--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/src/HOL/Import/lazy_seq.ML Sat Oct 08 22:39:40 2005 +0200
@@ -0,0 +1,543 @@
+(* Title: HOL/Import/lazy_seq.ML
+ ID: $Id$
+ Author: Sebastian Skalberg, TU Muenchen
+
+Alternative version of lazy sequences.
+*)
+
+signature LAZY_SEQ =
+sig
+
+ type 'a seq
+
+ (* From LIST *)
+
+ val null : 'a seq -> bool
+ val length : 'a seq -> int
+ val @ : 'a seq * 'a seq -> 'a seq
+ val hd : 'a seq -> 'a
+ val tl : 'a seq -> 'a seq
+ val last : 'a seq -> 'a
+ val getItem : 'a seq -> ('a * 'a seq) option
+ val nth : 'a seq * int -> 'a
+ val take : 'a seq * int -> 'a seq
+ val drop : 'a seq * int -> 'a seq
+ val rev : 'a seq -> 'a seq
+ val concat : 'a seq seq -> 'a seq
+ val revAppend : 'a seq * 'a seq -> 'a seq
+ val app : ('a -> unit) -> 'a seq -> unit
+ val map : ('a -> 'b) -> 'a seq -> 'b seq
+ val mapPartial : ('a -> 'b option) -> 'a seq -> 'b seq
+ val find : ('a -> bool) -> 'a seq -> 'a option
+ val filter : ('a -> bool) -> 'a seq -> 'a seq
+ val partition : ('a -> bool)
+ -> 'a seq -> 'a seq * 'a seq
+ val foldl : ('a * 'b -> 'b) -> 'b -> 'a seq -> 'b
+ val foldr : ('a * 'b -> 'b) -> 'b -> 'a seq -> 'b
+ val exists : ('a -> bool) -> 'a seq -> bool
+ val all : ('a -> bool) -> 'a seq -> bool
+ val tabulate : int * (int -> 'a) -> 'a seq
+ val collate : ('a * 'a -> order)
+ -> 'a seq * 'a seq -> order
+
+ (* Miscellaneous *)
+
+ val cycle : ((unit ->'a seq) -> 'a seq) -> 'a seq
+ val iterates : ('a -> 'a) -> 'a -> 'a seq
+ val of_function: (unit -> 'a option) -> 'a seq
+ val of_string : string -> char seq
+ val of_instream: TextIO.instream -> char seq
+
+ (* From SEQ *)
+
+ val make: (unit -> ('a * 'a seq) option) -> 'a seq
+ val empty: 'a -> 'a seq
+ val cons: 'a * 'a seq -> 'a seq
+ val single: 'a -> 'a seq
+ val try: ('a -> 'b) -> 'a -> 'b seq
+ val chop: int * 'a seq -> 'a list * 'a seq
+ val list_of: 'a seq -> 'a list
+ val of_list: 'a list -> 'a seq
+ val mapp: ('a -> 'b) -> 'a seq -> 'b seq -> 'b seq
+ val interleave: 'a seq * 'a seq -> 'a seq
+ val print: (int -> 'a -> unit) -> int -> 'a seq -> unit
+ val it_right : ('a * 'b seq -> 'b seq) -> 'a seq * 'b seq -> 'b seq
+ val commute: 'a seq list -> 'a list seq
+ val succeed: 'a -> 'a seq
+ val fail: 'a -> 'b seq
+ val THEN: ('a -> 'b seq) * ('b -> 'c seq) -> 'a -> 'c seq
+ val ORELSE: ('a -> 'b seq) * ('a -> 'b seq) -> 'a -> 'b seq
+ val APPEND: ('a -> 'b seq) * ('a -> 'b seq) -> 'a -> 'b seq
+ val EVERY: ('a -> 'a seq) list -> 'a -> 'a seq
+ val FIRST: ('a -> 'b seq) list -> 'a -> 'b seq
+ val TRY: ('a -> 'a seq) -> 'a -> 'a seq
+ val REPEAT: ('a -> 'a seq) -> 'a -> 'a seq
+ val REPEAT1: ('a -> 'a seq) -> 'a -> 'a seq
+ val INTERVAL: (int -> 'a -> 'a seq) -> int -> int -> 'a -> 'a seq
+ val DETERM: ('a -> 'b seq) -> 'a -> 'b seq
