module C = NCic
module Ref = NReference
+let debug = ref false;;
let indent = ref "";;
-let inside c = indent := !indent ^ String.make 1 c;;
-let outside () = indent := String.sub !indent 0 (String.length !indent -1);;
-
-
-let pp s =
+let times = ref [];;
+let pp s =
+ if !debug then
prerr_endline (Printf.sprintf "%-20s" !indent ^ " " ^ Lazy.force s)
-;;
+;;
+let inside c =
+ if !debug then
+ begin
+ let time1 = Unix.gettimeofday () in
+ indent := !indent ^ String.make 1 c;
+ times := time1 :: !times;
+ prerr_endline ("{{{" ^ !indent ^ " ")
+ end
+;;
+let outside ok =
+ if !debug then
+ begin
+ let time2 = Unix.gettimeofday () in
+ let time1 =
+ match !times with time1::tl -> times := tl; time1 | [] -> assert false in
+ prerr_endline ("}}} " ^ string_of_float (time2 -. time1));
+ if not ok then prerr_endline "exception raised!";
+ try
+ indent := String.sub !indent 0 (String.length !indent -1)
+ with
+ Invalid_argument _ -> indent := "??"; ()
+ end
+;;
-let pp _ = ();;
let wrap_exc msg = function
| NCicUnification.Uncertain _ -> Uncertain msg
| e -> raise e
;;
-let exp_implicit metasenv context expty =
- let foo x = match expty with Some t -> `WithType t | None -> x in
+let exp_implicit rdb ~localise metasenv subst context with_type t =
function
- | `Closed -> NCicMetaSubst.mk_meta metasenv [] (foo `Term)
- | `Type -> NCicMetaSubst.mk_meta metasenv context (foo `Type)
- | `Term -> NCicMetaSubst.mk_meta metasenv context (foo `Term)
+ | `Closed ->
+ let metasenv,subst,expty =
+ match with_type with
+ None -> metasenv,subst,None
+ | Some typ ->
+ let (metasenv,subst),typ =
+ try
+ NCicMetaSubst.delift
+ ~unify:(fun m s c t1 t2 ->
+ try Some (NCicUnification.unify rdb m s c t1 t2)
+ with NCicUnification.UnificationFailure _ | NCicUnification.Uncertain _ -> None)
+ metasenv subst context 0 (0,NCic.Irl 0) typ
+ with
+ NCicMetaSubst.MetaSubstFailure _
+ | NCicMetaSubst.Uncertain _ ->
+ raise (RefineFailure (lazy (localise t,"Trying to create a closed meta with a non closed type: " ^ NCicPp.ppterm ~metasenv ~subst ~context typ)))
+
+ in
+ metasenv,subst,Some typ
+ in
+ NCicMetaSubst.mk_meta metasenv [] ?with_type:expty `IsTerm,subst
+ | `Type -> NCicMetaSubst.mk_meta metasenv context ?with_type `IsType,subst
+ | `Term -> NCicMetaSubst.mk_meta metasenv context ?with_type `IsTerm,subst
+ | `Tagged s ->
+ NCicMetaSubst.mk_meta
+ ~attrs:[`Name s] metasenv context ?with_type `IsTerm,subst
+ | `Vector ->
+ raise (RefineFailure (lazy (localise t, "A vector of implicit terms " ^
+ "can only be used in argument position")))
| _ -> assert false
;;
-
-let check_allowed_sort_elimination hdb localise r orig =
+let check_allowed_sort_elimination rdb localise r orig =
let mkapp he arg =
match he with
| C.Appl l -> C.Appl (l @ [arg])
match arity1 with
| C.Prod (name,so1,de1) (* , t ==?== C.Prod _ *) ->
let metasenv, _, meta, _ =
- NCicMetaSubst.mk_meta metasenv ((name,C.Decl so1)::context) `Type
+ NCicMetaSubst.mk_meta metasenv ((name,C.Decl so1)::context) `IsType
in
let metasenv, subst =
- try NCicUnification.unify hdb metasenv subst context
+ try NCicUnification.unify rdb metasenv subst context
arity2 (C.Prod (name, so1, meta))
with exc -> raise (wrap_exc (lazy (localise orig, Printf.sprintf
"expected %s, found %s" (* XXX localizzare meglio *)
aux metasenv subst ((name, C.Decl so1)::context)
(mkapp (NCicSubstitution.lift 1 ind) (C.Rel 1)) de1 meta
| C.Sort _ (* , t ==?== C.Prod _ *) ->
- let metasenv, _, meta, _ = NCicMetaSubst.mk_meta metasenv [] `Type in
+ let metasenv, _, meta, _ = NCicMetaSubst.mk_meta metasenv [] `IsSort in
let metasenv, subst =
- try NCicUnification.unify hdb metasenv subst context
+ try NCicUnification.unify rdb metasenv subst context
arity2 (C.Prod ("_", ind, meta))
with exc -> raise (wrap_exc (lazy (localise orig, Printf.sprintf
"expected %s, found %s" (* XXX localizzare meglio *)
with exc -> raise (wrap_exc (lazy (localise orig,
"Sort elimination not allowed ")) exc))
| _ -> assert false
- (*D*)in outside(); rc with exc -> outside (); raise exc
+ (*D*)in outside true; rc with exc -> outside false; raise exc
in
aux
;;
-let rec typeof hdb
+let rec typeof rdb
?(localise=fun _ -> Stdpp.dummy_loc)
- ~look_for_coercion metasenv subst context term expty
+ metasenv subst context term expty
=
- let force_ty skip_lambda metasenv subst context orig t infty expty =
+ let force_ty skip_lambda skip_appl metasenv subst context orig t infty expty =
(*D*)inside 'F'; try let rc =
match expty with
| Some expty ->
(match t with
| C.Implicit _ -> assert false
| C.Lambda _ when skip_lambda -> metasenv, subst, t, expty
+ | C.Appl _ when skip_appl -> metasenv, subst, t, expty
| _ ->
- pp (lazy (
+ pp (lazy ("forcing infty=expty: "^
(NCicPp.ppterm ~metasenv ~subst ~context infty) ^ " === " ^
(NCicPp.ppterm ~metasenv ~subst:[] ~context expty)));
try
let metasenv, subst =
- NCicUnification.unify hdb metasenv subst context infty expty
+ (*D*)inside 'U'; try let rc =
+ NCicUnification.unify rdb metasenv subst context infty expty
+ (*D*)in outside true; rc with exc -> outside false; raise exc
in
metasenv, subst, t, expty
- with exc ->
- try_coercions hdb ~look_for_coercion ~localise
+ with
+ | NCicUnification.Uncertain _
+ | NCicUnification.UnificationFailure _ as exc ->
+ try_coercions rdb ~localise
metasenv subst context t orig infty expty true exc)
| None -> metasenv, subst, t, infty
- (*D*)in outside(); rc with exc -> outside (); raise exc
+ (*D*)in outside true; rc with exc -> outside false; raise exc
in
let rec typeof_aux metasenv subst context expty =
fun t as orig ->
(*D*)inside 'R'; try let rc =
- pp (lazy (NCicPp.ppterm ~metasenv ~subst ~context t));
