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|
open Pp
open Glob_term
open CErrors
open Util
open Names
open Decl_kinds
open Misctypes
(*
Some basic functions to rebuild glob_constr
In each of them the location is Loc.ghost
*)
let mkGRef ref = GRef(Loc.ghost,ref,None)
let mkGVar id = GVar(Loc.ghost,id)
let mkGApp(rt,rtl) = GApp(Loc.ghost,rt,rtl)
let mkGLambda(n,t,b) = GLambda(Loc.ghost,n,Explicit,t,b)
let mkGProd(n,t,b) = GProd(Loc.ghost,n,Explicit,t,b)
let mkGLetIn(n,t,b) = GLetIn(Loc.ghost,n,t,b)
let mkGCases(rto,l,brl) = GCases(Loc.ghost,Term.RegularStyle,rto,l,brl)
let mkGSort s = GSort(Loc.ghost,s)
let mkGHole () = GHole(Loc.ghost,Evar_kinds.BinderType Anonymous,Misctypes.IntroAnonymous,None)
let mkGCast(b,t) = GCast(Loc.ghost,b,CastConv t)
(*
Some basic functions to decompose glob_constrs
These are analogous to the ones constrs
*)
let glob_decompose_prod =
let rec glob_decompose_prod args = function
| GProd(_,n,k,t,b) ->
glob_decompose_prod ((n,t)::args) b
| rt -> args,rt
in
glob_decompose_prod []
let glob_decompose_prod_or_letin =
let rec glob_decompose_prod args = function
| GProd(_,n,k,t,b) ->
glob_decompose_prod ((n,None,Some t)::args) b
| GLetIn(_,n,t,b) ->
glob_decompose_prod ((n,Some t,None)::args) b
| rt -> args,rt
in
glob_decompose_prod []
let glob_compose_prod =
List.fold_left (fun b (n,t) -> mkGProd(n,t,b))
let glob_compose_prod_or_letin =
List.fold_left (
fun concl decl ->
match decl with
| (n,None,Some t) -> mkGProd(n,t,concl)
| (n,Some bdy,None) -> mkGLetIn(n,bdy,concl)
| _ -> assert false)
let glob_decompose_prod_n n =
let rec glob_decompose_prod i args c =
if i<=0 then args,c
else
match c with
| GProd(_,n,_,t,b) ->
glob_decompose_prod (i-1) ((n,t)::args) b
| rt -> args,rt
in
glob_decompose_prod n []
let glob_decompose_prod_or_letin_n n =
let rec glob_decompose_prod i args c =
if i<=0 then args,c
else
match c with
| GProd(_,n,_,t,b) ->
glob_decompose_prod (i-1) ((n,None,Some t)::args) b
| GLetIn(_,n,t,b) ->
glob_decompose_prod (i-1) ((n,Some t,None)::args) b
| rt -> args,rt
in
glob_decompose_prod n []
let glob_decompose_app =
let rec decompose_rapp acc rt =
(* msgnl (str "glob_decompose_app on : "++ Printer.pr_glob_constr rt); *)
match rt with
| GApp(_,rt,rtl) ->
decompose_rapp (List.fold_left (fun y x -> x::y) acc rtl) rt
| rt -> rt,List.rev acc
in
decompose_rapp []
(* [glob_make_eq t1 t2] build the glob_constr corresponding to [t2 = t1] *)
let glob_make_eq ?(typ= mkGHole ()) t1 t2 =
mkGApp(mkGRef (Lazy.force Coqlib.coq_eq_ref),[typ;t2;t1])
(* [glob_make_neq t1 t2] build the glob_constr corresponding to [t1 <> t2] *)
let glob_make_neq t1 t2 =
mkGApp(mkGRef (Lazy.force Coqlib.coq_not_ref),[glob_make_eq t1 t2])
(* [glob_make_or P1 P2] build the glob_constr corresponding to [P1 \/ P2] *)
let glob_make_or t1 t2 = mkGApp (mkGRef(Lazy.force Coqlib.coq_or_ref),[t1;t2])
(* [glob_make_or_list [P1;...;Pn]] build the glob_constr corresponding
to [P1 \/ ( .... \/ Pn)]
*)
let rec glob_make_or_list = function
| [] -> invalid_arg "mk_or"
| [e] -> e
| e::l -> glob_make_or e (glob_make_or_list l)
let remove_name_from_mapping mapping na =
