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(* Title: HOL/Library/While.thy


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ID: $Id$


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Author: Tobias Nipkow


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Copyright 2000 TU Muenchen


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*)


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header {*


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\title{A general ``while'' combinator}


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\author{Tobias Nipkow}


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*}


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theory While_Combinator = Main:


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text {*


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We define a whilecombinator @{term while} and prove: (a) an


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unrestricted unfolding law (even if while diverges!) (I got this


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idea from Wolfgang Goerigk), and (b) the invariant rule for reasoning


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about @{term while}.


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*}


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consts while_aux :: "('a => bool) \<times> ('a => 'a) \<times> 'a => 'a"


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recdef while_aux


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"same_fst (\<lambda>b. True) (\<lambda>b. same_fst (\<lambda>c. True) (\<lambda>c.


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{(t, s). b s \<and> c s = t \<and>


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\<not> (\<exists>f. f 0 = s \<and> (\<forall>i. b (f i) \<and> c (f i) = f (i + 1)))}))"


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"while_aux (b, c, s) =


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(if (\<exists>f. f 0 = s \<and> (\<forall>i. b (f i) \<and> c (f i) = f (i + 1)))


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then arbitrary


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else if b s then while_aux (b, c, c s)


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else s)"


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constdefs


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while :: "('a => bool) => ('a => 'a) => 'a => 'a"


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"while b c s == while_aux (b, c, s)"


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ML_setup {*


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goalw_cterm [] (cterm_of (sign_of (the_context ()))

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(HOLogic.mk_Trueprop (hd (RecdefPackage.tcs_of (the_context ()) "while_aux"))));

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br wf_same_fst 1;


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br wf_same_fst 1;

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by (asm_full_simp_tac (simpset() addsimps [wf_iff_no_infinite_down_chain]) 1);


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by (Blast_tac 1);


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qed "while_aux_tc";

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*} (* FIXME cannot access recdef tcs in Isar yet! *)

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lemma while_aux_unfold:


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"while_aux (b, c, s) =


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(if \<exists>f. f 0 = s \<and> (\<forall>i. b (f i) \<and> c (f i) = f (i + 1))


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then arbitrary


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else if b s then while_aux (b, c, c s)


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else s)"


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apply (rule while_aux_tc [THEN while_aux.simps [THEN trans]])


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apply (simp add: same_fst_def)


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apply (rule refl)


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done


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text {*


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The recursion equation for @{term while}: directly executable!


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*}


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theorem while_unfold:


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"while b c s = (if b s then while b c (c s) else s)"


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apply (unfold while_def)


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apply (rule while_aux_unfold [THEN trans])


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apply auto


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apply (subst while_aux_unfold)


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apply simp


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apply clarify


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apply (erule_tac x = "\<lambda>i. f (Suc i)" in allE)


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apply blast


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done


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text {*


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The proof rule for @{term while}, where @{term P} is the invariant.


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*}


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theorem while_rule_lemma[rule_format]:

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"(!!s. P s ==> b s ==> P (c s)) ==>


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(!!s. P s ==> \<not> b s ==> Q s) ==>


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wf {(t, s). P s \<and> b s \<and> t = c s} ==>


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P s > Q (while b c s)"


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proof 


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case antecedent


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assume wf: "wf {(t, s). P s \<and> b s \<and> t = c s}"


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show ?thesis


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apply (induct s rule: wf [THEN wf_induct])


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apply simp


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apply clarify


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apply (subst while_unfold)


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apply (simp add: antecedent)


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done


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qed


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theorem while_rule:


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"\<lbrakk> P s; \<And>s. \<lbrakk> P s; b s \<rbrakk> \<Longrightarrow> P(c s);


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\<And>s.\<lbrakk> P s; \<not> b s \<rbrakk> \<Longrightarrow> Q s;


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wf r; \<And>s. \<lbrakk> P s; b s \<rbrakk> \<Longrightarrow> (c s,s) \<in> r \<rbrakk> \<Longrightarrow>


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Q (while b c s)"


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apply (rule while_rule_lemma)


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prefer 4 apply assumption


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apply blast


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apply blast


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apply(erule wf_subset)


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apply blast


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done


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hide const while_aux


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end
