Up to index of Isabelle/HOL/HOL-Complex/CSP/CSP_T/CSP_F
theory CSP_F_mono(*-------------------------------------------* | CSP-Prover on Isabelle2004 | | December 2004 | | July 2005 (modified) | | August 2005 (modified) | | | | CSP-Prover on Isabelle2005 | | October 2005 (modified) | | March 2007 (modified) | | August 2007 (modified) | | | | Yoshinao Isobe (AIST JAPAN) | *-------------------------------------------*) theory CSP_F_mono imports CSP_F_domain CSP_T_mono begin (***************************************************************** 1. mono check of failuresfun 2. 3. 4. *****************************************************************) (*--------------------------------* | STOP,SKIP,DIV | *--------------------------------*) lemma mono_failures_STOP: "mono (failures (STOP))" by (simp add: mono_def failures_def) lemma mono_failures_SKIP: "mono (failures (SKIP))" by (simp add: mono_def failures_def) lemma mono_failures_DIV: "mono (failures (DIV))" by (simp add: mono_def failures_def) (*--------------------------------* | Act_prefix | *--------------------------------*) lemma mono_failures_Act_prefix: "mono (failures P) ==> mono (failures (a -> P))" apply (simp add: mono_def) apply (intro allI impI) apply (drule_tac x="x" in spec) apply (drule_tac x="y" in spec) apply (simp) apply (rule) apply (simp add: in_failures) apply (auto) done (*--------------------------------* | Ext_pre_choice | *--------------------------------*) lemma mono_failures_Ext_pre_choice: "ALL a. mono (failures (Pf a)) ==> mono (failures (? a:X -> (Pf a)))" apply (simp add: mono_def) apply (intro allI impI) apply (rule) apply (simp add: in_failures) apply (erule disjE, simp) apply (rule disjI2) apply (elim conjE exE) apply (drule_tac x="a" in spec) apply (drule_tac x="x" in spec) apply (drule_tac x="y" in spec) apply (auto) done (*--------------------------------* | Ext_choice | *--------------------------------*) lemma mono_failures_Ext_choice: "[| mono (traces P) ; mono (traces Q) ; mono (failures P) ; mono (failures Q) |] ==> mono (failures (P [+] Q))" apply (simp add: mono_def) apply (intro allI impI) apply (rule) apply (simp add: in_failures) apply (drule_tac x="x" in spec) apply (drule_tac x="x" in spec) apply (drule_tac x="y" in spec) apply (drule_tac x="y" in spec) apply (drule_tac x="(fstF o x)" in spec) apply (drule_tac x="(fstF o x)" in spec) apply (drule_tac x="(fstF o y)" in spec) apply (drule_tac x="(fstF o y)" in spec) apply (simp add: order_prod_def mono_fstF[simplified mono_def]) apply (elim conjE disjE) apply (force)+ done (*--------------------------------* | Int_choice | *--------------------------------*) lemma mono_failures_Int_choice: "[| mono (failures P) ; mono (failures Q) |] ==> mono (failures (P |~| Q))" apply (simp add: mono_def) apply (intro allI impI) apply (rule) apply (simp add: in_failures) apply (elim disjE) apply (force) apply (force) done (*--------------------------------* | Rep_int_choice | *--------------------------------*) lemma mono_failures_Rep_int_choice: "ALL c. mono (failures (Pf c)) ==> mono (failures (!! c:C .. (Pf c)))" apply (simp add: mono_def) apply (intro allI impI) apply (rule) apply (simp add: in_failures) apply (elim conjE bexE) apply (drule_tac x="c" in spec) apply (drule_tac x="x" in spec) apply (drule_tac x="y" in spec) apply (auto) done (*--------------------------------* | IF | *--------------------------------*) lemma mono_failures_IF: "[| mono (failures P) ; mono (failures Q) |] ==> mono (failures (IF b THEN P ELSE Q))" apply (simp add: mono_def) apply (auto simp add: in_failures subsetF_iff) done (*--------------------------------* | Parallel | *--------------------------------*) lemma mono_failures_Parallel: "[| mono (failures P) ; mono (failures Q) |] ==> mono (failures (P |[X]| Q))" apply (simp add: mono_def) apply (intro allI impI) apply (rule) apply (simp add: in_failures) apply (elim conjE exE) apply (rule_tac x="Y" in exI) apply (rule_tac x="Z" in exI) apply (simp) apply (rule_tac x="sa" in exI) apply (rule_tac x="t" in exI) apply (auto simp add: subsetF_iff) done (*--------------------------------* | Hiding | *--------------------------------*) lemma mono_failures_Hiding: "mono (failures P) ==> mono (failures (P -- X))" apply (simp add: mono_def) apply (intro allI impI) apply (rule) apply (simp add: in_failures) apply (elim conjE exE) apply (rule_tac x="sa" in exI) apply (auto simp add: subsetF_iff) done (*--------------------------------* | Renaming | *--------------------------------*) lemma mono_failures_Renaming: "mono (failures P) ==> mono (failures (P [[r]]))" apply (simp add: mono_def) apply (intro allI impI) apply (rule) apply (simp add: in_failures) apply (elim conjE exE) apply (rule_tac x="sa" in exI) apply (auto simp add: subsetF_iff) done (*--------------------------------* | Seq_compo | *--------------------------------*) lemma mono_failures_Seq_compo: "[| mono (failures P) ; mono (failures Q) |] ==> mono (failures (P ;; Q))" apply (simp add: mono_def) apply (intro allI impI) apply (rule) apply (simp add: in_failures) apply (erule disjE) apply (simp add: subsetF_iff) apply (elim conjE exE) apply (rule disjI2) apply (rule_tac x="sa" in exI) apply (rule_tac x="t" in exI) apply (drule_tac x="x" in spec) apply (drule_tac x="x" in spec) apply (drule_tac x="y" in spec) apply (drule_tac x="y" in spec) apply (simp) apply (subgoal_tac "traces P (fstF o x) <= traces P (fstF o y)") apply (force) apply (subgoal_tac "fstF o x <= fstF o y") apply (simp add: mono_traces[simplified mono_def]) apply (simp add: order_prod_def) apply (rule allI) apply (drule_tac x="xa" in spec) apply (simp add: mono_fstF[simplified mono_def]) done (*--------------------------------* | Depth_rest | *--------------------------------*) lemma mono_failures_Depth_rest: "mono (failures P) ==> mono (failures (P |. n))" apply (simp add: mono_def) apply (intro allI impI) apply (rule) apply (simp add: in_failures) apply (elim conjE exE disjE) apply (force) apply (force) done (*--------------------------------* | variable | *--------------------------------*) lemma mono_failures_variable: "mono (failures ($p))" apply (simp add: mono_def) apply (intro allI impI) apply (rule) apply (simp add: in_failures) apply (simp add: order_prod_def) apply (drule_tac x="p" in spec) apply (insert mono_sndF) apply (simp add: mono_def) apply (drule_tac x="x p" in spec) apply (drule_tac x="y p" in spec) apply (simp add: subsetF_iff order_prod_def) done (*--------------------------------* | Procfun | *--------------------------------*) lemma mono_failures: "mono (failures P)" apply (induct_tac P) apply (simp add: mono_failures_STOP) apply (simp add: mono_failures_SKIP) apply (simp add: mono_failures_DIV) apply (simp add: mono_failures_Act_prefix) apply (simp add: mono_failures_Ext_pre_choice) apply (simp add: mono_failures_Ext_choice mono_traces) apply (simp add: mono_failures_Int_choice) apply (simp add: mono_failures_Rep_int_choice) apply (simp add: mono_failures_IF) apply (simp add: mono_failures_Parallel) apply (simp add: mono_failures_Hiding) apply (simp add: mono_failures_Renaming) apply (simp add: mono_failures_Seq_compo mono_traces) apply (simp add: mono_failures_Depth_rest) apply (simp add: mono_failures_variable) done (*=============================================================* | [[P]]Ff | *=============================================================*) lemma mono_semFf: "mono [[Pf]]Ff" apply (simp add: mono_def) apply (simp add: subdomF_decompo) apply (intro allI impI) apply (simp add: mono_failures[simplified mono_def]) apply (subgoal_tac "mono (traces Pf)") apply (simp add: mono_def) apply (drule_tac x="fstF o x" in spec) apply (drule_tac x="fstF o y" in spec) apply (drule mp) apply (simp add: order_prod_def) apply (simp add: mono_fstF[simplified mono_def]) apply (simp) apply (simp add: mono_traces) done (*=============================================================* | [[P]]Ffun | *=============================================================*) lemma mono_semFfun: "mono [[PF]]Ffun" apply (simp add: prod_mono) apply (simp add: semFfun_def) apply (simp add: comp_def) apply (simp add: proj_fun_def) apply (simp add: mono_semFf) done end
lemma mono_failures_STOP:
mono (failures STOP)
lemma mono_failures_SKIP:
mono (failures SKIP)
lemma mono_failures_DIV:
mono (failures DIV)
lemma mono_failures_Act_prefix:
mono (failures P) ==> mono (failures (a -> P))
lemma mono_failures_Ext_pre_choice:
∀a. mono (failures (Pf a)) ==> mono (failures (? :X -> Pf))
lemma mono_failures_Ext_choice:
[| mono (traces P); mono (traces Q); mono (failures P); mono (failures Q) |]
==> mono (failures (P [+] Q))
lemma mono_failures_Int_choice:
[| mono (failures P); mono (failures Q) |] ==> mono (failures (P |~| Q))
lemma mono_failures_Rep_int_choice:
∀c. mono (failures (Pf c)) ==> mono (failures (!! :C .. Pf))
lemma mono_failures_IF:
[| mono (failures P); mono (failures Q) |]
==> mono (failures (IF b THEN P ELSE Q))
lemma mono_failures_Parallel:
[| mono (failures P); mono (failures Q) |] ==> mono (failures (P |[X]| Q))
lemma mono_failures_Hiding:
mono (failures P) ==> mono (failures (P -- X))
lemma mono_failures_Renaming:
mono (failures P) ==> mono (failures (P [[r]]))
lemma mono_failures_Seq_compo:
[| mono (failures P); mono (failures Q) |] ==> mono (failures (P ;; Q))
lemma mono_failures_Depth_rest:
mono (failures P) ==> mono (failures (P |. n))
lemma mono_failures_variable:
mono (failures ($p))
lemma mono_failures:
mono (failures P)
lemma mono_semFf:
mono [[Pf]]Ff
lemma mono_semFfun:
mono [[PF]]Ffun