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Diff for /OpenXM/src/asir-doc/parts/groebner.texi between version 1.18 and 1.20

version 1.18, 2016/03/24 20:58:50 version 1.20, 2017/08/31 04:54:36
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 @comment $OpenXM: OpenXM/src/asir-doc/parts/groebner.texi,v 1.17 2006/09/06 23:53:31 noro Exp $  @comment $OpenXM: OpenXM/src/asir-doc/parts/groebner.texi,v 1.19 2016/08/29 04:56:58 noro Exp $
 \BJP  \BJP
 @node $B%0%l%V%J4pDl$N7W;;(B,,, Top  @node $B%0%l%V%J4pDl$N7W;;(B,,, Top
 @chapter $B%0%l%V%J4pDl$N7W;;(B  @chapter $B%0%l%V%J4pDl$N7W;;(B
Line 201  In an @b{Asir} session, it is displayed in the form li
Line 201  In an @b{Asir} session, it is displayed in the form li
 \EG and also can be input in such a form.  \EG and also can be input in such a form.
   
 \BJP  \BJP
 @itemx $BF,C19`<0(B (head monomial)  
 @item $BF,9`(B (head term)  @item $BF,9`(B (head term)
   @itemx $BF,C19`<0(B (head monomial)
 @itemx $BF,78?t(B (head coefficient)  @itemx $BF,78?t(B (head coefficient)
 $BJ,;6I=8=B?9`<0$K$*$1$k3FC19`<0$O(B, $B9`=g=x$K$h$j@0Ns$5$l$k(B. $B$3$N;~=g(B  $BJ,;6I=8=B?9`<0$K$*$1$k3FC19`<0$O(B, $B9`=g=x$K$h$j@0Ns$5$l$k(B. $B$3$N;~=g(B
 $B=x:GBg$NC19`<0$rF,C19`<0(B, $B$=$l$K8=$l$k9`(B, $B78?t$r$=$l$>$lF,9`(B, $BF,78?t(B  $B=x:GBg$NC19`<0$rF,C19`<0(B, $B$=$l$K8=$l$k9`(B, $B78?t$r$=$l$>$lF,9`(B, $BF,78?t(B
 $B$H8F$V(B.  $B$H8F$V(B.
 \E  \E
 \BEG  \BEG
 @itemx head monomial  
 @item head term  @item head term
   @itemx head monomial
 @itemx head coefficient  @itemx head coefficient
   
 Monomials in a distributed polynomial is sorted by a total order.  Monomials in a distributed polynomial is sorted by a total order.
Line 220  the head term and the head coefficient respectively.
Line 220  the head term and the head coefficient respectively.
 \E  \E
 @end table  @end table
   
   @noindent
   ChangeLog
   @itemize @bullet
 \BJP  \BJP
   @item $BJ,;6I=8=B?9`<0$OG$0U$N%*%V%8%'%/%H$r78?t$K$b$F$k$h$&$K$J$C$?(B.
   $B$^$?2C72$N(Bk$B@.J,$NMWAG$r<!$N7A<0(B <<d0,d1,...:k>> $B$GI=8=$9$k$h$&$K$J$C$?(B (2017-08-31).
   \E
   \BEG
   @item Distributed polynomials accept objects as coefficients.
   The k-th element of a free module is expressed as <<d0,d1,...:k>> (2017-08-31).
   \E
   @item
   1.15 algnum.c,
   1.53 ctrl.c,
   1.66 dp-supp.c,
   1.105 dp.c,
   1.73 gr.c,
   1.4 reduct.c,
   1.16 _distm.c,
   1.17 dalg.c,
   1.52 dist.c,
   1.20 distm.c,
   1.8  gmpq.c,
   1.238 engine/nd.c,
   1.102  ca.h,
   1.411  version.h,
   1.28 cpexpr.c,
   1.42 pexpr.c,
   1.20 pexpr_body.c,
   1.40 spexpr.c,
   1.27 arith.c,
   1.77 eval.c,
   1.56 parse.h,
   1.37 parse.y,
   1.8 stdio.c,
   1.31 plotf.c
   @end itemize
   
