author | nipkow |
Fri, 15 Feb 2008 17:36:21 +0100 | |
changeset 26073 | 0e70d3bd2eb4 |
parent 24035 | 74c032aea9ed |
child 26110 | 06eacfd8dd9f |
permissions | -rw-r--r-- |
21163 | 1 |
(* Title: HOL/simpdata.ML |
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ID: $Id$ |
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Author: Tobias Nipkow |
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Copyright 1991 University of Cambridge |
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Instantiation of the generic simplifier for HOL. |
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*) |
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(** tools setup **) |
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structure Quantifier1 = Quantifier1Fun |
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(struct |
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(*abstract syntax*) |
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fun dest_eq ((c as Const("op =",_)) $ s $ t) = SOME (c, s, t) |
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| dest_eq _ = NONE; |
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fun dest_conj ((c as Const("op &",_)) $ s $ t) = SOME (c, s, t) |
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| dest_conj _ = NONE; |
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fun dest_imp ((c as Const("op -->",_)) $ s $ t) = SOME (c, s, t) |
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| dest_imp _ = NONE; |
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val conj = HOLogic.conj |
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val imp = HOLogic.imp |
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(*rules*) |
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val iff_reflection = @{thm eq_reflection} |
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val iffI = @{thm iffI} |
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val iff_trans = @{thm trans} |
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val conjI= @{thm conjI} |
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val conjE= @{thm conjE} |
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val impI = @{thm impI} |
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val mp = @{thm mp} |
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val uncurry = @{thm uncurry} |
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val exI = @{thm exI} |
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val exE = @{thm exE} |
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val iff_allI = @{thm iff_allI} |
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val iff_exI = @{thm iff_exI} |
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val all_comm = @{thm all_comm} |
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val ex_comm = @{thm ex_comm} |
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end); |
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structure Simpdata = |
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struct |
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fun mk_meta_eq r = r RS @{thm eq_reflection}; |
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fun safe_mk_meta_eq r = mk_meta_eq r handle Thm.THM _ => r; |
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fun mk_eq th = case concl_of th |
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(*expects Trueprop if not == *) |
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of Const ("==",_) $ _ $ _ => th |
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| _ $ (Const ("op =", _) $ _ $ _) => mk_meta_eq th |
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| _ $ (Const ("Not", _) $ _) => th RS @{thm Eq_FalseI} |
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| _ => th RS @{thm Eq_TrueI} |
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fun mk_eq_True r = |
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SOME (r RS @{thm meta_eq_to_obj_eq} RS @{thm Eq_TrueI}) handle Thm.THM _ => NONE; |
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(* Produce theorems of the form |
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(P1 =simp=> ... =simp=> Pn => x == y) ==> (P1 =simp=> ... =simp=> Pn => x = y) |
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*) |
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fun lift_meta_eq_to_obj_eq i st = |
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let |
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fun count_imp (Const ("HOL.simp_implies", _) $ P $ Q) = 1 + count_imp Q |
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| count_imp _ = 0; |
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val j = count_imp (Logic.strip_assums_concl (List.nth (prems_of st, i - 1))) |
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in if j = 0 then @{thm meta_eq_to_obj_eq} |
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else |
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let |
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val Ps = map (fn k => Free ("P" ^ string_of_int k, propT)) (1 upto j); |
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fun mk_simp_implies Q = foldr (fn (R, S) => |
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Const ("HOL.simp_implies", propT --> propT --> propT) $ R $ S) Q Ps |
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val aT = TFree ("'a", HOLogic.typeS); |
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val x = Free ("x", aT); |
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val y = Free ("y", aT) |
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in Goal.prove_global (Thm.theory_of_thm st) [] |
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[mk_simp_implies (Logic.mk_equals (x, y))] |
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(mk_simp_implies (HOLogic.mk_Trueprop (HOLogic.mk_eq (x, y)))) |
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(fn prems => EVERY |
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[rewrite_goals_tac @{thms simp_implies_def}, |
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REPEAT (ares_tac (@{thm meta_eq_to_obj_eq} :: |
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map (rewrite_rule @{thms simp_implies_def}) prems) 1)]) |
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end |
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end; |
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(*Congruence rules for = (instead of ==)*) |
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fun mk_meta_cong rl = zero_var_indexes |
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(let val rl' = Seq.hd (TRYALL (fn i => fn st => |
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rtac (lift_meta_eq_to_obj_eq i st) i st) rl) |
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in mk_meta_eq rl' handle THM _ => |
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if can Logic.dest_equals (concl_of rl') then rl' |
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else error "Conclusion of congruence rules must be =-equality" |
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end); |
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fun mk_atomize pairs = |
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let |
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fun atoms thm = |
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let |
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fun res th = map (fn rl => th RS rl); (*exception THM*) |
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fun res_fixed rls = |
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if Thm.maxidx_of (Thm.adjust_maxidx_thm ~1 thm) = ~1 then res thm rls |
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else Variable.trade (K (fn [thm'] => res thm' rls)) (Variable.thm_context thm) [thm]; |
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in |
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case concl_of thm |
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of Const ("Trueprop", _) $ p => (case head_of p |
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of Const (a, _) => (case AList.lookup (op =) pairs a |
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of SOME rls => (maps atoms (res_fixed rls) handle THM _ => [thm]) |
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| NONE => [thm]) |
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| _ => [thm]) |
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| _ => [thm] |
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end; |
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in atoms end; |
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fun mksimps pairs = |
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map_filter (try mk_eq) o mk_atomize pairs o gen_all; |
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fun unsafe_solver_tac prems = |
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(fn i => REPEAT_DETERM (match_tac @{thms simp_impliesI} i)) THEN' |
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FIRST' [resolve_tac (reflexive_thm :: @{thm TrueI} :: @{thm refl} :: prems), atac, |