- pp (lazy (if expty = None then "NONE" else "SOME"));
- if (List.exists (fun (i,_) -> i=29) subst) then
- pp (lazy (NCicPp.ppsubst ~metasenv subst));
+ pp (lazy (NCicPp.ppterm ~metasenv ~subst ~context t ^ " ::exp:: " ^
+ match expty with None -> "None" | Some e ->
+ NCicPp.ppterm ~metasenv ~subst ~context e));
let metasenv, subst, t, infty =
match t with
| C.Rel n ->
raise (RefineFailure (lazy (localise t,"unbound variable"))))
in
metasenv, subst, t, infty
- | C.Sort (C.Type [false,u]) -> metasenv,subst,t,(C.Sort (C.Type [true, u]))
- | C.Sort (C.Type _) ->
- raise (AssertFailure (lazy ("Cannot type an inferred type: "^
- NCicPp.ppterm ~subst ~metasenv ~context t)))
- | C.Sort _ -> metasenv,subst,t,(C.Sort (C.Type NCicEnvironment.type0))
+ | C.Sort s ->
+ (try metasenv, subst, t, C.Sort (NCicEnvironment.typeof_sort s)
+ with
+ | NCicEnvironment.UntypableSort msg ->
+ raise (RefineFailure (lazy (localise t, Lazy.force msg)))
+ | NCicEnvironment.AssertFailure msg -> raise (AssertFailure msg))
| C.Implicit infos ->
- let metasenv,_,t,ty = exp_implicit metasenv context expty infos in
- metasenv, subst, t, ty
+ let (metasenv,_,t,ty),subst =
+ exp_implicit rdb ~localise metasenv subst context expty t infos
+ in
+ if expty = None then
+ typeof_aux metasenv subst context None t
+ else
+ metasenv, subst, t, ty
| C.Meta (n,l) as t ->
- let ty =
+ let metasenv, ty =
try
- let _,_,_,ty = NCicUtils.lookup_subst n subst in ty
- with NCicUtils.Subst_not_found _ -> try
- let _,_,ty = NCicUtils.lookup_meta n metasenv in
- match ty with C.Implicit _ ->
- prerr_endline (string_of_int n);
- prerr_endline (NCicPp.ppmetasenv ~subst metasenv);
- prerr_endline (NCicPp.ppsubst ~metasenv subst);
- assert false | _ -> ty
- with NCicUtils.Meta_not_found _ ->
- raise (AssertFailure (lazy (Printf.sprintf
- "%s not found" (NCicPp.ppterm ~subst ~metasenv ~context t))))
+ let _,_,_,ty = NCicUtils.lookup_subst n subst in metasenv, ty
+ with NCicUtils.Subst_not_found _ ->
+ NCicMetaSubst.extend_meta metasenv n
in
metasenv, subst, t, NCicSubstitution.subst_meta l ty
| C.Const _ ->
| C.Prod (name,(s as orig_s),(t as orig_t)) ->
let metasenv, subst, s, s1 = typeof_aux metasenv subst context None s in
let metasenv, subst, s, s1 =
- force_to_sort hdb ~look_for_coercion
+ force_to_sort rdb
metasenv subst context s orig_s localise s1 in
let context1 = (name,(C.Decl s))::context in
let metasenv, subst, t, s2 = typeof_aux metasenv subst context1 None t in
let metasenv, subst, t, s2 =
- force_to_sort hdb ~look_for_coercion
+ force_to_sort rdb
metasenv subst context1 t orig_t localise s2 in
let metasenv, subst, s, t, ty =
sort_of_prod localise metasenv subst
| C.Prod (_,s,t) -> Some s, Some t, false
| _ -> None, None, true
in
- let metasenv, subst, s, ty_s =
- typeof_aux metasenv subst context None s in
- let metasenv, subst, s, _ =
- force_to_sort hdb ~look_for_coercion
- metasenv subst context s orig_s localise ty_s in
- let (metasenv,subst), exp_ty_t =
+ let (metasenv,subst), s =
match exp_s with
- | Some exp_s ->
- (try NCicUnification.unify hdb metasenv subst context s exp_s,exp_ty_t
- with exc -> raise (wrap_exc (lazy (localise orig_s, Printf.sprintf
- "Source type %s was expected to be %s" (NCicPp.ppterm ~metasenv
- ~subst ~context s) (NCicPp.ppterm ~metasenv ~subst ~context
- exp_s))) exc))
- | None -> (metasenv, subst), None
+ | Some exp_s ->
+ (* optimized case: implicit and implicitly typed meta
+ * the optimization prevents proliferation of metas *)
+ (match s with
+ | C.Implicit _ -> (metasenv,subst),exp_s
+ | _ ->
+ let metasenv, subst, s = match s with
+ | C.Meta (n,_)
+ when (try (match NCicUtils.lookup_meta n metasenv with
+ | _,_,C.Implicit (`Typeof _) -> true
+ | _ -> false)
+ with
+ | _ -> false) -> metasenv, subst, s
+ | _ -> check_type rdb ~localise metasenv subst context s in
+ (try
+ pp(lazy("Force source to: "^NCicPp.ppterm ~metasenv ~subst
+ ~context exp_s));
+ NCicUnification.unify ~test_eq_only:true rdb metasenv subst context s exp_s,s
+ with exc -> raise (wrap_exc (lazy (localise orig_s, Printf.sprintf
+ "Source type %s was expected to be %s" (NCicPp.ppterm ~metasenv
+ ~subst ~context s) (NCicPp.ppterm ~metasenv ~subst ~context
+ exp_s))) exc)))
+ | None ->
+ let metasenv, subst, s =
+ check_type rdb ~localise metasenv subst context s in
+ (metasenv, subst), s
in
let context_for_t = (n,C.Decl s) :: context in
let metasenv, subst, t, ty_t =
typeof_aux metasenv subst context_for_t exp_ty_t t
in
if force_after then
- force_ty false metasenv subst context orig
+ force_ty false true metasenv subst context orig
(C.Lambda(n,s,t)) (C.Prod (n,s,ty_t)) expty
else
metasenv, subst, C.Lambda(n,s,t), C.Prod (n,s,ty_t)
- | C.LetIn (n,(ty as orig_ty),t,bo) ->
- let metasenv, subst, ty, ty_ty =
- typeof_aux metasenv subst context None ty in
- let metasenv, subst, ty, _ =
- force_to_sort hdb ~look_for_coercion
- metasenv subst context ty orig_ty localise ty_ty in
+ | C.LetIn (n,ty,t,bo) ->
+ let metasenv, subst, ty =
+ check_type rdb ~localise metasenv subst context ty in
let metasenv, subst, t, _ =
typeof_aux metasenv subst context (Some ty) t in
let context1 = (n, C.Def (t,ty)) :: context in
+ let metasenv, subst, expty1 =
+ match expty with
+ | None -> metasenv, subst, None
+ | Some x ->
+ let m, s, x =
+ NCicUnification.delift_type_wrt_terms
+ rdb metasenv subst context1 (NCicSubstitution.lift 1 x)
+ [NCicSubstitution.lift 1 t]
+ in
+ m, s, Some x
+ in
let metasenv, subst, bo, bo_ty =
- typeof_aux metasenv subst context1 None bo
+ typeof_aux metasenv subst context1 expty1 bo
in
let bo_ty = NCicSubstitution.subst ~avoid_beta_redexes:true t bo_ty in
metasenv, subst, C.LetIn (n, ty, t, bo), bo_ty
