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<H1><A NAME="htoc1">&nbsp;1</A>&nbsp;&nbsp;Rosetta Translations</H1><!--SEC END -->

<!--TOC section Introduction-->

<H2><A NAME="htoc2">1.1</A>&nbsp;&nbsp;Introduction</H2><!--SEC END -->

The following is a collection of synonyms for various operations in
the computer algebra systems <FONT COLOR=purple>[Axiom]</FONT>, <FONT COLOR=purple>[Derive]</FONT>, <FONT COLOR=purple>[GAP]</FONT>, <FONT COLOR=purple>[Gmp]</FONT>, <FONT COLOR=purple>DoCon</FONT>,
<FONT COLOR=purple>[Macsyma]</FONT>, <FONT COLOR=purple>[Magnus]</FONT>, <FONT COLOR=purple>[Maxima]</FONT>, <FONT COLOR=purple>[Maple]</FONT>, <FONT COLOR=purple>[Mathematica]</FONT>, <FONT COLOR=purple>[MuPAD]</FONT>, <FONT COLOR=purple>[Octave]</FONT>,
<FONT COLOR=purple>[Pari]</FONT>, <FONT COLOR=purple>[Reduce]</FONT>, <FONT COLOR=purple>[Scilab]</FONT>, <FONT COLOR=purple>[Sumit]</FONT> and <FONT COLOR=purple>[Yacas]</FONT>. This collection does not
attempt to be comprehensive, but hopefully it will be useful in giving
an indication of how to translate between the syntaxes used by the
different systems in many common situations. Note that a blank entry
means either (a) that there may be an exact translation of a
particular operation for the indicated system, but we don't know what
it is or (b) there is no exact translation but it may still be
possible to work around this lack with a related functionality.<BR>
<BR>
While commercial systems are not provided on this CD the intent of the
Rosetta effort is to make it possible for experienced Computer Algebra
users to experiment with other systems. Thus the commands for
commercial systems are included to allow users of those systems to
translate.<BR>
<BR>
Some of these systems are special purpose and do not support a lot of
the functionality of the more general purpose systems. Where they do
support an interpreter the commands are provided.<BR>
<BR>
Originally written by Michael Wester.
Modified for Rosetta by Timothy Daly, Alexander Hulpke (GAP).<BR>
<BR>
<!--TOC section System availability-->

<H2><A NAME="htoc3">1.2</A>&nbsp;&nbsp;System availability</H2><!--SEC END -->
<BR>
<TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP>System</TD>
<TD ALIGN=left NOWRAP>License</TD>
<TD ALIGN=left NOWRAP>Status (May 2002)</TD>
<TD ALIGN=left NOWRAP>Web Location</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Axiom</FONT></TD>
<TD ALIGN=left NOWRAP>BSD</TD>
<TD ALIGN=left NOWRAP>available</TD>
<TD ALIGN=left NOWRAP>http://www.aldor.org</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Axiom</FONT></TD>
<TD ALIGN=left NOWRAP>open source</TD>
<TD ALIGN=left NOWRAP>alpha</TD>
<TD ALIGN=left NOWRAP>http://savannah.nongnu.org/projects/axiom</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Derive</FONT></TD>
<TD ALIGN=left NOWRAP>commercial</TD>
<TD ALIGN=left NOWRAP>available</TD>
<TD ALIGN=left NOWRAP>http://www.mathware.com</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>DoCon</FONT></TD>
<TD ALIGN=left NOWRAP>open source</TD>
<TD ALIGN=left NOWRAP>available</TD>
<TD ALIGN=left NOWRAP>http://www.haskell.org/docon</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>GAP</FONT></TD>
<TD ALIGN=left NOWRAP>GPL</TD>
<TD ALIGN=left NOWRAP>Rosetta</TD>
<TD ALIGN=left NOWRAP>http://www.gap-system.org/</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Gmp</FONT></TD>
<TD ALIGN=left NOWRAP>GPL</TD>
<TD ALIGN=left NOWRAP>Rosetta</TD>
<TD ALIGN=left NOWRAP>http://www.swox.com/gmp</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Macsyma</FONT></TD>
<TD ALIGN=left NOWRAP>commercial</TD>
<TD ALIGN=left NOWRAP>dead</TD>
<TD ALIGN=left NOWRAP>unavailable</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Magnus</FONT></TD>
<TD ALIGN=left NOWRAP>GPL</TD>
<TD ALIGN=left NOWRAP>Rosetta</TD>
<TD ALIGN=left NOWRAP>http://zebra.sci.ccny.cuny.edu/web</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Maxima</FONT></TD>
<TD ALIGN=left NOWRAP>GPL</TD>
<TD ALIGN=left NOWRAP>Rosetta</TD>
<TD ALIGN=left NOWRAP>http://maxima.sourceforge.net/</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Maple</FONT></TD>
<TD ALIGN=left NOWRAP>commercial</TD>
<TD ALIGN=left NOWRAP>available</TD>
<TD ALIGN=left NOWRAP>http://www.maplesoft.com</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Mathematica</FONT></TD>
<TD ALIGN=left NOWRAP>commercial</TD>
<TD ALIGN=left NOWRAP>available</TD>
<TD ALIGN=left NOWRAP>http://www.wolfram.com</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>MuPAD</FONT></TD>
<TD ALIGN=left NOWRAP>commercial</TD>
<TD ALIGN=left NOWRAP>available</TD>
<TD ALIGN=left NOWRAP>http://www.mupad.de</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Octave</FONT></TD>
<TD ALIGN=left NOWRAP>GPL</TD>
<TD ALIGN=left NOWRAP>Rosetta</TD>
<TD ALIGN=left NOWRAP>http://www.octave.org</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Pari</FONT></TD>
<TD ALIGN=left NOWRAP>GPL</TD>
<TD ALIGN=left NOWRAP>Rosetta</TD>
<TD ALIGN=left NOWRAP>http://www.parigp-home.de</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Reduce</FONT></TD>
<TD ALIGN=left NOWRAP>commercial</TD>
<TD ALIGN=left NOWRAP>available</TD>
<TD ALIGN=left NOWRAP>http://www.zib.de/Symbolik/reduce</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Scilab</FONT></TD>
<TD ALIGN=left NOWRAP>Scilab</TD>
<TD ALIGN=left NOWRAP>available</TD>
<TD ALIGN=left NOWRAP>http://www-rocq.inria.fr/scilab</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Sumit</FONT></TD>
<TD ALIGN=left NOWRAP>&nbsp;</TD>
<TD ALIGN=left NOWRAP>available</TD>
<TD ALIGN=left NOWRAP>http://www-sop.inria.fr/cafe/soft-f.html</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Yacas</FONT></TD>
<TD ALIGN=left NOWRAP>GPL</TD>
<TD ALIGN=left NOWRAP>available</TD>
<TD ALIGN=left NOWRAP>http://yacas.sourceforge.net</TD>
</TR></TABLE> <BR>
<BR>
<TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP>System</TD>
<TD ALIGN=left NOWRAP>Type</TD>
<TD ALIGN=left NOWRAP>Interpreted or Compiled</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Axiom</FONT></TD>
<TD ALIGN=left NOWRAP>General Purpose</TD>
<TD ALIGN=left NOWRAP>both</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Derive</FONT></TD>
<TD ALIGN=left NOWRAP>General Purpose</TD>
<TD ALIGN=left NOWRAP>&nbsp;</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>DoCon</FONT></TD>
<TD ALIGN=left NOWRAP>General Purpose</TD>
<TD ALIGN=left NOWRAP>Interpreted in Haskell</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>GAP</FONT></TD>
<TD ALIGN=left NOWRAP>Group Theory</TD>
<TD ALIGN=left NOWRAP>&nbsp;</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Gmp</FONT></TD>
<TD ALIGN=left NOWRAP>arb. prec. arithmetic</TD>
<TD ALIGN=left NOWRAP>&nbsp;</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Macsyma</FONT></TD>
<TD ALIGN=left NOWRAP>General Purpose</TD>
<TD ALIGN=left NOWRAP>&nbsp;</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Magnus</FONT></TD>
<TD ALIGN=left NOWRAP>Infinite Group Theory</TD>
<TD ALIGN=left NOWRAP>&nbsp;</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Maxima</FONT></TD>
<TD ALIGN=left NOWRAP>General Purpose</TD>
<TD ALIGN=left NOWRAP>&nbsp;</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Maple</FONT></TD>
<TD ALIGN=left NOWRAP>General Purpose</TD>
<TD ALIGN=left NOWRAP>&nbsp;</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Mathematica</FONT></TD>
<TD ALIGN=left NOWRAP>General Purpose</TD>
<TD ALIGN=left NOWRAP>&nbsp;</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>MuPAD</FONT></TD>
<TD ALIGN=left NOWRAP>General Purpose</TD>
<TD ALIGN=left NOWRAP>&nbsp;</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Octave</FONT></TD>
<TD ALIGN=left NOWRAP>Numerical Computing</TD>
<TD ALIGN=left NOWRAP>&nbsp;</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Pari</FONT></TD>
<TD ALIGN=left NOWRAP>Number Theory</TD>
<TD ALIGN=left NOWRAP>&nbsp;</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Reduce</FONT></TD>
<TD ALIGN=left NOWRAP>General Purpose</TD>
<TD ALIGN=left NOWRAP>&nbsp;</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Scilab</FONT></TD>
<TD ALIGN=left NOWRAP>General Purpose</TD>
<TD ALIGN=left NOWRAP>&nbsp;</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Sumit</FONT></TD>
<TD ALIGN=left NOWRAP>Functional Equations</TD>
<TD ALIGN=left NOWRAP>&nbsp;</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><FONT COLOR=purple>Yacas</FONT></TD>
<TD ALIGN=left NOWRAP>General Purpose</TD>
<TD ALIGN=left NOWRAP>&nbsp;</TD>
</TR></TABLE> <BR>
<!--TOC section Programming and Miscellaneous-->

<H2><A NAME="htoc4">1.3</A>&nbsp;&nbsp;Programming and Miscellaneous</H2><!--SEC END -->







