doc-src/TutorialI/Misc/document/simp.tex

--- a/doc-src/TutorialI/Misc/document/simp.tex	Sun Jan 30 20:48:50 2005 +0100
+++ b/doc-src/TutorialI/Misc/document/simp.tex	Tue Feb 01 18:01:57 2005 +0100
@@ -114,9 +114,8 @@
 \isamarkuptrue%
 \isacommand{lemma}\ {\isachardoublequote}{\isasymlbrakk}\ xs\ {\isacharat}\ zs\ {\isacharequal}\ ys\ {\isacharat}\ xs{\isacharsemicolon}\ {\isacharbrackleft}{\isacharbrackright}\ {\isacharat}\ xs\ {\isacharequal}\ {\isacharbrackleft}{\isacharbrackright}\ {\isacharat}\ {\isacharbrackleft}{\isacharbrackright}\ {\isasymrbrakk}\ {\isasymLongrightarrow}\ ys\ {\isacharequal}\ zs{\isachardoublequote}\isanewline
 \isamarkupfalse%
-\isacommand{apply}\ simp\isanewline
 \isamarkupfalse%
-\isacommand{done}\isamarkupfalse%
+\isamarkupfalse%
 %
 \begin{isamarkuptext}%
 \noindent
@@ -128,19 +127,9 @@
 \end{isamarkuptext}%
 \isamarkuptrue%
 \isacommand{lemma}\ {\isachardoublequote}{\isasymforall}x{\isachardot}\ f\ x\ {\isacharequal}\ g\ {\isacharparenleft}f\ {\isacharparenleft}g\ x{\isacharparenright}{\isacharparenright}\ {\isasymLongrightarrow}\ f\ {\isacharbrackleft}{\isacharbrackright}\ {\isacharequal}\ f\ {\isacharbrackleft}{\isacharbrackright}\ {\isacharat}\ {\isacharbrackleft}{\isacharbrackright}{\isachardoublequote}\isamarkupfalse%
-%
-\begin{isamarkuptxt}%
-\noindent
-An unmodified application of \isa{simp} loops.  The culprit is the
-simplification rule \isa{f\ x\ {\isacharequal}\ g\ {\isacharparenleft}f\ {\isacharparenleft}g\ x{\isacharparenright}{\isacharparenright}}, which is extracted from
-the assumption.  (Isabelle notices certain simple forms of
-nontermination but not this one.)  The problem can be circumvented by
-telling the simplifier to ignore the assumptions:%
-\end{isamarkuptxt}%
 \isamarkuptrue%
-\isacommand{apply}{\isacharparenleft}simp\ {\isacharparenleft}no{\isacharunderscore}asm{\isacharparenright}{\isacharparenright}\isanewline
 \isamarkupfalse%
-\isacommand{done}\isamarkupfalse%
+\isamarkupfalse%
 %
 \begin{isamarkuptext}%
 \noindent
@@ -198,27 +187,12 @@
 \end{isamarkuptext}%
 \isamarkuptrue%
 \isacommand{lemma}\ {\isachardoublequote}xor\ A\ {\isacharparenleft}{\isasymnot}A{\isacharparenright}{\isachardoublequote}\isamarkupfalse%
-%
-\begin{isamarkuptxt}%
-\noindent
-Typically, we begin by unfolding some definitions:
-\indexbold{definitions!unfolding}%
-\end{isamarkuptxt}%
 \isamarkuptrue%
-\isacommand{apply}{\isacharparenleft}simp\ only{\isacharcolon}\ xor{\isacharunderscore}def{\isacharparenright}\isamarkupfalse%
-%
-\begin{isamarkuptxt}%
-\noindent
-In this particular case, the resulting goal
-\begin{isabelle}%
-\ {\isadigit{1}}{\isachardot}\ A\ {\isasymand}\ {\isasymnot}\ {\isasymnot}\ A\ {\isasymor}\ {\isasymnot}\ A\ {\isasymand}\ {\isasymnot}\ A%
-\end{isabelle}
-can be proved by simplification. Thus we could have proved the lemma outright by%
-\end{isamarkuptxt}%
+\isamarkupfalse%
 \isamarkuptrue%
