1 OS_object
OS_object由下面宏OS_OBJECT_DEC_BASE扩展而来:
// 1. os/object.h
OS_OBJECT_DECL_BASE(object, NSObject);
// 2. os/object.h
#define OS_OBJECT_DECL_BASE(name, ...)
@interface OS_OBJECT_CLASS(name) : __VA_ARGS__
- (instancetype)init OS_SWIFT_UNAVAILABLE("Unavailable in Swift");
@end
扩展之后的结果为:
@interface OS_object : NSObject
- (instancetype)init OS_SWIFT_UNAVAILABLE("Unavailable in Swift");
@end
从扩展的结果来看,OS_object继承自NSObject。
OS_object实现部分位于 src/object.m 中:
@implementation OS_OBJECT_CLASS(object)
DISPATCH_UNAVAILABLE_INIT()
-(id)retain {
return _os_object_retain(self);
}
-(oneway void)release {
return _os_object_release_without_xref_dispose(self);
}
-(NSUInteger)retainCount {
return _os_object_retain_count(self);
}
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wdeprecated-implementations"
-(BOOL)retainWeakReference {
return _os_object_retain_weak(self);
}
-(BOOL)allowsWeakReference {
return _os_object_allows_weak_reference(self);
}
#pragma clang diagnostic pop
- (void)_xref_dispose {
return _os_object_release_internal(self);
}
@end
宏OS_OBJECT_CLASS的作用就是给宏参数加一个OS_前缀,因此OS_OBJECT_CLASS(object)扩展之后就是OS_object。
GCD 源码为OS_object定义了一个指针类型:
// 1. os/object_private.h
typedef OS_OBJECT_CLASS(object) *_os_object_t;
上面代码中将宏扩展开,就是做了如下定义:
typdef OS_object *_os_object_t;
2 OS_dispatch_object
OS_dispatch_object由宏OS_OBJECT_DECL_CLASS扩展而来:
// 1. dispatch/object.h
OS_OBJECT_DECL_CLASS(dispatch_object);
// 2. os/object.h
#define OS_OBJECT_DECL_CLASS(name)
OS_OBJECT_DECL_SUBCLASS_SWIFT(name, object)
// 3. os/object.h
#define OS_OBJECT_DECL_SUBCLASS_SWIFT(name, super)
OS_EXPORT OS_OBJECT_OBJC_RUNTIME_VISIBLE
OS_OBJECT_DECL_IMPL_CLASS(name, OS_OBJECT_CLASS(super))
// 4. os/object.h
#define OS_OBJECT_DECL_IMPL_CLASS(name, ...)
OS_OBJECT_DECL_BASE(name, ## __VA_ARGS__)
typedef OS_OBJECT_CLASS(name)
* OS_OBJC_INDEPENDENT_CLASS name##_t
扩展之后的结果为:
@interface OS_dispatch_object : OS_object
- (instancetype)init OS_SWIFT_UNAVAILABLE("Unavailable in Swift");
@end
typedef OS_dispatch_object *dispatch_object_t
从扩展结果看,OS_dispatch_object继承自OS_object。
上面注释 3 处的宏OS_OBJECT_OBJC_RUNTIME_VISIBLE 和注释 4 处的宏OS_OBJC_INDEPENDENT_CLASS都是 Clang 编译器的属性,对数据结构本身没有影响,因此没有写出来。比如宏OS_OBJECT_OBJC_RUNTIME_VISIBLE扩展之后就是:
__attribute__((objc_runtime_visible))
OS_dispatch_object的实现位于 src/object.m 中:
@implementation DISPATCH_CLASS(object)
DISPATCH_UNAVAILABLE_INIT()
- (NSString *)debugDescription {
Class nsstring = objc_lookUpClass("NSString");
if (!nsstring) return nil;
char buf[2048];
struct dispatch_object_s *obj = (struct dispatch_object_s *)self;
if (dx_vtable(obj)->do_debug) {
dx_debug(obj, buf, sizeof(buf));
} else {
strlcpy(buf, object_getClassName(self), sizeof(buf));
}
NSString *format = [nsstring stringWithUTF8String:""];
if (!format) return nil;
return [nsstring stringWithFormat:format, object_getClassName(self), buf];
}
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wobjc-missing-super-calls"
- (void)dealloc {
return _dispatch_dispose(self);
}
#pragma clang diagnostic pop
@end
宏DISPATCH_CLASS的作用是在宏参数前面加上前缀OS_dispatch_,因此DISPATCH_CLASS(object)扩展之后就是OS_dispatch_object。
3 OS_dispatch_queue
