Day 28 : Bar Graph using Matplotlib in Python

#!/usr/bin/env python

# coding: utf-8

# # Bar Graph using Matplotlib in Python

# In[2]:

import matplotlib.pyplot as pyplot

# Set up the data

labels = ('Python', 'Scala', 'C#', 'Java', 'PHP')

index = (1, 2, 3, 4, 5) # provides locations on x axis

sizes = [45, 10, 15, 30, 22]

# Set up the bar chart

pyplot.bar(index, sizes, tick_label=labels)

# Configure the layout

pyplot.ylabel('Usage')

pyplot.xlabel('Programming Languages')

# Display the chart

pyplot.show() #clcoding.com

# In[ ]:

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Day 27 : Pie Charts using Matplotlib in Python

 

#!/usr/bin/env python

# coding: utf-8

# # Pie Charts using Matplotlib in Python

# In[2]:

#Pie Charts using Matplotlib in Python

import matplotlib.pyplot as pyplot

labels = ('Python', 'Java', 'Scala', 'C#')

sizes = [45, 30, 15, 10]

pyplot.pie(sizes,

labels=labels,

autopct='%1.f%%',

counterclock=False,

startangle=105)

# Display the figure

pyplot.show() 

#clcoding.com

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Day 26 : Real time Currency Converter with Python

 

#!/usr/bin/env python

# coding: utf-8

# In[ ]:

pip install forex_python

# # Real-time Currency Converter with Python

# In[7]:

from forex_python.converter import CurrencyRates

c = CurrencyRates()

amount = int(input("Enter the amount: "))

from_currency = input("From Currency: ").upper()

to_currency = input("To Currency: ").upper()

print(from_currency, " To ", to_currency, amount)

result = c.convert(from_currency, to_currency, amount)

print(result)

#clcoding.com

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Day 25 : Extract Text from PDF with Python

#!/usr/bin/env python

# coding: utf-8

# # Extract Text from PDF with Python

# In[2]:

import PyPDF2

pdf = open("pythonclcoding.pdf", "rb")

reader = PyPDF2.PdfFileReader(pdf)

page = reader.getPage(0)

print(page.extractText())

#clcoding.com

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Day 24 : Validate Anagrams using Python

#!/usr/bin/env python

# coding: utf-8

# # Validate Anagrams using Python

# In[4]:

def anagram(word1, word2):

    word1 = word1.lower()

    word2 = word2.lower()

    return sorted(word1) == sorted(word2)

print(anagram("cinema", "iceman"))

print(anagram("cool", "loco"))

print(anagram("men", "women"))

print(anagram("python", "pythno"))

#clcoding.com

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Day 23 : Contact Book in Python

#!/usr/bin/env python

# coding: utf-8

# # Contact Book in Python

# In[1]:

names = []

phone_numbers = []

num = int(input("Enter no of contact you want to save : "))

for i in range(num):

    name = input("Name: ")

    phone_number = input("Phone Number: ") 

    names.append(name)

    phone_numbers.append(phone_number)

print("\nName\t\t\tPhone Number\n")

for i in range(num):

    print("{}\t\t\t{}".format(names[i], phone_numbers[i]))

search_term = input("\nEnter search term: ")

print("Search result:")

if search_term in names:

    index = names.index(search_term)

    phone_number = phone_numbers[index]

    print("Name: {}, Phone Number: {}".format(search_term, phone_number))

else: #clcoding.com

    print("Name Not Found")

    

#clcoding.com    

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Day 22 : Pick a Random Card using Python

 

#!/usr/bin/env python

# coding: utf-8

# # Pick a Random Card using Python

# In[8]:

import random

cards = ["Diamonds", "Spades", "Hearts", "Clubs"]

ranks = [2, 3, 4, 5, 6, 7, 8, 9, 10,

         "Jack", "Queen", "King", "Ace"]

def pick_a_card():

    card = random.choices(cards)

    rank = random.choices(ranks)

    return(f"The {rank} of {card}")

print(pick_a_card())

