理解iOS weak對(duì)象存儲(chǔ)原理
弱引用對(duì)象原理圖
1月洛、案例代碼
void test7() {
NSObject *objc = [[NSObject alloc] init];
id __weak obj = objc;
id __weak obj1 = objc;
NSLog(@"%@---%@", obj, obj1);
}
分別聲明
__weak弱引用對(duì)象obj何恶、obj1
2、分析__weak原理
1)使用
__weak聲明變量時(shí)嚼黔,系統(tǒng)會(huì)調(diào)用如下方法
id
objc_initWeak(id *location, id newObj)
{
if (!newObj) {
*location = nil;
return nil;
}
return storeWeak<DontHaveOld, DoHaveNew, DoCrashIfDeallocating>
(location, (objc_object*)newObj);
}
這里location是弱引用的指針细层,newObj是被引用的對(duì)象。
2)
storeWeak方法
template <HaveOld haveOld, HaveNew haveNew,
CrashIfDeallocating crashIfDeallocating>
static id
storeWeak(id *location, objc_object *newObj)
{
ASSERT(haveOld || haveNew);
if (!haveNew) ASSERT(newObj == nil);
Class previouslyInitializedClass = nil;
id oldObj;
SideTable *oldTable;
SideTable *newTable;
retry:
if (haveOld) {
oldObj = *location;
oldTable = &SideTables()[oldObj];
} else {
oldTable = nil;
}
if (haveNew) {
newTable = &SideTables()[newObj];
} else {
newTable = nil;
}
SideTable::lockTwo<haveOld, haveNew>(oldTable, newTable);
if (haveOld && *location != oldObj) {
SideTable::unlockTwo<haveOld, haveNew>(oldTable, newTable);
goto retry;
}
if (haveNew && newObj) {
Class cls = newObj->getIsa();
if (cls != previouslyInitializedClass &&
!((objc_class *)cls)->isInitialized())
{
SideTable::unlockTwo<haveOld, haveNew>(oldTable, newTable);
class_initialize(cls, (id)newObj);
previouslyInitializedClass = cls;
goto retry;
}
}
// Clean up old value, if any.
if (haveOld) {
weak_unregister_no_lock(&oldTable->weak_table, oldObj, location);
}
// Assign new value, if any.
if (haveNew) {
newObj = (objc_object *)
weak_register_no_lock(&newTable->weak_table, (id)newObj, location,
crashIfDeallocating);
// weak_register_no_lock returns nil if weak store should be rejected
// Set is-weakly-referenced bit in refcount table.
if (newObj && !newObj->isTaggedPointer()) {
newObj->setWeaklyReferenced_nolock();
}
// Do not set *location anywhere else. That would introduce a race.
*location = (id)newObj;
}
else {
// No new value. The storage is not changed.
}
SideTable::unlockTwo<haveOld, haveNew>(oldTable, newTable);
return (id)newObj;
}
SideTable散列表唬涧,其中有弱引用表weak_table疫赎,其數(shù)據(jù)結(jié)構(gòu)如下:
struct SideTable {
spinlock_t slock;
RefcountMap refcnts;
weak_table_t weak_table;
SideTable() {
memset(&weak_table, 0, sizeof(weak_table));
}
~SideTable() {
_objc_fatal("Do not delete SideTable.");
}
void lock() { slock.lock(); }
void unlock() { slock.unlock(); }
void forceReset() { slock.forceReset(); }
// Address-ordered lock discipline for a pair of side tables.
template<HaveOld, HaveNew>
static void lockTwo(SideTable *lock1, SideTable *lock2);
template<HaveOld, HaveNew>
static void unlockTwo(SideTable *lock1, SideTable *lock2);
};
再來(lái)看弱引用表
weak_table_t,其中有引用實(shí)體數(shù)組weak_entries
struct weak_table_t {
weak_entry_t *weak_entries;
size_t num_entries;
uintptr_t mask;
uintptr_t max_hash_displacement;
};
深入看看引用實(shí)體
weak_table_t碎节,里面有被引用的對(duì)象referent捧搞,還有弱引用指針地址數(shù)組referrers
struct weak_entry_t {
DisguisedPtr<objc_object> referent;
union {
struct {
weak_referrer_t *referrers;
uintptr_t out_of_line_ness : 2;
uintptr_t num_refs : PTR_MINUS_2;
uintptr_t mask;
uintptr_t max_hash_displacement;
};
struct {
// out_of_line_ness field is low bits of inline_referrers[1]
weak_referrer_t inline_referrers[WEAK_INLINE_COUNT];
};
};
bool out_of_line() {
return (out_of_line_ness == REFERRERS_OUT_OF_LINE);
}
weak_entry_t& operator=(const weak_entry_t& other) {
memcpy(this, &other, sizeof(other));
return *this;
}
weak_entry_t(objc_object *newReferent, objc_object **newReferrer)
: referent(newReferent)
{
inline_referrers[0] = newReferrer;
for (int i = 1; i < WEAK_INLINE_COUNT; i++) {
inline_referrers[i] = nil;
}
}
};
3)
weak_unregister_no_lock分析
void weak_unregister_no_lock(weak_table_t *weak_table, id referent_id,
id *referrer_id)
{
objc_object *referent = (objc_object *)referent_id;
objc_object **referrer = (objc_object **)referrer_id;
weak_entry_t *entry;
if (!referent) return;
if ((entry = weak_entry_for_referent(weak_table, referent))) {
remove_referrer(entry, referrer);
bool empty = true;
if (entry->out_of_line() && entry->num_refs != 0) {
empty = false;
}
else {
for (size_t i = 0; i < WEAK_INLINE_COUNT; i++) {
if (entry->inline_referrers[i]) {
empty = false;
break;
}
}
}
if (empty) {
weak_entry_remove(weak_table, entry);
}
}
}
刪除已有的弱引用指針
4)
weak_register_no_lock分析,主要代碼如下:
weak_entry_t *entry;
if ((entry = weak_entry_for_referent(weak_table, referent))) {
append_referrer(entry, referrer);
}
else {
weak_entry_t new_entry(referent, referrer);
weak_grow_maybe(weak_table);
weak_entry_insert(weak_table, &new_entry);
}
在弱引用表對(duì)應(yīng)的數(shù)組中查找狮荔,如果有就append_referrer胎撇,否則新建weak_entry_t后,再weak_entry_insert到弱引用表的數(shù)組中殖氏。
