How can I zip
two lists like
["Line1","Line2","Line3"]
["Line4","Line5"]
without discarding rest elements in first list?
I'd like to zip extra elements with empty list, if it can be done.
zipWithPadding :: a -> b -> [a] -> [b] -> [(a,b)]
zipWithPadding a b (x:xs) (y:ys) = (x,y) : zipWithPadding a b xs ys
zipWithPadding a _ [] ys = zip (repeat a) ys
zipWithPadding _ b xs [] = zip xs (repeat b)
As long as there are elements, we can simply zip them. As soon as we run out of elements, we simply zip the remaining list with an infinite list of the padding element.
In your case, you would use this as
zipWithPadding "" "" ["Line1","Line2","Line3"] ["Line4","Line5"]
-- result: [("Line1","Line4"),("Line2","Line5"),("Line3","")]
mempty
or Monoid
: zipWithPadding mempty mempty
will give you your (Monoid a, Monoid b) => [a] -> [b] -> [(a,b)]
.
Another solution is to make a zip function that works on monoids and fills in the missing values with mempty:
import Data.Monoid
mzip :: (Monoid a, Monoid b) => [a] -> [b] -> [(a, b)]
mzip (a:as) (b:bs) = (a, b) : mzip as bs
mzip [] (b:bs) = (mempty, b) : mzip [] bs
mzip (a:as) [] = (a, mempty) : mzip as []
mzip _ _ = []
> mzip ["Line1","Line2","Line3"] ["Line4","Line5"]
[("Line1","Line4"),("Line2","Line5"),("Line3","")]
Monoid
, and may want to use different defaults for different zips. The data might not have a good meaning for <>
, but would still have a sane mempty
(or multiple sane defaults). Best practice in Haskell says to use the least restrictive type possible, using Monoid
restricts this function more than necessary since <>
is not used. Besides, mzip
can be defined in terms of zipWithPadding
by just passing mempty
to both defaults.
class Default m where mempty :: m
and class Default m => Monoid m where mappend :: m -> m -> m
.
mzip = zipWithPadding mempty mempty
. Just because something uses Monoid
doesn't make it better or more powerful ;).
zipWithPadding
solution is more general, no doubt about that. But the question was specifically about lists of strings, as the OP explicitly asks for a padding with ""
. In this regard, a solution involving monoids is not only imho general enough with respect to the OP, but also simpler than having to specify two default arguments which will not change. That's why I like the mempty
solution the most.
Mar 14, 2014 at 14:41
Default
class in the data-default
. You could instead write mzip
with the signature (Default a, Default b) => [a] -> [b] -> [(a, b)]
and replace mempty
with def
. It already has numerous instances for common types, so it would be my choice in this situation if I were already dependent on that package.
An alternative implementation of Reite's solution, using higher order functions, just for fun. :) Possibly slower, though, since I guess the length functions will require additional traversals of the lists.
import Data.Monoid (mempty)
zipPad :: (Monoid a, Monoid b) => [a] -> [b] -> [(a,b)]
zipPad xs ys = take maxLength $ zip (pad xs) (pad ys)
where
maxLength = max (length xs) (length ys)
pad v = v ++ repeat mempty
I think it will be much simple for you if you are new one in programming in Haskell
zip' :: [String] -> [String] ->[(String,String)]
zip' [][] = []
zip' (x:xs)[] = bmi x : zip' xs []
where bmi x = (x,"")
zip' [](x:xs) = bmi x : zip' [] xs
where bmi x = ("",x)
zip' (x:xs) (y:ys) = bmi x y : zip' xs ys
where bmi x y = (x,y)
Sometimes I don't want to pad my list. For instance, when I want to zip equal length lists only. Here is a general purpose solution, which maybe returns any extra values if one list is longer.
zipWithSave :: (a -> b -> c) -> [a] -> [b] -> ([c],Maybe (Either [a] [b]))
zipWithSave f [] [] = ([],Nothing)
zipWithSave f [] bs = ([],Just (Right bs))
zipWithSave f as [] = ([],Just (Left as))
zipWithSave f (a:as) (b:bs) = (f a b : cs , sv)
where (cs, sv) = zipWithSave f as bs
Using (zps,svs) = zipWithSave f as bs
, svs
can be one of three cases: Just (Left x)
wherein leftovers from as
are returned as x
, Just (Right x)
wherein leftovers from bs
are returned, or Nothing
in the case of equal length lists.
Another general purpose one is to just supply extra functions for each case.
zipWithOr :: (a -> b -> c) -> (a -> c) -> (b -> c) -> [a] -> [b] -> [c]
zipWithOr _ _ _ [] [] = []
zipWithOr _ _ fb [] bs = map fb bs
zipWithOr _ fa _ as [] = map fa as
zipWithOr f fa fb (a:as) (b:bs) = (f a b) : zipWithOr f fa fb as bs
This is just an elaboration of Zeta's approach. That function is then implemented as (using {-# LANGUAGE TupleSections #-}):
zipWithPadding a b as bs = zipWithOr (,) (,b) (a,) as bs
zip
there will be elements like("string",[])
zip list_a $ list_b ++ repeat ""