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diff --git a/Master/texmf-dist/doc/latex/tikz-3dtools/3DToolsManual.pdf b/Master/texmf-dist/doc/latex/tikz-3dtools/3DToolsManual.pdf Binary files differnew file mode 100644 index 00000000000..471194ae312 --- /dev/null +++ b/Master/texmf-dist/doc/latex/tikz-3dtools/3DToolsManual.pdf diff --git a/Master/texmf-dist/doc/latex/tikz-3dtools/3DToolsManual.tex b/Master/texmf-dist/doc/latex/tikz-3dtools/3DToolsManual.tex new file mode 100644 index 00000000000..4463f79613f --- /dev/null +++ b/Master/texmf-dist/doc/latex/tikz-3dtools/3DToolsManual.tex @@ -0,0 +1,387 @@ +\documentclass[a4paper]{ltxdoc} +%\input{pgfmanual-dvipdfm.cfg} +%\input{../../text-en/pgfmanual-en-main-preamble} +\usepackage[version=latest]{pgf} +\usepackage{xkeyval,calc,listings,tikz,fp} +\usepackage[T1]{fontenc}% big thanks to samcarter! +\usepackage{makeidx} +\makeindex +\usepackage{hyperref} +\hypersetup{% + colorlinks=true, + linkcolor=blue, + filecolor=blue, + urlcolor=blue, + citecolor=blue, + pdfborder=0 0 0, +} +\makeatletter % see https://tex.stackexchange.com/q/33946 +\input{pgfmanual.code} % +\makeatother % +\input{pgfmanual-en-macros.tex} % link from +% /usr/local/texlive/2019/texmf-dist/doc/generic/pgf/macros/pgfmanual-en-macros.tex +% or the equivalent on your installation +\newenvironment{ltxtikzlibrary}[1]{ + \begin{pgfmanualentry} + \pgfmanualentryheadline{% + \pgfmanualpdflabel{#1}{}% + \textbf{\tikzname\ Library} \texttt{\declare{#1}}} + \index{#1@\protect\texttt{#1} library}% + \index{Libraries!#1@\protect\texttt{#1}}% + \vskip.25em% + {{\ttfamily\char`\\usetikzlibrary\char`\{\declare{#1}\char`\}\space\space \char`\%\space\space \LaTeX\space only}}\\[.5em] + \pgfmanualbody +} +{ + \end{pgfmanualentry} +} +\def\pgfautoxrefs{1} +\usetikzlibrary{3dtools} +\begin{document} +\title{\tikzname\ 3D Tools} +\author{tallmarmot} +\date{v1.0} +\maketitle +\section{Manual} +\begin{ltxtikzlibrary}{3dtools} + This library provides additional tools to create 3d--like pictures. +\end{ltxtikzlibrary} + +TikZ has the |3d| and |tpp| libraries which deal with the projections of +three--dimensional drawings. This library provides some means to manipulate +the coordinates. It supports linear combinations of vectors, vector and scalar +products. + +\noindent\textbf{Note:} Hopefully this library is only temporary and its +contents will be absorbed in slightly extended versions of the |3d| and |calc| +libraries. + +\subsection{Coordinate computations} +\label{sec:3DCoordinateComputations} + + +The |3dtools| library has some options and styles for coordinate computations. +\begin{key}{/tikz/3d parse} + Parses and expression and inserts the result in form of a coordinate. +\end{key} +\begin{key}{/tikz/3d coordinate} + Allow one to define a 3d coordinate from other coordinates. +\end{key} +Both keys support both symbolic and explicit coordinates. + +\begin{codeexample}[width=6cm] +\begin{tikzpicture} + \path (1,2,3) coordinate (A) + (2,3,-1) coordinate (B) + (-1,-2,1) coordinate (C) + [3d parse={0.25*(1,2,3)x(B)}] + coordinate(D) + [3d parse={0.25*(C)x(B)}] + coordinate(E); + \path foreach \X in {A,...,E} + {(\X) node[fill,inner sep=1pt, + label=above:$\X$]{}}; +\end{tikzpicture} +\end{codeexample} + +Notice that, as of now, only the syntax |\path (1,2,3) coordinate (A);| works, +i.e.\ |\coordinate (A) at (1,2,3);| does \emph{not} work, but leads to error +messages. + +\begin{codeexample}[width=6cm] +\begin{tikzpicture} + \path (1,2,3) coordinate (A) + (2,3,-1) coordinate (B) + (-1,-2,1) coordinate (C) + [3d coordinate={(D)=0.25*(1,2,3)x(B)}, + 3d coordinate={(E)=0.25*(C)x(B)}, + 3d coordinate={(F)=(A)-(B)},]; + \path foreach \X in {A,...,E} + {(\X) node[fill,inner sep=1pt, + label=above:$\X$]{}}; +\end{tikzpicture} +\end{codeexample} + +The actual parsings are done by the function |\pgfmathtdparse| that allows one +to parse 3d expressions. The supported vector operations are |+| (addition $+$), +|-| (subtraction $-$), |*| (multiplication of the vector by a scalar), |x| +(vector product $\times$) and |o| (scalar product). + +\begin{command}{\pgfmathtdparse{\marg{x}}} + Parses 3d expressions. +\end{command} + +In order to pretty-print the result one may want to use |\pgfmathprintvector|, +and use the math function |TD| for parsing. + +\begin{command}{\pgfmathprintvector\marg{x}} + Pretty-prints vectors. +\end{command} + + +\begin{codeexample}[width=6.5cm] +\pgfmathparse{TD("0.2*(A) +-0.3*(B)+0.6*(C)")}% +$0.2\,\vec A-0.3\,\vec B+0.6\,\vec C +=(\pgfmathprintvector\pgfmathresult)$ +\end{codeexample} + +The alert reader may wonder why this works, i.e.\ how would \tikzname\ ``know'' +what the coordinates $A$, $B$ and $C$ are. It works because the coordinates in +\tikzname\ are global, so they get remembered from the above example. + +\paragraph{Warning.} The expressions that are used in the coordinates will only +be evaluated when they are retrieved. So, if you use, say, random numbers, you +will get each time a \emph{different} result. + +\begin{codeexample}[width=4cm] +\begin{tikzpicture} + \path[overlay] (rnd,rnd,rnd) + coordinate (R); + \node at (0,1) + {\pgfmathparse{TD("(R)")}% + $\vec R=(\pgfmathprintvector\pgfmathresult)$}; + \node at (0,0) + {\pgfmathparse{TD("(R)")}% + $\vec R=(\pgfmathprintvector\pgfmathresult)$}; +\end{tikzpicture} +\end{codeexample} + +\begin{codeexample}[width=5.2cm] +\pgfmathparse{TD("(1,0,0)x(0,1,0)")}% +$(1,0,0)^T\times(0,1,0)^T= +(\pgfmathprintvector\pgfmathresult)^T$ +\end{codeexample} + + +\begin{codeexample}[width=5.2cm] +\pgfmathparse{TD("(A)o(B)")}% +$\vec A\cdot \vec B= +\pgfmathprintnumber\pgfmathresult$ +\end{codeexample} + + +Notice that, as of now, the only purpose of brackets |(...)