OS_dispatch_queue由宏DISPATCH_DECL_FACTORY_CLASS_SWIFT扩展而来:
// 1. dispatch/queue.h
DISPATCH_DECL_FACTORY_CLASS_SWIFT(dispatch_queue, DispatchQueue);
// 2. dispatch/object.h
#define DISPATCH_DECL_FACTORY_CLASS_SWIFT(name, swift_name)
OS_OBJECT_SWIFT_HAS_MISSING_DESIGNATED_INIT DISPATCH_DECL_SWIFT(name, swift_name)
// 3. dispatch/object.h
#define DISPATCH_DECL_SWIFT(name, swift_name) DISPATCH_SWIFT_NAME(swift_name) DISPATCH_DECL(name)
// 4. dispatch/object.h
#define DISPATCH_DECL(name) OS_OBJECT_DECL_SENDABLE_SUBCLASS_SWIFT(name, dispatch_object)
// 5. os/object.h
#define OS_OBJECT_DECL_SENDABLE_SUBCLASS_SWIFT(name, super)
OS_EXPORT OS_OBJECT_OBJC_RUNTIME_VISIBLE OS_OBJECT_SWIFT_SENDABLE
OS_OBJECT_DECL_IMPL_CLASS(name, OS_OBJECT_CLASS(super))
扩展之后的结果为:
@interface OS_dispatch_queue : OS_dispatch_object
- (instancetype)init OS_SWIFT_UNAVAILABLE("Unavailable in Swift");
@end
typedef OS_dispatch_queue *dispatch_queue_t;
从扩展结果看OS_dispatch_queue继承自OS_dispatch_object。
OS_dispatch_queue的实现部分位于 src/object.m 中:
@implementation DISPATCH_CLASS(queue)
OS_OBJECT_NONLAZY_CLASS_LOAD
DISPATCH_UNAVAILABLE_INIT()
DISPATCH_OBJECT_USES_XREF_DISPOSE()
- (NSString *)description {
Class nsstring = objc_lookUpClass("NSString");
if (!nsstring) return nil;
NSString *format = [nsstring stringWithUTF8String:""];
if (!format) return nil;
return [nsstring stringWithFormat:format, object_getClassName(self),
dispatch_queue_get_label(self), self];
}
- (void)_xref_dispose {
_dispatch_queue_xref_dispose((struct dispatch_queue_s *)self);
[super _xref_dispose];
}
@end
宏DISPATCH_CLASS(queue)扩展之后就是OS_dispatch_queue。
4 OS_dispatch_queue_serial
OS_dispatch_queue_serial由宏DISPATCH_DECL_SERIAL_EXECUTOR_SWIFT扩展而来:
// 1. dispatch/queue.h
DISPATCH_DECL_SERIAL_EXECUTOR_SWIFT(dispatch_queue_serial, DispatchSerialQueue);
// 2. dispatch/object.h
#define DISPATCH_DECL_SERIAL_EXECUTOR_SWIFT(name, swift_name)
DISPATCH_DECL_SUBCLASS_SWIFT(name, dispatch_queue, swift_name)
// 3. dispatch/object.h
#define DISPATCH_DECL_SUBCLASS_SWIFT(name, base, swift_name)
DISPATCH_SWIFT_NAME(swift_name) DISPATCH_DECL_SUBCLASS(name, base)
// 4. dispatch/object.h
#define DISPATCH_DECL_SUBCLASS(name, base) OS_OBJECT_DECL_SENDABLE_SUBCLASS_SWIFT(name, base)
扩展之后的结果为:
@interface OS_dispatch_queue_serial : OS_dispatch_queue
- (instancetype)init OS_SWIFT_UNAVAILABLE("Unavailable in Swift");
@end
typedef OS_dispatch_queue_searial *dispatch_queue_searial_t;
从扩展结果看,OS_dispatch_queue_serial继承自OS_dispatch_queue。
OS_dispatch_queue_serial的实现位于 src/object.m 中:
// 1. src/object.m
DISPATCH_CLASS_IMPL(queue_serial)
// 2. src/object.m
#define DISPATCH_CLASS_IMPL(name)
EMPTY_OS_OBJECT_CLASS_IMPL(DISPATCH_CLASS(name))
// 3. src/object.m
#define EMPTY_OS_OBJECT_CLASS_IMPL(name)
OS_OBJECT_NONLAZY_CLASS
@implementation name
OS_OBJECT_NONLAZY_CLASS_LOAD
DISPATCH_UNAVAILABLE_INIT()
@end
// 4. src/object_internal.h
#define DISPATCH_UNAVAILABLE_INIT()
- (instancetype)init {
DISPATCH_CLIENT_CRASH(0, "-init called directly");
return [super init];
}
扩展之后的结果为:
@implementation OS_dispatch_queue_serial
- (instancetype)init {
return [super init];
