src/Pure/Isar/method.ML
author wenzelm
Fri Nov 09 00:16:52 2001 +0100 (2001-11-09)
changeset 12119 fab22bdb1496
parent 12055 a9c44895cc8c
child 12144 f84eb7334d04
permissions -rw-r--r--
added impose_hyps_tac;
robustify insts of tactic emulations;
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(*  Title:      Pure/Isar/method.ML
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    ID:         $Id$
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    Author:     Markus Wenzel, TU Muenchen
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    License:    GPL (GNU GENERAL PUBLIC LICENSE)
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Proof methods.
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*)
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signature BASIC_METHOD =
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sig
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  val trace_rules: bool ref
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  val print_methods: theory -> unit
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  val Method: bstring -> (Args.src -> Proof.context -> Proof.method) -> string -> unit
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end;
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signature METHOD =
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sig
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  include BASIC_METHOD
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  val trace: Proof.context -> thm list -> unit
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  val print_global_rules: theory -> unit
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  val print_local_rules: Proof.context -> unit
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  val dest_global: theory attribute
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  val elim_global: theory attribute
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  val intro_global: theory attribute
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  val dest_bang_global: theory attribute
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  val elim_bang_global: theory attribute
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  val intro_bang_global: theory attribute
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  val rule_del_global: theory attribute
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  val dest_local: Proof.context attribute
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  val elim_local: Proof.context attribute
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  val intro_local: Proof.context attribute
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  val dest_bang_local: Proof.context attribute
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  val elim_bang_local: Proof.context attribute
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  val intro_bang_local: Proof.context attribute
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  val rule_del_local: Proof.context attribute
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  val METHOD: (thm list -> tactic) -> Proof.method
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  val METHOD_CASES:
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    (thm list -> thm -> (thm * (string * RuleCases.T) list) Seq.seq) -> Proof.method
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  val SIMPLE_METHOD: tactic -> Proof.method
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  val SIMPLE_METHOD': ((int -> tactic) -> tactic) -> (int -> tactic) -> Proof.method
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  val fail: Proof.method
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  val succeed: Proof.method
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  val defer: int option -> Proof.method
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  val prefer: int -> Proof.method
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  val insert_tac: thm list -> int -> tactic
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  val insert: thm list -> Proof.method
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  val insert_facts: Proof.method
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  val unfold: thm list -> Proof.method
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  val fold: thm list -> Proof.method
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  val multi_resolve: thm list -> thm -> thm Seq.seq
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  val multi_resolves: thm list -> thm list -> thm Seq.seq
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  val rule_tac: thm list -> thm list -> int -> tactic
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  val some_rule_tac: thm list -> Proof.context -> thm list -> int -> tactic
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  val rule: thm list -> Proof.method
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  val erule: int -> thm list -> Proof.method
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  val drule: int -> thm list -> Proof.method
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  val frule: int -> thm list -> Proof.method
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  val this: Proof.method
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  val assumption: Proof.context -> Proof.method
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  val impose_hyps_tac: Proof.context -> tactic
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  val set_tactic: (Proof.context -> thm list -> tactic) -> unit
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  val tactic: string -> Proof.context -> Proof.method
