Performance/Accumulating parameter
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Accumulating Paramaters: Getting rid of the 'almost' in "almost tail recursive"
Often times you will write a recursive function which is almost tail recursive. Consider this naïve implementation of a function to compute the length of a list.
len :: [a] -> Int len [] = 0 len (x:xs) = len xs + 1
Compile and run a simple program like the following:
main = putStrLn $ show $ len [1..200000]
Profiling the above, I found that it took 0.20 seconds to run. Increasing that number to 1000000 results in a stack overflow.
The above function seems to delegate most of the actual work to the recursive case. The only thing keeping it from being tail recursive is the requirement to increment the length of the remainder of the list.
We can move this increment step into an accumulating parameter. This is an extra parameter that allows us to carry information along in the computation.
len' :: [a] -> Int -> Int len' [] acc = acc len' (x:xs) acc = len' xs (1 + acc)
Now the function is tail recursive. The accumulating parameter is returned in some form by the base case, and in the inductive case, we perform the step that prevented us from being truly tail recursive. We should provide a wrapper function that hides the detail of that accumulating parameter from users of the function.
len xs = len' xs 0
Running the above program with the new definition gives me a runtime of 0.02 seconds.
The performance gain came from the tail recursive implementation. Accumulating parameters is merely a means to turn an almost tail recursive implementation into a tail recursive implementation. The pattern to apply this technique to are ones which involve a tail recursion and a cons step. This latter step is performed on the accumulator and then passed into the tail recursive step.
We need to fix a small problem with regards to the stack overflow. The function would accumulate (1 + acc) thunks as we pass down the list. In general, it makes sense to make your accumulator parameters strict, since its value will be needed at the very end. A better implementation would be:
len' [] acc = acc len' (x:xs) acc = let acc' = 1 + acc in acc' `seq` len' xs acc'
This explicitly evaluates 1 + acc before performing the tail recursion. This prevents the stack overflow.