diff options
author | Karl Berry <karl@freefriends.org> | 2007-12-23 01:05:36 +0000 |
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committer | Karl Berry <karl@freefriends.org> | 2007-12-23 01:05:36 +0000 |
commit | 2154eaa8df555b17f72558d748c04bfe1c9c144b (patch) | |
tree | 6db55c6713bdc0b1b6428a94eeaa969c45042c85 /Master/texmf-dist/doc/generic | |
parent | f0572c6c196ee131830234fbde3a305ecdced4f0 (diff) |
pst-3dplot 1.78 (23dec07)
git-svn-id: svn://tug.org/texlive/trunk@5827 c570f23f-e606-0410-a88d-b1316a301751
Diffstat (limited to 'Master/texmf-dist/doc/generic')
-rw-r--r-- | Master/texmf-dist/doc/generic/pst-3dplot/Changes | 9 | ||||
-rw-r--r-- | Master/texmf-dist/doc/generic/pst-3dplot/pst-3dplot-doc.pdf | bin | 2274896 -> 2250617 bytes | |||
-rw-r--r-- | Master/texmf-dist/doc/generic/pst-3dplot/pst-3dplot-doc.tex | 125 |
3 files changed, 120 insertions, 14 deletions
diff --git a/Master/texmf-dist/doc/generic/pst-3dplot/Changes b/Master/texmf-dist/doc/generic/pst-3dplot/Changes index 43a46d7cf30..55fcfc45286 100644 --- a/Master/texmf-dist/doc/generic/pst-3dplot/Changes +++ b/Master/texmf-dist/doc/generic/pst-3dplot/Changes @@ -1,6 +1,7 @@ pst-3dplot.pro -------- -0.24 2006-08-30 - add code for special node calculating -0.23 2007-08-18 - add coorType 0,1,2 code for convertTo2D +0.25 2007-12-22 - add code for special rotating (Darrell Lamm) +0.24 2007-08-30 - add code for special node calculating +0.23 2007-08-18 - add coorType 0,1,2,3 code for convertTo2D - add code IIIDCylinder and cylindrical coordinates - add code for \psBox and \psCylinder 0.22 2006-01-11 add code for left-Handed coor (experimental) @@ -10,6 +11,10 @@ pst-3dplot.pro -------- pst-3dplot.tex -------- +1.78 2007-10-11 - fix bug in \parametricPlotThreeD + - add option Debug=false|true for addtional + comments written into the log file + - add extended rotation stuff (Darrell Lamm) 1.77 2007-10-03 - fix trailing spaces in \pstThreeDNode 1.76 2007-08-30 - add optional argument nodeType for different setting the node depending to a line and a plain diff --git a/Master/texmf-dist/doc/generic/pst-3dplot/pst-3dplot-doc.pdf b/Master/texmf-dist/doc/generic/pst-3dplot/pst-3dplot-doc.pdf Binary files differindex e391cc760c1..10560d50bad 100644 --- a/Master/texmf-dist/doc/generic/pst-3dplot/pst-3dplot-doc.pdf +++ b/Master/texmf-dist/doc/generic/pst-3dplot/pst-3dplot-doc.pdf diff --git a/Master/texmf-dist/doc/generic/pst-3dplot/pst-3dplot-doc.tex b/Master/texmf-dist/doc/generic/pst-3dplot/pst-3dplot-doc.tex index dbc52557da2..d0113649230 100644 --- a/Master/texmf-dist/doc/generic/pst-3dplot/pst-3dplot-doc.tex +++ b/Master/texmf-dist/doc/generic/pst-3dplot/pst-3dplot-doc.tex @@ -499,7 +499,7 @@ % \begin{document} -\author{Herbert Voß\thanks{voss@perce.de}} +\author{Darrell Lamm\thanks{darrell.lamm@gtri.gatech.edu} \and Herbert Voß\thanks{hv@pstricks.de}} \date{\today} \title{3D plots: PST-3dplot v\myFV\\Documentation} @@ -742,7 +742,13 @@ IIIDzticksep & <value> & 0.2\\ RotX & <angle> & 0\\ RotY & <angle> & 0\\ RotZ & <angle> & 0\\ -RotSequence & xyz|xzy|yxz|yzx|zxy|zyx & xyz\\ +RotAngle & <angle> & 0\\ +xRotVec & <angle> & 0\\ +yRotVec & <angle> & 0\\ +zRotVec & <angle> & 0\\ +RotSequence & xyz|xzy|yxz|yzx|zxy|zyx|quaternion & xyz\\ +RotSet & set|concat|keep & set\\ +eulerRotation & true|false & false\\ \end{longtable} } @@ -917,7 +923,6 @@ The angle \texttt{Alpha} is only valid for placing the