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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * CNRS-Ecole Polytechnique-INRIA Futurs-Universite Paris Sud *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(* This module manages customization parameters at the vernacular level *)
open Pp
open Util
open Libobject
open Names
open Libnames
open Term
open Nametab
open Mod_subst
(****************************************************************************)
(* 0- Common things *)
type option_name = string list
let nickname table = String.concat " " table
let error_undeclared_key key =
error ((nickname key)^": no table or option of this type")
type value =
| BoolValue of bool
| IntValue of int option
| StringValue of string
| IdentValue of global_reference
(****************************************************************************)
(* 1- Tables *)
class type ['a] table_of_A =
object
method add : 'a -> unit
method remove : 'a -> unit
method mem : 'a -> unit
method print : unit
end
module MakeTable =
functor
(A : sig
type t
type key
val table : (string * key table_of_A) list ref
val encode : key -> t
val subst : substitution -> t -> t
val printer : t -> std_ppcmds
val key : option_name
val title : string
val member_message : t -> bool -> std_ppcmds
val synchronous : bool
end) ->
struct
type option_mark =
| GOadd
| GOrmv
let nick = nickname A.key
let _ =
if List.mem_assoc nick !A.table then
error "Sorry, this table name is already used"
module MySet = Set.Make (struct type t = A.t let compare = compare end)
let t = ref (MySet.empty : MySet.t)
let _ =
if A.synchronous then
let freeze () = !t in
let unfreeze c = t := c in
let init () = t := MySet.empty in
Summary.declare_summary nick
{ Summary.freeze_function = freeze;
Summary.unfreeze_function = unfreeze;
Summary.init_function = init }
let (add_option,remove_option) =
if A.synchronous then
let cache_options (_,(f,p)) = match f with
| GOadd -> t := MySet.add p !t
| GOrmv -> t := MySet.remove p !t in
let load_options i o = if i=1 then cache_options o in
let subst_options (subst,(f,p as obj)) =
let p' = A.subst subst p in
if p' == p then obj else
(f,p')
in
let (inGo,outGo) =
Libobject.declare_object {(Libobject.default_object nick) with
Libobject.load_function = load_options;
Libobject.open_function = load_options;
Libobject.cache_function = cache_options;
Libobject.subst_function = subst_options;
Libobject.classify_function = (fun x -> Substitute x)}
in
((fun c -> Lib.add_anonymous_leaf (inGo (GOadd, c))),
(fun c -> Lib.add_anonymous_leaf (inGo (GOrmv, c))))
else
((fun c -> t := MySet.add c !t),
(fun c -> t := MySet.remove c !t))
let print_table table_name printer table =
msg (str table_name ++
(hov 0
(if MySet.is_empty table then str "None" ++ fnl ()
else MySet.fold
(fun a b -> printer a ++ spc () ++ b)
table (mt ()) ++ fnl ())))
class table_of_A () =
object
method add x = add_option (A.encode x)
method remove x = remove_option (A.encode x)
method mem x =
let y = A.encode x in
let answer = MySet.mem y !t in
msg (A.member_message y answer ++ fnl ())
method print = print_table A.title A.printer !t
end
let _ = A.table := (nick,new table_of_A ())::!A.table
let active c = MySet.mem c !t
let elements () = MySet.elements !t
end
let string_table = ref []
let get_string_table k = List.assoc (nickname k) !string_table
module type StringConvertArg =
sig
val key : option_name
val title : string
val member_message : string -> bool -> std_ppcmds
val synchronous : bool
end
module StringConvert = functor (A : StringConvertArg) ->
struct
type t = string
type key = string
let table = string_table
let encode x = x
let subst _ x = x
let printer = str
let key = A.key
let title = A.title
let member_message = A.member_message
let synchronous = A.synchronous
end
module MakeStringTable =
functor (A : StringConvertArg) -> MakeTable (StringConvert(A))
let ref_table = ref []
let get_ref_table k = List.assoc (nickname k) !ref_table
module type RefConvertArg =
sig
type t
val encode : reference -> t
val subst : substitution -> t -> t
val printer : t -> std_ppcmds
val key : option_name
val title : string
val member_message : t -> bool -> std_ppcmds
val synchronous : bool
end
module RefConvert = functor (A : RefConvertArg) ->
struct
type t = A.t
type key = reference
let table = ref_table
let encode = A.encode
let subst = A.subst
let printer = A.printer
let key = A.key
let title = A.title
let member_message = A.member_message
let synchronous = A.synchronous
end
module MakeRefTable =
functor (A : RefConvertArg) -> MakeTable (RefConvert(A))
(****************************************************************************)
(* 2- Flags. *)
type 'a option_sig = {
optsync : bool;
optname : string;
optkey : option_name;
optread : unit -> 'a;
optwrite : 'a -> unit }
type option_type = bool * (unit -> value) -> (value -> unit)
module OptionMap =
Map.Make (struct type t = option_name let compare = compare end)
let value_tab = ref OptionMap.empty
(* This raises Not_found if option of key [key] is unknown *)
let get_option key = OptionMap.find key !value_tab
let check_key key = try
let _ = get_option key in
error "Sorry, this option name is already used"
with Not_found ->
if List.mem_assoc (nickname key) !string_table
or List.mem_assoc (nickname key) !ref_table
then error "Sorry, this option name is already used"
open Summary
open Libobject
open Lib
let declare_option cast uncast
{ optsync=sync; optname=name; optkey=key; optread=read; optwrite=write } =
check_key key;
let default = read() in
(* spiwack: I use two spaces in the nicknames of "local" and "global" objects.
