src/Pure/Isar/proof.ML
author wenzelm
Tue Mar 14 11:33:14 2000 +0100 (2000-03-14)
changeset 8450 dc44d6533f0f
parent 8383 2dd4823c744f
child 8462 7f4e4e875c13
permissions -rw-r--r--
invoke_case: include attributes;
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(*  Title:      Pure/Isar/proof.ML
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    ID:         $Id$
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    Author:     Markus Wenzel, TU Muenchen
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Proof states and methods.
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*)
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signature BASIC_PROOF =
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sig
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  val FINDGOAL: (int -> thm -> 'a Seq.seq) -> thm -> 'a Seq.seq
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  val HEADGOAL: (int -> thm -> 'a Seq.seq) -> thm -> 'a Seq.seq
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end;
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signature PROOF =
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sig
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  include BASIC_PROOF
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  type context
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  type state
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  exception STATE of string * state
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  val check_result: string -> state -> 'a Seq.seq -> 'a Seq.seq
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  val init_state: theory -> state
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  val context_of: state -> context
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  val theory_of: state -> theory
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  val sign_of: state -> Sign.sg
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  val warn_extra_tfrees: state -> state -> state
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  val reset_thms: string -> state -> state
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  val the_facts: state -> thm list
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  val get_goal: state -> term * (thm list * thm)
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  val goal_facts: (state -> thm list) -> state -> state
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  val use_facts: state -> state
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  val reset_facts: state -> state
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  val assert_forward: state -> state
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  val assert_backward: state -> state
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  val assert_no_chain: state -> state
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  val enter_forward: state -> state
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  val show_hyps: bool ref
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  val pretty_thm: thm -> Pretty.T
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  val pretty_thms: thm list -> Pretty.T
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  val verbose: bool ref
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  val print_state: int -> state -> unit
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  val level: state -> int
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  type method
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  val method: (thm list -> tactic) -> method
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  val method_cases: (thm list -> thm -> (thm * (string * RuleCases.T) list) Seq.seq) -> method
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  val refine: (context -> method) -> state -> state Seq.seq
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  val refine_end: (context -> method) -> state -> state Seq.seq
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  val find_free: term -> string -> term option
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  val export_thm: context -> thm -> thm
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  val match_bind: (string list * string) list -> state -> state
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  val match_bind_i: (term list * term) list -> state -> state
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  val have_thmss: thm list -> string -> context attribute list ->
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    (thm list * context attribute list) list -> state -> state
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  val simple_have_thms: string -> thm list -> state -> state
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  val fix: (string list * string option) list -> state -> state
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  val fix_i: (string list * typ option) list -> state -> state
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  val assm: (int -> tactic) * (int -> tactic)
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    -> (string * context attribute list * (string * (string list * string list)) list) list
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    -> state -> state
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  val assm_i: (int -> tactic) * (int -> tactic)
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    -> (string * context attribute list * (term * (term list * term list)) list) list