=0pt
=1pt
<BR>
<TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP COLSPAN=2><TT></TT>Unix/Microsoft user initialization file<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>~/axiom.input</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>~/.gaprc</TT></TD>
<TD ALIGN=left NOWRAP><TT>GAP.RC</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>derive.ini</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>~/macsyma-init.macsyma</TT></TD>
<TD ALIGN=left NOWRAP><TT>mac-init.mac</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>~/macsyma-init.macsyma</TT></TD>
<TD ALIGN=left NOWRAP><TT>mac-init.mac</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>~/.mapleinit</TT></TD>
<TD ALIGN=left NOWRAP><TT>maplev5.ini</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>~/init.m</TT></TD>
<TD ALIGN=left NOWRAP><TT>init.m</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>~/.mupad/userinit.mu</TT></TD>
<TD ALIGN=left NOWRAP><TT>	\mupad\bin\userinit.mu</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>~/.reducerc</TT></TD>
<TD ALIGN=left NOWRAP><TT>reduce.rc</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Describe <EM>keyword</EM></TD>
<TD ALIGN=left NOWRAP><TT></TT>Find keywords containing <EM>pattern</EM><TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>)what operations pattern</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>?keyword</TT></TD>
<TD ALIGN=left NOWRAP><TT>??keyword</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>describe("keyword")$</TT></TD>
<TD ALIGN=left NOWRAP><TT>apropos("pattern");</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>describe("keyword")$</TT></TD>
<TD ALIGN=left NOWRAP><TT>apropos("pattern");</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>?keyword</TT></TD>
<TD ALIGN=left NOWRAP><TT>?pattern&nbsp;</TT><SUP><A NAME="text1" HREF="#note1"><TT>1</TT></A></SUP></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>?keyword</TT></TD>
<TD ALIGN=left NOWRAP><TT>?*pattern*</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>?keyword</TT></TD>
<TD ALIGN=left NOWRAP><TT>?*pattern*</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>help -i keyword</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
<BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD VALIGN=top ALIGN=center NOWRAP><TT><TT> </TT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Prev.</TD>
<TD ALIGN=left NOWRAP><TT></TT>Case</TD>
<TD ALIGN=left NOWRAP><TT></TT>Variables<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Comment</TD>
<TD VALIGN=top ALIGN=center NOWRAP><TT><TT> </TT></TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Line continuation</TD>
<TD ALIGN=left NOWRAP><TT></TT>expr.</TD>
<TD ALIGN=left NOWRAP><TT></TT>sensitive</TD>
<TD ALIGN=left NOWRAP><TT></TT>assumed<TT>
	</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>-- comment</TT></TD>
<TD VALIGN=top ALIGN=center NOWRAP><TT><TT> </TT></TT></TD>
<TD ALIGN=left NOWRAP><TT>input _&lt;CR&gt;input</TT></TD>
<TD ALIGN=left NOWRAP><TT>%</TT></TD>
<TD ALIGN=left NOWRAP><TT>Yes</TT></TD>
<TD ALIGN=left NOWRAP><TT>real</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>"comment"</TT></TD>
<TD VALIGN=top ALIGN=center NOWRAP><TT><TT> </TT></TT></TD>
<TD ALIGN=left NOWRAP><TT>input ~&lt;CR&gt;input</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>No</TT></TD>
<TD ALIGN=left NOWRAP><TT>real</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD VALIGN=top ALIGN=center NOWRAP><TT><TT> </TT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT># comment</TT></TD>
<TD VALIGN=top ALIGN=center NOWRAP><TT><TT> </TT></TT></TD>
<TD ALIGN=left NOWRAP><TT>input\&lt;CR&gt;input</TT></TD>
<TD ALIGN=left NOWRAP><TT>last</TT></TD>
<TD ALIGN=left NOWRAP><TT>Yes</TT></TD>
<TD ALIGN=left NOWRAP><TT>no assumption</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD VALIGN=top ALIGN=center NOWRAP><TT><TT> </TT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>/* comment */</TT></TD>
<TD VALIGN=top ALIGN=center NOWRAP><TT><TT> </TT></TT></TD>
<TD ALIGN=left NOWRAP><TT>input&lt;CR&gt;input;</TT></TD>
<TD ALIGN=left NOWRAP><TT>%</TT></TD>
<TD ALIGN=left NOWRAP><TT>No</TT></TD>
<TD ALIGN=left NOWRAP><TT>real</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD VALIGN=top ALIGN=center NOWRAP><TT><TT> </TT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>/* comment */</TT></TD>
<TD VALIGN=top ALIGN=center NOWRAP><TT><TT> </TT></TT></TD>
<TD ALIGN=left NOWRAP><TT>input&lt;CR&gt;input;</TT></TD>
<TD ALIGN=left NOWRAP><TT>%</TT></TD>
<TD ALIGN=left NOWRAP><TT>No</TT></TD>
<TD ALIGN=left NOWRAP><TT>real</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT># comment</TT></TD>
<TD VALIGN=top ALIGN=center NOWRAP><TT><TT> </TT></TT></TD>
<TD ALIGN=left NOWRAP><TT>input&lt;CR&gt;input;</TT></TD>
<TD ALIGN=left NOWRAP><TT>%</TT></TD>
<TD ALIGN=left NOWRAP><TT>Yes</TT></TD>
<TD ALIGN=left NOWRAP><TT>complex</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>(* comment *)</TT></TD>
<TD VALIGN=top ALIGN=center NOWRAP><TT><TT> </TT></TT></TD>
<TD ALIGN=left NOWRAP><TT>input&lt;CR&gt;input</TT></TD>
<TD ALIGN=left NOWRAP><TT>%</TT></TD>
<TD ALIGN=left NOWRAP><TT>Yes</TT></TD>
<TD ALIGN=left NOWRAP><TT>complex</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>/* comment */ or // comment</TT></TD>
<TD VALIGN=top ALIGN=center NOWRAP><TT><TT> </TT></TT></TD>
<TD ALIGN=left NOWRAP><TT>input&lt;CR&gt;input;</TT></TD>
<TD ALIGN=left NOWRAP><TT>%</TT></TD>
<TD ALIGN=left NOWRAP><TT>Yes</TT></TD>
<TD ALIGN=left NOWRAP><TT>complex</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>##</TT></TD>
<TD VALIGN=top ALIGN=center NOWRAP><TT><TT> </TT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>Yes</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD VALIGN=top ALIGN=center NOWRAP><TT><TT> </TT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>% comment</TT></TD>
<TD VALIGN=top ALIGN=center NOWRAP><TT><TT> </TT></TT></TD>
<TD ALIGN=left NOWRAP><TT>input&lt;CR&gt;input;</TT></TD>
<TD ALIGN=left NOWRAP><TT>ws</TT></TD>
<TD ALIGN=left NOWRAP><TT>No</TT></TD>
<TD ALIGN=left NOWRAP><TT>complex</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD VALIGN=top ALIGN=center NOWRAP><TT><TT> </TT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD VALIGN=top ALIGN=center NOWRAP><TT><TT> </TT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD VALIGN=top ALIGN=center NOWRAP><TT><TT> </TT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Load a file</TD>
<TD ALIGN=left NOWRAP><TT></TT>Time a command</TD>
<TD ALIGN=left NOWRAP><TT></TT>Quit<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>)read "file" )quiet</TT></TD>
<TD ALIGN=left NOWRAP><TT>)set messages time on</TT></TD>
<TD ALIGN=left NOWRAP><TT>)quit</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>![Transfer Load Derive]</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>![Quit]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Read("file");</TT></TD>
<TD ALIGN=left NOWRAP><TT>time; </TT>(also see <TT>Runtime();</TT>)</TD>
<TD ALIGN=left NOWRAP><TT>quit;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>load("file")$</TT></TD>
<TD ALIGN=left NOWRAP><TT>showtime: all$</TT></TD>
<TD ALIGN=left NOWRAP><TT>quit();</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>load("file")$</TT></TD>
<TD ALIGN=left NOWRAP><TT>showtime: all$</TT></TD>
<TD ALIGN=left NOWRAP><TT>quit();</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>read("file"):</TT></TD>
<TD ALIGN=left NOWRAP><TT>readlib(showtime): on;</TT></TD>
<TD ALIGN=left NOWRAP><TT>quit</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&lt;&lt; file</TT></TD>
<TD ALIGN=left NOWRAP><TT>Timing[command]</TT></TD>
<TD ALIGN=left NOWRAP><TT>Quit[]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>read("file"):</TT></TD>
<TD ALIGN=left NOWRAP><TT>time(command);</TT></TD>
<TD ALIGN=left NOWRAP><TT>quit</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>load file</TT></TD>
<TD ALIGN=left NOWRAP><TT>tic(); cmd ; toc()</TT></TD>
<TD ALIGN=left NOWRAP><TT>quit <EM>or </EM> exit</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>in "file"$</TT></TD>
<TD ALIGN=left NOWRAP><TT>on time;</TT></TD>
<TD ALIGN=left NOWRAP><TT>quit;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>quit</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Display</TD>
<TD ALIGN=left NOWRAP><TT></TT>Suppress</TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>output</TD>
<TD ALIGN=left NOWRAP><TT></TT>output</TD>
<TD ALIGN=left NOWRAP><TT></TT>Substitution: <I>f</I>(<I>x</I>, <I>y</I>) <FONT FACE=symbol>Â®</FONT> <I>f</I>(<I>z</I>, <I>w</I>)<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>input</TT></TD>
<TD ALIGN=left NOWRAP><TT>input;</TT></TD>
<TD ALIGN=left NOWRAP><TT>subst(f(x, y), ![x = z, y = w])</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>input</TT></TD>
<TD ALIGN=left NOWRAP><TT>var:= input</TT></TD>
<TD ALIGN=left NOWRAP><TT>![Manage Substitute]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>input;</TT></TD>
<TD ALIGN=left NOWRAP><TT>input;;</TT></TD>
<TD ALIGN=left NOWRAP><TT>Value(f,![x,y],![z,w]);</TT><SUP><A NAME="text2" HREF="#note2"><TT>2</TT></A></SUP></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>input;</TT></TD>
<TD ALIGN=left NOWRAP><TT>input$</TT></TD>
<TD ALIGN=left NOWRAP><TT>subst(![x = z, y = w], f(x, y));</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>input;</TT></TD>
<TD ALIGN=left NOWRAP><TT>input$</TT></TD>
<TD ALIGN=left NOWRAP><TT>subst(![x = z, y = w], f(x, y));</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>input;</TT></TD>
<TD ALIGN=left NOWRAP><TT>input:</TT></TD>
<TD ALIGN=left NOWRAP><TT>subs({x = z, y = w}, f(x, y));</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>input</TT></TD>
<TD ALIGN=left NOWRAP><TT>input;</TT></TD>
<TD ALIGN=left NOWRAP><TT>f![x, y] /. {x -&gt; z, y -&gt; w}</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>input;</TT></TD>
<TD ALIGN=left NOWRAP><TT>input:</TT></TD>
<TD ALIGN=left NOWRAP><TT>subs(f(x, y), ![x = z, y = w]);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>input</TT></TD>
<TD ALIGN=left NOWRAP><TT>input;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>input;</TT></TD>
<TD ALIGN=left NOWRAP><TT>input$</TT></TD>
<TD ALIGN=left NOWRAP><TT>sub({x = z, y = w}, f(x, y));</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Set</TD>
<TD ALIGN=left NOWRAP><TT></TT>List</TD>
<TD ALIGN=left NOWRAP><TT></TT>Matrix<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>set ![1, 2]</TT></TD>
<TD ALIGN=left NOWRAP><TT>![1, 2]</TT></TD>
<TD ALIGN=left NOWRAP><TT>matrix(![[1, 2],[3, 4]])</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>{1, 2}</TT></TD>
<TD ALIGN=left NOWRAP><TT>[1, 2]</TT></TD>
<TD ALIGN=left NOWRAP><TT>![[1,2], [3,4]]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Set([1,2])</TT></TD>
<TD ALIGN=left NOWRAP><TT>![1, 2]</TT></TD>
<TD ALIGN=left NOWRAP><TT>![[1,2], [3,4]]</TT><SUP><A NAME="text3" HREF="#note3"><TT>3</TT></A></SUP></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>![1, 2]</TT></TD>
<TD ALIGN=left NOWRAP><TT>![1, 2]</TT></TD>
<TD ALIGN=left NOWRAP><TT>matrix(![1, 2], [3, 4])</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>![1, 2]</TT></TD>
<TD ALIGN=left NOWRAP><TT>![1, 2]</TT></TD>
<TD ALIGN=left NOWRAP><TT>matrix(![1, 2], [3, 4])</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>{1, 2}</TT></TD>
<TD ALIGN=left NOWRAP><TT>![1, 2]</TT></TD>
<TD ALIGN=left NOWRAP><TT>matrix(![[1, 2], [3, 4]])</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>{1, 2}</TT></TD>
<TD ALIGN=left NOWRAP><TT>{1, 2}</TT></TD>
<TD ALIGN=left NOWRAP><TT>{{1, 2}, {3, 4}}</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>{1, 2}</TT></TD>
<TD ALIGN=left NOWRAP><TT>![1, 2]</TT></TD>
<TD ALIGN=left NOWRAP><TT>matrix(![![1, 2], ![3, 4]])</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>{1, 2}</TT></TD>
<TD ALIGN=left NOWRAP><TT>{1, 2}</TT></TD>
<TD ALIGN=left NOWRAP><TT>mat((1, 2), (3, 4))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>list(1,2)</TT></TD>
<TD ALIGN=left NOWRAP><TT>A=![1,2;3,4]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Equation</TD>
<TD ALIGN=left NOWRAP><TT></TT>List element</TD>
<TD ALIGN=left NOWRAP><TT></TT>Matrix element</TD>
<TD ALIGN=left NOWRAP><TT></TT>Length of a list<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>x = 0</TT></TD>
<TD ALIGN=left NOWRAP><TT>l . 2</TT></TD>
<TD ALIGN=left NOWRAP><TT>m(2, 3)</TT></TD>
<TD ALIGN=left NOWRAP><TT>#l</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>x = 0</TT></TD>
<TD ALIGN=left NOWRAP><TT>l SUB 2</TT></TD>
<TD ALIGN=left NOWRAP><TT>m SUB 2 SUB 3</TT></TD>
<TD ALIGN=left NOWRAP><TT>DIMENSION(l)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>x=0</TT></TD>
<TD ALIGN=left NOWRAP><TT>l![2]</TT></TD>
<TD ALIGN=left NOWRAP><TT>m![2]![3]</TT></TD>
<TD ALIGN=left NOWRAP><TT>Length(l)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>x = 0</TT></TD>
<TD ALIGN=left NOWRAP><TT>l![2]</TT></TD>
<TD ALIGN=left NOWRAP><TT>m![2, 3]</TT></TD>
<TD ALIGN=left NOWRAP><TT>length(l)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>x = 0</TT></TD>
<TD ALIGN=left NOWRAP><TT>l[2]</TT></TD>
<TD ALIGN=left NOWRAP><TT>m[2, 3]</TT></TD>
<TD ALIGN=left NOWRAP><TT>length(l)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>x = 0</TT></TD>
<TD ALIGN=left NOWRAP><TT>l![2]</TT></TD>
<TD ALIGN=left NOWRAP><TT>m![2, 3]</TT></TD>
<TD ALIGN=left NOWRAP><TT>nops(l)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>x == 0</TT></TD>
<TD ALIGN=left NOWRAP><TT>l![[2]]</TT></TD>
<TD ALIGN=left NOWRAP><TT>m![[2, 3]]</TT></TD>
<TD ALIGN=left NOWRAP><TT>Length![l]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>x = 0</TT></TD>
<TD ALIGN=left NOWRAP><TT>l![2]</TT></TD>
<TD ALIGN=left NOWRAP><TT>m![2, 3]</TT></TD>
<TD ALIGN=left NOWRAP><TT>nops(l)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>x = 0</TT></TD>
<TD ALIGN=left NOWRAP><TT>part(l, 2)</TT></TD>
<TD ALIGN=left NOWRAP><TT>m(2, 3)</TT></TD>
<TD ALIGN=left NOWRAP><TT>length(l)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>l(2)</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP COLSPAN=2><TT></TT>Prepend/append an element to a list</TD>
<TD ALIGN=left NOWRAP><TT></TT>Append two lists<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>cons(e, l)</TT></TD>
<TD ALIGN=left NOWRAP><TT>concat(l, e)</TT></TD>
<TD ALIGN=left NOWRAP><TT>append(l1, l2)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>APPEND([e], l)</TT></TD>
<TD ALIGN=left NOWRAP><TT>APPEND(l, [e])</TT></TD>
<TD ALIGN=left NOWRAP><TT>APPEND(l1, l2)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Concatenation([e],l)</TT></TD>
<TD ALIGN=left NOWRAP><TT>Add(l,e)</TT></TD>
<TD ALIGN=left NOWRAP><TT>Append(l1, l2)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>cons(e, l)</TT></TD>
<TD ALIGN=left NOWRAP><TT>endcons(e, l)</TT></TD>
<TD ALIGN=left NOWRAP><TT>append(l1, l2)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>cons(e, l)</TT></TD>
<TD ALIGN=left NOWRAP><TT>endcons(e, l)</TT></TD>
<TD ALIGN=left NOWRAP><TT>append(l1, l2)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>[e, op(l)]</TT></TD>
<TD ALIGN=left NOWRAP><TT>[op(l), e]</TT></TD>
<TD ALIGN=left NOWRAP><TT>[op(l1), op(l2)]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Prepend![l, e]</TT></TD>
<TD ALIGN=left NOWRAP><TT>Append![l, e]</TT></TD>
<TD ALIGN=left NOWRAP><TT>Join![l1, l2]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>![e] . l</TT></TD>
<TD ALIGN=left NOWRAP><TT>append(l, e)</TT></TD>
<TD ALIGN=left NOWRAP><TT>l1 . l2</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>e . l</TT></TD>
<TD ALIGN=left NOWRAP><TT>append(l, e)</TT></TD>
<TD ALIGN=left NOWRAP><TT>append(l1, l2)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Matrix column dimension</TD>
<TD ALIGN=left NOWRAP><TT></TT>Convert a list into a column vector<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>ncols(m)</TT></TD>
<TD ALIGN=left NOWRAP><TT>transpose(matrix(![l]))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>DIMENSION(m SUB 1)</TT></TD>
<TD ALIGN=left NOWRAP><TT>[l]`</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Length(mat[1])</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>objects are identical<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>mat_&nbsp;ncols(m)</TT></TD>
<TD ALIGN=left NOWRAP><TT>transpose(matrix(l))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>mat_&nbsp;ncols(m)</TT></TD>
<TD ALIGN=left NOWRAP><TT>transpose(matrix(l))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>linalg[coldim](m)</TT></TD>
<TD ALIGN=left NOWRAP><TT>linalg[transpose](matrix([l]))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Dimensions![m]![[2]]</TT></TD>
<TD ALIGN=left NOWRAP><TT>Transpose![{l}]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>linalg::ncols(m)</TT></TD>
<TD ALIGN=left NOWRAP><TT>linalg::transpose(matrix(![l]))&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>load_&nbsp;package(linalg)$</TT></TD>
<TD ALIGN=left NOWRAP><TT>matrix v(length(l), 1)$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>column_dim(m)</TT></TD>
<TD ALIGN=left NOWRAP><TT>for i:=1:length(l) do</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;&nbsp;&nbsp;v(i, 1):= part(l, i)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
<BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Convert a column vector into a list<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>parts(v)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>v` SUB 1</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>objects are identical<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>part(transpose(v), 1)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>part(transpose(v), 1)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>op(convert(linalg[transpose](v), listlist))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Flatten![v]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>![op(v)]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>load_&nbsp;package(linalg)$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>for i:=1:row_&nbsp;dim(v) collect(v(i, 1))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>True</TD>
<TD ALIGN=left NOWRAP><TT></TT>False</TD>
<TD ALIGN=left NOWRAP><TT></TT>And</TD>
<TD ALIGN=left NOWRAP><TT></TT>Or</TD>
<TD ALIGN=left NOWRAP><TT></TT>Not</TD>
<TD ALIGN=left NOWRAP><TT></TT>Equal</TD>
<TD ALIGN=left NOWRAP><TT></TT>Not equal<TT>
	</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>true</TT></TD>
<TD ALIGN=left NOWRAP><TT>false</TT></TD>
<TD ALIGN=left NOWRAP><TT>and</TT></TD>
<TD ALIGN=left NOWRAP><TT>or</TT></TD>
<TD ALIGN=left NOWRAP><TT>not</TT></TD>
<TD ALIGN=left NOWRAP><TT>=</TT></TD>
<TD ALIGN=left NOWRAP><TT>~=</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>TRUE</TT></TD>
<TD ALIGN=left NOWRAP><TT>FALSE</TT></TD>
<TD ALIGN=left NOWRAP><TT>AND</TT></TD>
<TD ALIGN=left NOWRAP><TT>OR</TT></TD>
<TD ALIGN=left NOWRAP><TT>NOT</TT></TD>
<TD ALIGN=left NOWRAP><TT>=</TT></TD>
<TD ALIGN=left NOWRAP><TT>/=</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>true</TT></TD>
<TD ALIGN=left NOWRAP><TT>false</TT><SUP><A NAME="text4" HREF="#note4"><TT>4</TT></A></SUP></TD>
<TD ALIGN=left NOWRAP><TT>and</TT></TD>
<TD ALIGN=left NOWRAP><TT>or</TT></TD>
<TD ALIGN=left NOWRAP><TT>not</TT></TD>
<TD ALIGN=left NOWRAP><TT>=</TT></TD>
<TD ALIGN=left NOWRAP><TT>&lt;&gt;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>true</TT></TD>
<TD ALIGN=left NOWRAP><TT>false</TT></TD>
<TD ALIGN=left NOWRAP><TT>and</TT></TD>
<TD ALIGN=left NOWRAP><TT>or</TT></TD>
<TD ALIGN=left NOWRAP><TT>not</TT></TD>
<TD ALIGN=left NOWRAP><TT>=</TT></TD>
<TD ALIGN=left NOWRAP><TT>#</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>true</TT></TD>
<TD ALIGN=left NOWRAP><TT>false</TT></TD>
<TD ALIGN=left NOWRAP><TT>and</TT></TD>
<TD ALIGN=left NOWRAP><TT>or</TT></TD>
<TD ALIGN=left NOWRAP><TT>not</TT></TD>
<TD ALIGN=left NOWRAP><TT>=</TT></TD>
<TD ALIGN=left NOWRAP><TT>#</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>true</TT></TD>
<TD ALIGN=left NOWRAP><TT>false</TT></TD>
<TD ALIGN=left NOWRAP><TT>and</TT></TD>
<TD ALIGN=left NOWRAP><TT>or</TT></TD>
<TD ALIGN=left NOWRAP><TT>not</TT></TD>
<TD ALIGN=left NOWRAP><TT>=</TT></TD>
<TD ALIGN=left NOWRAP><TT>&lt;&gt;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>True</TT></TD>
<TD ALIGN=left NOWRAP><TT>False</TT></TD>
<TD ALIGN=left NOWRAP><TT>&amp;&amp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>||</TT></TD>
<TD ALIGN=left NOWRAP><TT>!</TT></TD>
<TD ALIGN=left NOWRAP><TT>==</TT></TD>
<TD ALIGN=left NOWRAP><TT>!=</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>TRUE</TT></TD>
<TD ALIGN=left NOWRAP><TT>FALSE</TT></TD>
<TD ALIGN=left NOWRAP><TT>and</TT></TD>
<TD ALIGN=left NOWRAP><TT>or</TT></TD>
<TD ALIGN=left NOWRAP><TT>not</TT></TD>
<TD ALIGN=left NOWRAP><TT>=</TT></TD>
<TD ALIGN=left NOWRAP><TT>&lt;&gt;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>t</TT></TD>
<TD ALIGN=left NOWRAP><TT>nil</TT></TD>
<TD ALIGN=left NOWRAP><TT>and</TT></TD>
<TD ALIGN=left NOWRAP><TT>or</TT></TD>
<TD ALIGN=left NOWRAP><TT>not</TT></TD>
<TD ALIGN=left NOWRAP><TT>=</TT></TD>
<TD ALIGN=left NOWRAP><TT>neq</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>%t</TT></TD>
<TD ALIGN=left NOWRAP><TT>%f</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>If+then+else statements</TD>
<TD ALIGN=left NOWRAP><TT></TT>Strings (concatenated)<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>if _ then _ else if _ then _ else _</TT></TD>
<TD ALIGN=left NOWRAP><TT>concat(!["x", "y"])</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>IF(_, _, IF(_, _, _))</TT></TD>
<TD ALIGN=left NOWRAP><TT>"xy"</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>if _ then _ elif _ then _ else _ fi</TT></TD>
<TD ALIGN=left NOWRAP><TT>Concatenation("x","y")</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>if _ then _ else if _ then _ else _</TT></TD>
<TD ALIGN=left NOWRAP><TT>concat("x", "y")</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>if _ then _ else if _ then _ else _</TT></TD>
<TD ALIGN=left NOWRAP><TT>concat("x", "y")</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>if _ then _ elif _ then _ else _ fi</TT></TD>
<TD ALIGN=left NOWRAP><TT>"x" . "y"</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>![_, _, If![_, _, _]![_, _, If![_, _, _]]</TT></TD>
<TD ALIGN=left NOWRAP><TT>"x" &lt;&gt; "y"</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>if _ then _ elif _ then _ else _</TT></TD>
<TD ALIGN=left NOWRAP><TT>"x" . "y"</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;&nbsp;&nbsp;end_if</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>if _ then _ else if _ then _ else _</TT></TD>
<TD ALIGN=left NOWRAP><TT>"xy" <EM>or </EM> mkid(x, y)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Simple loop and Block</TD>
<TD ALIGN=left NOWRAP><TT></TT>Generate the list ![1, 2, ..., <I>n</I>]<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>for i in 1..n repeat ( x; y )</TT></TD>
<TD ALIGN=left NOWRAP><TT>[f(i) for i in 1..n]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>VECTOR([x, y], i, 1, n)</TT></TD>
<TD ALIGN=left NOWRAP><TT>VECTOR(f(i), i, 1, n)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>for i in ![1..n] do _ od;</TT></TD>
<TD ALIGN=left NOWRAP><TT>[1..n] </TT>or<TT> [1,2..n]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>for i:1 thru n do (x, y);</TT></TD>
<TD ALIGN=left NOWRAP><TT>makelist(f(i), i, 1, n);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>for i:1 thru n do (x, y);</TT></TD>
<TD ALIGN=left NOWRAP><TT>makelist(f(i), i, 1, n);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>for i from 1 to n do x; y od;</TT></TD>
<TD ALIGN=left NOWRAP><TT>![f(i) $ i = 1..n];</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Do![x; y, {i, 1, n}]</TT></TD>
<TD ALIGN=left NOWRAP><TT>Table![f[i], {i, 1, n}]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>for i from 1 to n do x; y</TT></TD>
<TD ALIGN=left NOWRAP><TT>![f(i) $ i = 1..n];</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;&nbsp;&nbsp;end_for;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>for i:=1:n do &lt;&lt;x; y&gt;&gt;;</TT></TD>
<TD ALIGN=left NOWRAP><TT>for i:=1:n collect f(i);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Complex loop iterating on a list<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>for x in ![2, 3, 5] while x**2 &lt; 10 repeat output(x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>for x in ![2, 3, 5] do while x^2&lt;10 do Print(x);od;od;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>for x in ![2, 3, 5] while x^2 &lt; 10 do print(x)$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>for x in ![2, 3, 5] while x^2 &lt; 10 do print(x)$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>for x in ![2, 3, 5] while x^2 &lt; 10 do print(x) od:</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>For[l = {2, 3, 5}, l != {} &amp;&amp; l[[1]]^2 &lt; 10,</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;l = Rest![l], Print![l[[1]]] ]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>for x in ![2, 3, 5] do if x^2 &lt; 10 then print(x) end_if</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;end_for:</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>for each x in {2, 3, 5} do if x^2 &lt; 10 then write(x)$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Assignment</TD>
<TD ALIGN=left NOWRAP><TT></TT>Function definition</TD>
<TD ALIGN=left NOWRAP><TT></TT>Clear vars and funs<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>y:= f(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>f(x, y) == x*y</TT></TD>
<TD ALIGN=left NOWRAP><TT>	)clear properties y f</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>y:= f(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>f(x, y):= x*y</TT></TD>
<TD ALIGN=left NOWRAP><TT>y:= f:=</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>y:= f(x);</TT></TD>
<TD ALIGN=left NOWRAP><TT>f:=function(x, y) return x*y; end;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>There are
no symbolic variables</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>y: f(x);</TT></TD>
<TD ALIGN=left NOWRAP><TT>f(x, y):= x*y;</TT></TD>
<TD ALIGN=left NOWRAP><TT>remvalue(y)$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>remfunction(f)$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>y: f(x);</TT></TD>
<TD ALIGN=left NOWRAP><TT>f(x, y):= x*y;</TT></TD>
<TD ALIGN=left NOWRAP><TT>remvalue(y)$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>remfunction(f)$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>y:= f(x);</TT></TD>
<TD ALIGN=left NOWRAP><TT>f:= proc(x, y) x*y end;</TT></TD>
<TD ALIGN=left NOWRAP><TT>y:= 'y': f:= 'f':</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>y = f[x]</TT></TD>
<TD ALIGN=left NOWRAP><TT>f![x_, y_&nbsp;]:= x*y</TT></TD>
<TD ALIGN=left NOWRAP><TT>Clear![y, f]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>y:= f(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>(x, y) -> x*y</TT></TD>
<TD ALIGN=left NOWRAP><TT>delete y, f</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>f:= proc(x, y)</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;&nbsp;&nbsp;begin x*y end_proc</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>y:= f(x);</TT></TD>
<TD ALIGN=left NOWRAP><TT>procedure f(x, y); x*y;</TT></TD>
<TD ALIGN=left NOWRAP><TT>clear y, f;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Function definition with a local variable<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>f(x) == (local n; n:= 2; n*x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>f:=function(x) local n; n:=2;return n*x; end;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>f(x):= block([n], n: 2, n*x);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>f(x):= block(![n], n: 2, n*x);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>f:= proc(x) local n; n:= 2; n*x end;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>f[x_&nbsp;]:= Module[{n}, n = 2; n*x]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>f:= proc(x) local n; begin n:= 2; n*x end_proc;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>procedure f(x); begin scalar n; n:= 2; return(n*x) end;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Return unevaluated symbol</TD>
<TD ALIGN=left NOWRAP><TT></TT>Define a function from an expression<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>e:= x*y;&nbsp;&nbsp;'e</TT></TD>
<TD ALIGN=left NOWRAP><TT>function(e, f, x, y)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>e:= x*y&nbsp;&nbsp;'e</TT></TD>
<TD ALIGN=left NOWRAP><TT>f(x, y):== e</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>No unevaluated symbols<SUP><A NAME="text6" HREF="#note6"><TT>6</TT></A></SUP></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>e: x*y$&nbsp;&nbsp;'e;</TT></TD>
<TD ALIGN=left NOWRAP><TT>define(f(x, y), e);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>e: x*y$&nbsp;&nbsp;'e;</TT></TD>
<TD ALIGN=left NOWRAP><TT>define(f(x, y), e);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>e:= x*y:&nbsp;&nbsp;'e';</TT></TD>
<TD ALIGN=left NOWRAP><TT>f:= unapply(e, x, y);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>e = x*y;&nbsp;&nbsp;HoldForm[e]</TT></TD>
<TD ALIGN=left NOWRAP><TT>f[x_, y_&nbsp;] = e</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>e:= x*y:&nbsp;&nbsp;hold(e);</TT></TD>
<TD ALIGN=left NOWRAP><TT>f:= hold(func)(e, x, y);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>e:= x*y$</TT></TD>
<TD ALIGN=left NOWRAP><TT>for all x, y let f(x, y):= e;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>

<BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Fun. of an indefinite number of args</TD>
<TD ALIGN=left NOWRAP><TT></TT>Apply ``+'' to sum a list<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>reduce(+, [1, 2])</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>LST l:= l</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>lst:=function(args) _ end;</TT></TD>
<TD ALIGN=left NOWRAP><TT>Sum([1,2])</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>lst([l]):= l;</TT></TD>
<TD ALIGN=left NOWRAP><TT>apply("+", ![1, 2])</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>lst(![l]):= l;</TT></TD>
<TD ALIGN=left NOWRAP><TT>apply("+", [1, 2])</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>lst:=proc() [args[1..nargs]] end;</TT></TD>
<TD ALIGN=left NOWRAP><TT>convert(![1, 2], `+`)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>lst![l_&nbsp;_&nbsp;_&nbsp;]:= {l}</TT></TD>
<TD ALIGN=left NOWRAP><TT>Apply![Plus, {1, 2}]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>lst:= proc() begin [args()]</TT></TD>
<TD ALIGN=left NOWRAP><TT>_plus(op([1, 2]))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;end_&nbsp;proc;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>xapply(+, {1, 2})&nbsp;</TT><SUP><A NAME="text5" HREF="#note5"><TT>5</TT></A></SUP></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>

<BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Apply a fun. to a</TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>list of its args</TD>
<TD ALIGN=left NOWRAP><TT></TT>Map an anonymous function onto a list<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>reduce(f, l)</TT></TD>
<TD ALIGN=left NOWRAP><TT>map(x +-&gt; x + y, [1, 2])</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>x:= ![1, 2]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>VECTOR(x SUB i + y, i, 1, DIMENSION(x))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>List(l,f)</TT></TD>
<TD ALIGN=left NOWRAP><TT>List(![1,2],x-&gt;x+y)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>apply(f, l)</TT></TD>
<TD ALIGN=left NOWRAP><TT>map(lambda(![x], x + y), ![1, 2])</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>apply(f, l)</TT></TD>
<TD ALIGN=left NOWRAP><TT>map(lambda(![x], x + y), ![1, 2])</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>f(op(l))</TT></TD>
<TD ALIGN=left NOWRAP><TT>map(x -&gt; x + y, ![1, 2])</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Apply![f, l]</TT></TD>
<TD ALIGN=left NOWRAP><TT>Map[# + y &amp;, {1, 2}]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>f(op(l))</TT></TD>
<TD ALIGN=left NOWRAP><TT>map(![1, 2], x -> x + y)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>xapply(f, l)&nbsp;</TT><SUP><A NAME="text6" HREF="#note6"><TT>6</TT></A></SUP></TD>
<TD ALIGN=left NOWRAP><TT>for each x in {1, 2} collect x + y</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Pattern matching: <I>f</I>(3 <I>y</I>) + <I>f</I>(<I>z</I> <I>y</I>) <FONT FACE=symbol>Â®</FONT> 3 <I>f</I>(<I>y</I>) + <I>f</I>(<I>z</I> <I>y</I>)<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>f:= operator('f);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>( rule f((n | integer?(n)) * x) == n*f(x) )( _</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;&nbsp;&nbsp;f(3*y) + f(z*y))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>matchdeclare(n, integerp, x, true)$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>defrule(fnx, f(n*x), n*f(x))$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>apply1(f(3*y) + f(z*y), fnx);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>matchdeclare(n, integerp, x, true)$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>defrule(fnx, f(n*x), n*f(x))$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>apply1(f(3*y) + f(z*y), fnx);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>map(proc(q) local m;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;if match(q = f(n*y), y, 'm') and</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;type(rhs(op(m)), integer) then</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;subs(m, n * f(y)) else q fi</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;&nbsp;&nbsp;end,</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;&nbsp;&nbsp;f(3*y) + f(z*y));</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>f![3*y] + f![z*y] /. f[n_Integer * x_&nbsp;] -&gt; n*f[x]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>operator f;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>f(3*y) + f(z*y)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;&nbsp;&nbsp;where {f(~n * ~x) =&gt; n*f(x) when fixp(n)};</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Define a new infix operator and then use it<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>One can overload existing infix operators for ones own purposes</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>infix("~")$ &nbsp;&nbsp;"~"(x, y):= sqrt(x^2 + y^2)$ &nbsp;&nbsp;	3 ~ 4;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>infix("~")$ &nbsp;&nbsp;"~"(x, y):= sqrt(x^2 + y^2)$ &nbsp;&nbsp;	3 ~ 4;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>`&amp;~`:= (x, y) -&gt; sqrt(x^2 + y^2): &nbsp;&nbsp;3 &amp;~ 4;
	</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>x_ \[Tilde] y_:= Sqrt[x^2 + y^2]; &nbsp;&nbsp;	3 \[Tilde] 4</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>tilde:= proc(x, y) begin sqrt(x^2 + y^2) end_&nbsp;proc:</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;operator("~", tilde, Binary, 100):</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;3 ~ 4;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>infix |$ &nbsp;&nbsp;procedure |(x, y); sqrt(x^2 + y^2)$ &nbsp;&nbsp;	3 | 4;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Main expression</TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>operator</TD>
<TD ALIGN=left NOWRAP><TT></TT>1<SUP><FONT SIZE=2>1 <I>th</I> <I>st</I> <I>nd</I> <I>rd</I></FONT></SUP> operand</TD>
<TD ALIGN=left NOWRAP><TT></TT>List of expression operands<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT><SUP><A NAME="text9" HREF="#note9"><TT>7</TT></A></SUP></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>kernels(e) . 1</TT></TD>
<TD ALIGN=left NOWRAP><TT>kernels(e)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT><EM>various</EM></TT><SUP><A NAME="text10" HREF="#note10"><TT>8</TT></A></SUP></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP COLSPAN=3><TT></TT>There are no formal unevaluated expressions</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>part(e, 0)</TT></TD>
<TD ALIGN=left NOWRAP><TT>part(e, 1)</TT></TD>
<TD ALIGN=left NOWRAP><TT>args(e)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>part(e, 0)</TT></TD>
<TD ALIGN=left NOWRAP><TT>part(e, 1)</TT></TD>
<TD ALIGN=left NOWRAP><TT>args(e)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>op(0, e)</TT></TD>
<TD ALIGN=left NOWRAP><TT>op(1, e)</TT></TD>
<TD ALIGN=left NOWRAP><TT>[op(e)]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Head[e]</TT></TD>
<TD ALIGN=left NOWRAP><TT>e[[1]]</TT></TD>
<TD ALIGN=left NOWRAP><TT>ReplacePart[e, List, 0]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>op(e, 0)</TT></TD>
<TD ALIGN=left NOWRAP><TT>op(e, 1)</TT></TD>
<TD ALIGN=left NOWRAP><TT>[op(e)]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>part(e, 0)</TT></TD>
<TD ALIGN=left NOWRAP><TT>part(e, 1)</TT></TD>
<TD ALIGN=left NOWRAP><TT>for i:=1:arglength(e)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;&nbsp;&nbsp;collect part(e, i)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>

<BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Print text and results<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>output(concat(["sin(", string(0), ") = ",</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;string(sin(0))]));</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>"sin(0)" = sin(0)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Print("There is no sin, but factors(10)= ",Factors(10),
"\n")</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>print("sin(", 0, ") =", sin(0))$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>print("sin(", 0, ") =", sin(0))$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>printf("sin(%a) = %a\n", 0, sin(0)):</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Print[StringForm["sin(``) = ``", 0, Sin[0]]];</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>print(Unquoted, "sin(".0.")" = sin(0)):</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>write("sin(", 0, ") = ", sin(0))$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Generate FORTRAN</TD>
<TD ALIGN=left NOWRAP><TT></TT>Generate TeX/L<sup>A</sup>T<sub>E</sub>X<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>outputAsFortran(e)</TT></TD>
<TD ALIGN=left NOWRAP><TT>outputAsTex(e)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>[Transfer Save Fortran]</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>Print(LaTeX(e));</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>fortran(e)$ <EM>or </EM>gentran(eval(e))$</TT></TD>
<TD ALIGN=left NOWRAP><TT>tex(e);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>fortran(e)$ <EM>or </EM>gentran(eval(e))$</TT></TD>
<TD ALIGN=left NOWRAP><TT>tex(e);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>fortran([e]);</TT></TD>
<TD ALIGN=left NOWRAP><TT>latex(e);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>FortranForm[e]</TT></TD>
<TD ALIGN=left NOWRAP><TT>TexForm[e]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>generate::fortran(e);</TT></TD>
<TD ALIGN=left NOWRAP><TT>generate::TeX(e);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>on fort; &nbsp;&nbsp;e; &nbsp;&nbsp;off fort; <EM>or </EM></TT></TD>
<TD ALIGN=left NOWRAP><TT>load_&nbsp;package(tri)$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>load_&nbsp;package(gentran)$ gentran e;</TT></TD>
<TD ALIGN=left NOWRAP><TT>on TeX; e; off TeX;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Import two space separated columns of integers from <TT>file</TT><TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>[Transfer Load daTa] (</TT>from<TT> file.dat)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>xy: read_num_data_to_matrix("file", nrows, 2)$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>xy: read_num_data_to_matrix("file", nrows, 2)$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>xy:= readdata("file", integer, 2):</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>xy = ReadList["file", Number, RecordLists -&gt; True]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>data := import::readdata("file")</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Export two space separated columns of integers to <TT>file</TT><SUP><A NAME="text11" HREF="#note11">7</A></SUP><TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>)set output algebra "file" &nbsp;&nbsp;(</TT>creates<TT> file.spout)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>for i in 1..n repeat output( _</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;concat([string(xy(i, 1)), " ", string(xy(i, 2))]) )</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>)set output algebra console</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>xy [Transfer Print Expressions File]&nbsp;&nbsp;(</TT>creates<TT> file.prt)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>PrintTo("file");for i in [1..n] do</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;AppendTo("file",xy![i]![1]," ",xy![i]![2],"\n");od;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>writefile("file")$ &nbsp;&nbsp;for i:1 thru n do</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;print(xy![i, 1], xy![i, 2])$ &nbsp;&nbsp;closefile()$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>writefile("file")$ &nbsp;&nbsp;for i:1 thru n do</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;print(xy[i, 1], xy[i, 2])$ &nbsp;&nbsp;closefile()$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>writedata("file", xy);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>outfile = OpenWrite!["file"];</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>Do[WriteString[outfile,</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;xy![[i, 1]], " ", xy![[i, 2]], "\n"], {i, 1, n}]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>Close[outfile];</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>fprint(Unquoted, Text, "file",</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;(xy[i, 1], " ", xy![i, 2], "\n") $ i = 1..n):</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>out "file"; &nbsp;&nbsp;for i:=1:n do</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;write(xy(i, 1), " ", xy(i, 2)); &nbsp;&nbsp;shut "file";</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><BR>
<BR>
<!--TOC section <TT>Mathematics and Graphics</TT>-->

<H2><A NAME="htoc5"><TT>1.4</TT></A><TT>&nbsp;&nbsp;Mathematics and Graphics</TT></H2><!--SEC END -->
<TT></TT>
Since <FONT COLOR=purple>GAP</FONT> aims at discrete mathematics, it does not provide much of
the calculus functionality listed in the following section.<BR>
<TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT><I>e</I></TT></TD>
<TD ALIGN=left NOWRAP><TT><FONT FACE=symbol>p</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT><I>i</I></TT></TD>
<TD ALIGN=left NOWRAP><TT>+<FONT FACE=symbol>Â¥</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>2</TT></TD>
<TD ALIGN=left NOWRAP><TT>2</TT><SUP><TT><FONT SIZE=2>1/3</FONT></TT></SUP><TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>%e</TT></TD>
<TD ALIGN=left NOWRAP><TT>%pi</TT></TD>
<TD ALIGN=left NOWRAP><TT>%i</TT></TD>
<TD ALIGN=left NOWRAP><TT>%plusInfinity</TT></TD>
<TD ALIGN=left NOWRAP><TT>sqrt(2)</TT></TD>
<TD ALIGN=left NOWRAP><TT>2**(1/3)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>#e</TT></TD>
<TD ALIGN=left NOWRAP><TT>pi</TT></TD>
<TD ALIGN=left NOWRAP><TT>#i</TT></TD>
<TD ALIGN=left NOWRAP><TT>inf</TT></TD>
<TD ALIGN=left NOWRAP><TT>SQRT(2)</TT></TD>
<TD ALIGN=left NOWRAP><TT>2^(1/3)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>E(4)</TT></TD>
<TD ALIGN=left NOWRAP><TT>infinity</TT></TD>
<TD ALIGN=left NOWRAP><TT>ER(2)</TT><SUP><A NAME="text12" HREF="#note12"><TT>8</TT></A></SUP></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>%e</TT></TD>
<TD ALIGN=left NOWRAP><TT>%pi</TT></TD>
<TD ALIGN=left NOWRAP><TT>%i</TT></TD>
<TD ALIGN=left NOWRAP><TT>inf</TT></TD>
<TD ALIGN=left NOWRAP><TT>sqrt(2)</TT></TD>
<TD ALIGN=left NOWRAP><TT>2^(1/3)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>%e</TT></TD>
<TD ALIGN=left NOWRAP><TT>%pi</TT></TD>
<TD ALIGN=left NOWRAP><TT>%i</TT></TD>
<TD ALIGN=left NOWRAP><TT>inf</TT></TD>
<TD ALIGN=left NOWRAP><TT>sqrt(2)</TT></TD>
<TD ALIGN=left NOWRAP><TT>2^(1/3)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>exp(1)</TT></TD>
<TD ALIGN=left NOWRAP><TT>Pi</TT></TD>
<TD ALIGN=left NOWRAP><TT>I</TT></TD>
<TD ALIGN=left NOWRAP><TT>infinity</TT></TD>
<TD ALIGN=left NOWRAP><TT>sqrt(2)</TT></TD>
<TD ALIGN=left NOWRAP><TT>2^(1/3)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>E</TT></TD>
<TD ALIGN=left NOWRAP><TT>Pi</TT></TD>
<TD ALIGN=left NOWRAP><TT>I</TT></TD>
<TD ALIGN=left NOWRAP><TT>Infinity</TT></TD>
<TD ALIGN=left NOWRAP><TT>Sqrt[2]</TT></TD>
<TD ALIGN=left NOWRAP><TT>2^(1/3)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>E</TT></TD>
<TD ALIGN=left NOWRAP><TT>PI</TT></TD>
<TD ALIGN=left NOWRAP><TT>I</TT></TD>
<TD ALIGN=left NOWRAP><TT>infinity</TT></TD>
<TD ALIGN=left NOWRAP><TT>sqrt(2)</TT></TD>
<TD ALIGN=left NOWRAP><TT>2^(1/3)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>e</TT></TD>
<TD ALIGN=left NOWRAP><TT>pi</TT></TD>
<TD ALIGN=left NOWRAP><TT>i</TT></TD>
<TD ALIGN=left NOWRAP><TT>infinity</TT></TD>
<TD ALIGN=left NOWRAP><TT>sqrt(2)</TT></TD>
<TD ALIGN=left NOWRAP><TT>2^(1/3)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>

<BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Euler's constant</TD>
<TD ALIGN=left NOWRAP><TT></TT>Natural log</TD>
<TD ALIGN=left NOWRAP><TT></TT>Arctangent</TD>
<TD ALIGN=left NOWRAP><TT><I>n</I>!</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>log(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>atan(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>factorial(n)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>euler_&nbsp;gamma</TT></TD>
<TD ALIGN=left NOWRAP><TT>LOG(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>ATAN(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>n!</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>LogInt(x,base)</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>Factorial(n)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>%gamma</TT></TD>
<TD ALIGN=left NOWRAP><TT>log(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>atan(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>n!</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>%gamma</TT></TD>
<TD ALIGN=left NOWRAP><TT>log(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>atan(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>n!</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>gamma</TT></TD>
<TD ALIGN=left NOWRAP><TT>log(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>arctan(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>n!</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>EulerGamma</TT></TD>
<TD ALIGN=left NOWRAP><TT>Log[x]</TT></TD>
<TD ALIGN=left NOWRAP><TT>ArcTan[x]</TT></TD>
<TD ALIGN=left NOWRAP><TT>n!</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>EULER</TT></TD>
<TD ALIGN=left NOWRAP><TT>ln(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>atan(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>n!</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Euler_&nbsp;Gamma</TT></TD>
<TD ALIGN=left NOWRAP><TT>log(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>atan(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>factorial(n)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Legendre polynomial</TD>
<TD ALIGN=left NOWRAP><TT></TT>Chebyshev poly. of the 1<SUP><FONT SIZE=2>1 <I>th</I> <I>st</I> <I>nd</I> <I>rd</I></FONT></SUP> kind<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>legendreP(n, x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>chebyshevT(n, x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>LEGENDRE_&nbsp;P(n, x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>CHEBYCHEV_&nbsp;T(n, x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>legendre_&nbsp;p(n, x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>chebyshev_&nbsp;t(n, x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>legendre_&nbsp;p(n, x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>chebyshev_&nbsp;t(n, x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>orthopoly![P](n, x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>orthopoly![T](n, x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>LegendreP![n, x]</TT></TD>
<TD ALIGN=left NOWRAP><TT>ChebyshevT![n, x]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>orthpoly::legendre(n, x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>orthpoly::chebyshev1(n, x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>LegendreP(n, x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>ChebyshevT(n, x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Fibonacci number</TD>
<TD ALIGN=left NOWRAP><TT></TT>Elliptic integral of the 1<SUP><FONT SIZE=2>1 <I>th</I> <I>st</I> <I>nd</I> <I>rd</I></FONT></SUP> kind<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>fibonacci(n)</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>FIBONACCI(n)</TT></TD>
<TD ALIGN=left NOWRAP><TT>ELLIPTIC_&nbsp;E(phi, k^2)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Fibonacci(n)</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>fib(n)</TT></TD>
<TD ALIGN=left NOWRAP><TT>elliptic_&nbsp;e(phi, k^2)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>fib(n)</TT></TD>
<TD ALIGN=left NOWRAP><TT>elliptic_&nbsp;e(phi, k^2)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>combinat[fibonacci](n)</TT></TD>
<TD ALIGN=left NOWRAP><TT>EllipticE(sin(phi), k)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Fibonacci[n]</TT></TD>
<TD ALIGN=left NOWRAP><TT>EllipticE[phi, k^2]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>numlib::fibonacci(n)</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>EllipticE(phi, k^2)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT><FONT FACE=symbol>G</FONT>(<I>x</I>)</TT></TD>
<TD ALIGN=left NOWRAP><TT><FONT FACE=symbol>y</FONT>(<I>x</I>)</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Cosine integral</TD>
<TD ALIGN=left NOWRAP><TT></TT>Bessel fun. (1<SUP><FONT SIZE=2>1 <I>th</I> <I>st</I> <I>nd</I> <I>rd</I></FONT></SUP>)<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Gamma(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>psi(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>real(Ei(%i*x))</TT></TD>
<TD ALIGN=left NOWRAP><TT>besselJ(n, x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>GAMMA(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>PSI(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>CI(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>BESSEL_&nbsp;J(n, x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>gamma(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>psi[0](x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>cos_&nbsp;int(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>bessel_j[n](x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>gamma(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>psi![0](x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>cos_&nbsp;int(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>bessel_j![n](x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>GAMMA(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>Psi(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>Ci(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>BesselJ(n, x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Gamma![x]</TT></TD>
<TD ALIGN=left NOWRAP><TT>PolyGamma![x]</TT></TD>
<TD ALIGN=left NOWRAP><TT>CosIntegral[x]</TT></TD>
<TD ALIGN=left NOWRAP><TT>BesselJ[n, x]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>gamma(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>psi(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>Ci(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>besselJ(n, x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Gamma(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>Psi(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>Ci(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>BesselJ(n, x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Hypergeometric fun. <SUB><FONT SIZE=2>2</FONT></SUB><I>F</I><SUB><FONT SIZE=2>1</FONT></SUB>(<I>a</I>, <I>b</I>; <I>c</I>; <I>x</I>)</TD>
<TD ALIGN=left NOWRAP><TT></TT>Dirac delta</TD>
<TD ALIGN=left NOWRAP><TT>	</TT>Unit step fun.<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>GAUSS(a, b, c, x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>STEP(x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>hgfred([a, b], [c], x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>delta(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>unit_&nbsp;step(x)
	</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>hgfred([a, b], [c], x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>delta(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>unit_&nbsp;step(x)
	</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>hypergeom([a, b], [c], x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>Dirac(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>Heaviside(x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>HypergeometricPFQ[{a,b},{c},x]</TT></TD>
<TD ALIGN=left NOWRAP COLSPAN=2><TT>&lt;&lt; Calculus`DiracDelta`</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>hypergeom(![a,b], ![c], x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>dirac(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>heaviside(x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>hypergeometric({a, b}, {c}, x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Define |<I>x</I>| via a piecewise function<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>a(x):= -x*CHI(-inf, x, 0) + x*CHI(0, x, inf)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>a(x):= -x*unit_&nbsp;step(-x) + x*unit_&nbsp;step(x)$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>a(x):= -x*unit_&nbsp;step(-x) + x*unit_&nbsp;step(x)$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>a:= x -&gt; piecewise(x &lt; 0, -x, x):</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&lt;&lt; Calculus`DiracDelta`</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>a[x_]:= -x*UnitStep[-x] + x*UnitStep[x]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>a:= x -> piecewise([x<0, -x], [x>=0, x])</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;&nbsp;&nbsp;end_&nbsp;proc:</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Assume <I>x</I> is real</TD>
<TD ALIGN=left NOWRAP><TT></TT>Remove that assumption<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>x :epsilon Real</TT></TD>
<TD ALIGN=left NOWRAP><TT>x:=</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>declare(x, real)$</TT></TD>
<TD ALIGN=left NOWRAP><TT>remove(x, real)$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>declare(x, real)$</TT></TD>
<TD ALIGN=left NOWRAP><TT>remove(x, real)$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>assume(x, real);</TT></TD>
<TD ALIGN=left NOWRAP><TT>x:= 'x':</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>x/: Im![x] = 0;</TT></TD>
<TD ALIGN=left NOWRAP><TT>Clear![x]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>assume(x, Type::Real):</TT></TD>
<TD ALIGN=left NOWRAP><TT>delete x:</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Assume 0 &lt; <I>x</I> <FONT FACE=symbol>Â£</FONT> 1</TD>
<TD ALIGN=left NOWRAP><TT></TT>Remove that assumption<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>x :epsilon (0, 1]</TT></TD>
<TD ALIGN=left NOWRAP><TT>x:=</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>assume(x &gt; 0, x &lt;= 1)$</TT></TD>
<TD ALIGN=left NOWRAP><TT>forget(x &gt; 0, x &lt;= 1)$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>assume(x &gt; 0, x &lt;= 1)$</TT></TD>
<TD ALIGN=left NOWRAP><TT>forget(x &gt; 0, x &lt;= 1)$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>assume(x &gt; 0);</TT></TD>
<TD ALIGN=left NOWRAP><TT>x:= 'x':</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>additionally(x &lt;= 1);</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Assumptions -&gt; 0 &lt; x &lt;= 1&nbsp;</TT><SUP><A NAME="text13" HREF="#note13"><TT>8</TT></A></SUP></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>assume(0 &lt; x &lt;= 1):</TT></TD>
<TD ALIGN=left NOWRAP><TT>delete x:</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
<BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Basic simplification of an expression <I>e</I><TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>simplify(e) <EM>or </EM> normalize(e) <EM>or </EM> complexNormalize(e)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>e</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>e</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>ratsimp(e) <EM>or </EM> radcan(e)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>ratsimp(e) <EM>or </EM> radcan(e)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>simplify(e)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Simplify[e] <EM>or </EM> FullSimplify[e]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>simplify(e) <EM>or </EM> normal(e)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>e</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Use an unknown function</TD>
<TD ALIGN=left NOWRAP><TT></TT>Numerically evaluate an expr.<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>f:= operator('f); &nbsp;&nbsp;f(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>exp(1) :: Complex Float</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>f(x):=</TT></TD>
<TD ALIGN=left NOWRAP><TT>Precision:= Approximate</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>f(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>APPROX(EXP(1))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>Precision:= Exact</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>EvalF(123/456)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>f(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>sfloat(exp(1));</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>f(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>sfloat(exp(1));</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>f(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>evalf(exp(1));</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>f[x]</TT></TD>
<TD ALIGN=left NOWRAP><TT>N![Exp[1]]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>f(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>float(exp(1));</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>operator f; &nbsp;&nbsp;f(x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>on rounded; &nbsp;&nbsp;exp(1);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>off rounded;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT><I>n</I> mod<I>m</I></TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Solve <I>e</I> <FONT FACE=symbol>Âº</FONT> 0 mod<I>m</I> for <I>x</I><TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>rem(n, m)</TT></TD>
<TD ALIGN=left NOWRAP><TT>solve(e = 0 :: PrimeField(m), x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>MOD(n, m)</TT></TD>
<TD ALIGN=left NOWRAP><TT>SOLVE_&nbsp;MOD(e = 0, x, m)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>n mod m</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>solve using finite fields</TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>mod(n, m)</TT></TD>
<TD ALIGN=left NOWRAP><TT>modulus: m$ &nbsp;&nbsp;solve(e = 0, x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>mod(n, m)</TT></TD>
<TD ALIGN=left NOWRAP><TT>modulus: m$ &nbsp;&nbsp;solve(e = 0, x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>n mod m</TT></TD>
<TD ALIGN=left NOWRAP><TT>msolve(e = 0, m)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Mod![n, m]</TT></TD>
<TD ALIGN=left NOWRAP><TT>Solve![{e == 0, Modulus == m}, x]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>n mod m</TT></TD>
<TD ALIGN=left NOWRAP><TT>solve(poly(e, [x], IntMod(m))=0, x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>on modular;</TT></TD>
<TD ALIGN=left NOWRAP><TT>load_&nbsp;package(modsr)$ &nbsp;&nbsp;on modular;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>setmod m$ &nbsp;&nbsp;n</TT></TD>
<TD ALIGN=left NOWRAP><TT>setmod m$ &nbsp;&nbsp;m_solve(e = 0, x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Put over common denominator</TD>
<TD ALIGN=left NOWRAP><TT></TT>Expand into separate fractions<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>a/b + c/d</TT></TD>
<TD ALIGN=left NOWRAP><TT>(a*d + b*c)/(b*d) :: _</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;MPOLY([a], FRAC POLY INT)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>FACTOR(a/b + c/d, Trivial)</TT></TD>
<TD ALIGN=left NOWRAP><TT>EXPAND((a*d + b*c)/(b*d))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>a/b+c/d</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>xthru(a/b + c/d)</TT></TD>
<TD ALIGN=left NOWRAP><TT>expand((a*d + b*c)/(b*d))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>xthru(a/b + c/d)</TT></TD>
<TD ALIGN=left NOWRAP><TT>expand((a*d + b*c)/(b*d))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>normal(a/b + c/d)</TT></TD>
<TD ALIGN=left NOWRAP><TT>expand((a*d + b*c)/(b*d))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Together![a/b + c/d]</TT></TD>
<TD ALIGN=left NOWRAP><TT>Apart[(a*d + b*c)/(b*d)]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>normal(a/b + c/d)</TT></TD>
<TD ALIGN=left NOWRAP><TT>expand((a*d + b*c)/(b*d))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>a/b + c/d</TT></TD>
<TD ALIGN=left NOWRAP><TT>on div; (a*d + b*c)/(b*d)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Manipulate the root of a polynomial<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>a:= rootOf(x**2 - 2); &nbsp;&nbsp;a**2</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>x:=X(Rationals,"x");</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;a:=RootOfDefiningPolynomial(AlgebraicExtension(Rationals,x^2-2));
a^2</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>algebraic:true$ &nbsp;&nbsp;tellrat(a^2 - 2)$ &nbsp;&nbsp;rat(a^2);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>algebraic:true$ &nbsp;&nbsp;tellrat(a^2 - 2)$ &nbsp;&nbsp;rat(a^2);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>a:= RootOf(x^2 - 2): &nbsp;&nbsp;simplify(a^2);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>a = Root[#^2 - 2 &amp;, 2] &nbsp;&nbsp;a^2</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>F := Dom::AlgebraicExtension(Dom::Rational, a^2-2):</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP>&nbsp;</TD>
<TD ALIGN=left NOWRAP><TT>F(a)^2</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>load_&nbsp;package(arnum)$ &nbsp;&nbsp;defpoly(a^2 - 2); &nbsp;&nbsp;a^2;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Noncommutative multiplication</TD>
<TD ALIGN=left NOWRAP><TT></TT>Solve a pair of equations<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>solve(![eqn1, eqn2], [x, y])</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>x :epsilon Nonscalar</TT></TD>
<TD ALIGN=left NOWRAP><TT>SOLVE(![eqn1, eqn2], [x, y])</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>y :epsilon Nonscalar</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>x . y</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>*</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>x . y</TT></TD>
<TD ALIGN=left NOWRAP><TT>solve(![eqn1, eqn2], [x, y])</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>x . y</TT></TD>
<TD ALIGN=left NOWRAP><TT>solve(![eqn1, eqn2], [x, y])</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>x &amp;* y</TT></TD>
<TD ALIGN=left NOWRAP><TT>solve({eqn1, eqn2}, {x, y})</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>x ** y</TT></TD>
<TD ALIGN=left NOWRAP><TT>Solve[{eqn1, eqn2}, {x, y}]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>solve({eqn1, eqn2}, {x, y})</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>operator x, y;</TT></TD>
<TD ALIGN=left NOWRAP><TT>solve({eqn1, eqn2}, {x, y})</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>noncom x, y;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>x() * y()</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP COLSPAN=2><TT></TT>Decrease/increase angles in trigonometric functions<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP COLSPAN=2><TT>simplify(normalize(sin(2*x)))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Trigonometry:= Expand</TT></TD>
<TD ALIGN=left NOWRAP><TT>Trigonometry:= Collect</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>sin(2*x)</TT></TD>
<TD ALIGN=left NOWRAP><TT>2*sin(x)*cos(x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>trigexpand(sin(2*x))</TT></TD>
<TD ALIGN=left NOWRAP><TT>trigreduce(2*sin(x)*cos(x))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>trigexpand(sin(2*x))</TT></TD>
<TD ALIGN=left NOWRAP><TT>trigreduce(2*sin(x)*cos(x))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>expand(sin(2*x))</TT></TD>
<TD ALIGN=left NOWRAP><TT>combine(2*sin(x)*cos(x))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>TrigExpand![Sin[2*x]]</TT></TD>
<TD ALIGN=left NOWRAP><TT>TrigReduce![2*Sin[x]*Cos[x]]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>expand(sin(2*x))</TT></TD>
<TD ALIGN=left NOWRAP><TT>combine(2*sin(x)*cos(x), sincos)
	</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>load_&nbsp;package(assist)$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>trigexpand(sin(2*x))</TT></TD>
<TD ALIGN=left NOWRAP><TT>trigreduce(2*sin(x)*cos(x))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>GrÃ¶bner basis<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>groebner([p1, p2, ...])</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>grobner(![p1, p2, ...])</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>grobner(![p1, p2, ...])</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Groebner![gbasis]([p1, p2, ...], plex(x1, x2, ...))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>GroebnerBasis![{p1, p2, ...}, {x1, x2, ...}]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>groebner::gbasis(![p1, p2, ...])</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>load_&nbsp;package(groebner)$ &nbsp;&nbsp;groebner({p1, p2, ...})</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Factorization of <I>e</I> over <I>i</I> = -1<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>factor(e, ![rootOf(i**2 + 1)])</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>FACTOR(e, Complex)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Factors(GaussianIntegers,e)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>gfactor(e); <EM>or </EM> factor(e, i^2 + 1);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>gfactor(e); <EM>or </EM> factor(e, i^2 + 1);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>factor(e, I);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Factor[e, Extension -&gt; I]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>QI:= Dom::AlgebraicExtension(Dom::Rational, i^2 + 1);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>QI::name:= "QI": &nbsp;&nbsp;Factor(poly(e, QI));</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>on complex, factor; &nbsp;&nbsp;e; &nbsp;&nbsp;off complex, factor;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Real part</TD>
<TD ALIGN=left NOWRAP><TT></TT>Convert a complex expr. to rectangular form<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>real(f(z))</TT></TD>
<TD ALIGN=left NOWRAP><TT>complexForm(f(z))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>RE(f(z))</TT></TD>
<TD ALIGN=left NOWRAP><TT>f(z)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>(f(z)+GaloisCyc(f(z),-1))/2</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>realpart(f(z))</TT></TD>
<TD ALIGN=left NOWRAP><TT>rectform(f(z))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>realpart(f(z))</TT></TD>
<TD ALIGN=left NOWRAP><TT>rectform(f(z))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Re(f(z))</TT></TD>
<TD ALIGN=left NOWRAP><TT>evalc(f(z))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Re[f![z]]</TT></TD>
<TD ALIGN=left NOWRAP><TT>ComplexExpand[f[z]]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Re(f(z))</TT></TD>
<TD ALIGN=left NOWRAP><TT>rectform(f(z))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>repart(f(z))</TT></TD>
<TD ALIGN=left NOWRAP><TT>repart(f(z)) + i*impart(f(z))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Matrix addition</TD>
<TD ALIGN=left NOWRAP><TT></TT>Matrix multiplication</TD>
<TD ALIGN=left NOWRAP><TT></TT>Matrix transpose<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>A + B</TT></TD>
<TD ALIGN=left NOWRAP><TT>A * B</TT></TD>
<TD ALIGN=left NOWRAP><TT>transpose(A)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>A + B</TT></TD>
<TD ALIGN=left NOWRAP><TT>A . B</TT></TD>
<TD ALIGN=left NOWRAP><TT>A`</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>A + B</TT></TD>
<TD ALIGN=left NOWRAP><TT>A * B</TT></TD>
<TD ALIGN=left NOWRAP><TT>TransposedMat(A)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>A + B</TT></TD>
<TD ALIGN=left NOWRAP><TT>A . B</TT></TD>
<TD ALIGN=left NOWRAP><TT>transpose(A)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>A + B</TT></TD>
<TD ALIGN=left NOWRAP><TT>A . B</TT></TD>
<TD ALIGN=left NOWRAP><TT>transpose(A)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>evalm(A + B)</TT></TD>
<TD ALIGN=left NOWRAP><TT>evalm(A &amp;* B)</TT></TD>
<TD ALIGN=left NOWRAP><TT>linalg![transpose](A)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>A + B</TT></TD>
<TD ALIGN=left NOWRAP><TT>A . B</TT></TD>
<TD ALIGN=left NOWRAP><TT>Transpose[A]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>A + B</TT></TD>
<TD ALIGN=left NOWRAP><TT>A * B</TT></TD>
<TD ALIGN=left NOWRAP><TT>linalg::transpose(A)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>A + B</TT></TD>
<TD ALIGN=left NOWRAP><TT>A * B</TT></TD>
<TD ALIGN=left NOWRAP><TT>tp(A)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Solve the matrix equation <I>A</I> <I>x</I> = <I>b</I><TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>solve(A, transpose(b)) . 1 . particular :: Matrix ___</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>SolutionMat(TransposedMat(A),b)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>xx: genvector('x, mat_nrows(b))$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>x: part(matlinsolve(A . xx = b, xx), 1, 2)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>xx: genvector('x, mat_nrows(b))$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>x: part(matlinsolve(A . xx = b, xx), 1, 2)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>x:= linalg[linsolve](A, b)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>x = LinearSolve[A, b]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>matlinsolve(A, b)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Sum: <FONT FACE=symbol>Ã¥</FONT><SUB><FONT SIZE=2><I>i</I> = 1</FONT></SUB><SUP><FONT SIZE=2><I>n</I></FONT></SUP> <I>f</I>(<I>i</I>)</TD>
<TD ALIGN=left NOWRAP><TT></TT>Product: <FONT FACE=symbol>Ã•</FONT><SUB><FONT SIZE=2><I>i</I> = 1</FONT></SUB><SUP><FONT SIZE=2><I>n</I></FONT></SUP> <I>f</I>(<I>i</I>)<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>sum(f(i), i = 1..n)</TT></TD>
<TD ALIGN=left NOWRAP><TT>product(f(i), i = 1..n)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>SUM(f(i), i, 1, n)</TT></TD>
<TD ALIGN=left NOWRAP><TT>PRODUCT(f(i), i, 1, n)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Sum([1..n],f)</TT></TD>
<TD ALIGN=left NOWRAP><TT>Product([1..n],f)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>closedform(</TT></TD>
<TD ALIGN=left NOWRAP><TT>closedform(</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;sum(f(i), i, 1, n))</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;product(f(i), i, 1, n))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>closedform(</TT></TD>
<TD ALIGN=left NOWRAP><TT>closedform(</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;sum(f(i), i, 1, n))</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;&nbsp;product(f(i), i, 1, n))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>sum(f(i), i = 1..n)</TT></TD>
<TD ALIGN=left NOWRAP><TT>product(f(i), i = 1..n)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Sum[f![i], {i, 1, n}]</TT></TD>
<TD ALIGN=left NOWRAP><TT>Product![f[i], {i, 1, n}]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>sum(f(i), i = 1..n)</TT></TD>
<TD ALIGN=left NOWRAP><TT>product(f(i), i = 1..n)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>sum(f(i), i, 1, n)</TT></TD>
<TD ALIGN=left NOWRAP><TT>prod(f(i), i, 1, n)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Limit: lim<SUB><FONT SIZE=2><I>x</I> <FONT FACE=symbol>Â®</FONT> 0-</FONT></SUB> <I>f</I>(<I>x</I>)</TD>
<TD ALIGN=left NOWRAP><TT></TT>Taylor/Laurent/etc. series<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>limit(f(x), x = 0, "left")</TT></TD>
<TD ALIGN=left NOWRAP><TT>series(f(x), x = 0, 3)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>LIM(f(x), x, 0, -1)</TT></TD>
<TD ALIGN=left NOWRAP><TT>TAYLOR(f(x), x, 0, 3)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>limit(f(x), x, 0, minus)</TT></TD>
<TD ALIGN=left NOWRAP><TT>taylor(f(x), x, 0, 3)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>limit(f(x), x, 0, minus)</TT></TD>
<TD ALIGN=left NOWRAP><TT>taylor(f(x), x, 0, 3)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>limit(f(x), x = 0, left)</TT></TD>
<TD ALIGN=left NOWRAP><TT>series(f(x), x = 0, 4)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Limit[f![x], x-&gt;0, Direction-&gt;1]</TT></TD>
<TD ALIGN=left NOWRAP><TT>Series[f![x],{x, 0, 3}]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>limit(f(x), x = 0, Left)</TT></TD>
<TD ALIGN=left NOWRAP><TT>series(f(x), x = 0, 4)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>limit!-(f(x), x, 0)</TT></TD>
<TD ALIGN=left NOWRAP><TT>taylor(f(x), x, 0, 3)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Differentiate: <I>d</I><SUP><FONT SIZE=2>3</FONT></SUP> <I>f</I>(<I>x</I>, <I>y</I>)/<I>dx</I> &nbsp; <I>dy</I><SUP><FONT SIZE=2>2</FONT></SUP></TD>
<TD ALIGN=left NOWRAP><TT>	</TT>Integrate: <FONT SIZE=4><FONT FACE=symbol>Ã²</FONT></FONT><SUB><FONT SIZE=2>0</FONT></SUB><SUP><FONT SIZE=2>1</FONT></SUP> <I>f</I>(<I>x</I>) &nbsp; <I>dx</I><TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>D(f(x, y), ![x, y], ![1, 2])</TT></TD>
<TD ALIGN=left NOWRAP><TT>integrate(f(x), x = 0..1)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>DIF(DIF(f(x, y), x), y, 2)</TT></TD>
<TD ALIGN=left NOWRAP><TT>INT(f(x), x, 0, 1)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>diff(f(x, y), x, 1, y, 2)</TT></TD>
<TD ALIGN=left NOWRAP><TT>integrate(f(x), x, 0, 1)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>diff(f(x, y), x, 1, y, 2)</TT></TD>
<TD ALIGN=left NOWRAP><TT>integrate(f(x), x, 0, 1)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>diff(f(x, y), x, y$2)</TT></TD>
<TD ALIGN=left NOWRAP><TT>int(f(x), x = 0..1)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>D[f![x, y], x, {y, 2}]</TT></TD>
<TD ALIGN=left NOWRAP><TT>Integrate[f[x], {x, 0, 1}]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>diff(f(x, y), x, y$2)</TT></TD>
<TD ALIGN=left NOWRAP><TT>int(f(x), x = 0..1)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>df(f(x, y), x, y, 2)</TT></TD>
<TD ALIGN=left NOWRAP><TT>int(f(x), x, 0, 1)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Laplace transform</TD>
<TD ALIGN=left NOWRAP><TT></TT>Inverse Laplace transform<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>laplace(e, t, s)</TT></TD>
<TD ALIGN=left NOWRAP><TT>inverseLaplace(e, s, t)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>LAPLACE(e, t, s)</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>laplace(e, t, s)</TT></TD>
<TD ALIGN=left NOWRAP><TT>ilt(e, s, t)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>laplace(e, t, s)</TT></TD>
<TD ALIGN=left NOWRAP><TT>ilt(e, s, t)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>inttrans![laplace](e,t,s)</TT></TD>
<TD ALIGN=left NOWRAP><TT>inttrans![invlaplace](e,s,t)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP COLSPAN=2><TT>&nbsp;&nbsp;&lt;&lt; Calculus`LaplaceTransform`</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>LaplaceTransform![e, t, s]</TT></TD>
<TD ALIGN=left NOWRAP><TT>InverseLaplaceTransform![e,s,t]
	</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>transform::laplace(e,t,s)</TT></TD>
<TD ALIGN=left NOWRAP><TT>transform::invlaplace(e, s, t)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP COLSPAN=2><TT>&nbsp;&nbsp;load_&nbsp;package(laplace)$ &nbsp;&nbsp;load_&nbsp;package(defint)$
	</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>laplace(e, t, s)</TT></TD>
<TD ALIGN=left NOWRAP><TT>invlap(e, t, s)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Solve an ODE (with the initial condition <I>y</I>'(0) = 1)<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>solve(eqn, y, x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>APPLY_&nbsp;IC(RHS(ODE(eqn, x, y, y_)), [x, 0], [y, 1])</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>ode_ibc(ode(eqn, y(x), x), x = 0, diff(y(x), x) = 1)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>ode_ibc(ode(eqn, y(x), x), x = 0, diff(y(x), x) = 1)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>dsolve({eqn, D(y)(0) = 1}, y(x))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>DSolve[{eqn, y'[0] == 1}, y[x], x]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>solve(ode({eqn, y'(0) = 1}, y(x)))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>odesolve(eqn, y(x), x)</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Define the differential operator <I>L</I> = <I>D</I><SUB><FONT SIZE=2><I>x</I></FONT></SUB> + <I>I</I> and apply it to sin<I>x</I><TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>DD : LODO(Expression Integer, e +-&gt; D(e, x)) := D();</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>L:= DD + 1; &nbsp;&nbsp;L(sin(x))</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>load(opalg)$ &nbsp;&nbsp;L: (diffop(x) - 1)$ &nbsp;&nbsp;L(sin(x));</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>load(opalg)$ &nbsp;&nbsp;L: (diffop(x) - 1)$ &nbsp;&nbsp;L(sin(x));</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>id:= x -&gt; x: &nbsp;&nbsp;L:= (D + id): &nbsp;&nbsp;L(sin)(x);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>L = D![#, x]&amp; + Identity; &nbsp;&nbsp;Through[L[Sin[x]]]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>L:= (D + id): &nbsp;&nbsp;L(sin)(x);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>2D plot of two separate curves overlayed<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>draw(x, x = 0..1); &nbsp;&nbsp;draw(acsch(x), x = 0..1);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>![Plot Overlay]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>plot(x, x, 0, 1)$ &nbsp;&nbsp;plot(acsch(x), x, 0, 1)$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>plot(x, x, 0, 1)$ &nbsp;&nbsp;plot(acsch(x), x, 0, 1)$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>plot({x, arccsch(x)}, x = 0..1):</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Plot![{x, ArcCsch[x]}, {x, 0, 1}];</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>plotfunc2d(x, arcsech(x), x = 0..1):</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>load_&nbsp;package(gnuplot)$ &nbsp;&nbsp;plot(y = x, x = (0 .. 1))$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>plot(y = acsch(x), x = (0 .. 1))$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><TABLE BORDER=1 CELLSPACING=0 CELLPADDING=1>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT></TT>Simple 3D plotting<TT></TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Axiom</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>draw(abs(x*y), x = 0..1, y = 0..1);</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Derive</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>![Plot Overlay]</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>DoCon</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>GAP</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Gmp</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Macsyma</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>plot3d(abs(x*y), x, 0, 1, y, 0, 1)$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Magnus</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maxima</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>plot3d(abs(x*y), x, 0, 1, y, 0, 1)$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Maple</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>plot3d(abs(x*y), x = 0..1, y = 0..1):</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Mathematica</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>Plot3D[Abs![x*y], {x, 0, 1}, {y, 0, 1}];</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>MuPAD</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>plotfunc3d(abs(x*y), x = 0..1, y = 0..1):</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Octave</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Pari</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Reduce</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>load_&nbsp;package(gnuplot)$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
<TD ALIGN=left NOWRAP><TT>plot(z = abs(x*y), x = (0 .. 1), y = (0 .. 1))$</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Scilab</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Sumit</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR>
<TR><TD ALIGN=left NOWRAP><TT><FONT COLOR=purple>Yacas</FONT></TT></TD>
<TD ALIGN=left NOWRAP><TT>&nbsp;</TT></TD>
</TR></TABLE><TT><BR>
</TT><BR>
<BR>

