File: [local] / OpenXM / src / cfep / Doc / Intro / next2.tex (download)
Revision 1.4, Fri Sep 26 02:54:23 2008 UTC (15 years, 9 months ago) by takayama
Branch: MAIN
CVS Tags: RELEASE_1_2_3_12
Changes since 1.3: +16 -1
lines
1. Added a comment on caret and errors.
2. Added a comment on loading files in the sm1 mode.
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% makeindex next2.idx
% License: GNU Free Documentation License 1.2.
\documentclass{jbook}
\usepackage{html}
\usepackage{makeidx}
\usepackage{ascmac}
\usepackage[dvips]{graphicx}
\textwidth = 15cm
\textheight = 23cm
\topmargin = 0.7cm
\evensidemargin = 0cm
\oddsidemargin = 1cm
\def\comment#1{ #1 }
%\def\comment#1{ }
\input{asirbookmacro}
\title{ {\bf �$BD6F~Lg�(B Cfep/asir (MacOS X)} }
\author{ �$B9b;3?.5#�(B }
\date{ 2006�$BG/�(B(�$BJ?@.�(B18�$BG/�(B), 3�$B7n�(B12�$BF|HG�(B(cfep 1.1). 2008-09-26 �$B=$@5�(B \\ �$B%3%a%s%H$O�(B takayama@math.kobe-u.ac.jp �$B$^$G�(B}
\makeindex
\begin{document}
\maketitle
\tableofcontents
\chapter{ �$BEEBn$H$7$F$NMxMQ�(B } \label{chapter:next}
%en \chapter{A Tour of Asir} \label{chapter:next}
�$B?@8MBg3X$N650iMQ7W;;5!4D6-$,�(B MacOS X �$B$KJQ99$5$l$k$N$KH<$$�(B,
�$BI.<T$,65:`$H$7$FMxMQ$7$F$$$?�(B Windows �$B$GF0:n$9$k�(B10�$B?J�(BBasic�$B$,MxMQ$G$-$J$/$J$C$?�(B.
Cfep/asir �$B$O$=$NBeMQ$H$7$F�(B,
2006�$BG/=iF,$+$i3+H/$r?J$a$F$$$k%7%9%F%`$G$"$k�(B.
10�$B?J�(BBasic�$B$NM%$l$F$$$kE@$N0l$D$O�(B, �$BCzG+$JF~Lg2r@b$,IUB0$7$F$$$k$3$H$G$"$k�(B.
``Cfep/asir�$BD6F~Lg�(B'' �$B$O$3$N2r@b$K$9$3$7$G$b6aIU$3$&$HEXNO$7$F$_$?�(B.
Asir�$B$NF~Lg%F%-%9%H$K�(B ``Asir�$B%I%j%k�(B'' �$B$,$"$k$,�(B, �$B$3$ND6F~Lg$G$O�(B ``Asir�$B%I%j%k�(B''
�$B$N0l>O$*$h$S$=$N@h$NF~LgE*FbMF$rCzG+$K�(B(�$B>/!9$/$I$/�(B)�$B@bL@$7$?�(B.
\bigbreak
�$B$3$N@a$G$O�(B MacOS X �$B$G$N�(B cfep/asir �$B$N5/F0K!�(B, �$BEEBnIw�(B, Basic�$BIw$N;H$$J}$r@bL@$9$k�(B.
�$B%U%!%$%k$NJ]B8Ey�(B MacOS X �$B$N6&DL$NA`:nJ}K!$K$O$[$H$s$I$U$l$F$$$J$$$,�(B,
cfep/asir �$B$O�(B MacOS X �$BI8=`$N%U%!%$%k$NJ]B8Ey$rMQ$$$F$$$k$N$G�(B,
�$B$3$N$h$&$JItJ,$G$OB>$N%=%U%H%&%(%"$HMxMQJ}K!$OF10l$G$"$k�(B.
�$B=i?4<T$N?M$OE,Ev$JK\$d%,%$%I$r;2>H$5$l$?$$�(B.
\section{�$B%-!<A`:n$HMQ8l$NI|=,�(B}
\noindent
�$B%-!<%\!<%I�(B, �$B%^%&%9$NA`:n$NMQ8l�(B.
\begin{enumerate}
%
\item
\fbox{\tt Command} �$B%-!<$d�(B
\fbox{\tt ALT } �$B%-!<$d�(B \fbox{\tt SHIFT} �$B%-!<$d�(B
\fbox{\tt CTRL } �$B%-!<$OB>$N%-!<$H0l=o$K2!$9$3$H$G;O$a$F5!G=$9$k�(B
�$B%-!<$G$"$k�(B.�$B$3$l$i$@$1$rC1FH$K2!$7$F$b$J$K$b$*$-$J$$�(B.
�$B0J8e�(B \fbox{\tt SHIFT} �$B%-!<$r$*$7$J$,$iB>$N%-!<$r2!$9A`:n$r�(B
\shift{�$B$-!<�(B} �$B$H=q$/$3$H$K$9$k�(B. command �$B%-!<�(B, alt �$B%-!<�(B, ctrl �$B%-!<$K$D$$$F$b�(B
�$BF1MM$G$"$k�(B.
%
\item
\shift{a} �$B$H$9$k$HBgJ8;z$N�(B A �$B$rF~NO$G$-$k�(B.
%
\item
\fbox{\tt BS} �$B$H$+�(B \fbox{\tt DEL} �$B$H=q$$$F$"$k%-!<2!$9$H0lJ8;zA0$r>C5n$G$-$k�(B.
%
\item �$BF|K\8l%-!<%\!<%I$N>l9g�(B \fbox{{\tt $\backslash$}}
(�$B%P%C%/%9%i%C%7%e�(B) �$B$O�(B \alt{\yen} �$B$GF~NO$G$-$k�(B.
%
\item
\fbox{\tt SPACE} �$B%-!<$O6uGr$rF~NO$9$k%-!<$G$"$k�(B.
�$B7W;;5!$NFbIt$G$OJ8;z$O?t;z$KJQ49$5$l$F3JG<$*$h$S=hM}$5$l$k�(B.
�$BJ8;z$KBP1~$9$k?t;z$rJ8;z%3!<%I$H8F$V�(B. �$BJ8;z%3!<%I$K$O$$$m$$$m$J<oN`$N$b$N$,$"$k$,�(B,
�$B0lHV4pACE*$J$N$O%"%9%-!<%3!<%I7O$G$"$j�(B, �$B%"%k%U%!%Y%C%H$d?t;z�(B, �$B%-!<%\!<%I$K8=$l$k�(B
�$B5-9f$J$I$r%+%P!<$7$F$$$k�(B. �$B4A;z$O%"%9%-!<%3!<%I7O$G$OI=8=$G$-$J$$�(B.
\fbox{A} �$B$N%"%9%-!<%3!<%I$O�(B 65�$BHV$G$"$k�(B. �$B0J2<�(B \fbox{B} �$B$,�(B 66, \fbox{C} �$B$,�(B 67,
�$B$HB3$/�(B.
�$B6uGr$N%"%9%-!<%3!<%I$O�(B32�$BHV$G$"$k�(B.
�$BF|K\8lF~NO$N>uBV$GF~NO$5$l$k6uGr$O�(B ``�$BA43Q6uGr�(B'' �$B$H8F$P$l$F$*$j�(B,
�$B%"%9%-!<%3!<%I�(B32�$BHV$N6uGr�(B (�$BH>3Q6uGr�(B) �$B$H$OJL$NJ8;z$G$"$k�(B.
�$BA43Q6uGr$,%W%m%0%i%`$K:.$8$C$F$$$k$H%(%i!<$r5/$3$9�(B.
asir �$B$G$O%a%C%;!<%8$d%3%a%s%HEy$KF|K\8l$,MxMQ2DG=$G$"$k$,�(B,
�$B47$l$k$^$G$O1Q;z%b!<%I$N$_$rMxMQ$9$k$3$H$r$*4+$a$9$k�(B.
�$B1&>e$N8@8lI=<($,�(B
\begin{center}
\scalebox{0.1}{\includegraphics{Figs/language.ps}}
\end{center}
�$B$H$J$C$F$$$k>uBV$G�(B cfep/asir �$B$KF~NO$7$h$&�(B.
%
\item
\fbox{ ' } (�$B%7%s%0%k%/%*!<%H�(B) �$B$H�(B \fbox{ ` } (�$B%P%C%/%/%*!<%H�(B)
�$B$OJL$NJ8;z$G$"$k�(B.
�$B%W%m%0%i%`$rFI$`;~$KCm0U�(B.
�$B$^$?�(B, �$B%W%m%0%i%`$rFI$`;~$O�(B {\tt 0} (�$B%<%m!K$H�(B {\tt o} �$B!J$*!<!K�(B
�$B$N0c$$$K$bCm0U�(B.
%
%
\item
�$B%^%&%9$NA`:n$K$O<!$N;0<oN`$,$"$k�(B.
%
%
\begin{enumerate}
\item �$B%/%j%C%/�(B: �$BA*Br$9$k$H$-�(B,
�$BJ8;z$rF~NO$9$k0LCV!J%-%c%l%C%H$N0LCV!K$N0\F0$KMQ$$$k�(B.
�$B%^%&%9$N%\%?%s$r$A$g$s$H$*$9�(B. \index{�$B$/$j$C$/�(B@�$B%/%j%C%/�(B}
\item �$B%I%i%C%0�(B: �$B0\F0�(B, �$B%5%$%:$NJQ99�(B, �$BHO0O$N;XDj�(B, �$B%3%T!<$N�(B
�$B$H$-$J$I$KMQ$$$k�(B.
�$B%^%&%9$N%\%?%s$r2!$7$J$,$iF0$+$9�(B.
\item �$B%@%V%k%/%j%C%/!'%W%m%0%i%`$N<B9T�(B, open(�$B%U%!%$%k$r3+$/�(B)�$B$r$9$k$?$a$K�(B
�$BMQ$$$k�(B. \index{�$B$@$V$k$/$j$C$/�(B@�$B%@%V%k%/%j%C%/�(B}
�$B%^%&%9$N%\%?%s$r#22s$D$:$1$F$A$g$s$A$g$s$H$*$9�(B.
�$B%@%V%k%/%j%C%/$r$7$?%"%$%3%s$OGr$/$J$C$?$j7A>u$,$+$o$k$3$H$,�(B
�$B$*$*$$�(B.
�$B%@%V%k%/%j%C%/$7$?$i$7$P$i$/BT$D�(B.
�$B7W;;5!$,K;$7$$$H$-$O5/F0$K;~4V$,$+$+$k$3$H$b$"$j�(B.
�$B$`$d$_$K%@%V%k%/%j%C%/$r7+$jJV$9$H$=$N2s?t$@$15/F0$5$l$F$J$*CY$/$J$k�(B.
\end{enumerate}
%
\end{enumerate}
\section{ Cfep/Asir �$B$N5/F0K!$HEEBnE*$J;H$$J}�(B }
%en \section{Using Risa/Asir as a Calculator}
%C
cfep �$B$N%"%$%3%s�(B(�$B$$$N$V$?7/�(B)
%en
%en In case of Windows, open the folder (directory) in which Risa/Asir is
%en installed and double click the icon of {\tt asirgui}
%<C
\begin{center}
\scalebox{0.1}{\includegraphics{Figs/inobuta.ps}}
\end{center}
%>C
�$B$r%@%V%k%/%j%C%/$9$k$H?^�(B\ref{fig:cfepStart}�$B$N$h$&$K�(B cfep/asir �$B$,5/F0$9$k�(B.
�$B0J2<�(B cfep/asir �$B$rC1$K�(B asir �$B$H$h$V�(B.
%<C
\begin{figure}[tb]
\scalebox{0.5}{\includegraphics{Figs/cfepStart.ps}}
\caption{ cfep/asir �$B$N5/F02hLL�(B} \label{fig:cfepStart}
\end{figure}
%>C
�$B?^�(B\ref{fig:cfepStart} �$B$NF~NOAk$K7W;;$7$?$$<0$d%W%m%0%i%`$rF~NO$7$F�(B
``�$B;O$a�(B''�$B%\%?%s�(B
%<C
\begin{center}
\scalebox{0.1}{\includegraphics{Figs/buttonStart.ps}}
\end{center}
%>C
�$B$r$*$9$H<B9T$r3+;O$9$k�(B.
�$B<0$N7W;;$d%W%m%0%i%`$N<B9T$,=*N;$9$k$H�(B,
�$B?7$7$$%&%$%s%I%&�(B OutputView �$B$,3+$-7k2L$,$=$N%&%$%s%I%&$KI=<($5$l$k�(B.
\index{�$B$K$e$&$j$g$/$^$I�(B@�$BF~NOAk�(B}
\index{OutputView}
``�$B;O$a�(B''�$B%\%?%s$r$*$7$F<B9T$r3+;O$9$k$3$H$r7W;;5!MQ8l$G$O�(B
``�$BF~NO$NI>2A$r;O$a$k�(B'' �$B$H$$$&�(B.
\index{;} \index{�$B$R$g$&$+�(B@�$BI>2A�(B}
�$B=PNO>.Ak$K$O%7%9%F%`$+$i$N$$$m$$$m$J>pJs$,=PNO$5$l$k$,�(B,
�$BFbMF$OCf>e5i<T8~$1$N$b$N$,B?$$�(B.
\index{�$B$7$e$D$j$g$/$3$^$I�(B@�$B=PNO>.Ak�(B}
�$B%U%!%$%k%a%K%e!<�(B
%<C
\begin{center}
\scalebox{0.3}{\includegraphics{Figs/menuFile.eps}}
\end{center}
%>C
�$B$+$i�(B''�$BJ]B8�(B''�$B$d�(B''�$BJLL>$GJ]B8�(B''�$B$r<B9T$9$k$HF~NOAk$NFbMF$r%U%!%$%k$H$7$FJ]B8$G$-$k�(B.
