author | nipkow |
Fri, 05 Aug 2005 12:20:30 +0200 | |
changeset 17022 | b257300c3a9c |
parent 17003 | b902e11b3df1 |
child 17197 | 917c6e7ca28d |
permissions | -rw-r--r-- |
1465 | 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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||
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Instantiation of the generic simplifier for HOL. |
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*) |
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||
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(* legacy ML bindings *) |
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|
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val Eq_FalseI = thm "Eq_FalseI"; |
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val Eq_TrueI = thm "Eq_TrueI"; |
|
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val all_conj_distrib = thm "all_conj_distrib"; |
|
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val all_simps = thms "all_simps"; |
|
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val cases_simp = thm "cases_simp"; |
|
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val conj_assoc = thm "conj_assoc"; |
|
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val conj_comms = thms "conj_comms"; |
|
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val conj_commute = thm "conj_commute"; |
|
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val conj_cong = thm "conj_cong"; |
|
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val conj_disj_distribL = thm "conj_disj_distribL"; |
|
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val conj_disj_distribR = thm "conj_disj_distribR"; |
|
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val conj_left_commute = thm "conj_left_commute"; |
|
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val de_Morgan_conj = thm "de_Morgan_conj"; |
|
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val de_Morgan_disj = thm "de_Morgan_disj"; |
|
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val disj_assoc = thm "disj_assoc"; |
|
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val disj_comms = thms "disj_comms"; |
|
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val disj_commute = thm "disj_commute"; |
|
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val disj_cong = thm "disj_cong"; |
|
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val disj_conj_distribL = thm "disj_conj_distribL"; |
|
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val disj_conj_distribR = thm "disj_conj_distribR"; |
|
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val disj_left_commute = thm "disj_left_commute"; |
|
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val disj_not1 = thm "disj_not1"; |
|
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val disj_not2 = thm "disj_not2"; |
|
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val eq_ac = thms "eq_ac"; |
|
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val eq_assoc = thm "eq_assoc"; |
|
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val eq_commute = thm "eq_commute"; |
|
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val eq_left_commute = thm "eq_left_commute"; |
|
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val eq_sym_conv = thm "eq_sym_conv"; |
|
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val eta_contract_eq = thm "eta_contract_eq"; |
|
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val ex_disj_distrib = thm "ex_disj_distrib"; |
|
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val ex_simps = thms "ex_simps"; |
|
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val if_False = thm "if_False"; |
|
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val if_P = thm "if_P"; |
|
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val if_True = thm "if_True"; |
|
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val if_bool_eq_conj = thm "if_bool_eq_conj"; |
|
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val if_bool_eq_disj = thm "if_bool_eq_disj"; |
|
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val if_cancel = thm "if_cancel"; |
|
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val if_def2 = thm "if_def2"; |
|
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val if_eq_cancel = thm "if_eq_cancel"; |
|
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val if_not_P = thm "if_not_P"; |
|
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val if_splits = thms "if_splits"; |
|
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val iff_conv_conj_imp = thm "iff_conv_conj_imp"; |
|
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val imp_all = thm "imp_all"; |
|
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val imp_cong = thm "imp_cong"; |
|
