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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2012 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(* Created from contents that was formerly in termops.ml and
nameops.ml, Nov 2009 *)
(* This file is about generating new or fresh names and dealing with
alpha-renaming *)
open Util
open Names
open Term
open Vars
open Nametab
open Nameops
open Libnames
open Globnames
open Environ
open Termops
(**********************************************************************)
(* Conventional names *)
let default_prop_string = "H"
let default_prop_ident = Id.of_string default_prop_string
let default_small_string = "H"
let default_small_ident = Id.of_string default_small_string
let default_type_string = "X"
let default_type_ident = Id.of_string default_type_string
let default_non_dependent_string = "H"
let default_non_dependent_ident = Id.of_string default_non_dependent_string
let default_dependent_ident = Id.of_string "x"
(**********************************************************************)
(* Globality of identifiers *)
let is_imported_modpath = function
| MPfile dp ->
let rec find_prefix = function
|MPfile dp1 -> not (DirPath.equal dp1 dp)
|MPdot(mp,_) -> find_prefix mp
|MPbound(_) -> false
in find_prefix (Lib.current_mp ())
| _ -> false
let is_imported_ref = function
| VarRef _ -> false
| IndRef (kn,_)
| ConstructRef ((kn,_),_) ->
let (mp,_,_) = repr_mind kn in is_imported_modpath mp
| ConstRef kn ->
let (mp,_,_) = repr_con kn in is_imported_modpath mp
let is_global id =
try
let ref = locate (qualid_of_ident id) in
not (is_imported_ref ref)
with Not_found ->
false
let is_constructor id =
try
match locate (qualid_of_ident id) with
| ConstructRef _ -> true
| _ -> false
with Not_found ->
false
(**********************************************************************)
(* Generating "intuitive" names from its type *)
let head_name c = (* Find the head constant of a constr if any *)
let rec hdrec c =
match kind_of_term c with
| Prod (_,_,c) | Lambda (_,_,c) | LetIn (_,_,_,c)
| Cast (c,_,_) | App (c,_) -> hdrec c
| Proj (kn,_) -> Some (Label.to_id (con_label (Projection.constant kn)))
| Const _ | Ind _ | Construct _ | Var _ ->
Some (basename_of_global (global_of_constr c))
| Fix ((_,i),(lna,_,_)) | CoFix (i,(lna,_,_)) ->
Some (match lna.(i) with Name id -> id | _ -> assert false)
| Sort _ | Rel _ | Meta _|Evar _|Case (_, _, _, _) -> None
in
hdrec c
let lowercase_first_char id = (* First character of a constr *)
Unicode.lowercase_first_char (Id.to_string id)
let sort_hdchar = function
| Prop(_) -> "P"
| Type(_) -> "T"
let hdchar env c =
let rec hdrec k c =
match kind_of_term c with
| Prod (_,_,c) | Lambda (_,_,c) | LetIn (_,_,_,c) -> hdrec (k+1) c
| Cast (c,_,_) | App (c,_) -> hdrec k c
| Proj (kn,_) -> lowercase_first_char (Label.to_id (con_label (Projection.constant kn)))
| Const (kn,_) -> lowercase_first_char (Label.to_id (con_label kn))
| Ind (x,_) -> lowercase_first_char (basename_of_global (IndRef x))
| Construct (x,_) -> lowercase_first_char (basename_of_global (ConstructRef x))
| Var id -> lowercase_first_char id
| Sort s -> sort_hdchar s
| Rel n ->
(if n<=k then "p" (* the initial term is flexible product/function *)
else
try match Environ.lookup_rel (n-k) env with
| (Name id,_,_) -> lowercase_first_char id
| (Anonymous,_,t) -> hdrec 0 (lift (n-k) t)
with Not_found -> "y")
| Fix ((_,i),(lna,_,_)) | CoFix (i,(lna,_,_)) ->
let id = match lna.(i) with Name id -> id | _ -> assert false in
lowercase_first_char id
| Evar _ (* We could do better... *)
| Meta _ | Case (_, _, _, _) -> "y"
in
hdrec 0 c
let id_of_name_using_hdchar env a = function
| Anonymous -> Id.of_string (hdchar env a)
| Name id -> id
let named_hd env a = function
| Anonymous -> Name (Id.of_string (hdchar env a))
| x -> x
let mkProd_name env (n,a,b) = mkProd (named_hd env a n, a, b)
let mkLambda_name env (n,a,b) = mkLambda (named_hd env a n, a, b)
let lambda_name = mkLambda_name
let prod_name = mkProd_name
let prod_create env (a,b) = mkProd (named_hd env a Anonymous, a, b)
let lambda_create env (a,b) = mkLambda (named_hd env a Anonymous, a, b)
let name_assumption env (na,c,t) =
match c with
| None -> (named_hd env t na, None, t)
| Some body -> (named_hd env body na, c, t)
