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Note: question originally posted here, but it has since been deleted...

See this code (I know, it is absurd -- I just extracted it from the linked question):

ArrayList <Integer> list = new ArrayList<>();
for (int i = 1; i <= 20; i++)
    list.add(i);

System.out.println(list.stream().max(Integer::max).get());
System.out.println(list.stream().min(Integer::min).get());

According to the javadoc of .min() and .max(), the argument of both should be a Comparator. Yet here the method references are to static methods of the Integer class.

So, why does this compile at all?

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4 Answers 4

up vote 100 down vote accepted

Let me explain what is happening here, because it isn't obvious!

First, Stream.max() accepts an instance of Comparator so that items in the stream can be compared against each other to find the minimum or maximum, in some optimal order that you don't need to worry too much about.

So the question is, of course, why is Integer::max accepted? After all it's not a comparator!

The answer is in the way that the new lambda functionality works in Java 8. It relies on a concept which is informally known as "single abstract method" interfaces, or "SAM" interfaces. The idea is that any interface with one abstract method can be automatically implemented by any lambda - or method reference - whose method signature is a match for the one method on the interface. So examining the Comparator interface (simple version):

public Comparator<T> {
    int compare(T o1, T o2);
}

If a method is looking for a Comparator<Integer>, then it's essentially looking for this signature:

int xxx(Integer o1, Integer o2);

I use "xxx" because the method name is not used for matching purposes.

Now Math.min/max() have the following signature:

int min(int i1, int i2);

This is close enough that autoboxing will allow this to appear as a Comparator<Integer> in a method context.

Of course this isn't what you want! No matter what two numbers you give, the answer will always be the smaller/larger of the two (and if your ints are always positive like the example, this means the answer will always be positive), which will result in some major/strange problems. You should use the compare method instead:

System.out.println(list.stream().max(Integer::compare).get());
System.out.println(list.stream().min(Integer::compare).get());

which will give much more useful results.

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5  
or alternatively: list.stream().mapToInt(i -> i).max().get(). –  assylias Mar 21 at 14:49
5  
@assylias You want to use .getAsInt() instead of get() though, as you are dealing with an OptionalInt. –  skiwi Mar 21 at 14:59
    
Consider this question as an example: In theory Java 8 brings high order functions functionality, allowing us passing functions as argumments, parametrizing algorithms with functions, etc. That is, treating functions as first class entities. In practice, even the most simple example (Like this, is only a call to max passing a custom comparator) has a lot of details which should be considered (Generics on the comparison interface, callable entities are only syntactic suggar for interface contracts, boxing, etc)... –  Manu343726 Mar 22 at 9:49
    
... when what we are only trying is to provide a custom comparator to a max() function! –  Manu343726 Mar 22 at 9:50
9  
@Manu343726 That's a rather long rant that isn't relevant to this question or answer except that they both concern Java 8. If you want an actual discussion, I'd recommend going to Programmers or somewhere else on StackExchange and making a question, but it doesn't belong here. –  Chris Hayes Mar 22 at 17:26

Comparator is a functional interface, and Integer::max complies with that interface (after autoboxing/unboxing is taken into consideration). It takes two int values and returns an int - just as you'd expect a Comparator<Integer> to (again, squinting to ignore the Integer/int difference).

However, I wouldn't expect it to do the right thing, given that Integer.max doesn't comply with the semantics of Comparator.compare. And indeed it doesn't really work in general. For example, make one small change:

for (int i = 1; i <= 20; i++)
    list.add(-i);

... and now the max value is -20 and the min value is -1.

Instead, both calls should use Integer::compare:

System.out.println(list.stream().max(Integer::compare).get());
System.out.println(list.stream().min(Integer::compare).get());
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1  
I know about the functional interfaces; and I know why it gives the wrong results. I just wonder how on earth the compiler didn't yell at me –  fge Mar 21 at 14:39
4  
@fge: Well was it the unboxing you were unclear about? (I haven't looked into exactly that part.) A Comparator<Integer> would have int compare(Integer, Integer)... it's not mind-boggling that Java allows a method reference of int max(int, int) to convert to that... –  Jon Skeet Mar 21 at 14:40
4  
@fge: Is the compiler supposed to know the semantics of Integer::max? From its perspective you passed in a function that met its specification, that's all it can really go on. –  Mark Peters Mar 21 at 14:40
3  
@fge: In particular, if you understand part of what's going on, but are intrigued about one specific aspect of it, it's worth making that clear in the question to avoid people wasting their time explaining the bits you already know. –  Jon Skeet Mar 21 at 14:44
4  
I think the underlying problem is the type signature of Comparator.compare. It should return an enum of {LessThan, GreaterThan, Equal}, not an int. That way, the functional interface wouldn't actually match and you would get a compile error. IOW: the type signature of Comparator.compare doesn't adequately capture the semantics of what it means to compare two objects, and thus other interfaces which have absolutely nothing to do with comparing objects accidentally have the same type signature. –  Jörg W Mittag Mar 22 at 15:39

This works because Integer::min resolves to an implementation of the Comparable<Integer> interface.

The method reference of Integer::min resolves to Integer.min(int a, int b), resolved to IntBinaryOperator, and presumably autoboxing occurs somewhere making it a BinaryOperator<Integer>.

And the min() resp max() methods of the Stream<Integer> ask the Comparable<Integer> interface to be implemented.
Now this resolves to the single method Integer compareTo(Integer o1, Integer o2). Which is of type BinaryOperator<Integer>.

And thus the magic has happened as both methods are a BinaryOperator<Integer>.

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It's not entirely correct to say that Integer::min implements Comparable. It is not a type that can implement anything. But it is evaluated into an object which implements Comparable. –  Lii Apr 2 at 10:54
1  
@Lii Thanks, I fixed it just now. –  skiwi Apr 2 at 10:55

Apart from the information given by David M. Lloyd one could add that the mechanism that allows this is called target typing.

The idea is that the type the compiler assigns to a lambda expressions or a method references does not depend only on the expression itself, but also on where it is used.

The target of an expression is the variable to which its result is assigned or the parameter to which its result is passed.

Lambda expressions and method references are assigned a type which matches the type of their target, if such a type can be found.

See the Type Inference section in the Java Tutorial for more information.

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