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val imp_conjL = thm "imp_conjL"; |
|
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val imp_conjR = thm "imp_conjR"; |
|
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val imp_conv_disj = thm "imp_conv_disj"; |
|
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val imp_disj1 = thm "imp_disj1"; |
|
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val imp_disj2 = thm "imp_disj2"; |
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val imp_disjL = thm "imp_disjL"; |
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val imp_disj_not1 = thm "imp_disj_not1"; |
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val imp_disj_not2 = thm "imp_disj_not2"; |
|
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val imp_ex = thm "imp_ex"; |
|
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val meta_eq_to_obj_eq = thm "meta_eq_to_obj_eq"; |
|
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val neq_commute = thm "neq_commute"; |
|
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val not_all = thm "not_all"; |
|
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val not_ex = thm "not_ex"; |
|
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val not_iff = thm "not_iff"; |
|
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val not_imp = thm "not_imp"; |
|
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val not_not = thm "not_not"; |
|
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val rev_conj_cong = thm "rev_conj_cong"; |
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val simp_impliesE = thm "simp_impliesI"; |
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val simp_impliesI = thm "simp_impliesI"; |
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val simp_implies_cong = thm "simp_implies_cong"; |
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val simp_implies_def = thm "simp_implies_def"; |
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val simp_thms = thms "simp_thms"; |
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val split_if = thm "split_if"; |
|
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val split_if_asm = thm "split_if_asm"; |
|
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val atomize_not = thm"atomize_not"; |
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|
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local |
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val uncurry = prove_goal (the_context()) "P --> Q --> R ==> P & Q --> R" |
|
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(fn prems => [cut_facts_tac prems 1, Blast_tac 1]); |
|
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||
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val iff_allI = allI RS |
|
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prove_goal (the_context()) "!x. P x = Q x ==> (!x. P x) = (!x. Q x)" |
|
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(fn prems => [cut_facts_tac prems 1, Blast_tac 1]) |
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val iff_exI = allI RS |
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prove_goal (the_context()) "!x. P x = Q x ==> (? x. P x) = (? x. Q x)" |
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(fn prems => [cut_facts_tac prems 1, Blast_tac 1]) |
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|
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val all_comm = prove_goal (the_context()) "(!x y. P x y) = (!y x. P x y)" |
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(fn _ => [Blast_tac 1]) |
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val ex_comm = prove_goal (the_context()) "(? x y. P x y) = (? y x. P x y)" |
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(fn _ => [Blast_tac 1]) |
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in |
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|
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(*** make simplification procedures for quantifier elimination ***) |
|
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||
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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 = eq_reflection |
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val iffI = iffI |
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val iff_trans = trans |
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val conjI= conjI |
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val conjE= conjE |
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val impI = impI |
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val mp = mp |
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val uncurry = uncurry |
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val exI = exI |
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val exE = exE |
