OpenXM/src/asir-doc/parts/builtin/misc.texi - diff

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Diff for /OpenXM/src/asir-doc/parts/builtin/misc.texi between version 1.4 and 1.21

version 1.4, 1999/12/24 04:38:06

version 1.21, 2016/08/29 04:56:58

Line 1

@comment $OpenXM: OpenXM/src/asir-doc/parts/builtin/misc.texi,v 1.3 1999/12/21 02:47:33 noro Exp $

@comment $OpenXM: OpenXM/src/asir-doc/parts/builtin/misc.texi,v 1.20 2016/08/26 04:56:07 takayama Exp $

\BJP

@node $B$=$NB>(B,,, $BAH$_9~$_H!?t(B

@section $B$=$NB>(B

Line 15

* help::

* time::

* cputime tstart tstop::

* timer::

* currenttime::

* sleep::

* heap::

* version::

* shell::

Line 72 on $B$N;~$OI8=`F~NO$r7+$jJV$7$F=PNO$7(B, off $B$N;~

Line 75 on $B$N;~$OI8=`F~NO$r7+$jJV$7$F=PNO$7(B, off $B$N;~

@code{output} $B%3%^%s%I$rMQ$$$k:]$KM-8z$G$"$k(B.

@item bigfloat

on $B$N;~(B, $BF~NO$5$l$?IbF0>.?t$O(B @b{bigfloat} $B$KJQ49$5$l(B, $BIbF0>.?t1i;;$O(B

@b{PARI} (@xref{pari}) $B$K$h$j9T$o$l$k(B. $B%G%U%)%k%H$NM-8z7e?t$O(B 9 $B7e$G$"$k(B.

@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.

$BM-8z7e?t$rA}$d$7$?$$;~$K$O(B @code{setprec()} $B$rMQ$$$k(B.

off $B$N;~(B, $BF~NO$5$l$?IbF0>.?t$O(B, $BG\@:EYIbF0>.?t$KJQ49$5$l$k(B.

@cindex PARI

Line 83 off $B$N;~(B, $BF~NO$5$l$?IbF0>.?t$O(B, $BG\@:EYI

Line 86 off $B$N;~(B, $BF~NO$5$l$?IbF0>.?t$O(B, $BG\@:EYI

@xref{$B%3%^%s%I%i%$%s%*%W%7%g%s(B}.

@item verbose

on $B$N;~(B, $BH!?t$N:FDj5A;~$K%a%C%;!<%8$rI=<($9$k(B.

@item quiet_mode

1 $B$N$H$-(B, $B5/F0;~$KCx:n8"I=<($r9T$o$J$$(B.

@xref{$B%3%^%s%I%i%$%s%*%W%7%g%s(B}.

@item prompt

0 $B$N$H$-%W%m%s%W%H$rI=<($7$J$$(B. 1 $B$N$H$-I8=`%W%m%s%W%H$rI=<((B.

C $B%9%?%$%k$N%U%)%^%C%HJ8;zNs$r$b$A$$$k$H%f!<%6Dj5A$N%W%m%s%W%H(B.

$BNc(B(asirgui $B$G$OIT2D(B):

@code{ ctrl("prompt","\033[32m[%d]:= \033[0m")}

@item hex

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,

$B4V$K(B @samp{|} $B$r$O$5$s$G(B 8 $B7e$4$H$K6h@Z$C$FI=<($5$l$k(B.

@item real_digit

$BG\@:EYIbF0>.?t$NI=<($N7e?t$r;XDj$9$k(B.

@item double_output

1 $B$N$H$-(B, $BG\@:EYIbF0>.?t$O$D$M$K(B ddd.ddd $B$N7A$GI=<($5$l$k(B.

@item fortran_output

1 $B$N$H$-(B, $BB?9`<0$NI=<($,(B FORTRAN $B%9%?%$%k$K$J$k(B. $B$9$J$o$AQQ$,(B

@samp{^} $B$NBe$o$j$K(B @samp{**} $B$GI=$5$l$k(B.

($B%G%U%)%k%HCM$O(B 0.)

