exception RelToHiddenHypothesis;;
exception WrongArgumentNumber;;
-let fdebug = ref 0;;
-let debug t context =
- let rec debug_aux t i =
- let module C = Cic in
- let module U = UriManager in
- CicPp.ppobj (C.Variable ("DEBUG", None, t, [])) ^ "\n" ^ i
- in
- if !fdebug = 0 then
- raise (NotRefinable ("\n" ^ List.fold_right debug_aux (t::context) ""))
- (*print_endline ("\n" ^ List.fold_right debug_aux (t::context) "") ; flush stdout*)
-;;
-
let debug_print = prerr_endline
+let fo_unif_subst subst context metasenv t1 t2 =
+ try
+ CicUnification.fo_unif_subst subst context metasenv t1 t2
+ with
+ (CicUnification.UnificationFailure msg) -> raise (RefineFailure msg)
+ | (CicUnification.Uncertain msg) -> raise (Uncertain msg)
+;;
+
let rec split l n =
match (l,n) with
(l,0) -> ([], l)
(match R.whd subst context actualtype with
C.Prod (name',so',de') ->
let subst, metasenv =
- Un.fo_unif_subst subst context metasenv so so' in
+ fo_unif_subst subst context metasenv so so' in
let term' =
(match CicSubstitution.lift 1 term with
C.Appl l -> C.Appl (l@[C.Rel 1])
_ -> raise (NotRefinable "Not a close term")
)
| C.Var (uri,exp_named_subst) ->
- incr fdebug ;
let subst',metasenv' =
check_exp_named_subst subst metasenv context exp_named_subst in
let ty =
CicSubstitution.subst_vars exp_named_subst (type_of_variable uri)
in
- decr fdebug ;
ty,subst',metasenv'
| C.Meta (n,l) ->
let (_,canonical_context,ty) = CicUtil.lookup_meta n metasenv in
| C.Sort s ->
C.Sort C.Type, (*CSC manca la gestione degli universi!!! *)
subst,metasenv
- | C.Implicit -> raise (Impossible 21)
+ | C.Implicit _ -> raise (Impossible 21)
| C.Cast (te,ty) ->
let _,subst',metasenv' =
type_of_aux subst metasenv context ty in
in
(try
let subst''',metasenv''' =
- Un.fo_unif_subst subst'' context metasenv'' inferredty ty
+ fo_unif_subst subst'' context metasenv'' inferredty ty
in
ty,subst''',metasenv'''
with
sort_of_prod subst'' metasenv'' context (name,s) (sort1,sort2)
| C.Lambda (n,s,t) ->
let sort1,subst',metasenv' = type_of_aux subst metasenv context s in
+ (match CicMetaSubst.whd subst' context sort1 with
+ C.Meta _
+ | C.Sort _ -> ()
+ | _ ->
+ raise (NotRefinable (sprintf
+ "Not well-typed lambda-abstraction: the source %s should be a type;
+ instead it is a term of type %s" (CicPp.ppterm s)
+ (CicPp.ppterm sort1)))
+ ) ;
let type2,subst'',metasenv'' =
type_of_aux subst' metasenv' ((Some (n,(C.Decl s)))::context) t
in
- let sort2,subst''',metasenv''' =
- type_of_aux subst'' metasenv''((Some (n,(C.Decl s)))::context) type2
- in
- (* only to check if the product is well-typed *)
- let _,subst'''',metasenv'''' =
- sort_of_prod subst''' metasenv''' context (n,s) (sort1,sort2)
- in
- C.Prod (n,s,type2),subst'''',metasenv''''
+ C.Prod (n,s,type2),subst'',metasenv''
| C.LetIn (n,s,t) ->
(* only to check if s is well-typed *)
let ty,subst',metasenv' = type_of_aux subst metasenv context s in
eat_prods subst'' metasenv'' context hetype tlbody_and_type
| C.Appl _ -> raise (NotRefinable "Appl: no arguments")
| C.Const (uri,exp_named_subst) ->
- incr fdebug ;
let subst',metasenv' =
check_exp_named_subst subst metasenv context exp_named_subst in
let cty =
CicSubstitution.subst_vars exp_named_subst (type_of_constant uri)
in
- decr fdebug ;
cty,subst',metasenv'
| C.MutInd (uri,i,exp_named_subst) ->
- incr fdebug ;
let subst',metasenv' =
check_exp_named_subst subst metasenv context exp_named_subst in
let cty =
CicSubstitution.subst_vars exp_named_subst
(type_of_mutual_inductive_defs uri i)
in
- decr fdebug ;
cty,subst',metasenv'
| C.MutConstruct (uri,i,j,exp_named_subst) ->
let subst',metasenv' =
in
