Compounding interest calculator - java

My goal is to create a program that asks the user for an amount, asks for the interest rate per year, month or day, asks for how it will be compounded, then asks for the term in either months, days or years.
It ill then print the future value along with the total interest gained.
This is what I have so far and the numbers are incorrect.
if anyone could help revise this and make it work i would be very grateful.
import java.util.Scanner;
public class Compunding {
public static void main(String[] args) {
Scanner sc = new Scanner(System.in);
double compoundingTerms;
double period = 0;
System.out.println("Enter an amount of money: ");
double amount = sc.nextDouble();
System.out.println("Enter an rate of Interest: ");
double rate = sc.nextDouble();
System.out.println("Enter per years, months, or days: ");
String time = sc.next();
System.out.println("Enter how it will be componded monthly, semi-anually, quarterlly, anually: ");
String compoundRate = sc.next();
System.out.println("Enter the term amount: ");
double term = sc.nextDouble();
System.out.println("Enter the term type (Monthy,Yearly,Daily}: ");
String termType = sc.next();
if (time.equals("years")) {
period = 1;
}
if (time.equals("months")) {
period = 12;
}
if (time.equals("days")) {
period = 365;
}
if (compoundRate.equals("monthly")) {
rate = (rate / 100) / 12;
term = term * 12;
}
if (compoundRate.equals("semi-anually")) {
rate = (rate / 100) / 2;
term = term * 2;
}
if (compoundRate.equals("quarterlly")) {
rate = (rate / 100) / 4;
term = term * 4;
}
if (compoundRate.equals("anually")) {
rate = rate / 100;
term = term * 1;
}
double compoundPayment = 0;
for (int i = 1; i <= term; i++ ) {
if (i % period == 0 ) {
colInterest(amount, rate);
}
compoundPayment = amount * (1.0 + rate);
}
System.out.println("The Final payment will be: " + compoundPayment);
}
public static double colInterest(double valueAmount, double valueInterest) {
return valueAmount * valueInterest;
}
}

So there were a number of issues with the original calculation and what was posted. compoundPayment was set outside the for loop, and only once, so that compounding did not occur. Also, the term type was requested but not used, so every term was assumed to be years. I think it's also just hard to follow the logic of the for loop with the mod (I get it, that when we hit a day on which things are compounded, we give interest), but it's tricky to keep track of the various units (so I went for years, but one could make a case for days and a loop like yours). I did simplify and assume the rate given was annual, but you could make it daily and multiply by 365, or monthly and multiply by 12, or, just make sure your period and days have the same unit.
It's also the case that the choice of Double as opposed to BigDecimal to represent the money is one where I followed you lead and am answering the question asked. I'm not arguing what I'm answering here is the best possible approach (and one could enhance by using Currency as opposed to assuming it's in dollars).
One different approach would be to use exponents to work with repeated multiplications, or, even if not, to simplify the for loop (which allows you to do things like print statements along the way and allow for rounding of currency).
I am not fixing potential enhancements like that there aren't always 365 days in a year or formatting the decimals nicely or checking input more vigorously. I am trying to give a sense of a possible way to go.
One subtlety is the cast to (int) for numPeriods, which will, assuming the other parts worked (and I tested that 364 days compounded annually gave no interest, but 365 did), make sure not to give partial interest for periods not completed.
I hope that helps.
import java.util.Scanner;
public class Compounding {
private Scanner sc;
Compounding() {
sc = new Scanner(System.in);
}
public double getAmount() {
//enhancement: catch number format exceptions, negative numbers, etcetera, and presumbaly use a loop to retry
System.out.println("Enter an amount of money: ");
return sc.nextDouble();
}
//return interest as a rate
public double getInterestRate() {
//enhancement, validate input, catch errors
System.out.println("Enter an annual percent rate of interest: ");
double rate = sc.nextDouble();
return rate / 100;
}
public int getTimesCompoundedPerYear() {
System.out.println("Enter how it will be componded monthly, semi-anually, quarterly, anually: ");
String compoundRate = sc.next();
if (compoundRate.equals("monthly")) {
return 12;
} else if (compoundRate.equals("semi-anually")) {
return 2;
} else if (compoundRate.equals("quarterly")) {
return 4;
} else if (compoundRate.equals("annually")) {
return 1;
} else {
System.out.println("Unrecognized compounding, defaulting to monthly");
return 12;
}
}
//return term amount, units still tbd
//allowing for decimals in case someone says 6.5 years for dsomey=thing compounded more than once a year
public double getTermAmount() {
//enhancement, validate input, catch errors
System.out.println("Enter term amount: ");
return sc.nextDouble();
}
public String getTermUnits() {
System.out.println("Enter the term type (years, months, days): ");
String termType = sc.next();
if (termType.equals("years") || termType.equals("months") || termType.equals("days")) {
return termType;
} else {
System.out.println("Unrecognized time period, defaulting to years.");
return "years";
}
}
public static void main(String[] args) {
Compounding compounding = new Compounding();
double period = 12;
double amount = compounding.getAmount();
double annualRate = compounding.getInterestRate(); //interest rates are always quoted as annual, no need to vary that
int timesCompoundedPerYear = compounding.getTimesCompoundedPerYear();
double term = compounding.getTermAmount();
String termUnits = compounding.getTermUnits();
double ratePerPeriod = annualRate / timesCompoundedPerYear;
double timeInYears = term;
if (termUnits.equals("months")) {
timeInYears /= 12;
} else if (termUnits.equals("days")) {
timeInYears /= 365;
}
int numPeriods = (int) timeInYears * timesCompoundedPerYear;
double compoundPayment = amount * Math.pow(1 + ratePerPeriod, numPeriods);
System.out.println("The Final payment will be: " + compoundPayment);
}
}