match na with
| Anonymous -> mapping
| Name id -> Id.Map.remove id mapping
let change_vars =
let rec change_vars mapping rt =
match rt with
| GRef _ -> rt
| GVar(loc,id) ->
let new_id =
try
Id.Map.find id mapping
with Not_found -> id
in
GVar(loc,new_id)
| GEvar _ -> rt
| GPatVar _ -> rt
| GApp(loc,rt',rtl) ->
GApp(loc,
change_vars mapping rt',
List.map (change_vars mapping) rtl
)
| GLambda(loc,name,k,t,b) ->
GLambda(loc,
name,
k,
change_vars mapping t,
change_vars (remove_name_from_mapping mapping name) b
)
| GProd(loc,name,k,t,b) ->
GProd(loc,
name,
k,
change_vars mapping t,
change_vars (remove_name_from_mapping mapping name) b
)
| GLetIn(loc,name,def,b) ->
GLetIn(loc,
name,
change_vars mapping def,
change_vars (remove_name_from_mapping mapping name) b
)
| GLetTuple(loc,nal,(na,rto),b,e) ->
let new_mapping = List.fold_left remove_name_from_mapping mapping nal in
GLetTuple(loc,
nal,
(na, Option.map (change_vars mapping) rto),
change_vars mapping b,
change_vars new_mapping e
)
| GCases(loc,sty,infos,el,brl) ->
GCases(loc,sty,
infos,
List.map (fun (e,x) -> (change_vars mapping e,x)) el,
List.map (change_vars_br mapping) brl
)
| GIf(loc,b,(na,e_option),lhs,rhs) ->
GIf(loc,
change_vars mapping b,
(na,Option.map (change_vars mapping) e_option),
change_vars mapping lhs,
change_vars mapping rhs
)
| GRec _ -> error "Local (co)fixes are not supported"
| GSort _ -> rt
| GHole _ -> rt
| GCast(loc,b,c) ->
GCast(loc,change_vars mapping b,
Miscops.map_cast_type (change_vars mapping) c)
and change_vars_br mapping ((loc,idl,patl,res) as br) =
let new_mapping = List.fold_right Id.Map.remove idl mapping in
if Id.Map.is_empty new_mapping
then br
else (loc,idl,patl,change_vars new_mapping res)
in
change_vars
let rec alpha_pat excluded pat =
match pat with
| PatVar(loc,Anonymous) ->
let new_id = Indfun_common.fresh_id excluded "_x" in
PatVar(loc,Name new_id),(new_id::excluded),Id.Map.empty
| PatVar(loc,Name id) ->
if Id.List.mem id excluded
then
let new_id = Namegen.next_ident_away id excluded in
PatVar(loc,Name new_id),(new_id::excluded),
(Id.Map.add id new_id Id.Map.empty)
else pat,excluded,Id.Map.empty
| PatCstr(loc,constr,patl,na) ->
let new_na,new_excluded,map =
match na with
| Name id when Id.List.mem id excluded ->
let new_id = Namegen.next_ident_away id excluded in
Name new_id,new_id::excluded, Id.Map.add id new_id Id.Map.empty
| _ -> na,excluded,Id.Map.empty
in
let new_patl,new_excluded,new_map =
List.fold_left
(fun (patl,excluded,map) pat ->
let new_pat,new_excluded,new_map = alpha_pat excluded pat in
(new_pat::patl,new_excluded,Id.Map.fold Id.Map.add new_map map)
)
([],new_excluded,map)
patl
in
PatCstr(loc,constr,List.rev new_patl,new_na),new_excluded,new_map
let alpha_patl excluded patl =
let patl,new_excluded,map =
List.fold_left
(fun (patl,excluded,map) pat ->
let new_pat,new_excluded,new_map = alpha_pat excluded pat in
new_pat::patl,new_excluded,(Id.Map.fold Id.Map.add new_map map)
)
([],excluded,Id.Map.empty)
patl
in
(List.rev patl,new_excluded,map)
let raw_get_pattern_id pat acc =
let rec get_pattern_id pat =
match pat with
| PatVar(loc,Anonymous) -> assert false