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  exception METHOD_FAIL of (string * Position.T) * exn
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  val method: theory -> Args.src -> Proof.context -> Proof.method
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  val add_method: bstring * (Args.src -> Proof.context -> Proof.method) * string
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    -> theory -> theory
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  val add_methods: (bstring * (Args.src -> Proof.context -> Proof.method) * string) list
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    -> theory -> theory
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  val syntax: (Proof.context * Args.T list -> 'a * (Proof.context * Args.T list)) ->
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    Args.src -> Proof.context -> Proof.context * 'a
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  val simple_args: (Args.T list -> 'a * Args.T list)
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    -> ('a -> Proof.context -> Proof.method) -> Args.src -> Proof.context -> Proof.method
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  val ctxt_args: (Proof.context -> Proof.method) -> Args.src -> Proof.context -> Proof.method
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  val no_args: Proof.method -> Args.src -> Proof.context -> Proof.method
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  type modifier
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  val sectioned_args: (Proof.context * Args.T list -> 'a * (Proof.context * Args.T list)) ->
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    (Args.T list -> modifier * Args.T list) list ->
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    ('a -> Proof.context -> 'b) -> Args.src -> Proof.context -> 'b
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  val bang_sectioned_args:
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    (Args.T list -> modifier * Args.T list) list ->
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    (thm list -> Proof.context -> 'a) -> Args.src -> Proof.context -> 'a
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  val bang_sectioned_args':
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    (Args.T list -> modifier * Args.T list) list ->
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    (Proof.context * Args.T list -> 'a * (Proof.context * Args.T list)) ->
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    ('a -> thm list -> Proof.context -> 'b) -> Args.src -> Proof.context -> 'b
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  val only_sectioned_args:
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    (Args.T list -> modifier * Args.T list) list ->
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    (Proof.context -> 'a) -> Args.src -> Proof.context -> 'a
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  val thms_ctxt_args: (thm list -> Proof.context -> 'a) -> Args.src -> Proof.context -> 'a
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  val thms_args: (thm list -> 'a) -> Args.src -> Proof.context -> 'a
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  val thm_args: (thm -> 'a) -> Args.src -> Proof.context -> 'a
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  datatype text =
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    Basic of (Proof.context -> Proof.method) |
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    Source of Args.src |
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    Then of text list |
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    Orelse of text list |
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    Try of text |
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    Repeat1 of text
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  val refine: text -> Proof.state -> Proof.state Seq.seq
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  val refine_end: text -> Proof.state -> Proof.state Seq.seq
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  val proof: text option -> Proof.state -> Proof.state Seq.seq
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  val local_qed: bool -> text option
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    -> (Proof.context -> {kind: string, name: string, thm: thm} -> unit) *
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      (Proof.context -> thm -> unit) -> Proof.state -> Proof.state Seq.seq
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  val local_terminal_proof: text * text option
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    -> (Proof.context -> {kind: string, name: string, thm: thm} -> unit) *
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      (Proof.context -> thm -> unit) -> Proof.state -> Proof.state Seq.seq
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  val local_default_proof: (Proof.context -> {kind: string, name: string, thm: thm} -> unit) *
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    (Proof.context -> thm -> unit) -> Proof.state -> Proof.state Seq.seq
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  val local_immediate_proof: (Proof.context -> {kind: string, name: string, thm: thm} -> unit) *
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    (Proof.context -> thm -> unit) -> Proof.state -> Proof.state Seq.seq
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  val local_done_proof: (Proof.context -> {kind: string, name: string, thm: thm} -> unit) *
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    (Proof.context -> thm -> unit) -> Proof.state -> Proof.state Seq.seq
