数据解析,view渲染
先放一张效果图。
从效果图可以看出,首页的数据模型有三种,
1.顶部的大图
2.每一栏的标题
3.每一栏的正文内容
需要分别定义三个model
1.GankTopImageItem --表示顶部的大图
2.GankHeaderItem --表示每一栏的标题
3.GankNormalItem --表示每一栏的正文内容
另外再定义一个父类GankItem,上述的三个model类都要继承与GankItem类
GankItem类 写个空方法就行了。
public interface GankItem {
}为什么要特地多加这么一个父类呢?
因为加上这么一个父类,你在保存数据的时候,
就可以用这么一行代码来声明list,不管是GankTopImageItem类型的,还是GankHeaderItem类型的,或者是GankNormalItem类型的model都可以直接添加到gankList中。
List<GankItem> gankList = new ArrayList<>();
具体代码如下
private List<GankItem> getGankList(DayData dayData) {
if (dayData == null || dayData.results == null) {
return null;
}
List<GankItem> gankList = new ArrayList<>();
if (null != dayData.results.welfareList && dayData.results.welfareList.size() > 0) {
gankList.add(GankTopImageItem.newImageItem(dayData.results.welfareList.get(0)));
}
if (null != dayData.results.androidList && dayData.results.androidList.size() > 0) {
gankList.add(new GankHeaderItem(GankType.ANDROID));
gankList.addAll(GankNormalItem.newGankList(dayData.results.androidList));
}
if (null != dayData.results.iosList && dayData.results.iosList.size() > 0) {
gankList.add(new GankHeaderItem(GankType.IOS));
gankList.addAll(GankNormalItem.newGankList(dayData.results.iosList));
}
if (null != dayData.results.frontEndList && dayData.results.frontEndList.size() > 0) {
gankList.add(new GankHeaderItem(GankType.FRONTEND));
gankList.addAll(GankNormalItem.newGankList(dayData.results.frontEndList));
}
if (null != dayData.results.extraList && dayData.results.extraList.size() > 0) {
gankList.add(new GankHeaderItem(GankType.EXTRA));
gankList.addAll(GankNormalItem.newGankList(dayData.results.extraList));
}
if (null != dayData.results.casualList && dayData.results.casualList.size() > 0) {
gankList.add(new GankHeaderItem(GankType.CASUAL));
gankList.addAll(GankNormalItem.newGankList(dayData.results.casualList));
}
if (null != dayData.results.appList && dayData.results.appList.size() > 0) {
gankList.add(new GankHeaderItem(GankType.APP));
gankList.addAll(GankNormalItem.newGankList(dayData.results.appList));
}
if (null != dayData.results.videoList && dayData.results.videoList.size() > 0) {
gankList.add(new GankHeaderItem(GankType.VIDEO));
gankList.addAll(GankNormalItem.newGankList(dayData.results.videoList));
}
return gankList;
}这样写在给相应的Adapter传递数据的时候,只要把这个list赋值过去就能达到传递多个不同类型数据的效果了。
当然还有别的方式,甚至可以只定义一个model,只不过这样每个model要多些字段,难免有些浪费。
数据解析完成然后回调给view进行渲染就行了,
那么如何回调呢?当然是要采用接口了。
定义接口类
public interface OnDataChangeListener {
void postChange(List<GankItem> gankItems);
}view中设置接口实现类
@Override
public void onViewCreated(View view, Bundle savedInstanceState) {
super.onViewCreated(view, savedInstanceState);
TodayGankActionCreator creator = new TodayGankActionCreator();
//设置接口实现类
creator.setDataChangeListener(this);
//view从对应的Creator请求数据
creator.getTodayGank();
}
//接收到参数,mAdapter设置参数,并刷新视图
@Override
public void postChange(List<GankItem> gankItems) {
mAdapter.refreshData(gankItems);
mAdapter.notifyDataSetChanged();
}TodayGankActionCreator类中
public void setDataChangeListener(OnDataChangeListener dataChangeListener) {
this.dataChangeListener = dataChangeListener;
}
@Override
public void call(List<GankItem> gankItems) {
//数据处理正常时调用
dataChangeListener.postChange(gankItems);
}贴上完整代码
TodayGankFragment类
public class TodayGankFragment extends Fragment implements OnDataChangeListener, SwipeRefreshLayout.OnRefreshListener, GankListAdapter.OnItemClickListener {
public static final String TAG = TodayGankFragment.class.getSimpleName();
public static TodayGankFragment newInstance() {
return new TodayGankFragment();
}
@Bind(R.id.refresh_layout)
SwipeRefreshLayout vRefreshLayout;
@Bind(R.id.recycler_view)
RecyclerView vWelfareRecycler;
private GankListAdapter mAdapter;
@Nullable
@Override
