(* Title: Provers/clasimp.ML Author: David von Oheimb, TU Muenchen Combination of classical reasoner and simplifier (depends on splitter.ML, classical.ML, blast.ML). *) signature CLASIMP_DATA = sig structure Splitter: SPLITTER structure Classical: CLASSICAL structure Blast: BLAST val notE: thm val iffD1: thm val iffD2: thm end; signature CLASIMP = sig val addSss: Proof.context -> Proof.context val addss: Proof.context -> Proof.context val clarsimp_tac: Proof.context -> int -> tactic val mk_auto_tac: Proof.context -> int -> int -> tactic val auto_tac: Proof.context -> tactic val force_tac: Proof.context -> int -> tactic val fast_force_tac: Proof.context -> int -> tactic val slow_simp_tac: Proof.context -> int -> tactic val best_simp_tac: Proof.context -> int -> tactic val iff_add: attribute val iff_add': attribute val iff_del: attribute val iff_modifiers: Method.modifier parser list val clasimp_modifiers: Method.modifier parser list end; functor Clasimp(Data: CLASIMP_DATA): CLASIMP = struct structure Splitter = Data.Splitter; structure Classical = Data.Classical; structure Blast = Data.Blast; (* simp as classical wrapper *) (* FIXME !? *) fun clasimp f name tac ctxt = f (ctxt, (name, fn _ => CHANGED o tac ctxt)); (*Add a simpset to the claset!*) (*Caution: only one simpset added can be added by each of addSss and addss*) val addSss = clasimp Classical.addSafter "safe_asm_full_simp_tac" Simplifier.safe_asm_full_simp_tac; val addss = clasimp Classical.addbefore "asm_full_simp_tac" Simplifier.asm_full_simp_tac; (* iffs: addition of rules to simpsets and clasets simultaneously *) local (*Takes (possibly conditional) theorems of the form A<->B to the Safe Intr rule B==>A and the Safe Destruct rule A==>B. Also ~A goes to the Safe Elim rule A ==> ?R Failing other cases, A is added as a Safe Intr rule*) fun add_iff safe unsafe = Thm.declaration_attribute (fn th => fn context => let val n = Thm.nprems_of th; val (elim, intro) = if n = 0 then safe else unsafe; val zero_rotate = zero_var_indexes o rotate_prems n; val decls = [(intro, zero_rotate (th RS Data.iffD2)), (elim, Tactic.make_elim (zero_rotate (th RS Data.iffD1)))] handle THM _ => [(elim, zero_rotate (th RS Data.notE))] handle THM _ => [(intro, th)]; in fold (uncurry Thm.attribute_declaration) decls context end); fun del_iff del = Thm.declaration_attribute (fn th => fn context => let val zero_rotate = zero_var_indexes o rotate_prems (Thm.nprems_of th); val rls = [zero_rotate (th RS Data.iffD2), Tactic.make_elim (zero_rotate (th RS Data.iffD1))] handle THM _ => [zero_rotate (th RS Data.notE)] handle THM _ => [th]; in fold (Thm.attribute_declaration del) rls context end); in val iff_add = Thm.declaration_attribute (fn th => Thm.attribute_declaration (add_iff (Classical.safe_elim NONE, Classical.safe_intro NONE) (Classical.unsafe_elim NONE, Classical.unsafe_intro NONE)) th #> Thm.attribute_declaration Simplifier.simp_add th); val iff_add' = add_iff (Context_Rules.elim_query NONE, Context_Rules.intro_query NONE) (Context_Rules.elim_query NONE, Context_Rules.intro_query NONE); val iff_del = Thm.declaration_attribute (fn th => Thm.attribute_declaration (del_iff Classical.rule_del) th #> Thm.attribute_declaration (del_iff Context_Rules.rule_del) th #> Thm.attribute_declaration Simplifier.simp_del