From: Maxime Chupin (Ceremade) Date: Tue, 6 Dec 2016 10:03:24 +0000 (+0100) Subject: Doc: Correction anglais, mis à jour index.md X-Git-Url: https://melusine.eu.org/syracuse/G/git/?a=commitdiff_plain;h=e6a198893462d13ac7958d3853b91e0a17dcdd28;p=delaunay.git Doc: Correction anglais, mis à jour index.md --- diff --git a/doc/luamesh-doc.out b/doc/luamesh-doc.out index 7407af4..f66e8b4 100644 --- a/doc/luamesh-doc.out +++ b/doc/luamesh-doc.out @@ -18,11 +18,11 @@ \BOOKMARK [2][-]{subsection.3.2}{With TikZ}{section.3}% 18 \BOOKMARK [3][-]{subsubsection.3.2.1}{The Mesh Points}{subsection.3.2}% 19 \BOOKMARK [3][-]{subsubsection.3.2.2}{Examples}{subsection.3.2}% 20 -\BOOKMARK [1][-]{section.4}{Voronio Diagrams}{}% 21 +\BOOKMARK [1][-]{section.4}{Voronoï Diagrams}{}% 21 \BOOKMARK [2][-]{subsection.4.1}{The Options}{section.4}% 22 \BOOKMARK [2][-]{subsection.4.2}{The inc variant}{section.4}% 23 \BOOKMARK [1][-]{section.5}{With Gmsh}{}% 24 -\BOOKMARK [2][-]{subsection.5.1}{Gmsh and Voronoi Diagrams}{section.5}% 25 +\BOOKMARK [2][-]{subsection.5.1}{Gmsh and Voronoï Diagrams}{section.5}% 25 \BOOKMARK [2][-]{subsection.5.2}{The Options}{section.5}% 26 \BOOKMARK [2][-]{subsection.5.3}{The inc variants}{section.5}% 27 \BOOKMARK [1][-]{section.6}{Gallery}{}% 28 diff --git a/doc/luamesh-doc.pdf b/doc/luamesh-doc.pdf index 2060b52..f0cb2d5 100644 Binary files a/doc/luamesh-doc.pdf and b/doc/luamesh-doc.pdf differ diff --git a/doc/luamesh-doc.tex b/doc/luamesh-doc.tex index e3408cc..d2cbafd 100644 --- a/doc/luamesh-doc.tex +++ b/doc/luamesh-doc.tex @@ -34,7 +34,7 @@ \newcommand*\optstar{% % optional star \meta{\ensuremath{*}}\xspace} \DefineShortVerb{\|} - +\newcommand\R{\mathbf{R}} \setlength{\fboxsep}{2pt} \fvset{% codes={\catcode`\«\active \catcode`\×\active }, @@ -200,7 +200,7 @@ I would also like to thank the first user, an intensive Of course, you can just put the two files \Verb+luamesh.lua+ and -\Verb+luamesh.sty+ in the working directory, but this is not +\Verb+luamesh.sty+ in the working directory but this is not recommended. @@ -213,12 +213,12 @@ To install \luamesh with \TeX live, you have to create the local mkdir ~/texmf \end{commandshell} -Then place the files in the correct directories. First, the -\Verb+luamesh.sty+ file must be in the directory: +Then place the files in the correct directories. The +\Verb+luamesh.sty+ file must be in directory: \begin{center} \Verb+~/texmf/tex/latex/luamesh/+ \end{center} -and secondly, the \Verb+luamesh.lua+ must be in the directory: +and the \Verb+luamesh.lua+ file must be in directory: \begin{center} \Verb+~/texmf/scripts/luamesh/+ \end{center} @@ -231,7 +231,7 @@ with \subsection{With Mik\TeX{} and Windows} -We do not know these two systems, so we refer to the +As these two systems are unknown to the contributor, we refer to the documentation for integrating local additions to Mik\TeX: \begin{center} \url{http://docs.miktex.org/manual/localadditions.html} @@ -250,26 +250,26 @@ If you want to use this package, you must compile your document with \subsection{Dependencies} -This package is built upon two main existing packages to draw the +This package is built upon two main existing packages that one used to +draw the triangulations : \begin{enumerate} \item \Verb+luamplib+ to use MetaPost via the \luatex library \Verb+mplib+; -\item and \Verb+tikz+. +\item \Verb+tikz+. \end{enumerate} We will see how to choose between these two \emph{drawing engines}. - Moreover, the following packages are necessary: \begin{enumerate} \item \Verb+xkeyval+ to manage the optional arguments; -\item \Verb+xcolor+ to use colors (needed by \Verb+luamplib+); -\item \Verb+ifthen+ to help the programming with \TeX. +\item \Verb+xcolor+ to use colors (required by \Verb+luamplib+); +\item \Verb+ifthen+ to help programming with \TeX. \end{enumerate} \section{The Basic Macros} -Let us recall that this package provides macros to draw two +This package