public class SomeClass{

    public static int someFunction(int a) {
        return a;

    public static void main(String[] args) {    
        Consumer<Integer> c = SomeClass::someFunction; 

I'm not getting why: Consumer<Integer> c = SomeClass::someFunction; is not producing a compilation error, since the function someFunction is a method with return value, and Consumer is representing methods with no return value

  • 5
    You can use SomeClass::someFunction as a consumer. It will happily consume an integer. You just won't be able to capture the return value. Why should it be a compile error? – khelwood Mar 8 '18 at 12:42
  • 8
    It's just like how you can call a value-bearing method as a statement and ignore the return value. (There are some methods (like List.add()) that many people don't even realize returns a value; if you couldn't convert list::add to a Consumer<T>, that would be really irritating.) – Brian Goetz Mar 8 '18 at 14:21

From the spec:

If the body of a lambda is a statement expression (that is, an expression that would be allowed to stand alone as a statement), it is compatible with a void-producing function type; any result is simply discarded.

Same is true for method references.

It's more flexible that way. Suppose it was a compiler error to not use a return value when you called a method normally - that would be incredibly annoying. You'd end up having to use fake variables you didn't care about in some cases.

public class SomeClass
    public static int someFunction(int a) {
        return a;

    public static void main(String[] args) {    
        someFunction(3); // "error" - ignoring return type
        int unused = someFunction(3); // "success"

If you want a the full formal definition of what is acceptable, see 15.13.2. Type of a Method Reference.


This is called special void compatibility rule. For example how many times have you actually cared about List#add return type? Even if it does return true/false.

Pretty much the same thing here, you can invoke a method, but ignore its result. If you re-write your consumer as a lambda expression, it makes more sense:

Consumer<Integer> c = x -> {

If I remember correctly from the JLS there are only some types that are allowed for this.

 increment/decrement operations
 method invocation
 instance creation

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