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diff --git a/Master/texmf-dist/doc/generic/pst-solides3d/src/text/par-colorierfacettes-en.tex b/Master/texmf-dist/doc/generic/pst-solides3d/src/text/par-colorierfacettes-en.tex new file mode 100644 index 00000000000..0971fab7e7e --- /dev/null +++ b/Master/texmf-dist/doc/generic/pst-solides3d/src/text/par-colorierfacettes-en.tex @@ -0,0 +1,194 @@ +\section{\Index{Colouring} some single faces} + +The key value \texttt{\Lkeyword{fcol}=$i_0$~($c_0$) $i_1$~($c_1$) \dots $i_n$~($c_n$)}, +where $i_k$ are integers and $c_k$ the names of the colours, permits to +specify a \Index{colour} for special \Index{faces}. +To the face with the index $i_k$ corresponds the colour $c_k$. The +integer $n$ must be lower than the maximum of the number of faces of the chosen solid. + + +%% L'option \texttt{[fcol=1 (OliveGreen) 0 (color1) 4 (color2) etc.]} +%% permet de sp\'{e}cifier dans l'ordre : +%% \begin{compactitem} +%% \item le num\'{e}ro de la facette de \texttt{0} \`{a} \texttt{n-1}, pour \texttt{n} facettes ; +%% \item la couleur de la facette. +%% \end{compactitem} + +The colour names $c_k$, there are $68$~predefined values, are defined names in the +\texttt{color.pro}. These values are: +\textsl{GreenYellow}, +\textsl{Yellow}, +\textsl{Goldenrod}, +\textsl{Dandelion}, +\textsl{Apricot}, +\textsl{Peach}, +\textsl{Melon}, +\textsl{YellowOrange}, +\textsl{Orange}, +\textsl{BurntOrange}, +\textsl{Bittersweet}, +\textsl{RedOrange}, +\textsl{Mahogany}, +\textsl{Maroon}, +\textsl{BrickRed}, +\textsl{Red}, +\textsl{OrangeRed}, +\textsl{RubineRed}, +\textsl{WildStrawberry}, +\textsl{Salmon}, +\textsl{CarnationPink}, +\textsl{Magenta}, +\textsl{VioletRed}, +\textsl{Rhodamine}, +\textsl{Mulberry}, +\textsl{RedViolet}, +\textsl{Fuchsia}, +\textsl{Lavender}, +\textsl{Thistle}, +\textsl{Orchid}, +\textsl{DarkOrchid}, +\textsl{Purple}, +\textsl{Plum}, +\textsl{Violet}, +\textsl{RoyalPurple}, +\textsl{BlueViolet}, +\textsl{Periwinkle}, +\textsl{CadetBlue}, +\textsl{CornflowerBlue}, +\textsl{MidnightBlue}, +\textsl{NavyBlue}, +\textsl{RoyalBlue}, +\textsl{Blue}, +\textsl{Cerulean}, +\textsl{Cyan}, +\textsl{ProcessBlue}, +\textsl{SkyBlue}, +\textsl{Turquoise}, +\textsl{TealBlue}, +\textsl{Aquamarine}, +\textsl{BlueGreen}, +\textsl{Emerald}, +\textsl{JungleGreen}, +\textsl{SeaGreen}, +\textsl{Green}, +\textsl{ForestGreen}, +\textsl{PineGreen}, +\textsl{LimeGreen}, +\textsl{YellowGreen}, +\textsl{SpringGreen}, +\textsl{OliveGreen}, +\textsl{RawSienna}, +\textsl{Sepia}, +\textsl{Brown}, +\textsl{Tan}, +\textsl{Gray}, +\textsl{Black}, +\textsl{White}. +The list of these $68$ colours is available in the command +\verb+\colorfaces+ (see an example in the section about +the grating of a cube). + +Thinking on that case, the number of the faces +$\mathtt{n_1\times n_2}+2\texttt{(outer faces inner faces)}$ +must be lower than 68! + +However users can define their own \Index{colours}. There are two methods: + +\begin{compactitem} +\item They can use one of the $4$~optional arguments \texttt{color1}, + \texttt{color2}, \texttt{color3}, \texttt{color4} from + \Lcs{psSolid}, then transmit to \Lkeyword{fcol} a pair of the type + $i$~\verb+(color1)+, where $i$ is the index of the chosen face. The + arguments \texttt{color1}, etc. are used in the same way as the + arguments from \Lkeyword{color} and \Lkeyword{incolor}.