provides macros to draw two dimensional triangulations (or meshes). \subsection{Draw a Complete Mesh}\label{sec:buildMesh} @@ -293,7 +293,7 @@ There are several options to customize the drawing. \begin{optionsenum} \item[mode = int (default) \textme{or} ext:] this option allows to use either the previously described set of points in the argument, or - a file, containing, line by line (2 columns), the points. Such a + a file containing the points line by line (in 2 columns). Such a file looks like : \begin{verbatim} x1 y1 @@ -303,12 +303,12 @@ x3 y3 xn yn \end{verbatim} \item[bbox = none (default) \textme{or} show:] this option allows to draw the - added points to form a \emph{bounding box}\footnote{The bounding + points added to form the \emph{bounding box}\footnote{The bounding box is defined by four points place at 15\% around the box defined by $(x_{\min},y_{\min})$, $(x_{\min},y_{\max})$, $(x_{\max},y_{\max})$, and $(x_{\min},y_{\max})$. It is used by - the algorithm and will be computed in any case.} and the corresponding - triangulation. By default, these triangles are removed at the end of + the algorithm and will be computed in any case.} and the + triangles attached. By default, these triangles are removed at the end of the algorithm. \item[color = \meta{value} (default: black):] The color of the drawing. @@ -356,10 +356,10 @@ file \Verb+mesh.txt+: \end{Exemple} \begin{warning} -The drawing engine is not very relevant here, but it is useful to -understand how the drawing is made. However, the engine will be +The drawing engine is not very relevant here, although it is useful to +understand how the drawing is produced. However, the engine will be relevant to -the so called \emph{inc} macros (section~\ref{sec:inc}), for adding +the so called \emph{inc} macros (section~\ref{sec:inc}) for adding code before and after the one generated by \luamesh. \end{warning} @@ -385,7 +385,7 @@ There are several options (exactly the same as for the \begin{optionsenum} \item[mode = int (default) \textme{or} ext:] this option allows to use either the previously described set of points as the argument, or - a file, containing, line by line (2 columns), the points. Such a + a file containing the points line by line (in 2 columns). Such a file looks like : \begin{verbatim} x1 y1 @@ -395,8 +395,12 @@ x3 y3 xn yn \end{verbatim} \item[bbox = none (default) \textme{or} show:] this option allows to draw the - added points to form a \emph{bounding box} and the corresponding - triangulation. By default, these triangles are removed at the end of + points added to form the \emph{bounding box}\footnote{The bounding + box is defined by four points place at 15\% around the box + defined by $(x_{\min},y_{\min})$, $(x_{\min},y_{\max})$, + $(x_{\max},y_{\max})$, and $(x_{\min},y_{\max})$. It is used by + the algorithm and will be computed in any case.} and the + triangles attached. By default, these triangles are removed at the end of the algorithm. \emph{Here, because we plot only the vertices of the mesh, there are no triangles, only dots.} \item[color = \meta{value} (default: black):] The color of the @@ -405,10 +409,10 @@ xn yn drawing for the elements (points and triangles) belonging to the bounding box. \item[print = none (default) \textme{or} points:] To label the vertices of the - triangulation. This also adds a \emph{dot} at each vertex. Without - label, there is still the dot. + triangulation. This also adds a \emph{dot} at each vertex. With no + label, the dot remains. \item[meshpoint = \meta{value} (default: P):] The letter(s) used to - label the vertices of the triangulation. It is included in the math + label the vertices of the triangulation. This is included in the math mode delimiters \Verb+$...