gcc/testsuite/objc-obj-c++-shared/GNUStep/GNUstepBase/GSObjCRuntime.h - gcc - Git at Google

 /** Interface to ObjC runtime for GNUStep
    Copyright (C) 1995, 1997, 2000, 2002, 2003 Free Software Foundation, Inc.

    Written by:  Andrew Kachites McCallum <mccallum@gnu.ai.mit.edu>
    Date: 1995
    Written by:  Richard Frith-Macdonald <rfm@gnu.org>
    Date: 2002

    This file is part of the GNUstep Base Library.

    This library is free software; you can redistribute it and/or
    modify it under the terms of the GNU Lesser General Public
    License as published by the Free Software Foundation; either
    version 2 of the License, or (at your option) any later version.

    This library is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
    Library General Public License for more details.

    You should have received a copy of the GNU Lesser General Public
    License along with this library; if not, write to the Free
    Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
    Boston, MA 02111 USA.

     AutogsdocSource: Additions/GSObjCRuntime.m

    */

 #ifndef __GSObjCRuntime_h_GNUSTEP_BASE_INCLUDE
 #define __GSObjCRuntime_h_GNUSTEP_BASE_INCLUDE

 #import "GSVersionMacros.h"
 #import "GSConfig.h"

 #include <stdio.h>

 #if 1 || NeXT_RUNTIME
  #include <objc/objc.h>
  #include <objc/objc-class.h>
  #include <objc/objc-runtime.h>
  #ifndef _C_ATOM
   #define _C_ATOM '%'
  #endif
  #define _F_CONST    0x01
  #define _F_IN       0x01
  #define _F_OUT      0x02
  #define _F_INOUT    0x03
  #define _F_BYCOPY   0x04
  #define _F_ONEWAY   0x08
  #define _C_CONST    'r'
  #define _C_IN       'n'
  #define _C_INOUT    'N'
  #define _C_OUT      'o'
  #define _C_BYCOPY   'O'
  #define _C_ONEWAY   'V'
 #else				/* GNU Objective C Runtime */
  #include <objc/objc.h>
  #if defined (__GNU_LIBOBJC__)
   #include <objc/runtime.h>
  #else
   #include <objc/objc-api.h>
   #include <objc/encoding.h>
  #endif
 #endif

 /*
  * Hack for older compiler versions that don't have all defines
  * needed in  objc-api.h
  */
 #ifndef	_C_LNG_LNG
 #define	_C_LNG_LNG	'q'
 #endif
 #ifndef	_C_ULNG_LNG
 #define	_C_ULNG_LNG	'Q'
 #endif

 #if	OBJC2RUNTIME
 /* We have a real ObjC2 runtime.
  */
 #include <objc/runtime.h>
 #else
 /* We emulate an ObjC2 runtime.
  */
 #include <ObjectiveC2/objc/runtime.h>
 #endif

 #ifdef __cplusplus
 extern "C" {
 #endif

 @class	NSArray;
 @class	NSDictionary;
 @class	NSObject;
 @class	NSString;
 @class	NSValue;

 #ifndef YES
 #define YES		1
 #endif
 #ifndef NO
 #define NO		0
 #endif
 #ifndef nil
 #define nil		0
 #endif

 #if	!defined(_C_CONST)
 #define _C_CONST        'r'
 #endif
 #if	!defined(_C_IN)
 #define _C_IN           'n'
 #endif
 #if	!defined(_C_INOUT)
 #define _C_INOUT        'N'
 #endif
 #if	!defined(_C_OUT)
 #define _C_OUT          'o'
 #endif
 #if	!defined(_C_BYCOPY)
 #define _C_BYCOPY       'O'
 #endif
 #if	!defined(_C_BYREF)
 #define _C_BYREF        'R'
 #endif
 #if	!defined(_C_ONEWAY)
 #define _C_ONEWAY       'V'
 #endif
 #if	!defined(_C_GCINVISIBLE)
 #define _C_GCINVISIBLE  '!'
 #endif

 /*
  * Functions for accessing instance variables directly -
  * We can copy an ivar into arbitrary data,
  * Get the type encoding for a named ivar,
  * and copy a value into an ivar.
  */
 GS_EXPORT BOOL
 GSObjCFindVariable(id obj, const char *name,
 		   const char **type, unsigned int *size, int *offset);

 GS_EXPORT void
 GSObjCGetVariable(id obj, int offset, unsigned int size, void *data);

 GS_EXPORT void
 GSObjCSetVariable(id obj, int offset, unsigned int size, const void *data);

 GS_EXPORT NSArray *
 GSObjCMethodNames(id obj, BOOL recurse);

 GS_EXPORT NSArray *
 GSObjCVariableNames(id obj, BOOL recurse);