+
+end
+
+structure LazySeq :> LAZY_SEQ =
+struct
+
+open Susp
+
+datatype 'a seq = Seq of ('a * 'a seq) option susp
+
+exception Empty
+
+fun getItem (Seq s) = force s
+fun make f = Seq (delay f)
+
+fun null s = isSome (getItem s)
+
+local
+ fun F n NONE = n
+ | F n (SOME(_,s)) = F (n+1) (getItem s)
+in
+fun length s = F 0 (getItem s)
+end
+
+fun s1 @ s2 =
+ let
+ fun F NONE = getItem s2
+ | F (SOME(x,s1')) = SOME(x,F' s1')
+ and F' s = make (fn () => F (getItem s))
+ in
+ F' s1
+ end
+
+local
+ fun F NONE = raise Empty
+ | F (SOME arg) = arg
+in
+fun hd s = #1 (F (getItem s))
+fun tl s = #2 (F (getItem s))
+end
+
+local
+ fun F x NONE = x
+ | F _ (SOME(x,s)) = F x (getItem s)
+ fun G NONE = raise Empty
+ | G (SOME(x,s)) = F x (getItem s)
+in
+fun last s = G (getItem s)
+end
+
+local
+ fun F NONE _ = raise Subscript
+ | F (SOME(x,_)) 0 = x
+ | F (SOME(_,s)) n = F (getItem s) (n-1)
+in
+fun nth(s,n) =
+ if n < 0
+ then raise Subscript
+ else F (getItem s) n
+end
+
+local
+ fun F NONE _ = raise Subscript
+ | F (SOME(x,s)) n = SOME(x,F' s (n-1))
+ and F' s 0 = Seq (value NONE)
+ | F' s n = make (fn () => F (getItem s) n)
+in
+fun take (s,n) =
+ if n < 0
+ then raise Subscript
+ else F' s n
+end
+
+local
+ fun F s 0 = s
+ | F NONE _ = raise Subscript
+ | F (SOME(_,s)) n = F (getItem s) (n-1)
+in
+fun drop (s,0) = s
+ | drop (s,n) =
+ if n < 0
+ then raise Subscript
+ else make (fn () => F (getItem s) n)
+end
+
+local
+ fun F s NONE = s
+ | F s (SOME(x,s')) = F (SOME(x, Seq (value s))) (getItem s')
+in
+fun rev s = make (fn () => F NONE (getItem s))
+end
+
+local
+ fun F s NONE = getItem s
+ | F s (SOME(x,s')) = F (Seq (value (SOME(x,s)))) (getItem s')
+in
+fun revAppend (s1,s2) = make (fn () => F s2 (getItem s1))
+end
+
+local
+ fun F NONE = NONE
+ | F (SOME(s1,s2)) =
+ let
+ fun G NONE = F (getItem s2)
+ | G (SOME(x,s)) = SOME(x,make (fn () => G (getItem s)))
+ in
+ G (getItem s1)
+ end
+in
+fun concat s = make (fn () => F (getItem s))
+end
+
+fun app f =
+ let
+ fun F NONE = ()
+ | F (SOME(x,s)) =
+ (f x;
+ F (getItem s))
+ in
+ F o getItem
+ end
+
+fun map f =
+ let
+ fun F NONE = NONE
+ | F (SOME(x,s)) = SOME(f x,F' s)
+ and F' s = make (fn() => F (getItem s))
+ in
+ F'
+ end
+
+fun mapPartial f =
+ let
+ fun F NONE = NONE
+ | F (SOME(x,s)) =
+ (case f x of
+ SOME y => SOME(y,F' s)
+ | NONE => F (getItem s))
+ and F' s = make (fn()=> F (getItem s))
+ in
+ F'
+ end
+
+fun find P =
+ let
+ fun F NONE = NONE
+ | F (SOME(x,s)) =
+ if P x
+ then SOME x
+ else F (getItem s)
+ in
+ F o getItem
+ end
+
+(*fun filter p = mapPartial (fn x => if p x then SOME x else NONE)*)
+
+fun filter P =
+ let
+ fun F NONE = NONE
+ | F (SOME(x,s)) =
+ if P x
+ then SOME(x,F' s)
+ else F (getItem s)
+ and F' s = make (fn () => F (getItem s))
+ in
+ F'