   \BJP
 @node $B%U%!%$%k$NFI$_9~$_(B,,, $B%0%l%V%J4pDl$N7W;;(B  @node $B%U%!%$%k$NFI$_9~$_(B,,, $B%0%l%V%J4pDl$N7W;;(B
 @section $B%U%!%$%k$NFI$_9~$_(B  @section $B%U%!%$%k$NFI$_9~$_(B
 \E  \E
Line 2320  except for lack of the argument for controlling homoge
Line 2358  except for lack of the argument for controlling homoge
 @itemx nd_gr_trace(@var{plist},@var{vlist},@var{homo},@var{p},@var{order})  @itemx nd_gr_trace(@var{plist},@var{vlist},@var{homo},@var{p},@var{order})
 @itemx nd_f4(@var{plist},@var{vlist},@var{modular},@var{order})  @itemx nd_f4(@var{plist},@var{vlist},@var{modular},@var{order})
 @itemx nd_f4_trace(@var{plist},@var{vlist},@var{homo},@var{p},@var{order})  @itemx nd_f4_trace(@var{plist},@var{vlist},@var{homo},@var{p},@var{order})
 @item nd_weyl_gr(@var{plist},@var{vlist},@var{p},@var{order})  @itemx nd_weyl_gr(@var{plist},@var{vlist},@var{p},@var{order})
 @itemx nd_weyl_gr_trace(@var{plist},@var{vlist},@var{homo},@var{p},@var{order})  @itemx nd_weyl_gr_trace(@var{plist},@var{vlist},@var{homo},@var{p},@var{order})
 \JP :: $B%0%l%V%J4pDl$N7W;;(B ($BAH$_9~$_H!?t(B)  \JP :: $B%0%l%V%J4pDl$N7W;;(B ($BAH$_9~$_H!?t(B)
 \EG :: Groebner basis computation (built-in functions)  \EG :: Groebner basis computation (built-in functions)
Line 2973  These are used internally in @code{hgr()} etc.
Line 3011  These are used internally in @code{hgr()} etc.
 into an integral distributed polynomial such that GCD of all its coefficients  into an integral distributed polynomial such that GCD of all its coefficients
 is 1.  is 1.
 \E  \E
 @itemx dp_prim(@var{dpoly})  @item dp_prim(@var{dpoly})
 \JP :: $BM-M}<0G\$7$F78?t$r@0?t78?tB?9`<078?t$+$D78?t$NB?9`<0(B GCD $B$r(B 1 $B$K$9$k(B.  \JP :: $BM-M}<0G\$7$F78?t$r@0?t78?tB?9`<078?t$+$D78?t$NB?9`<0(B GCD $B$r(B 1 $B$K$9$k(B.
 \BEG  \BEG
 :: Converts a distributed polynomial @var{poly} with rational function  :: Converts a distributed polynomial @var{poly} with rational function
Line 3900  refer to @code{dp_true_nf()} and @code{dp_true_nf_mod(
Line 3938  refer to @code{dp_true_nf()} and @code{dp_true_nf_mod(
 @fref{dp_ptod},  @fref{dp_ptod},
 @fref{dp_dtop},  @fref{dp_dtop},
 @fref{dp_ord},  @fref{dp_ord},
 @fref{dp_nf dp_nf_mod dp_true_nf dp_true_nf_mod}.  @fref{dp_nf dp_nf_mod dp_true_nf dp_true_nf_mod dp_weyl_nf dp_weyl_nf_mod}.
 @end table  @end table
   
 \JP @node p_terms,,, $B%0%l%V%J4pDl$K4X$9$kH!?t(B  \JP @node p_terms,,, $B%0%l%V%J4pDl$K4X$9$kH!?t(B
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