.
   ///
   /// Intended for debugging purposes only.
   unsigned WarnLongExpressionTypeChecking = 0;

   /// If non-zero, overrides the default threshold for how long we let
   /// the expression type checker run before we consider an expression
   /// too complex.
   unsigned SolverExpressionTimeThreshold = 0;

   /// The module for which we should verify all of the generic signatures.
   std::string VerifyGenericSignaturesInModule;

   enum class ActionType {
     NoneAction,        ///< No specific action
     Parse,             ///< Parse only
     Typecheck,         ///< Parse and type-check only
     DumpParse,         ///< Parse only and dump AST
     DumpInterfaceHash, ///< Parse and dump the interface token hash.
     EmitSyntax,        ///< Parse and dump Syntax tree as JSON
     DumpAST,           ///< Parse, type-check, and dump AST
     PrintAST,          ///< Parse, type-check, and pretty-print AST

     /// Parse and dump scope map.
     DumpScopeMaps,

     /// Parse, type-check, and dump type refinement context hierarchy
     DumpTypeRefinementContexts,

     EmitImportedModules, ///< Emit the modules that this one imports
     EmitPCH,             ///< Emit PCH of imported bridging header

     EmitSILGen, ///< Emit raw SIL
     EmitSIL,    ///< Emit canonical SIL

     EmitModuleOnly, ///< Emit module only
     MergeModules,   ///< Merge modules only

     EmitSIBGen, ///< Emit serialized AST + raw SIL
     EmitSIB,    ///< Emit serialized AST + canonical SIL

     Immediate, ///< Immediate mode
     REPL,      ///< REPL mode

     EmitAssembly, ///< Emit assembly
     EmitIR,       ///< Emit LLVM IR
     EmitBC,       ///< Emit LLVM BC
     EmitObject,   ///< Emit object file
   };

   bool isCreatingSIL() { return RequestedAction >= ActionType::EmitSILGen; }

   /// Indicates the action the user requested that the frontend perform.
   ActionType RequestedAction = ActionType::NoneAction;

   /// Indicates that the input(s) should be parsed as the Swift stdlib.
   bool ParseStdlib = false;

   /// If set, emitted module files will always contain options for the
   /// debugger to use.
   bool AlwaysSerializeDebuggingOptions = false;

   /// If set, dumps wall time taken to check each function body to llvm::errs().
   bool DebugTimeFunctionBodies = false;

   /// If set, dumps wall time taken to check each expression.
   bool DebugTimeExpressionTypeChecking = false;

   /// If set, prints the time taken in each major compilation phase to
   /// llvm::errs().
   ///
   /// \sa swift::SharedTimer
   bool DebugTimeCompilation = false;

   /// The path to which we should output statistics files.
   std::string StatsOutputDir;

   /// Trace changes to stats to files in StatsOutputDir.
   bool TraceStats = false;

   /// Profile changes to stats to files in StatsOutputDir.
   bool ProfileEvents = false;

   /// Profile changes to stats to files in StatsOutputDir, grouped by source
   /// entity.
   bool ProfileEntities = false;

   /// If true, serialization encodes an extra lookup table for use in module-
   /// merging when emitting partial modules (the per-file modules in a non-WMO
   /// build).
   bool EnableSerializationNestedTypeLookupTable = true;

   /// Indicates whether or not an import statement can pick up a Swift source
   /// file (as opposed to a module file).
   bool EnableSourceImport = false;

   /// Indicates whether we are compiling for testing.
   ///
   /// \see ModuleDecl::isTestingEnabled
   bool EnableTesting = false;

   /// Enables the "fully resilient" resilience strategy.
   ///
   /// \see ResilienceStrategy::Resilient
   bool EnableResilience = false;

   /// Indicates that the frontend should emit "verbose" SIL
   /// (if asked to emit SIL).
   bool EmitVerboseSIL = false;

   /// If set, this module is part of a mixed Objective-C/Swift framework, and
   /// the Objective-C half should implicitly be visible to the Swift sources.
   bool ImportUnderlyingModule = false;

   /// If set, the header provided in ImplicitObjCHeaderPath will be rewritten
   /// by the Clang importer as part of semantic analysis.
   bool SerializeBridgingHeader = false;

   /// Indicates whether or not the frontend should print statistics upon
   /// termination.
   bool PrintStats = false;

   /// Indicates whether or not the Clang importer should print statistics upon
   /// termination.
   bool PrintClangStats = false;

   /// Indicates whether the playground transformation should be applied.
   bool PlaygroundTransform = false;