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val iff_allI = iff_allI |
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val iff_exI = iff_exI |
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val all_comm = all_comm |
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val ex_comm = ex_comm |
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end); |
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||
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end; |
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||
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val defEX_regroup = |
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Simplifier.simproc (Theory.sign_of (the_context ())) |
|
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"defined EX" ["EX x. P x"] Quantifier1.rearrange_ex; |
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val defALL_regroup = |
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Simplifier.simproc (Theory.sign_of (the_context ())) |
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"defined ALL" ["ALL x. P x"] Quantifier1.rearrange_all; |
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|
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(*** Simproc for Let ***) |
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||
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val use_let_simproc = ref true; |
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||
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local |
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val Let_folded = thm "Let_folded"; |
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val Let_unfold = thm "Let_unfold"; |
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||
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val f_Let_unfold = |
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let val [(_$(f$_)$_)] = prems_of Let_unfold in cterm_of (sign_of (the_context ())) f end |
|
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val f_Let_folded = |
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let val [(_$(f$_)$_)] = prems_of Let_folded in cterm_of (sign_of (the_context ())) f end; |
|
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val g_Let_folded = |
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let val [(_$_$(g$_))] = prems_of Let_folded in cterm_of (sign_of (the_context ())) g end; |
|
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in |
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val let_simproc = |
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Simplifier.simproc (Theory.sign_of (the_context ())) "let_simp" ["Let x f"] |
|
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(fn sg => fn ss => fn t => |
|
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(case t of (Const ("Let",_)$x$f) => (* x and f are already in normal form *) |
|
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if not (!use_let_simproc) then NONE |
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else if is_Free x orelse is_Bound x orelse is_Const x |
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then SOME Let_def |
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else |
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let |
|
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val n = case f of (Abs (x,_,_)) => x | _ => "x"; |
|
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val cx = cterm_of sg x; |
|
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val {T=xT,...} = rep_cterm cx; |
|
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val cf = cterm_of sg f; |
|
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val fx_g = Simplifier.rewrite ss (Thm.capply cf cx); |
|
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val (_$_$g) = prop_of fx_g; |
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val g' = abstract_over (x,g); |
|
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in (if (g aconv g') |
|
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then |
|
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let |
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val rl = cterm_instantiate [(f_Let_unfold,cf)] Let_unfold; |
|
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in SOME (rl OF [fx_g]) end |
174 |
else if betapply (f,x) aconv g then NONE (* avoid identity conversion *) |
|
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else let |
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val abs_g'= Abs (n,xT,g'); |
|
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val g'x = abs_g'$x; |
|
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val g_g'x = symmetric (beta_conversion false (cterm_of sg g'x)); |
|
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val rl = cterm_instantiate |