Related

Compound interest

import java.util.*;
public class Project3{
public static void main(String[] args)
{
Scanner key = new Scanner (System.in);
double rate = 0.05;
double annually, monthly, daily;
double balance;
int year = 10 ;
System.out.println("Enter the amount you will like to deposit or type exit to end.");
int deposit = key.nextInt();
annually = deposit * Math.pow((1 + rate/1),year);
monthly = deposit * Math.pow((1 + rate/12),year);
daily = deposit * Math.pow((1 + rate/365),year);
while (deposit)
{
}
System.out.println(annually);
System.out.println(monthly);
System.out.println(daily);
}
}
This is what I currently have. What I am trying to accomplish is to make a loop to add the first outcome with the next one. Also make one formula instead of having three to find the annually, monthly and daily.
First and foremost, asking someone to write out your homework is really unethical, and not helpful for you in the long run. If you don't care about the long run, consider taking a different class. In a career scenario, you're expected to write code on your own.
Secondly, to actually answer your question, here are some tips:
It seems like you want to gather a value (deposit) from the user, and then calculate the Compound Interest for said value. Your program also needs to not exit until the user says to exit. i.e. they want to calculate the CI for a set of numbers.
First step is to check the value from the user. If it is a number, then do calculations on it. If it is a String, then check if it is "exit". In Java, this amounts to writing out an if-statement, and making use of the very helpful "instanceof" keyword. If you haven't learned about that, give this a read, or ask your teacher.
For the calculations part, you simply do calculations on the user's input while the input is not a string set to "exit".
Finally, print out your calculations.
That's it. Your code already has the calculation formulas down, so you just need to code the logic for handling user input.
import java.util.Scanner;
import java.lang.Math;
public class HelloWorld {
public static void main(String[] args) {
Scanner sc = new Scanner(System.in);
System.out.println("How much money you want to deposit?");
int principle = sc.nextInt();
System.out.println("what is the rate you want?");
float rate = sc.nextFloat();
System.out.println("After how many years, you want to see your money?");
int year = sc.nextInt();
System.out.println("How many compounds in a year?");
int partialTime = sc.nextInt();
double b = year * partialTime;
double a = 1 + (rate/(partialTime*100));
double x = principle * (Math.pow(a,b));
System.out.println("Your interest in given time would be " + x);
}
}
A couple of suggestions - since you want to check user input against both String and int types, you could define a String type variable to hold the user input, and then do a try/catch to parse it as an Integer, if it's not an Integer check if the input equals "exit" (using the String.equals() method).
import java.util.*;
public class Project3{
public static void main(String[] args)
{
Scanner key = new Scanner (System.in);
double rate = 0.05;
double annually = 0, monthly = 0, daily = 0;
double balance;
int year = 10, deposit = 0 ;
String userinput = "";
do {
try {
System.out.println("Enter the amount you will like to deposit or type exit to end.");
userinput = key.nextLine();
deposit = Integer.parseInt(userinput);
}
catch (Exception e){
if (!userinput.equals("exit")){
System.out.println("Didn't recognize that input, please try again...");
}
else{
break;
}
}
} while (!userinput.equals("exit"));
annually += deposit * Math.pow((1 + rate/1),year);
monthly += deposit * Math.pow((1 + rate/12),year);
daily += deposit * Math.pow((1 + rate/365),year);
System.out.println(annually);
System.out.println(monthly);
System.out.println(daily);
}
}
Depending on how you want the output, you can easily adjust the scope of the loop to display the amounts after each valid deposit input, or just once at the end, after the user enters "exit".
Hope this helps.

