XUtil3详解二---http
官方readme.me
- xUtils 包含了很多实用的android工具.
- xUtils 支持超大文件(超过2G)上传,更全面的http请求协议支持(11种谓词),拥有更加灵活的ORM,更多的事件注解支持且不受混淆影响...
- xUtils 最低兼容Android 4.0 (api level 14). (Android 2.3?)
- xUtils3变化较多所以建立了新的项目不在旧版(github.com/wyouflf/xUtils)上继续维护, 相对于旧版本:
-- HTTP实现替换HttpClient为UrlConnection, 自动解析回调泛型, 更安全的断点续传策略.-- 支持标准的Cookie策略, 区分domain, path...
-- 事件注解去除不常用的功能, 提高性能.-- 数据库api简化提高性能, 达到和greenDao一致的性能.
-- 图片绑定支持gif, webp; 支持圆角, 圆形, 方形等裁剪, 支持自动旋转...需要权限:
<uses-permissionandroid:name="android.permission.INTERNET" />
<uses-permissionandroid:name="android.permission.WRITE_EXTERNAL_STORAGE" />
初始化:
// 在application的onCreate中初始化
@Override
public void onCreate() {
super.onCreate();
x.Ext.init(this);
x.Ext.setDebug(true); // 是否输出debug日志...
}
访问网络
/** * 自定义实体参数类请参考:
* 请求注解 {@link org.xutils.http.annotation.HttpRequest}
* 请求注解处理模板接口 {@link org.xutils.http.app.ParamsBuilder}
* * 需要自定义类型作为callback的泛型时, 参考:
* 响应注解 {@link org.xutils.http.annotation.HttpResponse}
* 响应注解处理模板接口 {@link org.xutils.http.app.ResponseParser}
* * 示例: 查看 org.xutils.sample.http 包里的代码
*/
BaiduParams params =newBaiduParams();params.wd ="xUtils";// 有上传文件时使用multipart表单, 否则上传原始文件流.
// params.setMultipart(true);
// 上传文件方式 1
// params.uploadFile = new File("/sdcard/test.txt");// 上传文件方式 2// params.addBodyParameter("uploadFile", new File("/sdcard/test.txt"));Callback.Cancelable cancelable = x.http().get(params,
/** * 1. callback的泛型:
* callback参数默认支持的泛型类型参见{@link org.xutils.http.loader.LoaderFactory},
* 例如: 指定泛型为File则可实现文件下载, 使用params.setSaveFilePath(path)指定文件保存的全路径.
* 默认支持断点续传(采用了文件锁和尾端校验续传文件的一致性).
* 其他常用类型可以自己在LoaderFactory中注册,
* 也可以使用{@link org.xutils.http.annotation.HttpResponse}
* 将注解HttpResponse加到自定义返回值类型上, 实现自定义ResponseParser接口来统一转换.
* 如果返回值是json形式, 那么利用第三方的json工具将十分容易定义自己的ResponseParser.
* 如示例代码{@link org.xutils.sample.http.BaiduResponse}, 可直接使用BaiduResponse作为
* callback的泛型.
* * 2. callback的组合:
* 可以用基类或接口组合个种类的Callback, 见{@link org.xutils.common.Callback}.
* 例如:
* a. 组合使用CacheCallback将使请求检测缓存或将结果存入缓存(仅GET请求生效).
* b. 组合使用PrepareCallback的prepare方法将为callback提供一次后台执行耗时任务的机会, * 然后将结果给onCache或onSuccess.
* c. 组合使用ProgressCallback将提供进度回调.
