Is it acceptable to create Rx Observables in custom Application subclass. Reason for doing is, I can create BehaviorSubject inside the Application and will ask for changes every 10 minutes from Server, every Activity or Fragment which subscribes to this Observable will get only last state of changes.
Question is whether this architecture could be considered safe in terms of application lifecycle handling and easy to use?
class CustomApplication extends Application {
...
BehaviorSubject<Friends> mFriends = new BehaviorSubject<Friends>;
public void createObservables() {
Observable.create(new Observable.OnSubscribe<Friends>() {
public void call(Subscriber<?> s) {
while(true) {
mFriends.onNext("randomFriendN");
sleep(10sec);
}
}
})
.subscribeOn(Schedulers.newThread())
.subscribe(new Observer<List<NewsCategory>>() {
public void onNext(Friends f) { //empty }
});
}
public BehaviorSubject<Friends> getFriends() {
return mFriends;
}
}
UPDATE:
Everytime when new activity created and it wants to get data it can get it ApplicationContext's BehaviorSubject then subscribe to it, and Subject will emit last emitted value;
Why I want to do like this? E.g. Lets say you have news items, you fetched news feed and you want to start background task which fetches news item full content, in that case I can start fetching data while you are scrolling news list, and when you click detailed activity, we can show it from already fetched, or just download it.
I think this is perfectly safe as long as createObservables() is only called once during application initialization. A few suggested changes...
I wouldn't expose the BehaviorSubject part of mFriends in the returned value from getFriends(). That way callers of getFriends() will not be tempted to call onNext(). Change it to:
public Observable<Friends> getFriends() {
return mFriends;
}
If you want to be super safe use .asObservable() and callers will not even be able to cast the return value back to a BehaviorSubject.
public Observable<Friends> getFriends() {
return mFriends.asObservable();
}
I would also update your createObservable() method to call the BehaviorSubject onNext() from the subscribe callback. Here is your code slightly modified to use NewsItems.
BehaviorSubject<List<NewsItem>> mNewsItemSubject = BehaviorSubject.create();
void createObservables() {
Observable
.timer(10, 10, TimeUnit.SECONDS, Schedulers.newThread())
.flatMap(new Func1<Long, Observable<List<NewsItem>>>() {
#Override
public Observable<List<NewsItem>> call(Long aLong) {
// Normally you would create a network API that returns Observable<NewsItem>.
// For now just pretend this returned Observable makes an Observable
// network request.
return Observable.just(
Arrays.asList(
new NewsItem("fakeNewsItem"),
new NewsItem("fakeNewsItem1")
)
);
}
})
.subscribe(new Action1<List<NewsItem>>() {
#Override
public void call(List<NewsItem> newsItems) {
mNewsItemSubject.onNext(newsItems);
}
});
}
public Observable<List<NewsItem>> observeNewsItems() {
return mNewsItemSubject;
}
Your Android Activities can then call ((CustomApplication)getApplication()).observeNewsItems() to get the latest news items and any updates while the Activity is visible.
final Observable<List<NewsItem>> newsItemsObservable =
((CustomApplication) getApplication()).observeNewsItems();
newsItemsObservable
.observeOn(AndroidSchedulers.mainThread())
.subscribe(new Observer<List<NewsItem>>() {
#Override
public void onCompleted() {
// All done.
}
#Override
public void onError(Throwable e) {
// Notify user of error (maybe)
}
#Override
public void onNext(List<NewsItem> newsItems) {
// Update the UI with newsItems.
}
});
Related
I'm developing an Android App using Fernando Ceja's clean architecture. One of my Interactors or Use Cases is in charge of getting the User's feed data. In order to get the data, first I have to retrieve the User's Teams from a database table and then I have to get the Feed list from the server-side.
This is how I get the Teams from the database layer:
mTeamCache.getAllTeams().subscribe(new DefaultSubscriber<List<SimpleTeam>>() {
#Override
public void onNext(List<SimpleTeam> simpleTeams) {
super.onNext(simpleTeams);
mTeams = simpleTeams;
}
});
TeamCache is basically just another Interactor that takes care of getting all the teams that I have in the database.