+ end
+
+fun partition f s =
+ let
+ val s' = map (fn x => (x,f x)) s
+ in
+ (mapPartial (fn (x,true) => SOME x | _ => NONE) s',
+ mapPartial (fn (x,false) => SOME x | _ => NONE) s')
+ end
+
+fun exists P =
+ let
+ fun F NONE = false
+ | F (SOME(x,s)) = P x orelse F (getItem s)
+ in
+ F o getItem
+ end
+
+fun all P =
+ let
+ fun F NONE = true
+ | F (SOME(x,s)) = P x andalso F (getItem s)
+ in
+ F o getItem
+ end
+
+(*fun tabulate f = map f (iterates (fn x => x + 1) 0)*)
+
+fun tabulate (n,f) =
+ let
+ fun F n = make (fn () => SOME(f n,F (n+1)))
+ in
+ F n
+ end
+
+fun collate c (s1,s2) =
+ let
+ fun F NONE _ = LESS
+ | F _ NONE = GREATER
+ | F (SOME(x,s1)) (SOME(y,s2)) =
+ (case c (x,y) of
+ LESS => LESS
+ | GREATER => GREATER
+ | EQUAL => F' s1 s2)
+ and F' s1 s2 = F (getItem s1) (getItem s2)
+ in
+ F' s1 s2
+ end
+
+fun empty _ = Seq (value NONE)
+fun single x = Seq(value (SOME(x,Seq (value NONE))))
+fun cons a = Seq(value (SOME a))
+
+fun cycle seqfn =
+ let
+ val knot = ref (Seq (value NONE))
+ in
+ knot := seqfn (fn () => !knot);
+ !knot
+ end
+
+fun iterates f =
+ let
+ fun F x = make (fn() => SOME(x,F (f x)))
+ in
+ F
+ end
+
+fun interleave (s1,s2) =
+ let
+ fun F NONE = getItem s2
+ | F (SOME(x,s1')) = SOME(x,interleave(s2,s1'))
+ in
+ make (fn()=> F (getItem s1))
+ end
+
+(* val force_all = app ignore *)
+
+local
+ fun F NONE = ()
+ | F (SOME(x,s)) = F (getItem s)
+in
+fun force_all s = F (getItem s)
+end
+
+fun of_function f =
+ let
+ fun F () = case f () of
+ SOME x => SOME(x,make F)
+ | NONE => NONE
+ in
+ make F
+ end
+
+local
+ fun F [] = NONE
+ | F (x::xs) = SOME(x,F' xs)
+ and F' xs = make (fn () => F xs)
+in
+fun of_list xs = F' xs
+end
+
+val of_string = of_list o String.explode
+
+fun of_instream is =
+ let
+ val buffer : char list ref = ref []
+ fun get_input () =
+ case !buffer of
+ (c::cs) => (buffer:=cs;
+ SOME c)
+ | [] => (case String.explode (TextIO.input is) of
+ [] => NONE
+ | (c::cs) => (buffer := cs;
+ SOME c))
+ in
+ of_function get_input
+ end
+
+local
+ fun F k NONE = k []
+ | F k (SOME(x,s)) = F (fn xs => k (x::xs)) (getItem s)
+in
+fun list_of s = F (fn x => x) (getItem s)
+end
+
+(* Adapted from seq.ML *)
+
+val succeed = single
+fun fail _ = Seq (value NONE)
+
+(* fun op THEN (f, g) x = flat (map g (f x)) *)
+
+fun op THEN (f, g) =
+ let
+ fun F NONE = NONE
+ | F (SOME(x,xs)) =
+ let
+ fun G NONE = F (getItem xs)
+ | G (SOME(y,ys)) = SOME(y,make (fn () => G (getItem ys)))
+ in
+ G (getItem (g x))
+ end
+ in
+ fn x => make (fn () => F (getItem (f x)))
+ end
+
+fun op ORELSE (f, g) x =
+ make (fn () =>
+ case getItem (f x) of
+ NONE => getItem (g x)
+ | some => some)
+
+fun op APPEND (f, g) x =
+ let
+ fun copy s =
+ case getItem s of
+ NONE => getItem (g x)
+ | SOME(x,xs) => SOME(x,make (fn () => copy xs))