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    -> state -> state
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  val assume: (string * context attribute list * (string * (string list * string list)) list) list
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    -> state -> state
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  val assume_i: (string * context attribute list * (term * (term list * term list)) list) list
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    -> state -> state
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  val presume: (string * context attribute list * (string * (string list * string list)) list) list
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    -> state -> state
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  val presume_i: (string * context attribute list * (term * (term list * term list)) list) list
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    -> state -> state
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  val invoke_case: string * context attribute list -> state -> state
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  val theorem: bstring -> theory attribute list -> string * (string list * string list)
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    -> theory -> state
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  val theorem_i: bstring -> theory attribute list -> term * (term list * term list)
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    -> theory -> state
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  val lemma: bstring -> theory attribute list -> string * (string list * string list)
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    -> theory -> state
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  val lemma_i: bstring -> theory attribute list -> term * (term list * term list)
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    -> theory -> state
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  val chain: state -> state
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  val export_chain: state -> state Seq.seq
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  val from_facts: thm list -> state -> state
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  val show: (state -> state Seq.seq) -> string -> context attribute list
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    -> string * (string list * string list) -> state -> state
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  val show_i: (state -> state Seq.seq) -> string -> context attribute list
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    -> term * (term list * term list) -> state -> state
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  val have: (state -> state Seq.seq) -> string -> context attribute list
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    -> string * (string list * string list) -> state -> state
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  val have_i: (state -> state Seq.seq) -> string -> context attribute list
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    -> term * (term list * term list) -> state -> state
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  val at_bottom: state -> bool
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  val local_qed: (state -> state Seq.seq)
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    -> ({kind: string, name: string, thm: thm} -> unit) * (thm -> unit) -> state -> state Seq.seq
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  val global_qed: (state -> state Seq.seq) -> state
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    -> (theory * {kind: string, name: string, thm: thm}) Seq.seq
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  val begin_block: state -> state
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  val end_block: state -> state Seq.seq
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  val next_block: state -> state
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end;
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signature PRIVATE_PROOF =
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sig
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  include PROOF
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  val put_data: Object.kind -> ('a -> Object.T) -> 'a -> state -> state
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end;
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structure Proof: PRIVATE_PROOF =
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struct
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(** proof state **)
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type context = ProofContext.context;
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(* type goal *)
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datatype kind =
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  Theorem of theory attribute list |    (*top-level theorem*)
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  Lemma of theory attribute list |      (*top-level lemma*)
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  Goal of context attribute list |      (*intermediate result, solving subgoal*)
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  Aux of context attribute list ;       (*intermediate result*)
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val kind_name =
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  fn Theorem _ => "theorem" | Lemma _ => "lemma" | Goal _ => "show" | Aux _ => "have";
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type goal =
