8fbca5cb70
No real changes, just clean up sources by removing trailing spaces from all the non-generated files. This should hopefully avoid future commits mixing significant changes with insignificant whitespace ones.
415 lines
16 KiB
C++
415 lines
16 KiB
C++
/////////////////////////////////////////////////////////////////////////////
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// Name: wx/osx/core/cfref.h
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// Purpose: wxCFRef template class
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// Author: David Elliott <dfe@cox.net>
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// Modified by: Stefan Csomor
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// Created: 2007/05/10
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// Copyright: (c) 2007 David Elliott <dfe@cox.net>, Stefan Csomor
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// Licence: wxWindows licence
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// Notes: See http://developer.apple.com/documentation/CoreFoundation/Conceptual/CFMemoryMgmt/index.html
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/////////////////////////////////////////////////////////////////////////////
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/*! @header wx/osx/core/cfref.h
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@abstract wxCFRef template class
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@discussion FIXME: Convert doc tags to something less buggy with C++
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*/
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#ifndef _WX_MAC_COREFOUNDATION_CFREF_H__
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#define _WX_MAC_COREFOUNDATION_CFREF_H__
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// Include unistd to ensure that NULL is defined
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#include <unistd.h>
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// Include AvailabilityMacros for DEPRECATED_ATTRIBUTE
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#include <AvailabilityMacros.h>
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// #include <CoreFoundation/CFBase.h>
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/* Don't include CFBase.h such that this header can be included from public
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* headers with minimal namespace pollution.
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* Note that Darwin CF uses extern for CF_EXPORT. If we need this on Win32
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* or non-Darwin Mac OS we'll need to define the appropriate __declspec.
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*/
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typedef const void *CFTypeRef;
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extern "C" {
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extern /* CF_EXPORT */
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CFTypeRef CFRetain(CFTypeRef cf);
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extern /* CF_EXPORT */
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void CFRelease(CFTypeRef cf);
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} // extern "C"
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/*! @function wxCFRelease
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@abstract A CFRelease variant that checks for NULL before releasing.
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@discussion The parameter is template not for type safety but to ensure the argument
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is a raw pointer and not a ref holder of any type.
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*/
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template <class Type>
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inline void wxCFRelease(Type *r)
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{
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if ( r != NULL )
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::CFRelease((CFTypeRef)r);
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}
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/*! @function wxCFRetain
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@abstract A typesafe CFRetain variant that checks for NULL.
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*/
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template <class Type>
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inline Type* wxCFRetain(Type *r)
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{
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// NOTE(DE): Setting r to the result of CFRetain improves efficiency on both x86 and PPC
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// Casting r to CFTypeRef ensures we are calling the real C version defined in CFBase.h
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// and not any possibly templated/overloaded CFRetain.
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if ( r != NULL )
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r = (Type*)::CFRetain((CFTypeRef)r);
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return r;
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}
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template <class refType>
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class wxCFRef;
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/*! @class wxCFWeakRef
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@templatefield refType The CF reference type (e.g. CFStringRef, CFRunLoopRef, etc.)
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It should already be a pointer. This is different from
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shared_ptr where the template parameter is the pointee type.
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@discussion Wraps a raw pointer without any retain or release.
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Provides a way to get what amounts to a raw pointer from a wxCFRef without
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using a raw pointer. Unlike a raw pointer, constructing a wxCFRef from this
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class will cause it to be retained because it is assumed that a wxCFWeakRef
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does not own its pointer.
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*/
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template <class refType>
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class wxCFWeakRef
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{
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template <class refTypeA, class otherRefType>
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friend wxCFWeakRef<refTypeA> static_cfref_cast(const wxCFRef<otherRefType> &otherRef);
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public:
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/*! @method wxCFWeakRef
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@abstract Creates a NULL reference
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*/
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wxCFWeakRef()
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: m_ptr(NULL)
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{}
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// Default copy constructor is fine.
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// Default destructor is fine but we'll set NULL to avoid bugs
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~wxCFWeakRef()
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{ m_ptr = NULL; }
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// Do not implement a raw-pointer constructor.
