7/27/2019 Python Overview

PYTHON - OVERVIEW
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Python is a high-level, interpreted, interactive and object-oriented scripting language. Python is designed to
be highly readable. It uses English keywords frequently where as other languages use punctuation, and it has
fewer syntactical constructions than other languages.

Python is Interpreted − Python is processed at runtime by the interpreter. You do not need to
compile your program before executing it. This is similar to PERL and PHP.

Python is Interactive − You can actually sit at a Python prompt and interact with the interpreter
directly to write your programs.

Python is Object-Oriented − Python supports Object-Oriented style or technique of programming

that encapsulates code within objects.

Python is a Beginner's Language − Python is a great language for the beginner-level programmers
and supports the development of a wide range of applications from simple text processing to WWW
browsers to games.

History of Python
Python was developed by Guido van Rossum in the late eighties and early nineties at the National Research
Institute for Mathematics and Computer Science in the Netherlands.

Python is derived from many other languages, including ABC, Modula-3, C, C++, Algol-68, SmallTalk, and
Unix shell and other scripting languages.

Python is copyrighted. Like Perl, Python source code is now available under the GNU General Public License
GP L.

Python is now maintained by a core development team at the institute, although Guido van Rossum still holds
a vital role in directing its progress.

Python Features
Python's features include −

Easy-to-learn − Python has few keywords, simple structure, and a clearly defined syntax. This allows
the student to pick up the language quickly.

Easy-to-read − Python code is more clearly defined and visible to the eyes.

Easy-to-maintain − Python's source code is fairly easy-to-maintain.

A broad standard library − Python's bulk of the library is very portable and cross-platform
compatible on UNIX, Windows, and Macintosh.

Interactive Mode − Python has support for an interactive mode which allows interactive testing and
debugging of snippets of code.

Portable − Python can run on a wide variety of hardware platforms and has the same interface on all
platforms.

Extendable − You can add low-level modules to the Python interpreter. These modules enable
programmers to add to or customize their tools to be more efficient.

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7/27/2019 Python Overview

Databases − Python provides interfaces to all major commercial databases.

GUI Programming − Python supports GUI applications that can be created and ported to many
system calls, libraries and windows systems, such as Windows MFC, Macintosh, and the X Window
system of Unix.

Scalable − Python provides a better structure and support for large programs than shell scripting.

Apart from the above-mentioned features, Python has a big list of good features, few are listed below −

It supports functional and structured programming methods as well as OOP.

It can be used as a scripting language or can be compiled to byte-code for building large applications.

It provides very high-level dynamic data types and supports dynamic type checking.

It supports automatic garbage collection.

It can be easily integrated with C, C++, COM, ActiveX, CORBA, and Java.

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7/27/2019 Python Environment Setup

PYTHON - ENVIRONMENT SETUP

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Python is available on a wide variety of platforms including Linux and Mac OS X. Let's understand how to set
up our Python environment.

Local Environment Setup

Open a terminal window and type "python" to find out if it is already installed and which version is installed.

Unix S olaris, Linux, F reeBS D, AI X, H P /U X, S unOS , I RI X, etc.

Win 9x/NT/2000
Macintosh I ntel, P P C , 68K
OS/2
DOS multipleversions
PalmOS
Nokia mobile phones
Windows CE
Acorn/RISC OS
BeOS
Amiga
VMS/OpenVMS
QNX
VxWorks
Psion
Python has also been ported to the Java and .NET virtual machines

Getting Python
The most up-to-date and current source code, binaries, documentation, news, etc., is available on the official
website of Python https://www.python.org/

You can download Python documentation from https://www.python.org/doc/. The documentation is

available in HTML, PDF, and PostScript formats.

Installing Python
Python distribution is available for a wide variety of platforms. You need to download only the binary code
applicable for your platform and install Python.

If the binary code for your platform is not available, you need a C compiler to compile the source code
manually. Compiling the source code offers more flexibility in terms of choice of features that you require in
your installation.

Here is a quick overview of installing Python on various platforms −

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Unix and Linux Installation

Here are the simple steps to install Python on Unix/Linux machine.

Open a Web browser and go to https://www.python.org/downloads/.

Follow the link to download zipped source code available for Unix/Linux.

Download and extract files.

Editing the Modules/Setup file if you want to customize some options.

run ./configure script

make

make install

This installs Python at standard location /usr/local/bin and its libraries at /usr/local/lib/pythonXX where
XX is the version of Python.

Windows Installation
Here are the steps to install Python on Windows machine.

Open a Web browser and go to https://www.python.org/downloads/.

Follow the link for the Windows installer python-XYZ.msi file where XYZ is the version you need to
install.

To use this installer python-XYZ.msi, the Windows system must support Microsoft Installer 2.0. Save
the installer file to your local machine and then run it to find out if your machine supports MSI.

Run the downloaded file. This brings up the Python install wizard, which is really easy to use. Just
accept the default settings, wait until the install is finished, and you are done.

Macintosh Installation

Recent Macs come with Python installed, but it may be several years out of date. See
http://www.python.org/download/mac/ for instructions on getting the current version along with extra tools
to support development on the Mac. For older Mac OS's before Mac OS X 10.3 releasedin2003 , MacPython is
available.

Jack Jansen maintains it and you can have full access to the entire documentation at his website −
http://www.cwi.nl/~jack/macpython.html. You can find complete installation details for Mac OS installation.

Setting up PATH
Programs and other executable files can be in many directories, so operating systems provide a search path
that lists the directories that the OS searches for executables.

The path is stored in an environment variable, which is a named string maintained by the operating system.
This variable contains information available to the command shell and other programs.

The path variable is named as PATH in Unix or Path in Windows U nixiscasesensitive; W indowsisnot .

In Mac OS, the installer handles the path details. To invoke the Python interpreter from any particular
directory, you must add the Python directory to your path.

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Setting path at Unix/Linux

To add the Python directory to the path for a particular session in Unix −

In the csh shell − type setenv PATH "$PATH:/usr/local/bin/python" and press Enter.

In the bash shell Linux − type export PATH="$PATH:/usr/local/bin/python" and press Enter.

In the sh or ksh shell − type PATH="$PATH:/usr/local/bin/python" and press Enter.

Note − /usr/local/bin/python is the path of the Python directory

Setting path at Windows

To add the Python directory to the path for a particular session in Windows −

At the command prompt − type path %path%;C:\Python and press Enter.

Note − C:\Python is the path of the Python directory

Python Environment Variables

Here are important environment variables, which can be recognized by Python −

Sr.No. Variable & Description

1
PYTHONPATH

It has a role similar to PATH. This variable tells the Python interpreter where to locate the
module files imported into a program. It should include the Python source library directory and
the directories containing Python source code. PYTHONPATH is sometimes preset by the
Python installer.

2
PYTHONSTARTUP

It contains the path of an initialization file containing Python source code. It is executed every
time you start the interpreter. It is named as .pythonrc.py in Unix and it contains commands
that load utilities or modify PYTHONPATH.

3
PYTHONCASEOK

It is used in Windows to instruct Python to find the first case-insensitive match in an import
statement. Set this variable to any value to activate it.

4
PYTHONHOME

It is an alternative module search path. It is usually embedded in the PYTHONSTARTUP or

PYTHONPATH directories to make switching module libraries easy.

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Running Python
There are three different ways to start Python −

Interactive Interpreter

You can start Python from Unix, DOS, or any other system that provides you a command-line interpreter or
shell window.

Enter python the command line.

Start coding right away in the interactive interpreter.

$python # Unix/Linux
or
python% # Unix/Linux
or
C:> python # Windows/DOS

Here is the list of all the available command line options −

Sr.No. Option & Description

1
-d

It provides debug output.

2
-O

It generates optimized bytecode resultingin. pyof iles .

3
-S

Do not run import site to look for Python paths on startup.

4
-v

verbose output detailedtraceonimportstatements .

5
-X

disable class-based built-in exceptions justusestrings; obsolete starting with version 1.6.

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6 -c cmd

run Python script sent in as cmd string

7
file

run Python script from given file

Script from the Command-line

A Python script can be executed at command line by invoking the interpreter on your application, as in the
following −

$python script.py # Unix/Linux

or

python% script.py # Unix/Linux

or

C: >python script.py # Windows/DOS

Note − Be sure the file permission mode allows execution.

Integrated Development Environment

You can run Python from a Graphical User Interface GU I environment as well, if you have a GUI application
on your system that supports Python.

Unix − IDLE is the very first Unix IDE for Python.

Windows − PythonWin is the first Windows interface for Python and is an IDE with a GUI.

Macintosh − The Macintosh version of Python along with the IDLE IDE is available from the main
website, downloadable as either MacBinary or BinHex'd files.

If you are not able to set up the environment properly, then you can take help from your system admin. Make
sure the Python environment is properly set up and working perfectly fine.

Note − All the examples given in subsequent chapters are executed with Python 2.4.3 version available on
CentOS flavor of Linux.

We already have set up Python Programming environment online, so that you can execute all the available
examples online at the same time when you are learning theory. Feel free to modify any example and execute
it online.

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7/27/2019 Python Basic Syntax

PYTHON - BASIC SYNTAX

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The Python language has many similarities to Perl, C, and Java. However, there are some definite differences
between the languages.

First Python Program

Let us execute programs in different modes of programming.

Interactive Mode Programming

Invoking the interpreter without passing a script file as a parameter brings up the following prompt −

$ python
Python 2.4.3 (#1, Nov 11 2010, 13:34:43)
[GCC 4.1.2 20080704 (Red Hat 4.1.2-48)] on linux2
Type "help", "copyright", "credits" or "license" for more information.
>>>

Type the following text at the Python prompt and press the Enter −

>>> print "Hello, Python!"

If you are running new version of Python, then you would need to use print statement with parenthesis as in
print " H ello, P ython! " ;. However in Python version 2.4.3, this produces the following result −

Hello, Python!

Script Mode Programming

Invoking the interpreter with a script parameter begins execution of the script and continues until the script is
finished. When the script is finished, the interpreter is no longer active.

Let us write a simple Python program in a script. Python files have extension .py. Type the following source
code in a test.py file −

Live Demo
print "Hello, Python!"

We assume that you have Python interpreter set in PATH variable. Now, try to run this program as follows −

$ python test.py

This produces the following result −

Hello, Python!

Let us try another way to execute a Python script. Here is the modified test.py file −

Live Demo

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#!/usr/bin/python

print "Hello, Python!"

We assume that you have Python interpreter available in /usr/bin directory. Now, try to run this program as
follows −

$ chmod +x test.py # This is to make file executable

$./test.py

This produces the following result −

Hello, Python!

Python Identifiers
A Python identifier is a name used to identify a variable, function, class, module or other object. An identifier
starts with a letter A to Z or a to z or an underscore _ followed by zero or more letters, underscores and digits
0to9.

Python does not allow punctuation characters such as @, $, and % within identifiers. Python is a case sensitive
programming language. Thus, Manpower and manpower are two different identifiers in Python.

Here are naming conventions for Python identifiers −

Class names start with an uppercase letter. All other identifiers start with a lowercase letter.

Starting an identifier with a single leading underscore indicates that the identifier is private.

Starting an identifier with two leading underscores indicates a strongly private identifier.

If the identifier also ends with two trailing underscores, the identifier is a language-defined special
name.

Reserved Words
The following list shows the Python keywords. These are reserved words and you cannot use them as constant
or variable or any other identifier names. All the Python keywords contain lowercase letters only.

and exec not

assert finally or

break for pass

class from print

continue global raise

def if return

del import try

elif in while

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else is with

except lambda yield

Lines and Indentation

Python provides no braces to indicate blocks of code for class and function definitions or flow control. Blocks
of code are denoted by line indentation, which is rigidly enforced.

The number of spaces in the indentation is variable, but all statements within the block must be indented the
same amount. For example −

if True:
print "True"
else:
print "False"

However, the following block generates an error −

if True:
print "Answer"
print "True"
else:
print "Answer"
print "False"

Thus, in Python all the continuous lines indented with same number of spaces would form a block. The
following example has various statement blocks −

Note − Do not try to understand the logic at this point of time. Just make sure you understood various blocks
even if they are without braces.

#!/usr/bin/python

import sys

try:
# open file stream
file = open(file_name, "w")
except IOError:
print "There was an error writing to", file_name
sys.exit()
print "Enter '", file_finish,
print "' When finished"
while file_text != file_finish:
file_text = raw_input("Enter text: ")
if file_text == file_finish:
# close the file
file.close
break
file.write(file_text)
file.write("\n")
file.close()
file_name = raw_input("Enter filename: ")
if len(file_name) == 0:
print "Next time please enter something"
sys.exit()

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try:
file = open(file_name, "r")
except IOError:
print "There was an error reading file"
sys.exit()
file_text = file.read()
file.close()
print file_text

Multi-Line Statements
Statements in Python typically end with a new line. Python does, however, allow the use of the line
continuation character (\) to denote that the line should continue. For example −

total = item_one + \
item_two + \
item_three

Statements contained within the [], {}, or brackets do not need to use the line continuation character. For
example −

days = ['Monday', 'Tuesday', 'Wednesday',

'Thursday', 'Friday']

Quotation in Python
Python accepts single , double " and triple
′ ′′′
or """ quotes to denote string literals, as long as the same type of
quote starts and ends the string.

The triple quotes are used to span the string across multiple lines. For example, all the following are legal −

word = 'word'
sentence = "This is a sentence."
paragraph = """This is a paragraph. It is
made up of multiple lines and sentences."""

Comments in Python
A hash sign # that is not inside a string literal begins a comment. All characters after the # and up to the end
of the physical line are part of the comment and the Python interpreter ignores them.

Live Demo
#!/usr/bin/python

# First comment
print "Hello, Python!" # second comment

This produces the following result −

Hello, Python!

You can type a comment on the same line after a statement or expression −

name = "Madisetti" # This is again comment

You can comment multiple lines as follows −

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# This is a comment.
# This is a comment, too.
# This is a comment, too.
# I said that already.

Following triple-quoted string is also ignored by Python interpreter and can be used as a multiline comments:

'''
This is a multiline
comment.
'''

Using Blank Lines

A line containing only whitespace, possibly with a comment, is known as a blank line and Python totally
ignores it.

In an interactive interpreter session, you must enter an empty physical line to terminate a multiline
statement.

Waiting for the User

The following line of the program displays the prompt, the statement saying “Press the enter key to exit”, and
waits for the user to take action −

#!/usr/bin/python

raw_input("\n\nPress the enter key to exit.")

Here, "\n\n" is used to create two new lines before displaying the actual line. Once the user presses the key,
the program ends. This is a nice trick to keep a console window open until the user is done with an
application.

Multiple Statements on a Single Line

The semicolon ; allows multiple statements on the single line given that neither statement starts a new code
block. Here is a sample snip using the semicolon −

import sys; x = 'foo'; sys.stdout.write(x + '\n')

Multiple Statement Groups as Suites

A group of individual statements, which make a single code block are called suites in Python. Compound or
complex statements, such as if, while, def, and class require a header line and a suite.

Header lines begin the statement withthekeyword and terminate with a colon : and are followed by one or
more lines which make up the suite. For example −

if expression :
suite
elif expression :
suite
else :
suite

Command Line Arguments

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Many programs can be run to provide you with some basic information about how they should be run. Python
enables you to do this with -h −

$ python -h
usage: python [option] ... [-c cmd | -m mod | file | -] [arg] ...
Options and arguments (and corresponding environment variables):
-c cmd : program passed in as string (terminates option list)
-d : debug output from parser (also PYTHONDEBUG=x)
-E : ignore environment variables (such as PYTHONPATH)
-h : print this help message and exit

[ etc. ]

You can also program your script in such a way that it should accept various options. Command Line
Arguments is an advanced topic and should be studied a bit later once you have gone through rest of the
Python concepts.

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7/27/2019 Python Variable Types

PYTHON - VARIABLE TYPES

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Variables are nothing but reserved memory locations to store values. This means that when you create a
variable you reserve some space in memory.

Based on the data type of a variable, the interpreter allocates memory and decides what can be stored in the
reserved memory. Therefore, by assigning different data types to variables, you can store integers, decimals or
characters in these variables.

Assigning Values to Variables

Python variables do not need explicit declaration to reserve memory space. The declaration happens
automatically when you assign a value to a variable. The equal sign = is used to assign values to variables.

The operand to the left of the = operator is the name of the variable and the operand to the right of the =
operator is the value stored in the variable. For example −

Live Demo
#!/usr/bin/python

counter = 100 # An integer assignment

miles = 1000.0 # A floating point
name = "John" # A string

print counter
print miles
print name

Here, 100, 1000.0 and "John" are the values assigned to counter, miles, and name variables, respectively. This
produces the following result −

100
1000.0
John

Multiple Assignment
Python allows you to assign a single value to several variables simultaneously. For example −

a = b = c = 1

Here, an integer object is created with the value 1, and all three variables are assigned to the same memory
location. You can also assign multiple objects to multiple variables. For example −

a,b,c = 1,2,"john"

Here, two integer objects with values 1 and 2 are assigned to variables a and b respectively, and one string
object with the value "john" is assigned to the variable c.

Standard Data Types

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The data stored in memory can be of many types. For example, a person's age is stored as a numeric value and
his or her address is stored as alphanumeric characters. Python has various standard data types that are used
to define the operations possible on them and the storage method for each of them.

Python has five standard data types −

Numbers
String
List
Tuple
Dictionary

Python Numbers
Number data types store numeric values. Number objects are created when you assign a value to them. For
example −

var1 = 1
var2 = 10

You can also delete the reference to a number object by using the del statement. The syntax of the del
statement is −

del var1[,var2[,var3[....,varN]]]]

You can delete a single object or multiple objects by using the del statement. For example −

del var
del var_a, var_b

Python supports four different numerical types −

int signedintegers
long longintegers, theycanalsoberepresentedinoctalandhexadecimal
float f loatingpointrealvalues
complex complexnumbers

Examples

Here are some examples of numbers −

int long float complex

10 51924361L 0.0 3.14j

100 -0x19323L 15.20 45.j

-786 0122L -21.9 9.322e-36j

080 0xDEFABCECBDAECBFBAEl 32.3+e18 .876j

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-0490 535633629843L -90. -.6545+0J

-0x260 -052318172735L -32.54e100 3e+26J

0x69 -4721885298529L 70.2-E12 4.53e-7j

Python allows you to use a lowercase l with long, but it is recommended that you use only an uppercase
L to avoid confusion with the number 1. Python displays long integers with an uppercase L.

A complex number consists of an ordered pair of real floating-point numbers denoted by x + yj, where x
and y are the real numbers and j is the imaginary unit.

Python Strings
Strings in Python are identified as a contiguous set of characters represented in the quotation marks. Python
allows for either pairs of single or double quotes. Subsets of strings can be taken using the slice operator
[]and[:] with indexes starting at 0 in the beginning of the string and working their way from -1 at the end.

The plus + sign is the string concatenation operator and the asterisk ∗ is the repetition operator. For example
−

Live Demo
#!/usr/bin/python

str = 'Hello World!'

print str # Prints complete string

print str[0] # Prints first character of the string
print str[2:5] # Prints characters starting from 3rd to 5th
print str[2:] # Prints string starting from 3rd character
print str * 2 # Prints string two times
print str + "TEST" # Prints concatenated string

This will produce the following result −

Hello World!
H
llo
llo World!
Hello World!Hello World!
Hello World!TEST

Python Lists
Lists are the most versatile of Python's compound data types. A list contains items separated by commas and
enclosed within square brackets [] . To some extent, lists are similar to arrays in C. One difference between
them is that all the items belonging to a list can be of different data type.

The values stored in a list can be accessed using the slice operator []and[:] with indexes starting at 0 in the
beginning of the list and working their way to end -1. The plus + sign is the list concatenation operator, and
the asterisk ∗ is the repetition operator. For example −

#!/usr/bin/python

list = [ 'abcd', 786 , 2.23, 'john', 70.2 ]

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tinylist = [123, 'john']

print list # Prints complete list

print list[0] # Prints first element of the list
print list[1:3] # Prints elements starting from 2nd till 3rd
print list[2:] # Prints elements starting from 3rd element
print tinylist * 2 # Prints list two times
print list + tinylist # Prints concatenated lists

This produce the following result −

['abcd', 786, 2.23, 'john', 70.2]

abcd
[786, 2.23]
[2.23, 'john', 70.2]
[123, 'john', 123, 'john']
['abcd', 786, 2.23, 'john', 70.2, 123, 'john']

Python Tuples
A tuple is another sequence data type that is similar to the list. A tuple consists of a number of values
separated by commas. Unlike lists, however, tuples are enclosed within parentheses.

The main differences between lists and tuples are: Lists are enclosed in brackets [] and their elements and size
can be changed, while tuples are enclosed in parentheses ( ) and cannot be updated. Tuples can be thought of
as read-only lists. For example −

Live Demo
#!/usr/bin/python

tuple = ( 'abcd', 786 , 2.23, 'john', 70.2 )

tinytuple = (123, 'john')

print tuple # Prints complete list

print tuple[0] # Prints first element of the list
print tuple[1:3] # Prints elements starting from 2nd till 3rd
print tuple[2:] # Prints elements starting from 3rd element
print tinytuple * 2 # Prints list two times
print tuple + tinytuple # Prints concatenated lists

This produce the following result −

('abcd', 786, 2.23, 'john', 70.2)

abcd
(786, 2.23)
(2.23, 'john', 70.2)
(123, 'john', 123, 'john')
('abcd', 786, 2.23, 'john', 70.2, 123, 'john')

The following code is invalid with tuple, because we attempted to update a tuple, which is not allowed. Similar
case is possible with lists −

#!/usr/bin/python

tuple = ( 'abcd', 786 , 2.23, 'john', 70.2 )

list = [ 'abcd', 786 , 2.23, 'john', 70.2 ]
tuple[2] = 1000 # Invalid syntax with tuple
list[2] = 1000 # Valid syntax with list

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Python Dictionary
Python's dictionaries are kind of hash table type. They work like associative arrays or hashes found in Perl and
consist of key-value pairs. A dictionary key can be almost any Python type, but are usually numbers or strings.
Values, on the other hand, can be any arbitrary Python object.

Dictionaries are enclosed by curly braces and values can be assigned and accessed using square braces [] . For
example −

Live Demo
#!/usr/bin/python

dict = {}
dict['one'] = "This is one"
dict[2] = "This is two"

tinydict = {'name': 'john','code':6734, 'dept': 'sales'}

print dict['one'] # Prints value for 'one' key

print dict[2] # Prints value for 2 key
print tinydict # Prints complete dictionary
print tinydict.keys() # Prints all the keys
print tinydict.values() # Prints all the values

This produce the following result −

This is one
This is two
{'dept': 'sales', 'code': 6734, 'name': 'john'}
['dept', 'code', 'name']
['sales', 6734, 'john']

Dictionaries have no concept of order among elements. It is incorrect to say that the elements are "out of
order"; they are simply unordered.

Data Type Conversion

Sometimes, you may need to perform conversions between the built-in types. To convert between types, you
simply use the type name as a function.

There are several built-in functions to perform conversion from one data type to another. These functions
return a new object representing the converted value.

Sr.No. Function & Description

1
intx[, base]

Converts x to an integer. base specifies the base if x is a string.

2
longx[, base]

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Converts x to a long integer. base specifies the base if x is a string.

3
floatx

Converts x to a floating-point number.

4
complexreal[, imag]

Creates a complex number.

5
strx

Converts object x to a string representation.

6
reprx

Converts object x to an expression string.

7
evalstr

Evaluates a string and returns an object.

8
tuples

Converts s to a tuple.

9
lists

Converts s to a list.

10
sets

Converts s to a set.

11
dictd

Creates a dictionary. d must be a sequence of key, value tuples.

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12 frozensets

Converts s to a frozen set.

13
chrx

Converts an integer to a character.

14
unichrx

Converts an integer to a Unicode character.

15
ordx

Converts a single character to its integer value.

16
hexx

Converts an integer to a hexadecimal string.

17
octx

Converts an integer to an octal string.

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PYTHON - BASIC OPERATORS

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Operators are the constructs which can manipulate the value of operands.

Consider the expression 4 + 5 = 9. Here, 4 and 5 are called operands and + is called operator.

Types of Operator
Python language supports the following types of operators.

Arithmetic Operators
Comparison Relational Operators
Assignment Operators
Logical Operators
Bitwise Operators
Membership Operators
Identity Operators

Let us have a look on all operators one by one.

Python Arithmetic Operators

Assume variable a holds 10 and variable b holds 20, then −

[ Show Example ]

Operator Description Example

+ Addition Adds values on either side of the operator. a + b = 30

- Subtraction Subtracts right hand operand from left hand a – b = -10

operand.

