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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: environ.ml,v 1.89.2.1 2004/07/16 19:30:25 herbelin Exp $ *)
open Util
open Names
open Sign
open Univ
open Term
open Declarations
(* The type of environments. *)
type checksum = int
type compilation_unit_name = dir_path * checksum
type global = Constant | Inductive
type engagement = ImpredicativeSet
type globals = {
env_constants : constant_body KNmap.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 env = {
env_globals : globals;
env_named_context : named_context;
env_rel_context : rel_context;
env_stratification : stratification }
let empty_env = {
env_globals = {
env_constants = KNmap.empty;
env_inductives = KNmap.empty;
env_modules = MPmap.empty;
env_modtypes = KNmap.empty };
env_named_context = empty_named_context;
env_rel_context = empty_rel_context;
env_stratification = {
env_universes = initial_universes;
env_engagement = None } }
let engagement env = env.env_stratification.env_engagement
let universes env = env.env_stratification.env_universes
let named_context env = env.env_named_context
let rel_context env = env.env_rel_context
let empty_context env =
env.env_rel_context = empty_rel_context
&& env.env_named_context = empty_named_context
(* Rel context *)
let lookup_rel n env =
Sign.lookup_rel n env.env_rel_context
let evaluable_rel n env =
try
match lookup_rel n env with
(_,Some _,_) -> true
| _ -> false
with Not_found ->
false
let push_rel d env =
{ env with
env_rel_context = add_rel_decl d env.env_rel_context }
let push_rel_context ctxt x = Sign.fold_rel_context push_rel ctxt ~init:x
let push_rec_types (lna,typarray,_) env =
let ctxt =
array_map2_i
(fun i na t -> (na, None, type_app (lift i) t)) lna typarray in
Array.fold_left (fun e assum -> push_rel assum e) env ctxt
let reset_rel_context env =
{ env with
env_rel_context = empty_rel_context }
let fold_rel_context f env ~init =
snd (Sign.fold_rel_context
(fun d (env,e) -> (push_rel d env, f env d e))
(rel_context env) ~init:(reset_rel_context env,init))
(* Named context *)
let lookup_named id env =
Sign.lookup_named id env.env_named_context
(* A local const is evaluable if it is defined and not opaque *)
let evaluable_named id env =
try
match lookup_named id env with
(_,Some _,_) -> true
| _ -> false
with Not_found ->
false
let push_named d env =
{ env with
env_named_context = Sign.add_named_decl d env.env_named_context }
let reset_context env =
{ env with
env_named_context = empty_named_context;
env_rel_context = empty_rel_context }
let reset_with_named_context ctxt env =
{ env with
env_named_context = ctxt;
env_rel_context = empty_rel_context }
let fold_named_context f env ~init =
snd (Sign.fold_named_context
(fun d (env,e) -> (push_named d env, f env d e))
(named_context env) ~init:(reset_context env,init))
let fold_named_context_reverse f ~init env =
Sign.fold_named_context_reverse f ~init:init (named_context env)
(* Global constants *)
let lookup_constant kn env =
KNmap.find kn env.env_globals.env_constants
let add_constant kn cb env =
let new_constants = KNmap.add kn cb env.env_globals.env_constants in
let new_globals =
{ env.env_globals with
env_constants = new_constants } in
{ env with env_globals = new_globals }
(* constant_type gives the type of a constant *)
let constant_type env kn =
let cb = lookup_constant kn env in
cb.const_type
type const_evaluation_result = NoBody | Opaque
exception NotEvaluableConst of const_evaluation_result
let constant_value env kn =
let cb = lookup_constant kn env in
if cb.const_opaque then raise (NotEvaluableConst Opaque);
match cb.const_body with
| Some l_body -> Declarations.force l_body
| None -> raise (NotEvaluableConst NoBody)
let constant_opt_value env cst =
try Some (constant_value env cst)
with NotEvaluableConst _ -> None
(* A global const is evaluable if it is defined and not opaque *)
let evaluable_constant cst env =
try let _ = constant_value env cst in true
with Not_found | NotEvaluableConst _ -> false
(* Mutual Inductives *)
let lookup_mind kn env =
KNmap.find kn env.env_globals.env_inductives
let add_mind kn mib env =
let new_inds = KNmap.add kn mib env.env_globals.env_inductives in
let new_globals =
{ env.env_globals with
env_inductives = new_inds } in
{ env with env_globals = new_globals }
(* Universe constraints *)
let set_universes g env =
if env.env_stratification.env_universes == g then env
else
{ env with env_stratification =
{ env.env_stratification with env_universes = g } }
let add_constraints c env =
if c == Constraint.empty then
env
else
let s = env.env_stratification in
{ env with env_stratification =
{ s with env_universes = merge_constraints c s.env_universes } }
let set_engagement c env = (* Unsafe *)
{ env with env_stratification =
{ env.env_stratification with env_engagement = Some c } }
(* Lookup of section variables *)
let lookup_constant_variables c env =
let cmap = lookup_constant c env in
Sign.vars_of_named_context cmap.const_hyps
let lookup_inductive_variables (kn,i) env =
let mis = lookup_mind kn env in
Sign.vars_of_named_context mis.mind_hyps
let lookup_constructor_variables (ind,_) env =
lookup_inductive_variables ind env
(* Returns the list of global variables in a term *)
let vars_of_global env constr =
match kind_of_term constr with
Var id -> [id]
| Const kn -> lookup_constant_variables kn env
| Ind ind -> lookup_inductive_variables ind env
| Construct cstr -> lookup_constructor_variables cstr env
| _ -> []
let global_vars_set env constr =
let rec filtrec acc c =
let vl = vars_of_global env c in
let acc = List.fold_right Idset.add vl acc in
fold_constr filtrec acc c
in
filtrec Idset.empty constr
(* [keep_hyps env ids] keeps the part of the section context of [env] which
contains the variables of the set [ids], and recursively the variables
contained in the types of the needed variables. *)
let keep_hyps env needed =
let really_needed =
Sign.fold_named_context_reverse
(fun need (id,copt,t) ->
if Idset.mem id need then
let globc =
match copt with
| None -> Idset.empty
| Some c -> global_vars_set env c in
Idset.union
(global_vars_set env t)
(Idset.union globc need)
else need)
~init:needed
(named_context env) in
Sign.fold_named_context
(fun (id,_,_ as d) nsign ->
if Idset.mem id really_needed then add_named_decl d nsign
else nsign)
(named_context env)
~init:empty_named_context
(* Modules *)
let add_modtype ln mtb env =
let new_modtypes = KNmap.add ln mtb env.env_globals.env_modtypes in
let new_globals =
{ env.env_globals with
env_modtypes = new_modtypes } in
{ env with env_globals = new_globals }
let shallow_add_module mp mb env =
let new_mods = MPmap.add mp mb env.env_globals.env_modules in
let new_globals =
{ env.env_globals with
env_modules = new_mods } in
{ env with env_globals = new_globals }
let lookup_module mp env =
MPmap.find mp env.env_globals.env_modules
let lookup_modtype ln env =
KNmap.find ln env.env_globals.env_modtypes
(*s Judgments. *)
type unsafe_judgment = {
uj_val : constr;
uj_type : types }
let make_judge v tj =
{ uj_val = v;
uj_type = tj }
let j_val j = j.uj_val
let j_type j = j.uj_type
type unsafe_type_judgment = {
utj_val : constr;
utj_type : sorts }
|
