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I have a vector/array of n elements. I want to choose m elements.

The choices must be fair / deterministic -- equally many from each subsection.

With m=10, n=20 it is easy: just take every second element. But how to do it in the general case? Do I have to calculate the LCD?

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whats wrong with choosing the first m elements? it seems there is some constraint you are implying is there, but you haven't described it. –  Preet Kukreti Mar 26 '12 at 14:08
Do you mean to take m positions uniformly spread over n? –  hamstergene Mar 26 '12 at 14:09
Thanks. It needs to be fair -- I need equally many from each subsection -- i.e. from each part of the original array. It needs to be spread out. –  j13r Mar 26 '12 at 14:09
@AmrinderArora Maybe I'm being thick, but how if n is not a multiple of m? E.g. n = 1234, m = 1000. –  j13r Mar 26 '12 at 14:12
I need equally many in each subsection. - Where do subsections come into this? I don't see any inference from your question. –  MattH Mar 26 '12 at 14:13
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3 Answers 3

up vote 3 down vote accepted

Here is a quick example:

from math import ceil

def takespread(sequence, num):
    length = float(len(sequence))
    for i in range(num):
        yield sequence[int(ceil(i * length / num))]

math.ceil is used because without it, the chosen indexes will be weighted too much toward the beginning of each implicit subsection, and as a result the list as a whole.

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Why do we need ceil here? Wouldn't the int truncation do the job, i.e. just yield sequence[i * length / num] –  j13r Mar 26 '12 at 14:35
@j13r The objects will be weighted towards the beginning of the list too much if you use the implicit floor. –  agf Mar 26 '12 at 14:43
wouldn't round make more sense then? –  j13r Mar 26 '12 at 14:46
@j13r Think about it this way. The first index is always zero. The indexes are approximately equidistant. If you don't use ceil, you will never get the last item. So you have an even sampling between the first item and some item before the last item. So the middle index in your sample is less than the middle index of the sequence. –  agf Mar 26 '12 at 14:53
Thanks for your patience. –  j13r Mar 26 '12 at 14:57
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You probably need Bresenham's line algorithm. Choosing m elements uniformly from n is equivalent to drawing a line in mxn discrete pixel grid. Assume x coordinate in 0..n-1 and y coordinate 0..m-1, and proceed like if you were drawing a line between (0,0) and (n-1,m-1). Whenever y coordinate changes, pick an element from index x.

UPD: But it seems that this simple function will suffice you:

>>> f = lambda m, n: [i*n//m + n//(2*m) for i in range(m)]
>>> f(1,20)
>>> f(2,20)
[5, 15]
>>> f(3,20)
[3, 9, 16]
>>> f(5,20)
[2, 6, 10, 14, 18]
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Since // works on Python 2 as well it's better to be explicit and use that when you mean truncating division. –  agf Mar 26 '12 at 17:10
@agf Indeed. Updated. –  hamstergene Mar 26 '12 at 17:19
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Use a loop (int i=0; i < m; i++)

Then to get the indexes you want, Ceil(i*m/n).

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