#clcoding.com

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Day 21 : Fidget Spinner game with Python

 

#!/usr/bin/env python

# coding: utf-8

# # Fidget Spinner game with Python

# In[7]:

from turtle import *

state = {'turn': 0}

def spinner():

    clear()

    angle = state['turn']/10

    right(angle)

    forward(100)

    dot(120, 'cyan')

    back(100)

    right(120)

    forward(100)

    dot(120, 'green')

    back(100)

    right(120)

    forward(100)

    dot(120, 'blue')

    back(100)

    right(120)

    update()

def animate():

    if state['turn']>0:

        state['turn']-=1

    spinner() #clcoding.com

    ontimer(animate, 20)

def flick():

    state['turn']+=10

setup(420, 420, 370, 0)

hideturtle()

tracer(False)

width(20)

onkey(flick, 'space')

listen()

animate()

done()

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Day 20 : Spelling Correction with Python

#!/usr/bin/env python

# coding: utf-8

# In[ ]:

pip install textblob

# # Spelling Correction with Python

# In[28]:

from textblob import TextBlob

def Convert(string):

    li = list(string.split())

    return li  

str1 = input("Enter your word : ")

words=Convert(str1)

corrected_words = []

for i in words:

    corrected_words.append(TextBlob(i))

print("Wrong words :", words)

print("Corrected Words are :")

for i in corrected_words:

    print(i.correct(), end=" ")

#clcoding.com

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Day 19 : Chessboard using Matplotlib in Python

 

#!/usr/bin/env python

# coding: utf-8

# # Chessboard using Matplotlib in Python

# In[17]:

import matplotlib.pyplot as plt

dx, dy = 0.015, 0.015

x = np.arange(-4.0, 4.0, dx)

y = np.arange(-4.0, 4.0, dy)

X, Y = np.meshgrid(x, y)

extent = np.min(x), np.max(x), np.min(y), np.max(y)

z1 = np.add.outer(range(8), range(8)) % 2

plt.imshow(z1, cmap="binary_r", interpolation="nearest", extent=extent, alpha=1)

def chess(x, y):

    return (1 - x / 2 + x ** 5 + y ** 6) * np.exp(-(x ** 2 + y ** 2))

z2 = chess(X, Y)

plt.imshow(z2, alpha=0, interpolation="bilinear", extent=extent)

plt.title("Chess Board in Python")

plt.show()

#clcoding.com

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Day 18 : Three Dimensional contour plots

#!/usr/bin/env python

# coding: utf-8

# # Three-Dimensional contour plots

# In[15]:

import numpy as np

import matplotlib.pyplot as plt

def f(x, y):

    return np.sin(np.sqrt(x ** 2 + y ** 2))

x = np.linspace(-6, 6, 30)

y = np.linspace(-6, 6, 30)

x, y = np.meshgrid(x, y)

z = f(x, y)              #clcoding.com

fig = plt.figure()

ax = plt.axes(projection='3d')

ax.contour3D(x,y,z,50, cmap='binary')

ax.set_xlabel('x')

ax.set_ylabel('y')

ax.set_zlabel('z')

plt.show()

fig = plt.figure()

ax = plt.axes(projection='3d')

ax.plot_wireframe(x,y,z, color='black')

ax.set_title('wireframe')

plt.show()

ax = plt.axes(projection='3d')

ax.plot_surface(x, y, z, rstride=1,

                cstride=1, cmap='viridis',

                edgecolor='none')

ax.set_title('surface')

plt.show()

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Day 16 : Live Weather Updates with Python

 

