I'm a functional programming newbie. I'd like to know how to implement numpy.where() in python, scala or haskell. A good explanation would be helpful to me.
In Haskell, doing it for ndimensional lists, as the NumPy equivalent supports, requires a fairly advanced typeclass construction, but the 1dimensional case is easy:
select :: [Bool] > [a] > [a] > [a]
select [] [] [] = []
select (True:bs) (x:xs) (_:ys) = x : select bs xs ys
select (False:bs) (_:xs) (y:ys) = y : select bs xs ys
This is just a simple recursive procedure, examining each element of each list in turn, and producing the empty list when every list reaches its end. (Note that these are lists, not arrays.)
Here's a simpler but less obvious implementation for 1dimensional lists, translating the definition in the NumPy documentation (credit to joaquin for pointing it out):
select :: [Bool] > [a] > [a] > [a]
select bs xs ys = zipWith3 select' bs xs ys
where select' True x _ = x
select' False _ y = y
To achieve the twoargument case (returning all indices where the condition is True; credit to Rex Kerr for pointing this case out), a list comprehension can be used:
trueIndices :: [Bool] > [Int]
trueIndices bs = [i  (i,True) < zip [0..] bs]
It could also be written with the existing select
, although there's not much point:
trueIndices :: [Bool] > [Int]
trueIndices bs = catMaybes $ select bs (map Just [0..]) (repeat Nothing)
And here's the threeargument version for ndimensional lists:
{# LANGUAGE MultiParamTypeClasses, FlexibleInstances #}
class Select bs as where
select :: bs > as > as > as
instance Select Bool a where
select True x _ = x
select False _ y = y
instance (Select bs as) => Select [bs] [as] where
select = zipWith3 select
Here's an example:
GHCi> select [[True, False], [False, True]] [[0,1],[2,3]] [[4,5],[6,7]]
[[0,5],[6,3]]
You would probably want to use a proper ndimensional array type instead in practice, though. If you just want to use select
on an ndimensional list for one specific n, luqui's advice (from the comments of this answer) is preferable:
In practice, instead of the typeclass hack, I would use
(zipWith3.zipWith3.zipWith3) select' bs xs ys
(for the three dimensional case).
(adding more compositions of zipWith3
as n increases.)

1In practice, instead of the typeclass hack, I would use
(zipWith3.zipWith3.zipWith3) select' bs xs ys
(for the three dimensional case). If I don't know the number of dimensions when I am writing, then, as you said, I would use a proper abstract type.– luquiDec 18 '11 at 22:15 
Yes, I completely. Still, if you really want to implement
numpy.where
in Haskell... Thanks for making me thatzipWith3
would work here, by the way! I've edited my answer accordingly, and included your comment. :)– ehirdDec 18 '11 at 22:19
In python from numpy.where.__doc__
:
If `x` and `y` are given and input arrays are 1D, `where` is
equivalent to::
[xv if c else yv for (c,xv,yv) in zip(condition,x,y)]
There are two use cases for where; in one case, you have two arrays, and in the other, you only have one.
In the twoitem case, numpy.where(cond)
, you get a list of indices where the conditionarray is true. In Scala, you would normally
(cond, cond.indices).zipped.filter((c,_) => c)._2
which obviously is less compact, but this isn't a fundamental operation that people normally use in Scala (the building blocks are different, deemphasizing indices, for example).
In the threeitem case, numpy.where(cond,x,y)
, you get either x
or y
depending on whether cond
is true (x
) or false (y
). In Scala,
(cond, x, y).zipped.map((c,tx,ty) => if (c) tx else ty)
performs the same operation (again less compact, but again, not typically a fundamental operation). Note that in Scala you can more easily have cond
be a method that tests x
and y
and produces true or false, and then you would
(x, y).zipped.map((tx,ty) => if (c(tx,ty)) tx else ty)
(although typically even when being brief you'd name the arrays xs
and ys
and the individual elements x
and y
).