 /**
  * <p>A Behavior can be seen as a "Protocol with an implementation" or a
  * "Class without any instance variables".  A key feature of behaviors
  * is that they give a degree of multiple inheritance.
  * </p>
  * <p>Behavior methods, when added to a class, override the class's
  * superclass methods, but not the class's methods.
  * </p>
  * <p>Whan a behavior class is added to a receiver class, not only are the
  * methods defined in the behavior class added, but the methods from the
  * behavior's class hierarchy are also added (unless already present).
  * </p>
  * <p>It's not the case that a class adding behaviors from another class
  * must have "no instance vars".  The receiver class just has to have the
  * same layout as the behavior class (optionally with some additional
  * ivars after those of the behavior class).
  * </p>
  * <p>This function provides Behaviors without adding any new syntax to
  * the Objective C language.  Simply define a class with the methods you
  * want to add, then call this function with that class as the behavior
  * argument.
  * </p>
  * <p>This function should be called in the +initialize method of the receiver.
  * </p>
  * <p>If you add several behaviors to a class, be aware that the order of
  * the additions is significant.
  * </p>
  */
 GS_EXPORT void
 GSObjCAddClassBehavior(Class receiver, Class behavior);

 /**
  * <p>An Override can be seen as a "category implemented as a separate class
  * and manually added to the receiver class under program control, rather
  * than automatically added by the compiler/runtime.
  * </p>
  * <p>Override methods, when added to a receiver class, replace the class's
  * class's methods of the same name (or are added if the class did not define
  * methods with that name).
  * </p>
  * <p>It's not the case that a class adding overrides from another class
  * must have "no instance vars".  The receiver class just has to have the
  * same layout as the override class (optionally with some additional
  * ivars after those of the override class).
  * </p>
  * <p>This function provides overrides without adding any new syntax to
  * the Objective C language.  Simply define a class with the methods you
  * want to add, then call this function with that class as the override
  * argument.
  * </p>
  * <p>This function should usually be called in the +initialize method
  * of the receiver.
  * </p>
  * <p>If you add several overrides to a class, be aware that the order of
  * the additions is significant.
  * </p>
  */
 GS_EXPORT void
 GSObjCAddClassOverride(Class receiver, Class override);

 /** Turn on (YES), off (NO) or test (-1) behavior debugging.
  */
 GS_EXPORT BOOL GSObjCBehaviorDebug(int setget);

 GS_EXPORT NSValue *
 GSObjCMakeClass(NSString *name, NSString *superName, NSDictionary *iVars);

 GS_EXPORT void
 GSObjCAddClasses(NSArray *classes);

 /**
  * Given a NULL terminated list of methods, add them to the class.<br />
  * If the method already exists in a superclass, the new version overrides
  * that one, but if the method already exists in the class itsself, the
  * new one is quietly ignored (replace==NO) or replaced with the new
  * version (if replace==YES).<br />
  * To add class methods, cls should be the metaclass of the class to
  * which the methods are being added.
  */
 GS_EXPORT void
 GSObjCAddMethods(Class cls, Method *list, BOOL replace);

 /*
  * Functions for key-value encoding ... they access values in an object
  * either by selector or directly, but do so using NSNumber for the
  * scalar types of data.
  */
 GS_EXPORT id
 GSObjCGetVal(NSObject *self, const char *key, SEL sel,
   const char *type, unsigned size, int offset);

 GS_EXPORT void
 GSObjCSetVal(NSObject *self, const char *key, id val, SEL sel,
   const char *type, unsigned size, int offset);

 /*
  * This section includes runtime functions
  * to query and manipulate the ObjC runtime structures.
  * These functions take care to not use ObjC code so
  * that they can safely be used in +(void)load implementations
  * where applicable.
  */

 /**
  * Deprecated ... use objc_getClassList()
  */
 GS_EXPORT unsigned int
 GSClassList(Class *buffer, unsigned int max, BOOL clearCache);

 /**
  * GSObjCClass() is deprecated ... use object_getClass()
  */
 GS_EXPORT Class GSObjCClass(id obj);

 /**
  * GSObjCSuper() is deprecated ... use class_getSuperclass()
  */
 GS_EXPORT Class GSObjCSuper(Class cls);

 /**
  * GSObjCIsInstance() is deprecated ... use object_getClass()
  * in conjunction with class_isMetaClass()
  */
 GS_EXPORT BOOL GSObjCIsInstance(id obj);

 /**
  * GSObjCIsClass() is deprecated ... use object_getClass()
  * in conjunction with class_isMetaClass()
  */
 GS_EXPORT BOOL GSObjCIsClass(Class cls);

 /**
  * Test to see if class inherits from another class
  * The argument to this function must NOT be nil.
  */
 GS_EXPORT BOOL GSObjCIsKindOf(Class cls, Class other);

 /**
  * GSClassFromName() is deprecated ... use objc_lookUpClass()
  */
 GS_EXPORT Class GSClassFromName(const char *name);

 /**
  * GSNameFromClass() is deprecated ... use class_getName()
  */
 GS_EXPORT const char *GSNameFromClass(Class cls);

 /**
  * GSClassNameFromObject() is deprecated ... use object_getClass()
  * in conjunction with class_getName()
  */
 GS_EXPORT const char *GSClassNameFromObject(id obj);

 /**
  * GSNameFromSelector() is deprecated ... use sel_getName()
  */
 GS_EXPORT const char *GSNameFromSelector(SEL sel);

 /**
  * GSSelectorFromName() is deprecated ... use sel_getUid()
  */
 GS_EXPORT SEL
 GSSelectorFromName(const char *name);

 /**
  * Return the selector for the specified name and types.<br />
  * Returns a nul pointer if the name is nul.<br />
  * Creates a new selector if necessary.<br />
  * Code must NOT rely on this providing a selector with type information.
  */
 GS_EXPORT SEL
 GSSelectorFromNameAndTypes(const char *name, const char *types);

