一、网络请求实现:轮询、嵌套、合并数据、缓存、出错重试
public class RetrofitRxJavaStudy {
private static NetworkInterface networkInterface;
//获取接口类NetworkInterface并初始化Retrofit
private static NetworkInterface getRequestInterface() {
if (networkInterface == null) {
synchronized (NetworkInterface.class) {
networkInterface = initRetrofit().create(NetworkInterface.class);
}
}
return networkInterface;
}
private static Retrofit initRetrofit() {
OkHttpClient client = new OkHttpClient.Builder()
.build();
Retrofit retrofit = new Retrofit.Builder()
.baseUrl(NetworkInterface.HOST)//设置网络请求的Url地址
.addConverterFactory(GsonConverterFactory.create())//设置数据解析器
.addCallAdapterFactory(RxJava2CallAdapterFactory.create())//支持RxJava平台
.client(client)
.build();
return retrofit;
}
//初始化请求数据参数
private RequestBody initData() {
Gson gson = new Gson();
Map<String, String> map = new HashMap<String, String>();
map.put("phone", "phone");
map.put("code", "code");
String strJson = gson.toJson(map);
RequestBody body = RequestBody.create(okhttp3.MediaType.parse("application/json; charset=utf-8"), strJson);
return body;
}
//无条件网络请求轮询
private void interval() {
//initialDelay:第一次延迟时间、period:间隔时间数字、unit:时间单位
Observable.interval(2, 10, TimeUnit.SECONDS).doOnNext(new Consumer<Long>() {
@Override
public void accept(Long aLong) throws Exception {
//网络请求具体实现
getRequestInterface()
.registerLogin("login/login", initData())
.observeOn(AndroidSchedulers.mainThread())//回调在主线程
.subscribeOn(Schedulers.io())
.subscribe();//执行在io线程
}
}).subscribe();
//start:事件序列起始点、count:事件数量、initialDelay:第1次事件延迟发送时间、period:间隔时间数字、unit:时间单位
Observable.intervalRange(2, 10, 5, 10, TimeUnit.SECONDS).doOnNext(new Consumer<Long>() {
@Override
public void accept(Long aLong) throws Exception {
//网络请求具体实现code...
}
}).subscribe();
}
//有条件网络请求轮询
private void repeatWhen() {
final int[] i = {0};
getRequestInterface()
.registerLogin("login/login", initData())
.repeatWhen(new Function<Observable<Object>, ObservableSource<?>>() {
@Override
public ObservableSource<?> apply(Observable<Object> objectObservable) throws Throwable {
if (i[0] > 3) {
// 此处选择发送onError事件以结束轮询
return Observable.error(new Throwable("轮询结束"));
}
//delay操作符延迟一段时间发送以实现轮询间间隔设置
return Observable.just(1).delay(5000, TimeUnit.MILLISECONDS);
}
})
.observeOn(AndroidSchedulers.mainThread())//回调在主线程
.subscribeOn(Schedulers.io())//执行在io线程
.subscribe(new Consumer<RegisterLogin>() {
@Override
public void accept(RegisterLogin registerLogin) throws Throwable {
i[0]++;
}
});
}
//网络请求嵌套回调
private void doOnNext() {
getRequestInterface()
.registerLogin("login/login", initData())
.observeOn(AndroidSchedulers.mainThread())//回调在主线程
.subscribeOn(Schedulers.io())//执行在io线程
.doOnNext(new Consumer<RegisterLogin>() {
@Override
public void accept(RegisterLogin registerLogin) throws Throwable {
//第1次网络请求成功
}
})
.observeOn(Schedulers.io())//新观察者切换到IO线程去发起请求
.flatMap(new Function<RegisterLogin, ObservableSource<RegisterLogin>>() {
@Override
public ObservableSource<RegisterLogin> apply(RegisterLogin registerLogin) throws Throwable {
//registerLogin是网络请求1返回数据,发送网络请求2
return getRequestInterface()
.registerLogin("login/login", initData());
}
})
.observeOn(AndroidSchedulers.mainThread())//切换到主线程处理网络请求2的结果
.subscribe(new Consumer<RegisterLogin>() {
@Override
public void accept(RegisterLogin o) throws Throwable {
//o是网络请求2返回数据
}
});
}
//采用 Merge()操作符合并数据
private void merge() {
Observable<String> network = Observable.just("网络");