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 (kind *        (*result kind*)
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  string *      (*result name*)
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  term) *       (*result statement*)
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 (thm list *    (*use facts*)
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  thm);         (*goal: subgoals ==> statement*)
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(* type mode *)
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datatype mode = Forward | ForwardChain | Backward;
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val mode_name = (fn Forward => "state" | ForwardChain => "chain" | Backward => "prove");
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(* datatype state *)
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datatype node =
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  Node of
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   {context: context,
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    facts: thm list option,
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    mode: mode,
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    goal: (goal * (state -> state Seq.seq)) option}
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and state =
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  State of
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    node *              (*current*)
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    node list;          (*parents wrt. block structure*)
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fun make_node (context, facts, mode, goal) =
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  Node {context = context, facts = facts, mode = mode, goal = goal};
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exception STATE of string * state;
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fun err_malformed name state =
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  raise STATE (name ^ ": internal error -- malformed proof state", state);
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fun check_result msg state sq =
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  (case Seq.pull sq of
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    None => raise STATE (msg, state)
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  | Some s_sq => Seq.cons s_sq);
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fun map_current f (State (Node {context, facts, mode, goal}, nodes)) =
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  State (make_node (f (context, facts, mode, goal)), nodes);
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fun init_state thy =
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  State (make_node (ProofContext.init thy, None, Forward, None), []);
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(** basic proof state operations **)
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(* context *)
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fun context_of (State (Node {context, ...}, _)) = context;
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val theory_of = ProofContext.theory_of o context_of;
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val sign_of = ProofContext.sign_of o context_of;
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fun map_context f = map_current (fn (ctxt, facts, mode, goal) => (f ctxt, facts, mode, goal));
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fun map_context_result f (state as State (Node {context, facts, mode, goal}, nodes)) =
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  let val (context', result) = f context
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  in (State (make_node (context', facts, mode, goal), nodes), result) end;
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fun put_data kind f = map_context o ProofContext.put_data kind f;
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val warn_extra_tfrees = map_context o ProofContext.warn_extra_tfrees o context_of;
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val auto_bind_goal = map_context o ProofContext.auto_bind_goal;
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val auto_bind_facts = map_context oo ProofContext.auto_bind_facts;
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val put_thms = map_context o ProofContext.put_thms;
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val put_thmss = map_context o ProofContext.put_thmss;
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val reset_thms = map_context o ProofContext.reset_thms;
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val assumptions = ProofContext.assumptions o context_of;
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val get_case = ProofContext.get_case o context_of;
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(* facts *)
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fun the_facts (State (Node {facts = Some facts, ...}, _)) = facts
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  | the_facts state = raise STATE ("No current facts available", state);
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fun assert_facts state = (the_facts state; state);
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fun get_facts (State (Node {facts, ...}, _)) = facts;
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val thisN = "this";
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fun put_facts facts state =
