- Generics - Home
- Generics - Overview
- Generics - Environment Setup
- Examples - Generic Classes
- Generics - Generic Classes
- Type Parameter Naming Conventions
- Generics - Type inference
- Generics - Generic Methods
- Generics - Multiple Type Parameters
- Generics - Parameterized Types
- Generics - Raw Types
- Examples - Bounded Type Parameters
- Bounded Type Parameters
- Generics - Multiple Bounds
- Examples - Collections
- Generics - Generic List
- Generics - Generic Set
- Generics - Generic Map
- Examples - Wild Cards
- Upper Bounded Wildcards
- Generics - Unbounded Wildcards
- Lower Bounded Wildcards
- Generics - Guidelines for Wildcards
- Type Erasure
- Generics - Generic Types Erasure
- Generics - Bound Types Erasure
- Unbounded Types Erasure
- Generics - Generic Methods Erasure
- Restrictions on Generics
- Generics - No Primitive Types
- Generics - No Instance
- Generics - No Static field
- Generics - No Cast
- Generics - No instanceOf
- Generics - No Array
- Generics - No Exception
- Generics - No Overload
- Generics Useful Resources
- Generics - Quick Guide
- Generics - Useful Resources
- Generics - Discussion
Java Generics - Upper Bounded Wildcards
The question mark (?), represents the wildcard, stands for unknown type in generics. There may be times when you'll want to restrict the kinds of types that are allowed to be passed to a type parameter. For example, a method that operates on numbers might only want to accept instances of Number or its subclasses.
To declare a upper bounded Wildcard parameter, list the ?, followed by the extends keyword, followed by its upper bound.
Example
Following example illustrates how extends is used to specify an upper bound wildcard.
package com.tutorialspoint;
import java.util.Arrays;
import java.util.List;
public class GenericsTester {
public static double sum(List<? extends Number> numberlist){
double sum = 0.0;
for (Number n : numberlist) sum += n.doubleValue();
return sum;
}
public static void main(String args[]) {
List<Integer> integerList = Arrays.asList(1, 2, 3);
System.out.println("sum = " + sum(integerList));
List<Double> doubleList = Arrays.asList(1.2, 2.3, 3.5);
System.out.println("sum = " + sum(doubleList));
}
}
This will produce the following result −
Output
sum = 6.0 sum = 7.0
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