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static struct objc_sparsearray *fastPath = NULL;
static void
registerClass(Class class)
{
if (classes == NULL)
classes = objc_hashtable_new(
objc_hash_string, objc_equal_string, 2);
objc_hashtable_set(classes, class->name, class);
if (emptyDTable == NULL)
emptyDTable = objc_dtable_new();
class->DTable = emptyDTable;
class->isa->DTable = emptyDTable;
if (strcmp(class->name, "Protocol") != 0)
classesCount++;
}
bool
class_registerAlias_np(Class class, const char *name)
{
objc_global_mutex_lock();
if (classes == NULL) {
objc_global_mutex_unlock();
return NO;
}
objc_hashtable_set(classes, name, (Class)((uintptr_t)class | 1));
objc_global_mutex_unlock();
return YES;
}
static void
registerSelectors(Class class)
{
struct objc_method_list *iter;
unsigned int i;
for (iter = class->methodList; iter != NULL; iter = iter->next)
for (i = 0; i < iter->count; i++)
objc_register_selector(&iter->methods[i].selector);
}
Class
objc_classname_to_class(const char *name, bool cache)
{
Class class;
if (classes == NULL)
return Nil;
/*
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static struct objc_sparsearray *fastPath = NULL;
static void
registerClass(Class class)
{
if (classes == NULL)
classes = objc_hashtable_new(
objc_string_hash, objc_string_equal, 2);
objc_hashtable_set(classes, class->name, class);
if (emptyDTable == NULL)
emptyDTable = objc_dtable_new();
class->dTable = emptyDTable;
class->isa->dTable = emptyDTable;
if (strcmp(class->name, "Protocol") != 0)
classesCount++;
}
bool
class_registerAlias_np(Class class, const char *name)
{
objc_globalMutex_lock();
if (classes == NULL) {
objc_globalMutex_unlock();
return NO;
}
objc_hashtable_set(classes, name, (Class)((uintptr_t)class | 1));
objc_globalMutex_unlock();
return YES;
}
static void
registerSelectors(Class class)
{
struct objc_method_list *iter;
unsigned int i;
for (iter = class->methodList; iter != NULL; iter = iter->next)
for (i = 0; i < iter->count; i++)
objc_registerSelector(&iter->methods[i].selector);
}
Class
objc_classnameToClass(const char *name, bool cache)
{
Class class;
if (classes == NULL)
return Nil;
/*
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if (cache && fastPath != NULL) {
class = objc_sparsearray_get(fastPath, (uintptr_t)name);
if (class != Nil)
return class;
}
objc_global_mutex_lock();
class = (Class)((uintptr_t)objc_hashtable_get(classes, name) & ~1);
if (cache && fastPath == NULL && --lookupsUntilFastPath == 0)
fastPath = objc_sparsearray_new(sizeof(uintptr_t));
if (cache && fastPath != NULL)
objc_sparsearray_set(fastPath, (uintptr_t)name, class);
objc_global_mutex_unlock();
return class;
}
static void
callSelector(Class class, SEL selector)
{
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if (cache && fastPath != NULL) {
class = objc_sparsearray_get(fastPath, (uintptr_t)name);
if (class != Nil)
return class;
}
objc_globalMutex_lock();
class = (Class)((uintptr_t)objc_hashtable_get(classes, name) & ~1);
if (cache && fastPath == NULL && --lookupsUntilFastPath == 0)
fastPath = objc_sparsearray_new(sizeof(uintptr_t));
if (cache && fastPath != NULL)
objc_sparsearray_set(fastPath, (uintptr_t)name, class);
objc_globalMutex_unlock();
return class;
}
static void
callSelector(Class class, SEL selector)
{
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callSelector(class, loadSel);
class->info |= OBJC_CLASS_INFO_LOADED;
}
void
objc_update_dtable(Class class)
{
struct objc_category **categories;