|
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[(f_Let_folded,cterm_of sg f), |
|
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(g_Let_folded,cterm_of sg abs_g')] |
|
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Let_folded; |
|
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in SOME (rl OF [transitive fx_g g_g'x]) end) |
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end |
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| _ => NONE)) |
15423 | 186 |
end |
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|
188 |
(*** Case splitting ***) |
|
3913 | 189 |
|
12278 | 190 |
(*Make meta-equalities. The operator below is Trueprop*) |
191 |
||
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fun mk_meta_eq r = r RS eq_reflection; |
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fun safe_mk_meta_eq r = mk_meta_eq r handle Thm.THM _ => r; |
194 |
||
195 |
fun mk_eq th = case concl_of th of |
|
196 |
Const("==",_)$_$_ => th |
|
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| _$(Const("op =",_)$_$_) => mk_meta_eq th |
|
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| _$(Const("Not",_)$_) => th RS Eq_FalseI |
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| _ => th RS Eq_TrueI; |
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(* Expects Trueprop(.) if not == *) |
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|
202 |
fun mk_eq_True r = |
|
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SOME (r RS meta_eq_to_obj_eq RS Eq_TrueI) handle Thm.THM _ => NONE; |
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|
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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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207 |
*) |
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208 |
fun lift_meta_eq_to_obj_eq i st = |
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let |
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val {sign, ...} = rep_thm st; |
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fun count_imp (Const ("HOL.op =simp=>", _) $ 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 meta_eq_to_obj_eq |
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else |
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let |
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217 |
val Ps = map (fn k => Free ("P" ^ string_of_int k, propT)) (1 upto j); |
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218 |
fun mk_simp_implies Q = foldr (fn (R, S) => |
16999 | 219 |
Const ("HOL.op =simp=>", 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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223 |
in prove_goalw_cterm [simp_implies_def] |
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224 |
(cterm_of sign (Logic.mk_implies |
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(mk_simp_implies (Logic.mk_equals (x, y)), |
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226 |
mk_simp_implies (HOLogic.mk_Trueprop (HOLogic.mk_eq (x, y)))))) |
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(fn hyps => [REPEAT (ares_tac (meta_eq_to_obj_eq :: hyps) 1)]) |
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228 |
end |
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229 |
end; |
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230 |
|
12278 | 231 |
(*Congruence rules for = (instead of ==)*) |
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232 |
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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235 |
in mk_meta_eq rl' handle THM _ => |
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236 |
if Logic.is_equals (concl_of rl') then rl' |
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237 |
else error "Conclusion of congruence rules must be =-equality" |
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238 |
end); |
12278 | 239 |
|
240 |
(* Elimination of True from asumptions: *) |
|
241 |
||
242 |
local fun rd s = read_cterm (sign_of (the_context())) (s, propT); |
|
243 |
in val True_implies_equals = standard' (equal_intr |
|
244 |
(implies_intr_hyps (implies_elim (assume (rd "True ==> PROP P")) TrueI)) |
|
245 |
(implies_intr_hyps (implies_intr (rd "True") (assume (rd "PROP P"))))); |
|
246 |
end; |
|
247 |
||
248 |
||
5304 | 249 |
structure SplitterData = |
250 |
struct |
|
251 |
structure Simplifier = Simplifier |
|
5552 | 252 |
val mk_eq = mk_eq |
5304 | 253 |
val meta_eq_to_iff = meta_eq_to_obj_eq |
254 |
val iffD = iffD2 |
|
255 |
val disjE = disjE |
|
256 |
val conjE = conjE |
|
257 |
val exE = exE |
|
10231 | 258 |
val contrapos = contrapos_nn |
259 |
val contrapos2 = contrapos_pp |
|
5304 | 260 |
val notnotD = notnotD |
261 |
end; |
|
4681 | 262 |
|
5304 | 263 |
structure Splitter = SplitterFun(SplitterData); |
