renamed Simplifier.theory_context to Simplifier.global_context to emphasize that this is not the real thing;
(* Title: HOL/Tools/dseq.ML
Author: Stefan Berghofer, TU Muenchen
Sequences with recursion depth limit.
*)
signature DSEQ =
sig
type 'a seq = int * int * int -> 'a Seq.seq;
val maps: ('a -> 'b seq) -> 'a seq -> 'b seq
val map: ('a -> 'b) -> 'a seq -> 'b seq
val append: 'a seq -> 'a seq -> 'a seq
val interleave: 'a seq -> 'a seq -> 'a seq
val single: 'a -> 'a seq
val empty: 'a seq
val guard: bool -> unit seq
val of_list: 'a list -> 'a seq
val list_of: 'a seq -> 'a list
val pull: 'a seq -> ('a * 'a Seq.seq) option
val hd: 'a seq -> 'a
val generator: (int -> 'a * 'b) -> 'a seq
end;
structure DSeq : DSEQ =
struct
type 'a seq = int * int * int -> 'a Seq.seq;
fun maps f s (0, _, _) = Seq.empty
| maps f s (i, j, k) = Seq.maps (fn a => f a (i, j, k)) (s (i - 1, j, k));
fun map f s p = Seq.map f (s p);
fun append s1 s2 p = Seq.append (s1 p) (s2 p);
fun interleave s1 s2 p = Seq.interleave (s1 p, s2 p);
fun single x _ = Seq.single x;
fun empty _ = Seq.empty;
fun guard b = if b then single () else empty;
fun of_list xs _ = Seq.of_list xs;
fun list_of s = Seq.list_of (s (~1, 0, 0));
fun pull s = Seq.pull (s (~1, 0, 0));
fun hd s = Seq.hd (s (~1, 0, 0));
fun generator g (i, 0, k) = Seq.empty
| generator g (i, j, k) =
Seq.make (fn () => SOME (fst (g k), generator g (i, j-1, k)));
end;
(* combinators for code generated from inductive predicates *)
infix 5 :->;
infix 3 ++;
fun s :-> f = DSeq.maps f s;
fun f ++ g = DSeq.append f g;
val ?? = DSeq.guard;
fun ??? f g = f o g;
fun ?! s = is_some (DSeq.pull s);
fun equal__1 x = DSeq.single x;
val equal__2 = equal__1;
fun equal__1_2 (x, y) = ?? (x = y);