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/*! @method wxCFWeakRef
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@abstract Copies another ref holder where its type can be converted to ours
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@templatefield otherRefType Any type held by another wxCFWeakRef.
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@param otherRef The other weak ref holder to copy.
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@discussion This is merely a copy or implicit cast.
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*/
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template <class otherRefType>
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wxCFWeakRef(const wxCFWeakRef<otherRefType>& otherRef)
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: m_ptr(otherRef.get()) // Implicit conversion from otherRefType to refType should occur
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{}
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/*! @method wxCFWeakRef
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@abstract Copies a strong ref holder where its type can be converted to ours
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@templatefield otherRefType Any type held by a wxCFRef.
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@param otherRef The strong ref holder to copy.
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@discussion This ref is merely a pointer copy, the strong ref still holds the pointer.
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*/
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template <class otherRefType>
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wxCFWeakRef(const wxCFRef<otherRefType>& otherRef)
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: m_ptr(otherRef.get()) // Implicit conversion from otherRefType to refType should occur
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{}
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/*! @method get
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@abstract Explicit conversion to the underlying pointer type
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@discussion Allows the caller to explicitly get the underlying pointer.
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*/
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refType get() const
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{ return m_ptr; }
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/*! @method operator refType
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@abstract Implicit conversion to the underlying pointer type
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@discussion Allows the ref to be used in CF function calls.
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*/
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operator refType() const
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{ return m_ptr; }
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protected:
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/*! @method wxCFWeakRef
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@abstract Constructs a weak reference to the raw pointer
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@templatefield otherType Any type.
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@param p The raw pointer to assume ownership of. May be NULL.
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@discussion This method is private so that the friend static_cfref_cast can use it
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*/
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template <class otherType>
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explicit wxCFWeakRef(otherType *p)
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: m_ptr(p) // Implicit conversion from otherType* to refType should occur.
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{}
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/*! @var m_ptr The raw pointer.
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*/
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refType m_ptr;
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};
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/*! @class wxCFRef
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@templatefield refType The CF reference type (e.g. CFStringRef, CFRunLoopRef, etc.)
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It should already be a pointer. This is different from
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shared_ptr where the template parameter is the pointee type.
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@discussion Properly retains/releases reference to CoreFoundation objects
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*/
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template <class refType>
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class wxCFRef
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{
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public:
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/*! @method wxCFRef
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@abstract Creates a NULL reference
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*/
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wxCFRef()
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: m_ptr(NULL)
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{}
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/*! @method wxCFRef
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@abstract Assumes ownership of p and creates a reference to it.
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@param p The raw core foundation reference to assume ownership of. May be NULL.
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@discussion Like shared_ptr, it is assumed that the caller has a strong reference to p and intends
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to transfer ownership of that reference to this ref holder. If the object comes from
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a Create or Copy method then this is the correct behaviour. If the object comes from
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a Get method then you must CFRetain it yourself before passing it to this constructor.
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A handy way to do this is to use the non-member wxCFRefFromGet factory function.
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*/
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wxCFRef(refType p) : m_ptr(p)
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{
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}
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/*! @method wxCFRef
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@abstract Assumes ownership of p and creates a reference to it.
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@templatefield otherType Any type.
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@param p The raw pointer to assume ownership of. May be NULL.
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@discussion Like shared_ptr, it is assumed that the caller has a strong reference to p and intends
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to transfer ownership of that reference to this ref holder. If the object comes from
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a Create or Copy method then this is the correct behaviour. If the object comes from
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a Get method then you must CFRetain it yourself before passing it to this constructor.
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A handy way to do this is to use the non-member wxCFRefFromGet factory function.
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This method is templated and takes an otherType *p. This prevents implicit conversion
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using an operator refType() in a different ref-holding class type.
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*/
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template <class otherType>
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explicit wxCFRef(otherType *p)
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: m_ptr(p) // Implicit conversion from otherType* to refType should occur.
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{}
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/*! @method wxCFRef
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@abstract Copies a ref holder of the same type
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@param otherRef The other ref holder to copy.