Here's how I get the Feed data from the server-side:
mFeedRepository.getFeed(0, 50).subscribe(new ServerSubscriber<List<ApiFeedResponse>>() {
#Override
protected void onServerSideError(Throwable errorResponse) {
callback.onFeedFetchFailed(...);
}
#Override
protected void onSuccess(List<ApiFeedResponse> responseBody) {
//Do stuff with mTeams
callback.onFeedFetched(...);
}
});
My GetFeedInteractor class has a method called execute, where I pass through the Callback that I'm later using in the UI to handle the response. The issue with all this is that currently I'm chaining the responses like this:
#Override
public void execute(final Callback callback, String userSipId) {
mTeamCache.getAllTeams().subscribe(new DefaultSubscriber<List<SimpleTeam>>() {
#Override
public void onNext(List<SimpleTeam> simpleTeams) {
super.onNext(simpleTeams);
mTeams = simpleTeams;
getFeedFromRepository(callback);
}
});
}
public void getFeedFromRepository(final Callback callback) {
mFeedRepository.getFeedRx(0, 50).subscribe(new ServerSubscriber<List<ApiFeedResponse>>() {
#Override
protected void onServerSideError(Throwable errorResponse) {
callback.onFeedFetchFailed("failed");
}
#Override
protected void onSuccess(List<ApiFeedResponse> responseBody) {
//Do stuff with mTeams
List<BaseFeedItem> responseList = new ArrayList();
for (ApiFeedResponse apiFeedResponse : responseBody) {
responseList.add(FeedDataMapper.transform(apiFeedResponse));
}
callback.onFeedFetched(responseList);
}
});
}
As you can see, once that I get the Team collection from the Cache Interactor I call the method that gets the feed from the very same Subscriber. I don't like this. I want to be able to do something nicer, like using Observable.concat(getTeamsFromCache(), getFeedFromRepository()); chain a call to another rx.Observable inside a Subscriber is not something nice to do. I guess that my question is, how can I chain two rx.Observables that are using different Subscribers?
Update:
ServerSubscriber is a subscriber that I implemted to subscribe to Retrofit services. It simply checks the error codes and some stuff. Here is:
https://gist.github.com/4gus71n/65dc94de4ca01fb221a079b68c0570b5
Default subscriber is an empty default subscriber. Here is:
https://gist.github.com/4gus71n/df501928fc5d24c2c6ed7740a6520330
TeamCache#getAllTeams() returns rx.Observable>
FeedRepository#getFeed(int page, int offset) returns rx.Observable>
Update 2:
This is how the Interactor to get the User's feed looks like now:
#Override
public void execute(final Callback callback, int offset, int pageSize) {
User user = mGetLoggedUser.get();
String userSipid = mUserSipid.get();
mFeedRepository.getFeed(offset, pageSize) //Get items from the server-side
.onErrorResumeNext(mFeedCache.getFeed(userSipid)) //If something goes wrong take it from cache
.mergeWith(mPendingPostCache.getAllPendingPostsAsFeedItems(user)) //Merge the response with the pending posts
.subscribe(new DefaultSubscriber<List<BaseFeedItem>>() {
#Override
public void onNext(List<BaseFeedItem> baseFeedItems) {
callback.onFeedFetched(baseFeedItems);
}
#Override
public void onError(Throwable e) {
if (e instanceof ServerSideException) {
//Handle the http error
} else if (e instanceof DBException) {
//Handle the database cache error
} else {
//Handle generic error
}
}
});
}
I think you're missing the point of RxJava and reactive approach, you should not have different subscribers with OO hierarchy, and callbacks.
You should construct separated Observables that should emit the specific data it's handle, without the Subscriber, then you can chain you're Observable as needed, and at the end, you have the subscriber that react to the final result expected from the chained Observable stream.
something like this (using lambdas to have more thin code):
TeamCache mTeamCache = new TeamCache();
FeedRepository mFeedRepository = new FeedRepository();
Observable.zip(teamsObservable, feedObservable, Pair::new)
.subscribe(resultPair -> {
//Do stuff with mTeams
List<BaseFeedItem> responseList = new ArrayList();
for (ApiFeedResponse apiFeedResponse : resultPair.second) {
responseList.add(FeedDataMapper.transform(apiFeedResponse));
}
}, throwable -> {
//handle errors
}
);
I've use zip and not concat as it's seems you have 2 independent calls here that you want to wait for both to finish ('zip' them together) and then act upon, but ofcourse, as you have separated Observables stream, you can chain them together differently according to your needs.
as for your ServerSubscriber with all the response validation logic, it should be rxify too, so you can compose it along your server Observable stream.
something like this (some logic emitted to simplify, and as I'm not familiar with it...)