let name_context env hyps =
snd
(List.fold_left
(fun (env,hyps) d ->
let d' = name_assumption env d in (push_rel d' env, d' :: hyps))
(env,[]) (List.rev hyps))
let mkProd_or_LetIn_name env b d = mkProd_or_LetIn (name_assumption env d) b
let mkLambda_or_LetIn_name env b d = mkLambda_or_LetIn (name_assumption env d)b
let it_mkProd_or_LetIn_name env b hyps =
it_mkProd_or_LetIn b (name_context env hyps)
let it_mkLambda_or_LetIn_name env b hyps =
it_mkLambda_or_LetIn b (name_context env hyps)
(**********************************************************************)
(* Fresh names *)
(* Looks for next "good" name by lifting subscript *)
let next_ident_away_from id bad =
let rec name_rec id = if bad id then name_rec (lift_subscript id) else id in
name_rec id
(* Restart subscript from x0 if name starts with xN, or x00 if name
starts with x0N, etc *)
let restart_subscript id =
if not (has_subscript id) then id else
(* Ce serait sans doute mieux avec quelque chose inspiré de
*** make_ident id (Some 0) *** mais ça brise la compatibilité... *)
forget_subscript id
let rec to_avoid id = function
| [] -> false
| id' :: avoid -> Id.equal id id' || to_avoid id avoid
let occur_rel p env id =
try
let name = lookup_name_of_rel p env in
begin match name with
| Name id' -> Id.equal id' id
| Anonymous -> false
end
with Not_found -> false (* Unbound indice : may happen in debug *)
let visibly_occur_id id (nenv,c) =
let rec occur n c = match kind_of_term c with
| Const _ | Ind _ | Construct _ | Var _
when
let short = shortest_qualid_of_global Id.Set.empty (global_of_constr c) in
qualid_eq short (qualid_of_ident id) ->
raise Occur
| Rel p when p>n && occur_rel (p-n) nenv id -> raise Occur
| _ -> iter_constr_with_binders succ occur n c
in
try occur 1 c; false
with Occur -> true
| Not_found -> false (* Happens when a global is not in the env *)
(* Now, there are different renaming strategies... *)
(* 1- Looks for a fresh name for printing in cases pattern *)
let next_name_away_in_cases_pattern env_t na avoid =
let id = match na with Name id -> id | Anonymous -> default_dependent_ident in
let bad id = to_avoid id avoid || is_constructor id
|| visibly_occur_id id env_t in
next_ident_away_from id bad
(* 2- Looks for a fresh name for introduction in goal *)
(* The legacy strategy for renaming introduction variables is not very uniform:
- if the name to use is fresh in the context but used as a global
name, then a fresh name is taken by finding a free subscript
starting from the current subscript;
- but if the name to use is not fresh in the current context, the fresh
name is taken by finding a free subscript starting from 0 *)
let next_ident_away_in_goal id avoid =
let id = if to_avoid id avoid then restart_subscript id else id in
let bad id = to_avoid id avoid || (is_global id && not (is_section_variable id)) in
next_ident_away_from id bad
let next_name_away_in_goal na avoid =
let id = match na with
| Name id -> id
| Anonymous -> default_non_dependent_ident in
next_ident_away_in_goal id avoid
(* 3- Looks for next fresh name outside a list that is moreover valid
as a global identifier; the legacy algorithm is that if the name is
already used in the list, one looks for a name of same base with
lower available subscript; if the name is not in the list but is
used globally, one looks for a name of same base with lower subscript
beyond the current subscript *)
let next_global_ident_away id avoid =
let id = if to_avoid id avoid then restart_subscript id else id in
let bad id = to_avoid id avoid || is_global id in
next_ident_away_from id bad
(* 4- Looks for next fresh name outside a list; if name already used,
looks for same name with lower available subscript *)
let next_ident_away id avoid =
if to_avoid id avoid then
next_ident_away_from (restart_subscript id) (fun id -> to_avoid id avoid)
else id
let next_name_away_with_default default na avoid =
let id = match na with Name id -> id | Anonymous -> Id.of_string default in
next_ident_away id avoid
let reserved_type_name = ref (fun t -> Anonymous)
let set_reserved_typed_name f = reserved_type_name := f
let next_name_away_with_default_using_types default na avoid t =
let id = match na with
| Name id -> id
| Anonymous -> match !reserved_type_name t with
