Annotation of OpenXM/src/asir-doc/parts/builtin/misc.texi, Revision 1.14
1.14 ! ohara 1: @comment $OpenXM: OpenXM/src/asir-doc/parts/builtin/misc.texi,v 1.13 2003/08/22 00:44:57 noro Exp $
1.3 noro 2: \BJP
1.1 noro 3: @node �$B$=$NB>�(B,,, �$BAH$_9~$_H!?t�(B
4: @section �$B$=$NB>�(B
1.3 noro 5: \E
6: \BEG
7: @node Miscellaneouses,,, Built-in Function
8: @section Miscellaneouses
9: \E
1.1 noro 10:
11: @menu
12: * ctrl::
13: * debug::
14: * error::
15: * help::
16: * time::
17: * cputime tstart tstop::
1.8 noro 18: * timer::
1.1 noro 19: * heap::
20: * version::
21: * shell::
22: * map::
23: * flist::
24: * delete_history::
25: * get_rootdir::
1.2 noro 26: * getopt::
1.3 noro 27: * getenv::
1.1 noro 28: @end menu
29:
1.3 noro 30: \JP @node ctrl,,, �$B$=$NB>�(B
31: \EG @node ctrl,,, Miscellaneouses
1.1 noro 32: @subsection @code{ctrl}
33: @findex ctrl
34:
35: @table @t
36: @item ctrl("@var{switch}"[,@var{obj}])
1.3 noro 37: \JP :: �$B4D6-@_Dj�(B
38: \EG :: Sets the value of @var{switch}.
1.1 noro 39: @end table
40:
41: @table @var
42: @item return
1.3 noro 43: \JP �$B@_Dj$5$l$F$$$kCM�(B
44: \EG value of @var{switch}
1.1 noro 45: @item switch
1.3 noro 46: \JP �$B%9%$%C%AL>�(B
47: \EG switch name
1.1 noro 48: @item obj
1.3 noro 49: \JP �$B%Q%i%a%?�(B
50: \EG parameter
1.1 noro 51: @end table
52:
53: @itemize @bullet
1.3 noro 54: \BJP
1.1 noro 55: @item
56: @b{Asir} �$B$N<B9T4D6-$N@_DjJQ99�(B, �$B;2>H$r9T$&�(B.
57: @item @var{switch} �$B$N$_$N>l9g�(B, �$B$=$N%9%$%C%A$N8=:_$N>uBV$rJV$9�(B.
58: @item @var{obj} �$B$,M?$($i$l$F$$$k$H$-�(B, �$B$=$NCM$r@_Dj$9$k�(B.
59: @item
60: �$B%9%$%C%A$OJ8;zNs$H$7$FF~NO$9$k�(B. �$B$9$J$o$A%@%V%k%/%)!<%H$G0O$`�(B.
61: @item
1.3 noro 62: �$B%9%$%C%A$O<!$NDL$j�(B. �$B0J2<$G�(B, on �$B$O�(B 1, off �$B$O�(B 0 �$B$r0UL#$9$k�(B.
1.1 noro 63: @table @code
64: @item cputime
65: on �$B$N;~�(B CPU time �$B$*$h$S�(B GC time �$B$rI=<(�(B, off �$B$N;~�(B �$BI=<($7$J$$�(B. @code{cputime()}
66: �$B$r;2>H�(B.
67: @code{ctrl("cputime",@var{onoff})} �$B$O�(B @code{cputime(@var{onoff})} �$B$HF1$8$G$"$k�(B.
68: @item nez
69: EZGCD �$B$N%"%k%4%j%:%`$N@ZBX$(�(B. �$B%G%U%)%k%H$G�(B 1 �$B$G$"$j�(B, �$B$H$/$K@ZBX$($kI,MW�(B
70: �$B$O$J$$�(B.
71: @item echo
72: on �$B$N;~$OI8=`F~NO$r7+$jJV$7$F=PNO$7�(B, off �$B$N;~$OI8=`F~NO$r7+$jJV$5$J$$�(B.
73: @code{output} �$B%3%^%s%I$rMQ$$$k:]$KM-8z$G$"$k�(B.
74: @item bigfloat
75: on �$B$N;~�(B, �$BF~NO$5$l$?IbF0>.?t$O�(B @b{bigfloat} �$B$KJQ49$5$l�(B, �$BIbF0>.?t1i;;$O�(B
1.10 noro 76: @b{PARI} (@ref{pari}) �$B$K$h$j9T$o$l$k�(B. �$B%G%U%)%k%H$NM-8z7e?t$O�(B 9 �$B7e$G$"$k�(B.
1.1 noro 77: �$BM-8z7e?t$rA}$d$7$?$$;~$K$O�(B @code{setprec()} �$B$rMQ$$$k�(B.
78: off �$B$N;~�(B, �$BF~NO$5$l$?IbF0>.?t$O�(B, �$BG\@:EYIbF0>.?t$KJQ49$5$l$k�(B.
79: @cindex PARI
80: @item adj
81: �$B%,!<%Y%C%8%3%l%/%7%g%s$NIQEY$NJQ99�(B. 1 �$B0J>e$NM-M}?t$,;XDj$G$-$k�(B.
82: �$B%G%U%)%k%HCM$O�(B 3. 1 �$B$K6a$$Dx�(B, �$B%,!<%Y%C%8%3%l%/%7%g%s$;$:$K%R!<%W$r�(B
83: �$BBg$-$/$H$k$h$&$K$J$k�(B. �$B@0?tCM$O%3%^%s%I%i%$%s$G;XDj$G$-$k�(B.
84: @xref{�$B%3%^%s%I%i%$%s%*%W%7%g%s�(B}.
85: @item verbose
86: on �$B$N;~�(B, �$BH!?t$N:FDj5A;~$K%a%C%;!<%8$rI=<($9$k�(B.
1.14 ! ohara 87: @item quiet_mode
! 88: 1 �$B$N$H$-�(B, �$B5/F0;~$KCx:n8"I=<($r9T$o$J$$�(B.
1.1 noro 89: @item hex
90: 1 �$B$N$H$-�(B, �$B@0?t$O�(B 0x �$B$G;O$^$k�(B 16 �$B?J?t$H$7$FI=<($5$l$k�(B. -1 �$B$N$H$-�(B, 16 �$B?J?t$O�(B,
91: �$B4V$K�(B @samp{|} �$B$r$O$5$s$G�(B 8 �$B7e$4$H$K6h@Z$C$FI=<($5$l$k�(B.
1.13 noro 92: @item real_digit
93: �$BG\@:EYIbF0>.?t$NI=<($N7e?t$r;XDj$9$k�(B.
94: @item double_output
95: 1 �$B$N$H$-�(B, �$BG\@:EYIbF0>.?t$O$D$M$K�(B ddd.ddd �$B$N7A$GI=<($5$l$k�(B.
1.6 noro 96: @item fortran_output
97: 1 �$B$N$H$-�(B, �$BB?9`<0$NI=<($,�(B FORTRAN �$B%9%?%$%k$K$J$k�(B. �$B$9$J$o$AQQ$,�(B
98: @samp{^} �$B$NBe$o$j$K�(B @samp{**} �$B$GI=$5$l$k�(B.
99: (�$B%G%U%)%k%HCM$O�(B 0.)
1.1 noro 100: @item ox_batch
101: 1 �$B$N$H$-�(B, �$BAw?.%P%C%U%!$,$$$C$Q$$$K$J$C$?;~$N$_<+F0E*$K�(B flush.
