探寻Category

Category的底层结构

在源码的中,我们可以查看到Category的底层结构(objc-runtime-new.h

struct category_t {
    const char *name;
    classref_t cls;
    struct method_list_t *instanceMethods;
    struct method_list_t *classMethods;
    struct protocol_list_t *protocols;
    struct property_list_t *instanceProperties;
    // Fields below this point are not always present on disk.
    struct property_list_t *_classProperties;

    method_list_t *methodsForMeta(bool isMeta) {
        if (isMeta) return classMethods;
        else return instanceMethods;
    }

    property_list_t *propertiesForMeta(bool isMeta, struct header_info *hi);
    
    protocol_list_t *protocolsForMeta(bool isMeta) {
        if (isMeta) return nullptr;
        else return protocols;
    }
};

Category的底层结构是struct category_t,里面包含了instanceMethods,classMethods, protocols, instanceProperties, _classProperties
我们平时使用categroy添加对象方法、类方法、协议、属性都有相对应的数据结构存储。但是我们发现category_t中没有成员变量数据结构,这也是分类中是不允许添加成员变量的原因(可以通过runtime的关联对象实现)。Category中添加的属性不会自动生成成员变量,只会生成getset方法的声明,需要我们自己去实现。

Category的加载过程

我们都知道,runtime在启动的时候才会加载Category,下面我们通过源码来看一下Category的加载流程。
首先我们先看一下runtime的初始化代码

void _objc_init(void)
{
    static bool initialized = false;
    if (initialized) return;
    initialized = true;
    
    // fixme defer initialization until an objc-using image is found?
    environ_init();
    tls_init();
    static_init();
    runtime_init();
    exception_init();
    cache_init();
    _imp_implementationWithBlock_init();

    _dyld_objc_notify_register(&map_images, load_images, unmap_image);

#if __OBJC2__
    didCallDyldNotifyRegister = true;
#endif
}

map_images->map_images_nolock->_read_images->load_categories_nolock

static void load_categories_nolock(header_info *hi) {
    bool hasClassProperties = hi->info()->hasCategoryClassProperties();

    size_t count;
    auto processCatlist = [&](category_t * const *catlist) {
        for (unsigned i = 0; i < count; i++) {
            category_t *cat = catlist[i];
            Class cls = remapClass(cat->cls);
            locstamped_category_t lc{cat, hi};

            if (!cls) {
                // Category's target class is missing (probably weak-linked).
                // Ignore the category.
                if (PrintConnecting) {
                    _objc_inform("CLASS: IGNORING category \?\?\?(%s) %p with "
                                 "missing weak-linked target class",
                                 cat->name, cat);
                }
                continue;
            }

            // Process this category.
            if (cls->isStubClass()) {
                // Stub classes are never realized. Stub classes
                // don't know their metaclass until they're
                // initialized, so we have to add categories with
                // class methods or properties to the stub itself.
                // methodizeClass() will find them and add them to
                // the metaclass as appropriate.
                if (cat->instanceMethods ||
                    cat->protocols ||
                    cat->instanceProperties ||
                    cat->classMethods ||
                    cat->protocols ||
                    (hasClassProperties && cat->_classProperties))
                {
                    objc::unattachedCategories.addForClass(lc, cls);
                }
            } else {
                // First, register the category with its target class.
                // Then, rebuild the class's method lists (etc) if
                // the class is realized.
                if (cat->instanceMethods ||  cat->protocols
                    ||  cat->instanceProperties)
                {
                    if (cls->isRealized()) {
                        attachCategories(cls, &lc, 1, ATTACH_EXISTING);
                    } else {
                        objc::unattachedCategories.addForClass(lc, cls);
                    }
                }

                if (cat->classMethods  ||  cat->protocols
                    ||  (hasClassProperties && cat->_classProperties))
                {
                    if (cls->ISA()->isRealized()) {
                        attachCategories(cls->ISA(), &lc, 1, ATTACH_EXISTING | ATTACH_METACLASS);
                    } else {
                        objc::unattachedCategories.addForClass(lc, cls->ISA());
                    }
                }
            }
        }
    };

    processCatlist(_getObjc2CategoryList(hi, &count));
    processCatlist(_getObjc2CategoryList2(hi, &count));
}
static void
attachCategories(Class cls, const locstamped_category_t *cats_list, uint32_t cats_count,
                 int flags)
{
    if (slowpath(PrintReplacedMethods)) {
        printReplacements(cls, cats_list, cats_count);
    }
    if (slowpath(PrintConnecting)) {
        _objc_inform("CLASS: attaching %d categories to%s class '%s'%s",
                     cats_count, (flags & ATTACH_EXISTING) ? " existing" : "",
                     cls->nameForLogging(), (flags & ATTACH_METACLASS) ? " (meta)" : "");
    }

