include/swift/AST/ClangModuleLoader.h - third_party/swift - Git at Google

 //===--- ClangModuleLoader.h - Clang Module Loader Interface ----*- 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_AST_CLANG_MODULE_LOADER_H
 #define SWIFT_AST_CLANG_MODULE_LOADER_H

 #include "swift/AST/ModuleLoader.h"
 #include "swift/AST/SubstitutionMap.h"
 #include "swift/Basic/TaggedUnion.h"
 #include "clang/AST/DeclTemplate.h"

 namespace clang {
 class ASTContext;
 class CompilerInstance;
 class Decl;
 class Module;
 class Preprocessor;
 class Sema;
 class TargetInfo;
 class Type;
 } // namespace clang

 namespace swift {

 class Decl;
 class DeclContext;
 class VisibleDeclConsumer;

 /// Represents the different namespaces for types in C.
 ///
 /// A simplified version of clang::Sema::LookupKind.
 enum class ClangTypeKind {
   Typedef,
   ObjCClass = Typedef,
   /// Structs, enums, and unions.
   Tag,
   ObjCProtocol,
 };

 /// A path for serializing a declaration.
 class StableSerializationPath {
 public:
   struct ExternalPath {
     enum ComponentKind {
       /// A named record type (but not a template specialization)
       Record,

       /// A named enum type
       Enum,

       /// A C++ namespace
       Namespace,

       /// A typedef
       Typedef,

       /// A typedef's anonymous tag declaration.  Identifier is empty.
       TypedefAnonDecl,

       /// An Objective-C interface.
       ObjCInterface,

       /// An Objective-C protocol.
       ObjCProtocol,
     };

     static bool requiresIdentifier(ComponentKind kind) {
       return kind != TypedefAnonDecl;
     }

     SmallVector<std::pair<ComponentKind, Identifier>, 2> Path;

     void add(ComponentKind kind, Identifier name) {
       Path.push_back({kind, name});
     }
   };
 private:
   TaggedUnion<void, const Decl *, ExternalPath> Union;

 public:
   StableSerializationPath() {}
   StableSerializationPath(const Decl *d) : Union(d) {}
   StableSerializationPath(ExternalPath ext) : Union(ext) {}

   explicit operator bool() const { return !Union.empty(); }

   bool isSwiftDecl() const { return Union.isa<const Decl*>(); }
   const Decl *getSwiftDecl() const {
     assert(isSwiftDecl());
     return Union.get<const Decl*>();
   }

   bool isExternalPath() const { return Union.isa<ExternalPath>(); }
   const ExternalPath &getExternalPath() const {
     assert(isExternalPath());
     return Union.get<ExternalPath>();
   }

   SWIFT_DEBUG_DUMP;
   void dump(raw_ostream &os) const;
 };

 class ClangModuleLoader : public ModuleLoader {
 private:
   virtual void anchor() override;

 protected:
   using ModuleLoader::ModuleLoader;

 public:
   virtual clang::TargetInfo &getTargetInfo() const = 0;
   virtual clang::ASTContext &getClangASTContext() const = 0;
   virtual clang::Preprocessor &getClangPreprocessor() const = 0;
   virtual clang::Sema &getClangSema() const = 0;
   virtual const clang::CompilerInstance &getClangInstance() const = 0;
   virtual void printStatistics() const = 0;

   /// Returns the module that contains imports and declarations from all loaded
   /// Objective-C header files.
   virtual ModuleDecl *getImportedHeaderModule() const = 0;

   /// Retrieves the Swift wrapper for the given Clang module, creating
   /// it if necessary.
   virtual ModuleDecl *
   getWrapperForModule(const clang::Module *mod,
                       bool returnOverlayIfPossible = false) const = 0;

   /// Adds a new search path to the Clang CompilerInstance, as if specified with
   /// -I or -F.
   ///
   /// \returns true if there was an error adding the search path.
   virtual bool addSearchPath(StringRef newSearchPath, bool isFramework,
                              bool isSystem) = 0;

