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I heard a few people recommending to use enum classes in C++ because of their type safety.

But what does that really mean?

I hate it when people say something is good or something is evil without explaining exactly why they say these things.

I couldn't find a clear answer on StackOverflow, so I looked it up and would like to answer this question. I hope it saves someone from debugging one day :) Other answers and comments are welcome if there is more to say.

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When somebody claims that some programming construct is "evil" they are trying to discourage you from thinking for yourself. –  Pete Becker Aug 20 '13 at 13:44
@NicolBolas: This is more of a rethorical question to provide a FAQ answer (whether this is truly Frequenty asked is a different story). –  David Rodríguez - dribeas Aug 20 '13 at 13:51
@MatthieuM.: You can, for 5 minutes. Or at least I can, it might be rep-related... but you should be able to edit your comments for up to 5 min. Removing my last comment since that no longer makes sense (although it did when I typed it) –  David Rodríguez - dribeas Aug 20 '13 at 14:29
@David, there's a discussion whether this should be an FAQ or not going on which starts here. Input welcome. –  sbi Aug 21 '13 at 9:21

4 Answers 4

up vote 58 down vote accepted

C++ has two kinds of enum:

  1. enum classes
  2. Plain enums

Here are a couple of examples how to declare them:

 enum class Color { red, green, blue }; // enum class
 enum Animal { dog, cat, bird, human }; // plain enum 

What is the difference between two?

  • enum classes - enumerator names are local to the enum and their values do not implicitly convert to other types (like another enum or int)

  • Plain enums - where enumerator names are in the same scope as the enum and their values implicitly convert to integers and other types


enum Color { red, green, blue };                    // plain enum 
enum Card { red_card, green_card, yellow_card };    // another plain enum 
enum class Animal { dog, deer, cat, bird, human };  // enum class
enum class Mammal { kangaroo, deer, human };        // another enum class

void fun() {

    // examples of bad use of plain enums:
    Color color = Color::red;
    Card card = Card::green_card;

    int num = color;    // no problem

    if (color == Card::red_card) // no problem (bad)
        cout << "bad" << endl;

    if (card == Color::green)   // no problem (bad)
        cout << "bad" << endl;

    // examples of good use of enum classes (safe)
    Animal a = Animal::deer;
    Mammal m = Mammal::deer;

    int num2 = a;   // error
    if (m == a)         // error (good)
        cout << "bad" << endl;

    if (a == Mammal::deer) // error (good)
        cout << "bad" << endl;



enum classes should be preferred because they cause fewer surprises that could potentially lead to bugs.

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Good example... is there a way to combine the type safety of the class version with the namespace promotion of the enum version? That is, if I have a class A with state, and I create an enum class State { online, offline }; as a child of class A, I'd like to do state == online checks inside of A instead of state == State::online... is that possible? –  mark Aug 20 '13 at 13:48
Nope. The namespace promotion is a Bad Thing™ and half the justification for enum class was to eliminate it. –  Puppy Aug 20 '13 at 13:59
In C++11, you can use explicitly typed enums too, like enum Animal: unsigned int {dog, deer, cat, bird} –  Blasius Secundus Aug 20 '13 at 14:16
Note: on top of this, we now have the explicit underlying type available for both enum, which allows forward-declaration and stricter control about class layout :) –  Matthieu M. Aug 20 '13 at 14:43
Why is "Color color = Color::red" an example of "bad use of of plain enums"? Is it bad simply because it is using "plain enums" or something else? –  chux Aug 20 '13 at 19:42

From Bjarne Stroustrup's C++11 FAQ:

The enum classes ("new enums", "strong enums") address three problems with traditional C++ enumerations:

  • conventional enums implicitly convert to int, causing errors when someone does not want an enumeration to act as an integer.
  • conventional enums export their enumerators to the surrounding scope, causing name clashes.
  • the underlying type of an enum cannot be specified, causing confusion, compatibility problems, and makes forward declaration impossible.

