2011-03-20 18:05:19 +00:00
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/////////////////////////////////////////////////////////////////////////////
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// Name: wx/cocoa/objc/objc_uniquifying.h
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// Purpose: Allows wxWidgets code to get a direct pointer to a compiled
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// Objective-C class and provides a method to fix up the
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// name to include a unique identifier (currently the address
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// of the objc_class structure).
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// Author: David Elliott <dfe@cox.net>
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// Modified by:
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// Created: 2007/05/15
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2011-03-23 09:13:01 +00:00
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// RCS-ID: $Id: objc_uniquifying.h 67280 2011-03-22 14:17:38Z DS $
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2011-03-20 18:05:19 +00:00
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// Copyright: (c) 2007 Software 2000 Ltd.
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// Licence: wxWindows licence
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/////////////////////////////////////////////////////////////////////////////
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#ifndef __WX_COCOA_OBJC_CLASS_H__
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#define __WX_COCOA_OBJC_CLASS_H__
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/* A note about this header:
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Nothing in here is guaranteed to exist in future versions of wxCocoa. There
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are other ways of adding Objective-C classes at runtime and a future wxCocoa
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might use these instead of this ugly hack. You may use this header file in
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your own wxCocoa code if you need your own Objective-C classes to be
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unqiuified.
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You cannot turn this on for 64-bit mode. It will not compile due to opaque
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Objective-C data structures and it is not needed because it is a workaround
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for a bug that does not exist in the 64-bit runtime.
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You should not use this when wxCocoa is built as a dynamic library. This has
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only been tested for the case when wxCocoa is built as a static library and
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statically linked to user code to form a loadable bundle (e.g. a Cocoa plugin).
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It forces each plugin (when multiple wxCocoa-using plugins are used) to use
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its own internal Objective-C classes which is desirable when wxCocoa is
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statically linked to the rest of the code.
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Do not use uniquifying on your principal class. That one should be named
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differently for different bundles.
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*/
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#if wxUSE_OBJC_UNIQUIFYING
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// objc_getClass and stuff
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#include <objc/objc-runtime.h>
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////////////// Objective-C uniquifying implementation //////////////
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template <typename ObjcType>
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class wxObjcClassInitializer;
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template <typename ObjcType>
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class UniquifiedName;
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template <typename ObjcType>
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class wxObjcCompilerInformation
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{
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friend class wxObjcClassInitializer<ObjcType>;
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friend class UniquifiedName<ObjcType>;
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private:
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// GetCompiledClass must be partially specialized for an ObjcType
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// If you're not using it, implement an inline returning NULL
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inline static struct objc_class * GetCompiledClass();
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// sm_theClassName must be partially specialized for each type
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static const char sm_theClassName[];
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// GetSuperclass must be specialized. Typically one of two ways:
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// 1. objc_getClass("SomeRealClassName")
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// 2. wxGetObjcClass_SomeWxClassName();
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inline static struct objc_class *GetSuperclass();
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};
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template <typename ObjcType>
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struct UniquifiedName
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{
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// We're going for OriginalClassName@ClassStructureAddress
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// Therefore our size is the sizeof the original class name constant string (which includes the terminating NULL)
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// plus the sizeof a pointer to struct objc_class times two (two hex digits for each byte) plus 3 for "@0x"
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typedef char Type[sizeof(wxObjcCompilerInformation<ObjcType>::sm_theClassName) + (sizeof(struct objc_class*)<<1) + 3];
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static void Init(Type m_theString, const objc_class *aClass)
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{
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snprintf(const_cast<char*>(m_theString), sizeof(Type), "%s@%p", wxObjcCompilerInformation<ObjcType>::sm_theClassName, aClass);
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}
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};
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/*! @function HidePointerFromGC
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@abstract Returns an l-value whose location the compiler cannot know.
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@discussion
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The compiler-generated Objective-C class structures are located in the static data area.
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They are by design Objective-C objects in their own right which makes the compiler issue
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write barriers as if they were located in the GC-managed heap as most Objective-C objects.
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By accepting and returning a reference to any pointer type we can set any i-var of an
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Objective-C object that is a pointer to another Objective-C object without the compiler
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generating an objc_assign_ivar write barrier. It will instad generate an
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objc_assign_strongCast write barrier which is the appropriate write-barrier when assigning
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pointers to Objective-C objects located in unknown memory.
