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Is there any way to generate the name of a variable inside a class based on a template argument?

template<class T, (someconstruct) t>

class Item {
        T t;

Item<float, "Position"> myItem;

myItem.Position = 0.123f;

Such that what I have instantiated is a variable of type T, with the identifier t (where t is passed in by the programmer, i.e. Position, so we have a T called Position? Or is this stretching the template meta-programming concept a little too far? :p

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1. Propably not possible. 2. Propably a very broken idea. 3. Why do you think you need this? (4. The preprocessor can do this, but that's not an acceptable answer) –  delnan Dec 14 '10 at 21:31
Let me guess: because he's former PHP programmer ;-) –  Pawel Zubrycki Dec 14 '10 at 21:35
Yes, I know it's obscure! I'm implementing a generic templated vertex type, where each component of a vertex has both a type (i.e. float[3] or Vector3d - and a usage, i.e. usage_normal, usage_position, etc. I'd like to be able to construct vertices by passing in template arguments and using template recursion to build a structure, in a similar way to this: entropygames.net/… –  Robinson Dec 14 '10 at 21:35
@Robinson, so why not use enums to represent usage? –  Charles Salvia Dec 14 '10 at 21:36
@Robinson, templates can also specialize by value - not just type. For example: template <int N> struct Foo; As long as the value is an integral constant or enumeration type. So if you had a "usage enum" called Usage, you could create a template like template <Usage U> struct Foo;, and then specialize it as you see fit for each enumerated type. –  Charles Salvia Dec 14 '10 at 21:38

3 Answers 3

up vote 4 down vote accepted

No, you can't achieve this with templates. Variable names (known as "identifiers") cannot be programatically manipulated by templates. Only the preprocessor can do that.

Regardless, this seems like a bad idea. Why do you want to do this?

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Ok, as I suspected :(. Thanks Charles. –  Robinson Dec 14 '10 at 21:34

No, not with that syntax, but you CAN create a setup similar to what you're trying to do:

template < typename Field >
struct field_value
  typename Field::type value;

template < typename Seq >
struct funky_struct : boost::mpl::inherit_linearly
  , boost::mpl::inherit
      field_value< boost::mpl::placeholders::_2>
    , boost::mpl::placeholders::_1

template < typename Field, typename Struct >
typename Field::type & get(Struct & s) { return static_cast< field_value<Field>& >(s).value; }

struct first_field { typedef int type; };
struct second_field { typedef char type; };

struct my_funky : funky_struct< boost::mpl::vector<first_field,second_field> > {};

my_funky f;
get<first_field>(f) = 23;

I leave allowing non-default construction to you. Also, with a minor amount of work this can be reflected and you can stick any amount of useful information about fields within.

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+1 I do something similar in a class I wrote which enumerates incoming message fields –  John Dibling Dec 14 '10 at 22:29

Something like what you want to achieve can be accomplished with inheritance. That is, the parent class has the variable name you want your template to have.

struct ItemNull {};

template <typename X, typename Y = ItemNull>
class Item : public X, public Y {};

template <typename T> struct HasPosition { T Position; };
template <typename T> struct HasMomentum { T Momentum; };

Item< HasPosition<float> > myItem1;
myItem1.Position = 0.123f;

Item< HasPosition<float>, HasMomentum<float> > myItem2;
myItem2.Position = 0.1f;
myItem2.Momentum = 0.2f;

The optional second argument allows for composition, as illustrated in myItem2. To add a third field, you could add to the tail, or expand from the front:

template <typename T> struct HasName { T Name; };

Item <
    Item< HasMomentum<float>, HasName<std::string> >
> myItem3;
myItem3.Position = 0.1f;
myItem3.Momentum = 0.2f;
myItem3.Name = "Adam";

Item <
    Item < HasPosition<float>, HasMomentum<float> >,
> myItem4;
myItem4.Position = 0.1f;
myItem4.Momentum = 0.2f;
myItem4.Name = "Adam";

My personal preference is for the former of the two methods, because I find it to be a more intuitive way to extend it beyond 3 fields. The Item template syntax could probably be simplified using variadic template arguments.

The Has... templates could be machine generated or a macro could be created to make adding new fields a relatively simple task.

#define MAKE_HAS(X) template <typename T> struct Has##X { T X; }

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