C++ Programming

Enumeration in C++

In this article, you will learn to work with enumeration (enum). Also, you will learn where enums are commonly used in C++ programming.

An enumeration is a user-defined data type that consists of integral constants. To define an enumeration, keyword enum is used.

enum season { spring, summer, autumn, winter };

Here, the name of the enumeration is season.

And, springsummer and winter are values of type season.

By default, spring is 0, summer is 1 and so on. You can change the default value of an enum element during declaration (if necessary).

enum season 
{   spring = 0, 
    summer = 4, 
    autumn = 8,
    winter = 12

Enumerated Type Declaration

When you create an enumerated type, only blueprint for the variable is created. Here’s how you can create variables of enum type.

enum boolean { false, true };

// inside function
enum boolean check;

Here, a variable check of type enum boolean is created.


Here is another way to declare same check variable using different syntax.

enum boolean 
   false, true
} check;

Example 1: Enumeration Type

#include <iostream>
using namespace std;

enum week { Sunday, Monday, Tuesday, Wednesday, Thursday, Friday, Saturday };

int main()
    week today;
    today = Wednesday;
    cout << "Day " << today+1;
    return 0;


Day 4

Example2: Changing Default Value of Enums

#include <iostream>
using namespace std;

enum seasons { spring = 34, summer = 4, autumn = 9, winter = 32};

int main() {

    seasons s;

    s = summer;
    cout << "Summer = " << s << endl;

    return 0;


Summer = 4

Why enums are used in C++ programming?

An enum variable takes only one value out of many possible values. Example to demonstrate it,

#include <iostream>
using namespace std;

enum suit {
    club = 0,
    diamonds = 10,
    hearts = 20,
    spades = 3
} card;

int main() 
    card = club;
    cout << "Size of enum variable " << sizeof(card) << " bytes.";   
    return 0;


Size of enum variable 4 bytes.

It’s because the size of an integer is 4 bytes.;

This makes enum a good choice to work with flags.

You can accomplish the same task using C++ structures. However, working with enums gives you efficiency along with flexibility.

How to use enums for flags?

Let us take an example,

enum designFlags {
	BOLD = 2,
} button;

Suppose you are designing a button for Windows application. You can set flags ITALICSBOLD and UNDERLINE to work with text.

There is a reason why all the integral constants are power of 2 in above pseudocode.

// In binary

ITALICS = 00000001
BOLD = 00000010
UNDERLINE = 00000100 

Since, the integral constants are power of 2, you can combine two or more flags at once without overlapping using bitwise OR | operator. This allows you to choose two or more flags at once. For example,

#include <iostream>
using namespace std;

enum designFlags {
    BOLD = 1,
    ITALICS = 2,

int main() 
    int myDesign = BOLD | UNDERLINE; 

        //    00000001
        //  | 00000100
        //  ___________
        //    00000101

    cout << myDesign;

    return 0;



When the output is 5, you always know that bold and underline is used.

Also, you can add flag to your requirements.

if (myDesign & ITALICS) {
    // code for italics

Here, we have added italics to our design. Note, only code for italics is written inside the if statement.

You can accomplish almost anything in C++ programming without using enumerations. However, they can be pretty handy in certain situations. That’s what differentiates good programmers from great programmers.

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