Output
a+b = 13
a-b = 5
a*b = 36
a/b = 2
Remainder when a divided by b=1
The operators +, - and * computes addition, subtraction and multiplication respectively as you might have expected.
In normal calculation, 9/4 = 2.25. However, the output is 2 in the program.
It is because both variables a and b are integers. Hence, the output is also an integer. The compiler neglects the term after decimal point and shows answer 2 instead of 2.25.
The modulo operator % computes the remainder. When a = 9 is divided by b = 4, the remainder is 1. The % operator can only be used with integers.
Suppose a = 5.0, b = 2.0, c = 5 and d = 2. Then in C programming,
a/b = 2.5 // Because both operands are floating-point variables
a/d = 2.5 // Because one operand is floating-point variable
c/b = 2.5 // Because one operand is floating-point variable
c/d = 2 // Because both operands are integers
Increment and decrement operators
C programming has two operators increment ++ and decrement -- to change the value of an operand (constant or variable) by 1.
Increment ++ increases the value by 1 whereas decrement -- decreases the value by 1. These two operators are unary operators, meaning they only operate on a single operand.
Example 2: Increment and Decrement Operators
// C Program to demonstrate the working of increment and decrement operators
#include <stdio.h>
int main()
{
int a = 10, b = 100;
float c = 10.5, d = 100.5;
printf("++a = %d \n", ++a);
printf("--b = %d \n", --b);
printf("++c = %f \n", ++c);
printf("--d = %f \n", --d);
return 0;
}
Output
++a = 11
--b = 99
++c = 11.500000
++d = 99.500000
C Assignment Operators
An assignment operator is used for assigning a value to a variable. The most common assignment operator is =
| Operator | Example | Same as |
|---|
| = | a = b | a = b |
| += | a += b | a = a+b |
| -= | a -= b | a = a-b |
| *= | a *= b | a = a*b |
| /= | a /= b | a = a/b |
| %= | a %= b | a = a%b |
Example 3: Assignment Operators
// C Program to demonstrate the working of assignment operators
#include <stdio.h>
int main()
{
int a = 5, c;
c = a;
printf("c = %d \n", c);
c += a; // c = c+a
printf("c = %d \n", c);
c -= a; // c = c-a
printf("c = %d \n", c);
c *= a; // c = c*a
printf("c = %d \n", c);
c /= a; // c = c/a
printf("c = %d \n", c);
c %= a; // c = c%a
printf("c = %d \n", c);
return 0;
}
Output
c = 5
c = 10
c = 5
c = 25
c = 5
c = 0
C Relational Operators
A relational operator checks the relationship between two operands. If the relation is true, it returns 1; if the relation is false, it returns value 0.
| Operator | Meaning of Operator | Example |
|---|
| == | Equal to | 5 == 3 returns 0 |
| > | Greater than | 5 > 3 returns 1 |
| < | Less than | 5 < 3 returns 0 |
| != | Not equal to | 5 != 3 returns 1 |
| >= | Greater than or equal to | 5 >= 3 returns 1 |
| <= | Less than or equal to | 5 <= 3 return 0 |
Example 4: Relational Operators
// C Program to demonstrate the working of arithmetic operators
#include <stdio.h>
int main()
{
int a = 5, b = 5, c = 10;
printf("%d == %d = %d \n", a, b, a == b); // true
printf("%d == %d = %d \n", a, c, a == c); // false
printf("%d > %d = %d \n", a, b, a > b); //false
printf("%d > %d = %d \n", a, c, a > c); //false
printf("%d < %d = %d \n", a, b, a < b); //false
printf("%d < %d = %d \n", a, c, a < c); //true
printf("%d != %d = %d \n", a, b, a != b); //false
printf("%d != %d = %d \n", a, c, a != c); //true
printf("%d >= %d = %d \n", a, b, a >= b); //true
printf("%d >= %d = %d \n", a, c, a >= c); //false
printf("%d <= %d = %d \n", a, b, a <= b); //true
printf("%d <= %d = %d \n", a, c, a <= c); //true
return 0;
}
Output
5 == 5 = 1
5 == 10 = 0
5 > 5 = 0
5 > 10 = 0
5 < 5 = 0
5 < 10 = 1
5 != 5 = 0
5 != 10 = 1
5 >= 5 = 1
5 >= 10 = 0
5 <= 5 = 1
5 <= 10 = 1
C Logical Operators
An expression containing logical operator returns either 0 or 1 depending upon whether expression results true or false. Logical operators are commonly used in
decision making in C programming.
