Python

= Basics=

The Zen of Python

 * Writing programs that actually do what they are supposed to do is just one component of being a good Python programmer.
 * It's also important to write clean code that is easily understood, even weeks after you've written it.

1. Beautiful is better than ugly. 2. Explicit is better than implicit.(It is best to spell out exactly what your code is doing. This is why adding a numeric string to an integer requires explicit conversion, rather than having it happen behind the scenes, as it does in other languages.) 3. Simple is better than complex. 4. Complex is better than complicated. 5. Flat is better than nested.(Heavily nested structures (lists of lists, of lists, and on and on…) should be avoided.) 6. Sparse is better than dense. 7. Readability counts. 8. Special cases aren't special enough to break the rules. 9. Although practicality beats purity. 10. Errors should never pass silently. (In general, when an error occurs, you should output some sort of error message, rather than ignoring it.) 11. Unless explicitly silenced. 12. In the face of ambiguity, refuse the temptation to guess. 13. There should be one-- and preferably only one --obvious way to do it.(References and contradicts the Perl language philosophy that there should be more than one way to do it.) 14. Although that way may not be obvious at first unless you're Dutch. 15. Now is better than never. 16. Although never is often better than *right* now. 17. If the implementation is hard to explain, it's a bad idea. 18. If the implementation is easy to explain, it may be a good idea. 19. Namespaces are one honking great idea -- let's do more of those!

import this
 * The 20th principle is a matter of opinion, but our interpretation is that the blank line means "Use whitespace".
 * Use the following code to access the Zen of Python:

Python Enhancement Proposals

 * PEP are suggestions for improvements to the language, made by experienced Python developers.
 * PEP 8 is a style guide on the subject of writing readable code:

Modules should have short, all-lowercase names Class names should be in the CapWords style Most variables and function names should be lowercase_with_underscores Constants (variables that never change value) should be CAPS_WITH_UNDERSCORES Names that would clash with Python keywords (such as 'class' or 'if') should have a trailing underscore. Using spaces around operators and after commas to increase readability. Lines shouldn't be longer than 80 characters 'from module import *' should be avoided There should only be one statement per line Use spaces, rather than tabs, to indent. However, to some extent, this is a matter of personal preference. If you use spaces, only use 4 per line. It's more important to choose one and stick to it.


 * The most important advice in the PEP is to ignore it when it makes sense to do so.
 * Don't bother with following PEP suggestions when it would cause your code to be less readable; inconsistent with the surrounding code; or not backwards compatible.

__main__

 * Most Python code is either a module to be imported, or a script that does something.
 * However, sometimes it is useful to make a file that can be both imported as a module and run as a script.
 * To do this, place script code inside if __name__ == "__main__"
 * This ensures that it won't be run if the file is imported.
 * When the Python interpreter reads a source file, it executes all of the code it finds in the file.
 * Before executing the code, it defines a few special variables.
 * For example, if the Python interpreter is running that module (the source file) as the main program, it sets the special __name__ variable to have a value "__main__".
 * If this file is being imported from another module, __name__ will be set to the module's name.

= Components =

Variables
Declaring Variables: list=[1,2,3] string="Hello" int=23

Basic argument specifiers:

%s                     - String (or any object with a string representation, like numbers) %d                     - Integers %f                     - Floating point numbers %. f  - Floating point numbers with a fixed amount of digits to the right of the dot. %x/%X                  - Integers in hex representation (lowercase/uppercase)

Indentation is Mandatory in python:

num=12 if num>5: print("Number is greater than 5") if num<20: print("Number is lesser than 20") print("Program Ended")

Operator Precedence from highest to lowest order:



Statements
IF & ELIF statements:

num=9 if num==5: print("Number is 5") elif num ==11: print("Number is 11") elif num==7: print("Number is 7") else: print("Number isn't 5,11,7")

AND returns true only if both are true >>> 1 == 1 and 2==2 True >>> 1 == 1 and 2==3 False >>> 1 != 1 and 2==2 False >>> 1 == 1 and 2==2 True

OR returns true if either of both arguments are true; false if both are false. >>> 1 != 1 or 2==2 True >>> 1 == 1 or 2==2 True >>> 1 == 1 or 2==3 True

Lists
words=["Hello","World","!"] print(words[0]) print(words[1]) print(words[2])

