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

 //===--- LazyResolver.h - Lazy Resolution for ASTs --------------*- 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
 //
 //===----------------------------------------------------------------------===//
 //
 // This file defines the LazyResolver abstract interface.
 //
 //===----------------------------------------------------------------------===//

 #ifndef SWIFT_AST_LAZYRESOLVER_H
 #define SWIFT_AST_LAZYRESOLVER_H

 #include "swift/AST/TypeLoc.h"
 #include "llvm/ADT/PointerEmbeddedInt.h"

 namespace swift {

 class AssociatedTypeDecl;
 class Decl;
 class DeclContext;
 class ExtensionDecl;
 class Identifier;
 class NominalTypeDecl;
 class NormalProtocolConformance;
 class ProtocolConformance;
 class ProtocolDecl;
 class Substitution;
 class TypeDecl;
 class ValueDecl;
 class VarDecl;

 /// Abstract interface used to lazily resolve aspects of the AST, such as the
 /// types of declarations or protocol conformance structures.
 class LazyResolver {
 public:
   virtual ~LazyResolver();

   /// Resolve the type witnesses for the given associated type within the given
   /// protocol conformance.
   virtual void resolveTypeWitness(const NormalProtocolConformance *conformance,
                                   AssociatedTypeDecl *assocType) = 0;

   /// Resolve the witness for the given non-type requirement within
   /// the given protocol conformance.
   virtual void resolveWitness(const NormalProtocolConformance *conformance,
                               ValueDecl *requirement) = 0;

   /// Resolve an inherited conformance.
   virtual ProtocolConformance *resolveInheritedConformance(
                                  const NormalProtocolConformance *conformance,
                                  ProtocolDecl *inherited) = 0;

   /// Resolve the accessibility of a value.
   ///
   /// It does no type-checking.
   virtual void resolveAccessibility(ValueDecl *VD) = 0;

   /// Resolve the type and declaration attributes of a value.
   ///
   /// This can be called when the type or signature of a value is needed.
   /// It does not perform full type-checking, only checks for basic
   /// consistency and provides the value a type.
   virtual void resolveDeclSignature(ValueDecl *VD) = 0;

   /// Resolve the types in the inheritance clause of the given
   /// declaration context, which will be a type declaration or
   /// extension declaration.
   virtual void resolveInheritanceClause(
                  llvm::PointerUnion<TypeDecl *, ExtensionDecl *> decl) = 0;

   /// Resolve the superclass of the given class.
   virtual void resolveSuperclass(ClassDecl *classDecl) = 0;

   /// Resolve the raw type of the given enum.
   virtual void resolveRawType(EnumDecl *enumDecl) = 0;

   /// Resolve the inherited protocols of a given protocol.
   virtual void resolveInheritedProtocols(ProtocolDecl *protocol) = 0;

   /// Bind an extension to its extended type.
   virtual void bindExtension(ExtensionDecl *ext) = 0;

   /// Introduce the accessors for a 'lazy' variable.
   virtual void introduceLazyVarAccessors(VarDecl *var) = 0;

   /// Resolve the type of an extension.
   ///
   /// This can be called to ensure that the members of an extension can be
   /// considered to be members of the extended type.
   virtual void resolveExtension(ExtensionDecl *ext) = 0;

   /// Resolve any implicitly-declared constructors within the given nominal.
   virtual void resolveImplicitConstructors(NominalTypeDecl *nominal) = 0;

   /// Resolve any implicitly-generated members and conformances for generated
   /// external decls.
   virtual void resolveExternalDeclImplicitMembers(NominalTypeDecl *nominal) = 0;

   /// Determine whether the given (potentially constrained) protocol extension
   /// is usable for the given type.
   virtual bool isProtocolExtensionUsable(DeclContext *dc, Type type,
                                          ExtensionDecl *protocolExtension) = 0;
 };

 /// An implementation of LazyResolver that delegates to another.
 class DelegatingLazyResolver : public LazyResolver {
 protected:
   LazyResolver &Principal;
 public:
   DelegatingLazyResolver(LazyResolver &principal) : Principal(principal) {}
   ~DelegatingLazyResolver(); // v-table anchor

   void resolveTypeWitness(const NormalProtocolConformance *conformance,
                           AssociatedTypeDecl *assocType) override {
     Principal.resolveTypeWitness(conformance, assocType);
   }

   void resolveWitness(const NormalProtocolConformance *conformance,
                       ValueDecl *requirement) override {
     Principal.resolveWitness(conformance, requirement);
   }

