Stacks | Programming and Data Structures - Computer Science Engineering (CSE) PDF Download

A stack is an Abstract Data Type (ADT), commonly used in most programming languages. It is named stack as it behaves like a real-world stack, for example – a deck of cards or a pile of plates, etc.

Data Structures,GATE,CSE,ITE,Stacks

A real-world stack allows operations at one end only. For example, we can place or remove a card or plate from the top of the stack only. Likewise, Stack ADT allows all data operations at one end only. At any given time, we can only access the top element of a stack.

This feature makes it LIFO data structure. LIFO stands for Last-in-first-out. Here, the element which is placed (inserted or added) last, is accessed first. In stack terminology, insertion operation is called PUSH operation and removal operation is called POP operation.

Stack Representation

The following diagram depicts a stack and its operations −

Data Structures,GATE,CSE,ITE,Stacks

A stack can be implemented by means of Array, Structure, Pointer, and Linked List. Stack can either be a fixed size one or it may have a sense of dynamic resizing. Here, we are going to implement stack using arrays, which makes it a fixed size stack implementation.

Basic Operations

Stack operations may involve initializing the stack, using it and then de-initializing it. Apart from these basic stuffs, a stack is used for the following two primary operations −

  • push() − Pushing (storing) an element on the stack.

  • pop() − Removing (accessing) an element from the stack.

When data is PUSHed onto stack.

To use a stack efficiently, we need to check the status of stack as well. For the same purpose, the following functionality is added to stacks −

  • peek() − get the top data element of the stack, without removing it.

  • isFull() − check if stack is full.

  • isEmpty() − check if stack is empty.

At all times, we maintain a pointer to the last PUSHed data on the stack. As this pointer always represents the top of the stack, hence named top. The top pointer provides top value of the stack without actually removing it.

First we should learn about procedures to support stack functions −

peek()

Algorithm of peek() function −

begin procedure peek

return stack[top]

end procedure

Implementation of peek() function in C programming language −

Example

int peek() {
return stack[top];
}

isfull()

Algorithm of isfull() function −

begin procedure isfull

if top equals to MAXSIZE
return true
else
return false
endif

end procedure

Implementation of isfull() function in C programming language −

Example

bool isfull() {
if(top == MAXSIZE)
return true;
else
return false;
}

isempty()

Algorithm of isempty() function −

begin procedure isempty

if top less than 1
return true
else
return false
endif

end procedure

Implementation of isempty() function in C programming language is slightly different. We initialize top at -1, as the index in array starts from 0. So we check if the top is below zero or -1 to determine if the stack is empty. Here's the code −

Example

bool isempty() {
if(top == -1)
return true;
else
return false;
}

Push Operation

The process of putting a new data element onto stack is known as a Push Operation. Push operation involves a series of steps −

  • Step 1 − Checks if the stack is full.

  • Step 2 − If the stack is full, produces an error and exit.

  • Step 3 − If the stack is not full, increments top to point next empty space.

  • Step 4 − Adds data element to the stack location, where top is pointing.

  • Step 5 − Returns success.

Data Structures,GATE,CSE,ITE,Stacks

If the linked list is used to implement the stack, then in step 3, we need to allocate space dynamically.

Algorithm for PUSH Operation

A simple algorithm for Push operation can be derived as follows −

begin procedure push: stack, data

if stack is full
return null
endif

top ← top + 1

stack[top] ← data

end procedure

Implementation of this algorithm in C, is very easy. See the following code −

Example

void push(int data) {
if(!isFull()) {
top = top + 1;
stack[top] = data;
} else {
printf("Could not insert data, Stack is full.
");
}
}

Pop Operation

Accessing the content while removing it from the stack, is known as a Pop Operation. In an array implementation of pop() operation, the data element is not actually removed, instead top is decremented to a lower position in the stack to point to the next value. But in linked-list implementation, pop() actually removes data element and deallocates memory space.

A Pop operation may involve the following steps −

  • Step 1 − Checks if the stack is empty.

  • Step 2 − If the stack is empty, produces an error and exit.

  • Step 3 − If the stack is not empty, accesses the data element at which top is pointing.

  • Step 4 − Decreases the value of top by 1.

  • Step 5 − Returns success.

Data Structures,GATE,CSE,ITE,Stacks

Algorithm for Pop Operation

A simple algorithm for Pop operation can be derived as follows −

begin procedure pop: stack

if stack is empty
return null
endif

data ← stack[top]

top ← top - 1

return data

end procedure

Implementation of this algorithm in C, is as follows −

Example

int pop(int data) {

if(!isempty()) {
data = stack[top];
top = top - 1;
return data;
} else {
printf("Could not retrieve data, Stack is empty.
");
}
}
The document Stacks | Programming and Data Structures - Computer Science Engineering (CSE) is a part of the Computer Science Engineering (CSE) Course Programming and Data Structures.
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FAQs on Stacks - Programming and Data Structures - Computer Science Engineering (CSE)

1. What is a stack in computer science?
Ans. A stack is a linear data structure that follows the Last-In-First-Out (LIFO) principle, where the element that is added last will be the first one to be removed. It has two main operations, namely push (to add elements to the top) and pop (to remove elements from the top).
2. How is a stack implemented in computer science?
Ans. A stack can be implemented using an array or a linked list. In the array implementation, we maintain a variable to keep track of the top element's index, and we perform push and pop operations by updating this variable. In the linked list implementation, each node holds the data and a reference to the next node, and the top element is represented by the head node.
3. What are the applications of stacks in computer science?
Ans. Stacks have various applications in computer science. Some common uses include function call and return mechanisms in programming languages, undo and redo operations in text editors, backtracking in algorithms, and managing system resources like memory allocation and deallocation.
4. What is the time complexity of push and pop operations in a stack?
Ans. The time complexity of both push and pop operations in a stack implemented using an array or a linked list is O(1) or constant time. This means that the time taken to perform these operations does not depend on the size of the stack.
5. Can a stack be empty?
Ans. Yes, a stack can be empty. An empty stack means that there are no elements in it. When trying to pop an element from an empty stack, it will result in an underflow condition. Similarly, when trying to access the top element of an empty stack, it will result in an error. Hence, it is necessary to check if a stack is empty before performing pop or top operations.
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