Mixed List: number=3 things=['string',0,[1,2,number],4,56] print(things[1]) print(things[2]) print(things[2][2])

List Operators: nums = [1,2,3] print(nums+[4,5,6]) print(nums*3)

in operator: >>> words=['spam',"egg"] >>> print("spam" in words) True >>> print("tomato" in words) False >>> print (not "tomato" in words) True >>> print ("tomato" not in words) True

Append to the list: nums=[1,2,3] nums.append(4) print(nums)

Len function:

nums=[1,3,5,2,4] print(len(nums))
 * 1) Unlike append, len is a normal function rather than a method.
 * 2) Therefore it is written before the list it is being called on, without a dot.

Insert Method is similar to append, but allows to add at any position in the list words=["Python","fun"] index=1 words.insert(index,"is") print(words)

Tuple

 * 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.
 * Tuples cannot be changed unlike Lists.
 * They use parentheses.

tup1 = tup2 = (50,) tup3 = ('physics', 'chemistry', 1997, 2000) tup4 = (1, 2, 3, 4, 5 ) tup5 = "a", "b", "c", "d"
 * Declaring tuples:

tup1[0] print "tup2[1:5]: ", tup2[1:5]
 * Printing tuples:

tup1 = (12, 34.56) tup2 = ('abc', 'xyz')
 * Adding tuples:

tup3 = tup1 + tup2 print (tup3) (12, 34.56, 'abc', 'xyz')

tup1[0] = 100
 * Following action is not valid for tuples

Dictionary

 * All keys are unique, If you update item with same keys, Value will get replaced.

{'abc': '43f9', 'sample': 'fc9e'}
 * How a dictionary looks like:

x = {}
 * Declaring a Dictionary:

x.update({"abc": "112"})
 * Adding Entry:

for file in fullpath(dir): filesize = os.path.getsize(file) print(file, filesize) x.update({file: filesize})
 * Another example for adding Entry:

sq = {x: x*x for x in range(10)} print(sq)
 * Dictionary Comprehension:

for i in sq: print(sq[i])

>>> x.items dict_items([('a', 12), ('b', 14), ('c', 16), ('d', 18)])
 * Printing Dictionary:

for k,v in x.items: print(k,v)
 * Printing items from dictionary:

x['a'] x[4]
 * Printing specific entries:

len(x)
 * Length of Dictionary:

List/Arrays
x = [1,2,4,6,8,9] x = [i for i in range(10)] x = [i*i for i in range(10)]
 * Declaring Arrays:

x = [] for i in range(100): x.append(i)
 * Appending values:

print(x[20])
 * Printing specific values:

Loops
While Loop runs more than once, till condition is true, once condition is false, next section of code is executed: i=1 while i<=500: print(i) i=i+1

print("Finished !")

Infinity while loop: condition always remain True: while 1==1: print('In a loop..!!')

Break the infinity Loop: i=0 while 1==1: print(i) i=i+1 if i>=25: print('Breaking!') break

print("Finished!")

Continue this jumps back to top of the loop, rather than stopping it i=0 while True: i=i+1 if i==10: print('Skip 10') continue if i==25: print("Breaking") break print(i) print("Finished!")

words = ["hello","world","spam","egg"] counter = 0 max_index = len(words)-1
 * While Loop

while counter <= max_index: word = words[counter] print(word + "!") counter = counter + 1

words = ["hello","world","spam","egg"] for word in words: print(word + "!")
 * Same code can be created using FOR Loop but fewer lines

Loop can be combined with Range objects(No need to call List on range objects in For Loop as it is not indexed): for i in range(5): print("hello")

Functions
def myfunc: print("spam") print("spam") print("spam")

myfunc

Arguments

def printe(word): print(word + "!")

printe("spam") printe("world") printe("egg")

Arguments: Functions can have more that 1 argument: def print_twice(x,y): print(x+y) print(x+y)

print_twice(5,8)

Function arguments can be used as variables inside function, not outside: def incr(x): x += 1 print(x)

incr(7) print(x)

Return: int & str functions return a value which can be used later: Return cannot be used outside of a function. def max(x,y): if x>=y: return x else: return y

print(max(4,7)) z = max(8,5) print(z)

def short(x,y): if len(x) <= len(y): return x else: return y

After using return in a function, it stops executing immediately: def add(x,y): total = x + y return total print("This wont be printed")

print(add(4,5))