public View onCreateView(LayoutInflater inflater, @Nullable ViewGroup container, @Nullable Bundle savedInstanceState) {
View rootView = inflater.inflate(R.layout.frag_today, container, false);
ButterKnife.bind(this, rootView);
vRefreshLayout.setColorSchemeResources(R.color.colorPrimary, R.color.colorPrimaryDark, R.color.colorAccent);
vRefreshLayout.setOnRefreshListener(this);
vWelfareRecycler.setLayoutManager(new LinearLayoutManager(getActivity()));
vWelfareRecycler.setHasFixedSize(true);
mAdapter = new GankListAdapter(this);
mAdapter.setOnItemClickListener(this);
vWelfareRecycler.setAdapter(mAdapter);
return rootView;
}
@Override
public void onViewCreated(View view, Bundle savedInstanceState) {
super.onViewCreated(view, savedInstanceState);
TodayGankActionCreator creator = new TodayGankActionCreator();
//设置接口实现类
creator.setDataChangeListener(this);
//view从对应的Creator请求数据
creator.getTodayGank();
}
@Override
public void postChange(List<GankItem> gankItems) {
mAdapter.refreshData(gankItems);
mAdapter.notifyDataSetChanged();
}
@Override
public void onRefresh() {
}
@Override
public void onClickNormalItem(View view, GankNormalItem normalItem) {
}
@Override
public void onClickGirlItem(View view, GankTopImageItem girlItem) {
}
}GankListAdapter类
public class GankListAdapter extends RecyclerView.Adapter<RecyclerView.ViewHolder>{
private static final int VIEW_TYPE_NORMAL = 1;
private static final int VIEW_TYPE_HEADER = 2;
private static final int VIEW_TYPE_GIRL_IMAGE = 3;
private Fragment mFragment;
private List<GankItem> mItems;
private OnItemClickListener mItemClickListener;
public interface OnItemClickListener {
void onClickNormalItem(View view, GankNormalItem normalItem);
void onClickGirlItem(View view, GankTopImageItem girlItem);
}
public GankListAdapter(Fragment fragment) {
mFragment = fragment;
}
public void refreshData(List<GankItem> list) {
mItems = list;
notifyDataSetChanged();
}
public void setOnItemClickListener(OnItemClickListener clickListener) {
mItemClickListener = clickListener;
}
@Override
public RecyclerView.ViewHolder onCreateViewHolder(ViewGroup parent, int viewType) {
switch (viewType) {
case VIEW_TYPE_HEADER:
return new CategoryHeaderViewHolder(parent);
case VIEW_TYPE_NORMAL:
return new NormalViewHolder(parent);
case VIEW_TYPE_GIRL_IMAGE:
return new GirlImageViewHolder(parent);
}
return null;
}
@Override
public void onBindViewHolder(RecyclerView.ViewHolder holder, int position) {
if(holder instanceof CategoryHeaderViewHolder) {
CategoryHeaderViewHolder headerHolder = (CategoryHeaderViewHolder) holder;
headerHolder.title.setText(((GankHeaderItem)mItems.get(position)).name);
return;
}
if(holder instanceof NormalViewHolder) {
NormalViewHolder normalHolder = (NormalViewHolder) holder;
final GankNormalItem normalItem = (GankNormalItem) mItems.get(position);
normalHolder.title.setText(getGankTitleStr(normalItem.desc, normalItem.who));
normalHolder.itemView.setOnClickListener(new View.OnClickListener() {
@Override
public void onClick(View v) {
if(null != mItemClickListener) {
mItemClickListener.onClickNormalItem(v, normalItem);
}
}
});
return;
}
if(holder instanceof GirlImageViewHolder) {
GirlImageViewHolder girlHolder = (GirlImageViewHolder) holder;
final GankTopImageItem girlItem = (GankTopImageItem) mItems.get(position);
Glide.with(mFragment)
.load(girlItem.imgUrl)
.placeholder(R.color.imageColorPlaceholder)
.centerCrop()
.into(girlHolder.girl_image);
girlHolder.itemView.setOnClickListener(new View.OnClickListener() {
@Override
public void onClick(View v) {
if(null != mItemClickListener) {
mItemClickListener.onClickGirlItem(v, girlItem);
}
}
});
}
}
@Override
public int getItemViewType(int position) {
GankItem gankItem = mItems.get(position);
