141

I can't get my head around the difference between thenApply() and thenCompose().

So, could someone provide a valid use case?

From the Java docs:

thenApply(Function<? super T,? extends U> fn)

Returns a new CompletionStage that, when this stage completes normally, is executed with this stage's result as the argument to the supplied function.

thenCompose(Function<? super T,? extends CompletionStage<U>> fn)

Returns a new CompletionStage that, when this stage completes normally, is executed with this stage as the argument to the supplied function.

I get that the 2nd argument of thenCompose extends the CompletionStage where thenApply does not.

Could someone provide an example in which case I have to use thenApply and when thenCompose?

2
  • 52
    Do you understand the difference between map and flatMap in Stream? thenApply is the map and thenCompose is the flatMap of CompletableFuture. You use thenCompose to avoid having CompletableFuture<CompletableFuture<..>>.
    – Misha
    Mar 25 '17 at 23:29
  • This is a very nice guide to start with CompletableFuture - baeldung.com/java-completablefuture May 19 '20 at 13:00
202

thenApply is used if you have a synchronous mapping function.

CompletableFuture<Integer> future = 
    CompletableFuture.supplyAsync(() -> 1)
                     .thenApply(x -> x+1);

thenCompose is used if you have an asynchronous mapping function (i.e. one that returns a CompletableFuture). It will then return a future with the result directly, rather than a nested future.

CompletableFuture<Integer> future = 
    CompletableFuture.supplyAsync(() -> 1)
                     .thenCompose(x -> CompletableFuture.supplyAsync(() -> x+1));
6
  • 20
    Why should a programmer use .thenCompose(x -> CompletableFuture.supplyAsync(() -> x+1)) instead of .thenApplyAsync(x -> x+1)? Being synchronous or asynchronous is not the relevant difference.
    – Holger
    Jan 22 '18 at 12:17
  • 28
    They would not do so like that. However, if a third-party library that they used returned a CompletableFuture, then this would be where thenCompose would be the way to flatten the structure.
    – Joe C
    Jan 22 '18 at 20:44
  • @Holger read my other answer if you're confused about thenApplyAsync because it is not what you think it is.
    – 1283822
    Jul 27 '18 at 15:47
  • @1283822 I don’t know what makes you think that I was confused and there’s nothing in your answer backing your claim that “it is not what you think it is”.
    – Holger
    Jul 27 '18 at 15:55
  • 1
    I honestly thing that a better code example that has BOTH sync and async functions with BOTH .supplyAsync().thenApply() and .supplyAsync(). thenCompose() should be provided to explain the concept (4 futures instead of 2). Aug 15 '18 at 11:24
83

I think the answered posted by @Joe C is misleading.

Let me try to explain the difference between thenApply and thenCompose with an example.

Let's suppose that we have 2 methods: getUserInfo(int userId) and getUserRating(UserInfo userInfo):

public CompletableFuture<UserInfo> getUserInfo(userId)

public CompletableFuture<UserRating> getUserRating(UserInfo)

Both method return types are CompletableFuture.

We want to call getUserInfo() first, and on its completion, call getUserRating() with the resulting UserInfo.

On the completion of getUserInfo() method, let's try both thenApply and thenCompose. The difference is in the return types:

CompletableFuture<CompletableFuture<UserRating>> f =
    userInfo.thenApply(this::getUserRating);

CompletableFuture<UserRating> relevanceFuture =
    userInfo.thenCompose(this::getUserRating);

thenCompose() works like Scala's flatMap which flattens nested futures.

thenApply() returned the nested futures as they were, but thenCompose() flattened the nested CompletableFutures so that it is easier to chain more method calls to it.

3
  • 12
    Then Joe C's answer is not misleading. It is correct and more concise.
    – koleS
    Oct 25 '18 at 13:29
  • 1
    Imho it is poor design to write CompletableFuture<UserInfo> getUserInfo and CompletableFuture<UserRating> getUserRating(UserInfo) \\ instead it should be UserInfo getUserInfo() and int getUserRating(UserInfo) if I want to use it async and chain, then I can use ompletableFuture.supplyAsync(x => getUserInfo(userId)).thenApply(userInfo => getUserRating(userInfo)) or anything like this, it is more readable imho, and not mandatory to wrap ALL return types into CompletableFuture Dec 16 '19 at 22:11
  • 1
    @user1694306 Whether it is poor design or not depends on whether the user rating is contained in the UserInfo (then yes) or whether it has to be obtained separately, maybe even costly (then no).
    – glglgl
    Feb 11 '20 at 8:36
47

The updated Javadocs in Java 9 will probably help understand it better:

thenApply

<U> CompletionStage<U> thenApply​(Function<? super T,? extends U> fn)

Returns a new CompletionStage that, when this stage completes normally, is executed with this stage's result as the argument to the supplied function.

This method is analogous to Optional.map and Stream.map.

See the CompletionStage documentation for rules covering exceptional completion.

thenCompose

<U> CompletionStage<U> thenCompose​(Function<? super T,? extends CompletionStage<U>> fn)

Returns a new CompletionStage that is completed with the same value as the CompletionStage returned by the given function.

When this stage completes normally, the given function is invoked with this stage's result as the argument, returning another CompletionStage. When that stage completes normally, the CompletionStage returned by this method is completed with the same value.

To ensure progress, the supplied function must arrange eventual completion of its result.

This method is analogous to Optional.flatMap and Stream.flatMap.

See the CompletionStage documentation for rules covering exceptional completion.

