block.cpp
struct __Block_byref_a_0 {
void *__isa;
__Block_byref_a_0 *__forwarding;
int __flags;
int __size;
int a;
};
// 签名 - 类型
struct __main_block_impl_0 {
struct __block_impl impl;
struct __main_block_desc_0* Desc;
__Block_byref_a_0 *a; // by ref
__main_block_impl_0(void *fp, struct __main_block_desc_0 *desc, __Block_byref_a_0 *_a, int flags=0) : a(_a->__forwarding) {
impl.isa = &_NSConcreteStackBlock;
impl.Flags = flags;
impl.FuncPtr = fp;
Desc = desc;
}
};
static void __main_block_func_0(struct __main_block_impl_0 *__cself) {
__Block_byref_a_0 *a = __cself->a; // bound by ref - 指针拷贝
(a->__forwarding->a)++;
printf("LG_Cooci - %d",(a->__forwarding->a));
}
static void __main_block_copy_0(struct __main_block_impl_0*dst, struct __main_block_impl_0*src) {_Block_object_assign((void*)&dst->a, (void*)src->a, 8/*BLOCK_FIELD_IS_BYREF*/);}
static void __main_block_dispose_0(struct __main_block_impl_0*src) {_Block_object_dispose((void*)src->a, 8/*BLOCK_FIELD_IS_BYREF*/);}
static struct __main_block_desc_0 {
size_t reserved;
size_t Block_size;
void (*copy)(struct __main_block_impl_0*, struct __main_block_impl_0*);
void (*dispose)(struct __main_block_impl_0*);
} __main_block_desc_0_DATA = { 0, sizeof(struct __main_block_impl_0), __main_block_copy_0, __main_block_dispose_0};
int main(){
/**
struct __Block_byref_a_0 {
void *__isa;
__Block_byref_a_0 *__forwarding;
int __flags;
int __size;
int a;
};
*/
int a = 10;
__Block_byref_a_0 a = {
(void*)0,
(__Block_byref_a_0 *)&a,
0,
sizeof(__Block_byref_a_0),
10};
void(*block)(void) = ((void (*)())&__main_block_impl_0((void *)__main_block_func_0, &__main_block_desc_0_DATA, (__Block_byref_a_0 *)&a, 570425344));
((void (*)(__block_impl *))((__block_impl *)block)->FuncPtr)((__block_impl *)block);
return 0;
}
flag
block的签名:
v8@?0
签名依赖于descript3
三次拷贝
assign
void _Block_object_assign(void *destArg, const void *object, const int flags) {
const void **dest = (const void **)destArg;
switch (os_assumes(flags & BLOCK_ALL_COPY_DISPOSE_FLAGS)) {
case BLOCK_FIELD_IS_OBJECT:
/*******
id object = ...;
[^{ object; } copy];
********/
_Block_retain_object(object);
*dest = object;
break;
case BLOCK_FIELD_IS_BLOCK:
/*******
void (^object)(void) = ...;
[^{ object; } copy];
********/
*dest = _Block_copy(object);
break;
case BLOCK_FIELD_IS_BYREF | BLOCK_FIELD_IS_WEAK:
case BLOCK_FIELD_IS_BYREF:
/*******
// copy the onstack __block container to the heap
// Note this __weak is old GC-weak/MRC-unretained.
// ARC-style __weak is handled by the copy helper directly.
__block ... x;
__weak __block ... x;
[^{ x; } copy];
********/
*dest = _Block_byref_copy(object);
break;
case BLOCK_BYREF_CALLER | BLOCK_FIELD_IS_OBJECT:
case BLOCK_BYREF_CALLER | BLOCK_FIELD_IS_BLOCK:
/*******
// copy the actual field held in the __block container
// Note this is MRC unretained __block only.
// ARC retained __block is handled by the copy helper directly.
__block id object;
__block void (^object)(void);
[^{ object; } copy];
********/
*dest = object;
break;
case BLOCK_BYREF_CALLER | BLOCK_FIELD_IS_OBJECT | BLOCK_FIELD_IS_WEAK:
case BLOCK_BYREF_CALLER | BLOCK_FIELD_IS_BLOCK | BLOCK_FIELD_IS_WEAK:
/*******
// copy the actual field held in the __block container
// Note this __weak is old GC-weak/MRC-unretained.
// ARC-style __weak is handled by the copy helper directly.
__weak __block id object;
__weak __block void (^object)(void);
[^{ object; } copy];
********/
*dest = object;
break;
default:
break;
}
}
_Block_copy
user.qzone.qq.com/395328606/b…
_Block_byref_copy
// Runtime entry points for maintaining the sharing knowledge of byref data blocks.
// A closure has been copied and its fixup routine is asking us to fix up the reference to the shared byref data
// Closures that aren't copied must still work, so everyone always accesses variables after dereferencing the forwarding ptr.
// We ask if the byref pointer that we know about has already been copied to the heap, and if so, increment and return it.
// Otherwise we need to copy it and update the stack forwarding pointer
static struct Block_byref *_Block_byref_copy(const void *arg) {
struct Block_byref *src = (struct Block_byref *)arg;
if ((src->forwarding->flags & BLOCK_REFCOUNT_MASK) == 0) {
// src points to stack
struct Block_byref *copy = (struct Block_byref *)malloc(src->size);
copy->isa = NULL;
// byref value 4 is logical refcount of 2: one for caller, one for stack
copy->flags = src->flags | BLOCK_BYREF_NEEDS_FREE | 4;
// 问题 - __block 修饰变量 block具有修改能力
copy->forwarding = copy; // patch heap copy to point to itself
src->forwarding = copy; // patch stack to point to heap copy
copy->size = src->size;
if (src->flags & BLOCK_BYREF_HAS_COPY_DISPOSE) {
// Trust copy helper to copy everything of interest
// If more than one field shows up in a byref block this is wrong XXX
struct Block_byref_2 *src2 = (struct Block_byref_2 *)(src+1);
struct Block_byref_2 *copy2 = (struct Block_byref_2 *)(copy+1);
copy2->byref_keep = src2->byref_keep;
copy2->byref_destroy = src2->byref_destroy;
if (src->flags & BLOCK_BYREF_LAYOUT_EXTENDED) {
struct Block_byref_3 *src3 = (struct Block_byref_3 *)(src2+1);
struct Block_byref_3 *copy3 = (struct Block_byref_3*)(copy2+1);
copy3->layout = src3->layout;
}
(*src2->byref_keep)(copy, src);
}
else {
// Bitwise copy.
// This copy includes Block_byref_3, if any.
memmove(copy+1, src+1, src->size - sizeof(*src));
}
}
// already copied to heap
else if ((src->forwarding->flags & BLOCK_BYREF_NEEDS_FREE) == BLOCK_BYREF_NEEDS_FREE) {
latching_incr_int(&src->forwarding->flags);
}
return src->forwarding;
}
static void _Block_byref_release(const void *arg) {
struct Block_byref *byref = (struct Block_byref *)arg;
// dereference the forwarding pointer since the compiler isn't doing this anymore (ever?)
byref = byref->forwarding;
if (byref->flags & BLOCK_BYREF_NEEDS_FREE) {
int32_t refcount = byref->flags & BLOCK_REFCOUNT_MASK;
os_assert(refcount);
if (latching_decr_int_should_deallocate(&byref->flags)) {
if (byref->flags & BLOCK_BYREF_HAS_COPY_DISPOSE) {
struct Block_byref_2 *byref2 = (struct Block_byref_2 *)(byref+1);
(*byref2->byref_destroy)(byref);
}
free(byref);
}
}
}