}
@end
5 OS_dispatch_queue_concurrent
OS_dispatch_queque_concurrent由宏DISPATCH_DECL_SUBCLASS_SWIFT扩展而来:
// 1. dispatch/queue.h
DISPATCH_DECL_SUBCLASS_SWIFT(dispatch_queue_concurrent, dispatch_queue, DispatchConcurrentQueue);
扩展结果为:
@interface OS_dispatch_queue_concurrent : OS_dispatch_queue
- (instancetype)init OS_SWIFT_UNAVAILABLE("Unavailable in Swift");
@end
typedef OS_dispatch_queue_concurrent *dispatch_queue_concurrent_t;
从扩展结果看,OS_dispatch_queue_concurrent继承自OS_dispatch_queue。
OS_dispatch_queue_concurrent的实现位于 src/object.m 中:
DISPATCH_CLASS_IMPL(queue_concurrent)
扩展之后的结果为:
@implementation OS_dispatch_queue_concurrent
- (instancetype)init {
return [super init];
}
@end
5 OS_dispatch_queue_main
OS_dispatch_queue_main由宏DISPATCH_DECL_SUBCLASS扩展而来:
// 1. dispatch/queue.h
DISPATCH_DECL_SUBCLASS(dispatch_queue_main, dispatch_queue_serial);
扩展的结果为:
@interface OS_dispatch_queue_main : OS_dispatch_queue_serial
- (instancetype)init OS_SWIFT_UNAVAILABLE("Unavailable in Swift");
@end
typedef OS_dispatch_queue_main *dispatch_queue_main_t;
从扩展结果看,OS_dispatch_queue_main继承自OS_dispatch_queue_serial。
OS_dispatch_queue_main的实现部分位于 src/object.m 中:
// 1. src/object.m
DISPATCH_CLASS_IMPL(queue_main)
扩展之后的结果为:
@implementation OS_dispatch_queue_main
- (instancetype)init {
return [super init];
}
@end
6 OS_dispatch_queue_global
OS_disaptch_queue_global由宏DISPATCH_DECL_SUBCLASS扩展而来:
// 1. dispatch/queue.h
DISPATCH_DECL_SUBCLASS(dispatch_queue_global, dispatch_queue);
扩展之后的结果为:
@interface OS_dispatch_queue_global : OS_dispatch_queue
- (instancetype)init OS_SWIFT_UNAVAILABLE("Unavailable in Swift");
@end
typedef OS_dispatch_queue_global *dispatch_queue_global_t;
从扩展结果看,OS_dispatch_queue_global继承自OS_dispatch_queue。
OS_dispatch_queue_global的实现位于 src/object.m 中:
// 1. src/object.m
DISPATCH_CLASS_IMPL(queue_global)
扩展结果之后为:
@implementation OS_dispatch_queue_global
- (instancetype)init {
return [super init];
}
@end
2 OC 协议
2.1
由宏OS_OBJECT_DECL_PROTOCOL定义:
// 1. os/object_private.h
OS_OBJECT_DECL_PROTOCOL(object, );
// 2. os/object.h
#define OS_OBJECT_DECL_PROTOCOL(name, ...)
@protocol OS_OBJECT_CLASS(name) __VA_ARGS__
@end
宏扩展的结果为:
@protocol OS_object
@end
从扩展结果可以知道,继承自。
2.2
由宏_OS_OBJECT_DECL_PROTOCOL定义:
// 1. src/object_internal.h
_OS_OBJECT_DECL_PROTOCOL(dispatch_object, object);
// 2. os/object_private.h
#define _OS_OBJECT_DECL_PROTOCOL(name, super)
OS_OBJECT_DECL_PROTOCOL(name, )
宏扩展之后的结果为:
@protocol OS_dispatch_object
@end
从扩展结果可以看出,继承自。
2.3
由宏DISPATCH_CLASS_DECL定义:
// 1. src/queue_internal.h
DISPATCH_CLASS_DECL(queue, QUEUE);
// 2. src/object_internal.h
#define DISPATCH_CLASS_DECL(name, cluster)
_OS_OBJECT_DECL_PROTOCOL(dispatch_##name, dispatch_object)
_OS_OBJECT_CLASS_IMPLEMENTS_PROTOCOL(dispatch_##name, dispatch_##name)
DISPATCH_CLASS_DECL_BARE(name, cluster)
宏DISPATCH_CLASS_DECL有 3 个宏构成,其中宏DISPATCH_CLASS_DECL_BARE后面再说。
宏_OS_OBJECT_DECL_PROTOCOL扩展之后的结果为:
@protocol OS_dispatch_queue
@end
从扩展结果看,继承自。
宏_OS_OBJECT_CLASS_IMPLEMENTS_PROTOCOL的定义如下:
// 1. os/object_private.h
#define _OS_OBJECT_CLASS_IMPLEMENTS_PROTOCOL(name, super)
OS_OBJECT_CLASS_IMPLEMENTS_PROTOCOL(name, super)