How do I do calculations in a separate method then send them back to main for printing?

I am trying to do the calculations for the interest in another method, and I know that I have to make another method outside of main and then put return an the end, but I have no idea what to title this new method and how to go about doing the calculations there. I think it is the while loop that is confusing me. I have done this once before on a different project, so I have an idea of how to do it, but this project isn't anything like the other one and I don't really understand it. Any help is extremely appreciated as I have been working on this for a long time and just want to get it over with. Thanks in advance.
import java.util.Scanner; // This allows for the use of the scanner in the class
public class SavingsAccount // Start of class
{
public static void main(String[]args) // Start of main
{
double P; // These store the amounts that will be used in the accruing interest formula
double i;
double n;
double S = 0;
int timesLooped = 0;
Scanner readConsole = new Scanner(System.in); // This is the scanner
System.out.println("I am a savings account interest calculator."); // Prompts the user for input
System.out.println("How much money have you deposited?");
P = readConsole.nextDouble();
S = P;
System.out.println("Now, what is the annual interest rate? (i.e. .05)");
i = readConsole.nextDouble();
System.out.println("Finally, how long do you plan on having the money in the account?");
n = readConsole.nextDouble();
while (timesLooped <= n)
{
S = S + (P * i);
timesLooped += 1;
}
System.out.println("Your balance in that time span is " + S + "."); // Tells you your ending balance
}
}
Based on your comment, I think you want this:
private static double addInterest(double S, double P, double i)
{
return S + (P * i);
}
...
public static void main()
{
...
while (timesLooped <= n)
{
S = addInterest(S, P, i);
}
EDIT
I made some small improvements just for fun:
I put the entire interest calculation into the function and used exponentiation rather than a loop.
I gave the variables more descriptive names.
I used System.out.format to print the result.
Here's the code:
private static double computeCompoundInterest(double principal, double rate,
double years) {
return principal * Math.pow(1 + rate, years);
}
public static void main(String[] args) {
Scanner scanner = new Scanner(System.in);
System.out.println("I am a savings account interest calculator.");
System.out.println("How much money have you deposited?");
double principal = scanner.nextDouble();
System.out.println("Now, what is the annual interest rate? (i.e. .05)");
double rate = scanner.nextDouble();
System.out.println("How many years will you hold that money in the account?");
double years = scanner.nextDouble();
double total = computeCompoundInterest(principal, rate, years);
System.out.format("Your balance at the end of that period will be %.2f.\n", years, total);
}

How would you write Junit tests for this code?

