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

 //===--- ModuleLoader.h - 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
 //
 //===----------------------------------------------------------------------===//
 //
 // This file implements an abstract interface for loading modules.
 //
 //===----------------------------------------------------------------------===//

 #ifndef SWIFT_AST_MODULE_LOADER_H
 #define SWIFT_AST_MODULE_LOADER_H

 #include "swift/AST/Identifier.h"
 #include "swift/AST/Import.h"
 #include "swift/Basic/LLVM.h"
 #include "swift/Basic/Located.h"
 #include "swift/Basic/SourceLoc.h"
 #include "llvm/ADT/SetVector.h"
 #include "llvm/ADT/TinyPtrVector.h"
 #include "swift/AST/ModuleDependencies.h"
 #include <system_error>

 namespace llvm {
 class FileCollectorBase;
 }

 namespace clang {
 class DependencyCollector;
 }

 namespace swift {

 class AbstractFunctionDecl;
 struct AutoDiffConfig;
 class ClangImporterOptions;
 class ClassDecl;
 class FileUnit;
 class ModuleDecl;
 class ModuleDependencies;
 class ModuleDependenciesCache;
 class NominalTypeDecl;
 class SourceFile;
 class TypeDecl;
 class CompilerInstance;

 enum class KnownProtocolKind : uint8_t;

 enum class Bridgeability : unsigned {
   /// This context does not permit bridging at all.  For example, the
   /// target of a C pointer.
   None,

   /// This context permits all kinds of bridging.  For example, the
   /// imported result of a method declaration.
   Full
 };

 /// Specifies which dependencies the intermodule dependency tracker records.
 enum class IntermoduleDepTrackingMode {
   /// Records both system and non-system dependencies.
   IncludeSystem,

   /// Records only non-system dependencies.
   ExcludeSystem,
 };

 /// Records dependencies on files outside of the current module;
 /// implemented in terms of a wrapped clang::DependencyCollector.
 class DependencyTracker {
   std::shared_ptr<clang::DependencyCollector> clangCollector;
   SmallVector<std::string, 8> incrementalDeps;
   llvm::StringSet<> incrementalDepsUniquer;

 public:
   explicit DependencyTracker(
       IntermoduleDepTrackingMode Mode,
       std::shared_ptr<llvm::FileCollectorBase> FileCollector = {});

   /// Adds a file as a dependency.
   ///
   /// The contents of \p File are taken literally, and should be appropriate
   /// for appearing in a list of dependencies suitable for tooling like Make.
   /// No path canonicalization is done.
   void addDependency(StringRef File, bool IsSystem);

   /// Adds a file as an incremental dependency.
   ///
   /// No additional canonicalization or adulteration of the file path in
   /// \p File is performed.
   void addIncrementalDependency(StringRef File);

   /// Fetches the list of dependencies.
   ArrayRef<std::string> getDependencies() const;

   /// Fetches the list of dependencies that are known to have incremental swift
   /// dependency information embedded inside of them.
   ArrayRef<std::string> getIncrementalDependencies() const;

   /// Return the underlying clang::DependencyCollector that this
   /// class wraps.
   std::shared_ptr<clang::DependencyCollector> getClangCollector();
 };

 struct SubCompilerInstanceInfo {
   StringRef CompilerVersion;
   CompilerInstance* Instance;
   StringRef Hash;
   ArrayRef<StringRef> BuildArguments;
   ArrayRef<StringRef> ExtraPCMArgs;
 };

 /// Abstract interface for a checker of module interfaces and prebuilt modules.
 class ModuleInterfaceChecker {
 public:
   virtual std::vector<std::string>
   getCompiledModuleCandidatesForInterface(StringRef moduleName,
                                           StringRef interfacePath) = 0;

   /// Given a list of potential ready-to-use compiled modules for \p interfacePath,
   /// check if any one of them is up-to-date. If so, emit a forwarding module
   /// to the candidate binary module to \p outPath.
   virtual bool tryEmitForwardingModule(StringRef moduleName,
                                StringRef interfacePath,
                                ArrayRef<std::string> candidates,
                                StringRef outPath) = 0;
   virtual ~ModuleInterfaceChecker() = default;
 };

