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(************************************************************************)
(* * The Coq Proof Assistant / The Coq Development Team *)
(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *)
(* <O___,, * (see CREDITS file for the list of authors) *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(* * (see LICENSE file for the text of the license) *)
(************************************************************************)
open Names
open Globnames
open Constr
open Evd
open Environ
type direction = Forward | Backward
(** This module defines type-classes *)
type typeclass = {
(** The toplevel universe quantification in which the typeclass lives. In
particular, [cl_props] and [cl_context] are quantified over it. *)
cl_univs : Univ.AUContext.t;
(** The class implementation: a record parameterized by the context with defs in it or a definition if
the class is a singleton. This acts as the class' global identifier. *)
cl_impl : global_reference;
(** Context in which the definitions are typed. Includes both typeclass parameters and superclasses.
The global reference gives a direct link to the class itself. *)
cl_context : global_reference option list * Context.Rel.t;
(** Context of definitions and properties on defs, will not be shared *)
cl_props : Context.Rel.t;
(** The methods implementations of the typeclass as projections.
Some may be undefinable due to sorting restrictions or simply undefined if
no name is provided. The [int option option] indicates subclasses whose hint has
the given priority. *)
cl_projs : (Name.t * (direction * Vernacexpr.hint_info_expr) option * Constant.t option) list;
(** Whether we use matching or full unification during resolution *)
cl_strict : bool;
(** Whether we can assume that instances are unique, which allows
no backtracking and sharing of resolution. *)
cl_unique : bool;
}
type instance
val instances : global_reference -> instance list
val typeclasses : unit -> typeclass list
val all_instances : unit -> instance list
val add_class : typeclass -> unit
val new_instance : typeclass -> Vernacexpr.hint_info_expr -> bool ->
global_reference -> instance
val add_instance : instance -> unit
val remove_instance : instance -> unit
val class_info : global_reference -> typeclass (** raises a UserError if not a class *)
(** These raise a UserError if not a class.
Caution: the typeclass structures is not instantiated w.r.t. the universe instance.
This is done separately by typeclass_univ_instance. *)
val dest_class_app : env -> evar_map -> EConstr.constr -> (typeclass * EConstr.EInstance.t) * constr list
(** Get the instantiated typeclass structure for a given universe instance. *)
val typeclass_univ_instance : typeclass Univ.puniverses -> typeclass
(** Just return None if not a class *)
val class_of_constr : evar_map -> EConstr.constr -> (EConstr.rel_context * ((typeclass * EConstr.EInstance.t) * constr list)) option
val instance_impl : instance -> global_reference
val hint_priority : instance -> int option
val is_class : global_reference -> bool
val is_instance : global_reference -> bool
(** Returns the term and type for the given instance of the parameters and fields
of the type class. *)
val instance_constructor : typeclass EConstr.puniverses -> EConstr.t list ->
EConstr.t option * EConstr.t
(** Filter which evars to consider for resolution. *)
type evar_filter = Evar.t -> Evar_kinds.t -> bool
val all_evars : evar_filter
val all_goals : evar_filter
val no_goals : evar_filter
val no_goals_or_obligations : evar_filter
(** Resolvability.
Only undefined evars can be marked or checked for resolvability.
They represent type-class search roots.
A resolvable evar is an evar the type-class engine may try to solve
An unresolvable evar is an evar the type-class engine will NOT try to solve
*)
val set_resolvable : Evd.Store.t -> bool -> Evd.Store.t
val is_resolvable : evar_info -> bool
val mark_unresolvable : evar_info -> evar_info
val mark_unresolvables : ?filter:evar_filter -> evar_map -> evar_map
val mark_resolvables : ?filter:evar_filter -> evar_map -> evar_map
val mark_resolvable : evar_info -> evar_info
val is_class_evar : evar_map -> evar_info -> bool
val is_class_type : evar_map -> EConstr.types -> bool
val resolve_typeclasses : ?fast_path:bool -> ?filter:evar_filter -> ?unique:bool ->
?split:bool -> ?fail:bool -> env -> evar_map -> evar_map
val resolve_one_typeclass : ?unique:bool -> env -> evar_map -> EConstr.types -> evar_map * EConstr.constr
val set_typeclass_transparency_hook : (evaluable_global_reference -> bool (*local?*) -> bool -> unit) Hook.t
val set_typeclass_transparency : evaluable_global_reference -> bool -> bool -> unit
val classes_transparent_state_hook : (unit -> transparent_state) Hook.t
val classes_transparent_state : unit -> transparent_state
val add_instance_hint_hook :
(global_reference_or_constr -> global_reference list ->
bool (* local? *) -> Vernacexpr.hint_info_expr -> Decl_kinds.polymorphic -> unit) Hook.t
val remove_instance_hint_hook : (global_reference -> unit) Hook.t
val add_instance_hint : global_reference_or_constr -> global_reference list ->
bool -> Vernacexpr.hint_info_expr -> Decl_kinds.polymorphic -> unit
val remove_instance_hint : global_reference -> unit
val solve_all_instances_hook : (env -> evar_map -> evar_filter -> bool -> bool -> bool -> evar_map) Hook.t
val solve_one_instance_hook : (env -> evar_map -> EConstr.types -> bool -> evar_map * EConstr.constr) Hook.t
val declare_instance : Vernacexpr.hint_info_expr option -> bool -> global_reference -> unit
(** Build the subinstances hints for a given typeclass object.
check tells if we should check for existence of the
subinstances and add only the missing ones. *)
val build_subclasses : check:bool -> env -> evar_map -> global_reference ->
Vernacexpr.hint_info_expr ->
(global_reference list * Vernacexpr.hint_info_expr * constr) list
|