`int_<0>`

is the starting value of the accumulator used for the fold. Try to use `int_<1>`

and see what happens.

The third argument is the operator used to fold the sequence. This needs to be a binary metafunction. `if_< is_float<_2>,next<_1>,_1 >`

is turned into a lambda expression with two arguments where _1 and _2 refer to the first and second argument this lambda expression takes.

The predicate `is_float<_2>`

returns true if the second argument to `if_`

is a `float`

. `_2`

is a placeholder. Placeholders refer to the n-th argument of the template specialization.

next<_1> simply returns the next value of the current state (e.g. `next<int_<0>> == int_<1>`

).

If the predicate returns false we simply return _1 which is the unaltered state.

Try to understand what a fold is first, then try to understand the boost::mpl way of doing it.

A simple exercise is to write a fold that return the length of the vector.