本篇博客是接着上一篇AFNetworking源码解析的后续,如果想对AFNetworking源码有所了解。
请读一下https://www.cnblogs.com/guohai-stronger/p/9191497.html。
YTKNetwork的源码详解:https://www.cnblogs.com/guohai-stronger/p/9194519.html
这篇博客主要是对AFNetworking代码进行封装,也是自己在实际项目中所使用过的(对中小型企业或者项目)可直接使用,也会在github上传(偷偷窃喜一下,一直想在github上有所项目,一直没有时间),趁着端午几天有时间,给github贡献点自己力量。本篇读下来大约10-15分钟,欢迎指正。
一.结构解析
最核心(可直接拖拽到新项目中)
(拓展cocoapods的拖入) 拖入之前,需要导入AFNetworking,最好利用cocoapods导入,cocoapods导入时
vim Podfile --->输入i
platform :ios, '8.0' target "targetName" do pod 'AFNetworking' end
(有一点在然后按Esc,并且输入“ :”号进入vim命令模式,然后在冒号后边输入wq)最后pod install。编译一下,拖入项目的类就好了,就不会编译错误。
二.分类讲解
1.Singleton
#import <UIKit/UIKit.h>
////////////////////////////////////////////////////////////////////////////////
// 申明和定义单例对象:
// AS_SINGLETON( XxxClass );
// DEF_SINGLETON( XxxClass );
#undef AS_SINGLETON
#define AS_SINGLETON( __class ) \
- (__class *)sharedInstance; \
+ (__class *)sharedInstance; #undef DEF_SINGLETON
#define DEF_SINGLETON( __class ) \
- (__class *)sharedInstance \
{ \
return [__class sharedInstance]; \
} \
+ (__class *)sharedInstance \
{ \
static dispatch_once_t once; \
static __class * __singleton__; \
dispatch_once( &once, ^{ __singleton__ = [[[self class] alloc] init]; } ); \
return __singleton__; \
}
通过Singleton,来声明和定义单例对象。
声明单例
// 声明单例
AS_SINGLETON(APIClient);
定义单例
// 定义单例
DEF_SINGLETON(APIClient);
2.APIClient.h
(1)请求响应的状态
// 请求响应的状态
typedef NS_ENUM(NSInteger, ApiRequestStatusCode) {
ApiRequestNotReachable = -, // 当前网络已断开
ApiRequestErr = -, // 请求出错
ApiRequestOK = , // 请求成功
};
当时的请求响应状态只有三个,故定义一个枚举表示请求响应的状态。
(2)请求的方法类型
// 请求的方法类型
typedef NS_ENUM(NSInteger, HttpMethod) {
GET = ,
POST = ,
DELETE = ,
PUT = ,
PATH_GET = , // GET请求,填充参数到url上,处理@"user/account/check/{phone}",{phone}这种情况
QUERY_GET = , // GET请求,填充query参数到url上,处理"?a=1&b=2"这种情况
};
(3)请求相应的block
// 请求响应Block
typedef void (^APIClientRequestResponse)(ApiRequestStatusCode requestStatusCode, id JSON);
(4)通过设置代理拦截成功响应数据
@protocol APIClientDelegate <NSObject> @required
// 拦截成功请求响应数据进行处理
- (void)handleSuccessRequest:(id)JSON completion:(void(^)(id aJSON))cb; @end
在.h中还有一些方法属性
// 为处理拦截的响应数据而设置的委托
@property (nonatomic, weak) id<APIClientDelegate> delegate; // 声明单例
AS_SINGLETON(APIClient); // 获取当前的网络状态类型(返回:0-No wifi or cellular(无网络), 1-2G, 2-3G, 3-4G, 4-LTE, 5-wifi)
+ (int)networkType; // 网络状态监听,应用当前是否有网络:有返回YES,没有返回NO
+ (void)networkReachableWithBlock:(void(^)(BOOL isReachable))block; // 发送请求,返回JSON格式的响应数据
+ (void)requestURL:(NSString *)urlString
httpMethod:(HttpMethod)method
params:(NSDictionary *)params
response:(APIClientRequestResponse)response; // 取消掉所有网络请求
+ (void)cancelAllRequest;
3.APIClient.m
(1)创建请求管理对象
@property (nonatomic, strong) AFHTTPSessionManager *manager;
(2)获取当前的网络状态类型
// 获取当前的网络状态类型(返回:0-No wifi or cellular(无网络), 1-2G, 2-3G, 3-4G, 4-LTE, 5-wifi)
+ (int)networkType {
NSArray *subviews = [[[[UIApplication sharedApplication] valueForKey:@"statusBar"] valueForKey:@"foregroundView"]subviews];
NSNumber *dataNetworkItemView = nil; for (id subview in subviews) {
if([subview isKindOfClass:[NSClassFromString(@"UIStatusBarDataNetworkItemView") class]]) {
dataNetworkItemView = subview;
break;
}
}
int ret = ;
switch ([[dataNetworkItemView valueForKey:@"dataNetworkType"] integerValue]) {
case :
ret = ;
break;
case :
ret = ;
break;
case :
ret = ;
break;
case :
ret = ;
break;
case :
ret = ;
break;
case :
ret = ;
break;
default:
break;
