wenzelm@20894: (* Title: Pure/Isar/theory_target.ML wenzelm@20894: ID: $Id$ wenzelm@20894: Author: Makarius wenzelm@20894: wenzelm@24935: Common theory/locale/class targets. wenzelm@20894: *) wenzelm@20894: wenzelm@20894: signature THEORY_TARGET = wenzelm@20894: sig wenzelm@25012: val peek: local_theory -> {target: string, is_locale: bool, is_class: bool} wenzelm@24935: val begin: string -> Proof.context -> local_theory wenzelm@24935: val init: string option -> theory -> local_theory wenzelm@24935: val init_cmd: xstring option -> theory -> local_theory wenzelm@20894: end; wenzelm@20894: wenzelm@20894: structure TheoryTarget: THEORY_TARGET = wenzelm@20894: struct wenzelm@20894: wenzelm@21006: (* context data *) wenzelm@21006: wenzelm@25012: datatype target = Target of {target: string, is_locale: bool, is_class: bool}; wenzelm@25012: wenzelm@25012: fun make_target target is_locale is_class = wenzelm@25012: Target {target = target, is_locale = is_locale, is_class = is_class}; wenzelm@25012: wenzelm@21006: structure Data = ProofDataFun wenzelm@21006: ( wenzelm@25012: type T = target; wenzelm@25012: fun init _ = make_target "" false false; wenzelm@21006: ); wenzelm@21006: wenzelm@25012: val peek = (fn Target args => args) o Data.get; wenzelm@21006: wenzelm@21006: wenzelm@20894: (* pretty *) wenzelm@20894: wenzelm@25012: fun pretty (Target {target, is_locale, is_class}) ctxt = wenzelm@20894: let wenzelm@20894: val thy = ProofContext.theory_of ctxt; wenzelm@25012: val target_name = (if is_class then "class " else "locale ") ^ Locale.extern thy target; wenzelm@24939: wenzelm@20894: val fixes = map (fn (x, T) => (x, SOME T, NoSyn)) (#1 (ProofContext.inferred_fixes ctxt)); wenzelm@21585: val assumes = map (fn A => (("", []), [(A, [])])) (map Thm.term_of (Assumption.assms_of ctxt)); wenzelm@20894: val elems = wenzelm@20894: (if null fixes then [] else [Element.Fixes fixes]) @ wenzelm@20894: (if null assumes then [] else [Element.Assumes assumes]); wenzelm@20894: in wenzelm@24939: Pretty.block [Pretty.str "theory", Pretty.brk 1, Pretty.str (Context.theory_name thy)] :: wenzelm@25012: (if target = "" then [] wenzelm@25012: else if null elems then [Pretty.str target_name] wenzelm@25012: else [Pretty.big_list (target_name ^ " =") wenzelm@24939: (map (Pretty.chunks o Element.pretty_ctxt ctxt) elems)]) wenzelm@20894: end; wenzelm@20894: wenzelm@20894: haftmann@24838: (* target declarations *) haftmann@24838: wenzelm@25012: fun target_decl add (Target {target, ...}) d lthy = haftmann@24838: let wenzelm@24935: val d' = Morphism.transform (LocalTheory.target_morphism lthy) d; haftmann@24838: val d0 = Morphism.form d'; haftmann@24838: in wenzelm@25012: if target = "" then haftmann@24838: lthy haftmann@24838: |> LocalTheory.theory (Context.theory_map d0) haftmann@24838: |> LocalTheory.target (Context.proof_map d0) haftmann@24838: else haftmann@24838: lthy wenzelm@25012: |> LocalTheory.target (add target d') haftmann@24838: end; haftmann@24838: haftmann@24838: val type_syntax = target_decl Locale.add_type_syntax; haftmann@24838: val term_syntax = target_decl Locale.add_term_syntax; haftmann@24838: val declaration = target_decl Locale.add_declaration; haftmann@24838: wenzelm@25012: fun target_naming (Target {target, ...