@item ox_batch

1 $B$N$H$-(B, $BAw?.%P%C%U%!$,$$$C$Q$$$K$J$C$?;~$N$_<+F0E*$K(B flush.

0 $B$N$H$-(B, $B%G!<%?(B, $B%3%^%s%IAw?.Kh$K(B flush. ($B%G%U%)%k%HCM$O(B 0.)

@xref{$BJ,;67W;;(B}

@xref{$BJ,;67W;;(B}.

@item ox_check

1 $B$N$H$-(B, $BAw?.%G!<%?$rAj<j%W%m%;%9$,<u$1<h$l$k$+$I$&$+%A%'%C%/$9$k(B.

0 $B$N$H$-$7$J$$(B. ($B%G%U%)%k%HCM$O(B 1.)

@xref{$BJ,;67W;;(B}

@xref{$BJ,;67W;;(B}.

@item ox_exchange_mathcap

1 $B$N$H$-(B, OX server $B$H$N@\B33+;O;~$K(B, $B<+F0E*$K(B mathcap $B$N8r49$r9T$&(B.

($B%G%U%)%k%HCM$O(B 1.)

@xref{$BJ,;67W;;(B}.

@item debug_window

1 $B$N;~(B debug_window $B$,%]%C%W%"%C%W$7$F3+$/(B.

($B%G%U%)%k%HCM$O(B 0.)

@item fake_ox_reset

1 $B$N$H$-(B, ox_reset $B$r<BAu$7$F$J$$%5!<%P!<$K$OBe$o$j$K(B ox_shutdown $B$rAw?.$9$k(B.

ox_reset $B$N<BAu$NM-L5$O(B mathcap $B$N(B optional argument ($BBh;M0z?t(B)

$B$KJ8;zNs(B no_ox_reset $B$,@_Dj$5$l$F$$$k$+$I$&$+$GH=CG$9$k(B.

ox_pari $B$rMxMQ$9$k$H$-$O$3$N%U%i%0$r(B1$B$K$7$F$*$/$3$H$,K>$^$7$$(B.

($B%G%U%)%k%HCM$O(B 0.)

@xref{$BJ,;67W;;(B}.

@end table

\BEG

Line 128 This command will be useful when used with command @co

Line 161 This command will be useful when used with command @co

If `on', floating operations will be done by @b{PARI} system with arbitrary

precision floating point operations.

Default precision is set to 9 digits. To change the precision, use

command @code{setprec}.

command @code{setbprec setprec}.

If `off', floating operations will be done by @b{Asir}'s own floating

operation routines with a fixed precision operations of

standard floating double.

Line 141 and as a result, the frequency of garbage collection d

Line 174 and as a result, the frequency of garbage collection d

@xref{Command line options}.

@item verbose

If `on' a warning messages is displayed when a function is redefined.

@item quiet_mode

If 1 is set, the copyright notice has been displayed at boot time.

@item prompt

If the value is 0, then prompt is not output.

If the value is 1, then the standard prompt is output.

Asir prompt can be customized by giving a C-style format string.

Example (for unix asir);

@code{ ctrl("prompt","\033[32m[%d]:= \033[0m")}

@item hex

If 1 is set, integers are displayed as hexadecimal numbers with prefix

@code{0x}. if -1 is set, hexadecimal numbers are desplayed with

@code{0x}. if -1 is set, hexadecimal numbers are displayed with

@samp{|} inserted at every 8 hexadecimal digits.

@item real_digit

Sets the number of digits used to print a floating double.

@item double_output

If set to 1, any floating double is printed in the style ddd.ddd.

@item fortran_output

If `on' polynomials are displayed in FORTRAN style. That is, a power

is represented by @samp{**} instead of @samp{^}.

The default value is 'off.

@item ox_batch

If 'on', the OpenXM send buffer is flushed only when the buffer is full.

If 'off', the buffer is always flushed at each sending of data or command.

The default value is 'off'.

@xref{Distributed computation}

@xref{Distributed computation}.

@item ox_check

If 'on' the check by mathcap is done before sending data.

The default value is 'on'.

@xref{Distributed computation}

@xref{Distributed computation}.

