From 9043add656177eeac1491a73d2f3ab92bec0013c Mon Sep 17 00:00:00 2001 From: Benjamin Barenblat Date: Sat, 29 Dec 2018 14:31:27 -0500 Subject: Imported Upstream version 8.8.2 --- plugins/ssr/ssrvernac.ml4 | 627 ++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 627 insertions(+) create mode 100644 plugins/ssr/ssrvernac.ml4 (limited to 'plugins/ssr/ssrvernac.ml4') diff --git a/plugins/ssr/ssrvernac.ml4 b/plugins/ssr/ssrvernac.ml4 new file mode 100644 index 00000000..05dbf0a8 --- /dev/null +++ b/plugins/ssr/ssrvernac.ml4 @@ -0,0 +1,627 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* is then ... else ... *) +(* if is [in ..] return ... then ... else ... *) +(* let: := in ... *) +(* let: [in ...] := return ... in ... *) +(* The scope of a top-level 'as' in the pattern extends over the *) +(* 'return' type (dependent if/let). *) +(* Note that the optional "in ..." appears next to the *) +(* rather than the in then "let:" syntax. The alternative *) +(* would lead to ambiguities in, e.g., *) +(* let: p1 := (*v---INNER LET:---v *) *) +(* let: p2 := let: p3 := e3 in k return t in k2 in k1 return t' *) +(* in b (*^--ALTERNATIVE INNER LET--------^ *) *) + +(* Caveat : There is no pretty-printing support, since this would *) +(* require a modification to the Coq kernel (adding a new match *) +(* display style -- why aren't these strings?); also, the v8.1 *) +(* pretty-printer only allows extension hooks for printing *) +(* integer or string literals. *) +(* Also note that in the v8 grammar "is" needs to be a keyword; *) +(* as this can't be done from an ML extension file, the new *) +(* syntax will only work when ssreflect.v is imported. *) + +let no_ct = None, None and no_rt = None in +let aliasvar = function + | [[{ CAst.v = CPatAlias (_, na); loc }]] -> Some na + | _ -> None in +let mk_cnotype mp = aliasvar mp, None in +let mk_ctype mp t = aliasvar mp, Some t in +let mk_rtype t = Some t in +let mk_dthen ?loc (mp, ct, rt) c = (CAst.make ?loc (mp, c)), ct, rt in +let mk_let ?loc rt ct mp c1 = + CAst.make ?loc @@ CCases (LetPatternStyle, rt, ct, [CAst.make ?loc (mp, c1)]) in +let mk_pat c (na, t) = (c, na, t) in +GEXTEND Gram + GLOBAL: binder_constr; + ssr_rtype: [[ "return"; t = operconstr LEVEL "100" -> mk_rtype t ]]; + ssr_mpat: [[ p = pattern -> [[p]] ]]; + ssr_dpat: [ + [ mp = ssr_mpat; "in"; t = pattern; rt = ssr_rtype -> mp, mk_ctype mp t, rt + | mp = ssr_mpat; rt = ssr_rtype -> mp, mk_cnotype mp, rt + | mp = ssr_mpat -> mp, no_ct, no_rt + ] ]; + ssr_dthen: [[ dp = ssr_dpat; "then"; c = lconstr -> mk_dthen ~loc:!@loc dp c ]]; + ssr_elsepat: [[ "else" -> [[CAst.make ~loc:!@loc @@ CPatAtom None]] ]]; + ssr_else: [[ mp = ssr_elsepat; c = lconstr -> CAst.make ~loc:!@loc (mp, c) ]]; + binder_constr: [ + [ "if"; c = operconstr LEVEL "200"; "is"; db1 = ssr_dthen; b2 = ssr_else -> + let b1, ct, rt = db1 in CAst.make ~loc:!@loc @@ CCases (MatchStyle, rt, [mk_pat c ct], [b1; b2]) + | "if"; c = operconstr LEVEL "200";"isn't";db1 = ssr_dthen; b2 = ssr_else -> + let b1, ct, rt = db1 in + let b1, b2 = let open CAst in + let {loc=l1; v=(p1, r1)}, {loc=l2; v=(p2, r2)} = b1, b2 in + (make ?loc:l1 (p1, r2), make ?loc:l2 (p2, r1)) + in + CAst.make ~loc:!