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@discussion Ownership will be shared by the original ref and the newly created ref. That is,
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the object will be explicitly retained by this new ref.
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*/
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wxCFRef(const wxCFRef& otherRef)
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: m_ptr(wxCFRetain(otherRef.m_ptr))
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{}
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/*! @method wxCFRef
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@abstract Copies a ref holder where its type can be converted to ours
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@templatefield otherRefType Any type held by another wxCFRef.
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@param otherRef The other ref holder to copy.
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@discussion Ownership will be shared by the original ref and the newly created ref. That is,
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the object will be explicitly retained by this new ref.
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*/
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template <class otherRefType>
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wxCFRef(const wxCFRef<otherRefType>& otherRef)
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: m_ptr(wxCFRetain(otherRef.get())) // Implicit conversion from otherRefType to refType should occur
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{}
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/*! @method wxCFRef
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@abstract Copies a weak ref holder where its type can be converted to ours
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@templatefield otherRefType Any type held by a wxCFWeakRef.
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@param otherRef The weak ref holder to copy.
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@discussion Ownership will be taken by this newly created ref. That is,
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the object will be explicitly retained by this new ref.
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Ownership is most likely shared with some other ref as well.
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*/
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template <class otherRefType>
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wxCFRef(const wxCFWeakRef<otherRefType>& otherRef)
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: m_ptr(wxCFRetain(otherRef.get())) // Implicit conversion from otherRefType to refType should occur
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{}
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/*! @method ~wxCFRef
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@abstract Releases (potentially shared) ownership of the ref.
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@discussion A ref holder instance is always assumed to have ownership so ownership is always
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released (CFRelease called) upon destruction.
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*/
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~wxCFRef()
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{ reset(); }
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/*! @method operator=
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@abstract Assigns the other ref's pointer to us when the otherRef is the same type.
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@param otherRef The other ref holder to copy.
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@discussion The incoming pointer is retained, the original pointer is released, and this object
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is made to point to the new pointer.
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*/
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wxCFRef& operator=(const wxCFRef& otherRef)
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{
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if (this != &otherRef)
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{
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wxCFRetain(otherRef.m_ptr);
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wxCFRelease(m_ptr);
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m_ptr = otherRef.m_ptr;
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}
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return *this;
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}
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/*! @method operator=
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@abstract Assigns the other ref's pointer to us when the other ref can be converted to our type.
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@templatefield otherRefType Any type held by another wxCFRef
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@param otherRef The other ref holder to copy.
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@discussion The incoming pointer is retained, the original pointer is released, and this object
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is made to point to the new pointer.
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*/
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template <class otherRefType>
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wxCFRef& operator=(const wxCFRef<otherRefType>& otherRef)
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{
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wxCFRetain(otherRef.get());
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wxCFRelease(m_ptr);
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m_ptr = otherRef.get(); // Implicit conversion from otherRefType to refType should occur
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return *this;
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}
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/*! @method get
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@abstract Explicit conversion to the underlying pointer type
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@discussion Allows the caller to explicitly get the underlying pointer.
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*/
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refType get() const
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{ return m_ptr; }
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/*! @method operator refType
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@abstract Implicit conversion to the underlying pointer type
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@discussion Allows the ref to be used in CF function calls.
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*/
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operator refType() const
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{ return m_ptr; }
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#if 0
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< // HeaderDoc is retarded and thinks the GT from operator-> is part of a template param.
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// So give it that < outside of a comment to fake it out. (if 0 is not a comment to HeaderDoc)
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#endif
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/*! @method operator->
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@abstract Implicit conversion to the underlying pointer type
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@discussion This is nearly useless for CF types which are nearly always opaque
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*/
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refType operator-> () const
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{ return m_ptr; }
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/*! @method reset
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@abstract Nullifies the reference
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@discussion Releases ownership (calls CFRelease) before nullifying the pointer.
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*/
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void reset()
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{
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wxCFRelease(m_ptr);
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m_ptr = NULL;
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}
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/*! @method reset
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@abstract Sets this to a new reference
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@templatefield otherType Any type.