102: 0 �$B$N$H$-�(B, �$B%G!<%?�(B, �$B%3%^%s%IAw?.Kh$K�(B flush. (�$B%G%U%)%k%HCM$O�(B 0.)
1.10 noro 103: @xref{�$BJ,;67W;;�(B}.
1.1 noro 104: @item ox_check
105: 1 �$B$N$H$-�(B, �$BAw?.%G!<%?$rAj<j%W%m%;%9$,<u$1<h$l$k$+$I$&$+%A%'%C%/$9$k�(B.
106: 0 �$B$N$H$-$7$J$$�(B. (�$B%G%U%)%k%HCM$O�(B 1.)
1.10 noro 107: @xref{�$BJ,;67W;;�(B}.
1.5 noro 108: @item ox_exchange_mathcap
109: 1 �$B$N$H$-�(B, OX server �$B$H$N@\B33+;O;~$K�(B, �$B<+F0E*$K�(B mathcap �$B$N8r49$r9T$&�(B.
110: (�$B%G%U%)%k%HCM$O�(B 1.)
1.10 noro 111: @xref{�$BJ,;67W;;�(B}.
1.1 noro 112: @end table
1.3 noro 113: \E
114: \BEG
115: @item
116: This function is used to set or to get the values of switches.
117: The switches are used to control an execution of @b{Asir}.
118: @item If @var{obj} is not specified, the value of @var{switch} is returned.
119: @item If @var{obj} is specified, the value of @var{switch} is set to
120: @var{obj}.
121: @item
122: Switches are specified by strings, namely, enclosed by two
123: double quotes.
124: @item
125: Here are of switches of @b{Asir}.
126: @table @code
127: @item cputime
128: If `on', CPU time and GC time is displayed at every top level evaluation
129: of @b{Asir} command; if `off', not displayed.
130: @xref{cputime tstart tstop}.
131: (The switch is also set by command @code{cputime(1)}, and
132: reset by @code{cputime(0)}.)
133: @item nez
134: Selection for EZGCD algorithm. It is set to 1 by default. Ordinary
135: users need not change this setting.
136: @item echo
137: If `on', inputs from the standard input will be echoed onto the
138: standard output. When executing to load a file, the contents of the
139: file will be written onto the standard output.
140: If `off', the inputs will not be echoed.
141: This command will be useful when used with command @code{output}.
142: @item bigfloat
143: If `on', floating operations will be done by @b{PARI} system with arbitrary
144: precision floating point operations.
145: Default precision is set to 9 digits. To change the precision, use
146: command @code{setprec}.
147: If `off', floating operations will be done by @b{Asir}'s own floating
148: operation routines with a fixed precision operations of
149: standard floating double.
150: @cindex PARI
151: @item adj
152: Sets the frequency of garbage collection. A rational number greater
153: than or equal to 1 can be specified. The default value is 3.
154: If a value closer to 1 is specified, larger heap is allocated
155: and as a result, the frequency of garbage collection decreases.
156: @xref{Command line options}.
157: @item verbose
158: If `on' a warning messages is displayed when a function is redefined.
1.14 ! ohara 159: @item quiet_mode
! 160: If 1 is set, the copyright notice has been displayed at boot time.
1.3 noro 161: @item hex
162: If 1 is set, integers are displayed as hexadecimal numbers with prefix
1.13 noro 163: @code{0x}. if -1 is set, hexadecimal numbers are displayed with
1.3 noro 164: @samp{|} inserted at every 8 hexadecimal digits.
1.13 noro 165: @item real_digit
166: Sets the number of digits used to print a floating double.
167: @item double_output
168: If set to 1, any floating double is printed in the style ddd.ddd.
1.6 noro 169: @item fortran_output
170: If `on' polynomials are displayed in FORTRAN style. That is, a power
171: is represented by @samp{**} instead of @samp{^}.
172: The default value is 'off.
1.3 noro 173: @item ox_batch
174: If 'on', the OpenXM send buffer is flushed only when the buffer is full.
175: If 'off', the buffer is always flushed at each sending of data or command.
176: The default value is 'off'.
1.10 noro 177: @xref{Distributed computation}.
1.3 noro 178: @item ox_check
179: If 'on' the check by mathcap is done before sending data.
1.5 noro 180: The default value is 'on'.
1.10 noro 181: @xref{Distributed computation}.
1.5 noro 182: @item ox_exchange_mathcap
183: If 'on' Asir forces the exchange of mathcaps at the communication startup.
1.3 noro 184: The default value is 'on'.
1.10 noro 185: @xref{Distributed computation}.
1.3 noro 186: @end table
187: \E
1.1 noro 188: @end itemize
189:
190: @table @t
1.3 noro 191: \JP @item �$B;2>H�(B
192: \EG @item References
1.1 noro 193: @fref{cputime tstart tstop}, @fref{output},
1.7 noro 194: @fref{pari}, @fref{setprec}, @fref{eval deval}.
1.1 noro 195: @end table
196:
1.3 noro 197: \JP @node debug,,, �$B$=$NB>�(B
198: \EG @node debug,,, Miscellaneouses
1.1 noro 199: @subsection @code{debug}
200: @findex debug
201:
202: @table @t
203: @item debug
1.3 noro 204: \JP :: �$B%G%P%C%0%b!<%I$KF~$k�(B.
205: \EG :: Forces to enter into debugging mode.
1.1 noro 206: @end table
207:
208: @itemize @bullet
1.3 noro 209: \BJP
1.1 noro 210: @item
211: @code{debug} �$B$OL50z?t$NH!?t$G$"$k$,�(B, @samp{()} �$B$J$7$G8F$S=P$;$k�(B.
212: @item
213: �$B%G%P%C%0%b!<%I$KF~$k$H%W%m%s%W%H$,�(B @code{(debug)} �$B$H$J$j�(B, �$B%3%^%s%I�(B
214: �$B<u$1IU$1>uBV$H$J$k�(B. @code{quit} �$B$rF~NO$9$k$H%G%P%C%,$+$iH4$1$k�(B.
215: @item
216: �$B%G%P%C%0%b!<%I$K$D$$$F$N>\:Y$O�(B @xref{�$B%G%P%C%,�(B}.
1.3 noro 217: \E
218: \BEG
219: Function @code{debug} is a function with no argument.
220: It can be called without @samp{()}.
221: @item
222: In the debug-mode, you are prompted by @code{(debug)} and
223: the debugger is ready for commands.
224: Typing in @code{quit} (Note! without a semicolon.) brings you
225: to exit the debug-mode.
226: @item
1.10 noro 227: See @ref{Debugger} for details.
1.3 noro 228: \E
1.1 noro 229: @end itemize
230:
231: @example
232: [1] debug;
233: (debug) quit
234: 0
235: [2]
236: @end example
237:
1.3 noro 238: \JP @node error,,, �$B$=$NB>�(B
239: \EG @node error,,, Miscellaneouses
1.1 noro 240: @subsection @code{error}
241: @findex error
242:
243: @table @t
244: @item error(@var{message})
1.3 noro 245: \JP :: �$B%W%m%0%i%`Cf$G6/@)E*$K%(%i!<$rH/@8$5$;$k�(B.
246: \EG :: Forces @b{Asir} to cause an error and enter debugging mode.