| Operator | Meaning of Operator | Example |
|---|
| && | Logial AND. True only if all operands are true | If c = 5 and d = 2 then, expression ((c == 5) && (d > 5))equals to 0. |
| || | Logical OR. True only if either one operand is true | If c = 5 and d = 2 then, expression ((c == 5) || (d > 5))equals to 1. |
| ! | Logical NOT. True only if the operand is 0 | If c = 5 then, expression ! (c == 5) equals to 0. |
Example #5: Logical Operators
// C Program to demonstrate the working of logical operators
#include <stdio.h>
int main()
{
int a = 5, b = 5, c = 10, result;
result = (a == b) && (c > b);
printf("(a == b) && (c > b) equals to %d \n", result);
result = (a == b) && (c < b);
printf("(a == b) && (c < b) equals to %d \n", result);
result = (a == b) || (c < b);
printf("(a == b) || (c < b) equals to %d \n", result);
result = (a != b) || (c < b);
printf("(a != b) || (c < b) equals to %d \n", result);
result = !(a != b);
printf("!(a == b) equals to %d \n", result);
result = !(a == b);
printf("!(a == b) equals to %d \n", result);
return 0;
}
Output
(a == b) && (c > b) equals to 1
(a == b) && (c < b) equals to 0
(a == b) || (c < b) equals to 1
(a != b) || (c < b) equals to 0
!(a != b) equals to 1
!(a == b) equals to 0
Explanation of logical operator program
(a == b) && (c > 5) evaluates to 1 because both operands (a == b) and (c > b) is 1 (true).(a == b) && (c < b) evaluates to 0 because operand (c < b) is 0 (false).(a == b) || (c < b) evaluates to 1 because (a = b) is 1 (true).(a != b) || (c < b) evaluates to 0 because both operand (a != b) and (c < b) are 0 (false).!(a != b) evaluates to 1 because operand (a != b) is 0 (false). Hence, !(a != b) is 1 (true).!(a == b) evaluates to 0 because (a == b) is 1 (true). Hence, !(a == b) is 0 (false).
Bitwise Operators
During computation, mathematical operations like: addition, subtraction, addition and division are converted to bit-level which makes processing faster and saves power.
Bitwise operators are used in C programming to perform bit-level operations.
| Operators | Meaning of operators |
|---|
| & | Bitwise AND |
| | | Bitwise OR |
| ^ | Bitwise exclusive OR |
| ~ | Bitwise complement |
| << | Shift left |
| >> | Shift right |
Other Operators
Comma Operator
Comma operators are used to link related expressions together. For example:
int a, c = 5, d;
The sizeof operator
The sizeof is an unary operator which returns the size of data (constant, variables, array, structure etc).
Example 6: sizeof Operator
#include <stdio.h>
int main()
{
int a, e[10];
float b;
double c;
char d;
printf("Size of int=%lu bytes\n",sizeof(a));
printf("Size of float=%lu bytes\n",sizeof(b));
printf("Size of double=%lu bytes\n",sizeof(c));
printf("Size of char=%lu byte\n",sizeof(d));
printf("Size of integer type array having 10 elements = %lu bytes\n", sizeof(e));
return 0;
}
Output
Size of int = 4 bytes
Size of float = 4 bytes
Size of double = 8 bytes
Size of char = 1 byte
Size of integer type array having 10 elements = 40 bytes
C Ternary Operator (?:)
Ternary operator is a conditional operator that works on 3 operands.
Conditional Operator Syntax
conditionalExpression ? expression1 : expression2
The conditional operator works as follows:
- The first expression conditionalExpression is evaluated first. This expression evaluates to 1 if it's true and evaluates to 0 if it's false.
- If conditionalExpression is true, expression1 is evaluated.
- If conditionalExpression is false, expression2 is evaluated.
Example 7: C conditional Operator
#include <stdio.h>
int main(){
char February;
int days;
printf("If this year is leap year, enter 1. If not enter any integer: ");
scanf("%c",&February);
// If test condition (February == 'l') is true, days equal to 29.
// If test condition (February =='l') is false, days equal to 28.
days = (February == '1') ? 29 : 28;
printf("Number of days in February = %d",days);
return 0;
}
Output
If this year is leap year, enter 1. If not enter any integer: 1
Number of days in February = 29
Other operators such as
& (reference operator),
* (dereference operator) and
-> (member selection) operator will be discussed in
C pointers.
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