C Programming - Operators
In this tutorial you will learn about
Operators, Arithmetic operators, Relational Operators, Logical Operators,
Assignment Operators, Increments and Decrement Operators, Conditional
Operators, Bitwise Operators and Special Operators.
Operators Introduction
An operator is a symbol which helps the user to command the
computer to do a certain mathematical or logical manipulations. Operators are
used in C language program to operate on data and variables. C has a rich set
of operators which can be classified as 2. Relational Operators
3. Logical Operators
4. Assignment Operators
5. Increments and Decrement Operators
6. Conditional Operators
7. Bitwise Operators
8. Special Operators
1. Arithmetic Operators
All the basic arithmetic operations can be carried out in
C. All the operators have almost the same meaning as in other languages. Both
unary and binary operations are available in C language. Unary operations
operate on a singe operand, therefore the number 5 when operated by unary –
will have the value –5.
Arithmetic Operators
|
Operator
|
Meaning
|
|
+
|
Addition
or Unary Plus
|
|
–
|
Subtraction
or Unary Minus
|
|
*
|
Multiplication
|
|
/
|
Division
|
|
%
|
Modulus
Operator (remainder)
|
x + y
x - y
-x + y
a * b + c
-a * b
here a, b, c, x, y are known as operands. The modulus operator is a special operator in C language which evaluates the remainder of the operands after division.
Example
|
.
#include<stdio.h>
void
main()
{
int numb1, num2, sum, sub, mul, div, mod;
//declaration
of variables
Printf(“Enter two integers number:”);
scanf (“%d %d”, &num1, &num2);
//inputs the operands
sum = num1+num2; //addition of numbers and storing in sum. printf(“\n Thu sum is = %d”, sum);//display the output sub = num1-num2; //subtraction of numbers and storing in sub. printf(“\n Thu difference is = %d”, sub); //display the output mul = num1*num2; //multiplication of numbers and storing in mul. printf(“\n Thu product is = %d”, mul); //display the output div = num1/num2; //division of numbers and storing in div. printf(“\n Thu division is = %d”, div); //display the output mod = num1%num2; //modulus of numbers and storing in mod. printf(“\n Thu modulus is = %d”, mod); //display the output } . |
Integer Arithmetic
When an arithmetic operation is performed on two whole
numbers or integers than such an operation is called as integer arithmetic. It
always gives an integer as the result. Let x = 27 and
y = 5 be 2 integer numbers. Then the integer operation leads to the
following results. x + y = 32
x – y = 22
x * y = 115
x % y = 2
x / y = 5
In integer division the fractional part is truncated.
Floating point arithmetic
When an arithmetic operation is preformed on two real
numbers or fraction numbers such an operation is called floating point
arithmetic. The floating point results can be truncated according to the
properties requirement. The remainder operator is not applicable for floating
point arithmetic operands. Let x = 14.0 and y = 4.0 then
x + y = 18.0
x – y = 10.0
x * y = 56.0
x / y = 3.50
Mixed mode arithmetic
When one of the operand is real and other is an integer and
if the arithmetic operation is carried out on these 2 operands then it is
called as mixed mode arithmetic. If any one operand is of real type then the
result will always be real thus 15/10.0 = 1.5
2. Relational Operators
Often it is required to compare the relationship between operands
and bring out a decision and program accordingly. This is when the relational
operator come into picture. C supports the following relational operators. |
Operator
|
Meaning
|
|
<
|
is
less than
|
|
<=
|
is
less than or equal to
|
|
>
|
is
greater than
|
|
>=
|
is
greater than or equal to
|
|
==
|
is
equal to
|
|
!=
|
is
not equal to
|
A simple relational expression contains only one relational operator and takes the following form.
exp1 relational operator exp2
Where exp1 and exp2 are expressions, which may be simple constants, variables or combination of them. Given below is a list of examples of relational expressions and evaluated values.
6.5 <= 25 TRUE
-65 > 0 FALSE
10 < 7 + 5 TRUE
Relational expressions are used in decision making statements of C language such as if, while and for statements to decide the course of action of a running program.
3. Logical Operators
C has the following logical operators, they compare or
evaluate logical and relational expressions. |
Operator
|
Meaning
|
|
&&
|
Logical
AND
|
|
||
|
Logical
OR
|
|
!
|
Logical
NOT
|
Logical AND (&&)
This operator is used to evaluate 2 conditions or expressions
with relational operators simultaneously. If both the expressions to the left
and to the right of the logical operator is true then the whole compound
expression is true. Example
The expression to the left is a > b and that on the right is x == 10 the whole expression is true only if both expressions are true i.e., if a is greater than b and x is equal to 10.
Logical OR (||)
The logical OR is used to combine 2 expressions or the
condition evaluates to true if any one of the 2 expressions is true. Example
The expression evaluates to true if any one of them is true or if both of them are true. It evaluates to true if a is less than either m or n and when a is less than both m and n.
Logical NOT (!)
