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I'm trying to place a bunch of words into a hash table based on length. The words are stored in

data Entry = Entry {word :: String, length :: Int} deriving Show

Now, I've got all the words stored in "entries", which is a list of Entry. Then, my hash table is defined as follows:

type Hash = [Run]
type Run = [Entry]

Now I'm trying to figure out how to get the entries into the hash table. The following is my current attempt

maxL = maximum [length e | e <- entries]
runs = [r | r <- [e | e <- entries, length e == i]] where i = [1..maxL]

Compiler's obviously telling me that Int can't be compared to [Int], but I don't know how to say

e | e <- entries, e has length i

Any help is much appreciated!


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[[Entry]] is not a hash table, it's a list of lists of Entry records. –  Mikhail Glushenkov Nov 1 '12 at 2:45
Hm. I'm just following what my professors been telling me. Is it not a hash table? I have very little understanding of hash tables but aren't they just storing records in lists of lists, based on some hashing function? In this case, the hashing function would be the length of the word –  connorbode Nov 1 '12 at 2:47
Describing the problem in this way makes it confusing. Just say that you want to group a list of strings by their lengths. –  Mikhail Glushenkov Nov 1 '12 at 2:56

2 Answers 2

up vote 2 down vote accepted

Your code is almost OK:

maxL = maximum [length e | e <- entries]
runs = [r | r <- [e | e <- entries, length e == i]] where i = [1..maxL]

except that where doesn't work that way. It's not a synonym for foreach; but for let:

runs = let i = [1..maxL] 
       in [r | r <- [e | e <- entries, length e == i]] 

So, length e is an integer, but i is [1..maxL] which is a list of integers. You intended for i to take on the values in [1..maxL] one-by-one, and that's done by <- binding in list comprehension:

runs = [ [r | r <- [e | e <- entries, length e == i]] | i <- [1..maxL]]

Now, [r | r <- xs] is the same as just xs, so it becomes

runs = [ [e | e <- entries, length e == i] | i <- [1..maxL]]

With "standard" functions, this is written as

import Data.List (sortBy)
import Data.Ord  (comparing)

runs = group $ sortBy (comparing length) entries

It is also better algorithmically. Although, it won't have empty runs for non-existent lengths, so the two aren't strictly equivalent. But that can be fixed with another O(n) pass over the results, with

-- mapAccumL :: (acc -> x -> (acc, y)) -> acc -> [x] -> (acc, [y])

runs' = snd $ mapAccumL 
               (\a@ ~((k,g):t) i-> if null a || i<k then (a,[]) else (t,g))
               [ (length $ head g, g) | g<- runs]
               [ 1..maxL] 
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forgot to mention that mapAccumL is also from Data.List. –  Will Ness Nov 2 '12 at 14:12

You're looking for the groupBy function from Data.List. You have a list of strings, which you want to group by their lengths. The groupBy function has type (a -> a -> Bool) -> [a] -> [[a]]. The second parameter is your input list and the first is a function that you need to write, which should take two strings and compare their lengths. It will return a list of lists of strings, where each sub-list will be containing strings of equal length.

By the way, if you want to write this succinctly, look at the on combinator from Data.Function.

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Note: groupBy only groups adjacent items, so you'll want to sort by length first. –  hammar Nov 1 '12 at 3:38
having sorted by length, simple group will suffice. –  Will Ness Nov 1 '12 at 9:36

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