2004-04-02 17:43:59 +00:00
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/////////////////////////////////////////////////////////////////////////////
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// Name: wx/cocoa/ObjcRef.h
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// Purpose: wxObjcAutoRef template class
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// Author: David Elliott
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// Modified by:
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// Created: 2004/03/28
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// RCS-ID: $Id$
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// Copyright: (c) 2004 David Elliott <dfe@cox.net>
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2004-05-23 20:53:33 +00:00
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// Licence: wxWindows licence
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2004-04-02 17:43:59 +00:00
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/////////////////////////////////////////////////////////////////////////////
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2004-04-10 03:54:21 +00:00
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#ifndef _WX_COCOA_OBJCREF_H__
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#define _WX_COCOA_OBJCREF_H__
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2008-02-06 20:10:07 +00:00
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// Reuse wxCFRef-related code (e.g. wxCFRetain/wxCFRelease)
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#include "wx/mac/corefoundation/cfref.h"
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2008-02-07 23:37:30 +00:00
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// NOTE WELL: We can only know which Objective-C runtime is being used when compiling Objective-C.
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// Therefore we cannot implement these functions except when compiling Objective-C.
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#ifdef __OBJC__
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/*! @function wxGCSafeRetain
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@templatefield Type (implicit) An Objective-C class type
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@arg r Pointer to Objective-C object. May be null.
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@abstract Retains the Objective-C object, even when using Apple's garbage collector
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@discussion
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When Apple's garbage collector is enabled, the usual [obj retain] and [obj release] messages
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are ignored. Instead the collector with help from compiler-generated write-barriers tracks
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reachable objects. The write-barriers are generated when setting i-vars of C++ classes but
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they are ignored by the garbage collector unless the C++ object is in GC-managed memory.
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The simple solution is to use CFRetain on the Objective-C object which has been enhanced in
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GC mode to forcibly retain the object. In Retain/Release (RR) mode the CFRetain function has
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the same effect as [obj retain]. Note that GC vs. RR is selected at runtime.
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Take care that wxGCSafeRetain must be balanced with wxGCSafeRelease and that conversely
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wxGCSafeRelease must only be called on objects to balance wxGCSafeRetain. In particular when
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receiving an Objective-C object from an alloc or copy method take care that you must retain
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it with wxGCSafeRetain and balance the initial alloc with a standard release.
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Example:
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wxGCSafeRelease(m_obj); // release current object (if any)
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NSObject *obj = [[NSObject alloc] init];
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m_obj = wxGCSafeRetain(obj);
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[obj release];
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Alternatively (same effect, perhaps less clear):
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wxGCSafeRelease(m_obj); // release current object (if any)
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m_obj = wxGCSafeRetain([[NSObject alloc] init]);
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[m_obj release]; // balance alloc
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Consider the effect on the retain count from each statement (alloc, CFRetain, release)
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In RR mode: retainCount = 1, +1, -1
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In GC mode: strongRetainCount = 0, +1, -0
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This is a template function to ensure it is used on raw pointers and never on pointer-holder
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objects via implicit conversion operators.
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*/
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template <class Type>
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inline Type * wxGCSafeRetain(Type *r)
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{
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#ifdef __NEXT_RUNTIME__
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return static_cast<Type*>(wxCFRetain(r));
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#else
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return [r retain];
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#endif
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}
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/*! @function wxGCSafeRelease
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@templatefield Type (implicit) An Objective-C class type
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@arg r Pointer to Objective-C object. May be null.
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@abstract Balances wxGCSafeRetain. Particularly useful with the Apple Garbage Collector.
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@discussion
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See the wxGCSafeRetain documentation for more details.
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Example (from wxGCSafeRetain documentation):
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wxGCSafeRelease(m_obj); // release current object (if any)
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m_obj = wxGCSafeRetain([[NSObject alloc] init]);
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[m_obj release]; // balance alloc
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When viewed from the start, m_obj ought to start as nil. However, the second time through
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the wxGCSafeRelease call becomes critical as it releases the retain from the first time
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through.
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In the destructor for this C++ object with the m_obj i-var you ought to do the following:
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wxGCSafeRelease(m_obj);
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m_obj = nil; // Not strictly needed, but safer.
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Under no circumstances should you balance an alloc or copy with a wxGCSafeRelease.
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*/
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template <class Type>
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inline void wxGCSafeRelease(Type *r)
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{
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#ifdef __NEXT_RUNTIME__
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wxCFRelease(r);
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#else
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[r release];
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#endif
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}
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#else
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// NOTE: When not compiling Objective-C, declare these functions such that they can be
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// used by other inline-implemented methods. Since those methods in turn will not actually
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// be used from non-ObjC code there is no problem.
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template <class Type>
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inline Type * wxGCSafeRetain(Type *r);
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template <class Type>
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inline void wxGCSafeRelease(Type *r);
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#endif //def __OBJC__
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2004-04-02 17:43:59 +00:00
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/*
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wxObjcAutoRefFromAlloc: construct a reference to an object that was
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[NSObject -alloc]'ed and thus does not need a retain
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wxObjcAutoRef: construct a reference to an object that was
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either autoreleased or is retained by something else.
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*/
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struct objc_object;
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// We must do any calls to Objective-C from an Objective-C++ source file
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class wxObjcAutoRefBase
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{
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protected:
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2008-02-06 20:10:07 +00:00
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/*! @function ObjcRetain
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@abstract Simply does [p retain].
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*/
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2004-04-02 17:43:59 +00:00
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static struct objc_object* ObjcRetain(struct objc_object*);
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2008-02-06 20:10:07 +00:00
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/*! @function ObjcRelease
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@abstract Simply does [p release].
