# Stream.max(Integer::max) : Unexpected result [duplicate]

I'm studying for 1z0-809 : Java SE 8 Programmer II using Enthuware's mocktests.

Encountering this question.

``````List<Integer> ls = Arrays.asList(3,4,6,9,2,5,7);

System.out.println(ls.stream().reduce(Integer.MIN_VALUE, (a, b)->a>b?a:b)); //1
System.out.println(ls.stream().max(Integer::max).get()); //2
System.out.println(ls.stream().max(Integer::compare).get()); //3
System.out.println(ls.stream().max((a, b)->a>b?a:b)); //4
``````

Which of the above statements will print 9?

1 and 3

But there is something else. I don't get why

``````System.out.println(ls.stream().max(Integer::max).get()); // PRINTS 3
``````

I tried to debug it using `peek` but it doesn't help me understanding.

I tried to sort `ls` using `Integer::max` and `Integer::compare`

``````ls.sort(Integer::max);     // [3, 4, 6, 9, 2, 5, 7]
ls.sort(Integer::compare); // [2, 3, 4, 5, 6, 7, 9]
``````

Of course, I get the fact that `Integer::max` is not a Comparator, hence it has the same signature of one. For me, `max` should be `7` in the first case since it is the last element like when I sorted with `Integer::compare`

Could someone break it down to something simple?

• I did not get how `stream.max` worked while given a `Comparator`. That's a bit different Mar 20 '16 at 20:21
• How is it different at all? As long as the comparator obeys the contract...
– fge
Mar 20 '16 at 20:22
• @fge This one does not obey the contract. That's why it is confusing. Check Tunaki's answer. Mar 20 '16 at 20:23
• But you said it yourself: `Integer::max` is not a comparator. So what is the problem? Note that the runtime mechanism only checks whether the signature matches; it won't check the "correctness of behavior" (it cannot, really).
– fge
Mar 20 '16 at 20:28
• @fge First of all, there is no problem. I was curious about why the result was 3. I didn't say it was a correct comparaison. I didn't even speak about the correctness of the behavior at all since the correct answer wasn't 2, it was 1 and 3. I just wanted to know WHY the output was 3 and HOW did it become 3. :) That's it. Mar 20 '16 at 20:31

`Integer.max(a, b)` will return the greater value of the given `a` and `b`. If you use that result somehow as a comparator, a positive value returned will be regarded as meaning that `a > b` so `a` will be kept.

The first two elements are 3 and 4. Both are positive. `Integer.max(3, 4) = 4 > 0`. So you're effectively saying that `3 > 4` with such a comparator, so 3 is kept. Then, the same goes for the rest: `Integer.max(3, 6) = 6 > 0`, so 3 is considered the max, etc.

• Thank you very much that's what I needed ! So it keeps the max of the previous ones in memory and goes on the next ones until the end. Mar 20 '16 at 20:17
• Actually the result of this case is unspecified. You're feeding the `.max` with broken comparator, so you can get any result. It's not specified how exactly `.max` will compare the input. Mar 21 '16 at 5:44
• @TagirValeev Isn't it possible to predict the output? Mar 21 '16 at 13:36
• @YassinHajaj, it's possible looking into concrete implementation. But you cannot guarantee that next java update (even minor) will not change the implementation. Mar 21 '16 at 14:13

You need to replace

``````.max(Integer::max)
``````

with

``````.max(Integer::compare)
``````

The problem here is that the abstract method `compare` is declared to return an `int` value and that is also satisfied by the signature of `Integer.max` along with method `Integer.compare` in the `Integer` class, hence the representation `Integer::max` is inferred as a valid `Comparator`. Though the compare method is expected to be implemented such as it:

Returns a negative integer, zero, or a positive integer as the first argument is less than, equal to, or greater than the second.

In your current scenario, the code always ends up returning a positive value (given the input) and therefore the first element in comparison is considered to be greater always and thus returned accordingly.

• Instead of `.max(Integer::compare)`, I’d use `.max(Comparator.naturalOrder())`, to avoid the redundant creation of a new `Comparator`. Or use `int i = map.keySet().stream() .mapToInt(Integer::parseInt) .max() .getAsInt();` in the first place… Nov 18 '19 at 9:45

The contract of a comparator method (on arguments `first`, `second`) is:

• return 0 if `first` equals `second`
• return negative value if `first < second`
• return positive value if `first > second`

The `max` method with only positive values will always return a positive value. When interpreting the return value according to the comparator contract, a positive value means `first > second`. As a result, the ordering of items will not change, they appear to be "ordered".

This is unbelievably confusing.

We are trying use `Integer::max` as a comparator. Since all the numbers in the question are positive, the answer is always interpreted as meaning that the first argument of `compare(a, b)` is "greater" than the second.

One quirk of `Collections.sort` is that when you have a list `[a, b]`, the method is programmed in such a way that it is `compare(b, a)` that is called, rather than `compare(a, b)` (which would seem more sensible). Hence if `compare` returns a positive number, it looks like `b > a`, so the list does not need sorting.

That is why `list.sort` does nothing.

However it just happens that `Stream.max` is programmed the other way around, i.e. the first comparison is `compare(3, 4)`, so it looks like `3` is the maximum.

• This has nothing to do with the problem at all. Comparison is a qualitative operation, not a quantitative operation. If I compare 234 to 2, the result of the comparison may be 232, 1, 99392 or 98; it does not matter. And neither does the order in which arguments are called.
– fge
Mar 20 '16 at 20:18
• @fge It does matter, because `max` does not meet the contract for `compare`. Imagine you try to sort [a, b]. If you do compare(a, b) and get a positive answer, it means that a > b so you need to swap. If you do compare(b, a) and get a positive answer it means that b > a so you do not need to swap. I can assure you that I am correct. Mar 20 '16 at 20:21
• @PaulBoddington Thanks for the answer ! It is indeed really confusing. Was just curious about the result :). Mar 20 '16 at 20:26

Although this doesn't answer the question, a possible solution to your problem would be:

``````try{
int i = map.values().stream().mapToInt(e -> e).max().getAsInt();
}catch(NoSuchElementException e)
e.printStackTrace();
}
``````

The `mapToInt(e -> e)` method uses a lambda expression to transform every element in the stream to a integer value and returns a `IntStream` where `max()` method can then be called. Note that `max()` returns an `OptionalInteger` and so a `getAsInt()` or a `orElse(0)` method call is nedeed.

You can take a look at the docs for a more in-depth answer: IntStream, OptionalInt

• Fine solution.Another option is `String maxId = Collections.max(map.keySet(), Comparator.comparingInt(Integer::parseInt));`. Nov 16 '19 at 19:04