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  val global_qed: bool -> text option
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    -> Proof.state -> theory * {kind: string, name: string, thm: thm}
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  val global_terminal_proof: text * text option
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    -> Proof.state -> theory * {kind: string, name: string, thm: thm}
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  val global_default_proof: Proof.state -> theory * {kind: string, name: string, thm: thm}
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  val global_immediate_proof: Proof.state -> theory * {kind: string, name: string, thm: thm}
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  val global_done_proof: Proof.state -> theory * {kind: string, name: string, thm: thm}
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  val goal_args: (Args.T list -> 'a * Args.T list) -> ('a -> int -> tactic)
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    -> Args.src -> Proof.context -> Proof.method
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  val goal_args': (Proof.context * Args.T list -> 'a * (Proof.context * Args.T list))
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    -> ('a -> int -> tactic) -> Args.src -> Proof.context -> Proof.method
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  val setup: (theory -> theory) list
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end;
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structure Method: METHOD =
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struct
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(** tracing *)
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val trace_rules = ref false;
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fun trace ctxt rules =
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  if not (! trace_rules) orelse null rules then ()
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  else Pretty.writeln (Pretty.big_list "rules:" (map (ProofContext.pretty_thm ctxt) rules));
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(** global and local rule data **)
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val intro_bangK = 0;
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val elim_bangK = 1;
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val introK = 2;
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val elimK = 3;
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local
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fun kind_name 0 = "safe introduction rules (intro!)"
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  | kind_name 1 = "safe elimination rules (elim!)"
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  | kind_name 2 = "introduction rules (intro)"
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  | kind_name 3 = "elimination rules (elim)"
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  | kind_name _ = "unknown";
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fun prt_rules prt x (k, rs) =
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  Pretty.writeln (Pretty.big_list (kind_name k ^ ":") (map (prt x) (NetRules.rules rs)));
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in
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  fun print_rules prt x rules = seq (prt_rules prt x) (0 upto length rules - 1 ~~ rules);
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end;
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(* theory data kind 'Isar/rules' *)
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structure GlobalRulesArgs =
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struct
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  val name = "Isar/rules";
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  type T = thm NetRules.T list;
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  val empty = [NetRules.intro, NetRules.elim, NetRules.intro, NetRules.elim];
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  val copy = I;
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  val finish = I;
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  val prep_ext = I;
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  fun merge x = map2 NetRules.merge x;
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  val print = print_rules Display.pretty_thm_sg;
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end;
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structure GlobalRules = TheoryDataFun(GlobalRulesArgs);
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val print_global_rules = GlobalRules.print;
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(* proof data kind 'Isar/rules' *)
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structure LocalRulesArgs =
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struct
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  val name = GlobalRulesArgs.name;
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  type T = GlobalRulesArgs.T;
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  val init = GlobalRules.get;
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  val print = print_rules ProofContext.pretty_thm;
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end;
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structure LocalRules = ProofDataFun(LocalRulesArgs);
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val print_local_rules = LocalRules.print;
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(** attributes **)
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(* add rules *)
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local