}) lthy = wenzelm@25012: (if target = "" then Sign.naming_of (ProofContext.theory_of lthy) haftmann@24838: else ProofContext.naming_of (LocalTheory.target_of lthy)) haftmann@24838: |> NameSpace.qualified_names; haftmann@24838: haftmann@24838: wenzelm@21611: wenzelm@20894: (* notes *) wenzelm@20894: wenzelm@21611: fun import_export_proof ctxt (name, raw_th) = wenzelm@21594: let wenzelm@21611: val thy = ProofContext.theory_of ctxt; wenzelm@21611: val thy_ctxt = ProofContext.init thy; wenzelm@21611: val certT = Thm.ctyp_of thy; wenzelm@21611: val cert = Thm.cterm_of thy; wenzelm@21594: wenzelm@21611: (*export assumes/defines*) wenzelm@21611: val th = Goal.norm_result raw_th; wenzelm@21611: val (defs, th') = LocalDefs.export ctxt thy_ctxt th; wenzelm@21708: val concl_conv = MetaSimplifier.rewrite true defs (Thm.cprop_of th); wenzelm@21708: val assms = map (MetaSimplifier.rewrite_rule defs o Thm.assume) (Assumption.assms_of ctxt); wenzelm@21611: val nprems = Thm.nprems_of th' - Thm.nprems_of th; wenzelm@21611: wenzelm@21611: (*export fixes*) wenzelm@22692: val tfrees = map TFree (Thm.fold_terms Term.add_tfrees th' []); wenzelm@22692: val frees = map Free (Thm.fold_terms Term.add_frees th' []); wenzelm@21611: val (th'' :: vs) = (th' :: map (Drule.mk_term o cert) (map Logic.mk_type tfrees @ frees)) wenzelm@21611: |> Variable.export ctxt thy_ctxt wenzelm@21611: |> Drule.zero_var_indexes_list; wenzelm@21611: wenzelm@21611: (*thm definition*) wenzelm@21644: val result = th'' wenzelm@21644: |> PureThy.name_thm true true "" wenzelm@21644: |> Goal.close_result wenzelm@24779: |> fold PureThy.tag_rule (ContextPosition.properties_of ctxt) wenzelm@21644: |> PureThy.name_thm true true name; wenzelm@21611: wenzelm@21611: (*import fixes*) wenzelm@21611: val (tvars, vars) = wenzelm@21611: chop (length tfrees) (map (Thm.term_of o Drule.dest_term) vs) wenzelm@21611: |>> map Logic.dest_type; wenzelm@21611: wenzelm@21611: val instT = map_filter (fn (TVar v, T) => SOME (v, T) | _ => NONE) (tvars ~~ tfrees); wenzelm@21611: val inst = filter (is_Var o fst) (vars ~~ frees); wenzelm@21611: val cinstT = map (pairself certT o apfst TVar) instT; wenzelm@21611: val cinst = map (pairself (cert o Term.map_types (TermSubst.instantiateT instT))) inst; wenzelm@21611: val result' = Thm.instantiate (cinstT, cinst) result; wenzelm@21611: wenzelm@21611: (*import assumes/defines*) wenzelm@21594: val assm_tac = FIRST' (map (fn assm => Tactic.compose_tac (false, assm, 0)) assms); wenzelm@21611: val result'' = wenzelm@21611: (case SINGLE (Seq.INTERVAL assm_tac 1 nprems) result' of wenzelm@21611: NONE => raise THM ("Failed to re-import result", 0, [result']) wenzelm@21845: | SOME res => LocalDefs.trans_props ctxt [res, Thm.symmetric concl_conv]) wenzelm@21644: |> Goal.norm_result wenzelm@21644: |> PureThy.name_thm false false name; wenzelm@21611: wenzelm@21611: in (result'', result) end; wenzelm@21611: wenzelm@25022: fun notes (Target {target, is_locale, ...