calculator gui python code example

Example 1: python calculator gui

from tkinter import *


def adding():
    try:
        text1 = int(Textbox1.get())
        text2 = int(Textbox2.get())
    except Exception:
        Output.delete(0, END)
        Output.insert(0, 'Error! Enter a number please!')
        return
    text_output = str(text1 + text2)
    Output.delete(0, END)
    Output.insert(0, text_output)

root = Tk()
root.title('Adding')
root.geometry('500x500')
Textbox1 = Entry(root)
Textbox1.pack(ipadx=50, ipady=10)
spacing = Label(root, text='+')
spacing.pack()
Textbox2 = Entry(root)
Textbox2.pack(ipadx=50, ipady=10)
spacing2 = Label(root)
spacing2.pack()
Button1 = Button(root, text='Add The numbers!', command=adding)
Button1.pack()
spacing3 = Label(root)
spacing3.pack()
Output = Entry(root)
Output.pack(ipadx=50)
root.mainloop()

Example 2: python code to make a calculator frame

# importing everyting from tkinter
from tkinter import *
# expression to access among all the functions
expression = ""
# functions
def input_number(number, equation):
   # accessing the global expression variable
   global expression
   # concatenation of string
   expression = expression + str(number)
   equation.set(expression)
def clear_input_field(equation):
   global expression
   expression = ""
   # setting empty string in the input field
   equation.set("Enter the expression")
def evaluate(equation):
global expression
# trying to evaluate the expression
try:
result = str(eval(expression))
# showing the result in the input field
equation.set(result)
# setting expression to empty string
expression = ""
except:
# some error occured
# showing it to the user equation.set("Enter a valid expression")
expression = ""
# creating the GUI
def main():
   # main window window = Tk()
   # setting the title of GUI window
   window.title("Calculator")
   # set the configuration of GUI window
   window.geometry("325x175")
   # varible class instantiation
   equation = StringVar()
   # input field for the expression
   input_field = Entry(window, textvariable=equation)
   input_field.place(height=100)
   # we are using grid position
   # for the arrangement of the widgets
   input_field.grid(columnspan=4, ipadx=100, ipady=5)
   # settin the placeholder message for users
   equation.set("Enter the expression")
   # creating buttons and placing them at respective positions
   _1 = Button(window, text='1', fg='white', bg='black', bd=0, command=lambda: input_number(1, equation), height=2, width=7)
   _1.grid(row=2, column=0)
   _2 = Button(window, text='2', fg='white', bg='black', bd=0, command=lambda: input_number(2, equation), height=2, width=7)
   _2.grid(row=2, column=1)
   _3 = Button(window, text='3', fg='white', bg='black', bd=0, command=lambda: input_number(3, equation), height=2, width=7)
   _3.grid(row=2, column=2)
   _4 = Button(window, text='4', fg='white', bg='black', bd=0, command=lambda: input_number(4, equation), height=2, width=7)
   _4.grid(row=3, column=0)
   _5 = Button(window, text='5', fg='white', bg='black', bd=0, command=lambda: input_number(5, equation), height=2, width=7)
   _5.grid(row=3, column=1)
   _6 = Button(window, text='6', fg='white', bg='black', bd=0, command=lambda: input_number(6, equation), height=2, width=7)
   _6.grid(row=3, column=2)
   _7 = Button(window, text='7', fg='white', bg='black', bd=0, command=lambda: input_number(7, equation), height=2, width=7)
   _7.grid(row=4, column=0)
   _8 = Button(window, text='8', fg='white', bg='black', bd=0, command=lambda: input_number(8, equation), height=2, width=7)
   _8.grid(row=4, column=1)
   _9 = Button(window, text='9', fg='white', bg='black', bd=0, command=lambda: input_number(9, equation), height=2, width=7)
   _9.grid(row=4, column=2)
   _0 = Button(window, text='0', fg='white', bg='black', bd=0, command=lambda: input_number(0, equation), height=2, width=7)
   _0.grid(row=5, column=0)
   plus = Button(window, text='+', fg='white', bg='black', bd=0, command=lambda: input_number('+', equation), height=2, width=7)
   plus.grid(row=2, column=3)
   minus = Button(window, text='-', fg='white', bg='black', bd=0, command=lambda: input_number('-', equation), height=2, width=7)
   minus.grid(row=3, column=3)
   multiply = Button(window, text='*', fg='white', bg='black', bd=0, command=lambda:  input_number('*', equation), height=2, width=7)
   multiply.grid(row=4, column=3)
   divide = Button(window, text='/', fg='white', bg='black', bd=0, command=lambda: input_number('/', equation), height=2, width=7)
   divide.grid(row=5, column=3)
   equal = Button(window, text='=', fg='white', bg='black', bd=0, command=lambda: evaluate(equation), height=2, width=7)
   equal.grid(row=5, column=2)
   clear = Button(window, text='Clear', fg='white', bg='black', bd=0, command=lambda: clear_input_field(equation), height=2, width=7)
   clear.grid(row=5, column=1)
   # showing the GUI
   window.mainloop()
# start of the program
if __name__ == '__main__':
      main()