#!/usr/bin/env python

# coding: utf-8

# # Live Weather Updates with Python

# In[7]:

from bs4 import BeautifulSoup

import requests

headers = {'User-Agent': 'Mozilla/5.0 (Windows NT 10.0; Win64; x64)           AppleWebKit/537.36 (KHTML, like Gecko)            Chrome/58.0.3029.110 Safari/537.3'}

def weather(city):

    city=city.replace(" ","+")

    res = requests.get(f'https://www.google.com/search?q={city}    &oq={city}&aqs=chrome.0.35i39l2j0l4j46j69i60.6128j1j7&sourceid=                       chrome&ie=UTF-8',headers=headers)

    print("Searching......\n")

    soup = BeautifulSoup(res.text,'html.parser')   

    location = soup.select('#wob_loc')[0].getText().strip()  

    time = soup.select('#wob_dts')[0].getText().strip()       

    info = soup.select('#wob_dc')[0].getText().strip() 

    weather = soup.select('#wob_tm')[0].getText().strip()

    print(location)

    print(time)

    print(info)

    print(weather+"°C") 

city=input("Enter the Name of Any City >>  ")

city=city+" weather"

weather(city) 

#clcoding.com

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Day 15 : Violin Plot using Python

 

#!/usr/bin/env python

# coding: utf-8

# In[ ]:

pip install seaborn

# # Violin Plot using Python

# In[9]:

import seaborn as sns

import matplotlib.pyplot as plt

data = sns.load_dataset("tips")

plt.figure(figsize=(10, 4))

sns.violinplot(x=data["total_bill"])

plt.show()

#clcoding.com

# In[6]:

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Day 14 : Text wrapping in Python

 

#!/usr/bin/env python

# coding: utf-8

# # Text wrapping in Python

# In[17]:

import textwrap

value = """This function wraps the input paragraph such that each line

in the paragraph is at most width characters long. The wrap method

returns a list of output lines. The returned list

is empty if the wrapped

output has no content."""

# Wrap this text.

wrapper = textwrap.TextWrapper(width=70)

word_list = wrapper.wrap(text=value)

# Print each line.

for element in word_list:

print(element)

#clcoding.com

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Day 13 : Country info in Python

#!/usr/bin/env python

# coding: utf-8

# In[ ]:

pip install countryinfo

# # Country info in Python

# In[1]:

from countryinfo import CountryInfo

count=input("Enter your country : ")

country = CountryInfo(count)

print("Capital is : ",country.capital())

print("Currencies is :",country.currencies())

print("Lanuage is : ",country.languages())

print("Borders are : ",country.borders())

print("Others names : ",country.alt_spellings())

#clcoding.com

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Day 12 : Language Detection using Python

#!/usr/bin/env python

# coding: utf-8

# In[ ]:

pip install langdetect

# # Language Detection using Python

# In[13]:

from langdetect import detect

text = input("Enter any text in any language: ")

print(detect(text))

#clcoding.com

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Day 11 : Python Program to Generate Password

#!/usr/bin/env python

# coding: utf-8

# # Python Program to Generate Password

# In[10]:

#import random module 

import random

#User input for password length 

passlen = int(input("Enter the length of password : "))

#storing letters, numbers and special characters

s="abcdefghijklmnopqrstuvwxyz01234567890ABCDEFGHIJKLMNOPQRSTUVWXYZ!@#$%^&*()?"

#random sampling by joining the length of the password and the variable s

p = "".join(random.sample(s,passlen ))

print(p)

#clcoding.com

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Day 10 : Dice Roll Simulator in Python

#!/usr/bin/env python

# coding: utf-8

# # Dice Roll Simulator

# In[ ]:

#importing module for random number generation

import random

#range of the values of a dice

min_val = 1

max_val = 6

#to loop the rolling through user input

roll_again = "yes"

#loop

while roll_again == "yes" or roll_again == "y":

    print("Rolling The Dices...")

    print("The Values are :")

    

    #generating and printing 1st random integer from 1 to 6

    print(random.randint(min_val, max_val))

    

    #asking user to roll the dice again. 

    #Any input other than yes or y will terminate the loop

    roll_again = input("Roll the Dices Again?") 