Im new to java and practising my coding, how would I write some Junit tests for this code without changing it? I wanted to write some Junits to see if the output is correct. Could someone provide one such example?
Any help is greatly appreciated.
package returnOnInvestment;
import java.util.Scanner;
/**
This program compares CD /Investment plans input by the year
broken down by the requirements below:
This program creates a table of compound interest investment growth over time
Broken down by: a) year b) balance at end of year
Finance formula of A= P(1+ r/n)^n*t is used:
A = Future Value | P = Initial Investment
r = annual interest rate |n = times interest is compounded/year
t = years invested
*/
public class BestInvesment
{
public static void main(String[] args)
{
Scanner in = new Scanner(System.in);
String bestBankName = "";
double bestGrowth = 0;
boolean done = false;
while(!done)
{
System.out.print("Plan name (one word, Q to quit): ");
String bankName = in.next();
if (bankName.equals("Q"))
{
done = true;
}
else
{
System.out.print("Please enter your principal investment: ");
final double PRINCIPAL_INVESTMENT = in.nextDouble();
System.out.print("Please enter the annual interest rate: ");
double iRate = in.nextDouble();
System.out.print("Please enter number of times interest is compounded per year: ");
final double INCREMENT = 1;//in.nextDouble();
System.out.print("Enter number of years: ");
int nyears = in.nextInt();
iRate = iRate/100; System.out.println("iRate:" + iRate);
//Print the table of balances for each year
for (int year = 1; year <= nyears; year++)
{
double MULTIPLIER = INCREMENT * year;
System.out.println("Multiplier: " + MULTIPLIER); // I've included this print statement to show that the multiplier changes with each passing year
double interest = 1 + (iRate/INCREMENT);
double balance = PRINCIPAL_INVESTMENT;
double growth = balance * Math.pow(interest, MULTIPLIER);
growth = growth - PRINCIPAL_INVESTMENT;
balance = balance + growth;
System.out.printf("Year: %2d Interest Earned: $%.2f\t Ending Balance: $%.2f\n", year, growth, balance);
if (bestBankName.equals("") || bestGrowth > growth) // || bestBankName > growth
{
bestBankName = bankName; // bestBankName = bankName
bestGrowth = growth; // mostGrow = growth
}
System.out.println("Earning with this option: " + growth);
}
}
}
System.out.println("Best Growth: " + bestBankName);
System.out.println("Amount Earned: " + bestGrowth);
}
}
As it is, this code is very difficult to test, which it is a symptom of some design smells.
One thing to realize is that you are severely violating the Single Responsibility Principle.
Your code which is just one blob is doing the following things:
printing stuff to console
getting input from the user
doing some calculation
coordinating all this
Since this is in the realm of practicing, I would heavily refactor the code into separate classes. Those then should be easily testable, especially the one doing the calculation, since it will have just some simple methods where you can pass some values as arguments, and check the results
For testing the input and output classes note that you can change System.in and System.out to point to your own implementations, so you can create those to facilitate testing. You might want to look into a mocking framework for this (e.g. Mockito) but it is perfectly possible without such framework.

JAVA: Runtime Exception (I think that's what i need to use)

