[Numpy-discussion] Is there a pure numpy recipe for this?
Jaidev Deshpande
deshpande.jaidev at gmail.com
Wed Mar 26 16:09:18 EDT 2014
On Thu, Mar 27, 2014 at 1:18 AM, Slaunger <Slaunger at gmail.com> wrote:
> I am working on solving a recent recreational mathematical problem on
> Project Euler <http://projecteuler.net> . I have a solution, which works
> fine for small N up to 10^5 but it takes too long to compute for the actual
> problem, where N is of the order 2*10^7. The problem is nested loops, and I
> am hoping to avoid one level in the loop by using clever numpy magic (as I
> have done often before). However, there is one step, which I cannot figure
> out how to do using numpy operations alone, and I am hoping for some help
>
> The subproblem is that I have in principle k = 1, ..., N sets of boolean
> arrays
> f_k and g_k each of length N.
>
> For each k I need to find the number of elements i where both f_k[i] and
> g_k[i] are True and sum that up over all N values of k.
>
> A problem of the order 4*10^14 if I just do it brute force. This takes way
> too long (there is a one minute rule).
>
> However, after a lot of thinking and by using some properties of the f_k
> and
> g_k I have managed to construct using only pure numpy function and only a
> single loop over k, arrays
>
> f_k_changes_at
> g_k_changes_at
>
> which contain the indices i at which the functions change it boolean value
> from True to False or False to True.
>
> It so happens that the number of changes is only a small fraction of N, the
> fraction decreases with larger N, so the size of these changes_at arrays
> contains perhaps only 1000 elements instead of 10000000 for each k, a
> significant reduction of complexity.
>
> Now, my problem is to figure out for how many values of i both f_k and g_k
> are True given the changes_at arrays.
>
> As this may be a little hard to understand here is a specific example of
> how
> these arrays can look like for k = 2 and N = 150
>
> f_2_changes_at = [ 2 3 39 41 58 59 65 66 93 102 145]
> g_2_changes_at = [ 2 94 101 146 149]
>
> with the boundary condition that f_2[0] = g_2[0] = False
>
> Which expands to
> i f_2 g_2 f_2 and g_2
> 0 F F F
> 1 F F F <-
> 2 T T T <-
> 3 F T F
> 4 F T F
> ...
> 38 F T F <-
> 39 T T T
> 40 T T T <-
> 41 F T F
> 42 F T F
> ...
> 57 F T F <-
> 58 T T T <-
> 59 F T F
> 60 F T F
> ...
> 64 F T F <-
> 65 T T T <-
> 66 F T F
> ...
> 92 F T F <-
> 93 T T T <-
> 94 T F F
> ...
> 100 T F F <-
> 101 T T T <-
> 102 F T F
> ...
> 144 F T F <-
> 145 T T T <-
> 146 T F F
> 147 T F F
> 148 T F F <-
> 149 T T T <-
>
> With the sum of elements fulfilling the condition being (see arrows)
>
> (2 - 1) + (40 - 38) + (58 - 57) + (65 - 64) + (93 - 92) + (101 - 100) +
> (145
> - 144) + (149 - 148) =
> 1 + 2 + 1 + 1 + 1 + 1 + 1 + 1 = 9
>
> So, is there a numpy recipe for doing the equivalent process without
> expanding it into the full arrays?
>
> I have tried looping over each element in the changes_at arrays and build
> up
> the sums, but that is too inefficient as I then have an inner for loop
> containing conditional branching code
>
> Thanks in advance, Slaunger
>
>
>
> --
> View this message in context:
> http://numpy-discussion.10968.n7.nabble.com/Is-there-a-pure-numpy-recipe-for-this-tp37077.html
> Sent from the Numpy-discussion mailing list archive at Nabble.com.
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>
Can you provide a link to the problem itself?
--
JD
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