// Copyright 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef SKIA_EXT_REFPTR_H_ #define SKIA_EXT_REFPTR_H_ #include "third_party/skia/include/core/SkRefCnt.h" namespace skia { // When creating/receiving a ref-counted pointer from Skia, wrap that pointer in // this class to avoid dealing with the ref-counting and prevent leaks/crashes // due to ref-counting bugs. // // Example of creating a new SkShader* and setting it on a SkPaint: // skia::RefPtr<SkShader> shader = skia::AdoptRef(SkGradientShader::Create()); // paint.setShader(shader.get()); // // When passing around a ref-counted pointer to methods outside of Skia, always // pass around the skia::RefPtr instead of the raw pointer. An example method // that takes a SkShader* parameter and saves the SkShader* in the class. // void AMethodThatSavesAShader(const skia::RefPtr<SkShader>& shader) { // member_refptr_ = shader; // } // skia::RefPtr<SkShader> member_refptr_; // // When returning a ref-counted pointer, also return the skia::RefPtr instead. // An example method that creates an SkShader* and returns it: // skia::RefPtr<SkShader> MakeAShader() { // return skia::AdoptRef(SkGradientShader::Create()); // } // // To take a scoped reference to an object whose references are all owned // by other objects (i.e. does not have one that needs to be adopted) use the // skia::SharePtr helper: // // skia::RefPtr<SkShader> shader = skia::SharePtr(paint.getShader()); // // Never call ref() or unref() on the underlying ref-counted pointer. If you // AdoptRef() the raw pointer immediately into a skia::RefPtr and always work // with skia::RefPtr instances instead, the ref-counting will be taken care of // for you. template<typename T> class RefPtr { public: RefPtr() : ptr_(NULL) {} RefPtr(const RefPtr& other) : ptr_(other.get()) { SkSafeRef(ptr_); } template<typename U> RefPtr(const RefPtr<U>& other) : ptr_(other.get()) { SkSafeRef(ptr_); } ~RefPtr() { clear(); } RefPtr& operator=(const RefPtr& other) { SkRefCnt_SafeAssign(ptr_, other.get()); return *this; } template<typename U> RefPtr& operator=(const RefPtr<U>& other) { SkRefCnt_SafeAssign(ptr_, other.get()); return *this; } void clear() { T* to_unref = ptr_; ptr_ = NULL; SkSafeUnref(to_unref); } T* get() const { return ptr_; } T& operator*() const { return *ptr_; } T* operator->() const { return ptr_; } typedef T* RefPtr::*unspecified_bool_type; operator unspecified_bool_type() const { return ptr_ ? &RefPtr::ptr_ : NULL; } private: T* ptr_; // This function cannot be public because Skia starts its ref-counted // objects at refcnt=1. This makes it impossible to differentiate // between a newly created object (that doesn't need to be ref'd) or an // already existing object with one owner (that does need to be ref'd so that // this RefPtr can also manage its lifetime). explicit RefPtr(T* ptr) : ptr_(ptr) {} template<typename U> friend RefPtr<U> AdoptRef(U* ptr); template<typename U> friend RefPtr<U> SharePtr(U* ptr); }; // For objects that have an unowned reference (such as newly created objects). template<typename T> RefPtr<T> AdoptRef(T* ptr) { return RefPtr<T>(ptr); } // For objects that are already owned. This doesn't take ownership of existing // references and adds a new one. template<typename T> RefPtr<T> SharePtr(T* ptr) { return RefPtr<T>(SkSafeRef(ptr)); } } // namespace skia #endif // SKIA_EXT_REFPTR_H_