// 2. os/object.h
#define OS_OBJECT_CLASS_IMPLEMENTS_PROTOCOL(name, proto)
OS_OBJECT_CLASS_IMPLEMENTS_PROTOCOL_IMPL(
OS_OBJECT_CLASS(name), OS_OBJECT_CLASS(proto))
// 3. os/object.h
#define OS_OBJECT_CLASS_IMPLEMENTS_PROTOCOL_IMPL(name, proto)
@interface name ()
@end
宏的扩展结果为:
@interface OS_dispatch_queue ()
@end
从扩展结果可知,OS_dispatch_queue实现了同名协议。
2.4
由宏DISPATCH_SUBCLASS_DECL定义:
// 1. src/queue_internal.h
DISPATCH_SUBCLASS_DECL(queue_serial, queue_serial_executor, lane);
// 2. src/object_internal.h
#define DISPATCH_SUBCLASS_DECL(name, super, ctype)
_OS_OBJECT_DECL_PROTOCOL(dispatch_##name, dispatch_##super);
_OS_OBJECT_CLASS_IMPLEMENTS_PROTOCOL(dispatch_##name, dispatch_##name)
OS_OBJECT_SUBCLASS_DECL(dispatch_##name, dispatch_##ctype)
宏DISPATCH_SUBCLASS_DECL由 3 个宏构成,其中宏OS_OBJECT_SUBCLASS_DECL后面再说。
宏_OS_OBJECT_DECL_PROTOCOL _OS_OBJECT_CLASS_IMPLEMENTS_PROTOCOL扩展的结果为:
@protocol OS_dispatch_queue_serial
@end
@interface OS_dispatch_queue_serial ()
@end
从扩展结果可以知道,继承自。同时,OS_dispatch_queue_serial实现了同名协议。
协议是 GCD 内部的一个协议,同样也有宏DISPATCH_SUBCLASS_DECL定义:
// 1. src/queue_internal.h
DISPATCH_SUBCLASS_DECL(queue_serial_executor, queue, lane);
因此,协议继承自`。
2.5
由宏DISPATCH_SUBCLASS_DECL定义:
// 1. src/queue_internal.h
DISPATCH_SUBCLASS_DECL(queue_concurrent, queue, lane);
宏扩展的结果为:
@protocol OS_dispatch_queue_concurrent
@end
@interface OS_dispatch_queue_concurrent ()
@end
从扩展结果可以知道,继承自。同时,OS_dispatch_queue_concurrent实现了同名的。
2.6
OS_dispatch_queue_main由宏DISPATCH_SUBCLASS_DECL定义:
// 1. src/queue_internal.h
DISPATCH_SUBCLASS_DECL(queue_main, queue_serial, lane);
宏扩展结果为:
@protocol OS_dispatch_queue_main
@end
@interface OS_dispatch_queue_main ()
@end
从扩展结果可以知道,继承自。同时,OS_dispatch_queue_main实现了同名的。
2.7
由宏DISPATCH_SUBCLASS_DECL`定义:
// 1. src/queue_internal.h
DISPATCH_SUBCLASS_DECL(queue_global, queue, lane);
宏扩展的结果为:
@protocol OS_disaptch_queue_global
@end
@interface OS_dispatch_queue_global ()
@end
从扩展结果可以知道,继承自。同时,OS_dispatch_queue_global实现了同名协议。
3 Struct
3.1 _os_object_s 与 _os_object_vtable_s
_os_object_s定义如下:
// 1. src/object_internal.h
typedef struct _os_object_s {
_OS_OBJECT_HEADER(
const _os_object_vtable_s *__ptrauth_objc_isa_pointer os_obj_isa,
os_obj_ref_cnt,
os_obj_xref_cnt);
} _os_object_s;
宏_OS_OBJECT_HEADER定义如下:
// 1. os/object_private.h
服务器托管网#define _OS_OBJECT_HEADER(isa, ref_cnt, xref_cnt)
isa; /* must be pointer-sized and use __ptrauth_objc_isa_pointer */
int volatile ref_cnt;
int volatile xref_cnt
因此,_os_object_s完整的定义如下:
typedef struct _os_object_s {
const _os_object_vta服务器托管网ble_s *__ptrauth_objc_isa_pointer os_obj_isa,
int volatile os_obj_ref_cnt;
int volatile os_obj_xref_cnt;
} _os_object_s;
_os_object_vtable_s的定义如下:
// 1. src/object_internal.h
typedef struct _os_object_vtable_s {
_OS_OBJECT_CLASS_HEADER();
} _os_object_vtable_s;
宏_OS_OBJECT_CLASS_HEADER定义如下:
// 1. os/object_private.h
// Must match size of compiler-generated OBJC_CLASS structure rdar://10640168
#define _OS_OBJECT_CLASS_HEADER()
void *_os_obj_objc_class_t[5]
因此,_os_object_vtalbe_s的完整定义为:
typedef struct _os_object_vtable_s {
void *_os_obj_objc_class_t[5];
} _os_object_vtable_s;