| C.Appl ((he as orig_he)::(_::_ as args)) ->
- let upto =
- match orig_he with C.Meta _ -> List.length args | _ -> 0
+ let upto = match orig_he with C.Meta _ -> List.length args | _ -> 0 in
+ let hbr t =
+ if upto > 0 then NCicReduction.head_beta_reduce ~upto t else t
in
- let metasenv, subst, he, ty_he =
- typeof_aux metasenv subst context None he in
- let metasenv, subst, t, ty =
- eat_prods hdb ~localise ~look_for_coercion
- metasenv subst context orig_he he ty_he args
+ let refine_appl metasenv subst args =
+ let metasenv, subst, he, ty_he =
+ typeof_aux metasenv subst context None he in
+ let metasenv, subst, t, ty =
+ eat_prods rdb ~localise force_ty metasenv subst context expty t
+ orig_he he ty_he args in
+ metasenv, subst, hbr t, ty
in
- let t = if upto > 0 then NCicReduction.head_beta_reduce ~upto t else t in
- metasenv, subst, t, ty
+ if args = [C.Implicit `Vector] && expty <> None then
+ (* we try here to expand the vector a 0 implicits, but we use
+ * the expected type *)
+ try
+ let metasenv, subst, he, ty_he =
+ typeof_aux metasenv subst context expty he in
+ metasenv, subst, hbr he, ty_he
+ with Uncertain _ | RefineFailure _ -> refine_appl metasenv subst args
+ else
+ (* CSC: whd can be useful on he too... *)
+ (match he with
+ C.Const (Ref.Ref (uri1,Ref.Con _)) -> (
+ match
+ HExtlib.map_option (NCicReduction.whd ~subst context) expty
+ with
+ Some (C.Appl(C.Const(Ref.Ref (uri2,Ref.Ind _) as ref)::expargs))
+ when NUri.eq uri1 uri2 ->
+ (try
+ let _,leftno,_,_,_ = NCicEnvironment.get_checked_indtys ref in
+ let leftexpargs,_ = HExtlib.split_nth leftno expargs in
+ let rec instantiate metasenv subst revargs args =
+ function
+ [] ->
+ (* some checks are re-done here, but it would be complex
+ to avoid them (e.g. we did not check yet that the
+ constructor is a constructor for that inductive type)*)
+ refine_appl metasenv subst ((List.rev revargs)@args)
+ | (exparg::expargs) as allexpargs ->
+ match args with
+ [] -> raise (Failure "Not enough args")
+ | (C.Implicit `Vector::args) as allargs ->
+ (try
+ instantiate metasenv subst revargs args allexpargs
+ with
+ Sys.Break as exn -> raise exn
+ | _ ->
+ instantiate metasenv subst revargs
+ (C.Implicit `Term :: allargs) allexpargs)
+ | arg::args ->
+ let metasenv,subst,arg,_ =
+ typeof_aux metasenv subst context None arg in
+ let metasenv,subst =
+ NCicUnification.unify rdb metasenv subst context
+ arg exparg
+ in
+ instantiate metasenv subst(arg::revargs) args expargs
+ in
+ instantiate metasenv subst [] args leftexpargs
+ with
+ | Sys.Break as exn -> raise exn
+ | _ ->
+ refine_appl metasenv subst args (* to try coercions *))
+ | _ -> refine_appl metasenv subst args)
+ | _ -> refine_appl metasenv subst args)
| C.Appl _ -> raise (AssertFailure (lazy "Appl of length < 2"))
| C.Match (Ref.Ref (_,Ref.Ind (_,tyno,_)) as r,
outtype,(term as orig_term),pl) as orig ->
in
let metasenv, subst, outtype, outsort =
typeof_aux metasenv subst context None outtype in
+
+ (* next lines are to do a subst-expansion of the outtype, so
+ that when it becomes a beta-abstraction, the beta-redex is
+ fired during substitution *)
+ let _,fresh_metanoouttype,newouttype,_ =
+ NCicMetaSubst.mk_meta metasenv context `IsTerm in
+ let subst =
+ (fresh_metanoouttype,([`Name "outtype"],context,outtype,outsort))
+ ::subst in
+ let outtype = newouttype in
+
(* let's control if the sort elimination is allowed: [(I q1 ... qr)|B] *)
let ind =
if parameters = [] then C.Const r
let metasenv, subst, ind, ind_ty =
typeof_aux metasenv subst context None ind in
let metasenv, subst =
- check_allowed_sort_elimination hdb localise r orig_term metasenv subst
+ check_allowed_sort_elimination rdb localise r orig_term metasenv subst
context ind ind_ty outsort
in
(* let's check if the type of branches are right *)
match expty with
| None -> metasenv, subst
| Some expty ->
- NCicUnification.unify hdb metasenv subst context resty expty
+ NCicUnification.unify rdb metasenv subst context resty expty
in
*)
- let _, metasenv, subst, pl_rev =
- List.fold_left
- (fun (j, metasenv, subst, branches) p ->
+ let _, metasenv, subst, pl =
+ List.fold_right
+ (fun p (j, metasenv, subst, branches) ->
let cons =
let cons = Ref.mk_constructor j r in
if parameters = [] then C.Const cons
NCicTypeChecker.type_of_branch
~subst context leftno outtype cons ty_cons in
pp (lazy ("TYPEOFBRANCH: " ^
- NCicPp.ppterm ~metasenv ~subst ~context p ^ " ::: " ^
+ NCicPp.ppterm ~metasenv ~subst ~context p ^ " ::inf:: " ^
NCicPp.ppterm ~metasenv ~subst ~context ty_branch ));
let metasenv, subst, p, _ =
typeof_aux metasenv subst context (Some ty_branch) p in
- j+1, metasenv, subst, p :: branches)
- (1, metasenv, subst, []) pl
+ j-1, metasenv, subst, p :: branches)
+ pl (List.length pl, metasenv, subst, [])
in
let resty = C.Appl (outtype::arguments@[term]) in
let resty = NCicReduction.head_beta_reduce ~subst resty in
- metasenv, subst, C.Match (r, outtype, term, List.rev pl_rev),resty
- | C.Match _ as orig -> assert false
+ metasenv, subst, C.Match (r, outtype, term, pl),resty
+ | C.Match _ -> assert false
in
- pp (lazy (NCicPp.ppterm ~metasenv ~subst ~context t ^ " :: "^
+ pp (lazy (NCicPp.ppterm ~metasenv ~subst ~context t ^ " ::inf:: "^
NCicPp.ppterm ~metasenv ~subst ~context infty ));
- force_ty true metasenv subst context orig t infty expty
- (*D*)in outside(); rc with exc -> outside (); raise exc
+ force_ty true true metasenv subst context orig t infty expty
+ (*D*)in outside true; rc with exc -> outside false; raise exc
in
typeof_aux metasenv subst context expty term
-and try_coercions hdb
- ~localise ~look_for_coercion
+and check_type rdb ~localise metasenv subst context (ty as orig_ty) =
