scoped_nsobject.h - Android社区 - https://www.androidos.net.cn/

// Copyright (c) 2011 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 BASE_MEMORY_SCOPED_NSOBJECT_H_
#define BASE_MEMORY_SCOPED_NSOBJECT_H_
#pragma once

#import <Foundation/Foundation.h>
#include "base/basictypes.h"
#include "base/compiler_specific.h"

// scoped_nsobject<> is patterned after scoped_ptr<>, but maintains ownership
// of an NSObject subclass object.  Style deviations here are solely for
// compatibility with scoped_ptr<>'s interface, with which everyone is already
// familiar.
//
// When scoped_nsobject<> takes ownership of an object (in the constructor or
// in reset()), it takes over the caller's existing ownership claim.  The
// caller must own the object it gives to scoped_nsobject<>, and relinquishes
// an ownership claim to that object.  scoped_nsobject<> does not call
// -retain.
//
// scoped_nsobject<> is not to be used for NSAutoreleasePools. For
// NSAutoreleasePools use ScopedNSAutoreleasePool from
// scoped_nsautorelease_pool.h instead.
// We check for bad uses of scoped_nsobject and NSAutoreleasePool at compile
// time with a template specialization (see below).
template<typename NST>
class scoped_nsobject {
 public:
  typedef NST* element_type;

explicit scoped_nsobject(NST* object = nil)
      : object_(object) {
  }

~scoped_nsobject() {
    [object_ release];
  }

void reset(NST* object = nil) {
    // We intentionally do not check that object != object_ as the caller must
    // already have an ownership claim over whatever it gives to
    // scoped_nsobject and ScopedCFTypeRef, whether it's in the constructor or
    // in a call to reset().  In either case, it relinquishes that claim and
    // the scoper assumes it.
    [object_ release];
    object_ = object;
  }

bool operator==(NST* that) const { return object_ == that; }
  bool operator!=(NST* that) const { return object_ != that; }

operator NST*() const {
    return object_;
  }

NST* get() const {
    return object_;
  }

void swap(scoped_nsobject& that) {
    NST* temp = that.object_;
    that.object_ = object_;
    object_ = temp;
  }

// scoped_nsobject<>::release() is like scoped_ptr<>::release.  It is NOT
  // a wrapper for [object_ release].  To force a scoped_nsobject<> object to
  // call [object_ release], use scoped_nsobject<>::reset().
  NST* release() WARN_UNUSED_RESULT {
    NST* temp = object_;
    object_ = nil;
    return temp;
  }

private:
  NST* object_;

DISALLOW_COPY_AND_ASSIGN(scoped_nsobject);
};

// Free functions
template <class C>
void swap(scoped_nsobject<C>& p1, scoped_nsobject<C>& p2) {
  p1.swap(p2);
}

template <class C>
bool operator==(C* p1, const scoped_nsobject<C>& p2) {
  return p1 == p2.get();
}

template <class C>
bool operator!=(C* p1, const scoped_nsobject<C>& p2) {
  return p1 != p2.get();
}

// Specialization to make scoped_nsobject<id> work.
template<>
class scoped_nsobject<id> {
 public:
  typedef id element_type;

explicit scoped_nsobject(id object = nil)
      : object_(object) {
  }

~scoped_nsobject() {
    [object_ release];
  }

void reset(id object = nil) {
    // We intentionally do not check that object != object_ as the caller must
    // already have an ownership claim over whatever it gives to
    // scoped_nsobject and ScopedCFTypeRef, whether it's in the constructor or
    // in a call to reset().  In either case, it relinquishes that claim and
    // the scoper assumes it.
    [object_ release];
    object_ = object;
  }

bool operator==(id that) const { return object_ == that; }
  bool operator!=(id that) const { return object_ != that; }

operator id() const {
    return object_;
  }

id get() const {
    return object_;
  }

void swap(scoped_nsobject& that) {
    id temp = that.object_;
    that.object_ = object_;
    object_ = temp;
  }

// scoped_nsobject<>::release() is like scoped_ptr<>::release.  It is NOT
  // a wrapper for [object_ release].  To force a scoped_nsobject<> object to
  // call [object_ release], use scoped_nsobject<>::reset().
  id release() WARN_UNUSED_RESULT {
    id temp = object_;
    object_ = nil;
    return temp;
  }

private:
  id object_;

DISALLOW_COPY_AND_ASSIGN(scoped_nsobject);
};

// Do not use scoped_nsobject for NSAutoreleasePools, use
// ScopedNSAutoreleasePool instead. This is a compile time check. See details
// at top of header.
template<>
class scoped_nsobject<NSAutoreleasePool> {
 private:
  explicit scoped_nsobject(NSAutoreleasePool* object = nil);
  DISALLOW_COPY_AND_ASSIGN(scoped_nsobject);
};

