CFCReleaser.h
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//===-- CFCReleaser.h -------------------------------------------*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#ifndef CoreFoundationCPP_CFReleaser_h_
#define CoreFoundationCPP_CFReleaser_h_
#include <CoreFoundation/CoreFoundation.h>
#ifdef __cplusplus
#include <assert.h>
// Templatized CF helper class that can own any CF pointer and will
// call CFRelease() on any valid pointer it owns unless that pointer is
// explicitly released using the release() member function. This class
// is designed to mimic the std::auto_ptr<T> class and has all of the
// same functions. The one thing to watch out for is the
// CFCReleaser<T>::release() function won't actually CFRelease any owned
// pointer, it is designed to relinquish ownership of the pointer just
// like std:auto_ptr<T>::release() does.
template <class T> class CFCReleaser {
public:
// Constructor that takes a pointer to a CF object that is
// to be released when this object goes out of scope
CFCReleaser(T ptr = NULL) : _ptr(ptr) {}
// Copy constructor
//
// Note that copying a CFCReleaser will not transfer
// ownership of the contained pointer, but it will bump its
// reference count. This is where this class differs from
// std::auto_ptr.
CFCReleaser(const CFCReleaser &rhs) : _ptr(rhs.get()) {
if (get())
::CFRetain(get());
}
// The destructor will release the pointer that it contains
// if it has a valid pointer.
virtual ~CFCReleaser() { reset(); }
// Assignment operator.
//
// Note that assigning one CFCReleaser to another will
// not transfer ownership of the contained pointer, but it
// will bump its reference count. This is where this class
// differs from std::auto_ptr.
CFCReleaser &operator=(const CFCReleaser<T> &rhs) {
if (this != &rhs) {
// Replace our owned pointer with the new one
reset(rhs.get());
// Retain the current pointer that we own
if (get())
::CFRetain(get());
}
return *this;
}
// Get the address of the contained type in case it needs
// to be passed to a function that will fill in a pointer
// value. The function currently will assert if _ptr is not
// NULL because the only time this method should be used is
// if another function will modify the contents, and we
// could leak a pointer if this is not NULL. If the
// assertion fires, check the offending code, or call
// reset() prior to using the "ptr_address()" member to make
// sure any owned objects has CFRelease called on it.
// I had to add the "enforce_null" bool here because some
// API's require the pointer address even though they don't change it.
T *ptr_address(bool enforce_null = true) {
if (enforce_null)
assert(_ptr == NULL);
return &_ptr;
}
// Access the pointer itself
T get() { return _ptr; }
const T get() const { return _ptr; }
// Set a new value for the pointer and CFRelease our old
// value if we had a valid one.
void reset(T ptr = NULL) {
if ((_ptr != NULL) && (ptr != _ptr))
::CFRelease(_ptr);
_ptr = ptr;
}
// Release ownership without calling CFRelease. This class
// is designed to mimic std::auto_ptr<T>, so the release
// method releases ownership of the contained pointer
// and does NOT call CFRelease.
T release() {
T tmp = _ptr;
_ptr = NULL;
return tmp;
}
private:
T _ptr;
};
#endif // #ifdef __cplusplus
#endif // #ifndef CoreFoundationCPP_CFReleaser_h_