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%% $Id: pst-solarsystem.tex 620 2012-01-01 14:09:57Z herbert $
%%
%% This is file `pst-solarsystem.tex',
%%
%% IMPORTANT NOTICE:
%%
%% Package `pst-solarsystem.tex'
%%
%% Manuel Luque <manuel -> perce.de>
%% Herbert Voss <herbert -> dante.de>
%%
%% This program can be redistributed and/or modified under the terms
%% of the LaTeX Project Public License Distributed from CTAN archives
%% in directory macros/latex/base/lppl.txt.
%%
%% DESCRIPTION:
%% `pst-solarsystem' is a PSTricks package for plotting the solar system
%% for a specific date
%%
\csname PSTSOLARSYSTEMELoaded\endcsname
\let\PSTSOLARSYSTEMELoaded\endinput
% Requires some packages
\ifx\PSTricksLoaded\endinput\else \input pstricks \fi
\ifx\PSTnodesLoaded\endinput\else \input pst-node \fi
\ifx\PSTplotLoaded\endinput\else \input pst-plot \fi
\ifx\PSTthreeDLoaded\endinput\else\input pst-3d \fi
\ifx\GradientLoaded\endinput\else \input pst-grad \fi
\ifx\PSTtoolsLoaded\endinput\else \input pst-tools\fi
\ifx\PSTXKeyLoaded\endinput\else \input pst-xkey \fi
\def\fileversion{0.13}
\def\filedate{2017/08/22}
\message{`PSTSOLARSYSTEME' v\fileversion, \filedate}
%
\pstheader{pst-solarsystem.pro}
%
\edef\PstAtCode{\the\catcode`\@} \catcode`\@=11\relax
%
\pst@addfams{pst-solarsystem}
\define@key[psset]{pst-solarsystem}{Day}[\number\day]{\def\psk@SolarSystemD{#1}}
\define@key[psset]{pst-solarsystem}{Month}[\number\month]{\def\psk@SolarSystemM{#1}}
\define@key[psset]{pst-solarsystem}{Year}[\number\year]{\def\psk@SolarSystemY{#1}}
\define@key[psset]{pst-solarsystem}{Hour}[12]{\def\psk@SolarSystemH{#1}}
\define@key[psset]{pst-solarsystem}{Minute}[0]{\def\psk@SolarSystemMi{#1}}
\define@key[psset]{pst-solarsystem}{Second}[0]{\def\psk@SolarSystemS{#1}}
%
\psset{Day=\number\day,Month=\number\month,Year=\number\year,Hour=12,Minute=0,Second=0}
%% === show the results ---------------------
%\newif\ifPst@solar@values
%\define@key[psset]{pst-solarsystem}{solarValues}{\@nameuse{Pst@solar@values#1}\ifPst@solar@values true \else false \fi}
\define@boolkey[psset]{pst-solarsystem}[Pst@]{solarValues}[true]{}
\psset[pst-solarsystem]{solarValues=true}
\newpsstyle{planetes}{linestyle=none,fillstyle=gradient,gradmidpoint=0,gradend=white,GradientCircle}
\newcommand\Jupiter{%
\psclip{\pscircle[fillstyle=solid,fillcolor=yellow]{1.5}}
\psset{fillstyle=solid,fillcolor={[cmyk]{0 0.2 0.4 0}},linestyle=none}
\psframe(-2,.6)(2,1)
\psframe(-2,0.45)(2,0.52)
\psframe(-2,.05)(2,.3)
\psframe(-2,-0.35)(2,-0.2)
\psframe(-2,-0.9)(2,-.5)
\endpsclip
\psellipse[fillstyle=solid,fillcolor={[cmyk]{0 0.4 0.6 0}},linestyle=none](-0.3,-0.6)(0.35,0.2)
\pscircle{1.5}}
%
\newcommand\Saturne{%
\psellipse(3,0.7)
\psellipse[linewidth=2\pslinewidth](3.5,1)
\psellipse(4,1.2)
\pscircle[fillstyle=solid](0,0){1.5}
\psclip{\pscircle(0,0){1.5}}
\psellipticarc(3,0.7){180}{0}
\psellipticarc[linewidth=2\pslinewidth](3.5,1){180}{0}
\psellipticarc(4,1.2){180}{0}
\endpsclip
\psellipticarc(0,0.5)(1.414,0.25){180}{0}
\psellipticarc(0,1.25)(0.829,0.2){180}{0}
\psellipticarc(0,-1)(1.118,0.2){180}{0}
\psellipticarc(0,0)(1.5,0.27){180}{0}}
%
\psset{viewpoint=0 0 1}
%
\def\SolarSystem{\pst@object{SolarSystem}}
