iterative logic

C Program To Find nPr Factorial

Lets write a C Program to Find nPr Factorial for the user input values of n and r.

In this video tutorial we are showing iterative logic, recursive logic and how to write single line of code for getting factorial using recursion and ternary/conditional operator.

Formula To Calculate nPr Factorial

ⁿP_r = n! / (n-r)!;

Definition:

The number of possibilities for choosing an ordered set of r objects(a permutation) from a total of n objects.

Very Important Note: n value should always be greater than value of r. Because, for example, we can get 2 out of 6. But we can’t get 6 out of 2. i.e., the main set should always be greater than the subset.

Example:

Lets assume that there are 3 people in a park. Let their names be A, B and C. There are only 2 seats available to sit. So the possible ways for people to sit over the seat using permutation are {AB, AC, BA, BC, CA, CB}. In our example, we have 3 people, so n = 3. And we have 2 seats available, so r = 2. Finally we get 6 objects/permutation in a set, so nPr is 6, when n = 3 and r = 2.

Factorial Definition: Factorial of a positive integer n, denoted by n!, is the product of all positive integers less than or equal to n.

Important Note: By convention, Factorial of 0 is 1. i.e., 0! = 1.

Example: 5! = 5 x 4 x 3 x 2 x 1 which is equal to 120. i.e., 5! = 120.

Related Read:
C Program To Find nCr Factorial

Video Tutorial: C Program To Find nPr Factorial

[youtube https://www.youtube.com/watch?v=KPPHJ8yZRdk]

YouTube Link: https://www.youtube.com/watch?v=KPPHJ8yZRdk [Watch the Video In Full Screen.]

Source Code: C Program To Find nPr Factorial

#include<stdio.h>

int factorial(int);

int main()
{
    int n, r;
    float npr;

    printf("Enter a positive value for n and r\n");
    scanf("%d%d", &n, &r);

    npr = factorial(n) / factorial(n - r);

    printf("\nnPr Factorial of %d and %d is %0.2f.\n", n, r, npr);

    return 0;
}

int factorial(int num)
{
    int fact = 1, count;

    for(count = 1; count <= num; count++)
    {
        fact = fact * count;
    }
    return(fact);
}

Output 1:
Enter positive integer value for n and r
3
2

nPr Factorial of 3 and 2 is 6.00

Output 2:
Enter positive integer value for n and r
6
2

nPr Factorial of 6 and 2 is 30.00

Source Code: C Program To Find nPr Factorial using Recursion

#include<stdio.h>

int factorial(int);

int main()
{
    int n, r;
    float npr;

    printf("Enter positive integer value for n and r\n");
    scanf("%d%d", &n, &r);

    npr = factorial(n) / factorial(n-r);

    printf("\nnPr Factorial of %d and %d is %0.2f\n", n, r, npr);

    return 0;
}

int factorial(int num)
{
    if(num)
        return(num * factorial(num - 1));
    else
        return 1;
}

Output 1:
Enter positive integer value for n and r
3
2

nPr Factorial of 3 and 2 is 6.00

Output 2:
Enter positive integer value for n and r
6
2

nPr Factorial of 6 and 2 is 30.00

Source Code: C Program To Find nPr Factorial using Recursion and Ternary or Conditional Operator

#include<stdio.h>

int factorial(int);

int main()
{
    int n, r;
    float npr;

    printf("Enter positive integer value for n and r\n");
    scanf("%d%d", &n, &r);

    npr = factorial(n) / factorial(n-r);

    printf("\nnPr Factorial of %d and %d is %0.2f\n", n, r, npr);

    return 0;
}

int factorial(int num)
{
  return( (num != 0) ? (num * factorial(num - 1)) : 1);
}

Output 1:
Enter positive integer value for n and r
3
2

nPr Factorial of 3 and 2 is 6.00

Output 2:
Enter positive integer value for n and r
6
2

nPr Factorial of 6 and 2 is 30.00

Logic To Find nPr Factorial of n and r

We ask the user to input positive integer value for n and r. We then make use of nPr formula to get the nPr value.

To find Factorial logic, please visit the links present below in “Related Read” section below:

We have separate short videos explaining the iterative logic, recursive logic to find factorial of a user input number.

