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Effective Objective-C [下]

2013-11-12 14:36 337 查看
http://esoftmobile.com/2013/08/17/effective-objective-c-2/

Chapter 6: Blocks and Grand Central Dispatch

Item 37: Understand Blocks

《Ry’s Objective-C Tutorial》# Blocks

Item 38: Create typedefs for Common Block Types

当我们程序中要使用一些具有共性的Block时(返回值类型、参数个数和类型相同),我们可以给这种Block定义一个类型:

typedef NSComparisonResult (^NSComparator)(id obj1, id obj2);
//...
- (NSArray *)sortedArrayUsingComparator:(NSComparator)cmptr;
- (void)sortUsingComparator:(NSComparator)cmptr;
//...

// Simplified with typedef
typedef void(^EOCCompletionHandler)(NSData *data, NSError *error);
- (void)startWithCompletionHandler:(EOCCompletionHandler)completion;

国内比较有名的开源框架BeeFramework中就大量应用到Block,并通过类型定义的Block作为属性,实现类似于很多脚本语言方法调用:
self.HTTP_GET(URL).PARAM(postDict);
, 笔者之前在TouchXML基础上封装了一层W3C标准DOM API时也尝试过这种实现,最后在Objective-C中可以直接这样调用:
document.getElementById(@"xxx").setAttribute(@"class", @"xxx");
是不是有点写JS的赶脚。

Item 39: Use Handler Blocks to Reduce Code Separation

当我们要执行一个异步操作,比如异步请求时,通常需要在操作(或请求)完成后将结果返回,在Objective-C中一般有两种实现方式:代理和Block回调。

代理使用起来比较麻烦,有定义协议,申明代理方法,代理回调、设置代理、实现代理方法等一些列流程,而使用Block回调要简洁得多,我们通常可以申明一个Block类型的属性,在异步操作执行完后调用一下该Block。

//CXMLHttpRequest.h
typedef void (^CXMLHttpRequestCallbackBlock) (CXMLHttpRequest *request);
@interface CXMLHttpRequest : NSObject
//...
@property (nonatomic, copy) CXMLHttpRequestCallbackBlock        onreadystatechange;
//...
@end

//CXMLHttpRequest.m
//call when request state changed.
_onreadystatechange(self);

//User CXMLHttpRequest
CXMLHttpRequest *request = [CXMLHttpRequest new];
request.onreadystatechange = ^(CXMLHttpRequest *req) {
if (req.state == 4 && req.statusCode == 200) {
//get req.responseText.
}
};
//...

推荐项目:BlocksKit

Item 40: Avoid Retain Cycles Introduced by Blocks Referencing the Object Owning Them

由于Block会强引用里面出现的对象,如果Block中使用成员变量,则self本身会被Block强引用,所以稍不注意就会出现Retain Cycle。所以通常避免的方法是在Block中引用对象的值而非对象本身,在非ARC下,可以使用
__block
关键字来申明需要在Block中引用的对象,这样该对象就不会被Block retain,然后在Block结束时将引用对象设为nil:

MyViewController * __block myController = [[MyViewController alloc] init…];
// ...
myController.completionHandler =  ^(NSInteger result) {
[myController dismissViewControllerAnimated:YES completion:nil];
myController = nil;
};

在ARC模式下,则也可以用
__weak
(iOS5.0一下版本用
__unsafe_unretained
)关键字申明一个弱引用对象:

MyViewController *__weak weakSelf = self;
self.completionHandler = ^(NSData *data) {
//...
[weakSelf clearUp];
};

Item 41: Prefer Dispatch Queues to Locks for Synchronization

在多线程环境下,为了保证某些资源操作的可控性,需要给一些方法加锁,保证同时只响应一个对象的调用,通常可以用
@synchronized()
NSLock


// @synchronized block
- (void)synchronisedMethod {
@synchronized(self) {
// Safe
}
}

// NSLock
_lock = [[NSLock alloc] init];

