I would like to use algorithm `std::include`

to work with heterogeneous STL collections. In my example I would like to check if a `std::vector`

of integer is included in a `std::map`

.

I would like to solve this problem by using a simple templated function; the reason for this is because I would like to use the C++ template argument deduction to let deduce when first argument of the comparer function is a std::pair vs an int and the other way around ( `std::include`

behind the scenes calls Comp(a,b) and Comp(b,a) ).

Below my code I would like to run

```
typedef std::map<int,std::string> dict;
typedef std::vector<int> vect;
int data[]={1,2,3,4};
vect l(data,data+4);
dict h;
h.insert(dict::value_type(0,"ciccio"));
h.insert(dict::value_type(1,"ciccio"));
std::includes( h.begin(),h.end()
, l.begin(), l.end(), is_my_less );
```

I tried the following below but it doesn't compile and say `partial specialization is not allowed`

but also `unresolved overloaded function type`

that makes me think that I am doing something wrong with my function.
Do you know is that is possible by using strictly a templated function?

```
template<class T1,class T2,class T3>
bool is_less_than_pair( const T1&a ,const T2& b ){
return false;
};
template<class T1,class T>
bool is_less_than_pair<
T1
, std::pair<T1,T>
, T >( const T1&a, const std::pair<T1,T>& b ){
return a<b.first;
}
template<class T1, class T>
bool is_less_than_pair<
std::pair<T1,T>
,T1
, T >( const std::pair<T1,T>& a, const T1& b ){
return a.first<b;
}
```

Now based on the fact that function templates cannot be partially specialized I tried function overloading like below but it didn't work out and gcc tells me `unresolved overloaded function type`

again. What is the best I can do?

```
template<class T1,class T2>
bool is_less_than_pair( const std::pair<T1,T2>& a ,const T1& b ){
return a.first<b;
};
template<class T1,class T2>
bool is_less_than_pair( const T1& a ,const std::pair<T1,T2>& b ){
return b.first<a;
};
```