I have a use case where I want to call a web API for each user repeatedly until entire data is downloaded.

The web API that I have, allows maximum 100 records to be fetched for a user per API request. I can specify startTime and end timestamp of the records to be download for that user:

void downloadRecord(String userId, recordStartTime, recordEndTime, int countOfRecord, ResultCallBack)

If the number of records between recordStartTime and recordEndTime is more than 100, then API response only returns 100 records. And then I have to loop through to call this apis with new start time (time of the 100th record just downloaded), until all the records are downloaded.

final long recordStartTime = timeStampFrom2DaysAgo//;
Observable.from(arrayListOfUserIds).flatMap(new Func1<String, Observable<?>>() {
    @Override
    public Observable<?> call(String userId) {
        long recordEndTime = getCurrentTimeMS();
        //keep downloading records 
        downloadRecord(userId, recordStartTime, recordEndTime, 100, new ResultCallBack() {
            //if records are < 100 then stop 
            //else keep downloading 
        });
    }
}).subscribe();

Please suggest if there is a RxJava sample code that I can use to solve my problem.

Thanks

This is a case of circularly dependent Observables. Imagine you have one Observable for the requests and one Observable for the responses. requests Observable emits some DownloadParams objects, containing userId, recordStartTime, recordEndTime and countOfRecord, hence Observable<DownloadParams> requests. responses Observable emits the list of records, i.e., Observable<List<Record>> responses.

responses obviously depends on requests, but the not so obvious part is that we need requests also to depend on responses, because the next download from the server, with certain DownloadParams, depends on what response we got from the previous download. For completeness, requests actually also depends on some initialization Observable which emits the userId to perform the first download. You can replace this initialization Observable with just a .startWith(firstDownloadParams).

Anyway, the hard part is expressing the cyclic dependency. The good news is this is possible in Rx, and has been the focus of Cycle.js framework based on RxJS. The bad news is that we cannot solve this without Subjects, which might be rather undesirable.

It is better to keep RxJava code as functional as possible, but by attempting to do that we reach a problem. If we try to declare the Observables as a function of others, we get:

Observable<DownloadParams> requests = responses.flatMap( /* ... */ )
    .startWith(firstDownloadParams);
Observable<List<Record>> responses = requests.flatMap( /* ... */ );

This doesn't compile because the first declaration needs the second declaration, and vice versa. This is how subjects can help. We declare either one of those Observables as a Subject:

PublishSubject<List<Record>> responsesProxy = PublishSubject.create();
Observable<DownloadParams> requests = responsesProxy.flatMap( /* ... */ )
    .startWith(firstDownloadParams);
Observable<List<Record>> responses = requests.flatMap( /* ... */ );

The Subject responsesProxy will act as a proxy for responses, so that we are able to declare requests depending on responsesProxy. But now we need responsesProxy to imitate responses. We do that by adding this:

responses.subscribe(responsesProxy);

This closes the loop in the circular dependency, but just remember to properly dispose also the Subject since we made the subscription above.

Now we just need to fill in the transformations in those flatMap. In requests.flatMap( ) you should perform the network call that downloads the list of records. You probably want to handle this as an Observable, not as a callback, to ease the interplay with the rest of the RxJava code.

In responsesProxy.flatMap( ) you should check if the list of records are 100 or more and create the next DownloadParams with a new recordStartTime, wrapped as Observable.just(newDownloadParams). If less than 100, then return Observable.empty().

This can get complicated: see the example gist here.

Basically you need to trampoline the requests concerning the subsequent time windows to be queried. Note that BufferUntilSubscriber is internal, but RxJava doesn't have any official Subject variant that caches values up until a subscription happens and then discards the cache.

Edit: updated gist so it doesn't trigger a MissinBackpressureException.

  • Thanks for your reply. As you said indeed this has got really complicated. To understand your solution I need to study RxJava deeply. I am not yet there :) – Big O May 22 '15 at 21:08

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