isabelle: doc-src/TutorialI/Advanced/document/simp.tex@5f42dd5e6570 (annotated)

9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	1	%
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	2	\begin{isabellebody}%
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	3	\def\isabellecontext{simp}%
17181 5f42dd5e6570 updated; wenzelm parents: 17175 diff changeset	4	\isamarkupfalse%
17056 05fc32a23b8b updated; wenzelm parents: 14270 diff changeset	5	%
05fc32a23b8b updated; wenzelm parents: 14270 diff changeset	6	\isadelimtheory
05fc32a23b8b updated; wenzelm parents: 14270 diff changeset	7	%
05fc32a23b8b updated; wenzelm parents: 14270 diff changeset	8	\endisadelimtheory
05fc32a23b8b updated; wenzelm parents: 14270 diff changeset	9	%
05fc32a23b8b updated; wenzelm parents: 14270 diff changeset	10	\isatagtheory
05fc32a23b8b updated; wenzelm parents: 14270 diff changeset	11	%
05fc32a23b8b updated; wenzelm parents: 14270 diff changeset	12	\endisatagtheory
05fc32a23b8b updated; wenzelm parents: 14270 diff changeset	13	{\isafoldtheory}%
05fc32a23b8b updated; wenzelm parents: 14270 diff changeset	14	%
05fc32a23b8b updated; wenzelm parents: 14270 diff changeset	15	\isadelimtheory
05fc32a23b8b updated; wenzelm parents: 14270 diff changeset	16	%
05fc32a23b8b updated; wenzelm parents: 14270 diff changeset	17	\endisadelimtheory
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	18	%
10395 7ef380745743 updated; wenzelm parents: 10281 diff changeset	19	\isamarkupsection{Simplification%
7ef380745743 updated; wenzelm parents: 10281 diff changeset	20	}
11866 fbd097aec213 updated; wenzelm parents: 11494 diff changeset	21	\isamarkuptrue%
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	22	%
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	23	\begin{isamarkuptext}%
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	24	\label{sec:simplification-II}\index{simplification\|(}
11494 23a118849801 revisions and indexing paulson parents: 11458 diff changeset	25	This section describes features not covered until now. It also
23a118849801 revisions and indexing paulson parents: 11458 diff changeset	26	outlines the simplification process itself, which can be helpful
23a118849801 revisions and indexing paulson parents: 11458 diff changeset	27	when the simplifier does not do what you expect of it.%
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	28	\end{isamarkuptext}%
11866 fbd097aec213 updated; wenzelm parents: 11494 diff changeset	29	\isamarkuptrue%
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	30	%
10878 b254d5ad6dd4 auto update paulson parents: 10845 diff changeset	31	\isamarkupsubsection{Advanced Features%
10395 7ef380745743 updated; wenzelm parents: 10281 diff changeset	32	}
11866 fbd097aec213 updated; wenzelm parents: 11494 diff changeset	33	\isamarkuptrue%
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	34	%
10878 b254d5ad6dd4 auto update paulson parents: 10845 diff changeset	35	\isamarkupsubsubsection{Congruence Rules%
10395 7ef380745743 updated; wenzelm parents: 10281 diff changeset	36	}
11866 fbd097aec213 updated; wenzelm parents: 11494 diff changeset	37	\isamarkuptrue%
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	38	%
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	39	\begin{isamarkuptext}%
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	40	\label{sec:simp-cong}
11494 23a118849801 revisions and indexing paulson parents: 11458 diff changeset	41	While simplifying the conclusion $Q$
13191 05a9929ee10e * empty log message * nipkow parents: 11866 diff changeset	42	of $P \Imp Q$, it is legal to use the assumption $P$.