* Multiplies values on either side of the a * b = 200

Multiplication operator

/ Division Divides left hand operand by right hand b/a=2

operand

% Modulus Divides left hand operand by right hand b%a=0

operand and returns remainder

** Exponent Performs exponential power calculation on a**b =10 to the power 20

operators

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// Floor Division - The division of operands 9//2 = 4 and 9.0//2.0 = 4.0, -11//3 =
where the result is the quotient in which the -4, -11.0//3 = -4.0
digits after the decimal point are removed. But
if one of the operands is negative, the result is
floored, i.e., rounded away from zero
towardsnegativeinf inity −

Python Comparison Operators

These operators compare the values on either sides of them and decide the relation among them. They are also
called Relational operators.

Assume variable a holds 10 and variable b holds 20, then −

[ Show Example ]

Operator Description Example

== If the values of two operands are equal, then a == b is not true.

the condition becomes true.

!= If values of two operands are not equal, then a! = b is true.

condition becomes true.

<> If values of two operands are not equal, then a <> b is true. This is similar to !=
condition becomes true. operator.

> If the value of left operand is greater than the a > b is not true.
value of right operand, then condition
becomes true.

< If the value of left operand is less than the a < b is true.
value of right operand, then condition
becomes true.

>= If the value of left operand is greater than or a >= b is not true.
equal to the value of right operand, then
condition becomes true.

<= If the value of left operand is less than or a <= b is true.

equal to the value of right operand, then
condition becomes true.

Python Assignment Operators

Assume variable a holds 10 and variable b holds 20, then −

[ Show Example ]

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Operator Description Example

= Assigns values from right side operands to left

c = a + b assigns value of a + b into c
side operand

+= Add It adds right operand to the left operand and

c += a is equivalent to c = c + a
AND assign the result to left operand

-= It subtracts right operand from the left

Subtract operand and assign the result to left operand c -= a is equivalent to c = c - a
AND

*= It multiplies right operand with the left

Multiply operand and assign the result to left operand c *= a is equivalent to c = c * a
AND

/= Divide It divides left operand with the right operand c /= a is equivalent to c = c / ac /= a is

AND and assign the result to left operand equivalent to c = c / a

%= It takes modulus using two operands and

Modulus assign the result to left operand c %= a is equivalent to c = c % a
AND

**= Performs exponential power calculation on

Exponent operators and assign value to the left operand c **= a is equivalent to c = c ** a
AND

//= Floor It performs floor division on operators and

c //= a is equivalent to c = c // a
Division assign value to the left operand

Python Bitwise Operators

Bitwise operator works on bits and performs bit by bit operation. Assume if a = 60; and b = 13; Now in binary
format they will be as follows −

a = 0011 1100

b = 0000 1101

-----------------

a&b = 0000 1100

a|b = 0011 1101

a^b = 0011 0001

~a = 1100 0011

There are following Bitwise operators supported by Python language

[ Show Example ]

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Operator Description Example

& Binary Operator copies a bit to the result if it exists in

a&b means00001100
AND both operands

| Binary OR It copies a bit if it exists in either operand. a|b = 61 means00111101

^ Binary It copies the bit if it is set in one operand but

a
b
= 49 means00110001
XOR not both.

~ Binary  a= -61 (means 1100 0011 in 2's

Ones It is unary and has the effect of 'flipping' bits. complement form due to a signed binary
Complement number.

<< Binary The left operands value is moved left by the

a << 2 = 240 means11110000
Left Shift number of bits specified by the right operand.

>> Binary The left operands value is moved right by the

a >> 2 = 15 means00001111
Right Shift number of bits specified by the right operand.

Python Logical Operators

There are following logical operators supported by Python language. Assume variable a holds 10 and variable
b holds 20 then

[ Show Example ]

Operator Description Example

and If both the operands are true then condition aandb is true.
Logical becomes true.
AND

or Logical If any of the two operands are non-zero then aorb is true.
OR condition becomes true.

not Used to reverse the logical state of its operand. Notaandb is false.
Logical
NOT

Used to reverse the logical state of its operand.

Python Membership Operators

Python’s membership operators test for membership in a sequence, such as strings, lists, or tuples. There are
two membership operators as explained below −

[ Show Example ]

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Operator Description Example

in Evaluates to true if it finds a variable in the x in y, here in results in a 1 if x is a member

specified sequence and false otherwise. of sequence y.

not in Evaluates to true if it does not finds a variable x not in y, here not in results in a 1 if x is
in the specified sequence and false otherwise. not a member of sequence y.

Python Identity Operators

Identity operators compare the memory locations of two objects. There are two Identity operators explained
below −

[ Show Example ]

Operator Description Example

is Evaluates to true if the variables on either side

of the operator point to the same object and x is y, here is results in 1 if idx equals idy.
false otherwise.

is not Evaluates to false if the variables on either

x is not y, here is not results in 1 if idx is
side of the operator point to the same object
not equal to idy.
and true otherwise.

Python Operators Precedence

The following table lists all operators from highest precedence to lowest.

[ Show Example ]

Sr.No. Operator & Description

1
**

Exponentiation raisetothepower

2
~+-

Complement, unary plus and minus methodnamesf orthelasttwoare + @and − @

3
* / % //

Multiply, divide, modulo and floor division

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4
+-

Addition and subtraction

5
>> <<

Right and left bitwise shift

6
&

Bitwise 'AND'

7
^|

Bitwise exclusive `OR' and regular `OR'

8
<= < > >=

Comparison operators

9
<> == !=

Equality operators

10
= %= /= //= -= += *= **=

Assignment operators

11
is is not

Identity operators

12
in not in

Membership operators

13
not or and

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Logical operators

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PYTHON - DECISION MAKING

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Decision making is anticipation of conditions occurring while execution of the program and specifying actions
taken according to the conditions.

Decision structures evaluate multiple expressions which produce TRUE or FALSE as outcome. You need to
determine which action to take and which statements to execute if outcome is TRUE or FALSE otherwise.

Following is the general form of a typical decision making structure found in most of the programming
languages −

Python programming language assumes any non-zero and non-null values as TRUE, and if it is either zero
or null, then it is assumed as FALSE value.

Python programming language provides following types of decision making statements. Click the following
links to check their detail.

Sr.No. Statement & Description

1 if statements

An if statement consists of a boolean expression followed by one or more statements.

2 if...else statements

An if statement can be followed by an optional else statement, which executes when the
boolean expression is FALSE.

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3 nested if statements

You can use one if or else if statement inside another if or else if statements.

Let us go through each decision making briefly −

Single Statement Suites

If the suite of an if clause consists only of a single line, it may go on the same line as the header statement.

Here is an example of a one-line if clause −

Live Demo
#!/usr/bin/python

var = 100
if ( var == 100 ) : print "Value of expression is 100"
print "Good bye!"

When the above code is executed, it produces the following result −

Value of expression is 100

Good bye!

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PYTHON - LOOPS
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In general, statements are executed sequentially: The first statement in a function is executed first, followed
by the second, and so on. There may be a situation when you need to execute a block of code several number
of times.

Programming languages provide various control structures that allow for more complicated execution paths.

A loop statement allows us to execute a statement or group of statements multiple times. The following
diagram illustrates a loop statement −

Python programming language provides following types of loops to handle looping requirements.

Sr.No. Loop Type & Description

1 while loop

Repeats a statement or group of statements while a given condition is TRUE. It tests the
condition before executing the loop body.

2 for loop

Executes a sequence of statements multiple times and abbreviates the code that manages the
loop variable.

3 nested loops

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You can use one or more loop inside any another while, for or do..while loop.

Loop Control Statements

Loop control statements change execution from its normal sequence. When execution leaves a scope, all
automatic objects that were created in that scope are destroyed.

Python supports the following control statements. Click the following links to check their detail.

Let us go through the loop control statements briefly

Sr.No. Control Statement & Description

1 break statement

Terminates the loop statement and transfers execution to the statement immediately following
the loop.

2 continue statement

Causes the loop to skip the remainder of its body and immediately retest its condition prior to
reiterating.

3 pass statement

The pass statement in Python is used when a statement is required syntactically but you do not
want any command or code to execute.

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PYTHON - NUMBERS
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Number data types store numeric values. They are immutable data types, means that changing the value of a
number data type results in a newly allocated object.

Number objects are created when you assign a value to them. For example −

var1 = 1
var2 = 10

You can also delete the reference to a number object by using the del statement. The syntax of the del
statement is −

del var1[,var2[,var3[....,varN]]]]

You can delete a single object or multiple objects by using the del statement. For example −

del var
del var_a, var_b

Python supports four different numerical types −

int signedintegers − They are often called just integers or ints, are positive or negative whole numbers
with no decimal point.

long longintegers − Also called longs, they are integers of unlimited size, written like integers and
followed by an uppercase or lowercase L.

float f loatingpointrealvalues − Also called floats, they represent real numbers and are written with a
decimal point dividing the integer and fractional parts. Floats may also be in scientific notation, with E
or e indicating the power of 10 (2.5e2 = 2.5 x 102 = 250).

complex complexnumbers − are of the form a + bJ, where a and b are floats and J orj represents the
square root of -1 whichisanimaginarynumber. The real part of the number is a, and the imaginary part
is b. Complex numbers are not used much in Python programming.

Examples

Here are some examples of numbers

int long float complex

10 51924361L 0.0 3.14j

100 -0x19323L 15.20 45.j

-786 0122L -21.9 9.322e-36j

080 0xDEFABCECBDAECBFBAEL 32.3+e18 .876j

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-0490 535633629843L -90. -.6545+0J

-0x260 -052318172735L -32.54e100 3e+26J

0x69 -4721885298529L 70.2-E12 4.53e-7j

Python allows you to use a lowercase L with long, but it is recommended that you use only an uppercase
L to avoid confusion with the number 1. Python displays long integers with an uppercase L.

A complex number consists of an ordered pair of real floating point numbers denoted by a + bj, where a
is the real part and b is the imaginary part of the complex number.

Number Type Conversion

Python converts numbers internally in an expression containing mixed types to a common type for evaluation.
But sometimes, you need to coerce a number explicitly from one type to another to satisfy the requirements of
an operator or function parameter.

Type intx to convert x to a plain integer.

Type longx to convert x to a long integer.

Type floatx to convert x to a floating-point number.

Type complexx to convert x to a complex number with real part x and imaginary part zero.

Type complexx, y to convert x and y to a complex number with real part x and imaginary part y. x and
y are numeric expressions

Mathematical Functions
Python includes following functions that perform mathematical calculations.

Sr.No. Function & Returns description

1 absx

The absolute value of x: the positive distance between x and zero.

2 ceilx

The ceiling of x: the smallest integer not less than x

3 cmpx, y

-1 if x < y, 0 if x == y, or 1 if x > y

4 expx

The exponential of x: ex

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5 fabsx

The absolute value of x.

6 floorx

The floor of x: the largest integer not greater than x

7 logx

The natural logarithm of x, for x> 0

8 log10x

The base-10 logarithm of x for x> 0.

9 maxx1, x2, . . .

The largest of its arguments: the value closest to positive infinity

10 minx1, x2, . . .

The smallest of its arguments: the value closest to negative infinity

11 modfx

The fractional and integer parts of x in a two-item tuple. Both parts have the same sign as x. The
integer part is returned as a float.

12 powx, y

The value of x**y.

13 roundx[, n]

x rounded to n digits from the decimal point. Python rounds away from zero as a tie-breaker:
round0.5 is 1.0 and round−0.5 is -1.0.

14 sqrtx

The square root of x for x > 0

Random Number Functions

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Random numbers are used for games, simulations, testing, security, and privacy applications. Python includes
following functions that are commonly used.

Sr.No. Function & Description

1 choiceseq

A random item from a list, tuple, or string.

2 randrange [start, ]stop[, step]

A randomly selected element from rangestart, stop, step

3 random

A random float r, such that 0 is less than or equal to r and r is less than 1

4 seed[x]

Sets the integer starting value used in generating random numbers. Call this function before
calling any other random module function. Returns None.

5 shufflelst

Randomizes the items of a list in place. Returns None.

6 uniformx, y

A random float r, such that x is less than or equal to r and r is less than y

Trigonometric Functions
Python includes following functions that perform trigonometric calculations.

Sr.No. Function & Description

1 acosx

Return the arc cosine of x, in radians.

2 asinx

Return the arc sine of x, in radians.

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3 atanx

Return the arc tangent of x, in radians.

4 atan2y, x

Return atany/x , in radians.

5 cosx

Return the cosine of x radians.

6 hypotx, y

Return the Euclidean norm, sqrtx ∗ x + y ∗ y .

7 sinx

Return the sine of x radians.

8 tanx

Return the tangent of x radians.

9 degreesx

Converts angle x from radians to degrees.

10 radiansx

Converts angle x from degrees to radians.

Mathematical Constants
The module also defines two mathematical constants −

Sr.No. Constants & Description

1
pi

The mathematical constant pi.

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The mathematical constant e.

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PYTHON - STRINGS
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Strings are amongst the most popular types in Python. We can create them simply by enclosing characters in
quotes. Python treats single quotes the same as double quotes. Creating strings is as simple as assigning a
value to a variable. For example −

var1 = 'Hello World!'

var2 = "Python Programming"

Accessing Values in Strings

Python does not support a character type; these are treated as strings of length one, thus also considered a
substring.

To access substrings, use the square brackets for slicing along with the index or indices to obtain your
substring. For example −

Live Demo
#!/usr/bin/python

var1 = 'Hello World!'

var2 = "Python Programming"

print "var1[0]: ", var1[0]

print "var2[1:5]: ", var2[1:5]

When the above code is executed, it produces the following result −

var1[0]: H
var2[1:5]: ytho

Updating Strings
You can "update" an existing string by reassigning a variable to another string. The new value can be related
to its previous value or to a completely different string altogether. For example −

Live Demo
#!/usr/bin/python

var1 = 'Hello World!'

print "Updated String :- ", var1[:6] + 'Python'

When the above code is executed, it produces the following result −

Updated String :- Hello Python

Escape Characters
Following table is a list of escape or non-printable characters that can be represented with backslash notation.

An escape character gets interpreted; in a single quoted as well as double quoted strings.

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Backslash Hexadecimal Description

notation character

\a 0x07 Bell or alert

\b 0x08 Backspace

\cx Control-x

\C-x Control-x

\e 0x1b Escape

\f 0x0c Formfeed

\M-\C-x Meta-Control-x

\n 0x0a Newline

\nnn Octal notation, where n is in the range 0.7

\r 0x0d Carriage return

\s 0x20 Space

\t 0x09 Tab

\v 0x0b Vertical tab

\x Character x

\xnn Hexadecimal notation, where n is in the range 0.9, a.f,

or A.F

String Special Operators

Assume string variable a holds 'Hello' and variable b holds 'Python', then −

Operator Description Example

+ Concatenation - Adds values on either side of a + b will give HelloPython

the operator

* Repetition - Creates new strings, a*2 will give -HelloHello

concatenating multiple copies of the same
string

[] Slice - Gives the character from the given a[1] will give e
index

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[:] Range Slice - Gives the characters from the a[1:4] will give ell
given range

in Membership - Returns true if a character H in a will give 1

exists in the given string

not in Membership - Returns true if a character does M not in a will give 1

not exist in the given string

r/R Raw String - Suppresses actual meaning of print r'\n' prints \n and print R'\n'prints \n
Escape characters. The syntax for raw strings
is exactly the same as for normal strings with
the exception of the raw string operator, the
letter "r," which precedes the quotation
marks. The "r" can be lowercase r or
uppercase R and must be placed immediately
preceding the first quote mark.

% Format - Performs String formatting See at next section

String Formatting Operator

One of Python's coolest features is the string format operator %. This operator is unique to strings and makes
up for the pack of having functions from C's printf family. Following is a simple example −

Live Demo
#!/usr/bin/python

print "My name is %s and weight is %d kg!" % ('Zara', 21)

When the above code is executed, it produces the following result −

My name is Zara and weight is 21 kg!

Here is the list of complete set of symbols which can be used along with % −

Format Symbol Conversion

%c character

%s string conversion via str prior to formatting

%i signed decimal integer

%d signed decimal integer

%u unsigned decimal integer

%o octal integer

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%x hexadecimal integer lowercaseletters

%X hexadecimal integer U P P ERcaseletters

%e exponential notation withlowercase e ′ ′

%E exponential notation withU P P ERcase E ′ ′

%f floating point real number

%g the shorter of %f and %e

%G the shorter of %f and %E

Other supported symbols and functionality are listed in the following table −

Symbol Functionality

* argument specifies width or precision

- left justification

+ display the sign

<sp> leave a blank space before a positive number

# add the octal leading zero 0 or hexadecimal leading '0x' or '0X',

′ ′

depending on whether 'x' or 'X' were used.

0 pad from left with zeros insteadof spaces

% '%%' leaves you with a single literal '%'

var mapping variable dictionaryarguments

m.n. m is the minimum total width and n is the number of digits to display
after the decimal point if appl.

Triple Quotes
Python's triple quotes comes to the rescue by allowing strings to span multiple lines, including verbatim
NEWLINEs, TABs, and any other special characters.

The syntax for triple quotes consists of three consecutive single or double quotes.

Live Demo
#!/usr/bin/python

para_str = """this is a long string that is made up of

several lines and non-printable characters such as

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TAB ( \t ) and they will show up that way when displayed.

NEWLINEs within the string, whether explicitly given like
this within the brackets [ \n ], or just a NEWLINE within
the variable assignment will also show up.
"""
print para_str

When the above code is executed, it produces the following result. Note how every single special character has
been converted to its printed form, right down to the last NEWLINE at the end of the string between the "up."
and closing triple quotes. Also note that NEWLINEs occur either with an explicit carriage return at the end of
a line or its escape code \n −

this is a long string that is made up of

several lines and non-printable characters such as
TAB ( ) and they will show up that way when displayed.
NEWLINEs within the string, whether explicitly given like
this within the brackets [
], or just a NEWLINE within
the variable assignment will also show up.

Raw strings do not treat the backslash as a special character at all. Every character you put into a raw string
stays the way you wrote it −

Live Demo
#!/usr/bin/python

print 'C:\\nowhere'

When the above code is executed, it produces the following result −

C:\nowhere

Now let's make use of raw string. We would put expression in r'expression' as follows −

Live Demo
#!/usr/bin/python

print r'C:\\nowhere'

When the above code is executed, it produces the following result −

C:\\nowhere

Unicode String
Normal strings in Python are stored internally as 8-bit ASCII, while Unicode strings are stored as 16-bit
Unicode. This allows for a more varied set of characters, including special characters from most languages in
the world. I'll restrict my treatment of Unicode strings to the following −

Live Demo
#!/usr/bin/python

print u'Hello, world!'

When the above code is executed, it produces the following result −

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Hello, world!

As you can see, Unicode strings use the prefix u, just as raw strings use the prefix r.

Built-in String Methods

Python includes the following built-in methods to manipulate strings −

Sr.No. Methods with Description

1 capitalize

Capitalizes first letter of string

2 centerwidth, f illchar

Returns a space-padded string with the original string centered to a total of width columns.

3 countstr, beg = 0, end = len(string )

Counts how many times str occurs in string or in a substring of string if starting index beg and
ending index end are given.

4 decodeencoding = ′ ′
U T F − 8 , errors =
′
strict
′

Decodes the string using the codec registered for encoding. encoding defaults to the default
string encoding.

5 encodeencoding = ′ ′
U T F − 8 , errors =
′
strict
′

Returns encoded string version of string; on error, default is to raise a ValueError unless errors
is given with 'ignore' or 'replace'.

6 endswithsuf f ix, beg = 0, end = len(string)

Determines if string or a substring of string if startingindexbegandendingindexendaregiven

ends with suffix; returns true if so and false otherwise.

7 expandtabstabsize = 8

Expands tabs in string to multiple spaces; defaults to 8 spaces per tab if tabsize not provided.

8 findstr, beg = 0end = len(string )

Determine if str occurs in string or in a substring of string if starting index beg and ending index
end are given returns index if found and -1 otherwise.

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9 indexstr, beg = 0, end = len(string )

Same as find, but raises an exception if str not found.

10 isalnum

Returns true if string has at least 1 character and all characters are alphanumeric and false
otherwise.

11 isalpha

Returns true if string has at least 1 character and all characters are alphabetic and false
otherwise.

12 isdigit

Returns true if string contains only digits and false otherwise.

13 islower

Returns true if string has at least 1 cased character and all cased characters are in lowercase and
false otherwise.

14 isnumeric

Returns true if a unicode string contains only numeric characters and false otherwise.

15 isspace

Returns true if string contains only whitespace characters and false otherwise.

16 istitle

Returns true if string is properly "titlecased" and false otherwise.

17 isupper

Returns true if string has at least one cased character and all cased characters are in uppercase
and false otherwise.

18 joinseq

Merges concatenates the string representations of elements in sequence seq into a string, with
separator string.

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19 lenstring

Returns the length of the string

20 ljustwidth[, f illchar]

Returns a space-padded string with the original string left-justified to a total of width columns.

21 lower

Converts all uppercase letters in string to lowercase.

22 lstrip

Removes all leading whitespace in string.

23 maketrans

Returns a translation table to be used in translate function.

24 maxstr

Returns the max alphabetical character from the string str.

25 minstr

Returns the min alphabetical character from the string str.

26 replaceold, new[, max]

Replaces all occurrences of old in string with new or at most max occurrences if max given.

27 rfindstr, beg = 0, end = len(string )

Same as find, but search backwards in string.

28 rindexstr, beg = 0, end = len(string )

Same as index, but search backwards in string.

29 rjustwidth, [, f illchar]

Returns a space-padded string with the original string right-justified to a total of width
columns.

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30 rstrip

Removes all trailing whitespace of string.

31 splitstr ="", num = string. count(str)

Splits string according to delimiter str spaceif notprovided and returns list of substrings; split
into at most num substrings if given.

32 splitlinesnum = string. count( \n )

′ ′

Splits string at all ornum NEWLINEs and returns a list of each line with NEWLINEs removed.

33 startswithstr, beg = 0, end = len(string )

Determines if string or a substring of string if startingindexbegandendingindexendaregiven

starts with substring str; returns true if so and false otherwise.

34 strip[chars]

Performs both lstrip and rstrip on string.

35 swapcase

Inverts case for all letters in string.

36 title

Returns "titlecased" version of string, that is, all words begin with uppercase and the rest are
lowercase.

37 translatetable, deletechars =""

Translates string according to translation table str256chars, removing those in the del string.

38 upper

Converts lowercase letters in string to uppercase.

39 zfill width

Returns original string leftpadded with zeros to a total of width characters; intended for
numbers, zfill retains any sign given lessonezero .

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40 isdecimal

Returns true if a unicode string contains only decimal characters and false otherwise.

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PYTHON - LISTS
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The most basic data structure in Python is the sequence. Each element of a sequence is assigned a number -
its position or index. The first index is zero, the second index is one, and so forth.

Python has six built-in types of sequences, but the most common ones are lists and tuples, which we would see
in this tutorial.

There are certain things you can do with all sequence types. These operations include indexing, slicing,
adding, multiplying, and checking for membership. In addition, Python has built-in functions for finding the
length of a sequence and for finding its largest and smallest elements.

Python Lists
The list is a most versatile datatype available in Python which can be written as a list of comma-separated
values items between square brackets. Important thing about a list is that items in a list need not be of the
same type.

Creating a list is as simple as putting different comma-separated values between square brackets. For example
−

list1 = ['physics', 'chemistry', 1997, 2000];

list2 = [1, 2, 3, 4, 5 ];
list3 = ["a", "b", "c", "d"]

Similar to string indices, list indices start at 0, and lists can be sliced, concatenated and so on.

Accessing Values in Lists

To access values in lists, use the square brackets for slicing along with the index or indices to obtain value
available at that index. For example −

Live Demo
#!/usr/bin/python

list1 = ['physics', 'chemistry', 1997, 2000];

list2 = [1, 2, 3, 4, 5, 6, 7 ];
print "list1[0]: ", list1[0]
print "list2[1:5]: ", list2[1:5]

When the above code is executed, it produces the following result −

list1[0]: physics
list2[1:5]: [2, 3, 4, 5]

Updating Lists
You can update single or multiple elements of lists by giving the slice on the left-hand side of the assignment
operator, and you can add to elements in a list with the append method. For example −

Live Demo

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#!/usr/bin/python

list = ['physics', 'chemistry', 1997, 2000];

print "Value available at index 2 : "
print list[2]
list[2] = 2001;
print "New value available at index 2 : "
print list[2]

Note − append method is discussed in subsequent section.