�$B=PNO>.Ak$NFbMF$d�(B OutputView �$B$NFbMF$OJ]B8$5$l$J$$$N$GCm0U$7$F$[$7$$�(B.
cfep/asir �$B$r40A4$K=*N;$9$k$K$O�(B cfep �$B%a%K%e!<�(B
%<C
\begin{center}
\scalebox{0.3}{\includegraphics{Figs/menuCfep.eps}}
\end{center}
%>C
�$B$N�(B ``cfep �$B$r=*N;�(B'' �$B$r<B9T$9$k�(B.
%en Input \verb@ quit; @ to terminate the Risa/Asir.
%
%
%<C
\bigbreak
\bigbreak
%>C
�$B$5$F?^�(B\ref{fig:cfepStart}�$B$G$O�(B
$ 3 \times 4 + 1 $ �$B$N7W;;$r$7$F$$$k�(B.
\begin{screen}
Asir �$B$K$*$1$k7W;;<0$OIaDL$N?t<0$H;w$F$$$F�(B,
�$BB-$7;;$O�(B {\tt $+$},
�$B0z$-;;$O�(B {\tt $-$}
�$B$H=q$/�(B.
�$B$+$1;;$H3d;;$O�(B $\times$ �$B$d�(B �$B!`�(B �$B$,%-!<%\!<%I$K$J$$$H$$$&Nr;KE*M}M3$b$"$j�(B,
�$B$=$l$>$l�(B {\tt *} �$B$H�(B {\tt /} �$B$GI=8=$9$k�(B.
�$BN_>h�(B $P^N$ �$B$O�(B \verb@P^N@ �$B$N$h$&$K�(B \verb@^@ �$B5-9f$rMQ$$$FI=$9�(B.
\end{screen}
\begin{screen}
�$B<0$N=*$j$r=hM}7O�(B(asir)�$B$K65$($k�(B(�$B<($9�(B)�$B$N$K�(B {\tt ;} (�$B%;%_%3%m%s�(B)
�$B$r=q$+$J$$$H$$$1$J$$�(B.
�$BJ8Kv$N�(B ``�$B!#�(B'' �$B$N$h$&$JLr3d$r2L$?$9�(B.
�$B$^$?$+$1;;$N5-9f�(B {\tt *} �$B$N>JN,$O$G$-$J$$�(B.
\end{screen}
\begin{example} \rm
�$B0J2<$N:8$N7W;;<0$r�(B asir �$B$G$O1&$N$h$&$K$"$i$o$9�(B.
\begin{center}
\begin{tabular}{|l|l|} \hline
$2 \times (3+5^4)$ & \verb@2*(3+5^4);@ \\ \hline
$\left\{\left(2+\frac{2}{3}\right)\times 4+\frac{1}{3}\right\}\times 2 +5 $
& \verb@ ((2+2/3)*4+1/3)*2+5; @ \\ \hline
$AX+B$ & \verb@A*X+B;@ \\ \hline
$AX^2+BX+C$ & \verb@A*X^2+B*X+C;@ \\ \hline
$\frac{1}{X-1}$ & \verb@1/(X-1);@ \\ \hline
\end{tabular}
\end{center}
\end{example}
�$B7W;;$N=g=x$O3g8L$b4^$a$FIaDL$N?t<0$N7W;;$HF1$8$G$"$k�(B.
�$B$?$@$7�(B
�$B?t3X$G$O$+$C$3$H$7$F�(B, {\tt [,]},{\tt \{,\}}�$B$J$I$,$D$+$($k$,�(B
asir �$B$G$O�(B {\tt (,)} �$B$N$_�(B.
{\tt [,]} �$B$d�(B {\tt \{,\}}�$B$OJL$N0UL#$r$b$D�(B.
�$B>e$NNc$N$h$&$K�(B {\tt (,)} �$B$r2?=E$K$b$D$+$C$F$h$$�(B.
%en In mathematics, {\tt (,)}, {\tt [,]} ,{\tt \{,\}} are used
%en as brackets in expressions,
%en but in Risa/Asir, only {\tt (,)} can be used as brackets in expressions,
%en and {\tt [,]} and {\tt \{,\}} are used for different purposes (list and
%en grouping in programs).
�$B$3$N>l9g3g8L$NBP1~4X78$,$o$+$j$K$/$$�(B.
�$B3g8L$NBP1~$rD4$Y$?$$HO0O$r%^%&%9$G%I%i%C%0$7$FA*Br$7�(B,
\begin{center}
\scalebox{0.1}{\includegraphics{Figs/buttonBracket.eps}}
\end{center}
�$B%\%?%s$r$*$9$3$H$K$h$j3g8L$NBP1~$rD4$Y$k$3$H$,$G$-$k�(B.
\begin{figure}[tb]
\begin{center}
\scalebox{0.5}{\includegraphics{Figs/menuCheckBracket.eps}}
\end{center}
\caption{�$B3g8L$NBP1~�(B} \label{fig:menuCheckBracket}
\end{figure}
�$B?^�(B\ref{fig:menuCheckBracket}�$B$NNc$G$O�(B \verb@(1+2*(3+4))@ �$B$H=q$/$Y$-$H$3$m$r�(B
\verb@(1+2*(3+4)@ �$B$H=q$$$F$*$j%(%i!<$,I=<($5$l$F$$$k�(B.
\bigbreak
\noindent \QQQ
``Basic�$BIw$N;H$$J}$r@bL@$9$k�(B'' �$B$H=q$$$F$"$j$^$7$?$,�(B, Basic �$B$C$F2?$G$9$+�(B? \\
\noindent \AAA
�$B%3%s%T%e!<%?$K;E;v$r$5$;$k$K$O:G=*E*$K$O%W%m%0%i%`8@8l�(B
(�$B7W;;5!$X$N;E;v$N<j=g$r;X<($9$k$?$a$N?M9)8@8l�(B)�$B$rMQ$$$k�(B.
�$B%o!<%W%mEy$b%W%m%0%i%`8@8l$G5-=R$5$l$F$$$k�(B.
Basic �$B$O:G$b8E$$%W%m%0%i%`8@8l$N0l$D$G$"$j�(B, �$B=i?4<T$K$d$5$7$/�(B, �$B$+$D�(B
�$B7W;;5!$N;EAH$_$d%W%m%0%i%`8@8l$NM}2r$K$bM-MQ$G$"$k�(B.
Basic �$B$O9b9;$N?t3X$N652J=qEy$K$bEP>l$9$k�(B.
�$BCx<T$O$$$^$^$G�(B ``10�$B?J�(BBASIC'' �$B$r=i?4<T8~$165:`$H$7$F3hMQ$7$F$$$?$,�(B,
``10�$B?J�(BBASIC''�$B$,�(B MacOS X �$B$GF0:n$7$J$$$?$a�(B cfep �$B$r3+H/$7$?�(B.
Asir �$B8@8l$b%W%m%0%i%`8@8l$G$"$j�(B Basic �$B$H$h$/;w$F$$$k$,�(B, C �$B8@8l$K$b$C$H6a$$�(B.
\noindent \QQQ
MacOS X �$B$C$F2?$G$9$+�(B? \\
\noindent \AAA
-----�$B$^$@=q$$$F$J$$�(B.
%<C
\bigbreak
\noindent
%>C
Asir �$B$O?t$N=hM}$N$_$J$i$:�(B, $\sqrt{x}$�$B$d;03Q4X?t$N6a;w7W;;�(B, �$BB?9`<0$N7W;;$b$G$-$k�(B.
%en Asir can do calculations not only for numbers, but also for polynomials.
%en Let us see some examples.
%en
�$B:8$N?t3XE*$J<0$O�(B asir �$B$G$O1&$N$h$&$KI=$9�(B.
\begin{center}
\begin{tabular}{|l|l|} \hline
$\pi$ (�$B1_<~N(�(B) & {\tt @pi} \\ \hline
$\cos x$ & {\tt cos(x)} \\ \hline
$\sin x$ & {\tt sin(x)} \\ \hline
$\tan x$ & {\tt tan(x)} \\ \hline
$\sqrt{x}$ & \verb@x^(1/2)@ \\ \hline
\end{tabular}
\end{center}
%en {\tt sin(x), cos(x)} are the trigonometric functions sine and cosine.
%en The symbol {\tt @pi} is the constant $\pi$.
�$B;03Q4X?t$N3QEY$K$"$?$kItJ,$N�(B $x$ �$B$O%i%8%"%s$H$$$&C10L$rMQ$$$FI=$9�(B.
�$B9b9;Dc3XG/$N?t3X$G$O3QEY$rEY�(B(degree)�$B$H$$$&C10L$rMQ$$$FI=$9$,�(B,
�$B?t3X�(B3�$B0J>e$G$O3QEY$O%i%8%"%s$H$$$&C10L$GI=$9�(B.
\begin{screen}
90�$BEY�(B(�$BD>3Q�(B)�$B$,�(B $\pi/2$ �$B%i%8%"%s�(B, 180�$BEY$,�(B $\pi$ �$B%i%8%"%s�(B.
�$B0lHL$K�(B $d$�$BEY$O�(B $\frac{d}{180} \pi$ �$B%i%8%"%s$G$"$k�(B.
\end{screen}
�$BC10L%i%8%"%s$r$b$A$$$k$HHyJ,K!$N8x<0$,4J7i$K$J$k�(B.
�$B$?$H$($P�(B $x$ �$B$,%i%8%"%s$G$"$k$H�(B $\sin x$ �$B$NHyJ,$O�(B $\cos x$ �$B$G$"$k�(B.
\index{�$B$i$8$"$s�(B@�$B%i%8%"%s�(B}
$\sin(x)$ �$B$d�(B $\cos(x)$ �$B$N6a;wCM$r5a$a$k$K$O$?$H$($P�(B
%en \item In order to get approximate values of $\sin(x)$ $\cos(x)$, input as
%<C
\begin{center}
\verb@ deval(sin(3.14)); @
\end{center}
%>C
�$B$HF~NO$9$k�(B.
�$B$3$l$O�(B $\sin (3.14)$ �$B$N6a;wCM$r7W;;$9$k�(B.
$\sin \pi = 0 $ �$B$J$N$G�(B $0$ �$B$K6a$$CM$,=PNO$5$l$k$O$:$G$"$k�(B.
�$B<B:]�(B {\tt 0.00159265} �$B$r=PNO$9$k�(B. \index{deval}
{\tt deval}
(\underline{eval}uate and get a result in {\underline d}ouble number precision �$B$NN,�(B)
�$B$O�(B 64 bit�$B$NIbF0>.?tE@?t$K$h$j6a;wCM7W;;$9$k�(B.
64 bit�$B$NIbF0>.?tE@?t$H$O2?$+$N@bL@$OD6F~Lg$NHO0O30$G$"$k$,�(B,
�$B7W;;5!$OM-8B$N5-21NN0h�(B(�$B%a%b%j�(B)�$B$7$+;}$?$J$$$N$G�(B, �$B>.?t$bM-8B7e$7$+07$($J$$�(B
�$B$H3P$($F$*$3$&�(B. 64bit �$B$O07$($k7e?t$rI=$7$F$$$k�(B.
�$B>\$7$/$O�(B ``asir �$B%I%j%k�(B'' �$B$r;2>H$7$FM_$7$$�(B.
%en The function {\tt deval} numerically evaluates the argument in 64 bit floating point arithmetic.
%en As to details, see Chapter \ref{chapter:naibu}.
%en
\begin{figure}[thb]
\begin{center}
\scalebox{0.5}{\includegraphics{Figs/sqrt2.eps}}
\end{center}
\caption{�$BJ?J}:,$N7W;;�(B}
\label{fig:sqrt2}
\end{figure}
\begin{example} \rm
$\sqrt{2}$, $\sqrt{3}$ �$B$N6a;wCM$r7W;;$7$J$5$$�(B. \\
�$BF~NO�(B
\begin{screen}
\begin{verbatim}
print(deval(2^(1/2)));
print(deval(3^(1/2)));
\end{verbatim}
\end{screen}
�$B=PNO$O�(B
�$B?^�(B\ref{fig:sqrt2}�$B$r$_$h�(B.
\end{example}
�$B>e$NNc$N$h$&$K�(B,
�$B%;%_%3%m%s�(B {\tt ;} �$B$G6h@Z$i$l$?0lO"$NL?Na$N$"$D$^$j$O$b$C$H$b�(B
�$BC1=c$J�(B asir �$B%W%m%0%i%`$NNc$G$"$k�(B. \index{�$B$W$m$0$i$`�(B@�$B%W%m%0%i%`�(B}
�$B0lO"$NL?Na$O;O$a$+$i=gHV$K<B9T$5$l$k�(B.
{\tt print(�$B<0Ey�(B);} �$B$O�(B ``�$B<0Ey�(B'' �$B$NCM$r7W;;$7$FCM$r2hLL$KI=<($9$k�(B.
�$B$5$F=PNO$N�(B {\tt 1.41421} (�$B$R$H$h�(B �$B$R$H$h$K�(B �$B$R$H$_$4$m�(B) �$B$O�(B $\sqrt{2}$ �$B$N6a;wCM$J$N$G�(B,
\verb@print(deval(2^(1/2)));@
�$B$N<B9T7k2L$G$"$k�(B.
�$B$5$F=PNO$N�(B {\tt 1.73205} (�$B$R$H$J$_$K�(B �$B$*$4$l$d�(B) �$B$O�(B $\sqrt{3}$ �$B$N6a;wCM$J$N$G�(B,
\verb@print(deval(3^(1/2)));@
�$B$N<B9T7k2L$G$"$k�(B.