* ...(可参考{@link org.xutils.image.ImageLoader}
* 或 示例代码中的 {@link org.xutils.sample.download.DownloadCallback}) * * 3. 请求过程拦截或记录日志: 参考 {@link org.xutils.http.app.RequestTracker}
* * 4. 请求Header获取: 参考 {@link org.xutils.http.app.RequestInterceptListener}
* * 5. 其他(线程池, 超时, 重定向, 重试, 代理等): 参考 {@link org.xutils.http.RequestParams}
* **/
newCallback.CommonCallback<String>() {
@Override
public void onSuccess(Stringresult) {
Toast.makeText(x.app(), result, Toast.LENGTH_LONG).show();
}
@Override
public void onError(Throwableex, booleanisOnCallback) {
//Toast.makeText(x.app(), ex.getMessage(),Toast.LENGTH_LONG).show();
if (ex instanceofHttpException) { // 网络错误HttpException
httpEx = (HttpException) ex;
int responseCode = httpEx.getCode();
String responseMsg = httpEx.getMessage();
String errorResult = httpEx.getResult();
// ...
} else {
// 其他错误
// ...
}
Toast.makeText(x.app(), ex.getMessage(), Toast.LENGTH_LONG).show();
}
@Override
public void onCancelled(CancelledExceptioncex) {
Toast.makeText(x.app(), "cancelled", Toast.LENGTH_LONG).show();
}
@Override
public void onFinished() { } });
// cancelable.cancel();
// 取消请求
简单版本
RequestParams params =newRequestParams("https://www.baidu.com/s");
params.setSslSocketFactory(...); // 设置ssl
params.addQueryStringParameter("wd", "xUtils");
x.http().get(params, newCallback.CommonCallback<String>() {
@Override
public void onSuccess(Stringresult) {
Toast.makeText(x.app(), result, Toast.LENGTH_LONG).show();
}
@Override
public void onError(Throwableex, booleanisOnCallback) {
Toast.makeText(x.app(), ex.getMessage(), T oast.LENGTH_LONG).show();
}
@Override
public void onCancelled(CancelledExceptioncex) {
Toast.makeText(x.app(), "cancelled", Toast.LENGTH_LONG).show();
}
@Override
public void onFinished() { } });
带有缓存的请求示例:
BaiduParams params =newBaiduParams();
params.wd ="xUtils";// 默认缓存存活时间, 单位:毫秒.(如果服务没有返回有效的max-age或Expires)params.setCacheMaxAge(1000*60);
Callback.Cancelable cancelable // 使用CacheCallback, xUtils将为该请求缓存数据.
= x.http().get(params, newCallback.CacheCallback<String>() {
private boolean hasError =false;
privateString result =null;
@Override
public boolean onCache(Stringresult) { // 得到缓存数据, 缓存过期后不会进入这个方法.
// 如果服务端没有返回过期时间, 参考params.setCacheMaxAge(maxAge)方法.//
// * 客户端会根据服务端返回的 header 中 max-age 或 expires 来确定本地缓存是否给 onCache 方法.
// 如果服务端没有返回 max-age 或 expires, 那么缓存将一直保存, 除非这里自己定义了返回false的// 逻辑, 那么xUtils将请求新数据, 来覆盖它.//
// * 如果信任该缓存返回 true, 将不再请求网络;
// 返回 false 继续请求网络, 但会在请求头中加上ETag, Last-Modified等信息,
// 如果服务端返回304, 则表示数据没有更新, 不继续加载数据.
//this.result = result; return false;
// true: 信任缓存数据, 不在发起网络请求; false不信任缓存数据.
}
@Override
public void onSuccess(Stringresult) { // 注意: 如果服务返回304或 onCache 选择了信任缓存, 这里将不会被调用,
// 但是 onFinished 总会被调用.
this.result = result;
}
@Override
public void onError(Throwableex, booleanisOnCallback) {
hasError =true;
Toast.makeText(x.app(), ex.getMessage(), Toast.LENGTH_LONG).show();
if (ex instanceofHttpException) {
// 网络错误
HttpException httpEx = (HttpException) ex;
int responseCode = httpEx.getCode();
String responseMsg = httpEx.getMessage();
String errorResult = httpEx.getResult();
// ...
} else {
// 其他错误// ...
