A Pair is a Tuple from JavaTuples library that deals with 2 elements. Since this Pair is a generic class, it can hold any type of value in it.
Since Pair is a Tuple, hence it also has all the characteristics of JavaTuples:
- They are Typesafe
- They are Immutable
- They are Iterable
- They are Serializable
- They are Comparable (implements Comparable<Tuple>)
- They implement equals() and hashCode()
- They also implement toString()
Class Declaration
public final class Pair<A, B> extends Tuple
implements IValue0<A>, IValue1<B>
Class hierarchy
Object
↳ org.javatuples.Tuple
↳ org.javatuples.Pair<A, B>
Creating Pair Tuple
- From Constructor:
Syntax:
Pair<A, B> pair = new Pair<A, B>(value1, value2);
Example:
Java
// Below is a Java program to create// a Pair tuple from Constructorimport java.util.*;import org.javatuples.Pair;class GfG { public static void main(String[] args) { Pair<Integer, String> pair = new Pair<Integer, String>(Integer.valueOf(1), "Lazyroar"); System.out.println(pair); }} |
Output:
[1, Lazyroar]
- Using with() method: The with() method is a function provided by the JavaTuples library, to instantiate the object with such values.
Syntax:
Pair<type1, type2> pair = Pair.with(value1, value2);
Example:
Java
// Below is a Java program to create// a Pair tuple from with() methodimport java.util.*;import org.javatuples.Pair;class GfG { public static void main(String[] args) { Pair<Integer, String> pair = Pair.with(Integer.valueOf(1), "Lazyroar"); System.out.println(pair); }} |
Output:
[1, Lazyroar]
- From other collections: The fromCollection() method is used to create a Tuple from a collection, and fromArray() method is used to create from an array. The collection/array must have the same type as of the Tuple and the number of values in the collection/array must match the Tuple class.
Syntax:
Pair<type1, type2> pair = Pair.fromCollection(collectionWith_2_value); Pair<type1, type2> pair = Pair.fromArray(arrayWith_2_value);
Example:
Java
// Below is a Java program to create// a Pair tuple from Collectionimport java.util.*;import org.javatuples.Pair;class GfG { public static void main(String[] args) { // Creating Pair from List List<String> list = new ArrayList<String>(); list.add("Lazyroar"); list.add("A computer portal"); Pair<Strin, String> pair = Pair.fromCollection(list); // Creating Pair from Array String[] arr = { "Lazyroar", "A computer portal" }; Pair<String, String> otherPair = Pair.fromArray(arr); System.out.println(pair); System.out.println(otherPair); }} |
Output:
[Lazyroar, A computer portal] [Lazyroar, A computer portal]
Getting Value
The getValueX() method can be used to fetch the value in a Tuple at index X. The indexing in Tuples start with 0. Hence the value at index X represents the value at position X+1.
Syntax:
Pair<type1, type2> pair =
new Pair<type1, type2>(value1, value2);
type1 val1 = pair.getValue0();
Example:
Java
// Below is a Java program to get// a Pair valueimport java.util.*;import org.javatuples.Pair;class GfG { public static void main(String[] args) { Pair<Integer, String> pair = Pair.with(Integer.valueOf(1), "Lazyroar"); System.out.println(pair.getValue0()); }} |
Output:
1
Setting Pair Value
Since the Tuples are immutable, it means that modifying a value at an index is not possible. Hence, JavaTuples offer setAtX(value) which creates a copy of the Tuple with a new value at index X, and returns that Tuple.
Syntax:
Pair<type1, type2> pair =
new Pair<type1, type2>(value1, value2);
type1 val1 = pair.getValue0();
Example:
Java
// Below is a Java program to set// a Pair valueimport java.util.*;import org.javatuples.Pair;class GfG { public static void main(String[] args) { Pair<Integer, String> pair = Pair.with(Integer.valueOf(1), "Lazyroar"); Pair<Integer, String> otherPair = pair.setAt1("A computer portal"); System.out.println(otherPair); }} |
Output:
[1, A computer portal]
Adding a Value
Adding a value can be done with the help of addAtX() method, where X represents the index at which the value is to be added. This method returns a Tuple of element one more than the called Tuple.
Syntax:
Pair<type1, type2> pair =
new Pair<type1, type2>(value1, value2);
Triplet<type 1, type 2, type 3> pair =
pair.addAt2(value 2);
Example:
Java
// Below is a Java program to add// a valueimport java.util.*;import org.javatuples.Pair;import org.javatuples.Triplet;class GfG { public static void main(String[] args) { Pair<Integer, String> pair = Pair.with(Integer.valueOf(1), "Lazyroar"); Triplet<Integer, String, String> triplet = pair.addAt2("A computer portal"); System.out.println(triplet); }} |
Output:
[1, Lazyroar, A computer portal]
Searching in Pair
An element can be searched in a tuple with the pre-defined method contains(). It returns a boolean value whether the value is present or not.
Syntax:
Pair<type1, type2> pair =
new Pair<type1, type2>(value1, value2);
boolean res = pair.contains(value2);
Example:
Java
// Below is a Java program to search// a valueimport java.util.*;import org.javatuples.Pair;class GfG { public static void main(String[] args) { Pair<Integer, String> pair = Pair.with(Integer.valueOf(1), "Lazyroar"); boolean exist = pair.contains("Lazyroar"); boolean exist1 = pair.contains(4); System.out.println(exist); System.out.println(exist1); }} |
Output:
true false
Iterating through Pair
Since Pair implement the Iterable<Object> interface. It means that they can be iterated in the same way as collections or arrays.
Syntax:
Pair<type1, type2> pair =
new Pair<type1, type2>(value1, value2);
for (Object item : pair) {
...
}
Example:
Java
// Below is a Java program to iterate// a Pairimport java.util.*;import org.javatuples.Pair;class GfG { public static void main(String[] args) { Pair<Integer, String> pair = Pair.with(Integer.valueOf(1), "Lazyroar"); for (Object item : pair) System.out.println(item); }} |
Output:
1 Lazyroar
