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theory CSP_F_law_fix(*-------------------------------------------* | CSP-Prover on Isabelle2005 | | March 2007 | | | | Yoshinao Isobe (AIST JAPAN) | *-------------------------------------------*) theory CSP_F_law_fix imports CSP_F_law_fp CSP_T_law_fix begin (* The following simplification rules are deleted in this theory file *) (* because they unexpectly rewrite UnionT and InterT. *) (* Union (B ` A) = (UN x:A. B x) *) (* Inter (B ` A) = (INT x:A. B x) *) declare Union_image_eq [simp del] declare Inter_image_eq [simp del] (*-----------* | Bot | *-----------*) lemma failures_prod_Bot: "(%p. failures DIV M) = Bot" apply (simp add: prod_Bot_def) apply (simp add: expand_fun_eq) apply (simp add: failures_def) apply (simp add: bottom_setF_def) done lemma traces_failures_prod_Bot: "(%p. (traces DIV (fstF o M) ,, failures DIV M)) = Bot" apply (simp add: prod_Bot_def) apply (simp add: expand_fun_eq) apply (simp add: bottom_domF_def) apply (simp add: traces_def failures_def) done lemma semF_prod_Bot: "(%p. [[DIV]]F) = Bot" apply (simp add: semF_def semFf_def) apply (simp add: traces_failures_prod_Bot) done (*-----------* | FIX P | *-----------*) (*** iteration lemmas ***) lemma semTfun_iteration_semFfun_Bot: "ALL p. ([[Pf]]Tfun ^^ n) Bot p = fstF (([[Pf]]Ffun ^^ n) Bot p)" apply (induct_tac n) apply (simp_all) (* base *) apply (simp add: prod_Bot_def bottom_domF_def) apply (simp add: bottom_domT_def) apply (simp add: pairF_fstF) (* step *) apply (simp add: expand_fun_eq[THEN sym]) apply (simp add: expand_fun_eq) apply (simp add: semFfun_def) apply (fold comp_def) apply (simp add: semTfun_fstF_semFf) done lemma semF_iteration_semFfun_Bot: "ALL p. [[(((Pf <<<) ^^ n) (%q. DIV) p)]]F = (([[Pf]]Ffun ^^ n) Bot p)" apply (induct_tac n) apply (simp_all) (* base *) apply (simp add: semF_def semFf_def) apply (simp add: traces_def failures_def) apply (simp add: prod_Bot_def bottom_domF_def) (* step *) apply (simp add: Subst_procfun_prod_def) apply (simp add: semF_subst) apply (simp add: expand_fun_eq[THEN sym]) apply (simp add: semFf_semFfun) done lemma semF_iteration_semFfun_Bot_sndF: "failures (((Pf <<<) ^^ n) (%q. DIV) p) MF = sndF (([[Pf]]Ffun ^^ n) Bot p)" apply (rule semF_decompo_sndF) by (simp add: semF_iteration_semFfun_Bot) (*** FIX ***) lemma semF_FIX_LUB_domF_T: "fst ` Rep_domF ` {y. EX x. (EX n. x = ([[P]]Ffun ^^ n) Bot) & y = x p} = {t. EX n. t = (fstF ((([[P]]Ffun ^^ n) Bot) p))}" by (auto simp add: fstF_def) lemma semF_FIX_LUB_domF_F: "Union (Rep_setF ` snd ` Rep_domF ` {y. EX x. (EX n. x = ([[P]]Ffun ^^ n) Bot) & y = x p}) = {f. EX n. f :f (sndF ((([[P]]Ffun ^^ n) Bot) p))}" by (auto simp add: Union_image_eq memF_def sndF_def) lemma semF_FIX: "[[(FIX Pf) p]]F = LUB_domF {y. EX x. (EX n. x = ([[Pf]]Ffun ^^ n) Bot) & y = x p}" apply (simp add: semF_def semFf_def) apply (simp add: pairF_def) apply (simp add: LUB_domF_def) apply (subgoal_tac "EX x n. x = ([[Pf]]Ffun ^^ n) Bot") apply (subgoal_tac "{y. EX x. (EX n. x = ([[Pf]]Ffun ^^ n) Bot) & y = x p} ~= {}") apply (simp add: Abs_domF_inject LUB_TF_in_Rep) apply (simp add: LUB_TF_def) apply (simp add: semF_FIX_LUB_domF_T) apply (simp add: UnionF_def semF_FIX_LUB_domF_F) apply (rule) (* T *) apply (simp add: traces_FIX) apply (simp add: semTfun_iteration_semFfun_Bot) (* F *) apply (simp add: FIX_def FIXn_def) apply (rule order_antisym) (* <= *) apply (rule) apply (simp add: in_failures) apply (elim conjE exE) apply (simp add: semF_iteration_semFfun_Bot_sndF) apply (force) (* => *) apply (rule) apply (simp add: in_failures) apply (elim conjE exE) apply (simp add: semF_iteration_semFfun_Bot_sndF) apply (force) by (auto) (*** FIX is LUB ***) lemma semF_FIX_isLUB: "(%p. [[(FIX Pf) p]]F) isLUB {x. EX n. x = ([[Pf]]Ffun ^^ n) Bot}" apply (simp add: prod_LUB_decompo) apply (intro allI) apply (simp add: proj_fun_def) apply (simp add: image_def) apply (simp add: semF_FIX) apply (subgoal_tac "{y. EX x. (EX n. x = ([[Pf]]Ffun ^^ n) Bot) & y = x i} = {u. EX n. u = ([[Pf]]Ffun ^^ n) Bot i}") apply (simp) apply (rule LUB_domF_isLUB) apply (auto) done lemma semF_FIX_LUB: "(%p. [[(FIX Pf) p]]F) = LUB {x. EX n. x = ([[Pf]]Ffun ^^ n) Bot}" apply (rule sym) apply (rule isLUB_LUB) apply (simp add: semF_FIX_isLUB) done lemma semF_FIX_LFP: "(%p. [[(FIX Pf) p]]F) = LFP ([[Pf]]Ffun)" apply (simp add: semF_FIX_LUB) apply (simp add: Tarski_thm_LFP_LUB continuous_semFfun) done lemma semF_FIX_LFP_p: "[[(FIX Pf) p]]F = LFP ([[Pf]]Ffun) p" apply (insert semF_FIX_LFP[of Pf]) apply (simp add: expand_fun_eq) done lemma semF_FIX_isLFP: "(%p. [[(FIX Pf) p]]F) isLFP [[Pf]]Ffun" apply (simp add: semF_FIX_LFP) apply (simp add: LFP_is Tarski_thm_EX continuous_semFfun) done lemma semF_FIX_LFP_fixed_point: "[[Pf]]Ffun (%p. [[(FIX Pf) p]]F) = (%p. [[(FIX Pf) p]]F)" apply (insert semF_FIX_isLFP[of Pf]) apply (simp add: isLFP_def) done lemma semF_FIX_LFP_least: "ALL M. [[Pf]]Ffun M = M --> (%p. [[(FIX Pf) p]]F) <= M" apply (insert semF_FIX_isLFP[of Pf]) apply (simp add: isLFP_def) done (*=======================================================* | | | CPO | | | *=======================================================*) lemma cspF_FIX_cpo: "[| FPmode = CPOmode | FPmode = MIXmode ; Pf = PNfun |] ==> $p =F (FIX Pf)(p)" apply (simp add: eqF_def) apply (fold semF_def) apply (simp add: semF_FIX_LFP_p) apply (simp add: semF_LFP_cpo) done lemma cspF_FIX_cms: "[| FPmode = CMSmode ; Pf = PNfun ; guardedfun (Pf) |] ==> $p =F (FIX Pf)(p)" apply (simp add: eqF_def) apply (fold semF_def) apply (simp add: semF_FIX_LFP_p) apply (simp add: semF_guarded_LFP_UFP) apply (simp add: semF_UFP_cms) done lemma cspF_FIX: "[| FPmode = CPOmode | FPmode = CMSmode & guardedfun (Pf) | FPmode = MIXmode ; Pf = PNfun |] ==> $p =F (FIX Pf)(p)" apply (erule disjE) apply (simp add: cspF_FIX_cpo) apply (erule disjE) apply (simp add: cspF_FIX_cms) apply (simp add: cspF_FIX_cpo) done (*==============================================================* | | | replace process names by infinite repcicated internal choice | | rmPN (FIX) | | | *==============================================================*) lemma cspF_rmPN_eqF: "FPmode = CPOmode | FPmode = CMSmode & guardedfun (PNfun::('p=>('p,'a) proc)) | FPmode = MIXmode ==> (P::('p,'a) proc) =F rmPN(P)" apply (induct_tac P) apply (simp_all add: cspF_decompo) apply (rule cspF_FIX) apply (simp_all) done (*-------------------------------------------------------* | | | FIX expansion (CSP-Prover intro rule) | | | *-------------------------------------------------------*) lemma failures_FIXn_plus_sub_lm: "ALL n m p. failures ((FIX[n] Pf) p) M <= failures ((FIX[n+m] Pf) p) M" apply (rule) apply (induct_tac n) apply (simp add: FIXn_def) apply (intro allI) apply (rule) apply (simp add: in_failures) apply (rule allI) apply (simp add: FIXn_def Subst_procfun_prod_def) apply (drule_tac x="m" in spec) apply (simp add: failrues_subst) apply (rule allI) apply (subgoal_tac "(%q. [[((%Qf p. (Pf p) << Qf) ^^ na) (%q. DIV) q]]Ff M) <= (%q. [[((%Qf p. (Pf p) << Qf) ^^ (na + m)) (%q. DIV) q]]Ff M)") apply (simp add: mono_failures[simplified mono_def]) apply (unfold order_prod_def) apply (intro allI) apply (simp add: subdomF_decompo) apply (insert traces_FIXn_plus_sub_lm[of Pf "fstF o M"]) apply (simp add: FIXn_def Subst_procfun_prod_def) done lemma failures_FIXn_plus_sub: "failures ((FIX[n] Pf) p) M <= failures ((FIX[n+m] Pf) p) M" by (simp add: failures_FIXn_plus_sub_lm) lemma semF_FIXn_plus_sub: "[[(FIX[n] Pf) p]]Ff M <= [[(FIX[n+m] Pf) p]]Ff M" apply (simp add: subdomF_decompo) apply (simp add: traces_FIXn_plus_sub) apply (simp add: failures_FIXn_plus_sub) done lemma in_failures_FIXn_plus_sub: "(s,X) :f failures ((FIX[n] Pf) p) M ==> (s,X) :f failures ((FIX[n+m] Pf) p) M" apply (insert failures_FIXn_plus_sub[of n Pf p M m]) by (auto) (*-----------------------------------------------------* | sometimes FIX[n + f n] is useful more than FIX[n] | *-----------------------------------------------------*) lemma cspF_FIX_plus_eq: "ALL f p. (FIX Pf) p =F (!nat n .. ((FIX[n + f n] Pf) p))" apply (simp add: cspF_cspT_semantics) apply (simp add: cspT_FIX_plus_eq) apply (simp add: FIX_def) apply (intro allI) apply (rule order_antisym) apply (rule) apply (simp add: in_failures) apply (elim conjE exE) apply (rule_tac x="n" in exI) apply (simp add: in_failures_FIXn_plus_sub) apply (rule) apply (simp add: in_failures) apply (elim conjE exE) apply (rule_tac x="n + f n" in exI) apply (simp) done (****************** to add them again ******************) declare Union_image_eq [simp] declare Inter_image_eq [simp] end