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  state
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  |> map_current (fn (ctxt, _, mode, goal) => (ctxt, facts, mode, goal))
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  |> (case facts of None => reset_thms thisN | Some ths => put_thms (thisN, ths));
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val reset_facts = put_facts None;
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fun have_facts (name, facts) state =
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  state
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  |> put_facts (Some facts)
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  |> put_thms (name, facts);
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fun these_facts (state, ths) = have_facts ths state;
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(* goal *)
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fun find_goal i (state as State (Node {goal = Some goal, ...}, _)) = (context_of state, (i, goal))
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  | find_goal i (State (Node {goal = None, ...}, node :: nodes)) =
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      find_goal (i + 1) (State (node, nodes))
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  | find_goal _ (state as State (_, [])) = err_malformed "find_goal" state;
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fun get_goal state =
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  let val (_, (_, (((_, _, t), goal), _))) = find_goal 0 state
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  in (t, goal) end;
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fun put_goal goal = map_current (fn (ctxt, facts, mode, _) => (ctxt, facts, mode, goal));
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fun map_goal f g (State (Node {context, facts, mode, goal = Some goal}, nodes)) =
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      State (make_node (f context, facts, mode, Some (g goal)), nodes)
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  | map_goal f g (State (nd, node :: nodes)) =
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      let val State (node', nodes') = map_goal f g (State (node, nodes))
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      in map_context f (State (nd, node' :: nodes')) end
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  | map_goal _ _ state = state;
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fun goal_facts get state =
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  state
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  |> map_goal I (fn ((result, (_, thm)), f) => ((result, (get state, thm)), f));
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fun use_facts state =
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  state
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  |> goal_facts the_facts
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  |> reset_facts;
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(* mode *)
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fun get_mode (State (Node {mode, ...}, _)) = mode;
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fun put_mode mode = map_current (fn (ctxt, facts, _, goal) => (ctxt, facts, mode, goal));
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val enter_forward = put_mode Forward;
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val enter_forward_chain = put_mode ForwardChain;
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val enter_backward = put_mode Backward;
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fun assert_mode pred state =
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  let val mode = get_mode state in
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    if pred mode then state
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    else raise STATE ("Illegal application of command in " ^ mode_name mode ^ " mode", state)
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  end;
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fun is_chain state = get_mode state = ForwardChain;
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val assert_forward = assert_mode (equal Forward);
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val assert_forward_or_chain = assert_mode (equal Forward orf equal ForwardChain);
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val assert_backward = assert_mode (equal Backward);
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val assert_no_chain = assert_mode (not_equal ForwardChain);
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(* blocks *)
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fun level (State (_, nodes)) = length nodes;
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fun open_block (State (node, nodes)) = State (node, node :: nodes);
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fun new_block state =
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  state
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  |> open_block
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  |> put_goal None;
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fun close_block (state as State (_, node :: nodes)) = State (node, nodes)
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  | close_block state = raise STATE ("Unbalanced block parentheses", state);
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(** print_state **)