Lambda Function
Functions as an Object: they can be assigned & reassigned to variables. def multiply(x,y): return x*y

a = 4 b = 7 operation = multiply print(operation(a,b))

def shout(word): return word + "!" speak = shout output = speak("shout") print(output)

Function can be used as arguments of other functions: def add(x,y): return x + y

def twice(func(x,y)): return func(func(x,y), func(x,y))

a=6 b=12

print(twice(add,a,b))

def square(x): return x*x

def test(func,x): print(func(x))

test(square,42)

Comments
print("Test") #This is also a comment.
 * 1) This is a comment.
 * 1) print("Test 2")

Docstrings: def excl(word): """ Print a word with exclamation! """ print(word + "!")

shout("spam")

Examples
Entering variables inside quotation marks: os.system("""osascript -e 'display notification "{}" with title "{}" sound name "{}"'""".format(text, title, sound))

= Modules =

Modules are piece of code written by others to fulfil common tasks.

Print 5 random numbers in range 1 to 8: import random for i in range(5): value = random.randint(1,8) print(value)

import math num = 10 print(math.sqrt(num))

Import certain functions only from module: from math import pi print(pi)

from math import pi,sqrt from math import *           # not recommended, can confuse the variables in code with variables external module.

from math import sqrt as square_root print(square_root(100))

3 types of Modules:

Standard Library -> string, re, datetime, math, random, os, multiprocessing, subprocess, socket, email, json, doctest, unitest, pdb, argparse, sys Installed from external sources Manually written

Python Package Index
PyPI is used to install 3rd party modules. sudo apt-get install python-pip

pip install library_name pip install paramiko

List modules:

pip list pip freeze help('modules')

Common Packages
paramiko         SSH ipaddr           IP addressing

Slack
Installation: pip install slackclient

Simple function:

Function with Attachment:

text1 = 'Case - 73416 - Severity 1 (Critical) - xyz Inc - System crashed three times' text2 = 'Case - 73411 - Severity 2 (High) - zyx Ltd - System stuck in initializing state'

slack_message(text1, email_from, 'team-channel')

Slack v2

 * Simple Example


 * Attachment

Salesforce
Installation pip3 install simple_salesforce

Find out Security Token: https:// /_ui/system/security/ResetApiTokenEdit?retURL=%2Fui%2Fsetup%2FSetup%3Fsetupid%3DPersonalInfo&setupid=ResetApiToken

Example: https://avi.my.salesforce.com/_ui/system/security/ResetApiTokenEdit?retURL=%2Fui%2Fsetup%2FSetup%3Fsetupid%3DPersonalInfo&setupid=ResetApiToken

Login: sf = Salesforce(username="test", password="pwd@123", security_token="NSUgqlxewweWdK8bjBEsdsNs")

Query: results = sf.query_all("SELECT CaseNumber,Subject,IsClosed FROM Case WHERE OwnerId = '00500000erefBz'") result2 = sf.query_all("SELECT CaseNumber,Subject,IsClosed FROM Case WHERE CaseNumber = '6800'")

Output: results['records'])

= Exceptions =

Third party libraries has their own defined exceptions.

ZeroDivisionError: x = 7 y = 0 print(x/y)

Exception Handling
Handling multiple exceptionin a single except statement:

Catch all error(not recommended, they can catch unexpected errors and hide programming mistakes): Exception handling is quite useful when dealing with user input.

Finally: this code will always run, even if uncaught exception occurs.

Raising Exceptions:

Raise statement can be used to raise whatever exception occurs:

Traceback
= Assertions =

Used for sanity checking, programmers use this at start of fuction to check for valid input and after function call to check for valid output.

Expression is tested, if result is false, an exception is raised. print(1) assert 2+2 == 4 print(2) assert 1 + 1 == 3 print(3)

Assertons can take a second argument passed to AssertionError if assertion fails:

Assertions can be caught & handled like other exceptions using Try-Except statement.

If not handled, it can terminate the program. temp = -10 assert (temp >= 0),"Colder than absolute Zero!"