1.1 noro 247: @end table
248:
249: @table @var
250: @item message
1.3 noro 251: \JP �$BJ8;zNs�(B
252: \EG string
1.1 noro 253: @end table
254:
255: @itemize @bullet
1.3 noro 256: \BJP
1.1 noro 257: @item
258: �$B0lHL$K�(B, �$B0z?t$N4V0c$$$J$I�(B, �$BB39TIT2DG=$J%(%i!<$,AH$_9~$_H!?t$K$*$$$F�(B
259: �$BH/@8$7$?;~�(B, �$B%H%C%W%l%Y%k$KLa$kA0$K�(B, �$B2DG=$J$i$P$=$N%(%i!<$N;~E@$G�(B
260: �$B%G%P%C%0%b!<%I$KF~$k�(B. @code{error()} �$B$O�(B, �$B%f!<%6H!?t$NFbIt$G$3$N�(B
261: �$BF0:n$HF1MM$NF0:n$r9T$o$;$k$?$a$NH!?t$G$"$k�(B.
262: @item
263: �$B0z?t$O�(B, @code{error()} �$B$,8F$S=P$5$l$k:]$KI=<($5$l$k%a%C%;!<%8$G�(B,
264: �$BJ8;zNs$G$"$k�(B.
265: @item
266: �$B%f!<%6H!?t$K$*$$$F�(B, �$BJQ?t$r%A%'%C%/$7$F�(B, �$B$"$jF@$J$$CM$N>l9g$K�(B @code{error()}
267: �$B$r8F$S=P$9$h$&$K$7$F$*$1$P�(B, �$B$=$N;~E@$G<+F0E*$K%G%P%C%0%b!<%I$KF~$l$k�(B.
1.3 noro 268: \E
269: \BEG
270: @item
271: When @b{Asir} encounters a serious error such that it finds difficult
272: to continue execution,
273: it, in general, tries to enter debugging mode before it returns to
274: top level.
275: The command @code{error()} forces a similar behavior in a user program.
276: @item
277: The argument is a string which will be displayed when @code{error()}
278: will be executed.
279: @item
280: You can enter the debug-mode when your program encounters an illegal
281: value for a program variable, if you have written the program
282: so as to call @code{error()} upon finding such an error in your program
283: text.
284: \E
1.1 noro 285: @end itemize
286:
287: @example
288: % cat mod3
289: def mod3(A) @{
290: if ( type(A) >= 2 )
291: error("invalid argument");
292: else
293: return A % 3;
294: @}
295: end$
296: % asir
297: [0] load("mod3");
298: 1
299: [3] mod3(5);
300: 2
301: [4] mod3(x);
302: invalid argument
303: stopped in mod3 at line 3 in file "./mod3"
304: 3 error("invalid argument");
305: (debug) print A
306: A = x
307: (debug) quit
308: return to toplevel
309: [4]
310: @end example
311:
312: @table @t
1.3 noro 313: \JP @item �$B;2>H�(B
314: \EG @item References
1.1 noro 315: @fref{debug}.
316: @end table
317:
1.3 noro 318: \JP @node help,,, �$B$=$NB>�(B
319: \EG @node help,,, Miscellaneouses
1.1 noro 320: @subsection @code{help}
321: @findex help
322:
323: @table @t
324: @item help(["@var{function}"])
1.3 noro 325: \JP :: �$BH!?t$N@bL@$rI=<($9$k�(B.
326: \EG :: Displays the description of function @var{function}.
1.1 noro 327: @end table
328:
329: @table @var
330: @item return
331: 0
332: @item function
1.3 noro 333: \JP �$BH!?tL>�(B
334: \EG function name
1.1 noro 335: @end table
336:
337: @itemize @bullet
1.3 noro 338: \BJP
1.1 noro 339: @item
340: �$BL50z?t$N;~�(B, �$B:G>.8B$N@bL@$,I=<($5$l$k�(B. �$BH!?tL>$,0z?t$H$7$FM?$($i$l$?�(B
341: �$B$H$-�(B, �$BI8=`%i%$%V%i%j%G%#%l%/%H%j$K$"$k�(B @samp{help} �$B$H$$$&%G%#%l%/%H%j�(B
342: �$B$KF1L>$N%U%!%$%k$,$"$l$P�(B, �$B4D6-JQ?t�(B @code{PAGER} �$B$K@_Dj$5$l$F$$$k%3%^%s%I�(B,
343: �$B$"$k$$$O�(B @samp{more} �$B$r8F$S=P$7$F$=$N%U%!%$%k$rI=<($9$k�(B.
344: @item
1.4 noro 345: �$B4D6-JQ?t�(B @code{LANG} �$B$,@_Dj$5$l$F$$$k>l9g�(B, �$B$=$NCM$,�(B @code{"japan"} �$B$^$?$O�(B
346: @code{"ja_JP"} �$B$G;O$^$k$J$i�(B, @samp{help} �$B$NBe$o$j$K�(B @samp{help-jp}
347: �$B$K$"$k%U%!%$%k$,I=<($5$l$k�(B. �$B$=$&$G$J$$>l9g�(B, @samp{help-eg}
348: �$B$K$"$k%U%!%$%k$,I=<($5$l$k�(B.
349: @item
1.1 noro 350: Windows �$BHG$G$O�(B, �$B%3%^%s%I%i%$%s$+$i$N%X%k%W8F$S=P$7$OL$%5%]!<%H$@$,�(B,
351: �$B%a%K%e!<$+$i�(B HTML �$B7A<0$N$b$N$r8F$S=P$7MQ$$$k$3$H$,$G$-$k�(B.
1.3 noro 352: \E
353: \BEG
354: @item
355: If invoked without argument, it displays rough usage of @b{Asir}.
356: @item
357: If a function name is given and if there exists a file with the
358: same name in the directory @samp{help} under standard library directory,
359: the file is displayed by a command set to the environmental variable
360: @code{PAGER} or else command @samp{more}.
1.4 noro 361: @item
362: If the @code{LANG} environment variable is set and its value
363: begins with @code{"japan"} or @code{"ja_JP"}, then the file in
364: @samp{help-jp} is displayed. If its value does not begin with
365: @code{"japan"} or @code{"ja_JP"}, then the file in @samp{help-eg}
366: is displayed.
1.3 noro 367: @item
368: On Windows HTML-style help is available from the menu.
369: \E
1.1 noro 370: @end itemize
371:
1.3 noro 372: \JP @node time,,, �$B$=$NB>�(B
373: \EG @node time,,, Miscellaneouses
1.1 noro 374: @subsection @code{time}
375: @findex time
376:
377: @table @t
378: @item time()
1.3 noro 379: \JP :: �$B%;%C%7%g%s3+;O$+$i8=:_$^$G$N�(B CPU �$B;~4V$*$h$S�(B GC �$B;~4V$rI=<($9$k�(B
380: \BEG
381: :: Returns a four element list consisting of
382: total CPU time, GC time, the elapsed time
383: and also total memory quantities requested
384: from the start of current @b{Asir} session.
385: \E
1.1 noro 386: @end table
387:
388: @table @var
389: @item return
1.3 noro 390: \JP �$B%j%9%H�(B
391: \EG list
1.1 noro 392: @end table
393:
394: @itemize @bullet
1.3 noro 395: \BJP
1.1 noro 396: @item
397: CPU �$B;~4V$*$h$S�(B GC �$B;~4V$NI=<($K4X$9$k%3%^%s%I$G$"$k�(B.