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etac @{thm FalseE}]; |
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val unsafe_solver = mk_solver "HOL unsafe" unsafe_solver_tac; |
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(*No premature instantiation of variables during simplification*) |
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fun safe_solver_tac prems = |
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(fn i => REPEAT_DETERM (match_tac @{thms simp_impliesI} i)) THEN' |
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FIRST' [match_tac (reflexive_thm :: @{thm TrueI} :: @{thm refl} :: prems), |
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eq_assume_tac, ematch_tac @{thms FalseE}]; |
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val safe_solver = mk_solver "HOL safe" safe_solver_tac; |
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structure SplitterData = |
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struct |
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structure Simplifier = Simplifier |
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val mk_eq = mk_eq |
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val meta_eq_to_iff = @{thm meta_eq_to_obj_eq} |
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val iffD = @{thm iffD2} |
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val disjE = @{thm disjE} |
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val conjE = @{thm conjE} |
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val exE = @{thm exE} |
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val contrapos = @{thm contrapos_nn} |
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val contrapos2 = @{thm contrapos_pp} |
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val notnotD = @{thm notnotD} |
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end; |
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structure Splitter = SplitterFun(SplitterData); |
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val split_tac = Splitter.split_tac; |
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val split_inside_tac = Splitter.split_inside_tac; |
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val op addsplits = Splitter.addsplits; |
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val op delsplits = Splitter.delsplits; |
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val Addsplits = Splitter.Addsplits; |
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val Delsplits = Splitter.Delsplits; |
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(* integration of simplifier with classical reasoner *) |
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structure Clasimp = ClasimpFun |
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(structure Simplifier = Simplifier and Splitter = Splitter |
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and Classical = Classical and Blast = Blast |
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val iffD1 = @{thm iffD1} val iffD2 = @{thm iffD2} val notE = @{thm notE}); |
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open Clasimp; |
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val _ = ML_Context.value_antiq "clasimpset" |
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(Scan.succeed ("clasimpset", "Clasimp.local_clasimpset_of (ML_Context.the_local_context ())")); |
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val mksimps_pairs = |
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[("op -->", [@{thm mp}]), ("op &", [@{thm conjunct1}, @{thm conjunct2}]), |
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("All", [@{thm spec}]), ("True", []), ("False", []), |
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("HOL.If", [@{thm if_bool_eq_conj} RS @{thm iffD1}])]; |
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val HOL_basic_ss = |
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Simplifier.theory_context @{theory} empty_ss |
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setsubgoaler asm_simp_tac |
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setSSolver safe_solver |
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setSolver unsafe_solver |
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setmksimps (mksimps mksimps_pairs) |
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setmkeqTrue mk_eq_True |
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setmkcong mk_meta_cong; |
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fun hol_simplify rews = Simplifier.full_simplify (HOL_basic_ss addsimps rews); |
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fun unfold_tac ths = |
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let val ss0 = Simplifier.clear_ss HOL_basic_ss addsimps ths |
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in fn ss => ALLGOALS (full_simp_tac (Simplifier.inherit_context ss ss0)) end; |
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(** generic refutation procedure **) |
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(* parameters: |
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test: term -> bool |
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tests if a term is at all relevant to the refutation proof; |
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if not, then it can be discarded. Can improve performance, |
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esp. if disjunctions can be discarded (no case distinction needed!). |
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prep_tac: int -> tactic |
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A preparation tactic to be applied to the goal once all relevant premises |
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have been moved to the conclusion. |
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ref_tac: int -> tactic |
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the actual refutation tactic. Should be able to deal with goals |
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[| A1; ...; An |] ==> False |
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where the Ai are atomic, i.e. no top-level &, | or EX |
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*) |
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local |
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val nnf_simpset = |
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empty_ss setmkeqTrue mk_eq_True |
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setmksimps (mksimps mksimps_pairs) |
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addsimps [@{thm imp_conv_disj}, @{thm iff_conv_conj_imp}, @{thm de_Morgan_disj}, |
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@{thm de_Morgan_conj}, @{thm not_all}, @{thm not_ex}, @{thm not_not}]; |
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fun prem_nnf_tac i st = |
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full_simp_tac (Simplifier.theory_context (Thm.theory_of_thm st) nnf_simpset) i st; |
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in |
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fun refute_tac test prep_tac ref_tac = |
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let val refute_prems_tac = |
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REPEAT_DETERM |
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(eresolve_tac [@{thm conjE}, @{thm exE}] 1 ORELSE |
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filter_prems_tac test 1 ORELSE |
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etac @{thm disjE} 1) THEN |
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(DETERM (etac @{thm notE} 1 THEN eq_assume_tac 1) ORELSE |
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ref_tac 1); |
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in EVERY'[TRY o filter_prems_tac test, |
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REPEAT_DETERM o etac @{thm rev_mp}, prep_tac, rtac @{thm ccontr}, prem_nnf_tac, |
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SELECT_GOAL (DEPTH_SOLVE refute_prems_tac)] |
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end; |
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end; |
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val defALL_regroup = |
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Simplifier.simproc @{theory} |
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"defined ALL" ["ALL x. P x"] Quantifier1.rearrange_all; |
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val defEX_regroup = |
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Simplifier.simproc @{theory} |
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"defined EX" ["EX x. P x"] Quantifier1.rearrange_ex; |
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val simpset_simprocs = HOL_basic_ss addsimprocs [defALL_regroup, defEX_regroup] |
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end; |
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structure Splitter = Simpdata.Splitter; |
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structure Clasimp = Simpdata.Clasimp; |