The new enums are "enum class" because they combine aspects of traditional enumerations (names values) with aspects of classes (scoped members and absense of conversions).

So, as mentioned by other users, the "strong enums" would make the code more secure.

The only thing that you can assure about a "traditional" enum is the fact that the expression that defines the value of an enumeration constant shall be an integer constant large enough to fit all the values of the enum; this is usually an int. Also each enumerated type shall be compatible with char or a signed/unsigned integer type.

This is a wide description of what an enum type must be, so each compiler will take decissions on his own about the type of the traditional enums and sometimes the result could be surprising.

For example, I've seen code like this a bunch of times:

    E_APPLE        = 0x01,
    E_WATERMELON   = 0x02,
    E_COCONUT      = 0x04,
    E_STRAWBERRY   = 0x08,
    E_CHERRY       = 0x10,
    E_PINEAPPLE    = 0x20,
    E_BANANA       = 0x40,
    E_MANGO        = 0x80,
    E_MY_FAVOURITE_FRUITS_FORCE8 = 0xFF // 'Force' 8bits, you're sure?

In the code above, some naive coder is thinking that the compiler will store the E_MY_FAVOURITE_FRUITS values into an unsigned 8bit type... but there's no warranty about it, adding the field E_MY_FAVOURITE_FRUITS_FORCE8 is a burden and doesn't forces the compiler to make any kind of choice about the type of the enum.

If there's some piece of code that rely on the type size and/or assumes that E_MY_FAVOURITE_FRUITS would be of some width (serialization routines comes to my mind) this code could behave in some weird ways depending on the compiler thoughts.

And to make matters worse, if some workmate adds carelessly a new value to our enum:

    E_DEVIL_FRUIT  = 0x100, // New fruit, with value greater than 8bits

The compiler doesn't complain about it! It just resizes the type to fit all the values of the enum (assuming that the compiler were using the smallest type possible, wich is an assumption that we cannot do). This simple and careless addition to the enum could subtlety break related code.

But this issue is managed by the enum classes by allowing to specify the type:

enum class E_MY_FAVOURITE_FRUITS : unsigned char
    E_APPLE        = 0x01,
    E_WATERMELON   = 0x02,
    E_COCONUT      = 0x04,
    E_STRAWBERRY   = 0x08,
    E_CHERRY       = 0x10,
    E_PINEAPPLE    = 0x20,
    E_BANANA       = 0x40,
    E_MANGO        = 0x80,
    E_DEVIL_FRUIT  = 0x100, // Warning!: constant value truncated

Now, is possible to ensure a type (signed or unsigned) and width, so if a field have an expression out of the range of the enum we'll be prized with a warning (and the compiler wouldn't change the specified type of the enum).

I think that this is a good safety improvement.

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The basic advantage of using enum class over normal enums is that you may have same enum variables for 2 different enums and still can resolve them(which has been mentioned as type safe by OP)

For eg:

enum class Color1 { red, green, blue };    //this will compile
enum class Color2 { red, green, blue };

enum Color1 { red, green, blue };    //this will not compile 
enum Color2 { red, green, blue };

As for the basic enums, compiler will not be able to distinguish whether red is refering to the type Color1 or Color2 as in hte below statement.

enum Color1 { red, green, blue };   
enum Color2 { red, green, blue };
int x = red;    //Compile time error(which red are you refering to??)
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@Oleksiy Ohh I didn't read your question properly. Consider is as an add-on for those who didn't know. –  Saksham Aug 20 '13 at 13:12
it's ok! I almost forgot about this –  Oleksiy Aug 20 '13 at 13:14

Enumerations are used to represent a set of integer values.

The class keyword after the enum specifies that the enumeration is strongly typed and its enumerators are scoped. This way enum classes prevents accidental misuse of constants.

For Example:

enum class Animal{Dog, Cat, Tiger};
enum class Pets{Dog, Parrot};

Here we can not mix Animal and Pets values.

Animal a = Dog;       // Error: which DOG?    
Animal a = Pets::Dog  // Pets::Dog is not an Animal
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