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val show_hyps = ProofContext.show_hyps;
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val pretty_thm = ProofContext.pretty_thm;
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fun pretty_thms [th] = pretty_thm th
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  | pretty_thms ths = Pretty.blk (0, Pretty.fbreaks (map pretty_thm ths));
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val verbose = ProofContext.verbose;
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fun print_facts _ None = ()
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  | print_facts s (Some ths) =
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     (Pretty.writeln (Pretty.big_list (s ^ "this:") (map pretty_thm ths)); writeln "");
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fun print_state nr (state as State (Node {context, facts, mode, goal = _}, nodes)) =
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  let
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    val ref (_, _, begin_goal) = Goals.current_goals_markers;
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    fun levels_up 0 = ""
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      | levels_up 1 = ", 1 level up"
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      | levels_up i = ", " ^ string_of_int i ^ " levels up";
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    fun print_goal (_, (i, (((kind, name, _), (goal_facts, thm)), _))) =
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      (print_facts "using "
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          (if mode <> Backward orelse null goal_facts then None else Some goal_facts);
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        writeln ("goal (" ^ kind_name kind ^ (if name = "" then "" else " " ^ name) ^
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          levels_up (i div 2) ^ "):");
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        Locale.print_goals_marker begin_goal (! goals_limit) thm);
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    val ctxt_strings =
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      if ! verbose orelse mode = Forward then ProofContext.strings_of_context context
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      else if mode = Backward then ProofContext.strings_of_prems context
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      else [];
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  in
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    writeln ("Proof(" ^ mode_name mode ^ "): step " ^ string_of_int nr ^
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      ", depth " ^ string_of_int (length nodes div 2));
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    writeln "";
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    if null ctxt_strings then () else (seq writeln ctxt_strings; writeln "");
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    if ! verbose orelse mode = Forward then
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      (print_facts "" facts; print_goal (find_goal 0 state))
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    else if mode = ForwardChain then print_facts "picking " facts
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    else print_goal (find_goal 0 state)
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  end;
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(** proof steps **)
wenzelm@5820
   344
wenzelm@5820
   345
(* datatype method *)
wenzelm@5820
   346
wenzelm@8374
   347
datatype method =
wenzelm@8374
   348
  Method of thm list -> thm -> (thm * (string * RuleCases.T) list) Seq.seq;
wenzelm@8374
   349
wenzelm@8374
   350
fun method tac = Method (fn facts => fn st => Seq.map (rpair []) (tac facts st));
wenzelm@8374
   351
val method_cases = Method;
wenzelm@5820
   352
wenzelm@5820
   353
wenzelm@5820
   354
(* refine goal *)
wenzelm@5820
   355
wenzelm@8234
   356
local
wenzelm@8234
   357
wenzelm@5820
   358
fun check_sign sg state =
wenzelm@5820
   359
  if Sign.subsig (sg, sign_of state) then state
wenzelm@5820
   360
  else raise STATE ("Bad signature of result: " ^ Sign.str_of_sg sg, state);
wenzelm@5820
   361
wenzelm@8234
   362
fun gen_refine current_context meth_fun state =
wenzelm@6848
   363
  let
wenzelm@8234
   364
    val (goal_ctxt, (_, ((result, (facts, thm)), f))) = find_goal 0 state;
wenzelm@8234
   365
    val Method meth = meth_fun (if current_context then context_of state else goal_ctxt);
wenzelm@5820
   366
wenzelm@8374
   367
    fun refn (thm', cases) =
wenzelm@6848
   368
      state
wenzelm@6848
   369
      |> check_sign (Thm.sign_of_thm thm')
wenzelm@8374
   370
      |> map_goal (ProofContext.add_cases cases) (K ((result, (facts, thm')), f));
wenzelm@6848
   371
  in Seq.map refn (meth facts thm) end;
wenzelm@5820
   372
wenzelm@8234
   373
in
wenzelm@8234
   374
wenzelm@8234
   375
val refine = gen_refine true;
wenzelm@8234
   376
val refine_end = gen_refine false;
wenzelm@8234
   377
wenzelm@8234
   378
end;
wenzelm@8234
   379
wenzelm@5820
   380
wenzelm@6932
   381
(* export *)
wenzelm@5820
   382
wenzelm@7669
   383
fun get_free x (None, t as Free (y, _)) = if x = y then Some t else None
wenzelm@7669
   384
  | get_free _ (opt, _) = opt;
wenzelm@7669
   385
wenzelm@7669
   386
fun find_free t x = foldl_aterms (get_free x) (None, t);
wenzelm@7669
   387
wenzelm@7669
   388
wenzelm@6932
   389
local
wenzelm@6932
   390
wenzelm@6932
   391
fun varify_frees fixes thm =
