16

I was trying to assign a lambda to Object type:

Object f = ()->{};

And it gives me error saying:

 The target type of this expression must be a functional interface

Why is this happening, and how to do this?

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  • 11
    What method would be defined by this lambda? Nov 9, 2014 at 12:42

2 Answers 2

19

It's not possible. As per the error message Object is not a functional interface, that is an interface with a single public method so you need to use a reference type that is, e.g.

Runnable r = () -> {}; 
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    True, but of course you can assign any object to an Object variable if you really think you want it. Object f = (Runnable) () -> {}. Nov 9, 2014 at 13:09
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    @MichałPolitowski u should have answered... but why casting is necessary here?
    – SwiftMango
    Nov 13, 2014 at 6:43
  • @texasbruce without the cast the target type is just Object
    – Reimeus
    Nov 13, 2014 at 10:39
15

This happens because there is no "lambda type" in the Java language.

When the compiler sees a lambda expression, it will try to convert it to an instance of the functional interface type you are trying to target. It's just syntax sugar.

The compiler can only convert lambda expressions to types that have a single abstract method declared. This is what it calls as "functional interface". And Object clearly does not fit this.

If you do this:

Runnable f = (/*args*/) -> {/*body*/};

Then Java will be able to convert the lambda expression to an instance of an anonymous class that extends Runnable. Essentially, it is the same thing as writing:

Runnable f = new Runnable() {
    public void run(/*args*/) {
        /*body*/
    }
};

I've added the comments /*args*/ and /*body*/ just to make it more clear, but they aren't needed.

Java can infer that the lamba expression must be of Runnable type because of the type signature of f. But, there is no "lambda type" in Java world.

If you are trying to create a generic function that does nothing in Java, you can't. Java is 100% statically typed and object oriented.

There are some differences between anonymous inner classes and lambdas expressions, but you can look to them as they were just syntax sugar for instantiating objects of a type with a single abstract method.

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    Not quite just syntax sugar. In Java, a lambda is more efficient than creating an anonymous class. Nov 9, 2014 at 13:05
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    @Thiago Negri: There are differences “in terms of coding”. First, the meaning of this and super is entirely different. Second, you are not allowed to use lambda parameter names which would hide local variables while method parameters may. Third, using _ (a single underscore) as lambda parameter name will generate an error while you get away with a warning in an inner class. And, of course, anonymous inner classes may extend non-interface classes and have fields and more than one method, etc. Just to name some differences.
    – Holger
    Nov 10, 2014 at 9:58
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    @Holger: I didn't know. Thanks for pointing it out. I've edited the answer to reflect that. Nov 10, 2014 at 11:23
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    @Holger: "First, the meaning of this and super is entirely different." Yes, but nobody said that the stuff inside cannot be simplified as part of the syntactic sugar. Where this or super is used in a lambda, it is the same as OuterClass.this or OuterClass.super in an inner class. "Second, you are not allowed... Third, using _ ..." A lambda is a syntactic sugar for an anonymous class, meaning a lambda can be written as an anonymous class; not that an anonymous class can necessarily be written as a lambda.
    – newacct
    Nov 10, 2014 at 23:33
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    @newacct: you can formulate an inner class being semantically equivalent, that’s not the question. You can even formulate equivalent code without an inner class, however, the point is that the transformation is not as easy as it has been written in this answer. Given the amount of differences on source level and that it works entirely different on the low level, the big question is why it is considered to be syntactic sugar of inner classes. Actually, you may consider both, inner classes and lambda expressions as syntactic sugar for top level classes with certain characteristics.
    – Holger
    Nov 11, 2014 at 9:29

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