@loc @@ CCases (MatchStyle, rt, [mk_pat c ct], [b1; b2]) + | "let"; ":"; mp = ssr_mpat; ":="; c = lconstr; "in"; c1 = lconstr -> + mk_let ~loc:!@loc no_rt [mk_pat c no_ct] mp c1 + | "let"; ":"; mp = ssr_mpat; ":="; c = lconstr; + rt = ssr_rtype; "in"; c1 = lconstr -> + mk_let ~loc:!@loc rt [mk_pat c (mk_cnotype mp)] mp c1 + | "let"; ":"; mp = ssr_mpat; "in"; t = pattern; ":="; c = lconstr; + rt = ssr_rtype; "in"; c1 = lconstr -> + mk_let ~loc:!@loc rt [mk_pat c (mk_ctype mp t)] mp c1 + ] ]; +END + +GEXTEND Gram + GLOBAL: closed_binder; + closed_binder: [ + [ ["of" | "&"]; c = operconstr LEVEL "99" -> + [CLocalAssum ([CAst.make ~loc:!@loc Anonymous], Default Explicit, c)] + ] ]; +END +(* }}} *) + +(** Vernacular commands: Prenex Implicits and Search *)(* {{{ **********************) + +(* This should really be implemented as an extension to the implicit *) +(* arguments feature, but unfortuately that API is sealed. The current *) +(* workaround uses a combination of notations that works reasonably, *) +(* with the following caveats: *) +(* - The pretty-printing always elides prenex implicits, even when *) +(* they are obviously needed. *) +(* - Prenex Implicits are NEVER exported from a module, because this *) +(* would lead to faulty pretty-printing and scoping errors. *) +(* - The command "Import Prenex Implicits" can be used to reassert *) +(* Prenex Implicits for all the visible constants that had been *) +(* declared as Prenex Implicits. *) + +let declare_one_prenex_implicit locality f = + let fref = + try Smartlocate.global_with_alias f + with _ -> errorstrm (pr_reference f ++ str " is not declared") in + let rec loop = function + | a :: args' when Impargs.is_status_implicit a -> + (ExplByName (Impargs.name_of_implicit a), (true, true, true)) :: loop args' + | args' when List.exists Impargs.is_status_implicit args' -> + errorstrm (str "Expected prenex implicits for " ++ pr_reference f) + | _ -> [] in + let impls = + match Impargs.implicits_of_global fref with + | [cond,impls] -> impls + | [] -> errorstrm (str "Expected some implicits for " ++ pr_reference f) + | _ -> errorstrm (str "Multiple implicits not supported") in + match loop impls with + | [] -> + errorstrm (str "Expected some implicits for " ++ pr_reference f) + | impls -> + Impargs.declare_manual_implicits locality fref ~enriching:false [impls] + +VERNAC COMMAND FUNCTIONAL EXTEND Ssrpreneximplicits CLASSIFIED AS SIDEFF + | [ "Prenex" "Implicits" ne_global_list(fl) ] + -> [ fun ~atts ~st -> + let open Vernacinterp in + let locality = Locality.make_section_locality atts.locality in + List.iter (declare_one_prenex_implicit locality) fl; + st + ] +END + +(* Vernac grammar visibility patch *) + +GEXTEND Gram + GLOBAL: gallina_ext; + gallina_ext: + [ [ IDENT "Import"; IDENT "Prenex"; IDENT "Implicits" -> + Vernacexpr.VernacUnsetOption (false, ["Printing"; "Implicit"; "Defensive"]) + ] ] + ; +END + +(** Extend Search to subsume SearchAbout, also adding hidden Type coercions. *) + +(* Main prefilter *) + +type raw_glob_search_about_item = + | RGlobSearchSubPattern of constr_expr + | RGlobSearchString of Loc.t * string * string option + +let pr_search_item = function + | RGlobSearchString (_,s,_) -> str s + | RGlobSearchSubPattern p -> pr_constr_expr p + +let wit_ssr_searchitem = add_genarg "ssr_searchitem" pr_search_item + +let pr_ssr_search_item _ _ _ = pr_search_item + +(* Workaround the notation API that can only print notations *) + +let is_ident s = try CLexer.check_ident s; true with _ -> false + +let is_ident_part s = is_ident ("H" ^ s) + +let interp_search_notation ?loc tag okey = + let err msg = CErrors.user_err ?loc ~hdr:"interp_search_notation" msg in + let mk_pntn s for_key = + let n = String.length s in + let s' = Bytes.make (n + 2) ' ' in + let rec loop i i' = + if i >= n then s', i' - 2 else if s.[i] = ' ' then loop (i + 1) i' else + let j = try String.index_from s (i + 1) ' ' with _ -> n in + let m = j - i in + if s.[i] = '\'' && i < j - 2 && s.[j - 1] = '\'' then + (String.blit s (i + 1) s' i' (m - 2); loop (j + 1) (i' + m - 1)) + else if for_key && is_ident (String.sub s i m) then + (Bytes.set s' i' '_'; loop (j + 1) (i' + 2)) + else (String.blit s i s' i' m; loop (j + 1) (i' + m + 1)) in + loop 0 1 in + let trim_ntn (pntn, m) = Bytes.sub_string pntn 1 (max 0 m) in + let pr_ntn ntn = str "(" ++ str ntn ++ str ")" in + let pr_and_list pr = function + | [x] -> pr x + | x :: lx -> pr_list pr_comma pr lx ++ pr_comma () ++ str "and " ++ pr x + | [] -> mt () in + let pr_sc sc = str (if sc = "" then "independently" else sc) in + let pr_scs = function + | [""] -> pr_sc "" + | scs -> str "in " ++ pr_and_list pr_sc scs in + let generator, pr_tag_sc = + let ign _ = mt () in match okey with + | Some key -> + let sc = Notation.find_delimiters_scope ?loc key in + let pr_sc s_in = str s_in ++ spc() ++ str sc ++ pr_comma() in + Notation.pr_scope ign sc, pr_sc + | None -> Notation.pr_scopes ign, ign in + let qtag s_in = pr_tag_sc s_in ++ qstring tag ++ spc()in + let ptag, ttag = + let ptag, m = mk_pntn tag false in + if m <= 0 then err (str "empty notation fragment"); + ptag, trim_ntn (ptag, m) in + let last = ref "" and last_sc = ref "" in + let scs = ref [] and ntns = ref [] in + let push_sc sc = match !scs with + | "" :: scs' -> scs := "" :: sc :: scs' + | scs' -> scs := sc :: scs' in + let get s _ _ = match !last with + | "Scope " -> last_sc := s; last := "" + | "Lonely notation" -> last_sc := ""; last := "" + | "\"" -> + let pntn, m = mk_pntn s true in + if String.string_contains ~where:(Bytes.to_string pntn) ~what:(Bytes.to_string ptag) then begin + let ntn = trim_ntn (pntn, m) in + match !ntns with + | [] -> ntns := [ntn]; scs := [!last_sc] + | ntn' :: _ when ntn' = ntn -> push_sc !last_sc + | _ when ntn = ttag -> ntns := ntn :: !ntns; scs := [!last_sc] + | _ :: ntns' when List.mem ntn ntns' -> () + | ntn' :: ntns' -> ntns := ntn' :: ntn :: ntns' + end; + last := "" + | _ -> last := s in + pp_with (Format.make_formatter get (fun _ -> ())) generator; + let ntn = match !ntns with + | [] -> + err (hov 0 (qtag "in" ++ str "does not occur in any notation")) + | ntn :: ntns' when ntn = ttag -> + if ntns' <> [] then begin + let pr_ntns' = pr_and_list pr_ntn ntns' in + Feedback.msg_warning (hov 4 (qtag "In" ++ str "also occurs in " ++ pr_ntns')) + end; ntn + | [ntn] -> + Feedback.msg_info (hov 4 (qtag "In" ++ str "is part of notation " ++ pr_ntn ntn)); ntn + | ntns' -> + let e = str "occurs in" ++ spc() ++ pr_and_list pr_ntn ntns' in + err (hov 4 (str "ambiguous: " ++ qtag "in" ++ e)) in + let (nvars, body), ((_, pat), osc) = match !scs with + | [sc] -> Notation.interp_notation ?loc ntn (None, [sc]) + | scs' -> + try Notation.interp_notation ?loc ntn (None, []) with _ -> + let e = pr_ntn ntn ++ spc() ++ str "is defined " ++ pr_scs scs' in + err (hov 4 (str "ambiguous: " ++ pr_tag_sc "in" ++ e)) in + let sc = Option.default "" osc in + let _ = + let m_sc = + if osc <> None then str "In " ++ str sc ++ pr_comma() else mt() in + let ntn_pat = trim_ntn (mk_pntn pat false) in + let rbody = glob_constr_of_notation_constr ?loc body in + let m_body = hov 0 (Constrextern.without_symbols prl_glob_constr rbody) in + let m = m_sc ++ pr_ntn ntn_pat ++ spc () ++ str "denotes " ++ m_body in + Feedback.msg_info (hov 0 m) in + if List.length !scs > 1 then + let scs' = List.remove (=) sc !scs in + let w = pr_ntn ntn ++ str " is also defined " ++ pr_scs scs' in + Feedback.msg_warning (hov 4 w) + else if String.string_contains ~where:ntn ~what:" .. " then + err (pr_ntn ntn ++ str " is an n-ary notation"); + let nvars = List.filter (fun (_,(_,typ)) -> typ = NtnTypeConstr) nvars in + let rec sub () = function + | NVar x when List.mem_assoc x nvars -> DAst.make ?loc @@ GPatVar (FirstOrderPatVar x) + | c -> + glob_constr_of_notation_constr_with_binders ?loc (fun _ x -> (), None, x) sub () c in + let _, npat = Patternops.pattern_of_glob_constr (sub () body) in + Search.GlobSearchSubPattern npat + +ARGUMENT EXTEND ssr_search_item TYPED AS ssr_searchitem + PRINTED BY pr_ssr_search_item + | [ string(s) ] -> [ RGlobSearchString (loc,s,None) ] + | [ string(s) "%" preident(key) ] -> [ RGlobSearchString (loc,s,Some key) ] + | [ constr_pattern(p) ] -> [ RGlobSearchSubPattern p ] +END + +let pr_ssr_search_arg _ _ _ = + let pr_item (b, p) = str (if b then "-" else "") ++ pr_search_item p in + pr_list spc pr_item + +ARGUMENT EXTEND ssr_search_arg TYPED AS (bool * ssr_searchitem) list + PRINTED BY pr_ssr_search_arg + | [ "-" ssr_search_item(p) ssr_search_arg(a) ] -> [ (false, p) :: a ] + | [ ssr_search_item(p) ssr_search_arg(a) ] -> [ (true, p) :: a ] + | [ ] -> [ [] ] +END + +(* Main type conclusion pattern filter *) + +let rec splay_search_pattern na = function + | Pattern.PApp (fp, args) -> splay_search_pattern (na + Array.length args) fp + | Pattern.PLetIn (_, _, _, bp) -> splay_search_pattern na bp + | Pattern.PRef hr -> hr, na + | _ -> CErrors.user_err (Pp.str "no head constant in head search pattern") + +let push_rels_assum l e = + let l = List.map (fun (n,t) -> n, EConstr.Unsafe.to_constr t) l in + push_rels_assum l e + +let coerce_search_pattern_to_sort hpat = + let env = Global.env () in + let sigma = Evd.(from_env env) in + let mkPApp fp n_imps args = + let args' = Array.append (Array.make n_imps (Pattern.PMeta None)) args in + Pattern.PApp (fp, args') in + let hr, na = splay_search_pattern 0 hpat in + let dc, ht = + let hr, _ = Global.type_of_global_in_context (Global.env ()) hr (** FIXME *) in + Reductionops.splay_prod env sigma (EConstr.of_constr hr) in + let np = List.length dc in + if np < na then CErrors.user_err (Pp.str "too many arguments in head search pattern") else + let hpat' = if np = na then hpat else mkPApp hpat (np - na) [||] in + let warn () = + Feedback.msg_warning (str "Listing