Methods

Let's study class methods in detail.

As we discussed earlier, methods are the functions associated with a class or struct. Normal methods can only be called through a class instance. However, static methods can be called without an instance as well.

Defining methods #

A class method has to be declared inside the class, but can be defined outside using the scope resolution operator, ::.

struct Account{
  double getBalance() const;
  void withdraw(double amt);
  void deposit(double amt) { balance += amt; }
private:
  double balance;
};

double Account::getBalance() const { return balance; }
inline void Account::withdraw(double amt){ balance -= amt; }

If it is defined inside the class, the compiler automatically considers it an inline function.

this pointer #

The this pointer can be used to access the attributes of a class within a method. Every attribute has an implicit this pointer. Because of this, we can directly access the attribute inside a function. But what would happen if the method contains a variable that has the same name as an attribute of the class?

We can easily differentiate between the two by explicitly using this to access the attribute. Since this is a pointer, we must use the arrow syntax to access members.

struct Base{
  int a{1998}; // Member
  void newA(){
    int a{2011}; // Local variable in the method
    std::cout << this->a; // 1998 
    std::cout << a; // 2011
  } 
};

As we can see, this is sometimes necessary to access the hidden attributes of a class.

static methods #

Like static attributes, static methods can be used with or without an instance of the class. We can define static methods using the static keyword and call them using the scope resolution operator, ::.

class Account{
public:
  static int getDeposits(){ return deposits; } 
private:
  static int deposits;
};

...
int total = Account::getDeposits();

Note: Static methods do not have this pointers. They can only access static attributes and methods.

const methods #

  • A constant method cannot modify the object that calls it.

  • A method can be declared constant by using the const keyword.

  • Constant objects can only call const or constexpr methods.

  • Constant methods can only change an instance variable if the instance variable is declared mutable.

class Account{
public:
  double getBalance() const { return balance; } 
private:
  double balance;
};

...
const Account acc;
double account = acc.getBalance();

Changing the value of balance in getBalance() would cause an error since it is a const method. The acc instance has been declared const, but an instance does not have to be const to use constant methods.

constexpr methods #

The aim of defining constexpr methods is to improve the performance of our code. constexpr methods are executed at compile-time and can later be used at runtime without any redundant computations.

It can also be evaluated at runtime if non-constexpr arguments are provided. One thing to remember is that constexpr methods are implicitly const.

Such methods can only call other constexpr functions, methods, and global variables.

constexpr methods can only be called by constexpr objects.

const vs. constexpr #

const methods are used to increase safety. They restrict modification access to the attributes of the class.

On the other hand, constexpr methods are used to increase performance and optimize the program.


In the next lesson, we will observe examples of all the types of methods we’ve studied here.

Get hands-on with 1200+ tech skills courses.