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fun add_rule k view th = Library.map_nth_elem k (NetRules.insert (view th));
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val add_intro      = add_rule introK I;
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val add_elim       = add_rule elimK I;
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val add_dest       = add_rule elimK Tactic.make_elim;
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val add_intro_bang = add_rule intro_bangK I;
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val add_elim_bang  = add_rule elim_bangK I;
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val add_dest_bang  = add_rule elim_bangK Tactic.make_elim;
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fun del_rule th = map (NetRules.delete th o NetRules.delete (Tactic.make_elim th));
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fun mk_att f g (x, th) = (f (g th) x, th);
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in
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val dest_global = mk_att GlobalRules.map add_dest;
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val elim_global = mk_att GlobalRules.map add_elim;
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val intro_global = mk_att GlobalRules.map add_intro;
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val dest_bang_global = mk_att GlobalRules.map add_dest_bang;
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val elim_bang_global = mk_att GlobalRules.map add_elim_bang;
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val intro_bang_global = mk_att GlobalRules.map add_intro_bang;
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val rule_del_global = mk_att GlobalRules.map del_rule;
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val dest_local = mk_att LocalRules.map add_dest;
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val elim_local = mk_att LocalRules.map add_elim;
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val intro_local = mk_att LocalRules.map add_intro;
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val dest_bang_local = mk_att LocalRules.map add_dest_bang;
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val elim_bang_local = mk_att LocalRules.map add_elim_bang;
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val intro_bang_local = mk_att LocalRules.map add_intro_bang;
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val rule_del_local = mk_att LocalRules.map del_rule;
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fun del_args att = Attrib.syntax (Scan.lift Args.del >> K att);
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end;
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(* concrete syntax *)
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val rule_atts =
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 [("dest",
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   (Attrib.bang_args dest_bang_global dest_global,
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    Attrib.bang_args dest_bang_local dest_local),
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    "declaration of destruction rule"),
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  ("elim",
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   (Attrib.bang_args elim_bang_global elim_global,
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    Attrib.bang_args elim_bang_local elim_local),
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    "declaration of elimination rule"),
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  ("intro",
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   (Attrib.bang_args intro_bang_global intro_global,
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    Attrib.bang_args intro_bang_local intro_local),
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    "declaration of introduction rule"),
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  ("rule", (del_args rule_del_global, del_args rule_del_local),
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    "remove declaration of elim/intro rule")];
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(** proof methods **)
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(* make methods *)
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val METHOD = Proof.method;
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val METHOD_CASES = Proof.method_cases;
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(* primitive *)
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val fail = METHOD (K no_tac);
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val succeed = METHOD (K all_tac);
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(* shuffle *)
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fun prefer i = METHOD (K (Tactic.defer_tac i THEN PRIMITIVE (Thm.permute_prems 0 ~1)));
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fun defer opt_i = METHOD (K (Tactic.defer_tac (if_none opt_i 1)));
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(* insert *)
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local
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fun cut_rule_tac raw_rule =
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  let
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    val rule = Drule.forall_intr_vars raw_rule;
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    val revcut_rl = Drule.incr_indexes_wrt [] [] [] [rule] Drule.revcut_rl;
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  in Tactic.rtac (rule COMP revcut_rl) end;
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in