if (!(class->info & OBJC_CLASS_INFO_DTABLE))
return;
if (class->DTable == emptyDTable)
class->DTable = objc_dtable_new();
if (class->superclass != Nil)
objc_dtable_copy(class->DTable, class->superclass->DTable);
for (struct objc_method_list *methodList = class->methodList;
methodList != NULL; methodList = methodList->next)
for (unsigned int i = 0; i < methodList->count; i++)
objc_dtable_set(class->DTable,
(uint32_t)methodList->methods[i].selector.UID,
methodList->methods[i].implementation);
if ((categories = objc_categories_for_class(class)) != NULL) {
for (unsigned int i = 0; categories[i] != NULL; i++) {
struct objc_method_list *methodList =
(class->info & OBJC_CLASS_INFO_CLASS
? categories[i]->instanceMethods
: categories[i]->classMethods);
for (; methodList != NULL;
methodList = methodList->next)
for (unsigned int j = 0;
j < methodList->count; j++)
objc_dtable_set(class->DTable,
(uint32_t)methodList->methods[j]
.selector.UID,
methodList->methods[j]
.implementation);
}
}
if (class->subclassList != NULL)
for (Class *iter = class->subclassList; *iter != NULL; iter++)
objc_update_dtable(*iter);
}
static void
addSubclass(Class class)
{
size_t i;
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callSelector(class, loadSel);
class->info |= OBJC_CLASS_INFO_LOADED;
}
void
objc_updateDTable(Class class)
{
struct objc_category **categories;
if (!(class->info & OBJC_CLASS_INFO_DTABLE))
return;
if (class->dTable == emptyDTable)
class->dTable = objc_dtable_new();
if (class->superclass != Nil)
objc_dtable_copy(class->dTable, class->superclass->dTable);
for (struct objc_method_list *methodList = class->methodList;
methodList != NULL; methodList = methodList->next)
for (unsigned int i = 0; i < methodList->count; i++)
objc_dtable_set(class->dTable,
(uint32_t)methodList->methods[i].selector.UID,
methodList->methods[i].implementation);
if ((categories = objc_categoriesForClass(class)) != NULL) {
for (unsigned int i = 0; categories[i] != NULL; i++) {
struct objc_method_list *methodList =
(class->info & OBJC_CLASS_INFO_CLASS
? categories[i]->instanceMethods
: categories[i]->classMethods);
for (; methodList != NULL;
methodList = methodList->next)
for (unsigned int j = 0;
j < methodList->count; j++)
objc_dtable_set(class->dTable,
(uint32_t)methodList->methods[j]
.selector.UID,
methodList->methods[j]
.implementation);
}
}
if (class->subclassList != NULL)
for (Class *iter = class->subclassList; *iter != NULL; iter++)
objc_updateDTable(*iter);
}
static void
addSubclass(Class class)
{
size_t i;
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}
} else
for (unsigned int i = 0; i < class->ivars->count; i++)
*class->ivarOffsets[i] = class->ivars->ivars[i].offset;
}
static void
setupClass(Class class)
{
const char *superclassName;
if (class->info & OBJC_CLASS_INFO_SETUP)
return;
superclassName = (const char *)class->superclass;
if (superclassName != NULL) {
Class super = objc_classname_to_class(superclassName, false);
Class rootClass;
if (super == Nil)
return;
setupClass(super);
if (!(super->info & OBJC_CLASS_INFO_SETUP))
return;
/*
* GCC sets class->isa->isa to the name of the root class,
* while Clang just sets it to Nil. Therefore always calculate
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}
} else
for (unsigned int i = 0; i < class->ivars->count; i++)
*class->ivarOffsets[i] = class->ivars->ivars[i].offset;
}
static void
setUpClass(Class class)
{
const char *superclassName;
if (class->info & OBJC_CLASS_INFO_SETUP)
