package coq
Formal proof management system
Install
Dune Dependency
Authors
Maintainers
Sources
coq-8.16.1.tar.gz
sha256=583471c8ed4f227cb374ee8a13a769c46579313d407db67a82d202ee48300e4b
doc/src/coq-core.vernac/ppvernac.ml.html
Source file ppvernac.ml
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This file is distributed under the terms of the *) (* * GNU Lesser General Public License Version 2.1 *) (* * (see LICENSE file for the text of the license) *) (************************************************************************) open Pp open Names open CErrors open Util open CAst open Extend open Constrexpr open Constrexpr_ops open Vernacexpr open Declaremods open Pputils open Ppconstr let do_not_tag _ x = x let tag_keyword = do_not_tag () let tag_vernac = do_not_tag let keyword s = tag_keyword (str s) let pr_smart_global = Pputils.pr_or_by_notation pr_qualid let pr_in_global_env f c : Pp.t = let env = Global.env () in let sigma = Evd.from_env env in f env sigma c (* when not !Flags.beautify_file these just ignore the env/sigma *) let pr_constr_expr = pr_in_global_env pr_constr_expr let pr_lconstr_expr = pr_in_global_env pr_lconstr_expr let pr_binders = pr_in_global_env pr_binders let pr_constr_pattern_expr = pr_in_global_env pr_constr_pattern_expr (* In principle this may use the env/sigma, in practice not sure if it does except through pr_constr_expr in beautify mode. *) let pr_gen = pr_in_global_env Pputils.pr_raw_generic (* No direct Global.env or pr_in_global_env use after this *) let pr_constr = pr_constr_expr let pr_lconstr = pr_lconstr_expr let pr_spc_lconstr = pr_sep_com spc @@ pr_lconstr_expr let pr_red_expr = Ppred.pr_red_expr (pr_constr_expr, pr_lconstr_expr, pr_smart_global, pr_constr_expr) keyword let pr_uconstraint (l, d, r) = pr_sort_name_expr l ++ spc () ++ Univ.pr_constraint_type d ++ spc () ++ pr_sort_name_expr r let pr_univ_name_list = function | None -> mt () | Some l -> str "@{" ++ prlist_with_sep spc pr_lname l ++ str"}" let pr_variance_lident (lid,v) = let v = Option.cata Univ.Variance.pr (mt()) v in v ++ pr_lident lid let pr_univdecl_instance l extensible = prlist_with_sep spc pr_lident l ++ (if extensible then str"+" else mt ()) let pr_cumul_univdecl_instance l extensible = prlist_with_sep spc pr_variance_lident l ++ (if extensible then str"+" else mt ()) let pr_univdecl_constraints l extensible = if List.is_empty l && extensible then mt () else str"|" ++ spc () ++ prlist_with_sep (fun () -> str",") pr_uconstraint l ++ (if extensible then str"+" else mt()) let pr_universe_decl l = let open UState in match l with | None -> mt () | Some l -> str"@{" ++ pr_univdecl_instance l.univdecl_instance l.univdecl_extensible_instance ++ pr_univdecl_constraints l.univdecl_constraints l.univdecl_extensible_constraints ++ str "}" let pr_cumul_univ_decl l = let open UState in match l with | None -> mt () | Some l -> str"@{" ++ pr_cumul_univdecl_instance l.univdecl_instance l.univdecl_extensible_instance ++ pr_univdecl_constraints l.univdecl_constraints l.univdecl_extensible_constraints ++ str "}" let pr_ident_decl (lid, l) = pr_lident lid ++ pr_universe_decl l let pr_cumul_ident_decl (lid, l) = pr_lident lid ++ pr_cumul_univ_decl l let string_of_fqid fqid = String.concat "." (List.map Id.to_string fqid) let pr_fqid fqid = str (string_of_fqid fqid) let pr_lfqid {CAst.loc;v=fqid} = match loc with | None -> pr_fqid fqid | Some loc -> let (b,_) = Loc.unloc loc in pr_located pr_fqid @@ Loc.tag ~loc:(Loc.make_loc (b,b + String.length (string_of_fqid fqid))) fqid let pr_lname_decl (n, u) = pr_lname n ++ pr_universe_decl u let pr_ltac_ref = Libnames.pr_qualid let pr_module = Libnames.pr_qualid let pr_import_cats = function | None -> mt() | Some {negative;import_cats=cats} -> (if negative then str "-" else mt()) ++ str "(" ++ prlist_with_sep (fun () -> str ",") (fun x -> str x.v) cats ++ str ")" let pr_one_import_filter_name (q,etc) = Libnames.pr_qualid q ++ if etc then str "(..)" else mt() let pr_import_module (m,f) = Libnames.pr_qualid m ++ match f with | ImportAll -> mt() | ImportNames ns -> surround (prlist_with_sep pr_comma pr_one_import_filter_name ns) let sep_end = function | VernacBullet _ | VernacSubproof _ | VernacEndSubproof -> str"" | _ -> str"." let sep = fun _ -> spc() let sep_v2 = fun _ -> str"," ++ spc() let string_of_theorem_kind = let open Decls in function | Theorem -> "Theorem" | Lemma -> "Lemma" | Fact -> "Fact" | Remark -> "Remark" | Property -> "Property" | Proposition -> "Proposition" | Corollary -> "Corollary" let string_of_definition_object_kind = let open Decls in function | Definition -> "Definition" | Example -> "Example" | Coercion -> "Coercion" | SubClass -> "SubClass" | CanonicalStructure -> "Canonical Structure" | Instance -> "Instance" | Let -> "Let" | (StructureComponent|Scheme|CoFixpoint|Fixpoint|IdentityCoercion|Method) -> CErrors.anomaly (Pp.str "Internal definition kind.") let string_of_assumption_kind = let open Decls in function | Definitional -> "Parameter" | Logical -> "Axiom" | Conjectural -> "Conjecture" | Context -> "Context" let string_of_logical_kind = let open Decls in function | IsAssumption k -> string_of_assumption_kind k | IsDefinition k -> string_of_definition_object_kind k | IsProof k -> string_of_theorem_kind