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I am trying to build a function that converts an item from an enum to its corresponding string. The enums I use are fairly long, so I didn't want to use a switch-case. I found a method using boost::unordered_map very convenient, but I don't know how to make a default return (when there is no item matching the enum).

const boost::unordered_map<enum_type, const std::string> enumToString = boost::assign::map_list_of
(data_1, "data_1")
(data_2, "data_2");

I tried to create an additional function:

std::string convert(enum_type entry)
    if (enumToString.find(entry))       // not sure what test to place here, 
        return;  //because the find method returns an iter
        return "invalid_value";

I even tried something exceedingly wrong:

std::string convert(enum_type entry)
        return "invalid_value";

Result: evil "Debug" runtime error. Can somebody give me a suggestion on how to either
1) find an easier method to convert enum to a string with the same name as the enum item
2) find a way to use already built boost methods to get a default value from a hash map (best option)
3) find what to place in the test to use a function that returns either the pair of the key-value, or a different string if the key is not found in the map.
Thank you very much.

share|improve this question
A switch would be less code, faster, use less memory, and easier. Why are you doing this the hard and slow way? – Mooing Duck Apr 13 '12 at 17:28
See similar question here: – Anon Mail Apr 13 '12 at 17:51
@MooingDuck You've a good point there. I wonder why it didn't occur to me to use a switch when I wrote my code generator for this. (Of course, if there are no assigned values in the enum, a simple char const* [] might be faster than a switch.) – James Kanze Apr 13 '12 at 17:53
I am looking for more flexibility - though I would use a switch if nothing else works - I was hoping for more built-in methods, like check if exists, and possibly a way to reverse lookup. I didn't know it was slower than a switch case ... ? – Thalia Apr 13 '12 at 18:27
up vote 2 down vote accepted

For the conversion routine:

convert( enum_type entry )
    boost::unordered_map<enum_type, std::string>::const_iterator
                        retval = enumToString.find();
    return retval == enumToString.end()
        ? "invalid_value"
        : retval->second;

Note that if the enum contains no assigned values, a simple char const* [] will do the trick.

share|improve this answer
auto retval = enumToString.find(); – Mooing Duck Apr 13 '12 at 17:27
@MooingDuck assuming c++11 – jpm Apr 13 '12 at 17:27
@jpm: Yes, but that should be the default. Every major compiler has had that feature for 3+ years, and it's the standard now. – Mooing Duck Apr 13 '12 at 17:28
@MooingDuck It's not present in the compilers I normally use, at least not with the options we normally use. It's actually still fairly rare to be able to use C++11 features. – James Kanze Apr 13 '12 at 17:51
@emptyheaded To get the opposite, there are two possibilities. The first is simply to use a second map: std::unordered_map<std::string, enum_type>. Alternatively: use a C style array of struct { enum_type, char const* }, rather than unordered_map, with a linear search on whichever element you have to get the other. For enums with less than about 15 or 20 elements, this will likely be faster than unordered_map anyway, and it provides fully static initialization, which means that you can use it in constructors of static objects without order of initialization worries. – James Kanze Apr 16 '12 at 7:27

This is not an explict answer to your question, but I recommend using another data structure:

Use a bidirectional map , e. g. Boost.Bimap

Boost.Bimap is a bidirectional maps library for C++. With Boost.Bimap you can create associative containers in which both types can be used as key. A bimap<X,Y> can be thought of as a combination of a std::map<X,Y> and a std::map<Y,X>.

With a bidirectional map (you can also implement a basic one with two std::unordered_map instances) you are able to:

  • Retrieve an enumerator for a std::string.
  • Retrieve a std::string for an enumerator.

If you encapsulate the retrieve methods in a template class you are able to minimize DRY. E. g. you can pass the enumerator/std::string associations via std::pair instances to the constructor which expects one std::initializer_list argument.

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