    

    #clcoding.com

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Day 9 : BMI Calculator with Python

 #!/usr/bin/env python

# coding: utf-8

# # BMI Calculator with Python

# In[7]:

Height=float(input("Enter your height in centimeters: "))

Weight=float(input("Enter your Weight in Kg: "))

Height = Height/100

BMI=Weight/(Height*Height)

print("your Body Mass Index is: ",BMI)

if(BMI>0):

if(BMI<=16):

print("you are severely underweight")

elif(BMI<=18.5):

print("you are underweight")

elif(BMI<=25):

print("you are Healthy")

elif(BMI<=30):

print("you are overweight")

else: print("you are severely overweight")

else:("enter valid details")

 

    #clcoding.com 

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Day 8 : Fahrenheit to Celsius in Python

#!/usr/bin/env python

# coding: utf-8

# # Fahrenheit to Celsius in Python

# In[16]:

def convert(s):

    f = float(s)    

#formula Applied below  

    c = (f - 32) * 5/9

    return c

celsius=input("Enter Values in Fahrenheit : ")

convert(celsius)

#clcoding.com

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Day 7 : Treemap using Python

#!/usr/bin/env python

# coding: utf-8

# # Treemap using Python

# In[2]:

import plotly.graph_objects as go

fig = go.Figure(go.Treemap(

    labels = ["A","B", "C", "D", "E", "F", "G", "H", "I"],

    parents = ["", "A", "A", "C", "C", "A", "A", "G", "A"]

))

fig.show()

#clcoding.com

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Day 6 : Text to Handwriting using Python

#!/usr/bin/env python

# coding: utf-8

# # Text to Handwriting using Python

# In[ ]:

import pywhatkit as kit

import cv2

Handwritten=input("Enter your text to convert in Handwriting : ")

kit.text_to_handwriting(Handwritten, save_to="pythoncoding.png")

img = cv2.imread("pythoncoding.png")

cv2.imshow("Python Coding", img)

cv2.waitKey(0)

cv2.destroyAllWindows()

#clcoding.com

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Day 5 : Roman Numbers to Decimals in Python

 

#!/usr/bin/env python

# coding: utf-8

# # Roman Numbers to Decimals in Python

# In[6]:

tallies = {'I': 1,'V': 5,'X': 10,'L': 50,

           'C': 100,'D': 500,'M': 1000}

def RomanNumeralToDecimal(romanNumeral):

    sum = 0

    for i in range(len(romanNumeral) - 1):

        left = romanNumeral[i]

        right = romanNumeral[i + 1]

        if tallies[left] < tallies[right]:

            sum -= tallies[left]

        else:

            sum += tallies[left]

    sum += tallies[romanNumeral[-1]]

    return sum 

roman=input("Enter Roman Numbers :")

RomanNumeralToDecimal(roman)

#clcoding.com

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Day 4 : LCM using Python

#!/usr/bin/env python

# coding: utf-8

# # LCM using Python

# In[13]:

def least_common_multiple(a,b):

  

    if a > b:

        greater = a

    elif b > a:

        greater = b

    while(True):

        if ((greater % a == 0) and (greater % b == 0)):

            lcm = greater

            break

        greater = greater + 1

    return lcm

a=int(input("Enter 1st number: "))

b=int(input("Enter 2nd number: "))

print(least_common_multiple(a,b))

#clcoding.com

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Day 3 : Palindrome Words using Python

#!/usr/bin/env python

# coding: utf-8

# # Palindrome Words using Python

# In[6]:

def palindrome(sentence):

    for i in (",.'?/><}{{}}'"):

        sentence = sentence.replace(i, "")

    palindrome = []

    words = sentence.split(' ')

    for word in words:

        word = word.lower()

        if word == word[::-1]:

            palindrome.append(word)

    return palindrome

sentence = input("Enter a sentence : ")

print(palindrome(sentence))

#clcoding.com

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Day 2 : Count Character Occurrences using Python

 

#!/usr/bin/env python

# coding: utf-8

# # Count Character Occurrences using Python

# In[5]:

def count_characters(s):

    count = {}

    for i in s:

        if i in count:

            count[i] += 1

        else:

            count[i] = 1

    print(count)

word=input("Enter your string:")

count_characters(word)

#clcoding.com

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Day 1: Line continuation characters in Python

#!/usr/bin/env python

# coding: utf-8

# # Day 1 :  Line continuation characters in Python

# In[28]:

print("I know Python and its very easy for everyone")

# In[29]:

print("I know Python and

its very easy for everyone")

#clcoding.com

# In[30]:

#In Python, a backslash ( \ ) is a continuation character.

print("I know Python and its very easy for everyone")

#clcoding.com

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How to generate password using python?

random: 

Python has a built-in module that you can use to make random numbers.