3.2 dispatch_object_s 与 dispatch_object_vtable_s
dispatch_object_s定义如下:
// 1. src/object_internal.h
struct dispatch_object_s {
_DISPATCH_OBJECT_HEADER(object);
};
宏_DISPATCH_OBJECT_HEADER的定义如下:
// 1. src/object_internal.h
#define _DISPATCH_OBJECT_HEADER(x)
_DISPATCH_OBJECT_HEADER_INTERNAL(x)
struct dispatch_queue_s *do_targetq;
void *do_ctxt;
union {
dispatch_function_t DISPATCH_FUNCTION_POINTER do_finalizer;
void *do_introspection_ctxt;
}
// 2. src/object_internal.h
#define _DISPATCH_OBJECT_HEADER(x)
_DISPATCH_OBJECT_HEADER_INTERNAL(x)
struct dispatch_queue_s *do_targetq;
void *do_ctxt;
union {
dispatch_function_t DISPATCH_FUNCTION_POINTER do_finalizer;
void *do_introspection_ctxt;
}
// 3. src/object_internal.h
#define _DISPATCH_OBJECT_HEADER_INTERNAL(x)
struct _os_object_s _as_os_obj[0];
OS_OBJECT_STRUCT_HEADER(dispatch_##x);
struct dispatch_##x##_s *volatile do_next;
// 4. src/object_internal.h
#define OS_OBJECT_STRUCT_HEADER(x)
_OS_OBJECT_HEADER(
const struct x##_vtable_s *__ptrauth_objc_isa_pointer do_vtable,
do_ref_cnt,
do_xref_cnt)
因此,dispatch_object_s展开的完整结果为:
struct dispatch_object_s {
// 这里就是 _os_object_s 内容
const struct dispatch_object_vtable_s *__ptrauth_objc_isa_pointer do_vtable,
int volatile do_ref_cnt;
int volatile do_xref_cnt;
struct dispatch_object_s *volatile do_next;
struct dispatch_queue_s *do_targetq;
void *do_ctx;
union {
dispatch_function_t DISPATCH_FUNCTION_POINTER do_finalizer;
void *do_introspection_ctxt;
}
};
从展开的结果可以看到,dispatch_object_s的头部区域就是_os_object_s的内容,可以认为,dispatch_object_s“继承”自_os_object_s。
dispatch_object_vtable_s由宏DISPATCH_CLASS_DECL_BARE定义:
// 1. src/object_internal.h
DISPATCH_CLASS_DECL_BARE(object, OBJECT);
DISPATCH_CLASS_DECL_BARE正是组成DISPATCH_CLASS_DECL的第 3 个宏。
DISPATCH_CLASS_DECL_BARE的定义如下:
// 1. src/object_internal.h
#define DISPATCH_CLASS_DECL_BARE(name, cluster)
OS_OBJECT_CLASS_DECL(dispatch_##name,
DISPATCH_##cluster##_VTABLE_HEADER(dispatch_##name))
因此,宏DISPATCH_CLASS_DECL_BARE(name, OBJECT)扩展为:
OS_OBJECT_CLASS_DECL(dispatch_object, DISPATCH_OBJECT_VTALBE_HEADER(dispatch_object))
宏DISPATCH_OBJECT_VTABLE_HEADER的定义如下:
// 1. src/object_internal.h
#define DISPATCH_OBJECT_VTABLE_HEADER(x)
unsigned long const do_type;
void DISPATCH_VTABLE_ENTRY(do_dispose)(struct x##_s *,
bool *allow_free);
size_t DISPATCH_VTABLE_ENTRY(do_debug)(struct x##_s *,
char *, size_t);
void DISPATCH_VTABLE_ENTRY(do_invoke)(struct x##_s *,
dispatch_invoke_context_t, dispatch_invoke_flags_t)
// 2. src/internal.h
#define DISPATCH_VTABLE_ENTRY(op)
(* __ptrauth(ptrauth_key_process_independent_code, true,
ptrauth_string_discriminator("dispatch." #op)) const op)
宏DISPATCH_VTALBE_ENTRY中的__ptrauth与PAC指针认证有关,与 GCD 功能无关,扩展结果中可以剔除这些扩展,因此宏DISPATCH_OBJECT_VTABLE_HEADER的扩展结果为:
unsigned const do_type;
void * const do_dispose(struct dispatch_object_s *, bool *allow_free);
size_t * const do_debug(struct dispatch_object_s *, char *, size_t);
void * const do_invoke(struct dispatch_object_s *, dispatch_invoke_context_t, dispatch_invoke_flags_t);
宏OS_OBJECT_CLASS_DECL的定义如下:
// 1. src/object_internal.h
#define OS_OBJECT_CLASS_DECL(name, ...)
