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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 *)
(************************************************************************)
(*i camlp4deps: "grammar/grammar.cma" i*)
open Pp
open Genarg
open Stdarg
open Constrarg
open Pcoq.Prim
open Pcoq.Constr
open Names
open Tacexpr
open Taccoerce
open Tacinterp
open Misctypes
open Locus
(** Adding scopes for generic arguments not defined through ARGUMENT EXTEND *)
let create_generic_quotation name e wit =
let inject (loc, v) = Tacexpr.TacGeneric (Genarg.in_gen (Genarg.rawwit wit) v) in
Tacentries.create_ltac_quotation name inject (e, None)
let () = create_generic_quotation "integer" Pcoq.Prim.integer Stdarg.wit_int
let () = create_generic_quotation "string" Pcoq.Prim.string Stdarg.wit_string
let () = create_generic_quotation "ident" Pcoq.Prim.ident Constrarg.wit_ident
let () = create_generic_quotation "reference" Pcoq.Prim.reference Constrarg.wit_ref
let () = create_generic_quotation "uconstr" Pcoq.Constr.lconstr Constrarg.wit_uconstr
let () = create_generic_quotation "constr" Pcoq.Constr.lconstr Constrarg.wit_constr
let () = create_generic_quotation "ipattern" Pcoq.Tactic.simple_intropattern Constrarg.wit_intro_pattern
let () = create_generic_quotation "open_constr" Pcoq.Constr.lconstr Constrarg.wit_open_constr
let () =
let inject (loc, v) = Tacexpr.Tacexp v in
Tacentries.create_ltac_quotation "ltac" inject (Pcoq.Tactic.tactic_expr, Some 5)
(** Backward-compatible tactic notation entry names *)
let () =
let register name entry = Tacentries.register_tactic_notation_entry name entry in
register "hyp" wit_var;
register "simple_intropattern" wit_intro_pattern;
register "integer" wit_integer;
register "reference" wit_ref;
()
(* Rewriting orientation *)
let _ = Metasyntax.add_token_obj "<-"
let _ = Metasyntax.add_token_obj "->"
let pr_orient _prc _prlc _prt = function
| true -> Pp.mt ()
| false -> Pp.str " <-"
ARGUMENT EXTEND orient TYPED AS bool PRINTED BY pr_orient
| [ "->" ] -> [ true ]
| [ "<-" ] -> [ false ]
| [ ] -> [ true ]
END
let pr_int _ _ _ i = Pp.int i
let _natural = Pcoq.Prim.natural
ARGUMENT EXTEND natural TYPED AS int PRINTED BY pr_int
| [ _natural(i) ] -> [ i ]
END
let pr_orient = pr_orient () () ()
let pr_int_list = Pp.pr_sequence Pp.int
let pr_int_list_full _prc _prlc _prt l = pr_int_list l
let pr_occurrences _prc _prlc _prt l =
match l with
| ArgArg x -> pr_int_list x
| ArgVar (loc, id) -> Nameops.pr_id id
let occurrences_of = function
| [] -> NoOccurrences
| n::_ as nl when n < 0 -> AllOccurrencesBut (List.map abs nl)
| nl ->
if List.exists (fun n -> n < 0) nl then
Errors.error "Illegal negative occurrence number.";
OnlyOccurrences nl
let coerce_to_int v = match Value.to_int v with
| None -> raise (CannotCoerceTo "an integer")
| Some n -> n
let int_list_of_VList v = match Value.to_list v with
| Some l -> List.map (fun n -> coerce_to_int n) l
| _ -> raise (CannotCoerceTo "an integer")
let interp_occs ist gl l =
match l with
| ArgArg x -> x
| ArgVar (_,id as locid) ->
(try int_list_of_VList (Id.Map.find id ist.lfun)
with Not_found | CannotCoerceTo _ -> [interp_int ist locid])
let interp_occs ist gl l =
Tacmach.project gl , interp_occs ist gl l
let glob_occs ist l = l
let subst_occs evm l = l
ARGUMENT EXTEND occurrences
TYPED AS int list
PRINTED BY pr_int_list_full
INTERPRETED BY interp_occs
GLOBALIZED BY glob_occs
SUBSTITUTED BY subst_occs