The random module has a set of methods:

• random(): Returns a random float number between 0 and 1
• sample(): Returns a given sample of a sequence
• shuffle(): Takes a sequence and returns the sequence in a random order
• choice(): Returns a random element from the given sequence
• choices(): Returns a list with a random selection from the given sequence
• randint(): Returns a random number between the given range
• uniform(): Returns a random float number between two given parameters

array:

An array is a collection of items stored at contiguous memory locations. 

This module defines an object type which can compactly represent an array of basic values: characters, integers, floating point numbers.

import random

import array

#  password length

MAX_LEN = 12

DIGITS = ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9']

LOCASE_CHARACTERS = ['a', 'b', 'c', 'd', 'e', 'f', 'g', 'h',

'i', 'j', 'k', 'm', 'n', 'o', 'p', 'q',

'r', 's', 't', 'u', 'v', 'w', 'x', 'y',

'z']

UPCASE_CHARACTERS = ['A', 'B', 'C', 'D', 'E', 'F', 'G', 'H',

'I', 'J', 'K', 'M', 'N', 'O', 'P', 'Q',

'R', 'S', 'T', 'U', 'V', 'W', 'X', 'Y',

'Z']

SYMBOLS = ['@', '#', '$', '%', '=', ':', '?', '.', '/', '|', '~', '>',

'*', '(', ')', '<']

# combines all the character arrays above to form one array

COMBINED_LIST = DIGITS + UPCASE_CHARACTERS + LOCASE_CHARACTERS + SYMBOLS

# randomly select at least one character from each character set above

rand_digit = random.choice(DIGITS)

rand_upper = random.choice(UPCASE_CHARACTERS)

rand_lower = random.choice(LOCASE_CHARACTERS)

rand_symbol = random.choice(SYMBOLS)

# combine the character randomly selected above

temp_pass = rand_digit + rand_upper + rand_lower + rand_symbol

# the password length by selecting randomly from the combined

for x in range(MAX_LEN - 4):

temp_pass = temp_pass + random.choice(COMBINED_LIST)

# changing the position of the elements of the sequence.

temp_pass_list = array.array('u', temp_pass)

random.shuffle(temp_pass_list)

# traverse the temporary password array and append the charsto form the password

password = ""

for x in temp_pass_list:

password = password + x

# print out password

print(password)

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Sequence Matcher in Python

 

#!/usr/bin/env python

# coding: utf-8

# # Sequence Matcher in Python

# In[3]:

from difflib import SequenceMatcher

text1 = input("Enter 1st sentence : ") 

text2 = input("Enter 2nd sentence : ")

sequenceScore = SequenceMatcher(None, text1, text2).ratio()

print(f"Both are {sequenceScore * 100} % similar")

#clcoding.com

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Age Calculator using Python

 

#!/usr/bin/env python

# coding: utf-8

# # Age Calculator using Python

# In[20]:

def ageCalculator(y, m, d):

    import datetime

    today = datetime.datetime.now().date()

    dob = datetime.date(y, m, d)

    age = int((today-dob).days / 365.25)

    print(age)

#y=year m=month d=day    

ageCalculator(2001 , 8, 1)

#clcoding.com

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Image to Pencil Sketch in Python

#!/usr/bin/env python

# coding: utf-8

# # Image to Pencil Sketch in Python 

# In[ ]:

#...........Convert image to pencil sketch......!