�$B:G8e$N�(B {\tt 0} �$B$O$J$s$J$N$G$"$m$&$+�(B?
�$B<B$O$3$l$O:G8e$N�(B {\tt print} �$BJ8$NLa$7$F$$$kCM$G$"$k�(B.
�$B$`$D$+$7$$�(B? �$BJL$NNc$G@bL@$7$h$&�(B.
\noindent
\fbox{�$BF~NO�(B}
\begin{screen}
\begin{verbatim}
1+2;
2+3;
3+4;
\end{verbatim}
\end{screen}
�$B$3$N;~=PNO$O�(B(OutputView�$B$X$NI=<($O�(B)
\begin{screen}
{\tt 7}
\end{screen}
�$B$H$J$k�(B.
cfep/asir �$B$G$O$H$/$K�(B {\tt print} �$BJ8$r$+$+$J$$8B$j�(B
�$B:G8e$NJ8$N7W;;7k2L�(B(�$BI>2A7k2L�(B)�$B$7$+=PNO$7$J$$�(B.
�$B$$$^$N>l9g$O�(B $3+4$ �$B$N7k2L�(B $7$ �$B$r=PNO$7$F$$$k�(B.
\index{�$B$7$e$D$j$g$/$1$C$+�(B@�$B=PNO7k2L�(B}
\begin{problem} \rm
\begin{enumerate} \index{2�$B$N$k$$$8$g$&�(B@$2$�$B$NN_>h�(B}
\item $2^8$, $2^9$, $2^{10}$,
�$B$NCM$r7W;;$7$FEz$($rI=<($9$k%W%m%0%i%`$r=q$-$J$5$$�(B.
\item $2$ �$B$NN_>h$O%Q%=%3%s$N@-G=@bL@$K$h$/EP>l$9$k�(B.
�$B$?$H$($P8!:w%7%9%F%`�(B google �$B$K%-!<%o!<%I�(B ``512 �$B%a%b%j�(B �$BEk:\�(B'' �$B$rF~NO$7$?$H$3$m�(B
``�$B%S%G%*%a%b%j$r�(B 256M �$B$+$i�(B 512M �$B$KG\A}$5$;�(B'' �$B$J$I�(B, �$B?tB?$/$N5-;v$,%R%C%H$9$k�(B.
�$B$3$N$h$&$J5-;v$r�(B(�$B0UL#$,$o$+$i$J$/$F$b�(B)10�$B7o$"$D$a$F$_$h$&�(B.
$512$ �$B0J30$N�(B $2$ �$B$NN_>h$G$bF1$8$3$H$r;n$7$F$_$h$&�(B.
\item (�$BCf5i�(B) $2$ �$B$NN_>h$,%Q%=%3%s$N@-G=@bL@$K$h$/EP>l$9$kM}M3$rO@$8$J$5$$�(B.
\end{enumerate}
\end{problem}
\bigbreak
\begin{figure}[thb]
\begin{center}
\scalebox{0.4}{\includegraphics{Figs/plot1.eps}}
\end{center}
\caption{�$B4X?t$N%0%i%U�(B}
\end{figure}
\noindent
\HHH
\index{plot} \index{X11}
%en \begin{example} \rm
%en \index{plot}
\underline{X11 �$B4D6-$,F0$$$F$$$l$P�(B},
{\tt plot(f);} �$BL?Na$G�(B
$x$�$B$N4X?t�(B $f$ �$B$N%0%i%U$rIA$1$k�(B.
%en The command {\tt plot(f);}
%en draws the graph of the function $f$ in the variable $x$.
{\tt x} �$B$NHO0O$r;XDj$7$?$$$H$-$O$?$H$($P�(B \\
{\tt plot(f,[x,0,10])}
�$B$HF~NO$9$k$H�(B, {\tt x} �$B$O�(B 0 �$B$+$i�(B 10 �$B$^$GJQ2=$9$k�(B.
%en When you need to specify the range of variables {\tt x},
%en input, for example \\
%en {\tt plot(f,[x,0,10])}
%en Then, the variable {\tt x} runs over $[0, 10]$.
\noindent \fbox{�$BF~NONc�(B}
%<C
\begin{screen}
\begin{verbatim}
plot(sin(x));
plot(sin(2*x)+0.5*sin(3*x),[x,-10,10]);
\end{verbatim}
\end{screen}
%>C
\begin{problem} \rm
�$B$$$m$$$m$J4X?t$N%0%i%U$rIA$$$F$"$=$s$G$_$h$&�(B.
�$B?t3X$NCN<1$rAmF00w$7$F7W;;5!$NIA$/7A$,$I$&$7$F$=$&$J$N$+�(B
�$B@bL@$r;n$_$F$_$h$&�(B.
\end{problem}
\section{�$B%(%i!<%a%C%;!<%8�(B}
�$BF~NO$K%(%i!<$,$"$k$H�(B, �$B%(%i!<%a%C%;!<%8$,I=<($5$l$k�(B.
\index{�$B$($i!<�(B@�$B%(%i!<�(B}
\index{�$B$($i!<$a$C$;!<$8�(B@�$B%(%i!<%a%C%;!<%8�(B}
\begin{figure}[htb]
\begin{center}
\scalebox{0.5}{\includegraphics{Figs/errorParseEq}}
\end{center}
\caption{�$BJ8K!%(%i!<�(B} \label{fig:errorParseEq}
\end{figure}
�$B?^�(B\ref{fig:errorParseEq} �$B$G$O�(B
\verb@ 2+4= @
�$B$HF~NO$7$F$$$k�(B. �$B:G8e$K�(B \verb@=@ �$B$r=q$/I=8=$O�(B asir �$B$NJ8K!$G$O�(B
�$B5v$5$l$F$$$J$$$N$G�(B, ``�$BJ8K!%(%i!<�(B'' �$B$H;XE&$5$l$F$$$k�(B. \index{�$B$V$s$]$&$($i!<�(B@�$BJ8K!%(%i!<�(B}
\begin{screen}
�$BBgBN$3$l$G$o$+$C$F$/$l$F$$$$$8$c$J$$�(B,
�$B$H$3$A$i$,$*$b$C$F$$$F$b%W%m%0%i%`8@8l$O0l@ZM;DL$,$-$+$J$$�(B.
\end{screen}
�$B$J$*�(B
\begin{verbatim}
error([41,4294967295,parse error,[asir_where,[[toplevel,1]]]])
\end{verbatim}
�$B$NItJ,$O>e5i<T8~$1$N>pJs$J$N$G$H$j$"$($:L5;k$7$F$b$i$$$?$$�(B.
\begin{figure}[htb]
\begin{center}
\scalebox{0.5}{\includegraphics{Figs/errorMultiLine}}
\end{center}
\caption{�$B%(%i!<9T�(B} \label{fig:errorMultiLine}
\end{figure}
�$B?^�(B\ref{fig:errorMultiLine} �$B$G$O�(B
\begin{screen}
\begin{verbatim}
print( 2^7 );
print( 2^8 );
print( deval(2^(1/2));
print( deval(3^(1/2)));
\end{verbatim}
\end{screen}
�$B$HF~NO$7$F$$$k�(B.
3�$B9TL\$O1&3g8L$,$R$H$DB-$j$J$/$F�(B
\verb@print( deval(2^(1/2)));@
�$B$,@5$7$$F~NO$G$"$k�(B.
�$B%(%i!<9T$N�(B3�$B9TL\$K%-%c%l%C%H$,<+F0E*$K0\F0$7$F$$$k$O$:$G$"$k�(B.
�$B$J$*%W%m%0%i%`$NF~NO%&%$%s%I!<Fb$G%^%&%9$r%/%j%C%/$9$k$H�(B, �$B$;$C$+$/<+F00\F0$7$?�(B
�$B%-%c%l%C%H$N0LCV$,JQ$C$F$7$^$&�(B.
�$B%W%m%0%i%`$NF~NO%&%$%s%I!<$N%?%$%H%k%P!<$G%/%j%C%/$9$k$H$h$$�(B.
�$B$J$*$3$NNc$G$O�(B
\begin{center}
\scalebox{0.05}{\includegraphics{Figs/buttonBracket.eps}}
\end{center}
�$B%\%?%s$r$b$A$$$F$b$9$0%(%i!<$N>l=j$,$o$+$k�(B.
\index{�$B$+$C$3�(B@�$B3g8L�(B}
\noindent {\bf �$BCm0U�(B}:
�$BI=<($5$l$?9T$O%(%i!<$NH/@80LCV$G$"$k$,�(B,
�$B%(%i!<$N860x$O$=$NA0$NJ}$N9T$K$"$k$3$H$bB?$$�(B.
�$B$?$H$($P�(B
\begin{screen}
\begin{verbatim}
1+2
2+3;
\end{verbatim}
\end{screen}
�$B$HF~NO$9$k$H%(%i!<9T$O�(B 2 �$B9TL\$G$"$k$,�(B, �$B860x$O�(B1�$B9TL\$G�(B {\tt ; } �$B$r�(B
�$B=q$-K:$l$?$3$H$G$"$k�(B.
\bigbreak
�$B%(%i!<9T$,J#?tI=<($5$l$?>l9g$O$=$l$i$NCf$N$I$3$+$K%(%i!<$,$"$k�(B.
�$BJ#?t$"$k%(%i!<9T$K=gHV$K%8%c%s%W$7$F$$$/$K$O�(B,
\fbox{�$B<B9T�(B} �$B%a%K%e!<$+$i�(B \fbox{�$B<!$N%(%i!<9T$X�(B} �$B$rA*Br$9$k�(B.
\begin{center}
\scalebox{0.3}{\includegraphics{Figs/menuNextError.eps}}
\end{center}
\index{�$B$D$.$N$($i!<$.$g$&$X�(B@�$B<!$N%(%i!<9T$X�(B}
\begin{problem} \rm
�$B%(%i!<$r@8$8$k<0$^$?$O%W%m%0%i%`$r�(B5�$B$D:n$l�(B.
\end{problem}
\chapter{ �$BJQ?t$H%W%m%0%i%`�(B }
\section{�$BJQ?t�(B}
\noindent \index{�$B$X$s$9$&�(B@�$BJQ?t�(B}
�$BJQ?t$K?tCMEy$r5-21$7$F$*$1$k�(B.
\underline{�$BJQ?tL>$OBgJ8;z$G;O$^$k�(B}. \index{�$B$X$s$9$&$a$$�(B@�$BJQ?tL>�(B}
%�$B1Q;z$NBgJ8;z�(B, �$B;RJ8;z$r6hJL$7$F$$$k$N$GCm0U�(B.
�$B$J$*8e=R$9$k$h$&$K�(B asir �$B$G$OB?9`<07W;;$,$G$-$k$,>.J8;z$G;O$^$kJ8;zNs$O�(B
�$BB?9`<0$NJQ?tL>$H$7$FMxMQ$5$l$k�(B.
\index{�$B$?$3$&$7$-$N$X$s$9$&$a$$�(B@�$BB?9`<0$NJQ?tL>�(B}
%en \noindent
%en Symbols starting with capital alphabetical characters are
%en {\it program variables}, which are used to store values.
%en \index{program variable}
%en Names of functions defined in programs start with small alphabetical
%en characters.
%en Note that variable symbols starting with small alphabetical characters are
%en variables in polynomials in Risa/Asir and they cannot be used to store
%en values.
%en
\index{2�$B$N$k$$$8$g$&�(B@$2$�$B$NN_>h�(B}
$2$�$B$NN_>h$rI=<($9$k<!$N%W%m%0%i%`$r9M$($h$&�(B.
\begin{screen}
\begin{verbatim}
print( 2^1 );
print( 2^2 );
print( 2^3 );
print( 2^4 );
print( 2^5 );
print( 2^6 );
print( 2^7 );
print( 2^8 );
\end{verbatim}
\end{screen}
�$B$3$N%W%m%0%i%`$OJQ?t�(B {\tt X} �$B$rMQ$$$F�(B
�$B<!$N$h$&$K=q$$$F$*$1$P�(B $2$ �$B$NN_>h$@$1$J$/�(B $3$ �$B$NN_>h$rI=<($9$k�(B
�$B$N$K:FMxMQ$G$-$k�(B(�$B?^�(B\ref{fig:powerOf2}).
\begin{screen}
\begin{verbatim}
X = 2;
print( X^1 );
print( X^2 );
print( X^3 );
print( X^4 );
print( X^5 );
print( X^6 );
print( X^7 );
print( X^8 );
\end{verbatim}
\end{screen}
\begin{figure}[thb]
\begin{center}
\scalebox{0.3}{\includegraphics{Figs/powerOf2.eps}}
\end{center}
\caption{�$BJQ?t$NMxMQ�(B} \label{fig:powerOf2}
\end{figure}
$3$ �$B$NN_>h$rI=<($9$k$K$O�(B
\verb@X=2@ �$B$N9T$r�(B \verb@X=3@ �$B$KJQ99$9$l$P$$$$$@$1$G$"$k�(B.
�$B%"%k%U%!%Y%C%H$N�(B\underline{�$BBgJ8;z�(B}�$B$G$O$8$^$k1Q?t;z$NNs$,�(B asir �$B$N�(B
�$BJQ?t$G$"$k�(B.
�$B$D$^$j�(B, {\tt X}, {\tt Y}, {\tt Z} �$B$O$b$A$m$s$N$3$H�(B,
{\tt Sum} �$B$H$+�(B {\tt Kazu} �$B$H$+�(B {\tt X1} �$B$J$I�(B2�$BJ8;z0J>e$N1Q?t;z$NNs�(B
�$B$NAH$_9g$o$;$,JQ?tL>$H$7$F5v$5$l$k�(B.
