Day 103 : Where math doesn’t work again! -- Python

 

#Guess the output in this case?

a=(1 << 53)+1

print(a+1.0 > a)

#???

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Day 102 : Convert CSV to JSON

 

import pandas as pd

import csv,json

data=pd.read_csv("Instagram.csv")

print(data)

print("Converted JSON file below :")

print (json.dumps(list(csv.reader(open('Instagram.csv')))))

#clcoding.com

Impressions  Home  Hashtags  Explore  Other  Saves

0         3920  2586      1028      619     56     98

1         5394  2727      1838     1174     78    194

2         4021  2085      1188        0    533     41

3         4528  2700       621      932     73    172

Converted JSON file below :

[["Impressions", "Home", "Hashtags", "Explore", "Other", "Saves"], ["3920", "2586", "1028", "619", "56", "98"], ["5394", "2727", "1838", "1174", "78", "194"], ["4021", "2085", "1188", "0", "533", "41"], ["4528", "2700", "621", "932", "73", "172"]]

​

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Day 101 : Automatic Wi Fi password as QR Code

 

import wifi_qrcode_generator as qr

qr.wifi_qrcode('wifi name ', False, 'WPA', 'password')

#clcoding.com

#you can scan and check this QR with your mobile

#thanks alot for watching

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Day 100 : Python script that’ll keep you “online” all day

 

#import the library pyautogui

import pyautogui

#imports the time library

import time

#run the next lines of code while the state is set as “True”

while True:

    #move your cursor 10 pixels

    pyautogui.moveRel(0, 10)

    #pauses your code from running for 2 seconds

    time.sleep(2)

    

#clcoding.com 

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Day 99 : Word Art From an Image Using Python

 

#reading an Image

from PIL import Image

Image.open("wolf.png")

import pywhatkit

pywhatkit.image_to_ascii_art('wolf.png','MyArt')

#reading text file

read_file= open("MyArt.txt","r") 