Observable<String> file = Observable.just("本地文件");
Observable.merge(network, file).subscribe(new Observer<String>() {
@Override
public void onSubscribe(Disposable d) {
}
@Override
public void onNext(String value) {
}
@Override
public void onError(Throwable e) {
}
@Override
public void onComplete() {
}
});
}
//采用Zip()操作符合并数据(网络数据 + 网络数据)
private void zip() {
final Observable<RegisterLogin> observable1 = getRequestInterface()
.registerLogin("login/login", initData())
.subscribeOn(Schedulers.io());//执行在io线程
final Observable<RegisterLogin> observable2 = getRequestInterface()
.registerLogin("login/login", initData())
.subscribeOn(Schedulers.io());//执行在io线程
Observable.zip(observable1, observable2, new BiFunction<RegisterLogin, RegisterLogin, Object>() {
@Override
public Object apply(RegisterLogin registerLogin, RegisterLogin registerLogin2) throws Throwable {
return registerLogin.getMessage() + " & " + registerLogin2.getMessage();
}
}).observeOn(AndroidSchedulers.mainThread())
.subscribe(new Consumer<Object>() {
@Override
public void accept(Object o) throws Throwable {
}
});
}
//从磁盘、内存缓存中获取缓存数据firstElement和concat
private void firstElement() {
final String memoryCache = null;
final String diskCache = "从磁盘缓存中获取数据";
Observable<String> memory = Observable.create(new ObservableOnSubscribe<String>() {
@Override
public void subscribe(ObservableEmitter<String> emitter) throws Exception {
// 先判断内存缓存有无数据
if (memoryCache != null) { // 若有该数据,则发送
emitter.onNext(memoryCache);
} else { // 若无该数据,则直接发送结束事件
emitter.onComplete();
}
}
});
Observable<String> disk = Observable.create(new ObservableOnSubscribe<String>() {
@Override
public void subscribe(ObservableEmitter<String> emitter) throws Exception {
// 先判断内存缓存有无数据
if (diskCache != null) { // 若有该数据,则发送
emitter.onNext(diskCache);
} else { // 若无该数据,则直接发送结束事件
emitter.onComplete();
}
}
});
Observable<String> observable = getRequestInterface()
.getBody("login/login");//执行在io线程
Observable.concat(memory, disk, observable)
//通过firstElement(),从串联队列中取出并发送第1个有效事件(Next事件)
//即依次判断检查memory、disk、network
.firstElement()
.subscribe(new Consumer<String>() {
@Override
public void accept(String s) throws Exception {
//最终获取的数据来源
}
});
}
// 可重试次数
private int maxConnectCount = 10;
// 当前已重试次数
private int currentRetryCount = 0;
// 重试等待时间
private int waitRetryTime = 0;
//网络请求出错重试
private void flatMap() {
getRequestInterface()
.registerLogin("login/login", initData())
.retryWhen(new Function<Observable<Throwable>, ObservableSource<?>>() {
@Override
public ObservableSource<?> apply(@NonNull Observable<Throwable> throwableObservable) throws Exception {
return throwableObservable.flatMap(new Function<Throwable, ObservableSource<?>>() {
@Override
public ObservableSource<?> apply(@NonNull Throwable throwable) throws Exception {
//根据异常类型选择是否重试,属于IO异常,需重试
if (throwable instanceof IOException) {
//当已重试次数 < 设置的重试次数才重试
if (currentRetryCount < maxConnectCount) {
// 记录重试次数
currentRetryCount++;
// 设置等待时间
waitRetryTime = 1000 + currentRetryCount * 1000;
return Observable.just(1).delay(waitRetryTime, TimeUnit.MILLISECONDS);
} else {
// 若重试次数已 > 设置重试次数,则不重试
return Observable.error(new Throwable("重试次数已超过设置次数 = " + currentRetryCount + ",即 不再重试"));
}
} else {
// 若发生的异常不属于I/O异常,则不重试
return Observable.error(new Throwable("发生了非网络异常(非I/O异常)"));
}
}
});
}
})
.subscribeOn(Schedulers.io())//执行在io线程
.subscribe();
}
}
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