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Mastering Python Scripting for System Administrators
Mastering Python Scripting for System Administrators

Mastering Python Scripting for System Administrators: Write scripts and automate them for real-world administration tasks using Python

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Mastering Python Scripting for System Administrators

Python Scripting Overview

Python is a scripting language, created by Guido van Rossum in 1991, which is used in various applications, such as game development, GIS programming, software development, web development, data analytics, machine learning, and system scripting.

Python is an object-oriented, high-level programming language with dynamic semantics. Mainly, Python is an interpreted language. Python is used for rapid application development, as it has all of the advanced features for development.

Python is simple and easy to learn, as its syntax makes programs more readable. Hence, the program maintenance cost is low.

Python has one more important feature of importing modules and packages. This feature allows for code reuse. The Python interpreter is easy to understand. We can write the complete code one by one in it and, as Python is an interpreted language, the code gets executed line by line. Python also has a wide range of libraries for advanced functionality.

This chapter will cover the following topics:

  • Python scripting
  • Installing and using Python and various tools
  • Variables, numbers, and strings
  • Python supported data structures and how to use all of these concepts in a script
  • Decision making; that is, the if statement
  • Looping statements; that is, the for and while loops
  • Functions
  • Modules

Technical requirements

Before you start reading this book, you should know the basics of Python programming, such as the basic syntax, variable types, tuple data type, list dictionary, functions, strings, and methods. Two versions, 3.7.2 and 2.7.15, are available at python.org/downloads/. In this book we'll work with version 3.7 for code examples and package installing.

Examples and source code for this chapter are available in the GitHub repository: https://github.com/PacktPublishing/Mastering-Python-Scripting-for-System-Administrators-.

Why Python?

Python has a wide range of libraries for open source data analysis tools, web frameworks, testing, and so on. Python is a programming language that can be used on different platforms (Windows, Mac, Linux, and embedded Linux H/W platforms, such as Raspberry Pi). It's used to develop desktop as well as web applications.

Developers can write programs with fewer lines if they use Python. Prototyping is very quick, as Python runs on an interpreter system. Python can be treated in an object-oriented, a procedural, or a functional way.

Python can do various tasks, such as creating web applications. It is used with the software to create workflows; it connects to database systems, handles files, handles big data, and performs complex mathematics.

Python syntax compared to other programming languages

The code written in Python is highly readable because it's similar to the English language. To complete a command, Python uses new lines.

Python has a great feature: indentation. Using indentations, we can define the scope for decision-making statements, loops such as for and while loops, functions, and classes.

Python installation

In this section, we will be learning about the installation of Python on different platforms, such as Linux and Windows.

Installation on the Linux platform

Most Linux distributions have Python 2 in their default installations. Some of them also have Python 3 included.

To install python3 on Debian-based Linux, run the following command in the Terminal:

sudo apt install python3

To install python3 on centos, run the following command in the Terminal:

sudo yum install python3

If you are unable to install Python using the preceding commands, download Python from https://www.python.org/downloads/ and follow the instructions.

Installation on the Windows platform

For installing Python in Microsoft Windows, you'll have to download the executable from python.org and install it. Download python.exe from https://www.python.org/downloads/ and choose the Python version that you want install on your PC. Then, double-click on the downloaded exe and install Python. On the installation wizard, there's checkbox that says Add Python to the path. Check this checkbox and then follow the instructions to install python3.

Installing and using pip to install packages

In Linux, install pip as follows:

sudo apt install python-pip --- This will install pip for python 2.
sudo apt install python3-pip --- This will install pip for python 3.

In Windows, install pip as follows:

python -m pip install pip

Installation on Mac

To install python3, first we must have brew installed on our system. To install brew on your system, run the following command:

/usr/bin/ruby -e "$(curl -fsSL https://raw.githubusercontent.com/Homebrew/install/master/install)"

By running the preceding command. brew will get installed. Now we will install python3 using brew:

brew install python3

Installing Jupyter notebook

For installing the Jupyter Notebook, download Anaconda.

Install the downloaded version of Anaconda and follow the instructions on the wizard.

Install Jupyter using pip:

pip install jupyter

In Linux, pip install jupyter will install Jupyter for python 2. If you want to install jupyter for python 3, run the following command:

pip3 install jupyter

Installing and using the virtual environment

Now we will see how to install the virtual environment and how to activate it.

To install the virtual environment on Linux, perform the following steps:

  1. First check whether pip is installed or not. We are going to install pip for python3:
sudo apt install python3-pip
  1. Install the virtual environment using pip3:
sudo pip3 install virtualenv
  1. Now we will create the virtual environment. You can give it any name; I have called it pythonenv:
virtualenv pythonenv
  1. Activate your virtual environment:
source venv/bin/activate
  1. After your work is done, you can deactivate virtualenv by using following command:
deactivate

In Windows, run the pip install virtualenv command to install the virtual environment. The steps for installing virtualenv are same as with Linux.

Installing Geany and PyCharm

Python interpreter

Python is an interpreted language. It has an interactive console called the Python interpreter or Python shell. This shell provides a way to execute your program line by line without creating a script.

You can access all of Python's built-in functions and libraries, installed modules, and command history in the Python interactive console. This console gives you the opportunity to to explore Python. You're able to paste code into scripts when you are ready.

The difference between Python and Bash scripting

In this section, we're going to learn about the difference between Python and Bash scripting. The differences are as follows:

  • Python is a scripting language, whereas Bash is a shell used for entering and executing commands
  • Dealing with larger programs is easier with Python
  • In Python, you can do most things just by calling a one-line function from imported modules

Starting the interactive console

We can access Python's interactive console from any computer that has Python already installed. Run the following command to start Python's interactive console:

$ python

This will start the default Python interactive console.

In Linux, if we write Python in the Terminal, the python2.7 console starts. If you want to start the python3 console, then enter python3 in the Terminal and press Enter.

In Windows, when you enter Python in Command Prompt, it will start the console of the downloaded Python version.