2
  • 16
    I wonder why they didn't name those functions map and flatMap in the first place. Jun 16 '17 at 9:08
  • 1
    @MatthiasBraun I think that's because thenApply() will simply call Function.apply(), and thenCompose() is a bit similar to composing functions.
    – Didier L
    Jun 16 '17 at 9:56
21

thenApply and thenCompose are methods of CompletableFuture. Use them when you intend to do something to CompletableFuture's result with a Function.

thenApply and thenCompose both return a CompletableFuture as their own result. You can chain multiple thenApply or thenCompose together. Supply a Function to each call, whose result will be the input to the next Function.

The Function you supplied sometimes needs to do something synchronously. The return type of your Function should be a non-Future type. In this case you should use thenApply.

CompletableFuture.completedFuture(1)
    .thenApply((x)->x+1) // adding one to the result synchronously, returns int
    .thenApply((y)->System.println(y)); // value of y is 1 + 1 = 2

Other times you may want to do asynchronous processing in this Function. In that case you should use thenCompose. The return type of your Function should be a CompletionStage. The next Function in the chain will get the result of that CompletionStage as input, thus unwrapping the CompletionStage.

// addOneAsync may be implemented by using another thread, or calling a remote method
abstract CompletableFuture<Integer> addOneAsync(int input);

CompletableFuture.completedFuture(1)
    .thenCompose((x)->addOneAsync(x)) // doing something asynchronous, returns CompletableFuture<Integer>
    .thenApply((y)->System.println(y)); // y is an Integer, the result of CompletableFuture<Integer> above

This is a similar idea to Javascript's Promise. Promise.then can accept a function that either returns a value or a Promise of a value. The reason why these two methods have different names in Java is due to generic erasure. Function<? super T,? extends U> fn and Function<? super T,? extends CompletionStage<U>> fn are considered the same Runtime type - Function. Thus thenApply and thenCompose have to be distinctly named, or Java compiler would complain about identical method signatures. The end result being, Javascript's Promise.then is implemented in two parts - thenApply and thenCompose - in Java.

You can read my other answer if you are also confused about a related function thenApplyAsync.

1
  • While i understand the example given, i think thenApply((y)->System.println(y)); doesnt work. It takes a function,but a consumer is given. We should replac it with thenAccept(y)->System.println(y)) Aug 21 at 4:42
1

thenCompose() is better for chaining CompletableFuture.

thenApply() is better for transform result of Completable future.

You can achieve your goal using both techniques, but one is more suitable for one use case then other.

public CompletableFuture<Integer> process(Integer i) {
    CompletableFuture<Integer> completableFuture = CompletableFuture.supplyAsync(
            () -> new HeavyTask(i).execute());
    return completableFuture;
}

@SneakyThrows
public CompletableFuture<Integer> thenApplyVsThenCompose() {
    // each time calling thenApply() function returns CompletionState
    // so you will get nested Futures 
    // you can think about it like map() java optional
    CompletableFuture<Future<Integer>> cf1 = CompletableFuture.supplyAsync(
            () -> new HeavyTask().execute())
            .thenApply(i -> process(i));

    // to get result you will have to get nested get() calls
    Integer resultFromThenApply = cf1.get().get();

    // when calling thenCompose() nested Futures are flatten
    // you can think about it like flatMap() java optional
    CompletableFuture<Integer> cf2;
    cf2 = CompletableFuture.supplyAsync(
            () -> new HeavyTask().execute())
            .thenCompose(this::process);

    // you have to just call one get() since thenCompose was flatten
    Integer resultFromThenCompose = cf2.get();
    return null;
} 

Other problem that can visualize difference between those two

How would you implement solution when you do not know how many time you have to apply thenApply()/thenCompose() (in case for example recursive methods)?

public void nested() throws ExecutionException, InterruptedException {
    CompletableFuture<Integer> completableFutureToCompose = CompletableFuture.completedFuture(1);
    for (int i = 0; i < 10; i++) {
        log.info("Composing");
        completableFutureToCompose = completableFutureToCompose.thenCompose(this::process);
    }
    completableFutureToCompose.get();

    // not achievable using then apply
    CompletableFuture<Integer> completableFutureToApply = CompletableFuture.completedFuture(1);
    for (int i = 0; i < 10; i++) {
        log.info("Applying");
        completableFutureToApply = completableFutureToApply.thenApply(this::process).get();
    }
    completableFutureToCompose.get();
}

public CompletableFuture<Integer> process(Integer i) {
    log.info("PROCESSING");
    CompletableFuture<Integer> completableFuture = CompletableFuture.supplyAsync(
            () -> new HeavyTask(i).execute());
    return completableFuture;
}
  • Using composing you first create receipe how futures are passed one to other and then execute
  • Using apply you execute logic after each apply invocation
0

JoeC's answer is correct, but I think the better comparison that can clear the purpose of the thenCompose is the comparison between thenApply and thenApply! Once when a synchronous mapping is passed to it and once when an asynchronous mapping is passed to it.

If the mapping passed to the thenApply returns an String(a non-future, so the mapping is synchronous), then its result will be CompletableFuture<String>. Now similarly, what will be the result of the thenApply, when the mapping passed to the it returns a CompletableFuture<String>(a future, so the mapping is asynchronous)? The end result will be CompletableFuture<CompletableFuture<String>>, which is unnecessary nesting(future of future is still future!). Here's where we can use thenCompose to be able to "compose"(nest) multiple asynchronous tasks in each other without getting futures nested in the result.

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