60

I have next use case: User comes to registration form, enters name, email and password and clicks on register button. After that system needs to check if email is taken or not and based on that show error message or create new user...

I am trying to do that using Room, ViewModel and LiveData. This is some project that on which I try to learn these components and I do not have remote api, I will store everything in local database

So I have these classes:

  • RegisterActivity
  • RegisterViewModel
  • User
  • UsersDAO
  • UsersRepository
  • UsersRegistrationService

So the idea that I have is that there will be listener attached to register button which will call RegisterViewModel::register() method.

class RegisterViewModel extends ViewModel {

    //...

    public void register() {
        validationErrorMessage.setValue(null);
        if(!validateInput())
            return;
        registrationService.performRegistration(name.get(), email.get(), password.get());
    }

    //...

}

So that is the basic idea, I also want for performRegistration to return to me newly created user.

The thing that bothers me the most is I do not know how to implement performRegistration function in the service

class UsersRegistrationService {
    private UsersRepository usersRepo;

    //...

    public LiveData<RegistrationResponse<Parent>>  performRegistration(String name, String email, String password) {
         // 1. check if email exists using repository
         // 2. if user exists return RegistrationResponse.error("Email is taken") 
         // 3. if user does not exists create new user and return RegistrationResponse(newUser)
    }
}

As I understand, methods that are in UsersRepository should return LiveData because UsersDAO is returning LiveData

@Dao
abstract class UsersDAO { 
    @Query("SELECT * FROM users WHERE email = :email LIMIT 1")
    abstract LiveData<User> getUserByEmail(String email);
}

class UsersRepository {
    //...
    public LiveData<User> findUserByEmail(String email) {
        return this.usersDAO.getUserByEmail(email);
    }
}

So my problem is how to implement performRegistration() function and how to pass value back to view model and then how to change activity from RegisterActivity to MainActivity...

9
  • 1
    So performRegistration is basically an insert method? And also, not all Dao methods should return LiveData
    – Suleyman
    May 30, 2018 at 10:39
  • 1
    yes, but it does need to check if that email is taken or not
    – clzola
    May 30, 2018 at 11:10
  • 1
    So before inserting you want to query the database to check if the email already exists, right?
    – Suleyman
    May 30, 2018 at 11:50
  • 1
    yes, but DAO.getUserByEmail() returns LiveData
    – clzola
    May 30, 2018 at 12:15
  • 1
    You should take a look at the guide for the architecture components developer.android.com/jetpack/docs/guide . In the UsersRegistrationService class you'll need a MediatorLivedata to which you'll add as source LiveDatas for each state of registering a user.
    – user
    May 30, 2018 at 12:34

14 Answers 14

120

You can use my helper method:

val profile = MutableLiveData<ProfileData>()

val user = MutableLiveData<CurrentUser>()

val title = profile.combineWith(user) { profile, user ->
    "${profile.job} ${user.name}"
}

fun <T, K, R> LiveData<T>.combineWith(
    liveData: LiveData<K>,
    block: (T?, K?) -> R
): LiveData<R> {
    val result = MediatorLiveData<R>()
    result.addSource(this) {
        result.value = block(this.value, liveData.value)
    }
    result.addSource(liveData) {
        result.value = block(this.value, liveData.value)
    }
    return result
}
3
  • 1
    i've tried this, it won't wait for both LiveData ready, i.e. A is null, B is ready, it still triggered the observer... is there any way to wait for both ready?
    – Amos
    Nov 19, 2021 at 8:23
  • @Amos try this stackoverflow.com/a/70901284/826606
    – M-Wajeeh
    Jan 29, 2022 at 10:50
  • thanks @M-WaJeEh i've found .combine() works
    – Amos
    Feb 3, 2022 at 13:56
37

With the help of MediatorLiveData, you can combine results from multiple sources. Here an example of how would I combine two sources:

class CombinedLiveData<T, K, S>(source1: LiveData<T>, source2: LiveData<K>, private val combine: (data1: T?, data2: K?) -> S) : MediatorLiveData<S>() {

    private var data1: T? = null
    private var data2: K? = null

    init {
        super.addSource(source1) {
            data1 = it
            value = combine(data1, data2)
        }
        super.addSource(source2) {
            data2 = it
            value = combine(data1, data2)
        }
    }

    override fun <S : Any?> addSource(source: LiveData<S>, onChanged: Observer<in S>) {
        throw UnsupportedOperationException()
    }

    override fun <T : Any?> removeSource(toRemove: LiveData<T>) {
        throw UnsupportedOperationException()
    }
}

here is the gist for above, in case it is updated on the future: https://gist.github.com/guness/0a96d80bc1fb969fa70a5448aa34c215

