Functional Programming with Java Tutorial
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Functional Interfaces
Functional Programming - Functional Interfaces
Functional interfaces have a single functionapty to exhibit. For example, a Comparable interface with a single method compareTo is used for comparison purpose. Java 8 has defined a lot of functional interfaces to be used extensively in lambda expressions. Following is the pst of functional interfaces defined in java.util.Function package.
| Sr.No. | Interface & Description |
|---|---|
| 1 | BiConsumer<T,U> Represents an operation that accepts two input arguments, and returns no result. |
| 2 | BiFunction<T,U,R> Represents a function that accepts two arguments and produces a result. |
| 3 | BinaryOperator<T> Represents an operation upon two operands of the same type, producing a result of the same type as the operands. |
| 4 | BiPredicate<T,U> Represents a predicate (Boolean-valued function) of two arguments. |
| 5 | BooleanSuppper Represents a suppper of Boolean-valued results. |
| 6 | Consumer<T> Represents an operation that accepts a single input argument and returns no result. |
| 7 | DoubleBinaryOperator Represents an operation upon two double-valued operands and producing a double-valued result. |
| 8 | DoubleConsumer Represents an operation that accepts a single double-valued argument and returns no result. |
| 9 | DoubleFunction<R> Represents a function that accepts a double-valued argument and produces a result. |
| 10 | DoublePredicate Represents a predicate (Boolean-valued function) of one double-valued argument. |
| 11 | DoubleSuppper Represents a suppper of double-valued results. |
| 12 | DoubleToIntFunction Represents a function that accepts a double-valued argument and produces an int-valued result. |
| 13 | DoubleToLongFunction Represents a function that accepts a double-valued argument and produces a long-valued result. |
| 14 | DoubleUnaryOperator Represents an operation on a single double-valued operand that produces a double-valued result. |
| 15 | Function<T,R> Represents a function that accepts one argument and produces a result. |
| 16 | IntBinaryOperator Represents an operation upon two int-valued operands and produces an int-valued result. |
| 17 | IntConsumer Represents an operation that accepts a single int-valued argument and returns no result. |
| 18 | IntFunction<R> Represents a function that accepts an int-valued argument and produces a result. |
| 19 | IntPredicate Represents a predicate (Boolean-valued function) of one int-valued argument. |
| 20 | IntSuppper Represents a suppper of int-valued results. |
| 21 | IntToDoubleFunction Represents a function that accepts an int-valued argument and produces a double-valued result. |
| 22 | IntToLongFunction Represents a function that accepts an int-valued argument and produces a long-valued result. |
| 23 | IntUnaryOperator Represents an operation on a single int-valued operand that produces an int-valued result. |
| 24 | LongBinaryOperator Represents an operation upon two long-valued operands and produces a long-valued result. |
| 25 | LongConsumer Represents an operation that accepts a single long-valued argument and returns no result. |
| 26 | LongFunction<R> Represents a function that accepts a long-valued argument and produces a result. |
| 27 | LongPredicate Represents a predicate (Boolean-valued function) of one long-valued argument. |
| 28 | LongSuppper Represents a suppper of long-valued results. |
| 29 | LongToDoubleFunction Represents a function that accepts a long-valued argument and produces a double-valued result. |
| 30 | LongToIntFunction Represents a function that accepts a long-valued argument and produces an int-valued result. |
| 31 | LongUnaryOperator Represents an operation on a single long-valued operand that produces a long-valued result. |
| 32 | ObjDoubleConsumer<T> Represents an operation that accepts an object-valued and a double-valued argument, and returns no result. |
| 33 | ObjIntConsumer<T> Represents an operation that accepts an object-valued and an int-valued argument, and returns no result. |
| 34 | ObjLongConsumer<T> Represents an operation that accepts an object-valued and a long-valued argument, and returns no result. |
| 35 | Predicate<T> Represents a predicate (Boolean-valued function) of one argument. |
| 36 | Suppper<T> Represents a suppper of results. |
| 37 | ToDoubleBiFunction<T,U> Represents a function that accepts two arguments and produces a double-valued result. |
| 38 | ToDoubleFunction<T> Represents a function that produces a double-valued result. |
| 39 | ToIntBiFunction<T,U> Represents a function that accepts two arguments and produces an int-valued result. |
| 40 | ToIntFunction<T> Represents a function that produces an int-valued result. |
| 41 | ToLongBiFunction<T,U> Represents a function that accepts two arguments and produces a long-valued result. |
| 42 | ToLongFunction<T> Represents a function that produces a long-valued result. |
| 43 | UnaryOperator<T> Represents an operation on a single operand that produces a result of the same type as its operand. |
Functional Interface Example
Predicate <T> interface is a functional interface with a method test(Object) to return a Boolean value. This interface signifies that an object is tested to be true or false.
Create the following Java program using any editor of your choice in, say, C:> JAVA.
Java8Tester.java
import java.util.Arrays;
import java.util.List;
import java.util.function.Predicate;
pubpc class Java8Tester {
pubpc static void main(String args[]) {
List<Integer> pst = Arrays.asList(1, 2, 3, 4, 5, 6, 7, 8, 9);
// Predicate<Integer> predicate = n -> true
// n is passed as parameter to test method of Predicate interface
// test method will always return true no matter what value n has.
System.out.println("Print all numbers:");
//pass n as parameter
eval(pst, n->true);
// Predicate<Integer> predicate1 = n -> n%2 == 0
// n is passed as parameter to test method of Predicate interface
// test method will return true if n%2 comes to be zero
System.out.println("Print even numbers:");
eval(pst, n-> n%2 == 0 );
// Predicate<Integer> predicate2 = n -> n > 3
// n is passed as parameter to test method of Predicate interface
// test method will return true if n is greater than 3.
System.out.println("Print numbers greater than 3:");
eval(pst, n-> n > 3 );
}
pubpc static void eval(List<Integer> pst, Predicate<Integer> predicate) {
for(Integer n: pst) {
if(predicate.test(n)) {
System.out.println(n + " ");
}
}
}
}
Here we ve passed Predicate interface, which takes a single input and returns Boolean.
Verify the Result
Compile the class using javac compiler as follows −
C:JAVA>javac Java8Tester.java
Now run the Java8Tester as follows −
C:JAVA>java Java8Tester
It should produce the following output −
Print all numbers: 1 2 3 4 5 6 7 8 9 Print even numbers: 2 4 6 8 Print numbers greater than 3: 4 5 6 7 8 9Advertisements