| PatVar(loc,Name id) ->
[id]
| PatCstr(loc,constr,patternl,_) ->
List.fold_right
(fun pat idl ->
let idl' = get_pattern_id pat in
idl'@idl
)
patternl
[]
in
(get_pattern_id pat)@acc
let get_pattern_id pat = raw_get_pattern_id pat []
let rec alpha_rt excluded rt =
let new_rt =
match rt with
| GRef _ | GVar _ | GEvar _ | GPatVar _ -> rt
| GLambda(loc,Anonymous,k,t,b) ->
let new_id = Namegen.next_ident_away (Id.of_string "_x") excluded in
let new_excluded = new_id :: excluded in
let new_t = alpha_rt new_excluded t in
let new_b = alpha_rt new_excluded b in
GLambda(loc,Name new_id,k,new_t,new_b)
| GProd(loc,Anonymous,k,t,b) ->
let new_t = alpha_rt excluded t in
let new_b = alpha_rt excluded b in
GProd(loc,Anonymous,k,new_t,new_b)
| GLetIn(loc,Anonymous,t,b) ->
let new_t = alpha_rt excluded t in
let new_b = alpha_rt excluded b in
GLetIn(loc,Anonymous,new_t,new_b)
| GLambda(loc,Name id,k,t,b) ->
let new_id = Namegen.next_ident_away id excluded in
let t,b =
if Id.equal new_id id
then t,b
else
let replace = change_vars (Id.Map.add id new_id Id.Map.empty) in
(t,replace b)
in
let new_excluded = new_id::excluded in
let new_t = alpha_rt new_excluded t in
let new_b = alpha_rt new_excluded b in
GLambda(loc,Name new_id,k,new_t,new_b)
| GProd(loc,Name id,k,t,b) ->
let new_id = Namegen.next_ident_away id excluded in
let new_excluded = new_id::excluded in
let t,b =
if Id.equal new_id id
then t,b
else
let replace = change_vars (Id.Map.add id new_id Id.Map.empty) in
(t,replace b)
in
let new_t = alpha_rt new_excluded t in
let new_b = alpha_rt new_excluded b in
GProd(loc,Name new_id,k,new_t,new_b)
| GLetIn(loc,Name id,t,b) ->
let new_id = Namegen.next_ident_away id excluded in
let t,b =
if Id.equal new_id id
then t,b
else
let replace = change_vars (Id.Map.add id new_id Id.Map.empty) in
(t,replace b)
in
let new_excluded = new_id::excluded in
let new_t = alpha_rt new_excluded t in
let new_b = alpha_rt new_excluded b in
GLetIn(loc,Name new_id,new_t,new_b)
| GLetTuple(loc,nal,(na,rto),t,b) ->
let rev_new_nal,new_excluded,mapping =
List.fold_left
(fun (nal,excluded,mapping) na ->
match na with
| Anonymous -> (na::nal,excluded,mapping)
| Name id ->
let new_id = Namegen.next_ident_away id excluded in
if Id.equal new_id id
then
na::nal,id::excluded,mapping
else
(Name new_id)::nal,id::excluded,(Id.Map.add id new_id mapping)
)
([],excluded,Id.Map.empty)
nal
in
let new_nal = List.rev rev_new_nal in
let new_rto,new_t,new_b =
if Id.Map.is_empty mapping
then rto,t,b
else let replace = change_vars mapping in
(Option.map replace rto, t,replace b)
in
let new_t = alpha_rt new_excluded new_t in
let new_b = alpha_rt new_excluded new_b in
let new_rto = Option.map (alpha_rt new_excluded) new_rto in
GLetTuple(loc,new_nal,(na,new_rto),new_t,new_b)
| GCases(loc,sty,infos,el,brl) ->
let new_el =
List.map (function (rt,i) -> alpha_rt excluded rt, i) el
in
GCases(loc,sty,infos,new_el,List.map (alpha_br excluded) brl)
| GIf(loc,b,(na,e_o),lhs,rhs) ->
GIf(loc,alpha_rt excluded b,
(na,Option.map (alpha_rt excluded) e_o),
alpha_rt excluded lhs,
alpha_rt excluded rhs
)