\hfill \break + A possible command could be the following: + \begin{verbatim} + \psSolid[a=1,object=cube,color1=red!60!yellow!20,fcol=0 (color1)]% + \end{verbatim} +\item They define their own colour names with the command + \verb+\pstVerb+, and then use these names with the argument + \Lkeyword{fcol}. For example: +\begin{verbatim} +\pstVerb{/hetre {0.764 0.6 0.204 setrgbcolor} def + /chene {0.568 0.427 0.086 setrgbcolor} def + /cheneclair {0.956 0.921 0.65 setrgbcolor} def + }% +\end{verbatim} +And therefore: +\begin{verbatim} +fcol=0 (hetre) 1 (chene) 2 (cheneclair) +\end{verbatim} +\end{compactitem} + + +The $4$~arguments +\verb+color1+, +\verb+color2+, +\verb+color3+, +\verb+color4+ have default values: +\begin{compactitem} + \item \textcolor{cyan!50}{color1=cyan!50} + \item \textcolor{magenta!60}{color2=magenta!60} + \item \textcolor{blue!30}{color3=blue!30} + \item \textcolor{red!50}{color4=red!50} +\end{compactitem} + + + + +\begin{LTXexample}[width=5cm] +\psset{Decran=20,viewpoint=10 5 10,unit=0.5} +\begin{pspicture}(-5,-5)(5,5) +\psSolid[ + fcol=0 (red) 1 (Aquamarine) 2 (Bittersweet) + 3 (ForestGreen) 4 (Goldenrod) + 13 (GreenYellow) + 40 (Mulberry), + object=cube,mode=3]% +\end{pspicture} +\end{LTXexample} + +\begin{LTXexample}[width=4.9cm] +\psset{Decran=20,viewpoint=10 5 10,unit=0.5} +\begin{pspicture}(-5,-5)(5,5) +\psSolid[ + fcol=0 (red) 2 (Lavender) 3 (SkyBlue) 11 (LimeGreen) 12 (OliveGreen), + object=cylindre, + h=4, + ngrid=4 10](0,0,-2) +\end{pspicture} +\end{LTXexample} + +The choice of the faces to be coloured can be specified with some PostScript code, +\begin{verbatim} +fcol=48 {i (Black) i 1 add (LimeGreen) i 2 add (Yellow) /i i 3 add store} repeat +\end{verbatim} +which will alternately colour the faces in black, green and yellow. +\begin{center} +\begin{LTXexample}[width=6.5cm] +\begin{pspicture}(-3,-3)(3.5,2.5) +\psset{Decran=7.5,viewpoint=10 10 5} +\pstVerb{/iface 0 store}% +\psSolid[ +fcol=48 {iface (Black) + iface 1 add (LimeGreen) + iface 2 add (Yellow) /iface + iface 3 add store} repeat, + r1=4,r0=1, + object=tore, + ngrid=8 18, + RotY=30] +\end{pspicture} +\end{LTXexample} +\end{center} + +When the option \Lkeyword{hue} is activated, the faces of the solid are coloured with the nuance of the rainbow colours. + +\begin{LTXexample}[width=5.9cm] +\begin{pspicture}(-3,-2.5)(3,2.5) +\psset[pst-solides3d]{viewpoint=50 50 50,Decran=40,lightsrc=50 20 1e2} +\psSolid[r1=5,r0=1,object=tore,ngrid=16 18,hue=0 1]% +\end{pspicture} +\end{LTXexample} + +\endinput |