k | IsPrimitive -> "Primitive" let pr_notation_entry = function | InConstrEntry -> keyword "constr" | InCustomEntry s -> keyword "custom" ++ spc () ++ str s let pr_at_level = function | NumLevel n -> spc () ++ keyword "at" ++ spc () ++ keyword "level" ++ spc () ++ int n | NextLevel -> spc () ++ keyword "at" ++ spc () ++ keyword "next" ++ spc () ++ keyword "level" | DefaultLevel -> mt () let level_of_pattern_level = function None -> DefaultLevel | Some n -> NumLevel n let pr_constr_as_binder_kind = let open Notation_term in function | AsIdent -> spc () ++ keyword "as ident" | AsName -> spc () ++ keyword "as name" | AsNameOrPattern -> spc () ++ keyword "as pattern" | AsStrictPattern -> spc () ++ keyword "as strict pattern" let pr_strict b = if b then str "strict " else mt () let pr_set_entry_type pr = function | ETIdent -> str"ident" | ETName -> str"name" | ETGlobal -> str"global" | ETPattern (b,n) -> pr_strict b ++ str"pattern" ++ pr_at_level (level_of_pattern_level n) | ETConstr (s,bko,lev) -> pr_notation_entry s ++ pr lev ++ pr_opt pr_constr_as_binder_kind bko | ETBigint -> str "bigint" | ETBinder true -> str "binder" | ETBinder false -> str "closed binder" let pr_set_simple_entry_type = pr_set_entry_type pr_at_level let pr_comment pr_c = function | CommentConstr c -> pr_c c | CommentString s -> qs s | CommentInt n -> int n let pr_in_out_modules = function | SearchInside l -> spc() ++ keyword "inside" ++ spc() ++ prlist_with_sep sep pr_module l | SearchOutside [] -> mt() | SearchOutside l -> spc() ++ keyword "outside" ++ spc() ++ prlist_with_sep sep pr_module l let pr_search_where = function | Anywhere, false -> mt () | Anywhere, true -> str "head:" | InHyp, true -> str "headhyp:" | InHyp, false -> str "hyp:" | InConcl, true -> str "headconcl:" | InConcl, false -> str "concl:" let pr_search_item = function | SearchSubPattern (where,p) -> pr_search_where where ++ pr_constr_pattern_expr p | SearchString (where,s,sc) -> pr_search_where where ++ qs s ++ pr_opt (fun sc -> str "%" ++ str sc) sc | SearchKind kind -> str "is:" ++ str (string_of_logical_kind kind) let rec pr_search_request = function | SearchLiteral a -> pr_search_item a | SearchDisjConj l -> str "[" ++ prlist_with_sep spc (prlist_with_sep pr_bar pr_search_default) l ++ str "]" and pr_search_default (b, s) = (if b then mt() else str "-") ++ pr_search_request s let pr_search a gopt b pr_p = pr_opt (fun g -> Goal_select.pr_goal_selector g ++ str ":"++ spc()) gopt ++ match a with | SearchPattern c -> keyword "SearchPattern" ++ spc() ++ pr_p c ++ pr_in_out_modules b | SearchRewrite c -> keyword "SearchRewrite" ++ spc() ++ pr_p c ++ pr_in_out_modules b | Search sl -> keyword "Search" ++ spc() ++ prlist_with_sep spc pr_search_default sl ++ pr_in_out_modules b let pr_option_ref_value = function | Goptions.QualidRefValue id -> pr_qualid id | Goptions.StringRefValue s -> qs s let pr_printoption table b = prlist_with_sep spc str table ++ pr_opt (prlist_with_sep sep pr_option_ref_value) b let pr_set_option a b = pr_printoption a None ++ (match b with | OptionUnset | OptionSetTrue -> mt() | OptionSetInt n -> spc() ++ int n | OptionSetString s -> spc() ++ quote (str s)) let pr_opt_hintbases l = match l with | [] -> mt() | _ as z -> str":" ++ spc() ++ prlist_with_sep sep str z let pr_reference_or_constr pr_c = function | HintsReference r -> pr_qualid r | HintsConstr c -> pr_c c let pr_hint_mode = let open Hints in function | ModeInput -> str"+" | ModeNoHeadEvar -> str"!" | ModeOutput -> str"-" let pr_hint_info pr_pat { Typeclasses.hint_priority = pri; hint_pattern = pat } = pr_opt (fun x -> str"|" ++ int x) pri ++ pr_opt (fun y -> (if Option.is_empty pri then str"| " else mt()) ++ pr_pat y) pat let pr_hints db h pr_c pr_pat = let opth = pr_opt_hintbases db in let pph = let open Hints in match h with | HintsResolve l -> keyword "Resolve " ++ prlist_with_sep sep (fun (info, _, c) -> pr_reference_or_constr pr_c c ++ pr_hint_info pr_pat info) l | HintsResolveIFF (l2r, l, n) -> keyword "Resolve " ++ str (if l2r then "->" else "<-") ++ prlist_with_sep sep pr_qualid l | HintsImmediate l -> keyword "Immediate" ++ spc() ++ prlist_with_sep sep (fun c -> pr_reference_or_constr pr_c c) l | HintsUnfold l -> keyword "Unfold" ++ spc () ++ prlist_with_sep sep pr_qualid l | HintsTransparency (l, b) -> keyword (if b then "Transparent" else "Opaque") ++ spc () ++ (match l with | HintsVariables -> keyword "Variables" | HintsConstants -> keyword "Constants" | HintsReferences l -> prlist_with_sep sep pr_qualid l) | HintsMode (m, l) -> keyword "Mode" ++ spc () ++ pr_qualid m ++ spc() ++ prlist_with_sep spc pr_hint_mode l | HintsConstructors c -> keyword "Constructors" ++ spc() ++ prlist_with_sep spc pr_qualid c | HintsExtern (n,c,tac) -> let pat = match c with None -> mt () | Some pat -> pr_pat pat in keyword "Extern" ++ spc() ++ int n ++ spc() ++ pat ++ str" =>" ++ spc() ++ pr_gen tac in hov 2 (keyword "Hint "++ pph ++ opth) let pr_with_declaration pr_c = function | CWith_Definition (id,udecl,c) -> let p = pr_c c in keyword "Definition" ++ spc() ++ pr_lfqid id ++ pr_universe_decl udecl ++ str" := " ++ p | CWith_Module (id,qid) -> keyword "Module" ++ spc() ++ pr_lfqid id ++ str" := " ++ pr_qualid qid let rec pr_module_ast leading_space