include/core/SkTLazy.h - skia - Git at Google


 /*
  * Copyright 2011 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */


 #ifndef SkTLazy_DEFINED
 #define SkTLazy_DEFINED

 #include "SkTypes.h"
 #include <new>

 template <typename T> class SkTLazy;
 template <typename T> void* operator new(size_t, SkTLazy<T>* lazy);

 /**
  *  Efficient way to defer allocating/initializing a class until it is needed
  *  (if ever).
  */
 template <typename T> class SkTLazy {
 public:
     SkTLazy() : fPtr(NULL) {}

     explicit SkTLazy(const T* src) : fPtr(NULL) {
         if (src) {
             fPtr = new (fStorage) T(*src);
         }
     }

     SkTLazy(const SkTLazy<T>& src) : fPtr(NULL) {
         if (src.isValid()) {
             fPtr = new (fStorage) T(*src->get());
         } else {
             fPtr = NULL;
         }
     }

     ~SkTLazy() {
         if (this->isValid()) {
             fPtr->~T();
         }
     }

     /**
      *  Return a pointer to a default-initialized instance of the class. If a
      *  previous instance had been initialized (either from init() or set()) it
      *  will first be destroyed, so that a freshly initialized instance is
      *  always returned.
      */
     T* init() {
         if (this->isValid()) {
             fPtr->~T();
         }
         fPtr = new (SkTCast<T*>(fStorage)) T;
         return fPtr;
     }

     /**
      *  Copy src into this, and return a pointer to a copy of it. Note this
      *  will always return the same pointer, so if it is called on a lazy that
      *  has already been initialized, then this will copy over the previous
      *  contents.
      */
     T* set(const T& src) {
         if (this->isValid()) {
             *fPtr = src;
         } else {
             fPtr = new (SkTCast<T*>(fStorage)) T(src);
         }
         return fPtr;
     }

     /**
      * Destroy the lazy object (if it was created via init() or set())
      */
     void reset() {
         if (this->isValid()) {
             fPtr->~T();
             fPtr = NULL;
         }
     }

     /**
      *  Returns true if a valid object has been initialized in the SkTLazy,
      *  false otherwise.
      */
     bool isValid() const { return SkToBool(fPtr); }

     /**
      * Returns the object. This version should only be called when the caller
      * knows that the object has been initialized.
      */
     T* get() const { SkASSERT(this->isValid()); return fPtr; }

     /**
      * Like above but doesn't assert if object isn't initialized (in which case
      * NULL is returned).
      */
     T* getMaybeNull() const { return fPtr; }

 private:
     friend void* operator new<T>(size_t, SkTLazy* lazy);

     T*   fPtr; // NULL or fStorage
     char fStorage[sizeof(T)];
 };

 // Use the below macro (SkNEW_IN_TLAZY) rather than calling this directly
 template <typename T> void* operator new(size_t, SkTLazy<T>* lazy) {
     SkASSERT(!lazy->isValid());
     lazy->fPtr = reinterpret_cast<T*>(lazy->fStorage);
     return lazy->fPtr;
 }

 // Skia doesn't use C++ exceptions but it may be compiled with them enabled. Having an op delete
 // to match the op new silences warnings about missing op delete when a constructor throws an
 // exception.
 template <typename T> void operator delete(void*, SkTLazy<T>*) { SK_CRASH(); }

 // Use this to construct a T inside an SkTLazy using a non-default constructor.
 #define SkNEW_IN_TLAZY(tlazy_ptr, type_name, args) (new (tlazy_ptr) type_name args)

 /**
  * A helper built on top of SkTLazy to do copy-on-first-write. The object is initialized
  * with a const pointer but provides a non-const pointer accessor. The first time the
  * accessor is called (if ever) the object is cloned.
  *
  * In the following example at most one copy of constThing is made:
  *
  * SkTCopyOnFirstWrite<Thing> thing(&constThing);
  * ...
  * function_that_takes_a_const_thing_ptr(thing); // constThing is passed
  * ...
  * if (need_to_modify_thing()) {
  *    thing.writable()->modifyMe(); // makes a copy of constThing
  * }
  * ...
  * x = thing->readSomething();
  * ...
  * if (need_to_modify_thing_now()) {
  *    thing.writable()->changeMe(); // makes a copy of constThing if we didn't call modifyMe()
  * }
  *
  * consume_a_thing(thing); // could be constThing or a modified copy.
  */
 template <typename T>
 class SkTCopyOnFirstWrite {
 public:
     SkTCopyOnFirstWrite(const T& initial) : fObj(&initial) {}

     // Constructor for delayed initialization.
     SkTCopyOnFirstWrite() : fObj(NULL) {}

     // Should only be called once, and only if the default constructor was used.
     void init(const T& initial) {
         SkASSERT(NULL == fObj);
         SkASSERT(!fLazy.isValid());
         fObj = &initial;
     }

     /**
      * Returns a writable T*. The first time this is called the initial object is cloned.
      */
     T* writable() {
         SkASSERT(fObj);
         if (!fLazy.isValid()) {
             fLazy.set(*fObj);
             fObj = fLazy.get();
         }
         return const_cast<T*>(fObj);
     }

     /**
      * Operators for treating this as though it were a const pointer.
      */

     const T *operator->() const { return fObj; }

     operator const T*() const { return fObj; }

     const T& operator *() const { return *fObj; }

 private:
     const T*    fObj;
     SkTLazy<T>  fLazy;
 };