   /// Determine whether \c overlayDC is within an overlay module for the
   /// imported context enclosing \c importedDC.
   ///
   /// This routine is used for various hacks that are only permitted within
   /// overlays of imported modules, e.g., Objective-C bridging conformances.
   virtual bool
   isInOverlayModuleForImportedModule(const DeclContext *overlayDC,
                                      const DeclContext *importedDC) = 0;

   /// Look for declarations associated with the given name.
   ///
   /// \param name The name we're searching for.
   virtual void lookupValue(DeclName name, VisibleDeclConsumer &consumer) = 0;

   /// Look up a type declaration by its Clang name.
   ///
   /// Note that this method does no filtering. If it finds the type in a loaded
   /// module, it returns it. This is intended for use in reflection / debugging
   /// contexts where access is not a problem.
   virtual void
   lookupTypeDecl(StringRef clangName, ClangTypeKind kind,
                  llvm::function_ref<void(TypeDecl *)> receiver) = 0;

   /// Look up type a declaration synthesized by the Clang importer itself, using
   /// a "related entity kind" to determine which type it should be. For example,
   /// this can be used to find the synthesized error struct for an
   /// NS_ERROR_ENUM.
   ///
   /// Note that this method does no filtering. If it finds the type in a loaded
   /// module, it returns it. This is intended for use in reflection / debugging
   /// contexts where access is not a problem.
   virtual void
   lookupRelatedEntity(StringRef clangName, ClangTypeKind kind,
                       StringRef relatedEntityKind,
                       llvm::function_ref<void(TypeDecl *)> receiver) = 0;

   /// Try to parse the string as a Clang function type.
   ///
   /// Returns null if there was a parsing failure.
   virtual const clang::Type *parseClangFunctionType(StringRef type,
                                                     SourceLoc loc) const = 0;

   /// Print the Clang type.
   virtual void printClangType(const clang::Type *type,
                               llvm::raw_ostream &os) const = 0;

   /// Try to find a stable serialization path for the given declaration,
   /// if there is one.
   virtual StableSerializationPath
   findStableSerializationPath(const clang::Decl *decl) const = 0;

   /// Try to resolve a stable serialization path down to the original
   /// declaration.
   virtual const clang::Decl *
   resolveStableSerializationPath(const StableSerializationPath &path) const = 0;

   /// Determine whether the given type is serializable.
   ///
   /// If \c checkCanonical is true, checks the canonical type,
   /// not the given possibly-sugared type.  In general:
   ///  - non-canonical representations should be preserving the
   ///    sugared type even if it isn't serializable, since that
   ///    maintains greater source fidelity;
   ///  - semantic checks need to be checking the serializability
   ///    of the canonical type, since it's always potentially
   ///    necessary to serialize that (e.g. in SIL); and
   ///  - serializers can try to serialize the sugared type to
   ///    maintain source fidelity and just fall back on the canonical
   ///    type if that's not possible.
   ///
   /// The expectation here is that this predicate is meaningful
   /// independent of the actual form of serialization: the types
   /// that we can't reliably binary-serialize without an absolute
   /// Clang AST cross-reference are the same types that won't
   /// reliably round-trip through a textual format.  At the very
   /// least, it's probably best to use conservative predicates
   /// that work both ways so that language behavior doesn't differ
   /// based on subtleties like the target module interface format.
   virtual bool isSerializable(const clang::Type *type,
                               bool checkCanonical) const = 0;

   virtual clang::FunctionDecl *
   instantiateCXXFunctionTemplate(ASTContext &ctx,
                                  clang::FunctionTemplateDecl *func,
                                  SubstitutionMap subst) = 0;
 };

 /// Used to describe a template instantiation error.
 struct TemplateInstantiationError {
   /// Generic types that could not be converted to QualTypes using the
   /// ClangTypeConverter.
   SmallVector<Type, 4> failedTypes;
 };