@item ox_exchange_mathcap

If 'on' Asir forces the exchange of mathcaps at the communication startup.

The default value is 'on'.

@xref{Distributed computation}.

@item debug_window

When 1, a debug window pops up.

(The default value is 0.)

@item fake_ox_reset

When 1, the function ox_reset sends ox_shutdown insread of ox_reset

to servers which do not implement ox_reset protocol.

It is checked by the optional argument (the fourth argument)

containing the string "no_ox_reset"

of mathcap if ox_reset is implemented or not.

When you use ox_pari, it is recommended to set this flag 1.

(The default value is 0.)

@xref{Distributed computation}.

@end table

@end itemize

Line 162 The default value is 'on'.

Line 228 The default value is 'on'.

\JP @item $B;2>H(B

\EG @item References

@fref{cputime tstart tstop}, @fref{output},

@fref{pari}, @fref{setprec}, @fref{eval}.

@fref{pari}, @fref{setbprec setprec}, @fref{eval deval}.

@end table

\JP @node debug,,, $B$=$NB>(B

Line 195 the debugger is ready for commands.

Line 261 the debugger is ready for commands.

Typing in @code{quit} (Note! without a semicolon.) brings you

to exit the debug-mode.

@item

@xref{Debugger} for details.

See @ref{Debugger} for details.

@end itemize

Line 314 return to toplevel

Line 380 return to toplevel

$B$"$k$$$O(B @samp{more} $B$r8F$S=P$7$F$=$N%U%!%$%k$rI=<($9$k(B.

@item

$B4D6-JQ?t(B @code{LANG} $B$,@_Dj$5$l$F$$$k>l9g(B, $B$=$NCM$,(B @code{"japan"} $B$^$?$O(B

@code{"ja_JP"} $B$G;O$^$k$J$i(B, @samp{help} $B$NBe$o$j$K(B @samp{help-jp}

@code{"ja_JP"} $B$G;O$^$k$J$i(B, @samp{help} $B$NBe$o$j$K(B @samp{help-ja}

$B$K$"$k%U%!%$%k$,I=<($5$l$k(B. $B$=$&$G$J$$>l9g(B, @samp{help-eg}

$B$K$"$k%U%!%$%k$,I=<($5$l$k(B. $B$=$&$G$J$$>l9g(B, @samp{help-en}

$B$K$"$k%U%!%$%k$,I=<($5$l$k(B.

@item

Windows $BHG$G$O(B, $B%3%^%s%I%i%$%s$+$i$N%X%k%W8F$S=P$7$OL$%5%]!<%H$@$,(B,

Line 332 the file is displayed by a command set to the environm

Line 398 the file is displayed by a command set to the environm

@item

If the @code{LANG} environment variable is set and its value

begins with @code{"japan"} or @code{"ja_JP"}, then the file in

@samp{help-jp} is displayed. If its value does not begin with

@samp{help-ja} is displayed. If its value does not begin with

@code{"japan"} or @code{"ja_JP"}, then the file in @samp{help-eg}

@code{"japan"} or @code{"ja_JP"}, then the file in @samp{help-en}

is displayed.

@item

On Windows HTML-style help is available from the menu.

Line 446 for a reply to interruption prompting are added to the

Line 512 for a reply to interruption prompting are added to the

@table @t

\JP @item $B;2>H(B

\EG @item References

@fref{cputime tstart tstop}.

@fref{cputime tstart tstop}, @fref{currenttime}.

@end table

\JP @node cputime tstart tstop,,, $B$=$NB>(B

Line 543 the debug-mode and execute @code{cputime(1)}.

Line 609 the debug-mode and execute @code{cputime(1)}.

@table @t

\JP @item $B;2>H(B

\EG @item References

@fref{time}, @fref{ctrl}.

@fref{time}, @fref{currenttime}, @fref{ctrl}.

@end table

\JP @node timer,,, $B$=$NB>(B

\EG @node timer,,, Miscellaneouses

@subsection @code{timer}

@findex timer

@table @t

@item timer(@var{interval},@var{expr},@var{val})

\JP :: $B@)8B;~4V$D$-$G7W;;$r<B9T$9$k(B.

