Try in rxJava2 Kotlin combine Single with Flowable but nothing not happening:
Does not undrstand what wrong
Flowable.create<Int>({ emmit ->
loadNewListener = object :Listener {
override fun onEmit(id: Int) {
emmit.onNext(id)
}
}
}, BackpressureStrategy.LATEST)
.debounce(500, TimeUnit.MILLISECONDS)
.flatMapSingle {
loadNew(id = it.id)
}
.subscribeOn(Schedulers.io())
.observeOn(AndroidSchedulers.mainThread())
.subscribe({ (data:Data) ->
}, {
Timber.e("Failed load data ${it.message}")
})
my method is returning Single:
private fun loadNew(id: Int): Single<Data> {
return when (pdfType) {
CASE_0 -> {
Single.create<Data> { emmit ->
service.get("data")
.enqueue(
object : Callback<Void> {
override fun onFailure(call: Call<Void>?, t: Throwable?) {
// failure
}
override fun onResponse(call: Call<Void>?, response: Response<Void>?) {
emmit.onSuccess(it.data)
}
}
}//single
}//case_0
CASE_1 -> 1Repository.loadsome1Rx(id = id).map { it.getData() }
CASE_2 -> 2Repository.loadsom2LocalRx(id = id).map { it.getData() }
else -> {
throw java.lang.RuntimeException("$this is not available type!")
}
}
What is wrong im my code?
Need Maby call Single in Flowable subscribe() seppurate
like this?
Flowable.create<Int>({ emmit ->
loadNewListener = object :Listener {
override fun onEmit(id: Int) {
emmit.onNext(id)
}
}
}, BackpressureStrategy.LATEST)
.debounce(500, TimeUnit.MILLISECONDS)
.subscribe({
loadNew(id = it.id)
}, {
Timber.e("")
})
This code is workin but looks not simple as via combine try.
This simple example based on your code is working
var i = 0
fun foo() {
Flowable.create<Int>({ emmit ->
emmit.onNext(i)
i++
}, BackpressureStrategy.LATEST)
.debounce(500, TimeUnit.MILLISECONDS)
.flatMapSingle {
Single.create<String> { emmit ->
emmit.onSuccess("onSuccess: $it")
}
}
.subscribeOn(Schedulers.io())
.observeOn(AndroidSchedulers.mainThread())
.subscribe({
Log.i("RX", "Subscribe: $it")
}, {
it.printStackTrace()
})
}
Check SingleEmitter.onSuccess() and SingleEmitter.onError() is called in all cases in when (pdfType)...
As #Stas Bondar said in answer below This simple example based on your code is working!!
Problem was in loadNewListener .
It does not init in time and has null value when need. Call create Flowable on init ViewModel but loadNewListener did not have time to create when i call him from fragment.
loadNewListener = object :Listener{...}
Becuse need some time mutch for init rxJava expression!
And combine flowable with single via flatMapSingle spent more time than just call single on flowable dubscrinbe!
