author | nipkow |
Mon, 13 Sep 2010 11:13:15 +0200 | |
changeset 39302 | d7728f65b353 |
parent 39159 | 0dec18004e75 |
permissions | -rw-r--r-- |
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(* Title: HOLCF/IOA/ABP/Correctness.thy |
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Author: Olaf Müller |
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*) |
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header {* The main correctness proof: System_fin implements System *} |
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theory Correctness |
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imports IOA Env Impl Impl_finite |
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uses "Check.ML" |
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begin |
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primrec reduce :: "'a list => 'a list" |
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where |
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reduce_Nil: "reduce [] = []" |
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| reduce_Cons: "reduce(x#xs) = |
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(case xs of |
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[] => [x] |
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| y#ys => (if (x=y) |
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then reduce xs |
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else (x#(reduce xs))))" |
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definition |
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abs where |
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"abs = |
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(%p.(fst(p),(fst(snd(p)),(fst(snd(snd(p))), |
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(reduce(fst(snd(snd(snd(p))))),reduce(snd(snd(snd(snd(p))))))))))" |
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definition |
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system_ioa :: "('m action, bool * 'm impl_state)ioa" where |
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"system_ioa = (env_ioa || impl_ioa)" |
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definition |
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system_fin_ioa :: "('m action, bool * 'm impl_state)ioa" where |
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"system_fin_ioa = (env_ioa || impl_fin_ioa)" |
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axiomatization where |
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sys_IOA: "IOA system_ioa" and |
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sys_fin_IOA: "IOA system_fin_ioa" |
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declare split_paired_All [simp del] Collect_empty_eq [simp del] |
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lemmas [simp] = |
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srch_asig_def rsch_asig_def rsch_ioa_def srch_ioa_def ch_ioa_def |
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ch_asig_def srch_actions_def rsch_actions_def rename_def rename_set_def asig_of_def |
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actions_def exis_elim srch_trans_def rsch_trans_def ch_trans_def |
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trans_of_def asig_projections set_lemmas |
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lemmas abschannel_fin [simp] = |
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srch_fin_asig_def rsch_fin_asig_def |
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rsch_fin_ioa_def srch_fin_ioa_def |
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ch_fin_ioa_def ch_fin_trans_def ch_fin_asig_def |
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lemmas impl_ioas = sender_ioa_def receiver_ioa_def |
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and impl_trans = sender_trans_def receiver_trans_def |
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and impl_asigs = sender_asig_def receiver_asig_def |
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declare let_weak_cong [cong] |
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declare ioa_triple_proj [simp] starts_of_par [simp] |
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lemmas env_ioas = env_ioa_def env_asig_def env_trans_def |
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lemmas hom_ioas = |
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env_ioas [simp] impl_ioas [simp] impl_trans [simp] impl_asigs [simp] |
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asig_projections set_lemmas |
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subsection {* lemmas about reduce *} |
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lemma l_iff_red_nil: "(reduce l = []) = (l = [])" |
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by (induct l) (auto split: list.split) |
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lemma hd_is_reduce_hd: "s ~= [] --> hd s = hd (reduce s)" |
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by (induct s) (auto split: list.split) |
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text {* to be used in the following Lemma *} |
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lemma rev_red_not_nil [rule_format]: |
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"l ~= [] --> reverse (reduce l) ~= []" |
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by (induct l) (auto split: list.split) |
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text {* shows applicability of the induction hypothesis of the following Lemma 1 *} |
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lemma last_ind_on_first: |
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"l ~= [] ==> hd (reverse (reduce (a # l))) = hd (reverse (reduce l))" |
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apply simp |
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apply (tactic {* auto_tac (@{claset}, |
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HOL_ss addsplits [@{thm list.split}] |
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addsimps (@{thms reverse.simps} @ [@{thm hd_append}, @{thm rev_red_not_nil}])) *}) |
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done |
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text {* Main Lemma 1 for @{text "S_pkt"} in showing that reduce is refinement. *} |
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lemma reduce_hd: |
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"if x=hd(reverse(reduce(l))) & reduce(l)~=[] then |
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reduce(l@[x])=reduce(l) else |
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reduce(l@[x])=reduce(l)@[x]" |
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apply (simplesubst split_if) |
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apply (rule conjI) |
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txt {* @{text "-->"} *} |
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apply (induct_tac "l") |
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apply (simp (no_asm)) |
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apply (case_tac "list=[]") |
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apply simp |
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apply (rule impI) |
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apply (simp (no_asm)) |
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apply (cut_tac l = "list" in cons_not_nil) |
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apply (simp del: reduce_Cons) |
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apply (erule exE)+ |
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apply hypsubst |
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apply (simp del: reduce_Cons add: last_ind_on_first l_iff_red_nil) |
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txt {* @{text "<--"} *} |