#endif  // BASE_MEMORY_SCOPED_NSOBJECT_H_

C++程序 | 168行 | 4.55 KB

// Copyright (c) 2011 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 BASE_MEMORY_SCOPED_NSOBJECT_H_
#define BASE_MEMORY_SCOPED_NSOBJECT_H_
#pragma once

#import <Foundation/Foundation.h>
#include "base/basictypes.h"
#include "base/compiler_specific.h"

// scoped_nsobject<> is patterned after scoped_ptr<>, but maintains ownership
// of an NSObject subclass object.  Style deviations here are solely for
// compatibility with scoped_ptr<>'s interface, with which everyone is already
// familiar.
//
// When scoped_nsobject<> takes ownership of an object (in the constructor or
// in reset()), it takes over the caller's existing ownership claim.  The
// caller must own the object it gives to scoped_nsobject<>, and relinquishes
// an ownership claim to that object.  scoped_nsobject<> does not call
// -retain.
//
// scoped_nsobject<> is not to be used for NSAutoreleasePools. For
// NSAutoreleasePools use ScopedNSAutoreleasePool from
// scoped_nsautorelease_pool.h instead.
// We check for bad uses of scoped_nsobject and NSAutoreleasePool at compile
// time with a template specialization (see below).
template<typename NST>
class scoped_nsobject {
 public:
  typedef NST* element_type;

  explicit scoped_nsobject(NST* object = nil)
      : object_(object) {
  }

  ~scoped_nsobject() {
    [object_ release];
  }

  void reset(NST* object = nil) {
    // We intentionally do not check that object != object_ as the caller must
    // already have an ownership claim over whatever it gives to
    // scoped_nsobject and ScopedCFTypeRef, whether it's in the constructor or
    // in a call to reset().  In either case, it relinquishes that claim and
    // the scoper assumes it.
    [object_ release];
    object_ = object;
  }

  bool operator==(NST* that) const { return object_ == that; }
  bool operator!=(NST* that) const { return object_ != that; }

  operator NST*() const {
    return object_;
  }

  NST* get() const {
    return object_;
  }

  void swap(scoped_nsobject& that) {
    NST* temp = that.object_;
    that.object_ = object_;
    object_ = temp;
  }

  // scoped_nsobject<>::release() is like scoped_ptr<>::release.  It is NOT
  // a wrapper for [object_ release].  To force a scoped_nsobject<> object to
  // call [object_ release], use scoped_nsobject<>::reset().
  NST* release() WARN_UNUSED_RESULT {
    NST* temp = object_;
    object_ = nil;
    return temp;
  }

 private:
  NST* object_;

  DISALLOW_COPY_AND_ASSIGN(scoped_nsobject);
};

// Free functions
template <class C>
void swap(scoped_nsobject<C>& p1, scoped_nsobject<C>& p2) {
  p1.swap(p2);
}

template <class C>
bool operator==(C* p1, const scoped_nsobject<C>& p2) {
  return p1 == p2.get();
}

template <class C>
bool operator!=(C* p1, const scoped_nsobject<C>& p2) {
  return p1 != p2.get();
}


// Specialization to make scoped_nsobject<id> work.
template<>
class scoped_nsobject<id> {
 public:
  typedef id element_type;

  explicit scoped_nsobject(id object = nil)
      : object_(object) {
  }

  ~scoped_nsobject() {
    [object_ release];
  }

  void reset(id object = nil) {
    // We intentionally do not check that object != object_ as the caller must
    // already have an ownership claim over whatever it gives to
    // scoped_nsobject and ScopedCFTypeRef, whether it's in the constructor or
    // in a call to reset().  In either case, it relinquishes that claim and
    // the scoper assumes it.
    [object_ release];
    object_ = object;
  }

  bool operator==(id that) const { return object_ == that; }
  bool operator!=(id that) const { return object_ != that; }

  operator id() const {
    return object_;
  }

  id get() const {
    return object_;
  }

  void swap(scoped_nsobject& that) {
    id temp = that.object_;
    that.object_ = object_;
    object_ = temp;
  }

  // scoped_nsobject<>::release() is like scoped_ptr<>::release.  It is NOT
  // a wrapper for [object_ release].  To force a scoped_nsobject<> object to
  // call [object_ release], use scoped_nsobject<>::reset().
  id release() WARN_UNUSED_RESULT {
    id temp = object_;
    object_ = nil;
    return temp;
  }

 private:
  id object_;

  DISALLOW_COPY_AND_ASSIGN(scoped_nsobject);
};

// Do not use scoped_nsobject for NSAutoreleasePools, use
// ScopedNSAutoreleasePool instead. This is a compile time check. See details
// at top of header.
template<>
class scoped_nsobject<NSAutoreleasePool> {
 private:
  explicit scoped_nsobject(NSAutoreleasePool* object = nil);
  DISALLOW_COPY_AND_ASSIGN(scoped_nsobject);
};

#endif  // BASE_MEMORY_SCOPED_NSOBJECT_H_

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