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Arithmetic operators in C are certain special symbols, predefined to perform arithmetic operations. We are familiar with the basic arithmetic operations − addition, subtraction, multiplication and division. C is a computational language, so these operators are essential in performing a computerised process.
In addition to the above operations assigned to the four symbols +, −, *, and / respectively, C has another arithmetic operator called the modulo operator for which we use the %symbol.
The following table lists the arithmetic operators in C −
Operator | Description |
---|---|
+ | Adds two operands. |
− | Subtracts second operand from the first. |
* | Multiplies both operands. |
/ | Divides numerator by denominator. |
% | Modulus Operator and remainder of after an integer division. |
++ | Increment operator increases the integer value by one. |
— | Decrement operator decreases the integer value by one. |
The ++ and — operators are also listed in the above table. We shall learn about increment and decrement operators in a separate chapter.
Example: Arithmetic Operators in C
The following example demonstrates how to use these arithmetic operators in a C program −
#include <stdio.h> int main(){ int op1 = 10; int op2 = 3; printf("Operand1: %d Operand2: %d nn", op1, op2); printf("Addition of op1 and op2: %dn", op1 + op2); printf("Subtraction of op2 from op1: %dn", op1 - op2); printf("Multiplication of op1 and op2: %dn", op1 * op2); printf("Division of op1 by op2: %dn", op1/op2); return 0; }
Output
When you run this code, it will produce the following output −
Operand1: 10 Operand2: 3 Addition of op1 and op2: 13 Subtraction of op2 from op1: 7 Multiplication of op1 and op2: 30 Division of op1 by op2: 3
Type Casting in C
The first three results are as expected, but the result of division is not. You expect 10/3 to be a fractional number (3.333333). Is it because we used the %d format specifier to print the outcome of the division? If we change the last line of the code as follows −
printf("Division of op1 by op2: %fn", op1/op2);
Now the outcome of the division operation will be “0.000000”, which is even more surprising. The reason why C behaves like this is because the division of an integer with another integer always returns an integer.
To obtain floating-point division, at least one operand must be a float, or you need to use the typecast operator to change one of the integer operands to float.
Now, change the last printf statement of the given program as follows −
printf("Division of op1 by op2: %fn", (float)op1/op2);
When you run run the code again after making this change, it will show the correct division −
Division of op1 by op2: 3.333333
Note: If you use %d format specifier for a floating-point expression, it will always result in “0”.
Example
The result of arithmetic operations with at least one float (or double) operand is always float. Take a look at the following example −
#include <stdio.h> int main(){ int op1 = 10; float op2 = 2.5; printf("Operand1: %d Operand2: %fn", op1, op2); printf("Addition of op1 and op2: %fn", op1 + op2); printf("Subtraction of op2 from op1: %fn", op1 - op2); printf("Multiplication of op1 and op2: %fn", op1 * op2); printf("Division of op1 by op2: %fn", op1/op2); return 0; }
Output
Run the code and check its output −
Operand1: 10 Operand2: 2.500000 Addition of op1 and op2: 12.500000 Subtraction of op2 from op1: 7.500000 Multiplication of op1 and op2: 25.000000 Division of op1 by op2: 4.000000
Arithmetic Operations with char Data Type
In C, char data type is a subset of int type. Hence, we can perform arithmetic operations with char operands.
Example
The following example shows how you can perform arithmetic operations with two operands out of which one is a “char” type −
#include <stdio.h> int main(){ char op1 = ''F''; int op2 = 3; printf("operand1: %c operand2: %dn", op1, op2); printf("Addition of op1 and op2: %dn", op1 + op2); printf("Subtraction of op2 from op1: %dn", op1 - op2); printf("Multiplication of op1 and op2: %dn", op1 * op2); printf("Division of op1 by op2: %dn", op1/op2); return 0; }
Output
Run the code and check its output −
operand1: F operand2: 3 Addition of op1 and op2: 73 Subtraction of op2 from op1: 67 Multiplication of op1 and op2: 210 Division of op1 by op2: 23
Since a char data type is a subset of int, the %c format specifier returns the ASCII character associated with an integer returned by the %d specifier.
If any arithmetic operation between two char operands results in an integer beyond the range of char, the %c specifier displays blank.
Modulo Operator in C
The modulo operator (%) returns the remainder of a division operation.
Example
Take a look at the following example −
#include <stdio.h> int main(){ int op1 = 10; int op2 = 3; printf("Operand1: %d Operand2: %dn", op1, op2); printf("Modulo of op1 and op2: %dn", op1%op2); return 0; }
Output
Run the code and check its output −
Operand1: 10 Operand2: 3 Modulo of op1 and op2: 1
The modulo operator needs both the operands of int type. If not, the compiler gives a type mismatch error. For example, change the data type of “op1” to float in the above code and run the program again −
float op1 = 10; int op2 = 3; printf("Modulo of op1 and op2: %dn", op1%op2);
Now, you will get a type mismatch error with the following message −
error: invalid operands to binary % (have ''float'' and ''int'')
It does allow char operands for modulo operations though.
Negation Operator in C
The increment and decrement operators represented by the symbols ++ and — are unary operators. They have been covered in a separate chapter. The “−” symbol, representing subtraction operator, also acts a unary negation operator.
Example
The following example highlights how you can use the negation operator in C −
#include <stdio.h> int main(){ int op1 = 5; int op2 = -op1; printf("Operand1: %d Operand2: %dn", op1, op2); return 0; }
Output
When you run this code, it will produce the following output −
Operand1: 5 Operand2: -5
In the above example, the “–” symbol returns the negative value of op1 and assigns the same to op2.
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