isabelle: doc-src/TutorialI/CTL/document/CTLind.tex@a2bff98d6e5d (annotated)

10267 325ead6d9457 updated; wenzelm parents: diff changeset	1	%
325ead6d9457 updated; wenzelm parents: diff changeset	2	\begin{isabellebody}%
325ead6d9457 updated; wenzelm parents: diff changeset	3	\def\isabellecontext{CTLind}%
325ead6d9457 updated; wenzelm parents: diff changeset	4	%
10878 b254d5ad6dd4 auto update paulson parents: 10855 diff changeset	5	\isamarkupsubsection{CTL Revisited%
10395 7ef380745743 updated; wenzelm parents: 10283 diff changeset	6	}
10267 325ead6d9457 updated; wenzelm parents: diff changeset	7	%
325ead6d9457 updated; wenzelm parents: diff changeset	8	\begin{isamarkuptext}%
325ead6d9457 updated; wenzelm parents: diff changeset	9	\label{sec:CTL-revisited}
10283 ff003e2b790c * empty log message * nipkow parents: 10267 diff changeset	10	The purpose of this section is twofold: we want to demonstrate
ff003e2b790c * empty log message * nipkow parents: 10267 diff changeset	11	some of the induction principles and heuristics discussed above and we want to
ff003e2b790c * empty log message * nipkow parents: 10267 diff changeset	12	show how inductive definitions can simplify proofs.
10267 325ead6d9457 updated; wenzelm parents: diff changeset	13	In \S\ref{sec:CTL} we gave a fairly involved proof of the correctness of a
10795 9e888d60d3e5 minor edits to Chapters 1-3 paulson parents: 10696 diff changeset	14	model checker for CTL\@. In particular the proof of the
10267 325ead6d9457 updated; wenzelm parents: diff changeset	15	\isa{infinity{\isacharunderscore}lemma} on the way to \isa{AF{\isacharunderscore}lemma{\isadigit{2}}} is not as
325ead6d9457 updated; wenzelm parents: diff changeset	16	simple as one might intuitively expect, due to the \isa{SOME} operator
10283 ff003e2b790c * empty log message * nipkow parents: 10267 diff changeset	17	involved. Below we give a simpler proof of \isa{AF{\isacharunderscore}lemma{\isadigit{2}}}
ff003e2b790c * empty log message * nipkow parents: 10267 diff changeset	18	based on an auxiliary inductive definition.
10267 325ead6d9457 updated; wenzelm parents: diff changeset	19
325ead6d9457 updated; wenzelm parents: diff changeset	20	Let us call a (finite or infinite) path \emph{\isa{A}-avoiding} if it does
325ead6d9457 updated; wenzelm parents: diff changeset	21	not touch any node in the set \isa{A}. Then \isa{AF{\isacharunderscore}lemma{\isadigit{2}}} says
325ead6d9457 updated; wenzelm parents: diff changeset	22	that if no infinite path from some state \isa{s} is \isa{A}-avoiding,
325ead6d9457 updated; wenzelm parents: diff changeset	23	then \isa{s\ {\isasymin}\ lfp\ {\isacharparenleft}af\ A{\isacharparenright}}. We prove this by inductively defining the set
325ead6d9457 updated; wenzelm parents: diff changeset	24	\isa{Avoid\ s\ A} of states reachable from \isa{s} by a finite \isa{A}-avoiding path:
325ead6d9457 updated; wenzelm parents: diff changeset	25	% Second proof of opposite direction, directly by well-founded induction
325ead6d9457 updated; wenzelm parents: diff changeset	26	% on the initial segment of M that avoids A.%
325ead6d9457 updated; wenzelm parents: diff changeset	27	\end{isamarkuptext}%
325ead6d9457 updated; wenzelm parents: diff changeset	28	\isacommand{consts}\ Avoid\ {\isacharcolon}{\isacharcolon}\ {\isachardoublequote}state\ {\isasymRightarrow}\ state\ set\ {\isasymRightarrow}\ state\ set{\isachardoublequote}\isanewline
325ead6d9457 updated; wenzelm parents: diff changeset	29	\isacommand{inductive}\ {\isachardoublequote}Avoid\ s\ A{\isachardoublequote}\isanewline
325ead6d9457 updated; wenzelm parents: diff changeset	30	\isakeyword{intros}\ {\isachardoublequote}s\ {\isasymin}\ Avoid\ s\ A{\isachardoublequote}\isanewline