2263 | 264 |
|
5304 | 265 |
val split_tac = Splitter.split_tac; |
266 |
val split_inside_tac = Splitter.split_inside_tac; |
|
267 |
val split_asm_tac = Splitter.split_asm_tac; |
|
5307 | 268 |
val op addsplits = Splitter.addsplits; |
269 |
val op delsplits = Splitter.delsplits; |
|
5304 | 270 |
val Addsplits = Splitter.Addsplits; |
271 |
val Delsplits = Splitter.Delsplits; |
|
4718
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new rewrite rules not1_or, not2_or, and if_eq_cancel
oheimb
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diff
changeset
|
272 |
|
2134 | 273 |
val mksimps_pairs = |
274 |
[("op -->", [mp]), ("op &", [conjunct1,conjunct2]), |
|
275 |
("All", [spec]), ("True", []), ("False", []), |
|
16587 | 276 |
("HOL.If", [if_bool_eq_conj RS iffD1])]; |
1758 | 277 |
|
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diff
changeset
|
278 |
(* |
5304 | 279 |
val mk_atomize: (string * thm list) list -> thm -> thm list |
13568
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parents:
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diff
changeset
|
280 |
looks too specific to move it somewhere else |
5304 | 281 |
*) |
282 |
fun mk_atomize pairs = |
|
283 |
let fun atoms th = |
|
284 |
(case concl_of th of |
|
285 |
Const("Trueprop",_) $ p => |
|
286 |
(case head_of p of |
|
287 |
Const(a,_) => |
|
288 |
(case assoc(pairs,a) of |
|
15570 | 289 |
SOME(rls) => List.concat (map atoms ([th] RL rls)) |
15531 | 290 |
| NONE => [th]) |
5304 | 291 |
| _ => [th]) |
292 |
| _ => [th]) |
|
293 |
in atoms end; |
|
294 |
||
11624
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mksimps and mk_eq_True no longer raise THM exception.
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diff
changeset
|
295 |
fun mksimps pairs = |
15570 | 296 |
(List.mapPartial (try mk_eq) o mk_atomize pairs o gen_all); |
5304 | 297 |
|
7570 | 298 |
fun unsafe_solver_tac prems = |
16633
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Implemented trick (due to Tobias Nipkow) for fine-tuning simplification
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parents:
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diff
changeset
|
299 |
(fn i => REPEAT_DETERM (match_tac [simp_impliesI] i)) THEN' |
7570 | 300 |
FIRST'[resolve_tac(reflexive_thm::TrueI::refl::prems), atac, etac FalseE]; |
301 |
val unsafe_solver = mk_solver "HOL unsafe" unsafe_solver_tac; |
|
302 |
||
2636
4b30dbe4a020
added delcongs, Delcongs, unsafe_solver, safe_solver, HOL_basic_ss,
oheimb
parents:
2595
diff
changeset
|
303 |
(*No premature instantiation of variables during simplification*) |
7570 | 304 |
fun safe_solver_tac prems = |
16633
208ebc9311f2
Implemented trick (due to Tobias Nipkow) for fine-tuning simplification
berghofe
parents:
16587
diff
changeset
|
305 |
(fn i => REPEAT_DETERM (match_tac [simp_impliesI] i)) THEN' |
7570 | 306 |
FIRST'[match_tac(reflexive_thm::TrueI::refl::prems), |
307 |
eq_assume_tac, ematch_tac [FalseE]]; |
|
308 |
val safe_solver = mk_solver "HOL safe" safe_solver_tac; |
|
2443
a81d4c219c3c
factored out HOL_base_ss and val HOL_min_ss, added HOL_safe_min_ss
oheimb
parents:
2263
diff
changeset
|
309 |
|
9713 | 310 |
val HOL_basic_ss = |
311 |
empty_ss setsubgoaler asm_simp_tac |
|
312 |
setSSolver safe_solver |
|
313 |
setSolver unsafe_solver |
|
314 |
setmksimps (mksimps mksimps_pairs) |
|
315 |
setmkeqTrue mk_eq_True |
|
316 |
setmkcong mk_meta_cong; |
|
2443
a81d4c219c3c
factored out HOL_base_ss and val HOL_min_ss, added HOL_safe_min_ss
oheimb
parents:
2263
diff
changeset
|
317 |
|
17003 | 318 |
fun unfold_tac ss ths = |
319 |
ALLGOALS (full_simp_tac |
|
320 |
(Simplifier.inherit_bounds ss (Simplifier.clear_ss HOL_basic_ss) addsimps ths)); |
|
321 |
||
13568
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preserve names of rewrite rules when transforming them
nipkow
parents:
13462
diff
changeset
|
322 |
(*In general it seems wrong to add distributive laws by default: they |
6b12df05f358
preserve names of rewrite rules when transforming them
nipkow
parents:
13462
diff
changeset
|
323 |
might cause exponential blow-up. But imp_disjL has been in for a while |
6b12df05f358
preserve names of rewrite rules when transforming them
nipkow
parents:
13462
diff
changeset
|
324 |
and cannot be removed without affecting existing proofs. Moreover, |
6b12df05f358
preserve names of rewrite rules when transforming them
nipkow
parents:
13462
diff
changeset
|
325 |
rewriting by "(P|Q --> R) = ((P-->R)&(Q-->R))" might be justified on the |
6b12df05f358
preserve names of rewrite rules when transforming them
nipkow
parents:
13462
diff
changeset
|
326 |
grounds that it allows simplification of R in the two cases.*) |
6b12df05f358
preserve names of rewrite rules when transforming them
nipkow
parents:
13462
diff
changeset
|
327 |
|
9713 | 328 |
val HOL_ss = |