| Name id -> id
| Anonymous -> Id.of_string default in
next_ident_away id avoid
let next_name_away = next_name_away_with_default default_non_dependent_string
let make_all_name_different env =
let avoid = ref (ids_of_named_context (named_context env)) in
process_rel_context
(fun (na,c,t) newenv ->
let id = next_name_away na !avoid in
avoid := id::!avoid;
push_rel (Name id,c,t) newenv)
env
(* 5- Looks for next fresh name outside a list; avoids also to use names that
would clash with short name of global references; if name is already used,
looks for name of same base with lower available subscript beyond current
subscript *)
let next_ident_away_for_default_printing env_t id avoid =
let bad id = to_avoid id avoid || visibly_occur_id id env_t in
next_ident_away_from id bad
let next_name_away_for_default_printing env_t na avoid =
let id = match na with
| Name id -> id
| Anonymous ->
(* In principle, an anonymous name is not dependent and will not be *)
(* taken into account by the function compute_displayed_name_in; *)
(* just in case, invent a valid name *)
default_non_dependent_ident in
next_ident_away_for_default_printing env_t id avoid
(**********************************************************************)
(* Displaying terms avoiding bound variables clashes *)
(* Renaming strategy introduced in December 1998:
- Rule number 1: all names, even if unbound and not displayed, contribute
to the list of names to avoid
- Rule number 2: only the dependency status is used for deciding if
a name is displayed or not
Example:
bool_ind: "forall (P:bool->Prop)(f:(P true))(f:(P false))(b:bool), P b" is
displayed "forall P:bool->Prop, P true -> P false -> forall b:bool, P b"
but f and f0 contribute to the list of variables to avoid (knowing
that f and f0 are how the f's would be named if introduced, assuming
no other f and f0 are already used).
*)
type renaming_flags =
| RenamingForCasesPattern of (Name.t list * constr)
| RenamingForGoal
| RenamingElsewhereFor of (Name.t list * constr)
let next_name_for_display flags =
match flags with
| RenamingForCasesPattern env_t -> next_name_away_in_cases_pattern env_t
| RenamingForGoal -> next_name_away_in_goal
| RenamingElsewhereFor env_t -> next_name_away_for_default_printing env_t
(* Remark: Anonymous var may be dependent in Evar's contexts *)
let compute_displayed_name_in flags avoid na c =
match na with
| Anonymous when noccurn 1 c ->
(Anonymous,avoid)
| _ ->
let fresh_id = next_name_for_display flags na avoid in
let idopt = if noccurn 1 c then Anonymous else Name fresh_id in
(idopt, fresh_id::avoid)
let compute_and_force_displayed_name_in flags avoid na c =
match na with
| Anonymous when noccurn 1 c ->
(Anonymous,avoid)
| _ ->
let fresh_id = next_name_for_display flags na avoid in
(Name fresh_id, fresh_id::avoid)
let compute_displayed_let_name_in flags avoid na c =
let fresh_id = next_name_for_display flags na avoid in
(Name fresh_id, fresh_id::avoid)
let rename_bound_vars_as_displayed avoid env c =
let rec rename avoid env c =
match kind_of_term c with
| Prod (na,c1,c2) ->
let na',avoid' =
compute_displayed_name_in
(RenamingElsewhereFor (env,c2)) avoid na c2 in
mkProd (na', c1, rename avoid' (add_name na' env) c2)
| LetIn (na,c1,t,c2) ->
let na',avoid' =
compute_displayed_let_name_in
(RenamingElsewhereFor (env,c2)) avoid na c2 in
mkLetIn (na',c1,t, rename avoid' (add_name na' env) c2)
| Cast (c,k,t) -> mkCast (rename avoid env c, k,t)
| _ -> c
in
rename avoid env c
(**********************************************************************)
(* "H"-based naming strategy introduced June 2014 for hypotheses in
Prop produced by case/elim/destruct/induction, in place of the
strategy that was using the first letter of the type, leading to
inelegant "n:~A", "e:t=u", etc. when eliminating sumbool or similar
types *)
let h_based_elimination_names = ref false
let use_h_based_elimination_names () =
!h_based_elimination_names && Flags.version_strictly_greater Flags.V8_4
open Goptions
let _ = declare_bool_option
{ optsync = true;
optdepr = false;
optname = "use of \"H\"-based proposition names in elimination tactics";
optkey = ["Standard";"Proposition";"Elimination";"Names"];
optread = (fun () -> !h_based_elimination_names);
optwrite = (:=) h_based_elimination_names }
|