�$BJQ?t$r4^$s$@<0$r%W%m%0%i%`Cf$G<+M3$K$D$+$&$3$H$b$G$-$k�(B.
�$B$?$H$($P�(B
\begin{verbatim}
X = 2;
A = 1;
print( 2*X^2 -A );
\end{verbatim}
�$B$r<B9T$9$k$H�(B {\tt 7} �$B$,I=<($5$l$k�(B.
�$B$3$N$h$&$JNc$r$_$k$H�(B, �$BJQ?t$N5!G=$O�(B
�$BCf3X?t3X$G$J$i$&J8;z<0$H;w$F$$$k$H;W$&$@$m$&�(B.
�$BD6F~Lg$H$7$F$O$3$l$G$[$\@5$7$$M}2r$G$"$k$,�(B, �$B$h$j%9%F%C%W%"%C%W$7$F$$$/$K$O�(B,
�$B<!$N$3$H$r6/$/5-21$7$F$*$3$&�(B.
\begin{screen}
�$BJQ?t$H$O7W;;5!$K?tCMEy$rJ]B8$7$F$*$/%a%b%j>e$N>l=j$NL>A0$G$"$k�(B.
\end{screen}
�$B$5$F�(B, �$BD6F~Lg�(B, �$BBh0l$N4XLg$G$"$k�(B.
\begin{screen}
{\tt =} �$B5-9f$O<!$N$h$&$J7A<0$G$D$+$&�(B:
$$ \mbox{{\bf �$BJQ?tL>�(B}} {\tt = } \mbox{{\bf �$B<0�(B}} {\tt ;} $$
�$B$3$l$O$^$:1&JU$N<0$r7W;;$7$=$N$"$H$=$N7W;;7k2L$r:8JU$NJQ?t$KBeF~$;$h$H$$$&0UL#�(B.
\verb@=@ �$B5-9f$O1&JU$r7W;;$7$F$=$N7k2L$r:8JU$XBeF~$;$h$H$$$&�(B\underline{�$BL?Na�(B}
�$B$@$H;W$C$FM_$7$$�(B. \\
�$B$?$H$($P�(B,
\verb@X=1@ �$B$O�(B \verb@X@ �$B$,�(B \verb@1@ �$B$KEy$7$$$H$$$&0UL#$G$O$J$/�(B,
\verb@1@ �$B$r�(B �$BJQ?t�(B \verb@X@ �$B$KBeF~$;$h$H$$$&0UL#$G$"$k�(B.
\end{screen}
�$B$3$3$G$$$$$?$$$3$H$O�(B, \index{�$B$@$$$K$e$&�(B@�$BBeF~�(B} \index{=} \index{�$B$@$$$K$e$&$-$4$&�(B=@�$BBeF~5-9f�(B=}
\begin{screen}
\verb@=@ �$B5-9f$N0UL#$,?t3X$G$N0UL#$H0c$&$h�(B!
\end{screen}
�$B$H$$$&$3$H$G$"$k�(B.
�$B$3$l$G:.Mp$9$kF~Lg<T$bB?$$$N$G%W%m%0%i%`8@8l$K$h$C$F$O�(B
``$2$ �$B$rJQ?t�(B {\tt X} �$B$KBeF~$;$h�(B'' �$B$r�(B
\verb@X:=2@
�$B$H=q$/>l9g$b$"$k�(B (�$B$?$H$($P%W%m%0%i%`8@8l�(B Pascal).
�$B<!$N%W%m%0%i%`$O�(B $2$, $2^2$, $2^4$, $2^8$ �$B$r7W;;$7$FI=<($9$k�(B.
\begin{screen}
\begin{verbatim}
X=2;
print(X);
X = X*X;
print(X);
X = X*X;
print(X);
X = X*X;
print(X);
\end{verbatim}
\end{screen}
\begin{figure}[thb]
\begin{center}
\scalebox{0.3}{\includegraphics{Figs/powerOf2b.eps}}
\end{center}
\caption{�$BJQ?t$NMxMQ�(B} \label{fig:powerOf2b}
\end{figure}
�$B=PNO$,?^�(B\ref{fig:powerOf2b}�$B$N$h$&$K$J$kM}M3$r@bL@$7$h$&�(B.
�$B$^$:�(B1�$B9TL\$GJQ?t�(B{\tt X}�$B$K�(B2�$B$,BeF~$5$l$k�(B.
�$B<!$K�(B3�$B9TL\$G$O$^$:1&JU$N<0$r7W;;$9$k�(B. �$B$3$N>l9g�(B {\tt X} �$B$NCM$O�(B $2$ �$B$G$"$k$N$G�(B,
$2\times2$ �$B$G7k2L$O�(B $4$ �$B$G$"$k�(B.
\underline{�$B$3$N7W;;$,=*$C$?8e�(B}�$B7k2L$N�(B $4$ �$B$,JQ?t�(B {\tt X} �$B$KBeF~$5$l$k�(B.
5�$B9TL\$G$O1&JU$N<0$O�(B $4 \times 4$ �$B$J$N$G�(B, �$B$=$N7W;;7k2L$N�(B $16$ �$B$,�(B �$B:8JU$NJQ?t�(B $X$
�$B$KBeF~$5$l$k�(B.
\index{�$B$X$s$9$&�(B@�$BJQ?t�(B}
\bigbreak
%
%
\noindent
\HHH \index{�$B$?$3$&$7$-�(B@�$BB?9`<0�(B} \index{�$B$9$&$7$-$7$g$j�(B@�$B?t<0=hM}�(B}
Asir �$B$OB?9`<07W;;$b$G$-$k�(B. �$B<B$O�(B Asir �$B$O7W;;5!$G5-9fE*$K?t<0$r=hM}$9$k$?$a$N�(B
�$B?t<0=hM}%7%9%F%`$G$b$"$k�(B.
%en Asir can do calculations for polynomials.
\begin{enumerate}
%en \begin{enumerate}
\item �$B>.J8;z$G$O$8$^$k5-9f$OB?9`<0$NJQ?t$G$"$k�(B.
�$B?t3X$H$A$,$C$FJQ?t$NL>A0$O0lJ8;z$H$O$+$.$i$J$$�(B.
�$B$?$H$($P�(B {\tt rate} �$B$H=q$/$H�(B, $rate$ �$B$H$$$&L>A0$NB?9`<0$NJQ?t$H$J$k�(B.
�$B$?$H$($P�(B {\tt x2} �$B$H=q$/$H�(B, $x2$ �$B$H$$$&L>A0$NB?9`<0$NJQ?t$H$J$k�(B.
$x$ �$B$+$1$k�(B $2$ �$B$O�(B {\tt x*2} �$B$H=q$/�(B. \index{�$B$?$3$&$7$-$X$s$9$&�(B@�$BB?9`<0JQ?t�(B}
%en \item Symbols starting small alphabetical character are variables of polynomials. For example, {\tt x2} is the variable of the name x2.
%en The expression {\tt x*2} stands for $x$ times $2$.
%
%
\item \index{�$B$$$s$9$&$V$s$+$$�(B@�$B0x?tJ,2r�(B} \index{fctr}
{\tt fctr(\poly)} �$B$O�(B \poly �$B$rM-M}?t78?t$NHO0O$G0x?tJ,2r$9$k�(B.
{\tt fctr} �$B$O�(B factor �$B$NC;=LI=8=$G$"$k�(B.
%en \item \index{factorization} \index{fctr}
%en The input {\tt fctr(\poly)} factors \poly in the ring of polynomials
%en with rational number coefficients.
%
%
\end{enumerate}
%en \end{enumerate}
\begin{figure}[tbh]
\begin{center}
\scalebox{0.3}{\includegraphics{Figs/fctr1.eps}}
\end{center}
\caption{�$B0x?tJ,2r�(B} \label{fig:fctr1}
\end{figure}
�$B?^�(B\ref{fig:fctr1} �$B$N�(B{\tt fctr} �$B$N=PNO$N:G=i$O�(B $x^2+2xy+y^2$ �$B$,�(B
$ 1^1 \times (x+y)^2 $
�$B$H0x?tJ,2r$5$l$k$3$H$r0UL#$7$F$$$k�(B.
�$B?^�(B\ref{fig:fctr1} �$B$N�(B{\tt fctr} �$B$N=PNO$N�(B2�$BHVL\$O�(B $x^2-1$ �$B$,�(B
$$ 1^1 \times (x-1)^1 \times (x+1)^1
$$
�$B$H0x?tJ,2r$5$l$k$3$H$r0UL#$7$F$$$k�(B.
\section{�$B$/$j$+$($7�(B}
�$B$/$j$+$($7$dH=CG$r$*$3$J$&$?$a$NJ8$,�(B asir �$B$K$OMQ0U$5$l$F$$$k�(B.
�$B$3$NJ8$r$b$A$$$k$HJ#;($J$3$H$r<B9T$G$-$k�(B.
�$B$^$:0lHV$N4pAC$G$"$k$/$j$+$($7$N5!G=$r$?$a$7$F$_$h$&�(B.
\index{�$B$/$j$+$($7�(B} \index{for�$B$V$s�(B@for�$BJ8�(B}
%en A programming language is installed in Asir.
%en Let us try the most basic programming; repeating and printing.
\begin{example} \rm
�$B?^�(B\ref{fig:powerOf2}�$B$N%W%m%0%i%`$O<!$N$h$&$K7+$jJV$75!G=�(B --- {\tt for}�$BJ8�(B ---
�$B$rMQ$$$F4J7i$K=q$1$k�(B.
\begin{screen}
\begin{verbatim}
X = 2;
for (I=1; I<=8; I++) {
print( X^I );
}
\end{verbatim}
\end{screen}
�$B<B9T7k2L$O?^�(B\ref{fig:powerOf2For}�$B$r$_$h�(B.
\end{example}
\begin{figure}[tbh]
\begin{center}
\scalebox{0.3}{\includegraphics{Figs/powerOf2For.eps}}
\end{center}
\caption{for�$BJ8�(B} \label{fig:powerOf2For}
\end{figure}
�$B7+$jJV$74XO"$NI=8=$N0UL#$r2U>r=q$K$7$F$^$H$a$F$*$3$&�(B.
\begin{enumerate}
%en \begin{enumerate}
\item \index{for} \index{�$B$/$j$+$($7�(B@�$B7+$jJV$7�(B} \index{\<@\verb&<=&}
%en \item \index{for} \index{repeat} \index{\<@\verb&<=&}
\verb@ for (K=�$B=i4|CM�(B; K<=�$B=*$j$NCM�(B; K++) {�$B%k!<%W$NCf$G<B9T$9$k%3%^%s%I�(B}; @
�$B$O$"$k$3$H$r2?EY$b7+$jJV$7$?$$;~$KMQ$$$k�(B.
for �$B%k!<%W$H8F$P$l$k�(B.
``{\tt K<=N}'' �$B$O�(B, ``${\tt K} \leq {\tt N}$�$B$+�(B'' �$B$H$$$&0UL#$G$"$k�(B.
�$B;w$?I=8=$K�(B,
``{\tt K>=N}''�$B$,$"$k$,�(B, �$B$3$l$O�(B ``${\tt K} \geq {\tt N}$�$B$+�(B'' �$B$H$$$&0UL#$G$"$k�(B.
{\tt =} �$B$N$J$$�(B
``{\tt K<N}'' �$B$O�(B, ``${\tt K} < {\tt N}$�$B$+�(B'' �$B$H$$$&0UL#$G$"$k�(B.
\item \verb@ ++K @ �$B$d�(B \verb@ K++ @ �$B$O�(B {\tt K} �$B$r�(B 1 �$BA}$d$;$H$$$&0UL#$G$"$k�(B.
\verb@ K = K+1 @ �$B$H=q$$$F$b$h$$�(B.
�$BF1$8$/�(B, \verb@ --K @ �$B$d�(B \verb@ K-- @ �$B$O�(B {\tt K} �$B$r�(B 1 �$B8:$i$;$H$$$&0UL#$G$"$k�(B.
%en The sentence
%en {\tt for (K={\it initial value}; K<={\it limit}; K++) \{{\it commands}\}; }
%en is used to repeat commands.
%en It is called the ``for'' loop.
%en ``{\tt K<=N}'' means that ``${\tt K} \leq {\tt N}$ holds''.
%en A similar expression
%en ``{\tt K>=N}'' implies that ``${\tt K} \geq {\tt N}$ holds''
%en The expression ``{\tt K<N}'' means that ``${\tt K} < {\tt N}$''.
\item \verb@ ++K @ �$B$d�(B \verb@ K++ @ �$B$O�(B {\tt K} �$B$r�(B 1 �$BA}$d$;$H$$$&0UL#$G$"$k�(B.
\verb@ K = K+1 @ �$B$H=q$$$F$b$h$$�(B.
�$BF1$8$/�(B, \verb@ --K @ �$B$d�(B \verb@ K-- @ �$B$O�(B {\tt K} �$B$r�(B 1 �$B8:$i$;$H$$$&0UL#$G$"$k�(B.
%en \item The expressions \verb@ ++K @ and \verb@ K++ @ mean increasing
%en {\tt K} by $1$.
%en In this example, it has the same meaning with \verb@ K = K+1 @.
%en Similarly \verb@ --K @ and \verb@ K-- @ mean decreasing {\tt K} by 1.