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fun insert_tac [] i = all_tac
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  | insert_tac facts i = EVERY (map (fn th => cut_rule_tac th i) facts);
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val insert_facts = METHOD (ALLGOALS o insert_tac);
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fun insert thms = METHOD (fn _ => ALLGOALS (insert_tac thms));
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end;
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(* simple methods *)
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fun SIMPLE_METHOD tac = METHOD (fn facts => ALLGOALS (insert_tac facts) THEN tac);
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fun SIMPLE_METHOD' quant tac = METHOD (fn facts => quant (insert_tac facts THEN' tac));
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(* unfold / fold definitions *)
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fun unfold thms = SIMPLE_METHOD (CHANGED_PROP (rewrite_goals_tac thms));
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fun fold thms = SIMPLE_METHOD (CHANGED_PROP (fold_goals_tac thms));
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(* multi_resolve *)
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local
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fun res th i rule =
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  Thm.biresolution false [(false, th)] i rule handle THM _ => Seq.empty;
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fun multi_res _ [] rule = Seq.single rule
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  | multi_res i (th :: ths) rule = Seq.flat (Seq.map (res th i) (multi_res (i + 1) ths rule));
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in
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val multi_resolve = multi_res 1;
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fun multi_resolves facts rules = Seq.flat (Seq.map (multi_resolve facts) (Seq.of_list rules));
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end;
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   332
(* basic rules *)
wenzelm@8372
   333
wenzelm@7419
   334
local
wenzelm@5824
   335
wenzelm@10541
   336
fun gen_rule_tac tac rules [] i st = tac rules i st
wenzelm@10541
   337
  | gen_rule_tac tac erules facts i st =
wenzelm@10541
   338
      Seq.flat (Seq.map (fn rule => (tac o single) rule i st) (multi_resolves facts erules));
wenzelm@7130
   339
wenzelm@10744
   340
fun gen_arule_tac tac j rules facts =
wenzelm@10744
   341
  EVERY' (gen_rule_tac tac rules facts :: replicate j Tactic.assume_tac);
wenzelm@10744
   342
wenzelm@11785
   343
fun find_erules [] _ = []
wenzelm@11785
   344
  | find_erules (fact :: _) rs =
wenzelm@11785
   345
      NetRules.retrieve rs (Logic.strip_assums_concl (#prop (Thm.rep_thm fact)));
wenzelm@11785
   346
wenzelm@11785
   347
fun find_rules goal rs = NetRules.retrieve rs (Logic.strip_assums_concl goal);
wenzelm@11785
   348
wenzelm@11785
   349
fun gen_some_rule_tac tac arg_rules ctxt facts = SUBGOAL (fn (goal, i) =>
wenzelm@11785
   350
  let
wenzelm@11785
   351
    fun get k = nth_elem (k, LocalRules.get ctxt);
wenzelm@11785
   352
    val rules =
wenzelm@11785
   353
      if not (null arg_rules) then arg_rules
wenzelm@11785
   354
      else find_erules facts (get elim_bangK) @ find_erules facts (get elimK) @
wenzelm@11785
   355
        find_rules goal (get intro_bangK) @ find_rules goal (get introK);
wenzelm@12055
   356
  in trace ctxt rules; tac rules facts i end);
wenzelm@10309
   357
wenzelm@10744
   358
fun meth tac x = METHOD (HEADGOAL o tac x);
wenzelm@10744
   359
fun meth' tac x y = METHOD (HEADGOAL o tac x y);
wenzelm@8220
   360
wenzelm@7419
   361
in
wenzelm@7419
   362
wenzelm@10744
   363
val rule_tac = gen_rule_tac Tactic.resolve_tac;
wenzelm@10744
   364
val rule = meth rule_tac;
wenzelm@10744
   365
val some_rule_tac = gen_some_rule_tac rule_tac;
wenzelm@10744
   366
val some_rule = meth' some_rule_tac;
wenzelm@10744
   367
wenzelm@10744
   368
val erule = meth' (gen_arule_tac Tactic.eresolve_tac);
wenzelm@10744
   369
val drule = meth' (gen_arule_tac Tactic.dresolve_tac);
wenzelm@10744
   370
val frule = meth' (gen_arule_tac Tactic.forward_tac);
wenzelm@5824
   371
wenzelm@7419
   372
end;
wenzelm@7419
   373
wenzelm@7419
   374
wenzelm@8195
   375
(* this *)
wenzelm@8195
   376
wenzelm@8671
   377
val this = METHOD (EVERY o map (HEADGOAL o Tactic.rtac));
wenzelm@8195
   378
wenzelm@8195
   379
wenzelm@8195
   380
(* assumption *)
wenzelm@7555
   381
wenzelm@10378
   382
fun asm_tac ths =
wenzelm@10378
   383
  foldr (op APPEND') (map (fn th => Tactic.rtac th THEN_ALL_NEW assume_tac) ths, K no_tac);
wenzelm@10378
   384
wenzelm@10405
   385
fun assm_tac ctxt =
wenzelm@10405
   386
  assume_tac APPEND'
wenzelm@10405
   387
  asm_tac (ProofContext.prems_of ctxt) APPEND'
wenzelm@10405
   388
  Tactic.rtac Drule.reflexive_thm;
wenzelm@7419
   389
wenzelm@7555
   390
fun assumption_tac ctxt [] = assm_tac ctxt
wenzelm@10378
   391
  | assumption_tac _ [fact] = asm_tac [fact]
wenzelm@7555
   392
  | assumption_tac _ _ = K no_tac;
wenzelm@7419
   393
wenzelm@8671
   394
fun assumption ctxt = METHOD (HEADGOAL o assumption_tac ctxt);
wenzelm@7419
   395
wenzelm@7419
   396
wenzelm@9539
   397
(* res_inst_tac etc. *)
wenzelm@8238
   398
wenzelm@12119
   399
(*robustify instantiation by imposing (part of) the present static context*)
wenzelm@12119
   400
val impose_hyps_tac =
wenzelm@12119
   401
  PRIMITIVE o Drule.impose_hyps o flat o map #1 o ProofContext.assumptions_of;
wenzelm@12119
   402
wenzelm@9539
   403
(*Note: insts refer to the implicit (!!) goal context; use at your own risk*)
wenzelm@12119