| GRec _ -> error "Not handled GRec"
| GSort _ -> rt
| GHole _ -> rt
| GCast (loc,b,c) ->
GCast(loc,alpha_rt excluded b,
Miscops.map_cast_type (alpha_rt excluded) c)
| GApp(loc,f,args) ->
GApp(loc,
alpha_rt excluded f,
List.map (alpha_rt excluded) args
)
in
new_rt
and alpha_br excluded (loc,ids,patl,res) =
let new_patl,new_excluded,mapping = alpha_patl excluded patl in
let new_ids = List.fold_right raw_get_pattern_id new_patl [] in
let new_excluded = new_ids@excluded in
let renamed_res = change_vars mapping res in
let new_res = alpha_rt new_excluded renamed_res in
(loc,new_ids,new_patl,new_res)
(*
[is_free_in id rt] checks if [id] is a free variable in [rt]
*)
let is_free_in id =
let rec is_free_in = function
| GRef _ -> false
| GVar(_,id') -> Id.compare id' id == 0
| GEvar _ -> false
| GPatVar _ -> false
| GApp(_,rt,rtl) -> List.exists is_free_in (rt::rtl)
| GLambda(_,n,_,t,b) | GProd(_,n,_,t,b) | GLetIn(_,n,t,b) ->
let check_in_b =
match n with
| Name id' -> not (Id.equal id' id)
| _ -> true
in
is_free_in t || (check_in_b && is_free_in b)
| GCases(_,_,_,el,brl) ->
(List.exists (fun (e,_) -> is_free_in e) el) ||
List.exists is_free_in_br brl
| GLetTuple(_,nal,_,b,t) ->
let check_in_nal =
not (List.exists (function Name id' -> Id.equal id' id | _ -> false) nal)
in
is_free_in t || (check_in_nal && is_free_in b)
| GIf(_,cond,_,br1,br2) ->
is_free_in cond || is_free_in br1 || is_free_in br2
| GRec _ -> raise (UserError("",str "Not handled GRec"))
| GSort _ -> false
| GHole _ -> false
| GCast (_,b,(CastConv t|CastVM t|CastNative t)) -> is_free_in b || is_free_in t
| GCast (_,b,CastCoerce) -> is_free_in b
and is_free_in_br (_,ids,_,rt) =
(not (Id.List.mem id ids)) && is_free_in rt
in
is_free_in
let rec pattern_to_term = function
| PatVar(loc,Anonymous) -> assert false
| PatVar(loc,Name id) ->
mkGVar id
| PatCstr(loc,constr,patternl,_) ->
let cst_narg =
Inductiveops.constructor_nallargs_env
(Global.env ())
constr
in
let implicit_args =
Array.to_list
(Array.init
(cst_narg - List.length patternl)
(fun _ -> mkGHole ())
)
in
let patl_as_term =
List.map pattern_to_term patternl
in
mkGApp(mkGRef(Globnames.ConstructRef constr),
implicit_args@patl_as_term
)
let replace_var_by_term x_id term =
let rec replace_var_by_pattern rt =
match rt with
| GRef _ -> rt
| GVar(_,id) when Id.compare id x_id == 0 -> term
| GVar _ -> rt
| GEvar _ -> rt
| GPatVar _ -> rt
| GApp(loc,rt',rtl) ->
GApp(loc,
replace_var_by_pattern rt',
List.map replace_var_by_pattern rtl
)
| GLambda(_,Name id,_,_,_) when Id.compare id x_id == 0 -> rt
| GLambda(loc,name,k,t,b) ->
GLambda(loc,
name,
k,
replace_var_by_pattern t,
replace_var_by_pattern b
)
| GProd(_,Name id,_,_,_) when Id.compare id x_id == 0 -> rt
| GProd(loc,name,k,t,b) ->
GProd(loc,
name,
k,
replace_var_by_pattern t,
replace_var_by_pattern b
)
| GLetIn(_,Name id,_,_) when Id.compare id x_id == 0 -> rt
| GLetIn(loc,name,def,b) ->
GLetIn(loc,
name,
replace_var_by_pattern def,
replace_var_by_pattern b
)
| GLetTuple(_,nal,_,_,_)
when List.exists (function Name id -> Id.equal id x_id | _ -> false) nal ->
rt
| GLetTuple(loc,nal,(na,rto),def,b) ->