 } // namespace swift

 #endif // LLVM_SWIFT_AST_CLANG_MODULE_LOADER_H
	//===--- ClangModuleLoader.h - Clang Module Loader Interface ----- 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_AST_CLANG_MODULE_LOADER_H
	#define SWIFT_AST_CLANG_MODULE_LOADER_H

	#include "swift/AST/ModuleLoader.h"
	#include "swift/AST/SubstitutionMap.h"
	#include "swift/Basic/TaggedUnion.h"
	#include "clang/AST/DeclTemplate.h"

	namespace clang {
	class ASTContext;
	class CompilerInstance;
	class Decl;
	class Module;
	class Preprocessor;
	class Sema;
	class TargetInfo;
	class Type;
	} // namespace clang

	namespace swift {

	class Decl;
	class DeclContext;
	class VisibleDeclConsumer;

	/// Represents the different namespaces for types in C.
	///
	/// A simplified version of clang::Sema::LookupKind.
	enum class ClangTypeKind {
	Typedef,
	ObjCClass = Typedef,
	/// Structs, enums, and unions.
	Tag,
	ObjCProtocol,
	};

	/// A path for serializing a declaration.
	class StableSerializationPath {
	public:
	struct ExternalPath {
	enum ComponentKind {
	/// A named record type (but not a template specialization)
	Record,

	/// A named enum type
	Enum,

	/// A C++ namespace
	Namespace,

	/// A typedef
	Typedef,

	/// A typedef's anonymous tag declaration. Identifier is empty.
	TypedefAnonDecl,

	/// An Objective-C interface.
	ObjCInterface,

	/// An Objective-C protocol.
	ObjCProtocol,
	};

	static bool requiresIdentifier(ComponentKind kind) {
	return kind != TypedefAnonDecl;
	}

	SmallVector<std::pair<ComponentKind, Identifier>, 2> Path;

	void add(ComponentKind kind, Identifier name) {
	Path.push_back({kind, name});
	}
	};
	private:
	TaggedUnion<void, const Decl *, ExternalPath> Union;

	public:
	StableSerializationPath() {}
	StableSerializationPath(const Decl *d) : Union(d) {}
	StableSerializationPath(ExternalPath ext) : Union(ext) {}

	explicit operator bool() const { return !Union.empty(); }

	bool isSwiftDecl() const { return Union.isa<const Decl*>(); }
	const Decl *getSwiftDecl() const {
	assert(isSwiftDecl());
	return Union.get<const Decl*>();
	}

	bool isExternalPath() const { return Union.isa<ExternalPath>(); }
	const ExternalPath &getExternalPath() const {
	assert(isExternalPath());
	return Union.get<ExternalPath>();
	}

	SWIFT_DEBUG_DUMP;
	void dump(raw_ostream &os) const;
	};

	class ClangModuleLoader : public ModuleLoader {
	private:
	virtual void anchor() override;

	protected:
	using ModuleLoader::ModuleLoader;

	public:
	virtual clang::TargetInfo &getTargetInfo() const = 0;
	virtual clang::ASTContext &getClangASTContext() const = 0;
	virtual clang::Preprocessor &getClangPreprocessor() const = 0;
	virtual clang::Sema &getClangSema() const = 0;
	virtual const clang::CompilerInstance &getClangInstance() const = 0;
	virtual void printStatistics() const = 0;

	/// Returns the module that contains imports and declarations from all loaded
	/// Objective-C header files.
	virtual ModuleDecl *getImportedHeaderModule() const = 0;

	/// Retrieves the Swift wrapper for the given Clang module, creating
	/// it if necessary.
	virtual ModuleDecl *
	getWrapperForModule(const clang::Module *mod,
	bool returnOverlayIfPossible = false) const = 0;

	/// Adds a new search path to the Clang CompilerInstance, as if specified with
	/// -I or -F.
	///
	/// \returns true if there was an error adding the search path.
	virtual bool addSearchPath(StringRef newSearchPath, bool isFramework,
	bool isSystem) = 0;