When the above code is executed, it produces the following result −

Value available at index 2 :

1997
New value available at index 2 :
2001

Delete List Elements

To remove a list element, you can use either the del statement if you know exactly which elements you are
deleting or the remove method if you do not know. For example −

Live Demo
#!/usr/bin/python

list1 = ['physics', 'chemistry', 1997, 2000];

print list1
del list1[2];
print "After deleting value at index 2 : "
print list1

When the above code is executed, it produces following result −

['physics', 'chemistry', 1997, 2000]

After deleting value at index 2 :
['physics', 'chemistry', 2000]

Note − remove method is discussed in subsequent section.

Basic List Operations

Lists respond to the + and * operators much like strings; they mean concatenation and repetition here too,
except that the result is a new list, not a string.

In fact, lists respond to all of the general sequence operations we used on strings in the prior chapter.

Python Expression Results Description

len[1, 2, 3] 3 Length

[1, 2, 3] + [4, 5, 6] [1, 2, 3, 4, 5, 6] Concatenation

['Hi!'] * 4 ['Hi!', 'Hi!', 'Hi!', 'Hi!'] Repetition

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3 in [1, 2, 3] True Membership

for x in [1, 2, 3]: print x, 123 Iteration

Indexing, Slicing, and Matrixes

Because lists are sequences, indexing and slicing work the same way for lists as they do for strings.

Assuming following input −

L = ['spam', 'Spam', 'SPAM!']

Python Expression Results Description

L[2] SPAM! Offsets start at zero

L[-2] Spam Negative: count from the right

L[1:] ['Spam', 'SPAM!'] Slicing fetches sections

Built-in List Functions & Methods

Python includes the following list functions −

Sr.No. Function with Description

1 cmplist1, list2

Compares elements of both lists.

2 lenlist

Gives the total length of the list.

3 maxlist

Returns item from the list with max value.

4 minlist

Returns item from the list with min value.

5 listseq

Converts a tuple into list.

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Python includes following list methods

Sr.No. Methods with Description

1 list.appendobj

Appends object obj to list

2 list.countobj

Returns count of how many times obj occurs in list

3 list.extendseq

Appends the contents of seq to list

4 list.indexobj

Returns the lowest index in list that obj appears

5 list.insertindex, obj

Inserts object obj into list at offset index

6 list.popobj = list[−1]

Removes and returns last object or obj from list

7 list.removeobj

Removes object obj from list

8 list.reverse

Reverses objects of list in place

9 list.sort[f unc]

Sorts objects of list, use compare func if given

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PYTHON - TUPLES
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A tuple is a sequence of immutable Python objects. Tuples are sequences, just like lists. The differences
between tuples and lists are, the tuples cannot be changed unlike lists and tuples use parentheses, whereas
lists use square brackets.

Creating a tuple is as simple as putting different comma-separated values. Optionally you can put these
comma-separated values between parentheses also. For example −

tup1 = ('physics', 'chemistry', 1997, 2000);

tup2 = (1, 2, 3, 4, 5 );
tup3 = "a", "b", "c", "d";

The empty tuple is written as two parentheses containing nothing −

tup1 = ();

To write a tuple containing a single value you have to include a comma, even though there is only one value −

tup1 = (50,);

Like string indices, tuple indices start at 0, and they can be sliced, concatenated, and so on.

Accessing Values in Tuples

To access values in tuple, use the square brackets for slicing along with the index or indices to obtain value
available at that index. For example −

Live Demo
#!/usr/bin/python

tup1 = ('physics', 'chemistry', 1997, 2000);

tup2 = (1, 2, 3, 4, 5, 6, 7 );
print "tup1[0]: ", tup1[0];
print "tup2[1:5]: ", tup2[1:5];

When the above code is executed, it produces the following result −

tup1[0]: physics
tup2[1:5]: [2, 3, 4, 5]

Updating Tuples
Tuples are immutable which means you cannot update or change the values of tuple elements. You are able to
take portions of existing tuples to create new tuples as the following example demonstrates −

Live Demo
#!/usr/bin/python

tup1 = (12, 34.56);

tup2 = ('abc', 'xyz');

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# Following action is not valid for tuples

# tup1[0] = 100;

# So let's create a new tuple as follows

tup3 = tup1 + tup2;
print tup3;

When the above code is executed, it produces the following result −

(12, 34.56, 'abc', 'xyz')

Delete Tuple Elements

Removing individual tuple elements is not possible. There is, of course, nothing wrong with putting together
another tuple with the undesired elements discarded.

To explicitly remove an entire tuple, just use the del statement. For example −

Live Demo
#!/usr/bin/python

tup = ('physics', 'chemistry', 1997, 2000);

print tup;
del tup;
print "After deleting tup : ";
print tup;

This produces the following result. Note an exception raised, this is because after del tup tuple does not exist
any more −

('physics', 'chemistry', 1997, 2000)

After deleting tup :
Traceback (most recent call last):
File "test.py", line 9, in <module>
print tup;
NameError: name 'tup' is not defined

Basic Tuples Operations

Tuples respond to the + and * operators much like strings; they mean concatenation and repetition here too,
except that the result is a new tuple, not a string.

In fact, tuples respond to all of the general sequence operations we used on strings in the prior chapter −

Python Expression Results Description

len(1, 2, 3 ) 3 Length

1, 2, 3 + 4, 5, 6 1, 2, 3, 4, 5, 6 Concatenation

′ ′
H i! , *4 ′ ′ ′ ′ ′ ′
H i! , H i! , H i! , H i!
′ ′
Repetition

3 in 1, 2, 3 True Membership

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for x in 1, 2, 3: print x, 123 Iteration

Indexing, Slicing, and Matrixes

Because tuples are sequences, indexing and slicing work the same way for tuples as they do for strings.
Assuming following input −

L = ('spam', 'Spam', 'SPAM!')

Python Expression Results Description

L[2] 'SPAM!' Offsets start at zero

L[-2] 'Spam' Negative: count from the right

L[1:] ['Spam', 'SPAM!'] Slicing fetches sections

No Enclosing Delimiters
Any set of multiple objects, comma-separated, written without identifying symbols, i.e., brackets for lists,
parentheses for tuples, etc., default to tuples, as indicated in these short examples −

Live Demo
#!/usr/bin/python

print 'abc', -4.24e93, 18+6.6j, 'xyz';

x, y = 1, 2;
print "Value of x , y : ", x,y;

When the above code is executed, it produces the following result −

abc -4.24e+93 (18+6.6j) xyz

Value of x , y : 1 2

Built-in Tuple Functions

Python includes the following tuple functions −

Sr.No. Function with Description

1 cmptuple1, tuple2

Compares elements of both tuples.

2 lentuple

Gives the total length of the tuple.

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3 maxtuple

Returns item from the tuple with max value.

4 mintuple

Returns item from the tuple with min value.

5 tupleseq

Converts a list into tuple.

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PYTHON - DICTIONARY
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Each key is separated from its value by a colon :, the items are separated by commas, and the whole thing is
enclosed in curly braces. An empty dictionary without any items is written with just two curly braces, like this:
{}.

Keys are unique within a dictionary while values may not be. The values of a dictionary can be of any type, but
the keys must be of an immutable data type such as strings, numbers, or tuples.

Accessing Values in Dictionary

To access dictionary elements, you can use the familiar square brackets along with the key to obtain its value.
Following is a simple example −

Live Demo
#!/usr/bin/python

dict = {'Name': 'Zara', 'Age': 7, 'Class': 'First'}

print "dict['Name']: ", dict['Name']
print "dict['Age']: ", dict['Age']

When the above code is executed, it produces the following result −

dict['Name']: Zara
dict['Age']: 7

If we attempt to access a data item with a key, which is not part of the dictionary, we get an error as follows −

Live Demo
#!/usr/bin/python

dict = {'Name': 'Zara', 'Age': 7, 'Class': 'First'}

print "dict['Alice']: ", dict['Alice']

When the above code is executed, it produces the following result −

dict['Alice']:
Traceback (most recent call last):
File "test.py", line 4, in <module>
print "dict['Alice']: ", dict['Alice'];
KeyError: 'Alice'

Updating Dictionary
You can update a dictionary by adding a new entry or a key-value pair, modifying an existing entry, or deleting
an existing entry as shown below in the simple example −

Live Demo
#!/usr/bin/python

dict = {'Name': 'Zara', 'Age': 7, 'Class': 'First'}

dict['Age'] = 8; # update existing entry

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dict['School'] = "DPS School"; # Add new entry

print "dict['Age']: ", dict['Age']

print "dict['School']: ", dict['School']

When the above code is executed, it produces the following result −

dict['Age']: 8
dict['School']: DPS School

Delete Dictionary Elements

You can either remove individual dictionary elements or clear the entire contents of a dictionary. You can also
delete entire dictionary in a single operation.

To explicitly remove an entire dictionary, just use the del statement. Following is a simple example −

Live Demo
#!/usr/bin/python

dict = {'Name': 'Zara', 'Age': 7, 'Class': 'First'}

del dict['Name']; # remove entry with key 'Name'
dict.clear(); # remove all entries in dict
del dict ; # delete entire dictionary

print "dict['Age']: ", dict['Age']

print "dict['School']: ", dict['School']

This produces the following result. Note that an exception is raised because after del dict dictionary does not
exist any more −

dict['Age']:
Traceback (most recent call last):
File "test.py", line 8, in <module>
print "dict['Age']: ", dict['Age'];
TypeError: 'type' object is unsubscriptable

Note − del method is discussed in subsequent section.

Properties of Dictionary Keys

Dictionary values have no restrictions. They can be any arbitrary Python object, either standard objects or
user-defined objects. However, same is not true for the keys.

There are two important points to remember about dictionary keys −

a More than one entry per key not allowed. Which means no duplicate key is allowed. When duplicate keys
encountered during assignment, the last assignment wins. For example −

Live Demo
#!/usr/bin/python

dict = {'Name': 'Zara', 'Age': 7, 'Name': 'Manni'}

print "dict['Name']: ", dict['Name']

When the above code is executed, it produces the following result −

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dict['Name']: Manni

b Keys must be immutable. Which means you can use strings, numbers or tuples as dictionary keys but
something like ['key'] is not allowed. Following is a simple example −

Live Demo
#!/usr/bin/python

dict = {['Name']: 'Zara', 'Age': 7}

print "dict['Name']: ", dict['Name']

When the above code is executed, it produces the following result −

Traceback (most recent call last):

File "test.py", line 3, in <module>
dict = {['Name']: 'Zara', 'Age': 7};
TypeError: unhashable type: 'list'

Built-in Dictionary Functions & Methods

Python includes the following dictionary functions −

Sr.No. Function with Description

1 cmpdict1, dict2

Compares elements of both dict.

2 lendict

Gives the total length of the dictionary. This would be equal to the number of items in the
dictionary.

3 strdict

Produces a printable string representation of a dictionary

4 typevariable

Returns the type of the passed variable. If passed variable is dictionary, then it would return a
dictionary type.

Python includes following dictionary methods −

Sr.No. Methods with Description

1 dict.clear

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Removes all elements of dictionary dict

2 dict.copy

Returns a shallow copy of dictionary dict

3 dict.fromkeys

Create a new dictionary with keys from seq and values set to value.

4 dict.getkey, def ault = N one

For key key, returns value or default if key not in dictionary

5 dict.has_keykey

Returns true if key in dictionary dict, false otherwise

6 dict.items

Returns a list of dict's key, value tuple pairs

7 dict.keys

Returns list of dictionary dict's keys

8 dict.setdefaultkey, def ault = N one

Similar to get, but will set dict[key]=default if key is not already in dict

9 dict.updatedict2

Adds dictionary dict2's key-values pairs to dict

10 dict.values

Returns list of dictionary dict's values

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PYTHON - DATE & TIME

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A Python program can handle date and time in several ways. Converting between date formats is a common
chore for computers. Python's time and calendar modules help track dates and times.

What is Tick?
Time intervals are floating-point numbers in units of seconds. Particular instants in time are expressed in
seconds since 12:00am, January 1, 1970epoch.

There is a popular time module available in Python which provides functions for working with times, and for
converting between representations. The function time.time returns the current system time in ticks since
12:00am, January 1, 1970epoch.

Example
Live Demo
#!/usr/bin/python
import time; # This is required to include time module.

ticks = time.time()
print "Number of ticks since 12:00am, January 1, 1970:", ticks

This would produce a result something as follows −

Number of ticks since 12:00am, January 1, 1970: 7186862.73399

Date arithmetic is easy to do with ticks. However, dates before the epoch cannot be represented in this form.
Dates in the far future also cannot be represented this way - the cutoff point is sometime in 2038 for UNIX
and Windows.

What is TimeTuple?
Many of Python's time functions handle time as a tuple of 9 numbers, as shown below −

Index Field Values

0 4-digit year 2008

1 Month 1 to 12

2 Day 1 to 31

3 Hour 0 to 23

4 Minute 0 to 59

5 Second 0 to 61 60or61areleap − seconds

6 Day of Week 0 to 6 0isM onday

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7 Day of year 1 to 366 J ulianday

8 Daylight savings -1, 0, 1, -1 means library determines DST

The above tuple is equivalent to struct_time structure. This structure has following attributes −

Index Attributes Values

0 tm_year 2008

1 tm_mon 1 to 12

2 tm_mday 1 to 31

3 tm_hour 0 to 23

4 tm_min 0 to 59

5 tm_sec 0 to 61 60or61areleap − seconds

6 tm_wday 0 to 6 0isM onday

7 tm_yday 1 to 366 J ulianday

8 tm_isdst -1, 0, 1, -1 means library determines DST

Getting current time

To translate a time instant from a seconds since the epoch floating-point value into a time-tuple, pass the
floating-point value to a function e. g. , localtime that returns a time-tuple with all nine items valid.

Live Demo
#!/usr/bin/python
import time;

localtime = time.localtime(time.time())
print "Local current time :", localtime

This would produce the following result, which could be formatted in any other presentable form −

Local current time : time.struct_time(tm_year=2013, tm_mon=7,

tm_mday=17, tm_hour=21, tm_min=26, tm_sec=3, tm_wday=2, tm_yday=198, tm_isdst=0)

Getting formatted time

You can format any time as per your requirement, but simple method to get time in readable format is asctime
−

Live Demo

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#!/usr/bin/python
import time;

localtime = time.asctime( time.localtime(time.time()) )

print "Local current time :", localtime

This would produce the following result −

Local current time : Tue Jan 13 10:17:09 2009

Getting calendar for a month

The calendar module gives a wide range of methods to play with yearly and monthly calendars. Here, we print
a calendar for a given month J an2008 −

Live Demo
#!/usr/bin/python
import calendar

cal = calendar.month(2008, 1)
print "Here is the calendar:"
print cal

This would produce the following result −

Here is the calendar:

January 2008
Mo Tu We Th Fr Sa Su
1 2 3 4 5 6
7 8 9 10 11 12 13
14 15 16 17 18 19 20
21 22 23 24 25 26 27
28 29 30 31

The time Module

There is a popular time module available in Python which provides functions for working with times and for
converting between representations. Here is the list of all available methods −

Sr.No. Function with Description

1 time.altzone

The offset of the local DST timezone, in seconds west of UTC, if one is defined. This is negative if
the local DST timezone is east of UTC asinW esternEurope, includingtheU K . Only use this if
daylight is nonzero.

2 time.asctime[tupletime]

Accepts a time-tuple and returns a readable 24-character string such as 'Tue Dec 11 18:07:14
2008'.

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3 time.clock

Returns the current CPU time as a floating-point number of seconds. To measure computational
costs of different approaches, the value of time.clock is more useful than that of time.time.

4 time.ctime[secs]

Like asctimelocaltime(secs) and without arguments is like asctime

5 time.gmtime[secs]

Accepts an instant expressed in seconds since the epoch and returns a time-tuple t with the UTC
time. Note : t.tm_isdst is always 0

6 time.localtime[secs]

Accepts an instant expressed in seconds since the epoch and returns a time-tuple t with the local
time t. tm sdstis0or1, dependingonwhetherDS T appliestoinstantsecsbylocalrules .
i

7 time.mktimetupletime

Accepts an instant expressed as a time-tuple in local time and returns a floating-point value with
the instant expressed in seconds since the epoch.

8 time.sleepsecs

Suspends the calling thread for secs seconds.

9 time.strftimef mt[, tupletime]

Accepts an instant expressed as a time-tuple in local time and returns a string representing the
instant as specified by string fmt.

10 time.strptimestr, f mt = ′

Parses str according to format string fmt and returns the instant in time-tuple format.

11 time.time

Returns the current time instant, a floating-point number of seconds since the epoch.

12 time.tzset

Resets the time conversion rules used by the library routines. The environment variable TZ
specifies how this is done.

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Let us go through the functions briefly −

There are following two important attributes available with time module −

Sr.No. Attribute with Description

1
time.timezone

Attribute time.timezone is the offset in seconds of the local time zone withoutDS T from UTC
> 0intheAmericas; <= 0inmostof Europe, Asia, Af rica .

2
time.tzname

Attribute time.tzname is a pair of locale-dependent strings, which are the names of the local
time zone without and with DST, respectively.

The calendar Module

The calendar module supplies calendar-related functions, including functions to print a text calendar for a
given month or year.

By default, calendar takes Monday as the first day of the week and Sunday as the last one. To change this, call
calendar.setfirstweekday function.

Here is a list of functions available with the calendar module −

Sr.No. Function with Description

1
calendar.calendaryear, w = 2, l = 1, c = 6

Returns a multiline string with a calendar for year year formatted into three columns separated
by c spaces. w is the width in characters of each date; each line has length 21*w+18+2*c. l is the
number of lines for each week.

2
calendar.firstweekday

Returns the current setting for the weekday that starts each week. By default, when calendar is
first imported, this is 0, meaning Monday.

3
calendar.isleapyear

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Returns True if year is a leap year; otherwise, False.

4
calendar.leapdaysy1, y2

Returns the total number of leap days in the years within rangey1, y2.

5
calendar.monthyear, month, w = 2, l = 1

Returns a multiline string with a calendar for month month of year year, one line per week plus
two header lines. w is the width in characters of each date; each line has length 7*w+6. l is the
number of lines for each week.

6
calendar.monthcalendaryear, month

Returns a list of lists of ints. Each sublist denotes a week. Days outside month month of year
year are set to 0; days within the month are set to their day-of-month, 1 and up.

7
calendar.monthrangeyear, month

Returns two integers. The first one is the code of the weekday for the first day of the month
month in year year; the second one is the number of days in the month. Weekday codes are 0
M onday to 6 S unday ; month numbers are 1 to 12.

8
calendar.prcalyear, w = 2, l = 1, c = 6

Like print calendar.calendaryear, w, l, c .

9
calendar.prmonthyear, month, w = 2, l = 1

Like print calendar.monthyear, month, w, l .

10
calendar.setfirstweekdayweekday

Sets the first day of each week to weekday code weekday. Weekday codes are 0 M onday to 6
S unday .

11
calendar.timegmtupletime

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The inverse of time.gmtime: accepts a time instant in time-tuple form and returns the same
instant as a floating-point number of seconds since the epoch.

12
calendar.weekdayyear, month, day

Returns the weekday code for the given date. Weekday codes are 0 M onday to 6 S unday ; month
numbers are 1 J anuary to 12 December.

Other Modules & Functions

If you are interested, then here you would find a list of other important modules and functions to play with
date & time in Python −

The datetime Module

The pytz Module

The dateutil Module

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Python - Functions
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A function is a block of organized, reusable code that is used to perform a single,

related action. Functions provide better modularity for your application and a high
degree of code reusing.

As you already know, Python gives you many built-in functions like print(), etc. but you
can also create your own functions. These functions are called user-defined functions.

Defining a Function
You can define functions to provide the required functionality. Here are simple rules to
define a function in Python.

Function blocks begin with the keyword def followed by the function name and
parentheses ( ( ) ).

Any input parameters or arguments should be placed within these parentheses.

You can also define parameters inside these parentheses.

The first statement of a function can be an optional statement - the
documentation string of the function or docstring.

The code block within every function starts with a colon (:) and is indented.

The statement return [expression] exits a function, optionally passing back an

expression to the caller. A return statement with no arguments is the same as
return None.

Syntax
def functionname( parameters ):
"function_docstring"
function_suite
return [expression]

By default, parameters have a positional behavior and you need to inform them in the
same order that they were defined.

Example
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The following function takes a string as input parameter and prints it on standard
screen.

def printme( str ):

"This prints a passed string into this function"
print str
return

Calling a Function
Defining a function only gives it a name, specifies the parameters that are to be
included in the function and structures the blocks of code.

Once the basic structure of a function is finalized, you can execute it by calling it from
another function or directly from the Python prompt. Following is the example to call
printme() function −
 Live Demo
#!/usr/bin/python

# Function definition is here

def printme( str ):
"This prints a passed string into this function"
print str
return;

# Now you can call printme function

printme("I'm first call to user defined function!")
printme("Again second call to the same function")

When the above code is executed, it produces the following result −

I'm first call to user defined function!

Again second call to the same function

Pass by reference vs value

All parameters (arguments) in the Python language are passed by reference. It means
if you change what a parameter refers to within a function, the change also reflects
back in the calling function. For example −
 Live Demo
#!/usr/bin/python

# Function definition is here

def changeme( mylist ):
"This changes a passed list into this function"
mylist.append([1,2,3,4]);
print "Values inside the function: ", mylist
return

# Now you can call changeme function

mylist = [10,20,30];
changeme( mylist );
print "Values outside the function: ", mylist

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Here, we are maintaining reference of the passed object and appending values in the
same object. So, this would produce the following result −

Values inside the function: [10, 20, 30, [1, 2, 3, 4]]

Values outside the function: [10, 20, 30, [1, 2, 3, 4]]

There is one more example where argument is being passed by reference and the
reference is being overwritten inside the called function.
 Live Demo
#!/usr/bin/python

# Function definition is here

def changeme( mylist ):
"This changes a passed list into this function"
mylist = [1,2,3,4]; # This would assig new reference in mylist
print "Values inside the function: ", mylist
return

# Now you can call changeme function

mylist = [10,20,30];
changeme( mylist );
print "Values outside the function: ", mylist

The parameter mylist is local to the function changeme. Changing mylist within the
function does not affect mylist. The function accomplishes nothing and finally this would
produce the following result −

Values inside the function: [1, 2, 3, 4]

Values outside the function: [10, 20, 30]

Function Arguments
You can call a function by using the following types of formal arguments −

Required arguments

Keyword arguments

Default arguments

Variable-length arguments

Required arguments
Required arguments are the arguments passed to a function in correct positional order.
Here, the number of arguments in the function call should match exactly with the
function definition.

To call the function printme(), you definitely need to pass one argument, otherwise it
gives a syntax error as follows −
 Live Demo
#!/usr/bin/python

# Function definition is here

def printme( str ):
"This prints a passed string into this function"
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print str
return;

# Now you can call printme function

printme()

When the above code is executed, it produces the following result −

Traceback (most recent call last):

File "test.py", line 11, in <module>
printme();
TypeError: printme() takes exactly 1 argument (0 given)

Keyword arguments
Keyword arguments are related to the function calls. When you use keyword arguments
in a function call, the caller identifies the arguments by the parameter name.

This allows you to skip arguments or place them out of order because the Python
interpreter is able to use the keywords provided to match the values with parameters.
You can also make keyword calls to the printme() function in the following ways −
 Live Demo
#!/usr/bin/python

# Function definition is here

def printme( str ):
"This prints a passed string into this function"
print str
return;

# Now you can call printme function

printme( str = "My string")

When the above code is executed, it produces the following result −

My string

The following example gives more clear picture. Note that the order of parameters does
not matter.
 Live Demo
#!/usr/bin/python

# Function definition is here

def printinfo( name, age ):
"This prints a passed info into this function"
print "Name: ", name
print "Age ", age
return;

# Now you can call printinfo function

printinfo( age=50, name="miki" )

When the above code is executed, it produces the following result −

Name: miki
Age 50

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Default arguments
A default argument is an argument that assumes a default value if a value is not
provided in the function call for that argument. The following example gives an idea on
default arguments, it prints default age if it is not passed −
 Live Demo
#!/usr/bin/python

# Function definition is here

def printinfo( name, age = 35 ):
"This prints a passed info into this function"
print "Name: ", name
print "Age ", age
return;

# Now you can call printinfo function

printinfo( age=50, name="miki" )
printinfo( name="miki" )

When the above code is executed, it produces the following result −

Name: miki
Age 50
Name: miki
Age 35

Variable-length arguments
You may need to process a function for more arguments than you specified while
defining the function. These arguments are called variable-length arguments and are
not named in the function definition, unlike required and default arguments.