Writing scripts with the Python interactive console

The Python interactive console starts from >>> prefix. This console will accept the Python commands, which you'll write after >>> prefix. Refer to the following screenshot:

Now, we will see how to assign values to the variable, as in the following example:

>>> name = John

Here, we've assigned a character value of John to the name variable. We pressed Enter and received a new line with >>> prefix:

>>> name = John

Now, we will see an example of assigning values to variables and then we will perform a math operation to get the values:

>>> num1 = 5000
>>> num2 = 3500
>>> num3 = num1 + num2
>>> print (num3)
8500
>>> num4 = num3 - 2575
>>> print (num4)
5925
>>>

Here, we assigned values to variables, added two variables, stored the result in a third variable, and printed the result on to the Terminal. Next, we subtracted one variable from the result variable, and the output will get stored in the fourth variable. Then, we printed the result on to the Terminal. So this tells us that we can also use the Python interpreter as a calculator:

>>> 509 / 22
23.136363636363637
>>>

Here, we performed a division operation. We divided 509 by 22 and the result we got is 23.136363636363637.

Multiple lines

When we write multiple lines of code in the Python interpreter (for example, the If statement and for and while loop functions), then the interpreter uses three dots (...) as a secondary prompt for line continuation. To come out of these lines, you have to press the Enter key twice. Now we will look at the following example:

>>> val1 = 2500
>>> val2 = 2400
>>> if val1 > val2:
... print("val1 is greater than val2")
... else:
... print("val2 is greater than val1")
...
val1 is greater than val2
>>>

In this example, we've assigned integer values to two variables, val1 and val2, and we're checking whether val1 is greater than val2 or not. In this case, val1 is greater than val2, so the statement in the if block gets printed. Remember, statements in if and else blocks are indented. If you don't use indentation, you will get the following error:

>>> if val1 > val2:
... print("val1 is greater than val2")
File "<stdin>", line 2
print("val1 is greater than val2")
^
IndentationError: expected an indented block
>>>

Importing modules through the Python interpreter

If you are importing any module, then the Python interpreter checks if that module is available or not. You can do this by using the import statement. If that module is available, then you will see the >>> prefix after pressing the Enter key. This indicates that the execution was successful. If that module doesn't exist, the Python interpreter will show an error:

>>> import time
>>>

After importing the time module, we get the >>> prefix. This means that the module exists and this command gets executed successfully:

>>> import matplotlib

If the module doesn't exist, then you will get Traceback error:

File "<stdin>", line 1, in <module>
ImportError: No module named 'matplotlib'

So here, matplotlib isn't available, so it gives an error: ImportError: No module named 'matplotlib'.

To solve this error, we will have to install matplotlib and then again try to import matplotlib. After installing matplotlib, you should be able to import the module, as follows:

>>> import matplotlib
>>>

Exiting the Python console

We can come out of the Python console in two ways:

  • The keyboard shortcut: Ctrl + D
  • Using the quit() or exit() functions

The keyboard shortcut

The keyboard shortcut, Ctrl + D, will give you the following code:

>>> val1 = 5000
>>> val2 = 2500
>>>
>>> val3 = val1 - val2
>>> print (val3)
2500
>>>
student@ubuntu:~$

Using the quit() or exit() functions

quit() will take you out of Python's interactive console. It will also take you to the original Terminal you were previously in:

>>> Lion = 'Simba'
>>> quit()
student@ubuntu$

Indentation and tabs

Indentation is a must when writing block code in Python. Indentation is useful when you are writing functions, decision-making statements, looping statements, and classes. This makes it easy to read your Python programs.

We use indentation to indicate the block of code in Python programs. To indent a block of code, you can use spaces or tabs. Refer to the following example:

if val1 > val2:
print ("val1 is greater than val2")
print("This part is not indented")

In the preceding example, we indented the print statement because it comes under the if block. The next print statement doesn't come under the if block and that's why we didn't indent it.

Variables

Like other programming languages, there's no need to declare your variables first. In Python, just think of any name to give your variable and assign it a value. You can use that variable in your program. So, in Python, you can declare variables whenever you need them.

In Python, the value of a variable may change during the program execution, as well as the type. In the following line of code, we assign the value 100 to a variable:

n = 100
Here are assigning 100 to the variable n. Now, we are going to increase the value of n by 1:
>>> n = n + 1
>>> print(n)
101
>>>

The following is an example of a type of variable that can change during execution:

a = 50 # data type is implicitly set to integer
a = 50 + 9.50 # data type is changed to float
a = "Seventy" # and now it will be a string

Python takes care of the representation for the different data types; that is, each type of value gets stored in different memory locations. A variable will be a name to which we're going to assign a value:

>>> msg = 'And now for something completely different'
>>> a = 20
>>> pi = 3.1415926535897932

This example makes three assignments. The first assignment is a string assignment to the variable named msg. The second assignment is an integer assignment to the variable named a and the last assignment is a pi value assignment.

The type of a variable is the type of the value it refers to. Look at the following code:

>>> type(msg)
<type 'str'>
>>> type(a)
<type 'int'>
>>> type(pi)
<type 'float'>

Creating and assigning values to variables

In Python, variables don't need to be declared explicitly to reserve memory space. So, the declaration is done automatically whenever you assign a value to the variable. In Python, the equal sign = is used to assign values to variables.

Consider the following example:

#!/usr/bin/python3
name = 'John'
age = 25
address = 'USA'
percentage = 85.5
print(name)
print(age)
print(address)
print(percentage)

Output:
John
25
USA
85.5

In the preceding example, we assigned John to the name variable, 25 to the age variable, USA to the address variable, and 85.5 to the percentage variable.

We don't have to declare them first as we do in other languages. So, looking at the value interpreter will get the type of that variable. In the preceding example, name and address are strings, age is an integer, and percentage is a floating type.

Multiple assignments for the same value can be done as follows:

x = y = z = 1

In the preceding example, we created three variables and assigned an integer value 1 to them, and all of these three variables will be assigned to the same memory location.