325ead6d9457 updated; wenzelm parents: diff changeset	31	\ \ \ \ \ \ \ {\isachardoublequote}{\isasymlbrakk}\ t\ {\isasymin}\ Avoid\ s\ A{\isacharsemicolon}\ t\ {\isasymnotin}\ A{\isacharsemicolon}\ {\isacharparenleft}t{\isacharcomma}u{\isacharparenright}\ {\isasymin}\ M\ {\isasymrbrakk}\ {\isasymLongrightarrow}\ u\ {\isasymin}\ Avoid\ s\ A{\isachardoublequote}%
325ead6d9457 updated; wenzelm parents: diff changeset	32	\begin{isamarkuptext}%
325ead6d9457 updated; wenzelm parents: diff changeset	33	It is easy to see that for any infinite \isa{A}-avoiding path \isa{f}
325ead6d9457 updated; wenzelm parents: diff changeset	34	with \isa{f\ {\isadigit{0}}\ {\isasymin}\ Avoid\ s\ A} there is an infinite \isa{A}-avoiding path
325ead6d9457 updated; wenzelm parents: diff changeset	35	starting with \isa{s} because (by definition of \isa{Avoid}) there is a
325ead6d9457 updated; wenzelm parents: diff changeset	36	finite \isa{A}-avoiding path from \isa{s} to \isa{f\ {\isadigit{0}}}.
325ead6d9457 updated; wenzelm parents: diff changeset	37	The proof is by induction on \isa{f\ {\isadigit{0}}\ {\isasymin}\ Avoid\ s\ A}. However,
325ead6d9457 updated; wenzelm parents: diff changeset	38	this requires the following
325ead6d9457 updated; wenzelm parents: diff changeset	39	reformulation, as explained in \S\ref{sec:ind-var-in-prems} above;
325ead6d9457 updated; wenzelm parents: diff changeset	40	the \isa{rule{\isacharunderscore}format} directive undoes the reformulation after the proof.%
325ead6d9457 updated; wenzelm parents: diff changeset	41	\end{isamarkuptext}%
325ead6d9457 updated; wenzelm parents: diff changeset	42	\isacommand{lemma}\ ex{\isacharunderscore}infinite{\isacharunderscore}path{\isacharbrackleft}rule{\isacharunderscore}format{\isacharbrackright}{\isacharcolon}\isanewline
325ead6d9457 updated; wenzelm parents: diff changeset	43	\ \ {\isachardoublequote}t\ {\isasymin}\ Avoid\ s\ A\ \ {\isasymLongrightarrow}\isanewline
325ead6d9457 updated; wenzelm parents: diff changeset	44	\ \ \ {\isasymforall}f{\isasymin}Paths\ t{\isachardot}\ {\isacharparenleft}{\isasymforall}i{\isachardot}\ f\ i\ {\isasymnotin}\ A{\isacharparenright}\ {\isasymlongrightarrow}\ {\isacharparenleft}{\isasymexists}p{\isasymin}Paths\ s{\isachardot}\ {\isasymforall}i{\isachardot}\ p\ i\ {\isasymnotin}\ A{\isacharparenright}{\isachardoublequote}\isanewline
325ead6d9457 updated; wenzelm parents: diff changeset	45	\isacommand{apply}{\isacharparenleft}erule\ Avoid{\isachardot}induct{\isacharparenright}\isanewline
325ead6d9457 updated; wenzelm parents: diff changeset	46	\ \isacommand{apply}{\isacharparenleft}blast{\isacharparenright}\isanewline
325ead6d9457 updated; wenzelm parents: diff changeset	47	\isacommand{apply}{\isacharparenleft}clarify{\isacharparenright}\isanewline
325ead6d9457 updated; wenzelm parents: diff changeset	48	\isacommand{apply}{\isacharparenleft}drule{\isacharunderscore}tac\ x\ {\isacharequal}\ {\isachardoublequote}{\isasymlambda}i{\isachardot}\ case\ i\ of\ {\isadigit{0}}\ {\isasymRightarrow}\ t\ {\isacharbar}\ Suc\ i\ {\isasymRightarrow}\ f\ i{\isachardoublequote}\ \isakeyword{in}\ bspec{\isacharparenright}\isanewline
325ead6d9457 updated; wenzelm parents: diff changeset	49	\isacommand{apply}{\isacharparenleft}simp{\isacharunderscore}all\ add{\isacharcolon}Paths{\isacharunderscore}def\ split{\isacharcolon}nat{\isachardot}split{\isacharparenright}\isanewline
325ead6d9457 updated; wenzelm parents: diff changeset	50	\isacommand{done}%
325ead6d9457 updated; wenzelm parents: diff changeset	51	\begin{isamarkuptext}%
325ead6d9457 updated; wenzelm parents: diff changeset	52	\noindent
325ead6d9457 updated; wenzelm parents: diff changeset	53	The base case (\isa{t\ {\isacharequal}\ s}) is trivial (\isa{blast}).