   ProtocolConformance *resolveInheritedConformance(
                          const NormalProtocolConformance *conformance,
                          ProtocolDecl *inherited) override {
     return Principal.resolveInheritedConformance(conformance, inherited);
   }

   void resolveAccessibility(ValueDecl *VD) override {
     Principal.resolveAccessibility(VD);
   }

   void resolveDeclSignature(ValueDecl *VD) override {
     Principal.resolveDeclSignature(VD);
   }

   void resolveInheritanceClause(
                 llvm::PointerUnion<TypeDecl *, ExtensionDecl *> decl) override {
     Principal.resolveInheritanceClause(decl);
   }

   void resolveSuperclass(ClassDecl *classDecl) override {
     Principal.resolveSuperclass(classDecl);
   }

   void resolveRawType(EnumDecl *enumDecl) override {
     Principal.resolveRawType(enumDecl);
   }

   void resolveInheritedProtocols(ProtocolDecl *protocol) override {
     Principal.resolveInheritedProtocols(protocol);
   }

   void bindExtension(ExtensionDecl *ext) override {
     Principal.bindExtension(ext);
   }

   void introduceLazyVarAccessors(VarDecl *var) override {
     Principal.introduceLazyVarAccessors(var);
   }

   void resolveExtension(ExtensionDecl *ext) override {
     Principal.resolveExtension(ext);
   }

   void resolveImplicitConstructors(NominalTypeDecl *nominal) override {
     Principal.resolveImplicitConstructors(nominal);
   }

   void resolveExternalDeclImplicitMembers(NominalTypeDecl *nominal) override {
     Principal.resolveExternalDeclImplicitMembers(nominal);
   }

   bool isProtocolExtensionUsable(DeclContext *dc, Type type,
                                  ExtensionDecl *protocolExtension) override {
     return Principal.isProtocolExtensionUsable(dc, type, protocolExtension);
   }
 };

 /// Context data for lazy deserialization.
 class LazyContextData {
 public:
   /// The lazy member loader for this context.
   LazyMemberLoader *loader;
 };

 /// Context data for generic contexts.
 class LazyGenericContextData : public LazyContextData {
 public:
   /// The context data used for loading the generic environment.
   uint64_t genericEnvData = 0;
 };

 /// Context data for iterable decl contexts.
 class LazyIterableDeclContextData : public LazyGenericContextData {
 public:
   /// The context data used for loading all of the members of the iterable
   /// context.
   uint64_t memberData = 0;

   /// The context data used for loading all of the conformances of the
   /// iterable context.
   uint64_t allConformancesData = 0;
 };

 /// A class that can lazily load members from a serialized format.
 class alignas(void*) LazyMemberLoader {
   virtual void anchor();
 public:
   virtual ~LazyMemberLoader() = default;

   /// Populates the given vector with all member decls for \p D.
   ///
   /// The implementation should add the members to D.
   virtual void
   loadAllMembers(Decl *D, uint64_t contextData) {
     llvm_unreachable("unimplemented");
   }

   /// Populates the given vector with all conformances for \p D.
   ///
   /// The implementation should \em not call setConformances on \p D.
   virtual void
   loadAllConformances(const Decl *D, uint64_t contextData,
                       SmallVectorImpl<ProtocolConformance *> &Conformances) {
     llvm_unreachable("unimplemented");
   }

   /// Populates the given vector with all conformances for \p D.
   virtual void
   finishNormalConformance(NormalProtocolConformance *conformance,
                           uint64_t contextData) {
     llvm_unreachable("unimplemented");
   }

   /// Returns the default definition type for \p ATD.
   virtual TypeLoc loadAssociatedTypeDefault(const AssociatedTypeDecl *ATD,
                                             uint64_t contextData) {
     llvm_unreachable("unimplemented");
   }

   /// Returns the generic environment.
   virtual GenericEnvironment *loadGenericEnvironment(const DeclContext *decl,
                                                      uint64_t contextData) {
     llvm_unreachable("unimplemented");
   }
 };