   /// Indicates whether the AST should be instrumented to simulate a debugger's
   /// program counter. Similar to the PlaygroundTransform, this will instrument
   /// the AST with function calls that get called when you would see a program
   /// counter move in a debugger. To adopt this implement the
   /// __builtin_pc_before and __builtin_pc_after functions.
   bool PCMacro = false;

   /// Indicates whether the playground transformation should omit
   /// instrumentation that has a high runtime performance impact.
   bool PlaygroundHighPerformance = false;

   /// Indicates whether standard help should be shown.
   bool PrintHelp = false;

   /// Indicates whether full help (including "hidden" options) should be shown.
   bool PrintHelpHidden = false;

   /// Should we sort SIL functions, vtables, witness tables, and global
   /// variables by name when we print it out. This eases diffing of SIL files.
   bool EmitSortedSIL = false;

   /// The different modes for validating TBD against the LLVM IR.
   enum class TBDValidationMode {
     None,           ///< Do no validation.
     MissingFromTBD, ///< Only check for symbols that are in IR but not TBD.
     All, ///< Check for symbols that are in IR but not TBD and TBD but not IR.
   };

   /// Compare the symbols in the IR against the TBD file we would generate.
   TBDValidationMode ValidateTBDAgainstIR = TBDValidationMode::None;

   /// The install_name to use in the TBD file.
   std::string TBDInstallName;

   /// An enum with different modes for automatically crashing at defined times.
   enum class DebugCrashMode {
     None, ///< Don't automatically crash.
     AssertAfterParse, ///< Automatically assert after parsing.
     CrashAfterParse, ///< Automatically crash after parsing.
   };

   /// Indicates a debug crash mode for the frontend.
   DebugCrashMode CrashMode = DebugCrashMode::None;

   /// Line and column for each of the locations to be probed by
   /// -dump-scope-maps.
   SmallVector<std::pair<unsigned, unsigned>, 2> DumpScopeMapLocations;

   /// Indicates whether the action will immediately run code.
   static bool isActionImmediate(ActionType);

   /// \return true if action only parses without doing other compilation steps.
   static bool shouldActionOnlyParse(ActionType);

   /// Return a hash code of any components from these options that should
   /// contribute to a Swift Bridging PCH hash.
   llvm::hash_code getPCHHashComponents() const {
     return llvm::hash_value(0);
   }

   StringRef determineFallbackModuleName() const;

   bool isCompilingExactlyOneSwiftFile() const {
     return InputKind == InputFileKind::IFK_Swift &&
            InputsAndOutputs.hasSingleInput();
   }

   const PrimarySpecificPaths &
   getPrimarySpecificPathsForAtMostOnePrimary() const;
   const PrimarySpecificPaths &
       getPrimarySpecificPathsForPrimary(StringRef) const;

 private:
   static bool canActionEmitDependencies(ActionType);
   static bool canActionEmitObjCHeader(ActionType);
   static bool canActionEmitLoadedModuleTrace(ActionType);
   static bool canActionEmitModule(ActionType);
   static bool canActionEmitModuleDoc(ActionType);

 public:
   static bool doesActionProduceOutput(ActionType);
   static bool doesActionProduceTextualOutput(ActionType);
   static bool needsProperModuleName(ActionType);
   static const char *suffixForPrincipalOutputFileForAction(ActionType);
 };

 }

 #endif
	//===--- FrontendOptions.h --------------------------------------- C++ --===//
	//
	// This source file is part of the Swift.org open source project
	//
	// Copyright (c) 2014 - 2017 Apple Inc. and the Swift project authors
	// Licensed under Apache License v2.0 with Runtime Library Exception
	//
	// See https://swift.org/LICENSE.txt for license information
	// See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
	//
	//===----------------------------------------------------------------------===//

	#ifndef SWIFT_FRONTEND_FRONTENDOPTIONS_H
	#define SWIFT_FRONTEND_FRONTENDOPTIONS_H

	#include "swift/AST/Module.h"
	#include "swift/Frontend/FrontendInputsAndOutputs.h"
	#include "swift/Frontend/InputFile.h"
	#include "llvm/ADT/Hashing.h"

	#include <string>
	#include <vector>

	namespace llvm {
	class MemoryBuffer;
	}

	namespace swift {


	/// Options for controlling the behavior of the frontend.
	class FrontendOptions {
	friend class ArgsToFrontendOptionsConverter;

	public:
	FrontendInputsAndOutputs InputsAndOutputs;

	/// The kind of input on which the frontend should operate.
	InputFileKind InputKind = InputFileKind::IFK_Swift;

	void forAllOutputPaths(const InputFile &input,
	std::function<void(StringRef)> fn) const;

	bool isOutputFileDirectory() const;