| is to delimit +vectors. Further, the addition |+| and subtraction |-| have a \emph{higher} +precedence than vector products |x| and scalar products |o|. That is, +|(A)+(B)o(C)| gets interpreted as $(\vec A+\vec B)\cdot\vec C$, and +|(A)+(B)x(C)| as $(\vec A+\vec B)\times\vec C$. + + +\begin{codeexample}[width=5.2cm] +\pgfmathparse{TD("(A)+(B)o(C)")}% +$(\vec A+\vec B)\cdot\vec C= +\pgfmathprintnumber\pgfmathresult$ +\end{codeexample} + +\begin{codeexample}[width=5.2cm] +\pgfmathparse{TD("(A)+(B)x(C)")}% +$(\vec A+\vec B)\times\vec C= +(\pgfmathprintvector\pgfmathresult)$ +\end{codeexample} + +Moreover, any expression can only have either one |o| or one |x|, or none of +these. Expressions with more of these can be accidentally right. + +\subsection{Orthonormal projections} +\label{sec:3DOrthonormalProjections} + +This library can be used together with the |tikz-3dplot| package. It also has +its own means to install orthonormal projections. Orthonormal projections emerge +from subjecting 3-dimensional vectors to orthogonal transformations and +projecting them to 2 dimensions. They are not to be confused with the +perspective projections, which are more realistic and supported by the |tpp| +library. Orthonormal projections may be thought of a limit of perspective +projections at large distances, where large means that the distance of the +observer is much larger than the dimensions of the objects that get depicted. + +\begin{key}{/tikz/3d/install view} + Installs a 3d orthonormal projection. +\end{key} + +The initial projection is such that $x$ is right an $y$ is up, as if we had no +third direction. + +\begin{codeexample}[width=2cm] +\begin{tikzpicture}[3d/install view] + \draw[-stealth] (0,0,0) -- (1,0,0) + node[pos=1.2] {$x$}; + \draw[-stealth] (0,0,0) -- (0,1,0) + node[pos=1.2] {$y$}; + \draw[-stealth] (0,0,0) -- (0,0,1) + node[pos=1.2] {$z$}; +\end{tikzpicture} +\end{codeexample} + +The 3d-like picture emerge by rotating the view. The conventions for the +parametrization of the orthogonal rotations in terms of three rotation angles +$\phi$, $\psi$ and $\theta$ are +\[ O(\phi,\psi,\theta)=\left(\begin{array}{ccc} + s_{\phi}\,c_{\psi} +& s_{\psi} +& -s_{\phi}\,c_{\theta}-c_{\phi}\,s_{\psi}\,s_{\theta} \\ + c_{\phi}\,c_{\theta}-s_{\phi}\,s_{\psi}\,s_{\theta} +& c_{\psi}\,s_ {\theta} +& s_{\phi}\,s_{\theta}-c_{\phi}\,c_{\theta}\,s_{\psi} \\ + -s_{\phi}\,s_{\psi}\,c_{\theta}-c_{\phi}\,s_{\theta} +& c_{\psi}\,c_{\theta} +& c_{\psi}\,c_{\theta}\end{array}\right)\;. +\] +Here, $c_\phi:=\cos\phi$, $s_\phi:=\sin\phi$ and so on. +\begin{key}{/tikz/3d/phi (initially 0)} + 3d rotation angle. +\end{key} +\begin{key}{/tikz/3d/psi (initially 0)} + 3d rotation angle. +\end{key} +\begin{key}{/tikz/3d/theta (initially 0)} + 3d rotation angle. +\end{key} +The rotation angles can be used to define the view. The conventions are chosen +in such a way that they resemble those of the |tikz-3dplot| package, which gets +widely used. + +\begin{codeexample}[width=2.5cm] +\begin{tikzpicture}[3d/install view={phi=110,psi=0,theta=70}] + \draw[-stealth] (0,0,0) -- (1,0,0) + node[pos=1.2] {$x$}; + \draw[-stealth] (0,0,0) -- (0,1,0) + node[pos=1.2] {$y$}; + \draw[-stealth] (0,0,0) -- (0,0,1) + node[pos=1.2] {$z$}; +\end{tikzpicture} +\end{codeexample} + +\begin{codeexample}[width=2.5cm] +\begin{tikzpicture}[3d/install view={phi=110,psi=0,theta=70}] + \draw[-stealth] (0,0,0) -- (1,0,0) + node[pos=1.2] {$x$}; + \draw[-stealth] (0,0,0) -- (0,1,0) + node[pos=1.2] {$y$}; + \draw[-stealth] (0,0,0) -- (0,0,1) + node[pos=1.2] {$z$}; +\end{tikzpicture} +\end{codeexample} + +\subsection{Predefined pics} + +\begin{key}{/tikz/pics/3d circle through 3 points=\meta{options} (initially empty)} + Draws a circle through 3 points in 3 dimensions. If the three + coordinates are close to linearly dependent, the circle will not be + drawn. +\end{key} +\begin{key}{/tikz/3d circle through 3 points/A (initially {(1,0,0)})} + First coordinate. Can be either symbolic or explicit. Symbolic + coordinates need to be defined via + |\path (x,y,z) coordinate (name);|. +\end{key} +\begin{key}{/tikz/3d circle through 3 points/B (initially {(0,1,0)})} + Second coordinate, like above. +\end{key} +\begin{key}{/tikz/3d circle through 3 points/C (initially {(0,0,1)})} + Third coordinate, like above. +\end{key} +\begin{key}{/tikz/3d circle through 3 points/center name (initially {M})} + Name of the center coordinate that will be derived. +\end{key} +\begin{key}{/tikz/3d circle through 3 points/auxiliary coordinate prefix (initially {tmp})} + In \tikzname the coordinates are global. The code for the circle is more + comprehensible if named coordinates are introduced. Their names will begin with + this prefix. Changing the prefix will allow users to avoid overwritin + existing coordinates. +\end{key} + +\begin{codeexample}[width=2.5cm] +\begin{tikzpicture}[3d/install view={phi=30,psi=0,theta=70}] + \foreach \X in {A,B,C} + {\pgfmathsetmacro{\myx}{3*(rnd-1/2)} + \pgfmathsetmacro{\myy}{3*(rnd-1/2)} + \pgfmathsetmacro{\myz}{3*(rnd-1/2)} + \path (\myx,\myy,\myz) coordinate (\X);} + \path pic{3d circle through 3 points={% + A={(A)},B={(B)},C={(C)}}}; + \foreach \X in {A,B,C,M} + {\fill (\X) circle[radius=1.5pt] + node[above]{$\X$};} +\end{tikzpicture} +\end{codeexample} + +To do: +\begin{itemize} + \item