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apply (simp (no_asm) add: and_de_morgan_and_absorbe l_iff_red_nil) |
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apply (induct_tac "l") |
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apply (simp (no_asm)) |
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apply (case_tac "list=[]") |
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apply (cut_tac [2] l = "list" in cons_not_nil) |
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apply simp |
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apply (auto simp del: reduce_Cons simp add: last_ind_on_first l_iff_red_nil split: split_if) |
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apply simp |
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done |
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text {* Main Lemma 2 for R_pkt in showing that reduce is refinement. *} |
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lemma reduce_tl: "s~=[] ==> |
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if hd(s)=hd(tl(s)) & tl(s)~=[] then |
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reduce(tl(s))=reduce(s) else |
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reduce(tl(s))=tl(reduce(s))" |
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apply (cut_tac l = "s" in cons_not_nil) |
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apply simp |
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apply (erule exE)+ |
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apply (auto split: list.split) |
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done |
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subsection {* Channel Abstraction *} |
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declare split_if [split del] |
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lemma channel_abstraction: "is_weak_ref_map reduce ch_ioa ch_fin_ioa" |
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apply (simp (no_asm) add: is_weak_ref_map_def) |
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txt {* main-part *} |
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apply (rule allI)+ |
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apply (rule imp_conj_lemma) |
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apply (induct_tac "a") |
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txt {* 2 cases *} |
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apply (simp_all (no_asm) cong del: if_weak_cong add: externals_def) |
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txt {* fst case *} |
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apply (rule impI) |
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apply (rule disjI2) |
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apply (rule reduce_hd) |
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txt {* snd case *} |
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apply (rule impI) |
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apply (erule conjE)+ |
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apply (erule disjE) |
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apply (simp add: l_iff_red_nil) |
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apply (erule hd_is_reduce_hd [THEN mp]) |
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apply (simp add: l_iff_red_nil) |
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apply (rule conjI) |
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apply (erule hd_is_reduce_hd [THEN mp]) |
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apply (rule bool_if_impl_or [THEN mp]) |
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apply (erule reduce_tl) |
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done |
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declare split_if [split] |
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lemma sender_abstraction: "is_weak_ref_map reduce srch_ioa srch_fin_ioa" |
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apply (tactic {* |
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simp_tac (HOL_ss addsimps [@{thm srch_fin_ioa_def}, @{thm rsch_fin_ioa_def}, |
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@{thm srch_ioa_def}, @{thm rsch_ioa_def}, @{thm rename_through_pmap}, |
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@{thm channel_abstraction}]) 1 *}) |
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done |
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lemma receiver_abstraction: "is_weak_ref_map reduce rsch_ioa rsch_fin_ioa" |
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apply (tactic {* |
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simp_tac (HOL_ss addsimps [@{thm srch_fin_ioa_def}, @{thm rsch_fin_ioa_def}, |
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@{thm srch_ioa_def}, @{thm rsch_ioa_def}, @{thm rename_through_pmap}, |
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@{thm channel_abstraction}]) 1 *}) |
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done |
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text {* 3 thms that do not hold generally! The lucky restriction here is |
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the absence of internal actions. *} |
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lemma sender_unchanged: "is_weak_ref_map (%id. id) sender_ioa sender_ioa" |
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apply (simp (no_asm) add: is_weak_ref_map_def) |
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txt {* main-part *} |
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apply (rule allI)+ |
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apply (induct_tac a) |
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txt {* 7 cases *} |
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apply (simp_all (no_asm) add: externals_def) |
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done |
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text {* 2 copies of before *} |
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lemma receiver_unchanged: "is_weak_ref_map (%id. id) receiver_ioa receiver_ioa" |
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apply (simp (no_asm) add: is_weak_ref_map_def) |
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txt {* main-part *} |
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apply (rule allI)+ |
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apply (induct_tac a) |
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txt {* 7 cases *} |
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apply (simp_all (no_asm) add: externals_def) |
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done |
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lemma env_unchanged: "is_weak_ref_map (%id. id) env_ioa env_ioa" |
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apply (simp (no_asm) add: is_weak_ref_map_def) |
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txt {* main-part *} |
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apply (rule allI)+ |
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apply (induct_tac a) |
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txt {* 7 cases *} |
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apply (simp_all (no_asm) add: externals_def) |
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done |
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lemma compat_single_ch: "compatible srch_ioa rsch_ioa" |
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apply (simp add: compatible_def Int_def) |
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apply (rule set_eqI) |
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apply (induct_tac x) |
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apply simp_all |
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done |
