X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;f=helm%2Focaml%2Fcic%2FcicUtil.ml;h=7c6e3eabe28619cc14fdd0cb812f998566d38b52;hb=771ee8b9d122fa963881c876e86f90531bb7434f;hp=3f61565401adf41cbbf3bd84e4c87ac82bcc29f4;hpb=d491d2def96ddd1c27299ad0fa3d0cae39aa45ce;p=helm.git diff --git a/helm/ocaml/cic/cicUtil.ml b/helm/ocaml/cic/cicUtil.ml index 3f6156540..7c6e3eabe 100644 --- a/helm/ocaml/cic/cicUtil.ml +++ b/helm/ocaml/cic/cicUtil.ml @@ -23,10 +23,13 @@ * http://helm.cs.unibo.it/ *) +(* $Id$ *) + +open Printf + exception Meta_not_found of int exception Subst_not_found of int - let lookup_meta index metasenv = try List.find (fun (index', _, _) -> index = index') metasenv @@ -46,7 +49,7 @@ canonical context *) let clean_up_local_context subst metasenv n l = let cc = (try - let (cc,_) = lookup_subst n subst in cc + let (cc,_,_) = lookup_subst n subst in cc with Subst_not_found _ -> try let (_,cc,_) = lookup_meta n metasenv in cc @@ -103,54 +106,47 @@ in is_closed 0 ;; -(* CPS iterators on Cic.term ************************************************) - -let rec visit_l visit_t map f r = function - | [] -> f r - | h :: tail -> - let f r = visit_l visit_t map f r tail in - visit_t f r (map h) - -let meta_closed t = - let rec visit_t f r = function - | Cic.Meta _ -> raise Exit - | Cic.Implicit _ - | Cic.Sort _ - | Cic.Rel _ -> f r - | Cic.Cast (t, u) - | Cic.Prod (_, t, u) - | Cic.Lambda (_, t, u) - | Cic.LetIn (_, t, u) -> - let f r = visit_t f r u in visit_t f r t - | Cic.Appl tl -> - visit_l visit_t (fun x -> x) f r tl - | Cic.Fix (_, tl) -> - let f r = visit_l visit_t (fun (_, _, _, u) -> u) f r tl in - visit_l visit_t (fun (_, _, t, _) -> t) f r tl - | Cic.CoFix (_, tl) -> - let f r = visit_l visit_t (fun (_, _, u) -> u) f r tl in - visit_l visit_t (fun (_, t, _) -> t) f r tl - | Cic.Var (k, tl) - | Cic.Const (k, tl) - | Cic.MutInd (k, _, tl) - | Cic.MutConstruct (k, _, _, tl) -> - visit_l visit_t (fun (_, u) -> u) f r tl - | Cic.MutCase (_, _, t, u, tl) -> - let f r = visit_l visit_t (fun u -> u) f r tl in - let f r = visit_t f r u in - visit_t f r t - in - try visit_t (fun x -> x) () t; false with Exit -> true +let rec is_meta_closed = + function + Cic.Rel _ -> true + | Cic.Meta _ -> false + | Cic.Sort _ -> true + | Cic.Implicit _ -> assert false + | Cic.Cast (te,ty) -> is_meta_closed te && is_meta_closed ty + | Cic.Prod (name,so,dest) -> is_meta_closed so && is_meta_closed dest + | Cic.Lambda (_,so,dest) -> is_meta_closed so && is_meta_closed dest + | Cic.LetIn (_,so,dest) -> is_meta_closed so && is_meta_closed dest + | Cic.Appl l -> + not (List.exists (fun x -> not (is_meta_closed x)) l) + | Cic.Var (_,exp_named_subst) + | Cic.Const (_,exp_named_subst) + | Cic.MutInd (_,_,exp_named_subst) + | Cic.MutConstruct (_,_,_,exp_named_subst) -> + not (List.exists (fun (_,x) -> not (is_meta_closed x)) exp_named_subst) + | Cic.MutCase (_,_,out,te,pl) -> + is_meta_closed out && is_meta_closed te && + not (List.exists (fun x -> not (is_meta_closed x)) pl) + | Cic.Fix (_,fl) -> + not (List.exists + (fun (_,_,ty,bo) -> + not (is_meta_closed ty) || not (is_meta_closed bo)) + fl) + | Cic.CoFix (_,fl) -> + not (List.exists + (fun (_,ty,bo) -> + not (is_meta_closed ty) || not (is_meta_closed bo)) + fl) +;; let xpointer_RE = Str.regexp "\\([^#]+\\)#xpointer(\\(.