transform to plane given by three non-degenerate coordinates + \item transform to plane given by normal and one point + \item maybe layering/visibility +\end{itemize} + +\subsection{3D--like decorations} + +\begin{key}{/tikz/decorations/3d complete coil} + 3d--like coil where the front is thicker than the back. +\end{key} + +\begin{key}{/tikz/decorations/3d coil closed} + Indicates that the coil is closed. +\end{key} + + +\begin{codeexample}[width=8cm] +\begin{tikzpicture} +\draw[decoration={3d coil color=red,aspect=0.35, segment length=3.1mm, +amplitude=3mm,3d complete coil}, +decorate] (0,1) -- (0,6); +\draw[decoration={3d coil color=blue,3d coil opacity=0.9,aspect=0.5, +segment length={2*pi*3cm/50}, amplitude=5mm,3d complete coil, +3d coil closed}, +decorate] (5,3.5) circle[radius=3cm]; +\end{tikzpicture} +\end{codeexample} + + +\end{document} + + +\tdplotsetmaincoords{70}{110} +\begin{tikzpicture} + \begin{scope}[local bounding box=tests,tdplot_main_coords] + % to work with this library, you need to define the cordinate + % with \path (<x>,<y>,<z>) coordinate (<name>); + \path (0,0,0) coordinate (O) + (1,2,3) coordinate (A) + (2,3,-1) coordinate (B) + (-1,-2,1) coordinate (C) + % you can use 3d parse (clumsy) + [3d parse={0.25*(A)x(B)}] coordinate(D) + % you can use 3d coordinate to define a new coordinate from existing ones + [3d coordinate={(E)=0.2*(A)-0.3*(B)+0.6*(C)}] + [3d coordinate={(H)=0.2*(A)-0.3*(B)+0.6*(C)}]; + \draw (A) -- (B) -- (C) -- (D) -- (E) -- cycle; + \end{scope} + %\RawCoord yields the components + \edef\tempD{\RawCoord(D)} + \edef\tempE{\RawCoord(E)} + \edef\tempH{\RawCoord(H)} + \node[below right,align=left] at (tests.south west) + {$(D)=\tempD$,\\ $(E)=\tempE$,\\ $(H)=\tempH$}; +\end{tikzpicture} + +\noindent% clumsy parser +$\tdparse{(A)+0.3*(B)>(A)+0.3(B)}=(\pgfmathresult)$ + +\noindent% parsing inside \pgfmathparse. You need to wrap the argument in "..." +\pgfmathparse{TD("0.2*(A)-0.3*(B)+0.6*(C)")}% +$0.2\,\vec A-0.3\,\vec B+0.6\vec C=(\pgfmathresult)$ + +%one can parse with the same parser vector products +\noindent\pgfmathparse{TD("0.5*(A)x(B)")}% +$0.5\,\vec A\times\vec B=(\pgfmathresult)$ +%(note, however, that something like (A)x(B)x(C) does NOT work) + +%as well as scalar products +\noindent\pgfmathparse{TD("(A)+(C)o(B)")}% +$\left(\begin{array}{@{}c@{}}1\\ 0\\ 0\end{array}\right)$ +%(note, however, that + and - have higher precedence than o)\end{document} + + +\end{document} + +\endinput diff --git a/Master/texmf-dist/doc/latex/tikz-3dtools/README.md b/Master/texmf-dist/doc/latex/tikz-3dtools/README.md new file mode 100644 index 00000000000..15e54b235cf --- /dev/null +++ b/Master/texmf-dist/doc/latex/tikz-3dtools/README.md @@ -0,0 +1,23 @@ +# tikz-3dtools – additional tools to create 3d–like pictures + +[![Travis Build Status][travis-svg]][travis-link] + +*by [tallmarmot](https://github.com/tallmarmot)* + +Ti*k*Z has the `3d` and `tpp` libraries which deal with the +projections of three-dimensional drawings. This library provides some +means to manipulate the coordinates. It supports linear combinations +of vectors, vector and scalar products. + +The library is currently maintained by the PGF/Ti*k*Z development team +at https://github.com/pgf-tikz/tikz-3dtools. Please report bugs on +the issue tracker at https://github.com/pgf-tikz/tikz-3dtools/issues +or on the mailing list https://tug.org/mailman/listinfo/pgf-tikz. + +This library may be distributed and/or modified + +1. under the LaTeX Project Public License 1.3c or later and/or +2. under the GNU General Public License v2. + +[travis-svg]: https://travis-ci.com/pgf-tikz/tikz-3dtools.svg?branch=master +[travis-link]: https://travis-ci.com/pgf-tikz/tikz-3dtools
\ No newline at end of file diff --git a/Master/texmf-dist/tex/latex/tikz-3dtools/tikzlibrary3dtools.code.tex b/Master/texmf-dist/tex/latex/tikz-3dtools/tikzlibrary3dtools.code.tex new file mode 100644 index 00000000000..fd29370c812 --- /dev/null +++ b/Master/texmf-dist/tex/latex/tikz-3dtools/tikzlibrary3dtools.code.tex @@ -0,0 +1,712 @@ +% Copyright 2019 by an anonymous marmot +% +% This file may be distributed and/or modified +% +% 1. under the LaTeX Project Public License and/or +% 2. under the GNU Public License. +% +% See the file doc/generic/pgf/licenses/LICENSE for more details. +\ProvidesFileRCS{tikzlibrary3dtools.code.tex} +\usetikzlibrary{3d,decorations,fpu}% to do: ability to switch on and off +\usepackage{calculator}% maybe drop +\makeatletter% +\def\extractpgfversionaux#1.#2.#3|#4#5#6;{\def#4{#1}\def#5{#2}\def#6{#3}}% +\def\checkversion{% +\edef\temp{\noexpand\extractpgfversionaux\pgfversion|\noexpand\myu\noexpand\myv\noexpand\myw;}% +\temp% +\pgfmathtruncatemacro{\itest}{ifthenelse(10*\myu+\myv<31,0,1)}% +\ifnum\itest=0% +\message{You are using a too old version of pgf (\pgfversion). You need at least +version 3.1.1 to use the features of this library.