struct name##_s;
struct name##_extra_vtable_s {
__VA_ARGS__;
};
struct name##_vtable_s {
_OS_OBJECT_CLASS_HEADER();
struct name##_extra_vtable_s _os_obj_vtable;
};
OS_OBJECT_EXTRA_VTABLE_DECL(name, name)
extern const struct name##_vtable_s OS_OBJECT_CLASS_SYMBOL(name)
__asm__(OS_OBJC_CLASS_RAW_SYMBOL_NAME(OS_OBJECT_CLASS(name)))
// 2. os/object_private.h
#define OS_OBJECT_CLASS_SYMBOL(name) OS_##name##_class
// 3. os/object_private.h
#define OS_OBJC_CLASS_RAW_SYMBOL_NAME(name) "_OBJC_CLASS_$_" OS_STRINGIFY(name)
上面代码中__VA_ARGS__就是宏DISPATCH_OBJECT_VTABLE_HEADER(dispatch_object)扩展的结果。因此宏DISPATCH_CLASS_DECL_BARE(object, OBJECT)扩展之后的结果为:
struct dispatch_object_s;
struct dispatch_object_extra_vtable_s {
unsigned const do_type;
void * const do_dispose(struct dispatch_object_s *, bool *allow_free);
size_t * const do_debug(struct dispatch_object_s *, char *, size_t);
void * const do_invoke(struct dispatch_object_s *, dispatch_invoke_context_t, dispatch_invoke_flags_t);
};
struct dispatch_object_vtable_s {
void *_os_obj_objc_class_t[5];
struct dispatch_object_extra_vtable_s _os_obj_vtable;
};
extern const struct dispatch_object_vtable_s OS_dispatch_object_class __asm__("_OBJC_CLASS_$_OS_dispatch_object");
3.3 dispatch_queue_s 与 dispatch_queue_vtable_s
dispatch_queue_s的定义如下:
// 1. src/queue_internal.h
struct dispatch_queue_s {
DISPATCH_QUEUE_CLASS_HEADER(queue, void *__dq_opaque1);
/* 32bit hole on LP64 */
} DISPATCH_ATOMIC64_ALIGN;
// 2. src/queue_internal.h
#define DISPATCH_QUEUE_CLASS_HEADER(x, __pointer_sized_field__)
_DISPATCH_QUEUE_CLASS_HEADER(x, __pointer_sized_field__);
/* LP64 global queue cacheline boundary */
unsigned long dq_serialnum;
const char *dq_label;
DISPATCH_UNION_LE(uint32_t volatile dq_atomic_flags,
const uint16_t dq_width,
const uint16_t __dq_opaque2
);
dispatch_priority_t dq_priority;
union {
struct dispatch_queue_specific_head_s *dq_specific_head;
struct dispatch_source_refs_s *ds_refs;
struct dispatch_timer_source_refs_s *ds_timer_refs;
struct dispatch_mach_recv_refs_s *dm_recv_refs;
struct dispatch_channel_callbacks_s const *dch_callbacks;
};
int volatile dq_sref_cnt
// 3. src/queue_internal.h
#define _DISPATCH_QUEUE_CLASS_HEADER(x, __pointer_sized_field__)
DISPATCH_OBJECT_HEADER(x);
__pointer_sized_field__;
DISPATCH_UNION_LE(uint64_t volatile dq_state,
dispatch_lock dq_state_lock,
uint32_t dq_state_bits
)
// 4. src/object_internal.h
#define DISPATCH_OBJECT_HEADER(x)
struct dispatch_object_s _as_do[0];
_DISPATCH_OBJECT_HEADER(x)
dispatch_queue_s完整的扩展结果如下:
struct disaptch_queue_s {
// 头部 dispatch_object_s 内容
const struct dispatch_queue_vtable_s *__ptrauth_objc_isa_pointer do_vtable,
int volatile do_ref_cnt;
int volatile do_xref_cnt;
struct dispatch_queue_s *volatile do_next;
struct dispatch_queue_s *do_targetq;
void *do_ctx;
union {
dispatch_function_t DISPATCH_FUNCTION_POINTER do_finalizer;
void *do_introspection_ctxt;
};
void *__dq_opaque1;
union {
uint64_t volatile dq_state;
struct {
dispatch_lock dq_state_lock;
uint32_t dq_state_bits;
};
};
/* LP64 global queue cacheline boundary */
unsigned long dq_serialnum;
const char *dq_label;
union {
uint32_t volatile dq_atomic_flags;
struct {
const uint16_t dq_width;
const uint16_t __dq_opaque2;
};
};
dispatch_priority_t dq_priority;
union {
struct dispatch_queue_specific_head_s *dq_specific_head;
struct dispatch_source_refs_s *ds_refs;
struct dispatch_timer_source_refs_s *ds_timer_refs;
struct dispatch_mach_recv_refs_s *dm_recv_refs;
struct dispatch_channel_callbacks_s const *dch_callbacks;
};
int volatile dq_sref_cnt
}
disaptch_queue_vtable_s由宏DISPATCH_CLASS_DECL定义:
// 1. src/queue_internal.h
DISPATCH_CLASS_DECL(queue, QUEUE);
// 2. src/object_internal.h
#define DISPATCH_CLASS_DECL(name, cluster)
_OS_OBJECT_DECL_PROTOCOL(dispatch_##name, dispatch_object)
_OS_OBJECT_CLASS_IMPLEMENTS_PROTOCOL(dispatch_##name, dispatch_##name)
