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class.h
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class.h
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#ifndef __OBJC_CLASS_H_INCLUDED
#define __OBJC_CLASS_H_INCLUDED
#include "visibility.h"
/**
* Overflow bitfield. Used for bitfields that are more than 63 bits.
*/
struct objc_bitfield
{
/**
* The number of elements in the values array.
*/
int32_t length;
/**
* An array of values. Each 32 bits is stored in the native endian for the
* platform.
*/
int32_t values[0];
};
struct objc_class
{
/**
* Pointer to the metaclass for this class. The metaclass defines the
* methods use when a message is sent to the class, rather than an
* instance.
*/
struct objc_class *isa;
/**
* Pointer to the superclass. The compiler will set this to the name of
* the superclass, the runtime will initialize it to point to the real
* class.
*/
struct objc_class *super_class;
/**
* The name of this class. Set to the same value for both the class and
* its associated metaclass.
*/
const char *name;
/**
* The version of this class. This is not used by the language, but may be
* set explicitly at class load time.
*/
long version;
/**
* A bitfield containing various flags. See the objc_class_flags
* enumerated type for possible values.
*/
unsigned long info;
/**
* The size of this class. For classes using the non-fragile ABI, the
* compiler will set this to a negative value The absolute value will be
* the size of the instance variables defined on just this class. When
* using the fragile ABI, the instance size is the size of instances of
* this class, including any instance variables defined on superclasses.
*
* In both cases, this will be set to the size of an instance of the class
* after the class is registered with the runtime.
*/
long instance_size;
/**
* Metadata describing the instance variables in this class.
*/
struct objc_ivar_list *ivars;
/**
* Metadata for for defining the mappings from selectors to IMPs. Linked
* list of method list structures, one per class and one per category.
*/
struct objc_method_list *methods;
/**
* The dispatch table for this class. Intialized and maintained by the
* runtime.
*/
void *dtable;
/**
* A pointer to the first subclass for this class. Filled in by the
* runtime.
*/
struct objc_class *subclass_list;
/**
* A pointer to the next sibling class to this. You may find all
* subclasses of a given class by following the subclass_list pointer and
* then subsequently following the sibling_class pointers in the
* subclasses.
*/
struct objc_class *sibling_class;
/**
* Metadata describing the protocols adopted by this class. Not used by
* the runtime.
*/
struct objc_protocol_list *protocols;
/**
* Linked list of extra data attached to this class.
*/
struct reference_list *extra_data;
/**
* New ABI. The following fields are only available with classes compiled to
* support the new ABI. You may test whether any given class supports this
* ABI by using the CLS_ISNEW_ABI() macro.
*/
/**
* The version of the ABI used for this class. Zero indicates the ABI first
* implemented by clang 1.0. One indicates the presence of bitmaps
* indicating the offsets of strong, weak, and unretained ivars.
*/
long abi_version;
/**
* Array of pointers to variables where the runtime will store the ivar
* offset. These may be used for faster access to non-fragile ivars if all
* of the code is compiled for the new ABI. Each of these pointers should
* have the mangled name __objc_ivar_offset_value_{class name}.{ivar name}
*
* When using the compatible non-fragile ABI, this faster form should only be
* used for classes declared in the same compilation unit.
*
* The compiler should also emit symbols of the form
* __objc_ivar_offset_{class name}.{ivar name} which are pointers to the
* offset values. These should be emitted as weak symbols in every module
* where they are used. The legacy-compatible ABI uses these with a double
* layer of indirection.
*/
int **ivar_offsets;
/**
* List of declared properties on this class (NULL if none). This contains
* the accessor methods for each property.
*/
struct objc_property_list *properties;
/**
* GC / ARC ABI: Fields below this point only exist if abi_version is >= 1.
*/
/**
* The location of all strong pointer ivars declared by this class.
*
* If the low bit of this field is 0, then this is a pointer to an
* objc_bitfield structure. If the low bit is 1, then the remaining 63
* bits are set, from low to high, for each ivar in the object that is a
* strong pointer.
