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Diff for /OpenXM/src/asir-doc/int-parts/macro.texi between version 1.1 and 1.2

version 1.1, 2001/04/23 05:45:35 version 1.2, 2003/04/19 10:36:29
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 @comment $OpenXM$  @comment $OpenXM: OpenXM/src/asir-doc/int-parts/macro.texi,v 1.1 2001/04/23 05:45:35 noro Exp $
 @chapter $B%^%/%m(B, $BBg0hJQ?t(B  \JP @chapter $B%^%/%m(B, $BBg0hJQ?t(B
   \EG @chapter Macros and global variables
   
 @section macro  @section macro
 @samp{ca.h} $B$GDj5A$5$l$k<g$J%^%/%m$O<!$NDL$j$G$"$k(B.  \JP @samp{ca.h} $B$GDj5A$5$l$k<g$J%^%/%m$O<!$NDL$j$G$"$k(B.
 @subsection $B0lHL%^%/%m(B  \EG @samp{ca.h}
   \JP @subsection $B0lHL%^%/%m(B
   \EG @subsection General macros
 @table @code  @table @code
 @item MAX(a,b)  @item MAX(a,b)
 @code{((a) > (b) ? (a) : (b) )}  @code{((a) > (b) ? (a) : (b) )}
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 @code{((n)->b)}  @code{((n)->b)}
 @end table  @end table
   
 @subsection $B=R8l(B  \JP @subsection $B=R8l(B
   \EG @subsection Predicates
 @table @code  @table @code
 @item NUM(a)  @item NUM(a)
 @code{ID(a)==O_Q}  @code{ID(a)==O_Q}
 @item INT(a)  @item INT(a)
 @code{(!DN(a))}  @code{(!DN(a))}
 @item UNIQ(a)  @item UNIQ(a)
 @code{a $B$,M-M}?t$N(B 1 $B$KEy$7$$(B}  \JP @code{a} $B$,M-M}?t$N(B 1 $B$KEy$7$$(B
   \EG @code{a} is equal to 1 as a rational number.
 @item MUNIQ(a)  @item MUNIQ(a)
 @code{a $B$,M-M}?t$N(B -1 $B$KEy$7$$(B}  \JP @code{a} $B$,M-M}?t$N(B -1 $B$KEy$7$$(B
   \EG @code{a} is equal to -1 as a rational number.
 @item UNIN(a)  @item UNIN(a)
 @code{a $B$,<+A3?t$N(B 1 $B$KEy$7$$(B}  \JP @code{a} $B$,<+A3?t$N(B 1 $B$KEy$7$$(B
   \EG @code{a} is equal to 1 as a natural number.
 @end table  @end table
   
 @subsection $B%a%b%j3d$jEv$F4o(B  \JP @subsection $B%a%b%j3d$jEv$F4o(B
   \EG @subsection Memory allocators
 @table @code  @table @code
 @item (char *) MALLOC(d)  @item (char *) MALLOC(d)
 @code{d bytes $B$NNN0h$r3d$jEv$F$k(B. }  \JP @code{d} bytes $B$NNN0h$r3d$jEv$F$k(B.
   \EG allocates a byte array of length @code{d} bytes.
 @item (char *) CALLOC(d,e)  @item (char *) CALLOC(d,e)
 @code{d * e bytes $B$NNN0h$r3d$jEv$F$F(B, 0 $B$G=i4|2=$9$k(B. }  \JP @code{d * e} bytes $B$NNN0h$r3d$jEv$F$F(B, 0 $B$G=i4|2=$9$k(B.
   \EG allocates a byte array of @code{d * e} bytes, and sets all that
   region to 0.
 @item (N) NALLOC(d)  @item (N) NALLOC(d)
 @code{d $B7e$N<+A3?tMQ$NNN0h$r3d$jEv$F$k(B. }  \JP @code{d} $B7e$N<+A3?tMQ$NNN0h$r3d$jEv$F$k(B.
   \EG allocates a region for a natural number of @code{d} digits.
 @end table  @end table
 @noindent  @noindent
 $B$3$l$i$O$9$Y$FNN0h$N@hF,%]%$%s%?$rJV$9(B.  \JP $B$3$l$i$O$9$Y$FNN0h$N@hF,%]%$%s%?$rJV$9(B.
   \EG These macros return a pointer to the allocate memory.
   