11494 23a118849801 revisions and indexing paulson parents: 11458 diff changeset	43	For $\Imp$ this policy is hardwired, but
23a118849801 revisions and indexing paulson parents: 11458 diff changeset	44	contextual information can also be made available for other
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	45	operators. For example, \isa{xs\ {\isacharequal}\ {\isacharbrackleft}{\isacharbrackright}\ {\isasymlongrightarrow}\ xs\ {\isacharat}\ xs\ {\isacharequal}\ xs} simplifies to \isa{True} because we may use \isa{xs\ {\isacharequal}\ {\isacharbrackleft}{\isacharbrackright}} when simplifying \isa{xs\ {\isacharat}\ xs\ {\isacharequal}\ xs}. The generation of contextual information during simplification is
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	46	controlled by so-called \bfindex{congruence rules}. This is the one for
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	47	\isa{{\isasymlongrightarrow}}:
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	48	\begin{isabelle}%
10696 76d7f6c9a14c * empty log message * nipkow parents: 10668 diff changeset	49	\ \ \ \ \ {\isasymlbrakk}P\ {\isacharequal}\ P{\isacharprime}{\isacharsemicolon}\ P{\isacharprime}\ {\isasymLongrightarrow}\ Q\ {\isacharequal}\ Q{\isacharprime}{\isasymrbrakk}\ {\isasymLongrightarrow}\ {\isacharparenleft}P\ {\isasymlongrightarrow}\ Q{\isacharparenright}\ {\isacharequal}\ {\isacharparenleft}P{\isacharprime}\ {\isasymlongrightarrow}\ Q{\isacharprime}{\isacharparenright}%
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	50	\end{isabelle}
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	51	It should be read as follows:
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	52	In order to simplify \isa{P\ {\isasymlongrightarrow}\ Q} to \isa{P{\isacharprime}\ {\isasymlongrightarrow}\ Q{\isacharprime}},
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	53	simplify \isa{P} to \isa{P{\isacharprime}}
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	54	and assume \isa{P{\isacharprime}} when simplifying \isa{Q} to \isa{Q{\isacharprime}}.
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	55
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	56	Here are some more examples. The congruence rules for bounded
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	57	quantifiers supply contextual information about the bound variable:
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	58	\begin{isabelle}%
10696 76d7f6c9a14c * empty log message * nipkow parents: 10668 diff changeset	59	\ \ \ \ \ {\isasymlbrakk}A\ {\isacharequal}\ B{\isacharsemicolon}\ {\isasymAnd}x{\isachardot}\ x\ {\isasymin}\ B\ {\isasymLongrightarrow}\ P\ x\ {\isacharequal}\ Q\ x{\isasymrbrakk}\isanewline
10950 aa788fcb75a5 updated; wenzelm parents: 10878 diff changeset	60	\isaindent{\ \ \ \ \ }{\isasymLongrightarrow}\ {\isacharparenleft}{\isasymforall}x{\isasymin}A{\isachardot}\ P\ x{\isacharparenright}\ {\isacharequal}\ {\isacharparenleft}{\isasymforall}x{\isasymin}B{\isachardot}\ Q\ x{\isacharparenright}%
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	61	\end{isabelle}
11494 23a118849801 revisions and indexing paulson parents: 11458 diff changeset	62	One congruence rule for conditional expressions supplies contextual
11196 bb4ede27fcb7 * empty log message * nipkow parents: 10978 diff changeset	63	information for simplifying the \isa{then} and \isa{else} cases:
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	64	\begin{isabelle}%
10696 76d7f6c9a14c * empty log message * nipkow parents: 10668 diff changeset	65	\ \ \ \ \ {\isasymlbrakk}b\ {\isacharequal}\ c{\isacharsemicolon}\ c\ {\isasymLongrightarrow}\ x\ {\isacharequal}\ u{\isacharsemicolon}\ {\isasymnot}\ c\ {\isasymLongrightarrow}\ y\ {\isacharequal}\ v{\isasymrbrakk}\isanewline
10950 aa788fcb75a5 updated; wenzelm parents: 10878 diff changeset	66	\isaindent{\ \ \ \ \ }{\isasymLongrightarrow}\ {\isacharparenleft}if\ b\ then\ x\ else\ y{\isacharparenright}\ {\isacharequal}\ {\isacharparenleft}if\ c\ then\ u\ else\ v{\isacharparenright}%
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	67	\end{isabelle}
11494 23a118849801 revisions and indexing paulson parents: 11458 diff changeset	68	An alternative congruence rule for conditional expressions
23a118849801 revisions and indexing paulson parents: 11458 diff changeset	69	actually \emph{prevents} simplification of some arguments:
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	70	\begin{isabelle}%
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	71	\ \ \ \ \ b\ {\isacharequal}\ c\ {\isasymLongrightarrow}\ {\isacharparenleft}if\ b\ then\ x\ else\ y{\isacharparenright}\ {\isacharequal}\ {\isacharparenleft}if\ c\ then\ x\ else\ y{\isacharparenright}%
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	72	\end{isabelle}
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	73	Only the first argument is simplified; the others remain unchanged.