Ok, I need my program to validate user entered data. If that data is invalid, the program needs to skip almost all of my code and get to the end of my while loop to ask if the user would like to proceed with calculating another loan. My professor has not provided us with a method of doing this and all the information ive found on the internet is not specific enough to help me. Once again, I need the code after the validation to be skipped without exiting the program and go to the end of the loop where I ask the user if they want to calculate another loan. Here is my code thus far.
/* This program is an extension of the previous Interest Calculator. The only different is this one can
compute not only simple interest but daily and monthly compound interest using a switch statement to
differentiate each type of interest. */
import javax.swing.*;
// Import the GUI methods
public class InterestCalculatorLoop {
public static void main(String[] args) {
// Entry point of program
String again = "yes";
while (again.equalsIgnoreCase("yes" ))
{
String option = JOptionPane.showInputDialog("Which type of loan would you like to find interest for? \n1 = Simple Interest \n2 = Monthly Compounded Interest \n3 = Daily Compounded Interest");
int optionInt = Integer.parseInt(option);
int interestType = Integer.parseInt(option);
String paString = JOptionPane.showInputDialog("Enter the principal amount");
double pa = Double.parseDouble(paString);
double interest = 0;
double months = 0;
double totalInterest = 0;
double years = 0;
final double daysInYear = 365.0;
final double daysInMonth = 30.41666666667;
final double monthsInYear = 12.0;
// Logic statements to validate user input or otherwise run through the rest of the program without calculation
if (pa <= 0)
{
JOptionPane.showMessageDialog(null, "Data Error: The principal amount must be greater than zero. You entered " + pa);
return;
}
else
{
String interestString = JOptionPane.showInputDialog("Enter The Annual Interest Rate [1 - 100 percent]) ");
interest = Double.parseDouble(interestString);
}
if (interest < 0 || interest > 100)
{
JOptionPane.showMessageDialog(null, "Data Error: The interest amount must be between 1 and 100. You entered " + interest);
return;
}
else
{
String monthsString = JOptionPane.showInputDialog("Enter the number of months");
months = Double.parseDouble(monthsString);
}
if (months <= 0)
{
JOptionPane.showMessageDialog(null, "Data Error: The number of months must be above 0. You entered " + months);
return;
}
else
{
switch (optionInt)
{
// Case for simple intrest
case 1: optionInt = 1;
months = months/monthsInYear;
totalInterest = pa * (interest/100.0) * months;
JOptionPane.showMessageDialog(null, "The total amount of interest of your loan is $" + totalInterest + ".");
break;
// Case for monthly compounded interest
case 2: optionInt = 2;
interest = interest/100.0;
years = months/monthsInYear;
double exponent = months*years;
double interestOverMonths = 1+interest/months;
double thirdTotal = Math.pow(interestOverMonths, exponent);
double secondTotal = pa*thirdTotal;
totalInterest = secondTotal - pa;
JOptionPane.showMessageDialog(null, "The total amount of interest of your loan is $" + totalInterest + ".");
break;
// Case for daily compounded interest
case 3: optionInt = 3;
interest = interest/100.0;
double days = months*daysInMonth;
years = days/daysInYear;
exponent = days*years;
double interestOverDays = 1+interest/days;
thirdTotal = Math.pow(interestOverDays, exponent);
secondTotal = pa*thirdTotal;
totalInterest = secondTotal - pa;
JOptionPane.showMessageDialog(null, "The total amount of interest of your loan is $" + totalInterest + ".");
break;
}
}
again = JOptionPane.showInputDialog("Would you like to compute another loan? (yes or no)");
}
}
}
Break is very useful for stopping loops as you said you wanted. Essentially it has the effect of setting the boolean parameter of a for loop to true.
You can of course, use what in CMD is referred to a GOTO. you can create something like:
top:
for(int i = 0; i < 10; i++){
if(i == 9){
break top;
}
}
I've skimmed through your code and to be honest, I don't know much about loans and the calculations associated with it.
As you're clearly still learning the basics, a simple solution by the looks of it would be to take out:
while (again.equalsIgnoreCase("yes" ))
{
/*
* FROM HERE
*/
String option = JOptionPane.showInputDialog("Which type of loan would you like to find interest for? \n1 = Simple Interest \n2 = Monthly Compounded Interest \n3 = Daily Compounded Interest");
int optionInt = Integer.parseInt(option);
//...
/*
* TO HERE
*/
again = JOptionPane.showInputDialog("Would you like to compute another loan? (yes or no)");
}
And put it in its own method called for example:
public static void askAndProcessDetails()
So when you return you will go to the repeat dialogue.
while (again.equalsIgnoreCase("yes" ))
{
askAndProcessDetails();
again = JOptionPane.showInputDialog("Would you like to compute another loan? (yes or no)");
}
continue is maybe one of the worse feature of java, with the break keyword (except in switch statements). It leads to jigsaw code where you have to find out where the code jumps. One continue may be practical but it gets very hard to change the code it produces (think about adding an inner loop..), and 2 continues will make you crazy.
You can always avoid using continue, there is always another solution. Same for break.
Here, why don't you just use some kind of
if( answerIsValid ) {
//process it
...
}//if
That's easy, simple, clear and even better when you have a separate method that contains processing.
Also, in your case, that is tied to robustness, you could provide a process() method that throws an exception if the data entered is not valid. This makes it even more clear that there is a "normal" program behavior and a bunch of strange cases you handle as errors.
public void processAnswer( String stringAnswer ) throws ArithmeticException {
int answer = Integer.parseInt( stringAnswer );
//rest of processing
...
}//met
then your main loop becomes
String again = "yes";
while (again.equalsIgnoreCase("yes" ))
{
String stringAnswer = JOptionPane...
try {
process( stringAnswer );
} catch( ArithmeticException ex ) {
JOptionPane.showMessageDialog( "This is not an integer !" );
}//catch
}//while

