# Array operation in Python

How do I do the following in Python:

``````array_1 = [x1, x2, x3, x4, x5, x6, ....]
array_2 = [y1, y2, y3]

array_3 = [(x1-y1), (x2-y2), (x3-y3), (x4-y1), (x5-y2), (x6-y3)]
``````

The number of elements in `array_2` is always less than the number of elements in `array_1`.

`array_1` and `array_2` have an arbitrary number of elements.

`[num of elements in array_1]` mod `[number of elements in array_2]` = 0

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Besides having spaces in your identifiers, what's wrong with what you already have? –  Wooble Feb 18 at 15:29
@Wobbly: Presumably this is just an example and the OP has much larger lists than these. –  David Robinson Feb 18 at 15:31
Yes the real arrays are much larger. This is just a simple example. –  2one Feb 18 at 15:34
Can array_2 ever be bigger than array_1? –  Matt Feb 18 at 15:36
Can you describe what you are trying to acheive rather than giving us a single example? –  Robᵩ Feb 18 at 15:47

1. One of the array is shorter than the other
2. The Shorter array should be cycled until the longer array is exhausted
3. Create a pair of the longer array and the cycled shorter array
4. Subtract the elements within the pair

So here is the implementation

``````>>> arr1 = range(1,10)
>>> arr2 = range(20,23)
>>> from operator import sub
>>> from itertools import izip, cycle, starmap
>>> list(starmap(sub, izip(arr1, cycle(arr2))))
[-19, -19, -19, -16, -16, -16, -13, -13, -13]
``````
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@MartijnPieters: No reason, a bad habit. Corrected :-) –  Abhijit Feb 18 at 15:41
this does exactly what I wanted. thanks –  2one Feb 18 at 16:42
``````from itertools import izip, cycle

array_3 = [a - b for a, b in izip(array_1, cycle(array_2))]
``````

which would accomodate arbitrary sizes for array_2.

Here `itertools.izip()` combines elements from both lists into pairs, and the `itertools.cycle()` utility will re-use the second list over and over again to provide something to pair with.

If you don't need a list as output, only need to iterate over the result, you could use `itertools.imap()` and `operator.sub` too:

``````from itertools import imap, cycle
import operator

for result in imap(operator.sub, array_1, cycle(array_2)):
# do something with the result
``````

For large input lists, this saves you having to store the intermediary results in yet another list.

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-1, you're passing a single tuple to `operator.sub` which expects 2 arguments :) –  mgilson Feb 18 at 15:33
@mgilson: minor detail, easily fixed. :-) I could have used starmap too, but the output needs to be a list. –  Martijn Pieters Feb 18 at 15:34
-1 revoked :) -- I toyed around with `map(sub,array1,cycle(array2))`, but that's bad news also -- On python2.x it would go forever since `map` took the longer of the two sequences. –  mgilson Feb 18 at 15:34
@mgilson: this is one area where `izip` is the better idea. :-P –  Martijn Pieters Feb 18 at 15:38
Yeah, I had done it with `zip` -- I was perusing the `itertools` docs when you posted your solution. I can never keep `cycle` and `repeat` straight in my head :) -- (mostly because I can't remember the name of `cycle`) –  mgilson Feb 18 at 15:40

You could use `operator.sub` with `map`:

``````array_3 = map(operator.sub,array_1,array_2+array_2)
``````

Or, you could do it with `zip`:

``````array_3 = [x-y for x,y in zip(array_1,array2+array2)]
``````

And you can get rid of the silly concatenation of array2 with itself using itertools.cycle

``````array_3 = [x-y for x,y in zip(array_1,cycle(array_2))]
``````
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