\def\SolarSystem@i{{%
\pst@killglue
\use@keep@par
\begin{pspicture}(-8,-8)(8,8)
\psgrid[subgriddiv=0,gridcolor=lightgray,griddots=10,gridlabels=0pt]%
\pstVerb{%
/JOUR \psk@SolarSystemD\space def
/MOIS \psk@SolarSystemM\space def
/AN \psk@SolarSystemY\space def
/HEURE \psk@SolarSystemH\space def
/MINUTE \psk@SolarSystemMi\space def
/SECONDE \psk@SolarSystemS\space def
%%%% Calcul du millénaire Julien ---------------------
/lesMois [0 31 59 90 120 151 181 212 243 273 304 334] def
/EcartJours {lesMois MOIS 1 sub get JOUR add HEURE MINUTE 60 div add SECONDE 3600 div add 24 div add 1 sub} def
/EcartAn {AN 4 div AN 4 div floor sub cvi} bind def
EcartAn 0 eq {/EcartAn 1 def} if
EcartAn 1 eq {MOIS 2 gt {/EcartJours EcartJours 1 add def}if} if
/T {AN 2000 sub 365.25 mul 0.5 add EcartJours add EcartAn sub 365250 div} bind def
/T2 {T dup mul} bind def
/T3 {T2 T mul} bind def
}%
\rput(0,8){\psk@SolarSystemD/\psk@SolarSystemM/\psk@SolarSystemY}%
\ThreeDput{%
% \psframe[fillstyle=gradient,gradbegin=cyan,gradend=white](-7,-7)(7,7)
\multido{\r=22.5+45}{8}{\psline[linecolor=yellow](1;\r)}%
\psline[linestyle=dotted]{->}(-7,0)(7,0)
\uput[0](7,0){$\mathbf{\gamma}$}
\uput[90](7,0){0\textsuperscript{o}}
\uput[90](0,7){90\textsuperscript{o}}
\uput[180](-7,0){180\textsuperscript{o}}
\uput[270](0,-6.9){270\textsuperscript{o}}
\psline[linestyle=dotted](0,-7)(0,7)}%
\pscircle[linestyle=none,fillstyle=gradient,gradmidpoint=0,gradend=yellow,GradientCircle=true,gradbegin=gray]{0.5}%
{\psset{unit=2}
% Mercure
\pstVerb{%
merLM merKA merHA merQ merP orbitalparameters
amer /radius exch 1 E dup mul sub mul
1 E LO LP sub cos mul add div def }%
\ThreeDput{%
\psplot[polarplot,plotpoints=361,linecolor=red]{LN }{LN 180 add}{%
amer 1 E dup mul sub mul 1 E x LP sub cos mul add div}%
\psplot[polarplot,plotpoints=361,linestyle=dashed,linecolor=blue]{180 LN add}{LN 360 add}{%
amer 1 E dup mul sub mul 1 E x LP sub cos mul add div}%
\pnode(! radius LO cos mul radius LO sin mul){M}
}%
\rput(M){\psset{unit=2}%
\pscircle[style=planetes,gradbegin=black,GradientPos={(0.01,0.01)}]{0.02}
\uput[u](0,0){\footnotesize\textsf{Mercure}}}
\ifPst@solarValues
\rput(-2.5,-4.25){\psPrintValue{LO}}%
\rput(-2.5,-4.75){\psPrintValue{LA}}%
\rput(-2.5,-5.25){\psPrintValue{radius}}%
\fi
% Venus
\pstVerb{%
venLM venKA venHA venQ venP orbitalparameters
aven /radius exch 1 E dup mul sub mul
1 E LO LP sub cos mul add div def }%
\ThreeDput{%
\psplot[polarplot,plotpoints=361,linecolor=red]{LN }{LN 180 add}{%
aven 1 E dup mul sub mul 1 E x LP sub cos mul add div}
\psplot[polarplot=true,plotpoints=361,linestyle=dashed,linecolor=blue]{180 LN add}{LN 360 add}{%
aven 1 E dup mul sub mul
1 E x LP sub cos mul add div}%
\pnode(! radius LO cos mul radius LO sin mul){V}
}%
\rput(V){\psset{unit=2}%
\pscircle[style=planetes,gradbegin={[HTML]{6F2D0A}},GradientPos={(0.03,0.03)}]{0.051}%
\uput{0.07}[u](0,0){\footnotesize\textsf{V\'enus}}}
\ifPst@solarValues
\rput(-1.5,-4.25){\psPrintValue{LO}}%
\rput(-1.5,-4.75){\psPrintValue{LA}}%
\rput(-1.5,-5.25){\psPrintValue{radius}}%
\fi
% Earth
\pstVerb{%
earLM earKA earHA earQ earP orbitalparameters
aear /radius exch 1 E dup mul sub mul