That way I shouldn't collide with [nickname key] for any [key]. As [key]-s are
lists of strings *without* spaces. *)
let (write,lwrite,gwrite) = if sync then
let (ldecl_obj,_) = (* "Local": doesn't survive section or modules. *)
declare_object {(default_object ("L "^nickname key)) with
cache_function = (fun (_,v) -> write v);
classify_function = (fun _ -> Dispose)}
in
let (decl_obj,_) = (* default locality: survives sections but not modules. *)
declare_object {(default_object (nickname key)) with
cache_function = (fun (_,v) -> write v);
classify_function = (fun _ -> Dispose);
discharge_function = (fun (_,v) -> Some v)}
in
let (gdecl_obj,_) = (* "Global": survives section and modules. *)
declare_object {(default_object ("G "^nickname key)) with
cache_function = (fun (_,v) -> write v);
classify_function = (fun v -> Keep v);
discharge_function = (fun (_,v) -> Some v);
load_function = (fun _ (_,v) -> write v)}
in
let _ = declare_summary (nickname key)
{ freeze_function = read;
unfreeze_function = write;
init_function = (fun () -> write default) }
in
begin fun v -> add_anonymous_leaf (decl_obj v) end ,
begin fun v -> add_anonymous_leaf (ldecl_obj v) end ,
begin fun v -> add_anonymous_leaf (gdecl_obj v) end
else write,write,write
in
let cread () = cast (read ()) in
let cwrite v = write (uncast v) in
let clwrite v = lwrite (uncast v) in
let cgwrite v = gwrite (uncast v) in
value_tab := OptionMap.add key (name,(sync,cread,cwrite,clwrite,cgwrite)) !value_tab;
write
type 'a write_function = 'a -> unit
let declare_int_option =
declare_option
(fun v -> IntValue v)
(function IntValue v -> v | _ -> anomaly "async_option")
let declare_bool_option =
declare_option
(fun v -> BoolValue v)
(function BoolValue v -> v | _ -> anomaly "async_option")
let declare_string_option =
declare_option
(fun v -> StringValue v)
(function StringValue v -> v | _ -> anomaly "async_option")
(* 3- User accessible commands *)
(* Setting values of options *)
let set_option_value locality check_and_cast key v =
let (name,(_,read,write,lwrite,gwrite)) =
try get_option key
with Not_found -> error ("There is no option "^(nickname key)^".")
in
let write = match locality with
| None -> write
| Some true -> lwrite
| Some false -> gwrite
in
write (check_and_cast v (read ()))
let bad_type_error () = error "Bad type of value for this option"
let set_int_option_value_gen locality = set_option_value locality
(fun v -> function
| (IntValue _) -> IntValue v
| _ -> bad_type_error ())
let set_bool_option_value_gen locality = set_option_value locality
(fun v -> function
| (BoolValue _) -> BoolValue v
| _ -> bad_type_error ())
let set_string_option_value_gen locality = set_option_value locality
(fun v -> function
| (StringValue _) -> StringValue v
| _ -> bad_type_error ())
let set_int_option_value = set_int_option_value_gen None
let set_bool_option_value = set_bool_option_value_gen None
let set_string_option_value = set_string_option_value_gen None
(* Printing options/tables *)
let msg_option_value (name,v) =
match v with
| BoolValue true -> str "true"
| BoolValue false -> str "false"
| IntValue (Some n) -> int n
| IntValue None -> str "undefined"
| StringValue s -> str s
| IdentValue r -> pr_global_env Idset.empty r
let print_option_value key =
let (name,(_,read,_,_,_)) = get_option key in
let s = read () in
match s with
| BoolValue b ->
msg (str ("The "^name^" mode is "^(if b then "on" else "off")) ++
fnl ())
| _ ->
msg (str ("Current value of "^name^" is ") ++
msg_option_value (name,s) ++ fnl ())
let print_tables () =
msg
(str "Synchronous options:" ++ fnl () ++
OptionMap.fold
(fun key (name,(sync,read,_,_,_)) p ->
if sync then
p ++ str (" "^(nickname key)^": ") ++
msg_option_value (name,read()) ++ fnl ()
else
p)
!value_tab (mt ()) ++
str "Asynchronous options:" ++ fnl () ++
OptionMap.fold
(fun key (name,(sync,read,_,_,_)) p ->
if sync then
p
else
p ++ str (" "^(nickname key)^": ") ++
msg_option_value (name,read()) ++ fnl ())
!value_tab (mt ()) ++
str "Tables:" ++ fnl () ++
List.fold_right
(fun (nickkey,_) p -> p ++ str (" "^nickkey) ++ fnl ())
!string_table (mt ()) ++
List.fold_right
(fun (nickkey,_) p -> p ++ str (" "^nickkey) ++ fnl ())
!ref_table (mt ()) ++
fnl ()
)
|