325ead6d9457 updated; wenzelm parents: diff changeset	54	In the induction step, we have an infinite \isa{A}-avoiding path \isa{f}
325ead6d9457 updated; wenzelm parents: diff changeset	55	starting from \isa{u}, a successor of \isa{t}. Now we simply instantiate
325ead6d9457 updated; wenzelm parents: diff changeset	56	the \isa{{\isasymforall}f{\isasymin}Paths\ t} in the induction hypothesis by the path starting with
325ead6d9457 updated; wenzelm parents: diff changeset	57	\isa{t} and continuing with \isa{f}. That is what the above $\lambda$-term
10878 b254d5ad6dd4 auto update paulson parents: 10855 diff changeset	58	expresses. Simplification shows that this is a path starting with \isa{t}
b254d5ad6dd4 auto update paulson parents: 10855 diff changeset	59	and that the instantiated induction hypothesis implies the conclusion.
10267 325ead6d9457 updated; wenzelm parents: diff changeset	60
11196 bb4ede27fcb7 * empty log message * nipkow parents: 10971 diff changeset	61	Now we come to the key lemma. Assuming that no infinite \isa{A}-avoiding
11277 a2bff98d6e5d * empty log message * nipkow parents: 11196 diff changeset	62	path starts from \isa{s}, we want to show \isa{s\ {\isasymin}\ lfp\ {\isacharparenleft}af\ A{\isacharparenright}}. For the
a2bff98d6e5d * empty log message * nipkow parents: 11196 diff changeset	63	inductive proof this must be generalized to the statement that every point \isa{t}
a2bff98d6e5d * empty log message * nipkow parents: 11196 diff changeset	64	``between'' \isa{s} and \isa{A}, i.e.\ all of \isa{Avoid\ s\ A},
11196 bb4ede27fcb7 * empty log message * nipkow parents: 10971 diff changeset	65	is contained in \isa{lfp\ {\isacharparenleft}af\ A{\isacharparenright}}:%
10267 325ead6d9457 updated; wenzelm parents: diff changeset	66	\end{isamarkuptext}%
325ead6d9457 updated; wenzelm parents: diff changeset	67	\isacommand{lemma}\ Avoid{\isacharunderscore}in{\isacharunderscore}lfp{\isacharbrackleft}rule{\isacharunderscore}format{\isacharparenleft}no{\isacharunderscore}asm{\isacharparenright}{\isacharbrackright}{\isacharcolon}\isanewline
325ead6d9457 updated; wenzelm parents: diff changeset	68	\ \ {\isachardoublequote}{\isasymforall}p{\isasymin}Paths\ s{\isachardot}\ {\isasymexists}i{\isachardot}\ p\ i\ {\isasymin}\ A\ {\isasymLongrightarrow}\ t\ {\isasymin}\ Avoid\ s\ A\ {\isasymlongrightarrow}\ t\ {\isasymin}\ lfp{\isacharparenleft}af\ A{\isacharparenright}{\isachardoublequote}%
325ead6d9457 updated; wenzelm parents: diff changeset	69	\begin{isamarkuptxt}%
325ead6d9457 updated; wenzelm parents: diff changeset	70	\noindent
11196 bb4ede27fcb7 * empty log message * nipkow parents: 10971 diff changeset	71	The proof is by induction on the ``distance'' between \isa{t} and \isa{A}. Remember that \isa{lfp\ {\isacharparenleft}af\ A{\isacharparenright}\ {\isacharequal}\ A\ {\isasymunion}\ M{\isasyminverse}\ {\isacharbackquote}{\isacharbackquote}\ lfp\ {\isacharparenleft}af\ A{\isacharparenright}}.