%
%
\end{enumerate}
%en \end{enumerate}
%en
\begin{figure}[tbh]
\begin{center}
\scalebox{0.3}{\includegraphics{Figs/powerOf2For2.eps}}
\end{center}
\caption{for�$BJ8�(B} \label{fig:powerOf2For2}
\end{figure}
for �$B$N$"$H$N�(B {\tt \{}, {\tt \}} �$B$NCf$K$OJ#?t$NJ8�(B(�$BL?Na�(B)�$B$r=q$1$k�(B.
\begin{screen}
\begin{verbatim}
X = 2;
for (I=1; I<=8; I++) {
print("2�$B$N�(B"+rtostr(I)+"�$B>h$O�(B ",0);
print( X^I );
}
\end{verbatim}
\end{screen}
�$B$3$NNc$G$O�(B
�$BF|K\8l$r4^$`$N$GA0$N@a$G=R$Y$?$h$&$KF|K\8l6uGr$r%W%m%0%i%`K\BN$K$$$l$J$$$h$&$K$7$F�(B,
�$BCm0U?<$/%W%m%0%i%`$rF~NO$7$F$b$i$$$?$$�(B.
�$B<B9T7k2L$O?^�(B\ref{fig:powerOf2For2}�$B$r$_$h�(B. \index{2�$B$N$k$$$8$g$&�(B@$2$�$B$NN_>h�(B}
\verb@print("2�$B$N�(B"+rtostr(I)+"�$B>h$O�(B ",0);@ �$B$NItJ,$r4JC1$K@bL@$7$F$*$3$&�(B.
�$B$^$::G8e$N�(B {\tt 0} �$B$O=PNO$N$"$H2~9T$7$J$$�(B, �$B$D$^$j<!$N�(B {\tt print} �$BJ8$N=PNO$r�(B
�$B$=$N$^$^B3$1$h$H$$$&0UL#�(B. \index{print} \index{rtostr}
\verb@"@ �$B$G$+$3$^$l$?ItJ,$OJ8;zNs$H8F$P$l$F$$$k�(B.�$B$3$l$O$3$N$^$^I=<($5$l$k�(B.
\verb@rtostr(I)@ �$B$O?t;z�(B {\tt I} �$B$rJ8;zNsI=8=$KJQ49$7$J$5$$�(B, �$B$H$$$&0UL#�(B
(�$BD6F~Lg$H$7$F$OFq$7$$�(B?).
�$B$"$HJ8;zNs$KBP$7$F�(B {\tt +} �$B$rE,MQ$9$k$HJ8;zNs$,7k9g$5$l$k�(B.
\index{�$B$b$8$l$D$N$1$D$4$&�(B@�$BJ8;zNs$N7k9g�(B}
\index{�$B$b$8$l$D$R$g$&$2$s�(B@�$BJ8;zNsI=8=�(B}
\noindent
\fbox{�$B;(CL�(B}
(�$B9>8M;~Be$N?t3X$NK\$K$"$C$?LdBj$N2~Bj�(B) \\
�$BEBMM�(B: �$B$3$N$?$S$NF/$-$O$"$C$Q$l$G$"$C$?�(B. �$BK+H~$O$J$K$,$h$$$+�(B? \\
�$B2HMh�(B: �$B:#F|$O0l1_�(B, �$BL@F|$O�(B2�$B1_�(B, �$BL@8eF|$O�(B4�$B1_$H�(B, �$BA0F|$N�(B2�$BG\$E$D�(B, �$B$3$l$r�(B4�$B=54VB3$1$F�(B
�$B$/$@$5$k$@$1$G7k9=$G$4$6$$$^$9�(B. \\
�$BEBMM�(B: �$B$J$s$H$b$5$5$d$+$JK+H~$8$c$N$&�(B. �$B$h$7$h$7�(B. \\
�$B$5$F�(B, �$B2HMh$O$$$/$iK+>^6b$r$b$i$($k$@$m$&�(B?
�$B$3$l$b$^$?�(B$2$�$B$NN_>h$N7W;;$G$"$k�(B. \index{2�$B$N$k$$$8$g$&�(B@$2$�$B$NN_>h�(B}
Cfep/asir �$B$G7W;;$7$F$_$h$&�(B.
\begin{example}\Begin \quad
{\tt for} �$B$K$h$k7+$jJV$7$rMQ$$$F�(B $\sqrt{x}$ �$B$N?tI=$r$D$/$m$&�(B.
%en \begin{example}\Begin [02] \quad
%en By using {\tt for} loop, generate a table of $\sqrt{x}$.
%en \end{example}
%en
\begin{screen}
\begin{center}
\begin{verbatim}
for (I=0; I<2; I = I+0.2) {
print(I,0); print(" : ",0);
print(deval(I^(1/2)));
}
\end{verbatim}
\end{center}
\end{screen}
%>C
�$B=PNO7k2L�(B
%en Output.
%<C
\begin{center}
\begin{tabular}{|l|} \hline \sl
0 : 0 \\
0.2 : 0.447214 \\
0.4 : 0.632456 \\
0.6 : 0.774597 \\
0.8 : 0.894427 \\
1 : 1 \\
1.2 : 1.09545 \\
1.4 : 1.18322 \\
1.6 : 1.26491 \\
1.8 : 1.34164 \\
2 : 1.41421 \\
\hline
\end{tabular}
\end{center}
%>C
\rm
\index{print}
{\tt print(A)} �$B$OJQ?t�(B {\tt A} �$B$NCM$r2hLL$KI=<($9$k�(B.
{\tt print(�$BJ8;zNs�(B)} �$B$OJ8;zNs$r2hLL$KI=<($9$k�(B.
{\tt print(A,0)} �$B$OJQ?t�(B {\tt A} �$B$NCM$r2hLL$KI=<($9$k$,�(B, �$BI=<($7$?�(B
�$B$"$H$N2~9T$r$7$J$$�(B.
�$B6uGr$bJ8;z$G$"$k�(B.�$B$7$?$,$C$F�(B, �$B$?$H$($P�(B
{\tt A=10; print(A,0); print(A+1);}
�$B$r<B9T$9$k$H�(B, \index{print}
{\tt 1011} �$B$HI=<($5$l$F$7$^$&�(B.
{\tt A=10; print(A,0); print(" ",0);print(A+1);}
�$B$r<B9T$9$k$H�(B,
{\tt 10 11} �$B$HI=<($5$l$k�(B.
%en \rm
%en \index{print}
%en The command {\tt print(A)} displays the value of the variable {\tt A}
%en on the screen.
%en The command {\tt print({\it string})} outpus the {\it string} on the screen.
%en The command {\tt print(A,0)} displays the value of the variable {\tt A},
%en but it does not make the newline.
%en Note that the blank is a character. For example, if you input
%en {\tt A=10; print(A,0); print(A+1);}
%en {\tt 1011} will be displayed. So, input as
%en {\tt A=10; print(A,0); print(" ",0);print(A+1);}
%en Then,
%en {\tt 10 11} will be displayed.
%en
\end{example}
�$B$H$3$m$G�(B, �$B$3$NNc$G$O>r7o$,�(B ${\tt I}<2$ �$B$J$N$K�(B ${\tt I}=2$
�$B$N>l9g$,I=<($5$l$F$$$k�(B.
�$B<B:]$K�(B asir �$B>e$G<B9T$7$F$_$k$H$3$&$J$k$,�(B, �$BM}M3$rCN$k$K$O!"�(B
�$BIbF0>.?t$N7W;;5!>e$G$NI=8=$K$D$$$F$NCN<1$,I,MW$G$"$k�(B
(``asir�$B%I%j%k�(B''�$B$r;2>H�(B).
�$B$H$j$"$($:�(B,
%en In this example, the termination condition is ${\tt I}<2$, but
%en the case of ${\tt I}=2$ is executed. In order to understand the reason,
%en we need to study the format of floating point numbers.
%en (See \ref{chapter:naibu} for details).
%en For now, please keep the following in our mind.
\begin{FRAME}
�$B@0?t$dJ,?t$N7W;;$O�(B Asir �$B>e$G@53N$K<B9T$5$l$k$,�(B,
�$B>.?t$K$D$$$F$O$=$&$G$J$$�(B.
\end{FRAME}
�$B$H3P$($F$*$3$&�(B.
%en \begin{FRAME}
%en Arithmetics for integers and rational numbers are exact in Risa/Asir,
%en but arithmetics for dicimal numbers are not.
%en \end{FRAME}
%en
\begin{problem}
�$B$"$?$($i$l$?�(B 10 �$B?J?t$r�(B 2�$B?J?t$XJQ49$9$k%W%m%0%i%`$r:n$l�(B.
�$B%R%s%H�(B: {\tt A}�$B!`�(B{\tt B} �$B$NM>$j$O�(B \verb@A%B@ �$B$G7W;;$G$-$k�(B.
\index{�$B$"$^$j�(B@�$BM>$j�(B}
\end{problem}
\section{�$B<B9T$NCf;_�(B}
%
%
\index{�$B$A$e$&$7�(B@�$BCf;_�(B} \index{interrupt}
�$B<B9TCf$N7W;;$d%W%m%0%i%`$N<B9T$rCf;_$7$?$$;~$OCf;_%\%?%s�(B
\begin{center}
\scalebox{0.1}{\includegraphics{Figs/buttonStop.eps}}
\end{center}
�$B$r%/%j%C%/$9$k�(B.
\begin{figure}[tbh]
\begin{center}
\scalebox{0.5}{\includegraphics{Figs/interrupt.eps}}
\end{center}
\caption{�$B<B9T$NCf;_�(B} \label{fig:interrupt}
\end{figure}
�$B?^�(B\ref{fig:interrupt}�$B$G$O�(B
$10^{100}$ �$B2s$N�(B {\tt Hello } �$B$N=PNO$N7+$jJV$7$rCf;_$7$F$$$k�(B.
cfep �$B$O3+H/ES>e$N%7%9%F%`$N$?$a�(B
\begin{verbatim}
[control] control function_id is 1030
[control] control_reset_connection.
Sending the SIGUSR1 signal to 1226: Result = 0
In ox103_reset: Done.
515
Done
\end{verbatim}
�$B$3$N$h$&$J3+H/<T@lMQ$N%a%C%;!<%8$b=PNO$5$l$k$,�(B,
�$B$H$j$"$($:$3$N$h$&$J%a%C%;!<%8$,$G$?$iCf;_$,@.8y$7$?$H$$$&$3$H$G$"$k�(B.
\section{�$B%(%s%8%s:F5/F0�(B}
\index{�$B$5$$$-$I$&�(B@�$B:F5/F0�(B} \index{�$B$1$$$5$s$($s$8$s�(B@�$B7W;;%(%s%8%s�(B}
\index{�$B$1$$$5$s$5!<$P�(B@�$B7W;;%5!<%P�(B}
Cfep/asir �$B$G$O<!$N$h$&$K�(B3�$B$D$N%W%m%;%9$,8_$$$KDL?.$7$J$,$iF0:n$7$F$$$k�(B.
\begin{center}
\fbox{cfep} $\Leftrightarrow$ \fbox{�$B%3%s%H%m!<%i�(B(ox\_texmacs)}
$\Leftrightarrow$ \fbox{�$B7W;;%(%s%8%s�(B(ox\_asir)}
\end{center}
�$B7W;;%(%s%8%s�(B(�$B7W;;%5!<%P�(B)�$B$r:F5/F0$7$?$jJL$N$b$N$K$H$j$+$($?$j$G$-$k�(B.
\index{�$B$1$$$5$s$($s$8$s�(B@�$B7W;;%(%s%8%s�(B}
\index{�$B$1$$$5$s$5!<$P�(B@�$B7W;;%5!<%P�(B}
\index{�$B$($s$8$s�(B@�$B%(%s%8%s�(B}
\index{�$B$5$$$-$I$&�(B@�$B:F5/F0�(B} \index{restart}
�$B%(%s%8%s:F5/F0%\%?%s�(B
\begin{center}
\scalebox{0.05}{\includegraphics{Figs/buttonRestart}}
\end{center}
�$B$r%/%j%C%/$9$k$H�(B,
�$B8=:_MxMQ$7$F$$$k7W;;%(%s%8%s$rDd;_$7�(B,
�$B?7$7$$7W;;%(%s%8%s$r%9%?!<%H$9$k�(B.
�$BA*BrHO0O$N$_$r<B9T$9$k%b!<%I$G$J$$$+$.$jMxMQ>e$GCf;_$H$N0c$$$O�(B
�$B$"$^$j$J$$$,�(B, �$B:F5/F0$N$H$-$N%a%C%;!<%8�(B
\begin{center}
\scalebox{0.4}{\includegraphics{Figs/restartDialog}}
\end{center}
�$B$K$b$"$k$h$&$K�(B, �$BJL$N7W;;%(%s%8%s$r5/F0$9$k$3$H$b2DG=$G$"$k�(B.
�$B$3$NNc$G$O�(B unix shell �$B$b5/F0$G$-$k�(B.
�$B$^$?�(B, ``�$B<B9T�(B'' �$B%a%K%e!<$+$i�(B ``�$B%(%s%8%s$r<+F0%9%?!<%H$7$J$$�(B'' �$B%b!<%I$rA*$s$G$k�(B
�$B>l9g$K7W;;%(%s%8%s$r<jF0$G%9%?!<%H$9$k$K$O�(B, �$B$3$N%\%?%s$rMQ$$$k�(B.
\bigbreak
\noindent
\HHH
cfep �$B$O�(B \index{cfep}
Cocoa FrontEnd view Process
�$B$NN,$G$"$k�(B.
cfep �$B$O�(B Objective C �$B$H$$$&8@8l$*$h$S�(B xcode 2 �$B$H$$$&3+H/4D6-$rMQ$$$F�(B
Cocoa �$B$H$$$&%U%l!<%`%o!<%/$N$b$H$G3+H/$5$l$F$$$k�(B.
cfep �$B$N�(B Objective C �$B$N%W%m%0%i%`$N0lIt$r$_$F$_$h$&�(B.
\begin{screen}
\begin{verbatim}
for (i=0; i<oglCommSize; i++) {
gc = [oglComm objectAtIndex: i];
[self execute: gc];
}
\end{verbatim}
\end{screen}
asir �$B$HF1$8$h$&$J�(B {\tt for} �$BJ8$,$"$k$M�(B.