Syntax for a function with non-keyword variable arguments is this −

def functionname([formal_args,] *var_args_tuple ):

"function_docstring"
function_suite
return [expression]

An asterisk (*) is placed before the variable name that holds the values of all
nonkeyword variable arguments. This tuple remains empty if no additional arguments
are specified during the function call. Following is a simple example −
 Live Demo
#!/usr/bin/python

# Function definition is here

def printinfo( arg1, *vartuple ):
"This prints a variable passed arguments"
print "Output is: "
print arg1
for var in vartuple:
print var
return;

# Now you can call printinfo function

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printinfo( 10 )
printinfo( 70, 60, 50 )

When the above code is executed, it produces the following result −

Output is:
10
Output is:
70
60
50

The Anonymous Functions

These functions are called anonymous because they are not declared in the standard
manner by using the def keyword. You can use the lambda keyword to create small
anonymous functions.

Lambda forms can take any number of arguments but return just one value in
the form of an expression. They cannot contain commands or multiple
expressions.

An anonymous function cannot be a direct call to print because lambda requires

an expression

Lambda functions have their own local namespace and cannot access variables
other than those in their parameter list and those in the global namespace.

Although it appears that lambda's are a one-line version of a function, they are
not equivalent to inline statements in C or C++, whose purpose is by passing
function stack allocation during invocation for performance reasons.

Syntax
The syntax of lambda functions contains only a single statement, which is as follows −

lambda [arg1 [,arg2,.....argn]]:expression

Following is the example to show how lambda form of function works −

 Live Demo
#!/usr/bin/python

# Function definition is here

sum = lambda arg1, arg2: arg1 + arg2;

# Now you can call sum as a function

print "Value of total : ", sum( 10, 20 )
print "Value of total : ", sum( 20, 20 )

When the above code is executed, it produces the following result −

Value of total : 30
Value of total : 40

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The return Statement

The statement return [expression] exits a function, optionally passing back an
expression to the caller. A return statement with no arguments is the same as return
None.

All the above examples are not returning any value. You can return a value from a
function as follows −
 Live Demo
#!/usr/bin/python

# Function definition is here

def sum( arg1, arg2 ):
# Add both the parameters and return them."
total = arg1 + arg2
print "Inside the function : ", total
return total;

# Now you can call sum function

total = sum( 10, 20 );
print "Outside the function : ", total

When the above code is executed, it produces the following result −

Inside the function : 30

Outside the function : 30

Scope of Variables
All variables in a program may not be accessible at all locations in that program. This
depends on where you have declared a variable.

The scope of a variable determines the portion of the program where you can access a
particular identifier. There are two basic scopes of variables in Python −

Global variables

Local variables

Global vs. Local variables

Variables that are defined inside a function body have a local scope, and those defined
outside have a global scope.

This means that local variables can be accessed only inside the function in which they
are declared, whereas global variables can be accessed throughout the program body
by all functions. When you call a function, the variables declared inside it are brought
into scope. Following is a simple example −
 Live Demo
#!/usr/bin/python

total = 0; # This is global variable.

# Function definition is here

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def sum( arg1, arg2 ):

# Add both the parameters and return them."
total = arg1 + arg2; # Here total is local variable.
print "Inside the function local total : ", total
return total;

# Now you can call sum function

sum( 10, 20 );
print "Outside the function global total : ", total

When the above code is executed, it produces the following result −

Inside the function local total : 30

Outside the function global total : 0

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PYTHON - MODULES
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A module allows you to logically organize your Python code. Grouping related code into a module makes the
code easier to understand and use. A module is a Python object with arbitrarily named attributes that you can
bind and reference.

Simply, a module is a file consisting of Python code. A module can define functions, classes and variables. A
module can also include runnable code.

Example
The Python code for a module named aname normally resides in a file named aname.py. Here's an example
of a simple module, support.py

def print_func( par ):

print "Hello : ", par
return

The import Statement

You can use any Python source file as a module by executing an import statement in some other Python source
file. The import has the following syntax −

import module1[, module2[,... moduleN]

When the interpreter encounters an import statement, it imports the module if the module is present in the
search path. A search path is a list of directories that the interpreter searches before importing a module. For
example, to import the module support.py, you need to put the following command at the top of the script −

#!/usr/bin/python

# Import module support

import support

# Now you can call defined function that module as follows

support.print_func("Zara")

When the above code is executed, it produces the following result −

Hello : Zara

A module is loaded only once, regardless of the number of times it is imported. This prevents the module
execution from happening over and over again if multiple imports occur.

The from...import Statement

Python's from statement lets you import specific attributes from a module into the current namespace. The
from...import has the following syntax −

from modname import name1[, name2[, ... nameN]]

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For example, to import the function fibonacci from the module fib, use the following statement −

from fib import fibonacci

This statement does not import the entire module fib into the current namespace; it just introduces the item
fibonacci from the module fib into the global symbol table of the importing module.

The from...import * Statement

It is also possible to import all names from a module into the current namespace by using the following
import statement −

from modname import *

This provides an easy way to import all the items from a module into the current namespace; however, this
statement should be used sparingly.

Locating Modules
When you import a module, the Python interpreter searches for the module in the following sequences −

The current directory.

If the module isn't found, Python then searches each directory in the shell variable PYTHONPATH.

If all else fails, Python checks the default path. On UNIX, this default path is normally
/usr/local/lib/python/.

The module search path is stored in the system module sys as the sys.path variable. The sys.path variable
contains the current directory, PYTHONPATH, and the installation-dependent default.

The PYTHONPATH Variable

The PYTHONPATH is an environment variable, consisting of a list of directories. The syntax of
PYTHONPATH is the same as that of the shell variable PATH.

Here is a typical PYTHONPATH from a Windows system −

set PYTHONPATH = c:\python20\lib;

And here is a typical PYTHONPATH from a UNIX system −

set PYTHONPATH = /usr/local/lib/python

Namespaces and Scoping

Variables are names identif iers that map to objects. A namespace is a dictionary of variable names keys and
their corresponding objects values.

A Python statement can access variables in a local namespace and in the global namespace. If a local and a
global variable have the same name, the local variable shadows the global variable.

Each function has its own local namespace. Class methods follow the same scoping rule as ordinary functions.

Python makes educated guesses on whether variables are local or global. It assumes that any variable assigned
a value in a function is local.

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Therefore, in order to assign a value to a global variable within a function, you must first use the global
statement.

The statement global VarName tells Python that VarName is a global variable. Python stops searching the
local namespace for the variable.

For example, we define a variable Money in the global namespace. Within the function Money, we assign
Money a value, therefore Python assumes Money as a local variable. However, we accessed the value of the
local variable Money before setting it, so an UnboundLocalError is the result. Uncommenting the global
statement fixes the problem.

#!/usr/bin/python

Money = 2000
def AddMoney():
# Uncomment the following line to fix the code:
# global Money
Money = Money + 1

print Money
AddMoney()
print Money

The dir Function

The dir built-in function returns a sorted list of strings containing the names defined by a module.

The list contains the names of all the modules, variables and functions that are defined in a module. Following
is a simple example −

Live Demo
#!/usr/bin/python

# Import built-in module math

import math

content = dir(math)
print content

When the above code is executed, it produces the following result −

['__doc__', '__file__', '__name__', 'acos', 'asin', 'atan',

'atan2', 'ceil', 'cos', 'cosh', 'degrees', 'e', 'exp',
'fabs', 'floor', 'fmod', 'frexp', 'hypot', 'ldexp', 'log',
'log10', 'modf', 'pi', 'pow', 'radians', 'sin', 'sinh',
'sqrt', 'tan', 'tanh']

Here, the special string variable __name__ is the module's name, and __file__ is the filename from which
the module was loaded.

The globals and locals Functions

The globals and locals functions can be used to return the names in the global and local namespaces
depending on the location from where they are called.

If locals is called from within a function, it will return all the names that can be accessed locally from that
function.

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If globals is called from within a function, it will return all the names that can be accessed globally from that
function.

The return type of both these functions is dictionary. Therefore, names can be extracted using the keys
function.

The reload Function

When the module is imported into a script, the code in the top-level portion of a module is executed only once.

Therefore, if you want to reexecute the top-level code in a module, you can use the reload function. The reload
function imports a previously imported module again. The syntax of the reload function is this −

reload(module_name)

Here, module_name is the name of the module you want to reload and not the string containing the module
name. For example, to reload hello module, do the following −

reload(hello)

Packages in Python
A package is a hierarchical file directory structure that defines a single Python application environment that
consists of modules and subpackages and sub-subpackages, and so on.

Consider a file Pots.py available in Phone directory. This file has following line of source code −

#!/usr/bin/python

def Pots():
print "I'm Pots Phone"

Similar way, we have another two files having different functions with the same name as above −

Phone/Isdn.py file having function Isdn

Phone/G3.py file having function G3

Now, create one more file __init__.py in Phone directory −

Phone/__init__.py

To make all of your functions available when you've imported Phone, you need to put explicit import
statements in __init__.py as follows −

from Pots import Pots

from Isdn import Isdn
from G3 import G3

After you add these lines to __init__.py, you have all of these classes available when you import the Phone
package.

#!/usr/bin/python

# Now import your Phone Package.

import Phone

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Phone.Pots()
Phone.Isdn()
Phone.G3()

When the above code is executed, it produces the following result −

I'm Pots Phone

I'm 3G Phone
I'm ISDN Phone

In the above example, we have taken example of a single functions in each file, but you can keep multiple
functions in your files. You can also define different Python classes in those files and then you can create your
packages out of those classes.

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PYTHON - FILES I/O

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This chapter covers all the basic I/O functions available in Python. For more functions, please refer to
standard Python documentation.

Printing to the Screen

The simplest way to produce output is using the print statement where you can pass zero or more expressions
separated by commas. This function converts the expressions you pass into a string and writes the result to
standard output as follows −

Live Demo
#!/usr/bin/python

print "Python is really a great language,", "isn't it?"

This produces the following result on your standard screen −

Python is really a great language, isn't it?

Reading Keyboard Input

Python provides two built-in functions to read a line of text from standard input, which by default comes from
the keyboard. These functions are −

raw_input
input

The raw_input Function

The raw_input[prompt] function reads one line from standard input and returns it as a string
removingthetrailingnewline.

#!/usr/bin/python

str = raw_input("Enter your input: ")

print "Received input is : ", str

This prompts you to enter any string and it would display same string on the screen. When I typed "Hello
Python!", its output is like this −

Enter your input: Hello Python

Received input is : Hello Python

The input Function

The input[prompt] function is equivalent to raw_input, except that it assumes the input is a valid Python
expression and returns the evaluated result to you.

#!/usr/bin/python

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str = input("Enter your input: ")

print "Received input is : ", str

This would produce the following result against the entered input −

Enter your input: [x*5 for x in range(2,10,2)]

Recieved input is : [10, 20, 30, 40]

Opening and Closing Files

Until now, you have been reading and writing to the standard input and output. Now, we will see how to use
actual data files.

Python provides basic functions and methods necessary to manipulate files by default. You can do most of the
file manipulation using a file object.

The open Function

Before you can read or write a file, you have to open it using Python's built-in open function. This function
creates a file object, which would be utilized to call other support methods associated with it.

Syntax

file object = open(file_name [, access_mode][, buffering])

Here are parameter details −

file_name − The file_name argument is a string value that contains the name of the file that you want
to access.

access_mode − The access_mode determines the mode in which the file has to be opened, i.e., read,
write, append, etc. A complete list of possible values is given below in the table. This is optional
parameter and the default file access mode is read r.

buffering − If the buffering value is set to 0, no buffering takes place. If the buffering value is 1, line
buffering is performed while accessing a file. If you specify the buffering value as an integer greater than
1, then buffering action is performed with the indicated buffer size. If negative, the buffer size is the
system defaultdef aultbehavior.

Here is a list of the different modes of opening a file −

Sr.No. Modes & Description

1
r

Opens a file for reading only. The file pointer is placed at the beginning of the file. This is the
default mode.

2
rb

Opens a file for reading only in binary format. The file pointer is placed at the beginning of the
file. This is the default mode.

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3
r+

Opens a file for both reading and writing. The file pointer placed at the beginning of the file.

4
rb+

Opens a file for both reading and writing in binary format. The file pointer placed at the
beginning of the file.

5
w

Opens a file for writing only. Overwrites the file if the file exists. If the file does not exist, creates
a new file for writing.

6
wb

Opens a file for writing only in binary format. Overwrites the file if the file exists. If the file does
not exist, creates a new file for writing.

7
w+

Opens a file for both writing and reading. Overwrites the existing file if the file exists. If the file
does not exist, creates a new file for reading and writing.

8
wb+

Opens a file for both writing and reading in binary format. Overwrites the existing file if the file
exists. If the file does not exist, creates a new file for reading and writing.

9
a

Opens a file for appending. The file pointer is at the end of the file if the file exists. That is, the
file is in the append mode. If the file does not exist, it creates a new file for writing.

10
ab

Opens a file for appending in binary format. The file pointer is at the end of the file if the file
exists. That is, the file is in the append mode. If the file does not exist, it creates a new file for

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writing.

11
a+

Opens a file for both appending and reading. The file pointer is at the end of the file if the file
exists. The file opens in the append mode. If the file does not exist, it creates a new file for
reading and writing.

12
ab+

Opens a file for both appending and reading in binary format. The file pointer is at the end of the
file if the file exists. The file opens in the append mode. If the file does not exist, it creates a new
file for reading and writing.

The file Object Attributes

Once a file is opened and you have one file object, you can get various information related to that file.

Here is a list of all attributes related to file object −

Sr.No. Attribute & Description

1
file.closed

Returns true if file is closed, false otherwise.

2
file.mode

Returns access mode with which file was opened.

3
file.name

Returns name of the file.

4
file.softspace

Returns false if space explicitly required with print, true otherwise.

Example

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Live Demo
#!/usr/bin/python

# Open a file
fo = open("foo.txt", "wb")
print "Name of the file: ", fo.name
print "Closed or not : ", fo.closed
print "Opening mode : ", fo.mode
print "Softspace flag : ", fo.softspace

This produces the following result −

Name of the file: foo.txt

Closed or not : False
Opening mode : wb
Softspace flag : 0

The close Method

The close method of a file object flushes any unwritten information and closes the file object, after which no
more writing can be done.

Python automatically closes a file when the reference object of a file is reassigned to another file. It is a good
practice to use the close method to close a file.

Syntax

fileObject.close()

Example

Live Demo
#!/usr/bin/python

# Open a file
fo = open("foo.txt", "wb")
print "Name of the file: ", fo.name

# Close opend file

fo.close()

This produces the following result −

Name of the file: foo.txt

Reading and Writing Files

The file object provides a set of access methods to make our lives easier. We would see how to use read and
write methods to read and write files.

The write Method

The write method writes any string to an open file. It is important to note that Python strings can have binary
data and not just text.

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The write method does not add a newline character to the end of the string −
′ ′
\n

Syntax

fileObject.write(string)

Here, passed parameter is the content to be written into the opened file.

Example

#!/usr/bin/python

# Open a file
fo = open("foo.txt", "wb")
fo.write( "Python is a great language.\nYeah its great!!\n")

# Close opend file

fo.close()

The above method would create foo.txt file and would write given content in that file and finally it would close
that file. If you would open this file, it would have following content.

Python is a great language.

Yeah its great!!

The read Method

The read method reads a string from an open file. It is important to note that Python strings can have binary
data. apart from text data.

Syntax

fileObject.read([count])

Here, passed parameter is the number of bytes to be read from the opened file. This method starts reading
from the beginning of the file and if count is missing, then it tries to read as much as possible, maybe until the
end of file.

Example

Let's take a file foo.txt, which we created above.

#!/usr/bin/python

# Open a file
fo = open("foo.txt", "r+")
str = fo.read(10);
print "Read String is : ", str
# Close opend file
fo.close()

This produces the following result −

Read String is : Python is

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File Positions
The tell method tells you the current position within the file; in other words, the next read or write will occur
at that many bytes from the beginning of the file.

The seekof f set[, f rom] method changes the current file position. The offset argument indicates the number of
bytes to be moved. The from argument specifies the reference position from where the bytes are to be moved.

If from is set to 0, it means use the beginning of the file as the reference position and 1 means use the current
position as the reference position and if it is set to 2 then the end of the file would be taken as the reference
position.

Example

Let us take a file foo.txt, which we created above.

#!/usr/bin/python

# Open a file
fo = open("foo.txt", "r+")
str = fo.read(10)
print "Read String is : ", str

# Check current position

position = fo.tell()
print "Current file position : ", position

# Reposition pointer at the beginning once again

position = fo.seek(0, 0);
str = fo.read(10)
print "Again read String is : ", str
# Close opend file
fo.close()

This produces the following result −

Read String is : Python is

Current file position : 10
Again read String is : Python is

Renaming and Deleting Files

Python os module provides methods that help you perform file-processing operations, such as renaming and
deleting files.

To use this module you need to import it first and then you can call any related functions.

The rename Method

The rename method takes two arguments, the current filename and the new filename.

Syntax

os.rename(current_file_name, new_file_name)

Example

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Following is the example to rename an existing file test1.txt −

#!/usr/bin/python
import os

# Rename a file from test1.txt to test2.txt

os.rename( "test1.txt", "test2.txt" )

The remove Method

You can use the remove method to delete files by supplying the name of the file to be deleted as the argument.

Syntax

os.remove(file_name)

Example

Following is the example to delete an existing file test2.txt −

#!/usr/bin/python
import os

# Delete file test2.txt

os.remove("text2.txt")

Directories in Python
All files are contained within various directories, and Python has no problem handling these too. The os
module has several methods that help you create, remove, and change directories.

The mkdir Method

You can use the mkdir method of the os module to create directories in the current directory. You need to
supply an argument to this method which contains the name of the directory to be created.

Syntax

os.mkdir("newdir")

Example

Following is the example to create a directory test in the current directory −

#!/usr/bin/python
import os

# Create a directory "test"

os.mkdir("test")

The chdir Method

You can use the chdir method to change the current directory. The chdir method takes an argument, which is
the name of the directory that you want to make the current directory.

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Syntax

os.chdir("newdir")

Example
Following is the example to go into "/home/newdir" directory −

#!/usr/bin/python
import os

# Changing a directory to "/home/newdir"

os.chdir("/home/newdir")

The getcwd Method

The getcwd method displays the current working directory.

Syntax

os.getcwd()

Example

Following is the example to give current directory −

#!/usr/bin/python
import os

# This would give location of the current directory

os.getcwd()

The rmdir Method

The rmdir method deletes the directory, which is passed as an argument in the method.

Before removing a directory, all the contents in it should be removed.

Syntax

os.rmdir('dirname')

Example

Following is the example to remove "/tmp/test" directory. It is required to give fully qualified name of the
directory, otherwise it would search for that directory in the current directory.

#!/usr/bin/python
import os

# This would remove "/tmp/test" directory.

os.rmdir( "/tmp/test" )

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File & Directory Related Methods

There are three important sources, which provide a wide range of utility methods to handle and manipulate
files & directories on Windows and Unix operating systems. They are as follows −

File Object Methods: The file object provides functions to manipulate files.

OS Object Methods: This provides methods to process files as well as directories.

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PYTHON - EXCEPTIONS HANDLING

https://www.tutorialspoint.com/python/python_exceptions.htm Copyright © tutorialspoint.com

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Python provides two very important features to handle any unexpected error in your Python programs and to
add debugging capabilities in them −

Exception Handling − This would be covered in this tutorial. Here is a list standard Exceptions
available in Python: Standard Exceptions.

Assertions − This would be covered in Assertions in Python tutorial.

List of Standard Exceptions −

Sr.No. Exception Name & Description

1
Exception

Base class for all exceptions

2
StopIteration

Raised when the next method of an iterator does not point to any object.

3
SystemExit

Raised by the sys.exit function.

4
StandardError

Base class for all built-in exceptions except StopIteration and SystemExit.

5
ArithmeticError

Base class for all errors that occur for numeric calculation.

6
OverflowError

Raised when a calculation exceeds maximum limit for a numeric type.

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FloatingPointError

Raised when a floating point calculation fails.

8
ZeroDivisionError

Raised when division or modulo by zero takes place for all numeric types.

9
AssertionError

Raised in case of failure of the Assert statement.

10
AttributeError

Raised in case of failure of attribute reference or assignment.

11
EOFError

Raised when there is no input from either the raw_input or input function and the end of file is
reached.

12
ImportError

Raised when an import statement fails.

13
KeyboardInterrupt

Raised when the user interrupts program execution, usually by pressing Ctrl+c.

14
LookupError

Base class for all lookup errors.

15
IndexError

Raised when an index is not found in a sequence.

16
KeyError

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Raised when the specified key is not found in the dictionary.

17
NameError

Raised when an identifier is not found in the local or global namespace.

18
UnboundLocalError

Raised when trying to access a local variable in a function or method but no value has been
assigned to it.

19
EnvironmentError

Base class for all exceptions that occur outside the Python environment.

20
IOError

Raised when an input/ output operation fails, such as the print statement or the open function
when trying to open a file that does not exist.

21
IOError

Raised for operating system-related errors.

22
SyntaxError

Raised when there is an error in Python syntax.

23
IndentationError

Raised when indentation is not specified properly.

24
SystemError

Raised when the interpreter finds an internal problem, but when this error is encountered the
Python interpreter does not exit.

25
SystemExit

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Raised when Python interpreter is quit by using the sys.exit function. If not handled in the code,
causes the interpreter to exit.

26
TypeError

Raised when an operation or function is attempted that is invalid for the specified data type.

27
ValueError

Raised when the built-in function for a data type has the valid type of arguments, but the
arguments have invalid values specified.

28
RuntimeError

Raised when a generated error does not fall into any category.

29
NotImplementedError

Raised when an abstract method that needs to be implemented in an inherited class is not
actually implemented.

Assertions in Python

An assertion is a sanity-check that you can turn on or turn off when you are done with your testing of the
program.

The easiest way to think of an assertion is to liken it to a raise-if statement

ortobemoreaccurate, araise − if − notstatement . An expression is tested, and if the result comes up false, an

exception is raised.

Assertions are carried out by the assert statement, the newest keyword to Python, introduced in version 1.5.

Programmers often place assertions at the start of a function to check for valid input, and after a function call
to check for valid output.

The assert Statement

When it encounters an assert statement, Python evaluates the accompanying expression, which is hopefully
true. If the expression is false, Python raises an AssertionError exception.

The syntax for assert is −

assert Expression[, Arguments]

If the assertion fails, Python uses ArgumentExpression as the argument for the AssertionError.
AssertionError exceptions can be caught and handled like any other exception using the try-except statement,

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but if not handled, they will terminate the program and produce a traceback.

Example

Here is a function that converts a temperature from degrees Kelvin to degrees Fahrenheit. Since zero degrees
Kelvin is as cold as it gets, the function bails out if it sees a negative temperature −

Live Demo
#!/usr/bin/python
def KelvinToFahrenheit(Temperature):
assert (Temperature >= 0),"Colder than absolute zero!"
return ((Temperature-273)*1.8)+32
print KelvinToFahrenheit(273)
print int(KelvinToFahrenheit(505.78))
print KelvinToFahrenheit(-5)

When the above code is executed, it produces the following result −

32.0
451
Traceback (most recent call last):
File "test.py", line 9, in <module>
print KelvinToFahrenheit(-5)
File "test.py", line 4, in KelvinToFahrenheit
assert (Temperature >= 0),"Colder than absolute zero!"
AssertionError: Colder than absolute zero!

What is Exception?
An exception is an event, which occurs during the execution of a program that disrupts the normal flow of the
program's instructions. In general, when a Python script encounters a situation that it cannot cope with, it
raises an exception. An exception is a Python object that represents an error.

When a Python script raises an exception, it must either handle the exception immediately otherwise it
terminates and quits.

Handling an exception
If you have some suspicious code that may raise an exception, you can defend your program by placing the
suspicious code in a try: block. After the try: block, include an except: statement, followed by a block of code
which handles the problem as elegantly as possible.

Syntax

Here is simple syntax of try....except...else blocks −

try:
You do your operations here;
......................
except ExceptionI:
If there is ExceptionI, then execute this block.
except ExceptionII:
If there is ExceptionII, then execute this block.
......................
else:
If there is no exception then execute this block.

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Here are few important points about the above-mentioned syntax −

A single try statement can have multiple except statements. This is useful when the try block contains
statements that may throw different types of exceptions.

You can also provide a generic except clause, which handles any exception.

After the except clauses, you can include an else-clause. The code in the else-block executes if the code
in the try: block does not raise an exception.

The else-block is a good place for code that does not need the try: block's protection.