pr_c = function | { loc ; v = CMident qid } -> if leading_space then spc () ++ pr_located pr_qualid (loc, qid) else pr_located pr_qualid (loc,qid) | { v = CMwith (mty,decl) } -> let m = pr_module_ast leading_space pr_c mty in let p = pr_with_declaration pr_c decl in m ++ spc() ++ keyword "with" ++ spc() ++ p | { v = CMapply (me1, me2 ) } -> pr_module_ast leading_space pr_c me1 ++ spc() ++ pr_located pr_qualid (me2.loc, me2) let pr_inline = function | DefaultInline -> mt () | NoInline -> str "[no inline]" | InlineAt i -> str "[inline at level " ++ int i ++ str "]" let pr_assumption_inline = function | DefaultInline -> str "Inline" | NoInline -> mt () | InlineAt i -> str "Inline(" ++ int i ++ str ")" let pr_module_ast_inl leading_space pr_c (mast,inl) = pr_module_ast leading_space pr_c mast ++ pr_inline inl let pr_of_module_type prc = function | Enforce mty -> str ":" ++ pr_module_ast_inl true prc mty | Check mtys -> prlist_strict (fun m -> str "<:" ++ pr_module_ast_inl true prc m) mtys let pr_export_flag = function | Export -> keyword "Export" | Import -> keyword "Import" let pr_export_with_cats (export,cats) = pr_export_flag export ++ pr_import_cats cats let pr_require_token = function | Some export -> pr_export_with_cats export ++ spc () | None -> mt() let pr_module_vardecls pr_c (export,idl,(mty,inl)) = let m = pr_module_ast true pr_c mty in spc() ++ hov 1 (str"(" ++ pr_require_token export ++ prlist_with_sep spc pr_lident idl ++ str":" ++ m ++ str")") let pr_module_binders l pr_c = prlist_strict (pr_module_vardecls pr_c) l let pr_type_option pr_c = function | { v = CHole (k, Namegen.IntroAnonymous, _) } -> mt() | _ as c -> brk(0,2) ++ str" :" ++ pr_c c let pr_binders_arg = pr_non_empty_arg @@ pr_binders let pr_and_type_binders_arg bl = pr_binders_arg bl let pr_onescheme (idop, {sch_type; sch_qualid; sch_sort}) = let str_identifier = match idop with | Some id -> pr_lident id ++ str " :=" | None -> str "" in let str_scheme = match sch_type with | SchemeInduction -> keyword "Induction for" | SchemeMinimality -> keyword "Minimality for" | SchemeElimination -> keyword "Elimination for" | SchemeCase -> keyword "Case for" in hov 0 str_identifier ++ spc () ++ hov 0 (str_scheme ++ spc() ++ pr_smart_global sch_qualid) ++ spc () ++ hov 0 (keyword "Sort" ++ spc() ++ Sorts.pr_sort_family sch_sort) let pr_equality_scheme_type sch id = let str_scheme = match sch with | SchemeBooleanEquality -> keyword "Boolean Equality for" | SchemeEquality -> keyword "Equality for" in hov 0 (str_scheme ++ spc() ++ pr_smart_global id) let begin_of_inductive = function | [] -> 0 | (_,({loc},_))::_ -> Option.cata (fun loc -> fst (Loc.unloc loc)) 0 loc let pr_class_rawexpr = function | FunClass -> keyword "Funclass" | SortClass -> keyword "Sortclass" | RefClass qid -> pr_smart_global qid let pr_assumption_token many discharge kind = match discharge, kind with | (NoDischarge,Decls.Logical) -> keyword (if many then "Axioms" else "Axiom") | (NoDischarge,Decls.Definitional) -> keyword (if many then "Parameters" else "Parameter") | (NoDischarge,Decls.Conjectural) -> str"Conjecture" | (DoDischarge,Decls.Logical) -> keyword (if many then "Hypotheses" else "Hypothesis") | (DoDischarge,Decls.Definitional) -> keyword (if many then "Variables" else "Variable") | (DoDischarge,Decls.Conjectural) -> anomaly (Pp.str "Don't know how to beautify a local conjecture.") | (_,Decls.Context) -> anomaly (Pp.str "Context is used only internally.") let pr_params pr_c (xl,(c,t)) = hov 2 (prlist_with_sep sep pr_lident xl ++ spc() ++ (if c then str":>" else str":" ++ spc() ++ pr_c t)) let rec factorize = function | [] -> [] | (c,(idl,t))::l -> match factorize l with | (xl,((c', t') as r))::l' when (c : bool) == c' && (=) t t' -> (* FIXME: we need equality on constr_expr *) (idl@xl,r)::l' | l' -> (idl,(c,t))::l' let pr_ne_params_list pr_c l = match factorize l with | [p] -> pr_params pr_c p | l -> prlist_with_sep spc (fun p -> hov 1 (str "(" ++ pr_params pr_c p ++ str ")")) l (* prlist_with_sep pr_semicolon (pr_params pr_c) *) let pr_thm_token k = keyword (string_of_theorem_kind k) let pr_syntax_modifier = let open Gramlib.Gramext in CAst.with_val (function | SetItemLevel (l,bko,n) -> prlist_with_sep sep_v2 str l ++ spc () ++ pr_at_level n ++ pr_opt pr_constr_as_binder_kind bko | SetItemScope (l,s) -> prlist_with_sep sep_v2 str l ++ spc () ++ str"in scope" ++ str s | SetLevel n -> pr_at_level (NumLevel n) | SetCustomEntry (s,n) -> keyword "in" ++ spc() ++ keyword "custom" ++ spc() ++ str s ++ (match n with None -> mt () | Some n -> pr_at_level (NumLevel n)) | SetAssoc LeftA -> keyword "left associativity" | SetAssoc RightA -> keyword "right associativity" | SetAssoc NonA -> keyword "no associativity" | SetEntryType (x,typ) -> str x ++ spc() ++ pr_set_simple_entry_type typ | SetOnlyPrinting -> keyword "only printing" | SetOnlyParsing -> keyword "only parsing" | SetFormat (TextFormat s) -> keyword "format " ++ pr_ast qs s | SetFormat (ExtraFormat (k,s)) -> keyword "format " ++ qs k ++ spc() ++ pr_ast qs s) let pr_syntax_modifiers = function | [] -> mt() | l -> spc() ++ hov 1 (str"(" ++ prlist_with_sep sep_v2 pr_syntax_modifier l ++ str")") let pr_decl_notation prc decl_ntn = let open Vernacexpr in let { decl_ntn_string = {CAst.loc;v=ntn}; decl_ntn_interp = c; decl_ntn_modifiers = modifiers; decl_ntn_scope = scopt } = decl_ntn in fnl () ++ keyword "where " ++ qs ntn ++ str " := " ++ Flags.without_option Flags.beautify prc c ++ pr_syntax_modifiers modifiers ++ pr_opt (fun sc -> str ": " ++ str sc) scopt let pr_rec_definition { fname; univs; rec_order; binders; rtype; body_def; notations } = let pr_pure_lconstr c = Flags.without_option Flags.beautify pr_lconstr c in let annot = pr_guard_annot pr_lconstr_expr binders rec_order in pr_ident_decl (fname,univs) ++ pr_binders_arg binders ++ annot ++ pr_type_option (fun c -> spc() ++ pr_lconstr_expr c) rtype ++ pr_opt (fun def -> str":=" ++ brk(1,2) ++ pr_pure_lconstr def) body_def ++ prlist (pr_decl_notation @@ pr_constr) notations let pr_statement head (idpl,(bl,c)) = hov 2 (head ++ spc() ++ pr_ident_decl idpl ++ spc() ++ (match bl with [] -> mt() | _ -> pr_binders bl ++ spc()) ++ str":" ++ pr_spc_lconstr c) (**************************************) (* Pretty printer for vernac commands *) (**************************************) let pr_constrarg c = spc () ++ pr_constr c let pr_lconstrarg c = spc () ++ pr_lconstr c let pr_intarg n = spc () ++ int n let pr_oc = function | NoInstance -> str" :" | BackInstance -> str" :>" let pr_record_field (x, { rf_subclass = oc ; rf_priority = pri ; rf_notation = ntn }) = let prx = match x with | AssumExpr (id,binders,t) -> hov 1 (pr_lname id ++ pr_binders_arg binders ++ spc() ++ pr_oc oc ++ spc() ++ pr_lconstr_expr t) | DefExpr(id,binders,b,opt) -> (match opt with | Some t -> hov 1 (pr_lname id ++ pr_binders_arg binders ++ spc() ++ pr_oc oc ++ spc() ++ pr_lconstr_expr t ++ str" :=" ++ pr_lconstr b) | None -> hov 1 (pr_lname id ++ str" :=" ++ spc() ++ pr_lconstr b)) in let prpri = match pri with None -> mt() | Some i -> str "| " ++ int i in prx ++ prpri ++ prlist (pr_decl_notation @@ pr_constr) ntn let pr_record_decl c fs obinder = pr_opt pr_lident c ++ pr_record "{" "}" pr_record_field fs ++ pr_opt (fun id -> str "as " ++ pr_lident id) obinder let pr_printable = function | PrintFullContext -> keyword "Print All" | PrintSectionContext s -> keyword "Print Section" ++ spc() ++ Libnames.pr_qualid s | PrintGrammar ent -> keyword "Print Grammar" ++ spc() ++ str ent | PrintCustomGrammar ent -> keyword "Print Custom Grammar" ++ spc() ++ str ent | PrintLoadPath dir -> keyword "Print LoadPath" ++ pr_opt DirPath.print dir | PrintLibraries -> keyword "Print Libraries" | PrintMLLoadPath -> keyword "Print ML Path" | PrintMLModules -> keyword "Print ML Modules" | PrintDebugGC -> keyword "Print ML GC" | PrintGraph -> keyword "Print Graph" | PrintClasses -> keyword "Print Classes" | PrintTypeClasses -> keyword "Print TypeClasses" | PrintInstances qid -> keyword "Print Instances" ++ spc () ++ pr_smart_global qid | PrintCoercions -> keyword "Print Coercions" | PrintCoercionPaths (s,t) -> keyword "Print Coercion Paths" ++ spc() ++ pr_class_rawexpr s ++ spc() ++ pr_class_rawexpr t | PrintCanonicalConversions qids -> keyword "Print Canonical Structures" ++ prlist pr_smart_global qids | PrintTypingFlags -> keyword "Print Typing Flags" | PrintTables -> keyword "Print Tables" | PrintHintGoal -> keyword "Print Hint" | PrintHint qid -> keyword "Print Hint" ++ spc () ++ pr_smart_global qid | PrintHintDb -> keyword "Print Hint *" | PrintHintDbName s -> keyword "Print HintDb" ++ spc () ++ str s | PrintUniverses (b, g, fopt) -> let cmd = if b then "Print Sorted Universes" else "Print Universes" in let pr_subgraph = prlist_with_sep spc pr_qualid in keyword cmd ++ pr_opt pr_subgraph g ++ pr_opt str fopt | PrintName (qid,udecl) -> keyword "Print" ++ spc() ++ pr_smart_global qid ++ pr_univ_name_list udecl | PrintModuleType qid -> keyword "Print Module Type" ++ spc() ++ pr_qualid qid | PrintModule qid -> keyword "Print Module" ++ spc() ++ pr_qualid qid | PrintInspect n -> keyword "Inspect" ++ spc() ++ int n | PrintScopes -> keyword "Print Scopes" | PrintScope s -> keyword "Print Scope" ++ spc() ++ str s | PrintVisibility s -> keyword "Print Visibility" ++ pr_opt str s | PrintAbout (qid,l,gopt) -> pr_opt (fun g -> Goal_select.pr_goal_selector g ++ str ":"++ spc()) gopt ++ keyword "About" ++ spc() ++ pr_smart_global qid ++ pr_univ_name_list l | PrintImplicit qid -> keyword "Print Implicit" ++ spc() ++ pr_smart_global qid (* spiwack: command printing all the axioms and section variables used in a term *) | PrintAssumptions (b, t, qid) -> let cmd = match b, t with | true, true -> "Print All Dependencies" | true, false -> "Print Opaque Dependencies" | false, true -> "Print Transparent Dependencies" | false, false -> "Print Assumptions" in keyword cmd ++ spc() ++ pr_smart_global qid | PrintNamespace dp -> keyword "Print Namespace" ++ DirPath.print dp | PrintStrategy None -> keyword "Print Strategies" | PrintStrategy (Some qid) -> keyword "Print Strategy" ++ pr_smart_global qid | PrintRegistered -> keyword "Print Registered" | PrintNotation (Constrexpr.InConstrEntry, ntn_key) -> keyword "Print Notation" ++ spc() ++ str ntn_key | PrintNotation (Constrexpr.InCustomEntry ent, ntn_key) -> keyword "Print Notation" ++ spc() ++ str ent ++ str ntn_key let pr_using e = let rec aux = function | SsEmpty -> "()" | SsType -> "(Type)" | SsSingl { v=id } -> "("^Id.to_string id^")" | SsCompl e -> "-" ^ aux e^"" | SsUnion(e1,e2) -> "("^aux e1 ^" + "^ aux e2^")" | SsSubstr(e1,e2) -> "("^aux e1 ^" - "^ aux e2^")" | SsFwdClose e -> "("^aux e^")*" in Pp.str (aux e) let pr_extend s cl = let pr_arg a = try pr_gen a with Failure _ -> str "<error in " ++ str (fst s) ++ str ">" in try let rl = Egramml.get_extend_vernac_rule s in let rec aux rl cl = match rl, cl with | Egramml.GramNonTerminal _ :: rl, arg :: cl -> pr_arg arg :: aux rl cl | Egramml.GramTerminal s :: rl, cl -> str s :: aux rl cl | [], [] -> [] | _ -> assert false in hov 1 (pr_sequence identity (aux rl cl)) with Not_found -> hov 1 (str "TODO(" ++ str (fst s) ++ spc () ++ prlist_with_sep sep pr_arg cl ++ str ")") let pr_vernac_expr v = let return = tag_vernac v in match v with | VernacLoad (f,s) -> return ( keyword "Load" ++ if f then (spc() ++ keyword "Verbose" ++ spc()) else spc() ++ qs s ) (* Proof management *) | VernacAbortAll -> return (keyword "Abort All") | VernacRestart -> return (keyword "Restart") | VernacUnfocus -> return (keyword "Unfocus") | VernacUnfocused -> return (keyword "Unfocused") | VernacAbort -> return (keyword "Abort") | VernacUndo i -> return ( if Int.equal i 1 then keyword "Undo" else keyword "Undo" ++ pr_intarg i ) | VernacUndoTo i -> return (keyword "Undo" ++ spc() ++ keyword "To" ++ pr_intarg i) | VernacFocus i -> return (keyword "Focus" ++ pr_opt int i) | VernacShow s -> let pr_goal_reference = function | OpenSubgoals -> mt () | NthGoal n -> spc () ++ int n | GoalId id -> spc () ++ pr_id id in let pr_showable = function | ShowGoal n -> keyword "Show" ++ pr_goal_reference n | ShowProof -> keyword "Show Proof" | ShowExistentials -> keyword "Show Existentials" | ShowUniverses -> keyword "Show Universes" | ShowProofNames -> keyword "Show Conjectures" | ShowIntros b -> keyword "Show " ++ (if b then keyword "Intros" else keyword "Intro") | ShowMatch id -> keyword "Show Match " ++ pr_qualid id in return (pr_showable s) | VernacCheckGuard -> return (keyword "Guarded") (* Resetting *) | VernacResetName id -> return (keyword "Reset" ++ spc() ++ pr_lident id) | VernacResetInitial -> return (keyword "Reset Initial") | VernacBack i -> return ( if Int.equal i 1 then keyword "Back" else keyword "Back" ++ pr_intarg i ) (* Syntax *) | VernacOpenCloseScope (opening,sc) -> return ( keyword (if opening then "Open " else "Close ") ++ keyword "Scope" ++ spc() ++ str sc ) | VernacDeclareScope sc -> return ( keyword "Declare Scope" ++ spc () ++ str sc ) | VernacDelimiters (sc,Some key) -> return ( keyword "Delimit Scope" ++ spc () ++ str sc ++ spc() ++ keyword "with" ++ spc () ++ str key ) | VernacDelimiters (sc, None) -> return ( keyword "Undelimit Scope" ++ spc () ++ str sc ) | VernacBindScope (sc,cll) -> return ( keyword "Bind Scope" ++ spc () ++ str sc ++ spc() ++ keyword "with" ++ spc () ++ prlist_with_sep spc pr_class_rawexpr cll ) | VernacNotation (infix,c,({v=s},l),opt) -> return ( hov 2 (hov 0 (keyword (if infix then "Infix" else "Notation") ++ spc() ++ qs s ++ str " :=" ++ Flags.without_option Flags.beautify pr_constrarg c) ++ pr_syntax_modifiers l ++ (match opt with | None -> mt() | Some sc -> spc() ++ str":" ++ spc() ++ str sc)) ) | VernacReservedNotation (_, (s, l)) -> return ( keyword "Reserved Notation" ++ spc() ++ pr_ast qs s ++ pr_syntax_modifiers l ) | VernacNotationAddFormat(s,k,v) -> return ( keyword "Format Notation " ++ qs s ++ spc () ++ qs k ++ spc() ++ qs v ) | VernacDeclareCustomEntry s -> return ( keyword "Declare Custom Entry " ++ str s ) (* Gallina *) | VernacDefinition ((discharge,kind),id,b) -> (* A verifier... *) let pr_def_token dk = keyword ( if Name.is_anonymous (fst id).v then "Goal" else string_of_definition_object_kind dk) in let pr_reduce = function | None -> mt() | Some r -> keyword "Eval" ++ spc() ++ pr_red_expr r ++ keyword " in" ++ spc() in let pr_def_body = function | DefineBody (bl,red,body,d) -> let ty = match d with | None -> mt() | Some ty -> spc() ++ str":" ++ pr_spc_lconstr ty in (pr_binders_arg bl,ty,Some (pr_reduce red ++ pr_lconstr body)) | ProveBody (bl,t) -> let typ u = if (fst id).v = Anonymous then (assert (bl = []); u) else (str" :" ++ u) in (pr_binders_arg bl, typ (pr_spc_lconstr t), None) in let (binds,typ,c) = pr_def_body b in return ( hov 2 ( pr_def_token kind ++ spc() ++ pr_lname_decl id ++ binds ++ typ ++ (match c with | None -> mt() | Some cc -> str" :=" ++ spc() ++ cc)) ) | VernacStartTheoremProof (ki,l) -> return ( hov 1 (pr_statement (pr_thm_token ki) (List.hd l) ++ prlist (pr_statement (spc () ++ keyword "with")) (List.tl l)) ) | VernacEndProof Admitted -> return (keyword "Admitted") | VernacEndProof (Proved (opac,o)) -> return ( match o with | None -> (match opac with | Transparent -> keyword "Defined" | Opaque -> keyword "Qed") | Some id -> (if opac <> Transparent then keyword "Save" else keyword "Defined") ++ spc() ++ pr_lident id ) | VernacExactProof c -> return (hov 2 (keyword "Proof" ++ pr_lconstrarg c)) | VernacAssumption ((discharge,kind),t,l) -> let n = List.length (List.flatten (List.map fst (List.map snd l))) in let pr_params (c, (xl, t)) = hov 2 (prlist_with_sep sep pr_ident_decl xl ++ spc() ++ (if c then str":>" else str":" ++ spc() ++ pr_lconstr_expr t)) in let assumptions = prlist_with_sep spc (fun p -> hov 1 (str "(" ++ pr_params p ++ str ")")) l in return (hov 2 (pr_assumption_token (n > 1) discharge kind ++ pr_non_empty_arg pr_assumption_inline t ++ spc() ++ assumptions)) | VernacInductive (f,l) -> let pr_constructor (coe,(id,c)) = hov 2 (pr_lident id ++ str" " ++ (if coe then str":>" else str":") ++ Flags.without_option Flags.beautify pr_spc_lconstr c) in let pr_constructor_list l = match l with | Constructors [] -> mt() | Constructors l -> let fst_sep = match l with [_] -> " " | _ -> " | " in pr_com_at (begin_of_inductive l) ++ fnl() ++ str fst_sep ++ prlist_with_sep (fun _ -> fnl() ++ str" | ") pr_constructor l | RecordDecl (c,fs,obinder) -> pr_record_decl c fs obinder in let pr_oneind key (((coe,iddecl),(indupar,indpar),s,lc),ntn) = hov 0 ( str key ++ spc() ++ (if coe then str"> " else str"") ++ pr_cumul_ident_decl iddecl ++ pr_and_type_binders_arg indupar ++ pr_opt (fun p -> str "|" ++ spc() ++ pr_and_type_binders_arg p) indpar ++ pr_opt (fun s -> str":" ++ spc() ++ pr_lconstr_expr s) s ++ str" :=") ++ pr_constructor_list lc ++ prlist (pr_decl_notation @@ pr_constr) ntn in let kind = match f with | Record -> "Record" | Structure -> "Structure" | Inductive_kw -> "Inductive" | CoInductive -> "CoInductive" | Class _ -> "Class" | Variant -> "Variant" in return ( hov 1 (pr_oneind kind (List.hd l)) ++ (prlist (fun ind -> fnl() ++ hov 1 (pr_oneind "with" ind)) (List.tl l)) ) | VernacFixpoint (local, recs) -> let local = match local with | DoDischarge -> "Let " | NoDischarge -> "" in return ( hov 0 (str local ++ keyword "Fixpoint" ++ spc () ++ prlist_with_sep (fun _ -> fnl () ++ keyword "with" ++ spc ()) pr_rec_definition recs) ) | VernacCoFixpoint (local, corecs) -> let local = match local with | DoDischarge -> keyword "Let" ++ spc () | NoDischarge -> str "" in let pr_onecorec {fname; univs; binders; rtype; body_def; notations } = pr_ident_decl (fname,univs) ++ spc() ++ pr_binders binders ++ spc() ++ str":" ++ spc() ++ pr_lconstr_expr rtype ++ pr_opt (fun def -> str":=" ++ brk(1,2) ++ pr_lconstr def) body_def ++ prlist (pr_decl_notation @@ pr_constr) notations in return ( hov 0 (local ++ keyword "CoFixpoint" ++ spc() ++ prlist_with_sep (fun _ -> fnl() ++ keyword "with" ++ spc ()) pr_onecorec corecs) ) | VernacScheme l -> return ( hov 2 (keyword "Scheme" ++ spc() ++ prlist_with_sep (fun _ -> fnl() ++ keyword "with" ++ spc ()) pr_onescheme l) ) | VernacSchemeEquality (sch,id) -> return ( hov 2 (keyword "Scheme " ++ pr_equality_scheme_type sch id) ) | VernacCombinedScheme (id, l) -> return ( hov 2 (keyword "Combined Scheme" ++ spc() ++ pr_lident id ++ spc() ++ keyword "from" ++ spc() ++ prlist_with_sep (fun _ -> fnl() ++ str", ") pr_lident l) ) | VernacUniverse v -> return ( hov 2 (keyword "Universe" ++ spc () ++ prlist_with_sep (fun _ -> str",") pr_lident v) ) | VernacConstraint v -> return ( hov 2 (keyword "Constraint" ++ spc () ++ prlist_with_sep (fun _ -> str",") pr_uconstraint v) ) (* Gallina extensions *) | VernacBeginSection id -> return (hov 2 (keyword "Section" ++ spc () ++ pr_lident id)) | VernacEndSegment id -> return (hov 2 (keyword "End" ++ spc() ++ pr_lident id)) | VernacNameSectionHypSet (id,set) -> return (hov 2 (keyword "Collection" ++ spc() ++ pr_lident id ++ spc()++ str ":="++spc()++pr_using set)) | VernacExtraDependency(from,file,id) -> return ( hov 2 (keyword "From" ++ spc () ++ pr_module from ++ spc () ++ keyword "Extra" ++ spc() ++ keyword "Dependency" ++ spc() ++ qs file ++ pr_opt (fun x -> spc() ++ keyword "as" ++ spc () ++ pr_id x) id) ) | VernacRequire (from, exp, l) -> let from = match from with | None -> mt () | Some r -> keyword "From" ++ spc () ++ pr_module r ++ spc () in return ( hov 2 (from ++ keyword "Require" ++ spc() ++ pr_require_token exp ++ prlist_with_sep sep pr_import_module l) ) | VernacImport (f,l) -> return ( pr_export_with_cats f ++ spc() ++ prlist_with_sep sep pr_import_module l ) | VernacCanonical q -> return ( keyword "Canonical Structure" ++ spc() ++ pr_smart_global q ) | VernacCoercion (id,Some(c1,c2)) -> return ( hov 1 ( keyword "Coercion" ++ spc() ++ pr_smart_global id ++ spc() ++ str":" ++ spc() ++ pr_class_rawexpr c1 ++ spc() ++ str">->" ++ spc() ++ pr_class_rawexpr c2) ) | VernacCoercion (id,None) -> return ( hov 1 ( keyword "Coercion" ++ spc() ++ pr_smart_global id) ) | VernacIdentityCoercion (id,c1,c2) -> return ( hov 1 ( keyword "Identity Coercion" ++ spc() ++ pr_lident id ++ spc() ++ str":" ++ spc() ++ pr_class_rawexpr c1 ++ spc() ++ str">->" ++ spc() ++ pr_class_rawexpr c2) ) | VernacInstance (instid, sup, cl, props, info) -> return ( hov 1 ( keyword "Instance" ++ (match instid with | {loc; v = Name id}, l -> spc () ++ pr_ident_decl (CAst.