Android Volley入门到精通:定制自己的Request
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出处:http://blog.csdn.net/guolin_blog/article/details/17482095 作者:API之家 阅读:10949次
经过前面两篇文章的学习,我们已经掌握了Volley各种Request的使用方法,包括StringRequest、JsonRequest、ImageRequest等。其中StringRequest用于请求一条普通的文本数据,JsonRequest(JsonObjectRequest、JsonArrayRequest)用于请求一条JSON格式的数据,ImageRequest则是用于请求网络上的一张图片。
可是Volley提供给我们的Request类型就只有这么多,而我们都知道,在网络上传输的数据通常有两种格式,JSON和XML,那么如果想要请求一条XML格式的数据该怎么办呢?其实很简单,Volley提供了非常强的扩展机制,使得我们可以很轻松地定制出任意类型的Request,这也就是本篇文章的主题了。
在开始之前还是友情提醒一下,如果你还没有阅读过我前面两篇关于Volley的文章,建议先去阅读一下Android Volley完全解析(一),初识Volley的基本用法和Android Volley完全解析(二),使用Volley加载网络图片。
1. 自定义XMLRequest
下面我们准备自定义一个XMLRequest,用于请求一条XML格式的数据。那么该从哪里开始入手呢?额,好像是有些无从下手。遇到这种情况,我们应该去参考一下Volley的源码,看一看StringRequest是怎么实现的,然后就可以模仿着写出XMLRequest了。首先看下StringRequest的源码,如下所示:
- /**
- * A canned request for retrieving the response body at a given URL as a String.
- */
- public class StringRequest extends Request<String> {
- private final Listener<String> mListener;
- /**
- * Creates a new request with the given method.
- *
- * @param method the request {@link Method} to use
- * @param url URL to fetch the string at
- * @param listener Listener to receive the String response
- * @param errorListener Error listener, or null to ignore errors
- */
- public StringRequest(int method, String url, Listener<String> listener,
- ErrorListener errorListener) {
- super(method, url, errorListener);
- mListener = listener;
- }
- /**
- * Creates a new GET request.
- *
- * @param url URL to fetch the string at
- * @param listener Listener to receive the String response
- * @param errorListener Error listener, or null to ignore errors
- */
- public StringRequest(String url, Listener<String> listener, ErrorListener errorListener) {
- this(Method.GET, url, listener, errorListener);
- }
- @Override
- protected void deliverResponse(String response) {
- mListener.onResponse(response);
- }
- @Override
- protected Response<String> parseNetworkResponse(NetworkResponse response) {
- String parsed;
- try {
- parsed = new String(response.data, HttpHeaderParser.parseCharset(response.headers));
- } catch (UnsupportedEncodingException e) {
- parsed = new String(response.data);
- }
- return Response.success(parsed, HttpHeaderParser.parseCacheHeaders(response));
- }
- }
可以看到,StringRequest的源码很简练,根本就没几行代码,我们一起来分析下。首先StringRequest是继承自Request类的,Request可以指定一个泛型类,这里指定的当然就是String了,接下来StringRequest中提供了两个有参的构造函数,参数包括请求类型,请求地址,以及响应回调等,由于我们已经很熟悉StringRequest的用法了,相信这几个参数的作用都不用再解释了吧。但需要注意的是,在构造函数中一定要调用super()方法将这几个参数传给父类,因为HTTP的请求和响应都是在父类中自动处理的。
另外,由于Request类中的deliverResponse()和parseNetworkResponse()是两个抽象方法,因此StringRequest中需要对这两个方法进行实现。deliverResponse()方法中的实现很简单,仅仅是调用了mListener中的onResponse()方法,并将response内容传入即可,这样就可以将服务器响应的数据进行回调了。parseNetworkResponse()方法中则应该对服务器响应的数据进行解析,其中数据是以字节的形式存放在NetworkResponse的data变量中的,这里将数据取出然后组装成一个String,并传入Response的success()方法中即可。
了解了StringRequest的实现原理,下面我们就可以动手来尝试实现一下XMLRequest了,代码如下所示:
- public class XMLRequest extends Request<XmlPullParser> {
- private final Listener<XmlPullParser> mListener;
- public XMLRequest(int method, String url, Listener<XmlPullParser> listener,
- ErrorListener errorListener) {
- super(method, url, errorListener);
- mListener = listener;
- }
- public XMLRequest(String url, Listener<XmlPullParser> listener, ErrorListener errorListener) {
- this(Method.GET, url, listener, errorListener);
- }
- @Override
