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Is there a way to specify the default constructor of an enum class?

I am using an enum class to specify a set of values which are allowable for a particular datatype in a library: in this case, it's the GPIO pin id numbers of a Raspberry Pi. It looks something like this:

enum class PinID : int {N4 = 4, N17 = 17, /* ...etc... */ }

The point of me doing this instead just of using, say, an int is to ensure that code is safe: I can static_assert (or otherwise compile-time ensure -- the actual method used is not important to me) things like that someone hasn't made a spelling error (passing a 5 instead of a 4, etc), and I get automatic error messages for type mismatches, etc.

The problem then is that enum class has a default constructor that -- for compatibility's sake with C's enums I assume (since they have the same behaviour) -- initializes to the enum class equivalent of 0. In this case, there is no 0 value. This means that a user making a declaration/definition like:

PinID pid = PinID();

is getting an enumerator that isn't explicitly defined (and doesn't even seem to "exist" when one looks at the code), and can lead to runtime errors. This also means that techniques like switching over the values of explicitly defined enumerators is impossible without having an error/default case -- something I want to avoid, since it forces me to either throw or do something like return a boost::optional, which are less amenable to static analysis.

I tried to define a default constructor to no avail. I (desperately) tried to define a function which shares the name of the enum class, but this (rather unsurprisingly) resulted in strange compiler errors. I want to retain the ability to cast the enum class to int, with all N# enumerators mapping to their respective #, so merely "defining", say, N4 = 0 is unacceptable; this is for simplicity and sanity.

I guess my question is two-fold: is there a way to get the kind of static safety I'm after using enum class? If not, what other possibilities would one prefer? What I want is something which:

  1. is default constructable
  2. can be made to default construct to an arbitrary valid value
  3. provides the "finite set of specified" values afforded by enum classes
  4. is at least as type safe as an enum class
  5. (preferably) doesn't involve runtime polymorphism

The reason I want default constructability is because I plan to use boost::lexical_cast to reduce the syntactic overhead involved in conversions between the enum class values, and the actual associated strings which I output to the operating system (sysfs in this case); boost::lexical_cast requires default constructability.

Errors in my reasoning are welcome -- I am beginning to suspect that enum classes are the right object for the wrong job, in this case; clarification will be offered if asked. Thank you for your time.

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2 Answers 2

up vote 7 down vote accepted

A type defined with enum class or enum struct is not a a class but a scoped enumeration and can not have a default constructor defined. The C++11 standard defines that your PinID pid = PinID(); statement will give a zero-initialization. Where PinID was defined as a enum class. It also allows enum types in general to hold values other than the enumerator constants.

To understand that PinID() gives zero initialization requires reading standard sections 3.9.9, 8.5.5, 8.5.7 and 8.5.10 together:

8.5.10 - An object whose initializer is an empty set of parentheses, i.e., (), shall be value-initialized

8.5.7 - To value-initialize an object of type T means: ... otherwise, the object is zero-initialized.

8.5.5 - To zero-initialize an object or reference of type T means: — if T is a scalar type (3.9), the object is set to the value 0 (zero), taken as an integral constant expression, converted to T;

3.9.9 - States that enumeration types are part of the set of types known as scalar types.

A possible solution:

To meet your points 1 to 5 you could write a class along the lines of:

class PinID
{
private:
    PinID(int val)
    : m_value(val)
    {}

    int m_value;

public:
    static const PinID N4;
    static const PinID N17;
    /* ...etc... */ 

    PinID() 
    : m_value(N4.getValue())
    {}

    PinID(const PinID &id)
    : m_value(id.getValue())
    {}

    PinID &operator = (const PinID &rhs)
    {
        m_value = rhs.getValue();
        return *this;
    }

    int getValue() const
    {
        return m_value;
    }

    // Attempts to create from int and throw on failure.
    static PinID createFromInt(int i);

    friend std::istream& operator>>(std::istream &is, PinID &v)
    {
        int candidateVal(0);
        is >> candidateVal;
        v = PinID::createFromInt(candidateVal);
        return is;
    }
};

const PinID PinID::N4 = PinID(4);
/* ...etc... */

That can give you something that you would have to make specific efforts to get an invalid values into. The default constructor and stream operator should allow it to work with lexical_cast.

Seems it depends how critical the operations on a PinID are after it's creation whether it's worth writing a class or just handling the invalid values everywhere as the value is used.

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Just looking at that, it looks basically good, but will it work? You have a class definition that includes an instance of itself as a member... oh but they are static. Compiler doesn't get mad then. Clever bear. –  FizzixNerd Jul 14 '13 at 20:24
    
@FizzixNerd I've not run it though a compiler but it should work... I think if you add stream operators you should be able to use it directly with lexical_cast, I suppose throwing an exception if an invalid value arrives. –  PeterSW Jul 14 '13 at 22:10
    
@PeterSW, could you point, which items in C++11 standart do you refer, talking about zero-initialization? –  Alexander Kirov Apr 24 at 13:23
    
@AlexanderKirov I've added the details to my answer. Hope it helps... –  PeterSW Apr 24 at 19:18
    
@PeterSW thank you! But there is also one note needed : 5.2.3(2) : The expression T(), where T is a simple-type-specifier or typename-specifier for a non-array complete object type or the (possibly cv-qualified) void type, creates a prvalue of the specified type,which is valueinitialized (8.5; no initialization is done for the void() case). [ Note: if T is a non-class type that is cv-qualified, the cv-qualifiers are ignored when determining the type of the resulting prvalue (3.10). —end note ] ------ it was tricky to catch... –  Alexander Kirov Apr 25 at 11:42

An enum class is just a strongly-typed enum; it's not a class. C++11 just reused the existing class keyword to avoid introducing a new keyword that would break compatibility with legacy C++ code.

As for your question, there is no way to ensure at compile time that a cast involves a proper candidate. Consider:

int x;
std::cin >> x;
auto p = static_cast<PinID>(x);

This is perfectly legal and there is no way to statically ensure the console user has done the right thing.

Instead, you will need to check at runtime that the value is valid. To get around this in an automated fashion, one of my co-workers created an enum generator that builds these checks plus other helpful routines given a file with enumeration values. You will need to find a solution that works for you.

share|improve this answer
    
Thanks for the answer! I am aware the an enum class is not a class, but it still has a default constructor. As for the static checking, I of course know that I can't possibly statically check the conversions from string->enum -- for that I use boost::optioanls, but I can statically check at least some of the enum->string that involve constexpr, can't I? –  FizzixNerd Jul 13 '13 at 15:09
1  
@FizzixNerd "has a default constructor" - Technically, no. It has a defined behavior for value initialization. Value initialization of a class type object calls a default constructor; value initialization of a numeric or enum type object sets it to zero; value initialization of a pointer type object sets it to a null pointer value. –  aschepler Jul 17 '13 at 20:41

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