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diff --git a/Master/texmf-dist/doc/generic/pst-solides3d/text/par-fusionjps-en.tex b/Master/texmf-dist/doc/generic/pst-solides3d/text/par-fusionjps-en.tex new file mode 100644 index 00000000000..0f6c965ee44 --- /dev/null +++ b/Master/texmf-dist/doc/generic/pst-solides3d/text/par-fusionjps-en.tex @@ -0,0 +1,740 @@ +\def\grille{% quadrillage du plan Oxy + \psPoint(-5,-5,0){S1} + \psPoint(-5,5,0){S2} + \psPoint(5,5,0){S3} + \psPoint(5,-5,0){S4} +\pspolygon*[linecolor=gray!20](S1)(S2)(S3)(S4) +\multido{\ix=-5+1}{11}{% + \psPoint(\ix\space,-5,0){A} + \psPoint(\ix\space,5,0){B} + \psline(A)(B)} +\multido{\iy=-5+1}{11}{% + \psPoint(-5,\iy\space,0){A} + \psPoint(5,\iy\space,0){B} + \psline(A)(B)} + \psPoint(0,0,0){O} + \psPoint(5,0,0){X} + \psPoint(0,5,0){Y} + \psPoint(0,0,8){Z} + \psline[arrowsize=0.3,arrowinset=0.2,linecolor=blue]{->}(O)(X) + \psline[arrowsize=0.3,arrowinset=0.2,linecolor=blue]{->}(O)(Y) + \psline[arrowsize=0.3,arrowinset=0.2,linecolor=blue]{->}(O)(Z) + \uput[r](X){\textcolor{blue}{$x$}}\uput[u](Y){\textcolor{blue}{$y$}}% + \uput[r](Z){\textcolor{blue}{$z$}}\uput[u](O){\textcolor{blue}{$O$}}} + + +\section{Fusing with \textit{jps code}} + +We can also \Index{fuse solids} by passing the code directly using +\textit{jps code}. The calculation of the hidden parts is carried +out by the PostScript routines of the \texttt{solides.pro} file, +but the lines of code are ``encapsulated'' within a +\texttt{pspicture} environment thanks to the command +\verb+\codejps{ps code}+. + +\subsection{Using \textit{jps code}} + +\subsubsection{The choice of object} + +\begin{compactitem} + \item \texttt{[section] n newanneau}: choice of a cylindrical ring defined by + the coordinates of the vertices of its intersection with the plane $Oyz$. + \item \texttt{2 1.5 6 [4 16] newcylindre}: choice of a vertical cylinder +with the following parameters: + \begin{compactitem} + \item \texttt{z0=2}: the position of the base centre on the axis $Oz$; + \item \texttt{radius=1.5}: radius of the cylinder; + \item \texttt{z1=6}: the position of the top centre on the + axis $Oz$; + \item \texttt{[4 16]}: the cylinder is sliced horizontally into 4 pieces and +vertically into 16 sectors. + \end{compactitem} + \end{compactitem} + +\subsubsection{The transformations} + +\begin{compactitem} + \item \texttt{\{-1 2 5 translatepoint3d\} solidtransform}: the object +previously chosen is translated to the point with the +coordinates $(x=-1,y=2,z=5)$. + \item \texttt{\{90 0 45 rotateOpoint3d\} solidtransform}: the object +previously chosen is rotated around the axes $(Ox,Oy,Oz)$, in +this order: rotation of 90$^\mathsf{o}$ about $(Ox)$ followed +by a rotation of 45$^\mathsf{o}$ about $(Oz)$. +\end{compactitem} + +\subsubsection{The choice of object