print(read_file.read())  #clcoding.com

..::.:::.:::.:::.::..::.:::.:::.:::.::..::.:::.:::.:::.::..::..::.:::.:::.:::.::
::.:::.:::.:::.::.:::.:::.:::.:::.:::.::::::.:::.:::.::..::..::.:::.:::.:::.:::.
.:::.:::.:::.:::$#S#*::.:::.:::.:::.::::::.:::.:::.::.:$SS@*:.:::.:::.:::.:::.::
::.:::.:::.::.!#**#S*@:...:::.:::.:::.::.:::.:::.::.:*#**#**$::.:::.:::.:::.:::.
.:::.:::.:::.:#**$*%S*S&%!:..::.::..::.:::..::..:.:%#**S@*$**$.::.:::.:::.:::.::
::.:::.:::.::$**@***&##***S@*..:..!::::#@.:!..:!$&**S##&%**&**!.:::.:::.:::.:::.
::::.:::.::..#**%***%##&&#S**#**$@SSSS***#S#*%S***#&&#&****%**%::.:::.:::.:::.::
::::::.::!@&&**S***%%*%@##&&#******S##SS$#*****#@&#&@%*%%**%**%..::.:::.:::.:::.
::::.:::.:*****#**%@*&%**$##&@S*&#%*******&S*&@&S#$**%#*&%*%S*#@@*:::.::::::::::
::::::::::$***#$**$S***$***@*#@#@*@%***%@*$&@$#*@***@***S$**$#***$:.::::::::::::
:::::::::.*S***&%*%&****%***$*@#*S&@***%&S*S@@S$***$****#***&****$::::::::::::::
:::::::::.%***@%**$&**SS@****@%@$%*******$$&$@&****&****#$**%S***#:.::::::::::::
::::::::::%#**@***@*##$*%**************************%*$&#*&***S***#::::::::::::::
:::::::::!&****@***%************************************%%**@****#*:::::::::::::
::::::::::&***&$%$$*******%*************************%%******$#****%!.:::::::::::
::::::::*@S***##&@%****%@@&&@%*******************%$@@@@@$****%$#****@:..::::::::
:::::::::$****S@*******%*%%$@&@$***************%@@$%%***%*******@S***#$!::::::::
::::::::@****S$***************%$$%************$$%****************@*****@!:::::::
::::::!%S***S@%***************************************************&****#$!::::::
:::::.!@**S@*******************************************************%#**S$:.:::::
::::!$S***#%*************%%$#@*********%*********%#@%%%*************$#***S@!::::
:::.%S****#%**********%@&@@&**@**%*****@%@***%%*%S*@@@@@$%**********%#*****$::::
:::*&S***S&%**********%$&S*S&#*&*$#%**%%%%**@#%$*S&&*#$$$%***********@*****#%!::
::!%****S&$$%%***%$$$%%***@SSS**S$$#%*$@@**@@*@**##S#$***%$@@@$***%%$$@S***S%!::
::..%&###****&*%@@$%***%$@@&&@$$&S#$$*#$&%$%%#*&%*%$@@@@$%**%$@&$*&*****S&&%.:::
::::...:$S*#%**%%****%%$$@@$$$****$@$#&$$@%%@$%***%$@@@$$$%*****%**@S**#!...::::
:::::!$S***#&@**********************%%%%%*%%**********************$&#****@!.::::
:::!$S******#%******$##@@@$$$%*****%$@@@@@@@$%****%$$$$@@##$******%#******S@!.::
::::!!%#***S#SS$****%$&@%%$$%@@****%$@@@@@@@$%***@@%$$%*@&$%****%#S#****#%!!::::
::::.!$$$$&***#*****$@$@$%%@&$@****%$@@@@@@@$%**%@$&$%%@@@@$*****@****@$$$!:::::
::::::..:%S****#&$***$@@$%**$*#****%$@@@@@@@$%***&*%**%$@@$***%%S***&$!..:::::::
.:::.:::*$**$&***&***%%%%***#*@****%%$$$$$$%%%***$S@***%%%%***@***SS&:.::.:::.::
::.:::.::...!&***#@%*******#*$*****@########$****%$S@*******%$&***$::::.:::.:::.
.:::.:::.::%##@#***&%$%****S*&$***$****SS****%**%$#*&*****%*$****$!::.:::.:::.::
::.:::.::::!:...******%%***$*S#$***#********#**%@#**%*****#S#**S%!..:::.:::.:::.
.:::.:::.::..::.!#@S**S@**%%S#*#%***@#&$@##@***%&*S#%***%#S**@&#*.:::.:::.:::.::
::.:::.:::.:::.::.:SS**&@#***&&*&&@$$$$@@$$$$@&&S&#**S&$$*****..:::.:::.:::.:::.
.:::.:::.:::.:::.:!*:$***S&%%*$S%:&%S#****S*$#!*#$*#*@S***S!*!.::.:::.:::.:::.::
::.:::.:::.:::.:::.:.%*&*:.:.&S$**$#********#&!S$S**..:%#*#..::.:::.:::.:::.:::.
.:::.:::.:::.:::.:::.!*..::..!*&&*@**********&S&&*@.::..:%*::.:::.:::.:::.:::.::
::.:::.:::.:::.:::.::..::.:::.**@#*#@S&*#S#$&*S@*#::.:::.::::::.:::.:::.:::.:::.
.:::.:::.:::.:::.::::::.:::.::.%*@#$!*!$%$*%$&&*#:.:::.:::.::.:::.:::.:::.:::.::
::.:::.:::.:::.:::.::.:::.:::..!**&@@@@@&@@@@#**!.::.:::.::::::.:::.:::.:::.:::.
.:::.:::.:::.:::.::::::.:::.::::&**S&$$%*%%&&#*@::.:::.:::.::.:::.:::.:::.:::.::
::.:::.:::.:::.::::::::::.:::.:::$#*****@S****@:.:::.:::.::::::.:::.:::.:::.:::.
.:::.:::.:::.:::.::::::.:::.:::.::.*###***#&@$.:::.:::.::::::::::.:::.:::.:::.::
::::::.:::.:::.::::::::::.:::.:::.::::!$!$!...::.:::.::::::::::.:::.:::.:::.:::.
::::::::.::::::::::::::::::::::.::::::..:..:::::::.:::.::::::::::.:::.::::::::::
::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::

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Day 98 : Convert Decimal number into other number using Python

 

# Python program to convert decimal into other number systems

dec = int(input("Enter a Decimal Number: "))

#decimal to binary

print(bin(dec), "in Binary.")