$+. The bounding box points are labeled with numbers 1 to 4 and with a star exponent. \item[tikz (boolean, default:false):] By default, this boolean is set @@ -442,7 +446,7 @@ section~\ref{sec:buildMesh}, we illustrate the different options. \commande|\meshAddPointBW[«options»]{«list of points» or «file name»}{«point» or «number of line»}|\medskip This command allows to plot the steps within the addition of a -point in a Delaunay triangulation, by the Bowyer and Watson +point in a Delaunay triangulation by the Bowyer and Watson algorithm. This macro produces the Delaunay triangulation (using the Bowyer and @@ -456,7 +460,7 @@ and the point is of the form \verb+(x,y)+. The \meta{file name} and \meta{number of line} will be explained in the option description. -One can use the macro as fallows: +One can use the macro as follows: \begin{Exemple} \meshAddPointBW[step=badtriangles]{(1.5,1);(4,0);(4.5,2.5);(1.81,2.14);(2.5,0.5);(2.8,1.5)}{(2.2,1.8)} \meshAddPointBW[step=cavity]{(1.5,1);(4,0);(4.5,2.5);(1.81,2.14);(2.5,0.5);(2.8,1.5)}{(2.2,1.8)} @@ -475,9 +479,8 @@ There are several options (some of them are the same as for \Verb+\buildMeshBW+) to customize the drawing. \begin{optionsenum} \item[mode = int (default) \textme{or} ext:] this option allows to - use either the previously described set of point in the first - argument, or - a file containing, line by line (2 columns), the points. Such a + use either the previously described set of points as the argument, or + a file containing the points line by line (in 2 columns). Such a file looks like : \begin{verbatim} x1 y1 @@ -486,15 +489,17 @@ x3 y3 ... xn yn \end{verbatim} -For the second argument of the macro, if we are in the +For the second argument of the macro, if we are in \Verb+mode = ext+, the argument must be the \emph{line number} of the file -corresponding to the point we want to add. The algorithm will stop the -line before to build the initial triangulation for which it will add -the point corresponding to the line. The subsequent lines in the file are +corresponding to the point we want to add. The algorithm will stop at the +previous line to build the initial triangulation and proceed to add +the point corresponding to the line requested. The subsequent lines in +the file are ignored. \item[bbox = none (default) \textme{or} show:] this option allows to draw the - added points to form a \emph{bounding box} and the corresponding - triangulation. By default, these triangles are removed at the end of + added points that form the \emph{bounding box} and the triangles + attached. Although they are always computed, by default, these + triangles are removed at the end of the algorithm. \item[color = \meta{value} (default: black):] The color of the drawing. @@ -503,7 +508,7 @@ ignored. bounding box. \item[colorNew = \meta{value} (default: red):] The color of the drawing of the ``new'' elements which are the point to add, the - polygon of the cavity, and the new triangles. + polygon delimiting the cavity, and the new triangles. \item[colorBack = \meta{value} (default: black!20):] The color for the filling of the region concerned by the addition of the new point. \item[colorCircle = \meta{value} (default: green):] The color for @@ -523,7 +528,7 @@ ignored. the picture. With this option, \Verb+tikz+ is the \textit{drawing engine}. \item[scale = \meta{value} (default: 1cm):] The scale option defines - the scale at which the picture is draw (the same for the two + the scale at which the picture is drawn (the same for both axis). It must contain the unit of length (cm, pt, etc.). \end{optionsenum} @@ -580,11 +585,11 @@ The three macros are:\medskip We consider the case where the drawing engine is MetaPost (through the \Verb+luamplib+ package). -We describe the feature taking one macro in example but the mechanism -and the possibilities are exactly the same for all the macros. +The feature is described for the \Verb+\buildMeshBWinc+ but the mechanism +and possibilities are exactly the same for all three macros. When we use the MetaPost drawing engine, the macros previously -described produced a code of the form +described produce a code of the form \begin{latexcode} \begin{luamplib} u:=; @@ -614,22 +619,24 @@ to use the \Verb+\everymplib+ command from the \Verb+\luamplib+ package. The configurable colors of the \LaTeX{} macro are accessible inside the MetaPost code. For -\Verb+\buildMeshBWinc+ and \Verb+\drawPointsMeshinc+, we have +\Verb+\buildMeshBWinc+ and \Verb+\drawPointsMeshinc+, \Verb+\luameshmpcolor+, -and \Verb+\luameshmpcolorBbox+. -For the macro \Verb+\meshAddPointBWinc+ we have three additional -colors : \Verb+\luameshmpcolorBack+, \Verb+\luameshmpcolorNew+, and -\Verb+\luameshmpcolorCircle+. Of course, we can define MetoPost -colors as well. Finally, the \Verb+luamplib+ mechanism of +and \Verb+\luameshmpcolorBbox+ have been defined. +For the macro \Verb+\meshAddPointBWinc+ three additional +colors are present: \Verb+\luameshmpcolorBack+, +\Verb+\luameshmpcolorNew+, and +\Verb+\luameshmpcolorCircle+. Of course, MetaPost +colors can be defined as well. Finally, the \Verb+luamplib+ mechanism \Verb+\mpcolor+ is also available. \subsubsection{The Mesh Points} At the beginning of the automatically generated code, a list of -MetaPost \Verb+pair+s are defined corresponding to all the vertices of +MetaPost \Verb+pair+s are defined corresponding to all the vertices in the mesh (when the option \Verb+bbox=show+, the last 4 points are the \emph{bounding box points}). The points are available with the -\Verb+MeshPoints[]+ table of variables. The \Verb+MeshPoints[i]+ are +\Verb+MeshPoints[]+ table of variables. The \Verb+pair+s ($\R^{2}$ points) +\Verb+MeshPoints[i]+ are defined using the unit length \Verb+u+. \subsubsection{Examples} @@ -690,7 +697,7 @@ step=badtriangles] \end{Exemple} \begin{warning} The variables \Verb+MeshPoints[]+ are not defined for the argument - corresponding to the code to place before the code generated by + corresponding to the code placed \textbf{before} the code generated by \luamesh. Hence, to use such variables, we have to define a \Verb+picture+ as shown in the third example above. \end{warning} @@ -698,7 +705,7 @@ step=badtriangles] \subsection{With TikZ} -If we have chosen \Verb+tikz+ as the engine drawing, the added code +If we have chosen \Verb+tikz+ as the drawing engine, the added code will be written in \Verb+tikz+. In that case, the two arguments \meta{code before} and \meta{code after} will be inserted as follows: \begin{latexcode} @@ -711,12 +718,12 @@ will be written in \Verb+tikz+. In that case, the two arguments \end{latexcode} Because the engine is \Verb+tikz+ their is no issue with colors, the -\LaTeX{} colors (e.g.: \Verb+xcolor+) can be directly used. +\LaTeX{} colors (e.g.: \Verb+xcolor+) can be used directly. \subsubsection{The Mesh Points} -The points of the mesh are defined here as \Verb+tikz+ -\Verb+\coordinate+ named as follows +The mesh points are defined here as \Verb+tikz+ +\Verb+\coordinate+ and named as follows \begin{latexcode} \coordinate (MeshPoints1) at (...,...); \coordinate (MeshPoints2) at (...,...); @@ -724,7 +731,8 @@ The points of the mesh are defined here as \Verb+tikz+ %etc. \end{latexcode} -Once again these coordinates are not yet defined for the \meta{code +Once again these coordinates are not yet defined to be used in the +code given by \meta{code before} argument. \subsubsection{Examples} @@ -758,22 +766,22 @@ Once again these coordinates are not yet defined for the \meta{code } \end{Exemple} -\section{Voronio Diagrams} +\section{Voronoï Diagrams} -Another interesting concept of Delaunay triangulation is that it is -\emph{dual} to it so-called Voronio diagram. For a finite set of -points $\{p_{1},\ldots, p_{n}\}$ in the Euclidean plane, for all -$p_{k}$, it corresponds a Voronoi cell $R_{k}$ consisting of -every point in the Euclidean plane whose distance to $p_{k}$ is less +Another interesting feature of b Delaunay triangulation is that its +\emph{dual} is the so-called Voronoï diagram. More precisely, for a +finite set of +points $\{p_{1},\ldots, p_{n}\}$ in the Euclidean plane, the Voronoï +cell $R_{k}$ corresponding to $p_{k}$ is the set of +all points in the Euclidean plane $\R^{2}$ whose distance to $p_{k}$ is less than or equal to its distance to any other $p_{k'}$.