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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * CNRS-Ecole Polytechnique-INRIA Futurs-Universite Paris Sud *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(* $Id$ *)
open Util
open Names
open Sign
open Univ
open Term
open Declarations
(* The type of environments. *)
type key = int option ref
type constant_key = constant_body * key
type globals = {
env_constants : constant_key Cmap.t;
env_inductives : mutual_inductive_body KNmap.t;
env_modules : module_body MPmap.t;
env_modtypes : module_type_body KNmap.t }
type stratification = {
env_universes : universes;
env_engagement : engagement option
}
type val_kind =
| VKvalue of values * Idset.t
| VKnone
type lazy_val = val_kind ref
type named_vals = (identifier * lazy_val) list
type env = {
env_globals : globals;
env_named_context : named_context;
env_named_vals : named_vals;
env_rel_context : rel_context;
env_rel_val : lazy_val list;
env_nb_rel : int;
env_stratification : stratification;
retroknowledge : Retroknowledge.retroknowledge }
type named_context_val = named_context * named_vals
let empty_named_context_val = [],[]
let empty_env = {
env_globals = {
env_constants = Cmap.empty;
env_inductives = KNmap.empty;
env_modules = MPmap.empty;
env_modtypes = KNmap.empty };
env_named_context = empty_named_context;
env_named_vals = [];
env_rel_context = empty_rel_context;
env_rel_val = [];
env_nb_rel = 0;
env_stratification = {
env_universes = initial_universes;
env_engagement = None };
retroknowledge = Retroknowledge.initial_retroknowledge }
(* Rel context *)
let nb_rel env = env.env_nb_rel
let push_rel d env =
let rval = ref VKnone in
{ env with
env_rel_context = add_rel_decl d env.env_rel_context;
env_rel_val = rval :: env.env_rel_val;
env_nb_rel = env.env_nb_rel + 1 }
let lookup_rel_val n env =
try List.nth env.env_rel_val (n - 1)
with _ -> raise Not_found
let env_of_rel n env =
{ env with
env_rel_context = Util.list_skipn n env.env_rel_context;
env_rel_val = Util.list_skipn n env.env_rel_val;
env_nb_rel = env.env_nb_rel - n
}
(* Named context *)
let push_named_context_val d (ctxt,vals) =
let id,_,_ = d in
let rval = ref VKnone in
Sign.add_named_decl d ctxt, (id,rval)::vals
exception ASSERT of Sign.rel_context
let push_named d env =
(* if not (env.env_rel_context = []) then raise (ASSERT env.env_rel_context);
assert (env.env_rel_context = []); *)
let id,body,_ = d in
let rval = ref VKnone in
{ env with
env_named_context = Sign.add_named_decl d env.env_named_context;
env_named_vals = (id,rval):: env.env_named_vals }
let lookup_named_val id env =
snd(List.find (fun (id',_) -> id = id') env.env_named_vals)
(* Warning all the names should be different *)
let env_of_named id env = env
(* Global constants *)
let lookup_constant_key kn env =
Cmap.find kn env.env_globals.env_constants
let lookup_constant kn env =
fst (Cmap.find kn env.env_globals.env_constants)
(* Mutual Inductives *)
let lookup_mind kn env =
KNmap.find kn env.env_globals.env_inductives
let rec scrape_mind env kn =
match (lookup_mind kn env).mind_equiv with
| None -> kn
| Some kn' -> scrape_mind env kn'
|