Example

This example opens a file, writes content in the, file and comes out gracefully because there is no problem at
all −

Live Demo
#!/usr/bin/python

try:
fh = open("testfile", "w")
fh.write("This is my test file for exception handling!!")
except IOError:
print "Error: can\'t find file or read data"
else:
print "Written content in the file successfully"
fh.close()

This produces the following result −

Written content in the file successfully

Example

This example tries to open a file where you do not have write permission, so it raises an exception −

Live Demo
#!/usr/bin/python

try:
fh = open("testfile", "r")
fh.write("This is my test file for exception handling!!")
except IOError:
print "Error: can\'t find file or read data"
else:
print "Written content in the file successfully"

This produces the following result −

Error: can't find file or read data

The except Clause with No Exceptions

You can also use the except statement with no exceptions defined as follows −

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try:
You do your operations here;
......................
except:
If there is any exception, then execute this block.
......................
else:
If there is no exception then execute this block.

This kind of a try-except statement catches all the exceptions that occur. Using this kind of try-except
statement is not considered a good programming practice though, because it catches all exceptions but does
not make the programmer identify the root cause of the problem that may occur.

The except Clause with Multiple Exceptions

You can also use the same except statement to handle multiple exceptions as follows −

try:
You do your operations here;
......................
except(Exception1[, Exception2[,...ExceptionN]]]):
If there is any exception from the given exception list,
then execute this block.
......................
else:
If there is no exception then execute this block.

The try-finally Clause

You can use a finally: block along with a try: block. The finally block is a place to put any code that must
execute, whether the try-block raised an exception or not. The syntax of the try-finally statement is this −

try:
You do your operations here;
......................
Due to any exception, this may be skipped.
finally:
This would always be executed.
......................

You cannot use else clause as well along with a finally clause.

Example

Live Demo
#!/usr/bin/python

try:
fh = open("testfile", "w")
fh.write("This is my test file for exception handling!!")
finally:
print "Error: can\'t find file or read data"

If you do not have permission to open the file in writing mode, then this will produce the following result −

Error: can't find file or read data

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Same example can be written more cleanly as follows −

Live Demo
#!/usr/bin/python

try:
fh = open("testfile", "w")
try:
fh.write("This is my test file for exception handling!!")
finally:
print "Going to close the file"
fh.close()
except IOError:
print "Error: can\'t find file or read data"

When an exception is thrown in the try block, the execution immediately passes to the finally block. After all
the statements in the finally block are executed, the exception is raised again and is handled in the except
statements if present in the next higher layer of the try-except statement.

Argument of an Exception
An exception can have an argument, which is a value that gives additional information about the problem.
The contents of the argument vary by exception. You capture an exception's argument by supplying a variable
in the except clause as follows −

try:
You do your operations here;
......................
except ExceptionType, Argument:
You can print value of Argument here...

If you write the code to handle a single exception, you can have a variable follow the name of the exception in
the except statement. If you are trapping multiple exceptions, you can have a variable follow the tuple of the
exception.

This variable receives the value of the exception mostly containing the cause of the exception. The variable can
receive a single value or multiple values in the form of a tuple. This tuple usually contains the error string, the
error number, and an error location.

Example

Following is an example for a single exception −

Live Demo
#!/usr/bin/python

# Define a function here.

def temp_convert(var):
try:
return int(var)
except ValueError, Argument:
print "The argument does not contain numbers\n", Argument

# Call above function here.

temp_convert("xyz");

This produces the following result −

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The argument does not contain numbers

invalid literal for int() with base 10: 'xyz'

Raising an Exceptions
You can raise exceptions in several ways by using the raise statement. The general syntax for the raise
statement is as follows.

Syntax

raise [Exception [, args [, traceback]]]

Here, Exception is the type of exception f orexample, N ameError and argument is a value for the exception
argument. The argument is optional; if not supplied, the exception argument is None.

The final argument, traceback, is also optional andrarelyusedinpractice , and if present, is the traceback
object used for the exception.

Example

An exception can be a string, a class or an object. Most of the exceptions that the Python core raises are
classes, with an argument that is an instance of the class. Defining new exceptions is quite easy and can be
done as follows −

def functionName( level ):

if level < 1:
raise "Invalid level!", level
# The code below to this would not be executed
# if we raise the exception

Note: In order to catch an exception, an "except" clause must refer to the same exception thrown either class
object or simple string. For example, to capture above exception, we must write the except clause as follows −

try:
Business Logic here...
except "Invalid level!":
Exception handling here...
else:
Rest of the code here...

User-Defined Exceptions
Python also allows you to create your own exceptions by deriving classes from the standard built-in
exceptions.

Here is an example related to RuntimeError. Here, a class is created that is subclassed from RuntimeError.
This is useful when you need to display more specific information when an exception is caught.

In the try block, the user-defined exception is raised and caught in the except block. The variable e is used to
create an instance of the class Networkerror.

class Networkerror(RuntimeError):
def __init__(self, arg):
self.args = arg

So once you defined above class, you can raise the exception as follows −

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try:
raise Networkerror("Bad hostname")
except Networkerror,e:
print e.args

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PYTHON - OBJECT ORIENTED

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Python has been an object-oriented language since it existed. Because of this, creating and using classes and
objects are downright easy. This chapter helps you become an expert in using Python's object-oriented
programming support.

If you do not have any previous experience with object-oriented OO programming, you may want to consult
an introductory course on it or at least a tutorial of some sort so that you have a grasp of the basic concepts.

However, here is small introduction of Object-Oriented Programming OOP to bring you at speed −

Overview of OOP Terminology

Class − A user-defined prototype for an object that defines a set of attributes that characterize any
object of the class. The attributes are data members classvariablesandinstancevariables and methods,
accessed via dot notation.

Class variable − A variable that is shared by all instances of a class. Class variables are defined within
a class but outside any of the class's methods. Class variables are not used as frequently as instance
variables are.

Data member − A class variable or instance variable that holds data associated with a class and its
objects.

Function overloading − The assignment of more than one behavior to a particular function. The
operation performed varies by the types of objects or arguments involved.

Instance variable − A variable that is defined inside a method and belongs only to the current
instance of a class.

Inheritance − The transfer of the characteristics of a class to other classes that are derived from it.

Instance − An individual object of a certain class. An object obj that belongs to a class Circle, for
example, is an instance of the class Circle.

Instantiation − The creation of an instance of a class.

Method − A special kind of function that is defined in a class definition.

Object − A unique instance of a data structure that's defined by its class. An object comprises both data
members classvariablesandinstancevariables and methods.

Operator overloading − The assignment of more than one function to a particular operator.

Creating Classes
The class statement creates a new class definition. The name of the class immediately follows the keyword
class followed by a colon as follows −

class ClassName:
'Optional class documentation string'
class_suite

The class has a documentation string, which can be accessed via ClassName.__doc__.

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The class_suite consists of all the component statements defining class members, data attributes and
functions.

Example

Following is the example of a simple Python class −

class Employee:
'Common base class for all employees'
empCount = 0

def __init__(self, name, salary):

self.name = name
self.salary = salary
Employee.empCount += 1

def displayCount(self):
print "Total Employee %d" % Employee.empCount

def displayEmployee(self):
print "Name : ", self.name, ", Salary: ", self.salary

The variable empCount is a class variable whose value is shared among all instances of a this class. This
can be accessed as Employee.empCount from inside the class or outside the class.

The first method __init__ is a special method, which is called class constructor or initialization method
that Python calls when you create a new instance of this class.

You declare other class methods like normal functions with the exception that the first argument to
each method is self. Python adds the self argument to the list for you; you do not need to include it
when you call the methods.

Creating Instance Objects

To create instances of a class, you call the class using class name and pass in whatever arguments its __init__
method accepts.

"This would create first object of Employee class"

emp1 = Employee("Zara", 2000)
"This would create second object of Employee class"
emp2 = Employee("Manni", 5000)

Accessing Attributes
You access the object's attributes using the dot operator with object. Class variable would be accessed using
class name as follows −

emp1.displayEmployee()
emp2.displayEmployee()
print "Total Employee %d" % Employee.empCount

Now, putting all the concepts together −

Live Demo
#!/usr/bin/python

class Employee:

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'Common base class for all employees'

empCount = 0

def __init__(self, name, salary):

self.name = name
self.salary = salary
Employee.empCount += 1

def displayCount(self):
print "Total Employee %d" % Employee.empCount

def displayEmployee(self):
print "Name : ", self.name, ", Salary: ", self.salary

"This would create first object of Employee class"

emp1 = Employee("Zara", 2000)
"This would create second object of Employee class"
emp2 = Employee("Manni", 5000)
emp1.displayEmployee()
emp2.displayEmployee()
print "Total Employee %d" % Employee.empCount

When the above code is executed, it produces the following result −

Name : Zara ,Salary: 2000

Name : Manni ,Salary: 5000
Total Employee 2

You can add, remove, or modify attributes of classes and objects at any time −

emp1.age = 7 # Add an 'age' attribute.

emp1.age = 8 # Modify 'age' attribute.
del emp1.age # Delete 'age' attribute.

Instead of using the normal statements to access attributes, you can use the following functions −

The getattrobj, name[, def ault] − to access the attribute of object.

The hasattrobj, name − to check if an attribute exists or not.

The setattrobj, name, value − to set an attribute. If attribute does not exist, then it would be created.

The delattrobj, name − to delete an attribute.

hasattr(emp1, 'age') # Returns true if 'age' attribute exists

getattr(emp1, 'age') # Returns value of 'age' attribute
setattr(emp1, 'age', 8) # Set attribute 'age' at 8
delattr(empl, 'age') # Delete attribute 'age'

Built-In Class Attributes

Every Python class keeps following built-in attributes and they can be accessed using dot operator like any
other attribute −

__dict__ − Dictionary containing the class's namespace.

__doc__ − Class documentation string or none, if undefined.

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__name__ − Class name.

__module__ − Module name in which the class is defined. This attribute is "__main__" in
interactive mode.

__bases__ − A possibly empty tuple containing the base classes, in the order of their occurrence in
the base class list.

For the above class let us try to access all these attributes −

Live Demo
#!/usr/bin/python

class Employee:
'Common base class for all employees'
empCount = 0

def __init__(self, name, salary):

self.name = name
self.salary = salary
Employee.empCount += 1

def displayCount(self):
print "Total Employee %d" % Employee.empCount

def displayEmployee(self):
print "Name : ", self.name, ", Salary: ", self.salary

print "Employee.__doc__:", Employee.__doc__

print "Employee.__name__:", Employee.__name__
print "Employee.__module__:", Employee.__module__
print "Employee.__bases__:", Employee.__bases__
print "Employee.__dict__:", Employee.__dict__

When the above code is executed, it produces the following result −

Employee.__doc__: Common base class for all employees

Employee.__name__: Employee
Employee.__module__: __main__
Employee.__bases__: ()
Employee.__dict__: {'__module__': '__main__', 'displayCount':
<function displayCount at 0xb7c84994>, 'empCount': 2,
'displayEmployee': <function displayEmployee at 0xb7c8441c>,
'__doc__': 'Common base class for all employees',
'__init__': <function __init__ at 0xb7c846bc>}

Destroying Objects GarbageC ollection

Python deletes unneeded objects built − intypesorclassinstances automatically to free the memory space.
The process by which Python periodically reclaims blocks of memory that no longer are in use is termed
Garbage Collection.

Python's garbage collector runs during program execution and is triggered when an object's reference count
reaches zero. An object's reference count changes as the number of aliases that point to it changes.

An object's reference count increases when it is assigned a new name or placed in a container
list, tuple, ordictionary . The object's reference count decreases when it's deleted with del, its reference is

reassigned, or its reference goes out of scope. When an object's reference count reaches zero, Python collects it
automatically.

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a = 40 # Create object <40>

b = a # Increase ref. count of <40>
c = [b] # Increase ref. count of <40>

del a # Decrease ref. count of <40>

b = 100 # Decrease ref. count of <40>
c[0] = -1 # Decrease ref. count of <40>

You normally will not notice when the garbage collector destroys an orphaned instance and reclaims its space.
But a class can implement the special method __del__, called a destructor, that is invoked when the instance
is about to be destroyed. This method might be used to clean up any non memory resources used by an
instance.

Example

This __del__ destructor prints the class name of an instance that is about to be destroyed −

Live Demo
#!/usr/bin/python

class Point:
def __init__( self, x=0, y=0):
self.x = x
self.y = y
def __del__(self):
class_name = self.__class__.__name__
print class_name, "destroyed"

pt1 = Point()
pt2 = pt1
pt3 = pt1
print id(pt1), id(pt2), id(pt3) # prints the ids of the obejcts
del pt1
del pt2
del pt3

When the above code is executed, it produces following result −

3083401324 3083401324 3083401324

Point destroyed

Note − Ideally, you should define your classes in separate file, then you should import them in your main
program file using import statement.

Class Inheritance
Instead of starting from scratch, you can create a class by deriving it from a preexisting class by listing the
parent class in parentheses after the new class name.

The child class inherits the attributes of its parent class, and you can use those attributes as if they were
defined in the child class. A child class can also override data members and methods from the parent.

Syntax

Derived classes are declared much like their parent class; however, a list of base classes to inherit from is
given after the class name −

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class SubClassName (ParentClass1[, ParentClass2, ...]):

'Optional class documentation string'
class_suite

Example

Live Demo
#!/usr/bin/python

class Parent: # define parent class

parentAttr = 100
def __init__(self):
print "Calling parent constructor"

def parentMethod(self):
print 'Calling parent method'

def setAttr(self, attr):

Parent.parentAttr = attr

def getAttr(self):
print "Parent attribute :", Parent.parentAttr

class Child(Parent): # define child class

def __init__(self):
print "Calling child constructor"

def childMethod(self):
print 'Calling child method'

c = Child() # instance of child

c.childMethod() # child calls its method
c.parentMethod() # calls parent's method
c.setAttr(200) # again call parent's method
c.getAttr() # again call parent's method

When the above code is executed, it produces the following result −

Calling child constructor

Calling child method
Calling parent method
Parent attribute : 200

Similar way, you can drive a class from multiple parent classes as follows −

class A: # define your class A

.....

class B: # define your class B

.....

class C(A, B): # subclass of A and B

.....

You can use issubclass or isinstance functions to check a relationships of two classes and instances.

The issubclasssub, sup boolean function returns true if the given subclass sub is indeed a subclass of
the superclass sup.

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The isinstanceobj, C lass boolean function returns true if obj is an instance of class Class or is an
instance of a subclass of Class

Overriding Methods
You can always override your parent class methods. One reason for overriding parent's methods is because
you may want special or different functionality in your subclass.

Example

Live Demo
#!/usr/bin/python

class Parent: # define parent class

def myMethod(self):
print 'Calling parent method'

class Child(Parent): # define child class

def myMethod(self):
print 'Calling child method'

c = Child() # instance of child

c.myMethod() # child calls overridden method

When the above code is executed, it produces the following result −

Calling child method

Base Overloading Methods

Following table lists some generic functionality that you can override in your own classes −

Sr.No. Method, Description & Sample Call

1
__init__ self [, args. . . ]

Constructor withanyoptionalarguments

Sample Call : obj = classNameargs

2
__del__self

Destructor, deletes an object

Sample Call : del obj

3
__repr__self

Evaluable string representation

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Sample Call : reprobj

4
__str__self

Printable string representation

Sample Call : strobj

5
__cmp__ self , x

Object comparison

Sample Call : cmpobj, x

Overloading Operators
Suppose you have created a Vector class to represent two-dimensional vectors, what happens when you use
the plus operator to add them? Most likely Python will yell at you.

You could, however, define the __add__ method in your class to perform vector addition and then the plus
operator would behave as per expectation −

Example

Live Demo
#!/usr/bin/python

class Vector:
def __init__(self, a, b):
self.a = a
self.b = b

def __str__(self):
return 'Vector (%d, %d)' % (self.a, self.b)

def __add__(self,other):
return Vector(self.a + other.a, self.b + other.b)

v1 = Vector(2,10)
v2 = Vector(5,-2)
print v1 + v2

When the above code is executed, it produces the following result −

Vector(7,8)

Data Hiding
An object's attributes may or may not be visible outside the class definition. You need to name attributes with
a double underscore prefix, and those attributes then are not be directly visible to outsiders.

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Example

Live Demo
#!/usr/bin/python

class JustCounter:
__secretCount = 0

def count(self):
self.__secretCount += 1
print self.__secretCount

counter = JustCounter()
counter.count()
counter.count()
print counter.__secretCount

When the above code is executed, it produces the following result −

1
2
Traceback (most recent call last):
File "test.py", line 12, in <module>
print counter.__secretCount
AttributeError: JustCounter instance has no attribute '__secretCount'

Python protects those members by internally changing the name to include the class name. You can access
such attributes as object._className__attrName. If you would replace your last line as following, then it
works for you −

.........................
print counter._JustCounter__secretCount

When the above code is executed, it produces the following result −

1
2
2

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PYTHON - REGULAR EXPRESSIONS

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A regular expression is a special sequence of characters that helps you match or find other strings or sets of
strings, using a specialized syntax held in a pattern. Regular expressions are widely used in UNIX world.

The module re provides full support for Perl-like regular expressions in Python. The re module raises the
exception re.error if an error occurs while compiling or using a regular expression.

We would cover two important functions, which would be used to handle regular expressions. But a small
thing first: There are various characters, which would have special meaning when they are used in regular
expression. To avoid any confusion while dealing with regular expressions, we would use Raw Strings as
r'expression'.

The match Function

This function attempts to match RE pattern to string with optional flags.

Here is the syntax for this function −

re.match(pattern, string, flags=0)

Here is the description of the parameters −

Sr.No. Parameter & Description

1
pattern

This is the regular expression to be matched.

2
string

This is the string, which would be searched to match the pattern at the beginning of string.

3
flags

You can specify different flags using bitwise OR |. These are modifiers, which are listed in the
table below.

The re.match function returns a match object on success, None on failure. We usegroupnum or groups
function of match object to get matched expression.

Sr.No. Match Object Method & Description

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1
groupnum = 0

This method returns entire match orspecif icsubgroupnum

2
groups

This method returns all matching subgroups in a tuple emptyif thereweren tany
′

Example

Live Demo
#!/usr/bin/python
import re

line = "Cats are smarter than dogs"

matchObj = re.match( r'(.*) are (.*?) .*', line, re.M|re.I)

if matchObj:
print "matchObj.group() : ", matchObj.group()
print "matchObj.group(1) : ", matchObj.group(1)
print "matchObj.group(2) : ", matchObj.group(2)
else:
print "No match!!"

When the above code is executed, it produces following result −

matchObj.group() : Cats are smarter than dogs

matchObj.group(1) : Cats
matchObj.group(2) : smarter

The search Function

This function searches for first occurrence of RE pattern within string with optional flags.

Here is the syntax for this function −

re.search(pattern, string, flags=0)

Here is the description of the parameters −

Sr.No. Parameter & Description

1
pattern

This is the regular expression to be matched.

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2 string

This is the string, which would be searched to match the pattern anywhere in the string.

3
flags

You can specify different flags using bitwise OR |. These are modifiers, which are listed in the
table below.

The re.search function returns a match object on success, none on failure. We use groupnum or groups
function of match object to get matched expression.

Sr.No. Match Object Methods & Description

1
groupnum = 0

This method returns entire match orspecif icsubgroupnum

2
groups

This method returns all matching subgroups in a tuple emptyif thereweren tany′

Example

Live Demo
#!/usr/bin/python
import re

line = "Cats are smarter than dogs";

searchObj = re.search( r'(.*) are (.*?) .*', line, re.M|re.I)

if searchObj:
print "searchObj.group() : ", searchObj.group()
print "searchObj.group(1) : ", searchObj.group(1)
print "searchObj.group(2) : ", searchObj.group(2)
else:
print "Nothing found!!"

When the above code is executed, it produces following result −

searchObj.group() : Cats are smarter than dogs

searchObj.group(1) : Cats
searchObj.group(2) : smarter

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Matching Versus Searching

Python offers two different primitive operations based on regular expressions: match checks for a match only
at the beginning of the string, while search checks for a match anywhere in the string
thisiswhatP erldoesbydef ault .

Example

Live Demo
#!/usr/bin/python
import re

line = "Cats are smarter than dogs";

matchObj = re.match( r'dogs', line, re.M|re.I)

if matchObj:
print "match --> matchObj.group() : ", matchObj.group()
else:
print "No match!!"

searchObj = re.search( r'dogs', line, re.M|re.I)

if searchObj:
print "search --> searchObj.group() : ", searchObj.group()
else:
print "Nothing found!!"

When the above code is executed, it produces the following result −

No match!!
search --> matchObj.group() : dogs

Search and Replace

One of the most important re methods that use regular expressions is sub.

Syntax

re.sub(pattern, repl, string, max=0)

This method replaces all occurrences of the RE pattern in string with repl, substituting all occurrences unless
max provided. This method returns modified string.

Example

Live Demo
#!/usr/bin/python
import re

phone = "2004-959-559 # This is Phone Number"

# Delete Python-style comments

num = re.sub(r'#.*$', "", phone)
print "Phone Num : ", num

# Remove anything other than digits

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num = re.sub(r'\D', "", phone)

print "Phone Num : ", num

When the above code is executed, it produces the following result −

Phone Num : 2004-959-559

Phone Num : 2004959559

Regular Expression Modifiers: Option Flags

Regular expression literals may include an optional modifier to control various aspects of matching. The
modifiers are specified as an optional flag. You can provide multiple modifiers using exclusive OR |, as shown
previously and may be represented by one of these −

Sr.No. Modifier & Description

1
re.I

Performs case-insensitive matching.

2
re.L

Interprets words according to the current locale. This interpretation affects the alphabetic group
\wand\W , as well as word boundary behavior\band\B .

3
re.M

Makes $ match the end of a line (not just the end of the string) and makes ^ match the start of
any line (not just the start of the string).

4
re.S

Makes a period dot match any character, including a newline.

5
re.U

Interprets letters according to the Unicode character set. This flag affects the behavior of \w,
\W, \b, \B.

6
re.X

Permits "cuter" regular expression syntax. It ignores whitespace

exceptinsideaset[]orwhenescapedbyabackslash and treats unescaped # as a comment marker.

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Regular Expression Patterns

Except for control characters, +?. ∗ ( [ ] { } | \), all characters match themselves. You can escape a control
$

character by preceding it with a backslash.

Following table lists the regular expression syntax that is available in Python −

Sr.No. Pattern & Description

1
^

Matches beginning of line.

2
$

Matches end of line.

3
.

Matches any single character except newline. Using m option allows it to match newline as well.

4
[...]

Matches any single character in brackets.

5
[^...]

Matches any single character not in brackets

6
re*

Matches 0 or more occurrences of preceding expression.

7
re+

Matches 1 or more occurrence of preceding expression.

8
re?

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Matches 0 or 1 occurrence of preceding expression.

9
re{ n}

Matches exactly n number of occurrences of preceding expression.

10
re{ n,}

Matches n or more occurrences of preceding expression.

11
re{ n, m}

Matches at least n and at most m occurrences of preceding expression.

12
a| b

Matches either a or b.

13
re

Groups regular expressions and remembers matched text.

14
?imx

Temporarily toggles on i, m, or x options within a regular expression. If in parentheses, only

that area is affected.

15
? − imx

Temporarily toggles off i, m, or x options within a regular expression. If in parentheses, only

that area is affected.

16
? : re

Groups regular expressions without remembering matched text.

17
?imx : re

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Temporarily toggles on i, m, or x options within parentheses.

18
? − imx : re

Temporarily toggles off i, m, or x options within parentheses.

19
?#...

Comment.

20
? = re

Specifies position using a pattern. Doesn't have a range.

21
?!re

Specifies position using pattern negation. Doesn't have a range.

22
? > re

Matches independent pattern without backtracking.

23
\w

Matches word characters.

24
\W

Matches nonword characters.

25
\s

Matches whitespace. Equivalent to [\t\n\r\f].

26
\S

Matches nonwhitespace.

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27 \d

Matches digits. Equivalent to [0-9].

28
\D

Matches nondigits.

29
\A

Matches beginning of string.

30
\Z

Matches end of string. If a newline exists, it matches just before newline.

31
\z

Matches end of string.

32
\G

Matches point where last match finished.

33
\b

Matches word boundaries when outside brackets. Matches backspace 0x08 when inside
brackets.

34
\B

Matches nonword boundaries.

35
\n, \t, etc.

Matches newlines, carriage returns, tabs, etc.

36
\1...\9

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Matches nth grouped subexpression.

37
\10

Matches nth grouped subexpression if it matched already. Otherwise refers to the octal
representation of a character code.

Regular Expression Examples

Literal characters

Sr.No. Example & Description

1
python

Match "python".

Character classes

Sr.No. Example & Description

1
[Pp]ython

Match "Python" or "python"

2
rub[ye]

Match "ruby" or "rube"

3
[aeiou]

Match any one lowercase vowel

4
[0-9]

Match any digit; same as [0123456789]

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[a-z]

Match any lowercase ASCII letter

6
[A-Z]

Match any uppercase ASCII letter

7
[a-zA-Z0-9]

Match any of the above

8
[^aeiou]

Match anything other than a lowercase vowel

9
[^0-9]

Match anything other than a digit

Special Character Classes

Sr.No. Example & Description

1
.