colour} + +\begin{compactitem} + \item dup (yellow) outputcolors: a yellow object illuminated in + white light. +\end{compactitem} + +\subsubsection{Fusing objects} + +\begin{compactitem} + \item The \Index{fusion} is finally made with the instruction \texttt{solidfuz}. +\end{compactitem} + +\subsubsection{Designing objects} + +\begin{compactitem} + \item There are three drawing options: + \begin{compactitem} + \item \texttt{drawsolid}: only draw edges; hidden edges are drawn dashed; + \item \texttt{drawsolid*}: draw and fill solids in their coded order (not + a very interesting option at first glance); hidden edges are drawn dashed; + \item \texttt{drawsolid**}: draw and fill solids with the + painting algorithm; only those parts seen by the observer are + drawn. + \end{compactitem} +\end{compactitem} +\begin{center} +\psset{lightsrc=50 -50 50,viewpoint=40 16 32 rtp2xyz,Decran=40} +\psset{unit=0.4} +\begin{minipage}{0.3\linewidth} +\begin{pspicture}(-6,-5)(6,7) +\psframe*[linecolor=gray!40](-6,-5)(6,7) +\codejps{ +% solide 1 + /tour { + -6 1.5 6 [4 16] newcylindre + dup (jaune) outputcolors + } def +% solide 2 + /anneau { + [4 -1 4 1 3 1 3 -1] 24 newanneau + {0 0 -1 translatepoint3d} solidtransform + dup (orange) outputcolors + } def +% fusion + tour anneau solidfuz + drawsolid} +\end{pspicture} +\end{minipage} +\hfill +\begin{minipage}{0.3\linewidth} +\begin{pspicture}(-6,-5)(6,7) +\psframe*[linecolor=gray!40](-6,-5)(6,7) +\codejps{ +% solide 1 + /tour { + -6 1.5 6 [4 16] newcylindre + dup (jaune) outputcolors + } def +% solide 2 + /anneau { + [4 -1 4 1 3 1 3 -1] 24 newanneau + {0 0 -1 translatepoint3d} solidtransform + dup (orange) outputcolors + } def +% fusion + tour anneau solidfuz + drawsolid*} +\end{pspicture} +\end{minipage} +\hfill +\begin{minipage}{0.3\linewidth} +\begin{pspicture}(-6,-5)(6,7) +\psframe*[linecolor=gray!40](-6,-5)(6,7) +\codejps{ +% solide 1 + /tour { + -6 1.5 6 [4 16] newcylindre + dup (jaune) outputcolors + } def +% solide 2 + /anneau { + [4 -1 4 1 3 1 3 -1] 24 newanneau + {0 0 -1 translatepoint3d} solidtransform + dup (orange) outputcolors + } def +% fusion + tour anneau solidfuz + drawsolid**} +\psPoint(0,0,8){Z} +\psPoint(0,0,6){Z'} +\psline[arrowsize=0.3,arrowinset=0.2]{->}(Z')(Z) +\uput[u](Z){$z$} +\end{pspicture} +\end{minipage} +\end{center} + +\begin{verbatim} +\psset{lightsrc=50 -50 50,viewpoint=50 20 50 rtp2xyz,Decran=50} +\begin{pspicture}(-6,-2)(6,8) +\psframe(-6,-2)(6,8) +\codejps{ +% solide 1 + /tour{ + -6 1.5 6 [4 16] newcylindre + dup (jaune) outputcolors + } def +% solide 2 + /anneau{ + [4 -1 4 1 3 1 3 -1] 24 newanneau + {0 0 -1 translatepoint3d} solidtransform + dup (orange) outputcolors + } def +% fusion + tour anneau solidfuz + drawsolid**} +\end{pspicture} +\end{verbatim} + +\newpage + +\subsection{A \Index{chloride