Observable<List<SimpleTeam>> teamsObservable = mTeamCache.getAllTeams();
Observable<List<ApiFeedResponse>> feedObservable = mFeedRepository.getFeed(0, 50)
.flatMap(apiFeedsResponse -> {
if (apiFeedsResponse.code() != 200) {
if (apiFeedsResponse.code() == 304) {
List<ApiFeedResponse> body = apiFeedsResponse.body();
return Observable.just(body);
//onNotModified(o.body());
} else {
return Observable.error(new ServerSideErrorException(apiFeedsResponse));
}
} else {
//onServerSideResponse(o.body());
return Observable.just(apiFeedsResponse.body());
}
});
I'm looking to set up a long running data subscription to a particular data object in Android/RxJava. Specifically a combination of a Retrofit REST call paired with cached data. I've done this pretty simply just wrapping an API call with data, were the API call is Retrofit returning an Observable:
class OpenWeather {
...
Observable<CurrentWeather> OpenWeather.getLocalWeather()
...
}
The simple implementation would be:
public static Observable<CurrentWeather> getWeatherOnce() {
if (currentWeather != null)
return Observable.just(currentWeather);
return OpenWeather.getLocalWeather()
.map(weather -> currentWeather = weather);
}
private static CurrentWeather currentWeather;
The problem is that there is no way to notify when the "current weather" has been updated. The simplest way to add refreshable data with long running updates between subscriptions would be to use a BehaviorSubject like such:
public class DataModel {
public enum DataState {
ANY, // whatever is available, don't require absolute newest
LATEST, // needs to be the latest and anything new
}
private final static BehaviorSubject<CurrentWeather> currentWeatherSubject = BehaviorSubject.create();
public static Observable<CurrentWeather> getCurrentWeather(DataState state) {
synchronized (currentWeatherSubject) {
if (state == DataState.LATEST || currentWeatherSubject.getValue() == null) {
OpenWeather.getLocalWeather()
.subscribeOn(Schedulers.io())
.toSingle()
.subscribe(new SingleSubscriber<CurrentWeather>() {
#Override
public void onSuccess(CurrentWeather currentWeather) {
currentWeatherSubject.onNext(currentWeather);
}
#Override
public void onError(Throwable error) {
// ?? currentWeatherSubject.onError(error);
}
});
}
}
return currentWeatherSubject.asObservable();
}
}
Using the BehaviorSubject, when getting the current weather, get either the last cached entry and any updates as they occur. Thoughts?
So I'm sure I'm doing something wrong here as there seems there should be an easier way or more elegant way.
I just start learning rxJava for Android and want to implement the common use case:
request data from cache and show to the user
request data from web
server update data in storage and automatically show it to the user
Traditionally on of the best scenarios was use CursorLoader to get data from cache, run web request in the separate thread and save data to the disk via content provider, content provider automatically notify the listener and CursorLoader autoupdate UI.
In rxJava I can do it by running two different Observers as you can see in code below, but I don't find the way how to combine this two calls into the one to reach my aim. Googling shows this thread but it looks like it just get data from the cache or data from the web server, but don't do both RxJava and Cached Data
Code snippet:
#Override
public Observable<SavingsGoals> getCachedSavingsGoal() {
return observableGoal.getSavingsGoals()
.subscribeOn(Schedulers.io())
.observeOn(AndroidSchedulers.mainThread());
}
#Override
public Observable<SavingsGoals> getRecentSavingsGoal() {
return api.getSavingsGoals()
.subscribeOn(Schedulers.io())
.observeOn(AndroidSchedulers.mainThread());
}
model.getCachedSavingsGoal().subscribe(new Observer<SavingsGoals>() {
#Override
public void onCompleted() {
// no op
}
#Override
public void onError(Throwable e) {
Log.e(App.TAG, "Failed to consume cached data");
view.showError();
}
#Override
public void onNext(SavingsGoals savingsGoals) {
Log.d(App.TAG, "Show the next item");
if (savingsGoals != null && !savingsGoals.getSavingsGoals().isEmpty()) {
view.showData(savingsGoals.getSavingsGoals());
} else {
view.showError();
}
}
});
model.getRecentSavingsGoal().subscribe(new Observer<SavingsGoals>() {
#Override
public void onCompleted() {
// no op
}
#Override
public void onError(Throwable e) {
Log.e(App.TAG, "Failed to consume data from the web", e);
view.showError();
}
#Override
public void onNext(SavingsGoals savingsGoals) {
if (savingsGoals != null && !savingsGoals.getSavingsGoals().isEmpty()) {
view.showData(savingsGoals.getSavingsGoals());
} else {
view.showError();
}
}
});
Also, the one of issues with current approach is cache and web data are not garranted to be run sequently. It is possible when outdated data will come as latest and override recent from web.