<!--BEGIN NOTES chapter-->
<HR WIDTH="50%" SIZE=1><DL><DT><A NAME="note1" HREF="#text1"><FONT SIZE=5>1</FONT></A><DD>Only if the pattern is not a keyword and then the matches are
simplistic.
<DT><A NAME="note5" HREF="#text5"><FONT SIZE=5>6</FONT></A><DD>Variables can be assigned to generators of a suitable free
object, for example <TT>x:=X(Rationals,"x");</TT> or <TT>f:=FreeGroup(2);x:=f.1;</TT>.
<DT><A NAME="note6" HREF="#text6"><FONT SIZE=5>6</FONT></A><DD><TT>procedure xapply(f, lst); lisp(f . cdr(lst))$</TT>
<DT><A NAME="note8" HREF="#text8"><FONT SIZE=5>6</FONT></A><DD><TT>TERMS</TT>, <TT>FACTORS</TT>, <TT>NUMERATOR</TT>, <TT>LHS</TT>, etc.
<DT><A NAME="note9" HREF="#text9"><FONT SIZE=5>7</FONT></A><DD>The following commands work only on expressions that consist of a
single level (e.g., <I>x</I> + <I>y</I> + <I>z</I> but not <I>a</I>/<I>b</I> + <I>c</I>/<I>d</I>).
<DT><A NAME="note11" HREF="#text11"><FONT SIZE=5>7</FONT></A><DD>Some editing of <TT>file</TT> will be necessary for all systems but
<FONT COLOR=purple>Maple</FONT> and <FONT COLOR=purple>Mathematica</FONT>.
<DT><A NAME="note12" HREF="#text12"><FONT SIZE=5>8</FONT></A><DD><TT>ER</TT> represents special cyclotomic numbers and is not a
root function.
<DT><A NAME="note13" HREF="#text13"><FONT SIZE=5>8</FONT></A><DD>This is an option for <TT>Integrate</TT>.
</DL>
<!--END NOTES-->
<!--HTMLFOOT-->
<!--ENDHTML-->
<!--FOOTER-->
<HR SIZE=2>
<BLOCKQUOTE><EM>This document was translated from L<sup>A</sup>T<sub>E</sub>X by
</EM><A HREF="http://pauillac.inria.fr/~maranget/hevea/index.html"><EM>H<FONT SIZE=2><sup>E</sup></FONT>V<FONT SIZE=2><sup>E</sup></FONT>A</EM></A><EM>.
</EM></BLOCKQUOTE>


From ChristianSievers Tue May 23 11:39:26 -0500 2006
From: Christian Sievers
Date: Tue, 23 May 2006 11:39:26 -0500
Subject: Remarks concerning GAP
Message-ID: <20060523113926-0500@wiki.axiom-developer.org>

While the given GAP command does generate the list [1, 2, ..., n], the other examples seem to generate the list
[f(1), f(2), ..., f(n)].  This can be done with::

  List([1..n],f);

I'm not sure what Apply a fun. to a list of its args is supposed to mean, but my answer to that request is::

  CallFuncList(f,l);

A groebner basis can be computed with::

  GroebnerBasis([p1,p2,...],MonomialLexOrdering());

From unknown Sat Jun 17 12:42:22 -0500 2006
From: unknown
Date: Sat, 17 Jun 2006 12:42:22 -0500
Subject: macsyma dead???
Message-ID: <20060617124222-0500@wiki.axiom-developer.org>

Hi
I think it is still alive somehow,
see for example:
http://maxima.sourceforge.net

Bye

From znmeb Sat Jun 17 19:38:19 -0500 2006
From: znmeb
Date: Sat, 17 Jun 2006 19:38:19 -0500
Subject: Other systems?
Message-ID: <20060617193819-0500@wiki.axiom-developer.org>

Have we ruled out "special purpose" CAS packages, such as Ginac and Singular?

From BillPage Mon Jun 19 11:02:02 -0500 2006
From: Bill Page
Date: Mon, 19 Jun 2006 11:02:02 -0500
Subject: Re: Have we ruled out "special purpose" CAS packages?
Message-ID: <20060619110202-0500@wiki.axiom-developer.org>

Not at all. Please feel free to add missing information.

From konstantin Sun Sep 17 13:33:02 -0500 2006
From: konstantin
Date: Sun, 17 Sep 2006 13:33:02 -0500
Subject: Dirac delta and piecewise
Message-ID: <20060917133302-0500@wiki.axiom-developer.org>

Dirak delta and piecewise was implemented as built-in in Mathematica: use DiracDelta[x] and Piecewise[{{-x,x<0},{x,x>0}}]

From CliffYapp Sun Sep 17 22:06:37 -0500 2006
From: Cliff Yapp
Date: Sun, 17 Sep 2006 22:06:37 -0500
Subject: Pamphlet/LaTeX version of this page
Message-ID: <20060917220637-0500@wiki.axiom-developer.org>

(Note that the pamphlet form of this document can be found here: WebSite:wiki.axiom-developer.org/axiom--test--1/src/doc/Rosetta)

1 Rosetta Translations

1.1 Introduction

The following is a collection of synonyms for various operations in the computer algebra systems [Axiom]?, [Derive]?, [GAP]?, [Gmp]?, DoCon?, [Macsyma]?, [Magnus]?, [Maxima]?, [Maple]?, [Mathematica]?, [MuPAD]?, [Octave]?, [Pari]?, [Reduce]?, [Scilab]?, [Sumit]? and [Yacas]?. This collection does not attempt to be comprehensive, but hopefully it will be useful in giving an indication of how to translate between the syntaxes used by the different systems in many common situations. Note that a blank entry means either (a) that there may be an exact translation of a particular operation for the indicated system, but we don't know what it is or (b) there is no exact translation but it may still be possible to work around this lack with a related functionality.

While commercial systems are not provided on this CD the intent of the Rosetta effort is to make it possible for experienced Computer Algebra users to experiment with other systems. Thus the commands for commercial systems are included to allow users of those systems to translate.

Some of these systems are special purpose and do not support a lot of the functionality of the more general purpose systems. Where they do support an interpreter the commands are provided.

Originally written by Michael Wester. Modified for Rosetta by Timothy Daly, Alexander Hulpke (GAP).