 /// Abstract interface to run an action in a sub ASTContext.
 struct InterfaceSubContextDelegate {
   virtual std::error_code runInSubContext(StringRef moduleName,
                                           StringRef interfacePath,
                                           StringRef outputPath,
                                           SourceLoc diagLoc,
     llvm::function_ref<std::error_code(ASTContext&, ModuleDecl*,
                                        ArrayRef<StringRef>,
                                        ArrayRef<StringRef>, StringRef)> action) = 0;
   virtual std::error_code runInSubCompilerInstance(StringRef moduleName,
                                                    StringRef interfacePath,
                                                    StringRef outputPath,
                                                    SourceLoc diagLoc,
     llvm::function_ref<std::error_code(SubCompilerInstanceInfo&)> action) = 0;

   virtual ~InterfaceSubContextDelegate() = default;
 };

 /// Abstract interface that loads named modules into the AST.
 class ModuleLoader {
   virtual void anchor();

 protected:
   DependencyTracker * const dependencyTracker;
   ModuleLoader(DependencyTracker *tracker) : dependencyTracker(tracker) {}

 public:
   virtual ~ModuleLoader() = default;

   /// Collect visible module names.
   ///
   /// Append visible module names to \p names. Note that names are possibly
   /// duplicated, and not guaranteed to be ordered in any way.
   virtual void collectVisibleTopLevelModuleNames(
       SmallVectorImpl<Identifier> &names) const = 0;

   /// Check whether the module with a given name can be imported without
   /// importing it.
   ///
   /// Note that even if this check succeeds, errors may still occur if the
   /// module is loaded in full.
   virtual bool canImportModule(ImportPath::Element named) = 0;

   /// Import a module with the given module path.
   ///
   /// \param importLoc The location of the 'import' keyword.
   ///
   /// \param path A sequence of (identifier, location) pairs that denote
   /// the dotted module name to load, e.g., AppKit.NSWindow.
   ///
   /// \returns the module referenced, if it could be loaded. Otherwise,
   /// emits a diagnostic and returns NULL.
   virtual
   ModuleDecl *loadModule(SourceLoc importLoc, ImportPath::Module path) = 0;

   /// Load extensions to the given nominal type.
   ///
   /// \param nominal The nominal type whose extensions should be loaded.
   ///
   /// \param previousGeneration The previous generation number. The AST already
   /// contains extensions loaded from any generation up to and including this
   /// one.
   virtual void loadExtensions(NominalTypeDecl *nominal,
                               unsigned previousGeneration) { }

   /// Load the methods within the given class that produce
   /// Objective-C class or instance methods with the given selector.
   ///
   /// \param classDecl The class in which we are searching for @objc methods.
   /// The search only considers this class and its extensions; not any
   /// superclasses.
   ///
   /// \param selector The selector to search for.
   ///
   /// \param isInstanceMethod Whether we are looking for an instance method
   /// (vs. a class method).
   ///
   /// \param previousGeneration The previous generation with which this
   /// callback was invoked. The list of methods will already contain all of
   /// the results from generations up and including \c previousGeneration.
   ///
   /// \param methods The list of @objc methods in this class that have this
   /// selector and are instance/class methods as requested. This list will be
   /// extended with any methods found in subsequent generations.
   virtual void loadObjCMethods(
                  ClassDecl *classDecl,
                  ObjCSelector selector,
                  bool isInstanceMethod,
                  unsigned previousGeneration,
                  llvm::TinyPtrVector<AbstractFunctionDecl *> &methods) = 0;

   /// Load derivative function configurations for the given
   /// AbstractFunctionDecl.
   ///
   /// \param originalAFD The declaration whose derivative function
   /// configurations should be loaded.
   ///
   /// \param previousGeneration The previous generation number. The AST already
   /// contains derivative function configurations loaded from any generation up
   /// to and including this one.
   ///
   /// \param results The result list of derivative function configurations.
   /// This list will be extended with any methods found in subsequent
   /// generations.
   virtual void loadDerivativeFunctionConfigurations(
       AbstractFunctionDecl *originalAFD, unsigned previousGeneration,
       llvm::SetVector<AutoDiffConfig> &results) {};

   /// Verify all modules loaded by this loader.
   virtual void verifyAllModules() { }

   /// Discover overlays declared alongside this file and add infomation about
   /// them to it.
   void findOverlayFiles(SourceLoc diagLoc, ModuleDecl *module, FileUnit *file);

   /// Retrieve the dependencies for the given, named module, or \c None
   /// if no such module exists.
   virtual Optional<ModuleDependencies> getModuleDependencies(
       StringRef moduleName,
       ModuleDependenciesCache &cache,
       InterfaceSubContextDelegate &delegate) = 0;
 };