398: @item
399: GC �$B;~4V$H$O�(B, �$B%,!<%Y%8%3%l%/%?$K$h$j>CHq$5$l$?$H8+$J$5$l$k;~4V�(B,
400: CPU �$B;~4V$O�(B, �$BA4BN$N�(B CPU �$B;~4V$+$i�(B GC �$B;~4V$r0z$$$?;D$j$G�(B, �$BC10L$OIC$G$"$k�(B.
401: @item
402: @code{time()} �$B$O0z?t$J$7$G�(B, �$B%;%C%7%g%s3+;O$+$i8=:_$^$G$N�(B CPU �$B;~4V�(B,
403: GC �$B;~4V�(B, �$B8=:_$^$G$KMW5a$5$l$?%a%b%j$N$N$YMFNL�(B, �$B$*$h$S%;%C%7%g%s3+;O$+$i�(B
404: �$B8=:_$^$G$N7P2a;~4V$NI=<($r$9$k�(B.
405: �$B$9$J$o$A�(B, @code{[CPU �$B;~4V�(B (�$BIC�(B), GC �$B;~4V�(B (�$BIC�(B), �$B%a%b%jNL�(B (�$B%o!<%I�(B), �$B7P2a;~4V�(B (�$BIC�(B)]}
406: �$B$J$k%j%9%H$rJV$9�(B. 1 �$B%o!<%I$ODL>o�(B 4 �$B%P%$%H$G$"$k�(B.
407: @item
408: �$B7W;;$N<B9T3+;O;~�(B, �$B=*N;;~$N�(B @code{time()} �$B$+$i�(B, �$B$=$N7W;;$KBP$9$k�(B
409: CPU �$B;~4V�(B, GC �$B;~4V$,$o$+$k�(B.
410: @item
411: �$B%a%b%jNL$OB?G\D9?t$G$O$J$$$?$a�(B, �$B$"$kCM$r1[$($k$HL50UL#$JCM$H$J$k$?$a�(B
412: �$B$"$/$^$G$bL\0B$H$7$FMQ$$$k$Y$-$G$"$k�(B.
413: @item
414: @code{ctrl()} �$B$d�(B @code{cputime()} �$B$K$h$j�(B @code{cputime} �$B%9%$%C%A$,�(B
415: on �$B$K$J$C$F$$$k>l9g$K$O�(B, �$B%H%C%W%l%Y%k$NJ8$r0l$D$NC10L$H$7$F�(B,
416: �$B$=$N<B9T;~4V$,I=<($5$l$k�(B. �$B$7$+$7�(B, �$B%W%m%0%i%`$NFbIt$J$I$G�(B, �$BFCDj$N�(B
417: �$B7W;;$KBP$9$k7W;;;~4V$rCN$j$?$$;~$K$O�(B, @code{time()} �$B$J$I$r;H$&�(B
418: �$BI,MW$,$"$k�(B.
419: @item
420: @code{getrusage()} �$B$,;H$($k�(B UNIX �$B>e$G$O�(B @code{time()} �$B$O?.Mj@-$N$"$kCM�(B
421: �$B$rJV$9$,�(B, Windows 95, 98 �$B>e$G$O;~9o$rMQ$$$k$[$+J}K!$,$J$$$?$a7P2a;~4V$=$N$b$N�(B
422: �$B$,I=<($5$l$k�(B. �$B$h$C$F�(B, �$BBT$A>uBV$,$"$k$H�(B, �$B$=$l$b7P2a;~4V$K2C;;$5$l$k�(B.
1.3 noro 423: \E
424: \BEG
425: @item
426: These are commands regarding CPU time and GC time.
427: @item
428: The GC time is the time regarded to spent by the garbage collector,
429: and the CPU time is the time defined by subtracting the GC time from
430: the total time consumed by command @b{Asir}. Their unit is `second.'
431: @item
432: Command @code{time()} returns total CPU time and GC time measured
433: from the start of current @b{Asir} session. It also returns the elapsed
434: time. Time unit is `second.'
435: Moreover, it returns total memory quantities in words
436: (usually 4 bytes) which are requested
437: to the memory manager from the beginning of the current session.
438: The return value is a list and the format is @code{[CPU time, GC time,
439: Memory, Elapsed time]}.
440: @item
441: You can find the CPU time and GC time for some computation by taking
442: the difference of the figure reported by @code{time()} at the beginning
443: and the ending of the computation.
444: @item
445: Since arbitrary precision integers are NOT used for counting
446: the total amount of memory request, the number will eventually happen
447: to become meaningless due to integer overflow.
448: @item
449: When @code{cputime} switch is active by @code{ctrl()} or by
450: @code{cputime()}, the execution time will be displayed after every
451: evaluation of top level statement.
452: In a program, however, in order to know the execution time for a
453: sequence of computations, you have to use @code{time()} command, for
454: an example.
455: @item
456: On UNIX, if @code{getrusage()} is available, @code{time()} reports
457: reliable figures. On Windows NT it also gives reliable CPU time.
458: However, on Windows 95/98, the reported time is nothing but
459: the elapsed time of the real world.
460: Therefore, the time elapsed in the debug-mode and the time of waiting
461: for a reply to interruption prompting are added to the elapsed time.
462: \E
1.1 noro 463: @end itemize
464:
465: @example
466: [72] T0=time();
467: [2.390885,0.484358,46560,9.157768]
468: [73] G=hgr(katsura(4),[u4,u3,u2,u1,u0],2)$
469: [74] T1=time();
470: [8.968048,7.705907,1514833,63.359717]
471: [75] ["CPU",T1[0]-T0[0],"GC",T1[1]-T0[1]];
472: [CPU,6.577163,GC,7.221549]
473: @end example
474:
475: @table @t
1.3 noro 476: \JP @item �$B;2>H�(B
477: \EG @item References
1.1 noro 478: @fref{cputime tstart tstop}.
479: @end table
480:
1.3 noro 481: \JP @node cputime tstart tstop,,, �$B$=$NB>�(B
482: \EG @node cputime tstart tstop,,, Miscellaneouses
1.1 noro 483: @subsection @code{cputime}, @code{tstart}, @code{tstop}
484: @findex cputime
485: @findex tstart
486: @findex tstop
487:
488: @table @t
489: @item cputime(@var{onoff})
1.3 noro 490: \JP :: �$B0z?t$,�(B 0 �$B$J$i$P�(B @code{cputime} �$B$NI=<($r;_$a$k�(B. �$B$=$l0J30$J$i$PI=<($r9T$&�(B.
491: \BEG
492: :: Stop displaying @code{cputime} if its argument is 0, otherwise
493: start displaying @code{cputime} after every top level evaluation of
494: Asir command.
495: \E
1.1 noro 496: @item tstart()
1.3 noro 497: \JP :: CPU time �$B7WB,3+;O�(B.
498: \EG :: Resets and starts timer for CPU time and GC time.
1.1 noro 499: @item tstop()
1.3 noro 500: \JP :: CPU time �$B7WB,=*N;$*$h$SI=<(�(B.
501: \BEG
502: :: Stops timer and then displays CPU time GC time elapsed from the
503: last time when timer was started.
504: \E
1.1 noro 505: @end table
506:
507: @table @var
508: @item return
509: 0
510: @item onoff
1.3 noro 511: \JP �$B%U%i%0�(B (�$BG$0U�(B)
512: \EG flag (arbitrary)
1.1 noro 513: @end table
514:
515: @itemize @bullet
1.3 noro 516: \BJP
1.1 noro 517: @item
518: @code{cputime()} �$B$O�(B, �$B0z?t$,�(B 0 �$B$J$i$P�(B CPU time �$B$NI=<($r;_$a$k�(B. �$B$=$l0J30$J$i$PI=<($r9T$&�(B.