- protected Response<XmlPullParser> parseNetworkResponse(NetworkResponse response) {
- try {
- String xmlString = new String(response.data,
- HttpHeaderParser.parseCharset(response.headers));
- XmlPullParserFactory factory = XmlPullParserFactory.newInstance();
- XmlPullParser xmlPullParser = factory.newPullParser();
- xmlPullParser.setInput(new StringReader(xmlString));
- return Response.success(xmlPullParser, HttpHeaderParser.parseCacheHeaders(response));
- } catch (UnsupportedEncodingException e) {
- return Response.error(new ParseError(e));
- } catch (XmlPullParserException e) {
- return Response.error(new ParseError(e));
- }
- }
- @Override
- protected void deliverResponse(XmlPullParser response) {
- mListener.onResponse(response);
- }
- }
可以看到,其实并没有什么太多的逻辑,基本都是仿照StringRequest写下来的,XMLRequest也是继承自Request类的,只不过这里指定的泛型类是XmlPullParser,说明我们准备使用Pull解析的方式来解析XML。在parseNetworkResponse()方法中,先是将服务器响应的数据解析成一个字符串,然后设置到XmlPullParser对象中,在deliverResponse()方法中则是将XmlPullParser对象进行回调。
好了,就是这么简单,下面我们尝试使用这个XMLRequest来请求一段XML格式的数据。http://flash.weather.com.cn/wmaps/xml/china.xml这个接口会将中国所有的省份数据以XML格式进行返回,如下所示:
- <china dn="day" slick-uniqueid="3">
- <city quName="黑龙江" pyName="heilongjiang" cityname="哈尔滨" state1="0" state2="0" stateDetailed="晴" tem1="18" tem2="6" windState="西北风3-4级转西风小于3级"/>
- <city quName="吉林" pyName="jilin" cityname="长春" state1="0" state2="0" stateDetailed="晴" tem1="19" tem2="6" windState="西北风3-4级转小于3级"/>
- <city quName="辽宁" pyName="liaoning" cityname="沈阳" state1="0" state2="0" stateDetailed="晴" tem1="21" tem2="7" windState="东北风3-4级"/>
- <city quName="海南" pyName="hainan" cityname="海口" state1="1" state2="1" stateDetailed="多云" tem1="30" tem2="24" windState="微风"/>
- <city quName="内蒙古" pyName="neimenggu" cityname="呼和浩特" state1="0" state2="0" stateDetailed="晴" tem1="19" tem2="5" windState="东风3-4级"/>
- <city quName="新疆" pyName="xinjiang" cityname="乌鲁木齐" state1="0" state2="0" stateDetailed="晴" tem1="22" tem2="10" windState="微风转东南风小于3级"/>
- <city quName="西藏" pyName="xizang" cityname="拉萨" state1="1" state2="7" stateDetailed="多云转小雨" tem1="18" tem2="4" windState="微风"/>
- <city quName="青海" pyName="qinghai" cityname="西宁" state1="0" state2="1" stateDetailed="晴转多云" tem1="18" tem2="2" windState="微风"/>
- <city quName="宁夏" pyName="ningxia" cityname="银川" state1="0" state2="0" stateDetailed="晴" tem1="19" tem2="8" windState="微风"/>
- <city quName="甘肃" pyName="gansu" cityname="兰州" state1="0" state2="0" stateDetailed="晴" tem1="21" tem2="6" windState="微风"/>
- <city quName="河北" pyName="hebei" cityname="石家庄" state1="0" state2="0" stateDetailed="晴" tem1="25" tem2="12" windState="北风小于3级"/>
- <city quName="河南" pyName="henan" cityname="郑州" state1="0" state2="0" stateDetailed="晴" tem1="24" tem2="13" windState="微风"/>
- <city quName="湖北" pyName="hubei" cityname="武汉" state1="0" state2="0" stateDetailed="晴" tem1="24" tem2="12" windState="微风"/>
- <city quName="湖南" pyName="hunan" cityname="长沙" state1="2" state2="1" stateDetailed="阴转多云" tem1="20" tem2="15" windState="北风小于3级"/>
- <city quName="山东" pyName="shandong" cityname="济南" state1="1" state2="1" stateDetailed="多云" tem1="20" tem2="10" windState="北风3-4级转小于3级"/>
- <city quName="江苏" pyName="jiangsu" cityname="南京" state1="2" state2="2" stateDetailed="阴" tem1="19" tem2="13" windState="西北风4-5级转3-4级"/>
- <city quName="安徽" pyName="anhui" cityname="合肥" state1="2" state2="1" stateDetailed="阴转多云" tem1="20" tem2="12" windState="西北风转北风3-4级"/>