 /**
  * Return the type information from the specified selector.<br />
  * May return a nul pointer if the selector was a nul pointer or if it
  * was not typed (or if the runtime does not support typed selectors).<br />
  * Code must NOT rely on this providing any type information.
  */
 GS_EXPORT const char *
 GSTypesFromSelector(SEL sel);

 /**
  * Compare only the type information ignoring qualifiers, the frame layout
  * and register markers.  Unlike sel_types_match, this function also
  * handles comparisons of types with and without any layout information.
  */
 GS_EXPORT BOOL
 GSSelectorTypesMatch(const char *types1, const char *types2);

 /** Takes full type information and skips forward to the actual type
  * as specified in the _C_... constants.
  */
 GS_EXPORT const char *
 GSSkipTypeQualifierAndLayoutInfo(const char *types);

 /**
  * Returns a protocol object with the corresponding name.
  * This function searches the registered classes for any protocol
  * with the supplied name.  If one is found, it is cached in
  * for future requests.  If efficiency is a factor then use
  * GSRegisterProtocol() to insert a protocol explicitly into the cache
  * used by this function.  If no protocol is found this function returns
  * nil.
  */
 GS_EXPORT Protocol *
 GSProtocolFromName(const char *name);

 /**
  * Registers proto in the cache used by GSProtocolFromName().
  */
 GS_EXPORT void
 GSRegisterProtocol(Protocol *proto);

 /**
  * A variant of protocol_getMethodDescription which recursively searches
  * parent protocols if the requested selector isn't found in the given
  * protocol.
  *
  * Returns a {NULL, NULL} structure if the requested selector couldn't be
  * found.
  */
 GS_EXPORT struct objc_method_description
 GSProtocolGetMethodDescriptionRecursive(Protocol *aProtocol, SEL aSel, BOOL isRequired, BOOL isInstance);

 /*
  * Unfortunately the definition of the symbols
  * 'Method(_t)', 'MethodList(_t)'  and 'IVar(_t)'
  * are incompatible between the GNU and NeXT/Apple runtimes.
  * We introduce GSMethod, GSMethodList and GSIVar to allow portability.
  */
 typedef Method	GSMethod;
 typedef Ivar	GSIVar;

 /**
  * Returns the pointer to the method structure
  * for the selector in the specified class.
  * Depending on searchInstanceMethods, this function searches
  * either instance or class methods.
  * Depending on searchSuperClassesm this function searches
  * either the specified class only or also its superclasses.<br/>
  * To obtain the implementation pointer IMP use returnValue->method_imp
  * which should be safe across all runtimes.<br/>
  * It should be safe to use this function in +load implementations.<br/>
  * This function should currently (June 2004) be considered WIP.
  * Please follow potential changes (Name, parameters, ...) closely until
  * it stabilizes.
  */
 GS_EXPORT GSMethod
 GSGetMethod(Class cls, SEL sel,
 	    BOOL searchInstanceMethods,
 	    BOOL searchSuperClasses);

 /**
  * Deprecated .. does nothing.
  */
 GS_EXPORT void
 GSFlushMethodCacheForClass (Class cls);

 /**
  * Deprecated .. use class_getInstanceVariable()
  */
 GS_EXPORT GSIVar
 GSCGetInstanceVariableDefinition(Class cls, const char *name);

 /**
  * Deprecated .. use class_getInstanceVariable()
  */
 GS_EXPORT GSIVar
 GSObjCGetInstanceVariableDefinition(Class cls, NSString *name);

 /**
  * GSObjCVersion() is deprecated ... use class_getVersion()
  */
 GS_EXPORT int GSObjCVersion(Class cls);

 /**
  * Quickly return autoreleased data storage area.
  */
 GS_EXPORT void *
 GSAutoreleasedBuffer(unsigned size);

 /**
  * <p>Prints a message to fptr using the format string provided and any
  * additional arguments.  The format string is interpreted as by
  * the NSString formatted initialisers, and understands the '%@' syntax
  * for printing an object.
  * </p>
  * <p>The data is written to the file pointer in the default CString
  * encoding if possible, as a UTF8 string otherwise.
  * </p>
  * <p>This function is recommended for printing general log messages.
  * For debug messages use NSDebugLog() and friends.  For error logging
  * use NSLog(), and for warnings you might consider NSWarnLog().
  * </p>
  */
 GS_EXPORT BOOL
 GSPrintf (FILE *fptr, NSString *format, ...);


 GS_EXPORT NSArray *
 GSObjCAllSubclassesOfClass(Class cls);

 GS_EXPORT NSArray *
 GSObjCDirectSubclassesOfClass(Class cls);

 /** Function to change the class of the specified instance to newClass.
  * This handles memory debugging issues in GNUstep-base and also
  * deals with class finalisation issues in a garbage collecting
  * environment, so you should use this function rather than attempting
  * to swizzle class pointers directly.
  */
 GS_EXPORT void
 GSClassSwizzle(id instance, Class newClass);

 #if !defined(GS_GNUSTEP_V) || (GS_GNUSTEP_V >= GS_API_ANY && GS_GNUSTEP_V < 011500)
 //GS_API_VERSION(GS_API_ANY,011500)

 GS_EXPORT const char *
 GSLastErrorStr(long error_id) GS_DEPRECATED_FUNC;