(make ?loc id),l) ++ spc () | { v = Anonymous }, _ -> mt ()) ++ pr_and_type_binders_arg sup ++ str":" ++ spc () ++ pr_constr cl ++ pr_hint_info pr_constr_pattern_expr info ++ (match props with | Some (true, { v = CRecord l}) -> spc () ++ str":=" ++ spc () ++ pr_record_body "{" "}" pr_lconstr l | Some (true,_) -> assert false | Some (false,p) -> spc () ++ str":=" ++ spc () ++ pr_constr p | None -> mt())) ) | VernacDeclareInstance (instid, sup, cl, info) -> return ( hov 1 ( keyword "Declare Instance" ++ spc () ++ pr_ident_decl instid ++ spc () ++ pr_and_type_binders_arg sup ++ str":" ++ spc () ++ pr_constr cl ++ pr_hint_info pr_constr_pattern_expr info) ) | VernacContext l -> return ( hov 1 ( keyword "Context" ++ pr_and_type_binders_arg l) ) | VernacExistingInstance insts -> let pr_inst (id, info) = pr_qualid id ++ pr_hint_info pr_constr_pattern_expr info in return ( hov 1 (keyword "Existing" ++ spc () ++ keyword(String.plural (List.length insts) "Instance") ++ spc () ++ prlist_with_sep spc pr_inst insts) ) | VernacExistingClass id -> return ( hov 1 (keyword "Existing" ++ spc () ++ keyword "Class" ++ spc () ++ pr_qualid id) ) (* Modules and Module Types *) | VernacDefineModule (export,m,bl,tys,bd) -> let b = pr_module_binders bl pr_lconstr in return ( hov 2 (keyword "Module" ++ spc() ++ pr_require_token export ++ pr_lident m ++ b ++ pr_of_module_type pr_lconstr tys ++ (if List.is_empty bd then mt () else str ":= ") ++ prlist_with_sep (fun () -> str " <+") (pr_module_ast_inl true pr_lconstr) bd) ) | VernacDeclareModule (export,id,bl,m1) -> let b = pr_module_binders bl pr_lconstr in return ( hov 2 (keyword "Declare Module" ++ spc() ++ pr_require_token export ++ pr_lident id ++ b ++ str " :" ++ pr_module_ast_inl true pr_lconstr m1) ) | VernacDeclareModuleType (id,bl,tyl,m) -> let b = pr_module_binders bl pr_lconstr in let pr_mt = pr_module_ast_inl true pr_lconstr in return ( hov 2 (keyword "Module Type " ++ pr_lident id ++ b ++ prlist_strict (fun m -> str " <:" ++ pr_mt m) tyl ++ (if List.is_empty m then mt () else str ":= ") ++ prlist_with_sep (fun () -> str " <+ ") pr_mt m) ) | VernacInclude (mexprs) -> let pr_m = pr_module_ast_inl false pr_lconstr in return ( hov 2 (keyword "Include" ++ spc() ++ prlist_with_sep (fun () -> str " <+ ") pr_m mexprs) ) (* Auxiliary file and library management *) | VernacAddLoadPath { implicit; physical_path; logical_path } -> return ( hov 2 (keyword "Add" ++ (if implicit then spc () ++ keyword "Rec" ++ spc () else spc()) ++ keyword "LoadPath" ++ spc() ++ qs physical_path ++ spc() ++ keyword "as" ++ spc() ++ DirPath.print logical_path)) | VernacRemoveLoadPath s -> return (keyword "Remove LoadPath" ++ qs s) | VernacAddMLPath (s) -> return ( keyword "Add" ++ keyword "ML Path" ++ qs s ) | VernacDeclareMLModule (l) -> return ( hov 2 (keyword "Declare ML Module" ++ spc() ++ prlist_with_sep sep qs l) ) | VernacChdir s -> return (keyword "Cd" ++ pr_opt qs s) (* Commands *) | VernacCreateHintDb (dbname,b) -> return ( hov 1 (keyword "Create HintDb" ++ spc () ++ str dbname ++ (if b then str" discriminated" else mt ())) ) | VernacRemoveHints (dbnames, ids) -> return ( hov 1 (keyword "Remove Hints" ++ spc () ++ prlist_with_sep spc (fun r -> pr_id (coerce_reference_to_id r)) ids ++ pr_opt_hintbases dbnames) ) | VernacHints (dbnames,h) -> return (pr_hints dbnames h pr_constr pr_constr_pattern_expr) | VernacSyntacticDefinition (id,(ids,c),l) -> return ( hov 2 (keyword "Notation" ++ spc () ++ pr_lident id ++ spc () ++ prlist_with_sep spc pr_id ids ++ str":=" ++ pr_constrarg c ++ pr_syntax_modifiers l) ) | VernacArguments (q, args, more_implicits, mods) -> return ( hov 2 ( keyword "Arguments" ++ spc() ++ pr_smart_global q ++ let pr_s = function None -> str"" | Some {v=s} -> str "%" ++ str s in let pr_if b x = if b then x else str "" in let pr_one_arg (x,k) = pr_if k (str"!") ++ Name.print x in let pr_br imp force x = let left,right = match imp with | Glob_term.NonMaxImplicit -> str "[", str "]" | Glob_term.MaxImplicit -> str "{", str "}" | Glob_term.Explicit -> if force then str"(",str")" else mt(),mt() in left ++ x ++ right in let get_arguments_like s imp tl = if s = None && imp = Glob_term.Explicit then [], tl else let rec fold extra = function | RealArg arg :: tl when Option.equal (fun a b -> String.equal a.CAst.v b.CAst.v) arg.notation_scope s && arg.implicit_status = imp -> fold ((arg.name,arg.recarg_like) :: extra) tl | args -> List.rev extra, args in fold [] tl in let rec print_arguments = function | [] -> mt() | VolatileArg :: l -> spc () ++ str"/" ++ print_arguments l | BidiArg :: l -> spc () ++ str"&" ++ print_arguments l | RealArg { name = id; recarg_like = k; notation_scope = s; implicit_status = imp } :: tl -> let extra, tl = get_arguments_like s imp tl in spc() ++ hov 1 (pr_br imp (extra<>[]) (prlist_with_sep spc pr_one_arg ((id,k)::extra)) ++ pr_s s) ++ print_arguments tl in let rec print_implicits = function | [] -> mt () | (name, impl) :: rest -> spc() ++ pr_br impl false (Name.print name) ++ print_implicits rest in print_arguments args ++ if not (List.is_empty more_implicits) then prlist (fun l -> str"," ++ print_implicits l) more_implicits else (mt ()) ++ (if not (List.is_empty mods) then str" : " else str"") ++ prlist_with_sep (fun () -> str", " ++ spc()) (function | `ReductionDontExposeCase -> keyword "simpl nomatch" | `ReductionNeverUnfold -> keyword "simpl never" | `DefaultImplicits -> keyword "default implicits" | `Rename -> keyword "rename" | `Assert -> keyword "assert" | `ExtraScopes -> keyword "extra scopes" | `ClearImplicits -> keyword "clear implicits" | `ClearScopes -> keyword "clear scopes" | `ClearBidiHint -> keyword "clear bidirectionality hint") mods) ) | VernacReserve bl -> let n = List.length (List.flatten (List.map fst bl)) in return ( hov 2 (tag_keyword (str"Implicit Type" ++ str (if n > 1 then "s " else " ")) ++ pr_ne_params_list pr_lconstr_expr (List.map (fun sb -> false,sb) bl)) ) | VernacGeneralizable g -> return ( hov 1 (tag_keyword ( str"Generalizable Variable" ++ match g with | None -> str "s none" | Some [] -> str "s all" | Some idl -> str (if List.length idl > 1 then "s " else " ") ++ prlist_with_sep spc pr_lident idl) )) | VernacSetOpacity(k,l) when Conv_oracle.is_transparent k -> return ( hov 1 (keyword "Transparent" ++ spc() ++ prlist_with_sep sep pr_smart_global l) ) | VernacSetOpacity(Conv_oracle.Opaque,l) -> return ( hov 1 (keyword "Opaque" ++ spc() ++ prlist_with_sep sep pr_smart_global l) ) | VernacSetOpacity _ -> return ( CErrors.anomaly (keyword "VernacSetOpacity used to set something else.") ) | VernacSetStrategy l -> let pr_lev = function | Conv_oracle.Opaque -> keyword "opaque" | Conv_oracle.Expand -> keyword "expand" | l when Conv_oracle.is_transparent l -> keyword "transparent" | Conv_oracle.Level n -> int n in let pr_line (l,q) = hov 2 (pr_lev l ++ spc() ++ str"[" ++ prlist_with_sep sep pr_smart_global q ++ str"]") in return ( hov 1 (keyword "Strategy" ++ spc() ++ hv 0 (prlist_with_sep sep pr_line l)) ) | VernacSetOption (export, na,v) -> let export = if export then keyword "Export" ++ spc () else mt () in let set = if v == OptionUnset then "Unset" else "Set" in return ( hov 2 (export ++ keyword set ++ spc() ++ pr_set_option na v) ) | VernacAddOption (na,l) -> return ( hov 2 (keyword "Add" ++ spc() ++ pr_printoption na (Some l)) ) | VernacRemoveOption (na,l) -> return ( hov 2 (keyword "Remove" ++ spc() ++ pr_printoption na (Some l)) ) | VernacMemOption (na,l) -> return ( hov 2 (keyword "Test" ++ spc() ++ pr_printoption na (Some l)) ) | VernacPrintOption na -> return ( hov 2 (keyword "Test" ++ spc() ++ pr_printoption na None) ) | VernacCheckMayEval (r,io,c) -> let pr_mayeval r c = match r with | Some r0 -> hov 2 (keyword "Eval" ++ spc() ++ pr_red_expr r0 ++ spc() ++ keyword "in" ++ spc () ++ pr_lconstr c) | None -> hov 2 (keyword "Check" ++ spc() ++ pr_lconstr c) in let pr_i = match io with None -> mt () | Some i -> Goal_select.pr_goal_selector i ++ str ": " in return (pr_i ++ pr_mayeval r c) | VernacGlobalCheck c -> return (hov 2 (keyword "Type" ++ pr_constrarg c)) | VernacDeclareReduction (s,r) -> return ( keyword "Declare Reduction" ++ spc () ++ str s ++ str " := " ++ pr_red_expr r ) | VernacPrint p -> return (pr_printable p) | VernacSearch (sea,g,sea_r) -> return (pr_search sea g sea_r @@ pr_constr_pattern_expr) | VernacLocate loc -> let pr_locate =function | LocateAny qid -> pr_smart_global qid | LocateTerm qid -> keyword "Term" ++ spc() ++ pr_smart_global qid | LocateFile f -> keyword "File" ++ spc() ++ qs f | LocateLibrary qid -> keyword "Library" ++ spc () ++ pr_module qid | LocateModule qid -> keyword "Module" ++ spc () ++ pr_module qid | LocateOther (s, qid) -> keyword s ++ spc () ++ pr_ltac_ref qid in return (keyword "Locate" ++ spc() ++ pr_locate loc) | VernacRegister (qid, RegisterCoqlib name) -> return ( hov 2 (keyword "Register" ++ spc() ++ pr_qualid qid ++ spc () ++ str "as" ++ spc () ++ pr_qualid name) ) | VernacRegister (qid, RegisterInline) -> return ( hov 2 (keyword "Register Inline" ++ spc() ++ pr_qualid qid) ) | VernacPrimitive(id,r,typopt) -> hov 2 (keyword "Primitive" ++ spc() ++ pr_ident_decl id ++ (Option.cata (fun ty -> spc() ++ str":" ++ pr_spc_lconstr ty) (mt()) typopt) ++ spc() ++ str ":=" ++ spc() ++ str (CPrimitives.op_or_type_to_string r)) | VernacComments l -> return ( hov 2 (keyword "Comments" ++ spc() ++ prlist_with_sep sep (pr_comment pr_constr) l) ) (* For extension *) | VernacExtend (s,c) -> return (pr_extend s c) | VernacProof (None, None) -> return (keyword "Proof") | VernacProof (None, Some e) -> return (keyword "Proof " ++ spc () ++ keyword "using" ++ spc() ++ pr_using e) | VernacProof (Some te, None) -> return (keyword "Proof with" ++ spc() ++ pr_gen te) | VernacProof (Some te, Some e) -> return ( keyword "Proof" ++ spc () ++ keyword "using" ++ spc() ++ pr_using e ++ spc() ++ keyword "with" ++ spc() ++ pr_gen te ) | VernacProofMode s -> return (keyword "Proof Mode" ++ str s) | VernacBullet b -> (* XXX: Redundant with Proof_bullet.print *) return (let open Proof_bullet in begin match b with | Dash n -> str (String.make n '-') | Star n -> str (String.make n '*') | Plus n -> str (String.make n '+') end) | VernacSubproof None -> return (str "{") | VernacSubproof (Some i) -> return (Goal_select.pr_goal_selector i ++ str ":" ++ spc () ++ str "{") | VernacEndSubproof -> return (str "}") let pr_control_flag (p : control_flag) = let w = match p with | ControlTime _ -> keyword "Time" | ControlRedirect s -> keyword "Redirect" ++ spc() ++ qs s | ControlTimeout n -> keyword "Timeout " ++ int n | ControlFail -> keyword "Fail" | ControlSucceed -> keyword "Succeed" in w ++ spc () let pr_vernac_control flags = Pp.prlist pr_control_flag flags let pr_vernac_attributes = function | [] -> mt () | flags -> str "#[" ++ prlist_with_sep pr_comma Attributes.pr_vernac_flag flags ++ str "]" ++ cut () let pr_vernac ({v = {control; attrs; expr}} as v) = tag_vernac v (pr_vernac_control control ++ pr_vernac_attributes attrs ++ pr_vernac_expr expr ++ sep_end expr)