10
  • 5
    In order for this to compile (at least under Android Studio 3.4) I had to add "in" before the T type argument in the signature for addSource(). override fun <T : Any?> addSource(source: LiveData<T>, onChanged: Observer<in T>) { Apr 21, 2019 at 1:44
  • 2
    what if the source count is variable instead of two? Jul 22, 2019 at 5:33
  • 3
    How can I implement the "combine" part in Java?
    – adriennoir
    Sep 16, 2019 at 12:58
  • 1
    Why do you need the two overrides for unsupported operation? Sep 27, 2019 at 11:50
  • 2
    @EpicPandaForce you don't need the overrides, but they are just prevent misuse
    – Joe Maher
    Sep 30, 2019 at 2:13
12

One approach is to use flows for this.

val profile = MutableLiveData<ProfileData>()
val user = MutableLiveData<CurrentUser>()

val titleFlow = profile.asFlow().combine(user.asFlow()){ profile, user ->
    "${profile.job} ${user.name}"
}

And then your Fragment/Activity:

viewLifecycleOwner.lifecycleScope.launch { 
    viewModel.titleFlow.collectLatest { title ->
        Log.d(">>", title)
    }
}

One advantage to this approach is that titleFlow will only emit value when both live datas have emitted at least one value. This interactive diagram will help you understand this https://rxmarbles.com/#combineLatest

Alternative syntax:

val titleFlow = combine(profile.asFlow(), user.asFlow()){ profile, user ->
    "${profile.job} ${user.name}"
}
2
  • I have tried this but am getting two emissions of titleFlow. first time with one live data updated and second time with both live data updated. i.e. it is not waiting for both before emitting. In my ViewModel: private val _liveDataA = MutableLiveData(10), private val _liveDataB = MutableLiveData(20) val combinedLiveData = combine(_liveDataA.asFlow(), _liveDataB.asFlow()) { a, b ->"$a $b"}. In my lifecycleOwner: var combinedLiveData = lifecycleOwner.lifecycleScope.launch{viewModel.combinedLiveData.collectLatest { combined -> Log.d(">>", combined)}}
    – mars8
    Apr 23, 2022 at 20:27
  • i have created post stackoverflow.com/q/71983906/15597975
    – mars8
    Apr 23, 2022 at 21:58
11

without custom class

MediatorLiveData<Pair<Foo?, Bar?>>().apply {
    addSource(fooLiveData) { value = it to value?.second }
    addSource(barLiveData) { value = value?.first to it }
}.observe(this) { pair ->
    // TODO
}
9

Jose Alcérreca has probably the best answer for this:

fun blogpostBoilerplateExample(newUser: String): LiveData<UserDataResult> {

    val liveData1 = userOnlineDataSource.getOnlineTime(newUser)
    val liveData2 = userCheckinsDataSource.getCheckins(newUser)

    val result = MediatorLiveData<UserDataResult>()

    result.addSource(liveData1) { value ->
        result.value = combineLatestData(liveData1, liveData2)
    }
    result.addSource(liveData2) { value ->
        result.value = combineLatestData(liveData1, liveData2)
    }
    return result
}
2
  • 11
    Please note that this will not combine the results for you. It will only notify you when either sources change Oct 13, 2019 at 1:42
  • 3
    @TheRealChx101 the way to combine the data is in the linked article, basically the combineLatestData function
    – Stachu
    Aug 10, 2020 at 9:03
5

I did an approach based on @guness answer. I found that being limited to two LiveDatas was not good. What if we want to use 3? We need to create different classes for every case. So, I created a class that handles an unlimited amount of LiveDatas.