RAW_PRINTED BY pr_occurrences
GLOB_PRINTED BY pr_occurrences
| [ ne_integer_list(l) ] -> [ ArgArg l ]
| [ var(id) ] -> [ ArgVar id ]
END
let pr_occurrences = pr_occurrences () () ()
let pr_gen prc _prlc _prtac c = prc c
let pr_globc _prc _prlc _prtac (_,glob) = Printer.pr_glob_constr glob
let interp_glob ist gl (t,_) = Tacmach.project gl , (ist,t)
let glob_glob = Tacintern.intern_constr
let pr_lconstr _ prc _ c = prc c
let subst_glob = Tacsubst.subst_glob_constr_and_expr
ARGUMENT EXTEND glob
PRINTED BY pr_globc
INTERPRETED BY interp_glob
GLOBALIZED BY glob_glob
SUBSTITUTED BY subst_glob
RAW_PRINTED BY pr_gen
GLOB_PRINTED BY pr_gen
[ constr(c) ] -> [ c ]
END
let l_constr = Pcoq.Constr.lconstr
ARGUMENT EXTEND lconstr
TYPED AS constr
PRINTED BY pr_lconstr
[ l_constr(c) ] -> [ c ]
END
ARGUMENT EXTEND lglob
TYPED AS glob
PRINTED BY pr_globc
INTERPRETED BY interp_glob
GLOBALIZED BY glob_glob
SUBSTITUTED BY subst_glob
RAW_PRINTED BY pr_gen
GLOB_PRINTED BY pr_gen
[ lconstr(c) ] -> [ c ]
END
type 'id gen_place= ('id * hyp_location_flag,unit) location
type loc_place = Id.t Loc.located gen_place
type place = Id.t gen_place
let pr_gen_place pr_id = function
ConclLocation () -> Pp.mt ()
| HypLocation (id,InHyp) -> str "in " ++ pr_id id
| HypLocation (id,InHypTypeOnly) ->
str "in (Type of " ++ pr_id id ++ str ")"
| HypLocation (id,InHypValueOnly) ->
str "in (Value of " ++ pr_id id ++ str ")"
let pr_loc_place _ _ _ = pr_gen_place (fun (_,id) -> Nameops.pr_id id)
let pr_place _ _ _ = pr_gen_place Nameops.pr_id
let pr_hloc = pr_loc_place () () ()
let intern_place ist = function
ConclLocation () -> ConclLocation ()
| HypLocation (id,hl) -> HypLocation (Tacintern.intern_hyp ist id,hl)
let interp_place ist env sigma = function
ConclLocation () -> ConclLocation ()
| HypLocation (id,hl) -> HypLocation (Tacinterp.interp_hyp ist env sigma id,hl)
let interp_place ist gl p =
Tacmach.project gl , interp_place ist (Tacmach.pf_env gl) (Tacmach.project gl) p
let subst_place subst pl = pl
ARGUMENT EXTEND hloc
PRINTED BY pr_place
INTERPRETED BY interp_place
GLOBALIZED BY intern_place
SUBSTITUTED BY subst_place
RAW_PRINTED BY pr_loc_place
GLOB_PRINTED BY pr_loc_place
[ ] ->
[ ConclLocation () ]
| [ "in" "|-" "*" ] ->
[ ConclLocation () ]
| [ "in" ident(id) ] ->
[ HypLocation ((Loc.ghost,id),InHyp) ]
| [ "in" "(" "Type" "of" ident(id) ")" ] ->
[ HypLocation ((Loc.ghost,id),InHypTypeOnly) ]
| [ "in" "(" "Value" "of" ident(id) ")" ] ->
[ HypLocation ((Loc.ghost,id),InHypValueOnly) ]
END
(* Julien: Mise en commun des differentes version de replace with in by *)
let pr_by_arg_tac _prc _prlc prtac opt_c =
match opt_c with
| None -> mt ()
| Some t -> hov 2 (str "by" ++ spc () ++ prtac (3,Ppextend.E) t)
ARGUMENT EXTEND by_arg_tac
TYPED AS tactic_opt
PRINTED BY pr_by_arg_tac
| [ "by" tactic3(c) ] -> [ Some c ]
| [ ] -> [ None ]
END
let pr_by_arg_tac prtac opt_c = pr_by_arg_tac () () prtac opt_c
(* spiwack: the print functions are incomplete, but I don't know what they are
used for *)
let pr_r_nat_field natf =
str "nat " ++
match natf with
| Retroknowledge.NatType -> str "type"
| Retroknowledge.NatPlus -> str "plus"
| Retroknowledge.NatTimes -> str "times"
let pr_r_n_field nf =
str "binary N " ++
match nf with
| Retroknowledge.NPositive -> str "positive"
| Retroknowledge.NType -> str "type"
| Retroknowledge.NTwice -> str "twice"
| Retroknowledge.NTwicePlusOne -> str "twice plus one"
