Generic Class in Java
Last Updated :
19 Jul, 2023
Java Generics was introduced to deal with type-safe objects. It makes the code stable.Java Generics methods and classes, enables programmer with a single method declaration, a set of related methods, a set of related types. Generics also provide compile-time type safety which allows programmers to catch invalid types at compile time. Generic means parameterized types. Using generics, the idea is to allow any data type to be it Integer, String, or any user-defined Datatype and it is possible to create classes that work with different data types.
A Generic class simply means that the items or functions in that class can be generalized with the parameter(example T) to specify that we can add any type as a parameter in place of T like Integer, Character, String, Double or any other user-defined type.
Example: Single type parameter
class Solution<T>
{
T data;
public static T getData(){
return data;
}
}
Example: Multiple type parameters
public class Pair<K, V> {
private K key;
private V value;
public Pair(K key, V value) {
this.key = key;
this.value = value;
}
public K getKey() { return key; }
public V getValue() { return value; }
}
Here in this example, we can use the object or instance of this class as many times with different Parameters as T type. If we want the data to be of int type, the T can be replaced with Integer, and similarly for String, Character, Float, or any user-defined type. The declaration of a generic class is almost the same as that of a non-generic class except the class name is followed by a type parameter section. The type parameter section of a generic class can have one or more type parameters separated by commas.
We can write a single generic method declaration that can be called with arguments of different types. Based on the types of arguments passed to the generic method, the compiler handles each method call appropriately. Following are the rules to define Generic Methods
- All generic method declarations have a type parameter section indicated by angle brackets <> that precedes the method’s return type.
- Each type parameter section can contain one or more type parameters separated by commas. A type parameter or a type variable is an identifier that specifies a generic type name.
- The type parameters can be used to declare the return type which is known as actual type arguments.
- A generic method’s body is declared like that of any non-generic method. The point to be noted is that type parameter can represent only reference types, and not primitive types (like int, double, and char).
Advantages of Java Generics
1. Type-Safety: One can hold only a single type of objects in generics.
2. Type Casting Is Not Required: There is no need to typecast.
Example:
Before Generics
List l= new ArrayList();
l.add("India");
String s = (String) l.get(0); // typecasting
After Generics, typecasting of the object is not required
List<String> l = new ArrayList<String>();
l.add("hello");
String s = l.get(0);
3. Compile -Time Checking: It checks all the errors of datatype related to generics at the time of compile-time so the issue will not occurat the time of runtime.
List<String> list = new ArrayList<String>();
list.add("hello");
list.add(32); //Compile Time Error
For an instance of Generic class
BaseType <Type> object = new BaseType <Type>();
Note: In parameter Type, we cannot use primitives like int, char, float, etc.
Example:
Java
public class Area<T> {
private T t;
public void add(T t)
{
this.t = t;
}
public T get() { return t; }
public void getArea() {}
public static void main(String[] args)
{
Area<Integer> rectangle = new Area<Integer>();
Area<Double> circle = new Area<Double>();
rectangle.add(10);
circle.add(2.5);
System.out.println(rectangle.get());
System.out.println(circle.get());
}
}
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