To solve this issue I implemented Observer merge with filtration by timestamp: it get data from cache, pass it to the next observer and if cache is outdated fire new call to the web - case for thread competition solved by the filtration with timestamps. However, the issue with this approach I can not return cache data from this Observable - I need to wait when both requests finish their work.
Code snippet.
#Override
public Observable<Timestamped<SavingsGoals>> getSavingGoals() {
return observableGoal
.getTimestampedSavingsGoals()
.subscribeOn(Schedulers.io())
.flatMap(new Func1<Timestamped<SavingsGoals>, Observable<Timestamped<SavingsGoals>>>() {
#Override
public Observable<Timestamped<SavingsGoals>> call(Timestamped<SavingsGoals> cachedData) {
Log.d(App.FLOW, "getTimestampedSavingsGoals");
return getGoalsFromBothSources()
.filter(filterResponse(cachedData));
}
})
.subscribeOn(AndroidSchedulers.mainThread());
}
private Func1<Timestamped<SavingsGoals>, Boolean> filterResponse(Timestamped<SavingsGoals> cachedData) {
return new Func1<Timestamped<SavingsGoals>, Boolean>() {
#Override
public Boolean call(Timestamped<SavingsGoals> savingsGoals) {
return savingsGoals != null
&& cachedData != null
&& cachedData.getTimestampMillis() < savingsGoals.getTimestampMillis()
&& savingsGoals.getValue().getSavingsGoals().size() != 0;
}
};
}
private Observable<Timestamped<SavingsGoals>> getGoalsFromBothSources() {
Log.d(App.FLOW, "getGoalsFromBothSources:explicit");
return Observable.merge(
observableGoal.getTimestampedSavingsGoals().subscribeOn(Schedulers.io()),
api.getSavingsGoals()
.timestamp()
.flatMap(new Func1<Timestamped<SavingsGoals>, Observable<Timestamped<SavingsGoals>>>() {
#Override
public Observable<Timestamped<SavingsGoals>> call(Timestamped<SavingsGoals> savingsGoals) {
Log.d(App.FLOW, "getGoalsFromBothSources:implicit");
return observableGoal.saveAllWithTimestamp(savingsGoals.getTimestampMillis(), savingsGoals.getValue().getSavingsGoals());
}
}))
.subscribeOn(Schedulers.io());
}
Do you know the approach to do this in one Observer?
Potential solution:
#Override
public Observable<SavingsGoals> getSavingGoals() {
return api.getSavingsGoals()
.publish(network ->
Observable.mergeDelayError(
observableGoal.getSavingsGoals().takeUntil(network),
network.flatMap(new Func1<SavingsGoals, Observable<SavingsGoals>>() {
#Override
public Observable<SavingsGoals> call(SavingsGoals savingsGoals) {
return observableGoal.saveAll(savingsGoals.getSavingsGoals());
}
})
)
)
.subscribeOn(Schedulers.io())
.observeOn(AndroidSchedulers.mainThread());
}
Sorry, hot replacement in IDE hide the issue which this approach has: first one in case if network unavailable and cache thread completes first, the error will terminate whole merge (solved by mergeDelayError), second one is in case when cache is empty and returns first data from web request will not be return on subscriber. As you can see my method returns Observable after save and traditional merge as I shown in my code properly handle this case but takeUntil by some reason can not. Question is still open.
For first question : You can save the result from Network Result by using doOnNext Method, It would looks something like this
public Observable<NetworkResponse> getDataFromNetwork(
final Request request) {
return networkCall.doOnNext(networkResponse -> saveToStorage(networkResponse);
}
Now to combine the two results from both Storage and Online, the best way is to combine with publish and merge. I recommend watching this talk.
