show/hide this revision's text 3 added 847 characters in body

I have this code to represent bank:

class Bank {
    friend class InvestmentMethod;
    std::vector<BaseBankAccount*> accounts;
public:
//...

BaseBankAccount is an abstract class for all accounts in a bank:

class BaseBankAccount {
    public:
    	BaseBankAccount() {}
    	virtual int getInterest() const = 0;
    	virtual int getInvestedSum() const = 0;
    	virtual void increaseDepositSum(int additionalSum) = 0;
    	virtual void close(std::string& reason) = 0;
    	virtual ~BaseBankAccount() {}
};

The problem is, when I manipulate with pointers to derived class objects through pointers to base class objects, the set of methods I can call is restricted by BaseBankAccount public interface - no matter what type the REAL object is.

For example, not every account has an option to increase sum invested already - so, I didn`t include this method in a base class:

class BankAccount: public BaseBankAccount {
protected:
    BaseDeposit* deposit;
    double sumInvested;
public:
    BankAccount(int sum, int term, int inter): sumInvested(sum), depositTerm(term), interest(inter) {}
    int getInterest() const { return interest; }
    int getInvestedSum() const { return sumInvested; }
    void prolong(int increaseTerm) {
        depositTerm += increaseTerm;
    }
    void increaseInvestment(double addition) {
            sumInvested += addition;
    }
    virtual ~BankAccount() {}
};

then, I want to call it:

Bank bank1(...);
bank1.accounts[i]->increaseInvestment(1000.0);

So, what can I do to get access to the interface of derived class objects in this case? As far as I know, downcasting to concrete type each time I need to call specific functionality is not good.
Create one more abstract class derived from this to expand the interface?
Create parallel hierarchy for each specific type I need to implement (looks a bit heavy thing to do)?
show/hide this revision's text 2 added 32 characters in body

I have this code to represent bank:

class Bank {
    friend class InvestmentMethod;
    std::vector<BaseBankAccount*> accounts;
public:
//...

BaseBankAccount is an abstract class for all accounts in a bank:

class BaseBankAccount {
    public:
    	BaseBankAccount() {}
    	virtual int getInterest() const = 0;
    	virtual int getInvestedSum() const = 0;
    	virtual void increaseDepositSum(int additionalSum) = 0;
    	virtual void close(std::string& reason) = 0;
    	virtual ~BaseBankAccount() {}
};

The problem is, when I manipulate with pointers to derived class objects through pointers to base class objects, the set of methods I can call is restricted by BaseBankAccount public interface - no matter what type the REAL object is.
So, what can I do to get access to the interface of derived class objects in this case? As far as I know, downcasting to concrete type each time I need to call specific functionality is not good.
Create one more abstract class derived from this to expand the interface?
Create parallel hierarchy for each specific type I need to implement (looks a bit heavy thing to do)?
show/hide this revision's text 1

Manipulating with pointers to derived class objects through pointers to base class objects

I have this code to represent bank:

class Bank {
    friend class InvestmentMethod;
    std::vector<BaseBankAccount*> accounts;
public:
//...

BaseBankAccount is an abstract class for all accounts in a bank:

class BaseBankAccount {
    public:
    	BaseBankAccount() {}
    	int getInterest() const = 0;
    	int getInvestedSum() const = 0;
    	void increaseDepositSum(int additionalSum) = 0;
    	void close(std::string& reason) = 0;
    	virtual ~BaseBankAccount() {}
};

The problem is, when I manipulate with pointers to derived class objects through pointers to base class objects, the set of methods I can call is restricted by BaseBankAccount public interface - no matter what type the REAL object is.
So, what can I do to get access to the interface of derived class objects in this case? As far as I know, downcasting to concrete type each time I need to call specific functionality is not good.
Create one more abstract class derived from this to expand the interface?
Create parallel hierarchy for each specific type I need to implement (looks a bit heavy thing to do)?