ticks, if any. The angle \end{pspicture} \end{LTXexample} - With \texttt{coorType=3} the y--z-axes are orthogonal and the angle between x- and y-axis is always 45 degrees and the x-axis is shortened by a factor of $1/\sqrt{2}$. The angle \texttt{Alpha} is only valid for placing the ticks, if any. The angle \texttt{Beta} is not valid. @@ -931,7 +936,6 @@ The angle \texttt{Alpha} is only valid for placing the ticks, if any. The angle \end{LTXexample} - \clearpage \section{Rotation} @@ -981,7 +985,87 @@ additional one for the rotating sequence, which can be any combination of the th \end{LTXexample} +It is sometimes more convenient to rotate the coordinate system by +specifying a \emph{single} angle of rotation \verb+RotAngle+ (in degrees) +about a vector whose coordinates are \verb+xRotVec+, \verb+yRotVec+, +and \verb+zRotVec+ using the \verb+quaternion+ option for \verb+RotSequence+. + +\begin{LTXexample}[pos=t] +\begin{pspicture}(-3,-1.8)(3,3) +\multido{\iA=0+10}{18}{% + \pstThreeDCoor[linecolor=red, RotSequence=quaternion, RotAngle=\iA, xRotVec=3,yRotVec=0,zRotVec=3, + xMin=0,xMax=3, yMin=0,yMax=3, zMin=0,zMax=3]} +\pstThreeDCoor[linecolor=blue, RotSequence=quaternion, RotAngle=0, xRotVec=0, yRotVec=0, zRotVec=1, + xMin=0,xMax=3, yMin=0,yMax=3, zMin=0,zMax=3] +\pstThreeDLine[linecolor=blue, linewidth=2pt, arrows=->](0,0,0)(3,0,3) +\uput[0](-2.28,1.2){$\vec{R}_\Phi$} +\end{pspicture} +\end{LTXexample} + +Rotations of the coordinate system may be ``accumulated'' by applying +successive rotation sequences using the \verb+RotSet+ variable, +which is set either as a \verb+pst-3dplot+ object's optional argument, or +with a \verb+\psset[pst-3dplot]{RotSet=value}+ +command. The usual \TeX{} scoping rules for the value of \verb+RotSet+ +hold. The following are valid values of \verb+RotSet+: +\begin{itemize} +\item \verb+set+: Sets the rotation matrix using the rotation +parameters. This is the default value for \verb+RotSet+ and is +what is used if \verb+RotSet+ is not set as an option for the +\verb+pst-3dplot+ object, or if not previously +set within the object's scope by a \verb+\psset[pst-3dplot]{RotSet=val}+ +command. +\item \verb+concat+: Concatenates the current rotation matrix with +a the new rotation that is defined by the rotation parameters. This option +is most useful when multiple \verb+\\pstThreeDCoor+ calls are made, +with or without actual plotting of the axes, +to accumulate rotations. A previous value of \verb+RotSet=set+ +must have been made! +\item \verb+keep+: Keeps the current rotation matrix, ignoring the +rotation parameters. Mostly used internally to eliminate redundant +calculations. +\end{itemize} + +\begin{LTXexample}[pos=t] +\begin{pspicture}(-3,-3)(3.6,3) +\pstThreeDCoor[linecolor=blue, RotSequence=quaternion, RotAngle=0, RotSet=set, xRotVec=0,yRotVec=0,zRotVec=1, + xMin=0,xMax=3, yMin=0,yMax=3, zMin=0,zMax=3] + \pstThreeDCoor[linecolor=green, RotSequence=quaternion, RotSet=concat, RotAngle=22.5, xRotVec=0,yRotVec=0,zRotVec=1, + xMin=0,xMax=3, yMin=0,yMax=3, zMin=-0.6,zMax=3] + \pstThreeDCoor[linecolor=yellow, RotSequence=quaternion, RotSet=concat, RotAngle=30, xRotVec=0,yRotVec=1,zRotVec=0, + xMin=0,xMax=3,yMin=-0.6,yMax=3, zMin=0,zMax=3] + \pstThreeDCoor[linecolor=red, RotSequence=quaternion, RotSet=concat, RotAngle=60, xRotVec=1,yRotVec=0,zRotVec=0, + xMin=-0.6,xMax=3, yMin=0,yMax=3, zMin=0,zMax=3]% +\end{pspicture} +\end{LTXexample} + +By