 \isamarkupfalse%
 \isamarkupfalse%
-\isacommand{apply}{\isacharparenleft}simp\ add{\isacharcolon}\ xor{\isacharunderscore}def{\isacharparenright}\isamarkupfalse%
+\isamarkupfalse%
 \isamarkupfalse%
 %
 \begin{isamarkuptext}%
@@ -255,9 +229,8 @@
 \isamarkuptrue%
 \isacommand{lemma}\ {\isachardoublequote}{\isacharparenleft}let\ xs\ {\isacharequal}\ {\isacharbrackleft}{\isacharbrackright}\ in\ xs{\isacharat}ys{\isacharat}xs{\isacharparenright}\ {\isacharequal}\ ys{\isachardoublequote}\isanewline
 \isamarkupfalse%
-\isacommand{apply}{\isacharparenleft}simp\ add{\isacharcolon}\ Let{\isacharunderscore}def{\isacharparenright}\isanewline
 \isamarkupfalse%
-\isacommand{done}\isamarkupfalse%
+\isamarkupfalse%
 %
 \begin{isamarkuptext}%
 If, in a particular context, there is no danger of a combinatorial explosion
@@ -279,9 +252,8 @@
 \isamarkuptrue%
 \isacommand{lemma}\ hd{\isacharunderscore}Cons{\isacharunderscore}tl{\isacharbrackleft}simp{\isacharbrackright}{\isacharcolon}\ {\isachardoublequote}xs\ {\isasymnoteq}\ {\isacharbrackleft}{\isacharbrackright}\ \ {\isasymLongrightarrow}\ \ hd\ xs\ {\isacharhash}\ tl\ xs\ {\isacharequal}\ xs{\isachardoublequote}\isanewline
 \isamarkupfalse%
-\isacommand{apply}{\isacharparenleft}case{\isacharunderscore}tac\ xs{\isacharcomma}\ simp{\isacharcomma}\ simp{\isacharparenright}\isanewline
 \isamarkupfalse%
-\isacommand{done}\isamarkupfalse%
+\isamarkupfalse%
 %
 \begin{isamarkuptext}%
 \noindent
@@ -317,51 +289,17 @@
 \end{isamarkuptext}%
 \isamarkuptrue%
 \isacommand{lemma}\ {\isachardoublequote}{\isasymforall}xs{\isachardot}\ if\ xs\ {\isacharequal}\ {\isacharbrackleft}{\isacharbrackright}\ then\ rev\ xs\ {\isacharequal}\ {\isacharbrackleft}{\isacharbrackright}\ else\ rev\ xs\ {\isasymnoteq}\ {\isacharbrackleft}{\isacharbrackright}{\isachardoublequote}\isamarkupfalse%
-%
-\begin{isamarkuptxt}%
-\noindent
-The goal can be split by a special method, \methdx{split}:%
-\end{isamarkuptxt}%
 \isamarkuptrue%
-\isacommand{apply}{\isacharparenleft}split\ split{\isacharunderscore}if{\isacharparenright}\isamarkupfalse%
-%
-\begin{isamarkuptxt}%
-\noindent
-\begin{isabelle}%
-\ {\isadigit{1}}{\isachardot}\ {\isasymforall}xs{\isachardot}\ {\isacharparenleft}xs\ {\isacharequal}\ {\isacharbrackleft}{\isacharbrackright}\ {\isasymlongrightarrow}\ rev\ xs\ {\isacharequal}\ {\isacharbrackleft}{\isacharbrackright}{\isacharparenright}\ {\isasymand}\ {\isacharparenleft}xs\ {\isasymnoteq}\ {\isacharbrackleft}{\isacharbrackright}\ {\isasymlongrightarrow}\ rev\ xs\ {\isasymnoteq}\ {\isacharbrackleft}{\isacharbrackright}{\isacharparenright}%
-\end{isabelle}
-where \tdx{split_if} is a theorem that expresses splitting of
-\isa{if}s. Because
-splitting the \isa{if}s is usually the right proof strategy, the
-simplifier does it automatically.  Try \isacommand{apply}\isa{{\isacharparenleft}simp{\isacharparenright}}
-on the initial goal above.