	/// Determine whether \c overlayDC is within an overlay module for the
	/// imported context enclosing \c importedDC.
	///
	/// This routine is used for various hacks that are only permitted within
	/// overlays of imported modules, e.g., Objective-C bridging conformances.
	virtual bool
	isInOverlayModuleForImportedModule(const DeclContext *overlayDC,
	const DeclContext *importedDC) = 0;

	/// Look for declarations associated with the given name.
	///
	/// \param name The name we're searching for.
	virtual void lookupValue(DeclName name, VisibleDeclConsumer &consumer) = 0;

	/// Look up a type declaration by its Clang name.
	///
	/// Note that this method does no filtering. If it finds the type in a loaded
	/// module, it returns it. This is intended for use in reflection / debugging
	/// contexts where access is not a problem.
	virtual void
	lookupTypeDecl(StringRef clangName, ClangTypeKind kind,
	llvm::function_ref<void(TypeDecl *)> receiver) = 0;

	/// Look up type a declaration synthesized by the Clang importer itself, using
	/// a "related entity kind" to determine which type it should be. For example,
	/// this can be used to find the synthesized error struct for an
	/// NS_ERROR_ENUM.
	///
	/// Note that this method does no filtering. If it finds the type in a loaded
	/// module, it returns it. This is intended for use in reflection / debugging
	/// contexts where access is not a problem.
	virtual void
	lookupRelatedEntity(StringRef clangName, ClangTypeKind kind,
	StringRef relatedEntityKind,
	llvm::function_ref<void(TypeDecl *)> receiver) = 0;

	/// Try to parse the string as a Clang function type.
	///
	/// Returns null if there was a parsing failure.
	virtual const clang::Type *parseClangFunctionType(StringRef type,
	SourceLoc loc) const = 0;

	/// Print the Clang type.
	virtual void printClangType(const clang::Type *type,
	llvm::raw_ostream &os) const = 0;

	/// Try to find a stable serialization path for the given declaration,
	/// if there is one.
	virtual StableSerializationPath
	findStableSerializationPath(const clang::Decl *decl) const = 0;

	/// Try to resolve a stable serialization path down to the original
	/// declaration.
	virtual const clang::Decl *
	resolveStableSerializationPath(const StableSerializationPath &path) const = 0;

	/// Determine whether the given type is serializable.
	///
	/// If \c checkCanonical is true, checks the canonical type,
	/// not the given possibly-sugared type. In general:
	/// - non-canonical representations should be preserving the
	/// sugared type even if it isn't serializable, since that
	/// maintains greater source fidelity;
	/// - semantic checks need to be checking the serializability
	/// of the canonical type, since it's always potentially
	/// necessary to serialize that (e.g. in SIL); and
	/// - serializers can try to serialize the sugared type to
	/// maintain source fidelity and just fall back on the canonical
	/// type if that's not possible.
	///
	/// The expectation here is that this predicate is meaningful
	/// independent of the actual form of serialization: the types
	/// that we can't reliably binary-serialize without an absolute
	/// Clang AST cross-reference are the same types that won't
	/// reliably round-trip through a textual format. At the very
	/// least, it's probably best to use conservative predicates
	/// that work both ways so that language behavior doesn't differ
	/// based on subtleties like the target module interface format.
	virtual bool isSerializable(const clang::Type *type,
	bool checkCanonical) const = 0;

	virtual clang::FunctionDecl *
	instantiateCXXFunctionTemplate(ASTContext &ctx,
	clang::FunctionTemplateDecl *func,
	SubstitutionMap subst) = 0;
	};

	/// Used to describe a template instantiation error.
	struct TemplateInstantiationError {
	/// Generic types that could not be converted to QualTypes using the
	/// ClangTypeConverter.
	SmallVector<Type, 4> failedTypes;
	};

	} // namespace swift

	#endif // LLVM_SWIFT_AST_CLANG_MODULE_LOADER_H