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For instance:
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Class *someClass = ...;
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HidePointerFromGC(someClass->isa) = ...;
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*/
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template <typename ObjcType>
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inline ObjcType * & HidePointerFromGC(ObjcType * &p) __attribute__((always_inline));
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template <typename ObjcType>
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inline ObjcType * & HidePointerFromGC(ObjcType * &p)
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{
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return p;
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}
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template <typename ObjcType>
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class wxObjcClassInitializer
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{
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public:
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static struct objc_class* Get()
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{
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static wxObjcClassInitializer<ObjcType> s_theInstance;
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s_theInstance.noop(); // Make the compiler think we need this instance
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return wxObjcCompilerInformation<ObjcType>::GetCompiledClass();
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}
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private:
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void noop()
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{}
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// This "constructor" operates solely on static data
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// It exists so that we can take advantage of a function-static
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// "instance" of this class to do the static data initialization.
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wxObjcClassInitializer()
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{
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// Objective-C class initialization occurs before C++ static initialization because the
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// libobjc.dylib gets notified directly by dyld on Tiger.
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// Therefore, even though we change the name, the class is still registered with the
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// original name. We unfortunately can't change that.
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// The first time the class is loaded, Objective-C will already have fixed up the super_class
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// and isa->isa and isa->super_class variables so much of this won't do anything. But
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// the next time the class is loaded, Objective-C will ignore it and thus we need to
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// initialize the data structures appropriately.
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// Ideally we'd have some sort of lock here, but we depend on the fact that we get called
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// just before the first time someone wants to send a class message so it should be
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// reasonably safe to do this without any locks.
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struct objc_class &theClassData = *wxObjcCompilerInformation<ObjcType>::GetCompiledClass();
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// Initialize the uniquified class name
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UniquifiedName<ObjcType>::Init(sm_theUniquifiedClassName, &theClassData);
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//////// Class Initialization ////////
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// Use objc_getClass to fix up the superclass pointer
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theClassData.super_class = wxObjcCompilerInformation<ObjcType>::GetSuperclass();
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// Fix up the compiler generated class struct to use the new name
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theClassData.name = sm_theUniquifiedClassName;
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//////// Meta-Class Initialization ////////
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// theClassData.isa is the metaclass pointer
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// Globals on Darwin use PC-relative access (slow) so it's quicker to use theClassData.isa
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// In any object hierarchy a metaclass's metaclass is always the root class's metaclass
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// Therefore, our superclass's metaclass's metaclass should already be the root class's metaclass
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HidePointerFromGC(theClassData.isa->isa) = theClassData.super_class->isa->isa;
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// A metaclass's superclass is always the superclass's metaclass.
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HidePointerFromGC(theClassData.isa->super_class) = theClassData.super_class->isa;
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// Fix up the compiler generated metaclass struct to use the new name
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theClassData.isa->name = sm_theUniquifiedClassName;
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// We need to set the initialized flag because after we change the name, Objective-C can't
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// look us up by name because we're only registered with the original name.
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theClassData.isa->info |= CLS_INITIALIZED;
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}
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wxObjcClassInitializer(const wxObjcClassInitializer&); // NO COPY
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wxObjcClassInitializer& operator =(const wxObjcClassInitializer&); // NO ASSIGN
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static typename UniquifiedName<ObjcType>::Type sm_theUniquifiedClassName;
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};
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template<typename ObjcType>
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typename UniquifiedName<ObjcType>::Type wxObjcClassInitializer<ObjcType>::sm_theUniquifiedClassName;
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// WX_DECLARE_GET_OBJC_CLASS
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// Declares a function to get a direct pointer to an objective-C class.
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// The class is guaranteed to be usable.
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// When wxCocoa is built into a Mach-O bundle this function allows the wxCocoa
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// code to get a reference to the Objective-C class structure located in the
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// same bundle. This allows a static wxCocoa library to be built into
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// two different Mach-O bundles without having one bundle's Objective-C
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// classes trample on the other's.
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// Right now we toss the ObjcSuperClass parameter, but we might use it later.
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#define WX_DECLARE_GET_OBJC_CLASS(ObjcClass,ObjcSuperClass) \
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struct objc_class* wx_GetObjcClass_ ## ObjcClass();
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// WX_IMPLEMENT_OBJC_GET_COMPILED_CLASS(ObjcClass)
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// Provides an architecture-dependent way to get the direct pointer to the
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// objc_class structure in the __OBJC segment.
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// This takes advantage of the fact that the Objective-C compiler uses guessable
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// local assembler labels for the class structures.
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// Those class structures are only available on the Objective-C file containing the
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// @implementation block.
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#if 1
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// Generic implementation - Tested on i386 and PPC. Should work in all cases.
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// This is a hack that depends on GCC asm symbol names.
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// The static variable winds up being initialized with a direct reference to the appropriate
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// L_OBJC_CLASS and no global symbol reference is generated because nothing uses the global symbol
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// except for the static initializer which does it directly.
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// The generated assembler for s_objc_class_ptr is basically like this:
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// _s_objc_class_ptr_ObjcClass:
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// .long L_OBJC_CLASS_ObjcClass
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// Once that static symbol is defined, the function implementation is easy for GCC to generate.