In Python, we can assign multiple values to multiple variables in a single line:

x, y, z = 10, 'John', 80

Here, we declared one string variable, y, and assigned the value John to it and two integer variables, x and z, and assigned values 10 and 80 to them, respectively.

Numbers

The Python interpreter can also act as a calculator. You just have to type an expression and it will return the value. Parentheses ( ) are used to do the grouping, as shown in the following example:

>>> 5 + 5
10
>>> 100 - 5*5
75
>>> (100 - 5*5) / 15
5.0
>>> 8 / 5
1.6

The integer numbers are of the int type and a fractional part is of the float type.

In Python, the division (/) operation always returns a float value. The floor division (//) gets an integer result. The % operator is used to calculate the remainder.

Consider the following example:

>>> 14/3
4.666666666666667
>>>
>>> 14//3
4
>>>
>>> 14%3
2
>>> 4*3+2
14
>>>

To calculate powers, Python has the ** operator, as shown in the following example:

>>> 8**3
512
>>> 5**7
78125
>>>

The equal sign (=) is used for assigning a value to a variable:

>>> m = 50
>>> n = 8 * 8
>>> m * n
3200

If a variable does not have any value and we still try to use it, then the interpreter will show an error:

>>> k
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
NameError: name 'k' is not defined
>>>

If the operators have mixed types of operands, then the value we get will be of a floating point:

>>> 5 * 4.75 - 1
22.75

In the Python interactive console, _ contains the last printed expression value, as shown in the following example:

>>> a = 18.5/100
>>> b = 150.50
>>> a * b
27.8425
>>> b + _
178.3425
>>> round(_, 2)
178.34
>>>

Number data types store numeric values, which are immutable data types. If we do this, Python will allocate a new object for the changed data type.

We can create number objects just by assigning a value to them, as shown in the following example:

num1 = 50
num2 = 25

The del statement is used to delete single or multiple variables. Refer to the following example:

del num
del num_a, num_b

Number type conversion

In some situations, you need to convert a number explicitly from one type to another to satisfy some requirements. Python does this internally in an expression

  • Type int(a) to convert a into an integer
  • Type float(a) to convert a into a floating-point number
  • Type complex(a) to convert a into a complex number with real part x and imaginary part zero
  • Type complex(a, b) to convert a and b into a complex number with real part a and imaginary part b. a and b are numeric expressions

Strings

Like numbers, strings are also one of the data structures in Python. Python can manipulate strings. Strings can be expressed as follows:

  • Enclosed in single quotes ('...')
  • Enclosed in double quotes ("...")

See the following example:

>>> 'Hello Python'
'Hello Python'
>>> "Hello Python"
'Hello Python'

A string is a set of characters. We can access the characters one at a time, as follows:

>>> city = 'delhi'
>>> letter = city[1]
>>> letter = city[-3]

In the second statement, we are selecting the character number 1 from city and assigning it to letter. The number in those square brackets is an index. The index indicates which character you want to access. It starts from 0. So, in the preceding example, when you will execute letter = city[1], you will get the following output:

city d e l h i
index 0 1 2 3 4
-5 -4 -3 -2 -1

Output:
e
l

Concatenation (+) and repetition (*)

Next, comes concatenation and repetition. Refer to the following code:

>>> 3 * 'hi' + 'hello'
'hihihihello'

In the preceding example, we are doing string concatenation and repetition. 3 * 'hi' means hi gets printed 3 times and, using the + sign, we are joining the hello string next to hi.

We can automatically concatenate two strings just by writing them next to each other. These two strings must be enclosed between quotes, as shown here:

>>> 'he' 'llo'
'hello'

This feature is really helpful when you have long strings and you want to break them. Here is an example:

>>> str = ('Several strings'
... 'joining them together.')
>>> str
'Several strings joining them together.'

String slicing

Strings support slicing, which means getting characters by a specified range from your string. Let's take a look at the following example. Note that starting index value is always included and an end value is always excluded.

Consider a string, str = "Programming":

>>> str[0:2]
'Pr'
>>> str[2:5]
'ogr'

Now, the default of an omitted first index is zero, as in the example:

>>> str[:2] + str[2:]
'Python'
>>> str[:4] + str[4:]
'Python'
>>> str[:2]
'Py'
>>> str[4:]
'on'
>>> str[-2:]
'on'

Accessing values in strings

We can access characters from strings using slicing by using square brackets. We can also access characters from strings between the specified range. Refer to the following example:

#!/usr/bin/python3
str1 = 'Hello Python!'
str2 = "Object Oriented Programming"
print ("str1[0]: ", str1[0])
print ("str2[1:5]: ", str2[1:5])

Output:
str1[0]: H
str2[1:5]: bjec

Updating strings

We can update a string by reassigning a new value to the specified index. Refer to the following example:

#!/usr/bin/python3
str1 = 'Hello Python!'
print ("Updated String: - ", str1 [:6] + 'John')

Output:
Updated String: - Hello John

Escape characters

Python supports escape characters that are non-printable and can be represented with a backslash notation. An escape character gets interpreted in both single and double quoted strings:

Notations

Hex characters

Description

a

0x07

Bell or alert

b

0x08

Backspace

cx

Control-x

n

0x0a

Newline

C-x

Control-x

e

0x1b

Escape

f

0x0c

Form feed

s

0x20

Space

M-C-x

Meta-control-x

x

Character x

nnn

Octal notation, where n is in the range 0.7

r

0x0d

Carriage return

xnn

Hexadecimal notation, where n is in the range 0.9, a.f, or A.F

t

0x09

Tab

v

0x0b

Vertical tab

Special string operators

The following table shows string's special operators. Consider a is Hello and b is World:

Operator

Description

Example

+

Concatenation: adds values on either side of the operator

a + b will give HelloWorld

[]

Slice: gives the character from the given index

a[7] will give r

[ : ]

Range slice: gives the characters from the given range

a[1:4] will give ell

*

Repetition: creates new strings, concatenating multiple copies of the same string

a*2 will give HelloHello

not in

Membership: returns true if a character does not exist in the given string

Z not in a will give 1

in

Membership: returns true if a character exists in the given string

H in a will give 1

%

Format: performs string formatting

% string formatting operator

% is a string formatting operator in Python. Refer to the following example:

#!/usr/bin/python3
print ("Hello this is %s and my age is %d !" % ('John', 25))


Output:
Hello this is John and my age is 25 !

