let debug = false
let debug_print s = if debug then prerr_endline (Lazy.force s) else ()
-
(* searches a coercion fron src to tgt in the !coercions list *)
let look_for_coercion src tgt =
try
let tgt_uri = CoercDb.coerc_carr_of_term tgt in
look_for_coercion src_uri tgt_uri
-(* given the new coercion uri from src to tgt returns the list
- * of new coercions to create. hte list elements are
- * (source, list of coercions to follow, target)
- *)
-let get_closure_coercions src tgt uri coercions =
- let eq_carr s t =
- try
- CoercDb.eq_carr s t
- with
- | CoercDb.EqCarrNotImplemented _ | CoercDb.EqCarrOnNonMetaClosed -> false
- in
- match src,tgt with
- | CoercDb.Uri _, CoercDb.Uri _ ->
- let c_from_tgt =
- List.filter (fun (f,_,_) -> eq_carr f tgt) coercions
- in
- let c_to_src =
- List.filter (fun (_,t,_) -> eq_carr t src) coercions
- in
- (List.map (fun (_,t,u) -> src,[uri; u],t) c_from_tgt) @
- (List.map (fun (s,_,u) -> s,[u; uri],tgt) c_to_src) @
- (List.fold_left (
- fun l (s,_,u1) ->
- ((List.map (fun (_,t,u2) ->
- (s,[u1;uri;u2],t)
- )c_from_tgt)@l) )
- [] c_to_src)
- | _ -> [] (* do not close in case source or target is not an indty ?? *)
-;;
-
-let obj_attrs = [`Class `Coercion; `Generated]
-
-(* generate_composite_closure (c2 (c1 s)) in the universe graph univ *)
-let generate_composite_closure c1 c2 univ =
- let c1_ty,univ = CicTypeChecker.type_of_aux' [] [] c1 univ in
- let rec mk_rels n =
- match n with
- | 0 -> []
- | _ -> (Cic.Rel n) :: (mk_rels (n-1))
- in
- let rec compose k =
- function
- | Cic.Prod (name,src,tgt) ->
- let name =
- match name with
- | Cic.Anonymous -> Cic.Name "x"
- | _ -> name
- in
- Cic.Lambda (name,src,compose (k+1) tgt)
- | Cic.Appl (he::tl) ->
- Cic.Appl (c2 :: tl @ [Cic.Appl (c1 :: (mk_rels k)) ])
- | _ -> Cic.Appl (c2 :: [Cic.Appl (c1 :: (mk_rels k)) ])
- in
- let c = compose 0 c1_ty in
- let c_ty,univ =
- try
- CicTypeChecker.type_of_aux' [] [] c univ
- with CicTypeChecker.TypeCheckerFailure s as exn ->
- debug_print (lazy (sprintf "Generated composite coercion:\n%s\n%s"
- (CicPp.ppterm c) (Lazy.force s)));
- raise exn
- in
- let cleaned_ty =
- FreshNamesGenerator.clean_dummy_dependent_types c_ty
- in
- let obj = Cic.Constant ("xxxx",Some c,cleaned_ty,[],obj_attrs) in
- obj,univ
-;;
-
-(* removes from l the coercions that are in !coercions *)
-let filter_duplicates l coercions =
- List.filter (
- fun (src,_,tgt) ->
- not (List.exists (fun (s,t,u) ->
- CoercDb.eq_carr s src &&
- CoercDb.eq_carr t tgt)
- coercions))
- l
+let is_a_coercion t =
+ try
+ let uri = CicUtil.uri_of_term t in
+ CoercDb.is_a_coercion uri
+ with Invalid_argument _ -> false
-let term_of_carr = function
- | CoercDb.Uri u -> CicUtil.term_of_uri u
- | CoercDb.Sort _ -> assert false
- | CoercDb.Term _ -> assert false
+let source_of t =
+ try
+ let uri = CicUtil.uri_of_term t in
+ CoercDb.term_of_carr (fst (CoercDb.get_carr uri))
+ with Invalid_argument _ -> assert false (* t must be a coercion *)
-(* given a new coercion uri from src to tgt returns
- * a list of (new coercion uri, coercion obj, universe graph)
- *)