ion}} +\begin{LTXexample}[width=6cm] +\begin{pspicture}(-3,-4)(3,4) +\psset{lightsrc=100 -50 -10,lightintensity=3,viewpoint=200 20 10 rtp2xyz,Decran=20} +{\psset{linewidth=0.5\pslinewidth} +\codejps{/Cl {9.02 [18 16] newsphere +{-90 0 0 rotateOpoint3d} solidtransform + dup (Green) outputcolors} def +/Cl1 { Cl {10.25 10.25 10.25 translatepoint3d} solidtransform } def +/Cl2 { Cl {10.25 -10.25 10.25 translatepoint3d} solidtransform } def +/Cl3 { Cl {-10.25 -10.25 10.25 translatepoint3d} solidtransform } def +/Cl4 { Cl {-10.25 10.25 10.25 translatepoint3d} solidtransform } def +/Cl5 { Cl {10.25 10.25 -10.25 translatepoint3d} solidtransform } def +/Cl6 { Cl {10.25 -10.25 -10.25 translatepoint3d} solidtransform } def +/Cl7 { Cl {-10.25 -10.25 -10.25 translatepoint3d} solidtransform } def +/Cl8 { Cl {-10.25 10.25 -10.25 translatepoint3d} solidtransform } def +/Cs {8.38 [18 16] newsphere + dup (White) outputcolors} def +/Cl12{ Cl1 Cl2 solidfuz} def +/Cl123{ Cl12 Cl3 solidfuz} def +/Cl1234{ Cl123 Cl4 solidfuz} def +/Cl12345{ Cl1234 Cl5 solidfuz} def +/Cl123456{ Cl12345 Cl6 solidfuz} def +/Cl1234567{ Cl123456 Cl7 solidfuz} def +/Cl12345678{ Cl1234567 Cl8 solidfuz} def +/C_Cs { Cl12345678 Cs solidfuz} def +C_Cs drawsolid**}}% +\psPoint(0,0,0){P} +\psPoint(10.25,10.25,10.25){Cl1} +\psPoint(10.25,-10.25,10.25){Cl2} +\psPoint(-10.25,-10.25,10.25){Cl3} +\psPoint(-10.25,10.25,10.25){Cl4} +\psPoint(10.25,10.25,-10.25){Cl5} +\psPoint(10.25,-10.25,-10.25){Cl6} +\psPoint(-10.25,-10.25,-10.25){Cl7} +\psPoint(-10.25,10.25,-10.25){Cl8} +\pspolygon[linestyle=dashed](Cl1)(Cl2)(Cl3)(Cl4) +\pspolygon[linestyle=dashed](Cl5)(Cl6)(Cl7)(Cl8) +\psline[linestyle=dashed](Cl2)(Cl6) +\psline[linestyle=dashed](Cl3)(Cl7) +\psline[linestyle=dashed](Cl1)(Cl5) +\psline[linestyle=dashed](Cl4)(Cl8) +\pcline[offset=0.5]{<->}(Cl2)(Cl1) +\aput{:U}{a} +\pcline[offset=0.5]{<->}(Cl6)(Cl2) +\aput{:U}{a} +\end{pspicture} +\end{LTXexample} + +We define the chloride ion $\mathrm{Cl^-}$: +\begin{verbatim} +/Cl {9.02 [12 8] newsphere + {-90 0 0 rotateOpoint3d} solidtransform + dup (Green) outputcolors} def +\end{verbatim} +which we shift to each vertex of a cube: +\begin{verbatim} +/Cl1 { Cl {10.25 10.25 10.25 translatepoint3d} solidtransform } def +/Cl2 { Cl {10.25 -10.25 10.25 translatepoint3d} solidtransform } def +/Cl3 { Cl {-10.25 -10.25 10.25 translatepoint3d} solidtransform } def +/Cl4 { Cl {-10.25 10.25 10.25 translatepoint3d} solidtransform } def +/Cl5 { Cl {10.25 10.25 -10.25 translatepoint3d} solidtransform } def +/Cl6 { Cl {10.25 -10.25 -10.25 translatepoint3d} solidtransform } def +/Cl7 { Cl {-10.25 -10.25 -10.25 translatepoint3d} solidtransform } def +/Cl8 { Cl {-10.25 10.25 -10.25 translatepoint3d} solidtransform } def +\end{verbatim} +Then a caesium ion $\mathrm{Cs^+}$ is placed in the center: +\begin{verbatim} +/Cs {8.38 [12 