=================================================================== RCS file: /home/cvs/OpenXM_contrib/pari-2.2/doc/Attic/refcard.tex,v retrieving revision 1.1 retrieving revision 1.2 diff -u -p -r1.1 -r1.2 --- OpenXM_contrib/pari-2.2/doc/Attic/refcard.tex 2001/10/02 11:16:56 1.1 +++ OpenXM_contrib/pari-2.2/doc/Attic/refcard.tex 2002/09/11 07:26:42 1.2 @@ -1,4 +1,4 @@ -% $Id: refcard.tex,v 1.1 2001/10/02 11:16:56 noro Exp $ +% $Id: refcard.tex,v 1.2 2002/09/11 07:26:42 noro Exp $ % This file is intended to be processed by plain TeX (TeX82). % Reference Card for PARI-GP version 2.1 @@ -17,6 +17,11 @@ %% which I modified from his GNU emacs reference card %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% \def\TITLE{Pari-GP reference card} +\def\versionnumber{2.13}% Version of this reference card +\def\PARIversion{2.2.5}% Version of PARI described on this reference card +\def\year{2002} +\def\month{August} + % ignore parimacro.tex's \magnification setting \let\oldmagnification\magnification \catcode`@=11 @@ -29,7 +34,6 @@ \pdfpagewidth=11.69in \pdfpageheight=8.26in \fi - %**start of header \newcount\columnsperpage % The final reference card has six columns, three on each side. @@ -57,7 +61,7 @@ % Universite Paris Sud % Departement de Mathematiques (bat. 425) % F-91405 Orsay -% Internet: Karim.Belabas@math.u-psud.fr +% email: Karim.Belabas@math.u-psud.fr %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % (original reference card by Joseph H. Silverman) % (original reference card macros due to Stephen Gildea) @@ -89,13 +93,10 @@ % Version 2.9 - April 2000, added \o¸ updated control statements % Version 2.10 - June 2000, updated polinterpolate % Version 2.11 - November 2000, changed Copyright +% From version 2.12 onward, History will be catered for by CVS. %% Thanks to Bill Allombert, Henri Cohen, Gerhard Niklasch, and Joe %% Silverman for many comments and corrections. -\def\versionnumber{2.11}% Version of this reference card -\def\PARIversion{2.1.0}% Version of PARI described on this reference card -\def\year{2000} -\def\month{November} \def\version{\month\ \year\ v\versionnumber} \def\shortcopyrightnotice{\vskip .5ex plus 2 fill @@ -726,7 +727,7 @@ If $\var{fl}$ omitted, also \endindentedkeys \li{change curve $E$ using $v=[u,r,s,t]$}{ellchangecurve$(ell,v)$} \li{change point $z$ using $v=[u,r,s,t]$}{ellchangepoint$(z,v)$} -\li{cond, min mod, Tamgawa nmbr $[N,v,c]$}{ellglobalred$(ell)$} +\li{cond, min mod, Tamagawa nmbr $[N,v,c]$}{ellglobalred$(ell)$} \li{Kodaira type of $p$ fiber of $E$}{elllocalred$(ell,p)$} \li{add points $z1+z2$}{elladd$(ell,z1,z2)$} \li{subtract points $z1-z2$}{ellsub$(ell,z1,z2)$} @@ -1012,7 +1013,8 @@ Extension $L/K$ is defined by $g\in K[x]$. We have $or \li{relative norm of ideal $x$}{rnfidealnormrel$(\var{rnf},x)$} \li{solutions of $N_{K/\QQ}(y)=x\in \ZZ$}{bnfisintnorm$(\var{bnf},x)$} \li{is $x\in\QQ$ a norm from $K$?}{bnfisnorm$(\var{bnf},x,\fl)$} -\li{is $x\in K$ a norm from $L$?}{rnfisnorm$(\var{bnf},ext,x,\fl)$} +\li{initialize $T$ for norm eq.~solver}{rnfisnorminit$(K,pol,\fl)$} +\li{is $a\in K$ a norm from $L$?}{rnfisnorm$(T,a,\fl)$} \vfill \copyrightnotice \bye