DISPATCH_CLASS_DECL_BARE(name, cluster)
具体的说,是构成DISPATCH_CLASS_DECL宏的第 3 个宏DISPATCH_CLASS_BARE定义了dispatch_queue_vtable_s,完整的扩展结果为:
struct dispatch_queue_s;
struct dispatch_queue_extra_vtable_s {
unsigned long const do_type;
void * const do_dispose(struct dispatch_queue_s *, bool *allow_free);
size_t * const do_debug(struct dispatch_queue_s *, char *, size_t);
void * const do_invoke(struct dispatch_queue_s *, dispatch_invoke_context_t, dispatch_qos_t);
void * const dq_activate(dispatch_queue_class_t);
void * const dq_wakeup(dispatch_queue_class_t, dispatch_qos_t, dispatch_wakeup_flags_t);
void * const dq_push(dispatch_queue_class_t, dispatch_object_t, dispatch_qos_t);
};
struct dispatch_queue_vtable_s {
void *_os_obj_objc_class_t[5];
struct dispatch_queue_extra_vtable_s _os_obj_vtable;
}
extern const struct dispatch_queue_vtable_s OS_dispatch_queue_class __asm__("_OBJC_CLASS_$_OS_dispatch_queue");
3.4 dispatch_lane_s 与 dispatch_lane_vtable_s
dispatch_lane_s的定义如下:
// 1. src/queue_internal.h
typedef struct dispatch_lane_s {
DISPATCH_LANE_CLASS_HEADER(lane);
/* 32bit hole on LP64 */
} DISPATCH_ATOMIC64_ALIGN *dispatch_lane_t;
// 2. src/queue_internal.h
#define DISPATCH_LANE_CLASS_HEADER(x)
struct dispatch_queue_s _as_dq[0];
DISPATCH_QUEUE_CLASS_HEADER(x,
struct dispatch_object_s *volatile dq_items_tail);
dispatch_unfair_lock_s dq_sidelock;
struct dispatch_object_s *volatile dq_items_head;
uint32_t dq_side_suspend_cnt
扩展之后的完整结果为:
typedef struct dispatch_lane_s {
// 这里是 dispatch_queue_s
const struct dispatch_lane_vtable_s *__ptrauth_objc_isa_pointer do_vtable;
int volatile do_ref_cnt;
int volatile do_xref_cnt;
struct dispatch_lane_s *volatile do_next;
struct dispatch_queue_s *do_targetq;
void *do_ctxt;
union {
dispatch_function_t DISPATCH_FUNCTION_POINTER do_finalizer;
void *do_introspection_ctxt;
};
struct dispatch_object_s *volatile dq_items_tail;
union {
uint64_t volatile dq_state;
struct {
dispatch_lock dq_state_lock;
uint32_t dq_state_bits;
};
);
/* LP64 global queue cacheline boundary */
unsigned long dq_serialnum;
const char *dq_label;
union {
uint32_t volatile dq_atomic_flags;
struct {
const uint16_t dq_width;
const uint16_t __dq_opaque2;
};
);
dispatch_priority_t dq_priority;
union {
struct dispatch_queue_specific_head_s *dq_specific_head;
struct dispatch_source_refs_s *ds_refs;
struct dispatch_timer_source_refs_s *ds_timer_refs;
struct dispatch_mach_recv_refs_s *dm_recv_refs;
struct dispatch_channel_callbacks_s const *dch_callbacks;
};
int volatile dq_sref_cnt;
dispatch_unfair_lock_s dq_sidelock;
struct dispatch_object_s *volatile dq_items_head;
uint32_t dq_side_suspend_cnt;
} *dispatch_lane_t;
dispatch_lane_vtable_s由宏DISPATCH_CLASS_DECL_BARE定义:
// 1. src/queue_internal.h
DISPATCH_CLASS_DECL_BARE(lane, QUEUE);
dispatch_lane_vtable_s由宏OS_OBJECT_SUBCLASS_DECL定义,完整的展开结果为:
struct dispatch_lane_s;
struct dispatch_lane_extra_vtable_s {
unsigned long const do_type;
void * const do_dispose(struct dispatch_lane_s * bool *allow_free);
size_t * const do_debug(struct dispatch_lane_s *, char *, size_t);
void * const do_invoke(struct dispatch_lane_s * dispatch_invoke_context_t, dispatch_invoke_flags_t);
void * const dq_activate(dispatch_queue_class_t);
void * const dq_wakeup(dispatch_queue_class_t, dispatch_qos_t, dispatch_wakeup_flags_t);
void * const dq_push(dispatch_queue_class_t, dispatch_object_t, dispatch_qos_t);
}
struct dispatch_lane_vtable_s {
void *_os_obj_objc_class_t[5];
struct dispatch_lane_extra_vtable_s _os_obj_vtable;
}
extern const struct dispatch_lane_vtable_s OS_dispatch_lane_class __asm__("_OBJC_CLASS_$_OS_dispatch_lane")
与dispatch_lane_vtable_s有关的 3 个宏定义如下:
// 1. src/queue_internal.h
DISPATCH_SUBCLASS_DECL(queue_serial, queue_serial_executor, lane);
DISPATCH_SUBCLASS_DECL(queue_main, queue_serial, lane);
