Python Operators
The operator can be defined as a symbol which is responsible for a particular operation between two operands. Operators are the pillars of a program on which the logic is built in a specific programming language. Python provides a variety of operators, which are described as follows.
- Arithmetic operators
- Comparison operators
- Assignment Operators
- Logical Operators
- Bitwise Operators
- Membership Operators
- Identity Operators
Arithmetic Operators
Arithmetic operators are used to perform arithmetic operations between two operands. It includes + (addition), - (subtraction), *(multiplication), /(divide), %(reminder), //(floor division), and exponent (**) operators.
|
Operator |
Description |
|
+ (Addition) |
It is used to add two operands. For example, if a = 20, b = 10
=> a+b = 30 |
|
- (Subtraction) |
It is
used to subtract the second operand from the first operand. If the first
operand is less than the second operand, the value results negative. For
example, if a = 20, b = 10 => a - b = 10 |
|
/ (divide) |
It returns the quotient after dividing the first operand by the
second operand. For example, if a = 20, b = 10 => a/b = 2.0 |
|
* (Multiplication) |
It is
used to multiply one operand with the other. For example, if a = 20, b = 10
=> a * b = 200 |
|
% (reminder) |
It returns the reminder after dividing the first operand by the
second operand. For example, if a = 20, b = 10 => a%b = 0 |
|
** (Exponent) |
It is
an exponent operator represented as it calculates the first operand power to
the second operand. |
|
// (Floor division) |
It gives the floor value of the quotient produced by dividing
the two operands. |
Comparison operator
Comparison operators are used to comparing the value of the two operands and
returns Boolean true or false accordingly. The comparison operators are
described in the following table.
|
Operator |
Description |
|
== |
If the value of two operands is equal, then the condition
becomes true. |
|
!= |
If
the value of two operands is not equal, then the condition becomes true. |
|
<= |
If the first operand is less than or equal to the second
operand, then the condition becomes true. |
|
>= |
If
the first operand is greater than or equal to the second operand, then the
condition becomes true. |
|
> |
If the first operand is greater than the second operand, then
the condition becomes true. |
|
< |
If
the first operand is less than the second operand, then the condition becomes
true. |
Assignment Operators
The assignment operators are used to assign the value of the right
expression to the left operand. The assignment operators are described in the
following table.
|
Operator |
Description |
|
= |
It assigns the value of the right expression to the left operand. |
|
+= |
It
increases the value of the left operand by the value of the right operand and
assigns the modified value back to left operand. For example, if a = 10, b =
20 => a+ = b will be equal to a = a+ b and therefore, a = 30. |
|
-= |
It decreases the value of the left operand by the value of the
right operand and assigns the modified value back to left operand. For
example, if a = 20, b = 10 => a- = b will be equal to a = a- b and
therefore, a = 10. |
|
*= |
It
multiplies the value of the left operand by the value of the right operand
and assigns the modified value back to then the left operand. For example, if
a = 10, b = 20 => a* = b will be equal to a = a* b and therefore, a = 200. |
|
%= |
It divides the value of the left operand by the value of the
right operand and assigns the reminder back to the left operand. For example,
if a = 20, b = 10 => a % = b will be equal to a = a % b and therefore, a =
0. |
|
**= |
a**=b
will be equal to a=a**b, for example, if a = 4, b =2, a**=b will assign 4**2
= 16 to a. |
|
//= |
A//=b will be equal to a = a// b, for example, if a = 4, b = 3,
a//=b will assign 4//3 = 1 to a. |
Bitwise Operators
The bitwise operators perform bit by bit operation on the values
of the two operands. Consider the following example.
For
example,
1.
if a = 7
2. b = 6
3. then, binary (a) = 0111
4. binary (b) = 0011
5.
6. hence, a & b = 0011
7. a | b = 0111
8. a ^ b = 0100
9. ~ a = 1000
|
Operator |
Description |
|
& (binary and) |
If both the bits at the same place in two operands are 1, then 1
is copied to the result. Otherwise, 0 is copied. |
|
| (binary or) |
The
resulting bit will be 0 if both the bits are zero; otherwise, the resulting
bit will be 1. |
|
^ (binary xor) |
The resulting bit will be 1 if both the bits are different;
otherwise, the resulting bit will be 0. |
|
~ (negation) |
It
calculates the negation of each bit of the operand, i.e., if the bit is 0,
the resulting bit will be 1 and vice versa. |
|
<< (left shift) |
The left operand value is moved left by the number of bits
present in the right operand. |
|
>> (right shift) |
The
left operand is moved right by the number of bits present in the right
operand. |
Logical Operators
The logical operators are used primarily in the expression
evaluation to make a decision. Python supports the following logical operators.
|
Operator |
Description |
|
and |
If both the expression are true, then the condition will be
true. If a and b are the two expressions, a → true, b → true => a and b →
true. |
|
or |
If
one of the expressions is true, then the condition will be true. If a and b
are the two expressions, a →
true, b → false =>
a or b → true. |
|
not |
If an expression a is true, then not (a)
will be false and vice versa. |
Membership Operators
Python membership operators are used to check the membership of
value inside a Python data structure. If the value is present in the data
structure, then the resulting value is true otherwise it returns false.
|
Operator |
Description |
|
in |
It is evaluated to be true if the first operand is found in the
second operand (list, tuple, or dictionary). |
|
not in |
It is
evaluated to be true if the first operand is not found in the second operand
(list, tuple, or dictionary). |
Identity Operators
The identity operators are used to decide whether an element
certain class or type.
|
Operator |
Description |
|
is |
It is evaluated to be true if the reference present at both
sides point to the same object. |
|
is not |
It is
evaluated to be true if the reference present at both sides do not point to
the same object. |
Operator Precedence
The precedence of the operators is essential to find out since it
enables us to know which operator should be evaluated first. The precedence
table of the operators in Python is given below.
|
Operator |
Description |
|
** |
The exponent operator is given priority over all the others used
in the expression. |
|
~ + - |
The
negation, unary plus, and minus. |
|
* / % // |
The multiplication, divide, modules, reminder, and floor
division. |
|
+ - |
Binary
plus, and minus |
|
>> << |
Left shift. and right shift |
|
& |
Binary
and. |
|
^ | |
Binary xor, and or |
|
<= < > >= |
Comparison
operators (less than, less than equal to, greater than, greater then equal
to). |
|
<> == != |
Equality operators. |
|
= %= /= //= -= += |
Assignment
operators |
|
is is not |
Identity operators |
|
in not in |
Membership
operators |
|
not or and |
Logical operators |
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