%%
%% This is file `polynomial.sty',
%% generated with the docstrip utility.
%%
%% The original source files were:
%%
%% polynomial.dtx  (with options: `package')
%% This is a generated file.
%% Copyright (C) 2007 by Stefan H�st (stefan.host@it.lth.se)
%% 
%% This file may be distributed and/or modified under the
%% conditions of the LaTeX Project Public License, either
%% version 1.2 of this license or (at your option) any later
%% version. The latest version of this license is in:
%% 
%% http://www.latex-project.org/lppl.txt
%% 
%% and version 1.2 or later is part of all distributions of
%% LaTeX version 1999/12/01 or later.
\NeedsTeXFormat{LaTeX2e}
\ProvidesPackage{polynomial}


%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%
%% polynomial.sty
%%
%% v1.1
%% 2007-03-17
%%
%% Stefan H�st
%% (stefan.host@it.lth.se)
%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%
%% Problems:
%% * Very long numbers in coefficient result in overflow.
%%
%% Fixes
%% 2007-03-17: Removed allocation of counter for each call of \polynomial.
%% 2007-03-17: Replaced some other counters with \def.
%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% Counters
\newcount\shpol@numcoeff% Number of coeffs parsed
\newcount\shpol@coeffnum% loop var for coeffs
\newcount\shpol@exponent% loop var for exponents (not same as coeffnum)
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% ifs
\newif\if@shpol@firstterm% If first term no '+'
\newif\if@shpol@falling% If exponents falling
\newif\if@shpol@reciprocal% If reciprocal
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% variables
\def\shpol@var{x}% keyval: poly var
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% keyval
\RequirePackage{keyval}
%% in function
\define@key{shpol}{start}[0]{\def\shpol@start{#1}}%{\shpol@start=#1}
\define@key{shpol}{var}[x]{\def\shpol@tmpvar{#1}}
\define@key{shpol}{step}[1]{\def\shpol@expstep{#1}}%{\shpol@expstep=#1}
\define@key{shpol}{falling}[true]{\csname @shpol@falling#1\endcsname}
\define@key{shpol}{reciprocal}[true]{\csname @shpol@reciprocal#1\endcsname}
\define@key{shpol}{add}[+]{\def\shpol@add{#1}}
\define@key{shpol}{sub}[-]{\def\shpol@sub{#1}\def\shpol@firstsub{#1}}
\define@key{shpol}{firstsub}[-]{\def\shpol@firstsub{#1}}
%% default values
\define@key{shpoldefault}{start}[0]{\def\shpol@start{#1}}%{\shpol@start=#1}
\define@key{shpoldefault}{var}[x]{\def\shpol@var{#1}}
\define@key{shpoldefault}{step}[1]{\def\shpol@expstep{#1}}%{\shpol@expstep=#1}
\define@key{shpoldefault}{falling}[true]{\csname @shpol@falling#1\endcsname}
\define@key{shpoldefault}{reciprocal}[true]{\csname @shpol@reciprocal#1\endcsname}
\define@key{shpoldefault}{add}[+]{\def\shpol@add@default{#1}}
\define@key{shpoldefault}{sub}[-]{%
  \def\shpol@sub@default{#1}\def\shpol@firstsub@default{#1}}
\define@key{shpoldefault}{firstsub}[-]{\def\shpol@firstsub@default{#1}}
%%
\define@key{shpoldefault}{default}[true]{%
  \setkeys{shpoldefault}{start,var,step,falling=false,reciprocal=false,add,sub,firstsub}}
\setkeys{shpoldefault}{default}
\def\polynomialstyle#1{\setkeys{shpoldefault}{#1}}
%%%%%%%%%%%%%%%%%%%%%%%%
%% help defs
\def\shpol@splitcoeff#1{\shpol@@splitcoeff#1\@nil}
\def\shpol@@splitcoeff#1#2\@nil{%
  \def\shpol@firstofcoeff{#1}%