}
return ret;
}
(3)网络状态监听,应用当前是否有网络
// 网络状态监听,应用当前是否有网络
+ (void)networkReachableWithBlock:(void(^)(BOOL isReachable))block {
[[AFNetworkReachabilityManager sharedManager] startMonitoring]; [[AFNetworkReachabilityManager sharedManager] setReachabilityStatusChangeBlock:^(AFNetworkReachabilityStatus status) {
switch (status) {
case AFNetworkReachabilityStatusReachableViaWWAN:
case AFNetworkReachabilityStatusReachableViaWiFi: {
if (block) {
block(YES);
}
break;
}
case AFNetworkReachabilityStatusNotReachable: {
if (block) {
block(NO);
}
break;
}
default:
break;
}
}]; //结束监听
//[[AFNetworkReachabilityManager sharedManager] stopMonitoring];
}
(3)请求最重要最核心的代码
// 发送请求,返回JSON格式的响应数据
+ (void)requestURL:(NSString *)urlString
httpMethod:(HttpMethod)method
params:(NSDictionary *)params
response:(APIClientRequestResponse)response {
if ([APIClient networkType] > ) {
APIClient *client = [APIClient sharedInstance];
if (!client.manager) {
AFHTTPSessionManager *manager = [AFHTTPSessionManager manager];
manager.requestSerializer.timeoutInterval = ;
manager.requestSerializer = [AFHTTPRequestSerializer serializer];
manager.responseSerializer = [AFJSONResponseSerializer serializer];
AFJSONResponseSerializer *responseSerializer = [AFJSONResponseSerializer serializerWithReadingOptions:NSJSONReadingAllowFragments];
manager.responseSerializer = responseSerializer;
manager.responseSerializer.acceptableContentTypes = [NSSet setWithObjects:@"application/json", @"text/json", @"text/javascript",@"text/html",@"text/plain",@"application/x-www-form-urlencodem", nil]; client.manager = manager;
} __weak typeof(self)weakSelf = self;
switch (method) {
case PATH_GET: {
urlString = [APIClient pathGet:urlString params:params];
// //LOG(@"PATH_GET http_url:%@",urlString);
[client.manager GET:urlString
parameters:nil
progress:nil
success:^(NSURLSessionDataTask * __unused task, id JSON) {
__strong typeof(weakSelf)strongSelf = weakSelf;
if (strongSelf) {
[strongSelf handleSuccessRequest:JSON cb:response];
}
}
failure:^(NSURLSessionDataTask *__unused task, NSError *error) {
if (response) {
response(ApiRequestErr, nil);
}
}];
break;
}
case QUERY_GET: {
urlString = [APIClient queryGet:urlString params:params];
//LOG(@"QUERY_GET http_url:%@",urlString);
[client.manager GET:urlString
parameters:nil
progress:nil
success:^(NSURLSessionDataTask * __unused task, id JSON) {
__strong typeof(weakSelf)strongSelf = weakSelf;
if (strongSelf) {
[strongSelf handleSuccessRequest:JSON cb:response];
}
}
failure:^(NSURLSessionDataTask *__unused task, NSError *error) {
if (response) {
response(ApiRequestErr, nil);
}
}];
break;
}
case GET: {
// //LOG(@"GET http_url:%@",urlString);
[client.manager GET:urlString
parameters:nil
progress:nil
success:^(NSURLSessionDataTask * __unused task, id JSON) {
__strong typeof(weakSelf)strongSelf = weakSelf;
if (strongSelf) {
[strongSelf handleSuccessRequest:JSON cb:response];
}
}
failure:^(NSURLSessionDataTask *__unused task, NSError *error) {
if (response) {
response(ApiRequestErr, nil);
//LOG(@"GET http_url:%@",urlString);
}
}];
break;
}
case POST: {
// //LOG(@"POST http_url:%@",urlString);
[client.manager POST:urlString
parameters:params
progress:nil
success:^(NSURLSessionDataTask * __unused task, id JSON) {
__strong typeof(weakSelf)strongSelf = weakSelf;
if (strongSelf) {
[strongSelf handleSuccessRequest:JSON cb:response];
}
}