1.2 System availability

System	License	Status (May 2002)	Web Location
Axiom	BSD	available	http://www.aldor.org
Axiom	open source	alpha	http://savannah.nongnu.org/projects/axiom
Derive	commercial	available	http://www.mathware.com
DoCon?	open source	available	http://www.haskell.org/docon
GAP	GPL	Rosetta	http://www.gap-system.org/
Gmp	GPL	Rosetta	http://www.swox.com/gmp
Macsyma	commercial	dead	unavailable
Magnus	GPL	Rosetta	http://zebra.sci.ccny.cuny.edu/web
Maxima	GPL	Rosetta	http://maxima.sourceforge.net/
Maple	commercial	available	http://www.maplesoft.com
Mathematica	commercial	available	http://www.wolfram.com
MuPAD?	commercial	available	http://www.mupad.de
Octave	GPL	Rosetta	http://www.octave.org
Pari	GPL	Rosetta	http://www.parigp-home.de
Reduce	commercial	available	http://www.zib.de/Symbolik/reduce
Scilab	Scilab	available	http://www-rocq.inria.fr/scilab
Sumit		available	http://www-sop.inria.fr/cafe/soft-f.html
Yacas	GPL	available	http://yacas.sourceforge.net

System	Type	Interpreted or Compiled
Axiom	General Purpose	both
Derive	General Purpose
DoCon?	General Purpose	Interpreted in Haskell
GAP	Group Theory
Gmp	arb. prec. arithmetic
Macsyma	General Purpose
Magnus	Infinite Group Theory
Maxima	General Purpose
Maple	General Purpose
Mathematica	General Purpose
MuPAD?	General Purpose
Octave	Numerical Computing
Pari	Number Theory
Reduce	General Purpose
Scilab	General Purpose
Sumit	Functional Equations
Yacas	General Purpose

1.3 Programming and Miscellaneous

=0pt =1pt

	Unix/Microsoft user initialization file
`Axiom`	`~/axiom.input`
`GAP`	`~/.gaprc`	`GAP.RC`
`Gmp`
`DoCon?`
`Derive`		`derive.ini`
`Macsyma`	`~/macsyma-init.macsyma`	`mac-init.mac`
`Magnus`
`Maxima`	`~/macsyma-init.macsyma`	`mac-init.mac`
`Maple`	`~/.mapleinit`	`maplev5.ini`
`Mathematica`	`~/init.m`	`init.m`
`MuPAD?`	`~/.mupad/userinit.mu`	`\mupad\bin\userinit.mu`
`Octave`
`Pari`
`Reduce`	`~/.reducerc`	`reduce.rc`
`Scilab`
`Sumit`
`Yacas`

	Describe keyword	Find keywords containing pattern
`Axiom`		`)what operations pattern`
`Derive`
`DoCon?`
`GAP`	`?keyword`	`??keyword`
`Gmp`
`Macsyma`	`describe("keyword")$`	`apropos("pattern");`
`Magnus`
`Maxima`	`describe("keyword")$`	`apropos("pattern");`
`Maple`	`?keyword`	`?pattern` ¹
`Mathematica`	`?keyword`	`?pattern`
`MuPAD?`	`?keyword`	`?pattern`
`Octave`	`help -i keyword`
`Pari`
`Reduce`
`Scilab`
`Sumit`
`Yacas`

			Prev.	Case	Variables
	Comment	Line continuation	expr.	sensitive	assumed
`Axiom`	`-- comment`	`input _<CR>input`	`%`	`Yes`	`real`
`Derive`	`"comment"`	`input ~<CR>input`		`No`	`real`
`DoCon?`
`GAP`	`# comment`	`input\<CR>input`	`last`	`Yes`	`no assumption`
`Gmp`
`Macsyma`	`/ comment /`	`input<CR>input;`	`%`	`No`	`real`
`Magnus`
`Maxima`	`/ comment /`	`input<CR>input;`	`%`	`No`	`real`
`Maple`	`# comment`	`input<CR>input;`	`%`	`Yes`	`complex`
`Mathematica`	`( comment )`	`input<CR>input`	`%`	`Yes`	`complex`
`MuPAD?`	`/ comment / or // comment`	`input<CR>input;`	`%`	`Yes`	`complex`
`Octave`	`##`			`Yes`
`Pari`
`Reduce`	`% comment`	`input<CR>input;`	`ws`	`No`	`complex`
`Scilab`
`Sumit`
`Yacas`

	Load a file	Time a command	Quit
`Axiom`	`)read "file" )quiet`	`)set messages time on`	`)quit`
`Derive`	`[Transfer Load Derive]`		`[Quit]`
`DoCon?`
`GAP`	`Read("file");`	`time;` (also see `Runtime();`)	`quit;`
`Gmp`
`Macsyma`	`load("file")$`	`showtime: all$`	`quit();`
`Magnus`
`Maxima`	`load("file")$`	`showtime: all$`	`quit();`
`Maple`	`read("file"):`	`readlib(showtime): on;`	`quit`
`Mathematica`	`<< file`	`Timing[command]?`	`Quit[]`
`MuPAD?`	`read("file"):`	`time(command);`	`quit`
`Octave`	`load file`	`tic(); cmd ; toc()`	`quit or exit`
`Pari`
`Reduce`	`in "file"$`	`on time;`	`quit;`
`Scilab`			`quit`
`Sumit`
`Yacas`

	Display	Suppress
	output	output	Substitution: f(x, y) Â® f(z, w)
`Axiom`	`input`	`input;`	`subst(f(x, y), [x = z, y = w])`
`Derive`	`input`	`var:= input`	`[Manage Substitute]`
`DoCon?`
`GAP`	`input;`	`input;;`	`Value(f,[x,y],[z,w]);`²
`Gmp`
`Macsyma`	`input;`	`input$`	`subst([x = z, y = w], f(x, y));`
`Magnus`
`Maxima`	`input;`	`input$`	`subst([x = z, y = w], f(x, y));`
`Maple`	`input;`	`input:`	`subs({x = z, y = w}, f(x, y));`
`Mathematica`	`input`	`input;`	`f[x, y] /. {x -> z, y -> w}`
`MuPAD?`	`input;`	`input:`	`subs(f(x, y), [x = z, y = w]);`
`Octave`	`input`	`input;`
`Pari`
`Reduce`	`input;`	`input$`	`sub({x = z, y = w}, f(x, y));`
`Scilab`
`Sumit`
`Yacas`

	Set	List	Matrix
`Axiom`	`set [1, 2]`	`[1, 2]`	`matrix([[1, 2],[3, 4]]?)`
`Derive`	`{1, 2}`	`[1, 2]?`	`[[1,2], [3,4]]?`
`DoCon?`
`GAP`	`Set([1,2]?)`	`[1, 2]`	`[[1,2], [3,4]]?`³
`Gmp`
`Macsyma`	`[1, 2]`	`[1, 2]`	`matrix([1, 2], [3, 4]?)`
`Magnus`
`Maxima`	`[1, 2]`	`[1, 2]`	`matrix([1, 2], [3, 4]?)`
`Maple`	`{1, 2}`	`[1, 2]`	`matrix([[1, 2], [3, 4]]?)`
`Mathematica`	`{1, 2}`	`{1, 2}`	`{{1, 2}, {3, 4}}`
`MuPAD?`	`{1, 2}`	`[1, 2]`	`matrix([![1, 2], [3, 4]])`
`Octave`
`Pari`
`Reduce`	`{1, 2}`	`{1, 2}`	`mat((1, 2), (3, 4))`
`Scilab`		`list(1,2)`	`A=[1,2;3,4]`
`Sumit`
`Yacas`

	Equation	List element	Matrix element	Length of a list
`Axiom`	`x = 0`	`l . 2`	`m(2, 3)`	`#l`
`Derive`	`x = 0`	`l SUB 2`	`m SUB 2 SUB 3`	`DIMENSION(l)`
`DoCon?`
`GAP`	`x=0`	`l[2]`	`m[2][3]`	`Length(l)`
`Gmp`
`Macsyma`	`x = 0`	`l[2]`	`m[2, 3]`	`length(l)`
`Magnus`
`Maxima`	`x = 0`	`l[2]?`	`m[2, 3]?`	`length(l)`
`Maple`	`x = 0`	`l[2]`	`m[2, 3]`	`nops(l)`
`Mathematica`	`x == 0`	`l[[2]]`	`m[[2, 3]]`	`Length[l]`
`MuPAD?`	`x = 0`	`l[2]`	`m[2, 3]`	`nops(l)`
`Octave`
`Pari`
`Reduce`	`x = 0`	`part(l, 2)`	`m(2, 3)`	`length(l)`
`Scilab`		`l(2)`
`Sumit`
`Yacas`

	Prepend/append an element to a list		Append two lists
`Axiom`	`cons(e, l)`	`concat(l, e)`	`append(l1, l2)`
`Derive`	`APPEND([e]?, l)`	`APPEND(l, [e]?)`	`APPEND(l1, l2)`
`DoCon?`
`GAP`	`Concatenation([e]?,l)`	`Add(l,e)`	`Append(l1, l2)`
`Gmp`
`Macsyma`	`cons(e, l)`	`endcons(e, l)`	`append(l1, l2)`
`Magnus`
`Maxima`	`cons(e, l)`	`endcons(e, l)`	`append(l1, l2)`
`Maple`	`[e, op(l)]?`	`[op(l), e]?`	`[op(l1), op(l2)]?`
`Mathematica`	`Prepend[l, e]`	`Append[l, e]`	`Join[l1, l2]`
`MuPAD?`	`[e] . l`	`append(l, e)`	`l1 . l2`
`Octave`
`Pari`
`Reduce`	`e . l`	`append(l, e)`	`append(l1, l2)`
`Scilab`
`Sumit`
`Yacas`

	Matrix column dimension	Convert a list into a column vector
`Axiom`	`ncols(m)`	`transpose(matrix([l]))`
`Derive`	`DIMENSION(m SUB 1)`	[l]?`
`DoCon?`
`GAP`	`Length(mat[1]?)`	objects are identical
`Gmp`
`Macsyma`	`mat_ ncols(m)`	`transpose(matrix(l))`
`Magnus`
`Maxima`	`mat_ ncols(m)`	`transpose(matrix(l))`
`Maple`	`linalg[coldim]?(m)`	`linalg[transpose]?(matrix([l]?))`
`Mathematica`	`Dimensions[m][[2]]`	`Transpose[{l}]`
`MuPAD?`	`linalg::ncols(m)`	`linalg::transpose(matrix([l]))`
`Octave`
`Pari`
`Reduce`	`load_ package(linalg)$`	`matrix v(length(l), 1)$`
	`column_dim(m)`	`for i:=1:length(l) do`
		`v(i, 1):= part(l, i)`
`Scilab`
`Sumit`
`Yacas`

	Convert a column vector into a list
`Axiom`	`parts(v)`
`Derive`	v` SUB 1
`DoCon?`
`GAP`	objects are identical
`Gmp`
`Macsyma`	`part(transpose(v), 1)`
`Magnus`
`Maxima`	`part(transpose(v), 1)`
`Maple`	`op(convert(linalg[transpose]?(v), listlist))`
`Mathematica`	`Flatten[v]`
`MuPAD?`	`[op(v)]`
`Octave`
`Pari`
`Reduce`	`load_ package(linalg)$`
	`for i:=1:row_ dim(v) collect(v(i, 1))`
`Scilab`
`Sumit`
`Yacas`

	True	False	And	Or	Not	Equal	Not equal
`Axiom`	`true`	`false`	`and`	`or`	`not`	`=`	`~=`
`Derive`	`TRUE`	`FALSE`	`AND`	`OR`	`NOT`	`=`	`/=`
`DoCon?`
`GAP`	`true`	`false`⁴	`and`	`or`	`not`	`=`	`<>`
`Gmp`
`Macsyma`	`true`	`false`	`and`	`or`	`not`	`=`	`#`
`Magnus`
`Maxima`	`true`	`false`	`and`	`or`	`not`	`=`	`#`
`Maple`	`true`	`false`	`and`	`or`	`not`	`=`	`<>`
`Mathematica`	`True`	`False`	`&&`	`\|\|`	`!`	`==`	`!=`
`MuPAD?`	`TRUE`	`FALSE`	`and`	`or`	`not`	`=`	`<>`
`Octave`
`Pari`
`Reduce`	`t`	`nil`	`and`	`or`	`not`	`=`	`neq`
`Scilab`	`%t`	`%f`
`Sumit`
`Yacas`

	If+then+else statements	Strings (concatenated)
`Axiom`	`if then else if then else _`	`concat(["x", "y"])`
`Derive`	`IF(, , IF(, , _))`	`"xy"`
`DoCon?`
`GAP`	`if then elif then else _ fi`	`Concatenation("x","y")`
`Gmp`
`Macsyma`	`if then else if then else _`	`concat("x", "y")`
`Magnus`
`Maxima`	`if then else if then else _`	`concat("x", "y")`
`Maple`	`if then elif then else _ fi`	`"x" . "y"`
`Mathematica`	`[, , If![, , _][, , If![, , _]]`	`"x" <> "y"`
`MuPAD?`	`if then elif then else _`	`"x" . "y"`
	`end_if`
`Octave`
`Pari`
`Reduce`	`if then else if then else _`	`"xy" or mkid(x, y)`
`Scilab`
`Sumit`
`Yacas`

	Simple loop and Block	Generate the list [1, 2, ..., n]
`Axiom`	`for i in 1..n repeat ( x; y )`	`[f(i) for i in 1..n]?`
`Derive`	`VECTOR([x, y]?, i, 1, n)`	`VECTOR(f(i), i, 1, n)`
`DoCon?`
`GAP`	`for i in [1..n] do _ od;`	`[1..n]?` or `[1,2..n]?`
`Gmp`
`Macsyma`	`for i:1 thru n do (x, y);`	`makelist(f(i), i, 1, n);`
`Magnus`
`Maxima`	`for i:1 thru n do (x, y);`	`makelist(f(i), i, 1, n);`
`Maple`	`for i from 1 to n do x; y od;`	`[f(i) $ i = 1..n];`
`Mathematica`	`Do[x; y, {i, 1, n}]`	`Table[f[i], {i, 1, n}]`
`MuPAD?`	`for i from 1 to n do x; y`	`[f(i) $ i = 1..n];`
	`end_for;`
`Octave`
`Pari`
`Reduce`	`for i:=1:n do <<x; y>>;`	`for i:=1:n collect f(i);`
`Scilab`
`Sumit`
`Yacas`

	Complex loop iterating on a list
`Axiom`	`for x in [2, 3, 5] while x**2 < 10 repeat output(x)`
`Derive`
`DoCon?`
`GAP`	`for x in [2, 3, 5] do while x^2<10 do Print(x);od;od;`
`Gmp`
`Macsyma`	`for x in [2, 3, 5] while x^2 < 10 do print(x)$`
`Magnus`
`Maxima`	`for x in [2, 3, 5] while x^2 < 10 do print(x)$`
`Maple`	`for x in [2, 3, 5] while x^2 < 10 do print(x) od:`
`Mathematica`	`For[l = {2, 3, 5}, l != {} && l[[1]]?^2 < 10,`
	`l = Rest[l], Print[l[[1]]] ]`
`MuPAD?`	`for x in [2, 3, 5] do if x^2 < 10 then print(x) end_if`
	`end_for:`
`Octave`
`Pari`
`Reduce`	`for each x in {2, 3, 5} do if x^2 < 10 then write(x)$`
`Scilab`
`Sumit`
`Yacas`

	Assignment	Function definition	Clear vars and funs
`Axiom`	`y:= f(x)`	`f(x, y) == x*y`	`)clear properties y f`
`Derive`	`y:= f(x)`	`f(x, y):= x*y`	`y:= f:=`
`DoCon?`
`GAP`	`y:= f(x);`	`f:=function(x, y) return x*y; end;`	There are no symbolic variables
`Gmp`
`Macsyma`	`y: f(x);`	`f(x, y):= x*y;`	`remvalue(y)$`
			`remfunction(f)$`
`Magnus`
`Maxima`	`y: f(x);`	`f(x, y):= x*y;`	`remvalue(y)$`
			`remfunction(f)$`
`Maple`	`y:= f(x);`	`f:= proc(x, y) x*y end;`	`y:= 'y': f:= 'f':`
`Mathematica`	`y = f[x]?`	`f[x, y ]:= x*y`	`Clear[y, f]`
`MuPAD?`	`y:= f(x)`	`(x, y) -> x*y`	`delete y, f`
		`f:= proc(x, y)`
		`begin x*y end_proc`
`Octave`
`Pari`
`Reduce`	`y:= f(x);`	`procedure f(x, y); x*y;`	`clear y, f;`
`Scilab`
`Sumit`
`Yacas`

	Function definition with a local variable
`Axiom`	`f(x) == (local n; n:= 2; n*x)`
`Derive`
`DoCon?`
`GAP`	`f:=function(x) local n; n:=2;return n*x; end;`
`Gmp`
`Macsyma`	`f(x):= block([n]?, n: 2, n*x);`
`Magnus`
`Maxima`	`f(x):= block([n], n: 2, n*x);`
`Maple`	`f:= proc(x) local n; n:= 2; n*x end;`
`Mathematica`	`f[x_ ]:= Module[{n}, n = 2; n*x]?`
`MuPAD?`	`f:= proc(x) local n; begin n:= 2; n*x end_proc;`
`Octave`
`Pari`
`Reduce`	`procedure f(x); begin scalar n; n:= 2; return(n*x) end;`
`Scilab`
`Sumit`
`Yacas`

	Return unevaluated symbol	Define a function from an expression
`Axiom`	`e:= x*y; 'e`	`function(e, f, x, y)`
`Derive`	`e:= x*y 'e`	`f(x, y):== e`
`DoCon?`
`GAP`	No unevaluated symbols⁶
`Gmp`
`Macsyma`	`e: x*y$ 'e;`	`define(f(x, y), e);`
`Magnus`
`Maxima`	`e: x*y$ 'e;`	`define(f(x, y), e);`
`Maple`	`e:= x*y: 'e';`	`f:= unapply(e, x, y);`
`Mathematica`	`e = x*y; HoldForm?[e]?`	`f[x, y ]? = e`
`MuPAD?`	`e:= x*y: hold(e);`	`f:= hold(func)(e, x, y);`
`Octave`
`Pari`
`Reduce`	`e:= x*y$`	`for all x, y let f(x, y):= e;`
`Scilab`
`Sumit`
`Yacas`

	Fun. of an indefinite number of args	Apply ``+'' to sum a list
`Axiom`		`reduce(+, [1, 2]?)`
`Derive`	`LST l:= l`
`DoCon?`
`GAP`	`lst:=function(args) _ end;`	`Sum([1,2]?)`
`Gmp`
`Macsyma`	`lst([l]?):= l;`	`apply("+", [1, 2])`
`Magnus`
`Maxima`	`lst([l]):= l;`	`apply("+", [1, 2]?)`
`Maple`	`lst:=proc() [args[1..nargs]]? end;`	convert([1, 2], `+`)
`Mathematica`	`lst[l _ ]:= {l}`	`Apply[Plus, {1, 2}]`
`MuPAD?`	`lst:= proc() begin [args()]?`	`_plus(op([1, 2]?))`
	`end_ proc;`
`Octave`
`Pari`
`Reduce`		`xapply(+, {1, 2})` ⁵
`Scilab`
`Sumit`
`Yacas`

