# Writing a Bank application with three classes: the base class BankAccount and two inheriting classes SavingsAccount and CreditCard

For homework, I have to write a BankAccount class and then two Classes, CreditCard and Savings, that inherit from that base class. I've written the application but output is not exactly like the required output, which is provided along with the main Bank.cpp .

This is my output:

*Savings Page.
Setting Savings Account interest Rate at 12%
Opening my account on day 2 with $35.46 After 32 more days, I'm depositing an additional$245.64.
Current Balance(on day 34):   281.1
Withdrawl $285.05 on day 100 Couldn't make the withdrawl. Not enough money! 281.1*  This is the required output: *Savings Page. Setting Savings Account interest Rate at 12% Opening my account on day 2 with$35.46
After 32 more days, I'm depositing an additional $245.64. Current Balance(on day 34): 281.473 Withdrawl$285.05 on day 100
Current Balance(after withdrawl): 2.53064*


Here is my application:

//  BankAccount.h
#pragma once

class BankAccount
{
public:
BankAccount(void);
~BankAccount(void);
float CalculateInterest(int Time);
float GetInterestRate();
float GetPrincipal();
void SetInterestRate(float IR);
void SetPrincipal(int Time, float Amount);
private:
float mInterestRate;
double mPrincipal;
int mLastAccessTime;
};

//  BankAccount.cpp
#include "StdAfx.h"
#include "BankAccount.h"

BankAccount::BankAccount(void)
:mInterestRate(0),mPrincipal(0),mLastAccessTime(0) {}

BankAccount::~BankAccount(void) {}

void BankAccount::SetInterestRate(float IR)
{
mInterestRate = IR;
}

void BankAccount::SetPrincipal(int Time, float Amount)
{
mLastAccessTime = Time;
mPrincipal = Amount;
}

float BankAccount::CalculateInterest(int Time)
{
float InterestEarned;
Time = (Time - mLastAccessTime) / 360;
float mInterestRate = ((mInterestRate * Time) / 100) * mPrincipal;
return mInterestRate;
}

float BankAccount::GetInterestRate()
{
return mInterestRate;
}

float BankAccount::GetPrincipal()
{
return mPrincipal;
}

//  Savings.H
// Inheritance class of BankAcount
#pragma once
#include "BankAccount.h"

class Savings : public BankAccount
{
public:
Savings(void);
~Savings(void);
void Deposit(int Time, float Amount);
bool Withdrawal(int Time, float Amount);
float GetBalance(int Time);
};

//  Savings.cpp
//  Inheritance class of BankAcount
#include "StdAfx.h"
#include "Savings.h"
#include <iostream>

Savings::Savings(void) {}
Savings::~Savings(void) {}

void Savings::Deposit(int Time, float Amount)
{
if ( Time = 0 )
SetPrincipal(Time, Amount);
else
SetPrincipal(Time, (Amount + GetPrincipal()));
}

bool Savings::Withdrawal(int Time, float Amount)
{
if (GetPrincipal() >= Amount)
{
GetPrincipal() - Amount;
return true;
}
else
return false;
}

float Savings::GetBalance(int Time)
{
return ( GetPrincipal() + CalculateInterest(Time));
}

//  CreditCard.h
#pragma once
#include "BankAccount.h"

class CreditCard : public BankAccount
{
public:
CreditCard(void);
~CreditCard(void);
void Payment(int Time, float Amount);
void SetCreditLimit(float Amount);
float getAvailableCredit(int Time);
bool Charge(int Time, float Amount);
};

//  CreditCard.cpp

#include "StdAfx.h"
#include "CreditCard.h"

CreditCard::CreditCard(void) {}
CreditCard::~CreditCard(void) {}

void CreditCard::Payment(int Time, float Amount)
{
GetPrincipal() + CalculateInterest(Time) - Amount;
}

void CreditCard::SetCreditLimit(float Amount) {}

float CreditCard::getAvailableCredit(int Time)
{
return ( GetPrincipal() + CalculateInterest(Time));
}

bool CreditCard::Charge(int Time, float Amount)
{
if (getAvailableCredit(Time) >= Amount)
{
(getAvailableCredit(Time) - Amount);
return true;
}
else
return false;
}

-
Think about how integer division works and look at your Time calculation in CalculateInterest. What do you expect those values to be, and what are they if you print them out or look at it in a debugger? –  Retired Ninja Apr 22 '12 at 2:50
I don't agree with this assignment, who tracks money to the thousandth of a cent? –  jli Apr 22 '12 at 3:02
this isn't related to your issue, but it's normally good practice to give base classes a virtual destructor, and sometimes it's handy to give the base class a pure virtual member to avoid mistakes. You aren't making any of those mistakes, but it might be a good idea for the future. –  Mooing Duck Apr 22 '12 at 5:41