wenzelm@5820
   392
  let
wenzelm@6887
   393
    val {sign, prop, ...} = Thm.rep_thm thm;
wenzelm@6932
   394
    val frees = map (Thm.cterm_of sign) (mapfilter (find_free prop) fixes);
wenzelm@5820
   395
  in
wenzelm@5820
   396
    thm
wenzelm@5820
   397
    |> Drule.forall_intr_list frees
wenzelm@6887
   398
    |> Drule.forall_elim_vars 0
wenzelm@5820
   399
  end;
wenzelm@5820
   400
wenzelm@8152
   401
fun export fixes casms thm =
wenzelm@8152
   402
  thm
wenzelm@8152
   403
  |> Drule.implies_intr_list casms
wenzelm@8152
   404
  |> varify_frees fixes
wenzelm@8186
   405
  |> ProofContext.most_general_varify_tfrees;
wenzelm@8152
   406
wenzelm@6932
   407
fun diff_context inner None = (ProofContext.fixed_names inner, ProofContext.assumptions inner)
wenzelm@6932
   408
  | diff_context inner (Some outer) =
wenzelm@6932
   409
      (ProofContext.fixed_names inner \\ ProofContext.fixed_names outer,
wenzelm@6932
   410
        Library.drop (length (ProofContext.assumptions outer), ProofContext.assumptions inner));
wenzelm@6932
   411
wenzelm@6932
   412
in
wenzelm@6932
   413
wenzelm@6932
   414
fun export_wrt inner opt_outer =
wenzelm@6932
   415
  let
wenzelm@6932
   416
    val (fixes, asms) = diff_context inner opt_outer;
wenzelm@6996
   417
    val casms = map (Drule.mk_cgoal o #1) asms;
wenzelm@6932
   418
    val tacs = map #2 asms;
wenzelm@6932
   419
  in (export fixes casms, tacs) end;
wenzelm@6932
   420
wenzelm@6932
   421
end;
wenzelm@5820
   422
wenzelm@6848
   423
wenzelm@6932
   424
(* export results *)
wenzelm@6932
   425
wenzelm@6932
   426
fun RANGE [] _ = all_tac
wenzelm@6932
   427
  | RANGE (tac :: tacs) i = RANGE tacs (i + 1) THEN tac i;
wenzelm@6932
   428
wenzelm@8152
   429
fun FINDGOAL tac st =
wenzelm@8374
   430
  let fun find (i, n) = if i > n then Seq.fail else Seq.APPEND (tac i, find (i + 1, n))
wenzelm@8374
   431
  in find (1, Thm.nprems_of st) st end;
wenzelm@8152
   432
wenzelm@8166
   433
fun HEADGOAL tac = tac 1;
wenzelm@8166
   434
wenzelm@6982
   435
fun export_goal print_rule raw_rule inner state =
wenzelm@6932
   436
  let
wenzelm@7176
   437
    val (outer, (_, ((result, (facts, thm)), f))) = find_goal 0 state;
wenzelm@6950
   438
    val (exp, tacs) = export_wrt inner (Some outer);
wenzelm@6932
   439
    val rule = exp raw_rule;
wenzelm@6982
   440
    val _ = print_rule rule;
wenzelm@8152
   441
    val thmq = FINDGOAL (Tactic.rtac rule THEN' RANGE (map #1 tacs)) thm;
wenzelm@8374
   442
  in Seq.map (fn th => map_goal I (K ((result, (facts, th)), f)) state) thmq end;
wenzelm@6932
   443
wenzelm@6932
   444
wenzelm@6932
   445
fun export_thm inner thm =
wenzelm@6932
   446
  let val (exp, tacs) = export_wrt inner None in
wenzelm@6932
   447
    (case Seq.chop (2, RANGE (map #2 tacs) 1 (exp thm)) of
wenzelm@6932
   448
      ([thm'], _) => thm'
wenzelm@6932
   449
    | ([], _) => raise THM ("export: failed", 0, [thm])
wenzelm@6932
   450
    | _ => raise THM ("export: more than one result", 0, [thm]))
wenzelm@6932
   451
  end;
wenzelm@6932
   452
wenzelm@6932
   453
wenzelm@6932
   454
fun export_facts inner_state opt_outer_state state =
wenzelm@6932
   455
  let
wenzelm@6932
   456
    val thms = the_facts inner_state;
wenzelm@6932
   457
    val (exp, tacs) = export_wrt (context_of inner_state) (apsome context_of opt_outer_state);
wenzelm@6932
   458
    val thmqs = map (RANGE (map #2 tacs) 1 o exp) thms;
wenzelm@6932
   459
  in Seq.map (fn ths => put_facts (Some ths) state) (Seq.commute thmqs) end;
wenzelm@6932
   460
wenzelm@6932
   461
fun transfer_facts inner_state state =
wenzelm@6932
   462
  (case get_facts inner_state of
wenzelm@6932
   463
    None => Seq.single (reset_facts state)
wenzelm@6932
   464
  | Some ths => export_facts inner_state (Some state) state);
wenzelm@6932
   465
wenzelm@6932
   466
wenzelm@6932
   467
(* prepare result *)
wenzelm@6932
   468
wenzelm@6932
   469
fun prep_result state t raw_thm =
wenzelm@5820
   470
  let
wenzelm@5820
   471
    val ctxt = context_of state;
wenzelm@5820
   472
    fun err msg = raise STATE (msg, state);
wenzelm@5820
   473
wenzelm@5820
   474
    val ngoals = Thm.nprems_of raw_thm;
wenzelm@5820
   475
    val _ =
wenzelm@5820
   476
      if ngoals = 0 then ()
wenzelm@5820
   477
      else (Locale.print_goals ngoals raw_thm; err (string_of_int ngoals ^ " unsolved goal(s)!"));
wenzelm@5820
   478
wenzelm@6932
   479
    val thm = raw_thm RS Drule.rev_triv_goal;
wenzelm@6932
   480
    val {hyps, prop, sign, maxidx, ...} = Thm.rep_thm thm;
wenzelm@5820
   481
    val tsig = Sign.tsig_of sign;
wenzelm@6932
   482
wenzelm@6932
   483
    val casms = map #1 (assumptions state);
wenzelm@6996
   484
    val bad_hyps = Library.gen_rems Term.aconv (hyps, map (Thm.term_of o Drule.mk_cgoal) casms);
wenzelm@5820
   485
  in
wenzelm@6932
   486
    if not (null bad_hyps) then
wenzelm@6932
   487
      err ("Additional hypotheses:\n" ^ cat_lines (map (Sign.string_of_term sign) bad_hyps))
wenzelm@7605
   488
    else if not (t aconv prop) then
wenzelm@7605
   489
      err ("Proved a different theorem: " ^ Sign.string_of_term sign prop)
wenzelm@8186
   490
    else thm |> Drule.forall_elim_vars (maxidx + 1) |> ProofContext.most_general_varify_tfrees
wenzelm@5820
   491
  end;
wenzelm@5820
   492
wenzelm@5820
   493
wenzelm@5820
   494
wenzelm@5820
   495
(*** structured proof commands ***)
wenzelm@5820
   496
wenzelm@5820
   497
(** context **)
wenzelm@5820
   498
wenzelm@5820
   499
(* bind *)
wenzelm@5820
   500
wenzelm@5820
   501
fun gen_bind f x state =
wenzelm@5820
   502
  state
