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|
(* $Id$ *)
open Util
open Generic
open Names
open Term
open Reduction
open Environ
open Typeops
open Type_errors
open Classops
open Recordops
open Evarconv
open Retyping
(* Typing operations dealing with coercions *)
let class_of1 env sigma t = class_of env sigma (nf_ise1 sigma t)
let j_nf_ise env sigma {uj_val=v;uj_type=t;uj_kind=k} =
{ uj_val = nf_ise1 sigma v;
uj_type = nf_ise1 sigma t;
uj_kind = k }
let jl_nf_ise env sigma = List.map (j_nf_ise env sigma)
(* Here, funj is a coercion therefore already typed in global context *)
let apply_coercion_args env argl funj =
let rec apply_rec acc typ = function
| [] -> { uj_val=applist(j_val_only funj,argl);
uj_type= typ;
uj_kind = funj.uj_kind }
| h::restl ->
(* On devrait pouvoir s'arranger pour qu'on ait pas à faire hnf_constr *)
match whd_betadeltaiota env Evd.empty typ with
| DOP2(Prod,c1,DLAM(_,c2)) ->
(* Typage garanti par l'appel a app_coercion*)
apply_rec (h::acc) (subst1 h c2) restl
| _ -> anomaly "apply_coercion_args"
in
apply_rec [] funj.uj_type argl
(* appliquer le chemin de coercions p a` hj *)
let apply_pcoercion env p hj typ_cl =
if !compter then begin
nbpathc := !nbpathc +1;
nbcoer := !nbcoer + (List.length p)
end;
try
fst (List.fold_left
(fun (ja,typ_cl) i ->
let fv,b= coe_value i in
let argl = (class_args_of typ_cl)@[ja.uj_val] in
let jres = apply_coercion_args env argl fv in
(if b then
{uj_type=jres.uj_type;uj_kind=jres.uj_kind;uj_val=ja.uj_val}
else
jres),
jres.uj_type)
(hj,typ_cl) p)
with _ ->
failwith "apply_pcoercion"
let inh_app_fun env isevars j =
match whd_betadeltaiota env !isevars j.uj_type with
| DOP2(Prod,_,DLAM(_,_)) -> j
| _ ->
(try
let t,i1 = class_of1 env !isevars j.uj_type in
let p = lookup_path_to_fun_from i1 in
apply_pcoercion env p j t
with _ -> j)
(* find out which exc we must trap (e.g we don't want to catch Sys.Break!) *)
let inh_tosort_force env isevars j =
try
let t,i1 = class_of1 env !isevars j.uj_type in
let p = lookup_path_to_sort_from i1 in
apply_pcoercion env p j t
with Not_found ->
j
let inh_tosort env isevars j =
let typ = whd_betadeltaiota env !isevars j.uj_type in
match typ with
| DOP0(Sort _) -> j (* idem inh_app_fun *)
| _ -> (try inh_tosort_force env isevars j with _ -> j)
let inh_ass_of_j env isevars j =
let typ = whd_betadeltaiota env !isevars j.uj_type in
match typ with
| DOP0(Sort s) -> make_typed j.uj_val s
| _ ->
let j1 = inh_tosort_force env isevars j in
assumption_of_judgment env !isevars j1
let inh_coerce_to env isevars c1 hj =
let t1,i1 = class_of1 env !isevars c1 in
let t2,i2 = class_of1 env !isevars hj.uj_type in
let p = lookup_path_between (i2,i1) in
let hj' = apply_pcoercion env p hj t2 in
if the_conv_x_leq env isevars hj'.uj_type c1 then
hj'
else
failwith "inh_coerce_to"
let rec inh_conv_coerce_to env isevars c1 hj =
let {uj_val = v; uj_type = t; uj_kind = k} = hj in
if the_conv_x_leq env isevars t c1 then hj
else
try
inh_coerce_to env isevars c1 hj
with _ -> (* try ... with _ -> ... is BAD *)
(* (match (hnf_constr !isevars t,hnf_constr !isevars c1) with*)
(match (whd_betadeltaiota env !isevars t,
whd_betadeltaiota env !isevars c1) with
| (DOP2(Prod,t1,DLAM(_,t2)),DOP2(Prod,u1,DLAM(name,u2))) ->
(* let v' = hnf_constr !isevars v in *)
let v' = whd_betadeltaiota env !isevars v in
if (match v' with
| DOP2(Lambda,v1,DLAM(_,v2)) ->
the_conv_x env isevars v1 u1 (* leq v1 u1? *)
| _ -> false)
then
let (x,v1,v2) = destLambda v' in
(* let jv1 = exemeta_rec def_vty_con env isevars v1 in
let assv1 = assumption_of_judgement env !isevars jv1 in *)
let assv1 = outcast_type v1 in
let env1 = push_rel (x,assv1) env in
let h2 = inh_conv_coerce_to env isevars u2
{uj_val = v2; uj_type = t2;
uj_kind = mkSort (get_sort_of env !isevars t2) } in
fst (abs_rel env !isevars x assv1 h2)
else
(* let ju1 = exemeta_rec def_vty_con env isevars u1 in
let assu1 = assumption_of_judgement env !isevars ju1 in *)
let assu1 = outcast_type u1 in
let name = (match name with
| Anonymous -> Name (id_of_string "x")
| _ -> name) in
let env1 = push_rel (name,assu1) env in
let h1 =
inh_conv_coerce_to env isevars t1
{uj_val = Rel 1; uj_type = u1;
uj_kind = mkSort (level_of_type assu1) } in
let h2 = inh_conv_coerce_to env isevars u2
{ uj_val = DOPN(AppL,[|(lift 1 v);h1.uj_val|]);
uj_type = subst1 h1.uj_val t2;
uj_kind = mkSort (get_sort_of env !isevars t2) }
in
fst (abs_rel env !isevars name assu1 h2)
| _ -> failwith "inh_coerce_to")
let inh_cast_rel env isevars cj tj =
let cj' =
try
inh_conv_coerce_to env isevars tj.uj_val cj
with Not_found | Failure _ ->
let rcj = j_nf_ise env !isevars cj in
let atj = j_nf_ise env !isevars tj in
error_actual_type CCI env rcj.uj_val rcj.uj_type atj.uj_type
in
{ uj_val = mkCast cj'.uj_val tj.uj_val;
uj_type = tj.uj_val;
uj_kind = whd_betadeltaiota env !isevars tj.uj_type }
let inh_apply_rel_list nocheck env isevars argjl funj vtcon =
let rec apply_rec acc typ = function
| [] ->
let resj =
{ uj_val=applist(j_val_only funj,List.map j_val_only (List.rev acc));
uj_type= typ;
uj_kind = funj.uj_kind }
in
(match vtcon with
| (_,(_,Some typ')) ->
(try inh_conv_coerce_to env isevars typ' resj
with _ -> resj) (* try ... with _ -> ... is BAD *)
| (_,(_,None)) -> resj)
| hj::restjl ->
match whd_betadeltaiota env !isevars typ with
| DOP2(Prod,c1,DLAM(_,c2)) ->
let hj' =
if nocheck then
hj
else
(try
inh_conv_coerce_to env isevars c1 hj
with Failure _ | Not_found ->
error_cant_apply CCI env "Type Error"
(j_nf_ise env !isevars funj)
(jl_nf_ise env !isevars argjl))
in
apply_rec (hj'::acc) (subst1 hj'.uj_val c2) restjl
| _ ->
error_cant_apply CCI env "Non-functional construction"
(j_nf_ise env !isevars funj) (jl_nf_ise env !isevars argjl)
in
apply_rec [] funj.uj_type argjl
|
