DSA using Java – Stack


DSA using Java – Stack



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Overview

Stack is kind of data structure which allows operations on data only at one end. It allows access to the last inserted data only. Stack is also called LIFO (Last In First Out) data structure and Push and Pop operations are related in such a way that only last item pushed (added to stack) can be popped (removed from the stack).

Stack Representation


Stack

We”re going to implement Stack using array in this article.

Basic Operations

Following are two primary operations of a stack which are following.

  • Push − push an element at the top of the stack.

  • Pop − pop an element from the top of the stack.

There is few more operations supported by stack which are following.

  • Peek − get the top element of the stack.

  • isFull − check if stack is full.

  • isEmpty − check if stack is empty.

Push Operation

Whenever an element is pushed into stack, stack stores that element at the top of the storage and increments the top index for later use. If storage is full then an error message is usually shown.


Push Operation


// push item on the top of the stack 
public void push(int data) {

   if(!isFull()){
      // increment top by 1 and insert data 
      intArray[++top] = data;
   }else{
      System.out.println("Cannot add data. Stack is full.");
   }      
}

Pop Operation

Whenever an element is to be popped from stack, stack retrives the element from the top of the storage and decrements the top index for later use.


Pop Operation


// pop item from the top of the stack 
public int pop() {
   // retrieve data and decrement the top by 1 
   return intArray[top--];        
}

Stack Implementation

Stack.java


package com.tutorialspoint.datastructure;

public class Stack {
   private int size;           // size of the stack
   private int[] intArray;     // stack storage
   private int top;            // top of the stack

   // Constructor 
   public Stack(int size){
      this.size = size;           
      intArray = new int[size];   //initialize array
      top = -1;                   //stack is initially empty
   }

   // Operation : Push
   // push item on the top of the stack 
   public void push(int data) {

      if(!isFull()){
         // increment top by 1 and insert data 
         intArray[++top] = data;
      }else{
         System.out.println("Cannot add data. Stack is full.");
      }      
   }

   // Operation : Pop
   // pop item from the top of the stack 
   public int pop() {
      //retrieve data and decrement the top by 1
      return intArray[top--];        
   }

   // Operation : Peek
   // view the data at top of the stack    
   public int peek() {       
      //retrieve data from the top
      return intArray[top];
   }

   // Operation : isFull
   // return true if stack is full 
   public boolean isFull(){
      return (top == size-1);
   }
   
   // Operation : isEmpty
   // return true if stack is empty 
   public boolean isEmpty(){
      return (top == -1);
   }
}

Demo Program

StackDemo.java


package com.tutorialspoint.datastructure;

public class StackDemo {
   public static void main (String[] args){

      // make a new stack
      Stack stack = new Stack(10);

      // push items on to the stack
      stack.push(3);
      stack.push(5);
      stack.push(9);
      stack.push(1);
      stack.push(12);
      stack.push(15);

      System.out.println("Element at top of the stack: " + stack.peek());
      System.out.println("Elements: ");
	  
      // print stack data 
      while(!stack.isEmpty()){
         int data = stack.pop();
         System.out.println(data);
      }
	         
      System.out.println("Stack full: " + stack.isFull());
      System.out.println("Stack empty: " + stack.isEmpty());
   }
}

If we compile and run the above program then it would produce following result −


Element at top of the stack: 15
Elements: 
15
12
1
9
5
3
Stack full: false
Stack empty: true

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