 }

 #endif // LLVM_SWIFT_AST_LAZYRESOLVER_H
	//===--- LazyResolver.h - Lazy Resolution for ASTs --------------- 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
	//
	//===----------------------------------------------------------------------===//
	//
	// This file defines the LazyResolver abstract interface.
	//
	//===----------------------------------------------------------------------===//

	#ifndef SWIFT_AST_LAZYRESOLVER_H
	#define SWIFT_AST_LAZYRESOLVER_H

	#include "swift/AST/TypeLoc.h"
	#include "llvm/ADT/PointerEmbeddedInt.h"

	namespace swift {

	class AssociatedTypeDecl;
	class Decl;
	class DeclContext;
	class ExtensionDecl;
	class Identifier;
	class NominalTypeDecl;
	class NormalProtocolConformance;
	class ProtocolConformance;
	class ProtocolDecl;
	class Substitution;
	class TypeDecl;
	class ValueDecl;
	class VarDecl;

	/// Abstract interface used to lazily resolve aspects of the AST, such as the
	/// types of declarations or protocol conformance structures.
	class LazyResolver {
	public:
	virtual ~LazyResolver();

	/// Resolve the type witnesses for the given associated type within the given
	/// protocol conformance.
	virtual void resolveTypeWitness(const NormalProtocolConformance *conformance,
	AssociatedTypeDecl *assocType) = 0;

	/// Resolve the witness for the given non-type requirement within
	/// the given protocol conformance.
	virtual void resolveWitness(const NormalProtocolConformance *conformance,
	ValueDecl *requirement) = 0;

	/// Resolve an inherited conformance.
	virtual ProtocolConformance *resolveInheritedConformance(
	const NormalProtocolConformance *conformance,
	ProtocolDecl *inherited) = 0;

	/// Resolve the accessibility of a value.
	///
	/// It does no type-checking.
	virtual void resolveAccessibility(ValueDecl *VD) = 0;

	/// Resolve the type and declaration attributes of a value.
	///
	/// This can be called when the type or signature of a value is needed.
	/// It does not perform full type-checking, only checks for basic
	/// consistency and provides the value a type.
	virtual void resolveDeclSignature(ValueDecl *VD) = 0;

	/// Resolve the types in the inheritance clause of the given
	/// declaration context, which will be a type declaration or
	/// extension declaration.
	virtual void resolveInheritanceClause(
	llvm::PointerUnion<TypeDecl , ExtensionDecl > decl) = 0;

	/// Resolve the superclass of the given class.
	virtual void resolveSuperclass(ClassDecl *classDecl) = 0;

	/// Resolve the raw type of the given enum.
	virtual void resolveRawType(EnumDecl *enumDecl) = 0;

	/// Resolve the inherited protocols of a given protocol.
	virtual void resolveInheritedProtocols(ProtocolDecl *protocol) = 0;

	/// Bind an extension to its extended type.
	virtual void bindExtension(ExtensionDecl *ext) = 0;

	/// Introduce the accessors for a 'lazy' variable.
	virtual void introduceLazyVarAccessors(VarDecl *var) = 0;

	/// Resolve the type of an extension.
	///
	/// This can be called to ensure that the members of an extension can be
	/// considered to be members of the extended type.
	virtual void resolveExtension(ExtensionDecl *ext) = 0;

	/// Resolve any implicitly-declared constructors within the given nominal.
	virtual void resolveImplicitConstructors(NominalTypeDecl *nominal) = 0;

	/// Resolve any implicitly-generated members and conformances for generated
	/// external decls.
	virtual void resolveExternalDeclImplicitMembers(NominalTypeDecl *nominal) = 0;

	/// Determine whether the given (potentially constrained) protocol extension
	/// is usable for the given type.
	virtual bool isProtocolExtensionUsable(DeclContext *dc, Type type,
	ExtensionDecl *protocolExtension) = 0;
	};

	/// An implementation of LazyResolver that delegates to another.
	class DelegatingLazyResolver : public LazyResolver {
	protected:
	LazyResolver &Principal;
	public:
	DelegatingLazyResolver(LazyResolver &principal) : Principal(principal) {}
	~DelegatingLazyResolver(); // v-table anchor

	void resolveTypeWitness(const NormalProtocolConformance *conformance,
	AssociatedTypeDecl *assocType) override {
	Principal.resolveTypeWitness(conformance, assocType);
	}

	void resolveWitness(const NormalProtocolConformance *conformance,
	ValueDecl *requirement) override {
	Principal.resolveWitness(conformance, requirement);
	}