GLetTuple(loc,
nal,
(na,Option.map replace_var_by_pattern rto),
replace_var_by_pattern def,
replace_var_by_pattern b
)
| GCases(loc,sty,infos,el,brl) ->
GCases(loc,sty,
infos,
List.map (fun (e,x) -> (replace_var_by_pattern e,x)) el,
List.map replace_var_by_pattern_br brl
)
| GIf(loc,b,(na,e_option),lhs,rhs) ->
GIf(loc, replace_var_by_pattern b,
(na,Option.map replace_var_by_pattern e_option),
replace_var_by_pattern lhs,
replace_var_by_pattern rhs
)
| GRec _ -> raise (UserError("",str "Not handled GRec"))
| GSort _ -> rt
| GHole _ -> rt
| GCast(loc,b,c) ->
GCast(loc,replace_var_by_pattern b,
Miscops.map_cast_type replace_var_by_pattern c)
and replace_var_by_pattern_br ((loc,idl,patl,res) as br) =
if List.exists (fun id -> Id.compare id x_id == 0) idl
then br
else (loc,idl,patl,replace_var_by_pattern res)
in
replace_var_by_pattern
(* checking unifiability of patterns *)
exception NotUnifiable
let rec are_unifiable_aux = function
| [] -> ()
| eq::eqs ->
match eq with
| PatVar _,_ | _,PatVar _ -> are_unifiable_aux eqs
| PatCstr(_,constructor1,cpl1,_),PatCstr(_,constructor2,cpl2,_) ->
if not (eq_constructor constructor2 constructor1)
then raise NotUnifiable
else
let eqs' =
try (List.combine cpl1 cpl2) @ eqs
with Invalid_argument _ -> anomaly (Pp.str "are_unifiable_aux")
in
are_unifiable_aux eqs'
let are_unifiable pat1 pat2 =
try
are_unifiable_aux [pat1,pat2];
true
with NotUnifiable -> false
let rec eq_cases_pattern_aux = function
| [] -> ()
| eq::eqs ->
match eq with
| PatVar _,PatVar _ -> eq_cases_pattern_aux eqs
| PatCstr(_,constructor1,cpl1,_),PatCstr(_,constructor2,cpl2,_) ->
if not (eq_constructor constructor2 constructor1)
then raise NotUnifiable
else
let eqs' =
try (List.combine cpl1 cpl2) @ eqs
with Invalid_argument _ -> anomaly (Pp.str "eq_cases_pattern_aux")
in
eq_cases_pattern_aux eqs'
| _ -> raise NotUnifiable
let eq_cases_pattern pat1 pat2 =
try
eq_cases_pattern_aux [pat1,pat2];
true
with NotUnifiable -> false
let ids_of_pat =
let rec ids_of_pat ids = function
| PatVar(_,Anonymous) -> ids
| PatVar(_,Name id) -> Id.Set.add id ids
| PatCstr(_,_,patl,_) -> List.fold_left ids_of_pat ids patl
in
ids_of_pat Id.Set.empty
let id_of_name = function
| Names.Anonymous -> Id.of_string "x"
| Names.Name x -> x
(* TODO: finish Rec caes *)
let ids_of_glob_constr c =
let rec ids_of_glob_constr acc c =
let idof = id_of_name in
match c with
| GVar (_,id) -> id::acc
| GApp (loc,g,args) ->
ids_of_glob_constr [] g @ List.flatten (List.map (ids_of_glob_constr []) args) @ acc
| GLambda (loc,na,k,ty,c) -> idof na :: ids_of_glob_constr [] ty @ ids_of_glob_constr [] c @ acc
| GProd (loc,na,k,ty,c) -> idof na :: ids_of_glob_constr [] ty @ ids_of_glob_constr [] c @ acc
| GLetIn (loc,na,b,c) -> idof na :: ids_of_glob_constr [] b @ ids_of_glob_constr [] c @ acc
| GCast (loc,c,(CastConv t|CastVM t|CastNative t)) -> ids_of_glob_constr [] c @ ids_of_glob_constr [] t @ acc
| GCast (loc,c,CastCoerce) -> ids_of_glob_constr [] c @ acc
| GIf (loc,c,(na,po),b1,b2) -> ids_of_glob_constr [] c @ ids_of_glob_constr [] b1 @ ids_of_glob_constr [] b2 @ acc
| GLetTuple (_,nal,(na,po),b,c) ->