/**
  * CombinedLiveData is a helper class to combine results from multiple LiveData sources.
  * @param liveDatas Variable number of LiveData arguments.
  * @param combine   Function reference that will be used to combine all LiveData data results.
  * @param R         The type of data returned after combining all LiveData data.
  * Usage:
  * CombinedLiveData<SomeType>(
  *     getLiveData1(),
  *     getLiveData2(),
  *     ... ,
  *     getLiveDataN()
  * ) { datas: List<Any?> ->
  *     // Use datas[0], datas[1], ..., datas[N] to return a SomeType value
  * }
  */
 class CombinedLiveData<R>(vararg liveDatas: LiveData<*>,
                           private val combine: (datas: List<Any?>) -> R) : MediatorLiveData<R>() {

      private val datas: MutableList<Any?> = MutableList(liveDatas.size) { null }

      init {
         for(i in liveDatas.indices){
             super.addSource(liveDatas[i]) {
                 datas[i] = it
                 value = combine(datas)
             }
         }
     }
 }
4
  • I got Type Mismatch Error, Required: R? Found: Unit at value = combine(datas)
    – imin
    May 22, 2020 at 8:20
  • Thats because your combine method is returning Unit instead of R. Note return a SomeType value in the class documentation. May 22, 2020 at 16:37
  • TNX. It's useful helper class, but it should be noticed that return type from combine function should be as same as SomeType declare in CombinedLiveData class, <R> generic type. for example if SomeType is Boolean? (nullable value) combine method also must return Boolean? type Jan 4, 2021 at 8:54
  • * Be sure to Observe returned mediatorLiveData or else it won't push updates May 4, 2022 at 22:43
5

You can define a method that would combine multiple LiveDatas using a MediatorLiveData, then expose this combined result as a tuple.

public class CombinedLiveData2<A, B> extends MediatorLiveData<Pair<A, B>> {
    private A a;
    private B b;

    public CombinedLiveData2(LiveData<A> ld1, LiveData<B> ld2) {
        setValue(Pair.create(a, b));

        addSource(ld1, (a) -> { 
             if(a != null) {
                this.a = a;
             } 
             setValue(Pair.create(a, b)); 
        });

        addSource(ld2, (b) -> { 
            if(b != null) {
                this.b = b;
            } 
            setValue(Pair.create(a, b));
        });
    }
}

If you need more values, then you can create a CombinedLiveData3<A,B,C> and expose a Triple<A,B,C> instead of the Pair, etc. Just like in https://stackoverflow.com/a/54292960/2413303 .

EDIT: hey look, I even made a library for you that does that from 2 arity up to 16: https://github.com/Zhuinden/livedata-combinetuple-kt

10
  • 1
    can we do a more generic way? for example for 4 live data we need to add another class and so on... Jul 30, 2019 at 8:51
  • 1
    I'd generally be surprised if you need to combine more than 6 at a time. So having 6 classes (+ the tuples) isn't too bad. Jul 30, 2019 at 11:27
  • 1
    I'm from the future and I have a combiner method up to 11-arity tuples, who knew? Mar 4, 2020 at 13:30
  • 1
    How do we actually use this class in a fragment? Jul 29, 2020 at 14:11
  • 2
    @AndroidDev123 you don't need to use the class, use the library in the edit: github.com/Zhuinden/livedata-combinetuple-kt now you can say combineTuple(liveData1, liveData2) and it will just work. Kotlin library tho. Jul 29, 2020 at 14:39
3

Many of these answers work, but also it is assumed the LiveData generic types are not-nullable.

But what if one or more of the given input types are nullable types (given the default Kotlin upper bound for generics is Any?, which is nullable)? The result would be even though the LiveData emitter would emit a value (null), the MediatorLiveData will ignore it, thinking it's his own child live data value not being set.

This solution, instead, takes care of it by forcing the upper bound of the types passed to the mediator to be not null. Lazy but needed.

Also, this implementation avoids same-value after the combiner function has been called, which might or might not be what you need, so feel free to remove the equality check there.

fun <T1 : Any, T2 : Any, R> combineLatest(
    liveData1: LiveData<T1>,
    liveData2: LiveData<T2>,
    combiner: (T1, T2) -> R,
): LiveData<R> = MediatorLiveData<R>().apply {
    var first: T1? = null
    var second: T2? = null

    fun updateValueIfNeeded() {
        value = combiner(
            first ?: return,
            second ?: return,
        )?.takeIf { it != value } ?: return
    }

    addSource(liveData1) {
        first = it
        updateValueIfNeeded()
    }
    addSource(liveData2) {
        second = it
        updateValueIfNeeded()
    }
}
2
LiveData liveData1 = ...;
 LiveData liveData2 = ...;