#decimal to octal

print(oct(dec), "in Octal.")

#decimal to Hexadecimal

print(hex(dec), "in Hexadecimal.")

#clcoding.com

Enter a Decimal Number: 9999
0b10011100001111 in Binary.
0o23417 in Octal.
0x270f in Hexadecimal.

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Python Project | Flipkart Reviews Sentiment Analysis| Data Science Projects

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Python Project | Stock Market Analysis Using Python | Data Science Projects

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Day 97 : QR Code generation using Python

 

import pyqrcode

from PIL import Image

link = input("Enter anything to generate QR : ")

qr_code = pyqrcode.create(link)

qr_code.png("QRCode.png", scale=5)

Image.open("QRCode.png")

#clcoding.com

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Day 96 : Track phone number using Python

 

import phonenumbers

#import geocoder

from phonenumbers import geocoder

#specify then phone number

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

#clcoding.com

phonenumber = phonenumbers.parse(a)

#display the location of phone number

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

Enter the Phone Number: +447894561236
United Kingdom

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Day 95 : Images To PDF conversion using Python

 

from PIL import Image

def Images_Pdf(filename, output):

    images = []

    for file in filename:

        im = Image.open(file)

        im = im.convert('RGB')

        images.append(im)

    

        images[0].save(output, save_all=True, append_images=images[1:])

        #clcoding.com

# Images Path , output pdf

Images_Pdf(["binod_mirror.png", "binod.png", "binod.jpg"], "output.pdf") 

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Day 94 : Extract Text from Image using Python

 

pip install pytesseract

pip install pillow

from PIL import Image

from pytesseract import pytesseract

#Define path to tessaract.exe

path_to_tesseract = r'C:\Program Files\Tesseract-OCR\tesseract.exe'

#Define path to image

path_to_image = 'texttoimage.png'

#Point tessaract_cmd to tessaract.exe

pytesseract.tesseract_cmd = path_to_tesseract

#Open image with PIL

img = Image.open(path_to_image)

#Extract text from image

text = pytesseract.image_to_string(img)

print(text)

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Day 93 : Generate Barcode using Python

 

pip install python-barcode

import barcode

from barcode.writer import ImageWriter

  

#Define content of the barcode as a string

number = input("Enter the code to generate barcode : ")  #clcoding.com

#Get the required barcode format

barcode_format = barcode.get_barcode_class('upc')

#Generate barcode and render as image

my_barcode = barcode_format(number, writer=ImageWriter())

  

#Save barcode as PNG

my_barcode.save("generated_barcode")

from PIL import Image #to open the barcde and show

Image.open('generated_barcode.png') #clcoding.com

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Day 92 : Details about the Image in Python

 

img=Image.open('binod.jpg') 

# The file format of the source file.

print(img.format) # Output: JPEG

# The pixel format used by the image. 

#Typical values are "1", "L", "RGB", or "CMYK."

print(img.mode) # Output: RGB

# Image size, in pixels.

print(img.size) # Output: (1920, 1280)

print(img.palette) # Output: None

JPEG
RGB
(500, 271)
None

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Day 91 : Image Mirror/Flip with Python

 

img = Image.open('binodd.jpg')  #clcoding.com

Mirror_Image=img.transpose(Image.FLIP_LEFT_RIGHT)

Mirror_Image.save(r'binod_mirror.png')

Image.open('binod_mirror.png') #mirrored Image

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Day 90 : Whole Year Calendar in Python

 

from calendar import* 

year = int(input('Enter Year:')) 

print(calendar(year, 2, 1, 8, 4)) 

#2 = 2 characters for days (Mo,Tu, etc)

#1 = 1 line (row) for each week

#8 = 8 rows for each month

#4 = 4 columns for all months of the year.

