Have you tried the latest Codility test?

I felt like there was an error in the definition of what a K-Sparse number is that left me confused and I wasn't sure what the right way to proceed was. So it starts out by defining a K-Sparse Number:

In the binary number "100100010000" there are at least two 0s between any two consecutive 1s. In the binary number "100010000100010" there are at least three 0s between any two consecutive 1s. A positive integer N is called K-sparse if there are at least K 0s

between any two consecutive 1sin its binary representation. (My emphasis)

So the first number you see, 100100010000 is 2-sparse and the second one, 100010000100010, is 3-sparse. Pretty simple, but then it gets down into the algorithm:

Write a function:

`class Solution { public int sparse_binary_count(String S,String T,int K); }`

that, given:

`string S containing a binary representation of some positive integer A, string T containing a binary representation of some positive integer B, a positive integer K.`

returns the number of K-sparse integers within the range [A..B] (both ends included)

and then states this test case:

For example, given S = "101" (A = 5), T = "1111" (B=15) and K=2, the function should return 2, because there are just two 2-sparse integers in the range [5..15],

namely "1000" (i.e. 8)and "1001" (i.e. 9).

Basically it is saying that 8, or 1000 in base 2, is a 2-sparse number, even though it does not have two consecutive ones in its binary representation. What gives? Am I missing something here?