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(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2016 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(*s Target language for extraction: a core ML called MiniML. *)
open Pp
open Names
open Globnames
(* The [signature] type is used to know how many arguments a CIC
object expects, and what these arguments will become in the ML
object. *)
(* We eliminate from terms:
1) types
2) logical parts
3) user-declared implicit arguments of a constant of constructor
*)
type kill_reason =
| Ktype
| Kprop
| Kimplicit of global_reference * int (* n-th arg of a cst or construct *)
type sign = Keep | Kill of kill_reason
(* Convention: outmost lambda/product gives the head of the list. *)
type signature = sign list
(*s ML type expressions. *)
type ml_type =
| Tarr of ml_type * ml_type
| Tglob of global_reference * ml_type list
| Tvar of int
| Tvar' of int (* same as Tvar, used to avoid clash *)
| Tmeta of ml_meta (* used during ML type reconstruction *)
| Tdummy of kill_reason
| Tunknown
| Taxiom
and ml_meta = { id : int; mutable contents : ml_type option }
(* ML type schema.
The integer is the number of variable in the schema. *)
type ml_schema = int * ml_type
(*s ML inductive types. *)
type inductive_kind =
| Singleton
| Coinductive
| Standard
| Record of global_reference option list (* None for anonymous field *)
(* A [ml_ind_packet] is the miniml counterpart of a [one_inductive_body].
If the inductive is logical ([ip_logical = false]), then all other fields
are unused. Otherwise,
[ip_sign] is a signature concerning the arguments of the inductive,
[ip_vars] contains the names of the type variables surviving in ML,
[ip_types] contains the ML types of all constructors.
*)
type ml_ind_packet = {
ip_typename : Id.t;
ip_consnames : Id.t array;
ip_logical : bool;
ip_sign : signature;
ip_vars : Id.t list;
ip_types : (ml_type list) array
}
(* [ip_nparams] contains the number of parameters. *)
type equiv =
| NoEquiv
| Equiv of kernel_name
| RenEquiv of string
type ml_ind = {
ind_kind : inductive_kind;
ind_nparams : int;
ind_packets : ml_ind_packet array;
ind_equiv : equiv
}
(*s ML terms. *)
type ml_ident =
| Dummy
| Id of Id.t
| Tmp of Id.t
(** We now store some typing information on constructors
and cases to avoid type-unsafe optimisations. This will be
either the type of the applied constructor or the type
of the head of the match.
*)
(** Nota : the constructor [MLtuple] and the extension of [MLcase]
to general patterns have been proposed by P.N. Tollitte for
his Relation Extraction plugin. [MLtuple] is currently not
used by the main extraction, as well as deep patterns. *)
type ml_branch = ml_ident list * ml_pattern * ml_ast
and ml_ast =
| MLrel of int
| MLapp of ml_ast * ml_ast list
| MLlam of ml_ident * ml_ast
| MLletin of ml_ident * ml_ast * ml_ast
| MLglob of global_reference
| MLcons of ml_type * global_reference * ml_ast list
| MLtuple of ml_ast list
| MLcase of ml_type * ml_ast * ml_branch array
| MLfix of int * Id.t array * ml_ast array
| MLexn of string
| MLdummy of kill_reason
| MLaxiom
| MLmagic of ml_ast
and ml_pattern =
| Pcons of global_reference * ml_pattern list
| Ptuple of ml_pattern list
| Prel of int (** Cf. the idents in the branch. [Prel 1] is the last one. *)
| Pwild
| Pusual of global_reference (** Shortcut for Pcons (r,[Prel n;...;Prel 1]) **)
(*s ML declarations. *)
type ml_decl =
| Dind of mutual_inductive * ml_ind
| Dtype of global_reference * Id.t list * ml_type
| Dterm of global_reference * ml_ast * ml_type
| Dfix of global_reference array * ml_ast array * ml_type array
type ml_spec =
| Sind of mutual_inductive * ml_ind
| Stype of global_reference * Id.t list * ml_type option
| Sval of global_reference * ml_type
type ml_specif =
| Spec of ml_spec
| Smodule of ml_module_type
| Smodtype of ml_module_type
and ml_module_type =
| MTident of module_path
| MTfunsig of MBId.t * ml_module_type * ml_module_type
| MTsig of module_path * ml_module_sig
| MTwith of ml_module_type * ml_with_declaration
and ml_with_declaration =
| ML_With_type of Id.t list * Id.t list * ml_type
| ML_With_module of Id.t list * module_path
and ml_module_sig = (Label.t * ml_specif) list
type ml_structure_elem =
| SEdecl of ml_decl
| SEmodule of ml_module
| SEmodtype of ml_module_type
and ml_module_expr =
| MEident of module_path
| MEfunctor of MBId.t * ml_module_type * ml_module_expr
| MEstruct of module_path * ml_module_structure
| MEapply of ml_module_expr * ml_module_expr
and ml_module_structure = (Label.t * ml_structure_elem) list
and ml_module =
{ ml_mod_expr : ml_module_expr;
ml_mod_type : ml_module_type }
(* NB: we do not translate the [mod_equiv] field, since [mod_equiv = mp]
implies that [mod_expr = MEBident mp]. Same with [msb_equiv]. *)
type ml_structure = (module_path * ml_module_structure) list
type ml_signature = (module_path * ml_module_sig) list
type ml_flat_structure = ml_structure_elem list
type unsafe_needs = {
mldummy : bool;
tdummy : bool;
tunknown : bool;
magic : bool
}
type language_descr = {
keywords : Id.Set.t;
(* Concerning the source file *)
file_suffix : string;
file_naming : module_path -> string;
(* the second argument is a comment to add to the preamble *)
preamble :
Id.t -> std_ppcmds option -> module_path list -> unsafe_needs ->
std_ppcmds;
pp_struct : ml_structure -> std_ppcmds;
(* Concerning a possible interface file *)
sig_suffix : string option;
(* the second argument is a comment to add to the preamble *)
sig_preamble :
Id.t -> std_ppcmds option -> module_path list -> unsafe_needs ->
std_ppcmds;
pp_sig : ml_signature -> std_ppcmds;
(* for an isolated declaration print *)
pp_decl : ml_decl -> std_ppcmds;
}
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