\EG :: Compute an expression under the interval timer.

@end table

@table @var

@item return

\JP $B7k2L(B

\EG result

@item interval

\JP $B@)8B;~4V(B ($BIC(B)

\EG interval (second)

@item expr

\JP $B7W;;$9$k<0(B

\EG expression to be computed

@item val

\JP $B%?%$%^$K$h$kCfCG;~$NLa$jCM(B

\EG a value to be returned when the timer is expired

@end table

@itemize @bullet

\BJP

@item

@code{timer()} $B$O(B, $B;~4V$r;XDj$7$F7W;;$r<B9T$9$k(B. $B;XDj;~4VFb$K7W;;$,40N;(B

$B$7$?>l9g$=$NCM$rJV$9(B. $B;XDj;~4VFb$K7W;;$,40N;$7$J$+$C$?>l9g(B, $BBh(B 3 $B0z?t(B

$B$rJV$9(B.

@item

$BBh(B 3 $B0z?t$NCM$O(B, $B7W;;$,40N;$7$?>l9g$NCM$H6hJL$G$-$kI,MW$,$"$k(B.

\BEG

@item

@code{timer()} computes an expression under the interval timer.

If the computation finishes within the specified interval, it

returns the result of the computation. Otherwise it returns the third

argument.

@item

The third argument should be distinguishable from the result on success.

@end itemize

@example

[0] load("cyclic");

[10] timer(10,dp_gr_main(cyclic(7),[c0,c1,c2,c3,c4,c5,c6],1,1,0),0);

interval timer expired (VTALRM)

[11]

@end example

\JP @node currenttime,,, $B$=$NB>(B

\EG @node currenttime,,, Miscellaneouses

@subsection @code{currenttime}

@findex currenttime

@table @t

@item currenttime()

\JP :: $B8=:_;~9o$r<hF@(B

\EG :: Get current time.

@end table

@table @var

@item return

\JP 1970$BG/(B1$B7n(B1$BF|(B0$B;~(B0$BJ,(B0$BIC$+$i$N7P2aIC?t(B.

\EG UNIX time.

@end table

@itemize @bullet

@item

\JP @code{currenttime()} $B$O8=:_;~9o$rJV$9(B. UNIX $B$N>l9g(B, time(3) $B$r8F$s$G$$$k$@$1$G$"$k(B.

\EG See also time(3) in UNIX manuals.

@end itemize

@example

[0] currenttime();

1071639228

[1]

@end example

\JP @node sleep,,, $B$=$NB>(B

\EG @node sleep,,, Miscellaneouses

@subsection @code{sleep}

@findex sleep

@table @t

@item sleep(@var{interval})

\JP :: $B%W%m%;%9$N<B9T$rDd;_(B

\EG :: Suspend computation for an interval.

@end table

@table @var

@item return

@item interval

\JP $BDd;_;~4V(B ($B%^%$%/%mIC(B)

\EG interval (micro second)

@end table

@itemize @bullet

@item

\JP @code{sleep()} $B$O(B, $B%W%m%;%9$N<B9T$rDd;_$9$k(B. UNIX $B$N>l9g(B, usleep $B$r8F$s$G$$$k$@$1$G$"$k(B.

\EG See also usleep(3) in UNIX manuals.

@end itemize

@example

[0] sleep(1000);

[1]

@end example

\JP @node heap,,, $B$=$NB>(B

\EG @node heap,,, Miscellaneouses

@subsection @code{heap}

Line 654 at the activation of @b{Asir}. (@xref{Command line opt

Line 848 at the activation of @b{Asir}. (@xref{Command line opt

@b{Asir} $B$N%P!<%8%g%s$r<+A3?t$GJV$9(B.

\BEG

Command @code{version()} returns the version identification number

@item

, an integer of @b{Asir} in use.

Command @code{version()} returns the version identification number,

an integer of @b{Asir} in use.

@end itemize

Line 699 as its return value.

Line 894 as its return value.