let actual_type = CicMetaSubst.whd subst context actual_type in
let subst,metasenv =
- Un.fo_unif_subst subst context metasenv expected_type actual_type
+ fo_unif_subst subst context metasenv expected_type actual_type
in
(* TODO: check if the sort elimination is allowed: [(I q1 ... qr)|B] *)
let (_,outtypeinstances,subst,metasenv) =
*)
CicMetaSubst.whd subst context appl
in
- Un.fo_unif_subst subst context metasenv instance instance')
+ fo_unif_subst subst context metasenv instance instance')
(subst,metasenv) outtypeinstances in
CicMetaSubst.whd subst
context (C.Appl(outtype::right_args@[term])),subst,metasenv
let ty_of_bo,subst,metasenv =
type_of_aux subst metasenv context' bo
in
- Un.fo_unif_subst subst context' metasenv
+ fo_unif_subst subst context' metasenv
ty_of_bo (CicMetaSubst.lift subst len ty)
) (subst,metasenv) fl in
let (_,_,ty,_) = List.nth fl i in
let ty_of_bo,subst,metasenv =
type_of_aux subst metasenv context' bo
in
- Un.fo_unif_subst subst context' metasenv
+ fo_unif_subst subst context' metasenv
ty_of_bo (CicMetaSubst.lift subst len ty)
) (subst,metasenv) fl in
subst,metasenv
| Some t,Some (_,C.Def (ct,_)) ->
(try
- CicUnification.fo_unif_subst subst context metasenv t ct
- with _ -> raise (NotRefinable (sprintf "The local context is not consistent with the canonical context, since %s cannot be unified with %s" (CicMetaSubst.ppterm subst t) (CicMetaSubst.ppterm subst ct))))
+ fo_unif_subst subst context metasenv t ct
+ with e -> raise (NotRefinable (sprintf "The local context is not consistent with the canonical context, since %s cannot be unified with %s. Reason: %s" (CicMetaSubst.ppterm subst t) (CicMetaSubst.ppterm subst ct) (match e with CicUnification.AssertFailure msg -> msg | _ -> (Printexc.to_string e)))))
| Some t,Some (_,C.Decl ct) ->
let inferredty,subst',metasenv' =
type_of_aux subst metasenv context t
in
(try
- CicUnification.fo_unif_subst
+ fo_unif_subst
subst' context metasenv' inferredty ct
- with _ -> raise (NotRefinable (sprintf "The local context is not consistent with the canonical context, since the type %s of %s cannot be unified with the expected type %s" (CicMetaSubst.ppterm subst' inferredty) (CicMetaSubst.ppterm subst' t) (CicMetaSubst.ppterm subst' ct))))
+ with e -> raise (NotRefinable (sprintf "The local context is not consistent with the canonical context, since the type %s of %s cannot be unified with the expected type %s. Reason: %s" (CicMetaSubst.ppterm subst' inferredty) (CicMetaSubst.ppterm subst' t) (CicMetaSubst.ppterm subst' ct) (match e with CicUnification.AssertFailure msg -> msg | _ -> (Printexc.to_string e)))))
| None, Some _ ->
raise (NotRefinable (sprintf
"Not well typed metavariable instance %s: the local context does not instantiate an hypothesis even if the hypothesis is not restricted in the canonical context %s"
in
try
let metasubst'',metasenv'' =
- CicUnification.fo_unif_subst
- metasubst' context metasenv' typeoft typeofvar
+ fo_unif_subst metasubst' context metasenv' typeoft typeofvar
in
check_exp_named_subst_aux metasubst'' metasenv'' (substs@[subst]) tl
with _ ->
and sort_of_prod subst metasenv context (name,s) (t1, t2) =
let module C = Cic in
+ let context_for_t2 = (Some (name,C.Decl s))::context in
let t1'' = CicMetaSubst.whd subst context t1 in
- let t2'' = CicMetaSubst.whd subst ((Some (name,C.Decl s))::context) t2 in
+ let t2'' = CicMetaSubst.whd subst context_for_t2 t2 in
match (t1'', t2'') with
(C.Sort s1, C.Sort s2)
when (s2 = C.Prop or s2 = C.Set or s2 = C.CProp) -> (* different than Coq manual!!! *)
* likely to know the exact value of the result e.g. if the rhs is a