if(gankItem instanceof GankHeaderItem) {
return VIEW_TYPE_HEADER;
}
if(gankItem instanceof GankTopImageItem) {
return VIEW_TYPE_GIRL_IMAGE;
}
return VIEW_TYPE_NORMAL;
}
@Override
public int getItemCount() {
return null == mItems ? 0 : mItems.size();
}
private CharSequence getGankTitleStr(String desc, String who) {
if(TextUtils.isEmpty(who)) {
return desc;
}
SpannableStringBuilder builder = new SpannableStringBuilder(desc);
SpannableString spannableString = new SpannableString(" (" + who + ")");
spannableString.setSpan(new TextAppearanceSpan(AppUtil.getAppContext(), R.style.SummaryTextAppearance), 0, spannableString.length(), 0);
builder.append(spannableString);
return builder;
}
public static class CategoryHeaderViewHolder extends RecyclerView.ViewHolder {
@Bind(R.id.category_title) TextView title;
public CategoryHeaderViewHolder(ViewGroup parent) {
super(LayoutInflater.from(parent.getContext()).inflate(R.layout.recycler_item_category_title, parent, false));
ButterKnife.bind(this, itemView);
}
}
public static class NormalViewHolder extends RecyclerView.ViewHolder {
@Bind(R.id.title) TextView title;
public NormalViewHolder(ViewGroup parent) {
super(LayoutInflater.from(parent.getContext()).inflate(R.layout.recycler_item_gank, parent, false));
ButterKnife.bind(this, itemView);
}
}
public static class GirlImageViewHolder extends RecyclerView.ViewHolder {
@Bind(R.id.girl_image)
RatioImageView girl_image;
public GirlImageViewHolder(ViewGroup parent) {
super(LayoutInflater.from(parent.getContext()).inflate(R.layout.recycler_item_girl_imge, parent, false));
ButterKnife.bind(this, itemView);
girl_image.setRatio(1.618f);
}
}
}TodayGankActionCreator类
public class TodayGankActionCreator {
private OnDataChangeListener dataChangeListener;
public void setDataChangeListener(OnDataChangeListener dataChangeListener) {
this.dataChangeListener = dataChangeListener;
}
//定义数据转化模板
private static SimpleDateFormat sDataFormat = new SimpleDateFormat("yyyy-MM-dd", Locale.CHINA);
public void getTodayGank() {
//RxJava处理数据
HttpService.Factory.getGankService()
.getDateHistory()
.subscribeOn(Schedulers.io())
.filter(new Func1<DateData, Boolean>() {
@Override
public Boolean call(DateData dateData) {
return (null != dateData && null != dateData.results && dateData.results.size() > 0);//接口请求成功,这边返回true
}
})
.map(new Func1<DateData, Calendar>() {
@Override
public Calendar call(DateData dateData) {
Calendar calendar = Calendar.getInstance(Locale.CHINA);
try {
calendar.setTime(sDataFormat.parse(dateData.results.get(0))); //设置时间为最新一天,一般是今天
} catch (ParseException e) {
e.printStackTrace();
calendar = null;
}
return calendar;
}
})
.flatMap(new Func1<Calendar, Observable<DayData>>() {
@Override
public Observable<DayData> call(Calendar calendar) {
return HttpService.Factory.getGankService() //再次请求数据,获取当天的数据
.getDayGank(calendar.get(Calendar.YEAR), calendar.get(Calendar.MONTH) + 1, calendar.get(Calendar.DAY_OF_MONTH));
}
})
.map(new Func1<DayData, List<GankItem>>() {
@Override
public List<GankItem> call(DayData dayData) {
return getGankList(dayData);
}
})
.observeOn(AndroidSchedulers.mainThread())
.subscribe(new Action1<List<GankItem>>() {
@Override
public void call(List<GankItem> gankItems) {
//数据处理正常时调用
dataChangeListener.postChange(gankItems);
}
}, new Action1<Throwable>() {
@Override
public void call(Throwable throwable) {
//数据处理过程中报错时调用
}
});
}
private List<GankItem> getGankList(DayData dayData) {
if (dayData == null || dayData.results == null) {
return null;
}
List<GankItem> gankList = new ArrayList<>();
if (null != dayData.results.welfareList && dayData.results.welfareList.size() > 0) {
gankList.add(GankTopImageItem.newImageItem(dayData.results.welfareList.get(0)));