@example

[0] shell("ls");

alg da katsura ralg suit

algt defs.h kimura ratint test

alpi edet kimura3 robot texput.log

asir.o fee mfee sasa wang

asir_symtab gr mksym shira wang_data

base gr.h mp snf1 wt

bgk help msubst solve

chou hom p sp

const ifplot proot strum

cyclic is r sugar

[1]

@end example

Line 734 cyclic is r sugar

Line 929 cyclic is r sugar

@item arg0

\JP $B%j%9%H(B, $B%Y%/%H%k(B, $B9TNs(B

\EG list, vector or matrix

@item arg1, ...

@item arg1 ...

\JP $BG$0U(B ($B;D$j$N0z?t(B)

\EG arbitrary (the rest of arguments)

@end table

Line 753 cyclic is r sugar

Line 948 cyclic is r sugar

@var{arg0} $B$,%j%9%H(B, $B%Y%/%H%k(B, $B9TNs0J30$N>l9g(B, $BC1$K(B @var{arg0},

@var{arg1}, ... $B$r0z?t$H$7$F(B @var{function} $B$r8F$S=P$7$=$N(B

$B7k2L$rJV$9(B.

@item

@code{map} $B$N0z?t(B @var{function} $B$GM?$($i$l$kH!?t$O(B, $BFbItE*$K$bH!?t$H(B

$B$7$F<BAu$5$l$F$$$J$1$l$P$J$i$J$$(B. $B$=$&$G$J$1$l$P(B parse error $B$K$J$k(B.

$BNc$($P(B @code{map} $B<+?H$d(B @code{car}, @code{cdr} $B$J$I$OFbItE*$K$OH!?t$G(B

$B$O$J$/(B, Asir $B$NJ8K!$K$*$1$k%-!<%o!<%I$H$7$F<BAu$5$l$F$$$k(B. $B$7$?$,$C$F(B

@code{map} $B$N0z?t$K(B @code{map} $B$r$H$k$3$H$O$G$-$J$$(B.

\BEG

@item

Line 925 of the install directory.

Line 1126 of the install directory.

@findex getopt

@table @t

@item getopt(@var{key})

@item getopt([@var{key}])

\JP :: $B%*%W%7%g%s$NCM$rJV$9(B.

\EG :: Returns the value of an option.

@end table

Line 944 of the install directory.

Line 1145 of the install directory.

$B$,$"$k(B (@pxref{$B%*%W%7%g%s;XDj(B}). $B;XDj$5$l$?%*%W%7%g%s$r4X?tFb$G(B

$B<u$1<h$k$?$a$K$3$N4X?t$rMQ$$$k(B.

@item

$BL50z?t$G8F$S=P$5$l$?>l9g(B, @code{getopt()} $B$O(B

@code{[[key1,value1],[key2,value2],...]} $B$J$k%j%9%H$rJV$9(B.

$B$3$3$G(B, @code{key} $B$O4X?t8F$S=P$7;~$K;XDj$5$l$?%*%W%7%g%s(B, @code{value}

$B$O$=$NCM$G$"$k(B.

@item

$B4X?t8F$S=P$7$N:]$K(B @var{key} $B$,%*%W%7%g%s$H$7$F;XDj$5$l$F$$$k(B

$B>l9g$K$O(B, $B$=$NCM$rJV$9(B. $B$b$7;XDj$,$J$$>l9g$K$O(B, VOID $B7?%*%V%8%'%/%H(B

($B7?<1JL;R(B -1) $B$rJV$9(B. @code{getopt()} $B$,JV$7$?CM$N7?$r(B @code{type()}

Line 965 must be equal to that in the declaration of the functi

Line 1171 must be equal to that in the declaration of the functi

A function with indefinite number of arguments can be realized

by using @var{options} (@pxref{option}).

The value of a specified option is retrieved by @code{getopt}.

@item

If @code{getopt()} is called with no argument, then it returns a list

@code{[[key1,value1],} @code{[key2,value2],@dots{}]}.

In the list, each @code{key}

is an option which was specified when the function executing @code{getopt}

was invoked, and @code{value} is the value of the option.

@item

If an option @var{key} is specified upon a function call, @code{getopt}

return the value of the option. If such an option is not specified,

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