From c31daf21a745dc6c14ad116918ba562d16727493 Mon Sep 17 00:00:00 2001 From: Karl Berry Date: Wed, 27 Sep 2006 18:06:44 +0000 Subject: new metapost package splines (26sep06) git-svn-id: svn://tug.org/texlive/trunk@2207 c570f23f-e606-0410-a88d-b1316a301751 --- .../texmf-dist/source/metapost/splines/splines.dtx | 393 +++++++++++++++++++++ .../texmf-dist/source/metapost/splines/splines.ins | 48 +++ 2 files changed, 441 insertions(+) create mode 100644 Master/texmf-dist/source/metapost/splines/splines.dtx create mode 100644 Master/texmf-dist/source/metapost/splines/splines.ins (limited to 'Master/texmf-dist/source/metapost/splines') diff --git a/Master/texmf-dist/source/metapost/splines/splines.dtx b/Master/texmf-dist/source/metapost/splines/splines.dtx new file mode 100644 index 00000000000..da89dda74d6 --- /dev/null +++ b/Master/texmf-dist/source/metapost/splines/splines.dtx @@ -0,0 +1,393 @@ +% \iffalse +% ------------------------------------------------------------------- +% +% Copyright 2002--2004, Daniel H. Luecking +% +% Splines.mp may be distributed and/or modified under the conditions of the +% LaTeX Project Public License, either version 1.3 of this license or (at +% your option) any later version. The latest version of this license is in +% +% and version 1.3 or later is part of all distributions of LaTeX version +% 2003/12/01 or later. +% +% Splines has maintenance status "author-maintained". The Current Maintainer +% is Daniel H. Luecking. The Base Interpreter is MetaPost (or Metafont). +% +%<*driver> +\ProvidesFile{splines.dtx} + [2005/02/05 v0.2 Metafont/post macros to compute splines.]% +\documentclass[draft]{ltxdoc} +\usepackage{docmfp} + +\addtolength{\textwidth}{.5878pt} + +\def\mytt{\upshape\mdseries\ttfamily} +\renewcommand\marg[1]{{\mytt \{#1\}}} +\renewcommand\oarg[1]{{\mytt [#1]}} +\renewcommand\parg[1]{{\mytt (#1)}} +\renewcommand{\meta}[1]{{$\langle$\rmfamily\itshape#1$\rangle$}} +\DeclareRobustCommand\cs[1]{{\mytt\char`\\#1}} +\def\prog#1{{\mdseries\scshape #1}} + + + + +\def\MF{\prog{meta\-font}} +\def\MP{\prog{meta\-post}} + +\def\CMF{\prog{Meta\-font}} +\def\CMP{\prog{Meta\-post}} +\def\opt#1{{\sffamily\upshape#1}} +\def\mfc#1{{\mytt#1}} +\let\env\mfc +\let\file\mfc +\let\gbc\mfc +\renewcommand\{{{\mytt\char`\{}} +\renewcommand\}{{\mytt\char`\}}} +\renewcommand\|{${}\mathrel{|}{}$} + +\makeatletter +\newcommand\bsl{{\mytt\@backslashchar}} +% Stupid lists! +\def\@listi{\leftmargin\leftmargini + \parsep \z@ \@plus\p@ \@minus\z@ + \topsep 4\p@ \@plus\p@ \@minus2\p@ + \itemsep\parsep} +\let\@listI\@listi \@listi +\renewcommand\labelitemi{\normalfont\bfseries \textendash} +\renewcommand\labelitemii{\textasteriskcentered} +\renewcommand\labelitemiii{\textperiodcentered} +\leftmargini\parindent +% Stupid index! +\def\usage#1{\textrm{#1}} +\def\index@prologue{\section*{Index}\markboth{Index}{Index}Numbers +refer to the page where the corresponding entry is described.} +\def\IndexParms{% + \parindent \z@ \columnsep 15pt + \parskip 0pt plus 1pt + \rightskip 5pt plus2em \mathsurround \z@ + \parfillskip=-5pt \small + % less hanging: + \def\@idxitem{\par\hangindent 20pt}% + \def\subitem{\@idxitem\hspace*{15pt}}% + \def\subsubitem{\@idxitem\hspace*{25pt}}% + \def\indexspace{\par\vspace{10pt plus 2pt minus 3pt}}} +\renewcommand\routinestring{} +\renewcommand\variablestring{\space(var.)} +% Why does every command have to be indexed twice? +\renewcommand\SpecialMfpIndex[3]{\@bsphack + \index{% + \string#1\actualchar + \string\verb\quotechar*\verbatimchar\string#1\verbatimchar + #2 \encapchar usage}% + \@esphack} +\def\close@crossref{\SpecialEscapechar{:}} +\makeatother +\def\VariableIndex#1{\SpecialMfpIndex{#1}{\variablestring}{}} +\def\RoutineIndex #1{\SpecialMfpIndex{#1}{}{}} + +\title{Macros to Compute Splines\thanks{This file has version number + \fileversion, last revised \filedate.