wenzelm@5820
   503
  |> assert_forward
wenzelm@5820
   504
  |> map_context (f x)
wenzelm@5820
   505
  |> reset_facts;
wenzelm@5820
   506
wenzelm@8095
   507
val match_bind = gen_bind ProofContext.match_bind;
wenzelm@8095
   508
val match_bind_i = gen_bind ProofContext.match_bind_i;
wenzelm@5820
   509
wenzelm@5820
   510
wenzelm@6091
   511
(* have_thmss *)
wenzelm@5820
   512
wenzelm@6876
   513
fun have_thmss ths name atts ths_atts state =
wenzelm@5820
   514
  state
wenzelm@5820
   515
  |> assert_forward
wenzelm@7478
   516
  |> map_context_result (ProofContext.have_thmss ths name atts ths_atts)
wenzelm@5820
   517
  |> these_facts;
wenzelm@5820
   518
wenzelm@6876
   519
fun simple_have_thms name thms = have_thmss [] name [] [(thms, [])];
wenzelm@6876
   520
wenzelm@5820
   521
wenzelm@5820
   522
(* fix *)
wenzelm@5820
   523
wenzelm@5820
   524
fun gen_fix f xs state =
wenzelm@5820
   525
  state
wenzelm@5820
   526
  |> assert_forward
wenzelm@5820
   527
  |> map_context (f xs)
wenzelm@5820
   528
  |> reset_facts;
wenzelm@5820
   529
wenzelm@5820
   530
val fix = gen_fix ProofContext.fix;
wenzelm@5820
   531
val fix_i = gen_fix ProofContext.fix_i;
wenzelm@5820
   532
wenzelm@5820
   533
wenzelm@5820
   534
(* assume *)
wenzelm@5820
   535
wenzelm@7271
   536
local
wenzelm@7271
   537
wenzelm@7271
   538
fun gen_assume f tac args state =
wenzelm@5820
   539
  state
wenzelm@5820
   540
  |> assert_forward
wenzelm@7478
   541
  |> map_context_result (f tac args)
wenzelm@7271
   542
  |> (fn (st, (factss, prems)) =>
wenzelm@7271
   543
    foldl these_facts (st, factss)
wenzelm@7271
   544
    |> put_thms ("prems", prems)
wenzelm@7271
   545
    |> put_facts (Some (flat (map #2 factss))));
wenzelm@6932
   546
wenzelm@6996
   547
val hard_asm_tac = Tactic.etac Drule.triv_goal;
wenzelm@6996
   548
val soft_asm_tac = Tactic.rtac Drule.triv_goal;
wenzelm@6996
   549
wenzelm@7271
   550
in
wenzelm@7271
   551
wenzelm@7271
   552
val assm = gen_assume ProofContext.assume;
wenzelm@7271
   553
val assm_i = gen_assume ProofContext.assume_i;
wenzelm@6996
   554
val assume = assm (hard_asm_tac, soft_asm_tac);
wenzelm@6996
   555
val assume_i = assm_i (hard_asm_tac, soft_asm_tac);
wenzelm@6996
   556
val presume = assm (soft_asm_tac, soft_asm_tac);
wenzelm@6996
   557
val presume_i = assm_i (soft_asm_tac, soft_asm_tac);
wenzelm@5820
   558
wenzelm@7271
   559
end;
wenzelm@7271
   560
wenzelm@5820
   561
wenzelm@8374
   562
(* invoke_case *)
wenzelm@8374
   563
wenzelm@8450
   564
fun invoke_case (name, atts) state =
wenzelm@8374
   565
  let val (vars, props) = get_case state name in
wenzelm@8374
   566
    state
wenzelm@8374
   567
    |> fix_i (map (fn (x, T) => ([x], Some T)) vars)
wenzelm@8450
   568
    |> assume_i [(name, atts, map (fn t => (t, ([], []))) props)]
wenzelm@8374
   569
  end;
wenzelm@8374
   570
wenzelm@8374
   571
wenzelm@5820
   572
wenzelm@5820
   573
(** goals **)
wenzelm@5820
   574
wenzelm@5820
   575
(* forward chaining *)
wenzelm@5820
   576
wenzelm@5820
   577
fun chain state =
wenzelm@5820
   578
  state
wenzelm@5820
   579
  |> assert_forward
wenzelm@6848
   580
  |> assert_facts
wenzelm@5820
   581
  |> enter_forward_chain;
wenzelm@5820
   582
wenzelm@6932
   583
fun export_chain state =
wenzelm@6932
   584
  state
wenzelm@6932
   585
  |> assert_forward
wenzelm@6932
   586
  |> export_facts state None
wenzelm@6932
   587
  |> Seq.map chain;
wenzelm@6932
   588
wenzelm@5820
   589
fun from_facts facts state =
wenzelm@5820
   590
  state
wenzelm@5820
   591
  |> put_facts (Some facts)
wenzelm@5820
   592
  |> chain;
wenzelm@5820
   593
wenzelm@5820
   594
wenzelm@5820
   595
(* setup goals *)
wenzelm@5820
   596
wenzelm@7176
   597
fun setup_goal opt_block prepp kind after_qed name atts raw_propp state =
wenzelm@5820
   598
  let
wenzelm@7928
   599
    val (state', prop) =
wenzelm@5936
   600
      state
wenzelm@5936
   601
      |> assert_forward_or_chain
wenzelm@5936
   602
      |> enter_forward
wenzelm@8095
   603
      |> map_context_result (fn ct => prepp (ct, raw_propp));
wenzelm@6932
   604
    val cprop = Thm.cterm_of (sign_of state') prop;
wenzelm@7556
   605
    val goal = Drule.mk_triv_goal cprop;
wenzelm@5820
   606
  in
wenzelm@5936
   607
    state'
wenzelm@7412
   608
    |> opt_block
wenzelm@7478
   609
    |> put_goal (Some (((kind atts, name, prop), ([], goal)), after_qed))
wenzelm@6790
   610
    |> auto_bind_goal prop
wenzelm@5820
   611
    |> (if is_chain state then use_facts else reset_facts)
wenzelm@5820
   612
    |> new_block
wenzelm@5820
   613
    |> enter_backward
wenzelm@5820
   614
  end;
wenzelm@5820
   615
wenzelm@5820
   616
wenzelm@5820
   617
(*global goals*)
wenzelm@8095
   618
fun global_goal prepp kind name atts x thy =
wenzelm@8095
   619
  setup_goal I prepp kind Seq.single name atts x (init_state thy);
wenzelm@5820
   620
wenzelm@7928
   621
val theorem = global_goal ProofContext.bind_propp Theorem;
wenzelm@7928
   622
val theorem_i = global_goal ProofContext.bind_propp_i Theorem;
wenzelm@7928
   623
val lemma = global_goal ProofContext.bind_propp Lemma;
wenzelm@7928
   624
val lemma_i = global_goal ProofContext.bind_propp_i Lemma;
wenzelm@5820
   625
wenzelm@5820
   626
wenzelm@5820
   627
(*local goals*)
wenzelm@8095
   628
fun local_goal prepp kind f name atts args state =
wenzelm@7928
   629
  state
wenzelm@8095
   630
  |> setup_goal open_block prepp kind f name atts args
wenzelm@7928
   631
  |> warn_extra_tfrees state;
wenzelm@5820
   632
wenzelm@7928
   633
val show   = local_goal ProofContext.bind_propp Goal;
