Given an input sequence, the standard algorithms std::count
and std::accumulate
count the number of occurances of a specific value (or predicate matches for std::count_if
) and the accumulation of a given associative operation (sum, product, Boolean or/and, min/max, string concatenation, etc.), respectively.
What if one wants to know whether an input sequence contains exactly/at least/at most n
occurances/matches, or accumulates to a sum of exactly/at least/at most n
? The brute-force way would be to compare the result of std::count
or std::accumulate
against the target n
, but that would miss out on an early exit opportunity when the count or accumulation exceeds the target already halfway through the input sequence.
One could e.g. make a count_until
as
template<class InputIt, class T, class Pred>
auto count_until(InputIt first, InputIt last, const T& value, Pred pred)
{
auto res = 0;
for (; first != last; ++first)
if (*first == value && pred(++res))
break; // early exit if predicate is satisfied
return std::make_pair(first, res); // iterator and value to allow continuation
}
and from which one could test for equality/at least/at most by using a suitable predicate and comparison against the returned count.
Questions:
- is it possible to write
count_until
(and similarly foraccumulate_until
) using a combination existing standard algorithms, possibly in combination with a suitable Boost.Iterator? - In particular, I was thinking of a
find_if
over anaccumulate_iterator
where the predicate would extract the count or sum from the iterator. - Or do
count_until
andaccumulate_until
warrant inclusion as standalone primitives in a future version of the Standard Library?
Edit: I think the most useful formulation is to return a std::pair
of an iterator and the count at the point where the predicate is first satisfied. This enables users to continue iterating.
std::map
to keep the count of the occurrencesstd::find_if
with a Predicate with state.count_until
.