 } // namespace swift

 #endif
	//===--- ModuleLoader.h - 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
	//
	//===----------------------------------------------------------------------===//
	//
	// This file implements an abstract interface for loading modules.
	//
	//===----------------------------------------------------------------------===//

	#ifndef SWIFT_AST_MODULE_LOADER_H
	#define SWIFT_AST_MODULE_LOADER_H

	#include "swift/AST/Identifier.h"
	#include "swift/AST/Import.h"
	#include "swift/Basic/LLVM.h"
	#include "swift/Basic/Located.h"
	#include "swift/Basic/SourceLoc.h"
	#include "llvm/ADT/SetVector.h"
	#include "llvm/ADT/TinyPtrVector.h"
	#include "swift/AST/ModuleDependencies.h"
	#include <system_error>

	namespace llvm {
	class FileCollectorBase;
	}

	namespace clang {
	class DependencyCollector;
	}

	namespace swift {

	class AbstractFunctionDecl;
	struct AutoDiffConfig;
	class ClangImporterOptions;
	class ClassDecl;
	class FileUnit;
	class ModuleDecl;
	class ModuleDependencies;
	class ModuleDependenciesCache;
	class NominalTypeDecl;
	class SourceFile;
	class TypeDecl;
	class CompilerInstance;

	enum class KnownProtocolKind : uint8_t;

	enum class Bridgeability : unsigned {
	/// This context does not permit bridging at all. For example, the
	/// target of a C pointer.
	None,

	/// This context permits all kinds of bridging. For example, the
	/// imported result of a method declaration.
	Full
	};

	/// Specifies which dependencies the intermodule dependency tracker records.
	enum class IntermoduleDepTrackingMode {
	/// Records both system and non-system dependencies.
	IncludeSystem,

	/// Records only non-system dependencies.
	ExcludeSystem,
	};

	/// Records dependencies on files outside of the current module;
	/// implemented in terms of a wrapped clang::DependencyCollector.
	class DependencyTracker {
	std::shared_ptr<clang::DependencyCollector> clangCollector;
	SmallVector<std::string, 8> incrementalDeps;
	llvm::StringSet<> incrementalDepsUniquer;

	public:
	explicit DependencyTracker(
	IntermoduleDepTrackingMode Mode,
	std::shared_ptr<llvm::FileCollectorBase> FileCollector = {});

	/// Adds a file as a dependency.
	///
	/// The contents of \p File are taken literally, and should be appropriate
	/// for appearing in a list of dependencies suitable for tooling like Make.
	/// No path canonicalization is done.
	void addDependency(StringRef File, bool IsSystem);

	/// Adds a file as an incremental dependency.
	///
	/// No additional canonicalization or adulteration of the file path in
	/// \p File is performed.
	void addIncrementalDependency(StringRef File);

	/// Fetches the list of dependencies.
	ArrayRef<std::string> getDependencies() const;

	/// Fetches the list of dependencies that are known to have incremental swift
	/// dependency information embedded inside of them.
	ArrayRef<std::string> getIncrementalDependencies() const;

	/// Return the underlying clang::DependencyCollector that this
	/// class wraps.
	std::shared_ptr<clang::DependencyCollector> getClangCollector();
	};

	struct SubCompilerInstanceInfo {
	StringRef CompilerVersion;
	CompilerInstance* Instance;
	StringRef Hash;
	ArrayRef<StringRef> BuildArguments;
	ArrayRef<StringRef> ExtraPCMArgs;
	};

	/// Abstract interface for a checker of module interfaces and prebuilt modules.
	class ModuleInterfaceChecker {
	public:
	virtual std::vector<std::string>
	getCompiledModuleCandidatesForInterface(StringRef moduleName,
	StringRef interfacePath) = 0;

	/// Given a list of potential ready-to-use compiled modules for \p interfacePath,
	/// check if any one of them is up-to-date. If so, emit a forwarding module
	/// to the candidate binary module to \p outPath.
	virtual bool tryEmitForwardingModule(StringRef moduleName,
	StringRef interfacePath,
	ArrayRef<std::string> candidates,
	StringRef outPath) = 0;
	virtual ~ModuleInterfaceChecker() = default;
	};