- (void)synchronisedMethod {
[_lock lock];
// Safe
[_lock unlock];
}

我们还可以使用dispatch queue来保证同步操作,首先创建一个dispatch queue,然后将同步操作在该queue中执行:

// Using GCD queue for synchronisation
_syncQueue = dispatch_queue_create("com.effectiveobjectivec.syncQueue", NULL);

// …

- (NSString*)someString {
__block NSString *localSomeString;
dispatch_sync(_syncQueue, ^{
localSomeString = _someString;
});
return localSomeString;
}

- (void)setSomeString:(NSString*)someString {
dispatch_sync(_syncQueue, ^{
_someString = someString;
});
}

Item 42: Prefer GCD to performSelector and Friends

不在使用GCD时,如果一项任务需要分别在主线程和非主线程中执行,我们需要通过
performSelector
方法来改变执行的线程,我们还不得不把任务分解成不同的方法,某些方法内的代码在主线程执行,某些在非主线执行:

- (void)pulldown {
_indicator.hidden = NO;
[_indicator startAnimating];
[self performSelectorInBackground:@selector(download) withObject:nil];
}

- (void)download {
NSURL *URL = [NSURL URLWithString:@"http://xxx."];
NSString *data = [NSString stringWithContentsOfURL:URL encoding:NSUTF8StringEncoding error:nil];
if (data) {
[self performSelectorOnMainThread:@selector(reloadData:) withObject:data waitUntilDone:NO];
}
}

- (void)reloadData {
[_indicator stopAnimating];
_indicator.hidden = YES;
//refresh view with data.
}

而如果使用GCD,所有的操作就要简洁很多:

- (void)pulldown {
_indicator.hidden = NO;
[_indicator startAnimating];
dispatch_async(dispatch_get_global_queue(DISPATCH_QUEUE_PRIORITY_DEFAULT, 0), ^{
NSURL *URL = [NSURL URLWithString:@"http://xxx"];
NSString *data = [NSString stringWithContentsOfURL:URL encoding:NSUTF8StringEncoding error:nil];
if (data) {
dispatch_async(dispatch_get_main_queue(), ^{
[_indicator stopAnimating];
_indicator.hidden = YES;
//refresh view with data.
});
}
};
}

Item 43: Know When to Use GCD and When to Use Operation Queues

Item 44: Use Dispatch Groups to Take Advantage of Platform Scaling

很多情况下我们使用GCD来执行一些异步操作,但是异步操作就存在一个返回顺序问题,如我们需要异步下载3个数据,只有当3个数据都下载完成后才刷新视图,而3个异步下载返回顺序是未知的,这是我们可以使用dispatch group来管理这三个任务:

dispatch_group_t group = dispatch_group_create();
dispatch_group_async(group, dispatch_get_global_queue(0,0), ^{
//下载数据1
});
dispatch_group_async(group, dispatch_get_global_queue(0,0), ^{
//下载数据2
});
dispatch_group_async(group, dispatch_get_global_queue(0,0), ^{
//下载数据3
});

dispatch_group_notify(group, dispatch_get_main_queue(), ^{
//刷新视图
});

其实熟悉JS或者说熟悉Node.js的人都了解,异步编程下的协同问题一直是比较受关注的话题,其中 Node大牛 @朴灵EventProxy,个人感觉和dispatch group有异曲同工之妙:

var ep = EventProxy.create("template", "data", "l10n", function (template, data, l10n) {
_.template(template, data, l10n);
});

$.get("template", function (template) {
// something
ep.emit("template", template);
});
$.get("data", function (data) {
// something
ep.emit("data", data);
});
$.get("l10n", function (l10n) {
// something
ep.emit("l10n", l10n);
});

Item 45: Use dispatch_once for Thread-Safe Single-Time Code Execution

// `dispatch_once' singleton initialisation
+ (id)sharedInstance {
static EOCClass *sharedInstance = nil;
static dispatch_once_t onceToken;
dispatch_once(&onceToken, ^{
sharedInstance = [[self alloc] init];
});
return sharedInstance;
}

