204 lines
5.2 KiB
OCaml
204 lines
5.2 KiB
OCaml
open Printf
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(* -------------------------------------------------------------------------- *)
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(* A simple type of binary trees. *)
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type tree =
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| Leaf
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| Node of { data: int; left: tree; right: tree }
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(* -------------------------------------------------------------------------- *)
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(* Constructors. *)
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let node data left right =
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Node { data; left; right }
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let singleton data =
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node data Leaf Leaf
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(* -------------------------------------------------------------------------- *)
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(* A sample tree. *)
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let christmas =
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node 6
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(node 2 (singleton 0) (singleton 1))
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(node 5 (singleton 3) (singleton 4))
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(* -------------------------------------------------------------------------- *)
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(* A test procedure. *)
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let test name walk =
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printf "Testing %s...\n%!" name;
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walk christmas;
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walk christmas;
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flush stdout
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(* -------------------------------------------------------------------------- *)
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(* A recursive depth-first traversal, with postfix printing. *)
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let rec walk (t : tree) : unit =
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match t with
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| Leaf ->
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()
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| Node { data; left; right } ->
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walk left;
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walk right;
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printf "%d\n" data
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let () =
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test "walk" walk
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(* -------------------------------------------------------------------------- *)
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(* A CPS traversal. *)
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let rec walkk (t : tree) (k : unit -> 'a) : 'a =
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match t with
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| Leaf ->
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k()
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| Node { data; left; right } ->
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walkk left (fun () ->
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walkk right (fun () ->
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printf "%d\n" data;
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k()))
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let walk t =
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walkk t (fun t -> t)
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let () =
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test "walkk" walk
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(* -------------------------------------------------------------------------- *)
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(* A CPS-defunctionalized traversal. *)
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type kont =
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| Init
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| GoneL of { data: int; tail: kont; right: tree }
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| GoneR of { data: int; tail: kont }
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let rec walkkd (t : tree) (k : kont) : unit =
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match t with
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| Leaf ->
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apply k ()
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| Node { data; left; right } ->
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walkkd left (GoneL { data; tail = k; right })
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and apply k () =
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match k with
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| Init ->
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()
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| GoneL { data; tail; right } ->
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walkkd right (GoneR { data; tail })
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| GoneR { data; tail } ->
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printf "%d\n" data;
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apply tail ()
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let walk t =
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walkkd t Init
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let () =
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test "walkkd" walk
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(* CPS, defunctionalized, with in-place allocation of continuations. *)
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(* [Init] is encoded by [Leaf].
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[GoneL { data; tail; right }] is encoded by:
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- setting [status] to [GoneL]; and
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- storing [tail] in the [left] field.
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- the [data] and [right] fields retain their original value.
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[GoneR { data; tail }] is encoded by:
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- setting [status] to [GoneR]; and
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- storing [tail] in the [right] field.
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- the [data] and [left] fields retain their original value.
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The [status] field is meaningful only when the memory block is
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being viewed as a continuation. If it is being viewed as a tree,
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then (by convention) [status] must be [GoneL]. (We could also
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let the type [status] have three values, but I prefer to use just
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two, for the sake of economy.)
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Does that sound crazy? Well, it is, in a way. *)
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type status = GoneL | GoneR
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type mtree = Leaf | Node of {
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data: int; mutable status: status;
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mutable left: mtree; mutable right: mtree
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}
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type mkont = mtree
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(* Constructors. *)
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let node data left right =
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Node { data; status = GoneL; left; right }
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let singleton data =
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node data Leaf Leaf
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(* A sample tree. *)
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let christmas =
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node 6
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(node 2 (singleton 0) (singleton 1))
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(node 5 (singleton 3) (singleton 4))
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(* A test. *)
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let test name walk =
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printf "Testing %s...\n%!" name;
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walk christmas;
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walk christmas;
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flush stdout
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(* The code. *)
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let rec walkkdi (t : mtree) (k : mkont) : unit =
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match t with
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| Leaf ->
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(* We decide to let [apply] takes a tree as a second argument,
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instead of just a unit value. Indeed, in order to restore
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the [left] or [right] fields of [k], we need the address
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of the child [t] out of which we are coming. *)
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apply k t
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| Node ({ left; _ } as n) ->
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(* At this point, [t] is a tree.
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[n] is a name for its root record. *)
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(* Change this tree to a [GoneL] continuation. *)
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assert (n.status = GoneL);
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n.left (* n.tail *) <- k;
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(* [t] now represents a continuation. Go down into the left
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child, with this continuation. *)
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walkkdi left (t : mkont)
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and apply (k : mkont) (child : mtree) : unit =
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match k with
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| Leaf -> ()
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| Node ({ status = GoneL; left = tail; right; _ } as n) ->
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(* We are popping a [GoneL] frame, that is, coming out of
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a left child. *)
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n.status <- GoneR; (* update continuation! *)
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n.left <- child; (* restore orig. left child! *)
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n.right (* n.tail *) <- tail;
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(* [k] now represents a [GoneR] continuation. Go down into
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the right child, with [k] as a continuation. *)
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walkkdi right k
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| Node ({ data; status = GoneR; right = tail; _ } as n) ->
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printf "%d\n" data;
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n.status <- GoneL; (* change back to a tree! *)
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n.right <- child; (* restore orig. right child! *)
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(* [k] now represents a valid tree again. *)
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apply tail (k : mtree)
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let walk t =
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walkkdi t Leaf
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let () =
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test "walkkdi" walk
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