}% +\fi}% +\checkversion% +\newcommand{\orthmat}[3]{% the entries of this matrix keep track +\pgfmathparse{cos(#1)*cos(#2)}% of the current transformation +\xdef\tikz@td@matAA{\pgfmathresult}% +\pgfmathparse{cos(#2)*sin(#1)}% +\xdef\tikz@td@matAB{\pgfmathresult}% +\pgfmathparse{sin(#2)}% +\xdef\tikz@td@matAC{\pgfmathresult}% +\pgfmathparse{-cos(#3)*sin(#1)-cos(#1)*sin(#2)*sin(#3)}% +\xdef\tikz@td@matBA{\pgfmathresult}% +\pgfmathparse{cos(#1)*cos(#3)-sin(#1)*sin(#2)*sin (#3)}% +\xdef\tikz@td@matBB{\pgfmathresult}% +\pgfmathparse{cos(#2)*sin (#3)}% +\xdef\tikz@td@matBC{\pgfmathresult}% +\pgfmathparse{sin(#1)*sin(#3)-cos(#1)*cos(#3)*sin(#2)}% +\xdef\tikz@td@matCA{\pgfmathresult}% +\pgfmathparse{-cos(#3)*sin(#1)*sin(#2)-cos(#1)*sin(#3)}% +\xdef\tikz@td@matCB{\pgfmathresult}% +\pgfmathparse{cos(#2)*cos(#3)}% +\xdef\tikz@td@matCC{\pgfmathresult}}% +\tikzset{3d/.cd,phi/.initial=0,psi/.initial=0,theta/.initial=0, +install view/.style={/utils/exec=\tikzset{3d/.cd,#1}% +\orthmat{\pgfkeysvalueof{/tikz/3d/phi}}{% +\pgfkeysvalueof{/tikz/3d/psi}}{\pgfkeysvalueof{/tikz/3d/theta}},% +/tikz/x={({\tikz@td@matAA*1cm},{\tikz@td@matBA*1cm})},% +/tikz/y={({\tikz@td@matAB*1cm},{\tikz@td@matBB*1cm})},% +/tikz/z={({\tikz@td@matAC*1cm},{\tikz@td@matBC*1cm})}}}% +\def\pgfmathparse@td@FPU#1{\begingroup% +\pgfkeys{/pgf/fpu,/pgf/fpu/output format=fixed}% +\pgfmathparse{#1}% +\pgfmathsmuggle\pgfmathresult\endgroup}% +% +\newlength\pgf@X% not clear if one should use lengths here at all +\newlength\pgf@Y% +\newlength\pgf@Z% +\newlength\pgf@Xa% +\newlength\pgf@Ya% +\newlength\pgf@Za% +\newlength\pgf@Xb% +\newlength\pgf@Yb% +\newlength\pgf@Zb% +\xdef\tikz@td@type{0}%0=linear combination,1=vector product +\long\def\RawCoord(#1){\csname tikz@dcl@coord@#1\endcsname}% +\long\def\ParseCoord(#1){% +\pgfutil@tempcnta=0% +\pgfutil@for\pgf@tmp:={#1}\do{\advance\pgfutil@tempcnta by1}% +\ifnum\the\pgfutil@tempcnta=1 +\edef\pgfutil@tmp{\csname tikz@dcl@coord@#1\endcsname}% +\else% +\edef\pgfutil@tmp{(#1)}% +\fi% +\pgfmathparse@td@FPU{xcomp3(\pgfutil@tmp)}% +\pgf@X=\pgfmathresult pt% +\pgfmathparse@td@FPU{ycomp3(\pgfutil@tmp)}% +\pgf@Y=\pgfmathresult pt% +\pgfmathparse@td@FPU{zcomp3(\pgfutil@tmp)}% +\pgf@Z=\pgfmathresult pt}% +\pgfmathdeclarefunction{TD}{1}{% +\begingroup% +\pgfmathtdparse{#1}% +\pgfmathsmuggle\pgfmathresult\endgroup% +}% +% projections +\pgfmathdeclarefunction{xcomp3}{3}{% x component of a 3-vector +\begingroup% +\pgfmathparse@td@FPU{#1}% +\pgfmathsmuggle\pgfmathresult\endgroup} +\pgfmathdeclarefunction{ycomp3}{3}{% y component of a 3-vector +\begingroup% +\pgfmathparse@td@FPU{#2}% +\pgfmathsmuggle\pgfmathresult\endgroup} +\pgfmathdeclarefunction{zcomp3}{3}{% z component of a 3-vector +\begingroup% +\pgfmathparse@td@FPU{#3}% +\pgfmathsmuggle\pgfmathresult\endgroup} +\pgfmathdeclarefunction{TDx}{1}{% x component of a 3-vector +\begingroup% +\edef\mycoord{\RawCoord(#1)}% +\pgfmathparse@td@FPU{xcomp3\mycoord}% +\pgfmathsmuggle\pgfmathresult\endgroup}% +\pgfmathdeclarefunction{TDy}{1}{% x component of a 3-vector +\begingroup% +\edef\mycoord{\RawCoord(#1)}% +\pgfmathparse@td@FPU{ycomp3\mycoord}% +\pgfmathsmuggle\pgfmathresult\endgroup}% +\pgfmathdeclarefunction{TDz}{1}{% x component of a 3-vector +\begingroup% +\edef\mycoord{\RawCoord(#1)}% +\pgfmathparse@td@FPU{zcomp3\mycoord}% +\pgfmathsmuggle\pgfmathresult\endgroup}% +\def\scalprod#1=#2.#3;{% +\edef\coordA{\RawCoord#2}% +\edef\coordB{\RawCoord#3}% +\pgfmathsetmacro\pgfutil@tmpa{scalarproduct({\coordA},{\coordB})}% +\edef#1{\pgfutil@tmpa}}% +\def\spaux#1#2#3#4#5#6{(#1)*(#4)+(#2)*(#5)+(#3)*(#6)}% +\pgfmathdeclarefunction{scalarproduct}{2}{% scalar product of two 3-vectors +\begingroup% +\pgfmathparse@td@FPU{\spaux#1#2}% +\pgfmathsmuggle\pgfmathresult\endgroup} +% vector product +% vector product auxiliary functions +\def\vpauxx#1#2#3#4#5#6{(#2)*(#6)-(#3)*(#5)}% +\def\vpauxy#1#2#3#4#5#6{(#4)*(#3)-(#1)*(#6)}% +\def\vpauxz#1#2#3#4#5#6{(#1)*(#5)-(#2)*(#4)}% +% vector product pgf functions +\pgfmathdeclarefunction{vpx}{2}{% x component of vector product +\begingroup% +\pgfmathparse@td@FPU{\vpauxx#1#2}% +\pgfmathsmuggle\pgfmathresult\endgroup} +\pgfmathdeclarefunction{vpy}{2}{% y component of vector product +\begingroup% +\pgfmathparse@td@FPU{\vpauxy#1#2}% +\pgfmathsmuggle\pgfmathresult\endgroup} +\pgfmathdeclarefunction{vpz}{2}{% z component of vector product +\begingroup% +\pgfmathparse@td@FPU{\vpauxz#1#2}% +\pgfmathsmuggle\pgfmathresult\endgroup} +% +% +% the following is very much "inspired" by the calc library +\long\def\pgfmathtdparse#1{% < and > really are placeholders for a later integration +\begingroup% into calc, which however requires changes both in +% tikzlibrarycalc.code.tex and in tikz.code.tex +% +% tdparse main computation. It's a series of optional factors in front +% of coordinates. It is very much copied from the calc library. +% +\pgf@Xa=0pt% We accumulate the result in here. +\pgf@Ya=0pt% +\pgf@Za=0pt% +\tikz@td@cc@parse+#1% +}% + +\def\tikz@td@cc@parse{% +\pgfutil@ifnextchar>{% +% Ok, we found the end... +\tikz@td@cc@end% +} +{\pgfutil@ifnextchar+{% +% Ok, we found a coordinate... +\tikz@td@cc@add% +}{% +\pgfutil@ifnextchar-{% +\tikz@td@cc@sub% +}{% +\pgfutil@ifnextchar x{% +\tikz@td@cc@vecprod% +}{% +\pgfutil@ifnextchar o{% +\tikz@td@cc@scalprod% +}{% \tikzerror{+ or - expected}% +\tikz@td@cc@end% +}% +}% +}% +}% +}% +}% +% +% The end is reached with > at the moment but this should change +% +\def\tikz@td@cc@end{% +\ifcase\tikz@td@type% +\pgfmathsetmacro{\pgftemp@x}{\pgf@Xa}% +\pgfmathsetmacro{\pgftemp@y}{\pgf@Ya}% +\pgfmathsetmacro{\pgftemp@z}{\pgf@Za}% +\edef\pgfmathresult{\pgftemp@x,\pgftemp@y,\pgftemp@z}% +\or% +\pgfmathsetmacro{\myxa}{\pgf@Xa}% +\pgfmathsetmacro{\myya}{\pgf@Ya}% +\pgfmathsetmacro{\myza}{\pgf@Za}% +\pgfmathsetmacro{\myxb}{\pgf@Xb}% +\pgfmathsetmacro{\myyb}{\pgf@Yb}% +\pgfmathsetmacro{\myzb}{\pgf@Zb}% +\pgfmathsetmacro{\pgftemp@x}{\vpauxx{\myxb}{\myyb}{\myzb}{\myxa}{\myya}{\myza}}% +\pgfmathsetmacro{\pgftemp@y}{\vpauxy{\myxb}{\myyb}{\myzb}{\myxa}{\myya}{\myza}}% +\pgfmathsetmacro{\pgftemp@z}{\vpauxz{\myxb}{\myyb}{\myzb}{\myxa}{\myya}{\myza}}% +%\typeout{P1=(\myxb,\myyb,\myzb),P2=(\myxa,\myya,\myza),P1xP2=(\pgftemp@x,\pgftemp@y,\pgftemp@z)}% +\edef\pgfmathresult{\pgftemp@x,\pgftemp@y,\pgftemp@z}% +\or% +\pgfmathsetmacro{\myxa}{\pgf@Xa}% +\pgfmathsetmacro{\myya}{\pgf@Ya}% +\pgfmathsetmacro{\myza}{\pgf@Za}% +\pgfmathsetmacro{\myxb}{\pgf@Xb}% +\pgfmathsetmacro{\myyb}{\pgf@Yb}% +\pgfmathsetmacro{\myzb}{\pgf@Zb}% +\pgfmathparse@td@FPU{\myxa*\myxb+\myya*\myyb+\myza*\myzb}% +%\typeout{P1=(\myxb,\myyb,\myzb),P2=(\myxa,\myya,\myza),P1.P2=(\pgmfmathresult)}% +\fi% +%\message{result = (\pgftemp@x,\pgftemp@y,\pgftemp@z)=\pgfmathresult^^J}% +\xdef\tikz@td@type{0}% reset type to linear combination +\pgfmathsmuggle\pgfmathresult\endgroup}% +% +\def\tikz@td@cc@add+{% +\def\tikz@td@cc@factor{1}% +\tikz@td@cc@factororcoordinate% +}% +\def\tikz@td@cc@sub-{% +\def\tikz@td@cc@factor{-1}% +\tikz@td@cc@factororcoordinate% +}% +\def\tikz@td@cc@vecprod x{% +%\message{Ah, a vector product^^J}% +\xdef\tikz@td@type{1}% +\pgf@Xb=\pgf@Xa% store current vector in b +\pgf@Yb=\pgf@Ya% +\pgf@Zb=\pgf@Za% +\pgf@Xa=0pt% reset a +\pgf@Ya=0pt% +\pgf@Za=0pt% +\def\tikz@td@cc@factor{1}% +\tikz@td@cc@factororcoordinate% +}% +\def\tikz@td@cc@scalprod o{% +%\message{Ah, a scalar product^^J}% +\xdef\tikz@td@type{2}% +\pgf@Xb=\pgf@Xa% store current vector in b +\pgf@Yb=\pgf@Ya% +\pgf@Zb=\pgf@Za% +\pgf@Xa=0pt% reset a +\pgf@Ya=0pt% +\pgf@Za=0pt% +\def\tikz@td@cc@factor{1}% +\tikz@td@cc@factororcoordinate% +}% +% +% Check for a factor: If we see a (, its a coordinate... +% +\def\tikz@td@cc@factororcoordinate{% +\pgfutil@ifnextchar({%) +% Ok, found coordinate +\tikz@td@cc@coordinate% +}{% +\tikz@td@cc@parse@factor% +}% +}% +% +% ... otherwise it's a factor. It ends at ...*( +% +\def\tikz@td@cc@parse@factor#1*({% +\pgfmathparse@td@FPU{#1*\tikz@td@cc@factor}% +\let\tikz@td@cc@factor=\pgfmathresult% +\tikz@td@cc@coordinate(%) +}% +\def\tikz@td@cc@coordinate(#1){% +\ParseCoord(#1)% +\advance\pgf@Xa by\tikz@td@cc@factor\pgf@X +\advance\pgf@Ya by\tikz@td@cc@factor\pgf@Y +\advance\pgf@Za by\tikz@td@cc@factor\pgf@Z +\tikz@td@cc@parse% +}% +\tikzset{declare function={torusx(\u,\v,\R,\r)=cos(\u)*(\R + \r*cos(\v)); +torusy(\u,\v,\R,\r)=(\R + \r*cos(\v))*sin(\u); +torusz(\u,\v,\R,\r)=\r*sin(\v); +vcrit1(\u,\th)=atan(tan(\th)*sin(\u));% first critical v value +vcrit2(\u,\th)=180+atan(tan(\th)*sin(\u));% second critical v value +vtest(\u,\v,\az,\el)=sin(-vcrit1(\u-\az,\el)+\v); +disc(\th,\R,\r)=((pow(\r,2)-pow(\R,2))*pow(cot(\th),2)+% +pow(\r,2)*(2+pow(tan(\th),2)))/pow(\R,2);% discriminant +umax(\th,\R,\r)=ifthenelse(disc(\th,\R,\r)>0,asin(sqrt(abs(disc(\th,\R,\r)))),0); +}}% +% +\tikzset{3d parse/.style={/utils/exec=\pgfmathtdparse{#1},% +insert path={(\pgfmathresult)}},3d coordinate/.style args={#1=#2}{% +/utils/exec=\pgfmathtdparse{#2},% +insert path={(\pgfmathresult) coordinate #1}}}% +\def\pgfmathprintvector#1{% +\pgfutil@tempcnta=0% +\pgfutil@for\pgf@tmp:={#1}\do{\advance\pgfutil@tempcnta by1}% +\pgfutil@tempcntb=1% +\pgfutil@for\pgf@tmp:={#1}\do{\advance\pgfutil@tempcntb by1% +\ifnum\the\pgfutil@tempcntb<\the\pgfutil@tempcnta +\pgfmathprintnumber\pgf@tmp,% +\else +\pgfmathprintnumber\pgf@tmp +\fi}% +}% +%% +%% predefined pics +% based on https://en.wikipedia.org/wiki/Circumscribed_circle +\tikzset{pics/3d circle through 3 points/.style={code={% + \tikzset{3d/circle through 3 points/.cd,#1}% + \edef\temp{\noexpand\path[overlay, + 3d coordinate={(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}b)=\pgfkeysvalueof{/tikz/3d/circle through 3 points/A}-\pgfkeysvalueof{/tikz/3d/circle through 3 points/C}}, + 3d coordinate={(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}a)=\pgfkeysvalueof{/tikz/3d/circle through 3 points/B}-\pgfkeysvalueof{/tikz/3d/circle through 3 points/C}}, + 3d coordinate={(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}c)=\pgfkeysvalueof{/tikz/3d/circle through 3 points/A}-\pgfkeysvalueof{/tikz/3d/circle through 3 points/B}}, + 3d coordinate={(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}n)=(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}a)x(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}b)}];}% + \temp + \pgfmathsetmacro{\lengthn}{sqrt(TD("(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}n)o(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}n)"))} + \ifdim\lengthn pt<0.02pt + \message{The points are (almost) on a line. Circle cannot be determined.} + \else + \pgfmathsetmacro{\tmpradius}{sqrt(TD("(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}a)o(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}a)"))*% + sqrt(TD("(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}b)o(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}b)"))*sqrt(TD("(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}c)o(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}c)"))/% + (2*\lengthn)} + \pgfmathsetmacro{\coeffa}{-1*TD("(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}b)o(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}b)")/(2*TD("(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}n)o(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}n)"))} + \pgfmathsetmacro{\coeffb}{TD("(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}a)o(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}a)")/(2*TD("(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}n)o(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}n)"))} + \edef\temp{% + \noexpand\path[overlay,3d coordinate={(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}u)=\coeffa*(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}a)x(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}n)}, + 