default, the rotations defined by \verb+RotX+, \verb+RotY+, and +\verb+RotZ+ are rotations about the \emph{original} coordinate system's, +$x$, $y$, or $z$ +axes, respectively. More traditionally, however, these rotation angles +are defined as rotations about the rotated coordinate system's \emph{current}, +$x$, $y$, or $z$ axis. The \verb+pst-3dplot+ variable option +\verb+eulerRotation+ can be set to \verb+true+ to activate Euler angle +definitions; i.e., \verb+eulerRotation=true+. The default is +\verb+eulerRotation=false+. +\begin{LTXexample}[pos=t] +\begin{pspicture}(-4,-5)(6,5) + \pstThreeDCoor[linecolor=red, RotSequence=zyx, RotZ=90,RotY=90,RotX=0, + xMin=0,xMax=5, yMin=0,yMax=5, zMin=0,zMax=5] + \pstThreeDCoor[linecolor=blue, RotSequence=zyx, RotZ=0,RotY=0,RotX=0, + xMin=0,xMax=2.5, yMin=0,yMax=2.5, zMin=0,zMax=2.5] +\end{pspicture} +\end{LTXexample} + +\begin{LTXexample}[pos=t] +\begin{pspicture}(-3,-5)(7,5) + \pstThreeDCoor[eulerRotation=true, linecolor=red, RotSequence=zyx, RotZ=90, RotY=90, RotX=0, + xMin=0,xMax=5, yMin=0,yMax=5, zMin=0,zMax=5] + \pstThreeDCoor[linecolor=blue, RotSequence=zyx, RotZ=0,RotY=0,RotX=0, + xMin=0,xMax=2.5, yMin=0,yMax=2.5, zMin=0,zMax=2.5] +\end{pspicture} +\end{LTXexample} \clearpage \psset{unit=1cm,gridlabels=7pt} @@ -2171,9 +2255,16 @@ values for the option \verb|drawStyle| : \item \verb|yxLines| Curves are first drawn in y and then in x direction \end{itemize} -In fact of the inner loop it is only possible to get a closed curve in the defined direction. For lines in x direction less \verb|yPlotpoints| are no problem, in difference to \verb|xPlotpoints|, especially for the plotstyle options \verb|line| and \verb|dots|. +In fact of the inner loop it is only possible to get a closed curve in the defined direction. +For lines in x direction less \verb|yPlotpoints| are no problem, in difference to +\verb|xPlotpoints|, especially for the plotstyle options \verb|line| and \verb|dots|. -Drawing three dimensional functions with curves which are transparent makes it difficult to see if a point is before or behind another one. \verb|\psplotThreeD| has an option \verb|hiddenLine| for a primitive hidden line mode, which only works when the y-intervall is defined in a way that $y_2>y_1$. Then every new curve is plotted over the forgoing one and filled with the color white. Figure \ref{fig:3dfunc-hidden} is the same as figure \ref{fig:3dfunc}, only with the option \verb|hiddenLine=true|. +Drawing three dimensional functions with curves which are transparent makes it difficult +to see if a point is before or behind another one. \verb|\psplotThreeD| has an option +\verb|hiddenLine| for a primitive hidden line mode, which only works when the y-intervall +is defined in a way that $y_2>y_1$. Then every new curve is plotted over the forgoing one +and filled with the color white. Figure~\ref{fig:3dfunc-hidden} is the same as +figure~\ref{fig:3dfunc}, only with the option \verb|hiddenLine=true|. \begin{lstlisting} \begin{pspicture}(-6,-4)(6,5) @@ -2331,7 +2422,9 @@ Parametric plots are only possible for drawing curves or areas. The syntax for \parametricplotThreeD(t1,t2)(u1,u2){<three parametric functions x y z} \end{verbatim} -The only possible variables are \verb|t| and \verb|u| with \verb|t1,t2| and \verb|u1,u2| as the range for the parameters. The order for the functions is not important and \verb|u| may be optional when having only a three