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In Java 8 methods can be created as Lambda expressions and can be passed by reference (with a little work under the hood). There are plenty of examples online with lambdas being created and used with methods, but no examples of how to make a method taking a lambda as a parameter. What is the syntax for that?

MyClass.method((a, b) -> a+b);


class MyClass{
  //How do I define this method?
  static int method(Lambda l){
    return l(5, 10);
  }
}
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2  
Good question. And you are right: None of the tutorials contain that part. –  Martin May 13 '14 at 8:08

5 Answers 5

up vote 43 down vote accepted

Lambdas are purely a call-site construct: the recipient of the lambda does not need to know that a Lambda is involved, instead it accepts an Interface with the appropriate method.

In other words, you define or use a functional interface (i.e. an interface with a single method) that accepts and returns exactly what you want.

For this Java 8 comes with a set of commonly-used interface types in java.util.function (thanks to Maurice Naftalin for the hint about the JavaDoc).

For this specific use case there's java.util.function.IntBinaryOperator with a single int applyAsInt(int left, int right) method, so you could write your method like this:

static int method(IntBinaryOperator op){
    return op.applyAsInt(5, 10);
}

But you can just as well define your own interface and use it like this:

public interface TwoArgIntOperator {
    public int op(int a, int b);
}

//elsewhere:
static int method(TwoArgIntOperator operator) {
    return operator.op(5, 10);
}

Using your own interface has the advantage that you can have names that more clearly indicate the intent.

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1  
Will there be built-in interfaces to be used, or must I create an interface for every lambda I want to take? –  Marius Nov 28 '12 at 12:10
    
A good compromise to the reusability vs. descriptive name dilemma would be to extend the built in interface without overriding the method it specifies. That gives you your descriptive name with only a single additional line of code. –  Will Byrne Jun 10 at 20:22

There's a public Web-accessible version of the Lambda-enabled Java 8 JavaDocs, linked from http://lambdafaq.org/lambda-resources. (This should obviously be a comment on Joachim Sauer's answer, but I can't get into my SO account with the reputation points I need to add a comment.) The lambdafaq site (I maintain it) answers this and a lot of other Java-lambda questions.

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2  
Thanks for the link and the fact that you maintain that site! I took the liberty to add links to your public JavaDoc to my answer. –  Joachim Sauer Nov 28 '12 at 15:34
1  
As a side note: It seems you're building for Lambdas what Angelika Langer has built for Generics. Thanks for that, Java needs such resources! –  Joachim Sauer Nov 28 '12 at 15:39

To use Lambda expression you need to either create your own functional interface or use Java functional interface for operation that require two integer and return as value. IntBinaryOperator

Using user defined functional interface

interface TwoArgInterface {

    public int operation(int a, int b);
}

public class MyClass {

    public static void main(String javalatte[]) {
        // this is lambda expression
        TwoArgInterface plusOperation = (a, b) -> a + b;
        System.out.println("Sum of 10,34 : " + plusOperation.operation(10, 34));

    }
}

Using Java functional interface

import java.util.function.IntBinaryOperator;

public class MyClass1 {

    static void main(String javalatte[]) {
        // this is lambda expression
        IntBinaryOperator plusOperation = (a, b) -> a + b;
        System.out.println("Sum of 10,34 : " + plusOperation.applyAsInt(10, 34));

    }
}

Other example I have created is here

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For functions that do not have more than 2 parameters, you can pass them without defining your own interface. For example,

class Klass {
  static List<String> foo(Integer a, String b) { ... }
}

class MyClass{

  static List<String> method(BiFunction<Integer, String, List<String>> fn){
    return fn.apply(5, "FooBar");
  }
}

List<String> lStr = MyClass.method((a, b) -> Klass.foo((Integer) a, (String) b));

In BiFunction<Integer, String, List<String>>, Integer and String are its parameters, and List<String> is its return type.

For a function with only one parameter, you can use Function<T, R>, where T is its parameter type, and R is its return value type. Refer to this page for all the interfaces that are already made available by Java.

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Important thing to note about method reference is that they provide a way to refer to a method, they don't execute the method.

Method reference relates to lambda expression as they also require a target type context and at the time of execution they also create an instance of functional interface. How they differ is where lambda expressions let us define anonymous methods which can be used as an instance of functional interfaces. Method references do the same thing, but with existing methods.

One example where I have a functional interface IMyStringFunc and its implementation is provided through this method static String[] sortName(String[] names) in class SortClass and it is referred as a static method through method reference. Of course many things here, as you mentioned, are happening under the hood.

@FunctionalInterface
interface IMyStringFunc{
    String[] stringFunc(String[] names);
}

public class MethodRefDemo {
    //First param is a functional interface. Thus, it can be passed a method      reference.
    //  which becomes an instance of functional interface 
    static String[] stringMeth(IMyStringFunc sf, String[] names) {
        return sf.stringFunc(names);
    }

    public static void main(String[] args) {
         //String array of names
        String[] strNames = new String[]{"Ram", "shyam", "Ramesh", "John", "brad", 
                "Suresh"};
        // method reference to the method sortName is passed as first param
        String[] sortedNames = stringMeth(SortClass::sortName, strNames);
        for(String name : sortedNames){
            System.out.println(name);
        }
    }

}

class SortClass{
    // A static method that sorts an array
    static String[] sortName(String[] names) {
        //Sorting array using sort method (case sensitive)
        Arrays.sort(names);
        return names;
    }
}

Source : Method reference in Java 8

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