The particular error you get is because you'd need a template template argument:

```
template<template <typename> class C, typename T>
// ^^^^^^^^^^^^^^^^^^^^^^^^^^^
T sum( C<T>::iterator begin, C<T>::iterator end )
```

However, the standard containers typically have more than just one template argument:

```
template < class T, class Alloc = allocator<T> > class vector
```

and it is a bit non-trivial to write such function correctly. You could use variadic template arguments, or you could do like the standard library does, and only specialize as much as you really need:

```
// <algorithm>
namespace std {
template <class RandomAccessIterator>
void sort (RandomAccessIterator first, RandomAccessIterator last);
}
```

In your case (pretending that your need is not covered by the standard algorithms library already):

```
template <typename Iterator>
auto sum(Iterator begin, Iterator end)
-> decltype(*begin+*begin) // the type of summing two of them
{
if (begin == end) throw std::logic_error("....");
auto s = *begin;
++begin;
for (; begin != end; ++begin) {
s += *begin;
}
return s;
}
```

There are some more differences from your original code:

- the new code does not assume a null or a default constructor defined (
`T s = null;`

)
- does not introduce additional iterator (
`it`

)
- uses pre-increment
- throws an exception when begin==end

If you add an `init`

parameter, you can make it almost `noexcept`

:

```
template <typename Iterator, typename T>
T sum(Iterator begin, Iterator end, T init)
{
for (; begin!=end; ++begin)
init += *begin;
return init;
}
```

But only almost, because `init += *begin`

could still throw.

If you have such signature, you've by the way reproduced the signature of `std::accumulate`

.