\section{�$B%X%k%W$NMxMQ�(B}
\index{�$B$+$s$9$&�(B@�$B4X?t�(B}
Cfep/asir �$B$G$N�(B ``�$B4X?t�(B'' �$B$H$O?t3X$N4X?t$N$h$&$K0z?t$rM?$($k$H7W;;$7$FCM$r$b$I$7�(B,
�$B$+$D$"$k;E;v�(B(�$BI=<(Ey�(B)�$B$r$9$k<jB3$-$N=8$^$j$G$"$k�(B.
�$BNc$($P�(B {\tt print}, {\tt deval}, {\tt sin}, {\tt fctr} �$BEy$O4X?t$G$"$k�(B.
�$B4X?t$r<+J,$GDj5A$9$k$3$H$b2DG=$G$"$k�(B. �$B$3$l$K$D$$$F$O8e$N@bL@$*$h$S�(B
``asir�$B%I%j%k�(B''�$B$r;2>H�(B.
�$B$"$i$+$8$aDj5A$:$_$N4X?t$r�(B ``�$BAH$_9~$_4X?t�(B'' �$B$H$h$V�(B.
\index{help}
\index{�$B$X$k$W�(B@�$B%X%k%W�(B} \index{�$B$/$_$3$_$+$s$9$&�(B@�$BAH$_9~$_4X?t�(B}
�$BAH$_9~$_4X?t$N>\$7$$@bL@$rD4$Y$k$K$O�(B
``cfep �$B$N%X%k%W�(B'' �$B$+$i�(B
\begin{center}
\scalebox{0.3}{\includegraphics{Figs/helpTop}}
\end{center}
�$B$N�(B ``�$B:w0z�(B'' �$B$rA*$S�(B, �$B:w0z�(B
\begin{center}
\scalebox{0.45}{\includegraphics{Figs/helpIndex}}
\end{center}
�$B$N�(B ``Risa/Asir �$B%^%K%e%"%k�(B'' �$B$rA*$S�(B,
``Risa/Asir �$B%^%K%e%"%k�(B'' �$B$N:G=i$N%Z!<%8$N4X?t0lMw$+$i�(B
�$BD4$Y$?$$4X?t$rC5$9�(B.
�$B$?$H$($P�(B {\tt fctr} (�$B0x?tJ,2rMQ$N4X?t�(B) �$B$O$3$N0lMw$NCf$K$"$k�(B.
\begin{center}
\scalebox{0.35}{\includegraphics{Figs/helpFctr}}
\end{center}
\index{fctr}
\index{spotlight}
�$B8!:w$K$O�(B spotlight �$B$N3hMQ$bM-1W$G$"$m$&�(B. �$B:w0z�(B
\begin{center}
\scalebox{0.45}{\includegraphics{Figs/helpIndex}}
\end{center}
�$B$N�(B ``�$B;HMQ@bL@=q$N%U%)%k%@$r�(Bfinder�$B$G3+$/�(B''
�$B$rA*$V$H;HMQ@bL@=q$N%U%)%k%@$,3+$/$N$G�(B, �$B$3$3$r�(B spotlight �$B$G8!:w$9$k$H�(B
�$B$$$m$$$m$JH/8+$,$"$k$G$"$m$&�(B.
�$B$A$J$_$K�(B, �$B$3$ND6F~Lg$d�(B asir�$B%I%j%k$O$3$N%U%)%k%@$N�(B pdf �$B%U%)%k%@$NCf$K$"$k�(B.
(�$B$J$*$3$3$+$i$N�(B spotlight �$B8!:w$O2?8N$+CY$$$N$G�(B, �$B%a%K%e!<%P!<$N�(B
splotlight �$B$+$i$N8!:w$NJ}$,$$$$$+$b$7$l$J$$�(B.
)
%% mdfind, mdimport?
\chapter{�$B%0%i%U%#%C%/�(B}
\section{�$B%i%$%V%i%j$NFI$_9~$_�(B} \index{�$B$i$$$V$i$j�(B@�$B%i%$%V%i%j�(B}
\begin{figure}
\begin{center}
\scalebox{0.5}{\includegraphics{Figs/glib_lineImport.eps}}
\end{center}
\caption{�$B%i%$%V%i%j$N%m!<%I�(B} \label{fig:glib_lineImport}
\end{figure}
Asir �$B8@8l$G=q$+$l$F$$$k4X?tDj5A$N=89g$,%i%$%V%i%j$G$"$k�(B.
�$B%i%$%V%i%j$rFI$_9~$`$K$O�(B {\tt import} �$B%3%^%s%I$^$?$O�(B
{\tt load} �$B%3%^%s%I$rMQ$$$k�(B. \index{import} \index{load}
�$B%^%K%e%"%k$K5-=R$5$l$F$$$k4X?t$G%i%$%V%i%j$NFI$_9~$_$,A0Ds$H$J$C$F$k$b$N$b�(B
�$BB?$$�(B.
�$B$?$H$($P�(B, �$B@~$r0z$/%3%^%s%I�(B {\tt glib\_line(0,0,100,100);}
�$B$r<B9T$7$F$b�(B, ``glib\_line �$B$,Dj5A$5$l$F$$$^$;$s�(B''
�$B$H$$$&%(%i!<$,I=<($5$l$k�(B.
�$B%0%i%U%#%C%/%3%^%s%I$N%i%$%V%i%jFI$_9~$`%3%^%s%I�(B
\begin{verbatim}
import("glib3.rr");
\end{verbatim}
�$B$r<B9T$7$F$*$/$H?^�(B\ref{fig:glib_lineImport}�$B$N$h$&$K�(B
�$B@~$rIA2h$9$k�(B.
Asir-contrib �$B%W%m%8%'%/%H$K$h$j=8@Q$5$l$?%i%$%V%i%j$N=89gBN$,�(B
asir-contrib �$B$G$"$k�(B. \index{asir-contrib}
Asir-contrib �$B$rFI$_9~$s$G$7$^$&$H�(B,
�$B$[$H$s$I$N4X?t$K$D$$$F�(B import �$B$,I,MW$+$I$&$+5$$K$9$kI,MW$O$J$/$J$k$,�(B,
�$BBgNL$N%i%$%V%i%j$rFI$_9~$`$?$a$K;~4V$,$+$+$k$N$,7gE@$G$"$k�(B.
asir-contrib �$B$O�(B \fbox{�$B<B9T�(B} �$B%a%K%e!<$+$iFI$_9~$a$k�(B.
\begin{center}
\scalebox{0.3}{\includegraphics{Figs/importContrib}}
\end{center}
\section{�$B@~$r0z$/4X?t�(B}
\begin{example} \rm
\begin{screen}
\begin{verbatim}
import("glib3.rr");
glib_line(0,0, 100,100);
glib_flush();
\end{verbatim}
\end{screen}
�$B?^�(B\ref{fig:glib_lineImport} �$B$,IA2h7k2L$G$"$k�(B.
$y$�$B:BI8$O2hLL$,2<$X$$$/$[$IBg$-$/$J$k�(B.
�$B?^�(B\ref{figure:cond:coord} �$B$r;2>H�(B.
�$B:8>e$N:BI8$O�(B $(0,0)$, �$B1&2<$N:BI8$,�(B $(400,400)$.
\verb@glib_line@ �$B$G�(B $(0,0)$ �$B$+$i�(B $(100,100)$ �$B$X@~$rIA2h�(B.
\verb@glib_flush@ �$B$O2hLL$r99?7$9$k$O$?$i$-$,$"$k�(B. flush �$B$7$J$$$H�(B,
�$BIA2h7k2L$,2hLL$G$NI=<($KH?1G$7$J$$>l9g$,$"$k�(B.
\end{example}
\index{glib}
{\tt glib3.rr} �$B$r%m!<%I$9$k$3$H$K$h$j�(B, �$B<!$N4X?t$,;H$($k$h$&$K$J$k�(B. \\
\begin{tabular}{|l|l|}
\hline
{\tt glib\_window(X0,Y0,X1,Y1)} &
�$B?^$r=q$/�(B window �$B$N%5%$%:$r7h$a$k�(B. \\
& �$B2hLL:8>e$N:BI8$,�(B {\tt (X0,Y0)},
�$B2hLL1&2<$N:BI8$,�(B {\tt (X1,Y1)} \\
& �$B$G$"$k$h$&$J:BI87O$G0J2<IA2h$;$h�(B. \\
& �$B$?$@$7�(B x �$B:BI8$O�(B, �$B1&$K$$$/$K=>$$$*$*$-$/$J$j�(B, \\
&
y �$B:BI8$O�(B \underline{�$B2<$K�(B} �$B$$$/$K=>$$Bg$-$/$J$k�(B (�$B?^�(B \ref{figure:cond:coord}). \\ \hline
{\tt glib\_clear()} & �$BA4$F$N�(BOpenGL�$B%*%V%8%'%/%H$r>C5n$7�(B,
�$BIA2h2hLL$r%/%j%"$9$k�(B. \\ \hline
{\tt glib\_putpixel(X,Y)} & �$B:BI8�(B {\tt (X,Y)} �$B$KE@$rBG$D�(B. \\ \hline
{\tt glib\_set\_pixel\_size(S)} &
�$BE@$NBg$-$5$N;XDj�(B. 1.0 �$B$,�(B1�$B%T%/%;%kJ,$NBg$-$5�(B. \\ \hline
{\tt glib\_line(X,Y,P,Q)} & �$B:BI8�(B {\tt (X,Y)} �$B$+$i�(B �$B:BI8�(B {\tt (P,Q)} �$B$XD>@~$r0z$/�(B \\ \hline
{\tt glib\_remove\_last()} & �$B0l$DA0$N�(B OpenGL �$B%*%V%8%'%/%H$r>C$9�(B. \\ \hline
\end{tabular}
\begin{figure}[htb]
\setlength{\unitlength}{1mm}
\begin{picture}(100,40)(0,0)
\put(20,35){\vector(1,0){80}}
\put(98,32){x}
\put(20,35){\vector(0,-1){35}}
\put(23,1){y}
\end{picture}
\caption{�$B:BI87O�(B} \label{figure:cond:coord}
\end{figure}
�$B?'$rJQ99$7$?$$$H$-$O�(B, \verb@ | @ �$B5-9f$G6h@Z$C$?%*%W%7%g%J%k0z?t�(B
{\tt color} �$B$r;H$&�(B. \index{�$B$*$W$7$g$J$k$R$-$9$&�(B@�$B%*%W%7%g%J%k0z?t�(B}
�$B$?$H$($P�(B,
\begin{center}
\verb@ glib_line(0,0,100,100|color=0xff0000); @
\end{center}
�$B$HF~NO$9$k$H�(B, �$B?'�(B {\tt 0xff0000} �$B$G@~J,$r$R$/�(B.
�$B$3$3$G�(B, �$B?'$O�(B RGB �$B$N3F@.J,$N6/$5$r�(B 2 �$B7e$N�(B 16 �$B?J?t$G;XDj$9$k�(B.
16�$B?J?t$K$D$$$F$O�(B ``asir �$B%I%j%k�(B'' �$B$r;2>H�(B.
�$B$3$NNc$G$O�(B, R �$B@.J,$,�(B ff �$B$J$N$G�(B, �$B@V$N@~$r$R$/$3$H$H$J$k�(B.
�$B$J$*�(B, �$B4X?t�(B {\tt glib\_putpixel} �$B$bF1$8$h$&$K$7$F�(B, �$B?'$r;XDj$G$-$k�(B.
�$B$5$F�(B, �$B?^�(B \ref{figure:cond:coord} �$B$G8+$?$h$&$K%3%s%T%e!<%?%W%m%0%i%`$N�(B
�$B@$3&$G$O�(B, �$B2hLL$N:8>e$r86E@$K$7$F�(B, �$B2<$X$$$/$K=>$$�(B, $y$ �$B:BI8$,A}$($k$h$&$J�(B
�$B:BI87O$r$H$k$3$H$,B?$$�(B.
�$B?t3X$N%0%i%U$r=q$$$?$j$9$k$K$O$3$l$G$OITJX$J$3$H$bB?$$$N$G�(B,
{\tt glib3.rr} �$B$G$O�(B,
\begin{center}
\verb@ Glib_math_coordinate=1; @
\end{center}
�$B$r<B9T$7$F$*$/$H�(B
�$B2hLL$N:82<$,86E@$G�(B, �$B>e$K$$$/$K=>$$�(B $y$ �$B:BI8$,A}$($k$h$&$J�(B
�$B?t3X$G$N:BI87O$G?^$rIA2h$9$k�(B.
\begin{example} \rm \index{�$B$0$i$U�(B@�$B%0%i%U�(B}
2�$B<!4X?t�(B $y=x^2-1$ �$B$N%0%i%U$r=q$$$F$_$h$&�(B.
%%Prog: cfep/tests/2006-03-11-graph2d.rr
\begin{screen}
\begin{verbatim}
import("glib3.rr");
Glib_math_coordinate=1;
glib_window(-2,-2, 2,2);
glib_line(-2,0,2,0 | color=0x0000ff);
glib_line(0,-2,0,2 | color=0x0000ff);
for (X=-2.0; X< 2.0; X = X+0.1) {
Y = X^2-1;
X1 = X+0.1;
Y1 = X1^2-1;
glib_line(X,Y, X1,Y1);
}
glib_flush();
\end{verbatim}
\end{screen}
�$B<B9T7k2L$O?^�(B\ref{fig:graph2d}.