 MediatorLiveData liveDataMerger = new MediatorLiveData<>();
 liveDataMerger.addSource(liveData1, value -> liveDataMerger.setValue(value));
 liveDataMerger.addSource(liveData2, value -> liveDataMerger.setValue(value));
1
  • 6
    Nice copy-paste but an explanation would have been great
    – Farid
    Oct 9, 2020 at 6:56
2

if you want both value not null

fun <T, V, R> LiveData<T>.combineWithNotNull(
        liveData: LiveData<V>,
        block: (T, V) -> R
): LiveData<R> {
    val result = MediatorLiveData<R>()
    result.addSource(this) {
        this.value?.let { first ->
            liveData.value?.let { second ->
                result.value = block(first, second)
            }
        }
    }
    result.addSource(liveData) {
        this.value?.let { first ->
            liveData.value?.let { second ->
                result.value = block(first, second)
            }
        }
    }

    return result
}
1

If you want to create a field and setup at construction time (use also):

val liveData1 = MutableLiveData(false)
val liveData2 = MutableLiveData(false)

// Return true if liveData1 && liveData2 are true
val liveDataCombined = MediatorLiveData<Boolean>().also {
    // Initial value
    it.value = false
    // Observing changes
    it.addSource(liveData1) { newValue ->
        it.value = newValue && liveData2.value!!
    }
    it.addSource(selectedAddOn) { newValue ->
        it.value = liveData1.value!! && newValue
    }
}
1

Solved with LiveData extensions

fun <T, R> LiveData<T>.map(action: (t: T) -> R): LiveData<R> =
    Transformations.map(this, action)

fun <T1, T2, R> LiveData<T1>.combine(
    liveData: LiveData<T2>,
    action: (t1: T1?, t2: T2?) -> R
): LiveData<R> =
    MediatorLiveData<Pair<T1?, T2?>>().also { med ->
        med.addSource(this) { med.value = it to med.value?.second }
        med.addSource(liveData) { med.value = med.value?.first to it }
    }.map { action(it.first, it.second) }
0

Java version, if anyone else is stuck working on some old project

var fullNameLiveData = LiveDataCombiner.combine(
    nameLiveData,
    surnameLiveData,
    (name, surname) -> name + surname
)
public class LiveDataCombiner<First, Second, Combined> {

    private First first;
    private Second second;
    private final MediatorLiveData<Combined> combined = new MediatorLiveData<>();
    private final BiFunction<First, Second, Combined> combine;

    public LiveData<Combined> getCombined() {
        return combined;
    }

    public static <First, Second, Combined>LiveDataCombiner<First, Second, Combined> combine(
            LiveData<First> firstData,
            LiveData<Second> secondData,
            BiFunction<First, Second, Combined> combine
    ) {
        return new LiveDataCombiner<>(firstData, secondData, combine);
    }

    private LiveDataCombiner(
            LiveData<First> firstData,
            LiveData<Second> secondData,
            BiFunction<First, Second, Combined> combine
    ) {
        this.combine = combine;
        addSource(firstData, value -> first = value);
        addSource(secondData, value -> second = value);
    }

    private <T> void addSource(LiveData<T> source, Consumer<T> setValue) {
        combined.addSource(source, second -> {
            setValue.accept(second);
            emit(combine());
        });
    }

    private Combined combine() {
        return combine.apply(first, second);
    }

    private void emit(Combined value) {
        if (combined.getValue() != value)
            combined.setValue(value);
    }
}
0

I get that having a combine method would be really convenient, but your intended functionality can easily be achieved in a more rustic way:

Define your liveData

    private val liveDataA = MutableLiveData<String>()
    private val liveDataB = MutableLiveData<String>()
    private val liveDataC = MutableLiveData<String>()

Define your onData method in the fragment/activity

private fun onData() {
    val dataA = viewModel.liveDataA.value ?: return
    val dataB = viewModel.liveDataB.value ?: return
    val dataC = viewModel.liveDataC.value ?: return
    // DoStuff with non-null values
}

Observe your livedatas

observe(viewModel.liveDataA) {
   onData()
}
observe(viewModel.liveDataB) {
   onData()
}
observe(viewModel.liveDataC) {
   onData()
}

It's clunky, yes, but it works

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