The code would look something like this
public Observable<Response> getData(final Request request) {
return dataService.getDataFromNetwork(request)
.publish(networkResponse -> Observable.merge(networkResponse, dataService.getDataFromStorage(request).takeUntil(networkResponse)));
}
Why use publish and merge you my ask? publish method makes the response accessible in the callback. takeUntil means that you will take the data from storage but you will stop it IF for some reason, network call is finished before accessing storage data is finished. This way, you can be sure that new data from network is always shown even if it's finished before getting old data from storage.
The last but not least, in your subscriber OnNext just add the items to the list. (list.clear and list.addAll) Or similar functions or in you case view.showData()
EDIT: For The call getting disrupted when there's an error from network, add onErrorResumeNext at the end.
public Observable<Response> getData(final Request request) {
return dataService.getDataFromNetwork(request)
.publish(networkResponse -> Observable.merge(networkResponse, dataService.getDataFromStorage(request).takeUntil(networkResponse)))
.onErrorResumeNext(dataService.getDataFromStorage(request);
}
I'd recommend to "listen" only to local data, and refresh it when API response came.
Let say for getting local data you have something like:
#Nonnull
public Observable<SomeData> getSomeDataObservable() {
return Observable
.defer(new Func0<Observable<SomeData>>() {
#Override
public Observable<SomeData> call() {
return Observable.just(getSomeData());
}
});
}
So you need to add PublishSubject that will emit every time, when local data was updated (refreshSubject):
#Nonnull
public Observable<SomeData> getSomeDataObservableRefreshable() {
return refreshSubject.startWith((Object)null).switchMap(new Func1() {
public Observable<T> call(Object o) {
return getSomeDataObservable();
}
}
}
Now you need to subscribe only to getSomeDataObservableRefreshable(), and each time when data came from API, you update it and make refreshSubject .onNext(new Object())
Also i'd recommend to take a look to rx-java-extensions lib, it has alot of "cool tools" for RxAndroid. For example solution for your problem would be:
#Nonnull
public Observable<SomeData> getSomeDataObservable() {
return Observable
.defer(new Func0<Observable<SomeData>>() {
#Override
public Observable<SomeData> call() {
return Observable.just(getSomeData());
}
})
.compose(MoreOperators.<SomeData>refresh(refreshSubject));
}
I'm making a simple weather app to learn RxAndroid and I'm faced with the following issue.
I first load cities I'm interested in and then ask for the weather of each one of them.
getCitiesUseCase returns an Observable<List<City>> that I load from the data base. I send that list of cities to my view to display them and then ask for the weather individually (flatmap) inside the subscriber.
Subscription subscription = getCitiesUseCase.execute().flatMap(new Func1<List<City>, Observable<City>>() {
#Override
public Observable<City> call(List<City> cities) {
citiesView.addCities(cities);
return Observable.from(cities);
}
}).subscribe(new Subscriber<City>() {
#Override
public void onCompleted() {
subscriptions.remove(this);
this.unsubscribe();
}
#Override
public void onError(Throwable e) {
Log.e(this.getClass().getSimpleName(), e.toString());
}
#Override
public void onNext(City city) {
getCityWeatherUseCase.setLatLon(city.getLat().toString(), city.getLon().toString(), city.getId());
getCityWeather(city);
}
});
subscriptions.add(subscription);
Now the getCityWeather() method looks like this:
private void getCityWeather(final City city) {
subscriptions.add(getCityWeatherUseCase.execute().subscribe(new Subscriber<CityWeather>() {
#Override
public void onCompleted() {
}
#Override
public void onError(Throwable e) {
Log.e("error", e.toString());
}
#Override
public void onNext(CityWeather cityWeather) {
city.setCityWeather(cityWeather);
citiesView.updateCity(city);
}
}));
}
Everything works fine and as expected, but the fact that I'm subscribing to an observer inside a subcriber doesnt feel right. I know rxJava lets you play around with subscribers to prevent this kind of things but I really dont know how to improve my code further. Keep in mind that I need a city in order to ask for its weather.
Merry chrismas!
One approach could be the following. (I'm using retrolambda - so wherever you see ->, just replace with a new anonymous inner class).
