# Retrieve strings from Matrix

I'm stuck with my homework task, somebody help, please..

Here is the task: Find all possible partitions of string into words of some dictionary

And here is how I'm trying to do it: I use dynamical programming concept to fill matrix and then I'm stuck with how to retrieve data from it

``````-- Task5_2
retrieve :: [[Int]] -> [String] -> Int -> Int -> Int -> [[String]]
retrieve matrix dict i j size
| i >= size || j >= size = []
| index /= 0 = [(dict !! index)]:(retrieve matrix dict (i + sizeOfWord) (i + sizeOfWord) size) ++ retrieve matrix dict i (next matrix i j) size
where index = (matrix !! i !! j) - 1; sizeOfWord = length (dict !! index)

next matrix i j
| j >= (length matrix) = j
| matrix !! i !! j > 0 = j
| otherwise = next matrix i (j + 1)

getPartitionMatrix :: String -> [String] -> [[Int]]
getPartitionMatrix text dict = [[ indiceOfWord (getWord text i j) dict 1  | j <- [1..(length text)]] | i <- [1..(length text)]]

--------------------------
getWord :: String -> Int -> Int -> String
getWord text from to = map fst \$ filter (\a -> (snd a) >= from && (snd a) <= to) \$ zip text [1..]

indiceOfWord :: String -> [String] -> Int -> Int
indiceOfWord _ [] _ = 0
indiceOfWord word (x:xs) n
| word == x  = n
| otherwise = indiceOfWord word xs (n + 1)

-- TESTS
dictionary = ["la", "a", "laa", "l"]
string = "laa"
matr = getPartitionMatrix string dictionary
test = retrieve matr dictionary 0 0 (length string)
``````
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what exactly do you mean by " Find all possible partitions of string into words of some dictionary"? Can you provide an example to help clarify the problem? – Athens Holloway Mar 30 '12 at 13:07
dictionary = ["l", "la", "a"], string = "lala", result = [["l", "a", "l", "a"], ["la", "l", "a"], ["la", "la"], ["l", "a", "la"]. Is this clear now? – overwriter Mar 30 '12 at 13:29

Here is a code that do what you ask for. It doesn't work exactly like your solution but should work as fast if (and only if) both our dictionary lookup were improved to use tries as would be reasonable. As it is I think it may be a bit faster than your solution :

``````module Partitions (partitions) where
import Data.Array
import Data.List

data Branches a = Empty | B [([a],Branches a)] deriving (Show)

isEmpty Empty = True
isEmpty _     = False

flatten :: Branches a -> [ [ [a] ] ]
flatten Empty  = []
flatten (B []) = [[]]
flatten (B ps) = concatMap (\(word, bs) -> ...) ps

type Dictionary a = [[a]]

partitions :: (Ord a) => Dictionary a -> [a] -> [ [ [a] ] ]
partitions dict xs = flatten (parts ! 0)
where
parts = listArray (0,length xs) \$ zipWith (\i ys -> starting i ys) [0..] (tails xs)
starting _ [] = B []
starting i ys
| null words = ...
| otherwise  = ...
where
words = filter (`isPrefixOf` ys) \$ dict
go word = (word, parts ! (i + length word))
``````

It works like this : At each position of the string, it search all possible words starting from there in the dictionary and evaluates to a `Branches`, that is either a dead-end (`Empty`) or a list of pairs of a word and all possible continuations after it, discarding those words that can't be continued.

Dynamic programming enter the picture to record every possibilities starting from a given index in a lazy array. Note that the knot is tied : we compute `parts` by using `starting`, which uses `parts` to lookup which continuations are possible from a given index. This only works because we only lookup indices after the one `starting` is computing and `starting` don't use `parts` for the last index.

To retrieve the list of partitions from this Branches datatype is analogous to the listing of all path in a tree.

EDIT : I removed some crucial parts of the solution in order to let the questioner search for himself. Though that shouldn't be too hard to complete with some thinking. I'll probably put them back with a somewhat cleaned up version later.

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I do wonder if it was ok to post a complete answer to an homework question ? The FAQ doesn't seem to say anything about that ? – Jedai Mar 30 '12 at 15:58
I found a question on the meta stackoverflow some time ago that claimed the policy for homework is to give hints right away, then edit the answer some time later (after enough time that you think the assignment has already come due) to give a complete answer. I'm having trouble re-locating that answer, though. – Daniel Wagner Mar 30 '12 at 16:25
Well I edited so at least the whole answer isn't immediately available if overwriter want to search a little bit by himself – Jedai Mar 30 '12 at 17:00