1 E LO LP sub cos mul add div def
}%
\ThreeDput{%
\psplot[polarplot=true,plotpoints=361,linecolor=red]{0}{360}{%
aear 1 E dup mul sub mul
1 E x LP sub cos mul add div}
\pnode(! radius LO cos mul radius LO sin mul){Terre}}
\rput(Terre){\psset{unit=2}%
\pscircle[style=planetes,gradbegin=blue,GradientPos={(0.013,0.03)}]{0.0536}%
\uput{0.08}[u](0,0){\footnotesize\textsf{Terre}}}%
\ifPst@solarValues
\rput(-0.5,-4.25){\psPrintValue{LO}}%
\rput(-0.5,-4.75){\psPrintValue{0.000}}%
\rput(-0.5,-5.25){\psPrintValue{radius}}%
\fi
% Mars
\pstVerb{%
marLM marKA marHA marQ marP orbitalparameters
amar /radius exch 1 E dup mul sub mul
1 E LO LP sub cos mul add div def
}%
\ThreeDput{%
\psplot[polarplot=true,plotpoints=361,linecolor=red]{LN }{LN 180 add}{%
amar 1 E dup mul sub mul
1 E x LP sub cos mul add div}%
\psplot[polarplot=true,plotpoints=361,linestyle=dashed,linecolor=blue]{180 LN add}{LN 360 add}{%
amar 1 E dup mul sub mul
1 E x LP sub cos mul add div}%
\pnode(! radius LO cos mul radius LO sin mul){Mars}%
}
\rput(Mars){%
\psset{unit=2}\pscircle[style=planetes,gradbegin=red,GradientPos={(0.01,0.01)}]{0.02857}
\uput[u](0,0){\footnotesize\textsf{Mars}}}%
\ifPst@solarValues
\rput(0.5,-4.25){\psPrintValue{LO}}%
\rput(0.5,-4.75){\psPrintValue{LA}}%
\rput(0.5,-5.25){\psPrintValue{radius}}%
\fi
% Jupiter
\pstVerb{%
jupLM jupKA jupHA jupQ jupP orbitalparameters
/aJ ajup def
aJ /radius exch 1 E dup mul sub mul
1 E LO LP sub cos mul add div def
}%
\ThreeDput{%
\psset{unit=0.5}
\psplot[polarplot=true,plotpoints=361,linecolor=red]{LN }{LN 180 add}{%
aJ 1 E dup mul sub mul
1 E x LP sub cos mul add div}%
\psplot[polarplot=true,plotpoints=361,linestyle=dashed,linecolor=blue]{180 LN add}{LN 360 add}{%
aJ 1 E dup mul sub mul
1 E x LP sub cos mul add div}%
\pnode(! radius LO cos mul radius LO sin mul){Jupiter}
}%
\rput(Jupiter){\psset{unit=0.1}\Jupiter%
\uput{1.5}[u](0,0){\footnotesize\textsf{Jupiter}}}%
\ifPst@solarValues
\rput(1.5,-4.25){\psPrintValue{LO}}%
\rput(1.5,-4.75){\psPrintValue{LA}}%
\rput(1.5,-5.25){\psPrintValue{radius}}%
\fi
% JSaturne
\pstVerb{%
satLM satKA satHA satQ satP orbitalparameters
/aS asat def
aS /radius exch 1 E dup mul sub mul
1 E LO LP sub cos mul add div def
}%
\ThreeDput{%
\psset{unit=0.35}
\psplot[polarplot=true,plotpoints=361,linecolor=red]{LN }{LN 180 add}{%
aS 1 E dup mul sub mul
1 E x LP sub cos mul add div}%
\psplot[polarplot=true,plotpoints=361,linestyle=dashed,linecolor=blue]{180 LN add}{LN 360 add}{%
aS 1 E dup mul sub mul
1 E x LP sub cos mul add div}%
\pnode(! radius LO cos mul radius LO sin mul){Saturne}
}%
\rput(Saturne){\psset{unit=0.1}\Saturne%
\uput{1.7}[u](0,0){\footnotesize\textsf{Saturne}}}%
\ifPst@solarValues
\rput(2.5,-4.25){\psPrintValue{LO}}%
\rput(2.5,-4.75){\psPrintValue{LA}}%
\rput(2.5,-5.25){\psPrintValue{radius}}%
\fi
}
\use@par
\ifPst@solarValues
\rput(-4.5,-7.75){Mercure}%
\rput(-2.5,-7.75){Venus}%
\rput(-0.5,-7.75){Earth}%
\rput(1.5,-7.75){Mars}%
\rput(3.5,-7.75){Jupiter}%
\rput(5.5,-7.75){Saturn}%
\rput(-6.5,-8.42){longitude at $^\mathrm{o}$}%
\rput(-6.5,-9.42){latitude at $^\mathrm{o}$}%
\rput(-6.5,-10.42){distance at U.A.}%
\fi
\end{pspicture}}}
%
\catcode`\@=\PstAtCode\relax
%
\endinput
|