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The following function compiles but when run outputs a non-exhaustive pattern error

hufMerge :: CodeTable -> CodeTable -> CodeTable
hufMerge [(x,a)] [(y,b)] = foldr (:) (map add0 [(x,a)]) (map add1 [(y,b)])
hufMerge [(x,a)] [] = map add0 [(x,a)]
hufMerge [] [(y,b)] = map add1 [(y,b)]
hufMerge [] [] = []

where

type CodeTable = [(Char,[Integer])]

I am not seeing where the error is coming from, do I have to do 2^4 cases, where out of [(x,a)] [(y,b)], x, a, y, or b can be zero?

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3  
This doesn’t work when you pass a list with a length greater than one. –  rightfold Apr 7 at 21:13
    
I highly recommend putting the pragma {-# OPTIONS_GHC -fwarn-incomplete-patterns #-} at the top of your source file (above any actual Haskell code). Much of the time, you should explicitly define "can't happen" cases as errors. In performance-critical code, you should instead use laxer patterns along with assertions. –  dfeuer Apr 8 at 5:23
    
For example, if you're defining f :: Int -> Int and you know the argument will always be either 1 or 2, you can write f 1 = 5; f x = assert (x == 2) 6, which will compile to the same code as f 1 = 5; f _ = 6 when assertions are turned off. –  dfeuer Apr 8 at 5:29

1 Answer 1

up vote 6 down vote accepted

I believe you meant

hufMerge :: CodeTable -> CodeTable -> CodeTable
hufMerge [] [] = []
hufMerge xs [] = map add0 xs
hufMerge [] ys = map add1 ys
hufMerge xs ys = foldr (:) (map add0 xs) (map add1 ys)

If you match on [foo] you're matching on a list of exactly length one and then matching on that one element with whatever pattern foo is.

As a quick catalog on how to match on lists,

  1. Ignore them completely, as always _ ignores the value
  2. Match with any variable, The pattern xs for example will bind with any list
  3. Match head-tail, (x:xs) will bind the first element to x and rest to xs
  4. Match element-wise [x, y, z ...] which is just sugar for x : y : z .... : []
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Yes, thank you. –  Alex Apr 7 at 21:26

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