failure:^(NSURLSessionDataTask *__unused task, NSError *error) {
// //LOG(@"%@",error);
if (response) {
response(ApiRequestErr, nil);
}
}];
break;
}
case DELETE: {
//LOG(@"DELETE http_url:%@",urlString);
[client.manager DELETE:urlString
parameters:nil
success:^(NSURLSessionDataTask * __unused task, id JSON) {
__strong typeof(weakSelf)strongSelf = weakSelf;
if (strongSelf) {
[strongSelf handleSuccessRequest:JSON cb:response];
}
}
failure:^(NSURLSessionDataTask *__unused task, NSError *error) {
if (response) {
response(ApiRequestErr, nil);
}
}];
break;
}
case PUT: {
//LOG(@"PUT http_url:%@",urlString);
[client.manager PUT:urlString
parameters:params
success:^(NSURLSessionDataTask * __unused task, id JSON) {
__strong typeof(weakSelf)strongSelf = weakSelf;
if (strongSelf) {
[strongSelf handleSuccessRequest:JSON cb:response];
}
}
failure:^(NSURLSessionDataTask *__unused task, NSError *error) {
if (response) {
response(ApiRequestErr, nil);
}
}];
break;
}
}
} else { // 没有连接网络
if (response)
response(ApiRequestNotReachable, nil);
}
}
(4)统一处理响应数据
// 统一处理响应数据
+ (void)handleSuccessRequest:(id)JSON cb:(void(^)(ApiRequestStatusCode requestStatusCode, id JSON))cb {
APIClient *client = [APIClient sharedInstance];
if (client.delegate && [client.delegate respondsToSelector:@selector(handleSuccessRequest:completion:)]) {
[client.delegate handleSuccessRequest:JSON
completion:^(id aJSON) {
if (cb) {
cb(ApiRequestOK, aJSON);
}
}];
} else {
if (cb) {
cb(ApiRequestOK, JSON);
}
}
}
(5)参数拼接
// 填充参数到url上,处理@"user/account/check/{phone}",{phone}这种情况
+ (NSString *)pathGet:(NSString *)uri
params:(NSDictionary *)params {
if (nil == uri|| nil == params || params.count <= ) {
return uri;
}
for (NSString *key in params) {
NSString *key2 = [NSString stringWithFormat:@"{%@}",key];
if ([uri rangeOfString:key2].location != NSNotFound) {
uri = [uri stringByReplacingOccurrencesOfString:key2 withString:params[key]];
}
}
return [uri stringByAddingPercentEscapesUsingEncoding:NSUTF8StringEncoding];
} // 填充query参数到url上,处理"?a=1&b=2"这种情况
+ (NSString *)queryGet:(NSString *)uri
params:(NSDictionary *)params {
if (nil == uri || nil == params || params.count <= ) {
return uri;
}
NSMutableString *tmpUri = [NSMutableString stringWithString:uri];
int i = ;
for (NSString *key in params) {
if (i == ) {
[tmpUri appendFormat:@"?%@=%@",key, params[key]];
} else {
[tmpUri appendFormat:@"&%@=%@",key, params[key]];
}
i++;
}
return [tmpUri stringByAddingPercentEscapesUsingEncoding:NSUTF8StringEncoding];;
}
(6)取消所有网络请求
// 取消掉所有网络请求
+ (void)cancelAllRequest {
APIClient *client = [APIClient sharedInstance];
if (client.manager) {
if (client.manager.operationQueue) {
[client.manager.operationQueue cancelAllOperations];
}
}
}
上面就是代码的主要封装,可以应对中小型企业和App的要求。
三.使用
1.新建API.h继承NSObject
2.在API.m使用
3.在控制器里面调用如下
WS(weakSelf);
if ([APIClient networkType] > ){
//获取个人界面的信息
[API1 getEvaluateMeDataWithCB:^(ApiRequestStatusCode requestStatusCode, id JSON) {
switch (requestStatusCode) {
case ApiRequestOK: {
//正确解析json,以及UI处理break;
}
}
case ApiRequestErr:
[MBProgressHUD showError:kErrTip];
break;
case ApiRequestNotReachable:
[MBProgressHUD showError:kNotReachableTip];
break;
default:
break;
}
}];
}else{
[MBProgressHUD showError:kNotReachableTip];
}
上面就是针对AFNetworking的简单封装,可以满足网络请求的封装。
本次代码的demo已上传git。github地址:https://github.com/zxy1829760/testAF
欢迎指正!!!
下一篇讲述另一篇关于网络封装的YTKNetwork源码解析。