return;
superclassName = (const char *)class->superclass;
if (superclassName != NULL) {
Class super = objc_classnameToClass(superclassName, false);
Class rootClass;
if (super == Nil)
return;
setUpClass(super);
if (!(super->info & OBJC_CLASS_INFO_SETUP))
return;
/*
* GCC sets class->isa->isa to the name of the root class,
* while Clang just sets it to Nil. Therefore always calculate
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*/
if (class->info & OBJC_CLASS_INFO_INITIALIZED)
return;
class->info |= OBJC_CLASS_INFO_DTABLE;
class->isa->info |= OBJC_CLASS_INFO_DTABLE;
objc_update_dtable(class);
objc_update_dtable(class->isa);
/*
* Set it first to prevent calling it recursively due to message sends
* in the initialize method
*/
class->info |= OBJC_CLASS_INFO_INITIALIZED;
class->isa->info |= OBJC_CLASS_INFO_INITIALIZED;
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*/
if (class->info & OBJC_CLASS_INFO_INITIALIZED)
return;
class->info |= OBJC_CLASS_INFO_DTABLE;
class->isa->info |= OBJC_CLASS_INFO_DTABLE;
objc_updateDTable(class);
objc_updateDTable(class->isa);
/*
* Set it first to prevent calling it recursively due to message sends
* in the initialize method
*/
class->info |= OBJC_CLASS_INFO_INITIALIZED;
class->isa->info |= OBJC_CLASS_INFO_INITIALIZED;
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objc_msg_lookup(class, initializeSel);
initialize(class, initializeSel);
}
}
void
objc_initialize_class(Class class)
{
if (class->info & OBJC_CLASS_INFO_INITIALIZED)
return;
objc_global_mutex_lock();
/*
* It's possible that two threads try to initialize a class at the same
* time. Make sure that the thread which held the lock did not already
* initialize it.
*/
if (class->info & OBJC_CLASS_INFO_INITIALIZED) {
objc_global_mutex_unlock();
return;
}
setupClass(class);
if (!(class->info & OBJC_CLASS_INFO_SETUP)) {
objc_global_mutex_unlock();
return;
}
initializeClass(class);
objc_global_mutex_unlock();
}
static void
processLoadQueue()
{
for (size_t i = 0; i < loadQueueCount; i++) {
setupClass(loadQueue[i]);
if (loadQueue[i]->info & OBJC_CLASS_INFO_SETUP) {
callLoad(loadQueue[i]);
loadQueueCount--;
if (loadQueueCount == 0) {
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objc_msg_lookup(class, initializeSel);
initialize(class, initializeSel);
}
}
void
objc_initializeClass(Class class)
{
if (class->info & OBJC_CLASS_INFO_INITIALIZED)
return;
objc_globalMutex_lock();
/*
* It's possible that two threads try to initialize a class at the same
* time. Make sure that the thread which held the lock did not already
* initialize it.
*/
if (class->info & OBJC_CLASS_INFO_INITIALIZED) {
objc_globalMutex_unlock();
return;
}
setUpClass(class);
if (!(class->info & OBJC_CLASS_INFO_SETUP)) {
objc_globalMutex_unlock();
return;
}
initializeClass(class);
objc_globalMutex_unlock();
}
static void
processLoadQueue()
{
for (size_t i = 0; i < loadQueueCount; i++) {
setUpClass(loadQueue[i]);
if (loadQueue[i]->info & OBJC_CLASS_INFO_SETUP) {
callLoad(loadQueue[i]);
loadQueueCount--;
if (loadQueueCount == 0) {
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if (loadQueue == NULL)
OBJC_ERROR("Not enough memory for load queue!");
}
}
}
void
objc_register_all_classes(struct objc_symtab *symtab)
{
for (uint16_t i = 0; i < symtab->classDefsCount; i++) {
Class class = (Class)symtab->defs[i];
registerClass(class);
registerSelectors(class);
registerSelectors(class->isa);
}
for (uint16_t i = 0; i < symtab->classDefsCount; i++) {