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	74	This makes simplification much faster and is faithful to the evaluation
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	75	strategy in programming languages, which is why this is the default
11196 bb4ede27fcb7 * empty log message * nipkow parents: 10978 diff changeset	76	congruence rule for \isa{if}. Analogous rules control the evaluation of
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	77	\isa{case} expressions.
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	78
11458 09a6c44a48ea numerous stylistic changes and indexing paulson parents: 11216 diff changeset	79	You can declare your own congruence rules with the attribute \attrdx{cong},
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	80	either globally, in the usual manner,
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	81	\begin{quote}
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	82	\isacommand{declare} \textit{theorem-name} \isa{{\isacharbrackleft}cong{\isacharbrackright}}
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	83	\end{quote}
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	84	or locally in a \isa{simp} call by adding the modifier
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	85	\begin{quote}
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	86	\isa{cong{\isacharcolon}} \textit{list of theorem names}
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	87	\end{quote}
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	88	The effect is reversed by \isa{cong\ del} instead of \isa{cong}.
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	89
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	90	\begin{warn}
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	91	The congruence rule \isa{conj{\isacharunderscore}cong}
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	92	\begin{isabelle}%
10696 76d7f6c9a14c * empty log message * nipkow parents: 10668 diff changeset	93	\ \ \ \ \ {\isasymlbrakk}P\ {\isacharequal}\ P{\isacharprime}{\isacharsemicolon}\ P{\isacharprime}\ {\isasymLongrightarrow}\ Q\ {\isacharequal}\ Q{\isacharprime}{\isasymrbrakk}\ {\isasymLongrightarrow}\ {\isacharparenleft}P\ {\isasymand}\ Q{\isacharparenright}\ {\isacharequal}\ {\isacharparenleft}P{\isacharprime}\ {\isasymand}\ Q{\isacharprime}{\isacharparenright}%
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	94	\end{isabelle}
10878 b254d5ad6dd4 auto update paulson parents: 10845 diff changeset	95	\par\noindent
b254d5ad6dd4 auto update paulson parents: 10845 diff changeset	96	is occasionally useful but is not a default rule; you have to declare it explicitly.
