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# Haskell Hamming numbers, works but shows duplicates

I am trying to generate hamming numbers in haskell, the problem is I get duplicate #'s in my output list and I cannot figure out why exactly. Should I just create a remove duplicates function or am I just missing something simple?

Also in the function hamming I would like to make sure the size of the input list is exactly 3, how do I find the size of a list so I can do the comparison?

``````{- Merge lists x&y of possibly infinite lengths -}
merge [] [] = []
merge [] ys = ys
merge xs [] = xs
merge xs ys = min x y : if x < y then merge (tail xs) ys
else merge xs (tail ys)

{- multiply each element in y by x -}
times x [] = []
times x y = x * (head y) : times x (tail y)

{- find the hamming numbers of the input primes list -}
ham [] = []
ham x = 1 : merge (times (head x) (ham x))
(merge (times (x !! 1) (ham x)) (times (last x) (ham x)))

{- returns x hamming #'s based on y primes of size 3 -}
hamming x [] = []
hamming x y = take x (ham y)
{- hamming x y = if "y.size = 3" then take x (ham y)
else "Must supply 3 primes in input list" -}
``````
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coincidentally, `nodups xs = map head (Data.List.group xs)` for ordered non-decreasing lists. – Will Ness Jul 27 '12 at 23:37

You get duplicates because many of the hamming numbers are multiples of several of the base numbers, and you don't remove duplicates in your `merge` function. For example, for the classical `2, 3, 5` Hamming numbers, you obtain 6 as `2 * 3` as well as `3 * 2`.

You could of course create a duplicate removal function. Since the list you create is sorted, that wouldn't even be very inefficient. Or you could remove the duplicates in the merge function.

how do I find the size of a list so I can do the comparison?

You can obtain the length of a list using the `length` function that is available from the `Prelude`, but let me warn you right now that calling `length` should only be done if the length is really required, since `length` has to traverse the entire list to calculate its length. If the list happens to be long, that takes a lot of time, and may cause huge memory usage if the list is referenced elsewhere so that it cannot be garbage-collected. If the list is even infinite, evaluating its length will of course never terminate.

What you want to do can also be achieved by pattern-matching,

``````ham [a, b, c] = list
where
list = 1 : merge (map (a*) list) (merge (map (b*) list) (map (c*) list))
ham _ = []
``````

You could also use a guard with a `length` check

``````hamming x y
| length y == 3 = take x (ham y)
| otherwise     = []
``````

to make sure that your input list has exactly three elements, but you will regret that if you call `hamming 10 [1 .. ]`.

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Working secksily now!, thank you! – user1311286 Jul 27 '12 at 20:36

In the `List` module, Haskell has a duplicate remover called `nub`. Here it is on hoogle: http://www.haskell.org/hoogle/?hoogle=nub. This is O(n^2) though, so you might be better off changing `merge`. But it may be worthwhile to first use a slow solution already written for you, before optimizing.

I suspect that you are trying to learn Haskell with this little exercise, but here's another way to write out the hamming numbers (no duplicates, but not in order) using the List monad:

``````uglyNumbers = do { n <- [0..]
; k <- [0..n]
; j <- [0..n-k]
; return \$ (2^(n-k-j))*(3^j)*(5^k) }
``````

This makes a lazy, infinite list of hamming numbers. You can equivalently write this using a list comprehension:

``````uglyNumbers' = [(2^(n-k-j))*(3^j)*(5^k) | n <- [0..], k <- [0..n], j <- [0..n-k]]
``````
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Sure; I've edited my response to reflect this observation. – Matt W-D Jul 28 '12 at 14:34