3d coordinate={(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}v)=\coeffb*(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}b)x(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}n)}]; + \noexpand\path[3d coordinate={(\pgfkeysvalueof{/tikz/3d/circle through 3 points/center name})=\pgfkeysvalueof{/tikz/3d/circle through 3 points/C}+(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}u)+(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}v)}]; + }% + \temp + \pgfmathsetmacro{\normalizationa}{1/sqrt(TD("(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}a)o(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}a)"))} + \pgfmathsetmacro{\normalizationn}{1/sqrt(TD("(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}n)o(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}n)"))} + \edef\temp{% + \noexpand\path[overlay,3d coordinate={(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}a)=\normalizationa*(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}a)}, + 3d coordinate={(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}n)=\normalizationn*(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}n)}, + 3d coordinate={(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}c)=(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}a)x(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}n)}]; + }% + \temp + \edef\temp{% + \noexpand\begin{scope}[plane x={(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}a)},plane y={(\pgfkeysvalueof{/tikz/3d/circle through 3 points/auxiliary coordinate prefix}c)},canvas is plane] + \noexpand\draw[pic actions] (\pgfkeysvalueof{/tikz/3d/circle through 3 points/center name}) circle[radius=\tmpradius]; + \noexpand\end{scope}}% + \temp + \fi +}},3d/circle through 3 points/.cd,A/.initial={(1,0,0)},B/.initial={(0,1,0)}, +C/.initial={(0,0,1)}, +auxiliary coordinate prefix/.initial=tmp,center name/.initial=M}% +%% +%% decorations +%% +\newif\ifcoil@closed% +\pgfkeys{%% +/pgf/decoration/.cd,% +3d coil color/.store in=\TDCoilColor, % +3d coil color/.initial=black,% +3d coil color=black,% +3d coil width/.store in=\TDCoilWidth, % +3d coil width/.initial=0.4pt,% +3d coil width=0.4pt,% +3d coil dist/.store in=\TDCoilDist, % +3d coil dist/.initial=0.6pt,% +3d coil dist=0.6pt,% +3d coil opacity/.store in=\TDCoilOpacity, % +3d coil opacity/.initial=1,% +3d coil opacity=1,% +3d coil closed/.code=\coil@closedtrue% +}% +% https://tex.stackexchange.com/a/219088/121799% +\tikzset{get stroke color/.code={%% + \expandafter\global% Jump over, now we have \global% + \expandafter\let% Jump over now we have \global\let% + \expandafter\pgfsavedstrokecolor% Jump we have \global\let\pgf...% + \csname\string\color@pgfstrokecolor\endcsname% Finally expand this and put it at the end % + }, % \global\let\pgf...{} in expanded form % + restore stroke color/.code={\pgf@setstrokecolor#1},% +}% +\def\pgfpoint@onthreedcoil#1#2#3{%% + \pgf@x=#1\pgfdecorationsegmentamplitude%% + \pgf@x=\pgfdecorationsegmentaspect\pgf@x%% + \pgf@y=#2\pgfdecorationsegmentamplitude%% + \pgf@xa=0.083333333333\pgfdecorationsegmentlength%% + \advance\pgf@x by#3\pgf@xa%% + \advance\pgf@x by-\generaloffset pt%% +}% +% coil decoration% +%% +% Parameters: \pgfdecorationsegmentamplitude, \pgfdecorationsegmentlength,% +\pgfdeclaredecoration{3d complete coil}{initial}% +{ % + \state{initial}[width=0.5*\pgfdecorationsegmentlength,% + next state=coil, persistent precomputation={% from https://tex.stackexchange.com/a/25689/121799% + \pgfmathsetmacro\matchinglength{\pgfdecoratedinputsegmentlength / int(\pgfdecoratedinputsegmentlength/\pgfdecorationsegmentlength)}% + \setlength{\pgfdecorationsegmentlength}{\matchinglength pt}% + \tikzset{get stroke color}% + \pgfmathsetmacro{\generaloffset}{\pgfdecorationsegmentlength}% + \pgfmathsetmacro{\initialoffset}{1.5*\pgfdecorationsegmentlength}% + \pgfmathsetmacro{\auxoffset}{2.5*\pgfdecorationsegmentlength}% + }] { % + % line in the back% + %% + \pgfsetstrokecolor{\TDCoilColor}% + \pgfsetfillcolor{\TDCoilColor}% + \pgfsetstrokeopacity{\TDCoilOpacity}% + \pgfsetlinewidth{\TDCoilWidth} % + \ifcoil@closed% + \begingroup% + \def\generaloffset{\auxoffset}% + \pgfpathmoveto{\pgfpoint@onthreedcoil{1 }{ 1 }{15}}% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{1.555}{ 1 }{16}}% + {\pgfpoint@onthreedcoil{2 }{ 0.555}{17}}% + {\pgfpoint@onthreedcoil{2 }{ 0 }{18}}% + \pgfcoordinate{TD@coilast}{\pgfpoint@onthreedcoil{2 }{ 0 }{18}}% + \pgfcoordinate{TD@coilfirst}{\pgfpoint@onthreedcoil{1 }{ 1 }{15}}% + \pgfusepath{stroke} % + \pgfsetstrokecolor{\TDCoilColor}% + \endgroup% + \fi% + \begingroup %% + \def\generaloffset{\initialoffset}% + \ifcoil@closed% + \pgfpathmoveto{\pgfpointanchor{TD@coilast}{center}}% + \else% + \pgfpathmoveto{\pgfpointorigin}% + \fi% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{2 }{-0.555}{7}}% + {\pgfpoint@onthreedcoil{1.555}{-1 }{8}}% + {\pgfpoint@onthreedcoil{1 }{-1 }{9}}% + \pgfusepath{stroke} % + %% + % white background for front thick part% + %% + \pgfsetstrokeopacity{1}% + \pgfsetstrokecolor{white}% + \pgfsetfillcolor{white}% + \pgfsetlinewidth{1.5*\TDCoilWidth+1.5*\TDCoilDist}% + \pgfpathmoveto{\pgfpoint@onthreedcoil{1 }{-1 }{9}}% + % draw forward% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0.445}{-1 }{10}}% + {\pgfpoint@onthreedcoil{0 }{-0.555}{11.25}}% + {\pgfpoint@onthreedcoil{0 }{ 0 }{12.5}}% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0 }{ 0.555}{13.25}}% + {\pgfpoint@onthreedcoil{0.445}{ 