* Sort (Prop | Set | CProp) then the result is the rhs *)
let (metasenv,idx) =
- CicMkImplicit.mk_implicit metasenv [] in
+ CicMkImplicit.mk_implicit_sort metasenv in
let (subst, metasenv) =
- CicUnification.fo_unif_subst subst context metasenv
- (C.Meta (idx,[])) t2''
+ fo_unif_subst subst context_for_t2 metasenv (C.Meta (idx,[])) t2''
in
t2'',subst,metasenv
| (_,_) ->
(CicPp.ppterm t2'')))
and eat_prods subst metasenv context hetype tlbody_and_type =
+ let rec mk_prod metasenv context =
+ function
+ [] ->
+ let (metasenv, idx) = CicMkImplicit.mk_implicit_type metasenv context in
+ let irl =
+ CicMkImplicit.identity_relocation_list_for_metavariable context
+ in
+ metasenv,Cic.Meta (idx, irl)
+ | (_,argty)::tl ->
+ let (metasenv, idx) = CicMkImplicit.mk_implicit_type metasenv context in
+ let irl =
+ CicMkImplicit.identity_relocation_list_for_metavariable context
+ in
+ let meta = Cic.Meta (idx,irl) in
+ let name =
+ (* The name must be fresh for context. *)
+ (* Nevertheless, argty is well-typed only in context. *)
+ (* Thus I generate a name (name_hint) in context and *)
+ (* then I generate a name --- using the hint name_hint *)
+ (* --- that is fresh in (context'@context). *)
+ let name_hint =
+ FreshNamesGenerator.mk_fresh_name
+ (CicMetaSubst.apply_subst_metasenv subst metasenv)
+ (CicMetaSubst.apply_subst_context subst context)
+ Cic.Anonymous
+ (CicMetaSubst.apply_subst subst argty)
+ in
+ (* [] and (Cic.Sort Cic.prop) are dummy: they will not be used *)
+ FreshNamesGenerator.mk_fresh_name
+ [] context name_hint (Cic.Sort Cic.Prop)
+ in
+ let metasenv,target =
+ mk_prod metasenv ((Some (name, Cic.Decl meta))::context) tl
+ in
+ metasenv,Cic.Prod (name,meta,target)
+ in
+ let metasenv,hetype' = mk_prod metasenv context tlbody_and_type in
+ let (subst, metasenv) =
+ CicUnification.fo_unif_subst subst context metasenv hetype hetype'
+ in
+ let rec eat_prods metasenv subst context hetype =
+ function
+ [] -> metasenv,subst,hetype
+ | (hete, hety)::tl ->
+ (match hetype with
+ Cic.Prod (n,s,t) ->
+ (try
+ let subst,metasenv =
+ CicUnification.fo_unif_subst subst context metasenv s hety
+ in
+ eat_prods metasenv subst context
+ (CicMetaSubst.subst subst hete t) tl
+ with
+ e -> raise (RefineFailure ("XXX " ^ Printexc.to_string e)))
+ | _ -> assert false
+ )
+ in
+ let metasenv,subst,t =
+ eat_prods metasenv subst context hetype' tlbody_and_type
+ in
+ t,subst,metasenv
+
+(*
let rec aux context' args (resty,subst,metasenv) =
function
[] -> resty,subst,metasenv
in
let context'' = Some (name, Cic.Decl argty') :: context' in
let (metasenv, idx) =
- CicMkImplicit.mk_implicit metasenv (context'' @ context) in
+ CicMkImplicit.mk_implicit_type metasenv (context'' @ context) in
let irl =
(Some (Cic.Rel 1))::args' @
(CicMkImplicit.identity_relocation_list_for_metavariable ~start:2
let prod = Cic.Prod (name, argty, newmeta) in
let (_, subst, metasenv) = type_of_aux subst metasenv context prod in
let (subst, metasenv) =
- CicUnification.fo_unif_subst subst context metasenv resty prod
+ fo_unif_subst subst context metasenv resty prod
in
aux context'' (Some arg :: args)
(CicMetaSubst.subst subst arg newmeta, subst, metasenv) tl
in
aux [] [] (hetype,subst,metasenv) tlbody_and_type
+*)
in
let ty,subst',metasenv' =
debug_print "@@@ REFINE FAILED: CicUnification.AssertFailure:";
debug_print msg;
raise e
- | CicUnification.UnificationFailure msg as e ->
- debug_print "@@@ REFINE FAILED: CicUnification.UnificationFailure:";
- debug_print msg;
- raise e
| e ->
debug_print ("@@@ REFINE FAILED: " ^ Printexc.to_string e) ;
raise e
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