wenzelm@7928
   634
val show_i = local_goal ProofContext.bind_propp_i Goal;
wenzelm@7928
   635
val have   = local_goal ProofContext.bind_propp Aux;
wenzelm@7928
   636
val have_i = local_goal ProofContext.bind_propp_i Aux;
wenzelm@5820
   637
wenzelm@5820
   638
wenzelm@5820
   639
wenzelm@5820
   640
(** conclusions **)
wenzelm@5820
   641
wenzelm@5820
   642
(* current goal *)
wenzelm@5820
   643
wenzelm@7176
   644
fun current_goal (State (Node {context, goal = Some goal, ...}, _)) = (context, goal)
wenzelm@5820
   645
  | current_goal state = raise STATE ("No current goal!", state);
wenzelm@5820
   646
wenzelm@7176
   647
fun assert_current_goal true (state as State (Node {goal = None, ...}, _)) =
wenzelm@6404
   648
      raise STATE ("No goal in this block!", state)
wenzelm@7176
   649
  | assert_current_goal false (state as State (Node {goal = Some _, ...}, _)) =
wenzelm@6404
   650
      raise STATE ("Goal present in this block!", state)
wenzelm@6404
   651
  | assert_current_goal _ state = state;
wenzelm@5820
   652
wenzelm@5820
   653
fun assert_bottom true (state as State (_, _ :: _)) =
wenzelm@5820
   654
      raise STATE ("Not at bottom of proof!", state)
wenzelm@5820
   655
  | assert_bottom false (state as State (_, [])) =
wenzelm@5820
   656
      raise STATE ("Already at bottom of proof!", state)
wenzelm@5820
   657
  | assert_bottom _ state = state;
wenzelm@5820
   658
wenzelm@6404
   659
val at_bottom = can (assert_bottom true o close_block);
wenzelm@6404
   660
wenzelm@6932
   661
fun end_proof bot state =
wenzelm@5820
   662
  state
wenzelm@5820
   663
  |> assert_forward
wenzelm@5820
   664
  |> close_block
wenzelm@5820
   665
  |> assert_bottom bot
wenzelm@7011
   666
  |> assert_current_goal true
wenzelm@7011
   667
  |> goal_facts (K []);
wenzelm@5820
   668
wenzelm@5820
   669
wenzelm@6404
   670
(* local_qed *)
wenzelm@5820
   671
wenzelm@6982
   672
fun finish_local (print_result, print_rule) state =
wenzelm@5820
   673
  let
wenzelm@7176
   674
    val (ctxt, (((kind, name, t), (_, raw_thm)), after_qed)) = current_goal state;
wenzelm@6932
   675
    val result = prep_result state t raw_thm;
wenzelm@5820
   676
    val (atts, opt_solve) =
wenzelm@5820
   677
      (case kind of
wenzelm@6982
   678
        Goal atts => (atts, export_goal print_rule result ctxt)
wenzelm@5820
   679
      | Aux atts => (atts, Seq.single)
wenzelm@6932
   680
      | _ => err_malformed "finish_local" state);
wenzelm@5820
   681
  in
wenzelm@6731
   682
    print_result {kind = kind_name kind, name = name, thm = result};
wenzelm@5820
   683
    state
wenzelm@5820
   684
    |> close_block
wenzelm@6871
   685
    |> auto_bind_facts name [t]
wenzelm@6876
   686
    |> have_thmss [] name atts [Thm.no_attributes [result]]
wenzelm@5820
   687
    |> opt_solve
wenzelm@7176
   688
    |> (Seq.flat o Seq.map after_qed)
wenzelm@5820
   689
  end;
wenzelm@5820
   690
wenzelm@6982
   691
fun local_qed finalize print state =
wenzelm@6404
   692
  state
wenzelm@6932
   693
  |> end_proof false
wenzelm@6871
   694
  |> finalize
wenzelm@6982
   695
  |> (Seq.flat o Seq.map (finish_local print));
wenzelm@5820
   696
wenzelm@5820
   697
wenzelm@6404
   698
(* global_qed *)
wenzelm@5820
   699
wenzelm@6950
   700
fun finish_global state =
wenzelm@5820
   701
  let
wenzelm@7176
   702
    val (_, (((kind, name, t), (_, raw_thm)), _)) = current_goal state;   (*ignores after_qed!*)
wenzelm@8152
   703
    val result = Drule.standard (prep_result state t raw_thm);
wenzelm@5820
   704
wenzelm@5820
   705
    val atts =
wenzelm@5820
   706
      (case kind of
wenzelm@6950
   707
        Theorem atts => atts
wenzelm@6950
   708
      | Lemma atts => atts @ [Drule.tag_lemma]
wenzelm@6932
   709
      | _ => err_malformed "finish_global" state);
wenzelm@5820
   710
wenzelm@6091
   711
    val (thy', result') = PureThy.store_thm ((name, result), atts) (theory_of state);
wenzelm@6529
   712
  in (thy', {kind = kind_name kind, name = name, thm = result'}) end;
wenzelm@5820
   713
wenzelm@6871
   714
(*Note: should inspect first result only, backtracking may destroy theory*)
wenzelm@6950
   715
fun global_qed finalize state =
wenzelm@5820
   716
  state
wenzelm@6932
   717
  |> end_proof true
wenzelm@6871
   718
  |> finalize
wenzelm@6950
   719
  |> Seq.map finish_global;
wenzelm@5820
   720
wenzelm@5820
   721
wenzelm@6896
   722
wenzelm@6896
   723
(** blocks **)
wenzelm@6896
   724
wenzelm@6896
   725
(* begin_block *)
wenzelm@6896
   726
wenzelm@6896
   727
fun begin_block state =
wenzelm@6896
   728
  state
wenzelm@6896
   729
  |> assert_forward
wenzelm@6896
   730
  |> new_block
wenzelm@6896
   731
  |> open_block;
wenzelm@6896
   732
wenzelm@6896
   733
wenzelm@6896
   734
(* end_block *)
wenzelm@6896
   735
wenzelm@6896
   736
fun end_block state =
wenzelm@6896
   737
  state
wenzelm@6896
   738
  |> assert_forward
wenzelm@6896
   739
  |> close_block
wenzelm@6896
   740
  |> assert_current_goal false
wenzelm@6896
   741
  |> close_block
wenzelm@6932
   742
  |> transfer_facts state;
wenzelm@6896
   743
wenzelm@6896
   744
wenzelm@6896
   745
(* next_block *)
wenzelm@6896
   746
wenzelm@6896
   747
fun next_block state =
wenzelm@6896
   748
  state
wenzelm@6896
   749
  |> assert_forward
wenzelm@6896
   750
  |> close_block
wenzelm@6932
   751
  |> assert_current_goal true
wenzelm@6896
   752
  |> new_block;
wenzelm@6896
   753
wenzelm@6896
   754
wenzelm@5820
   755
end;
wenzelm@8152
   756
wenzelm@8152
   757
wenzelm@8152
   758
structure BasicProof: BASIC_PROOF = Proof;
wenzelm@8152
   759
open BasicProof;