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(***********************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA-Rocquencourt & LRI-CNRS-Orsay *)
(* \VV/ *************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(***********************************************************************)
(*i $Id$ i*)
(*s Target language for extraction: a core ML called MiniML. *)
open Pp
open Util
open Names
open Libnames
(*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
| Tunknown
| Tcustom of string
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 ml_one_ind =
identifier list * global_reference * (global_reference * ml_type list) list
type ml_ind =
ml_one_ind list * bool (* cofix *)
(*s ML terms. *)
type ml_ast =
| MLrel of int
| MLapp of ml_ast * ml_ast list
| MLlam of identifier * ml_ast
| MLletin of identifier * ml_ast * ml_ast
| MLglob of global_reference
| MLcons of global_reference * ml_ast list
| MLcase of ml_ast * (global_reference * identifier list * ml_ast) array
| MLfix of int * identifier array * ml_ast array
| MLexn of string
| MLdummy
| MLcast of ml_ast * ml_type
| MLmagic of ml_ast
| MLcustom of string
(*s ML declarations. *)
type ml_decl =
| Dind of ml_ind
| Dtype of global_reference * identifier list * ml_type
| Dterm of global_reference * ml_ast * ml_type
| DcustomTerm of global_reference * string
| DcustomType of global_reference * string
| Dfix of global_reference array * ml_ast array * ml_type array
type ml_specif =
| Sval of ml_type
| Stype of ml_type option
| Smind of ml_ind
| Smodule of ml_module_type (* et un module_path option ?? *)
| Smodtype of ml_module_type
and ml_module_sig = (label * ml_specif) list
and ml_module_type =
| MTident of kernel_name
| MTfunsig of mod_bound_id * ml_module_type * ml_module_type
| MTsig of mod_self_id * ml_module_sig
and ml_module_expr =
| MEident of module_path
| MEfunctor of mod_bound_id * ml_module_type * ml_module_expr
| MEstruct of mod_self_id * ml_module_structure
| MEapply of ml_module_expr * ml_module_expr
and ml_structure_elem =
| SEind of ml_ind
| SEtype of identifier list * ml_type
| SEterm of ml_ast * ml_type
| SEfix of global_reference array * ml_ast array * ml_type array
| SEmodule of ml_module (* pourquoi pas plutot ml_module_expr *)
| SEmodtype of ml_module_type
and ml_module_structure = (label * ml_structure_elem) list
and ml_module =
{ ml_mod_expr : ml_module_expr option;
ml_mod_type : ml_module_type }
(*s Pretty-printing of MiniML in a given concrete syntax is parameterized
by a function [pp_global] that pretty-prints global references.
The resulting pretty-printer is a module of type [Mlpp] providing
functions to print types, terms and declarations. *)
type extraction_params =
{ modular : bool;
mod_name : identifier;
to_appear : global_reference list }
module type Mlpp_param = sig
val globals : unit -> Idset.t
val pp_global : global_reference -> std_ppcmds
end
module type Mlpp = sig
val pp_decl : ml_decl -> std_ppcmds
end
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