-----�$B%W%m%0%i%`$N2r@b$O$^$@=q$$$F$J$$�(B.
\end{example}
%<C
\begin{figure}[tb]
\scalebox{0.6}{\includegraphics{Figs/graph2d.eps}}
\caption{2�$B<!4X?t$N%0%i%U�(B} \label{fig:graph2d}
\end{figure}
%>C
\section{�$B1_$rIA$/4X?t$r:n$C$F$_$h$&�(B}
%%Prog: cfep/tests/2006-03-11-circle.rr
\begin{screen}
\begin{verbatim}
import("glib3.rr");
Glib_math_coordinate=1;
glib_window(-1,-1,1,1);
glib_clear();
E = 0.2; X = 0; Y = 0; R = 0.5;
for (T=0; T<=deval(2*@pi); T = T+E) {
Px = X+deval(R*cos(T));
Py = Y+deval(R*sin(T));
Qx = X+deval(R*cos(T+E));
Qy = Y+deval(R*sin(T+E));
glib_line(Px,Py,Qx,Qy);
glib_flush();
}
\end{verbatim}
\end{screen}
-----�$B%W%m%0%i%`$N2r@b$O$^$@=q$$$F$J$$�(B.
�$B>e$N%W%m%0%i%`$G$O�(B $cos$, $sin$ �$B$rMQ$$$F1_$rIA$$$F$$$k�(B.
�$BCf?4�(B, �$BH>7B$rJQ99$7$?$j�(B, �$B?'$rJQ99$7$?$j$7$J$,$i$?$/$5$s$N1_$rIA$/$K$O�(B,
�$B$I$N$h$&$K$9$l$P$h$$$G$"$m$&$+�(B?
``�$B4X?t�(B'' �$B$rMQ$$$k$H$=$l$,MF0W$K$G$-$k�(B.
�$B$"$k$R$H$^$H$^$j$N%W%m%0%i%`$O4X?t�(B (function) �$B$H$7$F�(B
�$B$^$H$a$F$*$/$H$h$$�(B. \index{�$B$+$s$9$&�(B@�$B4X?t�(B}
�$B7W;;5!8@8l$K$*$1$k4X?t$O?t3X$G$$$&4X?t$H;w$FHs$J$k$b$N$G$"$k�(B.
�$B4X?t$r<jB3$-�(B (procedure) �$B$H$+�(B �$B%5%V%k!<%A%s�(B (subroutine) �$B$H$+�(B
�$B$h$V8@8l$b$"$k�(B.
�$B4X?t$rMQ$$$k:GBg$NMxE@$O�(B, �$B4X?t$r0lC6=q$$$F$7$^$($P�(B,
�$BCf?H$r%V%i%C%/%\%C%/%9$H$7$F07$($k$3$H$G$"$k�(B.
�$BBg5,LO$J%W%m%0%i%`$r=q$/$H$-$OJ#;($J=hM}$r$$$/$D$+$N4X?t$KJ,3d$7$F�(B
�$B$^$:3F4X?t$r==J,%F%9%H$7;E>e$2$k�(B.
�$B$=$l$+$i$=$l$i$N4X?t$rAH$_9g$o$;$F$$$/$3$H$K$h$j�(B,
�$BJ#;($J5!G=$r<B8=$9$k�(B.
�$B$3$N$h$&$J%"%W%m!<%A$r$H$k$3$H$K$h$j�(B, ``�$B:$Fq$,J,3d�(B'' �$B$5$l$k�(B.
%<C
\begin{figure}[tbh]
\scalebox{0.6}{\includegraphics{Figs/circleFunc.eps}}
\caption{ �$B4X?t$K$h$kF1?41_$NIA2h�(B} \label{fig:circleFunc}
\end{figure}
%>C
�$B$5$F1_$rIA$/Nc$K$b$I$m$&�(B.
�$B0J2<$N$h$&$K4X?t�(B {\tt circle(X,Y,R,Color)}�$B$rDj5A�(B ({\tt def}) �$B$9$k�(B.
�$B$3$N4X?t$r�(B $R$ �$B$d�(B $Color$ �$B$rJQ2=$5$;$J$,$i8F$V$3$H$K$h$j�(B,
�$B?^�(B\ref{fig:circleFunc} �$B$N$h$&$JF1?41_$N?^$rIA$/$3$H$,2DG=$H$J$k�(B.
�$B4X?t$K$D$$$F>\$7$/$O�(B ``asir �$B%I%j%k�(B'' �$B$r;2>H$7$F$[$7$$�(B.
\begin{screen}
\begin{verbatim}
import("glib3.rr");
def circle(X,Y,R,Color) {
E = 0.2;
for (T=0; T<deval(2*@pi); T = T+E) {
Px = X+deval(R*cos(T));
Py = Y+deval(R*sin(T));
Qx = X+deval(R*cos(T+E));
Qy = Y+deval(R*sin(T+E));
glib_line(Px,Py,Qx,Qy | color=Color);
}
glib_flush();
}
Glib_math_coordinate=1;
glib_window(-1,-1,1,1);
glib_clear();
CC = 0xff0000;
for (P = 0.4; P<0.5; P = P+0.01) {
circle(0,0,P,CC);
CC = random()%0x1000000;
}
\end{verbatim}
\end{screen}
-----�$B%W%m%0%i%`$N>\$7$$2r@b$^$@�(B.
\begin{problem} \rm
\begin{enumerate}
\item �$BJ,EY4o$rIA$/%W%m%0%i%`$r:n$l�(B.
\item (�$BH/E82]Bj�(B) �$B$3$NJ,EY4o�(B, �$B;e�(B, �$B$*$b$j�(B, �$B$o$j$P$7�(B, �$BHD�(B, cfep/asir �$B$K$h$k%W%m%0%i%`Ey$rMQ$$$F�(B,
�$BLZ$d%S%k$N9b$5$rB,Dj$9$k5!3#$H%=%U%H%&%(%"%7%9%F%`$r3+H/$;$h�(B.
\end{enumerate}
\end{problem}
\begin{problem} \rm
(�$B$3$l$OH/E82]Bj�(B) \index{OpenGL} \index{3�$B$8$2$s$0$i$U$#$C$/$9�(B@3�$B<!85%0%i%U%#%C%/%9�(B}
cfep �$B$K$O�(B OpenGL �$B%$%s%?%W%j%?!<$,AH$_9~$s$G$"$k�(B.
OpenGL �$B$O�(B3�$B<!85%0%i%U%#%C%/%9$rMQ$$$k%=%U%H%&%(%":n@.$N$?$a$K�(B
�$BMQ$$$i$l$kLs�(B 150�$B<oN`$N%3%^%s%I$+$i9=@.$5$l$F$$$k%Q%C%1!<%8$G�(B
3�$B<!85%0%i%U%#%C%/%9$NI8=`5,3J$N$R$H$D$G$b$"$k�(B.
cfep 1.1�$B$G$O$=$NCf$N�(B 10 �$B<e$N%3%^%s%I$rMxMQ$G$-$k�(B.
�$B$3$N�(B OpenGL �$B%$%s%?%W%j%?!<$rMQ$$�(B,
�$BB?LLBN�(B(polygon)�$B$r:`NA$K$7�(B,
cfep�$B>e5iJT�(B, OpenGL �$B$N%W%m%0%i%`$r;29M$K�(B
``�$B2H�(B'' �$B$r=q$$$F$_$h$&�(B.
\end{problem}
\chapter{For �$BJ8$K$h$k?tNs$N7W;;�(B}
\section{�$BD6F~Lg�(B, �$BBh�(B2�$B$N4XLg�(B: �$BA22=<0$G$-$^$k?tNs$N7W;;�(B}
\begin{example} \rm
$a$ �$B$r@5$N?t$H$9$k$H$-�(B,
\begin{eqnarray*}
x_{n+1} &=& \frac{x_n + \frac{a}{x_n}}{2}, \\
x_0 &=& a
\end{eqnarray*}
�$B$G$-$^$k?tNs�(B $x_0, x_1, x_2, \ldots $
�$B$O�(B $\sqrt{a}$ �$B$K$I$s$I$s6aIU$/$3$H�(B(�$B<}B+$9$k$3$H�(B)�$B$,CN$i$l$F$$$k�(B.
$a=2$ �$B$N;~�(B, $x_1, x_2, \ldots, x_4$ �$B$r7W;;$9$k%W%m%0%i%`$r=q$$$F$_$h$&�(B.
%%Prog: cfep/tests/2006-03-11-sqrt.rr
\begin{screen}
\begin{verbatim}
A = 2.0;
X = A;
for (I=0; I<5; I++) {
Y = (X+A/X)/2;
print(Y);
X = Y;
}
\end{verbatim}
\end{screen}
\end{example}
�$B$3$N%W%m%0%i%`$N<B9T7k2L$O?^�(B\ref{fig:sqrt}.
%<C
\begin{figure}[tbh]
\scalebox{0.5}{\includegraphics{Figs/sqrt.eps}}
\caption{$\sqrt{2}$ �$B$K<}B+$9$k?tNs�(B} \label{fig:sqrt}
\end{figure}
%>C
�$BD6F~Lg$G$N4XLg$O�(B
\begin{screen}
\begin{verbatim}
Y = (X+A/X)/2;
X = Y;
\end{verbatim}
�$B$N0UL#$r40A4$KM}2r$9$k$3$H�(B
\end{screen}
�$B$G$"$k�(B.
�$BJQ?t$N>O$G@bL@$7$?$h$&$K�(B,
$$ \mbox{{\bf �$BJQ?tL>�(B}} {\tt = } \mbox{{\bf �$B<0�(B}} {\tt ;} $$
�$B$O$^$:1&JU$N<0$r7W;;$7$=$N$"$H$=$N7W;;7k2L$r:8JU$NJQ?t$KBeF~$;$h$H$$$&0UL#�(B
�$B$G$"$k�(B. �$B$7$?$,$C$F�(B,
\verb@ Y = (X+A/X)/2; @ �$B$O8=:_$N�(B {\tt X} �$B$H�(B {\tt A} �$B$K3JG<$5$l$?�(B
�$B?t;z$r$b$H$K�(B \verb@ (X+A/X)/2 @ �$B$NCM$r7W;;$7�(B, �$B$=$N7k2L$rJQ?t�(B {\tt Y} �$B$XBeF~$;$h�(B,
�$B$H$$$&0UL#$G$"$k�(B. �$B$^$?�(B
\begin{screen}
\verb@X=Y@ �$B$O�(B \verb@X@ �$B$,�(B \verb@Y@ �$B$KEy$7$$$H$$$&0UL#$G$O$J$/�(B,
�$BJQ?t�(B\verb@Y@ �$B$K3JG<$5$l$??t;z$r�(B �$BJQ?t�(B \verb@X@ �$B$KBeF~$;$h$H$$$&0UL#$G$"$k�(B.
\end{screen}
�$B$3$N$h$&$K9M$($l$P�(B, �$B>e$N%W%m%0%i%`$,�(B $x_1, x_2, x_3, x_4$ �$B$NCM$r�(B
�$B=gHV$K7W;;$7$F�(B print �$B$7$F$$$kM}M3$,M}2r$G$-$k$G$"$m$&�(B.
�$B<+J,$,7W;;5!$K$J$C$?$D$b$j$G�(B,
�$BJQ?t$NCf$N?tCM$,$I$N$h$&$KJQ2=$7$F$$$/$N$+�(B,
�$B=q$-$J$,$iM}2r$7$FD:$-$?$$�(B.
�$B$3$l$,$O$C$-$jM}2r$G$-�(B, �$B1~MQLdBj$,<+M3$K2r$1$k$h$&$K$J$C$?�(B, �$BD6F~LgB46H$G$"$k�(B.
\index{�$B$@$$$K$e$&�(B@�$BBeF~�(B}
\section{�$B1_$rIA$/?tNs�(B}
�$B?tNs$N7W;;$rMQ$$$k$H�(B, $\cos$ �$B$d�(B $\sin$ �$B$N7W;;$r$d$i$:$K1_$rIA$/$3$H$,�(B
�$B$G$-$k�(B.
%%Prog: cfep/tests/2006-03-11-circle-dda.rr
\begin{screen}
\begin{verbatim}
import("glib3.rr");
Glib_math_coordinate=1;
glib_window(-2,-2, 2,2);
glib_clear();
E = 0.1;
C1 = 1.0; C2=1.0;
S1 = 0.0; S2=E;
for (T=0; T<=deval(2*@pi); T = T+E) {
C3 = 2*C2-C1-E*E*C2;
S3 = 2*S2-S1-E*E*S2;
glib_line(C1,S1, C2,S2);
C1=C2; S1=S2;
C2=C3; S2=S3;
glib_flush();
}
\end{verbatim}
\end{screen}
�$B$3$N%W%m%0%i%`$N<B9T7k2L$O?^�(B\ref{fig:circleDda}.
%<C
\begin{figure}[tbh]
\scalebox{0.6}{\includegraphics{Figs/circleDda.eps}}
\caption{$\cos$, $\sin$ �$B$r;H$o$:$K1_$rIA$/�(B} \label{fig:circleDda}
\end{figure}
%>C
-----�$B%W%m%0%i%`$N2r@b$^$@=q$$$F$J$$�(B.
�$B$3$NOCBj$O�(B, �$B?tNs$N7W;;$H:9J,J}Dx<0$K$h$k%7%_%e%l!<%7%g%s$KB3$/�(B.
�$B$3$l$K$D$$$F$O$^$?9F$r$"$i$?$a$F=q$$$F$_$?$$�(B.
�$B0J>e$GD6F~Lg$O=*N;$G$"$k�(B. �$BB3$-$O�(B ``Asir �$B%I%j%k�(B'' �$B$rFI$s$G$M�(B.