+ let metasenv, subst, ty, sort =
+ typeof rdb ~localise metasenv subst context ty None
+ in
+ let metasenv, subst, ty, _ =
+ force_to_sort rdb metasenv subst context ty orig_ty localise sort
+ in
+ metasenv, subst, ty
+
+and try_coercions rdb
+ ~localise
metasenv subst context t orig_t infty expty perform_unification exc
=
+ let cs_subst = NCicSubstitution.subst ~avoid_beta_redexes:true in
+ try
+ pp (lazy "WWW: trying coercions -- preliminary unification");
+ let metasenv, subst =
+ NCicUnification.unify rdb metasenv subst context infty expty
+ in metasenv, subst, t, expty
+ with
+ | exn ->
(* we try with a coercion *)
let rec first exc = function
- | [] ->
+ | [] ->
+ pp (lazy "WWW: no more coercions!");
raise (wrap_exc (lazy (localise orig_t, Printf.sprintf
- "The term %s has type %s but is here used with type %s"
+ "The term\n%s\nhas type\n%s\nbut is here used with type\n%s"
(NCicPp.ppterm ~metasenv ~subst ~context t)
(NCicPp.ppterm ~metasenv ~subst ~context infty)
(NCicPp.ppterm ~metasenv ~subst ~context expty))) exc)
- | (metasenv, newterm, newtype, meta)::tl ->
+ | (_,metasenv, newterm, newtype, meta)::tl ->
try
+ pp (lazy("K=" ^ NCicPp.ppterm ~metasenv ~subst ~context newterm));
pp (lazy ( "UNIFICATION in CTX:\n"^
NCicPp.ppcontext ~metasenv ~subst context
^ "\nMENV: " ^
NCicPp.ppmetasenv metasenv ~subst
^ "\nOF: " ^
- NCicPp.ppterm ~metasenv ~subst ~context meta ^ " === " ^
- NCicPp.ppterm ~metasenv ~subst ~context t ^ "\n"));
+ NCicPp.ppterm ~metasenv ~subst ~context t ^ " === " ^
+ NCicPp.ppterm ~metasenv ~subst ~context meta ^ "\n"));
let metasenv, subst =
- NCicUnification.unify hdb metasenv subst context meta t
+ NCicUnification.unify rdb metasenv subst context t meta
in
pp (lazy ( "UNIFICATION in CTX:\n"^
NCicPp.ppcontext ~metasenv ~subst context
NCicPp.ppterm ~metasenv ~subst ~context expty ^ "\n"));
let metasenv, subst =
if perform_unification then
- NCicUnification.unify hdb metasenv subst context newtype expty
+ NCicUnification.unify rdb metasenv subst context newtype expty
else metasenv, subst
in
metasenv, subst, newterm, newtype
with
| NCicUnification.UnificationFailure _ -> first exc tl
| NCicUnification.Uncertain _ as exc -> first exc tl
- in
+ in
+
+ try
+ pp (lazy "WWW: trying coercions -- inner check");
+ match infty, expty, t with
+ | _,_, NCic.Match (Ref.Ref (_,Ref.Ind (_,tyno,leftno)) as r,outty,m,pl) ->
+ (*{{{*) pp (lazy "CASE");
+ (* {{{ helper functions *)
+ let get_cl_and_left_p refit outty =
+ match refit with
+ | NReference.Ref (uri, NReference.Ind (_,tyno,leftno)) ->
+ let _, leftno, itl, _, _ = NCicEnvironment.get_checked_indtys r in
+ let _, _, ty, cl = List.nth itl tyno in
+ let constructorsno = List.length cl in
+ let count_pis t =
+ let rec aux ctx t =
+ match NCicReduction.whd ~subst ~delta:max_int ctx t with
+ | NCic.Prod (name,src,tgt) ->
+ let ctx = (name, (NCic.Decl src)) :: ctx in
+ 1 + aux ctx tgt
+ | _ -> 0
+ in
+ aux [] t
+ in
+ let rec skip_lambda_delifting t n =
+ match t,n with
+ | _,0 -> t
+ | NCic.Lambda (_,_,t),n ->
+ pp (lazy ("WWW: failing term? "^ NCicPp.ppterm ~subst:[] ~metasenv:[] ~context:[] t));
+ skip_lambda_delifting
+ (* substitute dangling indices with a dummy *)
+ (NCicSubstitution.subst (NCic.Sort NCic.Prop) t) (n - 1)
+ | _ -> assert false
+ in
+ let get_l_r_p n = function
+ | NCic.Lambda (_,NCic.Const (Ref.Ref (_,Ref.Ind (_,_,_))),_) -> [],[]
+ | NCic.Lambda (_,NCic.Appl
+ (NCic.Const (Ref.Ref (_,Ref.Ind (_,_,_))) :: args),_) ->
+ HExtlib.split_nth n args
+ | _ -> assert false
+ in
+ let pis = count_pis ty in
+ let rno = pis - leftno in
+ let t = skip_lambda_delifting outty rno in
+ let left_p, _ = get_l_r_p leftno t in
+ let instantiate_with_left cl =
+ List.map
+ (fun ty ->
+ List.fold_left
+ (fun t p -> match t with
+ | NCic.Prod (_,_,t) ->
+ cs_subst p t
+ | _-> assert false)
+ ty left_p)
+ cl
+ in
+ let cl = instantiate_with_left (List.map (fun (_,_,x) -> x) cl) in
+ cl, left_p, leftno, rno
+ | _ -> raise exn
+ in
+ let rec keep_lambdas_and_put_expty ctx t bo right_p matched n =
+ match t,n with
+ | _,0 ->
+ let rec mkr n = function
+ | [] -> [] | _::tl -> NCic.Rel n :: mkr (n+1) tl
+ in
+ pp (lazy ("input replace: " ^ NCicPp.ppterm ~context:ctx ~metasenv:[] ~subst:[] bo));
+ let bo =
+ NCicRefineUtil.replace_lifting
+ ~equality:(fun _ -> NCicRefineUtil.alpha_equivalence)
+ ~context:ctx
+ ~what:(matched::right_p)
+ ~with_what:(NCic.Rel 1::List.rev (mkr 2 right_p))
+ ~where:bo
+ in
+ pp (lazy ("output replace: " ^ NCicPp.ppterm ~context:ctx ~metasenv:[] ~subst:[] bo));
+ bo
+ | NCic.Lambda (name, src, tgt),_ ->
+ NCic.Lambda (name, src,
+ keep_lambdas_and_put_expty
+ ((name, NCic.Decl src)::ctx) tgt (NCicSubstitution.lift 1 bo)
+ (List.map (NCicSubstitution.lift 1) right_p) (NCicSubstitution.lift 1 matched) (n-1))
+ | _ -> assert false
+ in
+ (*let eq = NCic.Const (NReference.reference_of_string ("cic:/matita/ng/Plogic/equality/eq.ind(1,0,2)")) in
+ let eq_refl = NCic.Const (NReference.reference_of_string ("cic:/matita/ng/Plogic/equality/eq.con(0,1,2)")) in*)
+ let eq = NCic.Const (NReference.reference_of_string ("cic:/matita/ng/Plogic/jmeq/jmeq.ind(1,0,2)")) in
+ let eq_refl = NCic.Const (NReference.reference_of_string ("cic:/matita/ng/Plogic/jmeq/jmeq.con(0,1,2)")) in
+ let add_params
+ metasenv subst context cty outty mty m i
+ =
+ let rec aux context outty par j mty m = function
+ | NCic.Prod (name, src, tgt) ->
+ let t,k =
+ aux
+ ((name, NCic.Decl src) :: context)
+ (NCicSubstitution.lift 1 outty) (NCic.Rel j::par) (j+1)
+ (NCicSubstitution.lift 1 mty) (NCicSubstitution.lift 1 m) tgt
+ in
+ NCic.Prod (name, src, t), k
+ | NCic.Const (Ref.Ref (_,Ref.Ind (_,_,leftno)) as r) ->