Item 46: Avoid dispatch_get_current_queue

Chapter 7: The System Frameworks

Item 47: Familiarize Yourself with the System Frameworks

《iOS Technology Overview》# Cocoa Touch Frameworks

Item 48: Prefer Block Enumeration to for Loops

// Block enumeration
NSArray *anArray = /* … */;
[anArray enumerateObjectsUsingBlock:^(id object, NSUInteger idx, BOOL *stop){
// Do something with `object’
if (shouldStop) {
*stop = YES;
}
}];

NSDictionary *aDictionary = /* … */;
[aDictionary enumerateKeysAndObjectsUsingBlock:^(id key, id object, NSUInteger idx, BOOL *stop){
// Do something with `key’ and `object’
if (shouldStop) {
*stop = YES;
}
}];

NSSet *aSet = /* … */;
[aSet enumerateObjectsUsingBlock:^(id object, NSUInteger idx, BOOL *stop){
// Do something with `object’
if (shouldStop) {
*stop = YES;
}
}];

Item 49: Use Toll-Free Bridging for Collections with Custom Memory-Management Semantics

// No-ops for non-retaining objects.
static const void* EOCRetainNoOp(CFAllocatorRef allocator, const void *value) { return value; }
static void EOCReleaseNoOp(CFAllocatorRef allocator, const void *value) { }

NSMutableArray* EOCNonRetainArray(){
CFArrayCallBacks callbacks = kCFTypeArrayCallBacks;
callbacks.retain = EOCRetainNoOp;
callbacks.release = EOCReleaseNoOp;
return (NSMutableArray *)CFArrayCreateMutable(nil, 0, &callbacks);
}

NSMutableDictionary* EOCNonRetainDictionary(){
CFDictionaryKeyCallBacks keyCallbacks = kCFTypeDictionaryKeyCallBacks;
CFDictionaryValueCallBacks callbacks = kCFTypeDictionaryValueCallBacks;
callbacks.retain = EOCRetainNoOp;
callbacks.release = EOCReleaseNoOp;
return (NSMutableDictionary *)CFDictionaryCreateMutable(nil, 0, &keyCallbacks, &callbacks);
}

Item 50: Use NSCache Instead of NSDictionary for Caches

Item 51: Keep initialize and load Implementations Lean

+ (void)load;



Invoked whenever a class or category is added to the Objective-C runtime; implement this method to perform class-specific behavior upon loading.


+ (void)initialize;



Initializes the receiver before it’s used (before it receives its first message).


Item 52: Remember that NSTimer Retains Its Target

NSTimer会对retain它的Target,所以不要在Target的dealloc中销毁(invalidate)NSTimer对象,因 为Timer和Target之间已经形成了Retain cycle,需要在dealloc前就破坏这个Retain cycle。

我们可以对NSTimer拓展,让它支持调用Block方法:

// Block support for NSTimer
#import <Foundation/Foundation.h>

@interface NSTimer (EOCBlocksSupport)

+ (void)eoc_scheduledTimerWithTimeInterval:(NSTimeInterval)interval
block:(void(^)())block
repeats:(BOOL)repeats;

@end

@implementation NSTimer (EOCBlocksSupport)

+ (void)eoc_scheduledTimerWithTimeInterval:(NSTimeInterval)interval
block:(void(^)())block
repeats:(BOOL)repeats
{
return [self scheduledTimerWithTimeInterval:interval
target:self
selector:@selector(eoc_blockInvoke:)
userInfo:[block copy]
repeats:repeats];
}

+ (void)eoc_blockInvoke:(NSTimer*)timer {
void (^block)() = timer.userInfo;
if (block) {
block();
}
}
@end

总结

到这里,全部的代码都过了一遍了,网友@Alfred_Kwong说原书很多内容没有在代码中体现,建议还是读一读原书。其实也是,即使原书所有的 内容在代码中都有体现,我也不可能两篇博文就把所有东西总结出来。我更多的是通过该书的52个主题,结合代码,自己对Objective-C内容进行一遍 梳理,所以不要因为我这两篇文章来决定你该不该买本书看看,我不想做推销,更不想黑。
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