-
-This splitting idea generalizes from \isa{if} to \sdx{case}.
-Let us simplify a case analysis over lists:\index{*list.split (theorem)}%
-\end{isamarkuptxt}%
+\isamarkupfalse%
 \isamarkuptrue%
 \isamarkupfalse%
 \isacommand{lemma}\ {\isachardoublequote}{\isacharparenleft}case\ xs\ of\ {\isacharbrackleft}{\isacharbrackright}\ {\isasymRightarrow}\ zs\ {\isacharbar}\ y{\isacharhash}ys\ {\isasymRightarrow}\ y{\isacharhash}{\isacharparenleft}ys{\isacharat}zs{\isacharparenright}{\isacharparenright}\ {\isacharequal}\ xs{\isacharat}zs{\isachardoublequote}\isanewline
 \isamarkupfalse%
-\isacommand{apply}{\isacharparenleft}split\ list{\isachardot}split{\isacharparenright}\isamarkupfalse%
-%
-\begin{isamarkuptxt}%
-\begin{isabelle}%
-\ {\isadigit{1}}{\isachardot}\ {\isacharparenleft}xs\ {\isacharequal}\ {\isacharbrackleft}{\isacharbrackright}\ {\isasymlongrightarrow}\ zs\ {\isacharequal}\ xs\ {\isacharat}\ zs{\isacharparenright}\ {\isasymand}\isanewline
-\isaindent{\ {\isadigit{1}}{\isachardot}\ }{\isacharparenleft}{\isasymforall}a\ list{\isachardot}\ xs\ {\isacharequal}\ a\ {\isacharhash}\ list\ {\isasymlongrightarrow}\ a\ {\isacharhash}\ list\ {\isacharat}\ zs\ {\isacharequal}\ xs\ {\isacharat}\ zs{\isacharparenright}%
-\end{isabelle}
-The simplifier does not split
-\isa{case}-expressions, as it does \isa{if}-expressions, 
-because with recursive datatypes it could lead to nontermination.
-Instead, the simplifier has a modifier
-\isa{split}\index{*split (modifier)} 
-for adding splitting rules explicitly.  The
-lemma above can be proved in one step by%
-\end{isamarkuptxt}%
+\isamarkupfalse%
 \isamarkuptrue%
 \isamarkupfalse%
 \isamarkupfalse%
-\isacommand{apply}{\isacharparenleft}simp\ split{\isacharcolon}\ list{\isachardot}split{\isacharparenright}\isamarkupfalse%
+\isamarkupfalse%
 \isamarkupfalse%
 %
 \begin{isamarkuptext}%
@@ -382,7 +320,7 @@
 \end{isamarkuptext}%
 \isamarkuptrue%
 \isamarkupfalse%
-\isacommand{apply}{\isacharparenleft}simp\ split\ del{\isacharcolon}\ split{\isacharunderscore}if{\isacharparenright}\isamarkupfalse%
+\isamarkupfalse%
 \isamarkupfalse%
 %
 \begin{isamarkuptext}%
@@ -407,30 +345,7 @@
 \isamarkuptrue%
 \isacommand{lemma}\ {\isachardoublequote}if\ xs\ {\isacharequal}\ {\isacharbrackleft}{\isacharbrackright}\ then\ ys\ {\isasymnoteq}\ {\isacharbrackleft}{\isacharbrackright}\ else\ ys\ {\isacharequal}\ {\isacharbrackleft}{\isacharbrackright}\ {\isasymLongrightarrow}\ xs\ {\isacharat}\ ys\ {\isasymnoteq}\ {\isacharbrackleft}{\isacharbrackright}{\isachardoublequote}\isanewline
 \isamarkupfalse%