8] newsphere + dup (White) outputcolors} def +\end{verbatim} +Finally we fuse the separate spheres in pairs. + +\vfill + + +\subsection{A prototype of a \Index{vehicle}} +\begin{center} +\psset{lightsrc=100 0 100,viewpoint=25 10 10,Decran=30} +\begin{pspicture}(-6,-4)(6,8) +\pstVerb{/Pneu { + /m {90 4 div} bind def + /Scos {m cos 2 m mul cos add 3 m mul cos add} bind def + /Z0 {h 4 div} bind def + /c {Z0 Scos div} bind def + /Z1 {Z0 c m cos mul add} bind def + /Z2 {Z1 c m 2 mul cos mul add} bind def + /R1 {R c m sin mul sub} bind def + /R2 {R1 c m 2 mul sin mul sub} bind def + /R3 {R2 c m 3 mul sin mul sub} bind def + R h 4 div neg % 1 + R h 4 div % 2 + R1 Z1 % 3 + R2 Z2 % 4 + R3 h 2 div % 5 + r h 2 div % 6 + r h 2 div neg % 7 + R3 h 2 div neg % 8 + R2 Z2 neg % 9 + R1 Z1 neg % 10 + } def}% +\grille +\codejps{ +/roue12 { +% solide 1 + /R 2 def /r 1 def /h 1 def + [Pneu] 36 newanneau + {90 0 90 rotateOpoint3d} solidtransform + {3 4 2 translatepoint3d} solidtransform + dup (White) outputcolors +% solide 2 + [Pneu] 36 newanneau + {90 0 90 rotateOpoint3d} solidtransform + {-3 4 2 translatepoint3d} solidtransform + dup (White) outputcolors +% fusion + solidfuz } def +/axe12{ +0 0.1 6 [4 16] newcylindre +{90 0 90 rotateOpoint3d} solidtransform +{-3 4 2 translatepoint3d} solidtransform +dup (White) outputcolors +} def +/roue12axes { +roue12 axe12 solidfuz } def +/roue34 { +% solide 3 + /R 1.5 def /r 1 def /h 1 def + [Pneu] 36 newanneau + {90 0 110 rotateOpoint3d} solidtransform + {3 -4 1.5 translatepoint3d} solidtransform + dup (White) outputcolors +% solide 4 + [Pneu] 36 newanneau + {90 0 110 rotateOpoint3d} solidtransform + {-3 -4 1.5 translatepoint3d} solidtransform + dup (White) outputcolors +% fusion + solidfuz } def +/axe34{ +0 0.1 6 [16 16] newcylindre +{90 0 90 rotateOpoint3d} solidtransform +{-3 -4 1.5 translatepoint3d} solidtransform +dup (White) outputcolors +} def +/roue34axes34 { +roue34 axe34 solidfuz } def +/roues {roue34axes34 roue12axes solidfuz} def +/chassis { +0 1 8 [4 16] newcylindre +{100 0 0 rotateOpoint3d} solidtransform +{0 4 2.5 translatepoint3d} solidtransform +dup (White) outputcolors +} def +roues chassis solidfuz + drawsolid**} +\psPoint(0,0,2.7){Z'} +\psline[arrowsize=0.3,arrowinset=0.2,linecolor=blue]{->}(Z')(Z) +\end{pspicture} +\end{center} +We have to operate in several steps to fuse the solids in pairs: +\begin{compactitem} + \item We first fuse the two front wheels \texttt{roue12}: + \begin{verbatim} +/roue12 { +% solide 1 + /R 2 def /r 1 def /h 1 def + [Pneu] 36 newanneau + {90 0 90 rotateOpoint3d} solidtransform + {3 4 2 translatepoint3d} solidtransform + dup (White) outputcolors +% solide 2 + [Pneu] 36 newanneau + {90 0 90 rotateOpoint3d} solidtransform + {-3 4 2 translatepoint3d} solidtransform + dup (White) outputcolors +% fusion + solidfuz } def + \end{verbatim} + \item Then the two wheels and their axis: + \begin{verbatim} +/axe12{ +0 0.1 6 [4 16] newcylindre +{90 0 90 rotateOpoint3d} solidtransform +{-3 4 2 translatepoint3d} solidtransform +dup (White) outputcolors +} def +/roue12axes { +roue12 axe12 solidfuz } def +\end{verbatim} + \item After that the rear wheels and their axis: + \begin{verbatim} +/roue34 { +% solide 3 + /R 1.5 def /r 1 def /h 1 def + [Pneu] 36 newanneau + {90 0 110 rotateOpoint3d} solidtransform + {3 -4 1.5 translatepoint3d} solidtransform + dup (White) outputcolors +% solide 4 + [Pneu] 36 newanneau + {90 0 110 rotateOpoint3d} solidtransform + {-3 -4 1.5 translatepoint3d} solidtransform + dup (White) outputcolors +% fusion + solidfuz } def +/axe34{ +0 0.1 6 [16 16] newcylindre +{90 0 90 rotateOpoint3d} solidtransform +{-3 -4 1.5 translatepoint3d} solidtransform +dup (White) outputcolors +} def +/roue34axes34 { +roue34 axe34 solidfuz } def +\end{verbatim} + +\item Then fuse the two wheel assemblies: +\begin{verbatim} +/roues {roue34axes34 roue12axes solidfuz} def +\end{verbatim} + +\item The final step is to fuse the previously generated solid with +the chassis: +\begin{verbatim} +/chassis { +0 1 8 [4 16] newcylindre +{100 0 0 rotateOpoint3d} solidtransform +{0 4 2.5 translatepoint3d} solidtransform +dup (White) outputcolors +} def +roues chassis solidfuz + drawsolid**} +\end{verbatim} +\end{compactitem} + + +\subsection{A \Index{wheel} -- or a space station} + +\begin{center} +\begin{pspicture}(-6,-5)(6,6) +\psset{lightsrc=50 -50 50,viewpoint=40 50 60,Decran=60,linewidth=0.5\pslinewidth} +%\psframe*[linecolor=black](-6,-5)(6,5) +\codejps{ + /rayon0 { + 1 0.2 6 [4 16] newcylindre + {90 0 0 rotateOpoint3d} solidtransform + dup (White) outputcolors + } def +36 36 360 { + /angle exch def + /rayon1 { + 1 0.2 6 [4 16] newcylindre + {90 0 angle rotateOpoint3d} solidtransform + dup (White) outputcolors + } def + /rayons {rayon0 rayon1 solidfuz} def + /rayon0 rayons def + } for + /moyeu { -2 1 2 [4 10] newcylindre dup (jaune) outputcolors} def + /rayonsmoyeu {rayons moyeu solidfuz} def + /pneu {2 7 [18 36] newtore dup (White) outputcolors} def + /ROUE {pneu rayonsmoyeu solidfuz} def + ROUE drawsolid**} +\end{pspicture} +\end{center} +We define the first spoke: +\begin{verbatim} + /rayon0 { + 1 0.2 6 [4 16] newcylindre + {90 0 0 rotateOpoint3d} solidtransform + dup (White) outputcolors + } def +\end{verbatim} +Then, with a loop, we fuse all the spokes of the wheel: +\begin{verbatim} +36 36 360 { + /angle exch def + /rayon1 { + 1 0.2 6 [4 16] newcylindre + {90 0 angle rotateOpoint3d} solidtransform + dup (White) outputcolors + } def + /rayons {rayon0 rayon1 solidfuz} def + /rayon0 rayons def + } for +\end{verbatim} +After that, we draw the hub and the tyre of the wheel, and finally +fuse all of them: +\begin{verbatim} + /moyeu { -0.5 1 0.5 [4 10] newcylindre dup (White) outputcolors} def + /rayonsmoyeu {rayons moyeu solidfuz} def + /pneu {2 7 [18 36] newtore dup (jaune) outputcolors} def + /ROUE {pneu rayonsmoyeu solidfuz} def + ROUE drawsolid** +\end{verbatim} + + +\subsection{Intersection of two cylinders} + +\begin{LTXexample}[width=8cm] +\begin{pspicture}(-4,-3)(6,3) +\psset{lightsrc=50 -50 50,viewpoint=100 -30 +40,Decran=100,linewidth=0.5\pslinewidth, unit=0.5} +\codejps{ + /cylindre1 { + -6 2 6 [36 36] newcylindrecreux %newcylindre + {90 0 0 rotateOpoint3d} solidtransform + dup (Yellow) (White) inoutputcolors + } def + /cylindre2 { + -6 2 6 [36 36] newcylindrecreux %newcylindre + {90 0 90 rotateOpoint3d} solidtransform + dup (Yellow) (White) inoutputcolors + } def + /UnionCylindres {cylindre1 cylindre2 solidfuz} def + UnionCylindres drawsolid**} +\end{pspicture} +\end{LTXexample} + + +\subsection{Intersection between a sphere and a cylinder} + +This time we draw the curve of intersection using +\verb+\psSolid[object=courbe]+. + +\begin{LTXexample}[width=8cm] +\psset{unit=0.5,lightsrc=50 -50 50,viewpoint=100 0 0 rtp2xyz,Decran=110,linewidth=0.5\pslinewidth} +\begin{pspicture}(-7,-6)(5,6) +\defFunction{F}(t){t cos dup mul 5 mul}{t cos t sin mul 5 mul}{t sin 5 mul} +\codejps{% + /cylindre1 { + -5 2.5 5 [36 36] newcylindre + {2.5 0 0 translatepoint3d} solidtransform + dup (White) outputcolors + } def + /sphere1 { + 5 [36 72] newsphere + dup (White) outputcolors + } def + /CS {cylindre1 sphere1 solidfuz} def + CS drawsolid**} +\psPoint(0,0,0){O} +\psSolid[object=courbe,r=0, + function=F, + range=0 360, + linecolor=red,linewidth=4\pslinewidth] +\end{pspicture} +\end{LTXexample} + + +\subsection{Two linked \Index{rings}} + +\begin{LTXexample}[width=8cm] +\begin{pspicture}(-5,-4)(3,3) +\psset{lightsrc=50 50 50,viewpoint=40 50 60,Decran=30,unit=0.85} +\codejps{ + /anneau1 {1 7 [12 36] newtore + {0 0 0 translatepoint3d} solidtransform + dup (Yellow) outputcolors} def + /anneau2 {1 7 [12 36] newtore + {90 0 0 rotateOpoint3d} solidtransform + {7 0 0 translatepoint3d} solidtransform + dup (White) outputcolors} def + /collier {anneau1 anneau2 solidfuz} def + collier drawsolid**} +\end{pspicture} +\end{LTXexample} + + + +\subsection{The \Index{methane molecule}: wooden model} + +\begin{LTXexample}[width=8cm] +\begin{pspicture}(-4.5,-4)(3.2,5) +\psset{lightsrc=50 50 10,lightintensity=2,viewpoint=100 50 20 rtp2xyz, +Decran=30} +\psset{linecolor={[cmyk]{0,0.72,1,0.45}},linewidth=0.5\pslinewidth, + unit=1} +%\psframe[fillstyle=solid,fillcolor=green!20](-4,-4)(3.2,5) +\pstVerb{/hetre {0.764 0.6 0.204 setrgbcolor} def + /chene {0.568 0.427 0.086 setrgbcolor} def + /bois {0.956 0.921 0.65 setrgbcolor} def + }% +\codejps{ + /H1 { + 2 [18 16] newsphere + {-90 0 0 rotateOpoint3d} solidtransform + {0 10.93 0 translatepoint3d} solidtransform + dup (hetre) outputcolors} def + /L1 { + 0 0.25 10 [12 10] newcylindre + {-90 0 0 rotateOpoint3d} solidtransform + dup (bois) outputcolors + } def +/HL1{ H1 L1 solidfuz} def +/HL2 { HL1 {0 0 -109.5 rotateOpoint3d} solidtransform } def +/HL3 { HL2 {0 -120 0 rotateOpoint3d} solidtransform } def +/HL4 { HL2 {0 120 0 rotateOpoint3d} solidtransform } def + /C {3 [18 16] newsphere + {90 0 0 rotateOpoint3d} solidtransform + dup (chene) outputcolors} def +/HL12 { HL1 HL2 solidfuz} def +/HL123 { HL12 HL3 solidfuz} def +/HL1234 { HL123 HL4 solidfuz} def +/methane { HL1234 C solidfuz} def + methane drawsolid**} +\end{pspicture} +\end{LTXexample} + + +\subsection{The \Index{thiosulphate ion}} + +\begin{center} +\begin{pspicture}(-4,-3)(4.5,5.5) +\psset{lightsrc=100 10 -20,lightintensity=3,viewpoint=200 30 +20 rtp2xyz,Decran=40} +%\psframe(-4,-3)(4.5,5.5) +{\psset{linewidth=0.5\pslinewidth} +\codejps{ +/Soufre1 {3.56 [20 16] newsphere + dup (Yellow) outputcolors} def +/Soufre2 {3.56 [20 16] newsphere + {0 0.000 20.10 translatepoint3d} solidtransform + dup (Yellow) outputcolors} def +% Liaison simple +/LiaisonR { + 7.5 0.5 15 [10 10] newcylindre + dup (Red) outputcolors + } def +/LiaisonY { + 0 0.5 7.5 [10 10] newcylindre + dup (Yellow) outputcolors + } def +% fin Liaison simple +/Liaison{LiaisonR LiaisonY solidfuz} def +/Ox {2.17 [20 16] newsphere + {0 0 15 translatepoint3d} solidtransform + dup (Red) outputcolors} def +/LO { Liaison Ox solidfuz} def +/LO1 { LO {0 -109.5 0 rotateOpoint3d} solidtransform } def +/LOx1 { LO1 {0 0 120 rotateOpoint3d} solidtransform } def +% fin liaison simple S-O +% Liaison double S=O +/LiaisonD1 {Liaison {-0.75 0 0 translatepoint3d} solidtransform} def +/LiaisonD2 {Liaison {0.75 0 0 translatepoint3d} solidtransform} def +/LiaisonDD { LiaisonD1 LiaisonD2 solidfuz} def +/LiaisonDOx {LiaisonDD Ox solidfuz} def +/LiaisonDOx1 {LiaisonDOx {0 -109.5 0 rotateOpoint3d} solidtransform } def +/LiaisonDOx2 {LiaisonDOx1 {0 0 -120 rotateOpoint3d} solidtransform } def +/LO12 { LiaisonDOx1 LiaisonDOx2 solidfuz} def +/LO123 {LO12 LOx1 solidfuz} def +% liaison simple S-S +/L4 { 0 0.5 20.10 [16 10] newcylindre + dup (Yellow) outputcolors + } def +/S1L4{ Soufre1 L4 solidfuz} def +/S1S2L4{ S1L4 Soufre2 solidfuz} def +/S2O3 { S1S2L4 LO123 solidfuz} def +S2O3 drawsolid**} +\axesIIID(0,0,0)(25,20,25)} +\psPoint(0,0,20.1){S2} +\psPoint(-14.14,0,-5){O1} +\psPoint(7.07,-12.24,-5 ){O2} +\psPoint(7.07,12.24,-5 ){O3} +\pcline[linestyle=dotted]{<->}(O2)(O) +\aput{:U}{15 pm} +\pcline[linestyle=dotted]{<->}(O)(S2) +\aput{:U}{\small 20,1 pm} +\pcline[linestyle=dotted]{<->}(O2)(O3) +\lput*{:U}{\small 24,5 pm} +\pcline[linestyle=dotted]{<->}(O2)(S2) +\lput*{:U}{\small 28,8 pm} +\pstMarkAngle[arrows=<->,MarkAngleRadius=0.8,linestyle=dotted]{O2}{O}{O3}{\footnotesize 