\chapter{cfep �$B>e5iJT�(B}
\section{\TeX �$B$K$h$k%?%$%W%;%C%H�(B(�$B<B83E*�(B)}
%%Doc: cfep/tests/2006-03-06
�$B=PNO$r�(BTeX�$B$G%?%$%W%;%C%H$9$k$K$O�(B
``�$B<B9T�(B'' �$B%a%K%e!<$+$i�(B ``�$B=PNO$r�(BTeX�$B$G%?%$%W%;%C%H�(B'' �$B$rA*Br$9$k�(B.
{\tt latex}, {\tt dvipng} �$B$,%$%s%9%H!<%k$5$l$F$$�(B
�$B$J$$$HF0:n$7$J$$�(B.
�$B$3$l$i$O$?$H$($P�(B {\tt fink} �$B$+$i�(B \TeX �$B$r%$%s%9%H!<%k$7$?$j�(B,
{\tt ptex\_package\_2005v2.1.dmg} �$B$J$I$G�(B Mac �$BMQ$N�(B pTeX �$B$r%$%s%9%H!<%k$7$F$*$1$P$h$$�(B.
\TeX �$B$rMQ$$$?;E>e$jNc$O?^�(B\ref{fig:sl2}�$B$r8+$h�(B.
�$B$J$*�(B, \TeX �$B$G%?%$%W%;%C%H$9$k>l9g%[!<%`$N2<$K�(B
\verb@OpenXM_tmp@ �$B$J$k:n6HMQ$N%U%)%k%@$,:n@.$5$l$k�(B.
�$B%?%$%W%;%C%H$O<B835!G=$N$?$a�(B, �$B$3$N%U%)%k%@$NCf$N:n6HMQ%U%!%$%k$O<+F0$G$O>C5n$5$l$J$$�(B.
�$B;~!9<jF0$G:n6H%U%!%$%k$r>C5n$5$l$?$$�(B.
\index{tex@\TeX}
\section{�$BA*BrHO0O$N$_$N<B9T�(B}
\index{�$B$;$s$?$/$O$s$$$N$_$N$8$C$3$&�(B@�$BA*BrHO0O$N$_$N<B9T�(B}
�$B2hLL>e$N�(B ``�$BA*BrHO0O$N$_$r<B9T�(B'' �$B$r%A%'%C%/$9$k$H�(B,
``�$B;O$a�(B'' �$B%\%?%s$r$*$7$?$H$-�(B, �$BA*BrHO0O$N$_$,I>2A$5$l$k�(B.
�$BA*BrHO0O$,$J$$>l9g$O%-%c%l%C%H0LCV$N9T$,<+F0A*Br$5$l$F<B9T$5$l$k�(B.
\command{{\tt Enter}} �$B$HAH$_9g$o$;$F$3$N5!G=$r;H$&$H�(B, �$B%?!<%_%J%k$+$i�(B
asir �$B$rMxMQ$9$k$N$K$A$g$C$H;w$F$/$k�(B.
�$B?^�(B\ref{fig:sl2}�$B$O$3$N$h$&$J<B9T$r$7$F$$$kNc$G$"$k�(B.
%<C
\begin{figure}[tbh]
\scalebox{0.5}{\includegraphics{Figs/sl2.eps}}
\caption{�$B%?!<%_%J%kIw�(B} \label{fig:sl2}
\end{figure}
%>C
\noindent
%%Doc: cfep/tests/2007-03-07-debug.rtfd
\fbox{�$B<ALd�(B}
cfep �$B$N%$%s%?%U%'!<%9$G%G%P%C%0$r$7$J$,$i%W%m%0%i%`$r3+H/$9$k$K$O$I$N$h$&$K$d$k$H�(B
�$B$h$$$+�(B? \\
\fbox{�$BEz$(�(B}
cfep �$B$O=i?4<T8~$-$N%$%s%?%U%'!<%9$J$N$G�(B,
�$BBg5,LO$J%W%m%0%i%`3+H/$rA[Dj$7$F$$$J$$$,�(B,
�$B;d$O<!$N$h$&$K%i%$%V%i%j$N3+H/$r$7$F$$$k�(B.
\begin{enumerate}
\item �$BI,MW$J4X?t$r=q$/�(B. �$B2<$NNc$G$O�(B {\tt sum1}.
\item �$B4X?t$r%F%9%H$9$kF~NO$r%3%a%s%H$N7A$G$=$N4X?t$N6a$/$K=q$$$F$*$/�(B.
�$B2<$NNc$G$O%3%a%s%H$K$"$k�(B {\tt sum1(10,1); } �$BEy�(B.
\end{enumerate}
\begin{screen}
\begin{verbatim}
/*
testinput: sum1(10,1);
testinput: sum1(10,2);
*/
def sum1(N,M) {
S = 0; i=1;
for (I=1; I<N; I++) {S = S+I^M; }
return S;
}
\end{verbatim}
\end{screen}
\begin{enumerate}
\item ``�$B;O$a�(B'' �$B%\%?%s$G4X?tDj5A$r%m!<%I�(B.
�$B$3$N;~E@$GJ8K!%(%i!<$J$I$,$"$l$P%a%C%;!<%8$K$7$?$,$C$F=$@5�(B.
\item �$B$=$N$"$H�(B ``�$BA*BrHO0O$N$_$r<B9T�(B'' �$B$N%b!<%I$KJQ99$7$F%3%a%s%HFb$N�(B testinput �$B$r<B9T�(B.
\item �$B<B9T;~$N%(%i!<$N9THV9f$X$N0\F0$O�(B "�$BA*BrHO0O$N$_$r<B9T�(B" �$B$N%b!<%I$r2r=|$7$F$+$i�(B
�$B9T$&�(B. \index{�$B$($i!<�(B@�$B%(%i!<�(B}
\end{enumerate}
%<C
\begin{figure}[tb]
\scalebox{0.5}{\includegraphics{Figs/howtoDebug1.eps}}
\caption{``�$BA*BrHO0O$N$_$r<B9T�(B''�$B$N3hMQ�(B} \label{fig:howtoDebug1}
\end{figure}
%>C
\section{�$B%(%s%8%s$r5/F0$7$J$$�(B}
%%cfep/tests/2006-03-08-noEngine
\noindent
\fbox{�$B<ALd�(B}
�$B%F%-%9%HJT=8$^$?$O%F%-%9%H$N1\Mw$@$1$G7W;;$r$9$k$D$b$j$O$"$j$^$;$s$,�(B. \\
\fbox{�$BEz$(�(B}
``�$B<B9T�(B'' �$B%a%K%e!<$G�(B ``�$B%(%s%8%s$r<+F05/F0$7$J$$�(B'' �$B$rA*Br�(B. \\
%<C
\scalebox{0.3}{\includegraphics{Figs/menuNoEngine.eps}} \\
%>C
�$B$"$H$G%(%s%8%s$r5/F0$7$?$$>l9g$O�(B ``�$B:F5/�(B'' �$B%\%?%s$r$*$7$F%(%s%8%s$r5/F0$9$k�(B. \\
%<C
\scalebox{0.3}{\includegraphics{Figs/popupRestart.eps}}
%>C
\section{OpenGL�$B%$%s%?%W%j%?�(B}
\index{OpenGL}
Cfep �$B$K$O�(B OpenGL �$B%$%s%?%W%j%?!<$,AH$_9~$s$G$"$k�(B.
OpenGL �$B$O�(B3�$B<!85%0%i%U%#%C%/%9$rMQ$$$k%=%U%H%&%(%":n@.$N$?$a$K�(B
�$BMQ$$$i$l$kLs�(B 150�$B<oN`$N%3%^%s%I$+$i9=@.$5$l$F$$$k%Q%C%1!<%8$G�(B
3�$B<!85%0%i%U%#%C%/%9$NI8=`5,3J$N$R$H$D$G$b$"$k�(B.
cfep 1.1�$B$G$O$=$NCf$N�(B 10 �$B<e$N%3%^%s%I$rMxMQ$G$-$k�(B.
�$B>\$7$/$O�(B
{\tt cfep.app/OpenXM/lib/asir-contrib/cfep-opengl.rr} �$B$r;2>H�(B.
\index{OpenGL�$B$0$i$U$#$C$/$*$V$8$'$/$H�(B@OpenGL�$B%0%i%U%#%C%/%*%V%8%'%/%H�(B}
OpenGL �$B$G$O$^$:�(B OpenGL�$B%0%i%U%#%C%/%*%V%8%'%/%H$rG[CV$7�(B,
�$B$=$l$+$i;kE@$N0LCV$+$i8+$?2hA|$rIA2h$9$kJ}K!$rMQ$$$k�(B.
�$B$7$?$,$C$F�(B, �$B%7%9%F%`$O>o$K�(B OpenGL�$B%0%i%U%#%C%/%*%V%8%'%/%H$N=89g$rJ];}�(B
�$B$7$F$$$k�(B.
{\tt glib\_remove\_last()} �$BL?Na$O$=$N:G8e$NMWAG$r:o=|$9$kL?Na$G$"$k�(B.
{\tt cfep-opengl.rr} �$B%i%$%V%i%j$G$O�(B,
{\tt opengl.metaRemoveLast()} �$B4X?t$G:G8e$NMWAG$r:o=|$G$-$k�(B.
\index{opengl}
%<C
\begin{figure}[tb]
\scalebox{0.6}{\includegraphics{Figs/twoPolygon.eps}}
\caption{} \label{fig:twoPolygon}
\end{figure}
%>C
\begin{screen}
\begin{verbatim}
import("cfep-opengl.rr");
opengl.metaRemoveAll();
opengl.init();
opengl.glib3DefaultScene(0);
opengl.redraw();
opengl.glColor4f(0.0,0.0,1.0,0.3);
opengl.glBegin(GL_POLYGON); Y=0.1;
opengl.glVertex3f(-1.0, Y, 0.5);
opengl.glVertex3f(-1.0, Y, -0.5);
opengl.glVertex3f(1.0, Y, -0.5);
opengl.glVertex3f(1.0, Y, 0.5);
opengl.glEnd();
opengl.glColor4f(1.0,0.0,0.0,0.5);
opengl.glBegin(GL_POLYGON);
opengl.glVertex3f(0.0, 0.5, 0.0);
opengl.glVertex3f(0.0, 0.5, -0.4);
opengl.glVertex3f(0.5, -0.2, -0.4);
opengl.glVertex3f(0.5, -0.2, 0.0);
opengl.glEnd();
opengl.glFlush() ;
opengl.metaShowListOfOpenGLCommands();
\end{verbatim}
\end{screen}
�$B$3$N%W%m%0%i%`$G$O�(B 2 �$BKg$ND9J}7A$rIA$$$F$$$k�(B.
�$B$3$N%W%m%0%i%`$N=PNO$O?^�(B\ref{fig:twoPolygon}.
-----�$B>\$7$$@bL@$O$^$@�(B.
OpenGL �$B$N2hLL$K$OIaDL$N?t3X$N$h$&$K�(B $(x,y)$ �$B:BI8$,$O$$$C$F$*$j�(B,
�$B2hLL$+$i<jA0B&$,�(B $z$ �$B:BI8$,@5$NJ}8~�(B, �$B2hLL$N8~$3$&B&$,�(B
$z$ �$B:BI8$,Ii$NJ}8~$G$"$k�(B.
``�$BL\�(B'' �$B$+$i86E@J}8~$r8+$?2hA|$,�(B
�$B?^�(B\ref{fig:twoPolygon}�$B$K$"$k$h$&$K�(B 3 �$B$D$N%9%i%$%@!<$rMQ$$$FL\$N0LCV$rF0$+$;$k$N$G�(B,
OpenGL�$B%*%V%8%'%/%H$r$$$m$$$m$J3QEY$+$i$_$k$3$H$,2DG=$G$"$k�(B.
�$B2<$N%9%i%$%@!<$,L\$N�(B $x$ �$B:BI8�(B, �$B1&$NFs$D$N%9%i%$%@!<$,$=$l$>$lL\$N�(B $y$, $z$ �$B:BI8$G$"$k�(B.
�$BL\$NF0$-$K47$l$k$K$O�(B, �$B<!$NFs$D$N%G%b2hLL$r$?$a$9$HLLGr$$$@$m$&�(B.
\begin{screen}
\begin{verbatim}
import("cfep-opengl.rr");
opengl.glib3DefaultScene("mesa demo/ray");
\end{verbatim}
\end{screen}
\begin{screen}
\begin{verbatim}
import("cfep-opengl.rr");
opengl.glib3DefaultScene("cfep demo/icosahedron");
\end{verbatim}
\end{screen}
\section{asir �$B0J30$N7W;;%(%s%8%s$NMxMQ�(B}
cfep�$B$+$i�(B asir �$B0J30$N�(B OpenXM �$B=`5r$N7W;;%(%s%8%s$bMxMQ$G$-$^$9�(B.
�$B$?$H$($P�(B, �$B<B9T�(B, �$B7W;;%(%s%8%s$NA*Br$G�(B, kan/sm1 �$B$rMxMQ$9$k$3$H$b2DG=$G$9�(B.
cfep, {\tt ox\_texmacs}, {\tt ox\_sm1} �$B$,Aj8_$KDL?.$7$J$,$i7W;;$7$F$$$^$9�(B.
�$B$J$*�(B kan/sm1 �$B$N�(B {\tt run} �$B%3%^%s%I$O;H$($^$;$s�(B.
\begin{verbatim}
[(parse) (�$B%U%!%$%kL>�(B) pushfile] extension
\end{verbatim}
�$B$GBeMQ$7$F2<$5$$�(B.
\cleardoublepage
\flushbottom
\printindex
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