Here is a single pass, branchless (almost), locale-aware algorithm which handles cases with more than one space between words:
- If the string is empty return 0
- let transitions = number of adjacent char pairs (c1, c2) where
c1 == ' '
and c2 != ' '
- if the sentence starts with a space, return
transitions
else return transitions + 1
Here is an example with string = "A very, very, very, very, very big dog ate my homework!!!!"
i | 0123456789
c1 | A very, very, very, very, very big dog ate my homework!!!!
c2 | A very, very, very, very, very big dog ate my homework!!!!
| x x x x x x x x x x
Explanation
Let `i` be the loop counter.
When i=0: c1='A' and c2=' ', the condition `c1 == ' '` and `c2 != ' '` is not met
When i=1: c1=' ' and c2='A', the condition is met
... and so on for the remaining characters
Here are 2 solutions I came up with
Naive solution
size_t count_words_naive(const std::string_view& s)
{
if (s.size() == 0) return 0;
size_t count = 0;
bool isspace1, isspace2 = true;
for (auto c : s) {
isspace1 = std::exchange(isspace2, isspace(c));
count += (isspace1 && !isspace2);
}
return count;
}
If you think carefully, you will be able to reduce this set of operations into an inner product (just for fun, I don't recommend this as this is arguably much less readable).
Inner product solution
size_t count_words_using_inner_prod(const std::string_view& s)
{
if (s.size() == 0) return 0;
auto starts_with_space = isspace(s.front());
auto num_transitions = std::inner_product(
s.begin()+1, s.end(), s.begin(), 0, std::plus<>(),
[](char c2, char c1) { return isspace(c1) && !isspace(c2); });
return num_transitions + !starts_with_space;
}