For list of all c programming interviews / viva question and answers visit: C Programming Interview / Viva Q&A List

For full C programming language free video tutorial list visit:C Programming: Beginner To Advance To Expert

C Program To Find nCr Factorial

Lets write a C Program to Find nCr Factorial for the user input values of n and r.

In this video tutorial we are showing iterative logic, recursive logic and how to write single line of code for getting factorial using recursion and ternary/conditional operator.

Formula To Calculate nCr Factorial

ⁿC_r = n! / (r! * (n-r)!);

Definition:

The number of different, unordered combination of r objects from a set of n objects is called ⁿC_r Factorial of n and r.

Example:

Lets assume that there are 3 people in a park. Let their names be A, B and C. There are only 2 seats available to sit. So the possible ways for people to sit over the seat using combination are {AB, AC, BC}. Since ⁿC_r is unordered combination AB and BA are considered same, so we use only one of them in our set. So in our example, we have 3 people, so n = 3. And we have 2 seats available, so r = 2. Finally we get 3 objects/combination in a set, so nCr is 3, when n = 3 and r = 2.

Factorial Definition: Factorial of a positive integer n, denoted by n!, is the product of all positive integers less than or equal to n.

Important Note: By convention, Factorial of 0 is 1. i.e., 0! = 1.

Example: 5! = 5 x 4 x 3 x 2 x 1 which is equal to 120. i.e., 5! = 120.

Video Tutorial: C Program To Find nCr Factorial

[youtube https://www.youtube.com/watch?v=s9fF8aSfQwg]

YouTube Link: https://www.youtube.com/watch?v=s9fF8aSfQwg [Watch the Video In Full Screen.]

Source Code: C Program To Find nCr Factorial

#include<stdio.h>

int factorial(int);

int main()
{
    int n, r;
    float ncr;

    printf("Enter a positive value for n and r\n");
    scanf("%d%d", &n, &r);

    ncr = factorial(n) / ( factorial(r) * factorial(n - r) );

    printf("\nnCr Factorial of %d and %d is %0.2f.\n", n, r, ncr);

    return 0;
}

int factorial(int num)
{
    int fact = 1, count;

    for(count = 1; count <= num; count++)
    {
        fact = fact * count;
    }
    return(fact);
}

Output 1:
Enter a positive value for n and r
3
2

nCr Factor of 3 and 2 is 3.00.

Output 2:
Enter a positive value for n and r
6
2

nCr Factor of 6 and 2 is 15.00.

Source Code: C Program To Find nCr Factorial using Recursion

#include<stdio.h>

int factorial(int);

int main()
{
    int n, r;
    float ncr;

    printf("Enter a positive value for n and r\n");
    scanf("%d%d", &n, &r);

    ncr = factorial(n) / ( factorial(r) * factorial(n - r) );

    printf("\nnCr Factorial of %d and %d is %0.2f.\n", n, r, ncr);

    return 0;
}

int factorial(int num)
{
    if(num)
        return(num * factorial(num-1));
    else
        return 1;
}

Output 1:
Enter a positive value for n and r
3
2

nCr Factor of 3 and 2 is 3.00.

Output 2:
Enter a positive value for n and r
6
2

nCr Factor of 6 and 2 is 15.00.

Source Code: C Program To Find nCr Factorial using Recursion and Ternary or Conditional Operator

#include<stdio.h>

int factorial(int);

int main()
{
    int n, r;
    float ncr;

    printf("Enter a positive value for n and r\n");
    scanf("%d%d", &n, &r);

    ncr = factorial(n) / ( factorial(r) * factorial(n - r) );

    printf("\nnCr Factorial of %d and %d is %0.2f.\n", n, r, ncr);

    return 0;
}

int factorial(int num)
{
  return( (num != 0) ? num * factorial(num-1) : 1);
}

Output 1:
Enter a positive value for n and r
3
2

nCr Factor of 3 and 2 is 3.00.

Output 2:
Enter a positive value for n and r
6
2

nCr Factor of 6 and 2 is 15.00.

Logic To Find nCr Factorial of n and r

We ask the user to input positive integer value for n and r. We then make use of nCr formula to get the nCr value.