#clcoding.com

                                            2023

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

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

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

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Day 89 : Get Domain Name Information using Python

 

import whois

domain=input("Enter your Domain : ")

domain_info = whois.whois(domain)

for key, value in domain_info.items():

    print(key,':', value)

Enter your Domain : https://www.clcoding.com/
domain_name : ['CLCODING.COM', 'clcoding.com']
registrar : Google LLC
whois_server : whois.google.com
referral_url : None
updated_date : 2022-04-12 07:43:54
creation_date : 2019-04-12 02:05:57
expiration_date : 2023-04-12 02:05:57
name_servers : ['NS-CLOUD-B1.GOOGLEDOMAINS.COM', 'NS-CLOUD-B2.GOOGLEDOMAINS.COM', 'NS-CLOUD-B3.GOOGLEDOMAINS.COM', 'NS-CLOUD-B4.GOOGLEDOMAINS.COM']
status : ['clientTransferProhibited https://icann.org/epp#clientTransferProhibited', 'clientTransferProhibited https://www.icann.org/epp#clientTransferProhibited']
emails : registrar-abuse@google.com
dnssec : unsigned
name : Contact Privacy Inc. Customer 7151571251
org : Contact Privacy Inc. Customer 7151571251
address : 96 Mowat Ave
city : Toronto
state : ON
registrant_postal_code : M4K 3K1
country : CA

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Day 88 : Python Program to find edges of coins

 

#The `skimage` package comes with data built-in that 

#you can run computer vision algorithms

from skimage import data, io, filters 

image = data.coins() 

edges = filters.sobel(image) 

io.imshow( edges) 

#clcoding.com

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Day 87 : Download PDF books from Internet

 

import urllib.request

url=input("Enter Link to Download PDF : ")

Name=input("Enter a Name for the PDF File : ")

FileName = Name+".pdf"

urllib.request.urlretrieve(url,FileName)

#clcoding.com  

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Day 86 : Web Browsing in Python

 

import webbrowser

Url=input("Enter a url : ")

webbrowser.open(Url)

#Open the page in a new browser window.

webbrowser.open_new('Url')

#Open the page in a new browser tab. 

webbrowser.open_new_tab('Url')

#clcoding.com

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Day 85 : Desktop Notification with Python

 

pip install plyer

import time

from plyer import notification

if __name__ == "__main__":

    while True:

        notification.notify(

            title = "ALERT!!!",

            message = "Take a break! It has been an hour!",

            timeout = 10

        )

        time.sleep(3600)

        

#clcoding.com

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Day 84 : Download YouTube Video in MP3 format with Python

 # importing packages

from pytube import YouTube

import os

# url input from user

yt = YouTube(str(input("Enter the URL of the video you want to download: \n>> ")))

# extract only audio

video = yt.streams.filter(only_audio=True).first()

# check for destination to save file

print("Enter the destination (leave blank for current directory)")

destination = str(input(">> ")) or '.'

# download the file

out_file = video.download(output_path=destination)

# save the file

base, ext = os.path.splitext(out_file)

new_file = base + '.mp3'

os.rename(out_file, new_file)   #clcoding.com

# result of success

print(yt.title + " has been successfully downloaded in .mp3 format.")

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Day 83 : Convert PDF to docx using Python

 

from pdf2docx import Converter

pdf_file = 'clcoding.pdf'

docx_file = 'clcoding.docx'

cv = Converter(pdf_file)

cv.convert(docx_file)

cv.close()

#clcoding.com

[INFO] Start to convert clcoding.pdf
[INFO] [1/4] Opening document...
[INFO] [2/4] Analyzing document...
[INFO] [3/4] Parsing pages...
[INFO] (1/1) Page 1
[INFO] [4/4] Creating pages...
[INFO] (1/1) Page 1
[INFO] Terminated in 0.16s.

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Indian Flag using Python || हर घर तिरंगा || #azadikaamritmahotsav

INDIAN Flag in Python. All dimensions are as per our INDIAN standards. Let us know if you have any suggestions.

import numpy as np

import matplotlib.pyplot as py

import matplotlib.patches as patch

#Plotting the tri colours in national flag

a = patch.Rectangle((0,1), width=9, height=2, facecolor='#138808', edgecolor='grey')

b = patch.Rectangle((0,3), width=9, height=2, facecolor='#ffffff', edgecolor='grey')

c = patch.Rectangle((0,5), width=9, height=2, facecolor='#FF6103', edgecolor='grey')

m,n = py.subplots()

n.add_patch(a)

n.add_patch(b)

n.add_patch(c)