329 |
HOL_basic_ss addsimps |
|
3446
a14e5451f613
Addition of not_imp (which pushes negation into implication) as a default
paulson
parents:
3282
diff
changeset
|
330 |
([triv_forall_equality, (* prunes params *) |
3654 | 331 |
True_implies_equals, (* prune asms `True' *) |
9023 | 332 |
eta_contract_eq, (* prunes eta-expansions *) |
4718
fc2ba9fb2135
new rewrite rules not1_or, not2_or, and if_eq_cancel
oheimb
parents:
4681
diff
changeset
|
333 |
if_True, if_False, if_cancel, if_eq_cancel, |
5304 | 334 |
imp_disjL, conj_assoc, disj_assoc, |
3904 | 335 |
de_Morgan_conj, de_Morgan_disj, imp_disj1, imp_disj2, not_imp, |
11451
8abfb4f7bd02
partial restructuring to reduce dependence on Axiom of Choice
paulson
parents:
11434
diff
changeset
|
336 |
disj_not1, not_all, not_ex, cases_simp, |
14430
5cb24165a2e1
new material from Avigad, and simplified treatment of division by 0
paulson
parents:
13743
diff
changeset
|
337 |
thm "the_eq_trivial", the_sym_eq_trivial] |
3446
a14e5451f613
Addition of not_imp (which pushes negation into implication) as a default
paulson
parents:
3282
diff
changeset
|
338 |
@ ex_simps @ all_simps @ simp_thms) |
15423 | 339 |
addsimprocs [defALL_regroup,defEX_regroup,let_simproc] |
16633
208ebc9311f2
Implemented trick (due to Tobias Nipkow) for fine-tuning simplification
berghofe
parents:
16587
diff
changeset
|
340 |
addcongs [imp_cong, simp_implies_cong] |
4830 | 341 |
addsplits [split_if]; |
2082 | 342 |
|
11034 | 343 |
fun hol_simplify rews = Simplifier.full_simplify (HOL_basic_ss addsimps rews); |
344 |
||
345 |
||
6293 | 346 |
(*Simplifies x assuming c and y assuming ~c*) |
347 |
val prems = Goalw [if_def] |
|
348 |
"[| b=c; c ==> x=u; ~c ==> y=v |] ==> \ |
|
349 |
\ (if b then x else y) = (if c then u else v)"; |
|
350 |
by (asm_simp_tac (HOL_ss addsimps prems) 1); |
|
351 |
qed "if_cong"; |
|
352 |
||
7127
48e235179ffb
added parentheses to cope with a possible reduction of the precedence of unary
paulson
parents:
7031
diff
changeset
|
353 |
(*Prevents simplification of x and y: faster and allows the execution |
48e235179ffb
added parentheses to cope with a possible reduction of the precedence of unary
paulson
parents:
7031
diff
changeset
|
354 |
of functional programs. NOW THE DEFAULT.*) |
7031 | 355 |
Goal "b=c ==> (if b then x else y) = (if c then x else y)"; |
356 |
by (etac arg_cong 1); |
|
357 |
qed "if_weak_cong"; |
|
6293 | 358 |
|
359 |
(*Prevents simplification of t: much faster*) |
|
7031 | 360 |
Goal "a = b ==> (let x=a in t(x)) = (let x=b in t(x))"; |
361 |
by (etac arg_cong 1); |
|
362 |
qed "let_weak_cong"; |
|
6293 | 363 |
|
12975 | 364 |
(*To tidy up the result of a simproc. Only the RHS will be simplified.*) |
365 |
Goal "u = u' ==> (t==u) == (t==u')"; |
|
366 |
by (asm_simp_tac HOL_ss 1); |
|
367 |
qed "eq_cong2"; |
|
368 |
||
7031 | 369 |
Goal "f(if c then x else y) = (if c then f x else f y)"; |
370 |
by (simp_tac (HOL_ss setloop (split_tac [split_if])) 1); |
|
371 |
qed "if_distrib"; |
|
1655 | 372 |
|
4327 | 373 |
(*For expand_case_tac*) |
7584 | 374 |
val prems = Goal "[| P ==> Q(True); ~P ==> Q(False) |] ==> Q(P)"; |
2948
f18035b1d531
Moved expand_case_tac from Auth/Message.ML to simpdata.ML
paulson
parents:
2935
diff
changeset
|
375 |
by (case_tac "P" 1); |
f18035b1d531
Moved expand_case_tac from Auth/Message.ML to simpdata.ML
paulson
parents:
2935
diff
changeset
|
376 |
by (ALLGOALS (asm_simp_tac (HOL_ss addsimps prems))); |
7584 | 377 |
qed "expand_case"; |
2948
f18035b1d531
Moved expand_case_tac from Auth/Message.ML to simpdata.ML
paulson
parents:
2935
diff
changeset
|
378 |
|
4327 | 379 |
(*Used in Auth proofs. Typically P contains Vars that become instantiated |
380 |
during unification.*) |
|
2948
f18035b1d531
Moved expand_case_tac from Auth/Message.ML to simpdata.ML
paulson
parents:
2935
diff
changeset
|
381 |
fun expand_case_tac P i = |
f18035b1d531
Moved expand_case_tac from Auth/Message.ML to simpdata.ML
paulson
parents:
2935
diff
changeset
|
382 |
res_inst_tac [("P",P)] expand_case i THEN |
9713 | 383 |
Simp_tac (i+1) THEN |
2948
f18035b1d531
Moved expand_case_tac from Auth/Message.ML to simpdata.ML
paulson
parents:
2935
diff
changeset
|
384 |
Simp_tac i; |
f18035b1d531
Moved expand_case_tac from Auth/Message.ML to simpdata.ML
paulson
parents:
2935
diff
changeset
|
385 |
|
7584 | 386 |
(*This lemma restricts the effect of the rewrite rule u=v to the left-hand |
387 |
side of an equality. Used in {Integ,Real}/simproc.ML*) |
|
388 |
Goal "x=y ==> (x=z) = (y=z)"; |
|
389 |
by (asm_simp_tac HOL_ss 1); |
|
390 |
qed "restrict_to_left"; |
|
2948
f18035b1d531
Moved expand_case_tac from Auth/Message.ML to simpdata.ML
paulson
parents:
2935
diff
changeset
|
391 |
|
7357 | 392 |
(* default simpset *) |
9713 | 393 |
val simpsetup = |
394 |
[fn thy => (simpset_ref_of thy := HOL_ss addcongs [if_weak_cong]; thy)]; |