- <city quName="山西" pyName="shanxi" cityname="太原" state1="0" state2="0" stateDetailed="晴" tem1="22" tem2="8" windState="微风"/>
- <city quName="陕西" pyName="sanxi" cityname="西安" state1="1" state2="0" stateDetailed="多云转晴" tem1="21" tem2="9" windState="东北风小于3级"/>
- <city quName="四川" pyName="sichuan" cityname="成都" state1="1" state2="1" stateDetailed="多云" tem1="26" tem2="15" windState="南风小于3级"/>
- <city quName="云南" pyName="yunnan" cityname="昆明" state1="7" state2="7" stateDetailed="小雨" tem1="21" tem2="13" windState="微风"/>
- <city quName="贵州" pyName="guizhou" cityname="贵阳" state1="1" state2="3" stateDetailed="多云转阵雨" tem1="21" tem2="11" windState="东风小于3级"/>
- <city quName="浙江" pyName="zhejiang" cityname="杭州" state1="3" state2="1" stateDetailed="阵雨转多云" tem1="22" tem2="14" windState="微风"/>
- <city quName="福建" pyName="fujian" cityname="福州" state1="1" state2="2" stateDetailed="多云转阴" tem1="28" tem2="18" windState="微风"/>
- <city quName="江西" pyName="jiangxi" cityname="南昌" state1="2" state2="1" stateDetailed="阴转多云" tem1="23" tem2="15" windState="北风3-4级转微风"/>
- <city quName="广东" pyName="guangdong" cityname="广州" state1="3" state2="2" stateDetailed="阵雨转阴" tem1="26" tem2="20" windState="微风"/>
- <city quName="广西" pyName="guangxi" cityname="南宁" state1="3" state2="3" stateDetailed="阵雨" tem1="23" tem2="19" windState="东北风小于3级"/>
- <city quName="北京" pyName="beijing" cityname="北京" state1="0" state2="0" stateDetailed="晴" tem1="26" tem2="10" windState="微风"/>
- <city quName="天津" pyName="tianjin" cityname="天津" state1="1" state2="0" stateDetailed="多云转晴" tem1="22" tem2="13" windState="东北风3-4级转小于3级"/>
- <city quName="上海" pyName="shanghai" cityname="上海" state1="7" state2="1" stateDetailed="小雨转多云" tem1="20" tem2="16" windState="西北风3-4级"/>
- <city quName="重庆" pyName="chongqing" cityname="重庆" state1="1" state2="3" stateDetailed="多云转阵雨" tem1="21" tem2="14" windState="微风"/>
- <city quName="香港" pyName="xianggang" cityname="香港" state1="3" state2="1" stateDetailed="阵雨转多云" tem1="26" tem2="22" windState="微风"/>
- <city quName="澳门" pyName="aomen" cityname="澳门" state1="3" state2="1" stateDetailed="阵雨转多云" tem1="27" tem2="22" windState="东北风3-4级转微风"/>
- <city quName="台湾" pyName="taiwan" cityname="台北" state1="9" state2="7" stateDetailed="大雨转小雨" tem1="28" tem2="21" windState="微风"/>
- <city quName="西沙" pyName="xisha" cityname="西沙" state1="3" state2="3" stateDetailed="阵雨" tem1="30" tem2="26" windState="东北风4-5级"/>
- <city quName="南沙" pyName="nanshadao" cityname="南沙" state1="1" state2="1" stateDetailed="多云" tem1="32" tem2="27" windState="东风4-5级"/>
- <city quName="钓鱼岛" pyName="diaoyudao" cityname="钓鱼岛" state1="7" state2="1" stateDetailed="小雨转多云" tem1="23" tem2="19" windState="西南风3-4级转北风5-6级"/>
- </china>
- XMLRequest xmlRequest = new XMLRequest(
- "http://flash.weather.com.cn/wmaps/xml/china.xml",
- new Response.Listener<XmlPullParser>() {
- @Override
- public void onResponse(XmlPullParser response) {
- try {
- int eventType = response.getEventType();
- while (eventType != XmlPullParser.END_DOCUMENT) {
- switch (eventType) {
- case XmlPullParser.START_TAG:
- String nodeName = response.getName();
- if ("city".equals(nodeName)) {
- String pName = response.getAttributeValue(0);
- Log.d("TAG", "pName is " + pName);
- }
- break;
- }
- eventType = response.next();
- }
- } catch (XmlPullParserException e) {
- e.printStackTrace();
- } catch (IOException e) {
- e.printStackTrace();