Class class = (Class)symtab->defs[i];
if (hasLoad(class)) {
setupClass(class);
if (class->info & OBJC_CLASS_INFO_SETUP)
callLoad(class);
else {
loadQueue = realloc(loadQueue,
sizeof(Class) * (loadQueueCount + 1));
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if (loadQueue == NULL)
OBJC_ERROR("Not enough memory for load queue!");
}
}
}
void
objc_registerAllClasses(struct objc_symtab *symtab)
{
for (uint16_t i = 0; i < symtab->classDefsCount; i++) {
Class class = (Class)symtab->defs[i];
registerClass(class);
registerSelectors(class);
registerSelectors(class->isa);
}
for (uint16_t i = 0; i < symtab->classDefsCount; i++) {
Class class = (Class)symtab->defs[i];
if (hasLoad(class)) {
setUpClass(class);
if (class->info & OBJC_CLASS_INFO_SETUP)
callLoad(class);
else {
loadQueue = realloc(loadQueue,
sizeof(Class) * (loadQueueCount + 1));
|
| ︙ | | | ︙ | |
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Class
objc_allocateClassPair(Class superclass, const char *name, size_t extraBytes)
{
struct objc_class *class, *metaclass;
Class iter, rootclass = Nil;
if (extraBytes > LONG_MAX)
OBJC_ERROR("extraBytes out of range!");
superclass->instanceSize : 0) + (long)extraBytes;
for (iter = superclass; iter != Nil; iter = iter->superclass)
rootclass = iter;
metaclass->isa = (rootclass != Nil ? rootclass->isa : class);
metaclass->superclass = (superclass != Nil ? superclass->isa : Nil);
metaclass->name = name;
metaclass->info = OBJC_CLASS_INFO_CLASS;
metaclass->instanceSize = (superclass != Nil ?
superclass->isa->instanceSize : 0) + (long)extraBytes;
return class;
}
void
objc_registerClassPair(Class class)
{
objc_global_mutex_lock();
registerClass(class);
if (class->superclass != Nil) {
addSubclass(class);
addSubclass(class->isa);
}
class->info |= OBJC_CLASS_INFO_SETUP;
class->isa->info |= OBJC_CLASS_INFO_SETUP;
if (hasLoad(class))
callLoad(class);
else
class->info |= OBJC_CLASS_INFO_LOADED;
processLoadQueue();
objc_global_mutex_unlock();
}
Class
objc_lookUpClass(const char *name)
{
Class class;
if ((class = objc_classname_to_class(name, true)) == NULL)
return Nil;
if (class->info & OBJC_CLASS_INFO_SETUP)
return class;
objc_global_mutex_lock();
setupClass(class);
objc_global_mutex_unlock();
if (!(class->info & OBJC_CLASS_INFO_SETUP))
return Nil;
return class;
}
|
<
<
<
|
>
>
>
>
>
>
|
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|
|
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|
|
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|
Class
objc_allocateClassPair(Class superclass, const char *name, size_t extraBytes)
{
struct objc_class *class, *metaclass;
Class iter, rootclass = Nil;
if ((class = calloc(1, sizeof(*class))) == NULL ||
(metaclass = calloc(1, sizeof(*class))) == NULL)
OBJC_ERROR("Not enough memory to allocate class pair for class "
"%s!", name);
class->isa = metaclass;
class->superclass = superclass;
class->name = name;
class->info = OBJC_CLASS_INFO_CLASS;
class->instanceSize = (superclass != Nil ?
superclass->instanceSize : 0);
if (extraBytes > LONG_MAX ||
LONG_MAX - class->instanceSize < (long)extraBytes)
OBJC_ERROR("extraBytes too large!");
class->instanceSize += (long)extraBytes;
for (iter = superclass; iter != Nil; iter = iter->superclass)
rootclass = iter;
metaclass->isa = (rootclass != Nil ? rootclass->isa : class);
metaclass->superclass = (superclass != Nil ? superclass->isa : Nil);
metaclass->name = name;
metaclass->info = OBJC_CLASS_INFO_CLASS;
metaclass->instanceSize = (superclass != Nil ?