	Apply a fun. to a
	list of its args	Map an anonymous function onto a list
`Axiom`	`reduce(f, l)`	`map(x +-> x + y, [1, 2]?)`
`Derive`		`x:= [1, 2]`
		`VECTOR(x SUB i + y, i, 1, DIMENSION(x))`
`DoCon?`
`GAP`	`List(l,f)`	`List([1,2],x->x+y)`
`Gmp`
`Macsyma`	`apply(f, l)`	`map(lambda([x], x + y), [1, 2])`
`Magnus`
`Maxima`	`apply(f, l)`	`map(lambda([x], x + y), [1, 2])`
`Maple`	`f(op(l))`	`map(x -> x + y, [1, 2])`
`Mathematica`	`Apply[f, l]`	`Map[# + y &, {1, 2}]?`
`MuPAD?`	`f(op(l))`	`map([1, 2], x -> x + y)`
`Octave`
`Pari`
`Reduce`	`xapply(f, l)` ⁶	`for each x in {1, 2} collect x + y`
`Scilab`
`Sumit`
`Yacas`

	Pattern matching: f(3 y) + f(z y) Â® 3 f(y) + f(z y)
`Axiom`	`f:= operator('f);`
	`( rule f((n \| integer?(n)) x) == nf(x) )( _`
	`f(3y) + f(zy))`
`Derive`
`DoCon?`
`GAP`
`Gmp`
`Macsyma`	`matchdeclare(n, integerp, x, true)$`
	`defrule(fnx, f(nx), nf(x))$`
	`apply1(f(3y) + f(zy), fnx);`
`Magnus`
`Maxima`	`matchdeclare(n, integerp, x, true)$`
	`defrule(fnx, f(nx), nf(x))$`
	`apply1(f(3y) + f(zy), fnx);`
`Maple`	`map(proc(q) local m;`
	`if match(q = f(n*y), y, m) and`
	`type(rhs(op(m)), integer) then`
	`subs(m, n * f(y)) else q fi`
	`end,`
	`f(3y) + f(zy));`
`Mathematica`	`f[3y] + f[zy] /. f[n_Integer x_ ]? -> nf[x]?`
`MuPAD?`
`Octave`
`Pari`
`Reduce`	`operator f;`
	`f(3y) + f(zy)`
	`where {f(~n ~x) => nf(x) when fixp(n)};`
`Scilab`
`Sumit`
`Yacas`

	Define a new infix operator and then use it
`Axiom`
`Derive`
`DoCon?`
`GAP`	One can overload existing infix operators for ones own purposes
`Gmp`
`Macsyma`	`infix("~")$ "~"(x, y):= sqrt(x^2 + y^2)$ 3 ~ 4;`
`Magnus`
`Maxima`	`infix("~")$ "~"(x, y):= sqrt(x^2 + y^2)$ 3 ~ 4;`
`Maple`	`&~`:= (x, y) -> sqrt(x^2 + y^2): 3 &~ 4;
`Mathematica`	`x_ \[Tilde]? y_:= Sqrt[x^2 + y^2]?; 3 \[Tilde]? 4`
`MuPAD?`	`tilde:= proc(x, y) begin sqrt(x^2 + y^2) end_ proc:`
	`operator("~", tilde, Binary, 100):`
	`3 ~ 4;`
`Octave`
`Pari`
`Reduce`	`infix \|$ procedure \|(x, y); sqrt(x^2 + y^2)$ 3 \| 4;`
`Scilab`
`Sumit`
`Yacas`

	Main expression
	operator	1^{1 th st nd rd} operand	List of expression operands
`Axiom`⁷		`kernels(e) . 1`	`kernels(e)`
`Derive`			`various`⁸
`DoCon?`
`GAP`	There are no formal unevaluated expressions
`Gmp`
`Macsyma`	`part(e, 0)`	`part(e, 1)`	`args(e)`
`Magnus`
`Maxima`	`part(e, 0)`	`part(e, 1)`	`args(e)`
`Maple`	`op(0, e)`	`op(1, e)`	`[op(e)]?`
`Mathematica`	`Head[e]?`	`e[[1]]?`	`ReplacePart?[e, List, 0]?`
`MuPAD?`	`op(e, 0)`	`op(e, 1)`	`[op(e)]?`
`Octave`
`Pari`
`Reduce`	`part(e, 0)`	`part(e, 1)`	`for i:=1:arglength(e)`
			`collect part(e, i)`
`Scilab`
`Sumit`
`Yacas`

	Print text and results
`Axiom`	`output(concat(["sin(", string(0), ") = ",`
	`string(sin(0))]));`
`Derive`	`"sin(0)" = sin(0)`
`DoCon?`
`GAP`	`Print("There is no sin, but factors(10)= ",Factors(10), "\n")`
`Gmp`
`Macsyma`	`print("sin(", 0, ") =", sin(0))$`
`Magnus`
`Maxima`	`print("sin(", 0, ") =", sin(0))$`
`Maple`	`printf("sin(%a) = %a\n", 0, sin(0)):`
`Mathematica`	Print[StringForm["sin(``) = ``", 0, Sin[0]]?];
`MuPAD?`	`print(Unquoted, "sin(".0.")" = sin(0)):`
`Octave`
`Pari`
`Reduce`	`write("sin(", 0, ") = ", sin(0))$`
`Scilab`
`Sumit`
`Yacas`

	Generate FORTRAN	Generate TeX?/L^AT_EX
`Axiom`	`outputAsFortran(e)`	`outputAsTex(e)`
`Derive`	`[Transfer Save Fortran]?`
`DoCon?`
`GAP`		`Print(LaTeX?(e));`
`Gmp`
`Macsyma`	`fortran(e)$ or gentran(eval(e))$`	`tex(e);`
`Magnus`
`Maxima`	`fortran(e)$ or gentran(eval(e))$`	`tex(e);`
`Maple`	`fortran([e]?);`	`latex(e);`
`Mathematica`	`FortranForm?[e]?`	`TexForm?[e]?`
`MuPAD?`	`generate::fortran(e);`	`generate::TeX?(e);`
`Octave`
`Pari`
`Reduce`	`on fort; e; off fort; or`	`load_ package(tri)$`
	`load_ package(gentran)$ gentran e;`	`on TeX?; e; off TeX?;`
`Scilab`
`Sumit`
`Yacas`

	Import two space separated columns of integers from `file`
`Axiom`
`Derive`	`[Transfer Load daTa]? (`from `file.dat)`
`DoCon?`
`GAP`
`Gmp`
`Macsyma`	`xy: read_num_data_to_matrix("file", nrows, 2)$`
`Magnus`
`Maxima`	`xy: read_num_data_to_matrix("file", nrows, 2)$`
`Maple`	`xy:= readdata("file", integer, 2):`
`Mathematica`	`xy = ReadList?["file", Number, RecordLists -> True]?`
`MuPAD?`	`data := import::readdata("file")`
`Octave`
`Pari`
`Reduce`
`Scilab`
`Sumit`
`Yacas`

	Export two space separated columns of integers to `file`⁷
`Axiom`	`)set output algebra "file" (`creates `file.spout)`
	`for i in 1..n repeat output( _`
	`concat([string(xy(i, 1)), " ", string(xy(i, 2))]?) )`
	`)set output algebra console`
`Derive`	`xy [Transfer Print Expressions File]? (`creates `file.prt)`
`DoCon?`
`GAP`	`PrintTo?("file");for i in [1..n]? do`
	`AppendTo?("file",xy[i][1]," ",xy[i][2],"\n");od;`
`Gmp`
`Macsyma`	`writefile("file")$ for i:1 thru n do`
	`print(xy[i, 1], xy[i, 2])$ closefile()$`
`Magnus`
`Maxima`	`writefile("file")$ for i:1 thru n do`
	`print(xy[i, 1]?, xy[i, 2]?)$ closefile()$`
`Maple`	`writedata("file", xy);`
`Mathematica`	`outfile = OpenWrite?["file"];`
	`Do[WriteString?[outfile,`
	`xy[[i, 1]], " ", xy[[i, 2]], "\n"], {i, 1, n}]`
	`Close[outfile]?;`
`MuPAD?`	`fprint(Unquoted, Text, "file",`
	`(xy[i, 1]?, " ", xy[i, 2], "\n") $ i = 1..n):`
`Octave`
`Pari`
`Reduce`	`out "file"; for i:=1:n do`
	`write(xy(i, 1), " ", xy(i, 2)); shut "file";`
`Scilab`
`Sumit`
`Sumit`
`Yacas`

`1.4` `Mathematics and Graphics`

Since GAP aims at discrete mathematics, it does not provide much of the calculus functionality listed in the following section.

	`e`	`p`	`i`	`+Â¥`	`2`	`2`^1/3
`Axiom`	`%e`	`%pi`	`%i`	`%plusInfinity`	`sqrt(2)`	`2**(1/3)`
`Derive`	`#e`	`pi`	`#i`	`inf`	`SQRT(2)`	`2^(1/3)`
`DoCon?`
`GAP`			`E(4)`	`infinity`	`ER(2)`⁸
`Gmp`
`Macsyma`	`%e`	`%pi`	`%i`	`inf`	`sqrt(2)`	`2^(1/3)`
`Magnus`
`Maxima`	`%e`	`%pi`	`%i`	`inf`	`sqrt(2)`	`2^(1/3)`
`Maple`	`exp(1)`	`Pi`	`I`	`infinity`	`sqrt(2)`	`2^(1/3)`
`Mathematica`	`E`	`Pi`	`I`	`Infinity`	`Sqrt[2]?`	`2^(1/3)`
`MuPAD?`	`E`	`PI`	`I`	`infinity`	`sqrt(2)`	`2^(1/3)`
`Octave`
`Pari`
`Reduce`	`e`	`pi`	`i`	`infinity`	`sqrt(2)`	`2^(1/3)`
`Scilab`
`Sumit`
`Yacas`

	Euler's constant	Natural log	Arctangent	`n!`
`Axiom`		`log(x)`	`atan(x)`	`factorial(n)`
`Derive`	`euler_ gamma`	`LOG(x)`	`ATAN(x)`	`n!`
`DoCon?`
`GAP`		`LogInt?(x,base)`		`Factorial(n)`
`Gmp`
`Macsyma`	`%gamma`	`log(x)`	`atan(x)`	`n!`
`Magnus`
`Maxima`	`%gamma`	`log(x)`	`atan(x)`	`n!`
`Maple`	`gamma`	`log(x)`	`arctan(x)`	`n!`
`Mathematica`	`EulerGamma?`	`Log[x]?`	`ArcTan?[x]?`	`n!`
`MuPAD?`	`EULER`	`ln(x)`	`atan(x)`	`n!`
`Octave`
`Pari`
`Reduce`	`Euler_ Gamma`	`log(x)`	`atan(x)`	`factorial(n)`
`Scilab`
`Sumit`
`Yacas`

	Legendre polynomial	Chebyshev poly. of the 1^{1 th st nd rd} kind
`Axiom`	`legendreP(n, x)`	`chebyshevT(n, x)`
`Derive`	`LEGENDRE_ P(n, x)`	`CHEBYCHEV_ T(n, x)`
`DoCon?`
`GAP`
`Gmp`
`Macsyma`	`legendre_ p(n, x)`	`chebyshev_ t(n, x)`
`Magnus`
`Maxima`	`legendre_ p(n, x)`	`chebyshev_ t(n, x)`
`Maple`	`orthopoly[P](n, x)`	`orthopoly[T](n, x)`
`Mathematica`	`LegendreP?[n, x]`	`ChebyshevT?[n, x]`
`MuPAD?`	`orthpoly::legendre(n, x)`	`orthpoly::chebyshev1(n, x)`
`Octave`
`Pari`
`Reduce`	`LegendreP?(n, x)`	`ChebyshevT?(n, x)`
`Scilab`
`Sumit`
`Yacas`

	Fibonacci number	Elliptic integral of the 1^{1 th st nd rd} kind
`Axiom`	`fibonacci(n)`
`Derive`	`FIBONACCI(n)`	`ELLIPTIC_ E(phi, k^2)`
`DoCon?`
`GAP`	`Fibonacci(n)`
`Gmp`
`Macsyma`	`fib(n)`	`elliptic_ e(phi, k^2)`
`Magnus`
`Maxima`	`fib(n)`	`elliptic_ e(phi, k^2)`
`Maple`	`combinat[fibonacci]?(n)`	`EllipticE?(sin(phi), k)`
`Mathematica`	`Fibonacci[n]?`	`EllipticE?[phi, k^2]?`
`MuPAD?`	`numlib::fibonacci(n)`
`Octave`
`Pari`
`Reduce`		`EllipticE?(phi, k^2)`
`Scilab`
`Sumit`
`Yacas`

	`G(x)`	`y(x)`	Cosine integral	Bessel fun. (1^{1 th st nd rd})
`Axiom`	`Gamma(x)`	`psi(x)`	`real(Ei(%i*x))`	`besselJ(n, x)`
`Derive`	`GAMMA(x)`	`PSI(x)`	`CI(x)`	`BESSEL_ J(n, x)`
`DoCon?`
`GAP`
`Gmp`
`Macsyma`	`gamma(x)`	`psi[0]?(x)`	`cos_ int(x)`	`bessel_j[n]?(x)`
`Magnus`
`Maxima`	`gamma(x)`	`psi[0](x)`	`cos_ int(x)`	`bessel_j[n](x)`
`Maple`	`GAMMA(x)`	`Psi(x)`	`Ci(x)`	`BesselJ?(n, x)`
`Mathematica`	`Gamma[x]`	`PolyGamma?[x]`	`CosIntegral?[x]?`	`BesselJ?[n, x]?`
`MuPAD?`	`gamma(x)`	`psi(x)`	`Ci(x)`	`besselJ(n, x)`
`Octave`
`Pari`
`Reduce`	`Gamma(x)`	`Psi(x)`	`Ci(x)`	`BesselJ?(n, x)`
`Scilab`
`Sumit`
`Yacas`

	Hypergeometric fun. ₂F₁(a, b; c; x)	Dirac delta	Unit step fun.
`Axiom`
`Derive`	`GAUSS(a, b, c, x)`		`STEP(x)`
`DoCon?`
`GAP`
`Gmp`
`Macsyma`	`hgfred([a, b]?, [c]?, x)`	`delta(x)`	`unit_ step(x)`
`Magnus`
`Maxima`	`hgfred([a, b]?, [c]?, x)`	`delta(x)`	`unit_ step(x)`
`Maple`	`hypergeom([a, b]?, [c]?, x)`	`Dirac(x)`	`Heaviside(x)`
`Mathematica`	`HypergeometricPFQ?[{a,b},{c},x]?`	<< Calculus`DiracDelta?`
`MuPAD?`	`hypergeom([a,b], [c], x)`	`dirac(x)`	`heaviside(x)`
`Octave`
`Pari`
`Reduce`	`hypergeometric({a, b}, {c}, x)`
`Scilab`
`Sumit`
`Yacas`

	Define \|x\| via a piecewise function
`Axiom`
`Derive`	`a(x):= -xCHI(-inf, x, 0) + xCHI(0, x, inf)`
`DoCon?`
`GAP`
`Gmp`
`Macsyma`	`a(x):= -xunit_ step(-x) + xunit_ step(x)$`
`Magnus`
`Maxima`	`a(x):= -xunit_ step(-x) + xunit_ step(x)$`
`Maple`	`a:= x -> piecewise(x < 0, -x, x):`
`Mathematica`	<< Calculus`DiracDelta?`
	`a[x_]:= -xUnitStep?[-x]? + xUnitStep?[x]?`
`MuPAD?`	`a:= x -> piecewise([x<0, -x]?, [x>=0, x]?)`
	`end_ proc:`
`Octave`
`Pari`
`Reduce`
`Scilab`
`Sumit`
`Yacas`

	Assume x is real	Remove that assumption
`Axiom`
`Derive`	`x :epsilon Real`	`x:=`
`DoCon?`
`GAP`
`Gmp`
`Macsyma`	`declare(x, real)$`	`remove(x, real)$`
`Magnus`
`Maxima`	`declare(x, real)$`	`remove(x, real)$`
`Maple`	`assume(x, real);`	`x:= 'x':`
`Mathematica`	`x/: Im[x] = 0;`	`Clear[x]`
`MuPAD?`	`assume(x, Type::Real):`	`delete x:`
`Octave`
`Pari`
`Reduce`
`Scilab`
`Sumit`
`Yacas`

	Assume 0 < x Â£ 1	Remove that assumption
`Axiom`
`Derive`	`x :epsilon (0, 1]`	`x:=`
`DoCon?`
`GAP`
`Gmp`
`Macsyma`	`assume(x > 0, x <= 1)$`	`forget(x > 0, x <= 1)$`
`Magnus`
`Maxima`	`assume(x > 0, x <= 1)$`	`forget(x > 0, x <= 1)$`
`Maple`	`assume(x > 0);`	`x:= 'x':`
	`additionally(x <= 1);`
`Mathematica`	`Assumptions -> 0 < x <= 1` ⁸
`MuPAD?`	`assume(0 < x <= 1):`	`delete x:`
`Octave`
`Pari`
`Reduce`
`Scilab`
`Sumit`
`Yacas`

	Basic simplification of an expression e
`Axiom`	`simplify(e) or normalize(e) or complexNormalize(e)`
`Derive`	`e`
`DoCon?`
`GAP`	`e`
`Gmp`
`Macsyma`	`ratsimp(e) or radcan(e)`
`Magnus`
`Maxima`	`ratsimp(e) or radcan(e)`
`Maple`	`simplify(e)`
`Mathematica`	`Simplify[e]? or FullSimplify?[e]?`
`MuPAD?`	`simplify(e) or normal(e)`
`Octave`
`Pari`
`Reduce`	`e`
`Scilab`
`Sumit`
`Yacas`

	Use an unknown function	Numerically evaluate an expr.
`Axiom`	`f:= operator('f); f(x)`	`exp(1) :: Complex Float`
`Derive`	`f(x):=`	`Precision:= Approximate`
	`f(x)`	`APPROX(EXP(1))`
		`Precision:= Exact`
`DoCon?`
`GAP`		`EvalF?(123/456)`
`Gmp`
`Macsyma`	`f(x)`	`sfloat(exp(1));`
`Magnus`
`Maxima`	`f(x)`	`sfloat(exp(1));`
`Maple`	`f(x)`	`evalf(exp(1));`
`Mathematica`	`f[x]?`	`N[Exp[1]]`
`MuPAD?`	`f(x)`	`float(exp(1));`
`Octave`
`Pari`
`Reduce`	`operator f; f(x)`	`on rounded; exp(1);`
		`off rounded;`
`Scilab`
`Sumit`
`Yacas`

	`n modm`	Solve e Âº 0 modm for x
`Axiom`	`rem(n, m)`	`solve(e = 0 :: PrimeField?(m), x)`
`Derive`	`MOD(n, m)`	`SOLVE_ MOD(e = 0, x, m)`
`DoCon?`
`GAP`	`n mod m`	solve using finite fields
`Gmp`
`Macsyma`	`mod(n, m)`	`modulus: m$ solve(e = 0, x)`
`Magnus`
`Maxima`	`mod(n, m)`	`modulus: m$ solve(e = 0, x)`
`Maple`	`n mod m`	`msolve(e = 0, m)`
`Mathematica`	`Mod[n, m]`	`Solve[{e == 0, Modulus == m}, x]`
`MuPAD?`	`n mod m`	`solve(poly(e, [x]?, IntMod?(m))=0, x)`
`Octave`
`Pari`
`Reduce`	`on modular;`	`load_ package(modsr)$ on modular;`
	`setmod m$ n`	`setmod m$ m_solve(e = 0, x)`
`Scilab`
`Sumit`
`Yacas`

