(**************************************************************************) (* *) (* Heptagon *) (* *) (* Author : Marc Pouzet *) (* Organization : Demons, LRI, University of Paris-Sud, Orsay *) (* *) (**************************************************************************) open Names open Idents open Types type ct = | Ck of ck | Cprod of ct list and ck = | Cbase | Cvar of link ref | Con of ck * constructor_name * var_ident and link = | Cindex of int | Clink of ck exception Unify let invalid_clock = Cprod [] let index = ref 0 let gen_index () = (incr index; !index) (** returns a new clock variable *) let fresh_clock () = Cvar { contents = Cindex (gen_index ()); } (** returns a new clock type corresponding to the data type [ty] *) let rec fresh_ct ty = match ty with | Tprod ty_list -> (match ty_list with | [] -> Ck (fresh_clock()) | _ -> Cprod (List.map fresh_ct ty_list)) | Tarray (t, _) -> fresh_ct t | Tid _ | Tinvalid -> Ck (fresh_clock()) (** returns the canonic (short) representant of a [ck] and update it to this value. *) let rec ck_repr ck = match ck with | Cbase | Con _ | Cvar { contents = Cindex _ } -> ck | Cvar (({ contents = Clink ck } as link)) -> let ck = ck_repr ck in link.contents <- Clink ck; ck (** verifies that index is fresh in ck. *) let rec occur_check index ck = let ck = ck_repr ck in match ck with | Cbase -> () | Cvar { contents = Cindex n } when index <> n -> () | Con (ck, _, _) -> occur_check index ck | _ -> raise Unify (** unify ck *) and unify_ck ck1 ck2 = let ck1 = ck_repr ck1 in let ck2 = ck_repr ck2 in if ck1 == ck2 then () else match (ck1, ck2) with | Cbase, Cbase -> () | Cvar { contents = Cindex n1 }, Cvar { contents = Cindex n2 } when n1 = n2 -> () | Con (ck1, c1, n1), Con (ck2, c2, n2) when (c1 = c2) & (n1 = n2) -> unify_ck ck1 ck2 | Cvar ({ contents = Cindex n } as v), ck | ck, Cvar ({ contents = Cindex n } as v) -> occur_check n ck; v.contents <- Clink ck | _ -> raise Unify (** unify ct *) let rec unify t1 t2 = if t1 == t2 then () else match (t1, t2) with | (Ck (Cbase | Cvar { contents = Cindex _; }), Cprod []) | (Cprod [], Ck (Cbase | Cvar { contents = Cindex _; })) -> () | (Ck ck1, Ck ck2) -> unify_ck ck1 ck2 | (Cprod t1_list, Cprod t2_list) -> unify_list t1_list t2_list | _ -> raise Unify and unify_list t1_list t2_list = try List.iter2 unify t1_list t2_list with _ -> raise Unify let rec skeleton ck = function | Tprod ty_list -> (match ty_list with | [_] -> Ck ck | l -> Cprod (List.map (skeleton ck) l)) | Tarray _ | Tid _ | Tinvalid -> Ck ck let unprod ct = let rec f acc ct = match ct with | Ck ck -> ck::acc | Cprod ct_l -> List.fold_left f acc ct_l in f [] ct let prod ck_l = match ck_l with | [ck] -> Ck ck | _ -> Cprod (List.map (fun ck -> Ck ck) ck_l) let rec root_ck_of ck = match ck_repr ck with | Cbase | Cvar { contents = Cindex _ } -> ck | Con(ck,_,_) -> root_ck_of ck | Cvar { contents = Clink _ } -> Misc.internal_error "Clocks, wrong repr" let rec last_clock ct = match ct with | Ck ck -> ck | Cprod l -> last_clock (Misc.last_element l) (** returns whether [ck1] and [ck2] are leafs of the same clock node : E.g. .... on C1(x) and .... on C2(x) are. *) let same_control ck1 ck2 = match ck_repr ck1, ck_repr ck2 with | Cbase, Cbase -> true | Con(_,_,x1), Con(_,_,x2) -> x1 = x2 | Cvar {contents = Cindex i1}, Cvar {contents = Cindex i2} -> i1 = i2 | _ -> false (** returns the first clock of a ct. *) let rec first_ck ct = match ct with | Ck ck -> ck | Cprod [] -> assert false | Cprod (ct::_) -> first_ck ct let are_disjoint ck1 ck2 = let rec list_of_samplers acc ck = match ck with | Cbase | Cvar _ -> acc | Con(ck, c, x) -> list_of_samplers ((c, x)::acc) ck in let rec disjoint_samplers s_ck1 s_ck2 = match s_ck1, s_ck2 with | [], _ -> false | _ , [] -> false | (c1, x1)::s_ck1, (c2, x2)::s_ck2 -> if Idents.ident_compare x1 x2 <> 0 then false else c1 <> c2 || disjoint_samplers s_ck1 s_ck2 in disjoint_samplers (list_of_samplers [] ck1) (list_of_samplers [] ck2)