= Exercise =

Function that returns sum of all numbers from 0 till that number: def sum(x): res=0 for i in range(x): res+=1 return res

What is highest nymber output by this code? def nums(x): for i in range(x): print(i) return nums(10)

What is the output of this code? def func(x): res = 0 for i in range(x): res += i return res

print(func(4))

What is the highest number printed by this code: print(0) assert "h" != "w" print(1) assert False print(2) assert True print(3)

= Running Unix Commands =

os.system(deprecated)
import os os.system("date")

import os f = os.popen('date') now = f.read print "Today is ", now

Subprocess
Basic usage: import subprocess subprocess.call("command1") subprocess.call(["command1", "arg1", "arg2"])

Execute the date command: import subprocess subprocess.call("date")

Execute ls command with arguments: import subprocess subprocess.call(["ls", "-l", "/etc/resolv.conf"])

Execute date command: import subprocess p = subprocess.Popen("date", stdout=subprocess.PIPE, shell=True) (output, err) = p.communicate print "Today is", output

import subprocess p = subprocess.Popen(["ls", "-l", "/etc/resolv.conf"], stdout=subprocess.PIPE) output, err = p.communicate print "*** Running ls -l command ***\n", output

import subprocess p = subprocess.Popen(["ping", "-c", "10", "4.2.2.2"], stdout=subprocess.PIPE) output, err = p.communicate print output

The only problem with above code is that output, err = p.communicate will block next statement till ping is completed i.e. you will not get real time output from the ping command.

So you can use the following code to get real time output: import subprocess cmdping = "ping -c4 4.2.2.2" p = subprocess.Popen(cmdping, shell=True, stderr=subprocess.PIPE) while True: out = p.stderr.read(1) if out == '' and p.poll != None: break if out != '': sys.stdout.write(out) sys.stdout.flush

= SSH =

= Regex =

Importing Library import re

Methods:
 * re.match   =>    Matches Beginning

Here for 'dog' it matches: >>> re.match(r'dog', 'dog cat dog') <_sre.SRE_Match object at 0xb743e720<

>>> match = re.match(r'dog', 'dog cat dog') >>> match.group(0) 'dog'

However for 'cat' it does not: >>> re.match(r'cat', 'dog cat dog') >>>


 * re.search  =>    Matches Anywhere

re.search(r'cat', 'dog cat dog') >>> match.group(0) 'cat'

The search method stops looking after it finds a match, so search-ing for ‘dog’ finds the first occurrence: >>> match = re.search(r'dog', 'dog cat dog') >>> match.group(0) 'dog'

>>> re.findall(r'dog', 'dog cat dog') ['dog', 'dog']
 * re.findall =>    All Matching Objects

>>> re.findall(r'cat', 'dog cat dog') ['cat']

s = "Example String" replaced = re.sub('[ES]', 'a', s) print(replaced)
 * Substitute:

= Using Databases =

Installing Modules for MySQL: sudo apt-get install python-pip python-dev libmysqlclient-dev pip install MySQL-python

Connecting to a DB on localhost(need to create a db 'testdb' beforehand):

Source: tutorialspoint.com

Creating Database:

Writing to Database with User Input:

Read from Database:

= Pillow = sudo apt-get install python3-pip sudo apt-get install python3-dev python3-setuptools sudo apt-get install libjpeg8-dev zlib1g-dev libwebp-dev tcl8.5-dev tk8.5-dev sudo pip3 install Pillow
 * Install in Python3

from PIL import Image

im = Image.open("sample.webp").convert("RGB") im.save("test.jpg","jpeg")

= OpenCV = sudo pip3 install numpy
 * Windows
 * Install NumPy

https://www.lfd.uci.edu/~gohlke/pythonlibs/#opencv
 * Download the relevant WHL file from:

pip install opencv_python‑3.3.1‑cp36‑cp36m‑win32.whl
 * Install OpenCV WHL file:

import cv2 print(cv2.__version__)
 * Verify installation:


 * Linux

sudo pip3 install opencv-contrib-python

= Non Recursive files only list =
 * Using Functions(file name only)


 * Using Functions(full paths)


 * Without using Functions

= Performance Test =

python3 -m cProfile myscript.py
 * cProfile is the classic profiling tool:

= Misc = 2to3 -w test.py
 * Python 2 to Python 3 conversion tool

print(data, end='\r')
 * Print in the same position:


 * References