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text {* totally the same as before *} |
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lemma compat_single_fin_ch: "compatible srch_fin_ioa rsch_fin_ioa" |
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apply (simp add: compatible_def Int_def) |
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apply (rule set_eqI) |
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apply (induct_tac x) |
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apply simp_all |
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done |
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lemmas del_simps = trans_of_def srch_asig_def rsch_asig_def |
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asig_of_def actions_def srch_trans_def rsch_trans_def srch_ioa_def |
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srch_fin_ioa_def rsch_fin_ioa_def rsch_ioa_def sender_trans_def |
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receiver_trans_def set_lemmas |
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lemma compat_rec: "compatible receiver_ioa (srch_ioa || rsch_ioa)" |
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apply (simp del: del_simps |
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add: compatible_def asig_of_par asig_comp_def actions_def Int_def) |
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apply simp |
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apply (rule set_eqI) |
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apply (induct_tac x) |
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apply simp_all |
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done |
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text {* 5 proofs totally the same as before *} |
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lemma compat_rec_fin: "compatible receiver_ioa (srch_fin_ioa || rsch_fin_ioa)" |
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apply (simp del: del_simps |
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add: compatible_def asig_of_par asig_comp_def actions_def Int_def) |
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apply simp |
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apply (rule set_eqI) |
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apply (induct_tac x) |
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apply simp_all |
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done |
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lemma compat_sen: "compatible sender_ioa |
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(receiver_ioa || srch_ioa || rsch_ioa)" |
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apply (simp del: del_simps |
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add: compatible_def asig_of_par asig_comp_def actions_def Int_def) |
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apply simp |
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apply (rule set_eqI) |
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apply (induct_tac x) |
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apply simp_all |
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done |
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lemma compat_sen_fin: "compatible sender_ioa |
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(receiver_ioa || srch_fin_ioa || rsch_fin_ioa)" |
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apply (simp del: del_simps |
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add: compatible_def asig_of_par asig_comp_def actions_def Int_def) |
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apply simp |
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apply (rule set_eqI) |
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apply (induct_tac x) |
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apply simp_all |
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done |
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lemma compat_env: "compatible env_ioa |
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(sender_ioa || receiver_ioa || srch_ioa || rsch_ioa)" |
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apply (simp del: del_simps |
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add: compatible_def asig_of_par asig_comp_def actions_def Int_def) |
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apply simp |
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apply (rule set_eqI) |
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apply (induct_tac x) |
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apply simp_all |
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done |
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lemma compat_env_fin: "compatible env_ioa |
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(sender_ioa || receiver_ioa || srch_fin_ioa || rsch_fin_ioa)" |
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apply (simp del: del_simps |
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add: compatible_def asig_of_par asig_comp_def actions_def Int_def) |
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apply simp |
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apply (rule set_eqI) |
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apply (induct_tac x) |
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apply simp_all |
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done |
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text {* lemmata about externals of channels *} |
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lemma ext_single_ch: "externals(asig_of(srch_fin_ioa)) = externals(asig_of(srch_ioa)) & |
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externals(asig_of(rsch_fin_ioa)) = externals(asig_of(rsch_ioa))" |
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by (simp add: externals_def) |
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subsection {* Soundness of Abstraction *} |
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lemmas ext_simps = externals_of_par ext_single_ch |
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and compat_simps = compat_single_ch compat_single_fin_ch compat_rec |
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compat_rec_fin compat_sen compat_sen_fin compat_env compat_env_fin |
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and abstractions = env_unchanged sender_unchanged |
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receiver_unchanged sender_abstraction receiver_abstraction |
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(* FIX: this proof should be done with compositionality on trace level, not on |
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weak_ref_map level, as done here with fxg_is_weak_ref_map_of_product_IOA |
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Goal "is_weak_ref_map abs system_ioa system_fin_ioa" |
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by (simp_tac (impl_ss delsimps ([srch_ioa_def, rsch_ioa_def, srch_fin_ioa_def, |
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rsch_fin_ioa_def] @ env_ioas @ impl_ioas) |
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addsimps [system_def, system_fin_def, abs_def, |
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impl_ioa_def, impl_fin_ioa_def, sys_IOA, |
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sys_fin_IOA]) 1); |
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by (REPEAT (EVERY[rtac fxg_is_weak_ref_map_of_product_IOA 1, |
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318 |
simp_tac (ss addsimps abstractions) 1, |
|
319 |
rtac conjI 1])); |
|
320 |
||
321 |
by (ALLGOALS (simp_tac (ss addsimps ext_ss @ compat_ss))); |
|
322 |
||
323 |
qed "system_refinement"; |
|
324 |
*) |
|
17244 | 325 |
|
3072
a31419014be5
Old ABP files now running under the IOA meta theory based on HOLCF;
mueller
parents:
diff
changeset
|
326 |
end |