#AshokChakra Circle

radius=0.8

py.plot(4.5,4, marker = 'o', markerfacecolor = '#000080', markersize = 9.5)

chakra = py.Circle((4.5, 4), radius, color='#000080', fill=False, linewidth=7)

n.add_artist(chakra)

#24 spokes in AshokChakra

for i in range(0,24):

   p = 4.5 + radius/2 * np.cos(np.pi*i/9 + np.pi/48)

   q = 4.5 + radius/2 * np.cos(np.pi*i/9 - np.pi/48)

   r = 4 + radius/2 * np.sin(np.pi*i/9 + np.pi/48)

   s = 4 + radius/2 * np.sin(np.pi*i/9 - np.pi/48)

   t = 4.5 + radius * np.cos(np.pi*i/9)

   u = 4 + radius * np.sin(np.pi*i/9)

   n.add_patch(patch.Polygon([[4.5,4], [p,r], [t,u],[q,s]], fill=True, closed=True, color='#000080'))

py.axis('equal')

py.show() #clcoding.com

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Day 82 : Unzip Files using Python

 

from zipfile import ZipFile

with ZipFile('binod.zip', 'r') as zip_object:

    zip_object.extractall()

    

#list of files that are archived in the ZIP file

print(zip_object.namelist())

#clcoding.com

['binod.jpg', 'BumBumBole.gif', 'clcoding.pdf', 'file1.pdf']

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Day 81 : URL Shortener with Python - Tinyurl

 

import pyshorteners

long_url = input("Enter the URL to shorten: ")

##TinyURL shortener service

type_tiny = pyshorteners.Shortener()

short_url = type_tiny.tinyurl.short(long_url) 

print("The Shortened URL is: " + short_url)

#clcoding.com

Enter the URL to shorten: https://www.clcoding.com/p/python.html
The Shortened URL is: https://tinyurl.com/2zb6hedv

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Day 80 : Create an Audiobook in Python

 

import PyPDF2

import pyttsx3

engine = pyttsx3.init()

# Read the pdf by specifying the path in your computer

pdfReader = PyPDF2.PdfFileReader(open('clcoding.pdf', 'rb'))

# Get the handle to speaker

speaker = pyttsx3.init() 

# split the pages and read one by one

for page_num in range(pdfReader.numPages):

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

    speaker.say(text)  #clcoding.com

    speaker.runAndWait() 

# stop the speaker after completion

speaker.stop()

# save the audiobook at specified path 

engine.save_to_file(text, 'E:\audio.mp3')

engine.runAndWait() 

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Day 79 : Convert emoji into text in Python

 

import demoji

 

text="🇮🇳 📚 ❤️ 🌺 🌹 👶"

demoji.findall(text)

#clcoding.com

{'📚': 'books',
 '👶': 'baby',
 '🇮🇳': 'flag: India',
 '🌺': 'hibiscus',
 '🌹': 'rose',
 '❤️': 'red heart'}

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Day 78 : Image Watermarking with Python

 

from PIL import Image, ImageDraw, ImageFont

img = Image.open(r'binod.jpg') 

draw = ImageDraw.Draw(img) 

text = "clcoding.com"

font = ImageFont.truetype('arial.ttf', 50)

textwidth, textheight = draw.textsize(text, font)

width, height = img.size 

x=width/2-textwidth/2

y=height-textheight-50

draw.text((x, y), text, font=font) 

img.save(r'binod.png')

Image.open('binod.png') 

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Day 77 : Python program to print Emojis

 

import emoji

print(emoji.emojize(":India:"))

print(emoji.emojize(":books:"))

print(emoji.emojize(":red_heart:")) 

print(emoji.emojize(":hibiscus:"))

print(emoji.emojize(":rose:"))

print(emoji.emojize(":baby:"))

#clcoding.com

🇮🇳
📚
❤️
🌺
🌹
👶

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Day 76 : Generate Image captcha in Python

 

from captcha. Image import ImageCaptcha 

# Specify the image size

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

# Specify the Text for captcha

captcha_text = input("Enter Captcha text : ")   