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@param p The raw pointer to assume ownership of
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@discussion The existing reference is released (like destruction). It is assumed that the caller
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has a strong reference to the new p and intends to transfer ownership of that reference
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to this ref holder. Take care to call CFRetain if you received the object from a Get method.
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This method is templated and takes an otherType *p. This prevents implicit conversion
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using an operator refType() in a different ref-holding class type.
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*/
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template <class otherType>
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void reset(otherType* p)
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{
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wxCFRelease(m_ptr);
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m_ptr = p; // Automatic conversion should occur
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}
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// Release the pointer, i.e. give up its ownership.
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refType release()
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{
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refType p = m_ptr;
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m_ptr = NULL;
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return p;
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}
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protected:
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/*! @var m_ptr The raw pointer.
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*/
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refType m_ptr;
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};
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/*! @function wxCFRefFromGet
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@abstract Factory function to create wxCFRef from a raw pointer obtained from a Get-rule function
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@param p The pointer to retain and create a wxCFRef from. May be NULL.
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@discussion Unlike the wxCFRef raw pointer constructor, this function explicitly retains its
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argument. This can be used for functions such as CFDictionaryGetValue() or
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CFAttributedStringGetString() which return a temporary reference (Get-rule functions).
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FIXME: Anybody got a better name?
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*/
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template <typename Type>
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inline wxCFRef<Type*> wxCFRefFromGet(Type *p)
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{
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return wxCFRef<Type*>(wxCFRetain(p));
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}
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/*! @function static_cfref_cast
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@abstract Works like static_cast but with a wxCFRef as the argument.
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@param refType Template parameter. The destination raw pointer type
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@param otherRef Normal parameter. The source wxCFRef<> object.
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@discussion This is intended to be a clever way to make static_cast work while allowing
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the return value to be converted to either a strong ref or a raw pointer
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while ensuring that the retain count is updated appropriately.
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This is modeled after shared_ptr's static_pointer_cast. Just as wxCFRef is
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parameterized on a pointer to an opaque type so is this class. Note that
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this differs from shared_ptr which is parameterized on the pointee type.
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FIXME: Anybody got a better name?
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*/
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template <class refType, class otherRefType>
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inline wxCFWeakRef<refType> static_cfref_cast(const wxCFRef<otherRefType> &otherRef);
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template <class refType, class otherRefType>
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inline wxCFWeakRef<refType> static_cfref_cast(const wxCFRef<otherRefType> &otherRef)
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{
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return wxCFWeakRef<refType>(static_cast<refType>(otherRef.get()));
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}
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/*! @function CFRelease
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@abstract Overloads CFRelease so that the user is warned of bad behaviour.
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@discussion It is rarely appropriate to retain or release a wxCFRef. If one absolutely
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must do it he can explicitly get() the raw pointer
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Normally, this function is unimplemented resulting in a linker error if used.
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*/
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template <class T>
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inline void CFRelease(const wxCFRef<T*> & cfref) DEPRECATED_ATTRIBUTE;
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/*! @function CFRetain
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@abstract Overloads CFRetain so that the user is warned of bad behaviour.
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@discussion It is rarely appropriate to retain or release a wxCFRef. If one absolutely
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must do it he can explicitly get() the raw pointer
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Normally, this function is unimplemented resulting in a linker error if used.
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*/
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template <class T>
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inline void CFRetain(const wxCFRef<T*>& cfref) DEPRECATED_ATTRIBUTE;
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// Change the 0 to a 1 if you want the functions to work (no link errors)
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// Neither function will cause retain/release side-effects if implemented.
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#if 0
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template <class T>
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void CFRelease(const wxCFRef<T*> & cfref)
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{
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CFRelease(cfref.get());
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}
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template <class T>
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void CFRetain(const wxCFRef<T*> & cfref)
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{
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CFRetain(cfref.get());
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}
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#endif
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#endif //ndef _WX_MAC_COREFOUNDATION_CFREF_H__
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