   404
fun gen_res_inst _ tac _ (quant, ([], thms)) =
wenzelm@9565
   405
      METHOD (fn facts => (quant (insert_tac facts THEN' tac thms)))
wenzelm@12119
   406
  | gen_res_inst tac _ ctxt (quant, (insts, [thm])) =
wenzelm@12119
   407
      METHOD (fn facts => (impose_hyps_tac ctxt THEN quant (insert_tac facts THEN' tac insts thm)))
wenzelm@12119
   408
  | gen_res_inst _ _ _ _ = error "Cannot have instantiations with multiple rules";
wenzelm@8238
   409
wenzelm@9565
   410
val res_inst = gen_res_inst Tactic.res_inst_tac Tactic.resolve_tac;
wenzelm@9565
   411
val eres_inst = gen_res_inst Tactic.eres_inst_tac Tactic.eresolve_tac;
wenzelm@9565
   412
val dres_inst = gen_res_inst Tactic.dres_inst_tac Tactic.dresolve_tac;
wenzelm@9565
   413
val forw_inst = gen_res_inst Tactic.forw_inst_tac Tactic.forward_tac;
wenzelm@9565
   414
val cut_inst = gen_res_inst Tactic.cut_inst_tac Tactic.cut_facts_tac;
wenzelm@8238
   415
wenzelm@8238
   416
wenzelm@8329
   417
(* simple Prolog interpreter *)
wenzelm@8329
   418
wenzelm@8329
   419
fun prolog_tac rules facts =
wenzelm@8329
   420
  DEPTH_SOLVE_1 (HEADGOAL (Tactic.assume_tac APPEND' Tactic.resolve_tac (facts @ rules)));
wenzelm@8329
   421
wenzelm@8329
   422
val prolog = METHOD o prolog_tac;
wenzelm@8329
   423
wenzelm@8329
   424
wenzelm@8351
   425
(* ML tactics *)
wenzelm@8351
   426
wenzelm@8351
   427
val tactic_ref = ref ((fn _ => raise Match): Proof.context -> thm list -> tactic);
wenzelm@8351
   428
fun set_tactic f = tactic_ref := f;
wenzelm@8351
   429
wenzelm@8351
   430
fun tactic txt ctxt = METHOD (fn facts =>
wenzelm@9631
   431
  (Context.use_mltext
wenzelm@9631
   432
    ("let fun tactic (ctxt: PureIsar.Proof.context) (facts: thm list) : tactic = \
wenzelm@9631
   433
     \let val thm = PureIsar.ProofContext.get_thm_closure ctxt\n\
wenzelm@9631
   434
     \  and thms = PureIsar.ProofContext.get_thms_closure ctxt in\n"
wenzelm@9631
   435
     ^ txt ^
wenzelm@9631
   436
     "\nend in PureIsar.Method.set_tactic tactic end")
wenzelm@9631
   437
    false None;
wenzelm@9631
   438
    Context.setmp (Some (ProofContext.theory_of ctxt)) (! tactic_ref ctxt) facts));
wenzelm@8351
   439
wenzelm@8351
   440
wenzelm@5824
   441
wenzelm@5824
   442
(** methods theory data **)
wenzelm@5824
   443
wenzelm@5824
   444
(* data kind 'Isar/methods' *)
wenzelm@5824
   445
wenzelm@5824
   446
structure MethodsDataArgs =
wenzelm@5824
   447
struct
wenzelm@5824
   448
  val name = "Isar/methods";
wenzelm@5824
   449
  type T =
wenzelm@5824
   450
    {space: NameSpace.T,
wenzelm@5824
   451
     meths: (((Args.src -> Proof.context -> Proof.method) * string) * stamp) Symtab.table};
wenzelm@5824
   452
wenzelm@5824
   453
  val empty = {space = NameSpace.empty, meths = Symtab.empty};
wenzelm@6546
   454
  val copy = I;
wenzelm@12119
   455
  val finish = I;
wenzelm@5824
   456
  val prep_ext = I;
wenzelm@5824
   457
  fun merge ({space = space1, meths = meths1}, {space = space2, meths = meths2}) =
wenzelm@5824
   458
    {space = NameSpace.merge (space1, space2),
wenzelm@5824
   459
      meths = Symtab.merge eq_snd (meths1, meths2) handle Symtab.DUPS dups =>
wenzelm@5824
   460
        error ("Attempt to merge different versions of methods " ^ commas_quote dups)};
wenzelm@5824
   461
wenzelm@9222
   462
  fun print _ {space, meths} =
wenzelm@5824
   463
    let
wenzelm@5824
   464
      fun prt_meth (name, ((_, comment), _)) = Pretty.block
wenzelm@6849
   465
        [Pretty.str (name ^ ":"), Pretty.brk 2, Pretty.str comment];
wenzelm@5824
   466
    in
wenzelm@8720
   467
      [Pretty.big_list "methods:" (map prt_meth (NameSpace.cond_extern_table space meths))]
wenzelm@9222
   468
      |> Pretty.chunks |> Pretty.writeln
wenzelm@5824
   469
    end;
wenzelm@5824
   470
end;
wenzelm@5824
   471
wenzelm@5824
   472
structure MethodsData = TheoryDataFun(MethodsDataArgs);
wenzelm@5824
   473
val print_methods = MethodsData.print;
wenzelm@7611
   474
wenzelm@5824
   475
wenzelm@5824
   476
(* get methods *)
wenzelm@5824
   477
wenzelm@5916
   478
exception METHOD_FAIL of (string * Position.T) * exn;
wenzelm@5916
   479
wenzelm@5824
   480
fun method thy =
wenzelm@5824
   481
  let
wenzelm@5824
   482
    val {space, meths} = MethodsData.get thy;
wenzelm@5824
   483
wenzelm@5884
   484
    fun meth src =
wenzelm@5884
   485
      let
wenzelm@5884
   486
        val ((raw_name, _), pos) = Args.dest_src src;
wenzelm@5884
   487
        val name = NameSpace.intern space raw_name;
wenzelm@5884
   488
      in
wenzelm@5824
   489
        (case Symtab.lookup (meths, name) of
wenzelm@5824
   490
          None => error ("Unknown proof method: " ^ quote name ^ Position.str_of pos)
wenzelm@5916
   491
        | Some ((mth, _), _) => transform_failure (curry METHOD_FAIL (name, pos)) (mth src))
wenzelm@5824
   492
      end;
wenzelm@5824
   493
  in meth end;
wenzelm@5824
   494
wenzelm@5824
   495
wenzelm@9194
   496
(* add_method(s) *)
wenzelm@5824
   497
wenzelm@5824
   498
fun add_methods raw_meths thy =
wenzelm@5824
   499
  let
wenzelm@5824
   500
    val full = Sign.full_name (Theory.sign_of thy);
wenzelm@5824
   501
    val new_meths =
wenzelm@5824
   502
      map (fn (name, f, comment) => (full name, ((f, comment), stamp ()))) raw_meths;
wenzelm@5824
   503
wenzelm@5824
   504
    val {space, meths} = MethodsData.get thy;
wenzelm@5824
   505
    val space' = NameSpace.extend (space, map fst new_meths);
wenzelm@5824
   506
    val meths' = Symtab.extend (meths, new_meths) handle Symtab.DUPS dups =>
wenzelm@5824
   507
      error ("Duplicate declaration of method(s) " ^ commas_quote dups);
wenzelm@5824
   508
  in
wenzelm@5824
   509
    thy |> MethodsData.put {space = space', meths = meths'}