List.map idof nal @ ids_of_glob_constr [] b @ ids_of_glob_constr [] c @ acc
| GCases (loc,sty,rtntypopt,tml,brchl) ->
List.flatten (List.map (fun (_,idl,patl,c) -> idl @ ids_of_glob_constr [] c) brchl)
| GRec _ -> failwith "Fix inside a constructor branch"
| (GSort _ | GHole _ | GRef _ | GEvar _ | GPatVar _) -> []
in
(* build the set *)
List.fold_left (fun acc x -> Id.Set.add x acc) Id.Set.empty (ids_of_glob_constr [] c)
let zeta_normalize =
let rec zeta_normalize_term rt =
match rt with
| GRef _ -> rt
| GVar _ -> rt
| GEvar _ -> rt
| GPatVar _ -> rt
| GApp(loc,rt',rtl) ->
GApp(loc,
zeta_normalize_term rt',
List.map zeta_normalize_term rtl
)
| GLambda(loc,name,k,t,b) ->
GLambda(loc,
name,
k,
zeta_normalize_term t,
zeta_normalize_term b
)
| GProd(loc,name,k,t,b) ->
GProd(loc,
name,
k,
zeta_normalize_term t,
zeta_normalize_term b
)
| GLetIn(_,Name id,def,b) ->
zeta_normalize_term (replace_var_by_term id def b)
| GLetIn(loc,Anonymous,def,b) -> zeta_normalize_term b
| GLetTuple(loc,nal,(na,rto),def,b) ->
GLetTuple(loc,
nal,
(na,Option.map zeta_normalize_term rto),
zeta_normalize_term def,
zeta_normalize_term b
)
| GCases(loc,sty,infos,el,brl) ->
GCases(loc,sty,
infos,
List.map (fun (e,x) -> (zeta_normalize_term e,x)) el,
List.map zeta_normalize_br brl
)
| GIf(loc,b,(na,e_option),lhs,rhs) ->
GIf(loc, zeta_normalize_term b,
(na,Option.map zeta_normalize_term e_option),
zeta_normalize_term lhs,
zeta_normalize_term rhs
)
| GRec _ -> raise (UserError("",str "Not handled GRec"))
| GSort _ -> rt
| GHole _ -> rt
| GCast(loc,b,c) ->
GCast(loc,zeta_normalize_term b,
Miscops.map_cast_type zeta_normalize_term c)
and zeta_normalize_br (loc,idl,patl,res) =
(loc,idl,patl,zeta_normalize_term res)
in
zeta_normalize_term
let expand_as =
let rec add_as map pat =
match pat with
| PatVar _ -> map
| PatCstr(_,_,patl,Name id) ->
Id.Map.add id (pattern_to_term pat) (List.fold_left add_as map patl)
| PatCstr(_,_,patl,_) -> List.fold_left add_as map patl
in
let rec expand_as map rt =
match rt with
| GRef _ | GEvar _ | GPatVar _ | GSort _ | GHole _ -> rt
| GVar(_,id) ->
begin
try
Id.Map.find id map
with Not_found -> rt
end
| GApp(loc,f,args) -> GApp(loc,expand_as map f,List.map (expand_as map) args)
| GLambda(loc,na,k,t,b) -> GLambda(loc,na,k,expand_as map t, expand_as map b)
| GProd(loc,na,k,t,b) -> GProd(loc,na,k,expand_as map t, expand_as map b)
| GLetIn(loc,na,v,b) -> GLetIn(loc,na, expand_as map v,expand_as map b)
| GLetTuple(loc,nal,(na,po),v,b) ->
GLetTuple(loc,nal,(na,Option.map (expand_as map) po),
expand_as map v, expand_as map b)
| GIf(loc,e,(na,po),br1,br2) ->
GIf(loc,expand_as map e,(na,Option.map (expand_as map) po),
expand_as map br1, expand_as map br2)
| GRec _ -> error "Not handled GRec"
| GCast(loc,b,c) ->
GCast(loc,expand_as map b,
Miscops.map_cast_type (expand_as map) c)
| GCases(loc,sty,po,el,brl) ->
GCases(loc, sty, Option.map (expand_as map) po, List.map (fun (rt,t) -> expand_as map rt,t) el,
List.map (expand_as_br map) brl)
and expand_as_br map (loc,idl,cpl,rt) =
(loc,idl,cpl, expand_as (List.fold_left add_as map cpl) rt)
in
expand_as Id.Map.empty
|