The specification of `std::search_n`

is (ยง25.2.13 [alg.search]/p4-7):

```
template<class ForwardIterator, class Size, class T,
class BinaryPredicate>
ForwardIterator
search_n(ForwardIterator first, ForwardIterator last, Size count,
const T& value, BinaryPredicate pred);
```

4 *Requires*: The type `Size`

shall be convertible to integral type
(4.7, 12.3).

5 *Effects*: Finds a subsequence of equal values in a sequence.

6 *Returns*: The first iterator `i`

in the range `[first,last-count)`

such that for every non-negative integer `n`

less than `count`

the
following corresponding conditions hold: `*(i + n) == value, pred(*(i + n),value) != false`

. Returns `last`

if no such iterator is found.

7 *Complexity*: At most `last - first`

applications of the
corresponding predicate.

When `count <= 0`

, there is no non-negative integer `n`

less than `count`

, so the condition "for every^{*} non-negative integer `n`

less than `count`

..." is always true^{**}, and so it should return the first iterator in range - which is `first`

. Note that the spec implies that you are not allowed to pass a negative `count`

if `last-count`

isn't well-defined, but nothing in the spec prevents `count`

from having a value of zero.

All standard library implementations I tested (libstdc++, libc++, MSVC) print the message.

_{*This used to be "for any...". LWG issue 2150 changed the wording here to clarify the intended meaning.}

_{**The statement "for every x in S, p" is vacuously true if S is an empty set.}