-let close_coercion_graph src tgt uri =
- (* check if the coercion already exists *)
- let coercions = CoercDb.to_list () in
- let todo_list = get_closure_coercions src tgt uri coercions in
- let todo_list = filter_duplicates todo_list coercions in
- let new_coercions, new_coercions_obj =
- List.split (
- List.map (
- fun (src, l , tgt) ->
- match l with
- | [] -> assert false
- | he :: tl ->
- let first_step =
- Cic.Constant ("",
- Some (term_of_carr (CoercDb.Uri he)), Cic.Sort Cic.Prop, [], obj_attrs)
- in
- let o,u =
- List.fold_left (fun (o,univ) coer ->
- match o with
- | Cic.Constant (_,Some c,_,[],_) ->
- generate_composite_closure c (term_of_carr (CoercDb.Uri
- coer)) univ
- | _ -> assert false
- ) (first_step, CicUniv.empty_ugraph) tl
- in
- let name_src = CoercDb.name_of_carr src in
- let name_tgt = CoercDb.name_of_carr tgt in
- let name = name_tgt ^ "_of_" ^ name_src in
- let buri = UriManager.buri_of_uri uri in
- let c_uri =
- UriManager.uri_of_string (buri ^ "/" ^ name ^ ".con")
- in
- let named_obj =
- match o with
- | Cic.Constant (_,bo,ty,vl,attrs) ->
- Cic.Constant (name,bo,ty,vl,attrs)
- | _ -> assert false
- in
- ((src,tgt,c_uri),(c_uri,named_obj,u))
- ) todo_list)
- in
- List.iter CoercDb.add_coercion (new_coercions @ [src,tgt,uri]);
- new_coercions_obj
-;;
-
-let coercion_hashtbl = UriManager.UriHashtbl.create 3
-
-let add_coercion ~basedir ~add_composites uri =
- let coer_ty,_ =
- CicTypeChecker.type_of_aux' [] [] (CicUtil.term_of_uri uri)
- CicUniv.empty_ugraph
- in
- (* we have to get the source and the tgt type uri
- * in Coq syntax we have already their names, but
- * since we don't support Funclass and similar I think
- * all the coercion should be of the form
- * (A:?)(B:?)T1->T2
- * So we should be able to extract them from the coercion type
- *)
- let extract_last_two_p ty =
- let rec aux = function
- | Cic.Prod( _, src, Cic.Prod (n,t1,t2)) -> aux (Cic.Prod(n,t1,t2))
- | Cic.Prod( _, src, tgt) -> src, tgt
- | _ -> assert false
- in
- aux ty
- in
- let ty_src,ty_tgt = extract_last_two_p coer_ty in
- let src_uri = CoercDb.coerc_carr_of_term (CicReduction.whd [] ty_src) in
- let tgt_uri = CoercDb.coerc_carr_of_term (CicReduction.whd [] ty_tgt) in
- let new_coercions = close_coercion_graph src_uri tgt_uri uri in
- let uris = ref [] in
- if add_composites then
- try
- let lemmas =
- List.fold_left
- (fun lemmas (uri,o,_) ->
- let lemmas' = LibrarySync.add_obj ~basedir uri o in
- uris := uri :: !uris;
- uri::lemmas'@lemmas
- ) [] new_coercions;
- in
- UriManager.UriHashtbl.add coercion_hashtbl uri !uris;
- lemmas
- with
- exn ->
- List.iter LibrarySync.remove_obj !uris;
- raise exn
- else
- []
-
-let remove_coercion uri =
- let uris =
+let target_of t =
try
- let res = UriManager.UriHashtbl.find coercion_hashtbl uri in
- UriManager.UriHashtbl.remove coercion_hashtbl uri;
- res
- with
- Not_found -> assert false
- in
- List.iter LibrarySync.remove_obj uris
-
+ let uri = CicUtil.uri_of_term t in
+ CoercDb.term_of_carr (snd (CoercDb.get_carr uri))
+ with Invalid_argument _ -> assert false (* t must be a coercion *)
+
(* EOF *)