	/// A list of arbitrary modules to import and make implicitly visible.
	std::vector<std::string> ImplicitImportModuleNames;

	/// An Objective-C header to import and make implicitly visible.
	std::string ImplicitObjCHeaderPath;

	/// The name of the module which the frontend is building.
	std::string ModuleName;

	/// The name of the library to link against when using this module.
	std::string ModuleLinkName;

	/// The path to which we should output fixits as source edits.
	std::string FixitsOutputPath;

	/// Arguments which should be passed in immediate mode.
	std::vector<std::string> ImmediateArgv;

	/// \brief A list of arguments to forward to LLVM's option processing; this
	/// should only be used for debugging and experimental features.
	std::vector<std::string> LLVMArgs;

	/// The path to output swift interface files for the compiled source files.
	std::string DumpAPIPath;

	/// The path to collect the group information for the compiled source files.
	std::string GroupInfoPath;

	/// The path to which we should store indexing data, if any.
	std::string IndexStorePath;

	/// Emit index data for imported serialized swift system modules.
	bool IndexSystemModules = false;

	/// If non-zero, warn when a function body takes longer than this many
	/// milliseconds to type-check.
	///
	/// Intended for debugging purposes only.
	unsigned WarnLongFunctionBodies = 0;

	/// If non-zero, warn when type-checking an expression takes longer
	/// than this many milliseconds.
	///
	/// Intended for debugging purposes only.
	unsigned WarnLongExpressionTypeChecking = 0;

	/// If non-zero, overrides the default threshold for how long we let
	/// the expression type checker run before we consider an expression
	/// too complex.
	unsigned SolverExpressionTimeThreshold = 0;

	/// The module for which we should verify all of the generic signatures.
	std::string VerifyGenericSignaturesInModule;

	enum class ActionType {
	NoneAction, ///< No specific action
	Parse, ///< Parse only
	Typecheck, ///< Parse and type-check only
	DumpParse, ///< Parse only and dump AST
	DumpInterfaceHash, ///< Parse and dump the interface token hash.
	EmitSyntax, ///< Parse and dump Syntax tree as JSON
	DumpAST, ///< Parse, type-check, and dump AST
	PrintAST, ///< Parse, type-check, and pretty-print AST

	/// Parse and dump scope map.
	DumpScopeMaps,

	/// Parse, type-check, and dump type refinement context hierarchy
	DumpTypeRefinementContexts,

	EmitImportedModules, ///< Emit the modules that this one imports
	EmitPCH, ///< Emit PCH of imported bridging header

	EmitSILGen, ///< Emit raw SIL
	EmitSIL, ///< Emit canonical SIL

	EmitModuleOnly, ///< Emit module only
	MergeModules, ///< Merge modules only

	EmitSIBGen, ///< Emit serialized AST + raw SIL
	EmitSIB, ///< Emit serialized AST + canonical SIL

	Immediate, ///< Immediate mode
	REPL, ///< REPL mode

	EmitAssembly, ///< Emit assembly
	EmitIR, ///< Emit LLVM IR
	EmitBC, ///< Emit LLVM BC
	EmitObject, ///< Emit object file
	};

	bool isCreatingSIL() { return RequestedAction >= ActionType::EmitSILGen; }

	/// Indicates the action the user requested that the frontend perform.
	ActionType RequestedAction = ActionType::NoneAction;

	/// Indicates that the input(s) should be parsed as the Swift stdlib.
	bool ParseStdlib = false;

	/// If set, emitted module files will always contain options for the
	/// debugger to use.
	bool AlwaysSerializeDebuggingOptions = false;

	/// If set, dumps wall time taken to check each function body to llvm::errs().
	bool DebugTimeFunctionBodies = false;

	/// If set, dumps wall time taken to check each expression.
	bool DebugTimeExpressionTypeChecking = false;

	/// If set, prints the time taken in each major compilation phase to
	/// llvm::errs().
	///
	/// \sa swift::SharedTimer
	bool DebugTimeCompilation = false;

	/// The path to which we should output statistics files.
	std::string StatsOutputDir;

	/// Trace changes to stats to files in StatsOutputDir.
	bool TraceStats = false;

	/// Profile changes to stats to files in StatsOutputDir.
	bool ProfileEvents = false;

	/// Profile changes to stats to files in StatsOutputDir, grouped by source
	/// entity.
	bool ProfileEntities = false;

	/// If true, serialization encodes an extra lookup table for use in module-
	/// merging when emitting partial modules (the per-file modules in a non-WMO
	/// build).
	bool EnableSerializationNestedTypeLookupTable = true;