	/// Abstract interface to run an action in a sub ASTContext.
	struct InterfaceSubContextDelegate {
	virtual std::error_code runInSubContext(StringRef moduleName,
	StringRef interfacePath,
	StringRef outputPath,
	SourceLoc diagLoc,
	llvm::function_ref<std::error_code(ASTContext&, ModuleDecl*,
	ArrayRef<StringRef>,
	ArrayRef<StringRef>, StringRef)> action) = 0;
	virtual std::error_code runInSubCompilerInstance(StringRef moduleName,
	StringRef interfacePath,
	StringRef outputPath,
	SourceLoc diagLoc,
	llvm::function_ref<std::error_code(SubCompilerInstanceInfo&)> action) = 0;

	virtual ~InterfaceSubContextDelegate() = default;
	};

	/// Abstract interface that loads named modules into the AST.
	class ModuleLoader {
	virtual void anchor();

	protected:
	DependencyTracker * const dependencyTracker;
	ModuleLoader(DependencyTracker *tracker) : dependencyTracker(tracker) {}

	public:
	virtual ~ModuleLoader() = default;

	/// Collect visible module names.
	///
	/// Append visible module names to \p names. Note that names are possibly
	/// duplicated, and not guaranteed to be ordered in any way.
	virtual void collectVisibleTopLevelModuleNames(
	SmallVectorImpl<Identifier> &names) const = 0;

	/// Check whether the module with a given name can be imported without
	/// importing it.
	///
	/// Note that even if this check succeeds, errors may still occur if the
	/// module is loaded in full.
	virtual bool canImportModule(ImportPath::Element named) = 0;

	/// Import a module with the given module path.
	///
	/// \param importLoc The location of the 'import' keyword.
	///
	/// \param path A sequence of (identifier, location) pairs that denote
	/// the dotted module name to load, e.g., AppKit.NSWindow.
	///
	/// \returns the module referenced, if it could be loaded. Otherwise,
	/// emits a diagnostic and returns NULL.
	virtual
	ModuleDecl *loadModule(SourceLoc importLoc, ImportPath::Module path) = 0;

	/// Load extensions to the given nominal type.
	///
	/// \param nominal The nominal type whose extensions should be loaded.
	///
	/// \param previousGeneration The previous generation number. The AST already
	/// contains extensions loaded from any generation up to and including this
	/// one.
	virtual void loadExtensions(NominalTypeDecl *nominal,
	unsigned previousGeneration) { }

	/// Load the methods within the given class that produce
	/// Objective-C class or instance methods with the given selector.
	///
	/// \param classDecl The class in which we are searching for @objc methods.
	/// The search only considers this class and its extensions; not any
	/// superclasses.
	///
	/// \param selector The selector to search for.
	///
	/// \param isInstanceMethod Whether we are looking for an instance method
	/// (vs. a class method).
	///
	/// \param previousGeneration The previous generation with which this
	/// callback was invoked. The list of methods will already contain all of
	/// the results from generations up and including \c previousGeneration.
	///
	/// \param methods The list of @objc methods in this class that have this
	/// selector and are instance/class methods as requested. This list will be
	/// extended with any methods found in subsequent generations.
	virtual void loadObjCMethods(
	ClassDecl *classDecl,
	ObjCSelector selector,
	bool isInstanceMethod,
	unsigned previousGeneration,
	llvm::TinyPtrVector<AbstractFunctionDecl *> &methods) = 0;

	/// Load derivative function configurations for the given
	/// AbstractFunctionDecl.
	///
	/// \param originalAFD The declaration whose derivative function
	/// configurations should be loaded.
	///
	/// \param previousGeneration The previous generation number. The AST already
	/// contains derivative function configurations loaded from any generation up
	/// to and including this one.
	///
	/// \param results The result list of derivative function configurations.
	/// This list will be extended with any methods found in subsequent
	/// generations.
	virtual void loadDerivativeFunctionConfigurations(
	AbstractFunctionDecl *originalAFD, unsigned previousGeneration,
	llvm::SetVector<AutoDiffConfig> &results) {};

	/// Verify all modules loaded by this loader.
	virtual void verifyAllModules() { }

	/// Discover overlays declared alongside this file and add infomation about
	/// them to it.
	void findOverlayFiles(SourceLoc diagLoc, ModuleDecl module, FileUnit file);

	/// Retrieve the dependencies for the given, named module, or \c None
	/// if no such module exists.
	virtual Optional<ModuleDependencies> getModuleDependencies(
	StringRef moduleName,
	ModuleDependenciesCache &cache,
	InterfaceSubContextDelegate &delegate) = 0;
	};

	} // namespace swift

	#endif