 #endif

	/*
	* Copyright 2011 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/



	#ifndef SkTLazy_DEFINED
	#define SkTLazy_DEFINED

	#include "SkTypes.h"
	#include <new>

	template <typename T> class SkTLazy;
	template <typename T> void* operator new(size_t, SkTLazy<T>* lazy);

	/**
	* Efficient way to defer allocating/initializing a class until it is needed
	* (if ever).
	*/
	template <typename T> class SkTLazy {
	public:
	SkTLazy() : fPtr(NULL) {}

	explicit SkTLazy(const T* src) : fPtr(NULL) {
	if (src) {
	fPtr = new (fStorage) T(*src);
	}
	}

	SkTLazy(const SkTLazy<T>& src) : fPtr(NULL) {
	if (src.isValid()) {
	fPtr = new (fStorage) T(*src->get());
	} else {
	fPtr = NULL;
	}
	}

	~SkTLazy() {
	if (this->isValid()) {
	fPtr->~T();
	}
	}

	/**
	* Return a pointer to a default-initialized instance of the class. If a
	* previous instance had been initialized (either from init() or set()) it
	* will first be destroyed, so that a freshly initialized instance is
	* always returned.
	*/
	T* init() {
	if (this->isValid()) {
	fPtr->~T();
	}
	fPtr = new (SkTCast<T*>(fStorage)) T;
	return fPtr;
	}

	/**
	* Copy src into this, and return a pointer to a copy of it. Note this
	* will always return the same pointer, so if it is called on a lazy that
	* has already been initialized, then this will copy over the previous
	* contents.
	*/
	T* set(const T& src) {
	if (this->isValid()) {
	*fPtr = src;
	} else {
	fPtr = new (SkTCast<T*>(fStorage)) T(src);
	}
	return fPtr;
	}

	/**
	* Destroy the lazy object (if it was created via init() or set())
	*/
	void reset() {
	if (this->isValid()) {
	fPtr->~T();
	fPtr = NULL;
	}
	}

	/**
	* Returns true if a valid object has been initialized in the SkTLazy,
	* false otherwise.
	*/
	bool isValid() const { return SkToBool(fPtr); }

	/**
	* Returns the object. This version should only be called when the caller
	* knows that the object has been initialized.
	*/
	T* get() const { SkASSERT(this->isValid()); return fPtr; }

	/**
	* Like above but doesn't assert if object isn't initialized (in which case
	* NULL is returned).
	*/
	T* getMaybeNull() const { return fPtr; }

	private:
	friend void* operator new<T>(size_t, SkTLazy* lazy);

	T* fPtr; // NULL or fStorage
	char fStorage[sizeof(T)];
	};

	// Use the below macro (SkNEW_IN_TLAZY) rather than calling this directly
	template <typename T> void* operator new(size_t, SkTLazy<T>* lazy) {
	SkASSERT(!lazy->isValid());
	lazy->fPtr = reinterpret_cast<T*>(lazy->fStorage);
	return lazy->fPtr;
	}

	// Skia doesn't use C++ exceptions but it may be compiled with them enabled. Having an op delete
	// to match the op new silences warnings about missing op delete when a constructor throws an
	// exception.
	template <typename T> void operator delete(void, SkTLazy<T>) { SK_CRASH(); }

	// Use this to construct a T inside an SkTLazy using a non-default constructor.
	#define SkNEW_IN_TLAZY(tlazy_ptr, type_name, args) (new (tlazy_ptr) type_name args)

	/**
	* A helper built on top of SkTLazy to do copy-on-first-write. The object is initialized
	* with a const pointer but provides a non-const pointer accessor. The first time the
	* accessor is called (if ever) the object is cloned.
	*
	* In the following example at most one copy of constThing is made:
	*
	* SkTCopyOnFirstWrite<Thing> thing(&constThing);
	* ...
	* function_that_takes_a_const_thing_ptr(thing); // constThing is passed
	* ...
	* if (need_to_modify_thing()) {
	* thing.writable()->modifyMe(); // makes a copy of constThing
	* }
	* ...
	* x = thing->readSomething();
	* ...
	* if (need_to_modify_thing_now()) {
	* thing.writable()->changeMe(); // makes a copy of constThing if we didn't call modifyMe()
	* }
	*
	* consume_a_thing(thing); // could be constThing or a modified copy.
	*/
	template <typename T>
	class SkTCopyOnFirstWrite {
	public:
	SkTCopyOnFirstWrite(const T& initial) : fObj(&initial) {}

	// Constructor for delayed initialization.
	SkTCopyOnFirstWrite() : fObj(NULL) {}

	// Should only be called once, and only if the default constructor was used.
	void init(const T& initial) {
	SkASSERT(NULL == fObj);
	SkASSERT(!fLazy.isValid());
	fObj = &initial;
	}

	/**
	* Returns a writable T*. The first time this is called the initial object is cloned.
	*/
	T* writable() {
	SkASSERT(fObj);
	if (!fLazy.isValid()) {
	fLazy.set(*fObj);
	fObj = fLazy.get();
	}
	return const_cast<T*>(fObj);
	}

	/**
	* Operators for treating this as though it were a const pointer.
	*/

	const T *operator->() const { return fObj; }

	operator const T*() const { return fObj; }

	const T& operator () const { return fObj; }

	private:
	const T* fObj;
	SkTLazy<T> fLazy;
	};

	#endif