superclass->isa->instanceSize : 0) + (long)extraBytes;
return class;
}
void
objc_registerClassPair(Class class)
{
objc_globalMutex_lock();
registerClass(class);
if (class->superclass != Nil) {
addSubclass(class);
addSubclass(class->isa);
}
class->info |= OBJC_CLASS_INFO_SETUP;
class->isa->info |= OBJC_CLASS_INFO_SETUP;
if (hasLoad(class))
callLoad(class);
else
class->info |= OBJC_CLASS_INFO_LOADED;
processLoadQueue();
objc_globalMutex_unlock();
}
Class
objc_lookUpClass(const char *name)
{
Class class;
if ((class = objc_classnameToClass(name, true)) == NULL)
return Nil;
if (class->info & OBJC_CLASS_INFO_SETUP)
return class;
objc_globalMutex_lock();
setUpClass(class);
objc_globalMutex_unlock();
if (!(class->info & OBJC_CLASS_INFO_SETUP))
return Nil;
return class;
}
|
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|
return objc_getRequiredClass(name);
}
unsigned int
objc_getClassList(Class *buffer, unsigned int count)
{
unsigned int j;
objc_global_mutex_lock();
if (buffer == NULL)
return classesCount;
if (classesCount < count)
count = classesCount;
j = 0;
for (uint32_t i = 0; i < classes->size; i++) {
void *class;
if (j >= count) {
objc_global_mutex_unlock();
return j;
}
if (classes->data[i] == NULL)
continue;
if (strcmp(classes->data[i]->key, "Protocol") == 0)
continue;
class = (Class)classes->data[i]->object;
if (class == Nil || (uintptr_t)class & 1)
continue;
buffer[j++] = class;
}
objc_global_mutex_unlock();
return j;
}
Class *
objc_copyClassList(unsigned int *length)
{
Class *ret;
unsigned int count;
objc_global_mutex_lock();
if ((ret = malloc((classesCount + 1) * sizeof(Class))) == NULL)
OBJC_ERROR("Failed to allocate memory for class list!");
count = objc_getClassList(ret, classesCount);
OF_ENSURE(count == classesCount);
ret[count] = Nil;
if (length != NULL)
*length = count;
objc_global_mutex_unlock();
return ret;
}
bool
class_isMetaClass(Class class)
{
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return objc_getRequiredClass(name);
}
unsigned int
objc_getClassList(Class *buffer, unsigned int count)
{
unsigned int j;
objc_globalMutex_lock();
if (buffer == NULL)
return classesCount;
if (classesCount < count)
count = classesCount;
j = 0;
for (uint32_t i = 0; i < classes->size; i++) {
void *class;
if (j >= count) {
objc_globalMutex_unlock();
return j;
}
if (classes->data[i] == NULL)
continue;
if (strcmp(classes->data[i]->key, "Protocol") == 0)
continue;
class = (Class)classes->data[i]->object;
if (class == Nil || (uintptr_t)class & 1)
continue;
buffer[j++] = class;
}
objc_globalMutex_unlock();
return j;
}
Class *
objc_copyClassList(unsigned int *length)
{
Class *ret;
unsigned int count;
objc_globalMutex_lock();
if ((ret = malloc((classesCount + 1) * sizeof(Class))) == NULL)
OBJC_ERROR("Failed to allocate memory for class list!");
count = objc_getClassList(ret, classesCount);
if (count != classesCount)
OBJC_ERROR("Fatal internal inconsistency!");
ret[count] = Nil;
if (length != NULL)
*length = count;
objc_globalMutex_unlock();
return ret;
}
bool
class_isMetaClass(Class class)
{
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}
static struct objc_method *
getMethod(Class class, SEL selector)
{
struct objc_category **categories;
if ((categories = objc_categories_for_class(class)) != NULL) {
for (; *categories != NULL; categories++) {
struct objc_method_list *methodList =
(class->info & OBJC_CLASS_INFO_METACLASS
? (*categories)->classMethods
: (*categories)->instanceMethods);
for (; methodList != NULL;
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}
static struct objc_method *
getMethod(Class class, SEL selector)
{
struct objc_category **categories;
if ((categories = objc_categoriesForClass(class)) != NULL) {
for (; *categories != NULL; categories++) {