1 }{14.25}}% + {\pgfpoint@onthreedcoil{1 }{ 1 }{15}}% + % draw the curve back% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0.445}{ 1 }{14}}% + {\pgfpoint@onthreedcoil{0 }{ 0.555}{12.75}}% + {\pgfpoint@onthreedcoil{0 }{ 0 }{11.5}}% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0 }{-0.555}{10.75}}% + {\pgfpoint@onthreedcoil{0.445}{-1 }{10}}% + {\pgfpoint@onthreedcoil{1 }{-1 }{9}}% + \pgfusepath{stroke,fill} % + % % + % draw the thick foreground path% + %% + \pgfsetstrokecolor{\TDCoilColor}% + \pgfsetfillcolor{\TDCoilColor}% + \pgfsetstrokeopacity{\TDCoilOpacity}% + \pgfpathmoveto{\pgfpoint@onthreedcoil{1 }{ 1 }{3}}% + \pgfsetlinewidth{\TDCoilWidth} % + % forward shifted +% + \pgfpathmoveto{\pgfpoint@onthreedcoil{1 }{-1 }{9}}% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0.445}{-1 }{10}}% + {\pgfpoint@onthreedcoil{0 }{-0.555}{11.25}}% + {\pgfpoint@onthreedcoil{0 }{ 0 }{12.5}}% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0 }{ 0.555}{13.25}}% + {\pgfpoint@onthreedcoil{0.445}{ 1 }{14.25}}% + {\pgfpoint@onthreedcoil{1 }{ 1 }{15}}% + % draw the curve back shfted -% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0.445}{ 1 }{14}}% + {\pgfpoint@onthreedcoil{0 }{ 0.555}{12.75}}% + {\pgfpoint@onthreedcoil{0 }{ 0 }{11.5}}% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0 }{-0.555}{10.75}}% + {\pgfpoint@onthreedcoil{0.445}{-1 }{10}}% + {\pgfpoint@onthreedcoil{1 }{-1 }{9}}% + \pgfusepath{stroke,fill} % + \pgfpathmoveto{\pgfpoint@onthreedcoil{1 }{ 1 }{15}}% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{1.555}{ 1 }{16}}% + {\pgfpoint@onthreedcoil{2 }{ 0.555}{17}}% + {\pgfpoint@onthreedcoil{2 }{ 0 }{18}}% + \pgfcoordinate{TD@coilast}{\pgfpoint@onthreedcoil{2 }{ 0 }{18}} % + \pgfusepath{stroke} % + \endgroup% + }% + \state{coil}[switch if less than=%% + 1.9*\pgfdecorationsegmentlength to last,% + width=+\pgfdecorationsegmentlength]% + { % line in the back% + %% + \pgfsetstrokecolor{\TDCoilColor}% + \pgfsetfillcolor{\TDCoilColor}% + \pgfsetstrokeopacity{\TDCoilOpacity}% + \pgfpathmoveto{\pgfpointanchor{TD@coilast}{center}}% + \pgfsetlinewidth{\TDCoilWidth} % + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{2 }{-0.555}{7}}% + {\pgfpoint@onthreedcoil{1.555}{-1 }{8}}% + {\pgfpoint@onthreedcoil{1 }{-1 }{9}}% + \pgfusepath{stroke} % + %% + % white background for front thick part% + %% + \pgfsetstrokeopacity{1}% + \pgfsetstrokecolor{white}% + \pgfsetfillcolor{white}% + \pgfsetlinewidth{1.5*\TDCoilWidth+1.5*\TDCoilDist}% + \pgfpathmoveto{\pgfpoint@onthreedcoil{1 }{ 1 }{3}}% + \pgfpathmoveto{\pgfpoint@onthreedcoil{1 }{-1 }{9}}% + % draw forward% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0.445}{-1 }{10}}% + {\pgfpoint@onthreedcoil{0 }{-0.555}{11.25}}% + {\pgfpoint@onthreedcoil{0 }{ 0 }{12.5}}% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0 }{ 0.555}{13.25}}% + {\pgfpoint@onthreedcoil{0.445}{ 1 }{14.25}}% + {\pgfpoint@onthreedcoil{1 }{ 1 }{15}}% + % draw the curve back% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0.445}{ 1 }{14}}% + {\pgfpoint@onthreedcoil{0 }{ 0.555}{12.75}}% + {\pgfpoint@onthreedcoil{0 }{ 0 }{11.5}}% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0 }{-0.555}{10.75}}% + {\pgfpoint@onthreedcoil{0.445}{-1 }{10}}% + {\pgfpoint@onthreedcoil{1 }{-1 }{9}}% + \pgfusepath{stroke,fill} % + % % + % draw the thick foreground path% + %% + \pgfsetstrokecolor{\TDCoilColor}% + \pgfsetfillcolor{\TDCoilColor}% + \pgfsetstrokeopacity{\TDCoilOpacity}% + \pgfpathmoveto{\pgfpoint@onthreedcoil{1 }{ 1 }{3}}% + \pgfsetlinewidth{\TDCoilWidth} % + % forward shifted +% + \pgfpathmoveto{\pgfpoint@onthreedcoil{1 }{-1 }{9}}% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0.445}{-1 }{10}}% + {\pgfpoint@onthreedcoil{0 }{-0.555}{11.25}}% + {\pgfpoint@onthreedcoil{0 }{ 0 }{12.5}}% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0 }{ 0.555}{13.25}}% + {\pgfpoint@onthreedcoil{0.445}{ 1 }{14.25}}% + {\pgfpoint@onthreedcoil{1 }{ 1 }{15}}% + % draw the curve back shfted -% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0.445}{ 1 }{14}}% + {\pgfpoint@onthreedcoil{0 }{ 0.555}{12.75}}% + {\pgfpoint@onthreedcoil{0 }{ 0 }{11.5}}% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0 }{-0.555}{10.75}}% + {\pgfpoint@onthreedcoil{0.445}{-1 }{10}}% + {\pgfpoint@onthreedcoil{1 }{-1 }{9}}% + \pgfusepath{stroke,fill} % + \pgfpathmoveto{\pgfpoint@onthreedcoil{1 }{ 1 }{15}}% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{1.555}{ 1 }{16}}% + {\pgfpoint@onthreedcoil{2 }{ 0.555}{17}}% + {\pgfpoint@onthreedcoil{2 }{ 0 }{18}}% + \pgfusepath{stroke} % + \pgfcoordinate{TD@coilast}{\pgfpoint@onthreedcoil{2 }{ 0 }{18}} % + }% + \state{last}[next state=final]% + { % line in the back% + %% + \pgfsetstrokecolor{\TDCoilColor}% + \pgfsetfillcolor{\TDCoilColor}% + \pgfsetstrokeopacity{\TDCoilOpacity}% + \pgfpathmoveto{\pgfpointanchor{TD@coilast}{center}}% + \pgfsetlinewidth{\TDCoilWidth} % + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{2 }{-0.555}{7}}% + {\pgfpoint@onthreedcoil{1.555}{-1 }{8}}% + {\pgfpoint@onthreedcoil{1 }{-1 }{9}}% + \pgfusepath{stroke} % + % % + % draw the thick foreground path% + %% + \ifcoil@closed %\pgfpointanchor{TD@coilfirst}{center}% + %% + % white background for front thick part% + %% + \pgfsetstrokeopacity{1}% + \pgfsetstrokecolor{white}% + \pgfsetfillcolor{white}% + \pgfsetlinewidth{1.5*\TDCoilWidth+1.5*\TDCoilDist}% + \pgfpathmoveto{\pgfpoint@onthreedcoil{1 }{ 1 }{3}}% + \pgfpathmoveto{\pgfpoint@onthreedcoil{1 }{-1 }{9}}% + % draw