import cv2

#specify the path to image (Loading image image)

image1 = cv2.imread('E:\demo.png')

window_name = 'Original image'

# Displaying the original image 

cv2.imshow(window_name,image1)

# convert the image from one color space to another

grey_img = cv2.cvtColor(image1, cv2.COLOR_BGR2GRAY)

invert = cv2.bitwise_not(grey_img)

#image smoothing

blur = cv2.GaussianBlur(invert, (21, 21), 0)

invertedblur = cv2.bitwise_not(blur)

sketch = cv2.divide(grey_img, invertedblur, scale=256.0)

#save the converted image to specified path

cv2.imwrite("E:\sketch.png", sketch)

 

# Reading an image in default mode

image = cv2.imread("E:\sketch.png")

  

# Window name in which image is displayed

window_name = 'Sketch image'

  

# Displaying the sketch image 

cv2.imshow(window_name, image)

#waits for user to press any key 

#(this is necessary to avoid Python kernel form crashing)

cv2.waitKey(0) 

  

#closing all open windows 

cv2.destroyAllWindows() 

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Voice Recorder in Python

#!/usr/bin/env python

# coding: utf-8

# In[13]:

pip install sounddevice

# In[14]:

pip install scipy

# # Voice Recorder in Python

# In[15]:

#import required modules

import sounddevice

from scipy.io.wavfile import write

#sample_rate

fs=44100

#Ask to enter the recording time

second=int(input("Enter the Recording Time in second: "))

print("Recording....\n")

record_voice=sounddevice.rec(int(second * fs),samplerate=fs,channels=2)

sounddevice.wait()

write("MyRecording.wav",fs,record_voice)

print("Recording is done Please check you folder to listen recording")

#clcoding.com

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Download YouTube videos in Python

#!/usr/bin/env python

# coding: utf-8

# # Download YouTube videos in Python

# In[1]:

pip install pytube

# In[1]:

#import pytube library to download the video

import pytube

#Ask for the url of video

url = input("Enter video url: ")

#we can take path as well, just uncomment the following line

#path = input("Enter path of storage")

 

#specify the starage path of video

path="E:"

#magic line to download the video

pytube.YouTube(url).streams.get_highest_resolution().download(path)

#clcoding.com

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Captcha in Python

#!/usr/bin/env python

# coding: utf-8

# In[1]:

pip install captcha

# # Generate Image captcha in python:

# In[12]:

from captcha.image import ImageCaptcha

   

# Specify the image size

image = ImageCaptcha(width = 300, height = 100)

# Specify the Text for captcha

captcha_text = 'python clcoding'

   

# generate the image of the given text

data = image.generate(captcha_text)  

   

# write the image on the given file and save it

image.write(captcha_text, 'E:\CAPTCHA1.png')

# # Generate audio captcha in python:

# In[13]:

from captcha.audio import AudioCaptcha

   

# Create an audio instance

audio = AudioCaptcha()  

   

# Text for captcha

captcha_text = "1011011"

   

# generate the audio of the given text

audio_captcha = audio.generate(captcha_text)

 

# specify the file name and path

audio.write(captcha_text, 'E:\Audio_Captcha.wav')

# In[ ]:

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Secrets Python module

#!/usr/bin/env python

# coding: utf-8

# # secrets.randbelow(n): This function returns a random integer in the range [0, n)

# In[1]:

import secrets

  

passwd = secrets.randbelow(100)

print(passwd)

# # secrets.randbits(k): This function returns an int with k random bits

# In[2]:

import secrets

passwd=secrets.randbits(4)

print(passwd)

# # Generate a ten-character alphanumeric password.

# In[3]:

#clcoding.com

import secrets

import string

  

alphabet = string.ascii_letters + string.digits

password = ''.join(secrets.choice(alphabet) for i in range(10))

  

print(password)

# # Generate a ten-character alphanumeric password with at least one   lowercase character, at least one uppercase character,                                      and at least three digits.