	/// Indicates whether or not an import statement can pick up a Swift source
	/// file (as opposed to a module file).
	bool EnableSourceImport = false;

	/// Indicates whether we are compiling for testing.
	///
	/// \see ModuleDecl::isTestingEnabled
	bool EnableTesting = false;

	/// Enables the "fully resilient" resilience strategy.
	///
	/// \see ResilienceStrategy::Resilient
	bool EnableResilience = false;

	/// Indicates that the frontend should emit "verbose" SIL
	/// (if asked to emit SIL).
	bool EmitVerboseSIL = false;

	/// If set, this module is part of a mixed Objective-C/Swift framework, and
	/// the Objective-C half should implicitly be visible to the Swift sources.
	bool ImportUnderlyingModule = false;

	/// If set, the header provided in ImplicitObjCHeaderPath will be rewritten
	/// by the Clang importer as part of semantic analysis.
	bool SerializeBridgingHeader = false;

	/// Indicates whether or not the frontend should print statistics upon
	/// termination.
	bool PrintStats = false;

	/// Indicates whether or not the Clang importer should print statistics upon
	/// termination.
	bool PrintClangStats = false;

	/// Indicates whether the playground transformation should be applied.
	bool PlaygroundTransform = false;

	/// Indicates whether the AST should be instrumented to simulate a debugger's
	/// program counter. Similar to the PlaygroundTransform, this will instrument
	/// the AST with function calls that get called when you would see a program
	/// counter move in a debugger. To adopt this implement the
	/// __builtin_pc_before and __builtin_pc_after functions.
	bool PCMacro = false;

	/// Indicates whether the playground transformation should omit
	/// instrumentation that has a high runtime performance impact.
	bool PlaygroundHighPerformance = false;

	/// Indicates whether standard help should be shown.
	bool PrintHelp = false;

	/// Indicates whether full help (including "hidden" options) should be shown.
	bool PrintHelpHidden = false;

	/// Should we sort SIL functions, vtables, witness tables, and global
	/// variables by name when we print it out. This eases diffing of SIL files.
	bool EmitSortedSIL = false;

	/// The different modes for validating TBD against the LLVM IR.
	enum class TBDValidationMode {
	None, ///< Do no validation.
	MissingFromTBD, ///< Only check for symbols that are in IR but not TBD.
	All, ///< Check for symbols that are in IR but not TBD and TBD but not IR.
	};

	/// Compare the symbols in the IR against the TBD file we would generate.
	TBDValidationMode ValidateTBDAgainstIR = TBDValidationMode::None;

	/// The install_name to use in the TBD file.
	std::string TBDInstallName;

	/// An enum with different modes for automatically crashing at defined times.
	enum class DebugCrashMode {
	None, ///< Don't automatically crash.
	AssertAfterParse, ///< Automatically assert after parsing.
	CrashAfterParse, ///< Automatically crash after parsing.
	};

	/// Indicates a debug crash mode for the frontend.
	DebugCrashMode CrashMode = DebugCrashMode::None;

	/// Line and column for each of the locations to be probed by
	/// -dump-scope-maps.
	SmallVector<std::pair<unsigned, unsigned>, 2> DumpScopeMapLocations;

	/// Indicates whether the action will immediately run code.
	static bool isActionImmediate(ActionType);

	/// \return true if action only parses without doing other compilation steps.
	static bool shouldActionOnlyParse(ActionType);

	/// Return a hash code of any components from these options that should
	/// contribute to a Swift Bridging PCH hash.
	llvm::hash_code getPCHHashComponents() const {
	return llvm::hash_value(0);
	}

	StringRef determineFallbackModuleName() const;

	bool isCompilingExactlyOneSwiftFile() const {
	return InputKind == InputFileKind::IFK_Swift &&
	InputsAndOutputs.hasSingleInput();
	}

	const PrimarySpecificPaths &
	getPrimarySpecificPathsForAtMostOnePrimary() const;
	const PrimarySpecificPaths &
	getPrimarySpecificPathsForPrimary(StringRef) const;

	private:
	static bool canActionEmitDependencies(ActionType);
	static bool canActionEmitObjCHeader(ActionType);
	static bool canActionEmitLoadedModuleTrace(ActionType);
	static bool canActionEmitModule(ActionType);
	static bool canActionEmitModuleDoc(ActionType);

	public:
	static bool doesActionProduceOutput(ActionType);
	static bool doesActionProduceTextualOutput(ActionType);
	static bool needsProperModuleName(ActionType);
	static const char *suffixForPrincipalOutputFileForAction(ActionType);
	};

	}

	#endif