Java Streams have revolutionized the way data processing tasks are handled in Java programming. Introduced in Java 8, Streams offer a fluent and functional approach to processing collections of objects. In this guide, we'll delve into what Streams are, how they work, and provide practical examples along the way. Understanding Java Streams: Java Streams represent a sequence of elements that can be processed sequentially or in parallel. They provide a pipeline through which data can be manipulated using various operations such as filtering, mapping, sorting, and aggregating. Benefits of Java Streams: Concise and Readable Code : Streams promote a functional programming style, leading to more concise and readable code compared to traditional imperative approaches. Lazy Evaluation : Stream operations are lazily evaluated, meaning elements are processed only when necessary, improving efficiency. Parallelism : Streams can leverage parallel processing for improved performance on multicore ...
To find the second-highest salary from a list of employees using Java 8 streams, you can follow these steps: Create a list of employees with their salaries. Use Java 8 streams to sort the employees by salary in descending order. Skip the first element (which is the employee with the highest salary). Get the first element of the remaining stream (which is the employee with the second-highest salary). Example code: java import java.util.ArrayList; import java.util.List; class Employee { private String name; private double salary; public Employee (String name, double salary) { this .name = name; this .salary = salary; } public double getSalary () { return salary; } } public class SecondHighestSalary { public static void main (String[] args) { List<Employee> employees = new ArrayList <>(); employees.add( new Employee ( "John" , 60000.0 )); employees.add( new Employe...