|
3615
e5322197cfea
Moved some functions which used to be part of thy_data.ML
berghofe
parents:
3577
diff
changeset
|
395 |
|
4652
d24cca140eeb
factored out common code of HOL/simpdata.ML and FOL/simpdata.ML concerning
oheimb
parents:
4651
diff
changeset
|
396 |
|
5219 | 397 |
(*** integration of simplifier with classical reasoner ***) |
2636
4b30dbe4a020
added delcongs, Delcongs, unsafe_solver, safe_solver, HOL_basic_ss,
oheimb
parents:
2595
diff
changeset
|
398 |
|
5219 | 399 |
structure Clasimp = ClasimpFun |
8473 | 400 |
(structure Simplifier = Simplifier and Splitter = Splitter |
9851 | 401 |
and Classical = Classical and Blast = Blast |
11344 | 402 |
val iffD1 = iffD1 val iffD2 = iffD2 val notE = notE |
9851 | 403 |
val cla_make_elim = cla_make_elim); |
4652
d24cca140eeb
factored out common code of HOL/simpdata.ML and FOL/simpdata.ML concerning
oheimb
parents:
4651
diff
changeset
|
404 |
open Clasimp; |
2636
4b30dbe4a020
added delcongs, Delcongs, unsafe_solver, safe_solver, HOL_basic_ss,
oheimb
parents:
2595
diff
changeset
|
405 |
|
4b30dbe4a020
added delcongs, Delcongs, unsafe_solver, safe_solver, HOL_basic_ss,
oheimb
parents:
2595
diff
changeset
|
406 |
val HOL_css = (HOL_cs, HOL_ss); |
5975
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
407 |
|
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
408 |
|
8641
978db2870862
change_global/local_css move to Provers/clasimp.ML;
wenzelm
parents:
8473
diff
changeset
|
409 |
|
5975
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
410 |
(*** A general refutation procedure ***) |
9713 | 411 |
|
5975
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
412 |
(* Parameters: |
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
413 |
|
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
414 |
test: term -> bool |
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
415 |
tests if a term is at all relevant to the refutation proof; |
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
416 |
if not, then it can be discarded. Can improve performance, |
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
417 |
esp. if disjunctions can be discarded (no case distinction needed!). |
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
418 |
|
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
419 |
prep_tac: int -> tactic |
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
420 |
A preparation tactic to be applied to the goal once all relevant premises |
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
421 |
have been moved to the conclusion. |
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
422 |
|
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
423 |
ref_tac: int -> tactic |
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
424 |
the actual refutation tactic. Should be able to deal with goals |
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
425 |
[| A1; ...; An |] ==> False |
9876 | 426 |
where the Ai are atomic, i.e. no top-level &, | or EX |
5975
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
427 |
*) |
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
428 |
|
15184 | 429 |
local |
430 |
val nnf_simps = |
|
5975
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
431 |
[imp_conv_disj,iff_conv_conj_imp,de_Morgan_disj,de_Morgan_conj, |
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
432 |
not_all,not_ex,not_not]; |
15184 | 433 |
val nnf_simpset = |
5975
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
434 |
empty_ss setmkeqTrue mk_eq_True |
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
435 |
setmksimps (mksimps mksimps_pairs) |
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
436 |
addsimps nnf_simps; |
15184 | 437 |
val prem_nnf_tac = full_simp_tac nnf_simpset |
438 |
in |
|
439 |
fun refute_tac test prep_tac ref_tac = |
|
440 |
let val refute_prems_tac = |
|
12475 | 441 |
REPEAT_DETERM |
442 |
(eresolve_tac [conjE, exE] 1 ORELSE |
|
5975
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
443 |
filter_prems_tac test 1 ORELSE |
6301 | 444 |
etac disjE 1) THEN |
11200
f43fa07536c0
arith_tac now copes with propositional reasoning as well.
nipkow
parents:
11162
diff
changeset
|
445 |
((etac notE 1 THEN eq_assume_tac 1) ORELSE |
f43fa07536c0
arith_tac now copes with propositional reasoning as well.
nipkow
parents:
11162
diff
changeset
|
446 |
ref_tac 1); |
5975
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
447 |
in EVERY'[TRY o filter_prems_tac test, |
12475 | 448 |
REPEAT_DETERM o etac rev_mp, prep_tac, rtac ccontr, prem_nnf_tac, |
5975
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
449 |
SELECT_GOAL (DEPTH_SOLVE refute_prems_tac)] |
cd19eaa90f45
Added a general refutation tactic which works by putting things into nnf first.
nipkow
parents:
5552
diff
changeset
|
450 |
end; |
17003 | 451 |
end; |