    /*
     * Only a few classes have more than 64 categories during launch.
     * This uses a little stack, and avoids malloc.
     *
     * Categories must be added in the proper order, which is back
     * to front. To do that with the chunking, we iterate cats_list
     * from front to back, build up the local buffers backwards,
     * and call attachLists on the chunks. attachLists prepends the
     * lists, so the final result is in the expected order.
     */
    constexpr uint32_t ATTACH_BUFSIZ = 64;
    method_list_t   *mlists[ATTACH_BUFSIZ];
    property_list_t *proplists[ATTACH_BUFSIZ];
    protocol_list_t *protolists[ATTACH_BUFSIZ];

    uint32_t mcount = 0;
    uint32_t propcount = 0;
    uint32_t protocount = 0;
    bool fromBundle = NO;
    bool isMeta = (flags & ATTACH_METACLASS);
    auto rwe = cls->data()->extAllocIfNeeded();

    for (uint32_t i = 0; i < cats_count; i++) {
        auto& entry = cats_list[i];

        method_list_t *mlist = entry.cat->methodsForMeta(isMeta);
        if (mlist) {
            if (mcount == ATTACH_BUFSIZ) {
                prepareMethodLists(cls, mlists, mcount, NO, fromBundle);
                rwe->methods.attachLists(mlists, mcount);
                mcount = 0;
            }
            mlists[ATTACH_BUFSIZ - ++mcount] = mlist;
            fromBundle |= entry.hi->isBundle();
        }

        property_list_t *proplist =
            entry.cat->propertiesForMeta(isMeta, entry.hi);
        if (proplist) {
            if (propcount == ATTACH_BUFSIZ) {
                rwe->properties.attachLists(proplists, propcount);
                propcount = 0;
            }
            proplists[ATTACH_BUFSIZ - ++propcount] = proplist;
        }

        protocol_list_t *protolist = entry.cat->protocolsForMeta(isMeta);
        if (protolist) {
            if (protocount == ATTACH_BUFSIZ) {
                rwe->protocols.attachLists(protolists, protocount);
                protocount = 0;
            }
            protolists[ATTACH_BUFSIZ - ++protocount] = protolist;
        }
    }

    if (mcount > 0) {
        prepareMethodLists(cls, mlists + ATTACH_BUFSIZ - mcount, mcount, NO, fromBundle);
        rwe->methods.attachLists(mlists + ATTACH_BUFSIZ - mcount, mcount);
        if (flags & ATTACH_EXISTING) flushCaches(cls);
    }

    rwe->properties.attachLists(proplists + ATTACH_BUFSIZ - propcount, propcount);

    rwe->protocols.attachLists(protolists + ATTACH_BUFSIZ - protocount, protocount);
}

+Load方法

  • +load方法会在runtime加载类、分类时调用
  • 每个类、分类的+load,在程序运行过程中只调用一次

调用顺序:

  1. 先调用类的+load
  • 按照编译先后顺序调用(先编译,先调用)
  • 调用子类的+load之前会先调用父类的+load
  1. 再调用分类的+load
  • 按照编译先后顺序调用(先编译,先调用)

+load方法是根据方法地址直接调用,并不是经过objc_msgSend函数调用

Load的加载流程

load_images(const char *path __unused, const struct mach_header *mh)
{
    if (!didInitialAttachCategories && didCallDyldNotifyRegister) {
        didInitialAttachCategories = true;
        loadAllCategories();
    }

    // Return without taking locks if there are no +load methods here.
    if (!hasLoadMethods((const headerType *)mh)) return;

    recursive_mutex_locker_t lock(loadMethodLock);

