\section{Definition of grating} The user can specify the \Index{grating} of the solid with the option \Lkeyword{ngrid} within the command \Lcs{psSolid}. For the objects \Lkeyval{cube}, \Lkeyval{prisme}, \Lkeyval{prismecreux}, the syntax is \Lkeyword{ngrid}=$n_1$ where $n_1$ represents the number of vertical \Index{gridlines}. For the objects \Lkeyval{cylindre}, \Lkeyval{cylindrecreux}, \Lkeyval{cone}, \Lkeyval{conecreux}, \Lkeyval{tronccone}, \Lkeyval{troncconecreux}, %%\verb+tore+, the syntax is \texttt{\Lkeyword{ngrid}=$n_1$~$n_2$} where $n_1$ is an integer greater or equal to 1 ($2$ for \Lkeyval{tore}) representing the number of the vertical gridlines, and $n_2$ is an integer representing the number of divisions on the circle. For the object \Lkeyval{sphere}, the syntax is \texttt{\Lkeyword{ngrid}=$n_1$~$n_2$} where $n_1$ is an integer, representing the number of divisions on the vertical axis, and $n_2$ is an integer representing the number of divisions on the circle horizontally. For the object \Lkeyval{tore}, the syntax is \texttt{\Lkeyword{ngrid}=$n_1$~$n_2$} where $n_1$ and $n_2$ are integers. Here are some examples: \subsection{The cube} \begin{center} \psset{unit=0.4} \begin{pspicture}(-7,-7)(7,7) %\psframe(-7,-7)(7,7) \psset[pst-solides3d]{viewpoint=50 40 20,Decran=50,lightsrc=10 10 10} \psSolid[a=8,object=cube,ngrid=4,fillcolor=yellow]% %\psSolid[a=8,object=cube,linewidth=2pt,action=draw]% \psPoint(0,0,0){O} %\uput[r](O){$O$} \psPoint(0,0,4){Ak} \psPoint(0,0,8){Az} \uput[u](Az){$z$} \psPoint(4,0,0){Ai} \psPoint(8,0,0){Ax} \uput[u](Ax){$x$} \psPoint(0,4,0){Aj} \psPoint(0,8,0){Ay} \uput[dr](Ay){$y$} \psPoint(4,-4,0){A1} \psPoint(4,4,0){A2} \psPoint(-4,4,0){A3} \psPoint(-4,-4,0){A4} \uput[dr](Ay){$y$} %\psline[linestyle=dashed](O)(Ai) %\psline[linestyle=dashed](O)(Aj) %\psline[linestyle=dashed](O)(Ak) \psline[linecolor=green,arrowsize=2mm,arrowinset=0.2]{->}(Aj)(Ay) \psline[linecolor=blue,arrowsize=2mm,arrowinset=0.2]{->}(Ai)(Ax) \psline[linecolor=red,arrowsize=2mm,arrowinset=0.2]{->}(Ak)(Az) \psdot[linecolor=green](Aj) \psdot[linecolor=blue](Ai) \psdot[linecolor=red](Ak) \end{pspicture} \hfill \begin{pspicture}(-7,-7)(7,7) %\psframe(-7,-7)(7,7) \psset[pst-solides3d]{viewpoint=50 45 10 rtp2xyz,Decran=40,lightsrc=30 45 0} \psSolid[a=8,object=cube,ngrid=3,fcol=\colorfaces,RotY=45,RotX=30,RotZ=20]% \end{pspicture} \end{center} For the first example, the grid is fixed to $4\times4$ facettes/faces and the command is the following: \begin{verbatim} \psSolid[a=8,object=cube,ngrid=4,fillcolor=yellow]% \end{verbatim} In the second example, the face grid is set to $3\times3$ and the colours of the faces are different. We use the package \texttt{arrayjob} to easily save the colours: \begin{verbatim} \newarray\colors \readarray{colors}{% Apricot&Aquamarine% etc.} \end{verbatim} The list of the colours is given by the command: \begin{verbatim} \edef\colorfaces{}% \multido{\i=0+1}{67}{% \checkcolors(\i) \xdef\colorfaces{% \colorfaces\i\space(\cachedata)\space} } \end{verbatim} One sets up:~\Lkeyword{fcol}\verb+=\colorfaces+. The gridded cube now is called with: \begin{verbatim} \psSolid[a=8,object=cube,ngrid=3,% fcol=\colorfaces, RotY=45,RotX=30,RotZ=20]% \end{verbatim} The option \Lkeyword{grid} suppresses the drawing of the gridlines. \subsection{Sphere} \begin{LTXexample}[width=6cm] \begin{pspicture}(-3,-3)(3,3) \psset{viewpoint=50 50 20 rtp2xyz,Decran=50,lightsrc=viewpoint} \psset{color1=cyan,color2=red} \psSolid[ fcol=251 (OliveGreen) 232 (color1) 214 (color2), object=sphere, ngrid=16 18, RotX=180,RotZ=30]% \end{pspicture} \end{LTXexample} \begin{LTXexample}[width=6cm] \begin{pspicture}(-3,-3)(3,3) \psset{viewpoint=50 50 20 rtp2xyz,Decran=50,lightsrc=viewpoint} \psset{color1=cyan,color2=red} \psSolid[ action=draw*, fcol=0 (OliveGreen) 2 (color1) 3 (color2), object=sphere, ngrid=4 4, RotX=180,RotZ=30]% \end{pspicture} \end{LTXexample} \subsection{Cylinders} \begin{LTXexample}[width=6cm] \begin{pspicture}(-3,-4)(3,4) \psset{viewpoint=50 50 20 rtp2xyz,Decran=50,lightsrc=viewpoint} \psset{color1=cyan,color2=red} \psSolid[ fcol=0 (OliveGreen) 2 (color1) 3 (color2), h=5,r=2, object=cylindrecreux, ngrid=4 30, RotZ=30 ](0,0,-2.5) \end{pspicture} \end{LTXexample} % \begin{LTXexample}[width=7cm] \begin{pspicture}(-3,-4)(4,4) \psset{viewpoint=50 50 20 rtp2xyz,Decran=50,lightsrc=viewpoint} \psset{color1=cyan,color2=red} \psSolid[ action=draw*, fcol=0 (OliveGreen) 2 (color1) 3 (color2), h=5,r=2, object=cylindre, ngrid=2 12, RotY=-20 ](0,0,-2.5) \end{pspicture} \end{LTXexample} \subsection{Torus} \begin{LTXexample}[width=6cm] \begin{pspicture}(-3,-2)(3,2) \psset{viewpoint=50 50 30 rtp2xyz,Decran=25,lightsrc=viewpoint} \psSolid[r1=2.5,r0=1.5, object=tore, ngrid=4 36, fillcolor=green!30, action=draw**]% \axesIIID(4,4,0)(5,5,4) \end{pspicture} \end{LTXexample} \begin{LTXexample}[width=6cm] \begin{pspicture}(-3,-2)(3,2) \psset{viewpoint=50 50 30 rtp2xyz,Decran=25,lightsrc=viewpoint} \psSolid[r1=3.5,r0=1, object=tore, ngrid=9 18, fillcolor=magenta!30, action=draw**]% \axesIIID(4.5,4.5,0)(5,5,4) \end{pspicture} \end{LTXexample} \endinput