wenzelm@5824
   510
  end;
wenzelm@5824
   511
wenzelm@9194
   512
val add_method = add_methods o Library.single;
wenzelm@9194
   513
wenzelm@5824
   514
(*implicit version*)
wenzelm@5824
   515
fun Method name meth cmt = Context.>> (add_methods [(name, meth, cmt)]);
wenzelm@5824
   516
wenzelm@5824
   517
wenzelm@5884
   518
wenzelm@5884
   519
(** method syntax **)
wenzelm@5824
   520
wenzelm@5884
   521
(* basic *)
wenzelm@5884
   522
wenzelm@5884
   523
fun syntax (scan: (Proof.context * Args.T list -> 'a * (Proof.context * Args.T list))) =
wenzelm@5884
   524
  Args.syntax "method" scan;
wenzelm@5824
   525
wenzelm@8351
   526
fun simple_args scan f src ctxt : Proof.method =
wenzelm@8351
   527
  #2 (syntax (Scan.lift (scan >> (fn x => f x ctxt))) src ctxt);
wenzelm@8351
   528
wenzelm@7555
   529
fun ctxt_args (f: Proof.context -> Proof.method) src ctxt =
wenzelm@8282
   530
  #2 (syntax (Scan.succeed (f ctxt)) src ctxt);
wenzelm@7555
   531
wenzelm@7555
   532
fun no_args m = ctxt_args (K m);
wenzelm@5884
   533
wenzelm@5884
   534
wenzelm@5884
   535
(* sections *)
wenzelm@5824
   536
wenzelm@7268
   537
type modifier = (Proof.context -> Proof.context) * Proof.context attribute;
wenzelm@7268
   538
wenzelm@7268
   539
local
wenzelm@7268
   540
wenzelm@8381
   541
fun sect ss = Scan.first (map Scan.lift ss);
wenzelm@5884
   542
fun thms ss = Scan.unless (sect ss) Attrib.local_thms;
wenzelm@5884
   543
fun thmss ss = Scan.repeat (thms ss) >> flat;
wenzelm@5884
   544
wenzelm@7268
   545
fun apply (f, att) (ctxt, ths) = Thm.applys_attributes ((f ctxt, ths), [att]);
wenzelm@5824
   546
wenzelm@7268
   547
fun section ss = (sect ss -- thmss ss) :-- (fn (m, ths) => Scan.depend (fn ctxt =>
wenzelm@7268
   548
  Scan.succeed (apply m (ctxt, ths)))) >> #2;
wenzelm@5884
   549
wenzelm@7601
   550
fun sectioned args ss = args -- Scan.repeat (section ss);
wenzelm@5884
   551
wenzelm@7268
   552
in
wenzelm@5824
   553
wenzelm@5884
   554
fun sectioned_args args ss f src ctxt =
wenzelm@8282
   555
  let val (ctxt', (x, _)) = syntax (sectioned args ss) src ctxt
wenzelm@5921
   556
  in f x ctxt' end;
wenzelm@5884
   557
wenzelm@7601
   558
fun bang_sectioned_args ss f = sectioned_args Args.bang_facts ss f;
wenzelm@9777
   559
fun bang_sectioned_args' ss scan f =
wenzelm@9777
   560
  sectioned_args (Args.bang_facts -- scan >> swap) ss (uncurry f);
wenzelm@7601
   561
fun only_sectioned_args ss f = sectioned_args (Scan.succeed ()) ss (fn () => f);
wenzelm@7268
   562
wenzelm@8093
   563
fun thms_ctxt_args f = sectioned_args (thmss []) [] f;
wenzelm@8093
   564
fun thms_args f = thms_ctxt_args (K o f);
wenzelm@9706
   565
fun thm_args f = thms_args (fn [thm] => f thm | _ => error "Single theorem expected");
wenzelm@5824
   566
wenzelm@7268
   567
end;
wenzelm@7268
   568
wenzelm@5824
   569
wenzelm@9539
   570
(* tactic syntax *)
wenzelm@8238
   571
wenzelm@10744
   572
fun nat_thms_args f = uncurry f oo
wenzelm@10744
   573
  (#2 oo syntax (Scan.lift (Scan.optional (Args.parens Args.nat) 0) -- Attrib.local_thmss));
wenzelm@10744
   574
wenzelm@8238
   575
val insts =
wenzelm@9539
   576
  Scan.optional
wenzelm@9565
   577
    (Args.enum1 "and" (Scan.lift (Args.name -- (Args.$$$ "=" |-- Args.!!! Args.name))) --|
wenzelm@9565
   578
      Scan.lift (Args.$$$ "in")) [] -- Attrib.local_thmss;
wenzelm@8238
   579
wenzelm@12119
   580
fun inst_args f src ctxt = f ctxt (#2 (syntax (Args.goal_spec HEADGOAL -- insts) src ctxt));
wenzelm@8537
   581
wenzelm@8537
   582
wenzelm@12119
   583
fun goal_args' args tac src ctxt = #2 (syntax (Args.goal_spec HEADGOAL -- args >>
wenzelm@12119
   584
  (fn (quant, s) => SIMPLE_METHOD' quant (K (impose_hyps_tac ctxt) THEN' tac s))) src ctxt);
wenzelm@8537
   585
wenzelm@9539
   586
fun goal_args args tac = goal_args' (Scan.lift args) tac;
wenzelm@8238
   587
wenzelm@8238
   588
wenzelm@5824
   589
wenzelm@5824
   590
(** method text **)
wenzelm@5824
   591
wenzelm@5824
   592
(* datatype text *)
wenzelm@5824
   593
wenzelm@5824
   594
datatype text =
wenzelm@5824
   595
  Basic of (Proof.context -> Proof.method) |
wenzelm@5824
   596
  Source of Args.src |
wenzelm@5824
   597
  Then of text list |
wenzelm@5824
   598
  Orelse of text list |
wenzelm@5824
   599
  Try of text |
wenzelm@5824
   600
  Repeat1 of text;
wenzelm@5824
   601
wenzelm@5824
   602
wenzelm@5824
   603
(* refine *)
wenzelm@5824
   604
wenzelm@8238
   605
fun gen_refine f text state =
wenzelm@5824
   606
  let
wenzelm@5824
   607
    val thy = Proof.theory_of state;
wenzelm@5824
   608
wenzelm@8238
   609
    fun eval (Basic mth) = f mth
wenzelm@8238
   610
      | eval (Source src) = f (method thy src)
wenzelm@5824
   611
      | eval (Then txts) = Seq.EVERY (map eval txts)
wenzelm@5824
   612
      | eval (Orelse txts) = Seq.FIRST (map eval txts)
wenzelm@5824
   613
      | eval (Try txt) = Seq.TRY (eval txt)
wenzelm@5824
   614
      | eval (Repeat1 txt) = Seq.REPEAT1 (eval txt);
wenzelm@5824
   615
  in eval text state end;
wenzelm@5824
   616
wenzelm@8238
   617
val refine = gen_refine Proof.refine;
wenzelm@8238
   618
val refine_end = gen_refine Proof.refine_end;
wenzelm@6404
   619
wenzelm@5824
   620
wenzelm@6404
   621
(* structured proof steps *)
wenzelm@5824
   622
wenzelm@7506
   623
val default_text = Source (Args.src (("default", []), Position.none));
wenzelm@8195
   624
val this_text = Basic (K this);
wenzelm@9706
   625
val done_text = Basic (K (SIMPLE_METHOD all_tac));
wenzelm@7555
   626
wenzelm@8966
   627
fun close_text asm = Basic (fn ctxt => METHOD (K
wenzelm@8966
   628
  (FILTER Thm.no_prems ((if asm then ALLGOALS (assm_tac ctxt) else all_tac) THEN flexflex_tac))));
wenzelm@8966
   629
wenzelm@8966
   630