109,4$^{\mathrm{o}}$} +\pstMarkAngle[arrows=<->,MarkAngleRadius=0.8,linestyle=dotted]{O1}{O}{S2}{\footnotesize 109,5$^{\mathrm{o}}$} +\rput(0,-2.5){$\mathrm{S_2^{\phantom{2}}O_3^{2-}}$} +\end{pspicture} +\end{center} + +We first define the two sulphur atoms and place them on the $Oz$ +axis. $\mathrm{S_1}$ is placed at the origin $O$. +\begin{verbatim} +\codejps{ +/Soufre1 {3.56 [20 16] newsphere + dup (Yellow) outputcolors} def +/Soufre2 {3.56 [20 16] newsphere + {0 0.000 20.10 translatepoint3d} solidtransform + dup (Yellow) outputcolors} def +\end{verbatim} +Then the single bond \textsf{S-O} using the following convention: +half red---the half connected to \textsf{O}, and half yellow---the half connected to \textsf{S}. +\begin{verbatim} +/LiaisonR { + 7.5 0.5 15 [10 10] newcylindre + dup (Red) outputcolors + } def +/LiaisonY { + 0 0.5 7.5 [10 10] newcylindre + dup (Yellow) outputcolors + } def +/Liaison{LiaisonR LiaisonY solidfuz} def +\end{verbatim} +The oxygen atom, its bond, and the setting of the combined unit: +\begin{verbatim} +/Ox {2.17 [20 16] newsphere + {0 0 15 translatepoint3d} solidtransform + dup (Red) outputcolors} def +/LO { Liaison Ox solidfuz} def +/LO1 { LO {0 -109.5 0 rotateOpoint3d} solidtransform } def +/LOx1 { LO1 {0 0 120 rotateOpoint3d} solidtransform } def +% fin liaison simple S-O +\end{verbatim} +For the double bond \textsf{S=O}, we take the single bond above +and duplicate it with shifts of 0.75~cm along the $Ox$ axis. +\begin{verbatim} +% Liaison double S=O +/LiaisonD1 {Liaison {-0.75 0 0 translatepoint3d} solidtransform} def +/LiaisonD2 {Liaison {0.75 0 0 translatepoint3d} solidtransform} def +/LiaisonDD { LiaisonD1 LiaisonD2 solidfuz} def +\end{verbatim} +Connecting it to the \textsf{O} atom: +\begin{verbatim} +/LiaisonDOx {LiaisonDD Ox solidfuz} def +\end{verbatim} +and with two successive rotations we position the two bonds +\textsf{=O}: +\begin{verbatim} +/LiaisonDOx1 {LiaisonDOx {0 -109.5 0 rotateOpoint3d} solidtransform } def +/LiaisonDOx2 {LiaisonDOx1 {0 0 -120 rotateOpoint3d} solidtransform } def +\end{verbatim} +The following step consists of fusing the two connections: +\begin{verbatim} +/LO12 { LiaisonDOx1 LiaisonDOx2 solidfuz} def +/LO123 {LO12 LOx1 solidfuz} def +\end{verbatim} +Then the single bond \textsf{S-S} is created: +\begin{verbatim} +% liaison simple S-S +/L4 { 0 0.5 20.10 [16 10] newcylindre + dup (Yellow) outputcolors + } def +\end{verbatim} +and fused with the two atoms \textsf{S-S}: +\begin{verbatim} +/S1L4{ Soufre1 L4 solidfuz} def +/S1S2L4{ S1L4 Soufre2 solidfuz} def +\end{verbatim} +The last step will be to fuse the two \textsf{S-S} and the three +\textsf{O} already equipped with their bonds: +\begin{verbatim} +/S2O3 { S1S2L4 LO123 solidfuz} def +S2O3 drawsolid**} +\end{verbatim} + +\endinput |