One can produce an arbitrarily thin slice of the Hamming sequence around n-th member in time
~ n^(2/3) by direct enumeration of triples
(i,j,k) such that
N = 2^i * 3^j * 5^k.
The algorithm works from
log2(N) = i+j*log2(3)+k*log2(5); enumerates all possible
ks and for each, all possible
js, finds the top
i and thus the triple
(k,j,i) and keeps it in a "band" if inside the given "width" below the given high logarithmic top value (when
width < 1 there can be at most one such
i) then sorts them by their logarithms.
WP says that
n ~ (log N)^3, i.e. run time
~ (log N)^2. Here we don't care for the exact position of the found triple in the sequence, so all the count calculations from the original code can be thrown away:
slice hi w = sortBy (compare `on` fst) b where -- hi>log2(N) is a top value
lb5=logBase 2 5 ; lb3=logBase 2 3 -- w<1 (NB!) is log2(width)
b = concat -- the slice
[ [ (r,(i,j,k)) | frac < w ] -- store it, if inside width
| k <- [ 0 .. floor ( hi /lb5) ], let p = fromIntegral k*lb5,
j <- [ 0 .. floor ((hi-p)/lb3) ], let q = fromIntegral j*lb3 + p,
let (i,frac)=properFraction(hi-q) ; r = hi - frac ] -- r = i + q
-- properFraction 12.7 == (12, 0.7)
Having enumerated the triples in the slice, it is a simple matter of sorting and searching, taking practically
O(1) time (for arbitrarily thin a slice) to find the first triple above
N. Well, actually, for constant width (logarithmic), the amount of numbers in the slice (members of the "upper crust" in the
(i,j,k)-space below the
log(N) plane) is again
m ~ n^2/3 ~ (log N)^2 and sorting takes
m log m time (so that searching, even linear, takes
~ m run time then). But the width can be made smaller for bigger
Ns, following some empirical observations; and constant factors for the enumeration of triples are much higher than for the subsequent sorting anyway.
Even with constant width (logarthmic) it runs very fast, calculating the 1,000,000-th value in the Hamming sequence in a few hundredths of a second.
The original idea of "top band of triples" is due Louis Klauder, from DDJ discussion some years back.