519: @item
520: @code{tsart} �$B$O0z?t$J$7�(B, @samp{()} �$B$J$7$G�(B, CPU time �$B7WB,$r3+;O$9$k�(B.
521: @item
522: @code{tstop} �$B$O0z?t$J$7�(B, @samp{()} �$B$J$7$G�(B, CPU time �$B7WB,$r=*N;�(B,
523: �$B$*$h$SI=<($9$k�(B.
524: @item
525: @code{cputime(@var{onoff})} �$B$O�(B @code{ctrl("cputime",@var{onoff})} �$B$HF1$8$G$"$k�(B.
526: @item
527: @code{tstart}, @code{tstop} �$B$O�(B, �$BF~$l;R$K$7$F;H$o$l$k$3$H$OA[Dj$7$F$$$J$$�(B
528: �$B$?$a�(B, �$B$=$N$h$&$J2DG=@-$,$"$k>l9g$K$O�(B, @code{time()} �$B$K$h$k7WB,$r9T$&�(B
529: �$BI,MW$,$"$k�(B.
530: @item
531: @code{cputime()} �$B$K$h$k�(B on, off �$B$O�(B, �$BC1$KI=<($N�(B on, off �$B$G$"$j�(B, �$B%H%C%W%l%Y%k�(B
532: �$B$N0l$D$NJ8$KBP$9$k7WB,$O>o$K9T$o$l$F$$$k�(B. �$B$h$C$F�(B, �$B7W;;$r;O$a$F$+$i$G$b�(B,
533: �$B7W;;=*N;A0$K%G%P%C%,$KF~$C$F�(B @code{cputime(1)} �$B$r<B9T$5$;$l$P7W;;;~4V$O�(B
534: �$BI=<($5$l$k�(B.
1.3 noro 535: \E
536: \BEG
537: @item
538: Command @code{cputime()} with NON-ZERO argument enables @b{Asir} to display
539: CPU time and GC time after every evaluation of top level @b{Asir} command.
540: The command with argument 0 disables displaying them.
541: @item
542: Command @code{tstart()} starts measuring CPU time and GC time without
543: arguments. The parentheses @samp{()} may be omitted.
544: @item
545: Command @code{tstop()} stops measuring CPU time and GC time and displays
546: them without arguments. The parentheses @samp{()} may be omitted.
547: @item
548: Command @code{cputime(@var{onoff})} has same meaning as
549: @code{ctrl("cputime",@var{onoff})}.
550: @item
551: Nested use of @code{tstart()} and @code{tstop()} is not expected.
552: If such an effect is desired, use @code{time()}.
553: @item
554: On and off states by @code{cputime()} have effects only to displaying
555: mode. Time for evaluation of every top level statement is always
556: measured.
557: Therefore, even after a computation has already started,
558: you can let @b{Asir} display the timings, whenever you enter
559: the debug-mode and execute @code{cputime(1)}.
560: \E
1.1 noro 561: @end itemize
562:
563: @example
564: [49] tstart$
565: [50] fctr(x^10-y^10);
566: [[1,1],[x+y,1],[x^4-y*x^3+y^2*x^2-y^3*x+y^4,1],[x-y,1],
567: [x^4+y*x^3+y^2*x^2+y^3*x+y^4,1]]
568: [51] tstop$
569: 80msec + gc : 40msec
570: @end example
571:
572: @table @t
1.3 noro 573: \JP @item �$B;2>H�(B
574: \EG @item References
1.1 noro 575: @fref{time}, @fref{ctrl}.
576: @end table
1.8 noro 577:
578: \JP @node timer,,, �$B$=$NB>�(B
579: \EG @node timer,,, Miscellaneouses
580: @subsection @code{timer}
581: @findex timer
582:
583: @table @t
584: @item timer(@var{interval},@var{expr},@var{val})
585: \JP :: �$B@)8B;~4V$D$-$G7W;;$r<B9T$9$k�(B.
586: \BEG
587: :: Compute an expression under the interval timer.
588: \E
589: @end table
590:
591: @table @var
592: @item return
593: \JP �$B7k2L�(B
594: \EG result
595:
596: @item interval
597: \JP �$B@)8B;~4V�(B (�$BIC�(B)
598: \EG interval (second)
599:
600: @item expr
601: \JP �$B7W;;$9$k<0�(B
602: \EG expression to be computed
603:
604: @item val
605: \JP �$B%?%$%^$K$h$kCfCG;~$NLa$jCM�(B
606: \EG a value to be returned when the timer is expired
607: @end table
608:
609: @itemize @bullet
610:
611: \BJP
612: @item
613: @code{timer()} �$B$O�(B, �$B;~4V$r;XDj$7$F7W;;$r<B9T$9$k�(B. �$B;XDj;~4VFb$K7W;;$,40N;�(B
614: �$B$7$?>l9g$=$NCM$rJV$9�(B. �$B;XDj;~4VFb$K7W;;$,40N;$7$J$+$C$?>l9g�(B, �$BBh�(B 3 �$B0z?t�(B
615: �$B$rJV$9�(B.
616:
617: @item
618: �$BBh�(B 3 �$B0z?t$NCM$O�(B, �$B7W;;$,40N;$7$?>l9g$NCM$H6hJL$G$-$kI,MW$,$"$k�(B.
619: \E
620:
621: \BEG
622: @item
623: @code{timer()} computes an expression under the interval timer.
624: If the computation finishes within the specified interval, it
625: returns the result of the computation. Otherwise it returns the third
626: argument.
627:
628: @item
629: The third argument should be distinguishable from the result on success.
630: \E
631:
632: @end itemize
633:
634: @example
635: [0] load("cyclic");
636: 1
637: [10] timer(10,dp_gr_main(cyclic(7),[c0,c1,c2,c3,c4,c5,c6],1,1,0),0);
638: interval timer expired (VTALRM)
639: 0
640: [11]
641: @end example
1.1 noro 642:
1.3 noro 643: \JP @node heap,,, �$B$=$NB>�(B
644: \EG @node heap,,, Miscellaneouses
1.1 noro 645: @subsection @code{heap}
646: @findex heap
647:
648: @table @t
649: @item heap()
1.3 noro 650: \JP :: �$B8=:_$N%R!<%W$NBg$-$5$rJV$9�(B. (�$BC10L�(B:�$B%P%$%H�(B)
651: \EG :: Heap area size currently in use.
1.1 noro 652: @end table
653:
654: @table @var
655: @item return
1.3 noro 656: \JP �$B<+A3?t�(B
657: \EG non-negative integer
1.1 noro 658: @end table
659:
660: @itemize @bullet
1.3 noro 661: \BJP
1.1 noro 662: @item
663: �$B8=:_$N%R!<%W$NBg$-$5�(B(�$BC10L�(B : �$B%P%$%H�(B) �$B$rJV$9�(B. �$B%R!<%W$H$O�(B, @b{Asir} �$B$N�(B
664: �$B$5$^$6$^$J?t<0$d�(B, �$B%f!<%6%W%m%0%i%`$J$I$,$*$+$l$k%a%b%j$NNN0h$G�(B, �$B%,!<%Y%8�(B
665: �$B%3%l%/%?$K$h$j4IM}$5$l$F$$$k�(B. �$B%W%m%0%i%`$NF0:nCf$O�(B, �$B%R!<%W$NBg$-$5$O�(B
666: �$BC1D4Hs8:>/$G$"$j�(B, �$B<B%a%b%j$NNL$r$3$($FBg$-$/$J$C$?>l9g$K$O�(B, OS �$B$K$h$k�(B
667: �$B%9%o%C%W%(%j%"$X$NFI$_=q$-$,$[$H$s$I$N7W;;;~4V$r@j$a$k$3$H$K$J$k�(B.