+ let k =
+ let k = NCic.Const(Ref.mk_constructor i r) in
+ NCicUntrusted.mk_appl k par
+ in
+ (* the type has no parameters, so kty = mty
+ let kty =
+ try NCicTypechecker.typeof ~subst ~metasenv context k
+ with NCicTypeChecker.TypeCheckerFailure _ -> assert false
+ in *)
+ NCic.Prod ("p",
+ NCic.Appl [eq; mty; m; mty; k],
+ (NCicSubstitution.lift 1
+ (NCicReduction.head_beta_reduce ~delta:max_int
+ (NCicUntrusted.mk_appl outty [k])))),[mty,m,mty,k]
+ | NCic.Appl (NCic.Const (Ref.Ref (_,Ref.Ind (_,_,leftno)) as r)::pl) ->
+ let left_p,right_p = HExtlib.split_nth leftno pl in
+ let has_rights = right_p <> [] in
+ let k =
+ let k = NCic.Const(Ref.mk_constructor i r) in
+ NCicUntrusted.mk_appl k (left_p@par)
+ in
+ let right_p =
+ try match
+ NCicTypeChecker.typeof ~subst ~metasenv context k
+ with
+ | NCic.Appl (NCic.Const (Ref.Ref (_,Ref.Ind (_,_,_)))::args) ->
+ snd (HExtlib.split_nth leftno args)
+ | _ -> assert false
+ with NCicTypeChecker.TypeCheckerFailure _-> assert false
+ in
+ let orig_right_p =
+ match mty with
+ | NCic.Appl (NCic.Const (Ref.Ref (_,Ref.Ind (_,_,_)))::args) ->
+ snd (HExtlib.split_nth leftno args)
+ | _ -> assert false
+ in
+ List.fold_right2
+ (fun x y (tacc,pacc) ->
+ let xty =
+ try NCicTypeChecker.typeof ~subst ~metasenv context x
+ with NCicTypeChecker.TypeCheckerFailure _ -> assert false
+ in
+ let yty =
+ try NCicTypeChecker.typeof ~subst ~metasenv context y
+ with NCicTypeChecker.TypeCheckerFailure _ -> assert false
+ in
+ NCic.Prod ("_", NCic.Appl [eq;xty;x;yty;y],
+ NCicSubstitution.lift 1 tacc), (xty,x,yty,y)::pacc)
+ (orig_right_p @ [m]) (right_p @ [k])
+ (NCicReduction.head_beta_reduce ~delta:max_int
+ (NCicUntrusted.mk_appl outty (right_p@[k])), [])
+
+ (* if has_rights then
+ NCicReduction.head_beta_reduce ~delta:max_int
+ (NCic.Appl (outty ::right_p @ [k])),k
+ else
+ NCic.Prod ("p",
+ NCic.Appl [eq; mty; m; k],
+ (NCicSubstitution.lift 1
+ (NCicReduction.head_beta_reduce ~delta:max_int
+ (NCic.Appl (outty ::right_p @ [k]))))),k*)
+ | _ -> assert false
+ in
+ aux context outty [] 1 mty m cty
+ in
+ let add_lambda_for_refl_m pbo eqs cty =
+ (* k lives in the right context *)
+ (* if rno <> 0 then pbo else *)
+ let rec aux = function
+ | NCic.Lambda (name,src,bo), NCic.Prod (_,_,ty) ->
+ NCic.Lambda (name,src,
+ (aux (bo,ty)))
+ | t,_ -> snd (List.fold_right
+ (fun (xty,x,yty,y) (n,acc) -> n+1, NCic.Lambda ("p" ^ string_of_int n,
+ NCic.Appl [eq; xty; x; yty; y],
+ NCicSubstitution.lift 1 acc)) eqs (1,t))
+ (*NCic.Lambda ("p",
+ NCic.Appl [eq; mty; m; k],NCicSubstitution.lift 1 t)*)
+ in
+ aux (pbo,cty)
+ in
+ let add_pi_for_refl_m context new_outty mty m lno rno =
+ (*if rno <> 0 then new_outty else*)
+ let rec aux context mty m = function
+ | NCic.Lambda (name, src, tgt) ->
+ let context = (name, NCic.Decl src)::context in
+ NCic.Lambda (name, src, aux context (NCicSubstitution.lift 1 mty) (NCicSubstitution.lift 1 m) tgt)
+ | t ->
+ let lhs =
+ match mty with
+ | NCic.Appl (_::params) -> (snd (HExtlib.split_nth lno params))@[m]
+ | _ -> [m]
+ in
+ let rhs =
+ List.map (fun x -> NCic.Rel x)
+ (List.rev (HExtlib.list_seq 1 (rno+2))) in
+ List.fold_right2
+ (fun x y acc ->
+ let xty =
+ try NCicTypeChecker.typeof ~subst ~metasenv context x
+ with NCicTypeChecker.TypeCheckerFailure _ -> assert false
+ in
+ let yty =
+ try NCicTypeChecker.typeof ~subst ~metasenv context y
+ with NCicTypeChecker.TypeCheckerFailure _ -> assert false
+ in
+ NCic.Prod
+ ("_", NCic.Appl [eq;xty;x;yty;y],
+ (NCicSubstitution.lift 1 acc)))
+ lhs rhs t
+ (* NCic.Prod
+ ("_", NCic.Appl [eq;mty;m;NCic.Rel 1],
+ NCicSubstitution.lift 1 t)*)
+ in
+ aux context mty m new_outty
+ in (* }}} end helper functions *)
+ (* constructors types with left params already instantiated *)
+ let outty = NCicUntrusted.apply_subst subst context outty in
+ let cl, left_p, leftno,rno =
+ get_cl_and_left_p r outty
+ in
+ let right_p, mty =
+ try
+ match
+ NCicTypeChecker.typeof ~subst ~metasenv context m
+ with
+ | (NCic.Const (Ref.Ref (_,Ref.Ind (_,_,_))) | NCic.Meta _) as mty -> [], mty
+ | NCic.Appl ((NCic.Const (Ref.Ref (_,Ref.Ind (_,_,_)))|NCic.Meta _)::args) as mty ->
+ snd (HExtlib.split_nth leftno args), mty
+ | _ -> assert false
+ with NCicTypeChecker.TypeCheckerFailure _ ->
+ raise (AssertFailure(lazy "already ill-typed matched term"))
+ in
+ let mty = NCicUntrusted.apply_subst subst context mty in
+ let outty = NCicUntrusted.apply_subst subst context outty in
+ let expty = NCicUntrusted.apply_subst subst context expty in
+ let new_outty =
+ keep_lambdas_and_put_expty context outty expty right_p m (rno+1)
+ in
+ pp
+ (lazy ("CASE: new_outty: " ^ NCicPp.ppterm
+ ~context ~metasenv ~subst new_outty));
+ let _,pl,subst,metasenv =
+ List.fold_right2
+ (fun cty pbo (i, acc, s, menv) ->
+ pp (lazy ("begin iteration"));
+ (* Pi k_par, (Pi H:m=(K_i left_par k_par)),
+ * (new_)outty right_par (K_i left_par k_par) *)
+ let infty_pbo, _ =
+ add_params menv s context cty outty mty m i in
+ pp
+ (lazy ("CASE: infty_pbo: "^ NCicPp.ppterm
+ ~context ~metasenv ~subst infty_pbo));
+ let expty_pbo, eqs = (* k is (K_i left_par k_par) *)
+ add_params menv s context cty new_outty mty m i in
+ pp
+ (lazy ("CASE: expty_pbo: "^ NCicPp.ppterm
+ ~context ~metasenv ~subst expty_pbo));
+ let pbo = add_lambda_for_refl_m pbo eqs cty in
+ pp
+ (lazy ("CASE: pbo: " ^ NCicPp.ppterm
+ ~context ~metasenv ~subst pbo));
+ let metasenv, subst, pbo, _ =
+ try_coercions rdb ~localise menv s context pbo
+ orig_t (*??*) infty_pbo expty_pbo perform_unification exc
+ in
+ pp
+ (lazy ("CASE: pbo2: " ^ NCicPp.ppterm
+ ~context ~metasenv ~subst pbo));
+ (i-1, pbo::acc, subst, metasenv))
