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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2014 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(** This file implements type inference. It maps [glob_constr]
(i.e. untyped terms whose names are located) to [constr]. In
particular, it drives complex pattern-matching problems ("match")
into elementary ones, insertion of coercions and resolution of
implicit arguments. *)
open Names
open Sign
open Term
open Environ
open Evd
open Glob_term
open Evarutil
(** An auxiliary function for searching for fixpoint guard indexes *)
val search_guard :
Util.loc -> env -> int list list -> rec_declaration -> int array
type typing_constraint = OfType of types option | IsType
type var_map = (identifier * Pattern.constr_under_binders) list
type unbound_ltac_var_map = (identifier * identifier option) list
type ltac_var_map = var_map * unbound_ltac_var_map
type glob_constr_ltac_closure = ltac_var_map * glob_constr
type pure_open_constr = evar_map * constr
module type S =
sig
module Cases : Cases.S
(** Allow references to syntaxically inexistent variables (i.e., if applied on an inductive) *)
val allow_anonymous_refs : bool ref
(** Generic call to the interpreter from glob_constr to open_constr, leaving
unresolved holes as evars and returning the typing contexts of
these evars. Work as [understand_gen] for the rest. *)
val understand_tcc : ?resolve_classes:bool ->
evar_map -> env -> ?expected_type:types -> glob_constr -> open_constr
val understand_tcc_evars : ?fail_evar:bool -> ?resolve_classes:bool ->
evar_map ref -> env -> typing_constraint -> glob_constr -> constr
(** More general entry point with evars from ltac *)
(** Generic call to the interpreter from glob_constr to constr, failing
unresolved holes in the glob_constr cannot be instantiated.
In [understand_ltac expand_evars sigma env ltac_env constraint c],
resolve_classes : launch typeclass resolution after typechecking.
expand_evars : expand inferred evars by their value if any
sigma : initial set of existential variables (typically dependent subgoals)
ltac_env : partial substitution of variables (used for the tactic language)
constraint : tell if interpreted as a possibly constrained term or a type
*)
val understand_ltac : ?resolve_classes:bool ->
bool -> evar_map -> env -> ltac_var_map ->
typing_constraint -> glob_constr -> pure_open_constr
(** Standard call to get a constr from a glob_constr, resolving implicit args *)
val understand : evar_map -> env -> ?expected_type:Term.types ->
glob_constr -> constr
(** Idem but the glob_constr is intended to be a type *)
val understand_type : evar_map -> env -> glob_constr -> constr
(** A generalization of the two previous case *)
val understand_gen : typing_constraint -> evar_map -> env ->
glob_constr -> constr
(** Idem but returns the judgment of the understood term *)
val understand_judgment : evar_map -> env -> glob_constr -> unsafe_judgment
(** Idem but do not fail on unresolved evars *)
val understand_judgment_tcc : evar_map ref -> env -> glob_constr -> unsafe_judgment
(**/**)
(** Internal of Pretyping... *)
val pretype :
bool -> type_constraint -> env -> evar_map ref ->
ltac_var_map -> glob_constr -> unsafe_judgment
val pretype_type :
bool -> val_constraint -> env -> evar_map ref ->
ltac_var_map -> glob_constr -> unsafe_type_judgment
val pretype_gen :
bool -> bool -> bool -> evar_map ref -> env ->
ltac_var_map -> typing_constraint -> glob_constr -> constr
(**/**)
end
module Pretyping_F (C : Coercion.S) : S
module Default : S
(** To embed constr in glob_constr *)
val constr_in : constr -> Dyn.t
val constr_out : Dyn.t -> constr
val interp_sort : glob_sort -> sorts
val interp_elimination_sort : glob_sort -> sorts_family
(** Last chance for solving evars, possibly using external solver *)
val solve_remaining_evars : bool -> bool ->
(env -> evar_map -> existential -> constr) ->
env -> evar_map -> pure_open_constr -> pure_open_constr
|