Java JOptionPane Output

Can anybody tell me what I am doing wrong here. I need to calculate some values from user-input into some JOptionPane-input-dialog-boxes, then outputting the answers.
I would greatly appreciate any help I get. Thanks In Advance!
Input
Number of loans to compare (Could be more than 1)
Selling price
Down payment
You will ask the following for each loan they want to compare
Interest rate
Number of years
Processing
You will need to calculate the monthly payment for each scenario listed in part d for the given interest rates and number of years.
Output
Selling price
Down Payment
Loan Amount
List for each scenario
interest
years
payment
Here's my code so far:
package javamortgagecalculator;
import javax.swing.JOptionPane;
import java.util.*;
public class JavaMortgageCalculator {
public static void main(String[] args) {
//A. Enter the Number Of Loans to compare
String numberOfLoansString = JOptionPane.showInputDialog("Enter the Number Of Loans to Compare");
//Convert numberOfLoansString to int
int numberOfLoans = Integer.parseInt(numberOfLoansString);
//B. Enter the Selling Price of Home
String sellingPriceString = JOptionPane.showInputDialog("Enter the Loan Amount");
//Convert homeCostString to double
double sellingPrice = Double.parseDouble(sellingPriceString);
//C. Enter the Down Payment on the Home
String downPaymentString = JOptionPane.showInputDialog("Enter the down payment on the Home");
double downPayment = Double.parseDouble(downPaymentString);
//Get the loanAmount by Subtracting the Down Payment from homeCost
double loanAmount = sellingPrice - downPayment;
//D. Ask the following for as many number of loans they wish to compare
//D1 Get the interest rate
double[] annualInterestRatesArray = new double[numberOfLoans];
double[] monthlyInterestRateArray = new double[numberOfLoans];
int[] numberOfYearsArray = new int[numberOfLoans];
double[] monthlyPaymentArray = new double[numberOfLoans];
double[] totalPaymentArray = new double[numberOfLoans];
int counter = 1;
for (int i=0; i < numberOfLoans; i++)
{
String annualInterestRateString = JOptionPane.showInputDialog("Enter the interest rate for Scenario " + counter);
double annualInterestRate = Double.parseDouble(annualInterestRateString);
annualInterestRatesArray[i] = (annualInterestRate);
//Obtain monthly interest rate
double monthlyInterestRate = annualInterestRate / 1200;
monthlyInterestRateArray[i] = (monthlyInterestRate);
//D2 Get the number of years
String numberOfYearsString = JOptionPane.showInputDialog("Enter the number of years for Scenario " + counter);
int numberOfYears = Integer.parseInt(numberOfYearsString);
numberOfYearsArray[i] = (numberOfYears);
//Calculate monthly payment
double monthlyPayment = loanAmount * monthlyInterestRate / (1 - 1 / Math.pow(1 + monthlyInterestRate, numberOfYears * 12));
//Format to keep monthlyPayment two digits after the decimal point
monthlyPayment = (int)(monthlyPayment * 100) / 100.0;
//Store monthlyPayment values in an array
monthlyPaymentArray[i] = (monthlyPayment);
//Calculate total Payment
double totalPayment = monthlyPaymentArray[i] * numberOfYears * 12;
//Format to keep totalPayment two digits after the decimal point
totalPayment = (int)(totalPayment * 100) / 100.0;
totalPaymentArray[i] = (totalPayment);
counter++;
}
StringBuilder sb = new StringBuilder();
for (int i = 0; i < numberOfLoans; i++) {
sb.append(String.format("\t \t \t \t \t \n", sellingPrice, downPayment, loanAmount, Arrays.toString(annualInterestRatesArray), Arrays.toString(numberOfYearsArray), Arrays.toString(monthlyPaymentArray)));