 #endif


 #ifndef	GS_MAX_OBJECTS_FROM_STACK
 /**
  * The number of objects to try to get from varargs into an array on
  * the stack ... if there are more than this, use the heap.
  * NB. This MUST be a multiple of 2
  */
 #define	GS_MAX_OBJECTS_FROM_STACK	128
 #endif

 /**
  * <p>This is a macro designed to minimise the use of memory allocation and
  * deallocation when you need to work with a vararg list of objects.<br />
  * The objects are unpacked from the vararg list into two 'C' arrays and
  * then a code fragment you specify is able to make use of them before
  * that 'C' array is destroyed.
  * </p>
  * <p>The firstObject argument is the name of the formal parameter in your
  * method or function which precedes the ', ...' denoting variable args.
  * </p>
  * <p>The code argument is a piece of objective-c code to be executed to
  * make use of the objects stored in the 'C' arrays.<br />
  * When this code is called the unsigned integer '__count' will contain the
  * number of objects unpacked, the pointer '__objects' will point to
  * the first object in each pair, and the pointer '__pairs' will point
  * to an array containing the second halves of the pairs of objects
  * whose first halves are in '__objects'.<br />
  * This lets you pack a list of the form 'key, value, key, value, ...'
  * into an array of keys and an array of values.
  * </p>
  */
 #define GS_USEIDPAIRLIST(firstObject, code...) ({\
   va_list	__ap; \
   unsigned int	__max = GS_MAX_OBJECTS_FROM_STACK; \
   unsigned int	__count = 0; \
   id		__buf[__max]; \
   id		*__objects = __buf; \
   id		*__pairs = &__objects[__max/2]; \
   id		__obj = firstObject; \
   va_start(__ap, firstObject); \
   while (__obj != nil && __count < __max) \
     { \
       if ((__count % 2) == 0) \
 	{ \
 	  __objects[__count/2] = __obj; \
 	} \
       else \
 	{ \
 	  __pairs[__count/2] = __obj; \
 	} \
       __obj = va_arg(__ap, id); \
       if (++__count == __max) \
 	{ \
 	  while (__obj != nil) \
 	    { \
 	      __count++; \
 	      __obj = va_arg(__ap, id); \
 	    } \
 	} \
     } \
   if ((__count % 2) == 1) \
     { \
       __pairs[__count/2] = nil; \
       __count++; \
     } \
   va_end(__ap); \
   if (__count > __max) \
     { \
       unsigned int	__tmp; \
       __objects = (id*)malloc(__count*sizeof(id)); \
       __pairs = &__objects[__count/2]; \
       __objects[0] = firstObject; \
       va_start(__ap, firstObject); \
       for (__tmp = 1; __tmp < __count; __tmp++) \
 	{ \
 	  if ((__tmp % 2) == 0) \
 	    { \
 	      __objects[__tmp/2] = va_arg(__ap, id); \
 	    } \
 	  else \
 	    { \
 	      __pairs[__tmp/2] = va_arg(__ap, id); \
 	    } \
 	} \
       va_end(__ap); \
     } \
   code; \
   if (__objects != __buf) free(__objects); \
 })

 /**
  * <p>This is a macro designed to minimise the use of memory allocation and
  * deallocation when you need to work with a vararg list of objects.<br />
  * The objects are unpacked from the vararg list into a 'C' array and
  * then a code fragment you specify is able to make use of them before
  * that 'C' array is destroyed.
  * </p>
  * <p>The firstObject argument is the name of the formal parameter in your
  * method or function which precedes the ', ...' denoting variable args.
  * </p>
  * <p>The code argument is a piece of objective-c code to be executed to
  * make use of the objects stored in the 'C' array.<br />
  * When this code is called the unsigned integer '__count' will contain the
  * number of objects unpacked, and the pointer '__objects' will point to
  * the unpacked objects, ie. firstObject followed by the vararg arguments
  * up to (but not including) the first nil.
  * </p>
  */
 #define GS_USEIDLIST(firstObject, code...) ({\
   va_list	__ap; \
   unsigned int	__max = GS_MAX_OBJECTS_FROM_STACK; \
   unsigned int	__count = 0; \
   id		__buf[__max]; \
   id		*__objects = __buf; \
   id		__obj = firstObject; \
   va_start(__ap, firstObject); \
   while (__obj != nil && __count < __max) \
     { \
       __objects[__count] = __obj; \
       __obj = va_arg(__ap, id); \
       if (++__count == __max) \
 	{ \
 	  while (__obj != nil) \
 	    { \
 	      __count++; \
 	      __obj = va_arg(__ap, id); \
 	    } \
 	} \
     } \
   va_end(__ap); \
   if (__count > __max) \
     { \
       unsigned int	__tmp; \
       __objects = (id*)NSZoneMalloc(NSDefaultMallocZone(),__count*sizeof(id)); \
       va_start(__ap, firstObject); \
       __objects[0] = firstObject; \
       for (__tmp = 1; __tmp < __count; __tmp++) \
 	{ \
 	  __objects[__tmp] = va_arg(__ap, id); \
 	} \
       va_end(__ap); \
     } \
   code; \
   if (__objects != __buf) NSZoneFree (NSDefaultMallocZone(),__objects); \
 })


 #ifdef __cplusplus
 }
 #endif

 #endif /* __GSObjCRuntime_h_GNUSTEP_BASE_INCLUDE */
	/** Interface to ObjC runtime for GNUStep
	Copyright (C) 1995, 1997, 2000, 2002, 2003 Free Software Foundation, Inc.

