include/llvm/Support/Registry.h - llvm - Git at Google

 //=== Registry.h - Linker-supported plugin registries -----------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // Defines a registry template for discovering pluggable modules.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_SUPPORT_REGISTRY_H
 #define LLVM_SUPPORT_REGISTRY_H

 #include "llvm/ADT/iterator_range.h"
 #include "llvm/ADT/STLExtras.h"
 #include "llvm/Support/Compiler.h"
 #include <memory>

 namespace llvm {
   /// A simple registry entry which provides only a name, description, and
   /// no-argument constructor.
   template <typename T>
   class SimpleRegistryEntry {
     const char *Name, *Desc;
     std::unique_ptr<T> (*Ctor)();

   public:
     SimpleRegistryEntry(const char *N, const char *D, std::unique_ptr<T> (*C)())
       : Name(N), Desc(D), Ctor(C)
     {}

     const char *getName() const { return Name; }
     const char *getDesc() const { return Desc; }
     std::unique_ptr<T> instantiate() const { return Ctor(); }
   };


   /// Traits for registry entries. If using other than SimpleRegistryEntry, it
   /// is necessary to define an alternate traits class.
   template <typename T>
   class RegistryTraits {
     RegistryTraits() = delete;

   public:
     typedef SimpleRegistryEntry<T> entry;

     /// nameof/descof - Accessors for name and description of entries. These are
     //                  used to generate help for command-line options.
     static const char *nameof(const entry &Entry) { return Entry.getName(); }
     static const char *descof(const entry &Entry) { return Entry.getDesc(); }
   };


   /// A global registry used in conjunction with static constructors to make
   /// pluggable components (like targets or garbage collectors) "just work" when
   /// linked with an executable.
   template <typename T, typename U = RegistryTraits<T> >
   class Registry {
   public:
     typedef U traits;
     typedef typename U::entry entry;

     class node;
     class listener;
     class iterator;

   private:
     Registry() = delete;

     static void Announce(const entry &E) {
       for (listener *Cur = ListenerHead; Cur; Cur = Cur->Next)
         Cur->registered(E);
     }

     friend class node;
     static node *Head, *Tail;

     friend class listener;
     static listener *ListenerHead, *ListenerTail;

   public:
     /// Node in linked list of entries.
     ///
     class node {
       friend class iterator;

       node *Next;
       const entry& Val;

     public:
       node(const entry& V) : Next(nullptr), Val(V) {
         if (Tail)
           Tail->Next = this;
         else
           Head = this;
         Tail = this;

         Announce(V);
       }
     };


     /// Iterators for registry entries.
     ///
     class iterator {
       const node *Cur;

     public:
       explicit iterator(const node *N) : Cur(N) {}

       bool operator==(const iterator &That) const { return Cur == That.Cur; }
       bool operator!=(const iterator &That) const { return Cur != That.Cur; }
       iterator &operator++() { Cur = Cur->Next; return *this; }
       const entry &operator*() const { return Cur->Val; }
       const entry *operator->() const { return &Cur->Val; }
     };

     static iterator begin() { return iterator(Head); }
     static iterator end()   { return iterator(nullptr); }

     static iterator_range<iterator> entries() {
       return iterator_range<iterator>(begin(), end());
     }


     /// Abstract base class for registry listeners, which are informed when new
     /// entries are added to the registry. Simply subclass and instantiate:
     ///
     /// \code
     ///   class CollectorPrinter : public Registry<Collector>::listener {
     ///   protected:
     ///     void registered(const Registry<Collector>::entry &e) {
     ///       cerr << "collector now available: " << e->getName() << "\n";
     ///     }
     ///
     ///   public:
     ///     CollectorPrinter() { init(); }  // Print those already registered.
     ///   };
     ///
     ///   CollectorPrinter Printer;
     /// \endcode
     class listener {
       listener *Prev, *Next;

       friend void Registry::Announce(const entry &E);

     protected:
       /// Called when an entry is added to the registry.
       ///
       virtual void registered(const entry &) = 0;