only lemmas with conclusion matching " ++ + pr_constr_pattern_env env sigma hpat') in + if EConstr.isSort sigma ht then begin warn (); true, hpat' end else + let filter_head, coe_path = + try + let _, cp = + Classops.lookup_path_to_sort_from (push_rels_assum dc env) sigma ht in + warn (); + true, cp + with _ -> false, [] in + let coerce hp coe_index = + let coe = Classops.get_coercion_value coe_index in + try + let coe_ref = global_of_constr coe in + let n_imps = Option.get (Classops.hide_coercion coe_ref) in + mkPApp (Pattern.PRef coe_ref) n_imps [|hp|] + with _ -> + errorstrm (str "need explicit coercion " ++ pr_constr_env env sigma coe ++ spc () + ++ str "to interpret head search pattern as type") in + filter_head, List.fold_left coerce hpat' coe_path + +let interp_head_pat hpat = + let filter_head, p = coerce_search_pattern_to_sort hpat in + let rec loop c = match CoqConstr.kind c with + | Cast (c', _, _) -> loop c' + | Prod (_, _, c') -> loop c' + | LetIn (_, _, _, c') -> loop c' + | _ -> Constr_matching.is_matching (Global.env()) Evd.empty p (EConstr.of_constr c) in + filter_head, loop + +let all_true _ = true + +let rec interp_search_about args accu = match args with +| [] -> accu +| (flag, arg) :: rem -> + fun gr env typ -> + let ans = Search.search_about_filter arg gr env typ in + (if flag then ans else not ans) && interp_search_about rem accu gr env typ + +let interp_search_arg arg = + let arg = List.map (fun (x,arg) -> x, match arg with + | RGlobSearchString (loc,s,key) -> + if is_ident_part s then Search.GlobSearchString s else + interp_search_notation ~loc s key + | RGlobSearchSubPattern p -> + try + let env = Global.env () in + let _, p = Constrintern.intern_constr_pattern env (Evd.from_env env) p in + Search.GlobSearchSubPattern p + with e -> let e = CErrors.push e in iraise (ExplainErr.process_vernac_interp_error e)) arg in + let hpat, a1 = match arg with + | (_, Search.GlobSearchSubPattern (Pattern.PMeta _)) :: a' -> all_true, a' + | (true, Search.GlobSearchSubPattern p) :: a' -> + let filter_head, p = interp_head_pat p in + if filter_head then p, a' else all_true, arg + | _ -> all_true, arg in + let is_string = + function (_, Search.GlobSearchString _) -> true | _ -> false in + let a2, a3 = List.partition is_string a1 in + interp_search_about (a2 @ a3) (fun gr env typ -> hpat typ) + +(* Module path postfilter *) + +let pr_modloc (b, m) = if b then str "-" ++ pr_reference m else pr_reference m + +let wit_ssrmodloc = add_genarg "ssrmodloc" pr_modloc + +let pr_ssr_modlocs _ _ _ ml = + if ml = [] then str "" else spc () ++ str "in " ++ pr_list spc pr_modloc ml + +ARGUMENT EXTEND ssr_modlocs TYPED AS ssrmodloc list PRINTED BY pr_ssr_modlocs + | [ ] -> [ [] ] +END + +GEXTEND Gram + GLOBAL: ssr_modlocs; + modloc: [[ "-"; m = global -> true, m | m = global -> false, m]]; + ssr_modlocs: [[ "in"; ml = LIST1 modloc -> ml ]]; +END + +let interp_modloc mr = + let interp_mod (_, mr) = + let {CAst.loc=loc; v=qid} = qualid_of_reference mr in + try Nametab.full_name_module qid with Not_found -> + CErrors.user_err ?loc (str "No Module " ++ pr_qualid qid) in + let mr_out, mr_in = List.partition fst mr in + let interp_bmod b = function + | [] -> fun _ _ _ -> true + | rmods -> Search.module_filter (List.map interp_mod rmods, b) in + let is_in = interp_bmod false mr_in and is_out = interp_bmod true mr_out in + fun gr env typ -> is_in gr env typ && is_out gr env typ + +(* The unified, extended vernacular "Search" command *) + +let ssrdisplaysearch gr env t = + let pr_res = pr_global gr ++ spc () ++ str " " ++ pr_lconstr_env env Evd.empty t in + Feedback.msg_info (hov 2 pr_res ++ fnl ()) + +VERNAC COMMAND EXTEND SsrSearchPattern CLASSIFIED AS QUERY +| [ "Search" ssr_search_arg(a) ssr_modlocs(mr) ] -> + [ let hpat = interp_search_arg a in + let in_mod = interp_modloc mr in + let post_filter gr env typ = in_mod gr env typ && hpat gr env typ in + let display gr env typ = + if post_filter gr env typ then ssrdisplaysearch gr env typ + in + Search.generic_search None display ] +END + +(* }}} *) + +(** View hint database and View application. *)(* {{{ ******************************) + +(* There are three databases of lemmas used to mediate the application *) +(* of reflection lemmas: one for forward chaining, one for backward *) +(* chaining, and one for secondary backward chaining. *) + +(* View hints *) + +let pr_raw_ssrhintref prc _ _ = let open CAst in function + | { v = CAppExpl ((None, r,x), args) } when isCHoles args -> + prc (CAst.make @@ CRef (r,x)) ++ str "|" ++ int (List.length args) + | { v = CApp ((_, { v = CRef _ }), _) } as c -> prc c + | { v = CApp ((_, c), args) } when isCxHoles args -> + prc c ++ str "|" ++ int (List.length args) + | c -> prc c + +let pr_rawhintref c = + let _, env = Pfedit.get_current_context () in + match DAst.get c with + | GApp (f, args) when isRHoles args -> + pr_glob_constr_env env f ++ str "|" ++ int (List.length args) + | _ -> pr_glob_constr_env env c + +let pr_glob_ssrhintref _ _ _ (c, _) = pr_rawhintref c + +let pr_ssrhintref prc _ _ = prc + +let mkhintref ?loc c n = match c.CAst.v with + | CRef (r,x) -> CAst.make ?loc @@ CAppExpl ((None, r, x), mkCHoles ?loc n) + | _ -> mkAppC (c, mkCHoles ?loc n) + +ARGUMENT EXTEND ssrhintref + PRINTED BY pr_ssrhintref + RAW_TYPED AS constr RAW_PRINTED BY pr_raw_ssrhintref + GLOB_TYPED AS constr GLOB_PRINTED BY pr_glob_ssrhintref + | [ constr(c) ] -> [ c ] + | [ constr(c) "|" natural(n) ] -> [ mkhintref ~loc c n ] +END + +(* View purpose *) + +let pr_viewpos = function + | Some Ssrview.AdaptorDb.Forward -> str " for move/" + | Some Ssrview.AdaptorDb.Backward -> str " for apply/" + | Some Ssrview.AdaptorDb.Equivalence -> str " for apply//" + | None -> mt () + +let pr_ssrviewpos _ _ _ = pr_viewpos + +ARGUMENT EXTEND ssrviewpos PRINTED BY pr_ssrviewpos + | [ "for" "move" "/" ] -> [ Some Ssrview.AdaptorDb.Forward ] + | [ "for" "apply" "/" ] -> [ Some Ssrview.AdaptorDb.Backward ] + | [ "for" "apply" "/" "/" ] -> [ Some Ssrview.AdaptorDb.Equivalence ] + | [ "for" "apply" "//" ] -> [ Some Ssrview.AdaptorDb.Equivalence ] + | [ ] -> [ None ] +END + +let pr_ssrviewposspc _ _ _ i = pr_viewpos i ++ spc () + +ARGUMENT EXTEND ssrviewposspc TYPED AS ssrviewpos PRINTED BY pr_ssrviewposspc + | [ ssrviewpos(i) ] -> [ i ] +END + +let print_view_hints kind l = + let pp_viewname = str "Hint View" ++ pr_viewpos (Some kind) ++ str " " in + let pp_hints = pr_list spc pr_rawhintref l in + Feedback.msg_info (pp_viewname ++ hov 0 pp_hints ++ Pp.cut ()) + +VERNAC COMMAND EXTEND PrintView CLASSIFIED AS QUERY +| [ "Print" "Hint" "View" ssrviewpos(i) ] -> + [ match i with + | Some k -> print_view_hints k (Ssrview.AdaptorDb.get k) + | None -> + List.iter (fun k -> print_view_hints k (Ssrview.AdaptorDb.get k)) + [ Ssrview.AdaptorDb.Forward; + Ssrview.AdaptorDb.Backward; + Ssrview.AdaptorDb.Equivalence ] + ] +END + +let glob_view_hints lvh = + List.map (Constrintern.intern_constr (Global.env ()) (Evd.from_env (Global.env ()))) lvh + +VERNAC COMMAND EXTEND HintView CLASSIFIED AS SIDEFF + | [ "Hint" "View" ssrviewposspc(n) ne_ssrhintref_list(lvh) ] -> + [ let hints = glob_view_hints lvh in + match n with + | None -> + Ssrview.AdaptorDb.declare Ssrview.AdaptorDb.Forward hints; + Ssrview.AdaptorDb.declare Ssrview.AdaptorDb.Backward hints + | Some k -> + Ssrview.AdaptorDb.declare k hints ] +END + +(* }}} *) + +(** Canonical Structure alias *) + +GEXTEND Gram + GLOBAL: gallina_ext; + + gallina_ext: + (* Canonical structure *) + [[ IDENT "Canonical"; qid = Constr.global -> + Vernacexpr.VernacCanonical (CAst.make @@ AN qid) + | IDENT "Canonical"; ntn = Prim.by_notation -> + Vernacexpr.VernacCanonical (CAst.make @@ ByNotation ntn) + | IDENT "Canonical"; qid = Constr.global; + d = G_vernac.def_body -> + let s = coerce_reference_to_id qid in + Vernacexpr.VernacDefinition + ((Decl_kinds.NoDischarge,Decl_kinds.CanonicalStructure), + ((CAst.make (Name s)),None), d) + ]]; +END + +(** Keyword compatibility fixes. *) + +(* Coq v8.1 notation uses "by" and "of" quasi-keywords, i.e., reserved *) +(* identifiers used as keywords. This is incompatible with ssreflect.v *) +(* which makes "by" and "of" true keywords, because of technicalities *) +(* in the internal lexer-parser API of Coq. We patch this here by *) +(* adding new parsing rules that recognize the new keywords. *) +(* To make matters worse, the Coq grammar for tactics fails to *) +(* export the non-terminals we need to patch. Fortunately, the CamlP5 *) +(* API provides a backdoor access (with loads of Obj.magic trickery). *) + +(* Coq v8.3 defines "by" as a keyword, some hacks are not needed any *) +(* longer and thus comment out. Such comments are marked with v8.3 *) + +open Pltac + +GEXTEND Gram + GLOBAL: hypident; + hypident: [ + [ "("; IDENT "type"; "of"; id = Prim.identref; ")" -> id, Locus.InHypTypeOnly + | "("; IDENT "value"; "of"; id = Prim.identref; ")" -> id, Locus.InHypValueOnly + ] ]; +END + +GEXTEND Gram + GLOBAL: hloc; +hloc: [ + [ "in"; "("; "Type"; "of"; id = ident; ")" -> + Tacexpr.HypLocation (CAst.make id, Locus.InHypTypeOnly) + | "in"; "("; IDENT "Value"; "of"; id = ident; ")" -> + Tacexpr.HypLocation (CAst.make id, Locus.InHypValueOnly) + ] ]; +END + +GEXTEND Gram + GLOBAL: constr_eval; + constr_eval: [ + [ IDENT "type"; "of"; c = Constr.constr -> Genredexpr.ConstrTypeOf c ] + ]; +END + +(* We wipe out all the keywords generated by the grammar rules we defined. *) +(* The user is supposed to Require Import ssreflect or Require ssreflect *) +(* and Import ssreflect.SsrSyntax to obtain these keywords and as a *) +(* consequence the extended ssreflect grammar. *) +let () = CLexer.set_keyword_state frozen_lexer ;; + +(* vim: set filetype=ocaml foldmethod=marker: *) -- cgit v1.2.3