	Written by: Andrew Kachites McCallum <mccallum@gnu.ai.mit.edu>
	Date: 1995
	Written by: Richard Frith-Macdonald <rfm@gnu.org>
	Date: 2002

	This file is part of the GNUstep Base Library.

	This library is free software; you can redistribute it and/or
	modify it under the terms of the GNU Lesser General Public
	License as published by the Free Software Foundation; either
	version 2 of the License, or (at your option) any later version.

	This library is distributed in the hope that it will be useful,
	but WITHOUT ANY WARRANTY; without even the implied warranty of
	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	Library General Public License for more details.

	You should have received a copy of the GNU Lesser General Public
	License along with this library; if not, write to the Free
	Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
	Boston, MA 02111 USA.

	AutogsdocSource: Additions/GSObjCRuntime.m

	*/

	#ifndef __GSObjCRuntime_h_GNUSTEP_BASE_INCLUDE
	#define __GSObjCRuntime_h_GNUSTEP_BASE_INCLUDE

	#import "GSVersionMacros.h"
	#import "GSConfig.h"

	#include <stdio.h>

	#if 1 \|\| NeXT_RUNTIME
	#include <objc/objc.h>
	#include <objc/objc-class.h>
	#include <objc/objc-runtime.h>
	#ifndef _C_ATOM
	#define _C_ATOM '%'
	#endif
	#define _F_CONST 0x01
	#define _F_IN 0x01
	#define _F_OUT 0x02
	#define _F_INOUT 0x03
	#define _F_BYCOPY 0x04
	#define _F_ONEWAY 0x08
	#define _C_CONST 'r'
	#define _C_IN 'n'
	#define _C_INOUT 'N'
	#define _C_OUT 'o'
	#define _C_BYCOPY 'O'
	#define _C_ONEWAY 'V'
	#else /* GNU Objective C Runtime */
	#include <objc/objc.h>
	#if defined (__GNU_LIBOBJC__)
	#include <objc/runtime.h>
	#else
	#include <objc/objc-api.h>
	#include <objc/encoding.h>
	#endif
	#endif

	/*
	* Hack for older compiler versions that don't have all defines
	* needed in objc-api.h
	*/
	#ifndef _C_LNG_LNG
	#define _C_LNG_LNG 'q'
	#endif
	#ifndef _C_ULNG_LNG
	#define _C_ULNG_LNG 'Q'
	#endif

	#if OBJC2RUNTIME
	/* We have a real ObjC2 runtime.
	*/
	#include <objc/runtime.h>
	#else
	/* We emulate an ObjC2 runtime.
	*/
	#include <ObjectiveC2/objc/runtime.h>
	#endif

	#ifdef __cplusplus
	extern "C" {
	#endif

	@class NSArray;
	@class NSDictionary;
	@class NSObject;
	@class NSString;
	@class NSValue;

	#ifndef YES
	#define YES 1
	#endif
	#ifndef NO
	#define NO 0
	#endif
	#ifndef nil
	#define nil 0
	#endif

	#if !defined(_C_CONST)
	#define _C_CONST 'r'
	#endif
	#if !defined(_C_IN)
	#define _C_IN 'n'
	#endif
	#if !defined(_C_INOUT)
	#define _C_INOUT 'N'
	#endif
	#if !defined(_C_OUT)
	#define _C_OUT 'o'
	#endif
	#if !defined(_C_BYCOPY)
	#define _C_BYCOPY 'O'
	#endif
	#if !defined(_C_BYREF)
	#define _C_BYREF 'R'
	#endif
	#if !defined(_C_ONEWAY)
	#define _C_ONEWAY 'V'
	#endif
	#if !defined(_C_GCINVISIBLE)
	#define _C_GCINVISIBLE '!'
	#endif

	/*
	* Functions for accessing instance variables directly -
	* We can copy an ivar into arbitrary data,
	* Get the type encoding for a named ivar,
	* and copy a value into an ivar.
	*/
	GS_EXPORT BOOL
	GSObjCFindVariable(id obj, const char *name,
	const char *type, unsigned int size, int *offset);

	GS_EXPORT void
	GSObjCGetVariable(id obj, int offset, unsigned int size, void *data);

	GS_EXPORT void
	GSObjCSetVariable(id obj, int offset, unsigned int size, const void *data);

	GS_EXPORT NSArray *
	GSObjCMethodNames(id obj, BOOL recurse);

	GS_EXPORT NSArray *
	GSObjCVariableNames(id obj, BOOL recurse);