bb4ede27fcb7 * empty log message * nipkow parents: 10971 diff changeset	72	If \isa{t} is already in \isa{A}, then \isa{t\ {\isasymin}\ lfp\ {\isacharparenleft}af\ A{\isacharparenright}} is
bb4ede27fcb7 * empty log message * nipkow parents: 10971 diff changeset	73	trivial. If \isa{t} is not in \isa{A} but all successors are in
bb4ede27fcb7 * empty log message * nipkow parents: 10971 diff changeset	74	\isa{lfp\ {\isacharparenleft}af\ A{\isacharparenright}} (induction hypothesis), then \isa{t\ {\isasymin}\ lfp\ {\isacharparenleft}af\ A{\isacharparenright}} is
bb4ede27fcb7 * empty log message * nipkow parents: 10971 diff changeset	75	again trivial.
bb4ede27fcb7 * empty log message * nipkow parents: 10971 diff changeset	76
bb4ede27fcb7 * empty log message * nipkow parents: 10971 diff changeset	77	The formal counterpart of this proof sketch is a well-founded induction
bb4ede27fcb7 * empty log message * nipkow parents: 10971 diff changeset	78	w.r.t.\ \isa{M} restricted to (roughly speaking) \isa{Avoid\ s\ A\ {\isacharminus}\ A}:
10267 325ead6d9457 updated; wenzelm parents: diff changeset	79	\begin{isabelle}%
11196 bb4ede27fcb7 * empty log message * nipkow parents: 10971 diff changeset	80	\ \ \ \ \ {\isacharbraceleft}{\isacharparenleft}y{\isacharcomma}\ x{\isacharparenright}{\isachardot}\ {\isacharparenleft}x{\isacharcomma}\ y{\isacharparenright}\ {\isasymin}\ M\ {\isasymand}\ x\ {\isasymin}\ Avoid\ s\ A\ {\isasymand}\ x\ {\isasymnotin}\ A{\isacharbraceright}%
10267 325ead6d9457 updated; wenzelm parents: diff changeset	81	\end{isabelle}
11277 a2bff98d6e5d * empty log message * nipkow parents: 11196 diff changeset	82	As we shall see presently, the absence of infinite \isa{A}-avoiding paths
10267 325ead6d9457 updated; wenzelm parents: diff changeset	83	starting from \isa{s} implies well-foundedness of this relation. For the
325ead6d9457 updated; wenzelm parents: diff changeset	84	moment we assume this and proceed with the induction:%
325ead6d9457 updated; wenzelm parents: diff changeset	85	\end{isamarkuptxt}%
11196 bb4ede27fcb7 * empty log message * nipkow parents: 10971 diff changeset	86	\isacommand{apply}{\isacharparenleft}subgoal{\isacharunderscore}tac\ {\isachardoublequote}wf{\isacharbraceleft}{\isacharparenleft}y{\isacharcomma}x{\isacharparenright}{\isachardot}\ {\isacharparenleft}x{\isacharcomma}y{\isacharparenright}\ {\isasymin}\ M\ {\isasymand}\ x\ {\isasymin}\ Avoid\ s\ A\ {\isasymand}\ x\ {\isasymnotin}\ A{\isacharbraceright}{\isachardoublequote}{\isacharparenright}\isanewline
10267 325ead6d9457 updated; wenzelm parents: diff changeset	87	\ \isacommand{apply}{\isacharparenleft}erule{\isacharunderscore}tac\ a\ {\isacharequal}\ t\ \isakeyword{in}\ wf{\isacharunderscore}induct{\isacharparenright}\isanewline
325ead6d9457 updated; wenzelm parents: diff changeset	88	\ \isacommand{apply}{\isacharparenleft}clarsimp{\isacharparenright}%
325ead6d9457 updated; wenzelm parents: diff changeset	89	\begin{isamarkuptxt}%
325ead6d9457 updated; wenzelm parents: diff changeset	90	\noindent
10878 b254d5ad6dd4 auto update paulson parents: 10855 diff changeset	91	\begin{isabelle}%