}
String toDisplay=sb.toString();
JOptionPane.showMessageDialog(null, sb.toString(), toDisplay, JOptionPane.INFORMATION_MESSAGE);
}
}
If I was forced, presumably by a large green, and particularly ugly troll masquerading as a programming teacher, to use multiple JOption panes for input and output then here's how I'd tackle the problem. This is meant for your information only... if you hand this in as your own work your teacher will smell a rat, and trolls have google too.
package forums;
import javax.swing.JOptionPane;
import java.text.DecimalFormat;
/**
* Compares total cost of mortgages (aka ordinary annuity certains)
*/
public class MortgageCalculator
{
public static void main(String[] args)
{
// 1. input
final double price = Enter.aDouble("the purchase of the property");
final double deposit = Enter.aDouble("down payment");
Loan.setPrinciple(price - deposit);
int numLoans = Enter.anInteger("number of loans to compare");
Loan[] loans = new Loan[numLoans];
for ( int i=0; i<numLoans; ++i ) {
loans[i] = new Loan(
Enter.aDouble("Annual interest rate for Loan " + (i+1) + " (eg: 6.75)") / 100.0 / 12.0
, Enter.anInteger("number of years for Loan " + (i+1) + " (eg 20)") * 12
);
}
// 3. Output
final String caption =
"Principle " + Format.money(Loan.getPrinciple())
+ " = Price " + Format.money(price)
+ " - Deposit " + Format.money(deposit);
StringBuilder results = new StringBuilder(64 + numLoans * 64);
results.append("Monthly Rate, Months, Monthly Repayment, Total Repayments\n");
for ( Loan l : loans ) {
results.append(String.format("%5s, %d, %13s, %13s\n"
, Format.percent(l.rate)
, l.periods
, Format.money(l.payment())
, Format.money(l.totalPayment())
));
}
JOptionPane.showMessageDialog(null, results.toString(), caption, JOptionPane.INFORMATION_MESSAGE);
}
static class Format
{
static java.text.Format MONEY = new DecimalFormat("$#,###.##");
static String money(double amount) {
return MONEY.format(amount);
}
static java.text.Format PERCENT = new DecimalFormat("0.###%");
static String percent(double amount) {
return PERCENT.format(amount);
}
static StringBuilder join(String between, Object... values) {
StringBuilder result = new StringBuilder(values.length * 16);
if ( values.length > 0 ) {
result.append(values[0].toString());
for ( int i=1; i<values.length; ++i ) {
result.append(between)
.append(values[i].toString());
}
}
return result;
}
} // end class Format
static class Enter
{
public static int anInteger(String fieldDesc) {
return Integer.parseInt(JOptionPane.showInputDialog("Enter the "+ fieldDesc));
}
public static double aDouble(String fieldDesc) {
return Double.parseDouble(JOptionPane.showInputDialog("Enter the "+ fieldDesc));
}
} // end class Enter
} // end class MortgageCalculator
class Loan
{
private static double principle = 34324.121221312432;
final double rate;
final int periods;
static void setPrinciple(double principle) {
if (Loan.principle != 34324.121221312432)
throw new ReadOnlyException("The Principle can't be changed once set.");
Loan.principle = principle;
}
static double getPrinciple() {
return Loan.principle;
}
/**
* Initialises a new loan objects
* #param double rate The interest rate per period, as a percentage.
* eg: 0.00625 is 7.5% per annum.
* #param int periods The number of periods of the loan, typically months.
*/
Loan(double rate, int periods) {
this.rate = rate;
this.periods = periods;
}
// 2. processing
double payment() {
return principle * rate / (1 - 1/Math.pow(1+rate,periods) );
}
double totalPayment() {
return periods * payment();
}
}
class ReadOnlyException extends RuntimeException