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// Do note that return &s_objc_class_data_ObjcClass won't work. The code is wrong in this case.
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#define WX_IMPLEMENT_OBJC_GET_COMPILED_CLASS(ObjcClass) \
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extern "C" objc_class s_objc_class_data_ ## ObjcClass asm("L_OBJC_CLASS_" #ObjcClass); \
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static objc_class * s_objc_class_ptr_ ## ObjcClass = &s_objc_class_data_ ## ObjcClass; \
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template<> \
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inline objc_class * wxObjcCompilerInformation<ObjcClass>::GetCompiledClass() \
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{ \
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return s_objc_class_ptr_## ObjcClass; \
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}
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#elif defined(__i386__)
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// Not used because the generic implementation seems to work fine.
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// But this is here since it was written beforehand and it also works.
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// This is based on the code GCC generates for accessing file-static data on i386.
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// The i386 PC-relative addressing happens in this manner
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// 1. The program counter is placed into ecx using the code that GCC should have
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// already generated.
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// 2. A label is placed directly after the call to get the program counter.
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// 3. The Load Effective Address instruction is used to add the offset of the
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// local assembler label we're interested in minus the local assembler label
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// from step 2 to the program counter register in ecx and place the result
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// into the result register (typically eax if not inlined).
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#define WX_IMPLEMENT_OBJC_GET_COMPILED_CLASS(ObjcClass) \
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template<> \
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inline objc_class * wxObjcCompilerInformation<ObjcClass>::GetCompiledClass() \
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{ \
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register struct objc_class *retval; \
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asm \
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( "call ___i686.get_pc_thunk.cx\n" \
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"\"LPC_FOR_GET_CLASS_" #ObjcClass "\":\n\t" \
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"leal L_OBJC_CLASS_" #ObjcClass "-\"LPC_FOR_GET_CLASS_" #ObjcClass "\"(%%ecx), %0" \
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: "=r"(retval) \
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: \
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: "ecx" \
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); \
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return retval; \
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}
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#elif defined(__ppc__)
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// Not used because the generic implementation seems to work fine.
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// But this is here since it was written beforehand and it also works.
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// This is based on the code GCC generates for accessing file-static data on PPC.
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// The PowerPC PC-relative addressing happens in this manner
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// 1. The link register is saved (mflr) to a temporary (we re-use the output register for this)
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// 2. An unconditional branch instruction (bcl) "branches" to the following address (labeled)
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// 3. The link register (filled in by bcl) is saved to r10 (a temporary)
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// 4. The previous link register is restored (mtlr) (from the output register we were using as a temporary)
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// 5. The address of the LPC label as executed is added to the high 16 bits of the offset between that label and the static data we want
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// and stored in a temporary register (r2)
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// 6. That temporary register plus the low 16 bits of the offset are stored into the result register.
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#define WX_IMPLEMENT_OBJC_GET_COMPILED_CLASS(ObjcClass) \
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template<> \
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inline objc_class * wxObjcCompilerInformation<ObjcClass>::GetCompiledClass() \
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{ \
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register struct objc_class *retval; \
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asm \
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( "mflr %0" \
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"\n\tbcl 20, 31, \"LPC_FOR_GET_CLASS_" #ObjcClass "\"" \
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"\n\"LPC_FOR_GET_CLASS_" #ObjcClass "\":" \
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"\n\tmflr r10" \
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"\n\tmtlr %0" \
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"\n\taddis r2,r10,ha16(L_OBJC_CLASS_" #ObjcClass "-\"LPC_FOR_GET_CLASS_" #ObjcClass "\")" \
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"\n\tla %0,lo16(L_OBJC_CLASS_" #ObjcClass "-\"LPC_FOR_GET_CLASS_" #ObjcClass "\")(r2)" \
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: "=r" (retval) \
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: \
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: "r10","r2" \
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); \
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return retval; \
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}
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// TODO: __x86_64__, __ppc64__
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#else // Can't write inline asm to bust into __OBJC segment
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// This won't be used since the generic implementation takes precedence.
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#warning "Don't know how to implement wxObjcCompilerInformation<ObjcClass>::GetCompiledClass on this platform"
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#endif // platforms
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// The WX_IMPLEMENT_OBJC_GET_SUPERCLASS macro implements the template specialization
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// to get the superclass. This only works if it's a real superclass. If you are
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// deriving from a class that's already being uniquified then you'd need to
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// implement the specialization to call the appropriate get method instead.
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#define WX_IMPLEMENT_OBJC_GET_SUPERCLASS(ObjcClass,ObjcSuperClass) \
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template <> \
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inline objc_class* wxObjcCompilerInformation<ObjcClass>::GetSuperclass() \
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{ \
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return objc_getClass(#ObjcSuperClass); \
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}
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// The WX_IMPLEMENT_OBJC_GET_UNIQUIFIED_SUPERCLASS macro implements the template
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// specialization to get the superclass when the superclass is another uniquified
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// Objective-C class.