To find Factorial logic, please visit the links present below in “Related Read” section.

We have separate short videos explaining the iterative logic, recursive logic to find factorial of a user input number.

For list of all c programming interviews / viva question and answers visit: C Programming Interview / Viva Q&A List

For full C programming language free video tutorial list visit:C Programming: Beginner To Advance To Expert

C Program To Convert Decimal To Binary Number using Recursion

A positive integer is entered through the keyboard, write a function to find the Binary equivalent of this number:

(1) Without using recursion.
(2) Using recursion.

Analyze The Problem Statement

We need to convert the user input Decimal number to its equivalent Binary number using iterative logic as well as recursive logic.

In this video tutorial, we’ll write 2 functions. One for iterative logic and another for recursive logic.

Expected Input/Output

Enter a Decimal number
14

Iterative Logic
Binary Equivalent of 14 is 1110.

Recursive Logic
Binary Equivalent of 14 is 11110.

Note: Binary number system can be derived by base 2 to the power of whole numbers.

Binary Number System

Explanation:

If user enters num = 14

We keep on dividing and modulo dividing the number by 2.

14 / 2 = 7, reminder 0.
07 / 2 = 3, reminder 1.
03 / 2 = 1, reminder 1.
01 / 2 = 0

So Binary equivalent of 14 is 1110.

Video Tutorial: C Program To Convert Decimal To Binary Number using Recursion

[youtube https://www.youtube.com/watch?v=hBaesKngoMY]

YouTube Link: https://www.youtube.com/watch?v=hBaesKngoMY [Watch the Video In Full Screen.]

Source Code: C Program To Convert Decimal To Binary Number using Recursion

#include<stdio.h>

int binary_rec(int);
int binary(int);

int main()
{
    int num;

    printf("Enter a Decimal number\n");
    scanf("%d", &num);

    printf("Binary Equivalent (Iterative) of %d is %d\n", num, binary(num));
    printf("Binary Equivalent (Recursive) of %d is %d\n", num, binary_rec(num));

    return 0;
}

int binary_rec(int num)
{
    if(num == 0)
        return 0;
    else
        return((num % 2) + 10 * binary_rec(num/2));
}

int binary(int num)
{
    int rem, bin = 0, place = 1;
    while(num)
    {
        rem   = num % 2;
        num   = num / 2;
        bin   = bin + (rem * place);
        place = place * 10;
    }
    return(bin);
}

Output 1:
Enter a Decimal number
14

Iterative Logic
Binary Equivalent of 14 is 1110

Recursive Logic
Binary Equivalent of 14 is 1110

Output 2:
Enter a Decimal number
41

Iterative Logic
Binary Equivalent of 41 is 101001

Recursive Logic
Binary Equivalent of 41 is 101001

Logic To Convert Decimal Number To Binary Number using Recursion

For iterative logic, please check the video tutorial C Program To Convert Decimal Number To Binary Number, using While Loop.

Recursive Function Logic
Assume that user inputs num value as 14.

num	num % 2	(num % 2) + 10 * binary_rec(num/2)
14	14 % 2	(0) + 10 * binary_rec(7)
7	7 % 2	(1) + 10 * binary_rec(3)
3	3 % 2	(1) + 10 * binary_rec(1)
1	1 % 2	(1) + 10 * binary_rec(0)

Value Returning – Control Shifting back.

Return Value	To	Result
return 0;	(1) + 10 * binary_rec(0)	(1) + 10 * 0 = 1
1	(1) + 10 * binary_rec(1)	(1) + 10 * 1 = 11
11	(1) + 10 * binary_rec(3)	(1) + 10 * 11 = 111
111	(0) + 10 * binary_rec(7)	(0) + 10 * 111 = 1110

Binary Equivalent of Decimal Number 14 is 1110.

