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I have following code:

class TR_AgentInfo : public tuple<
                              long long,         //AgentId
                              string,         //AgentIp
TR_AgentInfo() {}
  const long long& AgentId,
  const string& AgentIp,
    get<0>(*this) = AgentId;
    get<1>(*this) = AgentIp;

long long getAgentId() const { return get<0>(*this); }
void setAgentId(const long long& AgentId) { get<0>(*this) = AgentId; }

string getAgentIp() const { return get<1>(*this); }
void setAgentIp(const string& AgentIp) { get<1>(*this) = AgentIp; }

Now I want to use this code:

int count = tuple_size<TR_AgentInfo>::value;

but gcc give this error:

error: incomplete type std::tuple_size<TR_AgentInfo> used in nested name specifier

now what can I do ?

share|improve this question
What's the actual problem, though? Seems like the tuple size is always 2, so why the gymnastics? –  Kerrek SB Nov 1 '11 at 14:39
I simplified my code too much! these codes will be generated by a TemplateGenerator made by myself, then will be used in another template library that it is very generic. –  ray pixar Nov 1 '11 at 14:55
Why don't you store the tuple size as a static class constant? Or typedef the tuple so you can later use std::tuple_size<MyClass::tuple_type>::value? –  Kerrek SB Nov 1 '11 at 15:10
I want to the child class has behavior like a tuple exactly. –  ray pixar Nov 1 '11 at 15:27
If your class is complete, then say namespace std { template<> struct tuple_size<TR_AgentInfo> { static const size_t value = 2; }; }. Adding specialisations to the namespace is expressly permitted. –  Kerrek SB Nov 1 '11 at 16:25

2 Answers 2

up vote 2 down vote accepted

If you just want your one class to work with std::tuple_size, you can simply provide a specialization:

namespace std
  template<> struct tuple_size<TR_AgentInfo>
    static const size_t value = 2;

    // alternatively, `tuple_size<tuple<long long, string>>::value`
    // or even better, `tuple_size<TR_AgentInfo::tuple_type>::value`, #1

You are expressly allowed to add specializations to the namespace std, precisely for situations like yours.

If your actual class is itself templated, you can simply replace 2 by an appropriate construction. For example, for suggestion #1 you could add a typedef for tuple_type to your class. There are many ways to skin this cat.

share|improve this answer

If you have an instance of TR_AgentInfo kicking around, you can use function template type deduction to make it friendlier, like so:

template <typename... T>
std::size_t get_tuple_size(std::tuple<T...> const &)
  return sizeof...(T);

and call

TR_AgentInfo info;
int count = get_tuple_size(info);

otherwise you need to use proper metaprogramming to get at the base class, but facilities are available.

share|improve this answer
I do not want to get it at the base class. I need to use tuple_size –  ray pixar Nov 1 '11 at 15:06
You're asking for the tuple_size of a class which isn't a tuple. The base class is a tuple. You can get the tuple_size of that base class. Or am I missing something? –  Useless Nov 1 '11 at 15:13
I want to get tuple_size of the child class. –  ray pixar Nov 1 '11 at 15:21
What do you think is the difference? In what sense is the child class here a different tuple from the base class? After all, you're using public inheritance to explicitly express an IS-A relationship, ie, saying TR_AgentInfo is a tuple<long long, string>. –  Useless Nov 1 '11 at 15:26

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