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#define WX_IMPLEMENT_OBJC_GET_UNIQUIFIED_SUPERCLASS(ObjcClass,ObjcSuperClass) \
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template <> \
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inline objc_class* wxObjcCompilerInformation<ObjcClass>::GetSuperclass() \
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{ \
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return wx_GetObjcClass_ ## ObjcSuperClass(); \
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}
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// The WX_IMPLEMENT_OBJC_CLASS_NAME macro implements the template specialization
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// of the sm_theClassName constant. As soon as this specialization is in place
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// sizeof(sm_theClassName) will return the number of bytes at compile time.
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#define WX_IMPLEMENT_OBJC_CLASS_NAME(ObjcClass) \
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template <> \
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const char wxObjcCompilerInformation<ObjcClass>::sm_theClassName[] = #ObjcClass;
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// The WX_IMPLEMENT_OBJC_GET_OBJC_CLASS macro is the final one that actually provides
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// the wx_GetObjcClass_XXX function that will be called in lieu of asking the Objective-C
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// runtime for the class. All the others are really machinery to make this happen.
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#define WX_IMPLEMENT_OBJC_GET_OBJC_CLASS(ObjcClass) \
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objc_class* wx_GetObjcClass_ ## ObjcClass() \
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{ \
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return wxObjcClassInitializer<ObjcClass>::Get(); \
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}
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// The WX_IMPLEMENT_GET_OBJC_CLASS macro combines all of these together
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// for the case when the superclass is a non-uniquified class.
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#define WX_IMPLEMENT_GET_OBJC_CLASS(ObjcClass,ObjcSuperClass) \
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WX_IMPLEMENT_OBJC_GET_COMPILED_CLASS(ObjcClass) \
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WX_IMPLEMENT_OBJC_GET_SUPERCLASS(ObjcClass,ObjcSuperClass) \
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WX_IMPLEMENT_OBJC_CLASS_NAME(ObjcClass) \
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WX_IMPLEMENT_OBJC_GET_OBJC_CLASS(ObjcClass)
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// The WX_IMPLEMENT_GET_OBJC_CLASS_WITH_UNIQUIFIED_SUPERCLASS macro combines all
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// of these together for the case when the superclass is another uniquified class.
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#define WX_IMPLEMENT_GET_OBJC_CLASS_WITH_UNIQUIFIED_SUPERCLASS(ObjcClass,ObjcSuperClass) \
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WX_IMPLEMENT_OBJC_GET_COMPILED_CLASS(ObjcClass) \
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WX_IMPLEMENT_OBJC_GET_UNIQUIFIED_SUPERCLASS(ObjcClass,ObjcSuperClass) \
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WX_IMPLEMENT_OBJC_CLASS_NAME(ObjcClass) \
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WX_IMPLEMENT_OBJC_GET_OBJC_CLASS(ObjcClass)
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// The WX_GET_OBJC_CLASS macro is intended to wrap the class name when the class
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// is used as a message receiver (e.g. for calling class methods). When
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// class name uniquifying is used, this calls the global function implemented
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// in the Objective-C file containing the class @implementation.
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#define WX_GET_OBJC_CLASS(ObjcClass) wx_GetObjcClass_ ## ObjcClass()
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#else // wxUSE_OBJC_UNIQUIFYING
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// Define WX_DECLARE_GET_OBJC_CLASS as nothing
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#define WX_DECLARE_GET_OBJC_CLASS(ObjcClass,ObjcSuperClass)
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// Define WX_IMPLEMENT_GET_OBJC_CLASS as nothing
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#define WX_IMPLEMENT_GET_OBJC_CLASS(ObjcClass,ObjcSuperClass)
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// Define WX_IMPLEMENT_GET_OBJC_CLASS_WITH_UNIQUIFIED_SUPERCLASS as nothing
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#define WX_IMPLEMENT_GET_OBJC_CLASS_WITH_UNIQUIFIED_SUPERCLASS(ObjcClass,ObjcSuperClass)
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// Define WX_GET_OBJC_CLASS macro to output the class name and let the compiler do the normal thing
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// The WX_GET_OBJC_CLASS macro is intended to wrap the class name when the class
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// is used as a message receiver (e.g. for calling class methods). When
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// class name uniquifying is not used, this is simply defined to be the class
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// name which will allow the compiler to do the normal thing.
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#define WX_GET_OBJC_CLASS(ObjcClass) ObjcClass
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#endif // wxUSE_OBJC_UNIQUIFYING
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#endif //ndef __WX_COCOA_OBJC_CLASS_H__
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