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(************************************************************************)
(*  v      *   The Coq Proof Assistant  /  The Coq Development Team     *)
(* <O___,, *   INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2015     *)
(*   \VV/  **************************************************************)
(*    //   *      This file is distributed under the terms of the       *)
(*         *       GNU Lesser General Public License Version 2.1        *)
(************************************************************************)

(** {6 [Mod_subst] } *)

open Names
open Term

(** {6 Delta resolver} *)

(** A delta_resolver maps name (constant, inductive, module_path)
   to canonical name  *)
type delta_resolver

val empty_delta_resolver : delta_resolver

val add_mp_delta_resolver :
  module_path -> module_path -> delta_resolver -> delta_resolver

val add_kn_delta_resolver :
  kernel_name -> kernel_name -> delta_resolver -> delta_resolver

val add_inline_delta_resolver :
  kernel_name -> (int * constr option) -> delta_resolver -> delta_resolver

val add_delta_resolver : delta_resolver -> delta_resolver -> delta_resolver

(** Effect of a [delta_resolver] on a module path, on a kernel name *)

val mp_of_delta : delta_resolver -> module_path -> module_path
val kn_of_delta : delta_resolver -> kernel_name -> kernel_name

(** Build a constant whose canonical part is obtained via a resolver *)

val constant_of_delta_kn : delta_resolver -> kernel_name -> constant

(** Same, but a 2nd resolver is tried if the 1st one had no effect *)

val constant_of_deltas_kn :
  delta_resolver -> delta_resolver -> kernel_name -> constant

(** Same for inductive names *)

val mind_of_delta_kn : delta_resolver -> kernel_name -> mutual_inductive
val mind_of_deltas_kn :
  delta_resolver -> delta_resolver -> kernel_name -> mutual_inductive

(** Extract the set of inlined constant in the resolver *)
val inline_of_delta : int option -> delta_resolver -> (int * kernel_name) list

(** Does a [delta_resolver] contains a [mp], a constant, an inductive ? *)

val mp_in_delta : module_path -> delta_resolver -> bool
val con_in_delta : constant -> delta_resolver -> bool
val mind_in_delta : mutual_inductive -> delta_resolver -> bool


(** {6 Substitution} *)

type substitution

val empty_subst : substitution

val is_empty_subst : substitution -> bool

(** add_* add [arg2/arg1]\{arg3\} to the substitution with no sequential
   composition. Most often this is not what you want. For sequential
   composition, try [join (map_mbid mp delta) subs] **)
val add_mbid :
  MBId.t -> module_path -> delta_resolver  -> substitution -> substitution
val add_mp :
  module_path -> module_path -> delta_resolver -> substitution -> substitution

(** map_* create a new substitution [arg2/arg1]\{arg3\} *)
val map_mbid :
  MBId.t -> module_path -> delta_resolver -> substitution
val map_mp :
  module_path -> module_path -> delta_resolver -> substitution

(** sequential composition:
   [substitute (join sub1 sub2) t = substitute sub2 (substitute sub1 t)]
*)
val join : substitution -> substitution -> substitution


(** Apply the substitution on the domain of the resolver  *)
val subst_dom_delta_resolver : substitution -> delta_resolver -> delta_resolver

(** Apply the substitution on the codomain of the resolver  *)
val subst_codom_delta_resolver :
  substitution -> delta_resolver -> delta_resolver

val subst_dom_codom_delta_resolver :
  substitution -> delta_resolver -> delta_resolver


type 'a substituted
val from_val : 'a -> 'a substituted
val force : (substitution -> 'a -> 'a) -> 'a substituted -> 'a
val subst_substituted : substitution -> 'a substituted -> 'a substituted

(**/**)
(* debugging *)
val debug_string_of_subst : substitution -> string
val debug_pr_subst : substitution -> Pp.std_ppcmds
val debug_string_of_delta : delta_resolver -> string
val debug_pr_delta : delta_resolver -> Pp.std_ppcmds
(**/**)

(** [subst_mp sub mp] guarantees that whenever the result of the
   substitution is structutally equal [mp], it is equal by pointers
   as well [==] *)

val subst_mp :
  substitution -> module_path -> module_path

val subst_mind :
  substitution -> mutual_inductive -> mutual_inductive

val subst_ind :
  substitution -> inductive -> inductive

val subst_pind : substitution -> pinductive -> pinductive

val subst_kn :
  substitution -> kernel_name -> kernel_name

val subst_con :
  substitution -> pconstant -> constant * constr

val subst_pcon :
  substitution -> pconstant -> pconstant

val subst_pcon_term :
  substitution -> pconstant -> pconstant * constr

val subst_con_kn :
  substitution -> constant -> constant * constr

val subst_constant : 
  substitution -> constant -> constant

(** Here the semantics is completely unclear.
   What does "Hint Unfold t" means when "t" is a parameter?
   Does the user mean "Unfold X.t" or does she mean "Unfold y"
   where X.t is later on instantiated with y? I choose the first
   interpretation (i.e. an evaluable reference is never expanded). *)
val subst_evaluable_reference :
  substitution -> evaluable_global_reference -> evaluable_global_reference

(** [replace_mp_in_con mp mp' con] replaces [mp] with [mp'] in [con] *)
val replace_mp_in_kn : module_path -> module_path -> kernel_name -> kernel_name

(** [subst_mps sub c] performs the substitution [sub] on all kernel
   names appearing in [c] *)
val subst_mps : substitution -> constr -> constr

(** [occur_*id id sub] returns true iff [id] occurs in [sub]
   on either side *)

val occur_mbid : MBId.t -> substitution -> bool

(** [repr_substituted r] dumps the representation of a substituted:
    - [None, a] when r is a value
    - [Some s, a] when r is a delayed substitution [s] applied to [a] *)

val repr_substituted : 'a substituted -> substitution list option * 'a

val force_constr : Term.constr substituted -> Term.constr
val subst_constr :
  substitution -> Term.constr substituted -> Term.constr substituted