}
if (null != dayData.results.androidList && dayData.results.androidList.size() > 0) {
gankList.add(new GankHeaderItem(GankType.ANDROID));
gankList.addAll(GankNormalItem.newGankList(dayData.results.androidList));
}
if (null != dayData.results.iosList && dayData.results.iosList.size() > 0) {
gankList.add(new GankHeaderItem(GankType.IOS));
gankList.addAll(GankNormalItem.newGankList(dayData.results.iosList));
}
if (null != dayData.results.frontEndList && dayData.results.frontEndList.size() > 0) {
gankList.add(new GankHeaderItem(GankType.FRONTEND));
gankList.addAll(GankNormalItem.newGankList(dayData.results.frontEndList));
}
if (null != dayData.results.extraList && dayData.results.extraList.size() > 0) {
gankList.add(new GankHeaderItem(GankType.EXTRA));
gankList.addAll(GankNormalItem.newGankList(dayData.results.extraList));
}
if (null != dayData.results.casualList && dayData.results.casualList.size() > 0) {
gankList.add(new GankHeaderItem(GankType.CASUAL));
gankList.addAll(GankNormalItem.newGankList(dayData.results.casualList));
}
if (null != dayData.results.appList && dayData.results.appList.size() > 0) {
gankList.add(new GankHeaderItem(GankType.APP));
gankList.addAll(GankNormalItem.newGankList(dayData.results.appList));
}
if (null != dayData.results.videoList && dayData.results.videoList.size() > 0) {
gankList.add(new GankHeaderItem(GankType.VIDEO));
gankList.addAll(GankNormalItem.newGankList(dayData.results.videoList));
}
return gankList;
}
}数据能正常请求了,view也能正常渲染了。这就完了吗?
不,这才刚开始。
再看看Flux架构的流向图,view向ActionCreator请求数据之后,应该发出一个Action,让Dispatcher去更新对应的store,之后再渲染视图。
代码改造
ActionCreator ->Action
首先要定义一个特有的Action,用来携带传递的数据以及证明自己是什么类型的action
RxAction 类
public class RxAction {
private final String type;
private final ArrayMap<String, Object> data;
RxAction(String type, ArrayMap<String, Object> data) {
this.type = type;
this.data = data;
}
public static Builder type(String type) {
return new Builder().with(type);
}
public String getType() {
return type;
}
public ArrayMap<String, Object> getData() {
return data;
}
@SuppressWarnings("unchecked")
public <T> T get(String tag) {
return (T) data.get(tag);
}
//使用静态内部类的方式来构造对象
public static class Builder {
private String type;
private ArrayMap<String, Object> data;
Builder with(String type) {
if (type == null) {
throw new IllegalArgumentException("Type may not be null.");
}
this.type = type;
this.data = new ArrayMap<>();
return this;
}
public RxAction build() {
if (type == null || type.isEmpty()) {
throw new IllegalArgumentException("At least one key is required.");
}
return new RxAction(type, data);
}
}
}使用方式很简单
//声明Action的类型为Type RxAction rxAction=RxAction.type(Type).build(); //将需要传递的数据,以map形式存入,由于Value的类型是Object的,所以任何类型的数据都可以存入 rxAction.getData().put(Key,Value);
Aciton->Dispatch
Action定义好了,需要一个Dispatch派发器来将这个Action传入的相对于的store,这里的store相当于是一个数据仓库,也是view最终渲染的数据来源。
定义Dispatcher类
public class Dispatcher {
private static Dispatcher instance;
private final RxBus bus;
private ArrayMap<String, Subscription> rxActionMap;
private ArrayMap<String, Subscription> rxStoreMap;
private Dispatcher(RxBus bus) {
this.bus = bus;
this.rxActionMap = new ArrayMap<>();
this.rxStoreMap = new ArrayMap<>();
}
public static synchronized Dispatcher getInstance(RxBus rxBus) {
if (instance == null) instance = new Dispatcher(rxBus);
return instance;
}
public <T extends RxActionDispatch> void subscribeRxStore(final T object) {
final String tag = object.getClass().getSimpleName();
Subscription subscription = rxActionMap.get(tag);
if (subscription == null || subscription.isUnsubscribed()) {
rxActionMap.put(tag, bus.get().filter(new Func1<Object, Boolean>() {
@Override public Boolean call(Object o) {
return o instanceof RxAction;
}