\bigskip \commande|\buildVoronoiBW[«options»]{«list of points» or «file name»}|\medskip -This macro produce the Voronio diagram dual to the Delaunay -triangulation (computed by the Bowyer and Watson -algorithm) of the given \meta{list of points}. Once again, the +This macro produce the Voronoï diagram of the given \meta{list of + points}. Once again, the list of points must be given in the following way : \begin{center} @@ -791,7 +799,7 @@ There are several options to customize the drawing. \begin{optionsenum} \item[mode = int (default) \textme{or} ext:] this option allows to use either the previously described set of points in the argument, or - a file, containing, line by line (2 columns), the points. Such a + a file containing the points line by line (in 2 columns). Such a file looks like : \begin{verbatim} x1 y1 @@ -815,18 +823,19 @@ xn yn bounding box. \item[colorVoronoi = \meta{value} (default: black):] The color of the drawing for the elements (points and polygons) belonging to the - Voronoi diagram. -\item[print = none (default) \textme{or} points:] To label the vertices of the + Voronoï diagram. +\item[print = none (default) \textme{or} points:] To label the + vertices in the triangulation. Contrary to the previous macros, where - \Verb+print=none+, a \emph{dot} is produced at each vertex (of the - set of points and on the circumcircle center which are the nodes of - the Voronoi diagram). + \Verb+print=none+, a \emph{dot} is produced at each vertex of the + set of points and at the circumcircle centers which are the nodes of + the Voronoï diagram. \item[meshpoint = \meta{value} (default: P):] The letter(s) used to - label the vertices of the triangulation. It is included in the math - mode delimiters \Verb+$...$+. The bounding box points are labeled + label the vertices of the triangulation. This is included in the math + mode delimiters \Verb+$...$+. The bounding box points are labelled with numbers 1 to 4 and with a star exponent. \item[circumpoint = \meta{value} (default: P):] The letter(s) used to - label the vertices of the Voronoi diagram. It is included in the math + label the vertices of the Voronoï diagram. This is included in the math mode delimiters \Verb+$...$+. \item[tikz (boolean, default:false):] By default, this boolean is set to \Verb+false+, and MetaPost (with \Verb+luamplib+) is used to draw @@ -836,12 +845,12 @@ xn yn the scale at which the picture is drawn (the same for both axes). It must contain the unit of length (cm, pt, etc.). -\item[delaunay = none (default) \textme{or} show] This option - allows to draw the Delaunay triangulation under the Voronoi diagram. -\item[styleDelaunay = none (default) \textme{or} dashed] This option - allows to draw dashed lines for the Delaunay triangulation. -\item[styleVoronoi = none (default) \textme{or} dashed] This option - allows to draw dashed lines for the Voronoi edges. +\item[delaunay = none (default) \textme{or} show:] This option + allows to draw the Delaunay triangulation under the Voronoï diagram. +\item[styleDelaunay = none (default) \textme{or} dashed:] This option + allows to draw the Delaunay triangulation in dashed lines. +\item[styleVoronoi = none (default) \textme{or} dashed:] This option + allows to draw the Voronoï edges in dashed lines. \end{optionsenum} \begin{Exemple} @@ -853,12 +862,12 @@ xn yn Once again, a variant of the macros is available allowing the user to add code before and after the code produced by \luamesh. We refer to -the section~\ref{sec:inc} because it works the same way. +section~\ref{sec:inc} because it works the same