+ cl pl (List.length pl, [], subst, metasenv)
+ in
+ (*let metasenv, subst =
+ try
+ NCicUnification.unify rdb metasenv subst context outty new_outty
+ with _ -> raise (RefineFailure (lazy (localise orig_t, "try_coercions")))
+ in*)
+ let new_outty = add_pi_for_refl_m context new_outty mty m leftno rno in
+ pp (lazy ("CASE: new_outty: " ^ (NCicPp.ppterm
+ ~metasenv ~subst ~context new_outty)));
+ let right_tys =
+ List.map
+ (fun t -> NCicTypeChecker.typeof ~subst ~metasenv context t) right_p in
+ let eqs =
+ List.map2 (fun x y -> NCic.Appl[eq_refl;x;y]) (right_tys@[mty])
+ (right_p@[m]) in
+ let t = NCic.Appl (NCic.Match(r,new_outty,m,pl) :: eqs)
+ in
+ metasenv, subst, t, expty (*}}}*)
+ | NCic.Prod (nameprod, src, ty),NCic.Prod (_, src2, ty2), _ ->
+ let rec mk_fresh_name ctx firstch n =
+ let candidate = (String.make 1 firstch) ^ (string_of_int n) in
+ if (List.for_all (fun (s,_) -> s <> candidate) ctx) then candidate
+ else mk_fresh_name ctx firstch (n+1)
+ in
+ (*{{{*) pp (lazy "LAM");
+ pp (lazy ("LAM: t = " ^ NCicPp.ppterm ~metasenv ~subst ~context t));
+ let name_con = mk_fresh_name context 'c' 0
+ (*FreshNamesGenerator.mk_fresh_name
+ ~subst metasenv context ~typ:src2 Cic.Anonymous*)
+ in
+ let context_src2 = ((name_con, NCic.Decl src2) :: context) in
+ (* contravariant part: the argument of f:src->ty *)
+ let metasenv, subst, rel1, _ =
+ try_coercions rdb ~localise metasenv subst context_src2
+ (NCic.Rel 1) orig_t (NCicSubstitution.lift 1 src2)
+ (NCicSubstitution.lift 1 src) perform_unification exc
+ in
+ (* covariant part: the result of f(c x); x:src2; (c x):src *)
+ let name_t, bo =
+ match t with
+ | NCic.Lambda (n,_,bo) -> n, cs_subst rel1 (NCicSubstitution.lift_from 2 1 bo)
+ | _ -> name_con, NCicUntrusted.mk_appl (NCicSubstitution.lift 1 t) [rel1]
+ in
+ (* we fix the possible dependency problem in the source ty *)
+ let ty = cs_subst rel1 (NCicSubstitution.lift_from 2 1 ty) in
+ let metasenv, subst, bo, _ =
+ try_coercions rdb ~localise metasenv subst context_src2
+ bo orig_t ty ty2 perform_unification exc
+ in
+ let coerced = NCic.Lambda (name_t,src2, bo) in
+ pp (lazy ("LAM: coerced = " ^ NCicPp.ppterm ~metasenv ~subst ~context coerced));
+ metasenv, subst, coerced, expty (*}}}*)
+ | _ -> raise exc
+ with exc2 ->
+ pp(lazy("try_coercion " ^
+ NCicPp.ppterm ~metasenv ~subst ~context infty ^ " |---> " ^
+ NCicPp.ppterm ~metasenv ~subst ~context expty));
first exc
- (look_for_coercion metasenv subst context infty expty)
+ (NCicCoercion.look_for_coercion
+ rdb metasenv subst context infty expty)
-and force_to_sort hdb
- ~look_for_coercion metasenv subst context t orig_t localise ty
-=
- match NCicReduction.whd ~subst context ty with
- | C.Meta (_,(0,(C.Irl 0 | C.Ctx []))) as ty ->
- metasenv, subst, t, ty
- | C.Meta (i,(_,(C.Irl 0 | C.Ctx []))) ->
- metasenv, subst, t, C.Meta(i,(0,C.Irl 0))
- | C.Meta (i,(_,lc)) ->
- let len = match lc with C.Irl len->len | C.Ctx l->List.length l in
- let metasenv, subst, newmeta =
- if len > 0 then
- NCicMetaSubst.restrict metasenv subst i (HExtlib.list_seq 1 (len+1))
- else metasenv, subst, i
- in
- metasenv, subst, t, C.Meta (newmeta,(0,C.Irl 0))
- | C.Sort _ as ty -> metasenv, subst, t, ty
- | ty ->
- try_coercions hdb ~localise ~look_for_coercion metasenv subst context
- t orig_t ty (NCic.Sort (NCic.Type NCicEnvironment.type0)) false
- (Uncertain (lazy (localise orig_t,
- "The type of " ^ NCicPp.ppterm ~metasenv ~subst ~context t
- ^ " is not a sort: " ^ NCicPp.ppterm ~metasenv ~subst ~context ty)))
+and force_to_sort rdb metasenv subst context t orig_t localise ty =
+ try
+ let metasenv, subst, ty =
+ NCicUnification.sortfy (Failure "sortfy") metasenv subst context ty in
+ metasenv, subst, t, ty
+ with
+ Failure _ ->
+ let ty = NCicReduction.whd ~subst context ty in
+ try_coercions rdb ~localise metasenv subst context
+ t orig_t ty (NCic.Sort (NCic.Type
+ (match NCicEnvironment.get_universes () with
+ | x::_ -> x
+ | _ -> assert false))) false
+ (Uncertain (lazy (localise orig_t,
+ "The type of " ^ NCicPp.ppterm ~metasenv ~subst ~context t ^
+ " is not a sort: " ^ NCicPp.ppterm ~metasenv ~subst ~context ty)))
and sort_of_prod
localise metasenv subst context orig_s orig_t (name,s) t (t1, t2)
(NCicPp.ppterm ~subst ~metasenv ~context y)
(NCicPp.ppterm ~subst ~metasenv ~context x))))
-and eat_prods hdb
- ~localise ~look_for_coercion metasenv subst context orig_he he ty_he args
-=
+and guess_name subst ctx ty =
+ let aux initial = "#" ^ String.make 1 initial in
+ match ty with
+ | C.Const (NReference.Ref (u,_))
+ | C.Appl (C.Const (NReference.Ref (u,_)) :: _) ->
+ aux (String.sub (NUri.name_of_uri u) 0 1).[0]
+ | C.Prod _ -> aux 'f'
+ | C.Meta (n,lc) ->
+ (try
+ let _,_,t,_ = NCicUtils.lookup_subst n subst in
+ guess_name subst ctx (NCicSubstitution.subst_meta lc t)
+ with NCicUtils.Subst_not_found _ -> aux 'M')
+ | _ -> aux 'H'
+
+and eat_prods rdb ~localise force_ty metasenv subst context expty orig_t orig_he he ty_he args =
(*D*)inside 'E'; try let rc =
- let rec aux metasenv subst args_so_far he ty_he = function
- | []->metasenv, subst, NCicUntrusted.mk_appl he (List.rev args_so_far), ty_he
+ let rec aux metasenv subst args_so_far he ty_he xxx =
+ (*D*)inside 'V'; try let rc =
+ match xxx with
+ | [] ->
+ let res = NCicUntrusted.mk_appl he (List.rev args_so_far) in
+ pp(lazy("FORCE FINAL APPL: " ^
+ NCicPp.ppterm ~metasenv ~subst ~context res ^
+ " of type " ^ NCicPp.ppterm ~metasenv ~subst ~context ty_he
+ ^ " to type " ^ match expty with None -> "None" | Some x ->
+ NCicPp.ppterm ~metasenv ~subst ~context x));
+ (* whatever the term is, we force the type. in case of ((Lambda..) ?...)