Source Code: C Program To Convert Decimal To Binary Number using Recursion and Ternary or Conditional Operator

#include<stdio.h>

int binary_rec(int);
int binary(int);

int main()
{
    int num;

    printf("Enter a Decimal number\n");
    scanf("%d", &num);

    printf("\nIterative Logic\n");
    printf("Binary Equivalent of %d is %d\n\n", num, binary(num));

    printf("\nRecursive Logic\n");
    printf("Binary Equivalent of %d is %d\n\n", num, binary_rec(num));

    return 0;
}

int binary_rec(int num)
{
    return( (num == 0) ? 0 : (num % 2) + 10 * binary_rec(num / 2));
}

int binary(int num)
{
    int rem, bin = 0, place = 1;

    while(num != 0)
    {
        rem   = num % 2;
        num   = num / 2;
        bin   = bin + (rem * place);
        place = place * 10;
    }
    return(bin);
}

Output 1:
Enter a Decimal number
14

Iterative Logic
Binary Equivalent of 14 is 1110

Recursive Logic
Binary Equivalent of 14 is 1110

Output 2:
Enter a Decimal number
41

Iterative Logic
Binary Equivalent of 41 is 101001

Recursive Logic
Binary Equivalent of 41 is 101001

To know more about Ternary or Conditional Operator visit:
Ternary Operator / Conditional Operator In C

Source Code: C Program To Convert Decimal To Binary Number using Recursion

Another Method

#include<stdio.h>

void binary_rec(int);
int binary(int);

int main()
{
    int num;

    printf("Enter a Decimal number\n");
    scanf("%d", &num);

    printf("\nIterative Logic\n");
    printf("Binary Equivalent of %d is %d\n\n", num, binary(num));

    printf("\nRecursive Logic\n");
    printf("Binary Equivalent of %d is ", num);
    binary_rec(num);
    
    printf("\n");

    return 0;
}

void binary_rec(int num)
{
    if(num == 1)
        printf("1");
    else
    {
        binary_rec(num/2);
        printf("%d", num%2);
    }
}

int binary(int num)
{
    int rem, bin = 0, place = 1;

    while(num != 0)
    {
        rem   = num % 2;
        num   = num / 2;
        bin   = bin + (rem * place);
        place = place * 10;
    }
    return(bin);
}

Output:
Enter a Decimal number
14

Iterative Logic
Binary Equivalent of 14 is 1110

Recursive Logic
Binary Equivalent of 14 is 1110

Here we simply divide the number by 2 and keep passing it as new value of num to binary_rec() function, and we print num%2 once num = 1 and it returns the value 1.

Number Systems

number systems

1. Binary Number System uses base 2 and digits 01.
2. Octal Number System uses base 8 and digits 01234567.
3. Decimal Number System uses base 10 and digits 0123456789.
4. Hexadecimal Number System uses base 16 and digits 0123456789ABCDEF.

For list of all c programming interviews / viva question and answers visit: C Programming Interview / Viva Q&A List

For full C programming language free video tutorial list visit:C Programming: Beginner To Advance To Expert

C Program To Find Prime Factors of a Number using Recursion

A positive integer is entered through the keyboard, write a C program to obtain the prime factors of the number. Modify the function suitably to obtain the prime factors recursively.

Analyze The Problem Statement

According to problem statement we need to find prime factors of user input positive integer number using iterative logic first, and then modify it and write a recursive logic to obtain the same result.

In our video tutorial we’ll write both iterative as well as recursive logic. This way you can compare the two – both the similarities and differences in the code.

For Example: Prime factors of 24 are 2, 2, 2 and 3.

prime factors of 24

Note:
Both 24 and 35 are not prime numbers, but the factors(2, 3, 5 and 7) we display are prime numbers and multiplying all the prime factors should give the original number.

Video Tutorial: C Program To Find Prime Factors of a Number using Recursion

[youtube https://www.youtube.com/watch?v=cssyXvqaQI4]

YouTube Link: https://www.youtube.com/watch?v=cssyXvqaQI4 [Watch the Video In Full Screen.]