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	97	\end{warn}%
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	98	\end{isamarkuptext}%
11866 fbd097aec213 updated; wenzelm parents: 11494 diff changeset	99	\isamarkuptrue%
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	100	%
10878 b254d5ad6dd4 auto update paulson parents: 10845 diff changeset	101	\isamarkupsubsubsection{Permutative Rewrite Rules%
10395 7ef380745743 updated; wenzelm parents: 10281 diff changeset	102	}
11866 fbd097aec213 updated; wenzelm parents: 11494 diff changeset	103	\isamarkuptrue%
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	104	%
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	105	\begin{isamarkuptext}%
11494 23a118849801 revisions and indexing paulson parents: 11458 diff changeset	106	\index{rewrite rules!permutative\|bold}%
23a118849801 revisions and indexing paulson parents: 11458 diff changeset	107	An equation is a \textbf{permutative rewrite rule} if the left-hand
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	108	side and right-hand side are the same up to renaming of variables. The most
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	109	common permutative rule is commutativity: \isa{x\ {\isacharplus}\ y\ {\isacharequal}\ y\ {\isacharplus}\ x}. Other examples
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	110	include \isa{x\ {\isacharminus}\ y\ {\isacharminus}\ z\ {\isacharequal}\ x\ {\isacharminus}\ z\ {\isacharminus}\ y} in arithmetic and \isa{insert\ x\ {\isacharparenleft}insert\ y\ A{\isacharparenright}\ {\isacharequal}\ insert\ y\ {\isacharparenleft}insert\ x\ A{\isacharparenright}} for sets. Such rules are problematic because
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	111	once they apply, they can be used forever. The simplifier is aware of this
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	112	danger and treats permutative rules by means of a special strategy, called
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	113	\bfindex{ordered rewriting}: a permutative rewrite
10978 5eebea8f359f * empty log message * nipkow parents: 10950 diff changeset	114	rule is only applied if the term becomes smaller with respect to a fixed
5eebea8f359f * empty log message * nipkow parents: 10950 diff changeset	115	lexicographic ordering on terms. For example, commutativity rewrites
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	116	\isa{b\ {\isacharplus}\ a} to \isa{a\ {\isacharplus}\ b}, but then stops because \isa{a\ {\isacharplus}\ b} is strictly
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	117	smaller than \isa{b\ {\isacharplus}\ a}. Permutative rewrite rules can be turned into
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	118	simplification rules in the usual manner via the \isa{simp} attribute; the
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	119	simplifier recognizes their special status automatically.
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	120
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	121	Permutative rewrite rules are most effective in the case of
10281 9554ce1c2e54 * empty log message * nipkow parents: 10186 diff changeset	122	associative-commutative functions. (Associativity by itself is not
9554ce1c2e54 * empty log message * nipkow parents: 10186 diff changeset	123	permutative.) When dealing with an AC-function~$f$, keep the
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	124	following points in mind:
10281 9554ce1c2e54 * empty log message * nipkow parents: 10186 diff changeset	125	\begin{itemize}\index{associative-commutative function}
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	126
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	127	\item The associative law must always be oriented from left to right,
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	128	namely $f(f(x,y),z) = f(x,f(y,z))$. The opposite orientation, if
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	129	used with commutativity, can lead to nontermination.
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	130
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	131	\item To complete your set of rewrite rules, you must add not just
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	132	associativity~(A) and commutativity~(C) but also a derived rule, {\bf
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	133	left-com\-mut\-ativ\-ity} (LC): $f(x,f(y,z)) = f(y,f(x,z))$.
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	134	\end{itemize}
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	135	Ordered rewriting with the combination of A, C, and LC sorts a term
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	136	lexicographically:
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	137	\[\def\maps#1{~\stackrel{#1}{\leadsto}~}
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	138	f(f(b,c),a) \maps{A} f(b,f(c,a)) \maps{C} f(b,f(a,c)) \maps{LC} f(a,f(b,c)) \]
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	139
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	140	Note that ordered rewriting for \isa{{\isacharplus}} and \isa{{\isacharasterisk}} on numbers is rarely