- }
- }
- }, new Response.ErrorListener() {
- @Override
- public void onErrorResponse(VolleyError error) {
- Log.e("TAG", error.getMessage(), error);
- }
- });
- mQueue.add(xmlRequest);
现在运行一下代码,观察控制台日志,就可以看到每个省的名字都从XML中解析出来了,如下图所示。
2. 自定义GsonRequest
JsonRequest的数据解析是利用android本身自带的JSONObject和JSONArray来实现的,配合使用JSONObject和JSONArray就可以解析出任意格式的JSON数据。不过也许你会觉得使用JSONObject还是太麻烦了,还有很多方法可以让JSON数据解析变得更加简单,比如说GSON。遗憾的是,Volley中默认并不支持使用自家的GSON来解析数据,不过没有关系,通过上面的学习,相信你已经知道了自定义一个Request是多么的简单,那么下面我们就来举一反三一下,自定义一个GsonRequest。
首先我们需要把gson的jar包添加到项目当中,jar包的下载地址是:https://code.google.com/p/google-gson/downloads/list 。
接着定义一个GsonRequest继承自Request,代码如下所示:
- public class GsonRequest<T> extends Request<T> {
- private final Listener<T> mListener;
- private Gson mGson;
- private Class<T> mClass;
- public GsonRequest(int method, String url, Class<T> clazz, Listener<T> listener,
- ErrorListener errorListener) {
- super(method, url, errorListener);
- mGson = new Gson();
- mClass = clazz;
- mListener = listener;
- }
- public GsonRequest(String url, Class<T> clazz, Listener<T> listener,
- ErrorListener errorListener) {
- this(Method.GET, url, clazz, listener, errorListener);
- }
- @Override
- protected Response<T> parseNetworkResponse(NetworkResponse response) {
- try {
- String jsonString = new String(response.data,
- HttpHeaderParser.parseCharset(response.headers));
- return Response.success(mGson.fromJson(jsonString, mClass),
- HttpHeaderParser.parseCacheHeaders(response));
- } catch (UnsupportedEncodingException e) {
- return Response.error(new ParseError(e));
- }
- }
- @Override
- protected void deliverResponse(T response) {
- mListener.onResponse(response);
- }
- }
那么下面我们就来测试一下这个GsonRequest能不能够正常工作吧,调用http://www.weather.com.cn/data/sk/101010100.html这个接口可以得到一段JSON格式的天气数据,如下所示:
- {"weatherinfo":{"city":"北京","cityid":"101010100","temp":"19","WD":"南风","WS":"2级","SD":"43%","WSE":"2","time":"19:45","isRadar":"1","Radar":"JC_RADAR_AZ9010_JB"}}
- public class Weather {
- private WeatherInfo weatherinfo;
- public WeatherInfo getWeatherinfo() {
- return weatherinfo;
- }
- public void setWeatherinfo(WeatherInfo weatherinfo) {
- this.weatherinfo = weatherinfo;
- }
- }
- public class WeatherInfo {
- private String city;
- private String temp;
- private String time;
- public String getCity() {
- return city;
- }
- public void setCity(String city) {
- this.city = city;
- }
- public String getTemp() {
- return temp;
- }
- public void setTemp(String temp) {
- this.temp = temp;
- }
- public String getTime() {
- return time;
- }
- public void setTime(String time) {
- this.time = time;
- }
- }
- GsonRequest<Weather> gsonRequest = new GsonRequest<Weather>(
- "http://www.weather.com.cn/data/sk/101010100.html", Weather.class,
- new Response.Listener<Weather>() {
- @Override
- public void onResponse(Weather weather) {
- WeatherInfo weatherInfo = weather.getWeatherinfo();
- Log.d("TAG", "city is " + weatherInfo.getCity());
- Log.d("TAG", "temp is " + weatherInfo.getTemp());
- Log.d("TAG", "time is " + weatherInfo.getTime());
- }
- }, new Response.ErrorListener() {
- @Override
- public void onErrorResponse(VolleyError error) {
- Log.e("TAG", error.getMessage(), error);
- }
- });
- mQueue.add(gsonRequest);
这样的话,XMLRequest和GsonRequest的功能就基本都实现了,我们也是借助这两个例子深刻地理解了自定义Request的方法,对Volley的认识也是更加深入了。好了,本篇文章就到此结束,下篇文章中我们将对Volley进行更深层次的研究。
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