Source Code: C Program To Find Prime Factors of a Number using Recursion

#include<stdio.h>

void pfactors_rec(int, int);
void pfactors(int);

int main()
{
    int num;

    printf("Enter a positive integer number\n");
    scanf("%d", &num);

    printf("\nPrime Factors of %d without using recursion\n", num);
    pfactors(num);

    printf("\nPrime Factors of %d using recursion\n", num);
    pfactors_rec(num, 2);

    return 0;
}

void pfactors_rec(int num, int count)
{
    if(num < 1)
        return;
    else if(num % count == 0)
    {
      printf("%d\n", count);
      pfactors_rec(num / count, count);
    }
    else
    {
      pfactors_rec(num, count+1);
    }
}

void pfactors(int num)
{
    int count;

    for(count = 2; (num > 1); count++)
    {
        while(num % count == 0)
        {
            printf("%d\n", count);
            num = num / count;
        }
    }
    printf("\n");
}

Output 1:
Enter a positive integer number
24

Prime Factors of 24 without using recursion
2
2
2
3

Prime Factors of 24 using recursion
2
2
2
3

Output 2:
Enter a positive integer number
35

Prime Factors of 35 without using recursion
5
7

Prime Factors of 35 using recursion
5
7

Output 3:
Enter a positive integer number
510

Prime Factors of 510 without using recursion
2
3
5
17

Prime Factors of 510 using recursion
2
3
5
17

Output 4:
Enter a positive integer number
24024

Prime Factors of 24024 without using recursion
2
2
2
3
7
11
13

Prime Factors of 24024 using recursion
2
2
2
3
7
11
13

Output 5:
Enter a positive integer number
315

Prime Factors of 315 without using recursion
3
3
5
7

Prime Factors of 315 using recursion
3
3
5
7

Logic To Find Prime Factors of a Number using Recursion

We pass the user input number and 2 to the recursive function pfactors_rec(). We pass 2 as count value because 2 is the first prime number. So we initialize 2 to count and we change the value of count inside pfactors_rec() function.

Inside pfactors_rec() function
We first write the base condition(i.e., a condition to exit or return from the infinite recursive calls – freeing up the memory stack). We check if num value is less than 1, in that case we return the control back to the calling function.

Inside else if condition we check if the user input number is perfectly divided by 2(initial value of variable count). If true, then we print the value 2 and then divide the number by 2. We keep doing this recursively until num is not perfectly divided by 2.

prime factors of 24

If 2 can’t perfectly divide the number then, else condition code is executed, where we increment the value of count by 1.

Since inside else if we keep dividing the number by value of count until it perfectly divides the number, the multiples of value of count can not divide the number going further. So only prime numbers can(probably) perfectly divide the value present inside variable num. This is the reason we need not write function to find next prime number and then assign it to count.

Example with output

num	count	num%count	function call	Print
24	2	true	pfactor_rec (24/2, 2)	2
12	2	true	pfactor_rec (12/2, 2)	2
6	2	true	pfactor_rec (6/2, 2)	2
3	2	false	pfactor_rec (3, 2+1)
3	3	true	pfactor_rec (3/3, 3)	3

Since num = 1, base condition gets executed and all the function instances of pfactors_rec() and associated memory gets popped out of the stack and finally the prime factors of the user input number will be left out on the console window.

Logic To Find Prime Factors of a Number using Iterative Logic

Complete logic, code and explanation with example is given at C Program To Find Prime Factors of a Number

Important Note:

If user input number is perfectly divisible by 5, then we iteratively or recursively or repeatedly divide the number by 5, until the number is no longer perfectly divisible by the number 5. That way, going forward, no other numbers which are multiples of 5 can perfectly divide the number.

For Example: If user input number is 24, and you continously divide the number 24 by 2 until 2 doesn’t perfectly divide the number, then no other multiples of 2 can perfectly divide the number.

Step 1:

num = 24, count = 2;

24 % 2 == 0 (True)
24 / 2 = 12;

Step 2:

num = 12, count = 2;

12 % 2 == 0 (True)
12 / 2 = 6;

Step 3:

num = 6, count = 2;

6 % 2 == 0 (True)
6 / 2 = 3;

Step 3:

Now num is reduced to 3, so no other numbers which are multiples of number 2 can perfectly divide the number(which happens to be 3 in this case).

Check steps 1, 2 and 3 for any number. Ultimately, only prime numbers can perfectly divide any number. Take a pen and paper and give it a try.

For list of all c programming interviews / viva question and answers visit: C Programming Interview / Viva Q&A List

For full C programming language free video tutorial list visit:C Programming: Beginner To Advance To Expert