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*/
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2004-04-13 13:40:08 +00:00
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static void ObjcRelease(struct objc_object*);
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2004-04-02 17:43:59 +00:00
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};
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2008-02-06 20:10:07 +00:00
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/*! @class wxObjcAutoRefFromAlloc
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@templatefield T The type of _pointer_ (e.g. NSString*, NSRunLoop*)
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@abstract Pointer-holder for Objective-C objects
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@discussion
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When constructing this object from a raw pointer, the pointer is assumed to have
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come from an alloc-style method. That is, once you construct this object from
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the pointer you must not balance your alloc with a call to release.
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2004-04-02 17:43:59 +00:00
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2008-02-06 20:10:07 +00:00
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This class has been carefully designed to work with both the traditional Retain/Release
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and the new Garbage Collected modes. In RR-mode it will prevent the object from being
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released by managing the reference count using the retain/release semantics. In GC-mode
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it will use a method (currently CFRetain/CFRelease) to ensure the object will never be
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finalized until this object is destroyed.
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*/
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2004-04-02 17:43:59 +00:00
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template <class T>
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class wxObjcAutoRefFromAlloc: wxObjcAutoRefBase
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{
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public:
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wxObjcAutoRefFromAlloc(T p = 0)
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: m_ptr(p)
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// NOTE: this is from alloc. Do NOT retain
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{
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// CFRetain
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// GC: Object is strongly retained and prevented from being collected
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// non-GC: Simply realizes it's an Objective-C object and calls [p retain]
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2008-02-07 23:37:30 +00:00
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wxGCSafeRetain(p);
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2008-02-06 20:10:07 +00:00
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// ObjcRelease (e.g. [p release])
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// GC: Objective-C retain/release mean nothing in GC mode
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// non-GC: This is a normal release call, balancing the retain
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ObjcRelease(static_cast<T>(p));
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// The overall result:
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// GC: Object is strongly retained
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// non-GC: Retain count is the same as it was (retain then release)
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}
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2004-04-02 17:43:59 +00:00
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wxObjcAutoRefFromAlloc(const wxObjcAutoRefFromAlloc& otherRef)
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: m_ptr(otherRef.m_ptr)
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{ wxGCSafeRetain(m_ptr); }
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2004-04-02 17:43:59 +00:00
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~wxObjcAutoRefFromAlloc()
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{ wxGCSafeRelease(m_ptr); }
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wxObjcAutoRefFromAlloc& operator=(const wxObjcAutoRefFromAlloc& otherRef)
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2008-02-07 23:37:30 +00:00
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{ wxGCSafeRetain(otherRef.m_ptr);
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wxGCSafeRelease(m_ptr);
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m_ptr = otherRef.m_ptr;
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return *this;
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}
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operator T() const
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{ return static_cast<T>(m_ptr); }
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T operator->() const
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{ return static_cast<T>(m_ptr); }
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protected:
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2008-02-06 20:10:07 +00:00
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/*! @field m_ptr The pointer to the Objective-C object
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@discussion
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The pointer to the Objective-C object is typed as void* to avoid compiler-generated write
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barriers as would be used for implicitly __strong object pointers and to avoid the similar
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read barriers as would be used for an explicitly __weak object pointer. The write barriers
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2008-02-07 23:37:30 +00:00
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are useless unless this object is located in GC-managed heap which is highly unlikely.
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Since we guarantee strong reference via CFRetain/CFRelease the write-barriers are not needed
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at all, even if this object does happen to be allocated in GC-managed heap.
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2008-02-06 20:10:07 +00:00
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*/
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void *m_ptr;
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2004-04-02 17:43:59 +00:00
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};
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2008-02-06 20:10:07 +00:00
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/*!
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@class wxObjcAutoRef
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@description
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A pointer holder that does retain its argument.
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NOTE: It is suggest that you instead use wxObjcAutoRefFromAlloc<T> foo([aRawPointer retain])
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*/
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2004-04-02 17:43:59 +00:00
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template <class T>
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class wxObjcAutoRef: public wxObjcAutoRefFromAlloc<T>
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{
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public:
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2008-02-06 20:10:07 +00:00
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/*! @method wxObjcAutoRef
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@description
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Uses the underlying wxObjcAutoRefFromAlloc and simply does a typical [p retain] such that
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in RR-mode the object is in effectively the same retain-count state as it would have been
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coming straight from an alloc method.
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*/
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2004-04-02 17:43:59 +00:00
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wxObjcAutoRef(T p = 0)
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: wxObjcAutoRefFromAlloc<T>(p)
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{ // NOTE: ObjcRetain is correct because in GC-mode it balances ObjcRelease in our superclass constructor
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// In RR mode it does retain and the superclass does retain/release thus resulting in an overall retain.
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ObjcRetain(static_cast<T>(wxObjcAutoRefFromAlloc<T>::m_ptr));
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}
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2004-04-02 17:43:59 +00:00
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~wxObjcAutoRef() {}
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wxObjcAutoRef(const wxObjcAutoRef& otherRef)
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: wxObjcAutoRefFromAlloc<T>(otherRef)
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{}
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wxObjcAutoRef(const wxObjcAutoRefFromAlloc<T>& otherRef)
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: wxObjcAutoRefFromAlloc<T>(otherRef)
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{}
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wxObjcAutoRef& operator=(const wxObjcAutoRef& otherRef)
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{ return wxObjcAutoRefFromAlloc<T>::operator=(otherRef); }
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};
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2004-04-10 03:54:21 +00:00
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#endif //ndef _WX_COCOA_OBJCREF_H__
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