So use temp field:
private var temp: Temp? = null
fun load(id: Int) {
loadNewListener.apply {
when {
this != null -> load(id = id)
else -> userEmitPdfTemp = Temp(id = id)
}
}
}
Flowable.create<Data>({ emmit ->
userEmitPdfTemp?.let {id->
emmit.onNext(Data(id))
userEmitPdfTemp =null
}
loadNewListener = object :Listener {
override fun load(id: Int) {
emmit.onNext(Data(id))
}
}
}
Related
var responseMap = mutableMapOf<VendorType, ChargeResponse>()
requests.forEach {
val response = when (it.vendorType) {
VendorType.Type1 -> service.chargeForType1()
VendorType.Type2 -> service.chargeForType2()
else -> {
throw NotImplementedError("${it.vendorType} does not support yet")
}
}
responseMap[it.vendorType] = response
}
responseMap
So I want all the service.charge function run in separate thread. Return the map when all is done
Hope to solve your problem:
Assume your service and request like this:
interface Service {
suspend fun chargeForType1(): ChargeResponse
suspend fun chargeForType2(): ChargeResponse
}
data class Request(val vendorType: VendorType)
suspend fun requestAll(requests: List<Request>): Map<VendorType, ChargeResponse> {
return coroutineScope {
requests
.map { request ->
async {
request.vendorType to when (request.vendorType) {
VendorType.Type1 -> service.chargeForType1()
VendorType.Type2 -> service.chargeForType2()
else -> throw NotImplementedError("${request.vendorType} does not support yet")
}
}
}
.awaitAll()
.toMap()
}
}
I have the following code
class CurrencyRepository #Inject constructor(val apiInterface: ApiInterface,
val ratesDao: RatesDao) {
fun getRates(): Observable<List<Rates>> {
val observableFromApi = getCurrencyFromApi()
val observableFromDb = getRatesFromDb()
return Observable.concatArrayEager(observableFromApi , observableFromDb)
}
private fun getCurrencyFromApi(): Observable<Currency> {
return apiInterface.getRates()
.doOnNext {
Timber.i(it.toString())
val map = it.rates
val keys = map.keys
for (key in keys) {
ratesDao.insertRate(Rates(key , map.get(key)))
}
}
}
private fun getRatesFromDb(): Observable<List<Rates>> {
return ratesDao.getAllRates()
.toObservable()
.doOnNext {
for (rate in it) {
Timber.i("Repository DB ${it.size}")
}
}
}
}
In getCurrencyFromApi(), getRates() returns me an Observable<Currency>. I would like this particular function to return Observable<List<Rates>> so that I can use it in Observable.concatArrayEager inside getRates() of CurrencyRepository
Currency contains a Map object which can be transformed into a List object. I am not clear on how to do that inside getCurrencyFromApi()
One of possible solutions is
fun getRatesFromApi(): Observable<List<Rates>> {
return apiInterface.getRates()
.flatMapIterable { it.rates.entries }
.map { Rates(it.key ,it.value) }
.doOnNext { ratesDao.insertRate(it) }
.toList()
.toObservable()
}
I advise you insert items in database in one batch, because it will be more efficient.
I would like to convert my rxJava Code to Kotlin CoRoutine.
Below is the code makes both the api and db call and returns the data to UI whatever comes first. Let us say if DB response happens to be quicker than the api. In that case still, the api response would continue until it receives the data to sync with db though it could have done the UI update earlier.
How Would I do it?
class MoviesRepository #Inject constructor(val apiInterface: ApiInterface,
val MoviesDao: MoviesDao) {
fun getMovies(): Observable<List<Movie>> {
val observableFromApi = getMoviesFromApi()
val observableFromDb = getMoviesFromDb()
return Observable.concatArrayEager(observableFromApi, observableFromDb)
}
fun getMoviesFromApi(): Observable<List<Movie>> {
return apiInterface.getMovies()
.doOnNext { it ->
it.data?.let { it1 -> MoviesDao.insertAllMovies(it1) }
println("Size of Movies from API %d", it.data?.size)
}
.map({ r -> r.data })
}
fun getMoviesFromDb(): Observable<List<Movie>> {
return MoviesDao.queryMovies()
.toObservable()
.doOnNext {
//Print log it.size :)
}
}
}
As the first step you should create suspend funs for your ApiInterface and MovieDao calls. If they have some callback-based API, you can follow these official instructions.
You should now have
suspend fun ApiInterface.suspendGetMovies(): List<Movie>
and
suspend fun MoviesDao.suspendQueryMovies(): List<Movie>
Now you can write this code:
launch(UI) {
val fromNetwork = async(UI) { apiInterface.suspendGetMovies() }
val fromDb = async(UI) { MoviesDao.suspendQueryMovies() }
select<List<Movie>> {
fromNetwork.onAwait { it }
fromDb.onAwait { it }
}.also { movies ->
// act on the movies
}
}
The highlight is the select call which will simultaneously await on both Deferreds and act upon the one that gets completed first.
If you want to ensure you act upon the result from the network, you'll need some more code, for example:
val action = { movies: List<Movie> ->
// act on the returned movie list
}
var gotNetworkResult = false
select<List<Movie>> {
fromNetwork.onAwait { gotNetworkResult = true; it }
fromDb.onAwait { it }
}.also(action)
if (!gotNetworkResult) {
action(fromNetwork.await())
}
This code will act upon the DB results only if they come in before the network results, which it will process in all cases.
