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Is it possible to write a function that takes a type and returns a (related) type. For instance, a function which take a type called "RandomVariable" and return a type called "RandomVariableCovariance". I guess in general the question is whether typenames can be parameters or return types. C++0x is fine.

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Say what you want to solve, maybe we can find a good design idea. –  Kerrek SB Jul 4 '11 at 21:18
You should clarify: do you want a function that manipulates types (i.e. takes as a parameter the type RandomVariable and returns the type RandomVariableCovariance) or some kind of template function that determines its return type from the type of one of its arguments? –  Matteo Italia Jul 4 '11 at 21:32
For a random variable, its mean is of the same type as its realizations (so it is easy to write an interface within a class that has it's underlying type as a template parameter) but its covariance is a different type (that is related but in a non-trivial way). If the random variable is an N element vector (say a ublas vector type) then that random variable's covariance will be an N x N element matrix (say a ublas matrix type). I'd like to not have to have the class specify explicitly the type of its covariance but be able to infer it from its realization. I can post sample code if helpful. –  bpw1621 Jul 4 '11 at 21:33
@bpw1612: Probably easiest to make a trait class for your random variable! Then you can say template <typename T> RVTraits<T>::cov_type covariance(const T & x, const T & y);. –  Kerrek SB Jul 4 '11 at 21:36
@bpw: Yes, like strings and char_traits, or algorithms and iterator_traits for that matter... traits are a very useful concept in generic programming. –  Kerrek SB Jul 4 '11 at 21:49

4 Answers 4

up vote 11 down vote accepted

You can't do it with functions, but you can do it with template specialisations. For example

template <class T>
struct ConvertType;

template <>
struct ConvertType<RandomVariable>
    typedef RandomVariableCovariance type;

int main()
    ConvertType<RandomVariable>::type myVar;

Defines a type ConvertType which is specialised to convert from RandomVariable to RandomVariableCovariance. Its possible to do all kinds of clever type selection this way depending on what you need.

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I totally overlooked your answer... :P +1. –  Xeo Jul 4 '11 at 21:35

Typenames cannot be parameters or return values of a function; types are a compile-time thing!

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This is C++0x; it's possible there. –  Nicol Bolas Jul 4 '11 at 21:16
@Nicol: C++0x is beyond what I know about! If you write an answer that describes this, then I'll delete mine... –  Oliver Charlesworth Jul 4 '11 at 21:18
@Nicol: Your answer is not manipulating types (or typenames) at runtime, which is what the OP's question implies... –  Oliver Charlesworth Jul 4 '11 at 21:20
Downvoter: why? –  Oliver Charlesworth Jul 4 '11 at 21:24

This was on the long list of things for C++0x. It's why they created this odd function definition format:

auto FuncName(Type1 param1, Type2 param2) -> ReturnType {...}

It, combined with decltype, allows you to do things like this:

auto FuncName(Type1 param1, Type2 param2) -> decltype(param1 + param2) {...}

This means that the return type will be whatever you get when you call operator+(Type1, Type2).

Note that C++ is a statically typed language. You cannot do type computations at runtime. It must be done at compile time, via mechanisms like this or some form of template metaprogramming.

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That's still a compile-time code generation feature, though, so it's not really "taking a type as an argument". –  Kerrek SB Jul 4 '11 at 21:30
You can only do type computations at compile-time. All template metaprogramming and type-based computation, is done by the compiler. C++ is a statically typed language; runtime typing is not possible. –  Nicol Bolas Jul 4 '11 at 21:33
yes, of course, I just wanted to make sure the OP is aware of that. Cheers. –  Kerrek SB Jul 4 '11 at 21:34

Pardon my horrible C, since it's been forever since I actually worked with it:

typedef int RandomVariable;
typedef float RandomVariableCovariance;

RandomVariableCovariance myFunc(RandomVariable x) {
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I think this is missing the point; my interpretation of the OP's question is a desire to actually return a type; i.e. manipulate types at runtime! –  Oliver Charlesworth Jul 4 '11 at 21:21
oh. so basically making something like a "variable variable" in c? scary... very very very scary. –  Marc B Jul 4 '11 at 21:22
That's how I read the OP's question. If not, then he's being terribly unclear! –  Oliver Charlesworth Jul 4 '11 at 21:23
This is C++, not C. –  Puppy Jul 4 '11 at 21:27
OP said function, not method. A c++ function is no different from a C function. –  Marc B Jul 4 '11 at 21:29

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