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I'm a big fan of C++'s strong-typing features and what I like the most is to use enumerations while dealing with limited sets of data.

But enumerations lack some useful features, for example operators:

enum class Hex : int
    n00, n01, n02, n03,
    n04, n05, n06, n07,
    n08, n09, n10, n11,
    n12, n13, n14, n15

for (Hex h = Hex::n0; h <= Hex::n15; ++h) // Oops! no 'operator ++'
{ /* ... */ }

Is easy to get rid of the lack of operators creating a free operator on the same scope:

Hex &operator ++(Hex &h)
    int r = static_cast<int>(Hex);
    h = static_cast<Hex>(r + 1);
    return h;

for (Hex h = Hex::n0; h <= Hex::n15; ++h) // Now the '++h' works!
    std::cout << std::dec << int(h) << ": "
              << std::hex << int(h) << '\n';

But this approach is more a nuisance than a solution, because it can break the value limitation of the enumeration: applying ++h while h equals to Hex::n15 will set h to he value 16, wich is out of the Hex scope of values while h is still of the type Hex!, This problem is more evident in other enumerations:

enum class Prime : int
    n00 = 2,   n01 = 3,   n02 = 5,   n03 = 7,
    n04 = 11,  n05 = 13,  n06 = 17,  n07 = 19,
    n08 = 23,  n09 = 29,  n10 = 31,  n11 = 37,
    n12 = 41,  n13 = 43,  n14 = 47,  n15 = 53

Prime &operator ++(Prime &p)
    // How to implement this?! will I need a lookup table?
    return p;

This problem was a surprise for me; I was betting that storing an incorrect value into an enumeration value will throw an exception. So, for now I was wondering if there's an elegant way to deal with this enumeration's weaknesses, the goals I want to achieve are:

  • Find a comfortable way to use enumeration values in loops.
  • Ensuring enumation data consistency between operations.

Additional questions:

  • Is there a reason for not throwing an exception when an enumeration data gets a value that is out of its possible values?
  • There is a way to deduce the type associated with an enumeration class?, the int type in the enumerations Hex and Prime.
share|improve this question
If you want to iterate then don't use enumerations. –  Pubby Dec 20 '12 at 11:53
Feature leak is indeed quite dangerous... –  Kerrek SB Dec 20 '12 at 11:55
Arguably, the first problem only manifests because you're absusing enums -- you're using them to enumerate the integers! That's better done with actual integers. The second problem (enumerating primes) is non-trivial. –  Kerrek SB Dec 20 '12 at 11:57
what do you mean by "out of its possible values"? enums can have all values that fit in the underlying type the implementation choses (or in case of c++11 that the user chose). So in your case it is int, and you can store all values an int can store. –  PlasmaHH Dec 20 '12 at 12:00
Range-checking incurs a runtime cost that is unacceptable in some cases, especially if you know your code will never generate out-of-range values. C++11 provides std::underlying_type‌​. –  Marcelo Cantos Dec 20 '12 at 12:09

2 Answers 2

As you've noticed, enum in C++ is not an enumerated type, but something more complex (or more mixed). When you define an enum, you define in fact two things:

  1. An integral type with a legal range sufficient to contain an or of all of the enumerated values. (Technically: the range is 2^n - 1, where n is the number of bits necessary to hold the largest value.)

  2. A series of named constants having the newly defined type.

(I'm not sure what happens with regards to the range if you explicitly specify an underlying type.)

Given your enum Prime, for example, the legal values would be all integers in the range [0...64), even if all of these values don't have a name. (At least if you didn't specifically say that it should be an int.)

It's possible to implement an iterator for enums without initializers; I have a program which generates the necessary code. But it works by maintaining the value in an integral type which is large enough to contain the maximum value plus one. My machine generated implementations of ++ on such an enum will assert if you try to increment beyond the end. (Note that your first example would require iterating h one beyond the last value: my implementation of the various operators does not allow this, which is why I use an iterator.)

As to why C++ supports the extended range: enum are often used to define bit masks:

enum X
    a = 0x01,
    b = 0x02,
    c = 0x04,
    all = a | b | c,
    none = 0

X operator|( X lhs, X rhs )
    return X((int)lhs | (int)rhs);
//  similarly, &, |= and &=, and maybe ~

One could argue that this use would be better handled by a class, but the use of enum for it is ubiquitous.

(FWIW: my code generator will not generate the ++, -- and the iterators if any of the enum values has an explicitly defined value, and will not generate |, & etc. unless all of the values have explicitly defined values.)

As to why there is no error when you convert some value outside the legal range (e.g. 100, for X, above) is simply in keeping with the general philosophy inherited from C: it's better to be fast than to be correct. Doing extra range checking would entail additional runtime cost.

Finally with regards to your last example: I don't see this as a realistic use of enum. The correct solution here is an int[]. While the C++ enum is rather a mixed breed, I would only use it as a real enumerated type, or for bit masks (and only for bit masks because it is such a widely established idiom).

share|improve this answer
C++11 enums with underlying type specified have of course the range of the underlying type. –  PlasmaHH Dec 20 '12 at 12:51
@PlasmaHH That would seem logical, but one never knows without actually checking it. (I can't see any reason to use an enum if I want to force a specific underlying type.) –  James Kanze Dec 20 '12 at 13:06
it probably makes sense when you use enums as constants for bitmasks. –  PlasmaHH Dec 20 '12 at 13:16
It makes sense if you want an enum type of a well-known size, for example for serialization purposes. –  PaperBirdMaster Dec 20 '12 at 13:35
@PlasmaHH I don't see why. Without an explicit underlying type, the enum is still guaranteed to contain enough bits to contain the or of all of its values, which is all you need. –  James Kanze Dec 20 '12 at 14:48

You can use a switch:

class Invalid {};
Prime& operator ++(Prime& p)
        case n00: return n01;
        case n01: return n02;
        case n02: return n03;
        case n03: return n04;
        case n04: return n05;
        case n05: return n06;
        case n06: return n07;
        case n07: return n08;
        case n08: return n09;
        case n09: return n10;
        case n10: return n11;
        case n11: return n12;
        case n12: return n13;
        case n13: return n14;
        case n14: return n15;
        // Here: 2 choices: loop or throw (which is the only way to signal an error here)
        case n15: default: throw Invalid();

But note that this is not the right use of enums. I personally find this error-prone. If you want to enumerate integers, you can use an array of ints to do this, or for the case of prime numbers, a function (in mathematical sense: int nextPrime(int)).

share|improve this answer
if (p != n15) return (Hex)((int)p + 1); throw Invalid();. –  Marcelo Cantos Dec 20 '12 at 12:08
No. Ex: for p = n09, (int)p == 29, so (int)p + 1 == 30, and you don't have any enum value in Prime that has the value of 30. –  Synxis Dec 20 '12 at 12:10
Sorry, I'm an idiot. I didn't read the second half of the question, and I was only thinking of Hex. –  Marcelo Cantos Dec 20 '12 at 12:12
"I personally find this error-prone", I agree completly with this. But using a large switch is a solution, of course. –  PaperBirdMaster Dec 20 '12 at 13:38

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