Note that I'm using flatMap to spin up the weather data requests, rather than Observable.concat like your question suggests. The reason for this is that your scheduler (e.g. io()) will handle these in parallel and send the results through when they are available. However, with Observable.concat, these requests would be serialized so they'd be forced to happen one at a time - nullifying the benefits of a thread pool like io().
private class City {
public String name;
public City(String name) {
this.name = name;
}
public void setWeather(Weather weather) { /*...*/ }
}
private class Weather {
public String status;
public Weather(String status) {
this.status = status;
}
}
private Observable<Weather> getWeather(City city) {
// call your weather API here..
return Observable.just(new Weather("Sunny"));
}
#Test
public void test() {
Observable<List<City>> citiesObs = Observable.create(new Observable.OnSubscribe<List<City>>() {
#Override
public void call(Subscriber<? super List<City>> subscriber) {
// do work
final List<City> cities = new ArrayList<>();
cities.add(new City("Paris"));
cities.add(new City("Tokyo"));
cities.add(new City("Oslo"));
// send results
if (!subscriber.isUnsubscribed()) {
subscriber.onNext(cities);
subscriber.onCompleted();
}
}
});
Observable<City> obs = citiesObs
// inject a side effect
.doOnNext(list -> {
// pass `list` to your view here
})
// turn Observable<Iterable<T>> into Observable<T>
.flatMapIterable(list -> list)
// Map a city to an observable that fetches Weather data
// Your scheduler can take care of these at once.
.flatMap(city -> {
return getWeather(city)
// another side effect
.doOnNext(weather -> {
city.setWeather(weather);
})
// map baack to city, just for the heck of it
.map($ -> city);
});
TestSubscriber sub = TestSubscriber.create();
obs.subscribe(sub);
sub.awaitTerminalEvent();
sub.assertValueCount(3);
}
Also note that in order to take advantage of io(), you'd need to add a call to subscribeOn(Schedulers.io()) to tell the observable to begin doing work on the io thread pool. When you want to pass control to another thread, for example your view, you could insert a observeOn(AndroidSchedulers.mainThread()) before your side-effect (or mapping). If you want to bounce control back to the background thread(s) for your weather calls, you could then add another call to observeOn(Schedulers.io()) right before you flatMap to getWeather(City).
Observable observable = Observable.from(backToArray(downloadWebPage("URL")))
.map(new Func1<String[], Pair<String[], String[]>>() {
#Override
public Pair<String[], String[]> call(String[] of) {
return new Pair<>(of,
backToArray(downloadWebPage("URL" + of[0])).get(0));
}
});
observable.subscribeOn(Schedulers.newThread()).observeOn(AndroidSchedulers.mainThread()).subscribe(
(new Observer<Pair>() {
#Override
public void onCompleted() {
// Update user interface if needed
}
#Override
public void onError(Throwable t) {
// Update user interface to handle error
}
#Override
public void onNext(Pair p) {
offices.add(new Office((String[]) p.first, (String[]) p.second));
}
}));
This runs and i get android.os.NetworkOnMainThreadException. I would expect it to run a new thread as set by the subscribeOn() method.
Assuming that the actual network request is happening in downloadWebPage(), the error is in the first line of your code:
Observable observable = Observable.from(backToArray(downloadWebPage("http://api.ataxcloudapp.com/v1/franchise/listing/?location=" + ZIPCode)))
This is equivalent to:
String[] response = downloadWebPage("http://api.ataxcloudapp.com/v1/franchise/listing/?location=" + ZIPCode)
Observable observable = Observable.from(backToArray(response))
This should make it clear that downloadWebPage is executed - on the main thread - before any Observable is even created, let alone subscribed to. RxJava cannot change the semantics of Java in this regard.
What you can do however is something like this (not tested, but should be about right):
Observable observable = Observable.create(new Observable.OnSubscribe<String[]>() {
#Override
public void call(final Subscriber<? super String[]> subscriber) {
final String[] response = downloadWebPage("http://api.ataxcloudapp.com/v1/franchise/listing/?location=" + ZIPCode);
if (! subscriber.isUnsubscribed()) {
subscriber.onNext(backToArray(response));
subscriber.onCompleted();
}
}
)
Now your network request will happen only after the Observable is subscribed to, and will be moved to a the thread you specify in subscribeOn().
You can use defer() to postpone the calling of downloadWebPage to the moment when you subscribe to the observable.
Example:
private Object slowBlockingMethod() { ... }
public Observable<Object> newMethod() {
return Observable.defer(() -> Observable.just(slowBlockingMethod()));
}
Source
You should change from
**observable.subscribeOn(Schedulers.newThread())**
to
**observable.subscribeOn(Schedulers.io())**