dimensional curve and not an area. +The only possible variables are \verb|t| and \verb|u| with \verb|t1,t2| and \verb|u1,u2| as the +range for the parameters. The order for the functions is not important and \verb|u| may be +optional when having only a three dimensional curve and not an area. \begin{align} \begin{array}{rl} x & =f(t,u)\\ @@ -2348,7 +2441,10 @@ To draw a spiral we have the parametric functions: \end{array} \end{align} -In the example the $t$ value is divided by $600$ for the \verb|z| coordinate, because we have the values for $t$ in degrees, here with a range of $0\mbox{°}\ldots 2160\mbox{°}$. Drawing a curve in a three dimensional coordinate system does only require one parameter, which has to be by default \verb|t|. In this case we do not need all parameters, so that one can write +In the example the $t$ value is divided by $600$ for the \verb|z| coordinate, because we have the +values for $t$ in degrees, here with a range of $0\mbox{°}\ldots 2160\mbox{°}$. Drawing a curve in +a three dimensional coordinate system does only require one parameter, which has to be by default +\verb|t|. In this case we do not need all parameters, so that one can write \begin{verbatim} \parametricplotThreeD(t1,t2){<three parametric functions x y z} @@ -2366,7 +2462,9 @@ which is the same as \verb|(0,0)| for the parameter \verb|u|. \end{LTXexample} -Instead of using the \verb|\pstThreeDSphere| macro (see section \ref{sec:spheres}) it is also possible to use parametric functions for a sphere. The macro plots continous lines only for the \verb|t| parameter, so a sphere plotted with the longitudes need the parameter equations as +Instead of using the \verb|\pstThreeDSphere| macro (see section \ref{sec:spheres}) it is also +possible to use parametric functions for a sphere. The macro plots continous lines only for +the \verb|t| parameter, so a sphere plotted with the longitudes need the parameter equations as \begin{align} \begin{array}{l} x = \cos t \cdot \sin u\\ @@ -2505,7 +2603,9 @@ The syntax is \dataplotThreeD[<options>]{<data object>} \end{verbatim} -In difference to the macro \CMD{fileplotThreeD} the \CMD{dataplotThreeD} cannot plot any external data without reading this with the macro \CMD{readdata} which reads external data and save it in a macro, f.ex.: \CMD{dataThreeD}.\cite{dtk02.2:jackson.voss:plot-funktionen} +In difference to the macro \CMD{fileplotThreeD} the \CMD{dataplotThreeD} cannot plot any external data +without reading this with the macro \CMD{readdata} which reads external data and save it in a macro, +f.ex.: \CMD{dataThreeD}.\cite{dtk02.2:jackson.voss:plot-funktionen} \begin{verbatim} \readdata{<data object>}{<datafile>} @@ -2520,7 +2620,8 @@ In difference to the macro \CMD{fileplotThreeD} the \CMD{dataplotThreeD} cannot \dataplotThreeD[plotstyle=line]{\dataThreeD} \end{pspicture}% \end{LTXexample} -\caption{Demonstration of \texttt{\textbackslash dataplotThreeD} with \texttt{Alpha=-30} and \texttt{Beta=30}}\label{fig:fileplot} +\caption{Demonstration of \texttt{\textbackslash dataplotThreeD} with \texttt{Alpha=-30} and +\texttt{Beta=30}}\label{fig:fileplot} \end{figure} @@ -2709,7 +2810,7 @@ error. In this case save prevent expanding with e.g.: \verb+\psset{nameX=$\noexp \section{Credits} -Bruce Burlton | Christophe Jorssen | Chris Kuklewicz | Thorsten Suhling +Bruce Burlton | Christophe Jorssen | Chris Kuklewicz | Thorsten Suhling \bgroup \nocite{*} |