 @subsection cell allocators  @subsection cell allocators
 @table @code  @table @code
 @item NEWQ(q)  @item NEWQ(q)
 @code{q $B$K(B Q $BMQ$NNN0h$r3d$jEv$F$k(B. }  \JP @code{q} $B$K(B \code{Q} $BMQ$NNN0h$r3d$jEv$F$k(B.
   \EG
 @item NEWP(p)  @item NEWP(p)
 @code{p $B$K(B P $BMQ$NNN0h$r3d$jEv$F$k(B. }  \JP @code{p} $B$K(B \code{P} $BMQ$NNN0h$r3d$jEv$F$k(B.
   \EG
 @item NEWR(r)  @item NEWR(r)
 @code{r $B$K(B R $BMQ$NNN0h$r3d$jEv$F$k(B. }  \JP @code{r} $B$K(B \code{R} $BMQ$NNN0h$r3d$jEv$F$k(B.
   \EG
 @item NEWNODE(a)  @item NEWNODE(a)
 @code{a $B$K(B NODE $BMQ$NNN0h$r3d$jEv$F$k(B. }  \JP @code{a} $B$K(B \code{NODE} $BMQ$NNN0h$r3d$jEv$F$k(B.
   \EG
 @item NEWDC(dc)  @item NEWDC(dc)
 @code{dc $B$K(B DCP $BMQ$NNN0h$r3d$jEv$F$k(B. }  \JP @code{dc} $B$K(B \code{DCP} $BMQ$NNN0h$r3d$jEv$F$k(B.
   \EG
 @item NEWV(v)  @item NEWV(v)
 @code{v $B$K(B V $BMQ$NNN0h$r3d$jEv$F$k(B. }  \JP @code{v} $B$K(B \code{V} $BMQ$NNN0h$r3d$jEv$F$k(B.
   \EG
 @item NEWVL(vl)  @item NEWVL(vl)
 @code{vl $B$K(B VL $BMQ$NNN0h$r3d$jEv$F$k(B. }  \JP @code{vl} $B$K(B \code{VL} $BMQ$NNN0h$r3d$jEv$F$k(B.
   \EG
 @end table  @end table
 @noindent  @noindent
   \BJP
 @code{NEWP()}, @code{NEWQ()}, @code{NEWR()} $B$K$*$$$F$O(B, $B%a%s%P(B @code{id}  @code{NEWP()}, @code{NEWQ()}, @code{NEWR()} $B$K$*$$$F$O(B, $B%a%s%P(B @code{id}
 $B$b$7$+$k$Y$-CM$K=i4|2=$5$l$k(B.  $B$b$7$+$k$Y$-CM$K=i4|2=$5$l$k(B.
   \E
   \BEG
   \E
   
 @section $B<g$JBg0hJQ?t(B  \JP @section $B<g$JBg0hJQ?t(B
   \EG @section Global variables
 @table @code  @table @code
 @item VL CO;  @item VL CO;
 @code{$B8=:_$NJQ?t=g=x(B. }  \JP $B8=:_$NJQ?t=g=x(B.
   \EG
 @item Q ONE;  @item Q ONE;
 @code{$BM-M}?t$N(B 1. }  \JP $BM-M}?t$N(B 1.
   \EG
 @item N ONEN;  @item N ONEN;
 @code{$B<+A3?t$N(B 1. }  \JP $B<+A3?t$N(B 1.
   \EG
 @item int prime[];  @item int prime[];
 @code{4 $B7e$^$G$NAG?t(B($B>.(B->$BBg(B). }  \JP 4 $B7e$^$G$NAG?t(B($B>.(B->$BBg(B).
   \EG
 @item int lprime[];  @item int lprime[];
 @code{8 $B7eDxEY$NAG?t(B 1000 $B8D(B($BBg(B->$B>.(B). }  \JP 8 $B7eDxEY$NAG?t(B 1000 $B8D(B($BBg(B->$B>.(B).
   \EG
 @end table  @end table
 @noindent  @noindent
   \BJP
 @code{CO} $B$O(B, $B%f!<%6$,=i4|2=(B, $B$*$h$S?7$?$KJQ?t$,=P8=$7$?>l9g$K99?7$9$kI,(B  @code{CO} $B$O(B, $B%f!<%6$,=i4|2=(B, $B$*$h$S?7$?$KJQ?t$,=P8=$7$?>l9g$K99?7$9$kI,(B
 $BMW$,$"$k(B. $B$^$?(B, @code{ONER}, @code{ONE}, @code{ONEN}$B$O(B, $B5/F0;~$KH!?t(B  $BMW$,$"$k(B. $B$^$?(B, @code{ONER}, @code{ONE}, @code{ONEN}$B$O(B, $B5/F0;~$KH!?t(B
 @code{nglob_init()} $B$K$h$j=i4|2=$9$kI,MW$,$"$k(B.  @code{nglob_init()} $B$K$h$j=i4|2=$9$kI,MW$,$"$k(B.
   \E
   \BEG
   \E
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