668: @item
669: �$B<B%a%b%j$,>/$J$$>l9g$K$O�(B, �$B5/F0;~$N�(B @code{-adj} �$B%*%W%7%g%s$K$h$j�(B,
670: GC �$B<gBN$N@_Dj$r9T$C$F$*$/I,MW$,$"$k�(B.
1.3 noro 671: \E
672: \BEG
673: @item
674: Command @code{heap()} returns an integer which is the byte size
675: of current @b{Asir} heap area.
676:
677: Heap is a memory area where various data for expressions and
678: user programs of @b{Asir} and is managed by the garbage collector.
679: While @b{Asir} is running, size of the heap is monotonously
680: non-decreasing against the time elapsed. If it happens to exceed the
681: real memory size, most (real world) time is consumed for swapping between
682: real memory and disk memory.
683: @item
684: For a platform with little real memory, it is recommended to set up
685: @b{Asir} configuration tuned for GC functions by @code{-adj} option
686: at the activation of @b{Asir}. (@xref{Command line options}.)
687: \E
1.1 noro 688: @end itemize
689:
690: @example
691: % asir -adj 16
692: [0] load("fctrdata")$
693: 0
694: [97] cputime(1)$
695: 0msec
696: [98] heap();
697: 524288
698: 0msec
699: [99] fctr(Wang[8])$
700: 3.190sec + gc : 3.420sec
701: [100] heap();
702: 1118208
703: 0msec
704: [101] quit;
705: % asir
706: [0] load("fctrdata")$
707: 0
708: [97] cputime(1)$
709: 0msec
710: [98] heap();
711: 827392
712: 0msec
713: [99] fctr(Wang[8])$
714: 3.000sec + gc : 1.180sec
715: [100] heap();
716: 1626112
717: 0msec
718: [101] quit;
719: @end example
720:
721: @table @t
1.3 noro 722: \JP @item �$B;2>H�(B
723: \EG @item References
724: \JP @fref{�$B%3%^%s%I%i%$%s%*%W%7%g%s�(B}.
725: \EG @fref{Command line options}.
1.1 noro 726: @end table
727:
1.3 noro 728: \JP @node version,,, �$B$=$NB>�(B
729: \EG @node version,,, Miscellaneouses
1.1 noro 730: @subsection @code{version}
731: @findex version
732:
733: @table @t
734: @item version()
1.3 noro 735: \JP :: @b{Asir} �$B$N%P!<%8%g%s$rJV$9�(B.
736: \EG :: Version identification number of @b{Asir}.
1.1 noro 737: @end table
738:
739: @table @var
740: @item return
1.3 noro 741: \JP �$B<+A3?t�(B
742: \EG integer
1.1 noro 743: @end table
744:
745: @itemize @bullet
1.3 noro 746: \BJP
1.1 noro 747: @item
1.3 noro 748: @b{Asir} �$B$N%P!<%8%g%s$r<+A3?t$GJV$9�(B.
749: \E
750: \BEG
751: Command @code{version()} returns the version identification number
752: , an integer of @b{Asir} in use.
753: \E
1.1 noro 754: @end itemize
755:
756: @example
757: [0] version();
1.3 noro 758: 991214
1.1 noro 759: @end example
760:
1.3 noro 761: \JP @node shell,,, �$B$=$NB>�(B
762: \EG @node shell,,, Miscellaneouses
1.1 noro 763: @subsection @code{shell}
764: @findex shell
765:
766: @table @t
767: @item shell(@var{command})
1.3 noro 768: \JP :: @var{command} �$B$r%7%'%k%3%^%s%I$H$7$F<B9T$9$k�(B.
769: \EG :: Execute shell commands described by a string @var{command}.
1.1 noro 770: @end table
771:
772: @table @var
773: @item return
1.3 noro 774: \JP �$B<+A3?t�(B
775: \EG integer
1.1 noro 776: @item command
1.3 noro 777: \JP �$BJ8;zNs�(B
778: \EG string
1.1 noro 779: @end table
780:
781: @itemize @bullet
1.3 noro 782: \BJP
1.1 noro 783: @item
784: @var{command} �$B$r�(B C �$B$N�(B @code{system()} �$BH!?t$K$h$j%7%'%k%3%^%s%I$H$7$F<B9T$9$k�(B.
785: �$B%7%'%k$N=*N;%9%F!<%?%9$rJV$9�(B.
1.3 noro 786: \E
787: \BEG
788: Execute shell commands described by a string @var{command}
789: by a C function @code{system()}. This returns the exit status of shell
790: as its return value.
791: \E
1.1 noro 792: @end itemize
793:
794: @example
795: [0] shell("ls");
1.12 noro 796: alg da katsura ralg suit
797: algt defs.h kimura ratint test
798: alpi edet kimura3 robot texput.log
799: asir.o fee mfee sasa wang
800: asir_symtab gr mksym shira wang_data
801: base gr.h mp snf1 wt
802: bgk help msubst solve
803: chou hom p sp
804: const ifplot proot strum
805: cyclic is r sugar
1.1 noro 806: 0
807: [1]
808: @end example
809:
1.3 noro 810: \JP @node map,,, �$B$=$NB>�(B
811: \EG @node map,,, Miscellaneouses
1.1 noro 812: @subsection @code{map}
813: @findex map
814:
815: @table @t
816: @item map(@var{function},@var{arg0},@var{arg1},...)
1.3 noro 817: \JP :: �$B%j%9%H�(B, �$BG[Ns$N3FMWAG$KH!?t$rE,MQ$9$k�(B.
818: \EG :: Applies a function to each member of a list or an array.
1.1 noro 819: @end table
820:
821: @table @var
822: @item return
1.3 noro 823: \JP @var{arg0} �$B$HF1$87?$N%*%V%8%'%/%H�(B
824: \EG an object of the same type as @var{arg0}.
1.1 noro 825: @item function
1.3 noro 826: \JP �$BH!?tL>�(B
827: \EG the name of a function
1.1 noro 828: @item arg0
1.3 noro 829: \JP �$B%j%9%H�(B, �$B%Y%/%H%k�(B, �$B9TNs�(B
830: \EG list, vector or matrix
1.11 noro 831: @item arg1 ...
1.3 noro 832: \JP �$BG$0U�(B (�$B;D$j$N0z?t�(B)
833: \EG arbitrary (the rest of arguments)
1.1 noro 834: @end table
835:
836: @itemize @bullet
1.3 noro 837: \BJP
1.1 noro 838: @item
839: @var{arg0} �$B$N3FMWAG$r:G=i$N0z?t�(B, @var{arg1} �$B0J2<$N;D$j$N0z?t$H$7$F�(B
840: �$BH!?t�(B @var{function} �$B$r8F$S=P$7�(B, @var{arg0} �$B$NBP1~$9$kMWAG$N0LCV$K�(B
841: �$BH!?t8F$S=P$7$N7k2L$,F~$C$?F1$87?$N%*%V%8%'%/%H$r@8@.$7$FJV$9�(B.