}
}
@Override
public void onCancelled(CancelledExceptioncex) {
Toast.makeText(x.app(), "cancelled", Toast.LENGTH_LONG).show();
}
@Override
public void onFinished() {
if (!hasError && result !=null) { // 成功获取数据
Toast.makeText(x.app(), result, Toast.LENGTH_LONG).show();
}
}
});
绑定图片
x.image().bind(imageView, url, imageOptions);
// assets file
x.image().bind(imageView, "assets://test.gif", imageOptions);
// local file
x.image().bind(imageView, newFile("/sdcard/test.gif").toURI().toString(), imageOptions);
x.image().bind(imageView, "/sdcard/test.gif", imageOptions);
x.image().bind(imageView, "file:///sdcard/test.gif", imageOptions);
x.image().bind(imageView, "file:/sdcard/test.gif", imageOptions);
x.image().bind(imageView, url, imageOptions, newCallback.CommonCallback<Drawable>() {...});
x.image().loadDrawable(url, imageOptions, newCallback.CommonCallback<Drawable>() {...});
x.image().loadFile(url, imageOptions, newCallback.CommonCallback<File>() {...});
查看源码:
主要类x.class
这个类为任务控制中心, http, image, db, view注入等接口的入口. 需要在在application的onCreate中初始化: x.Ext.init(this);
作者把所有的入口全放到x.class 类中。内部静态类 Ext来管理和创建几个manager对象(httpManager ImageManager 等 全为接口)我查了词典。Ext 翻译过来有 提取 扩展 外部的意思。
** * Created by wyouflf on 15/6/10.
* 任务控制中心, http, image, db, view注入等接口的入口.
* 需要在在application的onCreate中初始化: x.Ext.init(this);
*/
public final class x {
...
public static TaskController task() {
return Ext.taskController;
}
public static HttpManager http() {...}
public static ImageManager image() {...}
public static ViewInjector view(){...}
public static DbManager getDb(DbManager.DaoConfig daoConfig){...}
public static class Ext {
private static boolean debug;
private static Application app;
private static TaskController taskController;
private static HttpManager httpManager;
private static ImageManager imageManager;
private static ViewInjector viewInjector;
private Ext() { }
static {
TaskControllerImpl.registerInstance();
// 默认信任所有https域名
HttpsURLConnection.setDefaultHostnameVerifier(new HostnameVerifier() {
@Override
public boolean verify(String hostname, SSLSession session) {return true;}
});
}
public static void init(Application app) {
if (Ext.app == null) {
Ext.app = app;
}
}
... }
private static class MockApplication extends Application {
public MockApplication(Context baseContext) {
this.attachBaseContext(baseContext);
}
}
}
在x.class中 ,除去几个应用的方法。我发现了TaskController 这个对象。从字面上理解应该是task控制类。我们发现TaskController 是一个接口。并且和他的实现类在common包下面,所有task相关的应该xutils3中通用的一个模块或者实现方式
common包下面的一些类和接口
查看TaskController和TaskControllerImpl发现 这是task管理的一个控制类。
**TaskController.class **
/** *
Created by wyouflf on 15/6/11.
* 任务管理接口
*/
public interface TaskController {
/**
* 在UI线程执行runnable.
* 如果已在UI线程, 则直接执行.
* * @param runnable
*/
void autoPost(Runnable runnable);
/**
* 在UI线程执行runnable.
* post到msg queue.
* * @param runnable
*/
void post(Runnable runnable);
/**
* 在UI线程执行runnable.