-\isacommand{apply}{\isacharparenleft}split\ split{\isacharunderscore}if{\isacharunderscore}asm{\isacharparenright}\isamarkupfalse%
-%
-\begin{isamarkuptxt}%
-\noindent
-Unlike splitting the conclusion, this step creates two
-separate subgoals, which here can be solved by \isa{simp{\isacharunderscore}all}:
-\begin{isabelle}%
-\ {\isadigit{1}}{\isachardot}\ {\isasymlbrakk}xs\ {\isacharequal}\ {\isacharbrackleft}{\isacharbrackright}{\isacharsemicolon}\ ys\ {\isasymnoteq}\ {\isacharbrackleft}{\isacharbrackright}{\isasymrbrakk}\ {\isasymLongrightarrow}\ xs\ {\isacharat}\ ys\ {\isasymnoteq}\ {\isacharbrackleft}{\isacharbrackright}\isanewline
-\ {\isadigit{2}}{\isachardot}\ {\isasymlbrakk}xs\ {\isasymnoteq}\ {\isacharbrackleft}{\isacharbrackright}{\isacharsemicolon}\ ys\ {\isacharequal}\ {\isacharbrackleft}{\isacharbrackright}{\isasymrbrakk}\ {\isasymLongrightarrow}\ xs\ {\isacharat}\ ys\ {\isasymnoteq}\ {\isacharbrackleft}{\isacharbrackright}%
-\end{isabelle}
-If you need to split both in the assumptions and the conclusion,
-use $t$\isa{{\isachardot}splits} which subsumes $t$\isa{{\isachardot}split} and
-$t$\isa{{\isachardot}split{\isacharunderscore}asm}. Analogously, there is \isa{if{\isacharunderscore}splits}.
-
-\begin{warn}
-  The simplifier merely simplifies the condition of an 
-  \isa{if}\index{*if expressions!simplification of} but not the
-  \isa{then} or \isa{else} parts. The latter are simplified only after the
-  condition reduces to \isa{True} or \isa{False}, or after splitting. The
-  same is true for \sdx{case}-expressions: only the selector is
-  simplified at first, until either the expression reduces to one of the
-  cases or it is split.
-\end{warn}%
-\end{isamarkuptxt}%
+\isamarkupfalse%
 \isamarkuptrue%
 \isamarkupfalse%
 %
@@ -446,11 +361,10 @@
 on:%
 \end{isamarkuptext}%
 \isamarkuptrue%
-\isacommand{ML}\ {\isachardoublequote}set\ trace{\isacharunderscore}simp{\isachardoublequote}\isanewline
 \isamarkupfalse%
 \isacommand{lemma}\ {\isachardoublequote}rev\ {\isacharbrackleft}a{\isacharbrackright}\ {\isacharequal}\ {\isacharbrackleft}{\isacharbrackright}{\isachardoublequote}\isanewline
 \isamarkupfalse%
-\isacommand{apply}{\isacharparenleft}simp{\isacharparenright}\isamarkupfalse%
+\isamarkupfalse%
 \isamarkupfalse%
 %
 \begin{isamarkuptext}%
@@ -487,7 +401,6 @@
 rules.  Thus it is advisable to reset it:%
 \end{isamarkuptext}%
 \isamarkuptrue%
-\isacommand{ML}\ {\isachardoublequote}reset\ trace{\isacharunderscore}simp{\isachardoublequote}\isanewline
 \isamarkupfalse%
 \isamarkupfalse%
 \end{isabellebody}%