11196 bb4ede27fcb7 * empty log message * nipkow parents: 10971 diff changeset	92	\ {\isadigit{1}}{\isachardot}\ {\isasymAnd}t{\isachardot}\ {\isasymlbrakk}{\isasymforall}p{\isasymin}Paths\ s{\isachardot}\ {\isasymexists}i{\isachardot}\ p\ i\ {\isasymin}\ A{\isacharsemicolon}\ t\ {\isasymin}\ Avoid\ s\ A{\isacharsemicolon}\isanewline
bb4ede27fcb7 * empty log message * nipkow parents: 10971 diff changeset	93	\isaindent{\ {\isadigit{1}}{\isachardot}\ {\isasymAnd}t{\isachardot}\ \ \ \ }{\isasymforall}y{\isachardot}\ {\isacharparenleft}t{\isacharcomma}\ y{\isacharparenright}\ {\isasymin}\ M\ {\isasymand}\ t\ {\isasymnotin}\ A\ {\isasymlongrightarrow}\isanewline
bb4ede27fcb7 * empty log message * nipkow parents: 10971 diff changeset	94	\isaindent{\ {\isadigit{1}}{\isachardot}\ {\isasymAnd}t{\isachardot}\ \ \ \ {\isasymforall}y{\isachardot}\ }y\ {\isasymin}\ Avoid\ s\ A\ {\isasymlongrightarrow}\ y\ {\isasymin}\ lfp\ {\isacharparenleft}af\ A{\isacharparenright}{\isasymrbrakk}\isanewline
bb4ede27fcb7 * empty log message * nipkow parents: 10971 diff changeset	95	\isaindent{\ {\isadigit{1}}{\isachardot}\ {\isasymAnd}t{\isachardot}\ }{\isasymLongrightarrow}\ t\ {\isasymin}\ lfp\ {\isacharparenleft}af\ A{\isacharparenright}\isanewline
10878 b254d5ad6dd4 auto update paulson parents: 10855 diff changeset	96	\ {\isadigit{2}}{\isachardot}\ {\isasymforall}p{\isasymin}Paths\ s{\isachardot}\ {\isasymexists}i{\isachardot}\ p\ i\ {\isasymin}\ A\ {\isasymLongrightarrow}\isanewline
11196 bb4ede27fcb7 * empty log message * nipkow parents: 10971 diff changeset	97	\isaindent{\ {\isadigit{2}}{\isachardot}\ }wf\ {\isacharbraceleft}{\isacharparenleft}y{\isacharcomma}\ x{\isacharparenright}{\isachardot}\ {\isacharparenleft}x{\isacharcomma}\ y{\isacharparenright}\ {\isasymin}\ M\ {\isasymand}\ x\ {\isasymin}\ Avoid\ s\ A\ {\isasymand}\ x\ {\isasymnotin}\ A{\isacharbraceright}%
10878 b254d5ad6dd4 auto update paulson parents: 10855 diff changeset	98	\end{isabelle}
b254d5ad6dd4 auto update paulson parents: 10855 diff changeset	99	Now the induction hypothesis states that if \isa{t\ {\isasymnotin}\ A}
10267 325ead6d9457 updated; wenzelm parents: diff changeset	100	then all successors of \isa{t} that are in \isa{Avoid\ s\ A} are in
11196 bb4ede27fcb7 * empty log message * nipkow parents: 10971 diff changeset	101	\isa{lfp\ {\isacharparenleft}af\ A{\isacharparenright}}. Unfolding \isa{lfp} in the conclusion of the first
bb4ede27fcb7 * empty log message * nipkow parents: 10971 diff changeset	102	subgoal once, we have to prove that \isa{t} is in \isa{A} or all successors
bb4ede27fcb7 * empty log message * nipkow parents: 10971 diff changeset	103	of \isa{t} are in \isa{lfp\ {\isacharparenleft}af\ A{\isacharparenright}}: if \isa{t} is not in \isa{A},
bb4ede27fcb7 * empty log message * nipkow parents: 10971 diff changeset	104	the second
10267 325ead6d9457 updated; wenzelm parents: diff changeset	105	\isa{Avoid}-rule implies that all successors of \isa{t} are in
325ead6d9457 updated; wenzelm parents: diff changeset	106	\isa{Avoid\ s\ A} (because we also assume \isa{t\ {\isasymin}\ Avoid\ s\ A}), and
325ead6d9457 updated; wenzelm parents: diff changeset	107	hence, by the induction hypothesis, all successors of \isa{t} are indeed in
325ead6d9457 updated; wenzelm parents: diff changeset	108	\isa{lfp\ {\isacharparenleft}af\ A{\isacharparenright}}. Mechanically:%
325ead6d9457 updated; wenzelm parents: diff changeset	109	\end{isamarkuptxt}%
