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I'm still working on a good solution to my One-Of-A-Type Container Problem -- and upon reflection I think it would be nice to be able to just use something like a std::map<std::type_info, boost::any>. Unfortunately, std::type_info does not define an operator<, and I think it'd be unreasonable for it to define one.

However, it does seem reasonable to define a hash function for it, because you could simply use the singleton address of the std::type_info object as a reasonable "hash". Therefore, you'd be able to put a std::type_info into a std::unordered_map as the key.

Does C++11 provide such a hash function? Would using the memory address of the std::type_info singleton be a bad hash strategy?

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It's not a singleton, by the way, but a statically allocated object. –  GManNickG Aug 23 '10 at 23:04
@GMan: What's the difference? –  Billy ONeal Aug 24 '10 at 1:03
If it was a singleton, there would be exactly one type_info object. Since there are multiple types in a program, there must be more than one type_info object in the program. –  James McNellis Aug 24 '10 at 1:59
@James: Ah-- I meant one singleton per type. My point was that I thought there would be at most one type_info per type. –  Billy ONeal Aug 24 '10 at 2:11

2 Answers 2

up vote 10 down vote accepted

The fact that type_info is not less-than comparable isn't as much a problem for using it as a map key as the fact that type_info is non-copyable. :-)

In C++03, type_info has a before() member function that provides an ordering of type_info objects.

In C++11, type_info has a hash_code() member function (C++11 §18.7.1/7):

size_t hash_code() const throw();

Returns: an unspecified value, except that within a single execution of the program, it shall return the same value for any two type_info objects which compare equal.

Remark: an implementation should return different values for two type_info objects which do not compare equal.

type_info objects resulting from the typeid operator exist until the end of the program, so it is safe to use a type_info* as a map key. However, to the best of my knowledge, there is no guarantee that if you apply typeid to two objects of the same type you will get two references to the same type_info object.

If you do use type_info* as a map key, I'd use a custom comparator that dereferences the pointers and compares the type_info objects themselves (using the aforementioned before() or hash_code() for ordering).

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@James: D'oh! Perhaps I can use std::type_info * (because there's only once instance of a particular type_info class?) ? –  Billy ONeal Aug 23 '10 at 22:34
@Billy: That should be safe (see my edit for caveats). –  James McNellis Aug 23 '10 at 22:39
@Billy: You can, however, write a bool compare(const type_info* x, const type_info* y) { return x->before(*y); }, or compare the hash codes returned by hash_code() using operator<. –  James McNellis Aug 23 '10 at 23:12
The hash function isn't required to return unique values because it's a hash function. A hashing container must deal with hash collisions. Ideally, the compiler would generate a perfect hash function for the typeinfo objects as they're all known at compile time. The standard isn't requiring it, possibly because it could be non-trivial. –  deft_code Aug 24 '10 at 1:53
@James McNellis: I am not that confident, would a basic_string<char, allocator<char> > have one instance per library, and thus possibly one typeinfo per library... and thus a variety of possible addresses (one per library) ? I really think templates could mess things up here... –  Matthieu M. Aug 24 '10 at 16:31

You could also use type_index, it safely holds a pointer to a type_info, it's copyable, comparable and a hash function is provided for standard containers.

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