Match any character except newline

2
\d

Match a digit: [0-9]

3
\D

Match a nondigit: [^0-9]

4
\s

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Match a whitespace character: [ \t\r\n\f]

5
\S

Match nonwhitespace: [^ \t\r\n\f]

6
\w

Match a single word character: [A-Za-z0-9_]

7
\W

Match a nonword character: [^A-Za-z0-9_]

Repetition Cases

Sr.No. Example & Description

1
ruby?

Match "rub" or "ruby": the y is optional

2
ruby*

Match "rub" plus 0 or more ys

3
ruby+

Match "rub" plus 1 or more ys

4
\d{3}

Match exactly 3 digits

5
\d{3,}

Match 3 or more digits

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6
\d{3,5}

Match 3, 4, or 5 digits

Nongreedy repetition
This matches the smallest number of repetitions −

Sr.No. Example & Description

1
<.*>

Greedy repetition: matches "<python>perl>"

2
<.*?>

Nongreedy: matches "<python>" in "<python>perl>"

Grouping with Parentheses

Sr.No. Example & Description

1
\D\d+

No group: + repeats \d

2
\D\d +

Grouped: + repeats \D\d pair

3
[P p]ython(, ?)+

Match "Python", "Python, python, python", etc.

Backreferences
This matches a previously matched group again −

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Sr.No. Example & Description

1
[P p] ython&\1ails

Match python&pails or Python&Pails

2
′
[ "] [^\1]*\1

Single or double-quoted string. \1 matches whatever the 1st group matched. \2 matches
whatever the 2nd group matched, etc.

Alternatives

Sr.No. Example & Description

1
python|perl

Match "python" or "perl"

2
ruby|le )

Match "ruby" or "ruble"

3
Python! + |\?

"Python" followed by one or more ! or one ?

Anchors
This needs to specify match position.

Sr.No. Example & Description

1
^Python

Match "Python" at the start of a string or internal line

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Python$

Match "Python" at the end of a string or line

3
\APython

Match "Python" at the start of a string

4
Python\Z

Match "Python" at the end of a string

5
\bPython\b

Match "Python" at a word boundary

6
\brub\B

\B is nonword boundary: match "rub" in "rube" and "ruby" but not alone

7
Python? =!

Match "Python", if followed by an exclamation point.

8
Python?!!

Match "Python", if not followed by an exclamation point.

Special Syntax with Parentheses

Sr.No. Example & Description

1
R ?#comment

Matches "R". All the rest is a comment

2
R?i uby

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Case-insensitive while matching "uby"

3
R?i : uby

Same as above

4
rub? : y|le )

Group only without creating \1 backreference

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PYTHON - CGI PROGRAMMING

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The Common Gateway Interface, or CGI, is a set of standards that define how information is exchanged
between the web server and a custom script. The CGI specs are currently maintained by the NCSA.

What is CGI?
The Common Gateway Interface, or CGI, is a standard for external gateway programs to interface with
information servers such as HTTP servers.

The current version is CGI/1.1 and CGI/1.2 is under progress.

Web Browsing
To understand the concept of CGI, let us see what happens when we click a hyper link to browse a particular
web page or URL.

Your browser contacts the HTTP web server and demands for the URL, i.e., filename.

Web Server parses the URL and looks for the filename. If it finds that file then sends it back to the
browser, otherwise sends an error message indicating that you requested a wrong file.

Web browser takes response from web server and displays either the received file or error message.

However, it is possible to set up the HTTP server so that whenever a file in a certain directory is requested that
file is not sent back; instead it is executed as a program, and whatever that program outputs is sent back for
your browser to display. This function is called the Common Gateway Interface or CGI and the programs are
called CGI scripts. These CGI programs can be a Python Script, PERL Script, Shell Script, C or C++ program,
etc.

CGI Architecture Diagram

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Web Server Support and Configuration

Before you proceed with CGI Programming, make sure that your Web Server supports CGI and it is configured
to handle CGI Programs. All the CGI Programs to be executed by the HTTP server are kept in a pre-configured
directory. This directory is called CGI Directory and by convention it is named as /var/www/cgi-bin. By
convention, CGI files have extension as. cgi, but you can keep your files with python extension .py as well.

By default, the Linux server is configured to run only the scripts in the cgi-bin directory in /var/www. If you
want to specify any other directory to run your CGI scripts, comment the following lines in the httpd.conf file
−

<Directory "/var/www/cgi-bin">
AllowOverride None
Options ExecCGI
Order allow,deny
Allow from all
</Directory>

<Directory "/var/www/cgi-bin">
Options All
</Directory>

Here, we assume that you have Web Server up and running successfully and you are able to run any other CGI
program like Perl or Shell, etc.

First CGI Program

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Here is a simple link, which is linked to a CGI script called hello.py. This file is kept in /var/www/cgi-bin
directory and it has following content. Before running your CGI program, make sure you have change mode of
file using chmod 755 hello.py UNIX command to make file executable.

#!/usr/bin/python

print "Content-type:text/html\r\n\r\n"
print '<html>'
print '<head>'
print '<title>Hello Word - First CGI Program</title>'
print '</head>'
print '<body>'
print '<h2>Hello Word! This is my first CGI program</h2>'
print '</body>'
print '</html>'

If you click hello.py, then this produces the following output −

Hello Word! This is my first CGI program

This hello.py script is a simple Python script, which writes its output on STDOUT file, i.e., screen. There is one
important and extra feature available which is first line to be printed Content-type:text/html\r\n\r\n.
This line is sent back to the browser and it specifies the content type to be displayed on the browser screen.

By now you must have understood basic concept of CGI and you can write many complicated CGI programs
using Python. This script can interact with any other external system also to exchange information such as
RDBMS.

HTTP Header
The line Content-type:text/html\r\n\r\n is part of HTTP header which is sent to the browser to
understand the content. All the HTTP header will be in the following form −

HTTP Field Name: Field Content

For Example
Content-type: text/html\r\n\r\n

There are few other important HTTP headers, which you will use frequently in your CGI Programming.

Sr.No. Header & Description

1
Content-type:

A MIME string defining the format of the file being returned. Example is Content-type:text/html

2
Expires: Date

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The date the information becomes invalid. It is used by the browser to decide when a page needs
to be refreshed. A valid date string is in the format 01 Jan 1998 12:00:00 GMT.

3
Location: URL

The URL that is returned instead of the URL requested. You can use this field to redirect a
request to any file.

4
Last-modified: Date

The date of last modification of the resource.

5
Content-length: N

The length, in bytes, of the data being returned. The browser uses this value to report the
estimated download time for a file.

6
Set-Cookie: String

Set the cookie passed through the string

CGI Environment Variables

All the CGI programs have access to the following environment variables. These variables play an important
role while writing any CGI program.

Sr.No. Variable Name & Description

1
CONTENT_TYPE

The data type of the content. Used when the client is sending attached content to the server. For
example, file upload.

2
CONTENT_LENGTH

The length of the query information. It is available only for POST requests.

3
HTTP_COOKIE

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Returns the set cookies in the form of key & value pair.

4
HTTP_USER_AGENT

The User-Agent request-header field contains information about the user agent originating the
request. It is name of the web browser.

5
PATH_INFO

The path for the CGI script.

6
QUERY_STRING

The URL-encoded information that is sent with GET method request.

7
REMOTE_ADDR

The IP address of the remote host making the request. This is useful logging or for
authentication.

8
REMOTE_HOST

The fully qualified name of the host making the request. If this information is not available, then
REMOTE_ADDR can be used to get IR address.

9
REQUEST_METHOD

The method used to make the request. The most common methods are GET and POST.

10
SCRIPT_FILENAME

The full path to the CGI script.

11
SCRIPT_NAME

The name of the CGI script.

12
SERVER_NAME

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The server's hostname or IP Address

13
SERVER_SOFTWARE

The name and version of the software the server is running.

Here is small CGI program to list out all the CGI variables. Click this link to see the result Get Environment

#!/usr/bin/python

import os

print "Content-type: text/html\r\n\r\n";

print "<font size=+1>Environment</font><\br>";
for param in os.environ.keys():
print "<b>%20s</b>: %s<\br>" % (param, os.environ[param])

GET and POST Methods

You must have come across many situations when you need to pass some information from your browser to
web server and ultimately to your CGI Program. Most frequently, browser uses two methods two pass this
information to web server. These methods are GET Method and POST Method.

Passing Information using GET method

The GET method sends the encoded user information appended to the page request. The page and the
encoded information are separated by the ? character as follows −

http://www.test.com/cgi-bin/hello.py?key1=value1&key2=value2

The GET method is the default method to pass information from browser to web server and it produces a long
string that appears in your browser's Location:box. Never use GET method if you have password or other
sensitive information to pass to the server. The GET method has size limitation: only 1024 characters can be
sent in a request string. The GET method sends information using QUERY_STRING header and will be
accessible in your CGI Program through QUERY_STRING environment variable.

You can pass information by simply concatenating key and value pairs along with any URL or you can use
HTML <FORM> tags to pass information using GET method.

Simple URL Example:Get Method

Here is a simple URL, which passes two values to hello_get.py program using GET method.

/cgi-bin/hello_get.py?first_name=ZARA&last_name=ALI

Below is hello_get.py script to handle input given by web browser. We are going to use cgi module, which
makes it very easy to access passed information −

#!/usr/bin/python

# Import modules for CGI handling

import cgi, cgitb

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# Create instance of FieldStorage

form = cgi.FieldStorage()

# Get data from fields

first_name = form.getvalue('first_name')
last_name = form.getvalue('last_name')

print "Content-type:text/html\r\n\r\n"
print "<html>"
print "<head>"
print "<title>Hello - Second CGI Program</title>"
print "</head>"
print "<body>"
print "<h2>Hello %s %s</h2>" % (first_name, last_name)
print "</body>"
print "</html>"

This would generate the following result −

Hello ZARA ALI

Simple FORM Example:GET Method

This example passes two values using HTML FORM and submit button. We use same CGI script hello_get.py
to handle this input.

<form action = "/cgi-bin/hello_get.py" method = "get">

First Name: <input type = "text" name = "first_name"> <br />

Last Name: <input type = "text" name = "last_name" />

<input type = "submit" value = "Submit" />
</form>

Here is the actual output of the above form, you enter First and Last Name and then click submit button to see
the result.

First Name:
Last Name:

Passing Information Using POST Method

A generally more reliable method of passing information to a CGI program is the POST method. This packages
the information in exactly the same way as GET methods, but instead of sending it as a text string after a ? in
the URL it sends it as a separate message. This message comes into the CGI script in the form of the standard
input.

Below is same hello_get.py script which handles GET as well as POST method.

#!/usr/bin/python

# Import modules for CGI handling

import cgi, cgitb

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# Create instance of FieldStorage

form = cgi.FieldStorage()

# Get data from fields

first_name = form.getvalue('first_name')
last_name = form.getvalue('last_name')

print "Content-type:text/html\r\n\r\n"
print "<html>"
print "<head>"
print "<title>Hello - Second CGI Program</title>"
print "</head>"
print "<body>"
print "<h2>Hello %s %s</h2>" % (first_name, last_name)
print "</body>"
print "</html>"

Let us take again same example as above which passes two values using HTML FORM and submit button. We
use same CGI script hello_get.py to handle this input.

<form action = "/cgi-bin/hello_get.py" method = "post">

First Name: <input type = "text" name = "first_name"><br />
Last Name: <input type = "text" name = "last_name" />

<input type = "submit" value = "Submit" />

</form>

Here is the actual output of the above form. You enter First and Last Name and then click submit button to see
the result.

First Name:
Last Name:

Passing Checkbox Data to CGI Program

Checkboxes are used when more than one option is required to be selected.

Here is example HTML code for a form with two checkboxes −

<form action = "/cgi-bin/checkbox.cgi" method = "POST" target = "_blank">

<input type = "checkbox" name = "maths" value = "on" /> Maths
<input type = "checkbox" name = "physics" value = "on" /> Physics
<input type = "submit" value = "Select Subject" />
</form>

The result of this code is the following form −

Maths Physics

Below is checkbox.cgi script to handle input given by web browser for checkbox button.

#!/usr/bin/python

# Import modules for CGI handling

import cgi, cgitb

# Create instance of FieldStorage

form = cgi.FieldStorage()

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# Get data from fields

if form.getvalue('maths'):
math_flag = "ON"
else:
math_flag = "OFF"

if form.getvalue('physics'):
physics_flag = "ON"
else:
physics_flag = "OFF"

print "Content-type:text/html\r\n\r\n"
print "<html>"
print "<head>"
print "<title>Checkbox - Third CGI Program</title>"
print "</head>"
print "<body>"
print "<h2> CheckBox Maths is : %s</h2>" % math_flag
print "<h2> CheckBox Physics is : %s</h2>" % physics_flag
print "</body>"
print "</html>"

Passing Radio Button Data to CGI Program

Radio Buttons are used when only one option is required to be selected.

Here is example HTML code for a form with two radio buttons −

<form action = "/cgi-bin/radiobutton.py" method = "post" target = "_blank">

<input type = "radio" name = "subject" value = "maths" /> Maths
<input type = "radio" name = "subject" value = "physics" /> Physics
<input type = "submit" value = "Select Subject" />
</form>

The result of this code is the following form −

Maths Physics

Below is radiobutton.py script to handle input given by web browser for radio button −

#!/usr/bin/python

# Import modules for CGI handling

import cgi, cgitb

# Create instance of FieldStorage

form = cgi.FieldStorage()

# Get data from fields

if form.getvalue('subject'):
subject = form.getvalue('subject')
else:
subject = "Not set"

print "Content-type:text/html\r\n\r\n"
print "<html>"
print "<head>"
print "<title>Radio - Fourth CGI Program</title>"

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print "</head>"
print "<body>"
print "<h2> Selected Subject is %s</h2>" % subject
print "</body>"
print "</html>"

Passing Text Area Data to CGI Program

TEXTAREA element is used when multiline text has to be passed to the CGI Program.

Here is example HTML code for a form with a TEXTAREA box −

<form action = "/cgi-bin/textarea.py" method = "post" target = "_blank">

<textarea name = "textcontent" cols = "40" rows = "4">
Type your text here...
</textarea>
<input type = "submit" value = "Submit" />
</form>

The result of this code is the following form −

Type your text here...

Below is textarea.cgi script to handle input given by web browser −

#!/usr/bin/python

# Import modules for CGI handling

import cgi, cgitb

# Create instance of FieldStorage

form = cgi.FieldStorage()

# Get data from fields

if form.getvalue('textcontent'):
text_content = form.getvalue('textcontent')
else:
text_content = "Not entered"

print "Content-type:text/html\r\n\r\n"
print "<html>"
print "<head>";
print "<title>Text Area - Fifth CGI Program</title>"
print "</head>"
print "<body>"
print "<h2> Entered Text Content is %s</h2>" % text_content
print "</body>"

Passing Drop Down Box Data to CGI Program

Drop Down Box is used when we have many options available but only one or two will be selected.

Here is example HTML code for a form with one drop down box −

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<form action = "/cgi-bin/dropdown.py" method = "post" target = "_blank">

<select name = "dropdown">
<option value = "Maths" selected>Maths</option>
<option value = "Physics">Physics</option>
</select>
<input type = "submit" value = "Submit"/>
</form>

The result of this code is the following form −

Maths

Below is dropdown.py script to handle input given by web browser.

#!/usr/bin/python

# Import modules for CGI handling

import cgi, cgitb

# Create instance of FieldStorage

form = cgi.FieldStorage()

# Get data from fields

if form.getvalue('dropdown'):
subject = form.getvalue('dropdown')
else:
subject = "Not entered"

print "Content-type:text/html\r\n\r\n"
print "<html>"
print "<head>"
print "<title>Dropdown Box - Sixth CGI Program</title>"
print "</head>"
print "<body>"
print "<h2> Selected Subject is %s</h2>" % subject
print "</body>"
print "</html>"

Using Cookies in CGI

HTTP protocol is a stateless protocol. For a commercial website, it is required to maintain session information
among different pages. For example, one user registration ends after completing many pages. How to
maintain user's session information across all the web pages?

In many situations, using cookies is the most efficient method of remembering and tracking preferences,
purchases, commissions, and other information required for better visitor experience or site statistics.

How It Works?
Your server sends some data to the visitor's browser in the form of a cookie. The browser may accept the
cookie. If it does, it is stored as a plain text record on the visitor's hard drive. Now, when the visitor arrives at
another page on your site, the cookie is available for retrieval. Once retrieved, your server knows/remembers
what was stored.

Cookies are a plain text data record of 5 variable-length fields −

Expires − The date the cookie will expire. If this is blank, the cookie will expire when the visitor quits
the browser.

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Domain − The domain name of your site.

Path − The path to the directory or web page that sets the cookie. This may be blank if you want to
retrieve the cookie from any directory or page.

Secure − If this field contains the word "secure", then the cookie may only be retrieved with a secure
server. If this field is blank, no such restriction exists.

Name=Value − Cookies are set and retrieved in the form of key and value pairs.

Setting up Cookies
It is very easy to send cookies to browser. These cookies are sent along with HTTP Header before to Content-
type field. Assuming you want to set UserID and Password as cookies. Setting the cookies is done as follows −

#!/usr/bin/python

print "Set-Cookie:UserID = XYZ;\r\n"

print "Set-Cookie:Password = XYZ123;\r\n"
print "Set-Cookie:Expires = Tuesday, 31-Dec-2007 23:12:40 GMT";\r\n"
print "Set-Cookie:Domain = www.tutorialspoint.com;\r\n"
print "Set-Cookie:Path = /perl;\n"
print "Content-type:text/html\r\n\r\n"
...........Rest of the HTML Content....

From this example, you must have understood how to set cookies. We use Set-Cookie HTTP header to set
cookies.

It is optional to set cookies attributes like Expires, Domain, and Path. It is notable that cookies are set before
sending magic line "Content-type:text/html\r\n\r\n.

Retrieving Cookies
It is very easy to retrieve all the set cookies. Cookies are stored in CGI environment variable HTTP_COOKIE
and they will have following form −

key1 = value1;key2 = value2;key3 = value3....

Here is an example of how to retrieve cookies.

#!/usr/bin/python

# Import modules for CGI handling

from os import environ
import cgi, cgitb

if environ.has_key('HTTP_COOKIE'):
for cookie in map(strip, split(environ['HTTP_COOKIE'], ';')):
(key, value ) = split(cookie, '=');
if key == "UserID":
user_id = value

if key == "Password":
password = value

print "User ID = %s" % user_id

print "Password = %s" % password

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This produces the following result for the cookies set by above script −

User ID = XYZ
Password = XYZ123

File Upload Example

To upload a file, the HTML form must have the enctype attribute set to multipart/form-data. The input tag
with the file type creates a "Browse" button.

<html>
<body>
<form enctype = "multipart/form-data"
action = "save_file.py" method = "post">
<p>File: <input type = "file" name = "filename" /></p>
<p><input type = "submit" value = "Upload" /></p>
</form>
</body>
</html>

The result of this code is the following form −

File:

Above example has been disabled intentionally to save people uploading file on our server, but you can try
above code with your server.

Here is the script save_file.py to handle file upload −

#!/usr/bin/python

import cgi, os
import cgitb; cgitb.enable()

form = cgi.FieldStorage()

# Get filename here.

fileitem = form['filename']

# Test if the file was uploaded

if fileitem.filename:
# strip leading path from file name to avoid
# directory traversal attacks
fn = os.path.basename(fileitem.filename)
open('/tmp/' + fn, 'wb').write(fileitem.file.read())

message = 'The file "' + fn + '" was uploaded successfully'

else:
message = 'No file was uploaded'

print """\
Content-Type: text/html\n
<html>
<body>
<p>%s</p>
</body>

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</html>
""" % (message,)

If you run the above script on Unix/Linux, then you need to take care of replacing file separator as follows,
otherwise on your windows machine above open statement should work fine.

fn = os.path.basename(fileitem.filename.replace("\\", "/" ))

How To Raise a "File Download" Dialog Box?

Sometimes, it is desired that you want to give option where a user can click a link and it will pop up a "File
Download" dialogue box to the user instead of displaying actual content. This is very easy and can be achieved
through HTTP header. This HTTP header is be different from the header mentioned in previous section.

For example, if you want make a FileName file downloadable from a given link, then its syntax is as follows −

#!/usr/bin/python

# HTTP Header
print "Content-Type:application/octet-stream; name = \"FileName\"\r\n";
print "Content-Disposition: attachment; filename = \"FileName\"\r\n\n";

# Actual File Content will go here.

fo = open("foo.txt", "rb")

str = fo.read();
print str

# Close opend file

fo.close()

Hope you enjoyed this tutorial. If yes, please send me your feedback at: Contact Us

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PYTHON - MYSQL DATABASE ACCESS

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The Python standard for database interfaces is the Python DB-API. Most Python database interfaces adhere to
this standard.

You can choose the right database for your application. Python Database API supports a wide range of
database servers such as −

GadFly
mSQL
MySQL
PostgreSQL
Microsoft SQL Server 2000
Informix
Interbase
Oracle
Sybase

Here is the list of available Python database interfaces: Python Database Interfaces and APIs. You must
download a separate DB API module for each database you need to access. For example, if you need to access
an Oracle database as well as a MySQL database, you must download both the Oracle and the MySQL
database modules.

The DB API provides a minimal standard for working with databases using Python structures and syntax
wherever possible. This API includes the following −

Importing the API module.

Acquiring a connection with the database.
Issuing SQL statements and stored procedures.
Closing the connection

We would learn all the concepts using MySQL, so let us talk about MySQLdb module.

What is MySQLdb?
MySQLdb is an interface for connecting to a MySQL database server from Python. It implements the Python
Database API v2.0 and is built on top of the MySQL C API.

How do I Install MySQLdb?

Before proceeding, you make sure you have MySQLdb installed on your machine. Just type the following in
your Python script and execute it −

#!/usr/bin/python

import MySQLdb

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If it produces the following result, then it means MySQLdb module is not installed −

Traceback (most recent call last):

File "test.py", line 3, in <module>
import MySQLdb
ImportError: No module named MySQLdb

To install MySQLdb module, use the following command −

For Ubuntu, use the following command -

$ sudo apt-get install python-pip python-dev libmysqlclient-dev
For Fedora, use the following command -
$ sudo dnf install python python-devel mysql-devel redhat-rpm-config gcc
For Python command prompt, use the following command -
pip install MySQL-python

Note − Make sure you have root privilege to install above module.

Database Connection
Before connecting to a MySQL database, make sure of the followings −

You have created a database TESTDB.

You have created a table EMPLOYEE in TESTDB.

This table has fields FIRST_NAME, LAST_NAME, AGE, SEX and INCOME.

User ID "testuser" and password "test123" are set to access TESTDB.

Python module MySQLdb is installed properly on your machine.

You have gone through MySQL tutorial to understand MySQL Basics.

Example

Following is the example of connecting with MySQL database "TESTDB"

#!/usr/bin/python

import MySQLdb

# Open database connection

db = MySQLdb.connect("localhost","testuser","test123","TESTDB" )

# prepare a cursor object using cursor() method

cursor = db.cursor()

# execute SQL query using execute() method.

cursor.execute("SELECT VERSION()")

# Fetch a single row using fetchone() method.

data = cursor.fetchone()
print "Database version : %s " % data

# disconnect from server

db.close()

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While running this script, it is producing the following result in my Linux machine.

Database version : 5.0.45

If a connection is established with the datasource, then a Connection Object is returned and saved into db for
further use, otherwise db is set to None. Next, db object is used to create a cursor object, which in turn is
used to execute SQL queries. Finally, before coming out, it ensures that database connection is closed and
resources are released.

Creating Database Table

Once a database connection is established, we are ready to create tables or records into the database tables
using execute method of the created cursor.

Example

Let us create Database table EMPLOYEE −

#!/usr/bin/python

import MySQLdb

# Open database connection

db = MySQLdb.connect("localhost","testuser","test123","TESTDB" )

# prepare a cursor object using cursor() method

cursor = db.cursor()

# Drop table if it already exist using execute() method.

cursor.execute("DROP TABLE IF EXISTS EMPLOYEE")

# Create table as per requirement

sql = """CREATE TABLE EMPLOYEE (
FIRST_NAME CHAR(20) NOT NULL,
LAST_NAME CHAR(20),
AGE INT,
SEX CHAR(1),
INCOME FLOAT )"""

cursor.execute(sql)

# disconnect from server

db.close()

INSERT Operation
It is required when you want to create your records into a database table.