842: @item
843: @var{function} �$B$O�(B, �$B%@%V%k%/%)!<%H$N$J$$H!?tL>$rMQ$$$k�(B.
844: @item
845: @var{function} �$B$K%W%m%0%i%`JQ?t$O;H$($J$$�(B.
846: @item
847: @var{arg0} �$B$,%j%9%H�(B, �$B%Y%/%H%k�(B, �$B9TNs0J30$N>l9g�(B, �$BC1$K�(B @var{arg0},
848: @var{arg1}, ... �$B$r0z?t$H$7$F�(B @var{function} �$B$r8F$S=P$7$=$N�(B
849: �$B7k2L$rJV$9�(B.
1.3 noro 850: \E
851: \BEG
852: @item
853: Returns an object of the same type as @var{arg0}. Each member of the
854: returned object is the return value of a function call where the first
855: argument is the member of @var{arg0} corresponding to the member in
856: the returned object and the rest of the argument are @var{arg1},
857: @dots{}.
858: @item
859: @var{function} is a function name itself without @samp{"}.
860: @item
861: A program variable cannot be used as @var{function}.
862: @item
863: If @var{arg0} is neither list nor array this function simply
864: returns the value of @var{function}(@var{arg0},@var{arg1},@dots{}).
865: \E
1.1 noro 866: @end itemize
867:
868: @example
869: [82] def afo(X) @{ return X^3; @}
870: [83] map(afo,[1,2,3]);
871: [1,8,27]
872: @end example
873:
1.3 noro 874: \JP @node flist,,, �$B$=$NB>�(B
875: \EG @node flist,,, Miscellaneouses
1.1 noro 876: @subsection @code{flist}
877: @findex flist
878:
879: @table @t
880: @item flist()
1.3 noro 881: \JP :: �$B8=:_Dj5A$5$l$F$$$kH!?tL>$rJ8;zNs%j%9%H$H$7$FJV$9�(B.
882: \EG :: Returns the list of function names currently defined.
1.1 noro 883: @end table
884:
885: @table @var
886: @item return
1.3 noro 887: \JP �$BJ8;zNs$N%j%9%H�(B
888: \EG list of character strings
1.1 noro 889: @end table
890:
891: @itemize @bullet
1.3 noro 892: \BJP
1.1 noro 893: @item
894: �$B8=:_Dj5A$5$l$F$$$kAH$_9~$_H!?t�(B, �$B%f!<%6Dj5AH!?t$NH!?tL>$rJ8;zNs%j%9%H�(B
895: �$B$H$7$FJV$9�(B.
896: @item
897: �$B%7%9%F%`H!?t$N8e$K%f!<%6Dj5AH!?t$,B3$/�(B.
1.3 noro 898: \E
899: \BEG
900: @item
901: Returns the list of names of built-in functions and user defined functions
902: currently defined. The return value is a list of character strings.
903: @item
904: The names of built-in functions are followed by those of user defined
905: functions.
906: \E
1.1 noro 907: @end itemize
908:
909: @example
910: [77] flist();
911: [defpoly,newalg,mainalg,algtorat,rattoalg,getalg,alg,algv,...]
912: @end example
913:
1.3 noro 914: \JP @node delete_history,,, �$B$=$NB>�(B
915: \EG @node delete_history,,, Miscellaneouses
1.1 noro 916: @subsection @code{delete_history}
917: @findex delete_history
918:
919: @table @t
920: @item delete_history([@var{index}])
1.3 noro 921: \JP :: �$B%R%9%H%j$r>C5n$9$k�(B.
922: \EG :: Deletes the history.
1.1 noro 923: @end table
924:
925: @table @var
926: @item return
927: 0
928: @item index
1.3 noro 929: \JP �$B>C5n$7$?$$%R%9%H%j$NHV9f�(B
930: \EG Index of history to be deleted.
1.1 noro 931: @end table
932:
933: @itemize @bullet
1.3 noro 934: \BJP
1.1 noro 935: @item
936: �$B0z?t$,$J$$$H$-�(B, �$B$3$l$^$G7W;;$7$?%R%9%H%j$rA4$F>C5n$9$k�(B.
937: @item
938: �$B0z?t$,$"$k$H$-�(B, �$B$=$NHV9f$N7k2L$N$_>C5n$9$k�(B.
939: @item
940: �$B$3$3$G%R%9%H%j$H$O�(B, �$BHV9f$D$-$N%W%m%s%W%H$KBP$7$F$NF~NO$rI>2A$7$FF@$i$l$?<0�(B
941: �$B$G�(B, �$B$3$N<0$O�(B @code{@@@var{number}} �$B$K$h$j<h$j=P$9$3$H$,$G$-$k�(B. �$B$3$N$3$H$O�(B,
942: �$B%,!<%Y%C%8%3%l%/%7%g%s$N:]$K$b$3$N<0$,@8$-;D$k$3$H$r0UL#$9$k�(B.
943: @item
944: �$BBg$-$J<0$,%R%9%H%j$H$7$F;D$C$?>l9g�(B, �$B0J9_$N%a%b%j4IM}$K;Y>c$rMh$9>l9g$,B?$$�(B
945: �$B$?$a�(B, @code{bsave()} �$B$J$I$G%U%!%$%k$K%;!<%V$7$F�(B, @code{delete_history()}
946: �$B$K$h$j%R%9%H%j$r>C5n$7$F$*$/$N$,M-8z$G$"$k�(B.
1.3 noro 947: \E
948: \BEG
949: @item
950: Deletes all the histories without an argument.
951: @item
952: Deletes the history with index @var{index} if specified.
953: @item
954: A history is an expression which has been obtained by evaluating an input
955: given for a prompt with an index. It can be taken out by @code{@@@var{index}},
956: which means that the expression survives garbage collections.
957: @item
958: A large history may do harm in the subsequent memory management and
959: deleting the history by @code{delete_history()}, after saving it in a file
960: by @code{bsave()}, is often effective.
961: \E
1.1 noro 962: @end itemize
963:
964: @example
965: [0] (x+y+z)^100$
966: [1] @@0;
967: ...
968: [2] delete_history(0);
969: [3] @@0;
970: 0
971: @end example
972:
1.3 noro 973: \JP @node get_rootdir,,, �$B$=$NB>�(B
974: \EG @node get_rootdir,,, Miscellaneouses
1.1 noro 975: @subsection @code{get_rootdir}
976: @findex get_rootdir
977:
978: @table @t
979: @item get_rootdir()
1.3 noro 980: \JP :: Asir �$B$N%k!<%H%G%#%l%/%H%jL>$r<h$j=P$9�(B
981: \EG :: Gets the name of @b{Asir} root directory.
1.1 noro 982: @end table
983:
984: @table @var
985: @item return
1.3 noro 986: \JP �$BJ8;zNs�(B
987: \EG string
1.1 noro 988: @end table
989:
990: @itemize @bullet
1.3 noro 991: \BJP
1.1 noro 992: @item
993: UNIX �$BHG$N>l9g�(B, �$B4D6-JQ?t�(B @code{ASIR_LIBDIR} �$B$,Dj5A$5$l$F$$$k>l9g$K$O$=$NCM�(B, �$B$5$l$F$$$J$$>l9g�(B
994: �$B$K$O�(B @samp{/usr/local/lib/asir} �$B$rJV$9�(B.