way. Let us note that: \begin{itemize} \item with MetaPost, the circumcenters are defined using - \Verb+pair CircumPoints[];+, and so, are accessible. + \Verb+pair CircumPoints[];+ and so they are accessible. \item With \Verb+tikz+, there are new coordinates defined as follows \begin{latexcode} \coordinate (CircumPoints1) at (...,...); @@ -868,21 +877,21 @@ Let us note that: \end{latexcode} \end{itemize} -Finally, when the MetaPost drawing engine is used, another color is +Finally, when the MetaPost drawing engine is used another color is available (see~\ref{sec:mpcolor}): \Verb+\luameshmpcolorVoronoi+. \section{With Gmsh} -Gmsh is a open source efficient software that produces meshes. The +Gmsh is an open source efficient software that produces meshes. The exporting format is the \emph{MSH ASCII file format} and can be easily read by a Lua program. \luamesh provides the user with dedicated macros to read and draw meshes coming from a Gmsh exportation.\bigskip \commande|\drawGmsh[«options»]{«file name»}|\medskip -This macro draw the triangulation produced by Gmsh and exported in the -\Verb+msh+ format. The argument is the name of the file to read +This macro draws the triangulation produced by Gmsh and exported in the +\Verb+msh+ format. The argument is the name of the file to be read (e.g.: \Verb+maillage.msh+). \begin{Exemple} @@ -894,12 +903,12 @@ There are several options to customize the drawing. \item[color = \meta{value} (default: black):] The color of the drawing. \item[print = none (default) \textme{or} points:] To label the vertices of the - triangulation. Contrary to the previous macros, where - \Verb+print=none+, a \emph{dot} is produced at each vertex (of the - set of points and on the circumcircle center which are the nodes of - the Voronoi diagram). + triangulation. Contrary to some previous macros, when + \Verb+print=none+ a \emph{dot} is produced at each vertex of the + set of points and at the circumcircle centers (these are the nodes of + the Voronoï diagram). \item[meshpoint = \meta{value} (default: P):] The letter(s) used to - label the vertices of the triangulation. It is included in the math + label the vertices of the triangulation. This is included in the math mode delimiters \Verb+$...$+. The bounding box points are labeled with numbers 1 to 4 and with a star exponent. \item[tikz (boolean, default:false):] By default, this boolean is set @@ -916,10 +925,10 @@ Here is an example: \drawGmsh[scale=2cm,print=points, color=blue!30]{maillage.msh} \end{Exemple} -\subsection{Gmsh and Voronoi Diagrams} +\subsection{Gmsh and Voronoï Diagrams} -Because Gmsh generates Delaunay triangulations, we can plot the -Voronoi diagram associated. This is done by the following macro:\bigskip +Because Gmsh generates Delaunay triangulations, we can plot the associated +Voronoï diagram. This is done by the following macro:\bigskip \commande|\gmshVoronoi[«options»]{«file name»}|\medskip @@ -937,18 +946,18 @@ There are several options to customize the drawing. drawing. \item[colorVoronoi = \meta{value} (default: black):] The color of the drawing for the elements (points and polygons) belonging to the - Voronoi diagram. + Voronoï diagram. \item[print = none (default) \textme{or} points:] To label the vertices of the - triangulation. Contrary to the previous macros, where - \Verb+print=none+, a \emph{dot} is produced at each vertex (of the - set of points and on the circumcircle center which are the nodes of - the Voronoi diagram). + triangulation. Contrary to some previous macros, when + \Verb+print=none+, a \emph{dot} is produced at each vertex of the + set of points and at the circumcircle centers (these are the nodes of + the Voronoï diagram). \item[meshpoint = \meta{value} (default: P):] The letter(s) used to label the vertices of the triangulation. It is included in the math mode delimiters \Verb+$...