Something along those lines should work:
data class Result(val fromApi: ???, val fromDB: ???)
fun getMovies(): Result {
val apiRes = getMoviesFromApiAsync()
val dbRes = getMoviesFromDbAsync()
return Result(apiRes.await(), dbRes.await())
}
fun getMoviesFromApiAsync() = async {
return apiInterface.getMovies()
.doOnNext { it ->
it.data?.let { it1 -> MoviesDao.insertAllMovies(it1) }
println("Size of Movies from API %d", it.data?.size)
}
.map({ r -> r.data })
}
fun getMoviesFromDbAsync() = async {
return MoviesDao.queryMovies()
}
I don't know what you're returning, so I just put ??? instead.
I have a class A like this:
A {
id: Long
eventId: Long
event: Event
}
B{
id:Long
name: String
}
I want to retrieve A by executing:
aService.getA(id)
then with the result (which has a null event) use eventId to retrieve the proper Event (eventService.getEvent()), assign it to A.event, and then return A.
How can I chain the request to achieve this? I tried flatmap to return the Event but then I lose the result from A.
This is my current implementation:
aRepository.getA().subscribeOn(Schedulers.io())
.observeOn(AndroidSchedulers.mainThread())
.doOnSubscribe {
loadingState.onNext(true)
}
.doOnEvent { t1: Highlight, t2 ->
loadingState.onNext(false)
}
.subscribeWith(object : DisposableSingleObserver<A>() {
override fun onSuccess(a: A) {
aObservable.onNext(a)
}
override fun onError(e: Throwable) {
fetchErrors.onNext(e)
}
})
I tried this:
aRepository.getA()
.flatMap {
a: A ->
val event = eventsRepository.getEvent(a.eventId)
event
}
,subscribeOn(Schedulers.io())
.observeOn(AndroidSchedulers.mainThread())
.doOnSubscribe {
loadingState.onNext(true)
}
.doOnEvent { t1: Highlight, t2 ->
loadingState.onNext(false)
}
.subscribeWith(object : DisposableSingleObserver<A>() {
override fun onSuccess(a: A) {
aObservable.onNext(a)
}
override fun onError(e: Throwable) {
fetchErrors.onNext(e)
}
})
Use flatMap and just map its inner flow back to the updated original value:
aRepository.getA()
.subscribeOn(Schedulers.io())
.flatMap(a -> {
if (a.event == null) {
return eventsRepository.getEvent(a.eventId)
.map(evt -> {
a.event = evt;
return a;
});
}
return Single.just(a);
})
.observeOn(AndroidSchedulers.mainThread())
.subscribeWith(/* ... */)
;
I created a function which returns an Observable<String> with file names, but I don't get any event in my subscription where I call this method. Also there is no call of onError, or onComplete
See my code:
fun getAllFiles(): Observable<String> {
val allFiles = File("/Users/stephan/Projects/Playground/kotlinfiles/")
.listFiles { file -> !file.isDirectory() }
return observable { subscriber ->
allFiles.toObservable()
.map { f -> "${f.name}" }
.doOnNext { println("Found file $it") }
.subscribe { subscriber}
}
}
fun test() {
getAllFiles()
.doOnNext { println("File name$it") }
.subscribe(
{n -> println("File: $n")},
{e -> println("Damn: $e")},
{println("Completed")})
}
Though everything is being called in the getAllFiles() function, so what am I missing?
observable is for creating an Observable from scratch but you already have Observable<String> from toObservable() so you don't need it. The code below works for me:
fun getAllFiles(): Observable<String> {
val allFiles = File("/Users/stephan/Projects/Playground/kotlinfiles/")
.listFiles { file -> !file.isDirectory }
return allFiles.toObservable()
.map { f -> "${f.name}" }
}
fun test() {
getAllFiles()
.doOnNext { println("File name $it") }
.subscribe(
{ n -> println("File: $n") },
{ e -> println("Damn: $e") },
{ println("Completed") })
}
You can also fix this by changing from:
.subscribe{subscriber}
to
.subscribe(subscriber)
but this nested Observable version is confusing to me.