}) kind facts lthy = wenzelm@21585: let wenzelm@21594: val thy = ProofContext.theory_of lthy; wenzelm@21615: val full = LocalTheory.full_name lthy; wenzelm@21585: wenzelm@21594: val facts' = facts wenzelm@21615: |> map (fn (a, bs) => (a, PureThy.burrow_fact (PureThy.name_multi (full (fst a))) bs)) wenzelm@21615: |> PureThy.map_facts (import_export_proof lthy); wenzelm@21611: val local_facts = PureThy.map_facts #1 facts' wenzelm@21611: |> Attrib.map_facts (Attrib.attribute_i thy); wenzelm@21611: val target_facts = PureThy.map_facts #1 facts' wenzelm@25012: |> is_locale ? Element.facts_map (Element.morph_ctxt (LocalTheory.target_morphism lthy)); wenzelm@21611: val global_facts = PureThy.map_facts #2 facts' wenzelm@25012: |> Attrib.map_facts (if is_locale then K I else Attrib.attribute_i thy); wenzelm@21594: in wenzelm@21611: lthy |> LocalTheory.theory wenzelm@21611: (Sign.qualified_names wenzelm@21611: #> PureThy.note_thmss_i kind global_facts #> snd wenzelm@21611: #> Sign.restore_naming thy) wenzelm@21585: wenzelm@25012: |> is_locale ? LocalTheory.target (Locale.add_thmss target kind target_facts) wenzelm@21594: wenzelm@20894: |> ProofContext.qualified_names wenzelm@21611: |> ProofContext.note_thmss_i kind local_facts wenzelm@20894: ||> ProofContext.restore_naming lthy wenzelm@20894: end; wenzelm@20894: wenzelm@20894: wenzelm@24939: (* consts *) wenzelm@24939: wenzelm@24939: fun target_abbrev prmode ((c, mx), rhs) phi = wenzelm@24939: let wenzelm@24939: val c' = Morphism.name phi c; wenzelm@24939: val rhs' = Morphism.term phi rhs; wenzelm@24939: val arg' = (c', rhs'); wenzelm@24939: val eq_heads = wenzelm@24939: (case pairself Term.head_of (rhs, rhs') of wenzelm@24939: (Const (a, _), Const (a', _)) => a = a' wenzelm@24939: | _ => false); wenzelm@24939: in wenzelm@24939: eq_heads ? (Context.mapping_result wenzelm@25022: (Sign.add_abbrev Syntax.internalM [] arg') wenzelm@25022: (ProofContext.add_abbrev Syntax.internalM [] arg') wenzelm@25022: #-> (fn (lhs, _) => wenzelm@25022: Type.similar_types (rhs, rhs') ? wenzelm@25022: Morphism.form (ProofContext.target_notation true prmode [(lhs, mx)]))) wenzelm@24939: end; wenzelm@24939: wenzelm@25012: fun internal_abbrev ta prmode ((c, mx), t) lthy = lthy wenzelm@24939: (* FIXME really permissive *) wenzelm@25012: |> term_syntax ta (perhaps o try o target_abbrev prmode ((c, mx), t)) wenzelm@24939: |> ProofContext.add_abbrev Syntax.internalM (ContextPosition.properties_of lthy) (c, t) wenzelm@24939: |> snd; wenzelm@24939: wenzelm@25012: fun declare_consts (ta as Target {target, is_locale, is_class}) depends decls lthy = wenzelm@24939: let wenzelm@24939: val thy = ProofContext.theory_of lthy; wenzelm@24939: val xs = filter depends (#1 (ProofContext.inferred_fixes (LocalTheory.target_of lthy))); wenzelm@24939: wenzelm@24939: fun const ((c, T), mx) thy = wenzelm@24939: let wenzelm@24939: val U = map #2 xs ---> T; wenzelm@25012: val (mx1, mx2) = Class.fork_mixfix is_locale is_class mx; wenzelm@25012: val mx3 = if is_locale then NoSyn else mx1; wenzelm@24959: val (const, thy') = Sign.declare_const (ContextPosition.properties_of lthy) (c, U, mx3) thy; wenzelm@24959: val t = Term.list_comb (const, map Free xs); wenzelm@24939: in (((c, mx2), t), thy') end; wenzelm@25022: fun const_class ((c, _), mx) (_, t) = wenzelm@25028: LocalTheory.raw_theory_result (Class.add_const_in_class target ((c, mx), t)) wenzelm@25022: #-> Class.remove_constraint target; wenzelm@24939: wenzelm@24939: val (abbrs, lthy') = lthy wenzelm@24939: |> LocalTheory.theory_result (fold_map const decls) wenzelm@24939: in wenzelm@24939: lthy' wenzelm@25022: |> is_class ? fold2 const_class decls abbrs wenzelm@25012: |> is_locale ? fold (internal_abbrev ta Syntax.mode_default) abbrs wenzelm@25028: |> fold_map (apfst (apsnd snd) oo LocalDefs.add_def) abbrs wenzelm@24939: end; wenzelm@24939: wenzelm@24939: wenzelm@24939: (* abbrev *) wenzelm@24939: wenzelm@25012: fun abbrev (ta as Target {target, is_locale, is_class}) prmode ((raw_c, mx), raw_t) lthy = wenzelm@24939: let wenzelm@24939: val thy = ProofContext.theory_of lthy; wenzelm@24939: val thy_ctxt = ProofContext.init thy; wenzelm@25012: val target_ctxt = LocalTheory.target_of lthy; wenzelm@24939: val target_morphism = LocalTheory.target_morphism lthy; wenzelm@24939: wenzelm@24939: val c = Morphism.name target_morphism raw_c; wenzelm@24939: val t = Morphism.term target_morphism raw_t; wenzelm@25022: val xs = map Free (Variable.add_fixed target_ctxt t []); wenzelm@25022: val u = fold_rev lambda xs t; wenzelm@24939: val U = Term.fastype_of u; wenzelm@25022: wenzelm@25012: val u' = singleton (Variable.export_terms (Variable.declare_term u target_ctxt) thy_ctxt) u; wenzelm@25012: val (mx1, mx2) = Class.fork_mixfix is_locale is_class mx; wenzelm@25012: val mx3 = if is_locale then NoSyn else mx1; wenzelm@25012: fun add_abbrev_in_class abbr = wenzelm@25012: LocalTheory.raw_theory_result (Class.add_abbrev_in_class target prmode abbr) wenzelm@25012: #-> Class.remove_constraint target; wenzelm@24939: in wenzelm@24939: lthy wenzelm@24939: |> LocalTheory.theory_result wenzelm@24939: (Sign.add_abbrev (#1 prmode) (ContextPosition.properties_of lthy) (c, u')) wenzelm@25022: |-> (fn (lhs, rhs) => wenzelm@24949: LocalTheory.theory (Sign.notation true prmode [(lhs, mx3)]) wenzelm@25022: #> is_locale ? internal_abbrev ta prmode ((c, mx2), Term.list_comb (lhs, xs)) wenzelm@25028: #> is_class ? add_abbrev_in_class ((c, mx1), Term.list_comb (lhs, xs))) wenzelm@25028: |> LocalDefs.add_def ((c, NoSyn), raw_t) wenzelm@24939: end; wenzelm@24939: wenzelm@24939: wenzelm@25022: (* define *) wenzelm@24939: wenzelm@25022: fun define (ta as Target {target, is_locale, is_class}) wenzelm@25012: kind ((c, mx), ((name, atts), rhs)) lthy = wenzelm@24939: let wenzelm@24987: val thy = ProofContext.theory_of lthy; wenzelm@24939: val thy_ctxt = ProofContext.init thy; wenzelm@24939: wenzelm@25022: val name' = Thm.def_name_optional c name; wenzelm@24987: val (rhs', rhs_conv) = wenzelm@24987: LocalDefs.export_cterm lthy thy_ctxt (Thm.cterm_of thy rhs) |>> Thm.term_of; wenzelm@24987: val xs = Variable.add_fixed (LocalTheory.target_of lthy) rhs' []; wenzelm@24939: val T = Term.fastype_of rhs; wenzelm@24939: wenzelm@24939: (*consts*) wenzelm@25022: val ([(lhs, local_def)], lthy2) = lthy wenzelm@25012: |> declare_consts ta (member (op =) xs) [((c, T), mx)]; wenzelm@25022: val (_, lhs') = Logic.dest_equals (Thm.prop_of local_def); wenzelm@24939: wenzelm@24939: (*def*) wenzelm@25022: val (global_def, lthy3) = lthy2 wenzelm@24983: |> LocalTheory.theory_result (Thm.add_def false (name', Logic.mk_equals (lhs', rhs'))); wenzelm@25022: val def = LocalDefs.trans_terms lthy3 wenzelm@25022: [(*c == global.c xs*) local_def, wenzelm@25022: (*global.c xs == rhs'*) global_def, wenzelm@25022: (*rhs' == rhs*) Thm.symmetric rhs_conv]; wenzelm@24939: wenzelm@24939: (*notes*) wenzelm@24939: val ([(res_name, [res])], lthy4) = lthy3 wenzelm@25022: |> notes ta kind [((name', atts), [([def], [])])]; wenzelm@24939: in ((lhs, (res_name, res)), lthy4) end; wenzelm@24939: wenzelm@24939: wenzelm@24939: (* axioms *) wenzelm@24939: wenzelm@25022: fun axioms ta kind (vars, specs) lthy = wenzelm@24939: let wenzelm@25022: val thy_ctxt = ProofContext.init (ProofContext.theory_of lthy); wenzelm@25022: val expanded_props = map (Assumption.export_term lthy thy_ctxt) (maps snd specs); wenzelm@25022: val xs = fold Term.add_frees expanded_props []; wenzelm@24989: wenzelm@25022: (*consts*) wenzelm@25022: val (consts, lthy') = declare_consts ta (member (op =) xs) vars lthy; wenzelm@25022: val global_consts = map (Term.dest_Const o Term.head_of o Thm.term_of o Thm.rhs_of o #2) consts; wenzelm@25022: wenzelm@25022: (*axioms*) wenzelm@24989: val hyps = map Thm.term_of (Assumption.assms_of lthy'); wenzelm@24939: fun axiom ((name, atts), props) thy = thy wenzelm@24983: |> fold_map (Thm.add_axiom hyps) (PureThy.name_multi name props) wenzelm@24939: |-> (fn ths => pair ((name, atts), [(ths, [])])); wenzelm@24939: in wenzelm@24987: lthy' wenzelm@25022: |> fold Variable.declare_term expanded_props wenzelm@25022: |> LocalTheory.theory (fold (fn c => Theory.add_deps "" c []) global_consts) wenzelm@24939: |> LocalTheory.theory_result (fold_map axiom specs) wenzelm@25022: |-> notes ta kind wenzelm@24987: |>> pair (map #1 consts) wenzelm@24939: end; wenzelm@24939: wenzelm@24939: wenzelm@20894: (* init and exit *) wenzelm@20894: wenzelm@25012: fun begin target ctxt = haftmann@22353: let haftmann@22353: val thy = ProofContext.theory_of ctxt; wenzelm@25012: val is_locale = target <> ""; wenzelm@25028: val is_class = Class.is_class thy target; wenzelm@25012: val ta = Target {target = target, is_locale = is_locale, is_class = is_class}; haftmann@22353: in haftmann@22353: ctxt wenzelm@25012: |> Data.put ta wenzelm@25012: |> is_class ? Class.init target wenzelm@25012: |> LocalTheory.init (NameSpace.base target) wenzelm@25012: {pretty = pretty ta, wenzelm@25022: axioms = axioms ta, wenzelm@25012: abbrev = abbrev ta, wenzelm@25022: define = define ta, wenzelm@25022: notes = notes ta, wenzelm@25012: type_syntax = type_syntax ta, wenzelm@25012: term_syntax = term_syntax ta, wenzelm@25012: declaration = declaration ta, wenzelm@25012: target_naming = target_naming ta, wenzelm@21804: reinit = fn _ => wenzelm@25028: begin target o (if is_locale then Locale.init target else ProofContext.init), wenzelm@24935: exit = LocalTheory.target_of} wenzelm@21747: end; wenzelm@20894: wenzelm@24935: fun init NONE thy = begin "" (ProofContext.init thy) wenzelm@25012: | init (SOME target) thy = begin target (Locale.init target thy); wenzelm@20894: wenzelm@24935: fun init_cmd (SOME "-") thy = init NONE thy wenzelm@25012: | init_cmd target thy = init (Option.map (Locale.intern thy) target) thy; wenzelm@20894: wenzelm@20894: end;