* * @param runnable
* @param delayMillis 延迟时间(单位毫秒)
*/
void postDelayed(Runnable runnable, long delayMillis);
/**
* 在后台线程执行runnable
* * @param runnable
*/
void run(Runnable runnable);
/**
* 移除未执行的runnable
* * @param runnable
*/
void removeCallbacks(Runnable runnable);
/**
* 开始一个异步任务
* * @param task
* @param <T>
* @return*/
<T> AbsTask<T> start(AbsTask<T> task);
/** * 同步执行一个任务
* * @param task
* @param <T>
* @return
* @throws Throwable
*/
<T> T startSync(AbsTask<T> task) throws Throwable;
/**
* 批量执行异步任务
* * @param groupCallback
* @param tasks* @param <T>
* @return
*/
<T extends AbsTask<?>> Callback.Cancelable startTasks(Callback.GroupCallback<T> groupCallback, T... tasks);
}
TaskControllerImpl.class 在实现类中我们发现。它的作用应该是1.回调函数发回主线程。2.目标task的dobackground方法执行
@Override
public void autoPost(Runnable runnable) {
if (runnable == null) return;
if (Thread.currentThread() == Looper.getMainLooper().getThread()) {
runnable.run();
} else {
TaskProxy.sHandler.post(runnable);
}
}
/**
* run task
* * @param task
* @param <T>
* @return
*/
@Override
public <T> AbsTask<T> start(AbsTask<T> task) {
TaskProxy<T> proxy = null;
if (task instanceof TaskProxy) {
proxy = (TaskProxy<T>) task;
} else {
proxy = new TaskProxy<T>(task);
}
try {
proxy.doBackground();
} catch (Throwable ex) {
LogUtil.e(ex.getMessage(), ex);
}
return proxy;
}
@SuppressWarnings("unchecked")
@Override
public <T extends AbsTask<?>> Callback.Cancelable startTasks( final Callback.GroupCallback<T> groupCallback, final T... tasks) {
if (tasks == null) {
throw new IllegalArgumentException("task must not be null");
}
final Runnable callIfOnAllFinished = new Runnable() {
private final int total = tasks.length;
private final AtomicInteger count = new AtomicInteger(0);
@Override
public void run() {
if (count.incrementAndGet() == total) {
if (groupCallback != null) {
groupCallback.onAllFinished();
}
}
}
};
for (final T task : tasks) {
start(new TaskProxy(task) {
@Override
protected void onSuccess(Object result) {
super.onSuccess(result);
post(new Runnable() {
@Override
public void run() {
if (groupCallback != null) {
groupCallback.onSuccess(task);
}
}
});
}
@Override
protected void onCancelled(final Callback.CancelledException cex) {
super.onCancelled(cex);
post(new Runnable() {
@Override
public void run() {
if (groupCallback != null) {
groupCallback.onCancelled(task, cex);
}
}
});
}
@Override
protected void onError(final Throwable ex, final boolean isCallbackError) {
super.onError(ex, isCallbackError);
post(new Runnable() {
@Override
public void run() {
if (groupCallback != null) {
groupCallback.onError(task, ex, isCallbackError);
}
}
});
}
@Override
protected void onFinished() {
super.onFinished();
post(new Runnable() {
@Override
public void run() {
if (groupCallback != null) {
groupCallback.onFinished(task);
}
callIfOnAllFinished.run();
}
});
}
});
}
return new Callback.Cancelable() {
@Override
public void cancel() {
for (T task : tasks) {
task.cancel();
}
}
@Override
public boolean isCancelled() {
boolean isCancelled = true;
for (T task : tasks) {
if (!task.isCancelled()){
isCancelled = false;
}
}
return isCancelled;
}
};
}
Task相关
在TaskControllerImpl中出现了俩个类AysTask.class 和TaskProxy.class
-
AysTask 异步任务基类
AysTask是异步任务的基类并且是个抽象类。实现了callback的取消接口 继承AysTask 必须要复写三个方法doBackground,onSuccess,onError
/**
* Created by wyouflf on 15/6/5.
* 异步任务基类
* * @param <ResultType>
*/
public abstract class AbsTask<ResultType> implements Callback.Cancelable {
private TaskProxy taskProxy = null;
private final Callback.Cancelable cancelHandler;
private volatile boolean isCancelled = false;
private volatile State state = State.IDLE;
private ResultType result;
...
protected abstract ResultType doBackground() throws Throwable;
protected abstract void onSuccess(ResultType result);
protected abstract void onError(Throwable ex, boolean isCallbackError);
...