fun finish_text asm None = close_text asm
wenzelm@8966
   631
  | finish_text asm (Some txt) = Then [txt, close_text asm];
wenzelm@6872
   632
wenzelm@5824
   633
fun proof opt_text state =
wenzelm@5824
   634
  state
wenzelm@5824
   635
  |> Proof.assert_backward
wenzelm@6404
   636
  |> refine (if_none opt_text default_text)
wenzelm@8242
   637
  |> Seq.map (Proof.goal_facts (K []))
wenzelm@5824
   638
  |> Seq.map Proof.enter_forward;
wenzelm@5824
   639
wenzelm@8966
   640
fun local_qed asm opt_text = Proof.local_qed (refine (finish_text asm opt_text));
wenzelm@8966
   641
fun local_terminal_proof (text, opt_text) pr =
wenzelm@8966
   642
  Seq.THEN (proof (Some text), local_qed true opt_text pr);
wenzelm@8966
   643
val local_default_proof = local_terminal_proof (default_text, None);
wenzelm@8195
   644
val local_immediate_proof = local_terminal_proof (this_text, None);
wenzelm@8966
   645
fun local_done_proof pr = Seq.THEN (proof (Some done_text), local_qed false None pr);
wenzelm@5824
   646
wenzelm@6872
   647
wenzelm@8966
   648
fun global_qeds asm opt_text = Proof.global_qed (refine (finish_text asm opt_text));
wenzelm@5824
   649
wenzelm@8966
   650
fun global_qed asm opt_text state =
wenzelm@6872
   651
  state
wenzelm@8966
   652
  |> global_qeds asm opt_text
wenzelm@6872
   653
  |> Proof.check_result "Failed to finish proof" state
wenzelm@6872
   654
  |> Seq.hd;
wenzelm@6872
   655
wenzelm@8966
   656
fun global_term_proof asm (text, opt_text) state =
wenzelm@6872
   657
  state
wenzelm@6872
   658
  |> proof (Some text)
wenzelm@6872
   659
  |> Proof.check_result "Terminal proof method failed" state
wenzelm@8966
   660
  |> (Seq.flat o Seq.map (global_qeds asm opt_text))
wenzelm@6872
   661
  |> Proof.check_result "Failed to finish proof (after successful terminal method)" state
wenzelm@6872
   662
  |> Seq.hd;
wenzelm@6872
   663
wenzelm@8966
   664
val global_terminal_proof = global_term_proof true;
wenzelm@6934
   665
val global_default_proof = global_terminal_proof (default_text, None);
wenzelm@8966
   666
val global_immediate_proof = global_terminal_proof (this_text, None);
wenzelm@8966
   667
val global_done_proof = global_term_proof false (done_text, None);
wenzelm@5824
   668
wenzelm@5824
   669
wenzelm@5824
   670
(** theory setup **)
wenzelm@5824
   671
wenzelm@9539
   672
(* misc tactic emulations *)
wenzelm@9539
   673
wenzelm@9539
   674
val subgoal_meth = goal_args (Scan.repeat1 Args.name) Tactic.subgoals_tac;
wenzelm@9539
   675
val thin_meth = goal_args Args.name Tactic.thin_tac;
wenzelm@9539
   676
val rename_meth = goal_args (Scan.repeat1 Args.name) Tactic.rename_params_tac;
wenzelm@9631
   677
val rotate_meth = goal_args (Scan.optional Args.int 1) Tactic.rotate_tac;
wenzelm@9539
   678
wenzelm@9539
   679
wenzelm@5824
   680
(* pure_methods *)
wenzelm@5824
   681
wenzelm@5824
   682
val pure_methods =
wenzelm@5824
   683
 [("fail", no_args fail, "force failure"),
wenzelm@5824
   684
  ("succeed", no_args succeed, "succeed"),
wenzelm@9587
   685
  ("-", no_args insert_facts, "do nothing (insert current facts only)"),
wenzelm@9539
   686
  ("insert", thms_args insert, "insert theorems, ignoring facts (improper)"),
wenzelm@7601
   687
  ("unfold", thms_args unfold, "unfold definitions"),
wenzelm@7601
   688
  ("fold", thms_args fold, "fold definitions"),
wenzelm@12007
   689
  ("atomize", no_args (SIMPLE_METHOD' HEADGOAL (CHANGED_PROP o ObjectLogic.atomize_tac)),
wenzelm@11962
   690
    "present local premises as object-level statements"),
wenzelm@8153
   691
  ("rule", thms_ctxt_args some_rule, "apply some rule"),
wenzelm@10744
   692
  ("erule", nat_thms_args erule, "apply rule in elimination manner (improper)"),
wenzelm@10744
   693
  ("drule", nat_thms_args drule, "apply rule in destruct manner (improper)"),
wenzelm@10744
   694
  ("frule", nat_thms_args frule, "apply rule in forward manner (improper)"),
wenzelm@8195
   695
  ("this", no_args this, "apply current facts as rules"),
wenzelm@8238
   696
  ("assumption", ctxt_args assumption, "proof by assumption, preferring facts"),
wenzelm@9539
   697
  ("rule_tac", inst_args res_inst, "apply rule (dynamic instantiation!)"),
wenzelm@9539
   698
  ("erule_tac", inst_args eres_inst, "apply rule in elimination manner (dynamic instantiation!)"),
wenzelm@9539
   699
  ("drule_tac", inst_args dres_inst, "apply rule in destruct manner (dynamic instantiation!)"),
wenzelm@9539
   700
  ("frule_tac", inst_args forw_inst, "apply rule in forward manner (dynamic instantiation!)"),
wenzelm@9539
   701
  ("cut_tac", inst_args cut_inst, "cut rule (dynamic instantiation!)"),
wenzelm@9565
   702
  ("subgoal_tac", subgoal_meth, "insert subgoal (dynamic instantiation!)"),
wenzelm@9565
   703
  ("thin_tac", thin_meth, "remove premise (dynamic instantiation!)"),
wenzelm@9631
   704
  ("rename_tac", rename_meth, "rename parameters of goal (dynamic instantiation!)"),
wenzelm@9631
   705
  ("rotate_tac", rotate_meth, "rotate assumptions of goal"),
wenzelm@8351
   706
  ("prolog", thms_args prolog, "simple prolog interpreter"),
wenzelm@8351
   707
  ("tactic", simple_args Args.name tactic, "ML tactic as proof method")];
wenzelm@5824
   708
wenzelm@5824
   709
wenzelm@5824
   710
(* setup *)
wenzelm@5824
   711
wenzelm@8153
   712
val setup =
wenzelm@8153
   713
 [GlobalRules.init, LocalRules.init, Attrib.add_attributes rule_atts,
wenzelm@11971
   714
  MethodsData.init, add_methods pure_methods,
wenzelm@11971
   715
  (#1 o PureThy.add_thms [(("", Drule.equal_intr_rule), [intro_global])])];
wenzelm@5824
   716
wenzelm@5824
   717
wenzelm@5824
   718
end;
wenzelm@5824
   719
wenzelm@5824
   720
wenzelm@5824
   721
structure BasicMethod: BASIC_METHOD = Method;
wenzelm@5824
   722
open BasicMethod;