    // Discover load methods
    {
        mutex_locker_t lock2(runtimeLock);
        prepare_load_methods((const headerType *)mh);
    }

    // Call +load methods (without runtimeLock - re-entrant)
    call_load_methods();
}

void call_load_methods(void)
{
    static bool loading = NO;
    bool more_categories;

    loadMethodLock.assertLocked();

    // Re-entrant calls do nothing; the outermost call will finish the job.
    if (loading) return;
    loading = YES;

    void *pool = objc_autoreleasePoolPush();

    do {
        // 1. Repeatedly call class +loads until there aren't any more
        while (loadable_classes_used > 0) {
            call_class_loads();
        }

        // 2. Call category +loads ONCE
        more_categories = call_category_loads();

        // 3. Run more +loads if there are classes OR more untried categories
    } while (loadable_classes_used > 0  ||  more_categories);

    objc_autoreleasePoolPop(pool);

    loading = NO;
}
static bool call_category_loads(void)
{
    int i, shift;
    bool new_categories_added = NO;
    
    // Detach current loadable list.
    struct loadable_category *cats = loadable_categories;
    int used = loadable_categories_used;
    int allocated = loadable_categories_allocated;
    loadable_categories = nil;
    loadable_categories_allocated = 0;
    loadable_categories_used = 0;

    // Call all +loads for the detached list.
    for (i = 0; i < used; i++) {
        Category cat = cats[i].cat;
        load_method_t load_method = (load_method_t)cats[i].method;
        Class cls;
        if (!cat) continue;

        cls = _category_getClass(cat);
        if (cls  &&  cls->isLoadable()) {
            if (PrintLoading) {
                _objc_inform("LOAD: +[%s(%s) load]\n", 
                             cls->nameForLogging(), 
                             _category_getName(cat));
            }
            (*load_method)(cls, @selector(load));
            cats[i].cat = nil;
        }
    }

    // Compact detached list (order-preserving)
    shift = 0;
    for (i = 0; i < used; i++) {
        if (cats[i].cat) {
            cats[i-shift] = cats[i];
        } else {
            shift++;
        }
    }
    used -= shift;

    // Copy any new +load candidates from the new list to the detached list.
    new_categories_added = (loadable_categories_used > 0);
    for (i = 0; i < loadable_categories_used; i++) {
        if (used == allocated) {
            allocated = allocated*2 + 16;
            cats = (struct loadable_category *)
                realloc(cats, allocated *
                                  sizeof(struct loadable_category));
        }
        cats[used++] = loadable_categories[i];
    }

    // Destroy the new list.
    if (loadable_categories) free(loadable_categories);

    // Reattach the (now augmented) detached list. 
    // But if there's nothing left to load, destroy the list.
    if (used) {
        loadable_categories = cats;
        loadable_categories_used = used;
        loadable_categories_allocated = allocated;
    } else {
        if (cats) free(cats);
        loadable_categories = nil;
        loadable_categories_used = 0;
        loadable_categories_allocated = 0;
    }

    if (PrintLoading) {
        if (loadable_categories_used != 0) {
            _objc_inform("LOAD: %d categories still waiting for +load\n",
                         loadable_categories_used);
        }
    }

    return new_categories_added;
}

+initialize方法

+initialize方法会在类第一次接收到消息时调用。
先调用父类的+initialize,再调用子类的+initialize,每个类只会初始化1次。

+initialize和+load的很大区别是,+initialize是通过objc_msgSend进行调用的,所以有以下特点:

  • 如果子类没有实现+initialize,会调用父类的+initialize(所以父类的+initialize可能会被调用多次)
  • 如果分类实现了+initialize,就覆盖类本身的+initialize调用

Initialize的流程

objc_msgSend->class_getInstanceMethod->lookUpImpOrForward->initializeAndLeaveLocked->initializeNonMetaClass

void callInitialize(Class cls)
{
    ((void(*)(Class, SEL))objc_msgSend)(cls, @selector(initialize));
    asm("");
}

总结

Category编译之后的底层结构是struct category_t,里面存储着分类的对象方法、类方法、属性、协议信息
在程序运行的时候,runtime会将Category的数据,合并到类信息中(类对象、元类对象中)

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