	/**
	* <p>A Behavior can be seen as a "Protocol with an implementation" or a
	* "Class without any instance variables". A key feature of behaviors
	* is that they give a degree of multiple inheritance.
	* </p>
	* <p>Behavior methods, when added to a class, override the class's
	* superclass methods, but not the class's methods.
	* </p>
	* <p>Whan a behavior class is added to a receiver class, not only are the
	* methods defined in the behavior class added, but the methods from the
	* behavior's class hierarchy are also added (unless already present).
	* </p>
	* <p>It's not the case that a class adding behaviors from another class
	* must have "no instance vars". The receiver class just has to have the
	* same layout as the behavior class (optionally with some additional
	* ivars after those of the behavior class).
	* </p>
	* <p>This function provides Behaviors without adding any new syntax to
	* the Objective C language. Simply define a class with the methods you
	* want to add, then call this function with that class as the behavior
	* argument.
	* </p>
	* <p>This function should be called in the +initialize method of the receiver.
	* </p>
	* <p>If you add several behaviors to a class, be aware that the order of
	* the additions is significant.
	* </p>
	*/
	GS_EXPORT void
	GSObjCAddClassBehavior(Class receiver, Class behavior);

	/**
	* <p>An Override can be seen as a "category implemented as a separate class
	* and manually added to the receiver class under program control, rather
	* than automatically added by the compiler/runtime.
	* </p>
	* <p>Override methods, when added to a receiver class, replace the class's
	* class's methods of the same name (or are added if the class did not define
	* methods with that name).
	* </p>
	* <p>It's not the case that a class adding overrides from another class
	* must have "no instance vars". The receiver class just has to have the
	* same layout as the override class (optionally with some additional
	* ivars after those of the override class).
	* </p>
	* <p>This function provides overrides without adding any new syntax to
	* the Objective C language. Simply define a class with the methods you
	* want to add, then call this function with that class as the override
	* argument.
	* </p>
	* <p>This function should usually be called in the +initialize method
	* of the receiver.
	* </p>
	* <p>If you add several overrides to a class, be aware that the order of
	* the additions is significant.
	* </p>
	*/
	GS_EXPORT void
	GSObjCAddClassOverride(Class receiver, Class override);

	/** Turn on (YES), off (NO) or test (-1) behavior debugging.
	*/
	GS_EXPORT BOOL GSObjCBehaviorDebug(int setget);

	GS_EXPORT NSValue *
	GSObjCMakeClass(NSString name, NSString superName, NSDictionary *iVars);

	GS_EXPORT void
	GSObjCAddClasses(NSArray *classes);

	/**
	* Given a NULL terminated list of methods, add them to the class.<br />
	* If the method already exists in a superclass, the new version overrides
	* that one, but if the method already exists in the class itsself, the
	* new one is quietly ignored (replace==NO) or replaced with the new
	* version (if replace==YES).<br />
	* To add class methods, cls should be the metaclass of the class to
	* which the methods are being added.
	*/
	GS_EXPORT void
	GSObjCAddMethods(Class cls, Method *list, BOOL replace);

	/*
	* Functions for key-value encoding ... they access values in an object
	* either by selector or directly, but do so using NSNumber for the
	* scalar types of data.
	*/
	GS_EXPORT id
	GSObjCGetVal(NSObject self, const char key, SEL sel,
	const char *type, unsigned size, int offset);

	GS_EXPORT void
	GSObjCSetVal(NSObject self, const char key, id val, SEL sel,
	const char *type, unsigned size, int offset);

	/*
	* This section includes runtime functions
	* to query and manipulate the ObjC runtime structures.
	* These functions take care to not use ObjC code so
	* that they can safely be used in +(void)load implementations
	* where applicable.
	*/

	/**
	* Deprecated ... use objc_getClassList()
	*/
	GS_EXPORT unsigned int
	GSClassList(Class *buffer, unsigned int max, BOOL clearCache);

	/**
	* GSObjCClass() is deprecated ... use object_getClass()
	*/
	GS_EXPORT Class GSObjCClass(id obj);

	/**
	* GSObjCSuper() is deprecated ... use class_getSuperclass()
	*/
	GS_EXPORT Class GSObjCSuper(Class cls);

	/**
	* GSObjCIsInstance() is deprecated ... use object_getClass()
	* in conjunction with class_isMetaClass()
	*/
	GS_EXPORT BOOL GSObjCIsInstance(id obj);

	/**
	* GSObjCIsClass() is deprecated ... use object_getClass()
	* in conjunction with class_isMetaClass()
	*/
	GS_EXPORT BOOL GSObjCIsClass(Class cls);

	/**
	* Test to see if class inherits from another class
	* The argument to this function must NOT be nil.
	*/
	GS_EXPORT BOOL GSObjCIsKindOf(Class cls, Class other);

	/**
	* GSClassFromName() is deprecated ... use objc_lookUpClass()
	*/
	GS_EXPORT Class GSClassFromName(const char *name);

	/**
	* GSNameFromClass() is deprecated ... use class_getName()
	*/
	GS_EXPORT const char *GSNameFromClass(Class cls);

	/**
	* GSClassNameFromObject() is deprecated ... use object_getClass()
	* in conjunction with class_getName()
	*/
	GS_EXPORT const char *GSClassNameFromObject(id obj);

	/**
	* GSNameFromSelector() is deprecated ... use sel_getName()
	*/
	GS_EXPORT const char *GSNameFromSelector(SEL sel);

	/**
	* GSSelectorFromName() is deprecated ... use sel_getUid()
	*/
	GS_EXPORT SEL
	GSSelectorFromName(const char *name);

	/**
	* Return the selector for the specified name and types.<br />
	* Returns a nul pointer if the name is nul.<br />
	* Creates a new selector if necessary.<br />
	* Code must NOT rely on this providing a selector with type information.
	*/
	GS_EXPORT SEL
	GSSelectorFromNameAndTypes(const char name, const char types);