11196 bb4ede27fcb7 * empty log message * nipkow parents: 10971 diff changeset	110	\ \isacommand{apply}{\isacharparenleft}subst\ lfp{\isacharunderscore}unfold{\isacharbrackleft}OF\ mono{\isacharunderscore}af{\isacharbrackright}{\isacharparenright}\isanewline
bb4ede27fcb7 * empty log message * nipkow parents: 10971 diff changeset	111	\ \isacommand{apply}{\isacharparenleft}simp\ {\isacharparenleft}no{\isacharunderscore}asm{\isacharparenright}\ add{\isacharcolon}\ af{\isacharunderscore}def{\isacharparenright}\isanewline
10267 325ead6d9457 updated; wenzelm parents: diff changeset	112	\ \isacommand{apply}{\isacharparenleft}blast\ intro{\isacharcolon}Avoid{\isachardot}intros{\isacharparenright}%
325ead6d9457 updated; wenzelm parents: diff changeset	113	\begin{isamarkuptxt}%
325ead6d9457 updated; wenzelm parents: diff changeset	114	Having proved the main goal we return to the proof obligation that the above
10878 b254d5ad6dd4 auto update paulson parents: 10855 diff changeset	115	relation is indeed well-founded. This is proved by contradiction: if
b254d5ad6dd4 auto update paulson parents: 10855 diff changeset	116	the relation is not well-founded then there exists an infinite \isa{A}-avoiding path all in \isa{Avoid\ s\ A}, by theorem
10267 325ead6d9457 updated; wenzelm parents: diff changeset	117	\isa{wf{\isacharunderscore}iff{\isacharunderscore}no{\isacharunderscore}infinite{\isacharunderscore}down{\isacharunderscore}chain}:
325ead6d9457 updated; wenzelm parents: diff changeset	118	\begin{isabelle}%
325ead6d9457 updated; wenzelm parents: diff changeset	119	\ \ \ \ \ wf\ r\ {\isacharequal}\ {\isacharparenleft}{\isasymnot}\ {\isacharparenleft}{\isasymexists}f{\isachardot}\ {\isasymforall}i{\isachardot}\ {\isacharparenleft}f\ {\isacharparenleft}Suc\ i{\isacharparenright}{\isacharcomma}\ f\ i{\isacharparenright}\ {\isasymin}\ r{\isacharparenright}{\isacharparenright}%
325ead6d9457 updated; wenzelm parents: diff changeset	120	\end{isabelle}
325ead6d9457 updated; wenzelm parents: diff changeset	121	From lemma \isa{ex{\isacharunderscore}infinite{\isacharunderscore}path} the existence of an infinite
10878 b254d5ad6dd4 auto update paulson parents: 10855 diff changeset	122	\isa{A}-avoiding path starting in \isa{s} follows, contradiction.%
10267 325ead6d9457 updated; wenzelm parents: diff changeset	123	\end{isamarkuptxt}%
325ead6d9457 updated; wenzelm parents: diff changeset	124	\isacommand{apply}{\isacharparenleft}erule\ contrapos{\isacharunderscore}pp{\isacharparenright}\isanewline
325ead6d9457 updated; wenzelm parents: diff changeset	125	\isacommand{apply}{\isacharparenleft}simp\ add{\isacharcolon}wf{\isacharunderscore}iff{\isacharunderscore}no{\isacharunderscore}infinite{\isacharunderscore}down{\isacharunderscore}chain{\isacharparenright}\isanewline
325ead6d9457 updated; wenzelm parents: diff changeset	126	\isacommand{apply}{\isacharparenleft}erule\ exE{\isacharparenright}\isanewline
325ead6d9457 updated; wenzelm parents: diff changeset	127	\isacommand{apply}{\isacharparenleft}rule\ ex{\isacharunderscore}infinite{\isacharunderscore}path{\isacharparenright}\isanewline
325ead6d9457 updated; wenzelm parents: diff changeset	128	\isacommand{apply}{\isacharparenleft}auto\ simp\ add{\isacharcolon}Paths{\isacharunderscore}def{\isacharparenright}\isanewline