@Override
//通用的异步加载的cancel方法
public final synchronized void cancel() {
if (!this.isCancelled) {
this.isCancelled = true;
cancelWorks();
if (cancelHandler != null && !cancelHandler.isCancelled()) {
cancelHandler.cancel();
}
if (this.state == State.WAITING || (this.state == State.STARTED && isCancelFast())) {
if (taskProxy != null) {
taskProxy.onCancelled(new Callback.CancelledException("cancelled by user"));
taskProxy.onFinished();
} else if (this instanceof TaskProxy) {
this.onCancelled(new Callback.CancelledException("cancelled by user"));
this.onFinished();
}
}
}
}
@Override
public final boolean isCancelled() {
return isCancelled || state == State.CANCELLED || (cancelHandler != null && cancelHandler.isCancelled());
}
public enum State {//线程的几个状态 大学里应该学过
IDLE(0), WAITING(1), STARTED(2), SUCCESS(3), CANCELLED(4), ERROR(5);
private final int value;
private State(int value) { this.value = value; }
public int value() { return value; } }}
注释:
volatile:就像大家更熟悉的const一样,volatile是一个类型修饰符(type specifier)。它是被设计用来修饰被不同线程访问和修改的变量。如果不加入volatile,基本上会导致这样的结果:要么无法编写多线程程序,要么编译器失去大量优化的机会。(ps:写这篇博客之前根本不知道这个东西)
-
TaskProxy
Taskproxy 异步任务的代理类。这里面有两个重要的成员变量handle 和PriorityExecutor 。
在代码
private InternalHandler() {
super(Looper.getMainLooper());
}
看到 handle 是依靠MainThread 创建的。
所有最后发送出去的message都会被 Mainthread接受。PriorityExecutor 为线程池。
这里不多讲了。
/** * 异步任务的代理类(仅在task包内可用)
* * @param <ResultType>
*/
/*package*/ class TaskProxy<ResultType> extends AbsTask<ResultType> {
/*package*/ static final InternalHandler sHandler = new InternalHandler();
/*package*/ static final PriorityExecutor sDefaultExecutor = new PriorityExecutor(true);
private final AbsTask<ResultType> task;
private final Executor executor;
private volatile boolean callOnCanceled = false;
private volatile boolean callOnFinished = false;
/*package*/ TaskProxy(AbsTask<ResultType> task) {
super(task);
this.task = task;
this.task.setTaskProxy(this);
this.setTaskProxy(null);
Executor taskExecutor = task.getExecutor();
if (taskExecutor == null) {
taskExecutor = sDefaultExecutor;
}
this.executor = taskExecutor;
}
@Override
protected final ResultType doBackground() throws Throwable {
this.onWaiting();
PriorityRunnable runnable = new PriorityRunnable(
task.getPriority(),
new Runnable() {
@Override public void run() {
try { // 等待过程中取消
if (callOnCanceled || TaskProxy.this.isCancelled()) {
throw new Callback.CancelledException("");
}
// start running
TaskProxy.this.onStarted();
if (TaskProxy.this.isCancelled()) {
// 开始时取消
throw new Callback.CancelledException("");
}
// 执行task, 得到结果.