The following table shows a list of symbols used along with %:

S.No.

Format symbol and conversion

1

%c – character

2

%s – string conversion via str() prior to formatting

3

%i – signed decimal integer

4

%d – signed decimal integer

5

%u – unsigned decimal integer

6

%o – octal integer

7

%x – hexadecimal integer (lowercase letters)

8

%X – hexadecimal integer (uppercase letters)

9

%e – exponential notation (with lowercase e)

10

%E – exponential notation (with uppercase E)

11

%f – floating point real number

Triple quotes in Python

Python's triple quotes functionality for strings is used to span multiple lines, including newlines and tabs. The syntax for triple quotes consists of three consecutive single or double quotes. Refer to the following code:

#!/usr/bin/python3

para_str = """ Python is a scripting language which was created by
Guido van Rossum in 1991, t which is used in various sectors such as Game Development, GIS Programming, Software Development, web development,
Data Analytics and Machine learning, System Scripting etc.
"""
print (para_str)

It produces the following output. Note the tabs and newlines:

Output:
Python is a scripting language which was created by
Guido van Rossum in 1991, which is used in various sectors such as
Game Development, GIS Programming, Software Development, web development,
Data Analytics and Machine learning, System Scripting etc.

Strings are immutable

Strings are immutable, meaning we can't change the values. Refer to the given example:

>>> welcome = 'Hello, John!'
>>> welcome[0] = 'Y'
TypeError: 'str' object does not support item assignment

As the strings are immutable; we cannot change an existing string. But we can create a new string that will be different from the original:

>>> str1 = 'Hello John'
>>> new_str = 'Welcome' + str1[5:]
>>> print(str1)
Hello John
>>> print(new_str)
Welcome John
>>>

Understanding lists

Python supports a data structure called list, which is a mutable and ordered sequence of elements. Each element in that list is called as item. Lists are defined by inserting values between square brackets [ ]. Each element of list is given a number, which we call as a position or index. The index starts from zero; that is, the first index is zero, the second index is 1, and so on. We can perform the following operations on lists: indexing, slicing, adding, multiplying, and checking for membership.

Python's built-in length function returns the length of that list. Python also has function for finding the largest and smallest item of list. Lists can be numbered lists, string lists, or mixed list.

The following is the code for creating a list:

l = list()
numbers = [10, 20, 30, 40]

animals = ['Dog', 'Tiger', 'Lion']
list1 = ['John', 5.5, 500, [110, 450]]

Here, we've created three lists: the first is numbers, the second is animals, and the third is list1. A list within another list is called as nested list. Our list1 is a nested list. A list containing no elements is called an empty list; you can create one with empty brackets, [].

As you might expect, you can assign list values to variables:

>>> cities = ['Mumbai', 'Pune', 'Chennai']
>>> numbers_list = [75, 857]
>>> empty_list = []
>>> print (cities, numbers_list, empty_list)
['Mumbai', 'Pune', 'Chennai'] [75, 857] []

Accessing values in lists

We can access the values from a list by using index values. We will specify the index number in [ and ]. Index starts from 0. Refer to the given example:

#!/usr/bin/python3
cities = ['Mumbai', 'Bangalore', 'Chennai', 'Pune']
numbers = [1, 2, 3, 4, 5, 6, 7 ]
print (cities[0])
print (numbers[1:5])


Output:
Mumbai
[2, 3, 4, 5]

Updating lists

You can update elements of lists, as shown in the following code:

#!/usr/bin/python3
cities = ['Mumbai', 'Bangalore', 'Chennai', 'Pune']
print ("Original Value: ", cities[3])
cities[3] = 'Delhi'
print ("New value: ", cities[3])


Output:
Original Value: Pune
New value: Delhi

Deleting list elements

To remove a list element, you can use either the del statement if you know exactly which element(s) you are deleting. You can use the remove() method if you do not know exactly which items to delete. Refer to the following example:

#!/usr/bin/python3
cities = ['Mumbai', 'Bangalore', 'Chennai', 'Pune']
print ("Before deleting: ", cities)
del cities[2]
print ("After deleting: ", cities)

Output:
Before deleting: ['Mumbai', 'Bangalore', 'Chennai', 'Pune']
After deleting: ['Mumbai', 'Bangalore', 'Pune']

Basic list operations

There are five basic list operations:

  • Concatenation
  • Repetition
  • Length
  • Membership
  • Iteration

Description

Expression

Result

Concatenation

[30, 50, 60] + ['Hello', 75, 66]

[30,50,60,'Hello',75,66]

Membership

45 in [45,58,99,65]

True

Iteration

for x in [45,58,99] : print (x,end = ' ')

45 58 99

Repetition

['Python'] * 3

['python', 'python', 'python']

Length

len([45, 58, 99, 65])

4

List operations

In this section, we are going to learn about basic list operations: concatenation and repetition.

The + operator concatenates lists:

>>> a = [30, 50, 60]
>>> b = ['Hello', 75, 66 ]
>>> c = a + b
>>> print c
[30,50,60,'Hello',75,66]

Similarly, the * operator repeats a list a given number of times:

>>> [0] * 4
[0, 0, 0, 0]
>>> ['Python'] * 3
['python', 'python', 'python']

Indexing, slicing, and matrices

List indices work the same way as string indices. Values can be accessed using index. If you try to read or write an element that does not exist, you get IndexError. If an index has a negative value, it counts backward from the end of the list.