Example

The following example, executes SQL INSERT statement to create a record into EMPLOYEE table −

#!/usr/bin/python

import MySQLdb

# Open database connection

db = MySQLdb.connect("localhost","testuser","test123","TESTDB" )

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# prepare a cursor object using cursor() method

cursor = db.cursor()

# Prepare SQL query to INSERT a record into the database.

sql = """INSERT INTO EMPLOYEE(FIRST_NAME,
LAST_NAME, AGE, SEX, INCOME)
VALUES ('Mac', 'Mohan', 20, 'M', 2000)"""
try:
# Execute the SQL command
cursor.execute(sql)
# Commit your changes in the database
db.commit()
except:
# Rollback in case there is any error
db.rollback()

# disconnect from server

db.close()

Above example can be written as follows to create SQL queries dynamically −

#!/usr/bin/python

import MySQLdb

# Open database connection

db = MySQLdb.connect("localhost","testuser","test123","TESTDB" )

# prepare a cursor object using cursor() method

cursor = db.cursor()

# Prepare SQL query to INSERT a record into the database.

sql = "INSERT INTO EMPLOYEE(FIRST_NAME, \
LAST_NAME, AGE, SEX, INCOME) \
VALUES ('%s', '%s', '%d', '%c', '%d' )" % \
('Mac', 'Mohan', 20, 'M', 2000)
try:
# Execute the SQL command
cursor.execute(sql)
# Commit your changes in the database
db.commit()
except:
# Rollback in case there is any error
db.rollback()

# disconnect from server

db.close()

Example

Following code segment is another form of execution where you can pass parameters directly −

..................................
user_id = "test123"
password = "password"

con.execute('insert into Login values("%s", "%s")' % \

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(user_id, password))
..................................

READ Operation
READ Operation on any database means to fetch some useful information from the database.

Once our database connection is established, you are ready to make a query into this database. You can use
either fetchone method to fetch single record or fetchall method to fetech multiple values from a database
table.

fetchone − It fetches the next row of a query result set. A result set is an object that is returned when a
cursor object is used to query a table.

fetchall − It fetches all the rows in a result set. If some rows have already been extracted from the
result set, then it retrieves the remaining rows from the result set.

rowcount − This is a read-only attribute and returns the number of rows that were affected by an
execute method.

Example

The following procedure queries all the records from EMPLOYEE table having salary more than 1000 −

#!/usr/bin/python

import MySQLdb

# Open database connection

db = MySQLdb.connect("localhost","testuser","test123","TESTDB" )

# prepare a cursor object using cursor() method

cursor = db.cursor()

sql = "SELECT * FROM EMPLOYEE \

WHERE INCOME > '%d'" % (1000)
try:
# Execute the SQL command
cursor.execute(sql)
# Fetch all the rows in a list of lists.
results = cursor.fetchall()
for row in results:
fname = row[0]
lname = row[1]
age = row[2]
sex = row[3]
income = row[4]
# Now print fetched result
print "fname=%s,lname=%s,age=%d,sex=%s,income=%d" % \
(fname, lname, age, sex, income )
except:
print "Error: unable to fecth data"

# disconnect from server

db.close()

This will produce the following result −

fname=Mac, lname=Mohan, age=20, sex=M, income=2000

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Update Operation
UPDATE Operation on any database means to update one or more records, which are already available in the
database.

The following procedure updates all the records having SEX as 'M'. Here, we increase AGE of all the males by
one year.

Example

#!/usr/bin/python

import MySQLdb

# Open database connection

db = MySQLdb.connect("localhost","testuser","test123","TESTDB" )

# prepare a cursor object using cursor() method

cursor = db.cursor()

# Prepare SQL query to UPDATE required records

sql = "UPDATE EMPLOYEE SET AGE = AGE + 1
WHERE SEX = '%c'" % ('M')
try:
# Execute the SQL command
cursor.execute(sql)
# Commit your changes in the database
db.commit()
except:
# Rollback in case there is any error
db.rollback()

# disconnect from server

db.close()

DELETE Operation
DELETE operation is required when you want to delete some records from your database. Following is the
procedure to delete all the records from EMPLOYEE where AGE is more than 20 −

Example

#!/usr/bin/python

import MySQLdb

# Open database connection

db = MySQLdb.connect("localhost","testuser","test123","TESTDB" )

# prepare a cursor object using cursor() method

cursor = db.cursor()

# Prepare SQL query to DELETE required records

sql = "DELETE FROM EMPLOYEE WHERE AGE > '%d'" % (20)
try:
# Execute the SQL command
cursor.execute(sql)
# Commit your changes in the database
db.commit()

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except:
# Rollback in case there is any error
db.rollback()

# disconnect from server

db.close()

Performing Transactions
Transactions are a mechanism that ensures data consistency. Transactions have the following four properties
−

Atomicity − Either a transaction completes or nothing happens at all.

Consistency − A transaction must start in a consistent state and leave the system in a consistent state.

Isolation − Intermediate results of a transaction are not visible outside the current transaction.

Durability − Once a transaction was committed, the effects are persistent, even after a system failure.

The Python DB API 2.0 provides two methods to either commit or rollback a transaction.

Example

You already know how to implement transactions. Here is again similar example −

# Prepare SQL query to DELETE required records

sql = "DELETE FROM EMPLOYEE WHERE AGE > '%d'" % (20)
try:
# Execute the SQL command
cursor.execute(sql)
# Commit your changes in the database
db.commit()
except:
# Rollback in case there is any error
db.rollback()

COMMIT Operation
Commit is the operation, which gives a green signal to database to finalize the changes, and after this
operation, no change can be reverted back.

Here is a simple example to call commit method.

db.commit()

ROLLBACK Operation
If you are not satisfied with one or more of the changes and you want to revert back those changes completely,
then use rollback method.

Here is a simple example to call rollback method.

db.rollback()

Disconnecting Database

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To disconnect Database connection, use close method.

db.close()

If the connection to a database is closed by the user with the close method, any outstanding transactions are
rolled back by the DB. However, instead of depending on any of DB lower level implementation details, your
application would be better off calling commit or rollback explicitly.

Handling Errors
There are many sources of errors. A few examples are a syntax error in an executed SQL statement, a
connection failure, or calling the fetch method for an already canceled or finished statement handle.

The DB API defines a number of errors that must exist in each database module. The following table lists
these exceptions.

Sr.No. Exception & Description

1
Warning

Used for non-fatal issues. Must subclass StandardError.

2
Error

Base class for errors. Must subclass StandardError.

3
InterfaceError

Used for errors in the database module, not the database itself. Must subclass Error.

4
DatabaseError

Used for errors in the database. Must subclass Error.

5
DataError

Subclass of DatabaseError that refers to errors in the data.

6
OperationalError

Subclass of DatabaseError that refers to errors such as the loss of a connection to the database.
These errors are generally outside of the control of the Python scripter.

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7 IntegrityError

Subclass of DatabaseError for situations that would damage the relational integrity, such as
uniqueness constraints or foreign keys.

8
InternalError

Subclass of DatabaseError that refers to errors internal to the database module, such as a cursor
no longer being active.

9
ProgrammingError

Subclass of DatabaseError that refers to errors such as a bad table name and other things that
can safely be blamed on you.

10
NotSupportedError

Subclass of DatabaseError that refers to trying to call unsupported functionality.

Your Python scripts should handle these errors, but before using any of the above exceptions, make sure your
MySQLdb has support for that exception. You can get more information about them by reading the DB API
2.0 specification.

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PYTHON - NETWORK PROGRAMMING

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Python provides two levels of access to network services. At a low level, you can access the basic socket
support in the underlying operating system, which allows you to implement clients and servers for both
connection-oriented and connectionless protocols.

Python also has libraries that provide higher-level access to specific application-level network protocols, such
as FTP, HTTP, and so on.

This chapter gives you understanding on most famous concept in Networking - Socket Programming.

What is Sockets?
Sockets are the endpoints of a bidirectional communications channel. Sockets may communicate within a
process, between processes on the same machine, or between processes on different continents.

Sockets may be implemented over a number of different channel types: Unix domain sockets, TCP, UDP, and
so on. The socket library provides specific classes for handling the common transports as well as a generic
interface for handling the rest.

Sockets have their own vocabulary −

Sr.No. Term & Description

1
Domain

The family of protocols that is used as the transport mechanism. These values are constants
such as AF_INET, PF_INET, PF_UNIX, PF_X25, and so on.

2
type

The type of communications between the two endpoints, typically SOCK_STREAM for
connection-oriented protocols and SOCK_DGRAM for connectionless protocols.

3
protocol

Typically zero, this may be used to identify a variant of a protocol within a domain and type.

4
hostname

The identifier of a network interface −

A string, which can be a host name, a dotted-quad address, or an IPV6 address in colon
andpossiblydot notation

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A string "<broadcast>", which specifies an INADDR_BROADCAST address.

A zero-length string, which specifies INADDR_ANY, or

An Integer, interpreted as a binary address in host byte order.

5
port

Each server listens for clients calling on one or more ports. A port may be a Fixnum port
number, a string containing a port number, or the name of a service.

The socket Module

To create a socket, you must use the socket.socket function available in socket module, which has the general
syntax −

s = socket.socket (socket_family, socket_type, protocol=0)

Here is the description of the parameters −

socket_family − This is either AF_UNIX or AF_INET, as explained earlier.

socket_type − This is either SOCK_STREAM or SOCK_DGRAM.

protocol − This is usually left out, defaulting to 0.

Once you have socket object, then you can use required functions to create your client or server program.
Following is the list of functions required −

Server Socket Methods

Sr.No. Method & Description

1
s.bind

This method binds address hostname, portnumberpair to socket.

2
s.listen

This method sets up and start TCP listener.

3
s.accept

This passively accept TCP client connection, waiting until connection arrives blocking.

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Client Socket Methods

Sr.No. Method & Description

1
s.connect

This method actively initiates TCP server connection.

General Socket Methods

Sr.No. Method & Description

1
s.recv

This method receives TCP message

2
s.send

This method transmits TCP message

3
s.recvfrom

This method receives UDP message

4
s.sendto

This method transmits UDP message

5
s.close

This method closes socket

6
socket.gethostname

Returns the hostname.

A Simple Server

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To write Internet servers, we use the socket function available in socket module to create a socket object. A
socket object is then used to call other functions to setup a socket server.

Now call bindhostname, port function to specify a port for your service on the given host.

Next, call the accept method of the returned object. This method waits until a client connects to the port you
specified, and then returns a connection object that represents the connection to that client.

#!/usr/bin/python # This is server.py file

import socket # Import socket module

s = socket.socket() # Create a socket object

host = socket.gethostname() # Get local machine name
port = 12345 # Reserve a port for your service.
s.bind((host, port)) # Bind to the port

s.listen(5) # Now wait for client connection.

while True:
c, addr = s.accept() # Establish connection with client.
print 'Got connection from', addr
c.send('Thank you for connecting')
c.close() # Close the connection

A Simple Client
Let us write a very simple client program which opens a connection to a given port 12345 and given host. This
is very simple to create a socket client using Python's socket module function.

The socket.connecthosname, port opens a TCP connection to hostname on the port. Once you have a socket
open, you can read from it like any IO object. When done, remember to close it, as you would close a file.

The following code is a very simple client that connects to a given host and port, reads any available data from
the socket, and then exits −

#!/usr/bin/python # This is client.py file

import socket # Import socket module

s = socket.socket() # Create a socket object

host = socket.gethostname() # Get local machine name
port = 12345 # Reserve a port for your service.

s.connect((host, port))
print s.recv(1024)
s.close() # Close the socket when done

Now run this server.py in background and then run above client.py to see the result.

# Following would start a server in background.

$ python server.py &

# Once server is started run client as follows:

$ python client.py

This would produce following result −

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Got connection from ('127.0.0.1', 48437)

Thank you for connecting

Python Internet modules

A list of some important modules in Python Network/Internet programming.

Protocol Common function Port No Python module

HTTP Web pages 80 httplib, urllib, xmlrpclib

NNTP Usenet news 119 nntplib

FTP File transfers 20 ftplib, urllib

SMTP Sending email 25 smtplib

POP3 Fetching email 110 poplib

IMAP4 Fetching email 143 imaplib

Telnet Command lines 23 telnetlib

Gopher Document transfers 70 gopherlib, urllib

Please check all the libraries mentioned above to work with FTP, SMTP, POP, and IMAP protocols.

Further Readings
This was a quick start with Socket Programming. It is a vast subject. It is recommended to go through the
following link to find more detail −

Unix Socket Programming.

Python Socket Library and Modules.

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PYTHON - SENDING EMAIL USING SMTP

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Simple Mail Transfer Protocol S M T P is a protocol, which handles sending e-mail and routing e-mail between
mail servers.

Python provides smtplib module, which defines an SMTP client session object that can be used to send mail
to any Internet machine with an SMTP or ESMTP listener daemon.

Here is a simple syntax to create one SMTP object, which can later be used to send an e-mail −

import smtplib

smtpObj = smtplib.SMTP( [host [, port [, local_hostname]]] )

Here is the detail of the parameters −

host − This is the host running your SMTP server. You can specify IP address of the host or a domain
name like tutorialspoint.com. This is optional argument.

port − If you are providing host argument, then you need to specify a port, where SMTP server is
listening. Usually this port would be 25.

local_hostname − If your SMTP server is running on your local machine, then you can specify just
localhost as of this option.

An SMTP object has an instance method called sendmail, which is typically used to do the work of mailing a
message. It takes three parameters −

The sender − A string with the address of the sender.

The receivers − A list of strings, one for each recipient.

The message − A message as a string formatted as specified in the various RFCs.

Example
Here is a simple way to send one e-mail using Python script. Try it once −

#!/usr/bin/python

import smtplib

sender = 'from@fromdomain.com'
receivers = ['to@todomain.com']

message = """From: From Person <from@fromdomain.com>

To: To Person <to@todomain.com>
Subject: SMTP e-mail test

This is a test e-mail message.

"""

try:
smtpObj = smtplib.SMTP('localhost')
smtpObj.sendmail(sender, receivers, message)

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print "Successfully sent email"

except SMTPException:
print "Error: unable to send email"

Here, you have placed a basic e-mail in message, using a triple quote, taking care to format the headers
correctly. An e-mail requires a From, To, and Subject header, separated from the body of the e-mail with a
blank line.

To send the mail you use smtpObj to connect to the SMTP server on the local machine and then use the
sendmail method along with the message, the from address, and the destination address as parameters
eventhoughthef romandtoaddressesarewithinthee − mailitself , .

′
thesearen talwaysusedtoroutemail

If you are not running an SMTP server on your local machine, you can use smtplib client to communicate with
a remote SMTP server. Unless you are using a webmail service suchasH otmailorY ahoo!M ail , your e-mail
provider must have provided you with outgoing mail server details that you can supply them, as follows −

smtplib.SMTP('mail.your-domain.com', 25)

Sending an HTML e-mail using Python

When you send a text message using Python, then all the content are treated as simple text. Even if you
include HTML tags in a text message, it is displayed as simple text and HTML tags will not be formatted
according to HTML syntax. But Python provides option to send an HTML message as actual HTML message.

While sending an e-mail message, you can specify a Mime version, content type and character set to send an
HTML e-mail.

Example

Following is the example to send HTML content as an e-mail. Try it once −

#!/usr/bin/python

import smtplib

message = """From: From Person <from@fromdomain.com>

To: To Person <to@todomain.com>
MIME-Version: 1.0
Content-type: text/html
Subject: SMTP HTML e-mail test

This is an e-mail message to be sent in HTML format

<b>This is HTML message.</b>

<h1>This is headline.</h1>
"""

try:
smtpObj = smtplib.SMTP('localhost')
smtpObj.sendmail(sender, receivers, message)
print "Successfully sent email"
except SMTPException:
print "Error: unable to send email"

Sending Attachments as an E-mail

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To send an e-mail with mixed content requires to set Content-type header to multipart/mixed. Then, text
and attachment sections can be specified within boundaries.

A boundary is started with two hyphens followed by a unique number, which cannot appear in the message
part of the e-mail. A final boundary denoting the e-mail's final section must also end with two hyphens.

Attached files should be encoded with the pack" m " function to have base64 encoding before transmission.

Example

Following is the example, which sends a file /tmp/test.txt as an attachment. Try it once −

#!/usr/bin/python

import smtplib
import base64

filename = "/tmp/test.txt"

# Read a file and encode it into base64 format

fo = open(filename, "rb")
filecontent = fo.read()
encodedcontent = base64.b64encode(filecontent) # base64

sender = 'webmaster@tutorialpoint.com'
reciever = 'amrood.admin@gmail.com'

marker = "AUNIQUEMARKER"

body ="""
This is a test email to send an attachement.
"""
# Define the main headers.
part1 = """From: From Person <me@fromdomain.net>
To: To Person <amrood.admin@gmail.com>
Subject: Sending Attachement
MIME-Version: 1.0
Content-Type: multipart/mixed; boundary=%s
--%s
""" % (marker, marker)

# Define the message action

part2 = """Content-Type: text/plain
Content-Transfer-Encoding:8bit

%s
--%s
""" % (body,marker)

# Define the attachment section

part3 = """Content-Type: multipart/mixed; name=\"%s\"
Content-Transfer-Encoding:base64
Content-Disposition: attachment; filename=%s

%s
--%s--
""" %(filename, filename, encodedcontent, marker)
message = part1 + part2 + part3

try:

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smtpObj = smtplib.SMTP('localhost')
smtpObj.sendmail(sender, reciever, message)
print "Successfully sent email"
except Exception:
print "Error: unable to send email"

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PYTHON - MULTITHREADED PROGRAMMING

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Running several threads is similar to running several different programs concurrently, but with the following
benefits −

Multiple threads within a process share the same data space with the main thread and can therefore
share information or communicate with each other more easily than if they were separate processes.

Threads sometimes called light-weight processes and they do not require much memory overhead; they
are cheaper than processes.

A thread has a beginning, an execution sequence, and a conclusion. It has an instruction pointer that keeps
track of where within its context it is currently running.

It can be pre-empted interrupted

It can temporarily be put on hold alsoknownassleeping while other threads are running - this is called
yielding.

Starting a New Thread

To spawn another thread, you need to call following method available in thread module −

thread.start_new_thread ( function, args[, kwargs] )

This method call enables a fast and efficient way to create new threads in both Linux and Windows.

The method call returns immediately and the child thread starts and calls function with the passed list of args.
When function returns, the thread terminates.

Here, args is a tuple of arguments; use an empty tuple to call function without passing any arguments.
kwargs is an optional dictionary of keyword arguments.

Example

#!/usr/bin/python

import thread
import time

# Define a function for the thread

def print_time( threadName, delay):
count = 0
while count < 5:
time.sleep(delay)
count += 1
print "%s: %s" % ( threadName, time.ctime(time.time()) )

# Create two threads as follows

try:
thread.start_new_thread( print_time, ("Thread-1", 2, ) )
thread.start_new_thread( print_time, ("Thread-2", 4, ) )
except:
print "Error: unable to start thread"

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while 1:
pass

When the above code is executed, it produces the following result −

Thread-1: Thu Jan 22 15:42:17 2009

Thread-1: Thu Jan 22 15:42:19 2009
Thread-2: Thu Jan 22 15:42:19 2009
Thread-1: Thu Jan 22 15:42:21 2009
Thread-2: Thu Jan 22 15:42:23 2009
Thread-1: Thu Jan 22 15:42:23 2009
Thread-1: Thu Jan 22 15:42:25 2009
Thread-2: Thu Jan 22 15:42:27 2009
Thread-2: Thu Jan 22 15:42:31 2009
Thread-2: Thu Jan 22 15:42:35 2009

Although it is very effective for low-level threading, but the thread module is very limited compared to the
newer threading module.

The Threading Module

The newer threading module included with Python 2.4 provides much more powerful, high-level support for
threads than the thread module discussed in the previous section.

The threading module exposes all the methods of the thread module and provides some additional methods −

threading.activeCount − Returns the number of thread objects that are active.

threading.currentThread − Returns the number of thread objects in the caller's thread control.

threading.enumerate − Returns a list of all thread objects that are currently active.

In addition to the methods, the threading module has the Thread class that implements threading. The
methods provided by the Thread class are as follows −

run − The run method is the entry point for a thread.

start − The start method starts a thread by calling the run method.

join[time] − The join waits for threads to terminate.

isAlive − The isAlive method checks whether a thread is still executing.

getName − The getName method returns the name of a thread.

setName − The setName method sets the name of a thread.

Creating Thread Using Threading Module

To implement a new thread using the threading module, you have to do the following −

Define a new subclass of the Thread class.

Override the __init__self [, args] method to add additional arguments.

Then, override the runself [, args] method to implement what the thread should do when started.

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Once you have created the new Thread subclass, you can create an instance of it and then start a new thread
by invoking the start, which in turn calls run method.

Example

#!/usr/bin/python

import threading
import time

exitFlag = 0

class myThread (threading.Thread):

def __init__(self, threadID, name, counter):
threading.Thread.__init__(self)
self.threadID = threadID
self.name = name
self.counter = counter
def run(self):
print "Starting " + self.name
print_time(self.name, 5, self.counter)
print "Exiting " + self.name

def print_time(threadName, counter, delay):

while counter:
if exitFlag:
threadName.exit()
time.sleep(delay)
print "%s: %s" % (threadName, time.ctime(time.time()))
counter -= 1

# Create new threads

thread1 = myThread(1, "Thread-1", 1)
thread2 = myThread(2, "Thread-2", 2)

# Start new Threads

thread1.start()
thread2.start()

print "Exiting Main Thread"

When the above code is executed, it produces the following result −

Starting Thread-1
Starting Thread-2
Exiting Main Thread
Thread-1: Thu Mar 21 09:10:03 2013
Thread-1: Thu Mar 21 09:10:04 2013
Thread-2: Thu Mar 21 09:10:04 2013
Thread-1: Thu Mar 21 09:10:05 2013
Thread-1: Thu Mar 21 09:10:06 2013
Thread-2: Thu Mar 21 09:10:06 2013
Thread-1: Thu Mar 21 09:10:07 2013
Exiting Thread-1
Thread-2: Thu Mar 21 09:10:08 2013
Thread-2: Thu Mar 21 09:10:10 2013
Thread-2: Thu Mar 21 09:10:12 2013
Exiting Thread-2

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Synchronizing Threads
The threading module provided with Python includes a simple-to-implement locking mechanism that allows
you to synchronize threads. A new lock is created by calling the Lock method, which returns the new lock.

The acquireblocking method of the new lock object is used to force threads to run synchronously. The optional
blocking parameter enables you to control whether the thread waits to acquire the lock.

If blocking is set to 0, the thread returns immediately with a 0 value if the lock cannot be acquired and with a
1 if the lock was acquired. If blocking is set to 1, the thread blocks and wait for the lock to be released.

The release method of the new lock object is used to release the lock when it is no longer required.

Example

#!/usr/bin/python

import threading
import time

class myThread (threading.Thread):

def __init__(self, threadID, name, counter):
threading.Thread.__init__(self)
self.threadID = threadID
self.name = name
self.counter = counter
def run(self):
print "Starting " + self.name
# Get lock to synchronize threads
threadLock.acquire()
print_time(self.name, self.counter, 3)
# Free lock to release next thread
threadLock.release()

def print_time(threadName, delay, counter):

while counter:
time.sleep(delay)
print "%s: %s" % (threadName, time.ctime(time.time()))
counter -= 1

threadLock = threading.Lock()
threads = []

# Create new threads

thread1 = myThread(1, "Thread-1", 1)
thread2 = myThread(2, "Thread-2", 2)

# Start new Threads

thread1.start()
thread2.start()

# Add threads to thread list

threads.append(thread1)
threads.append(thread2)

# Wait for all threads to complete

for t in threads:
t.join()
print "Exiting Main Thread"

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When the above code is executed, it produces the following result −

Starting Thread-1
Starting Thread-2
Thread-1: Thu Mar 21 09:11:28 2013
Thread-1: Thu Mar 21 09:11:29 2013
Thread-1: Thu Mar 21 09:11:30 2013
Thread-2: Thu Mar 21 09:11:32 2013
Thread-2: Thu Mar 21 09:11:34 2013
Thread-2: Thu Mar 21 09:11:36 2013
Exiting Main Thread

Multithreaded Priority Queue

The Queue module allows you to create a new queue object that can hold a specific number of items. There are
following methods to control the Queue −

get − The get removes and returns an item from the queue.

put − The put adds item to a queue.

qsize − The qsize returns the number of items that are currently in the queue.

empty − The empty returns True if queue is empty; otherwise, False.

full − the full returns True if queue is full; otherwise, False.