+ * the application may also be a lambda! *)
+ force_ty false false metasenv subst context orig_t res ty_he expty
+ | NCic.Implicit `Vector::tl ->
+ let has_some_more_pis x =
+ match NCicReduction.whd ~subst context x with
+ | NCic.Meta _ | NCic.Appl (NCic.Meta _::_) -> false
+ | _ -> true
+ in
+ (try
+ aux metasenv subst args_so_far he ty_he tl
+ with
+ | Uncertain _
+ | RefineFailure _ as exc when has_some_more_pis ty_he ->
+ (try
+ aux metasenv subst args_so_far he ty_he
+ (NCic.Implicit `Term :: NCic.Implicit `Vector :: tl)
+ with
+ Uncertain msg | RefineFailure msg -> raise (wrap_exc msg exc))
+ | RefineFailure msg when not (has_some_more_pis ty_he) ->
+ (* instantiating the head could change the has_some_more_pis flag *)
+ raise (Uncertain msg))
| arg::tl ->
match NCicReduction.whd ~subst context ty_he with
| C.Prod (_,s,t) ->
let metasenv, subst, arg, _ =
- typeof hdb ~look_for_coercion ~localise
- metasenv subst context arg (Some s) in
+ typeof rdb ~localise metasenv subst context arg (Some s) in
let t = NCicSubstitution.subst ~avoid_beta_redexes:true arg t in
aux metasenv subst (arg :: args_so_far) he t tl
| C.Meta _
| C.Appl (C.Meta _ :: _) as t ->
let metasenv, subst, arg, ty_arg =
- typeof hdb ~look_for_coercion ~localise
- metasenv subst context arg None in
+ typeof rdb ~localise metasenv subst context arg None in
+ let name = guess_name subst context ty_arg in
let metasenv, _, meta, _ =
NCicMetaSubst.mk_meta metasenv
- (("_",C.Decl ty_arg) :: context) `Type
+ ((name,C.Decl ty_arg) :: context) `IsType
in
- let flex_prod = C.Prod ("_", ty_arg, meta) in
+ let flex_prod = C.Prod (name, ty_arg, meta) in
(* next line grants that ty_args is a type *)
let metasenv,subst, flex_prod, _ =
- typeof hdb ~look_for_coercion ~localise metasenv subst
- context flex_prod None in
+ typeof rdb ~localise metasenv subst context flex_prod None in
+(*
pp (lazy ( "UNIFICATION in CTX:\n"^
NCicPp.ppcontext ~metasenv ~subst context
^ "\nOF: " ^
NCicPp.ppterm ~metasenv ~subst ~context t ^ " === " ^
NCicPp.ppterm ~metasenv ~subst ~context flex_prod ^ "\n"));
- let metasenv, subst =
- try NCicUnification.unify hdb metasenv subst context t flex_prod
+*)
+ let metasenv, subst =
+ try NCicUnification.unify rdb metasenv subst context t flex_prod
with exc -> raise (wrap_exc (lazy (localise orig_he, Printf.sprintf
("The term %s has an inferred type %s, but is applied to the" ^^
" argument %s of type %s")
(NCicPp.ppterm ~metasenv ~subst ~context he)
(NCicPp.ppterm ~metasenv ~subst ~context t)
(NCicPp.ppterm ~metasenv ~subst ~context arg)
- (NCicPp.ppterm ~metasenv ~subst ~context ty_arg))) exc)
+ (NCicPp.ppterm ~metasenv ~subst ~context ty_arg)))
+ (match exc with
+ | NCicUnification.UnificationFailure m ->
+ NCicUnification.Uncertain m
+ | x -> x))
(* XXX coerce to funclass *)
in
let meta = NCicSubstitution.subst ~avoid_beta_redexes:true arg meta in
(List.length args) (List.length args_so_far))))
| ty ->
let metasenv, subst, newhead, newheadty =
- try_coercions hdb ~localise ~look_for_coercion metasenv subst context
+ try_coercions rdb ~localise metasenv subst context
(NCicUntrusted.mk_appl he (List.rev args_so_far)) orig_he ty
(NCic.Prod ("_",NCic.Implicit `Term,NCic.Implicit `Term))
false
"only %d arguments") (NCicPp.ppterm ~metasenv ~subst ~context he)
(List.length args) (List.length args_so_far))))
in
- aux metasenv subst [] newhead newheadty (arg :: tl)
+ aux metasenv subst [] newhead newheadty (arg :: tl)
+ (*D*)in outside true; rc with exc -> outside false; raise exc
in
- aux metasenv subst [] he ty_he args
- (*D*)in outside(); rc with exc -> outside (); raise exc
+ (* We need to reverse the order of the new created metas since they
+ are pushed on top of the metasenv in the wrong order *)
+ let highest_meta = NCicMetaSubst.maxmeta () in
+ let metasenv, subst, newhead, newheadty =
+ aux metasenv subst [] he ty_he args in
+ let metasenv_old,metasenv_new =
+ List.partition (fun (i,_) -> i <= highest_meta) metasenv
+ in
+ (List.rev metasenv_new) @ metasenv_old, subst, newhead, newheadty
+ (*D*)in outside true; rc with exc -> outside false; raise exc
;;
let rec first f l1 l2 =
;;
let undebruijnate inductive ref t rev_fl =
+ let len = List.length rev_fl in
NCicSubstitution.psubst (fun x -> x)
- (HExtlib.list_mapi
+ (HExtlib.list_mapi
(fun (_,_,rno,_,_,_) i ->
+ let i = len - i - 1 in
NCic.Const
(if inductive then NReference.mk_fix i rno ref
else NReference.mk_cofix i ref))
;;
-let typeof_obj hdb
- ?(localise=fun _ -> Stdpp.dummy_loc)
- ~look_for_coercion (uri,height,metasenv,subst, obj)
+let typeof_obj
+ rdb ?(localise=fun _ -> Stdpp.dummy_loc) (uri,height,metasenv,subst,obj)
=
- let check_type metasenv subst (ty as orig_ty) = (* XXX fattorizza *)
- let metasenv, subst, ty, sort =
- typeof hdb ~localise ~look_for_coercion metasenv subst [] ty None
- in
- let metasenv, subst, ty, _ =
- force_to_sort hdb ~look_for_coercion
- metasenv subst [] ty orig_ty localise sort
- in
- metasenv, subst, ty
- in
match obj with
- | C.Constant (relevance, name, bo, ty , attr) ->
- let metasenv, subst, ty = check_type metasenv subst ty in
+ | C.Constant (relevance, name, bo, ty, attr) ->
+ let metasenv, subst, ty =
+ check_type rdb ~localise metasenv subst [] ty in
let metasenv, subst, bo, ty, height =
match bo with
| Some bo ->
let metasenv, subst, bo, ty =
- typeof hdb ~localise ~look_for_coercion
- metasenv subst [] bo (Some ty)
- in
+ typeof rdb ~localise metasenv subst [] bo (Some ty) in
let height = (* XXX recalculate *) height in
metasenv, subst, Some bo, ty, height
| None -> metasenv, subst, None, ty, 0
let types, metasenv, subst, rev_fl =
List.fold_left
(fun (types, metasenv, subst, fl) (relevance,name,k,ty,bo) ->
- let metasenv, subst, ty = check_type metasenv subst ty in
- let dbo = NCicTypeChecker.debruijn uri len [] bo in
+ let metasenv, subst, ty =
+ check_type rdb ~localise metasenv subst [] ty in
+ let dbo = NCicTypeChecker.debruijn uri len [] ~subst bo in
let localise = relocalise localise dbo bo in
(name,C.Decl ty)::types,
metasenv, subst, (relevance,name,k,ty,dbo,localise)::fl
List.fold_left
(fun (metasenv,subst,fl) (relevance,name,k,ty,dbo,localise) ->
let metasenv, subst, dbo, ty =
- typeof hdb ~localise ~look_for_coercion
- metasenv subst types dbo (Some ty)
+ typeof rdb ~localise metasenv subst types dbo (Some ty)
in
metasenv, subst, (relevance,name,k,ty,dbo)::fl)
(metasenv, subst, []) rev_fl
in
uri, height, metasenv, subst,
C.Fixpoint (inductive, fl, attr)
-
- | C.Inductive (ind, leftno, itl, attr) -> assert false
-(*
- (* let's check if the arity of the inductive types are well formed *)
- List.iter (fun (_,_,x,_) -> ignore (typeof ~subst ~metasenv [] x)) tyl;
- (* let's check if the types of the inductive constructors are well formed. *)
- let len = List.length tyl in
- let tys = List.rev_map (fun (_,n,ty,_) -> (n,(C.Decl ty))) tyl in
- ignore
- (List.fold_right
- (fun (it_relev,_,ty,cl) i ->