}).subscribe(new Action1<Object>() {
@Override public void call(Object o) {
object.onRxAction((RxAction) o);
}
}));
}
}
public <T extends RxViewDispatch> void subscribeRxView(final T object) {
final String tag = object.getClass().getSimpleName();
Subscription subscription = rxStoreMap.get(tag);
if (subscription == null || subscription.isUnsubscribed()) {
rxStoreMap.put(tag, bus.get().filter(new Func1<Object, Boolean>() {
@Override public Boolean call(Object o) {
return o instanceof RxStoreChange;
}
}).subscribe(new Action1<Object>() {
@Override public void call(Object o) {
object.onRxStoreChanged((RxStoreChange) o);
}
}));
}
}
public void postRxAction(final RxAction action) {
bus.send(action);
}
public void postRxStoreChange(final RxStoreChange storeChange) {
bus.send(storeChange);
}
}Dispatcher类中有两个方法
subscribeRxStore();
subscribeRxView();
这两个方法都是起注册作用的,跟Android原生的广播有点类似。
比如程序执行发送了一个Action,那么这个Action发送给谁呢。你不事先声明别人肯定不知道,那最后就只能丢弃了。
所以在Action发送之前,你就要先做好映射,
A -ActionA,
B -ActionB.
这样当ActionA发出之后,才会知道自己要到A哪里去。
Dispatcher类中还有一个RxBus,这个RxBus相当于一个简单的事件总线,类似于EventBus,
RxBus类
public class RxBus {
private static RxBus instance;
private final Subject<Object, Object> bus = new SerializedSubject<>(PublishSubject.create());
private RxBus() {
}
public synchronized static RxBus getInstance() {
if (instance == null) {
instance = new RxBus();
}
return instance;
}
//发送事件
public void send(Object o) {
bus.onNext(o);
}
public Observable<Object> get() {
return bus;
}
}总结一点,RxBus中的Subject 继承了Observable类,同时又实现了Observer接口,所以Subject可以同时充当事件的发送者和接受者。
所以RxBus.send(Object)发送事件,RxBus.filter()...可以处理事件
再回过头来看Dispatcher
把subscribeRxStore()方法,和postRxAction()方法抽取出来
//在view 一般是activity或者fragment 调用subscribeRxStore方法之后,代码在执行到bus.get().filter() 时就不会接着往下执行了。
//等到postRxAction()把事件发送出去之后,bus.get()收到事件才会接着执行
public <T extends RxActionDispatch> void subscribeRxStore(final T object) {
final String tag = object.getClass().getSimpleName();
Subscription subscription = rxActionMap.get(tag);
if (subscription == null || subscription.isUnsubscribed()) {
rxActionMap.put(tag, bus.get().filter(new Func1<Object, Boolean>() {
@Override public Boolean call(Object o) {
return o instanceof RxAction;
}
}).subscribe(new Action1<Object>() {
@Override public void call(Object o) {
object.onRxAction((RxAction) o);
}
}));
}
}
public void postRxAction(final RxAction action) {
bus.send(action);
}同样的道理subscribeRxView()和对应的postActionChange()也是差不多的作用
我知道这么说可能有很多人看不懂,贴一份流程图来解释一下。
1.Fragment注册subscribeRxStore 和subscribeRxView
2.Fragment调用对应的creator 获取数据
3.数据解析成功之后会发送Action 即postAction()
4.subscribeRxStore 会通知对应的store 作出修改
5.数据修改之后 发出通知 postActionChange
6.subscribeRxView 收到Action之后 refreshView
这样一解释,我相信大部分人都能懂了。
下面贴上对应的store的代码
public class TodayGankStore extends RxStore {
//设置ID,分类用
public static final String ID = "TodayGankStore";
//保存数据用
private List<GankItem> mItems;
public TodayGankStore(Dispatcher dispatcher) {
super(dispatcher);
}
@Override
public void onRxAction(RxAction action) {
switch (action.getType()) {
case ActionType.GET_TODAY_GANK:
mItems = action.get(Key.DAY_GANK);
break;
default:
return;
}
//数据变更,发出对应的Action,通知view刷新
postChange(new RxStoreChange(ID, action));
}
public List<GankItem> getItems() {
return mItems;
}
}对应的fragment
//在store发出Action之后,最后会调用fragment中的onRxStoreChanged方法来重新渲染视图,到这里整个流程就结束了。
@Override
public void onRxStoreChanged(@NonNull RxStoreChange change) {
switch (change.getStoreId()) {
case TodayGankStore.ID:
vRefreshLayout.setRefreshing(false);
mAdapter.refreshData(store.getItems());
mAdapter.notifyDataSetChanged();
break;
}
}最后给上一张分包结构图,
分包结构图
action :发送各类的action
data : 数据模型
dispatcher :action的派发者
http : 网络请求
store : 数据仓库
ui :各类view
utils :帮助类
Dagger2的引入
Dagger2是一个依赖注入框架,那么dagger2能起什么作用呢?