Example

#!/usr/bin/python

import Queue
import threading
import time

exitFlag = 0

class myThread (threading.Thread):

def __init__(self, threadID, name, q):
threading.Thread.__init__(self)
self.threadID = threadID
self.name = name
self.q = q
def run(self):
print "Starting " + self.name
process_data(self.name, self.q)
print "Exiting " + self.name

def process_data(threadName, q):

while not exitFlag:
queueLock.acquire()
if not workQueue.empty():
data = q.get()
queueLock.release()
print "%s processing %s" % (threadName, data)
else:
queueLock.release()
time.sleep(1)

threadList = ["Thread-1", "Thread-2", "Thread-3"]

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nameList = ["One", "Two", "Three", "Four", "Five"]

queueLock = threading.Lock()
workQueue = Queue.Queue(10)
threads = []
threadID = 1

# Create new threads

for tName in threadList:
thread = myThread(threadID, tName, workQueue)
thread.start()
threads.append(thread)
threadID += 1

# Fill the queue

queueLock.acquire()
for word in nameList:
workQueue.put(word)
queueLock.release()

# Wait for queue to empty

while not workQueue.empty():
pass

# Notify threads it's time to exit

exitFlag = 1

# Wait for all threads to complete

for t in threads:
t.join()
print "Exiting Main Thread"

When the above code is executed, it produces the following result −

Starting Thread-1
Starting Thread-2
Starting Thread-3
Thread-1 processing One
Thread-2 processing Two
Thread-3 processing Three
Thread-1 processing Four
Thread-2 processing Five
Exiting Thread-3
Exiting Thread-1
Exiting Thread-2
Exiting Main Thread

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PYTHON - XML PROCESSING

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XML is a portable, open source language that allows programmers to develop applications that can be read by
other applications, regardless of operating system and/or developmental language.

What is XML?
The Extensible Markup Language XM L is a markup language much like HTML or SGML. This is
recommended by the World Wide Web Consortium and available as an open standard.

XML is extremely useful for keeping track of small to medium amounts of data without requiring a SQL-based
backbone.

XML Parser Architectures and APIs

The Python standard library provides a minimal but useful set of interfaces to work with XML.

The two most basic and broadly used APIs to XML data are the SAX and DOM interfaces.

Simple API for XML S AX − Here, you register callbacks for events of interest and then let the
parser proceed through the document. This is useful when your documents are large or you have
memory limitations, it parses the file as it reads it from disk and the entire file is never stored in
memory.

Document Object Model DOM API − This is a World Wide Web Consortium recommendation
wherein the entire file is read into memory and stored in a hierarchical tree − based form to represent
all the features of an XML document.

SAX obviously cannot process information as fast as DOM can when working with large files. On the other
hand, using DOM exclusively can really kill your resources, especially if used on a lot of small files.

SAX is read-only, while DOM allows changes to the XML file. Since these two different APIs literally
complement each other, there is no reason why you cannot use them both for large projects.

For all our XML code examples, let's use a simple XML file movies.xml as an input −

<collection shelf="New Arrivals">

<movie title="Enemy Behind">
<type>War, Thriller</type>
<format>DVD</format>
<year>2003</year>
<rating>PG</rating>
<stars>10</stars>
<description>Talk about a US-Japan war</description>
</movie>
<movie title="Transformers">
<type>Anime, Science Fiction</type>
<format>DVD</format>
<year>1989</year>
<rating>R</rating>
<stars>8</stars>
<description>A schientific fiction</description>
</movie>
<movie title="Trigun">
<type>Anime, Action</type>

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<format>DVD</format>
<episodes>4</episodes>
<rating>PG</rating>
<stars>10</stars>
<description>Vash the Stampede!</description>
</movie>
<movie title="Ishtar">
<type>Comedy</type>
<format>VHS</format>
<rating>PG</rating>
<stars>2</stars>
<description>Viewable boredom</description>
</movie>
</collection>

Parsing XML with SAX APIs

SAX is a standard interface for event-driven XML parsing. Parsing XML with SAX generally requires you to
create your own ContentHandler by subclassing xml.sax.ContentHandler.

Your ContentHandler handles the particular tags and attributes of your flavors of XML. A ContentHandler
object provides methods to handle various parsing events. Its owning parser calls ContentHandler methods as
it parses the XML file.

The methods startDocument and endDocument are called at the start and the end of the XML file. The
method characterstext is passed character data of the XML file via the parameter text.

The ContentHandler is called at the start and end of each element. If the parser is not in namespace mode, the
methods startElementtag, attributes and endElementtag are called; otherwise, the corresponding methods
startElementNS and endElementNS are called. Here, tag is the element tag, and attributes is an Attributes
object.

Here are other important methods to understand before proceeding −

The make_parser Method

Following method creates a new parser object and returns it. The parser object created will be of the first
parser type the system finds.

xml.sax.make_parser( [parser_list] )

Here is the detail of the parameters −

parser_list − The optional argument consisting of a list of parsers to use which must all implement
the make_parser method.

The parse Method

Following method creates a SAX parser and uses it to parse a document.

xml.sax.parse( xmlfile, contenthandler[, errorhandler])

Here is the detail of the parameters −

xmlfile − This is the name of the XML file to read from.

contenthandler − This must be a ContentHandler object.

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errorhandler − If specified, errorhandler must be a SAX ErrorHandler object.

The parseString Method

There is one more method to create a SAX parser and to parse the specified XML string.

xml.sax.parseString(xmlstring, contenthandler[, errorhandler])

Here is the detail of the parameters −

xmlstring − This is the name of the XML string to read from.

contenthandler − This must be a ContentHandler object.

errorhandler − If specified, errorhandler must be a SAX ErrorHandler object.

Example

#!/usr/bin/python

import xml.sax

class MovieHandler( xml.sax.ContentHandler ):

def __init__(self):
self.CurrentData = ""
self.type = ""
self.format = ""
self.year = ""
self.rating = ""
self.stars = ""
self.description = ""

# Call when an element starts

def startElement(self, tag, attributes):
self.CurrentData = tag
if tag == "movie":
print "*****Movie*****"
title = attributes["title"]
print "Title:", title

# Call when an elements ends

def endElement(self, tag):
if self.CurrentData == "type":
print "Type:", self.type
elif self.CurrentData == "format":
print "Format:", self.format
elif self.CurrentData == "year":
print "Year:", self.year
elif self.CurrentData == "rating":
print "Rating:", self.rating
elif self.CurrentData == "stars":
print "Stars:", self.stars
elif self.CurrentData == "description":
print "Description:", self.description
self.CurrentData = ""

# Call when a character is read

def characters(self, content):
if self.CurrentData == "type":
self.type = content

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elif self.CurrentData == "format":

self.format = content
elif self.CurrentData == "year":
self.year = content
elif self.CurrentData == "rating":
self.rating = content
elif self.CurrentData == "stars":
self.stars = content
elif self.CurrentData == "description":
self.description = content

if ( __name__ == "__main__"):

# create an XMLReader
parser = xml.sax.make_parser()
# turn off namepsaces
parser.setFeature(xml.sax.handler.feature_namespaces, 0)

# override the default ContextHandler

Handler = MovieHandler()
parser.setContentHandler( Handler )

parser.parse("movies.xml")

This would produce following result −

*****Movie*****
Title: Enemy Behind
Type: War, Thriller
Format: DVD
Year: 2003
Rating: PG
Stars: 10
Description: Talk about a US-Japan war
*****Movie*****
Title: Transformers
Type: Anime, Science Fiction
Format: DVD
Year: 1989
Rating: R
Stars: 8
Description: A schientific fiction
*****Movie*****
Title: Trigun
Type: Anime, Action
Format: DVD
Rating: PG
Stars: 10
Description: Vash the Stampede!
*****Movie*****
Title: Ishtar
Type: Comedy
Format: VHS
Rating: PG
Stars: 2
Description: Viewable boredom

For a complete detail on SAX API documentation, please refer to standard Python SAX APIs.

Parsing XML with DOM APIs

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The Document Object Model " DOM " is a cross-language API from the World Wide Web Consortium W 3C
for accessing and modifying XML documents.

The DOM is extremely useful for random-access applications. SAX only allows you a view of one bit of the
document at a time. If you are looking at one SAX element, you have no access to another.

Here is the easiest way to quickly load an XML document and to create a minidom object using the xml.dom
module. The minidom object provides a simple parser method that quickly creates a DOM tree from the XML
file.

The sample phrase calls the parsef ile[, parser] function of the minidom object to parse the XML file
designated by file into a DOM tree object.

#!/usr/bin/python

from xml.dom.minidom import parse

import xml.dom.minidom

# Open XML document using minidom parser

DOMTree = xml.dom.minidom.parse("movies.xml")
collection = DOMTree.documentElement
if collection.hasAttribute("shelf"):
print "Root element : %s" % collection.getAttribute("shelf")

# Get all the movies in the collection

movies = collection.getElementsByTagName("movie")

# Print detail of each movie.

for movie in movies:
print "*****Movie*****"
if movie.hasAttribute("title"):
print "Title: %s" % movie.getAttribute("title")

type = movie.getElementsByTagName('type')[0]
print "Type: %s" % type.childNodes[0].data
format = movie.getElementsByTagName('format')[0]
print "Format: %s" % format.childNodes[0].data
rating = movie.getElementsByTagName('rating')[0]
print "Rating: %s" % rating.childNodes[0].data
description = movie.getElementsByTagName('description')[0]
print "Description: %s" % description.childNodes[0].data

This would produce the following result −

Root element : New Arrivals

*****Movie*****
Title: Enemy Behind
Type: War, Thriller
Format: DVD
Rating: PG
Description: Talk about a US-Japan war
*****Movie*****
Title: Transformers
Type: Anime, Science Fiction
Format: DVD
Rating: R
Description: A schientific fiction
*****Movie*****
Title: Trigun
Type: Anime, Action

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Format: DVD
Rating: PG
Description: Vash the Stampede!
*****Movie*****
Title: Ishtar
Type: Comedy
Format: VHS
Rating: PG
Description: Viewable boredom

For a complete detail on DOM API documentation, please refer to standard Python DOM APIs.

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7/27/2019 Python GUI Programming (Tkinter)

PYTHON - GUI PROGRAMMING T

Tkki
innt
teer
r

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Python provides various options for developing graphical user interfaces GU I s. Most important are listed
below.

Tkinter − Tkinter is the Python interface to the Tk GUI toolkit shipped with Python. We would look
this option in this chapter.

wxPython − This is an open-source Python interface for wxWindows http://wxpython.org.

JPython − JPython is a Python port for Java which gives Python scripts seamless access to Java class
libraries on the local machine http://www.jython.org.

There are many other interfaces available, which you can find them on the net.

Tkinter Programming
Tkinter is the standard GUI library for Python. Python when combined with Tkinter provides a fast and easy
way to create GUI applications. Tkinter provides a powerful object-oriented interface to the Tk GUI toolkit.

Creating a GUI application using Tkinter is an easy task. All you need to do is perform the following steps −

Import the Tkinter module.

Create the GUI application main window.

Add one or more of the above-mentioned widgets to the GUI application.

Enter the main event loop to take action against each event triggered by the user.

Example

#!/usr/bin/python

import Tkinter
top = Tkinter.Tk()
# Code to add widgets will go here...
top.mainloop()

This would create a following window −

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Tkinter Widgets
Tkinter provides various controls, such as buttons, labels and text boxes used in a GUI application. These
controls are commonly called widgets.

There are currently 15 types of widgets in Tkinter. We present these widgets as well as a brief description in
the following table −

Sr.No. Operator & Description

1 Button

The Button widget is used to display buttons in your application.

2 Canvas

The Canvas widget is used to draw shapes, such as lines, ovals, polygons and rectangles, in your
application.

3 Checkbutton

The Checkbutton widget is used to display a number of options as checkboxes. The user can
select multiple options at a time.

4 Entry

The Entry widget is used to display a single-line text field for accepting values from a user.

5 Frame

The Frame widget is used as a container widget to organize other widgets.

6 Label

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The Label widget is used to provide a single-line caption for other widgets. It can also contain
images.

7 Listbox

The Listbox widget is used to provide a list of options to a user.

8 Menubutton

The Menubutton widget is used to display menus in your application.

9 Menu

The Menu widget is used to provide various commands to a user. These commands are
contained inside Menubutton.

10 Message

The Message widget is used to display multiline text fields for accepting values from a user.

11 Radiobutton

The Radiobutton widget is used to display a number of options as radio buttons. The user can
select only one option at a time.

12 Scale

The Scale widget is used to provide a slider widget.

13 Scrollbar

The Scrollbar widget is used to add scrolling capability to various widgets, such as list boxes.

14 Text

The Text widget is used to display text in multiple lines.

15 Toplevel

The Toplevel widget is used to provide a separate window container.

16 Spinbox

The Spinbox widget is a variant of the standard Tkinter Entry widget, which can be used to select
from a fixed number of values.

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17 PanedWindow

A PanedWindow is a container widget that may contain any number of panes, arranged
horizontally or vertically.

18 LabelFrame

A labelframe is a simple container widget. Its primary purpose is to act as a spacer or container
for complex window layouts.

19 tkMessageBox

This module is used to display message boxes in your applications.

Let us study these widgets in detail −

Standard attributes
Let us take a look at how some of their common attributes.such as sizes, colors and fonts are specified.

Dimensions

Colors

Fonts

Anchors

Relief styles

Bitmaps

Cursors

Let us study them briefly −

Geometry Management
All Tkinter widgets have access to specific geometry management methods, which have the purpose of
organizing widgets throughout the parent widget area. Tkinter exposes the following geometry manager
classes: pack, grid, and place.

The pack Method − This geometry manager organizes widgets in blocks before placing them in the
parent widget.

The grid Method − This geometry manager organizes widgets in a table-like structure in the parent
widget.

The place Method − This geometry manager organizes widgets by placing them in a specific position in
the parent widget.

Let us study the geometry management methods briefly −

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7/27/2019 Python Extension Programming with C

PYTHON - EXTENSION PROGRAMMING WITH C

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Any code that you write using any compiled language like C, C++, or Java can be integrated or imported into
another Python script. This code is considered as an "extension."

A Python extension module is nothing more than a normal C library. On Unix machines, these libraries
usually end in .so f orsharedobject . On Windows machines, you typically see .dll
f ordynamicallylinkedlibrary.

Pre-Requisites for Writing Extensions

To start writing your extension, you are going to need the Python header files.

On Unix machines, this usually requires installing a developer-specific package such as python2.5-dev.

Windows users get these headers as part of the package when they use the binary Python installer.

Additionally, it is assumed that you have good knowledge of C or C++ to write any Python Extension using C
programming.

First look at a Python Extension

For your first look at a Python extension module, you need to group your code into four part −

The header file Python.h.

The C functions you want to expose as the interface from your module.

A table mapping the names of your functions as Python developers see them to C functions inside the
extension module.

An initialization function.

The Header File Python.h

You need include Python.h header file in your C source file, which gives you access to the internal Python API
used to hook your module into the interpreter.

Make sure to include Python.h before any other headers you might need. You need to follow the includes with
the functions you want to call from Python.

The C Functions
The signatures of the C implementation of your functions always takes one of the following three forms −

static PyObject *MyFunction( PyObject *self, PyObject *args );

static PyObject *MyFunctionWithKeywords(PyObject *self,

PyObject *args,
PyObject *kw);

static PyObject *MyFunctionWithNoArgs( PyObject *self );

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Each one of the preceding declarations returns a Python object. There is no such thing as a void function in
Python as there is in C. If you do not want your functions to return a value, return the C equivalent of Python's
None value. The Python headers define a macro, Py_RETURN_NONE, that does this for us.

The names of your C functions can be whatever you like as they are never seen outside of the extension
module. They are defined as static function.

Your C functions usually are named by combining the Python module and function names together, as shown
here −

static PyObject *module_func(PyObject *self, PyObject *args) {

/* Do your stuff here. */
Py_RETURN_NONE;
}

This is a Python function called func inside of the module module. You will be putting pointers to your C
functions into the method table for the module that usually comes next in your source code.

The Method Mapping Table

This method table is a simple array of PyMethodDef structures. That structure looks something like this −

struct PyMethodDef {
char *ml_name;
PyCFunction ml_meth;
int ml_flags;
char *ml_doc;
};

Here is the description of the members of this structure −

ml_name − This is the name of the function as the Python interpreter presents when it is used in
Python programs.

ml_meth − This must be the address to a function that has any one of the signatures described in
previous seection.

ml_flags − This tells the interpreter which of the three signatures ml_meth is using.

This flag usually has a value of METH_VARARGS.

This flag can be bitwise OR'ed with METH_KEYWORDS if you want to allow keyword arguments
into your function.

This can also have a value of METH_NOARGS that indicates you do not want to accept any
arguments.

ml_doc − This is the docstring for the function, which could be NULL if you do not feel like writing
one.

This table needs to be terminated with a sentinel that consists of NULL and 0 values for the appropriate
members.

Example

For the above-defined function, we have following method mapping table −

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static PyMethodDef module_methods[] = {

{ "func", (PyCFunction)module_func, METH_NOARGS, NULL },
{ NULL, NULL, 0, NULL }
};

The Initialization Function

The last part of your extension module is the initialization function. This function is called by the Python
interpreter when the module is loaded. It is required that the function be named initModule, where Module
is the name of the module.

The initialization function needs to be exported from the library you will be building. The Python headers
define PyMODINIT_FUNC to include the appropriate incantations for that to happen for the particular
environment in which we're compiling. All you have to do is use it when defining the function.

Your C initialization function generally has the following overall structure −

PyMODINIT_FUNC initModule() {
Py_InitModule3(func, module_methods, "docstring...");
}

Here is the description of Py_InitModule3 function −

func − This is the function to be exported.

module_methods − This is the mapping table name defined above.

docstring − This is the comment you want to give in your extension.

Putting this all together looks like the following −

#include <Python.h>

static PyObject *module_func(PyObject *self, PyObject *args) {

/* Do your stuff here. */
Py_RETURN_NONE;
}

static PyMethodDef module_methods[] = {

{ "func", (PyCFunction)module_func, METH_NOARGS, NULL },
{ NULL, NULL, 0, NULL }
};

PyMODINIT_FUNC initModule() {
Py_InitModule3(func, module_methods, "docstring...");
}

Example

A simple example that makes use of all the above concepts −

#include <Python.h>

static PyObject* helloworld(PyObject* self) {

return Py_BuildValue("s", "Hello, Python extensions!!");
}

static char helloworld_docs[] =

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"helloworld( ): Any message you want to put here!!\n";

static PyMethodDef helloworld_funcs[] = {

{"helloworld", (PyCFunction)helloworld,
METH_NOARGS, helloworld_docs},
{NULL}
};

void inithelloworld(void) {
Py_InitModule3("helloworld", helloworld_funcs,
"Extension module example!");
}

Here the Py_BuildValue function is used to build a Python value. Save above code in hello.c file. We would see
how to compile and install this module to be called from Python script.

Building and Installing Extensions

The distutils package makes it very easy to distribute Python modules, both pure Python and extension
modules, in a standard way. Modules are distributed in source form and built and installed via a setup script
usually called setup.py as follows.

For the above module, you need to prepare following setup.py script −

from distutils.core import setup, Extension

setup(name='helloworld', version='1.0', \
ext_modules=[Extension('helloworld', ['hello.c'])])

Now, use the following command, which would perform all needed compilation and linking steps, with the
right compiler and linker commands and flags, and copies the resulting dynamic library into an appropriate
directory −

$ python setup.py install

On Unix-based systems, you'll most likely need to run this command as root in order to have permissions to
write to the site-packages directory. This usually is not a problem on Windows.

Importing Extensions
Once you installed your extension, you would be able to import and call that extension in your Python script
as follows −

#!/usr/bin/python
import helloworld

print helloworld.helloworld()

This would produce the following result −

Hello, Python extensions!!

Passing Function Parameters

As you will most likely want to define functions that accept arguments, you can use one of the other signatures
for your C functions. For example, following function, that accepts some number of parameters, would be
defined like this −

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static PyObject *module_func(PyObject *self, PyObject *args) {

/* Parse args and do something interesting here. */
Py_RETURN_NONE;
}

The method table containing an entry for the new function would look like this −

static PyMethodDef module_methods[] = {

{ "func", (PyCFunction)module_func, METH_NOARGS, NULL },
{ "func", module_func, METH_VARARGS, NULL },
{ NULL, NULL, 0, NULL }
};

You can use API PyArg_ParseTuple function to extract the arguments from the one PyObject pointer passed
into your C function.

The first argument to PyArg_ParseTuple is the args argument. This is the object you will be parsing. The
second argument is a format string describing the arguments as you expect them to appear. Each argument is
represented by one or more characters in the format string as follows.

static PyObject *module_func(PyObject *self, PyObject *args) {

int i;
double d;
char *s;

if (!PyArg_ParseTuple(args, "ids", &i, &d, &s)) {

return NULL;
}

/* Do something interesting here. */

Py_RETURN_NONE;
}

Compiling the new version of your module and importing it enables you to invoke the new function with any
number of arguments of any type −

module.func(1, s="three", d=2.0)

module.func(i=1, d=2.0, s="three")
module.func(s="three", d=2.0, i=1)

You can probably come up with even more variations.

The PyArg_ParseTuple Function

Here is the standard signature for PyArg_ParseTuple function −

int PyArg_ParseTuple(PyObject* tuple,char* format,...)

This function returns 0 for errors, and a value not equal to 0 for success. tuple is the PyObject* that was the C
function's second argument. Here format is a C string that describes mandatory and optional arguments.

Here is a list of format codes for PyArg_ParseTuple function −

Code C type Meaning

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c char A Python string of length 1 becomes a C char.

d double A Python float becomes a C double.

f float A Python float becomes a C float.

i int A Python int becomes a C int.

l long A Python int becomes a C long.

L long long A Python int becomes a C long long

O PyObject* Gets non-NULL borrowed reference to Python argument.

s char* Python string without embedded nulls to C char*.

s# char*+int Any Python string to C address and length.

t# char*+int Read-only single-segment buffer to C address and length.

u Py_UNICODE* Python Unicode without embedded nulls to C.

u# Py_UNICODE*+int Any Python Unicode C address and length.

w# char*+int Read/write single-segment buffer to C address and length.

z char* Like s, also accepts None setsC char ∗ toN U LL .

z# char*+int Like s#, also accepts None setsC char ∗ toN U LL .

... as per ... A Python sequence is treated as one argument per item.

| The following arguments are optional.

: Format end, followed by function name for error messages.

; Format end, followed by entire error message text.

Returning Values
Py_BuildValue takes in a format string much like PyArg_ParseTuple does. Instead of passing in the
addresses of the values you are building, you pass in the actual values. Here's an example showing how to
implement an add function −

static PyObject *foo_add(PyObject *self, PyObject *args) {

int a;
int b;

if (!PyArg_ParseTuple(args, "ii", &a, &b)) {

return NULL;
}
return Py_BuildValue("i", a + b);
}

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This is what it would look like if implemented in Python −

def add(a, b):

return (a + b)

You can return two values from your function as follows, this would be cauptured using a list in Python.

static PyObject *foo_add_subtract(PyObject *self, PyObject *args) {

int a;
int b;

if (!PyArg_ParseTuple(args, "ii", &a, &b)) {

return NULL;
}
return Py_BuildValue("ii", a + b, a - b);
}

This is what it would look like if implemented in Python −

def add_subtract(a, b):

return (a + b, a - b)

The Py_BuildValue Function

Here is the standard signature for Py_BuildValue function −

PyObject* Py_BuildValue(char* format,...)

Here format is a C string that describes the Python object to build. The following arguments of Py_BuildValue
are C values from which the result is built. The PyObject* result is a new reference.

Following table lists the commonly used code strings, of which zero or more are joined into string format.

Code C type Meaning

c char A C char becomes a Python string of length 1.

d double A C double becomes a Python float.

f float A C float becomes a Python float.

i int A C int becomes a Python int.

l long A C long becomes a Python int.

N PyObject* Passes a Python object and steals a reference.

O PyObject* Passes a Python object and INCREFs it as normal.

O& convert+void* Arbitrary conversion

s char* C 0-terminated char* to Python string, or NULL to None.

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s# char*+int C char* and length to Python string, or NULL to None.

u Py_UNICODE* C-wide, null-terminated string to Python Unicode, or NULL to None.

u# Py_UNICODE*+int C-wide string and length to Python Unicode, or NULL to None.

w# char*+int Read/write single-segment buffer to C address and length.

z char* Like s, also accepts None setsC char ∗ toN U LL .

z# char*+int Like s#, also accepts None setsC char ∗ toN U LL .

... as per ... Builds Python tuple from C values.

[...] as per ... Builds Python list from C values.

{...} as per ... Builds Python dictionary from C values, alternating keys and values.

Code {...} builds dictionaries from an even number of C values, alternately keys and values. For example,
Py_BuildValue" issi ", 23, " zig ", " zag ", 42 returns a dictionary like Python's {23:'zig','zag':42}.

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