       /// Calls 'registered' for each pre-existing entry.
       ///
       void init() {
         for (iterator I = begin(), E = end(); I != E; ++I)
           registered(*I);
       }

     public:
       listener() : Prev(ListenerTail), Next(0) {
         if (Prev)
           Prev->Next = this;
         else
           ListenerHead = this;
         ListenerTail = this;
       }

       virtual ~listener() {
         if (Next)
           Next->Prev = Prev;
         else
           ListenerTail = Prev;
         if (Prev)
           Prev->Next = Next;
         else
           ListenerHead = Next;
       }
     };


     /// A static registration template. Use like such:
     ///
     ///   Registry<Collector>::Add<FancyGC>
     ///   X("fancy-gc", "Newfangled garbage collector.");
     ///
     /// Use of this template requires that:
     ///
     ///  1. The registered subclass has a default constructor.
     //
     ///  2. The registry entry type has a constructor compatible with this
     ///     signature:
     ///
     ///       entry(const char *Name, const char *ShortDesc, T *(*Ctor)());
     ///
     /// If you have more elaborate requirements, then copy and modify.
     ///
     template <typename V>
     class Add {
       entry Entry;
       node Node;

       static std::unique_ptr<T> CtorFn() { return make_unique<V>(); }

     public:
       Add(const char *Name, const char *Desc)
         : Entry(Name, Desc, CtorFn), Node(Entry) {}
     };

     /// Registry::Parser now lives in llvm/Support/RegistryParser.h.

   };

   // Since these are defined in a header file, plugins must be sure to export
   // these symbols.

   template <typename T, typename U>
   typename Registry<T,U>::node *Registry<T,U>::Head;

   template <typename T, typename U>
   typename Registry<T,U>::node *Registry<T,U>::Tail;

   template <typename T, typename U>
   typename Registry<T,U>::listener *Registry<T,U>::ListenerHead;

   template <typename T, typename U>
   typename Registry<T,U>::listener *Registry<T,U>::ListenerTail;

 }

 #endif
	//=== Registry.h - Linker-supported plugin registries ------------ C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// Defines a registry template for discovering pluggable modules.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_SUPPORT_REGISTRY_H
	#define LLVM_SUPPORT_REGISTRY_H

	#include "llvm/ADT/iterator_range.h"
	#include "llvm/ADT/STLExtras.h"
	#include "llvm/Support/Compiler.h"
	#include <memory>

	namespace llvm {
	/// A simple registry entry which provides only a name, description, and
	/// no-argument constructor.
	template <typename T>
	class SimpleRegistryEntry {
	const char Name, Desc;
	std::unique_ptr<T> (*Ctor)();

	public:
	SimpleRegistryEntry(const char N, const char D, std::unique_ptr<T> (*C)())
	: Name(N), Desc(D), Ctor(C)
	{}

	const char *getName() const { return Name; }
	const char *getDesc() const { return Desc; }
	std::unique_ptr<T> instantiate() const { return Ctor(); }
	};


	/// Traits for registry entries. If using other than SimpleRegistryEntry, it
	/// is necessary to define an alternate traits class.
	template <typename T>
	class RegistryTraits {
	RegistryTraits() = delete;

	public:
	typedef SimpleRegistryEntry<T> entry;

	/// nameof/descof - Accessors for name and description of entries. These are
	// used to generate help for command-line options.
	static const char *nameof(const entry &Entry) { return Entry.getName(); }
	static const char *descof(const entry &Entry) { return Entry.getDesc(); }
	};