简单点讲就是
dagger2会帮你维护好一些对象,你需要什么对象,可以直接问dagger2要,
当然前提是你已经按照dagger2的要求写了好这些依赖。
比如:像下图这种情况,你需要得到result,那你不得不像代码那样,先得到c对象,得到c对象,就需要得到b对象,需要得到a对象。
public class Dagger2Test{
private classA a;
private classB b;
private classC c;
private String result;
public void onCreate() {
super.onCreate();
b=new classB(a);
c=new classC(b);
result=c.get(0);
}
}而使用了dagger2的话,可以写成这样
public class Dagger2Test{
//一个直接得到c对象,然后在oncreate中一行代码搞定
@Inject
classC c;
private TestComponent mComponent;
private String result;
public void onCreate() {
super.onCreate();
mComponent.inject(this);
result=c.get(0);
}
}Dagger2的引入
在config.gradle(不知道config.gradle如何来的,请看系列文章第0章)设置依赖
//版本号
daggerVersion = '2.2'
javaxAnnotationVersion = '1.0'
//远程依赖
dependencies = [
daggerCompiler: "com.google.dagger:dagger-compiler:${daggerVersion}",
dagger: "com.google.dagger:dagger:${daggerVersion}",
javaxAnnotation: "javax.annotation:jsr250-api:${javaxAnnotationVersion}"
]build.gradle下
buildscript {
repositories {
jcenter()
}
dependencies {
classpath 'com.android.tools.build:gradle:2.1.0'
//加入dagger2的apt插件
classpath 'com.neenbedankt.gradle.plugins:android-apt:1.4'
}
}app/build.gradle下
文件顶部
//引入dagger2 的apt插件 apply plugin: 'com.neenbedankt.android-apt' //添加依赖 apt dependency['daggerCompiler'] compile dependency['dagger'] compile dependency['javaxAnnotation']
做完上述的工作,dagger2就已经引入成功了。
在项目中使用
首先回顾一下在开源项目2中的代码,在事件的起点view,也就是TodayGankFragment中,有段代码是这样的!