	/**
	* Return the type information from the specified selector.<br />
	* May return a nul pointer if the selector was a nul pointer or if it
	* was not typed (or if the runtime does not support typed selectors).<br />
	* Code must NOT rely on this providing any type information.
	*/
	GS_EXPORT const char *
	GSTypesFromSelector(SEL sel);

	/**
	* Compare only the type information ignoring qualifiers, the frame layout
	* and register markers. Unlike sel_types_match, this function also
	* handles comparisons of types with and without any layout information.
	*/
	GS_EXPORT BOOL
	GSSelectorTypesMatch(const char types1, const char types2);

	/** Takes full type information and skips forward to the actual type
	* as specified in the _C_... constants.
	*/
	GS_EXPORT const char *
	GSSkipTypeQualifierAndLayoutInfo(const char *types);

	/**
	* Returns a protocol object with the corresponding name.
	* This function searches the registered classes for any protocol
	* with the supplied name. If one is found, it is cached in
	* for future requests. If efficiency is a factor then use
	* GSRegisterProtocol() to insert a protocol explicitly into the cache
	* used by this function. If no protocol is found this function returns
	* nil.
	*/
	GS_EXPORT Protocol *
	GSProtocolFromName(const char *name);

	/**
	* Registers proto in the cache used by GSProtocolFromName().
	*/
	GS_EXPORT void
	GSRegisterProtocol(Protocol *proto);

	/**
	* A variant of protocol_getMethodDescription which recursively searches
	* parent protocols if the requested selector isn't found in the given
	* protocol.
	*
	* Returns a {NULL, NULL} structure if the requested selector couldn't be
	* found.
	*/
	GS_EXPORT struct objc_method_description
	GSProtocolGetMethodDescriptionRecursive(Protocol *aProtocol, SEL aSel, BOOL isRequired, BOOL isInstance);

	/*
	* Unfortunately the definition of the symbols
	* 'Method(_t)', 'MethodList(_t)' and 'IVar(_t)'
	* are incompatible between the GNU and NeXT/Apple runtimes.
	* We introduce GSMethod, GSMethodList and GSIVar to allow portability.
	*/
	typedef Method GSMethod;
	typedef Ivar GSIVar;

	/**
	* Returns the pointer to the method structure
	* for the selector in the specified class.
	* Depending on searchInstanceMethods, this function searches
	* either instance or class methods.
	* Depending on searchSuperClassesm this function searches
	* either the specified class only or also its superclasses.<br/>
	* To obtain the implementation pointer IMP use returnValue->method_imp
	* which should be safe across all runtimes.<br/>
	* It should be safe to use this function in +load implementations.<br/>
	* This function should currently (June 2004) be considered WIP.
	* Please follow potential changes (Name, parameters, ...) closely until
	* it stabilizes.
	*/
	GS_EXPORT GSMethod
	GSGetMethod(Class cls, SEL sel,
	BOOL searchInstanceMethods,
	BOOL searchSuperClasses);

	/**
	* Deprecated .. does nothing.
	*/
	GS_EXPORT void
	GSFlushMethodCacheForClass (Class cls);

	/**
	* Deprecated .. use class_getInstanceVariable()
	*/
	GS_EXPORT GSIVar
	GSCGetInstanceVariableDefinition(Class cls, const char *name);

	/**
	* Deprecated .. use class_getInstanceVariable()
	*/
	GS_EXPORT GSIVar
	GSObjCGetInstanceVariableDefinition(Class cls, NSString *name);

	/**
	* GSObjCVersion() is deprecated ... use class_getVersion()
	*/
	GS_EXPORT int GSObjCVersion(Class cls);

	/**
	* Quickly return autoreleased data storage area.
	*/
	GS_EXPORT void *
	GSAutoreleasedBuffer(unsigned size);

	/**
	* <p>Prints a message to fptr using the format string provided and any
	* additional arguments. The format string is interpreted as by
	* the NSString formatted initialisers, and understands the '%@' syntax
	* for printing an object.
	* </p>
	* <p>The data is written to the file pointer in the default CString
	* encoding if possible, as a UTF8 string otherwise.
	* </p>
	* <p>This function is recommended for printing general log messages.
	* For debug messages use NSDebugLog() and friends. For error logging
	* use NSLog(), and for warnings you might consider NSWarnLog().
	* </p>
	*/
	GS_EXPORT BOOL
	GSPrintf (FILE fptr, NSString format, ...);



	GS_EXPORT NSArray *
	GSObjCAllSubclassesOfClass(Class cls);

	GS_EXPORT NSArray *
	GSObjCDirectSubclassesOfClass(Class cls);

	/** Function to change the class of the specified instance to newClass.
	* This handles memory debugging issues in GNUstep-base and also
	* deals with class finalisation issues in a garbage collecting
	* environment, so you should use this function rather than attempting
	* to swizzle class pointers directly.
	*/
	GS_EXPORT void
	GSClassSwizzle(id instance, Class newClass);

	#if !defined(GS_GNUSTEP_V) \|\| (GS_GNUSTEP_V >= GS_API_ANY && GS_GNUSTEP_V < 011500)
	//GS_API_VERSION(GS_API_ANY,011500)