Now, we will create a list named cities and we will see the index operations:

cities = ['Mumbai', 'Bangalore', 'Chennai', 'Pune']

Description

Expression

Results

Index start at zero

cities[2]

'Chennai'

Slicing: getting sections

cities[1:]

['Bangalore', 'Chennai', 'Pune']

Negative: count from the right

cities[-3]

'Bangalore'

Tuples

Python's tuple data structure is immutable, meaning we cannot change the elements of the tuples. Basically, a tuple is a sequence of values that are separated by commas and are enclosed in parentheses ( ). Like lists, tuples are an ordered sequence of elements:

>>> t1 = 'h', 'e', 'l', 'l', 'o'

Tuples are enclosed in parentheses ( ):

>>> t1 = ('h', 'e', 'l', 'l', 'o')

You can also create a tuple with a single element. You just have to put a final comma in the tuple:

>>> t1 = 'h',
>>> type(t1)
<type 'tuple'>

A value in parentheses is not a tuple:

>>> t1 = ('a')
>>> type(t1)
<type 'str'>

We can create an empty tuple using the tuple() function:

>>> t1 = tuple()
>>> print (t1)
()

If the argument is a sequence (string, list, or tuple), the result is a tuple with the elements of the sequence:

>>> t = tuple('mumbai')
>>> print t
('m', 'u', 'm', 'b', 'a', 'i')

Tuples have values between parentheses ( ) separated by commas:

>>> t = ('a', 'b', 'c', 'd', 'e')
>>> print t[0]
'a'

The slice operator selects a range of elements.

>>> print t[1:3]
('b', 'c')

Accessing values in tuples

To access values in a tuple, use the square brackets for slicing along with the index or indices to obtain the value available at that index or indices, as shown in the following example:

#!/usr/bin/python3
cities = ('Mumbai', 'Bangalore', 'Chennai', 'Pune')
numbers = (1, 2, 3, 4, 5, 6, 7)
print (cities[3])
print (numbers[1:6])

Output:
Pune
(2, 3, 4, 5)

Updating tuples

Tuple updating is not possible in Python, as tuples are immutable. But you can create a new tuple with an existing tuple, as shown in the following example:

#!/usr/bin/python3
cities = ('Mumbai', 'Bangalore', 'Chennai', 'Pune')
numbers = (1,2,3,4,5,6,7)
tuple1 = cities + numbers
print(tuple1)

Output:
('Mumbai', 'Bangalore', 'Chennai', 'Pune', 1, 2, 3, 4, 5, 6, 7)

Deleting tuple elements

We cannot remove individual tuple elements. So, to remove an entire tuple explicitly, use the del statement. Refer to the following example:

#!/usr/bin/python3
cities = ('Mumbai', 'Bangalore', 'Chennai', 'Pune')
print ("Before deleting: ", cities)
del cities
print ("After deleting: ", cities)

Output:
Before deleting: ('Mumbai', 'Bangalore', 'Chennai', 'Pune')
Traceback (most recent call last):
File "01.py", line 5, in <module>
print ("After deleting: ", cities)
NameError: name 'cities' is not defined

Basic tuple operations

Like lists, there are five basic tuple operations:

  • Concatenation
  • Repetition
  • Length
  • Membership
  • Iteration

Description

Expression

Results

Iteration

for x in (45,58,99) : print (x,end = ' ')

45 58 99

Repetition

('Python') * 3

('python', 'python', 'python')

Length

len(45, 58, 99, 65)

4

Concatenation

(30, 50, 60) + ('Hello', 75, 66)

(30,50,60,'Hello',75,66)

Membership

45 in (45,58,99,65)

True

Indexing, slicing, and matrices

Tuple indices work the same way as list indices. Values can be accessed using index. If you try to read or write an element that does not exist, you get IndexError. If an index has a negative value, it counts backward from the end of the list.

Now, we will create a tuple named cities and perform some index operations:

cities = ('Mumbai', 'Bangalore', 'Chennai', 'Pune')

Description

Expression

Results

Index starts at zero

cities[2]

'Chennai'

Slicing: getting sections

cities[1:]

('Bangalore', 'Chennai', 'Pune')

Negative: count from the right

cities[-3]

'Bangalore'

max() and min()

Using the max() and min() functions, we can find the highest and lowest values from the tuple. These functions allow us to find out information about quantitative data. Let's look at an example:

>>> numbers = (50, 80,98, 110.5, 75, 150.58)
>>> print(max(numbers))
150.58
>>>

Using max(), we will get the highest value in our tuple. Similarly, we can use the min() function:

>>> numbers = (50, 80,98, 110.5, 75, 150.58)
>>> print(min(numbers))
50
>>>

So, here we are getting the minimum value.

Sets

A set is an unordered collection of elements with no duplicates. The basic use of a set is to check membership testing and eliminate duplicate entries. These set objects support mathematical operations, such as union, intersection, difference, and symmetric difference. We can create a set using curly braces or the set() function. If you want create an empty set, then use set(), not {}.

Here is a brief demonstration:

>>> fruits = {'Mango', 'Apple', 'Mango', 'Watermelon', 'Apple', 'Orange'}
>>> print (fruits)
{'Orange', 'Mango', 'Apple', 'Watermelon'}
>>> 'Orange' in fruits
True
>>> 'Onion' in fruits
False
>>>
>>> a = set('abracadabra')
>>> b = set('alacazam')
>>> a
{'d', 'c', 'r', 'b', 'a'}
>>> a - b
{'r', 'd', 'b'}
>>> a | b
{'d', 'c', 'r', 'b', 'm', 'a', 'z', 'l'}
>>> a & b
{'a', 'c'}
>>> a ^ b
{'r', 'd', 'b', 'm', 'z', 'l'}

Set comprehensions are also supported in Python. Refer to the following code:

>>> a = {x for x in 'abracadabra' if x not in 'abc'}
>>> a
{'r', 'd'}

Dictionaries

A dictionary is a data type in Python, which consists of key value pairs and is enclosed in curly braces {}. Dictionaries are unordered and indexed by keys, where each key must be unique. These keys must be immutable type. Tuples can be used as keys if they contain only strings, numbers, or tuples.

