The simplest way of taking a screenshot using pyscreenshot module
Install the package:
pip install pyscreenshot
import pyscreenshot
image = pyscreenshot.grab()
image.show()
image.save("screenshot.png")
Solve Problems by Coding Solutions - A Complete solution for python programming
The simplest way of taking a screenshot using pyscreenshot module
Install the package:
pip install pyscreenshot
import pyscreenshot
image = pyscreenshot.grab()
image.show()
image.save("screenshot.png")
def rmv_match_char(list1, list2):
for i in range(len(list1)):
for j in range(len(list2)):
if list1[i] == list2[j]:
c = list1[i]
list1.remove(c)
list2.remove(c)
list3 = list1 + ["*"] + list2
return [list3, True]
list3 = list1 + ["*"] + list2
return [list3, False]
if __name__ == "__main__":
p1 = input("Player 1 name : ")
p1 = p1.lower()
p1.replace(" ", "")
p1_list = list(p1)
p2 = input("Player 2 name : ")
p2 = p2.lower()
p2.replace(" ", "")
p2_list = list(p2)
proceed = True
while proceed:
ret_list = rmv_match_char(p1_list, p2_list)
con_list = ret_list[0]
proceed = ret_list[1]
star_index = con_list.index("*")
p1_list = con_list[: star_index]
p2_list = con_list[star_index + 1:]
count = len(p1_list) + len(p2_list)
result = ["Friends", "Love", "Affection", "Marriage", "Enemy", "Siblings"]
while len(result) > 1:
split_index = (count % len(result) - 1)
if split_index >= 0:
right = result[split_index + 1:]
left = result[: split_index]
result = right + left
else:
result = result[: len(result) - 1]
print("Relationship status :", result[0])
import turtle
tr = turtle.Turtle()
tr.pensize(5)
tr.color("blue")
tr.penup()
tr.goto(-110, -25)
tr.pendown()
tr.circle(45)
tr.color("black")
tr.penup()
tr.goto(0, -25)
tr.pendown()
tr.circle(45)
tr.color("red")
tr.penup()
tr.goto(110, -25)
tr.pendown()
tr.circle(45)
tr.color("yellow")
tr.penup()
tr.goto(-55, -75)
tr.pendown()
tr.circle(45)
tr.color("green")
tr.penup()
tr.goto(55, -75)
tr.pendown()
tr.circle(45)
import tkinter as tk
from tkinter import ttk
LARGEFONT =("Verdana", 35)
class switchApp(tk.Tk):
def __init__(self, *args, **kwargs):
tk.Tk.__init__(self, *args, **kwargs)
container = tk.Frame(self)
container.pack(side = "top", fill = "both", expand = True)
container.grid_rowconfigure(0, weight = 1)
container.grid_columnconfigure(0, weight = 1)
self.frames = {}
for F in (StartPage, Page1, Page2):
frame = F(container, self)
self.frames[F] = frame
frame.grid(row = 0, column = 0, sticky ="nsew")
self.show_frame(StartPage)
def show_frame(self, cont):
frame = self.frames[cont]
frame.tkraise()
class StartPage(tk.Frame):
def __init__(self, parent, controller):
tk.Frame.__init__(self, parent)
label = ttk.Label(self, text ="Startpage", font = LARGEFONT)
label.grid(row = 0, column = 4, padx = 10, pady = 10)
button1 = ttk.Button(self, text ="Page 1",
command = lambda : controller.show_frame(Page1))
button1.grid(row = 1, column = 1, padx = 10, pady = 10)
button2 = ttk.Button(self, text ="Page 2",
command = lambda : controller.show_frame(Page2))
button2.grid(row = 2, column = 1, padx = 10, pady = 10)
class Page1(tk.Frame):
def __init__(self, parent, controller):
tk.Frame.__init__(self, parent)
label = ttk.Label(self, text ="Page 1", font = LARGEFONT)
label.grid(row = 0, column = 4, padx = 10, pady = 10)
button1 = ttk.Button(self, text ="StartPage",
command = lambda : controller.show_frame(StartPage))
button1.grid(row = 1, column = 1, padx = 10, pady = 10)
button2 = ttk.Button(self, text ="Page 2",
command = lambda : controller.show_frame(Page2))
button2.grid(row = 2, column = 1, padx = 10, pady = 10)
class Page2(tk.Frame):
def __init__(self, parent, controller):
tk.Frame.__init__(self, parent)
label = ttk.Label(self, text ="Page 2", font = LARGEFONT)
label.grid(row = 0, column = 4, padx = 10, pady = 10)
button1 = ttk.Button(self, text ="Page 1",
command = lambda : controller.show_frame(Page1))
button1.grid(row = 1, column = 1, padx = 10, pady = 10)
button2 = ttk.Button(self, text ="Startpage",
command = lambda : controller.show_frame(StartPage))
button2.grid(row = 2, column = 1, padx = 10, pady = 10)
app = switchApp()
app.mainloop()
from tkinter import *
class EmiCalculator:
def __init__(self):
window = Tk()
window.title("Loan Calculator")
Label(window, text = "Annual Interest Rate").grid(row = 1,
column = 1, sticky = W)
Label(window, text = "Number of Years").grid(row = 2,
column = 1, sticky = W)
Label(window, text = "Loan Amount").grid(row = 3,
column = 1, sticky = W)
Label(window, text = "Monthly Payment").grid(row = 4,
column = 1, sticky = W)
Label(window, text = "Total Payment").grid(row = 5,
column = 1, sticky = W)
self.annualInterestRateVar = StringVar()
Entry(window, textvariable = self.annualInterestRateVar,
justify = RIGHT).grid(row = 1, column = 2)
self.numberOfYearsVar = StringVar()
Entry(window, textvariable = self.numberOfYearsVar,
justify = RIGHT).grid(row = 2, column = 2)
self.loanAmountVar = StringVar()
Entry(window, textvariable = self.loanAmountVar,
justify = RIGHT).grid(row = 3, column = 2)
self.monthlyPaymentVar = StringVar()
lblMonthlyPayment = Label(window, textvariable =
self.monthlyPaymentVar).grid(row = 4,
column = 2, sticky = E)
self.totalPaymentVar = StringVar()
lblTotalPayment = Label(window, textvariable =
self.totalPaymentVar).grid(row = 5,
column = 2, sticky = E)
btComputePayment = Button(window, text = "Compute Payment",
command = self.computePayment).grid(
row = 6, column = 2, sticky = E)
window.mainloop()
def computePayment(self):
monthlyPayment = self.getMonthlyPayment(
float(self.loanAmountVar.get()),
float(self.annualInterestRateVar.get()) / 1200,
int(self.numberOfYearsVar.get()))
self.monthlyPaymentVar.set(format(monthlyPayment, '10.2f'))
totalPayment = float(self.monthlyPaymentVar.get()) * 12 \
* int(self.numberOfYearsVar.get())
self.totalPaymentVar.set(format(totalPayment, '10.2f'))
def getMonthlyPayment(self, loanAmount, monthlyInterestRate, numberOfYears):
monthlyPayment = loanAmount * monthlyInterestRate / (1
- 1 / (1 + monthlyInterestRate) ** (numberOfYears * 12))
return monthlyPayment;
root = Tk()
EmiCalculator()