# generate the image of the given text

data = image.generate(captcha_text)  

#clcoding.com   

# write the image on the given file and save it

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

from PIL import Image

Image.open('E:\CAPTCHA1.png')

Enter Captcha text : python

Out[6]:

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Day 75 : Convert Video Files to a Gif in Python

 

from moviepy.editor import VideoFileClip

videoClip = VideoFileClip("Binod.mp4")

videoClip.write_gif("Binod.gif")

#clcoding.com

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Day 74 : Python Program to Check a Number is a Disarium Number

 

Number = int(input("Enter the Number to Check Disarium Number = "))

length = len(str(Number))

Temp = Number

Sum = 0

rem = 0 #clcoding.com

while Temp > 0:

    rem = Temp % 10

    Sum = Sum + int(rem**length)

    Temp = Temp // 10

    length = length - 1

print("The Sum of the Digits = %d" %Sum)

if Sum == Number:

    print("\n%d is a Disarium Number." %Number)

else:

    print("%d is Not a Disarium Number." %Number)

Enter the Number to Check Disarium Number = 175
The Sum of the Digits = 175

175 is a Disarium Number.

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Day 73 : 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)

# Displaying address details

print("Zipcode:",zipcode)

print("Details of the Zipcode:")

print(location)

#clcoding.com

Enter the zipcode : 411045
Zipcode: 411045
Details of the Zipcode:
Pune City, Maharashtra, 411045, India

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Day 72 : Bitwise Operations on Integer Types

 

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Day 71 : Gif Creation in Python

 

import imageio

filenames = ["1.png","3.png","4.png"]

#you can add any type of image

images = []

for filename in filenames:

    images.append(imageio.imread(filename))

imageio.mimsave('ritesh1.gif', images,'GIF',duration=1)

#you can add duration as per your need

#clcoding.com

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Day 70 : Program to swap first and last element of a list

 

# Swap function

def swapList(newList):

    size = len(newList)

    # Swapping

    temp = newList[0]

    newList[0] = newList[size - 1]

    newList[size - 1] = temp

    

    return newList

# Driver code

newList = []    

newList = [int(item) for item in input("Enter the list items : ").split()]

print(swapList(newList))

#clcoding.com

Enter the list items : 4 5 2 3 8 6
[6, 5, 2, 3, 8, 4]

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Day 69 : Function to find permutations of a given string

 

# Function to find permutations of a given string

from itertools import permutations

def allPermutations(str):

     permList = permutations(str)  

     # print all permutations

     for perm in list(permList):

         print (''.join(perm))        

# Driver program

if __name__ == "__main__":

    str = input("Enter your string : ")

    allPermutations(str)

#clcoding.com     

Enter your string : CAT
CAT
CTA
ACT
ATC
TCA
TAC

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Day 68 : Python program to find compound interest

 

# Python program to find compound interest

def compound_interest(principle, rate, time):

# Calculates compound interest

Amount = principle * (pow((1 + rate / 100), time))

CI = Amount - principle

print("Compound interest is", CI)

P=float(input("Enter Principle Value : "))

R=float(input("Enter Rate Value : "))

T=float(input("Enter Time Value : "))

compound_interest(P,R,T)

#clcoding.com

Enter Principle Value : 1000
Enter Rate Value : 11
Enter Time Value : 3
Compound interest is 367.6310000000003

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Day 67 : Python program to add two numbers

 

# Python program to add two numbers

number1 = input("First number: ")

number2 = input("Second number: ")

# Adding two numbers

# User might also enter float numbers

sum = float(number1) + float(number2)

# Display the sum

# will print value in float

print("The sum of {0} and {1} is {2}" .format(number1, number2, sum))

#clcoding.com

First number: 21

Second number: 31

The sum of 21 and 31 is 52.0

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Day 66 : Floyd's Triangle in Python using for loop

 

print("Enter the Number of Rows: ", end="")

row = int(input())

num = 1

for i in range(row):

    for j in range(i+1):

        print(num, end=" ")

        num = num+1

    print()   

    #clcoding.com 

Enter the Number of Rows: 6
1 
2 3 
4 5 6 
7 8 9 10 
11 12 13 14 15 
16 17 18 19 20 21 

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