I'm trying to sum a tree using the Task Parallel Library where child tasks are spawned only until the tree is traversed until a certain depth, and otherwise it sums the remaining child nodes using continuation passing style, to avoid stack overflows.
However, the code looks pretty ugly - it would be nice to use a state monad to carry the current depth around, but the state monad isn't tail recursive. Alternatively, how would I modify the continuation monad to carry around the state? Or create a combination of the state and continuation monads?
let sumTreeParallelDepthCont tree cont = let rec sumRec tree depth cont = let newDepth = depth - 1 match tree with | Leaf(num) -> cont num | Branch(left, right) -> if depth <= 0 then sumTreeContMonad left (fun leftM -> sumTreeContMonad right (fun rightM -> cont (leftM + rightM ))) else let leftTask = Task.Factory.StartNew(fun () -> let leftResult = ref 0 sumRec left newDepth (fun leftM -> leftResult := leftM) !leftResult ) let rightTask = Task.Factory.StartNew(fun () -> let rightResult = ref 0 sumRec right newDepth (fun rightM -> rightResult := rightM) !rightResult ) cont (leftTask.Result + rightTask.Result) sumRec tree 4 cont // 4 levels deep
I've got a little more detail on this blog post: http://taumuon-jabuka.blogspot.co.uk/2012/06/more-playing-with-monads.html