Just a pair of braces creates an empty dictionary: { }. The main operations on a dictionary are storing a value with some key and extracting the value given to the key. It is also possible to delete a key value pair with del. If you store using a key that is already in use, the old value associated with that key is forgotten. It is an error to extract a value using a non-existent key. Here is a small example using a dictionary:

>>> student = {'Name':'John', 'Age':25}
>>> student['Address'] = 'Mumbai'
>>> student
student = {'Name':'John', 'Age':25, 'Address':'Mumbai'}
>>> student['Age']
25
>>> del student['Address']
>>> student
student = {'Name':'John', 'Age':25}
>>> list(student.keys())
['Name', 'Age']
>>> sorted(student.keys())
['Age', 'Name']
>>> 'Name' in student
True
>>> 'Age' not in student
False

Arbitrary key and value expressions along with dictionary comprehensions are used to create dictionaries:

>>> {x: x**2 for x in (4, 6, 8)}
{4: 16, 6: 36, 8: 64}

When the keys are simple strings, it is sometimes easier to specify pairs using keyword arguments:

>>> dict(John=25, Nick=27, Jack=28)
{'Nick': 27, 'John': 25, 'Jack': 28}

Parsing command-line arguments

In this section, we are going to learn about parsing arguments and the module used to parse arguments.

Command-line arguments in Python

We can start a program with additional arguments, in the command line. Python programs can start with command-line arguments. Let's look at an example:

$ python program_name.py img.jpg

Here, program_name.py and img.jpg are arguments.

Now, we are going to use modules to get the arguments:

Module

Use

Python version

optparse

Deprecated

< 2.7

sys

All arguments in sys.argv (basic)

All

argparse

Building a command-line interface

>= 2.3

fire

Automatically generating Command-Line Interfaces (CLIs)

All

docopt

Creating CLIs interfaces

>= 2.5

Sys.argv

The sys module is used to access command-line parameters. The len(sys.argv) function contains the number of arguments. To print all of the arguments, simply execute str(sys.argv). Let's have a look at an example:

01.py
import sys
print('Number of arguments:', len(sys.argv))
print('Argument list:', str(sys.argv))

Output:
Python3 01.py img
Number of arguments 2
Arguments list: ['01.py', 'img']

Decision making

When we want to execute a code block when the condition is true, decision making comes to the rescue. The if...elif...else statement is used in Python for decision making.

Python if statement syntax

The following is the syntax for the if statement:

if test_expression:
statement(s)

Here, the program evaluates the test expression and will execute statement(s) only if the text expression is true. If the text expression is false, statement(s) isn't executed.

In Python, the body of the if statement is indicated by the indentation. The body starts with an indentation and the first unindented line marks the end. Let's look at an example:

a = 10
if a > 0:
print(a, "is a positive number.")
print("This statement is always printed.")

a = -10
if a > 0:
print(a, "is a positive number.")

Output:
10 is a positive number.
This statement is always printed.

Python if...else statement syntax

In this section, we are going to learn about the if..else statement. The else block will get executed only when the if condition is false. Refer to the following syntax:

if test expression:
if block
else:
else block

The if..else statement evaluates the test expression and will execute the body of if only when the test condition is true. If the condition is false, the body of else is executed. Indentation is used to separate the blocks. Refer to the following example:

a = 10
if a > 0:
print("Positive number")
else:
print("Negative number")

Output:
Positive number

Python if...elif...else statement

The elif statement checks multiple statements for a true value. Whenever the value evaluates to true, that code block gets executed. Refer to the following syntax:

if test expression:
if block statements
elif test expression:
elif block statements
else:
else block statements

elif is short for else if. It allows us to check for multiple expressions. If the condition written in the if statement is false, then it will check the condition of the next elif block, and so on. If all of the conditions are false, the body of else is executed.

Only one block among the several if...elif...else blocks is executed according to the condition. The if block can have only one else block. But it can have multiple elif blocks. Let's take a look at an example:

a = 10
if a > 50:
print("a is greater than 50")
elif a == 10:
print("a is equal to 10")
else:
print("a is negative")

Output:
a is equal to 10

Loops

To handle all of the looping requirements in your script, Python supports two loops:

  • for loop
  • while loop

Now, we are going to learn about for loop and while loop.

for loop

for loop iterates over each item of the sequence or any other iterable object and it will execute the statements in the for block each time. Refer to the following syntax:

for i in sequence:
for loop body

Here, i is the variable that takes the value of the item inside the sequence on each iteration. This loop continues until we reach the last item in the sequence. This is illustrated in the following diagram:

Refer to the following example:

numbers = [6, 5, 3, 8, 4, 2, 5, 4, 11]
sum = 0
for i in numbers:
sum = sum + i
print("The sum is", sum)

Output:
The sum is 6
The sum is 11
The sum is 14
The sum is 22
The sum is 26
The sum is 28
The sum is 33
The sum is 37
The sum is 48

The range() function

The Python range() function will generate a sequence of numbers. For example, range(10) will generate numbers from 0 to 9 (10 numbers).

We can also define the start, stop, and step size as parameters and range() will be as follows:

range(start, stop, step size).
Step size defaults to 1 if not provided.
For loop example using range() function:

Let's take a look at an example:

for i in range(5):
print("The number is", i)

Output:
The number is 0
The number is 1
The number is 2
The number is 3
The number is 4

while loop

while is a looping statement that will iterate over a block of code until the entered test expression is true. We use this loop when we don't know how many times the iterations will go on. Refer to the following syntax:

while test_expression:
while body statements

In the while loop, first we will check the test expression. The while block will get executed only if the test expression is true. After one iteration, the expression will be checked again and this process continues until test_expression evaluates to false. This is illustrated in the following diagram:

The following is an example of the while loop:

a = 10
sum = 0
i = 1
while i <= a:
sum = sum + i
i = i + 1
print("The sum is", sum)


Output:
The sum is 1
The sum is 3
The sum is 6
The sum is 10
The sum is 15
The sum is 21
The sum is 28
The sum is 36
The sum is 45
The sum is 55

Iterators

In Python, an iterator is an object that can be iterated upon. It is an object that will return data, one element at a time. Python's iterator object implements two methods, __iter__() and __next__(). Mostly, iterators are implemented within loops, generators, and comprehensions.