- let context,ty_sort = split_prods ~subst [] ~-1 ty in
- let sx_context_ty_rev,_ = HExtlib.split_nth leftno (List.rev context) in
- List.iter
- (fun (k_relev,_,te) ->
- let _,k_relev = HExtlib.split_nth leftno k_relev in
- let te = debruijn uri len [] te in
- let context,te = split_prods ~subst tys leftno te in
- let _,chopped_context_rev =
- HExtlib.split_nth (List.length tys) (List.rev context) in
- let sx_context_te_rev,_ =
- HExtlib.split_nth leftno chopped_context_rev in
- (try
- ignore (List.fold_left2
- (fun context item1 item2 ->
- let convertible =
- match item1,item2 with
- (n1,C.Decl ty1),(n2,C.Decl ty2) ->
- n1 = n2 &&
- R.are_convertible ~metasenv ~subst context ty1 ty2
- | (n1,C.Def (bo1,ty1)),(n2,C.Def (bo2,ty2)) ->
- n1 = n2
- && R.are_convertible ~metasenv ~subst context ty1 ty2
- && R.are_convertible ~metasenv ~subst context bo1 bo2
- | _,_ -> false
+ | C.Inductive (ind, leftno, itl, attr) ->
+ let len = List.length itl in
+ let metasenv,subst,rev_itl,tys =
+ List.fold_left
+ (fun (metasenv,subst,res,ctx) (relevance,n,ty,cl) ->
+ let metasenv, subst, ty =
+ check_type rdb ~localise metasenv subst [] ty in
+ metasenv,subst,(relevance,n,ty,cl)::res,(n,NCic.Decl ty)::ctx
+ ) (metasenv,subst,[],[]) itl in
+ let metasenv,subst,itl,_ =
+ List.fold_left
+ (fun (metasenv,subst,res,i) (it_relev,n,ty,cl) ->
+ let context,ty_sort = NCicReduction.split_prods ~subst [] ~-1 ty in
+ let sx_context_ty_rev,_= HExtlib.split_nth leftno (List.rev context) in
+ let metasenv,subst,cl =
+ List.fold_right
+ (fun (k_relev,n,te) (metasenv,subst,res) ->
+ let k_relev =
+ try snd (HExtlib.split_nth leftno k_relev)
+ with Failure _ -> k_relev in
+ let te = NCicTypeChecker.debruijn uri len [] ~subst te in
+ let metasenv, subst, te =
+ check_type rdb ~localise metasenv subst tys te in
+ let context,te = NCicReduction.split_prods ~subst tys leftno te in
+ let _,chopped_context_rev =
+ HExtlib.split_nth (List.length tys) (List.rev context) in
+ let sx_context_te_rev,_ =
+ HExtlib.split_nth leftno chopped_context_rev in
+ let metasenv,subst,_ =
+ try
+ List.fold_left2
+ (fun (metasenv,subst,context) item1 item2 ->
+ let (metasenv,subst),convertible =
+ try
+ match item1,item2 with
+ (n1,C.Decl ty1),(n2,C.Decl ty2) ->
+ if n1 = n2 then
+ NCicUnification.unify rdb ~test_eq_only:true metasenv
+ subst context ty1 ty2,true
+ else
+ (metasenv,subst),false
+ | (n1,C.Def (bo1,ty1)),(n2,C.Def (bo2,ty2)) ->
+ if n1 = n2 then
+ let metasenv,subst =
+ NCicUnification.unify rdb ~test_eq_only:true metasenv
+ subst context ty1 ty2
+ in
+ NCicUnification.unify rdb ~test_eq_only:true metasenv
+ subst context bo1 bo2,true
+ else
+ (metasenv,subst),false
+ | _,_ -> (metasenv,subst),false
+ with
+ | NCicUnification.Uncertain _
+ | NCicUnification.UnificationFailure _ ->
+ (metasenv,subst),false
+ in
+ let term2 =
+ match item2 with
+ _,C.Decl t -> t
+ | _,C.Def (b,_) -> b in
+ if not convertible then
+ raise (RefineFailure (lazy (localise term2,
+ ("Mismatch between the left parameters of the constructor " ^
+ "and those of its inductive type"))))
+ else
+ metasenv,subst,item1::context
+ ) (metasenv,subst,tys) sx_context_ty_rev sx_context_te_rev
+ with Invalid_argument "List.fold_left2" -> assert false in
+ let metasenv, subst =
+ let rec aux context (metasenv,subst) = function
+ | NCic.Meta _ -> metasenv, subst
+ | NCic.Implicit _ -> metasenv, subst
+ | NCic.Appl (NCic.Rel i :: args) as t
+ when i > List.length context - len ->
+ let lefts, _ = HExtlib.split_nth leftno args in
+ let ctxlen = List.length context in
+ let (metasenv, subst), _ =
+ List.fold_left
+ (fun ((metasenv, subst),l) arg ->
+ NCicUnification.unify rdb
+ ~test_eq_only:true metasenv subst context arg
+ (NCic.Rel (ctxlen - len - l)), l+1
+ )
+ ((metasenv, subst), 0) lefts
+ in
+ metasenv, subst
+ | t -> NCicUtils.fold (fun e c -> e::c) context aux
+ (metasenv,subst) t
in
- if not convertible then
- raise (TypeCheckerFailure (lazy
- ("Mismatch between the left parameters of the constructor " ^
- "and those of its inductive type")))
- else
- item1::context
- ) [] sx_context_ty_rev sx_context_te_rev)
- with Invalid_argument "List.fold_left2" -> assert false);
- let con_sort = typeof ~subst ~metasenv context te in
- (match R.whd ~subst context con_sort, R.whd ~subst [] ty_sort with
- (C.Sort (C.Type u1) as s1), (C.Sort (C.Type u2) as s2) ->
- if not (E.universe_leq u1 u2) then
- raise
- (TypeCheckerFailure
- (lazy ("The type " ^ PP.ppterm ~metasenv ~subst ~context s1^
- " of the constructor is not included in the inductive" ^
- " type sort " ^ PP.ppterm ~metasenv ~subst ~context s2)))
- | C.Sort _, C.Sort C.Prop
- | C.Sort _, C.Sort C.Type _ -> ()
- | _, _ ->
+ aux context (metasenv,subst) te
+ in
+ let con_sort= NCicTypeChecker.typeof ~subst ~metasenv context te in
+ (match
+ NCicReduction.whd ~subst context con_sort,
+ NCicReduction.whd ~subst [] ty_sort
+ with
+ (C.Sort (C.Type u1) as s1), (C.Sort (C.Type u2) as s2) ->
+ if not (NCicEnvironment.universe_leq u1 u2) then
+ raise
+ (RefineFailure
+ (lazy(localise te, "The type " ^
+ NCicPp.ppterm ~metasenv ~subst ~context s1 ^
+ " of the constructor is not included in the inductive"^
+ " type sort " ^
+ NCicPp.ppterm ~metasenv ~subst ~context s2)))
+ | C.Sort _, C.Sort C.Prop
+ | C.Sort _, C.Sort C.Type _ -> ()
+ | _, _ ->
+ raise
+ (RefineFailure
+ (lazy (localise te,
+ "Wrong constructor or inductive arity shape"))));
+ (* let's check also the positivity conditions *)
+ if
+ not
+ (NCicTypeChecker.are_all_occurrences_positive
+ ~subst context uri leftno (i+leftno) leftno (len+leftno) te)
+ then
raise
- (TypeCheckerFailure
- (lazy ("Wrong constructor or inductive arity shape"))));
- (* let's check also the positivity conditions *)
- if
- not
- (are_all_occurrences_positive ~subst context uri leftno
- (i+leftno) leftno (len+leftno) te)
- then
- raise
- (TypeCheckerFailure
- (lazy ("Non positive occurence in "^NUri.string_of_uri
- uri)))
- else check_relevance ~subst ~metasenv context k_relev te)
- cl;
- check_relevance ~subst ~metasenv [] it_relev ty;
- i+1)
- tyl 1)
-*)
-
-
+ (RefineFailure
+ (lazy (localise te,
+ "Non positive occurence in " ^
+ NCicPp.ppterm ~metasenv ~subst ~context te)))
+ else
+ let relsno = List.length itl + leftno in
+ let te =
+ NCicSubstitution.psubst
+ (fun i ->
+ if i <= leftno then
+ NCic.Rel i
+ else
+ NCic.Const (NReference.reference_of_spec uri
+ (NReference.Ind (ind,relsno - i,leftno))))
+ (HExtlib.list_seq 1 (relsno+1))
+ te in
+ let te =
+ List.fold_right
+ (fun (name,decl) te ->
+ match decl with
+ NCic.Decl ty -> NCic.Prod (name,ty,te)
+ | NCic.Def (bo,ty) -> NCic.LetIn (name,ty,bo,te)
+ ) sx_context_te_rev te
+ in
+ metasenv,subst,(k_relev,n,te)::res
+ ) cl (metasenv,subst,[])
+ in
+ metasenv,subst,(it_relev,n,ty,cl)::res,i+1
+ ) (metasenv,subst,[],1) rev_itl
+ in
+ uri, height, metasenv, subst, C.Inductive (ind, leftno, itl, attr)
;;
-
-
(* vim:set foldmethod=marker: *)
projects / helm.git / blobdiff