X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;f=helm%2Fsoftware%2Fcomponents%2Fng_refiner%2FnCicRefiner.ml;h=e2aabb31cddd76a68c301841dad7746827516adf;hb=897373ab09685b29cbfab8deb6c868ece21c5cc1;hp=dd03356c4845fb78ad02fd3c5a42e10b5aea20c9;hpb=b225178112c2c5ef1a717ac7e647d854d94b2e52;p=helm.git diff --git a/helm/software/components/ng_refiner/nCicRefiner.ml b/helm/software/components/ng_refiner/nCicRefiner.ml index dd03356c4..e2aabb31c 100644 --- a/helm/software/components/ng_refiner/nCicRefiner.ml +++ b/helm/software/components/ng_refiner/nCicRefiner.ml @@ -36,17 +36,21 @@ let wrap_exc msg = function | e -> raise e ;; -let exp_implicit metasenv context expty = +let exp_implicit ~localise metasenv context expty t = let foo x = match expty with Some t -> `WithType t | None -> x in function | `Closed -> NCicMetaSubst.mk_meta metasenv [] (foo `Term) | `Type -> NCicMetaSubst.mk_meta metasenv context (foo `Type) | `Term -> NCicMetaSubst.mk_meta metasenv context (foo `Term) + | `Tagged s -> + NCicMetaSubst.mk_meta ~attrs:[`Name s] metasenv context (foo `Term) + | `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]) @@ -60,11 +64,11 @@ let check_allowed_sort_elimination hdb localise r orig = NCicPp.ppmetasenv ~subst metasenv)); match arity1 with | C.Prod (name,so1,de1) (* , t ==?== C.Prod _ *) -> - let metasenv, meta, _ = + let metasenv, _, meta, _ = NCicMetaSubst.mk_meta metasenv ((name,C.Decl so1)::context) `Type 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 *) @@ -74,9 +78,9 @@ let check_allowed_sort_elimination hdb localise r orig = 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 [] `Type 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 *) @@ -94,28 +98,33 @@ let check_allowed_sort_elimination hdb localise r orig = 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(); rc with exc -> outside (); 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 @@ -123,10 +132,9 @@ let rec typeof hdb 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 -> @@ -139,14 +147,17 @@ let rec typeof hdb 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 = + exp_implicit ~localise metasenv context expty t infos + in + metasenv, subst, t, ty | C.Meta (n,l) as t -> let ty = try @@ -168,12 +179,12 @@ let rec typeof hdb | 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 @@ -192,12 +203,15 @@ let rec typeof hdb 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 + force_to_sort rdb metasenv subst context s orig_s localise ty_s in let (metasenv,subst), exp_ty_t = match exp_s with | Some exp_s -> - (try NCicUnification.unify hdb metasenv subst context s exp_s,exp_ty_t + (try + pp(lazy("Force source to: "^NCicPp.ppterm ~metasenv ~subst + ~context exp_s)); + NCicUnification.unify rdb 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 @@ -209,7 +223,7 @@ let rec typeof hdb 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) @@ -217,28 +231,49 @@ let rec typeof hdb 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 + force_to_sort rdb metasenv subst context ty orig_ty localise ty_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 () = + 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 () + else refine_appl () | 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 -> @@ -263,6 +298,22 @@ let rec typeof hdb 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 *) + (*CSC: this is instantiate! should we move it from tactics to the + refiner? I think so! *) + let metasenv,metanoouttype,newouttype,metaoutsort = + NCicMetaSubst.mk_meta metasenv context `Term in + let metasenv,subst = + NCicUnification.unify rdb metasenv subst context outsort metaoutsort in + let metasenv = + List.filter (function (j,_) -> j <> metanoouttype) metasenv in + let subst = + (metanoouttype,([`Name "outtype"],context,outtype,metaoutsort))::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 @@ -270,7 +321,7 @@ let rec typeof hdb 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 *) @@ -282,12 +333,12 @@ let rec typeof hdb 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 @@ -299,27 +350,27 @@ let rec typeof hdb 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 + force_ty true true metasenv subst context orig t infty expty (*D*)in outside(); rc with exc -> outside (); raise exc in typeof_aux metasenv subst context expty term -and try_coercions hdb - ~localise ~look_for_coercion +and try_coercions rdb + ~localise metasenv subst context t orig_t infty expty perform_unification exc = (* we try with a coercion *) @@ -330,17 +381,18 @@ and try_coercions hdb (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 @@ -351,7 +403,7 @@ and try_coercions hdb 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 @@ -359,17 +411,19 @@ and try_coercions hdb | NCicUnification.UnificationFailure _ -> first exc tl | NCicUnification.Uncertain _ as exc -> first exc tl in + 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 -= +and force_to_sort rdb 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,(_,(C.Irl 0 | C.Ctx []))) -> assert false (*CSC: ??? + 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 = @@ -380,7 +434,7 @@ and force_to_sort hdb 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 + try_coercions rdb ~localise 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 @@ -408,48 +462,89 @@ and sort_of_prod (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 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))) | 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 - let metasenv, meta, _ = + 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) `Type 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 @@ -463,7 +558,7 @@ and eat_prods hdb (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 @@ -472,9 +567,17 @@ and eat_prods hdb "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) in - aux metasenv subst [] he ty_he args + (* 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(); rc with exc -> outside (); raise exc ;; @@ -508,40 +611,36 @@ let relocalise old_localise dt t add = let undebruijnate inductive ref t rev_fl = NCicSubstitution.psubst (fun x -> x) - (HExtlib.list_mapi + (List.rev (HExtlib.list_mapi (fun (_,_,rno,_,_,_) i -> NCic.Const (if inductive then NReference.mk_fix i rno ref else NReference.mk_cofix i ref)) - rev_fl) + rev_fl)) t ;; -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 check_type metasenv subst context (ty as orig_ty) = (* XXX fattorizza *) let metasenv, subst, ty, sort = - typeof hdb ~localise ~look_for_coercion metasenv subst [] ty None + typeof rdb ~localise metasenv subst context ty None in - let metasenv, subst, ty, _ = - force_to_sort hdb ~look_for_coercion - metasenv subst [] ty orig_ty localise sort + let metasenv, subst, ty, sort = + force_to_sort rdb metasenv subst context ty orig_ty localise sort in - metasenv, subst, ty + metasenv, subst, ty, sort in match obj with | C.Constant (relevance, name, bo, ty , attr) -> - let metasenv, subst, ty = check_type metasenv subst ty in + let metasenv, subst, ty, _ = check_type 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 @@ -553,8 +652,8 @@ let typeof_obj hdb 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 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 @@ -564,8 +663,7 @@ let typeof_obj hdb 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 @@ -585,85 +683,132 @@ let typeof_obj hdb 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 - 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 _ -> () - | _, _ -> + | 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 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 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 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: *)