struct objc_method_list *methodList =
(class->info & OBJC_CLASS_INFO_METACLASS
? (*categories)->classMethods
: (*categories)->instanceMethods);
for (; methodList != NULL;
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static void
addMethod(Class class, SEL selector, IMP implementation,
const char *typeEncoding)
{
struct objc_method_list *methodList;
/* FIXME: We need a way to free this at objc_exit() */
if ((methodList = malloc(sizeof(*methodList))) == NULL)
OBJC_ERROR("Not enough memory to replace method!");
methodList->next = class->methodList;
methodList->count = 1;
methodList->methods[0].selector.UID = selector->UID;
methodList->methods[0].selector.typeEncoding = typeEncoding;
methodList->methods[0].implementation = implementation;
class->methodList = methodList;
objc_update_dtable(class);
}
Method
class_getInstanceMethod(Class class, SEL selector)
{
Method method;
Class superclass;
if (class == Nil)
return NULL;
objc_global_mutex_lock();
if ((method = getMethod(class, selector)) != NULL) {
objc_global_mutex_unlock();
return method;
}
superclass = class->superclass;
objc_global_mutex_unlock();
if (superclass != Nil)
return class_getInstanceMethod(superclass, selector);
return NULL;
}
bool
class_addMethod(Class class, SEL selector, IMP implementation,
const char *typeEncoding)
{
bool ret;
objc_global_mutex_lock();
if (getMethod(class, selector) == NULL) {
addMethod(class, selector, implementation, typeEncoding);
ret = true;
} else
ret = false;
objc_global_mutex_unlock();
return ret;
}
IMP
class_replaceMethod(Class class, SEL selector, IMP implementation,
const char *typeEncoding)
{
struct objc_method *method;
IMP oldImplementation;
objc_global_mutex_lock();
if ((method = getMethod(class, selector)) != NULL) {
oldImplementation = method->implementation;
method->implementation = implementation;
objc_update_dtable(class);
} else {
oldImplementation = NULL;
addMethod(class, selector, implementation, typeEncoding);
}
objc_global_mutex_unlock();
return oldImplementation;
}
Class
object_getClass(id object_)
{
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static void
addMethod(Class class, SEL selector, IMP implementation,
const char *typeEncoding)
{
struct objc_method_list *methodList;
/* FIXME: We need a way to free this at objc_deinit() */
if ((methodList = malloc(sizeof(*methodList))) == NULL)
OBJC_ERROR("Not enough memory to replace method!");
methodList->next = class->methodList;
methodList->count = 1;
methodList->methods[0].selector.UID = selector->UID;
methodList->methods[0].selector.typeEncoding = typeEncoding;
methodList->methods[0].implementation = implementation;
class->methodList = methodList;
objc_updateDTable(class);
}
Method
class_getInstanceMethod(Class class, SEL selector)
{
Method method;
Class superclass;
if (class == Nil)
return NULL;
objc_globalMutex_lock();
if ((method = getMethod(class, selector)) != NULL) {
objc_globalMutex_unlock();
return method;
}
superclass = class->superclass;
objc_globalMutex_unlock();
if (superclass != Nil)
return class_getInstanceMethod(superclass, selector);
return NULL;
}
bool
class_addMethod(Class class, SEL selector, IMP implementation,
const char *typeEncoding)
{
bool ret;
objc_globalMutex_lock();
if (getMethod(class, selector) == NULL) {
addMethod(class, selector, implementation, typeEncoding);
ret = true;
} else
ret = false;
objc_globalMutex_unlock();
return ret;
}
IMP
class_replaceMethod(Class class, SEL selector, IMP implementation,
const char *typeEncoding)
{
struct objc_method *method;
IMP oldImplementation;
objc_globalMutex_lock();
if ((method = getMethod(class, selector)) != NULL) {
oldImplementation = method->implementation;
method->implementation = implementation;
objc_updateDTable(class);
} else {