	ProtocolConformance *resolveInheritedConformance(
	const NormalProtocolConformance *conformance,
	ProtocolDecl *inherited) override {
	return Principal.resolveInheritedConformance(conformance, inherited);
	}

	void resolveAccessibility(ValueDecl *VD) override {
	Principal.resolveAccessibility(VD);
	}

	void resolveDeclSignature(ValueDecl *VD) override {
	Principal.resolveDeclSignature(VD);
	}

	void resolveInheritanceClause(
	llvm::PointerUnion<TypeDecl , ExtensionDecl > decl) override {
	Principal.resolveInheritanceClause(decl);
	}

	void resolveSuperclass(ClassDecl *classDecl) override {
	Principal.resolveSuperclass(classDecl);
	}

	void resolveRawType(EnumDecl *enumDecl) override {
	Principal.resolveRawType(enumDecl);
	}

	void resolveInheritedProtocols(ProtocolDecl *protocol) override {
	Principal.resolveInheritedProtocols(protocol);
	}

	void bindExtension(ExtensionDecl *ext) override {
	Principal.bindExtension(ext);
	}

	void introduceLazyVarAccessors(VarDecl *var) override {
	Principal.introduceLazyVarAccessors(var);
	}

	void resolveExtension(ExtensionDecl *ext) override {
	Principal.resolveExtension(ext);
	}

	void resolveImplicitConstructors(NominalTypeDecl *nominal) override {
	Principal.resolveImplicitConstructors(nominal);
	}

	void resolveExternalDeclImplicitMembers(NominalTypeDecl *nominal) override {
	Principal.resolveExternalDeclImplicitMembers(nominal);
	}

	bool isProtocolExtensionUsable(DeclContext *dc, Type type,
	ExtensionDecl *protocolExtension) override {
	return Principal.isProtocolExtensionUsable(dc, type, protocolExtension);
	}
	};

	/// Context data for lazy deserialization.
	class LazyContextData {
	public:
	/// The lazy member loader for this context.
	LazyMemberLoader *loader;
	};

	/// Context data for generic contexts.
	class LazyGenericContextData : public LazyContextData {
	public:
	/// The context data used for loading the generic environment.
	uint64_t genericEnvData = 0;
	};

	/// Context data for iterable decl contexts.
	class LazyIterableDeclContextData : public LazyGenericContextData {
	public:
	/// The context data used for loading all of the members of the iterable
	/// context.
	uint64_t memberData = 0;

	/// The context data used for loading all of the conformances of the
	/// iterable context.
	uint64_t allConformancesData = 0;
	};

	/// A class that can lazily load members from a serialized format.
	class alignas(void*) LazyMemberLoader {
	virtual void anchor();
	public:
	virtual ~LazyMemberLoader() = default;

	/// Populates the given vector with all member decls for \p D.
	///
	/// The implementation should add the members to D.
	virtual void
	loadAllMembers(Decl *D, uint64_t contextData) {
	llvm_unreachable("unimplemented");
	}

	/// Populates the given vector with all conformances for \p D.
	///
	/// The implementation should \em not call setConformances on \p D.
	virtual void
	loadAllConformances(const Decl *D, uint64_t contextData,
	SmallVectorImpl<ProtocolConformance *> &Conformances) {
	llvm_unreachable("unimplemented");
	}

	/// Populates the given vector with all conformances for \p D.
	virtual void
	finishNormalConformance(NormalProtocolConformance *conformance,
	uint64_t contextData) {
	llvm_unreachable("unimplemented");
	}

	/// Returns the default definition type for \p ATD.
	virtual TypeLoc loadAssociatedTypeDefault(const AssociatedTypeDecl *ATD,
	uint64_t contextData) {
	llvm_unreachable("unimplemented");
	}

	/// Returns the generic environment.
	virtual GenericEnvironment loadGenericEnvironment(const DeclContext decl,
	uint64_t contextData) {
	llvm_unreachable("unimplemented");
	}
	};

	}

	#endif // LLVM_SWIFT_AST_LAZYRESOLVER_H