# In[4]:

#clcoding.com

import secrets

import string

alphabet = string.ascii_letters + string.digits

while True:

password = ''.join(secrets.choice(alphabet) for i in range(10))

if (any(c.islower() for c in password) and any(c.isupper()

for c in password) and sum(c.isdigit() for c in password) >= 3):

print(password)

break

# In[ ]:

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Mouse and keyboard automation using Python

#!/usr/bin/env python

# coding: utf-8

# # Mouse and keyboard automation using Python

# In[31]:

import pyautogui

print(pyautogui.size())

# In[32]:

#moveTo(): use this function to move the mouse in pyautogui module. 

pyautogui.moveTo(100, 100, duration = 5)

# In[33]:

#moveRel() function: moves the mouse pointer relative to its previous position. 

pyautogui.moveRel(0, 50, duration = 5)

# In[34]:

#position(): function to get current position of the mouse pointer. 

print(pyautogui.position())

# In[35]:

#click(): Function used for clicking and dragging the mouse. 

pyautogui.click(100, 1000)

# In[36]:

#clcoding.com

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Python Secrets Module

#!/usr/bin/env python

# coding: utf-8

# # secrets.randbelow(n): This function returns a random integer in the range [0, n)

# In[16]:

import secrets

  

passwd = secrets.randbelow(100)

print(passwd)

# # secrets.randbits(k): This function returns an int with k random bits

# In[17]:

import secrets

passwd=secrets.randbits(4)

print(passwd)

# # Generate a ten-character alphanumeric password.

# In[19]:

#clcoding.com

import secrets

import string

  

alphabet = string.ascii_letters + string.digits

password = ''.join(secrets.choice(alphabet) for i in range(10))

  

print(password)

# # Generate a ten-character alphanumeric password with at least one   lowercase character, at least one uppercase character,                                      and at least three digits.

# In[21]:

#clcoding.com

import secrets

import string

alphabet = string.ascii_letters + string.digits

while True:

password = ''.join(secrets.choice(alphabet) for i in range(10))

if (any(c.islower() for c in password) and any(c.isupper()

for c in password) and sum(c.isdigit() for c in password) >= 3):

print(password)

break

# In[ ]:

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Digital Watch in Python using Turtle

#Code:

#!/usr/bin/env python

# coding: utf-8

# In[ ]:

import time

import datetime as dt

import turtle

# create a turtle to display time

t = turtle.Turtle()

# create a turtle to create rectangle box

t1 = turtle.Turtle()

# create screen

s = turtle.Screen()

# set background color of the screen

s.bgcolor("cyan")

# obtain current hour, minute and second 

# from the system

sec = dt.datetime.now().second

min = dt.datetime.now().minute

hr = dt.datetime.now().hour

t1.pensize(10)

t1.color('red')

t1.penup()

# set the position of turtle

t1.goto(-20, -0)

t1.pendown()

# create rectangular box

for i in range(2):

 t1.forward(200)

 t1.left(90)

 t1.forward(70)

 t1.left(90)

#clcoding.com

# hide the turtle

t1.hideturtle()

while True:

 t.hideturtle()

 t.clear()

 # display the time

 t.write(str(hr).zfill(2)

 +":"+str(min).zfill(2)+":"

 +str(sec).zfill(2),

 font =("Arial Narrow", 35, "bold"))

 time.sleep(1)

 sec+= 1

 if sec == 60:

    sec = 0

    min+= 1

 if min == 60:

    min = 0

    hr+= 1

 if hr == 13:

    hr = 1

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Creating an Audiobook in Python

#!/usr/bin/env python

# coding: utf-8

# In[31]:

pip install PyPDF2

# In[32]:

pip install pyttsx3

# In[33]:

#pip install PyPDF2

import PyPDF2

# In[34]:

#pip install pyttsx3

import pyttsx3

# In[35]:

pdfReader=PyPDF2.PdfFileReader(open('C:\\Users\\Irawen\\Documents\\embedded\\Python\\clcoding.pdf','rb'))

# In[36]:

speaker = pyttsx3.init()