+ in
+ make (fn () => copy (f x))
+ end
+
+fun EVERY fs = foldr (op THEN) succeed fs
+fun FIRST fs = foldr (op ORELSE) fail fs
+
+fun TRY f x =
+ make (fn () =>
+ case getItem (f x) of
+ NONE => SOME(x,Seq (value NONE))
+ | some => some)
+
+fun REPEAT f =
+ let
+ fun rep qs x =
+ case getItem (f x) of
+ NONE => SOME(x, make (fn () => repq qs))
+ | SOME (x', q) => rep (q :: qs) x'
+ and repq [] = NONE
+ | repq (q :: qs) =
+ case getItem q of
+ NONE => repq qs
+ | SOME (x, q) => rep (q :: qs) x
+ in
+ fn x => make (fn () => rep [] x)
+ end
+
+fun REPEAT1 f = op THEN (f, REPEAT f);
+
+fun INTERVAL f i =
+ let
+ fun F j =
+ if i > j
+ then single
+ else op THEN (f j, F (j - 1))
+ in F end
+
+fun DETERM f x =
+ make (fn () =>
+ case getItem (f x) of
+ NONE => NONE
+ | SOME (x', _) => SOME(x',Seq (value NONE)))
+
+(*partial function as procedure*)
+fun try f x =
+ make (fn () =>
+ case Library.try f x of
+ SOME y => SOME(y,Seq (value NONE))
+ | NONE => NONE)
+
+(*functional to print a sequence, up to "count" elements;
+ the function prelem should print the element number and also the element*)
+fun print prelem count seq =
+ let
+ fun pr k xq =
+ if k > count
+ then ()
+ else
+ case getItem xq of
+ NONE => ()
+ | SOME (x, xq') =>
+ (prelem k x;
+ writeln "";
+ pr (k + 1) xq')
+ in
+ pr 1 seq
+ end
+
+(*accumulating a function over a sequence; this is lazy*)
+fun it_right f (xq, yq) =
+ let
+ fun its s =
+ make (fn () =>
+ case getItem s of
+ NONE => getItem yq
+ | SOME (a, s') => getItem(f (a, its s')))
+ in
+ its xq
+ end
+
+(*map over a sequence s1, append the sequence s2*)
+fun mapp f s1 s2 =
+ let
+ fun F NONE = getItem s2
+ | F (SOME(x,s1')) = SOME(f x,F' s1')
+ and F' s = make (fn () => F (getItem s))
+ in
+ F' s1
+ end
+
+(*turn a list of sequences into a sequence of lists*)
+local
+ fun F [] = SOME([],Seq (value NONE))
+ | F (xq :: xqs) =
+ case getItem xq of
+ NONE => NONE
+ | SOME (x, xq') =>
+ (case F xqs of
+ NONE => NONE
+ | SOME (xs, xsq) =>
+ let
+ fun G s =
+ make (fn () =>
+ case getItem s of
+ NONE => F (xq' :: xqs)
+ | SOME(ys,ysq) => SOME(x::ys,G ysq))
+ in
+ SOME (x :: xs, G xsq)
+ end)
+in
+fun commute xqs = make (fn () => F xqs)
+end
+
+(*the list of the first n elements, paired with rest of sequence;
+ if length of list is less than n, then sequence had less than n elements*)
+fun chop (n, xq) =
+ if n <= 0
+ then ([], xq)
+ else
+ case getItem xq of
+ NONE => ([], xq)
+ | SOME (x, xq') => apfst (Library.cons x) (chop (n - 1, xq'))
+
+fun foldl f e s =
+ let
+ fun F k NONE = k e
+ | F k (SOME(x,s)) = F (fn y => k (f(x,y))) (getItem s)
+ in
+ F (fn x => x) (getItem s)
+ end
+
+fun foldr f e s =
+ let
+ fun F e NONE = e
+ | F e (SOME(x,s)) = F (f(x,e)) (getItem s)
+ in
+ F e (getItem s)
+ end
+
+end