The logical not operator takes single expression and
evaluates to true if the expression is false and evaluates to false if the
expression is true. In other words it just reverses the value of the
expression. For example
4. Assignment Operators
The Assignment Operator evaluates an expression on the
right of the expression and substitutes it to the value or variable on the left
of the expression. Example
In addition, C has a set of shorthand assignment operators of the form.
var oper = exp;
Here var is a variable, exp is an expression and oper is a C binary arithmetic operator. The operator oper = is known as shorthand assignment operator
Here var is a variable, exp is an expression and oper is a C binary arithmetic operator. The operator oper = is known as shorthand assignment operator
Example
Shorthand assignment operators
|
Statement with simple
assignment operator |
Statement with
shorthand operator |
|
a
= a + 1
|
a
+= 1
|
|
a
= a – 1
|
a
-= 1
|
|
a
= a * (n+1)
|
a
*= (n+1)
|
|
a
= a / (n+1)
|
a
/= (n+1)
|
|
a
= a % b
|
a
%= b
|
|
.
#define N 100 //creates a variable N with constant value 100 #define A 2 //creates a variable A with constant value 2 void main() { int a; //variable a declaration a = A; //assigns value 2 to a while (a < N) //while value of a is less than N { //evaluate or do the following printf(“%d \n”,a); //print the current value of a a *= a; //shorthand form of a = a * a } //end of the loop } . |
4
16
5. Increment and Decrement Operators
The increment and decrement operators are one of the unary
operators which are very useful in C language. They are extensively used in for
and while loops. The syntax of the operators is given below 2. variable name++
3. – –variable name
4. variable name– –
The increment operator ++ adds the value 1 to the current value of operand and the decrement operator – – subtracts the value 1 from the current value of operand. ++variable name and variable name++ mean the same thing when they form statements independently, they behave differently when they are used in expression on the right hand side of an assignment statement.
Consider the following
y = ++m; (prefix)
In this case the value of y and m would be 6
Suppose if we rewrite the above statement as
m = 5;
y = m++; (post fix)
Then the value of y will be 5 and that of m will be 6. A prefix operator first adds 1 to the operand and then the result is assigned to the variable on the left. On the other hand, a postfix operator first assigns the value to the variable on the left and then increments the operand.
6. Conditional or Ternary Operator
The conditional operator consists of 2 symbols the question
mark (?)
and the colon (:) The syntax for a ternary operator is as follows
exp1 ? exp2 : exp3
The ternary operator works as follows
exp1 is evaluated first. If the expression is true then exp2 is evaluated & its value becomes the value of the expression. If exp1 is false, exp3 is evaluated and its value becomes the value of the expression. Note that only one of the expression is evaluated.
For example
a = 10;
b = 15;
x = (a > b) ? a : b
Here x will be assigned to the value of b. The condition follows that the expression is false therefore b is assigned to x.
|
.
/*
Example : to find the maximum value using
conditional operator)
*/
#include<stdio.h>
void main() { int i,j,larger; //declaration of variables printf (“Input 2 integers : ”); //ask the user to input 2 numbers scanf(“%d %d”,&i, &j); //take the number from standard
//input and store it
larger = i > j ? i : j; //evaluation using ternary operator printf(“The largest of two numbers is %d \n”, larger);
// print the largest number
} . |
Input 2 integers : 34 45
The largest of two numbers is 45
7. Bitwise Operators
C has a distinction of supporting special operators known
as bitwise operators for manipulation data at bit level. A bitwise operator
operates on each bit of data. Those operators are used for testing,
complementing or shifting bits to the right on left. Bitwise operators may not
be applied to a float or double. |
Operator
|
Meaning
|
|
&
|
Bitwise
AND
|
|
|
|
Bitwise
OR
|
|
^
|
Bitwise
Exclusive
|
|
<<
|
Shift
left
|
|
>>
|
Shift
right
|
8. Special Operators
C supports some special operators of interest such as comma
operator, size of operator, pointer operators (& and *) and member selection operators (. and ->). The size of and the comma operators are discussed here. The
remaining operators are discussed in forth coming chapters.
The Comma Operator
The comma operator can be used to link related expressions
together. A comma-linked list of expressions are evaluated left to right and
value of right most expression is the value of the combined expression.
The size of Operator
The operator size of gives the size of the data type or
variable in terms of bytes occupied in the memory. The operand may be a
variable, a constant or a data type qualifier. n = sizeof (long int);
k = sizeof (235L);
|
#include<stdio.h>
void
main()
{ int a, b, c, d; //declaration of variables a = 15; b = 10; c = ++a-b; //assign values to variables printf (“a = %d, b = %d, c = %d\n”, a,b,c); //print the values d=b++ + a; printf (“a = %d, b = %d, d = %d\n, a,b,d); printf (“a / b = %d\n, a / b); printf (“a %% b = %d\n, a % b); printf (“a *= b = %d\n, a *= b); printf (“%d\n, (c > d) ? 1 : 0 ); printf (“%d\n, (c < d) ? 1 : 0 ); } . |
Notice the way the increment
operator ++ works when used in an expression. In the statement c = ++a – b; new value a = 16 is used thus giving value 6 to C. That is a is
incremented by 1 before using in expression.
However in the statement d = b++ + a; The old value b = 10 is used in the expression. Here b is incremented after it is used in the expression. We can print the character % by placing it immediately after another % character in the control string. This is illustrated by the statement.
printf(“a %% b = %d\n”, a%b);
c > d ? 1 : 0
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