10878 b254d5ad6dd4 auto update paulson parents: 10845 diff changeset	141	necessary because the built-in arithmetic prover often succeeds without
11196 bb4ede27fcb7 * empty log message * nipkow parents: 10978 diff changeset	142	such tricks.%
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	143	\end{isamarkuptext}%
11866 fbd097aec213 updated; wenzelm parents: 11494 diff changeset	144	\isamarkuptrue%
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	145	%
11494 23a118849801 revisions and indexing paulson parents: 11458 diff changeset	146	\isamarkupsubsection{How the Simplifier Works%
10395 7ef380745743 updated; wenzelm parents: 10281 diff changeset	147	}
11866 fbd097aec213 updated; wenzelm parents: 11494 diff changeset	148	\isamarkuptrue%
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	149	%
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	150	\begin{isamarkuptext}%
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	151	\label{sec:SimpHow}
11494 23a118849801 revisions and indexing paulson parents: 11458 diff changeset	152	Roughly speaking, the simplifier proceeds bottom-up: subterms are simplified
23a118849801 revisions and indexing paulson parents: 11458 diff changeset	153	first. A conditional equation is only applied if its condition can be
23a118849801 revisions and indexing paulson parents: 11458 diff changeset	154	proved, again by simplification. Below we explain some special features of
23a118849801 revisions and indexing paulson parents: 11458 diff changeset	155	the rewriting process.%
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	156	\end{isamarkuptext}%
11866 fbd097aec213 updated; wenzelm parents: 11494 diff changeset	157	\isamarkuptrue%
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	158	%
10878 b254d5ad6dd4 auto update paulson parents: 10845 diff changeset	159	\isamarkupsubsubsection{Higher-Order Patterns%
10395 7ef380745743 updated; wenzelm parents: 10281 diff changeset	160	}
11866 fbd097aec213 updated; wenzelm parents: 11494 diff changeset	161	\isamarkuptrue%
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	162	%
10186 499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	163	\begin{isamarkuptext}%
499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	164	\index{simplification rule\|(}
499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	165	So far we have pretended the simplifier can deal with arbitrary
11494 23a118849801 revisions and indexing paulson parents: 11458 diff changeset	166	rewrite rules. This is not quite true. For reasons of feasibility,
23a118849801 revisions and indexing paulson parents: 11458 diff changeset	167	the simplifier expects the
10186 499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	168	left-hand side of each rule to be a so-called \emph{higher-order
11494 23a118849801 revisions and indexing paulson parents: 11458 diff changeset	169	pattern}~\cite{nipkow-patterns}\indexbold{patterns!higher-order}.
23a118849801 revisions and indexing paulson parents: 11458 diff changeset	170	This restricts where
10186 499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	171	unknowns may occur. Higher-order patterns are terms in $\beta$-normal
11494 23a118849801 revisions and indexing paulson parents: 11458 diff changeset	172	form. (This means there are no subterms of the form $(\lambda x. M)(N)$.)
23a118849801 revisions and indexing paulson parents: 11458 diff changeset	173	Each occurrence of an unknown is of the form
10186 499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	174	$\Var{f}~x@1~\dots~x@n$, where the $x@i$ are distinct bound
10978 5eebea8f359f * empty log message * nipkow parents: 10950 diff changeset	175	variables. Thus all ordinary rewrite rules, where all unknowns are
14270 342451d763f9 More re-organising of numerical theorems paulson parents: 13778 diff changeset	176	of base type, for example \isa{{\isacharquery}a\ {\isacharplus}\ {\isacharquery}b\ {\isacharplus}\ {\isacharquery}c\ {\isacharequal}\ {\isacharquery}a\ {\isacharplus}\ {\isacharparenleft}{\isacharquery}b\ {\isacharplus}\ {\isacharquery}c{\isacharparenright}}, are acceptable: if an unknown is
10186 499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	177	of base type, it cannot have any arguments. Additionally, the rule
11494 23a118849801 revisions and indexing paulson parents: 11458 diff changeset	178	\isa{{\isacharparenleft}{\isasymforall}x{\isachardot}\ {\isacharquery}P\ x\ {\isasymand}\ {\isacharquery}Q\ x{\isacharparenright}\ {\isacharequal}\ {\isacharparenleft}{\isacharparenleft}{\isasymforall}x{\isachardot}\ {\isacharquery}P\ x{\isacharparenright}\ {\isasymand}\ {\isacharparenleft}{\isasymforall}x{\isachardot}\ {\isacharquery}Q\ x{\isacharparenright}{\isacharparenright}} is also acceptable, in
10186 499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	179	both directions: all arguments of the unknowns \isa{{\isacharquery}P} and
499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	180	\isa{{\isacharquery}Q} are distinct bound variables.
499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	181
11494 23a118849801 revisions and indexing paulson parents: 11458 diff changeset	182	If the left-hand side is not a higher-order pattern, all is not lost.