	GS_EXPORT const char *
	GSLastErrorStr(long error_id) GS_DEPRECATED_FUNC;

	#endif



	#ifndef GS_MAX_OBJECTS_FROM_STACK
	/**
	* The number of objects to try to get from varargs into an array on
	* the stack ... if there are more than this, use the heap.
	* NB. This MUST be a multiple of 2
	*/
	#define GS_MAX_OBJECTS_FROM_STACK 128
	#endif

	/**
	* <p>This is a macro designed to minimise the use of memory allocation and
	* deallocation when you need to work with a vararg list of objects.<br />
	* The objects are unpacked from the vararg list into two 'C' arrays and
	* then a code fragment you specify is able to make use of them before
	* that 'C' array is destroyed.
	* </p>
	* <p>The firstObject argument is the name of the formal parameter in your
	* method or function which precedes the ', ...' denoting variable args.
	* </p>
	* <p>The code argument is a piece of objective-c code to be executed to
	* make use of the objects stored in the 'C' arrays.<br />
	* When this code is called the unsigned integer '__count' will contain the
	* number of objects unpacked, the pointer '__objects' will point to
	* the first object in each pair, and the pointer '__pairs' will point
	* to an array containing the second halves of the pairs of objects
	* whose first halves are in '__objects'.<br />
	* This lets you pack a list of the form 'key, value, key, value, ...'
	* into an array of keys and an array of values.
	* </p>
	*/
	#define GS_USEIDPAIRLIST(firstObject, code...) ({\
	va_list __ap; \
	unsigned int __max = GS_MAX_OBJECTS_FROM_STACK; \
	unsigned int __count = 0; \
	id __buf[__max]; \
	id *__objects = __buf; \
	id *__pairs = &__objects[__max/2]; \
	id __obj = firstObject; \
	va_start(__ap, firstObject); \
	while (__obj != nil && __count < __max) \
	{ \
	if ((__count % 2) == 0) \
	{ \
	__objects[__count/2] = __obj; \
	} \
	else \
	{ \
	__pairs[__count/2] = __obj; \
	} \
	__obj = va_arg(__ap, id); \
	if (++__count == __max) \
	{ \
	while (__obj != nil) \
	{ \
	__count++; \
	__obj = va_arg(__ap, id); \
	} \
	} \
	} \
	if ((__count % 2) == 1) \
	{ \
	__pairs[__count/2] = nil; \
	__count++; \
	} \
	va_end(__ap); \
	if (__count > __max) \
	{ \
	unsigned int __tmp; \
	__objects = (id)malloc(__countsizeof(id)); \
	__pairs = &__objects[__count/2]; \
	__objects[0] = firstObject; \
	va_start(__ap, firstObject); \
	for (__tmp = 1; __tmp < __count; __tmp++) \
	{ \
	if ((__tmp % 2) == 0) \
	{ \
	__objects[__tmp/2] = va_arg(__ap, id); \
	} \
	else \
	{ \
	__pairs[__tmp/2] = va_arg(__ap, id); \
	} \
	} \
	va_end(__ap); \
	} \
	code; \
	if (__objects != __buf) free(__objects); \
	})

	/**
	* <p>This is a macro designed to minimise the use of memory allocation and
	* deallocation when you need to work with a vararg list of objects.<br />
	* The objects are unpacked from the vararg list into a 'C' array and
	* then a code fragment you specify is able to make use of them before
	* that 'C' array is destroyed.
	* </p>
	* <p>The firstObject argument is the name of the formal parameter in your
	* method or function which precedes the ', ...' denoting variable args.
	* </p>
	* <p>The code argument is a piece of objective-c code to be executed to
	* make use of the objects stored in the 'C' array.<br />
	* When this code is called the unsigned integer '__count' will contain the
	* number of objects unpacked, and the pointer '__objects' will point to
	* the unpacked objects, ie. firstObject followed by the vararg arguments
	* up to (but not including) the first nil.
	* </p>
	*/
	#define GS_USEIDLIST(firstObject, code...) ({\
	va_list __ap; \
	unsigned int __max = GS_MAX_OBJECTS_FROM_STACK; \
	unsigned int __count = 0; \
	id __buf[__max]; \
	id *__objects = __buf; \
	id __obj = firstObject; \
	va_start(__ap, firstObject); \
	while (__obj != nil && __count < __max) \
	{ \
	__objects[__count] = __obj; \
	__obj = va_arg(__ap, id); \
	if (++__count == __max) \
	{ \
	while (__obj != nil) \
	{ \
	__count++; \
	__obj = va_arg(__ap, id); \
	} \
	} \
	} \
	va_end(__ap); \
	if (__count > __max) \
	{ \
	unsigned int __tmp; \
	__objects = (id)NSZoneMalloc(NSDefaultMallocZone(),__countsizeof(id)); \
	va_start(__ap, firstObject); \
	__objects[0] = firstObject; \
	for (__tmp = 1; __tmp < __count; __tmp++) \
	{ \
	__objects[__tmp] = va_arg(__ap, id); \
	} \
	va_end(__ap); \
	} \
	code; \
	if (__objects != __buf) NSZoneFree (NSDefaultMallocZone(),__objects); \
	})


	#ifdef __cplusplus
	}
	#endif

	#endif /* __GSObjCRuntime_h_GNUSTEP_BASE_INCLUDE */