th); end; (* tactics *) fun clarsimp_tac ctxt = Simplifier.safe_asm_full_simp_tac ctxt THEN_ALL_NEW Classical.clarify_tac (addSss ctxt); (* auto_tac *) (* a variant of depth_tac that avoids interference of the simplifier with dup_step_tac when they are combined by auto_tac *) local fun slow_step_tac' ctxt = Classical.appWrappers ctxt (Classical.instp_step_tac ctxt APPEND' Classical.unsafe_step_tac ctxt); in fun nodup_depth_tac ctxt m i st = SELECT_GOAL (Classical.safe_steps_tac ctxt 1 THEN_ELSE (DEPTH_SOLVE (nodup_depth_tac ctxt m 1), Classical.inst0_step_tac ctxt 1 APPEND COND (K (m = 0)) no_tac (slow_step_tac' ctxt 1 THEN DEPTH_SOLVE (nodup_depth_tac ctxt (m - 1) 1)))) i st; end; (*Designed to be idempotent, except if Blast.depth_tac instantiates variables in some of the subgoals*) fun mk_auto_tac ctxt m n = let val main_tac = Blast.depth_tac ctxt m (* fast but can't use wrappers *) ORELSE' (CHANGED o nodup_depth_tac (addss ctxt) n); (* slower but more general *) in PARALLEL_ALLGOALS (Simplifier.asm_full_simp_tac ctxt) THEN TRY (Classical.safe_tac ctxt) THEN REPEAT_DETERM (FIRSTGOAL main_tac) THEN TRY (Classical.safe_tac (addSss ctxt)) THEN prune_params_tac ctxt end; fun auto_tac ctxt = mk_auto_tac ctxt 4 2; (* force_tac *) (* aimed to solve the given subgoal totally, using whatever tools possible *) fun force_tac ctxt = let val ctxt' = addss ctxt in SELECT_GOAL (Classical.clarify_tac ctxt' 1 THEN IF_UNSOLVED (Simplifier.asm_full_simp_tac ctxt 1) THEN ALLGOALS (Classical.first_best_tac ctxt')) end; (* basic combinations *) val fast_force_tac = Classical.fast_tac o addss; val slow_simp_tac = Classical.slow_tac o addss; val best_simp_tac = Classical.best_tac o addss; (** concrete syntax **) (* attributes *) val _ = Theory.setup (Attrib.setup \<^binding>\iff\ (Scan.lift (Args.del >> K iff_del || Scan.option Args.add -- Args.query >> K iff_add' || Scan.option Args.add >> K iff_add)) "declaration of Simplifier / Classical rules"); (* method modifiers *) val iffN = "iff"; val iff_modifiers = [Args.$$$ iffN -- Scan.option Args.add -- Args.colon >> K (Method.modifier iff_add \<^here>), Args.$$$ iffN -- Scan.option Args.add -- Args.query_colon >> K (Method.modifier iff_add' \<^here>), Args.$$$ iffN -- Args.del -- Args.colon >> K (Method.modifier iff_del \<^here>)]; val clasimp_modifiers = Simplifier.simp_modifiers @ Splitter.split_modifiers @ Classical.cla_modifiers @ iff_modifiers; (* methods *) fun clasimp_method' tac = Method.sections clasimp_modifiers >> K (SIMPLE_METHOD' o tac); val auto_method = Scan.lift (Scan.option (Parse.nat -- Parse.nat)) --| Method.sections clasimp_modifiers >> (fn NONE => SIMPLE_METHOD o CHANGED_PROP o auto_tac | SOME (m, n) => (fn ctxt => SIMPLE_METHOD (CHANGED_PROP (mk_auto_tac ctxt m n)))); val _ = Theory.setup (Method.setup \<^binding>\fastforce\ (clasimp_method' fast_force_tac) "combined fast and simp" #> Method.setup \<^binding>\slowsimp\ (clasimp_method' slow_simp_tac) "combined slow and simp" #> Method.setup \<^binding>\bestsimp\ (clasimp_method' best_simp_tac) "combined best and simp" #> Method.setup \<^binding>\force\ (clasimp_method' force_tac) "force" #> Method.setup \<^binding>\auto\ auto_method "auto" #> Method.setup \<^binding>\clarsimp\ (clasimp_method' (CHANGED_PROP oo clarsimp_tac)) "clarify simplified goal"); end;