In the following example, we are using the next() function, which will iterate through all of the items. After reaching the end and there is no more data to be returned, it will raise StopIteration, as shown in the following example:

numbers = [10, 20, 30, 40]

numbers_iter = iter(numbers)

print(next(numbers_iter))
print(next(numbers_iter))
print(numbers_iter.__next__())
print(numbers_iter.__next__())

next(numbers_iter)

Output:
10
20
30
40
Traceback (most recent call last):
File "sample.py", line 10, in <module>
next(numbers_iter)
StopIteration

Generators

We can create iterators using Python generators. In Python, a generator is a function that returns an object that we can iterate over.

How to create a generator in Python?

Creating a generator is easy in Python. You can create a generator just by defining a function with a yield statement instead of a return statement. If a function contains at least one yield statement, it becomes a generator function. yield and return statements will return some value from a function. Here is an example:

def my_gen():
n = 1
print('This is printed first')
yield n
n += 1
print('This is printed second')
yield n
n += 1
print('This is printed at last')
yield n
for item in my_gen():
print(item)

Output:
This is printed first
1
This is printed second
2
This is printed at last
3

Functions

A function is a set of statements that perform a specific task. Using functions helps in breaking our program into smaller parts. Programs will be more organized if we use functions as it avoids repetition and makes code reusable. Look at the following syntax:

def function_name(parameters):
statement(s)

Refer to the following example:

def welcome(name):
print("Hello " + name + ", Welcome to Python Programming !")

welcome("John")


Output:
Hello John, Welcome to Python Programming !

The return statement

The return statement is used to exit a function. Refer to the following syntax:

return [expression_list]

This statement may contain an expression where a value has to be returned. If there is no expression, then the function will return a None object, as shown in the following example:

def return_value(a):
if a >= 0:
return a
else:
return -a
print(return_value(2))
print(return_value(-4))

Output:
2
4

Lambda functions

In Python, an anonymous function is a function that is defined without a name and is called a lambda function, as it is defined using a keyword lambda. We use these functions whenever we require a function for a short period of time.

Lambda functions are used along with built-in functions, such as filter(), and map().

The filter() function returns a list of elements and has only one iterable as input. The following shows an example using filter():

numbers = [10, 25, 54, 86, 89, 11, 33, 22]
new_numbers = list(filter(lambda x: (x%2 == 0) , numbers))
print(new_numbers)

Output:
[10, 54, 86, 22]

In this example, the filter() function is taking a lambda function and a list as an argument.

The map() function returns a list of results after applying the specified function. Now, let's look at an example using map():

my_list = [1, 5, 4, 6, 8, 11, 3, 12]
new_list = list(map(lambda x: x * 2 , my_list))
print(new_list)

Output:
[2, 10, 8, 12, 16, 22, 6, 24]

Here, the map() function is taking a lambda function and a list.

Modules

Modules are just files that contain Python statements and definitions. A file that contains Python code (for example, sample.py) is called a module and its module name would be sample. Using modules, we can break larger programs into small and organized ones. An important feature of a module is re-usability. Instead of copying the definitions of the most used functions in different programs, you can define them in the module and just import them whenever needed.

Let's create a module and import it. We will create two scripts: sample.py and add.py. We will import a sample module in our add.py. Now, save the following code as sample.py. Let's take a look with the following example:

sample.py
def addition(num1, num2):
result = num1 + num2
return result

Here, we have defined a addition() function inside a module named sample. The function takes in two numbers and returns their sum. Now we have created a module. You can import this in any Python program.

Importing modules

Now, after creating a module, we will learn how to import that module. In the previous example, we created a sample module. Now we will import the sample module in add.py script:

add.py
import sample
sum = sample.addition(10, 20)
print(sum)

Output:
30

Summary

In this chapter, we've given an overview of the Python scripting language. We have learned about how to install Python and various tools. We also learned about the Python interpreter and how to use it. We learned about Python-supported data types, variables, numbers and strings, decision-making statements, and looping statements in Python. We also learned about functions and how to use them in scripts and modules and how to create and import them.

In the next chapter, Debugging and Profiling Python Scripts, you will learn about Python debugging techniques, error handling (exception handling), debuggers tools, debugging basic program crashes, profiling and timing programs, and making programs run faster.

Questions

  1. What are iterators and generators ?
  2. Are lists mutable or immutable ?
  3. What are the data structures in Python ?
  4. How to access values in a list ?
  5. What are modules ?

Further reading

All of the Python documentation is available on the following site: www.python.org.

You can also check the following books, Learn Python Hard Way and Byte of Python, to cover the basics of Python.

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Key benefits

  • Learn how to solve problems of system administrators and automate routine activities
  • Learn to handle regular expressions, network administration
  • Building GUI, web-scraping and database administration including data analytics

Description

Python has evolved over time and extended its features in relation to every possible IT operation. Python is simple to learn, yet has powerful libraries that can be used to build powerful Python scripts for solving real-world problems and automating administrators' routine activities. The objective of this book is to walk through a series of projects that will teach readers Python scripting with each project. This book will initially cover Python installation and quickly revise basic to advanced programming fundamentals. The book will then focus on the development process as a whole, from setup to planning to building different tools. It will include IT administrators' routine activities (text processing, regular expressions, file archiving, and encryption), network administration (socket programming, email handling, the remote controlling of devices using telnet/ssh, and protocols such as SNMP/DHCP), building graphical user interface, working with websites (Apache log file processing, SOAP and REST APIs communication, and web scraping), and database administration (MySQL and similar database data administration, data analytics, and reporting). By the end of this book, you will be able to use the latest features of Python and be able to build powerful tools that will solve challenging, real-world tasks

Who is this book for?

This book would be ideal for users with some basic understanding of Python programming and who are interested in scaling their programming skills to command line scripting and system administration. Prior knowledge of Python would be necessary.

