11

I've run into an issue in my Android app using Kotlin and RxJava. It's presented below.

import rx.Observable

data class TestUser(val name: String)

fun getTestUser(): Observable<TestUser> {
    return Observable.just(TestUser("Brian")).flatMap { getUser() } // this compiles
}

fun getTestUser2(): Observable<TestUser> {
    val observable = Observable.just(TestUser("Brian")).flatMap { getUser() }
    return observable // this does not compile
}

fun getUser(): Observable<TestUser?> {
    return Observable.just(null)
}

In getTestUser2, the compiler infers the final return type as Observable<TestUser?> and doesn't compile. However in getTestUser the code does compile, and when it's run, any subscriber to that observable may be in for a surprise when the TestUser comes back null.

I'm guessing it's something to do with going back and forth between Kotlin and Java. But, the fact that the compiler can see the difference in getTestUser2 makes me think this could be fixable.

Edit

This is on Kotlin 1.0, the final version released just yesterday (Feb 15, 2016).

2

1 Answer 1

10

The signature of the flatMap function is as follows when used in Kotlin:

public final fun <R: Any!, T: Any!> 
    Observable<T>.flatMap(
      func: ((T) -> Observable<out R!>!)!
    ) : Observable<R!>!

From the docs:

Any reference in Java may be null, which makes Kotlin’s requirements of strict null-safety impractical for objects coming from Java. Types of Java declarations are treated specially in Kotlin and called platform types. Null-checks are relaxed for such types, so that safety guarantees for them are the same as in Java

and

T! means “T or T?

This means that the Kotlin compiler can regard the return type of the flatMap function as either Observable<TestUser> or Observable<TestUser?>, or even Observable<TestUser>?. The relaxation part says so much as, "we don't want to bother you with these unknown types, you probably know better".

Since the return type is explicitly given in getTestUser(), it uses the first. Since the type of observable is not explicitly given, it infers it to Observable<TestUser?>, based on the getUser() function.


As @voddan commented, there is an open issue discussing this problem: https://youtrack.jetbrains.com/issue/KT-11108

4
  • Accepted this. Well researched and presented. That makes sense. I'll probably start being more explicit by assigning the value before returning it like in the 2nd example. I want all the type safety I can get.
    – bclymer
    Feb 16, 2016 at 20:00
  • 1
    That's weird. Assignment without a type declaration should not change a thing.
    – voddan
    Feb 16, 2016 at 20:26
  • 2
    The team confirmed it is a bug. The issue: youtrack.jetbrains.com/issue/KT-11108
    – voddan
    Feb 18, 2016 at 7:46
  • @voddan interesting!
    – nhaarman
    Feb 18, 2016 at 8:57

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