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Python | Loan calculator using Tkinter

Last Updated : 15 Feb, 2021
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Prerequisite: Tkinter Introduction
 

Python offers multiple options for developing GUI (Graphical User Interface). Out of all the GUI methods, Tkinter is the most commonly used method. It is a standard Python interface to the Tk GUI toolkit shipped with Python. Python with Tkinter outputs the fastest and easiest way to create GUI applications. Creating a GUI using Tkinter is an easy task.
 

To create a Tkinter :

  1. Importing the module – Tkinter
  2. Create the main window (container)
  3. Add any number of widgets to the main window
  4. Apply the event Trigger on the widgets.

The GUI will look like below:

Let’s see how to create a loan calculator using Python GUI library Tkinter. The calculator will be capable of calculating the total amount and monthly payment based on the loan amount, period and interest rate. 
Step #1: Create the main window. 
 

Python3




def __init__(self):
    # Create a window
    window = Tk()
    window.title("Loan Calculator") # Set title
 
    # create the input boxes.
    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)
 
    # for taking inputs
    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)
     
    # create the button
    btComputePayment = Button(window, text = "Compute Payment",
                           command = self.computePayment).grid(
                               row = 6, column = 2, sticky = E)
    # Create an event loop
    window.mainloop()


  
Step #2: Adding functionality.
 

Python3




def computePayment(self):
    # compute the total payment.
    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'))
 
# compute the monthly payment.
def getMonthlyPayment(self, loanAmount, monthlyInterestRate, numberOfYears):
    monthlyPayment = loanAmount * monthlyInterestRate /
                    (1- 1 / (1 + monthlyInterestRate) **
                    (numberOfYears * 12))
 
    return monthlyPayment;


  
Step #3: Complete program 
 

Python3




# Import tkinter
from tkinter import *
class LoanCalculator:
 
    def __init__(self):
 
        window = Tk() # Create a window
        window.title("Loan Calculator") # Set title
        # create the input boxes.
        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)
 
        # for taking inputs
        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)
         
        # create the button
        btComputePayment = Button(window, text = "Compute Payment",
                                  command = self.computePayment).grid(
                                  row = 6, column = 2, sticky = E)
        window.mainloop() # Create an event loop
 
 
    # compute the total payment.
    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):
        # compute the monthly payment.
        monthlyPayment = loanAmount * monthlyInterestRate / (1
        - 1 / (1 + monthlyInterestRate) ** (numberOfYears * 12))
        return monthlyPayment;
        root = Tk() # create the widget
 
 # call the class to run the program.
LoanCalculator()


Output: 

Code Explanation: 
 

  • The Tkinter module contains the Tk toolkit. Here in this example, we are importing the whole module of Tkinter in the first line. Next, We are creating a user-defined Class named LoanCalculator which holds its own data member and member functions.
  • def__init__(self) is a special method in Python Class. It is a constructor of a Python class, then we create a window using Tk(). The label function creates a display box to take input and use the grid method to give it a table-like structure.

Why we used sticky argument? 
By default, widgets are created in the center, using sticky arguments we can change it. It takes 4 values: N, S, E, W. i.e. North, East, South, West.
 

  • Then we create some object named self.annualInterestRateVar, self.numberOfYearsVar, self.loanAmountVar, self.monthlyPaymentVar, self.totalPaymentVar and for the first 3 object we take the input using entry() function.
  • Then we create the button namely compute payment, when you click the button it calls the compute payment function which belongs to the class loan calculator. Using mainloop function we run our application program.
  • Create a function computepayment() inside the class. Here we store our inputs of the object in some variables, to simplify our mathematical calculation.
  • In the next step, we create another function named getMonthlyPayment() inside the class. After getting the required inputs it computes the monthly payment using the simple mathematical function given in the program.
  • Now root=Tk() means to initialize tkinter , we have to create a widget which is a window. Note that root widget must be created before any other widget.

 



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