@Override
public void onViewCreated(View view, Bundle savedInstanceState) {
super.onViewCreated(view, savedInstanceState);
RxFlux rxFlux = RxFlux.init(MyApplication.getApplication());
Dispatcher dispatcher = rxFlux.getDispatcher();
SubscriptionManager manager = rxFlux.getSubscriptionManager();
store = new TodayGankStore(dispatcher);
dispatcher.subscribeRxStore(store);
dispatcher.subscribeRxView(this);
creator = new TodayGankActionCreator(dispatcher, manager);
//view从对应的Creator请求数据
creator.getTodayGank();
}上述代码中最重要的,不可或缺的,不能再缩减的代码有这么几句
//两个监听注册 dispatcher.subscribeRxStore(store); dispatcher.subscribeRxView(this); //view从对应的Creator请求数据 creator.getTodayGank();
两个subscribe监听注册,以及数据请求,数据请求是事件的起点,subscribe是为了之后的数据流转所必须的。
除了这三行代码,其他的变量和对象的声明都可以想办法放到别处,使得这段代码变得简洁。
这个时候Daggar2就可以排上用场了。
首先来整理下依赖,我们的需要的依赖对象或者变量有
RxFlux
dispatcher
manager
store
creator
一个有5个依赖,再根据业务逻辑将5个依赖划分一下,
RxFlux,dispatcher,manager这三个依赖属于全局型依赖,就是说很多地方都需要用的到的依赖。
而store和creator只是局部型依赖,所以单独处理。
全局依赖
定义一个AppComponent类,具体写法不在累述。
@Singleton
@Component(modules = {AppModule.class})
public interface AppComponent {
//
Dispatcher getDispatcher();
SubscriptionManager getSubscriptManager();
}AppComponent类提供Dispatcher和SubscriptionManager两个对象,具体的实现在AppModule类中
@Module
public class AppModule {
private final RxFlux mRxFlux;
public AppModule(MyApplication application) {
mApplication = application;
//初始化RxFlux
mRxFlux = RxFlux.init(application);
}
@Provides
@Singleton
Dispatcher provideDispatcher() {
return mRxFlux.getDispatcher();
}
@Provides
@Singleton
SubscriptionManager provideSubscriptManager() {
return mRxFlux.getSubscriptionManager();
}
}构造函数里初始化RxFlux,然后借用RxFlux,初始化Dispatcher和SubscriptionManager对象。
调用:
在程序入口MyApplication中使用
public class MyApplication extends Application {
private static AppComponent mAppComponent;
@Override
public void onCreate() {
super.onCreate();
initInjector();
}
private void initInjector() {
mAppComponent = DaggerAppComponent.builder()
.appModule(new AppModule(this))
.build();
}
public static AppComponent getAppComponent() {
return mAppComponent;
}
}在MyApplication中initInjector()方法执行之后,RxFlux,Dispatcher和SubscriptionManager三个依赖对象就初始化成功了。
接下来还需要store和creator这两个依赖,
定义一个TodayGankFragmentComponent类
@PerActivity
@Component(dependencies = {AppComponent.class})
public interface TodayGankFragmentComponent {
void inject(TodayGankFragment todayGankFragment);
}PerActivity类,声明scope,不然会报错
@Scope
@Retention(RUNTIME)
public @interface PerActivity {}在TodayGankFragment中,使用TodayGankFragmentComponent,注意appComponent的时候要把你之前定义好的appComponent对象传进去,
private void initInjector() {
TodayGankFragmentComponent mComponent= DaggerTodayGankFragmentComponent.builder()
.appComponent(MyApplication.getAppComponent())
.build();
mComponent.inject(this);
}这个时候你就可以很简单的声明对象了,
比如TodayGankStore类中,先在构造方法上加上@Inject注解,表示我能接受一个dispatcher参数,并提供一个TodayGankStore对象,而dispatcher这个对象在最开始的appComponent中就已经初始化完成,
@Inject
public TodayGankStore(Dispatcher dispatcher) {
super(dispatcher);
}在需求类中,即TodayGankFragment中,声明TodayGankStore对象store,这个store就是TodayGankStore所提供的,这中间的过程Dagger2会帮你处理。
@Inject TodayGankStore store;
单独解释一下@Inject这个注解的作用
1.标记在构造方法上,表示对象提供者
2.标记在目标类中,表示实例对象。
加入了dagger2之后,代码变化如下,
@Inject TodayGankStore mStore;
@Inject TodayGankActionCreator mActionCreator;
@Inject Dispatcher mDispatcher;
@Override
public void onViewCreated(View view, Bundle savedInstanceState) {
super.onViewCreated(view, savedInstanceState);
//RxFlux rxFlux = RxFlux.init(MyApplication.getApplication());
//Dispatcher dispatcher = rxFlux.getDispatcher();
//SubscriptionManager manager = rxFlux.getSubscriptionManager();
//store = new TodayGankStore(dispatcher);
//dispatcher.subscribeRxStore(store);
//dispatcher.subscribeRxView(this);
//creator = new TodayGankActionCreator(dispatcher, manager);
//view从对应的Creator请求数据
//creator.getTodayGank();
mDispatcher.subscribeRxStore(mStore);
mDispatcher.subscribeRxView(this);
mActionCreator.getTodayGank();
}注释的代码是没加Dagger2之前的,可以明显的看出依赖关系简单了很多,代码逻辑也清晰了许多。
Dagger2还是能够给代码带来挺大的变化的。
本来还想再写一点基类封装的内容,不过由于部分代码和业务逻辑关系比较紧,要写的话,内容还有不少。
所以留到下次再讲吧!
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