{
private static final long serialVersionUID = 0L;
public ReadOnlyException(String message) {
super(message);
}
}
The "list of loans to compare" is represented by an array of Loan objects... I.e: each "loan option" is represented by an instance of the Loan class, which groups all the attributes of a particular loan into one nice tidy "thing" which we can then manipulate as a whole. This a better appraoch than the technique you're using to store loan attributes, which is called "parallel arrays"... and well, umm, it's a bit outdated, in-fact it's got a (greasy) mullet, it's wearing a (too tight) orange safari suit with a (safron pink) head-band... It wasn't a good look in the eighties, and these days, well it's likely to get you beaten-up, arrested, or both; depending on your locale... Basically: We have have better ways now!
The Loan class also has a couple of handy "calculated fields" to do the computations for us. This means that if the WAY we calculate repayments changes for some reason in future, we only have one place to change it, and everything that uses Loans (which could be reading, writing, permuting, totalling, repossessing, or even wholesaling loans) does NOT have to change... they just pick up the change "for free".
In this contrived use-case all our Loans will be for the same ammount, only the interest rates and periods vary... so the Loan class also has a static variable called "principle", which holds THE "common" principle for ALL instances of the Loan class. The principle may only be set once. Any subsequent attempt to set the prinicple will cause a ReadOnlyException to be thrown.
Anyway, I hope that you learn something from seeing another way to tackle some of the sub-problems you may have dicovered while doing this exercise yourself. One tip for the future: Grab your class-mates code for this exercise and read through it... you can learn a LOT from how other people tackle things.
Cheers. Keith.
Now you need to examine the result returned by showMessageDialog(), as shown here.
String.format("\t \t \t \t \t \n", sellingPrice, ...
That's just going to output 5 tabs. You want
String.format("%s %s %s %s %s %n", sellingPrice, ...
for (int i = 0; i < numberOfLoans; i++)
{
sb.append(/*...snip...*/ Arrays.toString(annualInterestRatesArray), Arrays.toString(numberOfYearsArray), Arrays.toString(monthlyPaymentArray));
}
You haven't told us what the problem is, but I don't think this bit is doing what you want. You're asking the program to print out the entirety of your three arrays every time the loop goes round. Instead, you probably want to access the specific array element for each loan, right? Something like...
for (int i = 0; i < numberOfLoans; i++)
{
sb.append(/*...snip...*/ annualInterestRatesArray[i], numberOfYearsArray[i], monthlyPaymentArray[i]);
}
Your JOptionPane.showMessageDialog(null... is inside a for loop. So it will show it as many times as the value of numberOfLoans2 . If you dont want that, move your
String toDisplay = sb.toString();
JOptionPane.showMessageDialog(null, sb.toString(), toDisplay, JOptionPane.INFORMATION_MESSAGE);
outside the for-loop.
In your answer printing method the numberOfLoans2 variable is used in two places: in a for loop making the printing happen many times (outer loop) and in a for loop making the mathematic calculation (inner loop). Probably the outer one is with no use, so remove it and the result may be shown once. Remember to remove the ending } on the end of the loop element to keep the structure ok :)

Categories

Resources