$+. The bounding box points are labeled with numbers 1 to 4 and with a star exponent. \item[circumpoint = \meta{value} (default: P):] The letter(s) used to - label the vertices of the Voronoi diagram. It is included in the math + label the vertices of the Voronoï diagram. This is included in the math mode delimiters \Verb+$...$+. \item[tikz (boolean, default:false):] By default, this boolean is set to \Verb+false+, and MetaPost (with \Verb+luamplib+) is used to draw @@ -959,11 +968,12 @@ There are several options to customize the drawing. axes). It must contain the unit of length (cm, pt, etc.). \item[delaunay = none (default) \textme{or} show] This option - allows to draw the Delaunay triangulation under the Voronoi diagram. + allows to draw the Delaunay triangulation overlapped with the + Voronoï diagram. \item[styleDelaunay = none (default) \textme{or} dashed] This option - allows to draw dashed lines for the Delaunay triangulation. + allows to draw the Delaunay triangulation in dashed lines. \item[styleVoronoi = none (default) \textme{or} dashed] This option - allows to draw dashed lines for the Voronoi edges. + allows to draw the Voronoï edges in dashed lines. \end{optionsenum} \begin{Exemple} @@ -973,7 +983,7 @@ There are several options to customize the drawing. \subsection{The \emph{inc} variants} -Once again, there exists \emph{inc} variant macros:\bigskip +Once again, there exist \emph{inc} variant macros:\bigskip \commande|\drawGmshinc[«options»]{«file name»}{«code before»}{«code after»}|\medskip @@ -984,7 +994,7 @@ We refer to the previous sections for explanations. \section{Gallery} \subsection{With Animate} -If you use \emph{adobe acrobat reader}, you can easily produce an +If you use \emph{Adobe Acrobat reader}, you can easily produce an animation of the Bowyer and Watson algorithm with the package \Verb+animate+. diff --git a/doc/luamesh-doc.toc b/doc/luamesh-doc.toc index bd488c1..13c01d6 100644 --- a/doc/luamesh-doc.toc +++ b/doc/luamesh-doc.toc @@ -18,13 +18,13 @@ \contentsline {subsubsection}{\numberline {3.1.3}Examples}{12}{subsubsection.3.1.3} \contentsline {subsection}{\numberline {3.2}With TikZ}{14}{subsection.3.2} \contentsline {subsubsection}{\numberline {3.2.1}The Mesh Points}{14}{subsubsection.3.2.1} -\contentsline {subsubsection}{\numberline {3.2.2}Examples}{14}{subsubsection.3.2.2} -\contentsline {section}{\numberline {4}Voronio Diagrams}{15}{section.4} +\contentsline {subsubsection}{\numberline {3.2.2}Examples}{15}{subsubsection.3.2.2} +\contentsline {section}{\numberline {4}Voronoï Diagrams}{15}{section.4} \contentsline {subsection}{\numberline {4.1}The Options}{16}{subsection.4.1} \contentsline {subsection}{\numberline {4.2}The \emph {inc} variant}{17}{subsection.4.2} -\contentsline {section}{\numberline {5}With Gmsh}{17}{section.5} -\contentsline {subsection}{\numberline {5.1}Gmsh and Voronoi Diagrams}{19}{subsection.5.1} -\contentsline {subsection}{\numberline {5.2}The Options}{19}{subsection.5.2} -\contentsline {subsection}{\numberline {5.3}The \emph {inc} variants}{20}{subsection.5.3} +\contentsline {section}{\numberline {5}With Gmsh}{18}{section.5} +\contentsline {subsection}{\numberline {5.1}Gmsh and Voronoï Diagrams}{19}{subsection.5.1} +\contentsline {subsection}{\numberline {5.2}The Options}{20}{subsection.5.2} +\contentsline {subsection}{\numberline {5.3}The \emph {inc} variants}{21}{subsection.5.3} \contentsline {section}{\numberline {6}Gallery}{21}{section.6} \contentsline {subsection}{\numberline {6.1}With Animate}{21}{subsection.6.1} diff --git a/index.md b/index.md index 62de640..841a57c 100644 --- a/index.md +++ b/index.md @@ -38,8 +38,7 @@ in the documentation. ## TODO list -* Options to draw with dash either the delaunay or the voronio diagram - for voronio macros +* Translation of the documentation in french. * Macro to generate a meshed rectangle. * Macro to generate a meshed circle. * Macro that, given a border defined by a set of points, adds points