task.setResult(task.doBackground());
TaskProxy.this.setResult(task.getResult());
// 未在doBackground过程中取消成功
if (TaskProxy.this.isCancelled()) {
throw new Callback.CancelledException("");
}
// 执行成功
TaskProxy.this.onSuccess(task.getResult());
} catch (Callback.CancelledException cex) {
TaskProxy.this.onCancelled(cex);
} catch (Throwable ex) {
TaskProxy.this.onError(ex, false);
} finally {
TaskProxy.this.onFinished();
}
}
});
this.executor.execute(runnable);
return null;
}
@Override
protected void onSuccess(ResultType result) {
this.setState(State.SUCCESS);
sHandler.obtainMessage(MSG_WHAT_ON_SUCCESS, this).sendToTarget();
}
@Override
/*package*/ final void setState(State state) { super.setState(state); this.task.setState(state); }
// ########################### inner type #############################
private static class ArgsObj {
final TaskProxy taskProxy;
final Object[] args;
public ArgsObj(TaskProxy taskProxy, Object... args) {
this.taskProxy = taskProxy;
this.args = args;
}
}
private final static int MSG_WHAT_BASE = 1000000000;
private final static int MSG_WHAT_ON_WAITING = MSG_WHAT_BASE + 1;
private final static int MSG_WHAT_ON_START = MSG_WHAT_BASE + 2; private final static int MSG_WHAT_ON_SUCCESS = MSG_WHAT_BASE + 3;
private final static int MSG_WHAT_ON_ERROR = MSG_WHAT_BASE + 4;
private final static int MSG_WHAT_ON_UPDATE = MSG_WHAT_BASE + 5;
private final static int MSG_WHAT_ON_CANCEL = MSG_WHAT_BASE + 6;
private final static int MSG_WHAT_ON_FINISHED = MSG_WHAT_BASE + 7;
/*package*/ final static class InternalHandler extends Handler {
private InternalHandler() { super(Looper.getMainLooper()); }
@Override
@SuppressWarnings("unchecked")
public void handleMessage(Message msg) {
if (msg.obj == null) {
throw new IllegalArgumentException("msg must not be null");
} .......
}}
现在主要看 handle的处理方法handleMessage:
在方法中
会得到一个TaskProxy代理对象.
TaskProxy.task为构建对象时候传递进来的一个AbsTask实现类。
该实现类里面会实现一些 成功或失败的方法。 然后 handle会通过what来区别和调用onSuccess ,onError
@Override
@SuppressWarnings("unchecked")
public void handleMessage(Message msg) {
if (msg.obj == null) {
throw new IllegalArgumentException("msg must not be null");
}
TaskProxy taskProxy = null;
Object[] args = null;
if (msg.obj instanceof TaskProxy) {
taskProxy = (TaskProxy) msg.obj;
} else if (msg.obj instanceof ArgsObj) {
ArgsObj argsObj = (ArgsObj) msg.obj;
taskProxy = argsObj.taskProxy;
args = argsObj.args;
} if (taskProxy == null) {
throw new RuntimeException("msg.obj not instanceof TaskProxy");
}
try {
switch (msg.what) {
case MSG_WHAT_ON_WAITING: {
taskProxy.task.onWaiting();
break;
}
case MSG_WHAT_ON_START: {
taskProxy.task.onStarted();
break;
}
case MSG_WHAT_ON_SUCCESS: {
taskProxy.task.onSuccess(taskProxy.getResult());
break;
}
case MSG_WHAT_ON_ERROR: {
assert args != null;
Throwable throwable = (Throwable) args[0];
LogUtil.d(throwable.getMessage(), throwable);
taskProxy.task.onError(throwable, false);
break;
}
case MSG_WHAT_ON_UPDATE: {
taskProxy.task.onUpdate(msg.arg1, args);
break;
}
case MSG_WHAT_ON_CANCEL: {
if (taskProxy.callOnCanceled) return;
taskProxy.callOnCanceled = true;
assert args != null;
taskProxy.task.onCancelled((org.xutils.common.Callback.CancelledException) args[0]); break;
}
case MSG_WHAT_ON_FINISHED: {
if (taskProxy.callOnFinished) return;
taskProxy.callOnFinished = true;
taskProxy.task.onFinished();
break;
}
default: {
break;
}
}
} catch (Throwable ex) {
taskProxy.setState(State.ERROR);
if (msg.what != MSG_WHAT_ON_ERROR) {
taskProxy.task.onError(ex, true);
} else if (x.isDebug()) {
throw new RuntimeException(ex);
}
} }