*/
intptr_t strong_pointers;
/**
* The location of all zeroing weak pointer ivars declared by this class.
* The format of this field is the same as the format of the
* strong_pointers field.
*/
intptr_t weak_pointers;
};
/**
* Structure representing the old ABI class structure. This is only ever
* required so that we can take its size - struct objc_class begins with the
* same fields, and you can test the new abi flag to tell whether it is safe to
* access the subsequent fields.
*/
struct legacy_abi_objc_class
{
struct objc_class *isa;
struct objc_class *super_class;
const char *name;
long version;
unsigned long info;
long instance_size;
struct objc_ivar_list *ivars;
struct objc_method_list *methods;
void *dtable;
struct objc_class *subclass_list;
struct objc_class *sibling_class;
struct objc_protocol_list *protocols;
void *gc_object_type;
};
/**
* An enumerated type describing all of the valid flags that may be used in the
* info field of a class.
*/
enum objc_class_flags
{
/** This class structure represents a class. */
objc_class_flag_class = (1<<0),
/** This class structure represents a metaclass. */
objc_class_flag_meta = (1<<1),
/**
* This class has been sent a +initalize message. This message is sent
* exactly once to every class that is sent a message by the runtime, just
* before the first other message is sent.
*/
objc_class_flag_initialized = (1<<2),
/**
* The class has been initialized by the runtime. Its super_class pointer
* should now point to a class, rather than a C string containing the class
* name, and its subclass and sibling class links will have been assigned,
* if applicable.
*/
objc_class_flag_resolved = (1<<3),
/**
* The class uses the new, Objective-C 2, runtime ABI. This ABI defines an
* ABI version field inside the class, and so will be used for all
* subsequent versions that retain some degree of compatibility.
*/
objc_class_flag_new_abi = (1<<4),
/**
* This class was created at run time and may be freed.
*/
objc_class_flag_user_created = (1<<5),
/**
* Instances of this class are provide ARC-safe retain / release /
* autorelease implementations.
*/
objc_class_flag_fast_arc = (1<<6),
/**
* This class is a hidden class (should not be registered in the class
* table nor returned from object_getClass()).
*/
objc_class_flag_hidden_class = (1<<7),
/**
* This class is a hidden class used to store associated values.
*/
objc_class_flag_assoc_class = (1<<8)
};
/**
* Sets the specific class flag. Note: This is not atomic.
*/
static inline void objc_set_class_flag(struct objc_class *aClass,
enum objc_class_flags flag)
{
aClass->info |= (unsigned long)flag;
}
/**
* Unsets the specific class flag. Note: This is not atomic.
*/
static inline void objc_clear_class_flag(struct objc_class *aClass,
enum objc_class_flags flag)
{
aClass->info &= ~(unsigned long)flag;
}
/**
* Checks whether a specific class flag is set.
*/
static inline BOOL objc_test_class_flag(struct objc_class *aClass,
enum objc_class_flags flag)
{
return (aClass->info & (unsigned long)flag) == (unsigned long)flag;
}
/**
* Adds a class to the class table.
*/
void class_table_insert(Class class);
/**
* Array of classes used for small objects. Small objects are embedded in
* their pointer. In 32-bit mode, we have one small object class (typically
* used for storing 31-bit signed integers. In 64-bit mode then we can have 7,
* because classes are guaranteed to be word aligned.
*/
extern Class SmallObjectClasses[7];
static BOOL isSmallObject(id obj)
{
uintptr_t addr = ((uintptr_t)obj);
return (addr & OBJC_SMALL_OBJECT_MASK) != 0;
}
__attribute__((always_inline))
static inline Class classForObject(id obj)
{
if (UNLIKELY(isSmallObject(obj)))
{
if (sizeof(Class) == 4)
{
return SmallObjectClasses[0];
}
else
{
uintptr_t addr = ((uintptr_t)obj);
return SmallObjectClasses[(addr & OBJC_SMALL_OBJECT_MASK)];
}
}
return obj->isa;
}
#endif //__OBJC_CLASS_H_INCLUDED