oldImplementation = NULL;
addMethod(class, selector, implementation, typeEncoding);
}
objc_globalMutex_unlock();
return oldImplementation;
}
Class
object_getClass(id object_)
{
|
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}
if (class->subclassList != NULL) {
free(class->subclassList);
class->subclassList = NULL;
}
if (class->DTable != NULL && class->DTable != emptyDTable)
objc_dtable_free(class->DTable);
class->DTable = NULL;
if ((class->info & OBJC_CLASS_INFO_SETUP) && class->superclass != Nil)
class->superclass = (Class)class->superclass->name;
class->info &= ~OBJC_CLASS_INFO_SETUP;
}
void
objc_unregister_class(Class class)
{
static SEL unloadSel = NULL;
if (unloadSel == NULL)
unloadSel = sel_registerName("unload");
while (class->subclassList != NULL && class->subclassList[0] != Nil)
objc_unregister_class(class->subclassList[0]);
if (class->info & OBJC_CLASS_INFO_LOADED)
callSelector(class, unloadSel);
objc_hashtable_delete(classes, class->name);
if (strcmp(class_getName(class), "Protocol") != 0)
classesCount--;
unregisterClass(class);
unregisterClass(class->isa);
}
void
objc_unregister_all_classes(void)
{
if (classes == NULL)
return;
for (uint32_t i = 0; i < classes->size; i++) {
if (classes->data[i] != NULL &&
classes->data[i] != &objc_deleted_bucket) {
void *class = (Class)classes->data[i]->object;
if (class == Nil || (uintptr_t)class & 1)
continue;
objc_unregister_class(class);
/*
* The table might have been resized, so go back to the
* start again.
*
* Due to the i++ in the for loop, we need to set it to
* UINT32_MAX so that it will get increased at the end
* of the loop and thus become 0.
*/
i = UINT32_MAX;
}
}
OF_ENSURE(classesCount == 0);
if (emptyDTable != NULL) {
objc_dtable_free(emptyDTable);
emptyDTable = NULL;
}
objc_sparsearray_free(fastPath);
fastPath = NULL;
objc_hashtable_free(classes);
classes = NULL;
}
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>
|
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>
|
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}
if (class->subclassList != NULL) {
free(class->subclassList);
class->subclassList = NULL;
}
if (class->dTable != NULL && class->dTable != emptyDTable)
objc_dtable_free(class->dTable);
class->dTable = NULL;
if ((class->info & OBJC_CLASS_INFO_SETUP) && class->superclass != Nil)
class->superclass = (Class)class->superclass->name;
class->info &= ~OBJC_CLASS_INFO_SETUP;
}
void
objc_unregisterClass(Class class)
{
static SEL unloadSel = NULL;
objc_globalMutex_lock();
if (unloadSel == NULL)
unloadSel = sel_registerName("unload");
while (class->subclassList != NULL && class->subclassList[0] != Nil)
objc_unregisterClass(class->subclassList[0]);
if (class->info & OBJC_CLASS_INFO_LOADED)
callSelector(class, unloadSel);
objc_hashtable_delete(classes, class->name);
if (strcmp(class_getName(class), "Protocol") != 0)
classesCount--;
unregisterClass(class);
unregisterClass(class->isa);
objc_globalMutex_unlock();
}
void
objc_unregisterAllClasses(void)
{
if (classes == NULL)
return;
for (uint32_t i = 0; i < classes->size; i++) {
if (classes->data[i] != NULL &&
classes->data[i] != &objc_deletedBucket) {
void *class = (Class)classes->data[i]->object;
if (class == Nil || (uintptr_t)class & 1)
continue;
objc_unregisterClass(class);
/*
* The table might have been resized, so go back to the
* start again.
*
* Due to the i++ in the for loop, we need to set it to
* UINT32_MAX so that it will get increased at the end
* of the loop and thus become 0.
*/
i = UINT32_MAX;
}
}
if (classesCount != 0)
OBJC_ERROR("Fatal internal inconsistency!");
if (emptyDTable != NULL) {
objc_dtable_free(emptyDTable);
emptyDTable = NULL;
}
objc_sparsearray_free(fastPath);
fastPath = NULL;
objc_hashtable_free(classes);
classes = NULL;
}
|