What you will learn

  • Understand how to install Python and debug Python scripts
  • Understand and write scripts for automating testing and routine administrative activities
  • Understand how to write scripts for text processing, encryption, decryption, and archiving
  • Handle files, such as pdf, excel, csv, and txt files, and generate reports
  • Write scripts for remote network administration, including handling emails
  • Build interactive tools using a graphical user interface
  • Handle Apache log files, SOAP and REST APIs communication
  • Automate database administration and perform statistical analysis
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Table of Contents

20 Chapters
Python Scripting Overview Chevron down icon Chevron up icon
Debugging and Profiling Python Scripts Chevron down icon Chevron up icon
Unit Testing - Introduction to the Unit Testing Framework Chevron down icon Chevron up icon
Automating Regular Administrative Activities Chevron down icon Chevron up icon
Handling Files, Directories, and Data Chevron down icon Chevron up icon
File Archiving, Encrypting, and Decrypting Chevron down icon Chevron up icon
Text Processing and Regular Expressions Chevron down icon Chevron up icon
Documentation and Reporting Chevron down icon Chevron up icon
Working with Various Files Chevron down icon Chevron up icon
Basic Networking - Socket Programming Chevron down icon Chevron up icon
Handling Emails Using Python Scripting Chevron down icon Chevron up icon
Remote Monitoring of Hosts Over Telnet and SSH Chevron down icon Chevron up icon
Building Graphical User Interfaces Chevron down icon Chevron up icon
Working with Apache and Other Log Files Chevron down icon Chevron up icon
SOAP and REST API Communication Chevron down icon Chevron up icon
Web Scraping - Extracting Useful Data from Websites Chevron down icon Chevron up icon
Statistics Gathering and Reporting Chevron down icon Chevron up icon
MySQL and SQLite Database Administrations Chevron down icon Chevron up icon
Assessments Chevron down icon Chevron up icon
Other Books You May Enjoy Chevron down icon Chevron up icon

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What is your returns and refunds policy? Chevron down icon Chevron up icon

Return Policy:

We want you to be happy with your purchase from Packtpub.com. We will not hassle you with returning print books to us. If the print book you receive from us is incorrect, damaged, doesn't work or is unacceptably late, please contact Customer Relations Team on customercare@packt.com with the order number and issue details as explained below:

  1. If you ordered (eBook, Video or Print Book) incorrectly or accidentally, please contact Customer Relations Team on customercare@packt.com within one hour of placing the order and we will replace/refund you the item cost.
  2. Sadly, if your eBook or Video file is faulty or a fault occurs during the eBook or Video being made available to you, i.e. during download then you should contact Customer Relations Team within 14 days of purchase on customercare@packt.com who will be able to resolve this issue for you.
  3. You will have a choice of replacement or refund of the problem items.(damaged, defective or incorrect)
  4. Once Customer Care Team confirms that you will be refunded, you should receive the refund within 10 to 12 working days.
  5. If you are only requesting a refund of one book from a multiple order, then we will refund you the appropriate single item.
  6. Where the items were shipped under a free shipping offer, there will be no shipping costs to refund.

On the off chance your printed book arrives damaged, with book material defect, contact our Customer Relation Team on customercare@packt.com within 14 days of receipt of the book with appropriate evidence of damage and we will work with you to secure a replacement copy, if necessary. Please note that each printed book you order from us is individually made by Packt's professional book-printing partner which is on a print-on-demand basis.

What tax is charged? Chevron down icon Chevron up icon

Currently, no tax is charged on the purchase of any print book (subject to change based on the laws and regulations). A localized VAT fee is charged only to our European and UK customers on eBooks, Video and subscriptions that they buy. GST is charged to Indian customers for eBooks and video purchases.

What payment methods can I use? Chevron down icon Chevron up icon

You can pay with the following card types:

  1. Visa Debit
  2. Visa Credit
  3. MasterCard
  4. PayPal
What is the delivery time and cost of print books? Chevron down icon Chevron up icon

Shipping Details

USA:

'

Economy: Delivery to most addresses in the US within 10-15 business days

Premium: Trackable Delivery to most addresses in the US within 3-8 business days

UK:

Economy: Delivery to most addresses in the U.K. within 7-9 business days.
Shipments are not trackable

Premium: Trackable delivery to most addresses in the U.K. within 3-4 business days!
Add one extra business day for deliveries to Northern Ireland and Scottish Highlands and islands

EU:

Premium: Trackable delivery to most EU destinations within 4-9 business days.

Australia:

Economy: Can deliver to P. O. Boxes and private residences.
Trackable service with delivery to addresses in Australia only.
Delivery time ranges from 7-9 business days for VIC and 8-10 business days for Interstate metro
Delivery time is up to 15 business days for remote areas of WA, NT & QLD.

Premium: Delivery to addresses in Australia only
Trackable delivery to most P. O. Boxes and private residences in Australia within 4-5 days based on the distance to a destination following dispatch.

India:

Premium: Delivery to most Indian addresses within 5-6 business days

Rest of the World:

Premium: Countries in the American continent: Trackable delivery to most countries within 4-7 business days

Asia:

Premium: Delivery to most Asian addresses within 5-9 business days

Disclaimer:
All orders received before 5 PM U.K time would start printing from the next business day. So the estimated delivery times start from the next day as well. Orders received after 5 PM U.K time (in our internal systems) on a business day or anytime on the weekend will begin printing the second to next business day. For example, an order placed at 11 AM today will begin printing tomorrow, whereas an order placed at 9 PM tonight will begin printing the day after tomorrow.


Unfortunately, due to several restrictions, we are unable to ship to the following countries:

  1. Afghanistan
  2. American Samoa
  3. Belarus
  4. Brunei Darussalam
  5. Central African Republic
  6. The Democratic Republic of Congo
  7. Eritrea
  8. Guinea-bissau
  9. Iran
  10. Lebanon
  11. Libiya Arab Jamahriya
  12. Somalia
  13. Sudan
  14. Russian Federation
  15. Syrian Arab Republic
  16. Ukraine
  17. Venezuela