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theory CSP_F_law_norm(*-------------------------------------------* | CSP-Prover on Isabelle2004 | | April 2006 | | March 2007 (modified) | | | | Yoshinao Isobe (AIST JAPAN) | *-------------------------------------------*) theory CSP_F_law_norm imports CSP_F_law_basic CSP_T_law_norm begin (********************************************************* ?-div *********************************************************) lemma cspF_input_DIV: "? :A -> Pf =F[M,M] (? :A -> Pf [+] DIV) |~| ? a:A -> DIV" apply (simp add: cspF_cspT_semantics) apply (simp add: cspT_input_DIV) apply (rule order_antisym) (* => *) apply (rule) apply (simp add: in_failures in_traces) apply (elim disjE conjE exE) apply (simp_all) (* <= *) apply (rule) apply (simp add: in_failures in_traces) apply (elim disjE conjE exE) apply (simp_all) done (********************************************************* !!-!set-div *********************************************************) lemma cspF_Rep_int_choice_sum_set_Ext_pre_choice_DIV: "!! c:C .. (!set X:(Xsf c) .. (? a:X -> DIV)) =F[M1,M2] !set X:(Union {(Xsf c) |c. c : sumset C}) .. (? a:X -> DIV)" apply (simp add: cspF_cspT_semantics) apply (simp add: cspT_Rep_int_choice_set_Ext_pre_choice_DIV) apply (rule order_antisym) (* <= *) apply (rule) apply (simp add: in_failures) apply (elim disjE conjE bexE exE) apply (rule_tac x="Xsf c" in exI) apply (rule conjI) apply (force) apply (rule_tac x="Xa" in bexI) apply (simp) apply (simp) (* => *) apply (rule) apply (simp add: in_failures) apply (elim disjE conjE exE bexE) apply (simp) apply (rule_tac x="c" in bexI) apply (rule_tac x="Xa" in bexI) apply (simp_all) done lemma cspF_Rep_int_choice_set_set_Ext_pre_choice_DIV: "!set Y:Ys .. (!set X:(Xsf Y) .. (? a:X -> DIV)) =F[M1,M2] !set X:(Union {(Xsf Y) |Y. Y : Ys}) .. (? a:X -> DIV)" apply (simp add: cspF_cspT_semantics) apply (simp add: cspT_Rep_int_choice_set_Ext_pre_choice_DIV) apply (rule order_antisym) (* <= *) apply (rule) apply (simp add: in_failures) apply (elim disjE conjE bexE exE) apply (rule_tac x="Xsf Xa" in exI) apply (rule conjI) apply (force) apply (rule_tac x="Xb" in bexI) apply (simp) apply (simp) (* => *) apply (rule) apply (simp add: in_failures) apply (elim disjE conjE exE bexE) apply (simp) apply (rule_tac x="Y" in bexI) apply (rule_tac x="Xa" in bexI) apply (simp_all) done lemma cspF_Rep_int_choice_nat_set_Ext_pre_choice_DIV: "!nat n:N .. (!set X:(Xsf n) .. (? a:X -> DIV)) =F[M1,M2] !set X:(Union {(Xsf n) |n. n : N}) .. (? a:X -> DIV)" apply (simp add: cspF_cspT_semantics) apply (simp add: cspT_Rep_int_choice_set_Ext_pre_choice_DIV) apply (rule order_antisym) (* <= *) apply (rule) apply (simp add: in_failures) apply (elim disjE conjE bexE exE) apply (rule_tac x="Xsf n" in exI) apply (rule conjI) apply (force) apply (rule_tac x="Xa" in bexI) apply (simp) apply (simp) (* => *) apply (rule) apply (simp add: in_failures) apply (elim disjE conjE exE bexE) apply (simp) apply (rule_tac x="n" in bexI) apply (rule_tac x="Xa" in bexI) apply (simp_all) done lemmas cspF_Rep_int_choice_set_Ext_pre_choice_DIV = cspF_Rep_int_choice_sum_set_Ext_pre_choice_DIV cspF_Rep_int_choice_set_set_Ext_pre_choice_DIV cspF_Rep_int_choice_nat_set_Ext_pre_choice_DIV (********************************************************* ?-!set-<= *********************************************************) lemma cspF_input_Rep_int_choice_set_subset: "[| Xs <= Ys ; ALL Y:Ys. EX X:Xs. X <= Y & Y <= A |] ==> ((? :A -> Pf) [+] Q) |~| (!set X : Xs .. ? a:X -> DIV) =F[M,M] ((? :A -> Pf) [+] Q) |~| (!set Y : Ys .. ? a:Y -> DIV)" apply (simp add: cspF_cspT_semantics) apply (simp add: cspT_input_Rep_int_choice_set_subset) apply (rule order_antisym) (* => *) apply (rule, simp add: in_failures) apply (elim disjE conjE bexE exE) apply (simp_all) apply (rule disjI2) apply (rule disjI2) apply (rule_tac x="Xa" in bexI) apply (simp) apply (force) (* <= *) apply (rule, simp add: in_failures) apply (elim disjE conjE bexE exE) apply (simp_all) apply (rule disjI2) apply (rule disjI2) apply (drule_tac x="Xa" in bspec, simp) apply (elim conjE bexE) apply (rule_tac x="Xb" in bexI) apply (blast) apply (simp) done lemmas cspF_norm = cspF_input_DIV cspF_Rep_int_choice_set_Ext_pre_choice_DIV cspF_input_Rep_int_choice_set_subset end