	/// A global registry used in conjunction with static constructors to make
	/// pluggable components (like targets or garbage collectors) "just work" when
	/// linked with an executable.
	template <typename T, typename U = RegistryTraits<T> >
	class Registry {
	public:
	typedef U traits;
	typedef typename U::entry entry;

	class node;
	class listener;
	class iterator;

	private:
	Registry() = delete;

	static void Announce(const entry &E) {
	for (listener *Cur = ListenerHead; Cur; Cur = Cur->Next)
	Cur->registered(E);
	}

	friend class node;
	static node Head, Tail;

	friend class listener;
	static listener ListenerHead, ListenerTail;

	public:
	/// Node in linked list of entries.
	///
	class node {
	friend class iterator;

	node *Next;
	const entry& Val;

	public:
	node(const entry& V) : Next(nullptr), Val(V) {
	if (Tail)
	Tail->Next = this;
	else
	Head = this;
	Tail = this;

	Announce(V);
	}
	};


	/// Iterators for registry entries.
	///
	class iterator {
	const node *Cur;

	public:
	explicit iterator(const node *N) : Cur(N) {}

	bool operator==(const iterator &That) const { return Cur == That.Cur; }
	bool operator!=(const iterator &That) const { return Cur != That.Cur; }
	iterator &operator++() { Cur = Cur->Next; return *this; }
	const entry &operator*() const { return Cur->Val; }
	const entry *operator->() const { return &Cur->Val; }
	};

	static iterator begin() { return iterator(Head); }
	static iterator end() { return iterator(nullptr); }

	static iterator_range<iterator> entries() {
	return iterator_range<iterator>(begin(), end());
	}


	/// Abstract base class for registry listeners, which are informed when new
	/// entries are added to the registry. Simply subclass and instantiate:
	///
	/// \code
	/// class CollectorPrinter : public Registry<Collector>::listener {
	/// protected:
	/// void registered(const Registry<Collector>::entry &e) {
	/// cerr << "collector now available: " << e->getName() << "\n";
	/// }
	///
	/// public:
	/// CollectorPrinter() { init(); } // Print those already registered.
	/// };
	///
	/// CollectorPrinter Printer;
	/// \endcode
	class listener {
	listener Prev, Next;

	friend void Registry::Announce(const entry &E);

	protected:
	/// Called when an entry is added to the registry.
	///
	virtual void registered(const entry &) = 0;

	/// Calls 'registered' for each pre-existing entry.
	///
	void init() {
	for (iterator I = begin(), E = end(); I != E; ++I)
	registered(*I);
	}

	public:
	listener() : Prev(ListenerTail), Next(0) {
	if (Prev)
	Prev->Next = this;
	else
	ListenerHead = this;
	ListenerTail = this;
	}

	virtual ~listener() {
	if (Next)
	Next->Prev = Prev;
	else
	ListenerTail = Prev;
	if (Prev)
	Prev->Next = Next;
	else
	ListenerHead = Next;
	}
	};


	/// A static registration template. Use like such:
	///
	/// Registry<Collector>::Add<FancyGC>
	/// X("fancy-gc", "Newfangled garbage collector.");
	///
	/// Use of this template requires that:
	///
	/// 1. The registered subclass has a default constructor.
	//
	/// 2. The registry entry type has a constructor compatible with this
	/// signature:
	///
	/// entry(const char Name, const char ShortDesc, T (Ctor)());
	///
	/// If you have more elaborate requirements, then copy and modify.
	///
	template <typename V>
	class Add {
	entry Entry;
	node Node;

	static std::unique_ptr<T> CtorFn() { return make_unique<V>(); }

	public:
	Add(const char Name, const char Desc)
	: Entry(Name, Desc, CtorFn), Node(Entry) {}
	};

	/// Registry::Parser now lives in llvm/Support/RegistryParser.h.

	};

	// Since these are defined in a header file, plugins must be sure to export
	// these symbols.

	template <typename T, typename U>
	typename Registry<T,U>::node *Registry<T,U>::Head;

	template <typename T, typename U>
	typename Registry<T,U>::node *Registry<T,U>::Tail;

	template <typename T, typename U>
	typename Registry<T,U>::listener *Registry<T,U>::ListenerHead;

	template <typename T, typename U>
	typename Registry<T,U>::listener *Registry<T,U>::ListenerTail;

	}

	#endif