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I have to count the occurrences in a two dimensional (2D) list [[Int]], but I get errors.

What I tried so for is counting 1D. It works fine like this:

instances::Int->[Int]->Int
instances x [] = 0
instances x (y:ys)
    | x==y = 1+(instances x ys)
    | otherwise = instances x ys

Could you please help me to modify this function in order to count a 2D list:

instances::Int->[Int]->Int

Thanks in advance Greetings

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2 Answers 2

instances2D x = length . filter (==x) . concat

or

instances2D y xss = sum [1 | xs <- xss, x <- xs, y == x]
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thanks, I'm trying it and I'll give you feedback about it in a moment. –  John May 6 '13 at 21:33
    
but instances2D x = length . filter (==x) . concat. won't work, since length counts each character, therefore it will work jut for 0 to 9. If you put more than one digit for a number, then it will count each digit as one occurrence –  John May 6 '13 at 21:36
    
however I could divide it by it self, so that I get for each element 1 and get the length of that, right? –  John May 6 '13 at 21:38
    
I take it all back – length works. I thought it would count every digit as string... sorry –  John May 6 '13 at 21:53
    
@John lenght counts every element of a sequence. If you pass a String it will count every Char, because String is conceptually [Char]. lenght's signature is [a] -> Int meaning that length doesn't care about the type of the element on the list. –  Rodrigo Taboada May 7 '13 at 3:00

With your explicit recursion (v. a library function that hides the recursion), all you need is a function that can step through the elements of your 2D list. If you can write a function that steps through each element of your 2D list and gets each sub-list into a variable, then you can call your 1D function on that variable. And stepping through the elements of any list is easy with pattern matching:

matchesIn2DList:: Int -> [[Int]] -> Int
matchesIn2DList _ [] = 0   --> [] is an empty 2D list
matchesIn2DList x (l:ls) =    
    (matchesIn1DList x l) + (matchesIn2DList x ls)

Note that in the your base case:

instances x [] = 0

the value value being searched for is immaterial: the count for the matches in an empty list will always be 0 no matter what value you are searching for, so you can use _ instead of a variable name.

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