*\\))" let slash_RE = Str.regexp "/" -let term_of_uri s = - let uri = UriManager.uri_of_string s in +let term_of_uri uri = + let s = UriManager.string_of_uri uri in try - (if String.sub s (String.length s - 4) 4 = ".con" then + (if UriManager.uri_is_con uri then Cic.Const (uri, []) - else if String.sub s (String.length s - 4) 4 = ".var" then + else if UriManager.uri_is_var uri then Cic.Var (uri, []) else if not (Str.string_match xpointer_RE s 0) then raise (UriManager.IllFormedUri s) @@ -168,3 +164,202 @@ let term_of_uri s = | Failure _ | Not_found -> raise (UriManager.IllFormedUri s) +let uri_of_term = function + | Cic.Const (uri, []) + | Cic.Var (uri, []) -> uri + | Cic.MutInd (baseuri, tyno, []) -> + UriManager.uri_of_string + (sprintf "%s#xpointer(1/%d)" (UriManager.string_of_uri baseuri) (tyno+1)) + | Cic.MutConstruct (baseuri, tyno, consno, []) -> + UriManager.uri_of_string + (sprintf "%s#xpointer(1/%d/%d)" (UriManager.string_of_uri baseuri) + (tyno + 1) consno) + | _ -> raise (Invalid_argument "uri_of_term") + + +(* +let pack terms = + List.fold_right + (fun term acc -> Cic.Prod (Cic.Anonymous, term, acc)) + terms (Cic.Sort (Cic.Type (CicUniv.fresh ()))) + +let rec unpack = function + | Cic.Prod (Cic.Anonymous, term, Cic.Sort (Cic.Type _)) -> [term] + | Cic.Prod (Cic.Anonymous, term, tgt) -> term :: unpack tgt + | _ -> assert false +*) + +let rec strip_prods n = function + | t when n = 0 -> t + | Cic.Prod (_, _, tgt) when n > 0 -> strip_prods (n-1) tgt + | _ -> failwith "not enough prods" + +let params_of_obj = function + | Cic.Constant (_, _, _, params, _) + | Cic.Variable (_, _, _, params, _) + | Cic.CurrentProof (_, _, _, _, params, _) + | Cic.InductiveDefinition (_, params, _, _) -> + params + +let attributes_of_obj = function + | Cic.Constant (_, _, _, _, attributes) + | Cic.Variable (_, _, _, _, attributes) + | Cic.CurrentProof (_, _, _, _, _, attributes) + | Cic.InductiveDefinition (_, _, _, attributes) -> + attributes +let rec mk_rels howmany from = + match howmany with + | 0 -> [] + | _ -> (Cic.Rel (howmany + from)) :: (mk_rels (howmany-1) from) + +let id_of_annterm = + function + | Cic.ARel (id,_,_,_) + | Cic.AVar (id,_,_) + | Cic.AMeta (id,_,_) + | Cic.ASort (id,_) + | Cic.AImplicit (id,_) + | Cic.ACast (id,_,_) + | Cic.AProd (id,_,_,_) + | Cic.ALambda (id,_,_,_) + | Cic.ALetIn (id,_,_,_) + | Cic.AAppl (id,_) + | Cic.AConst (id,_,_) + | Cic.AMutInd (id,_,_,_) + | Cic.AMutConstruct (id,_,_,_,_) + | Cic.AMutCase (id,_,_,_,_,_) + | Cic.AFix (id,_,_) + | Cic.ACoFix (id,_,_) -> id + + +let rec rehash_term = + let module C = Cic in + let recons uri = UriManager.uri_of_string (UriManager.string_of_uri uri) in + function + | (C.Rel _) as t -> t + | C.Var (uri,exp_named_subst) -> + let uri' = recons uri in + let exp_named_subst' = + List.map + (function (uri,t) ->(recons uri,rehash_term t)) + exp_named_subst + in + C.Var (uri',exp_named_subst') + | C.Meta (i,l) -> + let l' = + List.map + (function + None -> None + | Some t -> Some (rehash_term t) + ) l + in + C.Meta(i,l') + | C.Sort (C.Type u) -> + CicUniv.assert_univ u; + C.Sort (C.Type (CicUniv.recons_univ u)) + | C.Sort _ as t -> t + | C.Implicit _ as t -> t + | C.Cast (te,ty) -> C.Cast (rehash_term te, rehash_term ty) + | C.Prod (n,s,t) -> C.Prod (n, rehash_term s, rehash_term t) + | C.Lambda (n,s,t) -> C.Lambda (n, rehash_term s, rehash_term t) + | C.LetIn (n,s,t) -> C.LetIn (n, rehash_term s, rehash_term t) + | C.Appl l -> C.Appl (List.map rehash_term l) + | C.Const (uri,exp_named_subst) -> + let uri' = recons uri in + let exp_named_subst' = + List.map + (function (uri,t) -> (recons uri,rehash_term t)) exp_named_subst + in + C.Const (uri',exp_named_subst') + | C.MutInd (uri,tyno,exp_named_subst) -> + let uri' = recons uri in + let exp_named_subst' = + List.map + (function (uri,t) -> (recons uri,rehash_term t)) exp_named_subst + in + C.MutInd (uri',tyno,exp_named_subst') + | C.MutConstruct (uri,tyno,consno,exp_named_subst) -> + let uri' = recons uri in + let exp_named_subst' = + List.map + (function (uri,t) -> (recons uri,rehash_term t)) exp_named_subst + in + C.MutConstruct (uri',tyno,consno,exp_named_subst') + | C.MutCase (uri,i,outty,t,pl) -> + C.MutCase (recons uri, i, rehash_term outty, rehash_term t, + List.map rehash_term pl) + | C.Fix (i, fl) -> + let liftedfl = + List.map + (fun (name, i, ty, bo) -> + (name, i, rehash_term ty, rehash_term bo)) + fl + in + C.Fix (i, liftedfl) + | C.CoFix (i, fl) -> + let liftedfl = + List.map + (fun (name, ty, bo) -> (name, rehash_term ty, rehash_term bo)) + fl + in + C.CoFix (i, liftedfl) + +let rehash_obj = + let module C = Cic in + let recons uri = UriManager.uri_of_string (UriManager.string_of_uri uri) in + function + C.Constant (name,bo,ty,params,attrs) -> + let bo' = + match bo with + None -> None + | Some bo -> Some (rehash_term bo) + in + let ty' = rehash_term ty in + let params' = List.map recons params in + C.Constant (name, bo', ty', params',attrs) + | C.CurrentProof (name,conjs,bo,ty,params,attrs) -> + let conjs' = + List.map + (function (i,hyps,ty) -> + (i, + List.map (function + None -> None + | Some (name,C.Decl t) -> + Some (name,C.Decl (rehash_term t)) + | Some (name,C.Def (bo,ty)) -> + let ty' = + match ty with + None -> None + | Some ty'' -> Some (rehash_term ty'') + in + Some (name,C.Def (rehash_term bo, ty'))) hyps, + rehash_term ty)) + conjs + in + let bo' = rehash_term bo in + let ty' = rehash_term ty in + let params' = List.map recons params in + C.CurrentProof (name, conjs', bo', ty', params',attrs) + | C.Variable (name,bo,ty,params,attrs) -> + let bo' = + match bo with + None -> None + | Some bo -> Some (rehash_term bo) + in + let ty' = rehash_term ty in + let params' = List.map recons params in + C.Variable (name, bo', ty', params',attrs) + | C.InductiveDefinition (tl,params,paramsno,attrs) -> + let params' = List.map recons params in + let tl' = + List.map (function (name, inductive, ty, constructors) -> + name, + inductive, + rehash_term ty, + (List.map + (function (name, ty) -> name, rehash_term ty) + constructors)) + tl + in + C.InductiveDefinition (tl', params', paramsno, attrs) +