DISPATCH_SUBCLASS_DECL(queue_concurrent, queue, lane);
DISPATCH_SUBCLASS_DECL(queue_global, queue, lane);
// 2. src/object_internal.h
#define DISPATCH_SUBCLASS_DECL(name, super, ctype)
_OS_OBJECT_DECL_PROTOCOL(dispatch_##name, dispatch_##super);
_OS_OBJECT_CLASS_IMPLEMENTS_PROTOCOL(dispatch_##name, dispatch_##name)
OS_OBJECT_SUBCLASS_DECL(dispatch_##name, dispatch_##ctype)
// 3. src/object_internal.h
// define a new subclass used in a cluster
#define OS_OBJECT_SUBCLASS_DECL(name, ctype)
struct name##_s;
OS_OBJECT_EXTRA_VTABLE_DECL(name, ctype)
extern const struct ctype##_vtable_s OS_OBJECT_CLASS_SYMBOL(name)
__asm__(OS_OBJC_CLASS_RAW_SYMBOL_NAME(OS_OBJECT_CLASS(name)))
之前在第 2 部分没有介绍宏OS_OBJECT_SUBCLASS_DECL,这里继续介绍。
代码注释 1 处 4 个宏展开之后的结果为:
struct dispatch_queue_serial_s;
extern const struct dispatch_lane_vtable_s OS_dispatch_queue_serial_class __asm__("_OBJC_CLASS_$_OS_dispatch_queue_serial");
struct dispatch_queue_main_s;
extern const struct dispatch_lane_vtable_s OS_dispatch_queue_main_class __asm__("_OBJC_CLASS_$_OS_dispatch_queue_main");
struct dispatch_queue_concurrent_s;
extern const struct dispatch_lane_vtable_s OS_dispatch_queue_concurrent_class __asm__("_OBJC_CLASS_$_OS_dispatch_concurrent");
struct dispatch_queue_global_s;
extern const struct dispatch_lane_vtable_s OS_dispatch_queue_global_class __asm__("_OBJC_CLASS_$_OS_dispatch_queue_global");
## 3.6 dispatch_queue_global_s
`dispatch_queue_global_s`定义如下:
```c++
// 1. src/queue_internal.h
struct dispatch_queue_global_s {
DISPATCH_QUEUE_ROOT_CLASS_HEADER(lane);
} DISPATCH_CACHELINE_ALIGN;
// 2. src/queue_internal.h
#define DISPATCH_QUEUE_ROOT_CLASS_HEADER(x)
struct dispatch_queue_s _as_dq[0];
DISPATCH_QUEUE_CLASS_HEADER(x,
struct dispatch_object_s *volatile dq_items_tail);
int volatile dgq_thread_pool_size;
struct dispatch_object_s *volatile dq_items_head;
int volatile dgq_pending;
完整扩展结果如下:
typedef struct dispatch_queue_global_s {
// 这里是 dispatch_queue_s
const struct dispatch_lane_vtable_s *__ptrauth_objc_isa_pointer do_vtable;
int volatile do_ref_cnt;
int volatile do_xref_cnt;
struct dispatch_lane_s *volatile do_next;
struct dispatch_queue_s *do_targetq;
void *do_ctxt;
union {
dispatch_function_t DISPATCH_FUNCTION_POINTER do_finalizer;
void *do_introspection_ctxt;
};
struct dispatch_object_s *volatile dq_items_tail;
union {
uint64_t volatile dq_state;
struct {
dispatch_lock dq_state_lock;
uint32_t dq_state_bits;
};
);
/* LP64 global queue cacheline boundary */
unsigned long dq_serialnum;
const char *dq_label;
union {
uint32_t volatile dq_atomic_flags;
struct {
const uint16_t dq_width;
const uint16_t __dq_opaque2;
};
);
dispatch_priority_t dq_priority;
union {
struct dispatch_queue_specific_head_s *dq_specific_head;
struct dispatch_source_refs_s *ds_refs;
struct dispatch_timer_source_refs_s *ds_timer_refs;
struct dispatch_mach_recv_refs_s *dm_recv_refs;
struct dispatch_channel_callbacks_s const *dch_callbacks;
};
int volatile dq_sref_cnt;
int volatile dgq_thread_pool_size;
struct dispatch_object_s *volatile dq_items_head;
int volatile dgq_pending;
}
3.7 dispatch_queue_class_t
dispatch_queue_class_t的定义如下:
// 1. src/internal.h
// Dispatch queue cluster class: type for any dispatch_queue_t
typedef union {
struct dispatch_queue_s *_dq;
struct dispatch_workloop_s *_dwl;
struct dispatch_lane_s *_dl;
struct dispatch_queue_static_s *_dsq;
struct dispatch_queue_global_s *_dgq;
struct dispatch_queue_pthread_root_s *_dpq;
struct dispatch_source_s *_ds;
struct dispatch_channel_s *_dch;
struct dispatch_mach_s *_dm;
dispatch_lane_class_t _dlu;
#ifdef __OBJC__
id _objc_dq;
#endif
} dispatch_queue_class_t DISPATCH_TRANSPARENT_UNION;
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原文链接 Ubuntu安装Python的方式与其他Linux系统有所不同,在这里介绍一下。 配置环境 切换的国内源: sudo gedit /etc/apt/sources.list 将原有的源注释掉,添加如下内容: #清华源 deb https://mirr…