23a118849801 revisions and indexing paulson parents: 11458 diff changeset	183	The simplifier will still try to apply the rule provided it
23a118849801 revisions and indexing paulson parents: 11458 diff changeset	184	matches directly: without much $\lambda$-calculus hocus
23a118849801 revisions and indexing paulson parents: 11458 diff changeset	185	pocus. For example, \isa{{\isacharparenleft}{\isacharquery}f\ {\isacharquery}x\ {\isasymin}\ range\ {\isacharquery}f{\isacharparenright}\ {\isacharequal}\ True} rewrites
10186 499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	186	\isa{g\ a\ {\isasymin}\ range\ g} to \isa{True}, but will fail to match
499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	187	\isa{g{\isacharparenleft}h\ b{\isacharparenright}\ {\isasymin}\ range{\isacharparenleft}{\isasymlambda}x{\isachardot}\ g{\isacharparenleft}h\ x{\isacharparenright}{\isacharparenright}}. However, you can
11494 23a118849801 revisions and indexing paulson parents: 11458 diff changeset	188	eliminate the offending subterms --- those that are not patterns ---
23a118849801 revisions and indexing paulson parents: 11458 diff changeset	189	by adding new variables and conditions.
23a118849801 revisions and indexing paulson parents: 11458 diff changeset	190	In our example, we eliminate \isa{{\isacharquery}f\ {\isacharquery}x} and obtain
23a118849801 revisions and indexing paulson parents: 11458 diff changeset	191	\isa{{\isacharquery}y\ {\isacharequal}\ {\isacharquery}f\ {\isacharquery}x\ {\isasymLongrightarrow}\ {\isacharparenleft}{\isacharquery}y\ {\isasymin}\ range\ {\isacharquery}f{\isacharparenright}\ {\isacharequal}\ True}, which is fine
10186 499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	192	as a conditional rewrite rule since conditions can be arbitrary
11494 23a118849801 revisions and indexing paulson parents: 11458 diff changeset	193	terms. However, this trick is not a panacea because the newly
11196 bb4ede27fcb7 * empty log message * nipkow parents: 10978 diff changeset	194	introduced conditions may be hard to solve.
10186 499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	195
10878 b254d5ad6dd4 auto update paulson parents: 10845 diff changeset	196	There is no restriction on the form of the right-hand
10186 499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	197	sides. They may not contain extraneous term or type variables, though.%
499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	198	\end{isamarkuptext}%
11866 fbd097aec213 updated; wenzelm parents: 11494 diff changeset	199	\isamarkuptrue%
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	200	%
10878 b254d5ad6dd4 auto update paulson parents: 10845 diff changeset	201	\isamarkupsubsubsection{The Preprocessor%
10395 7ef380745743 updated; wenzelm parents: 10281 diff changeset	202	}
11866 fbd097aec213 updated; wenzelm parents: 11494 diff changeset	203	\isamarkuptrue%
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	204	%
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	205	\begin{isamarkuptext}%
10845 3696bc935bbd * empty log message * nipkow parents: 10795 diff changeset	206	\label{sec:simp-preprocessor}
10878 b254d5ad6dd4 auto update paulson parents: 10845 diff changeset	207	When a theorem is declared a simplification rule, it need not be a
10186 499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	208	conditional equation already. The simplifier will turn it into a set of
10878 b254d5ad6dd4 auto update paulson parents: 10845 diff changeset	209	conditional equations automatically. For example, \isa{f\ x\ {\isacharequal}\ g\ x\ {\isasymand}\ h\ x\ {\isacharequal}\ k\ x} becomes the two separate
b254d5ad6dd4 auto update paulson parents: 10845 diff changeset	210	simplification rules \isa{f\ x\ {\isacharequal}\ g\ x} and \isa{h\ x\ {\isacharequal}\ k\ x}. In
10186 499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	211	general, the input theorem is converted as follows:
499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	212	\begin{eqnarray}
10878 b254d5ad6dd4 auto update paulson parents: 10845 diff changeset	213	\neg P &\mapsto& P = \hbox{\isa{False}} \nonumber\\
10186 499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	214	P \longrightarrow Q &\mapsto& P \Longrightarrow Q \nonumber\\
499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	215	P \land Q &\mapsto& P,\ Q \nonumber\\
499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	216	\forall x.~P~x &\mapsto& P~\Var{x}\nonumber\\
499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	217	\forall x \in A.\ P~x &\mapsto& \Var{x} \in A \Longrightarrow P~\Var{x} \nonumber\\
499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	218	\isa{if}\ P\ \isa{then}\ Q\ \isa{else}\ R &\mapsto&
499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	219	P \Longrightarrow Q,\ \neg P \Longrightarrow R \nonumber
499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	220	\end{eqnarray}
499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	221	Once this conversion process is finished, all remaining non-equations
10878 b254d5ad6dd4 auto update paulson parents: 10845 diff changeset	222	$P$ are turned into trivial equations $P =\isa{True}$.