325ead6d9457 updated; wenzelm parents: diff changeset	129	\isacommand{done}%
325ead6d9457 updated; wenzelm parents: diff changeset	130	\begin{isamarkuptext}%
11196 bb4ede27fcb7 * empty log message * nipkow parents: 10971 diff changeset	131	The \isa{{\isacharparenleft}no{\isacharunderscore}asm{\isacharparenright}} modifier of the \isa{rule{\isacharunderscore}format} directive in the
bb4ede27fcb7 * empty log message * nipkow parents: 10971 diff changeset	132	statement of the lemma means
10971 6852682eaf16 * empty log message * nipkow parents: 10950 diff changeset	133	that the assumption is left unchanged --- otherwise the \isa{{\isasymforall}p} is turned
10267 325ead6d9457 updated; wenzelm parents: diff changeset	134	into a \isa{{\isasymAnd}p}, which would complicate matters below. As it is,
325ead6d9457 updated; wenzelm parents: diff changeset	135	\isa{Avoid{\isacharunderscore}in{\isacharunderscore}lfp} is now
325ead6d9457 updated; wenzelm parents: diff changeset	136	\begin{isabelle}%
10696 76d7f6c9a14c * empty log message * nipkow parents: 10668 diff changeset	137	\ \ \ \ \ {\isasymlbrakk}{\isasymforall}p{\isasymin}Paths\ s{\isachardot}\ {\isasymexists}i{\isachardot}\ p\ i\ {\isasymin}\ A{\isacharsemicolon}\ t\ {\isasymin}\ Avoid\ s\ A{\isasymrbrakk}\ {\isasymLongrightarrow}\ t\ {\isasymin}\ lfp\ {\isacharparenleft}af\ A{\isacharparenright}%
10267 325ead6d9457 updated; wenzelm parents: diff changeset	138	\end{isabelle}
325ead6d9457 updated; wenzelm parents: diff changeset	139	The main theorem is simply the corollary where \isa{t\ {\isacharequal}\ s},
325ead6d9457 updated; wenzelm parents: diff changeset	140	in which case the assumption \isa{t\ {\isasymin}\ Avoid\ s\ A} is trivially true
10845 3696bc935bbd * empty log message * nipkow parents: 10795 diff changeset	141	by the first \isa{Avoid}-rule. Isabelle confirms this:%
10267 325ead6d9457 updated; wenzelm parents: diff changeset	142	\end{isamarkuptext}%
10855 140a1ed65665 * empty log message * nipkow parents: 10845 diff changeset	143	\isacommand{theorem}\ AF{\isacharunderscore}lemma{\isadigit{2}}{\isacharcolon}\ \ {\isachardoublequote}{\isacharbraceleft}s{\isachardot}\ {\isasymforall}p\ {\isasymin}\ Paths\ s{\isachardot}\ {\isasymexists}\ i{\isachardot}\ p\ i\ {\isasymin}\ A{\isacharbraceright}\ {\isasymsubseteq}\ lfp{\isacharparenleft}af\ A{\isacharparenright}{\isachardoublequote}\isanewline
10267 325ead6d9457 updated; wenzelm parents: diff changeset	144	\isacommand{by}{\isacharparenleft}auto\ elim{\isacharcolon}Avoid{\isacharunderscore}in{\isacharunderscore}lfp\ intro{\isacharcolon}Avoid{\isachardot}intros{\isacharparenright}\isanewline
325ead6d9457 updated; wenzelm parents: diff changeset	145	\isanewline
325ead6d9457 updated; wenzelm parents: diff changeset	146	\end{isabellebody}%
325ead6d9457 updated; wenzelm parents: diff changeset	147	%%% Local Variables:
325ead6d9457 updated; wenzelm parents: diff changeset	148	%%% mode: latex
325ead6d9457 updated; wenzelm parents: diff changeset	149	%%% TeX-master: "root"
325ead6d9457 updated; wenzelm parents: diff changeset	150	%%% End:

author	nipkow
	Tue, 01 May 2001 22:26:55 +0200
changeset 11277	a2bff98d6e5d
parent 11196	bb4ede27fcb7
child 11494	23a118849801
permissions	-rw-r--r--