995: @item
996: Windows �$BHG$N>l9g�(B, @samp{asirgui.exe} �$B$N$"$k%G%#%l%/%H%j�(B (@samp{bin} �$B$H$$$&L>A0$N$O$:$G$"$k�(B)
997: �$B$N?F%G%#%l%/%H%j$,JV$5$l$k�(B.
998: @item
999: �$B$3$N4X?t$,JV$9%G%#%l%/%H%jL>$r4p=`$H$7$?AjBP%Q%9L>$r;XDj$9$k$3$H$K$h$j�(B, �$B%$%s%9%H!<%k�(B
1000: �$B$5$l$?>l=j$K$h$i$J$$%U%!%$%kFI$_9~$_%W%m%0%i%`$r=q$/$3$H$,$G$-$k�(B.
1.3 noro 1001: \E
1002: \BEG
1003: @item
1004: On UNIX it returns the value of an environment variable @code{ASIR_LIBDIR}
1005: or @samp{/usr/local/lib/asir} if @code{ASIR_LIBDIR} is not set.
1006: @item
1007: On Windows the name of @b{Asir} root directory is returned.
1008: @item
1009: By using relative path names from the value of this function,
1010: one can write programs which contain file operations independent
1011: of the install directory.
1012: \E
1.1 noro 1013: @end itemize
1.2 noro 1014:
1015:
1.3 noro 1016: \JP @node getopt,,, �$B$=$NB>�(B
1017: \EG @node getopt,,, Miscellaneouses
1.2 noro 1018: @subsection @code{getopt}
1019: @findex getopt
1020:
1021: @table @t
1.9 noro 1022: @item getopt([@var{key}])
1.3 noro 1023: \JP :: �$B%*%W%7%g%s$NCM$rJV$9�(B.
1024: \EG :: Returns the value of an option.
1.2 noro 1025: @end table
1026:
1027: @table @var
1028: @item return
1.3 noro 1029: \JP �$B%*%V%8%'%/%H�(B
1030: \EG object
1.2 noro 1031: @end table
1032:
1033: @itemize @bullet
1.3 noro 1034: \BJP
1.2 noro 1035: @item
1036: �$B%f!<%6Dj5A4X?t$O�(B, �$B8GDj8D?t0z?t$G$7$+@k8@$G$-$J$$�(B. �$B%f!<%6Dj5A4X?t$G�(B
1037: �$B2DJQ8D0z?t$r<B8=$9$kJ}K!$N0l$D$H$7$F�(B, �$B%*%W%7%g%s$K$h$k0z?t$N;XDj�(B
1038: �$B$,$"$k�(B (@pxref{�$B%*%W%7%g%s;XDj�(B}). �$B;XDj$5$l$?%*%W%7%g%s$r4X?tFb$G�(B
1039: �$B<u$1<h$k$?$a$K$3$N4X?t$rMQ$$$k�(B.
1040: @item
1.9 noro 1041: �$BL50z?t$G8F$S=P$5$l$?>l9g�(B, @code{getopt()} �$B$O�(B
1042: @code{[[key1,value1],[key2,value2],...]} �$B$J$k%j%9%H$rJV$9�(B.
1043: �$B$3$3$G�(B, @code{key} �$B$O4X?t8F$S=P$7;~$K;XDj$5$l$?%*%W%7%g%s�(B, @code{value}
1044: �$B$O$=$NCM$G$"$k�(B.
1045: @item
1.2 noro 1046: �$B4X?t8F$S=P$7$N:]$K�(B @var{key} �$B$,%*%W%7%g%s$H$7$F;XDj$5$l$F$$$k�(B
1047: �$B>l9g$K$O�(B, �$B$=$NCM$rJV$9�(B. �$B$b$7;XDj$,$J$$>l9g$K$O�(B, VOID �$B7?%*%V%8%'%/%H�(B
1048: (�$B7?<1JL;R�(B -1) �$B$rJV$9�(B. @code{getopt()} �$B$,JV$7$?CM$N7?$r�(B @code{type()}
1049: �$B$GD4$Y$k$3$H$G�(B, �$B$=$N%*%W%7%g%s$,;XDj$5$l$?$+$I$&$+D4$Y$k$3$H$,$G$-$k�(B.
1050: @item
1051: �$B4X?t8F$S=P$7$K$*$1$k%*%W%7%g%s$N;XDj$O�(B, �$B@55,$N0z?t$J$i$S$N8e$m$K�(B,
1052:
1053: @example
1054: xxx(A,B,C,D|x=X,y=Y,z=Z)
1055: @end example
1056:
1057: �$B$H$$$&Iw$K�(B, @samp{|} �$B$KB3$/�(B, @var{key=value} �$B$N�(B @samp{,} �$B$G6h@Z$i$l$?�(B
1058: �$BJB$S$rCV$/$3$H$G9T$&�(B.
1.3 noro 1059: \E
1060: \BEG
1061: @item
1062: When a user defined function is called, the number of arguments
1063: must be equal to that in the declaration of the function.
1064: A function with indefinite number of arguments can be realized
1065: by using @var{options} (@pxref{option}).
1066: The value of a specified option is retrieved by @code{getopt}.
1.9 noro 1067: @item
1068: If @code{getopt()} is called with no argument, then it returns a list
1.12 noro 1069: @code{[[key1,value1],} @code{[key2,value2],@dots{}]}.
1070: In the list, each @code{key}
1.9 noro 1071: is an option which was specified when the function executing @code{getopt}
1072: was invoked, and @code{value} is the value of the option.
1.3 noro 1073: @item
1074: If an option @var{key} is specified upon a function call, @code{getopt}
1075: return the value of the option. If such an option is not specified,
1076: the it returns an object of VOID type whose object identifier is
1077: -1. By examining the type of the returned value with @code{type()},
1078: one knows whether the option is set or not.
1079: @item
1080: Options are specified as follows:
1081:
1082: @example
1083: xxx(A,B,C,D|x=X,y=Y,z=Z)
1084: @end example
1085:
1086: That is, the options are specified by a sequence of @var{key=value} seperated
1087: by @samp{,}, after @samp{|}.
1088: \E
1.2 noro 1089: @end itemize
1090:
1091: @table @t
1.3 noro 1092: \JP @item �$B;2>H�(B
1093: \EG @item References
1094: \JP @fref{�$B%*%W%7%g%s;XDj�(B}, @fref{type}.
1095: \EG @fref{option}, @fref{type}.
1096: @end table
1097:
1098: \JP @node getenv,,, �$B$=$NB>�(B
1099: \EG @node getenv,,, Miscellaneouses
1100: @subsection @code{getenv}
1101: @findex getenv
1102:
1103: @table @t
1104: @item getenv(@var{name})
1105: \JP :: �$B4D6-JQ?t$NCM$rJV$9�(B.
1106: \EG :: Returns the value of an environment variable.
1107: @end table
1108:
1109: @table @var
1110: @item return
1111: @itemx name
1112: \JP �$BJ8;zNs�(B
1113: \EG string
1.2 noro 1114: @end table
1115:
1.3 noro 1116: @itemize @bullet
1117: @item
1118: \JP �$B4D6-JQ?t�(B @var{name} �$B$NCM$rJV$9�(B.
1119: \EG Returns the value of an environment variable @var{name}.
1120: @end itemize
1121:
1122: @example
1123: [0] getenv("HOME");
1124: /home/pcrf/noro
1125: @end example
1.1 noro 1126:
1127:
1128:
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