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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2017 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(* This file defines standard combinators to build ml expressions *)
type argument_type =
| ListArgType of argument_type
| OptArgType of argument_type
| PairArgType of argument_type * argument_type
| ExtraArgType of string
type user_symbol =
| Ulist1 of user_symbol
| Ulist1sep of user_symbol * string
| Ulist0 of user_symbol
| Ulist0sep of user_symbol * string
| Uopt of user_symbol
| Uentry of string
| Uentryl of string * int
type extend_token =
| ExtTerminal of string
| ExtNonTerminal of user_symbol * string option
let mlexpr_of_list f l =
List.fold_right
(fun e1 e2 ->
let e1 = f e1 in
let loc = Ploc.encl (MLast.loc_of_expr e1) (MLast.loc_of_expr e2) in
<:expr< [$e1$ :: $e2$] >>)
l (let loc = Ploc.dummy in <:expr< [] >>)
let mlexpr_of_pair m1 m2 (a1,a2) =
let e1 = m1 a1 and e2 = m2 a2 in
let loc = Ploc.encl (MLast.loc_of_expr e1) (MLast.loc_of_expr e2) in
<:expr< ($e1$, $e2$) >>
(* We don't give location for tactic quotation! *)
let loc = Ploc.dummy
let mlexpr_of_bool = function
| true -> <:expr< True >>
| false -> <:expr< False >>
let mlexpr_of_int n = <:expr< $int:string_of_int n$ >>
let mlexpr_of_string s = <:expr< $str:s$ >>
let mlexpr_of_option f = function
| None -> <:expr< None >>
| Some e -> <:expr< Some $f e$ >>
let mlexpr_of_name f = function
| None -> <:expr< Names.Name.Anonymous >>
| Some e -> <:expr< Names.Name.Name $f e$ >>
let symbol_of_string s = <:expr< Extend.Atoken (CLexer.terminal $str:s$) >>
let rec mlexpr_of_prod_entry_key f = function
| Ulist1 s -> <:expr< Extend.Alist1 $mlexpr_of_prod_entry_key f s$ >>
| Ulist1sep (s,sep) -> <:expr< Extend.Alist1sep $mlexpr_of_prod_entry_key f s$ $symbol_of_string sep$ >>
| Ulist0 s -> <:expr< Extend.Alist0 $mlexpr_of_prod_entry_key f s$ >>
| Ulist0sep (s,sep) -> <:expr< Extend.Alist0sep $mlexpr_of_prod_entry_key f s$ $symbol_of_string sep$ >>
| Uopt s -> <:expr< Extend.Aopt $mlexpr_of_prod_entry_key f s$ >>
| Uentry e -> <:expr< Extend.Aentry ($f e$) >>
| Uentryl (e, l) ->
(** Keep in sync with Pcoq! *)
assert (e = "tactic");
if l = 5 then <:expr< Extend.Aentry Pltac.binder_tactic >>
else <:expr< Extend.Aentryl (Pltac.tactic_expr) $mlexpr_of_int l$ >>
let rec type_of_user_symbol = function
| Ulist1 s | Ulist1sep (s, _) | Ulist0 s | Ulist0sep (s, _) ->
ListArgType (type_of_user_symbol s)
| Uopt s ->
OptArgType (type_of_user_symbol s)
| Uentry e | Uentryl (e, _) -> ExtraArgType e
let coincide s pat off =
let len = String.length pat in
let break = ref true in
let i = ref 0 in
while !break && !i < len do
let c = Char.code s.[off + !i] in
let d = Char.code pat.[!i] in
break := c = d;
incr i
done;
!break
let rec parse_user_entry s sep =
let l = String.length s in
if l > 8 && coincide s "ne_" 0 && coincide s "_list" (l - 5) then
let entry = parse_user_entry (String.sub s 3 (l-8)) "" in
Ulist1 entry
else if l > 12 && coincide s "ne_" 0 &&
coincide s "_list_sep" (l-9) then
let entry = parse_user_entry (String.sub s 3 (l-12)) "" in
Ulist1sep (entry, sep)
else if l > 5 && coincide s "_list" (l-5) then
let entry = parse_user_entry (String.sub s 0 (l-5)) "" in
Ulist0 entry
else if l > 9 && coincide s "_list_sep" (l-9) then
let entry = parse_user_entry (String.sub s 0 (l-9)) "" in
Ulist0sep (entry, sep)
else if l > 4 && coincide s "_opt" (l-4) then
let entry = parse_user_entry (String.sub s 0 (l-4)) "" in
Uopt entry
else if l = 7 && coincide s "tactic" 0 && '5' >= s.[6] && s.[6] >= '0' then
let n = Char.code s.[6] - 48 in
Uentryl ("tactic", n)
else
let s = match s with "hyp" -> "var" | _ -> s in
Uentry s
|