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I have the following:

data Node = Node { position::Int
                 , zombies::Float
                 , connections::[Int]

moveZombie :: [Node] -> Node -> Node
moveZombie nodes (Node i _ cx) = zc `seq` Node i zc cx
  where zc = sum [zombies n / (fromIntegral $ length $ connections n) | i <- cx, let n = nodes !! i]

step :: Int -> [Node] -> [Node]
step 0 nodes = nodes
step k nodes = step (k-1) $ map (moveZombie nodes) nodes

Compiling with profiling enabled in GHC tells me that the cost centers are:

COST CENTRE            MODULE %time %alloc
moveZombie.zc          Main   60.3   90.4
moveZombie.zc.n        Main   37.6    0.0

I tried the following: moveZombie nodes (Node i _ cx) = zc `seq` Node i zc cx to force strict evaluation and have the program run faster, but have been entirely unsuccessful. I know there is something wrong with my understanding of the way seq works, but I can't seem to figure out what.

I think, that I need to force strict evaluation on step k nodes = step (k-1) $ map (moveZombie nodes) nodes but, I am confused.

I know that:

  1. seq a b forces a into the weak first normal form, when evaluating b
  2. That an expression is in weak normal form if the outermost expression is a lambda or a Data constructor

Any pointers towards what understanding I am missing?

share|improve this question
I think your main problem is let n = nodes !! i. List indexing is O(i), so if a Node has many connections, a moveZombie on that is quadratic in the number of Nodes. If you have a lot of Nodes with many connections, you get cubic complexity for a step. Try using an Array instead of a list. (If you have more than just a handful of Nodes, it won't improve things if you have only two.) – Daniel Fischer Nov 3 '12 at 9:19
I'd personally prefer Data.Sequence to Array. – Ben Millwood Nov 5 '12 at 12:29

The main speed problem is treating 'nodes' as a list - your algorithm often needs to fetch items at random positions, and that is O(n) for every retrieval in a linked list data structure.

Replacing 'nodes' from [Node] to any better suited data structure (Data.Map, or Array) would improve the complexity significantly.

share|improve this answer

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