# In[37]:

for page_num in range(pdfReader.numPages):

    text =  pdfReader.getPage(page_num).extractText()

    speaker.say(text)

    speaker.runAndWait()

# In[38]:

speaker.stop()

# In[ ]:

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Python module whatismyip

#!/usr/bin/env python

# coding: utf-8

# # Python module to find out your IP address:

# In[2]:

pip install whatismyip

# In[13]:

import whatismyip

# In[14]:

whatismyip.amionline()

# In[15]:

whatismyip.whatismyip()

# In[16]:

whatismyip.whatismyipv4()

# In[17]:

whatismyip.whatismyipv6()

# In[ ]:

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Collections Library in Python

#!/usr/bin/env python

# coding: utf-8

# In[9]:

import collections

# In[10]:

counter=collections.Counter([1,1,2,2,3,3,3,3,4,5,6,7])

# In[11]:

counter

# In[12]:

counter.most_common(1)

# In[13]:

counter.most_common(2)

# In[14]:

counter.most_common(3)

# In[15]:

counter=collections.Counter("clcoding")

# In[16]:

counter

# In[18]:

counter["c"]

# In[19]:

counter.most_common(1)

# In[20]:

counter.most_common(2)

# In[21]:

counter=collections.Counter("ntirawen")

# In[22]:

counter

# In[23]:

counter2=collections.Counter("ntirawen")

# In[24]:

counter2

# In[25]:

counter3=collections.Counter("irawen")

# In[26]:

counter3

# In[27]:

counter2.subtract(counter3)

# In[28]:

counter2

# In[ ]:

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Address detail through python code

#!/usr/bin/env python

# coding: utf-8

# In[22]:

#...Get address detail through python code...!

 

from geopy.geocoders import Nominatim

   

# Using Nominatim Api

geolocator = Nominatim(user_agent="geoapiExercises")

   

# Zipocde input

a = input("Enter the zipcode : ")

zipcode = a

   

# Using geocode()

location = geolocator.geocode(zipcode)

#clcoding.com

# Displaying address details

print("Zipcode:",zipcode)

print("Details of the Zipcode:")

print(location)

# In[ ]:

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Track phone number using python

#!/usr/bin/env python

# coding: utf-8

# In[1]:

#.......Track phone number using python....!

import phonenumbers

#import geocoder

from phonenumbers import geocoder

#specify then phone number

a = input("Enter the Phone Number: ")

phonenumber = phonenumbers.parse(a)

#display the location of phone number

print(geocoder.description_for_number(phonenumber,'en'))

# In[2]:

pip install phonenumbers

# In[ ]:

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Formatting Dates and Time Strings in Python

#!/usr/bin/env python

# coding: utf-8

# In[1]:

import time as t

# In[2]:

now = t.time()

now

# In[3]:

gmt= t.gmtime(now)

# In[4]:

gmt

# In[5]:

t.strftime("The date is : %y-%m-%d",gmt)

# In[6]:

t.strftime("The date is : %b %d, %y",gmt)

# In[13]:

t.strftime("The time is : %H:%M:%S",gmt)

# In[14]:

t.strftime("It is now %I %M%p",gmt)

# In[15]:

t.strftime("The local time format is: %X", gmt)

# In[16]:

t.strftime("The local date format is: %x", gmt)

# In[ ]:

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Python statistics module

#!/usr/bin/env python

# coding: utf-8

# In[ ]:

import statistics as s

# In[3]:

s.mean(range(3))    

#(0+1+2)/3    

# In[7]:

s.median(range(4))

#clcoding.com

# In[8]:

s.median_low(range(4))

# In[9]:

s.median_high(range(4))

# In[10]:

s.median_grouped(range(4))

# In[12]:

s.mode(list(range(4))+[2])

# In[14]:

s.pstdev(list(range(4))+[2])

# In[15]:

s.stdev(list(range(4))+[2])

# In[16]:

s.pvariance(list(range(4))+[2])

# In[17]:

s.variance(list(range(4))+[2])

# In[ ]:

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