  \def\shpol@restofcoeff{#2}
}
\def\shpol@minus{-}
%% If #1 is a number that is =1 then #2 else #3
%% see www.tex.ac.uk/cgi-bin/texfaq2html?label=isitanum
\def\if@@one#1#2#3{%
  \ifcat_\ifnum1=0#1 _\else A\fi #2\else #3\fi}
%% If #1 a number that is =0 then #2 else #3
\def\if@@zero#1#2#3{%
  \ifcat_\ifnum0=0#1 _\else A\fi #2\else #3\fi}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% set one term in polynomial
\def\shpol@setterm[#1]#2#3{% [variable]{koefficient}{exponent}
  \def\@shpol@koeff{#2} %% To make it more clear
  \ifnum#3=0 %% x^0
    \@shpol@koeff
  \else
    \if@@one{#2}{}{\@shpol@koeff}
    #1
    \ifnum#3=1\else
      ^{#3}
    \fi
  \fi}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\def\shpol@getcoeff#1{% Pars the coeffs and store in #1-vars
  \shpol@numcoeff=0%
  \@for\shpol@coeff:=#1\do{%
    \advance\shpol@numcoeff by 1\relax%
    \expandafter\let\csname shpol@coeff\romannumeral\shpol@numcoeff\endcsname\shpol@coeff%
  }%
}
\def\shpol@writepoly{% Write the #1-vars as polynomial
  \shpol@coeffnum=1
  \shpol@exponent=0
  \if@shpol@reciprocal
    \if@shpol@falling
      \advance\shpol@exponent by -\shpol@numcoeff
      \advance\shpol@exponent by 1
    \else
      \advance\shpol@exponent by \shpol@numcoeff
      \advance\shpol@exponent by -1
    \fi
    \multiply\shpol@exponent by \shpol@expstep
  \fi
  \advance\shpol@exponent by \shpol@start
  \loop%
    \expandafter\let\expandafter\shpol@coeff%
      \csname shpol@coeff\romannumeral\shpol@coeffnum\endcsname
    \if@@zero{\shpol@coeff}{}{% coeff not zero
      %% Check if first char is '-'. Then remove it and replace + with -.
      \expandafter\shpol@splitcoeff\expandafter{\shpol@coeff}
      \ifx\shpol@firstofcoeff\shpol@minus
        \if@shpol@firstterm\shpol@firstsub\else\shpol@sub\fi
        \let\shpol@coeff\shpol@restofcoeff
      \else
        \if@shpol@firstterm\else\shpol@add\fi
      \fi
      %%\fi
      \@shpol@firsttermfalse
      \shpol@setterm[\shpol@tmpvar]%
      {\shpol@coeff}%
      {\the\shpol@exponent}%
    }
  \ifnum\shpol@coeffnum<\shpol@numcoeff
    \advance\shpol@coeffnum by 1\relax%
    \advance\shpol@exponent by
      \if@shpol@falling
        \if@shpol@reciprocal \shpol@expstep \else -\shpol@expstep \fi
      \else
        \if@shpol@reciprocal -\shpol@expstep \else \shpol@expstep \fi
      \fi\relax%
  \repeat
}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\def\shpol@defaultvalues{% Set default values for keyval
  \let\shpol@tmpvar\shpol@var
  \let\shpol@add\shpol@add@default
  \let\shpol@sub\shpol@sub@default
  \let\shpol@firstsub\shpol@firstsub@default
  \@shpol@firsttermtrue
}
\def\polynomial{%
  \shpol@defaultvalues
  \@ifnextchar[%]
  {\opt@shpol@polynomial}{\shpol@polynomial}}
\def\opt@shpol@polynomial[#1]{%
  \setkeys{shpol}{#1}
  \shpol@polynomial}
\def\shpol@polynomial#1{%
  \shpol@getcoeff{#1}
  \shpol@writepoly
}
\def\polynomialfrac{%
  \@ifnextchar[%]
  {\opt@shpol@rational}{\@shpol@rational}}
\def\@shpol@rational#1#2{%
  \frac{\polynomial{#1}}{\polynomial{#2}}}
\def\opt@shpol@rational[#1]#2#3{%
  \frac{\polynomial[#1]{#2}}{\polynomial[#1]{#3}}}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\endinput
%%
%% End of file `polynomial.sty'.