	Put over common denominator	Expand into separate fractions
`Axiom`	`a/b + c/d`	`(ad + bc)/(b*d) :: _`
		`MPOLY([a]?, FRAC POLY INT)`
`Derive`	`FACTOR(a/b + c/d, Trivial)`	`EXPAND((ad + bc)/(b*d))`
`DoCon?`
`GAP`	`a/b+c/d`
`Gmp`
`Macsyma`	`xthru(a/b + c/d)`	`expand((ad + bc)/(b*d))`
`Magnus`
`Maxima`	`xthru(a/b + c/d)`	`expand((ad + bc)/(b*d))`
`Maple`	`normal(a/b + c/d)`	`expand((ad + bc)/(b*d))`
`Mathematica`	`Together[a/b + c/d]`	`Apart[(ad + bc)/(b*d)]?`
`MuPAD?`	`normal(a/b + c/d)`	`expand((ad + bc)/(b*d))`
`Octave`
`Pari`
`Reduce`	`a/b + c/d`	`on div; (ad + bc)/(b*d)`
`Scilab`
`Sumit`
`Yacas`

	Manipulate the root of a polynomial
`Axiom`	`a:= rootOf(x2 - 2); a2`
`Derive`
`DoCon?`
`GAP`	`x:=X(Rationals,"x");`
	`a:=RootOfDefiningPolynomial?(AlgebraicExtension?(Rationals,x^2-2)); a^2`
`Gmp`
`Macsyma`	`algebraic:true$ tellrat(a^2 - 2)$ rat(a^2);`
`Magnus`
`Maxima`	`algebraic:true$ tellrat(a^2 - 2)$ rat(a^2);`
`Maple`	`a:= RootOf?(x^2 - 2): simplify(a^2);`
`Mathematica`	`a = Root[#^2 - 2 &, 2]? a^2`
`MuPAD?`	`F := Dom::AlgebraicExtension?(Dom::Rational, a^2-2):`
	`F(a)^2`
`Octave`
`Pari`
`Reduce`	`load_ package(arnum)$ defpoly(a^2 - 2); a^2;`
`Scilab`
`Sumit`
`Yacas`

	Noncommutative multiplication	Solve a pair of equations
`Axiom`		`solve([eqn1, eqn2], [x, y]?)`
`Derive`	`x :epsilon Nonscalar`	`SOLVE([eqn1, eqn2], [x, y]?)`
	`y :epsilon Nonscalar`
	`x . y`
`DoCon?`
`GAP`	`*`
`Gmp`
`Macsyma`	`x . y`	`solve([eqn1, eqn2], [x, y]?)`
`Magnus`
`Maxima`	`x . y`	`solve([eqn1, eqn2], [x, y]?)`
`Maple`	`x &* y`	`solve({eqn1, eqn2}, {x, y})`
`Mathematica`	`x ** y`	`Solve[{eqn1, eqn2}, {x, y}]?`
`MuPAD?`		`solve({eqn1, eqn2}, {x, y})`
`Octave`
`Pari`
`Reduce`	`operator x, y;`	`solve({eqn1, eqn2}, {x, y})`
	`noncom x, y;`
	`x() * y()`
`Scilab`
`Sumit`
`Yacas`

	Decrease/increase angles in trigonometric functions
`Axiom`	`simplify(normalize(sin(2*x)))`
`Derive`	`Trigonometry:= Expand`	`Trigonometry:= Collect`
	`sin(2*x)`	`2sin(x)cos(x)`
`DoCon?`
`GAP`
`Gmp`
`Macsyma`	`trigexpand(sin(2*x))`	`trigreduce(2sin(x)cos(x))`
`Magnus`
`Maxima`	`trigexpand(sin(2*x))`	`trigreduce(2sin(x)cos(x))`
`Maple`	`expand(sin(2*x))`	`combine(2sin(x)cos(x))`
`Mathematica`	`TrigExpand?[Sin[2*x]]`	`TrigReduce?[2Sin[x]Cos[x]]?`
`MuPAD?`	`expand(sin(2*x))`	`combine(2sin(x)cos(x), sincos)`
`Octave`
`Pari`
`Reduce`	`load_ package(assist)$`
	`trigexpand(sin(2*x))`	`trigreduce(2sin(x)cos(x))`
`Scilab`
`Sumit`
`Yacas`

	GrÃ¶bner basis
`Axiom`	`groebner([p1, p2, ...]?)`
`Derive`
`DoCon?`
`GAP`
`Gmp`
`Macsyma`	`grobner([p1, p2, ...])`
`Magnus`
`Maxima`	`grobner([p1, p2, ...])`
`Maple`	`Groebner[gbasis]([p1, p2, ...]?, plex(x1, x2, ...))`
`Mathematica`	`GroebnerBasis?[{p1, p2, ...}, {x1, x2, ...}]`
`MuPAD?`	`groebner::gbasis([p1, p2, ...])`
`Octave`
`Pari`
`Reduce`	`load_ package(groebner)$ groebner({p1, p2, ...})`
`Scilab`
`Sumit`
`Yacas`

	Factorization of e over i = -1
`Axiom`	`factor(e, [rootOf(i**2 + 1)])`
`Derive`	`FACTOR(e, Complex)`
`DoCon?`
`GAP`	`Factors(GaussianIntegers?,e)`
`Gmp`
`Macsyma`	`gfactor(e); or factor(e, i^2 + 1);`
`Magnus`
`Maxima`	`gfactor(e); or factor(e, i^2 + 1);`
`Maple`	`factor(e, I);`
`Mathematica`	`Factor[e, Extension -> I]?`
`MuPAD?`	`QI:= Dom::AlgebraicExtension?(Dom::Rational, i^2 + 1);`
	`QI::name:= "QI": Factor(poly(e, QI));`
`Octave`
`Pari`
`Reduce`	`on complex, factor; e; off complex, factor;`
`Scilab`
`Sumit`
`Yacas`

	Real part	Convert a complex expr. to rectangular form
`Axiom`	`real(f(z))`	`complexForm(f(z))`
`Derive`	`RE(f(z))`	`f(z)`
`DoCon?`
`GAP`	`(f(z)+GaloisCyc?(f(z),-1))/2`
`Gmp`
`Macsyma`	`realpart(f(z))`	`rectform(f(z))`
`Magnus`
`Maxima`	`realpart(f(z))`	`rectform(f(z))`
`Maple`	`Re(f(z))`	`evalc(f(z))`
`Mathematica`	`Re[f![z]]?`	`ComplexExpand?[f[z]]?`
`MuPAD?`	`Re(f(z))`	`rectform(f(z))`
`Octave`
`Pari`
`Reduce`	`repart(f(z))`	`repart(f(z)) + i*impart(f(z))`
`Scilab`
`Sumit`
`Yacas`

	Matrix addition	Matrix multiplication	Matrix transpose
`Axiom`	`A + B`	`A * B`	`transpose(A)`
`Derive`	`A + B`	`A . B`	A`
`DoCon?`
`GAP`	`A + B`	`A * B`	`TransposedMat?(A)`
`Gmp`
`Macsyma`	`A + B`	`A . B`	`transpose(A)`
`Magnus`
`Maxima`	`A + B`	`A . B`	`transpose(A)`
`Maple`	`evalm(A + B)`	`evalm(A &* B)`	`linalg[transpose](A)`
`Mathematica`	`A + B`	`A . B`	`Transpose[A]?`
`MuPAD?`	`A + B`	`A * B`	`linalg::transpose(A)`
`Octave`
`Pari`
`Reduce`	`A + B`	`A * B`	`tp(A)`
`Scilab`
`Sumit`
`Yacas`

	Solve the matrix equation A x = b
`Axiom`	`solve(A, transpose(b)) . 1 . particular :: Matrix ___`
`Derive`
`DoCon?`
`GAP`	`SolutionMat?(TransposedMat?(A),b)`
`Gmp`
`Macsyma`	`xx: genvector('x, mat_nrows(b))$`
	`x: part(matlinsolve(A . xx = b, xx), 1, 2)`
`Magnus`
`Maxima`	`xx: genvector('x, mat_nrows(b))$`
	`x: part(matlinsolve(A . xx = b, xx), 1, 2)`
`Maple`	`x:= linalg[linsolve]?(A, b)`
`Mathematica`	`x = LinearSolve?[A, b]?`
`MuPAD?`	`matlinsolve(A, b)`
`Octave`
`Pari`
`Reduce`
`Scilab`
`Sumit`
`Yacas`

	Sum: Ã¥_{i = 1}ⁿ f(i)	Product: Ã•_{i = 1}ⁿ f(i)
`Axiom`	`sum(f(i), i = 1..n)`	`product(f(i), i = 1..n)`
`Derive`	`SUM(f(i), i, 1, n)`	`PRODUCT(f(i), i, 1, n)`
`DoCon?`
`GAP`	`Sum([1..n]?,f)`	`Product([1..n]?,f)`
`Gmp`
`Macsyma`	`closedform(`	`closedform(`
	`sum(f(i), i, 1, n))`	`product(f(i), i, 1, n))`
`Magnus`
`Maxima`	`closedform(`	`closedform(`
	`sum(f(i), i, 1, n))`	`product(f(i), i, 1, n))`
`Maple`	`sum(f(i), i = 1..n)`	`product(f(i), i = 1..n)`
`Mathematica`	`Sum[f![i]?, {i, 1, n}]`	`Product[f[i], {i, 1, n}]`
`MuPAD?`	`sum(f(i), i = 1..n)`	`product(f(i), i = 1..n)`
`Octave`
`Pari`
`Reduce`	`sum(f(i), i, 1, n)`	`prod(f(i), i, 1, n)`
`Scilab`
`Sumit`
`Yacas`

	Limit: lim_{x Â® 0-} f(x)	Taylor/Laurent/etc. series
`Axiom`	`limit(f(x), x = 0, "left")`	`series(f(x), x = 0, 3)`
`Derive`	`LIM(f(x), x, 0, -1)`	`TAYLOR(f(x), x, 0, 3)`
`DoCon?`
`GAP`
`Gmp`
`Macsyma`	`limit(f(x), x, 0, minus)`	`taylor(f(x), x, 0, 3)`
`Magnus`
`Maxima`	`limit(f(x), x, 0, minus)`	`taylor(f(x), x, 0, 3)`
`Maple`	`limit(f(x), x = 0, left)`	`series(f(x), x = 0, 4)`
`Mathematica`	`Limit[f![x]?, x->0, Direction->1]`	`Series[f![x]?,{x, 0, 3}]`
`MuPAD?`	`limit(f(x), x = 0, Left)`	`series(f(x), x = 0, 4)`
`Octave`
`Pari`
`Reduce`	`limit!-(f(x), x, 0)`	`taylor(f(x), x, 0, 3)`
`Scilab`
`Sumit`
`Yacas`

	Differentiate: d³ f(x, y)/dx dy²	Integrate: Ã²₀¹ f(x) dx
`Axiom`	`D(f(x, y), [x, y], [1, 2])`	`integrate(f(x), x = 0..1)`
`Derive`	`DIF(DIF(f(x, y), x), y, 2)`	`INT(f(x), x, 0, 1)`
`DoCon?`
`GAP`
`Gmp`
`Macsyma`	`diff(f(x, y), x, 1, y, 2)`	`integrate(f(x), x, 0, 1)`
`Magnus`
`Maxima`	`diff(f(x, y), x, 1, y, 2)`	`integrate(f(x), x, 0, 1)`
`Maple`	`diff(f(x, y), x, y$2)`	`int(f(x), x = 0..1)`
`Mathematica`	`D[f![x, y]?, x, {y, 2}]`	`Integrate[f[x]?, {x, 0, 1}]`
`MuPAD?`	`diff(f(x, y), x, y$2)`	`int(f(x), x = 0..1)`
`Octave`
`Pari`
`Reduce`	`df(f(x, y), x, y, 2)`	`int(f(x), x, 0, 1)`
`Scilab`
`Sumit`
`Yacas`

	Laplace transform	Inverse Laplace transform
`Axiom`	`laplace(e, t, s)`	`inverseLaplace(e, s, t)`
`Derive`	`LAPLACE(e, t, s)`
`DoCon?`
`GAP`
`Gmp`
`Macsyma`	`laplace(e, t, s)`	`ilt(e, s, t)`
`Magnus`
`Maxima`	`laplace(e, t, s)`	`ilt(e, s, t)`
`Maple`	`inttrans[laplace](e,t,s)`	`inttrans[invlaplace](e,s,t)`
`Mathematica`	<< Calculus`LaplaceTransform?`
	`LaplaceTransform?[e, t, s]`	`InverseLaplaceTransform?[e,s,t]`
`MuPAD?`	`transform::laplace(e,t,s)`	`transform::invlaplace(e, s, t)`
`Octave`
`Pari`
`Reduce`	`load package(laplace)$ load package(defint)$`
	`laplace(e, t, s)`	`invlap(e, t, s)`
`Scilab`
`Sumit`
`Yacas`

	Solve an ODE (with the initial condition y'(0) = 1)
`Axiom`	`solve(eqn, y, x)`
`Derive`	`APPLY IC(RHS(ODE(eqn, x, y, y)), [x, 0]?, [y, 1]?)`
`DoCon?`
`GAP`
`Gmp`
`Macsyma`	`ode_ibc(ode(eqn, y(x), x), x = 0, diff(y(x), x) = 1)`
`Magnus`
`Maxima`	`ode_ibc(ode(eqn, y(x), x), x = 0, diff(y(x), x) = 1)`
`Maple`	`dsolve({eqn, D(y)(0) = 1}, y(x))`
`Mathematica`	`DSolve?[{eqn, y'[0]? == 1}, y[x]?, x]`
`MuPAD?`	`solve(ode({eqn, y'(0) = 1}, y(x)))`
`Octave`
`Pari`
`Reduce`	`odesolve(eqn, y(x), x)`
`Scilab`
`Sumit`
`Yacas`

	Define the differential operator L = D_x + I and apply it to sinx
`Axiom`	`DD : LODO(Expression Integer, e +-> D(e, x)) := D();`
	`L:= DD + 1; L(sin(x))`
`Derive`
`DoCon?`
`GAP`
`Gmp`
`Macsyma`	`load(opalg)$ L: (diffop(x) - 1)$ L(sin(x));`
`Magnus`
`Maxima`	`load(opalg)$ L: (diffop(x) - 1)$ L(sin(x));`
`Maple`	`id:= x -> x: L:= (D + id): L(sin)(x);`
`Mathematica`	`L = D[#, x]& + Identity; Through[L[Sin[x]]?]`
`MuPAD?`	`L:= (D + id): L(sin)(x);`
`Octave`
`Pari`
`Reduce`
`Scilab`
`Sumit`
`Yacas`

	2D plot of two separate curves overlayed
`Axiom`	`draw(x, x = 0..1); draw(acsch(x), x = 0..1);`
`Derive`	`[Plot Overlay]`
`DoCon?`
`GAP`
`Gmp`
`Macsyma`	`plot(x, x, 0, 1)$ plot(acsch(x), x, 0, 1)$`
`Magnus`
`Maxima`	`plot(x, x, 0, 1)$ plot(acsch(x), x, 0, 1)$`
`Maple`	`plot({x, arccsch(x)}, x = 0..1):`
`Mathematica`	`Plot[{x, ArcCsch[x]}, {x, 0, 1}];`
`MuPAD?`	`plotfunc2d(x, arcsech(x), x = 0..1):`
`Octave`
`Pari`
`Reduce`	`load_ package(gnuplot)$ plot(y = x, x = (0 .. 1))$`
	`plot(y = acsch(x), x = (0 .. 1))$`
`Scilab`
`Sumit`
`Yacas`

	Simple 3D plotting
`Axiom`	`draw(abs(x*y), x = 0..1, y = 0..1);`
`Derive`	`[Plot Overlay]`
`DoCon?`
`GAP`
`Gmp`
`Macsyma`	`plot3d(abs(x*y), x, 0, 1, y, 0, 1)$`
`Magnus`
`Maxima`	`plot3d(abs(x*y), x, 0, 1, y, 0, 1)$`
`Maple`	`plot3d(abs(x*y), x = 0..1, y = 0..1):`
`Mathematica`	`Plot3D[Abs![x*y]?, {x, 0, 1}, {y, 0, 1}];`
`MuPAD?`	`plotfunc3d(abs(x*y), x = 0..1, y = 0..1):`
`Octave`
`Pari`
`Reduce`	`load_ package(gnuplot)$`
	`plot(z = abs(x*y), x = (0 .. 1), y = (0 .. 1))$`
`Scilab`
`Sumit`
`Yacas`

1: Only if the pattern is not a keyword and then the matches are simplistic.
6: Variables can be assigned to generators of a suitable free object, for example x:=X(Rationals,"x"); or f:=FreeGroup?(2);x:=f.1;.
6: procedure xapply(f, lst); lisp(f . cdr(lst))$
6: TERMS, FACTORS, NUMERATOR, LHS, etc.
7: The following commands work only on expressions that consist of a single level (e.g., x + y + z but not a/b + c/d).
7: Some editing of file will be necessary for all systems but Maple and Mathematica.
8: ER represents special cyclotomic numbers and is not a root function.
8: This is an option for Integrate.

This document was translated from L^AT_EX by H^EV^EA.

comments:

Remarks concerning GAP --Christian Sievers, Tue, 23 May 2006 11:39:26 -0500 reply
While the given GAP command does generate the list [1, 2, ..., n]?, the other examples seem to generate the list [f(1), f(2), ..., f(n)]?. This can be done with:

  List([1..n],f);

I'm not sure what Apply a fun. to a list of its args is supposed to mean, but my answer to that request is:

  CallFuncList(f,l);

A groebner basis can be computed with:

  GroebnerBasis([p1,p2,...],MonomialLexOrdering());

macsyma dead??? --unknown, Sat, 17 Jun 2006 12:42:22 -0500 reply
Hi I think it is still alive somehow, see for example: http://maxima.sourceforge.net

Bye

Other systems? --znmeb, Sat, 17 Jun 2006 19:38:19 -0500 reply
Have we ruled out "special purpose" CAS packages, such as Ginac and Singular?

Re: Have we ruled out "special purpose" CAS packages? --Bill Page, Mon, 19 Jun 2006 11:02:02 -0500 reply
Not at all. Please feel free to add missing information.

Dirac delta and piecewise --konstantin, Sun, 17 Sep 2006 13:33:02 -0500 reply
Dirak delta and piecewise was implemented as built-in in Mathematica: use DiracDelta?[x]? and Piecewise[{{-x,x<0},{x,x>0}}]?