b254d5ad6dd4 auto update paulson parents: 10845 diff changeset	223	For example, the formula
b254d5ad6dd4 auto update paulson parents: 10845 diff changeset	224	\begin{center}\isa{{\isacharparenleft}p\ {\isasymlongrightarrow}\ t\ {\isacharequal}\ u\ {\isasymand}\ {\isasymnot}\ r{\isacharparenright}\ {\isasymand}\ s}\end{center}
10845 3696bc935bbd * empty log message * nipkow parents: 10795 diff changeset	225	is converted into the three rules
10186 499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	226	\begin{center}
10878 b254d5ad6dd4 auto update paulson parents: 10845 diff changeset	227	\isa{p\ {\isasymLongrightarrow}\ t\ {\isacharequal}\ u},\quad \isa{p\ {\isasymLongrightarrow}\ r\ {\isacharequal}\ False},\quad \isa{s\ {\isacharequal}\ True}.
10186 499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	228	\end{center}
499637e8f2c6 * empty log message * nipkow parents: 9993 diff changeset	229	\index{simplification rule\|)}
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	230	\index{simplification\|)}%
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	231	\end{isamarkuptext}%
17175 1eced27ee0e1 updated; wenzelm parents: 17056 diff changeset	232	\isamarkuptrue%
17056 05fc32a23b8b updated; wenzelm parents: 14270 diff changeset	233	%
05fc32a23b8b updated; wenzelm parents: 14270 diff changeset	234	\isadelimtheory
05fc32a23b8b updated; wenzelm parents: 14270 diff changeset	235	%
05fc32a23b8b updated; wenzelm parents: 14270 diff changeset	236	\endisadelimtheory
05fc32a23b8b updated; wenzelm parents: 14270 diff changeset	237	%
05fc32a23b8b updated; wenzelm parents: 14270 diff changeset	238	\isatagtheory
05fc32a23b8b updated; wenzelm parents: 14270 diff changeset	239	%
05fc32a23b8b updated; wenzelm parents: 14270 diff changeset	240	\endisatagtheory
05fc32a23b8b updated; wenzelm parents: 14270 diff changeset	241	{\isafoldtheory}%
05fc32a23b8b updated; wenzelm parents: 14270 diff changeset	242	%
05fc32a23b8b updated; wenzelm parents: 14270 diff changeset	243	\isadelimtheory
05fc32a23b8b updated; wenzelm parents: 14270 diff changeset	244	%
05fc32a23b8b updated; wenzelm parents: 14270 diff changeset	245	\endisadelimtheory
9993 c0f7fb6e538e * empty log message * nipkow parents: diff changeset	246	\end{isabellebody}%
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	247	%%% Local Variables:
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	248	%%% mode: latex
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	249	%%% TeX-master: "root"
c0f7fb6e538e * empty log message * nipkow parents: diff changeset	250	%%% End:

author	wenzelm
	Mon, 29 Aug 2005 11:44:23 +0200
changeset 17181	5f42dd5e6570
parent 17175	1eced27ee0e1
child 17187	45bee2f6e61f
permissions	-rw-r--r--