forward% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0.445}{-1 }{10}}% + {\pgfpoint@onthreedcoil{0 }{-0.555}{11.25}}% + {\pgfpoint@onthreedcoil{0 }{ 0 }{12.5}}% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0 }{ 0.555}{13.25}}% + {\pgfpoint@onthreedcoil{0.445}{ 1 }{14.25}}% + {\pgfpointanchor{TD@coilfirst}{center}}% + % draw the curve back% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0.445}{ 1 }{14}}% + {\pgfpoint@onthreedcoil{0 }{ 0.555}{12.75}}% + {\pgfpoint@onthreedcoil{0 }{ 0 }{11.5}}% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0 }{-0.555}{10.75}}% + {\pgfpoint@onthreedcoil{0.445}{-1 }{10}}% + {\pgfpoint@onthreedcoil{1 }{-1 }{9}}% + \pgfusepath{stroke,fill} % + \pgfsetstrokecolor{\TDCoilColor}% + \pgfsetfillcolor{\TDCoilColor}% + \pgfsetstrokeopacity{\TDCoilOpacity}% + \pgfpathmoveto{\pgfpoint@onthreedcoil{1 }{ 1 }{3}}% + \pgfsetlinewidth{\TDCoilWidth} % + % forward shifted +% + \pgfpathmoveto{\pgfpoint@onthreedcoil{1 }{-1 }{9}}% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0.445}{-1 }{10}}% + {\pgfpoint@onthreedcoil{0 }{-0.555}{11.25}}% + {\pgfpoint@onthreedcoil{0 }{ 0 }{12.5}}% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0 }{ 0.555}{13.25}}% + {\pgfpoint@onthreedcoil{0.445}{ 1 }{14.25}}% + {\pgfpointanchor{TD@coilfirst}{center}}% + % draw the curve back shifted % + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0.445}{ 1 }{14}}% + {\pgfpoint@onthreedcoil{0 }{ 0.555}{12.75}}% + {\pgfpoint@onthreedcoil{0 }{ 0 }{11.5}}% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0 }{-0.555}{10.75}}% + {\pgfpoint@onthreedcoil{0.445}{-1 }{10}}% + {\pgfpoint@onthreedcoil{1 }{-1 }{9}}% + \pgfusepath{stroke,fill} % + \else% + %% + % white background for front thick part% + %% + \pgfsetstrokeopacity{1}% + \pgfsetstrokecolor{white}% + \pgfsetfillcolor{white}% + \pgfsetlinewidth{1.5*\TDCoilWidth+1.5*\TDCoilDist}% + \pgfpathmoveto{\pgfpoint@onthreedcoil{1 }{ 1 }{3}}% + \pgfpathmoveto{\pgfpoint@onthreedcoil{1 }{-1 }{9}}% + % draw forward% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0.445}{-1 }{10}}% + {\pgfpoint@onthreedcoil{0 }{-0.555}{11.25}}% + {\pgfpoint@onthreedcoil{0 }{ 0 }{12.5}}% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0 }{ 0.555}{13.25}}% + {\pgfpoint@onthreedcoil{0.445}{ 1 }{14.25}}% + {\pgfpoint@onthreedcoil{1 }{ 1 }{15}}% + % draw the curve back% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0.445}{ 1 }{14}}% + {\pgfpoint@onthreedcoil{0 }{ 0.555}{12.75}}% + {\pgfpoint@onthreedcoil{0 }{ 0 }{11.5}}% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0 }{-0.555}{10.75}}% + {\pgfpoint@onthreedcoil{0.445}{-1 }{10}}% + {\pgfpoint@onthreedcoil{1 }{-1 }{9}}% + \pgfusepath{stroke,fill} % + \pgfsetstrokecolor{\TDCoilColor}% + \pgfsetfillcolor{\TDCoilColor}% + \pgfsetstrokeopacity{\TDCoilOpacity}% + \pgfpathmoveto{\pgfpoint@onthreedcoil{1 }{ 1 }{3}}% + \pgfsetlinewidth{\TDCoilWidth} % + % forward shifted +% + \pgfpathmoveto{\pgfpoint@onthreedcoil{1 }{-1 }{9}}% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0.445}{-1 }{10}}% + {\pgfpoint@onthreedcoil{0 }{-0.555}{11.25}}% + {\pgfpoint@onthreedcoil{0 }{ 0 }{12.5}}% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0 }{ 0.555}{13.25}}% + {\pgfpoint@onthreedcoil{0.445}{ 1 }{14.25}}% + {\pgfpoint@onthreedcoil{1 }{ 1 }{15}}% + % draw the curve back shifted % + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0.445}{ 1 }{14}}% + {\pgfpoint@onthreedcoil{0 }{ 0.555}{12.75}}% + {\pgfpoint@onthreedcoil{0 }{ 0 }{11.5}}% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{0 }{-0.555}{10.75}}% + {\pgfpoint@onthreedcoil{0.445}{-1 }{10}}% + {\pgfpoint@onthreedcoil{1 }{-1 }{9}}% + \pgfusepath{stroke,fill} % + \fi% + \pgfpathmoveto{\pgfpoint@onthreedcoil{1 }{ 1 }{15}}% + \ifcoil@closed %TD@coilfirst% + \else% + \pgfpathcurveto% + {\pgfpoint@onthreedcoil{1.555}{ 1 }{16}}% + {\pgfpoint@onthreedcoil{2 }{ 0.555}{17}}% + {\pgfpoint@onthreedcoil{2 }{ 0 }{18}}% + \fi% + \pgfusepath{stroke} % + %\pgfcoordinate{TD@coilast}{\pgfpoint@onthreedcoil{2 }{ 0 }{18}} % + }% + \state{final}% + {% + \pgfpathmoveto{\pgfpointdecoratedpathlast}% + \tikzset{restore stroke color/.expand once=\pgfsavedstrokecolor}% + }% +}% +\makeatother +\endinput diff --git a/Master/tlpkg/bin/tlpkg-ctan-check b/Master/tlpkg/bin/tlpkg-ctan-check index 54069e9e02c..0ad9af7f4d6 100755 --- a/Master/tlpkg/bin/tlpkg-ctan-check +++ b/Master/tlpkg/bin/tlpkg-ctan-check @@ -684,7 +684,7 @@ my @TLP_working = qw( thinsp thmbox thmtools threadcol threeddice threeparttable threeparttablex thuaslogos thucoursework thumb thumbpdf thumbs thumby thuthesis ticket ticollege - tikz-bayesnet tikz-cd tikz-3dplot tikz-dependency tikz-dimline + tikz-bayesnet tikz-cd tikz-3dplot tikz-3dtools tikz-dependency tikz-dimline tikz-feynhand tikz-feynman tikz-imagelabels tikz-inet tikz-kalender tikz-karnaugh tikz-ladder tikz-layers tikz-nef tikz-network tikz-opm tikz-optics tikz-palattice tikz-qtree diff --git a/Master/tlpkg/tlpsrc/collection-pictures.tlpsrc b/Master/tlpkg/tlpsrc/collection-pictures.tlpsrc index 70b695362ba..149424555c4 100644 --- a/Master/tlpkg/tlpsrc/collection-pictures.tlpsrc +++ b/Master/tlpkg/tlpsrc/collection-pictures.tlpsrc @@ -143,6 +143,7 @@ depend texdraw depend ticollege depend tipfr depend tikz-3dplot +depend tikz-3dtools depend tikz-bayesnet depend tikz-cd depend tikz-dependency diff --git a/Master/tlpkg/tlpsrc/tikz-3dtools.tlpsrc b/Master/tlpkg/tlpsrc/tikz-3dtools.tlpsrc new file mode 100644 index 00000000000..e69de29bb2d --- /dev/null +++ b/Master/tlpkg/tlpsrc/tikz-3dtools.tlpsrc |