| Retroknowledge.NPhi -> str "phi"
| Retroknowledge.NPhiInv -> str "phi inv"
| Retroknowledge.NPlus -> str "plus"
| Retroknowledge.NTimes -> str "times"
let pr_r_int31_field i31f =
str "int31 " ++
match i31f with
| Retroknowledge.Int31Bits -> str "bits"
| Retroknowledge.Int31Type -> str "type"
| Retroknowledge.Int31Twice -> str "twice"
| Retroknowledge.Int31TwicePlusOne -> str "twice plus one"
| Retroknowledge.Int31Phi -> str "phi"
| Retroknowledge.Int31PhiInv -> str "phi inv"
| Retroknowledge.Int31Plus -> str "plus"
| Retroknowledge.Int31Times -> str "times"
| _ -> assert false
let pr_retroknowledge_field f =
match f with
(* | Retroknowledge.KEq -> str "equality"
| Retroknowledge.KNat natf -> pr_r_nat_field () () () natf
| Retroknowledge.KN nf -> pr_r_n_field () () () nf *)
| Retroknowledge.KInt31 (group, i31f) -> (pr_r_int31_field i31f) ++
str "in " ++ str group
VERNAC ARGUMENT EXTEND retroknowledge_nat
PRINTED BY pr_r_nat_field
| [ "nat" "type" ] -> [ Retroknowledge.NatType ]
| [ "nat" "plus" ] -> [ Retroknowledge.NatPlus ]
| [ "nat" "times" ] -> [ Retroknowledge.NatTimes ]
END
VERNAC ARGUMENT EXTEND retroknowledge_binary_n
PRINTED BY pr_r_n_field
| [ "binary" "N" "positive" ] -> [ Retroknowledge.NPositive ]
| [ "binary" "N" "type" ] -> [ Retroknowledge.NType ]
| [ "binary" "N" "twice" ] -> [ Retroknowledge.NTwice ]
| [ "binary" "N" "twice" "plus" "one" ] -> [ Retroknowledge.NTwicePlusOne ]
| [ "binary" "N" "phi" ] -> [ Retroknowledge.NPhi ]
| [ "binary" "N" "phi" "inv" ] -> [ Retroknowledge.NPhiInv ]
| [ "binary" "N" "plus" ] -> [ Retroknowledge.NPlus ]
| [ "binary" "N" "times" ] -> [ Retroknowledge.NTimes ]
END
VERNAC ARGUMENT EXTEND retroknowledge_int31
PRINTED BY pr_r_int31_field
| [ "int31" "bits" ] -> [ Retroknowledge.Int31Bits ]
| [ "int31" "type" ] -> [ Retroknowledge.Int31Type ]
| [ "int31" "twice" ] -> [ Retroknowledge.Int31Twice ]
| [ "int31" "twice" "plus" "one" ] -> [ Retroknowledge.Int31TwicePlusOne ]
| [ "int31" "phi" ] -> [ Retroknowledge.Int31Phi ]
| [ "int31" "phi" "inv" ] -> [ Retroknowledge.Int31PhiInv ]
| [ "int31" "plus" ] -> [ Retroknowledge.Int31Plus ]
| [ "int31" "plusc" ] -> [ Retroknowledge.Int31PlusC ]
| [ "int31" "pluscarryc" ] -> [ Retroknowledge.Int31PlusCarryC ]
| [ "int31" "minus" ] -> [ Retroknowledge.Int31Minus ]
| [ "int31" "minusc" ] -> [ Retroknowledge.Int31MinusC ]
| [ "int31" "minuscarryc" ] -> [ Retroknowledge.Int31MinusCarryC ]
| [ "int31" "times" ] -> [ Retroknowledge.Int31Times ]
| [ "int31" "timesc" ] -> [ Retroknowledge.Int31TimesC ]
| [ "int31" "div21" ] -> [ Retroknowledge.Int31Div21 ]
| [ "int31" "div" ] -> [ Retroknowledge.Int31Div ]
| [ "int31" "diveucl" ] -> [ Retroknowledge.Int31Diveucl ]
| [ "int31" "addmuldiv" ] -> [ Retroknowledge.Int31AddMulDiv ]
| [ "int31" "compare" ] -> [ Retroknowledge.Int31Compare ]
| [ "int31" "head0" ] -> [ Retroknowledge.Int31Head0 ]
| [ "int31" "tail0" ] -> [ Retroknowledge.Int31Tail0 ]
| [ "int31" "lor" ] -> [ Retroknowledge.Int31Lor ]
| [ "int31" "land" ] -> [ Retroknowledge.Int31Land ]
| [ "int31" "lxor" ] -> [ Retroknowledge.Int31Lxor ]
END
VERNAC ARGUMENT EXTEND retroknowledge_field
PRINTED BY pr_retroknowledge_field
(*| [ "equality" ] -> [ Retroknowledge.KEq ]
| [ retroknowledge_nat(n)] -> [ Retroknowledge.KNat n ]
| [ retroknowledge_binary_n (n)] -> [ Retroknowledge.KN n ]*)
| [ retroknowledge_int31 (i) "in" string(g)] -> [ Retroknowledge.KInt31(g,i) ]
END
|