src/HOL/IMP/Examples.thy
author obua
Sun, 09 May 2004 23:04:36 +0200
changeset 14722 8e739a6eaf11
parent 12431 07ec657249e5
child 16417 9bc16273c2d4
permissions -rw-r--r--
replaced apply-style proof for instance Multiset :: plus_ac0 by recommended Isar proof style

(*  Title:      HOL/IMP/Examples.thy
    ID:         $Id$
    Author:     David von Oheimb, TUM
    Copyright   2000 TUM
*)

header "Examples"

theory Examples = Natural:

constdefs  
  factorial :: "loc => loc => com"
  "factorial a b == b :== (%s. 1);
                    \<WHILE> (%s. s a ~= 0) \<DO>
                    (b :== (%s. s b * s a); a :== (%s. s a - 1))"

declare update_def [simp]

subsection "An example due to Tony Hoare"

lemma lemma1 [rule_format (no_asm)]: 
  "[| !x. P x \<longrightarrow> Q x; \<langle>w,s\<rangle> \<longrightarrow>\<^sub>c t |] ==>
  !c. w = While P c \<longrightarrow> \<langle>While Q c,t\<rangle> \<longrightarrow>\<^sub>c u \<longrightarrow> \<langle>While Q c,s\<rangle> \<longrightarrow>\<^sub>c u"
apply (erule evalc.induct)
apply auto
done


lemma lemma2 [rule_format (no_asm)]: 
  "[| !x. P x \<longrightarrow> Q x; \<langle>w,s\<rangle> \<longrightarrow>\<^sub>c u |] ==>  
  !c. w = While Q c \<longrightarrow> \<langle>While P c; While Q c,s\<rangle> \<longrightarrow>\<^sub>c u"
apply (erule evalc.induct)
apply (simp_all (no_asm_simp))
apply blast
apply (case_tac "P s")
apply auto
done


lemma Hoare_example: "!x. P x \<longrightarrow> Q x ==>  
  (\<langle>While P c; While Q c, s\<rangle> \<longrightarrow>\<^sub>c t) = (\<langle>While Q c, s\<rangle> \<longrightarrow>\<^sub>c t)"
  by (blast intro: lemma1 lemma2 dest: semi [THEN iffD1])


subsection "Factorial"

lemma factorial_3: "a~=b ==>  
  \<langle>factorial a b, Mem(a:=3)\<rangle> \<longrightarrow>\<^sub>c Mem(b:=6, a:=0)"
apply (unfold factorial_def)
apply simp
done

text {* the same in single step mode: *}
lemmas [simp del] = evalc_cases
lemma  "a~=b \<Longrightarrow> \<langle>factorial a b, Mem(a:=3)\<rangle> \<longrightarrow>\<^sub>c Mem(b:=6, a:=0)"
apply (unfold factorial_def)
apply (frule not_sym)
apply (rule evalc.intros)
apply  (rule evalc.intros)
apply simp
apply (rule evalc.intros)
apply   simp
apply  (rule evalc.intros)
apply   (rule evalc.intros)
apply  simp
apply  (rule evalc.intros)
apply simp
apply (rule evalc.intros)
apply   simp
apply  (rule evalc.intros)
apply   (rule evalc.intros)
apply  simp
apply  (rule evalc.intros)
apply simp
apply (rule evalc.intros)
apply   simp
apply  (rule evalc.intros)
apply   (rule evalc.intros)
apply  simp
apply  (rule evalc.intros)
apply simp
apply (rule evalc.intros)
apply simp
done
  
end