}} +\author{Dan Luecking} +\date{\filedate} +\SpecialEscapechar{:} +\def\bslash{:} +\DisableCrossrefs +\CodelineIndex +\AlsoImplementation + +\begin{document} + \DeleteShortVerb{\|} + \DocInput{splines.dtx} +\end{document} +% +%\fi +% +% \CheckSum{25} +% \CharacterTable +% {Upper-case \A\B\C\D\E\F\G\H\I\J\K\L\M\N\O\P\Q\R\S\T\U\V\W\X\Y\Z +% Lower-case \a\b\c\d\e\f\g\h\i\j\k\l\m\n\o\p\q\r\s\t\u\v\w\x\y\z +% Digits \0\1\2\3\4\5\6\7\8\9 +% Exclamation \! Double quote \" Hash (number) \# +% Dollar \$ Percent \% Ampersand \& +% Acute accent \' Left paren \( Right paren \) +% Asterisk \* Plus \+ Comma \, +% Minus \- Point \. Solidus \/ +% Colon \: Semicolon \; Less than \< +% Equals \= Greater than \> Question mark \? +% Commercial at \@ Left bracket \[ Backslash \\ +% Right bracket \] Circumflex \^ Underscore \_ +% Grave accent \` Left brace \{ Vertical bar \| +% Right brace \} Tilde \~} +% +% \catcode`\_=12 +% \GetFileInfo{splines.dtx} +% \maketitle +% +% \StopEventually{\PrintIndex} +% A cubic spline through a set of points is a curve obtained by joining +% each point to the next with a cubic parametrized curve, where adjoining +% cubics must have matching first and second derivative at their common +% point. +% +% It is possible for \MP{} to compute the necessary controls. +% Unfortunately, the controls are not uniquely determined unless the curve +% is required to be closed. For open curves, there is need for two +% additional equations at the end points. A `relaxed spline' is produced +% if we require that the second derivative is $(0,0)$ at those points. +% For a closed curve, the equality of the first and second derivatives at +% the common beginning/ending point gives the needed additional equations. +% +% Note that this equates \emph{time} derivatives, so this works best when +% points are relatively evenly spaced and so the speed is relatively +% uniform. If points are differently spaced then the relatively slower +% speed between closely spaced points allows sharper turns without large +% second derivatives. Curves produced tend to have a more natural look, +% and relaxed splines are most suitable for smoothing data that is +% obtained by taking observations at evenly spaced times. Still, the +% technique is somewhat unstable when points are closely spaced, for +% example when a small change in the position of one point can produce a +% large change in its direction when viewed from another point. +% +% Start with version control information. +% \begin{macrocode} +%<*package> +if known splines_fileversion: endinput fi; +string splines_fileversion; +splines_fileversion := "2006/09/25, v0.2a"; +message "Loading splines.mp " & splines_fileversion; + +% \end{macrocode} +% +% \DescribeRoutine{list_to_array} +% Now for a command that takes a variable name \gbc{(suffix arr)} and +% copies a list of pairs to \mfc{arr1}, \mfc{arr2}, etc.. +% The suffix must be declared by the calling program so that \mfc{arr} +% is numeric but \mfc{arr[\,]} are pairs, for example by ``\mfc{save arr; pair +% arr[\,];}''. +% \begin{macrocode} +def list_to_array (suffix arr) (text list) = + arr := 0; + for _itm = list : + arr[incr arr] := _itm; + endfor +enddef; + +% \end{macrocode} +% +% \DescribeRoutine{compute_spline} +% In this command we generate the equations common to all cubic +% splines: the equality of derivatives at all interior points. +% This command accepts three suffixes: \gbc{points}, \gbc{pr}, and +% \gbc{po} which should represent previously declared arrays of pairs. +% \gbc{points} is the array of points to be connected, and must be known. +% Arrays \gbc{pr} and \gbc{po} \emph{must} be unknown and will hold the +% computed control points. See the code of \mfc{mkrelaxedspline} for +% an example of how this was arranged for the variables \mfc{rs_pr} and +% \mfc{rs_po}. +% +% Contrary to the previous (unreleased) version, \mfc{compute_spline} +% takes a boolean argument and appends the same equations at the first (= +% last) point. +% +% \DescribeRoutine{mkrelaxedspline} +% The first of these macros appends the necessary additional equations to +% get zero second derivatives at the ends. +% \DescribeRoutine{mkclosedspline} +% The second simply calls \mfc{compute_spline} with the boolean set to +% true. Both return the computed path. In theory the knowledgeable user +% can call \gbc{compute_spline (false)}, append a choice of equations for +% the ends, and then call \gbc{mksplinepath (false)}. +% +% \DescribeRoutine{dospline} +% This version accepts a list of pairs and produces a spline through +% them. It simply stores the list in an array and calls the appropriate +% version that operates on an array. +% \begin{macrocode} +def compute_spline (expr closed) (suffix points, pr, po) = + % interior equations: + for j= 2 upto points - 1 : + % equate first derivatives: + po[j] + pr[j] = 2 points[j]; + % and second derivatives: + pr[j+1] + 2 pr[j] = 2 po[j] + po[j-1]; + endfor + % for a closed curve, the first and last are also interior: + if closed: + po 1 + pr 1 = 2 points 1; + po[points] + pr[points] = 2 points[points]; + pr 2 + 2 pr 1 = 2 po 1 + po[points]; + pr 1 + 2 pr[points] = 2 po[points] + po[points-1]; + fi +enddef; + +vardef mksplinepath (expr closed) (suffix points, pr, po) = + points1..controls po1 and + for j = 2 upto points if not closed: -1 fi: + pr[j]..points[j]..controls po[j] and + endfor + if closed: pr 1..cycle else: pr[points]..points[points] fi +enddef; + +vardef mkrelaxedspline (suffix pnts) = + save rs_pr, rs_po; + pair rs_po[], rs_pr[]; + % Equate second derivative to zero at both end points + rs_pr 2 + pnts 1 = 2 rs_po 1 ; + pnts[pnts] + rs_po[pnts-1] = 2 rs_pr[pnts]; + compute_spline (false) (pnts, rs_pr, rs_po); + mksplinepath (false) (pnts, rs_pr, rs_po) +enddef; + +vardef mkclosedspline (suffix pnts) = + save cs_pr, cs_po; + pair cs_pr[], cs_po[]; + compute_spline (true) (pnts, cs_pr, cs_po); + mksplinepath (true) (pnts, cs_pr, cs_po) +enddef; + +vardef dospline (expr closed) (text the_list) = + save _sp; pair _sp[]; + list_to_array (_sp) (the_list); + if closed : + mkclosedspline (_sp) + else: + mkrelaxedspline (_sp) + fi +enddef; + +% \end{macrocode} +% The above computations produce a $2$-dimensional spline. A $1$-dimensional +% cubic spline would be a function $f(t)$ with numeric values rather +% than pair values. Such are often used to interpolate functions. That is, +% given pairs $(x\sb j,y\sb{j})$, and assuming they lie on the graph of +% some function (generally unknown), fill in the graph with $y = f(x)$ +% where $f$ is a cubic function of $x$ in each interval $x\sb j < x < x\sb +% {j+1}$, making sure that the resulting graph is as smooth as possible at +% the points $x\sb j$. +% +% The requirements on our $2$-dimensional path are the following: +% \begin{enumerate} +% \item The $j$th link should connect $(x\sb{j},y\sb{j})$ to $(x\sb{j+1}, +% y\sb{j+1})$. +% \item The $x$-part of that link should increase linearly from $x\sb{j}$ to +% $x\sb{j+1}$ as $t$ goes from $0$ to $1$. +% \item The $y$-part should be a cubic $y = f(x)$. +% \item The $x$-derivatives $df/dx$ and $d^2f/dx^2$ should match at the +% connecting points. +% \end{enumerate} +% +% Two necessary equations for converting between $x$ and $t$ coordinates +% are: +% \begin{equation}\label{first} +% x = x\sb{j} + t \Delta x\sb{j} +% \end{equation} +% (where $\Delta x\sb{j} = x\sb{j+1} - x\sb{j}$) and +% \begin{equation}\label{second} +% \frac{df}{dt} = \frac{dx}{dt}\frac{df}{dx} = (x\sb{j+1} - +% x\sb{j}) \frac{df}{dx}. +% \end{equation} +% Thus we want to choose controls so that (\ref{first}) is maintained and +% so that $x$-derivatives match. It turns out that this requires controls +% at +% \begin{equation} +% \begin{array}{c} +% (x\sb{j}, y\sb{j}) - (\Delta x\sb{j-1}, s\sb{j} \Delta x\sb{j-1})/3\\ +% (x\sb{j}, y\sb{j}) + (\Delta x\sb{j} , s\sb{j} \Delta x\sb{j} )/3 +% \end{array} +% \end{equation} +% where $s\sb{j}$ is the slope (derivative) at $x\sb{j}$. These control +% points will produce matching slopes regardless of the values +% chosen for the $s\sb j$. To get matching second derivatives we need the +% same conditions as in parametric splines. But those equations simplify +% to the form: +% \begin{displaymath} +% s\sb{j+1} dx\sb{j} - 2s\sb{j} (dx\sb{j} + dx\sb{j-1}) + +% s\sb{j-1}dx\sb{j-1} +% = 3y\sb{j+1} - 3y\sb{j-1}. +% \end{displaymath} +% As with 2-D splines there can be almost any equations at the end points. +% For a relaxed spline we equate the second derivatives to 0. To get a +% periodic function, we equate the slope and second derivative at +% beginning to those at the end. This makes it possible to put a shifted +% copy of the graph with starting point at the end of the original and +% have the same smoothness at that connection as at the other points. +% +% \DescribeRoutine{compute_fcnspline} +% This issues the equation for the slopes (array \gbc{sl} of +% \emph{unknown} numerics). The array \gbc{points} contains the $(x,y)$ +% values and \gbc{dx} is a temporary numeric array which will be +% overwritten if known. +% +% \DescribeRoutine{mkfcnsplinepath} +% This simply assembles the path from the information computed by the +% above equations (and the extra equations given in the calling command). +% +% \DescribeRoutine{mkrelaxedfcnspline} +% This sets up arrays for the \gbc{dx} and \gbc{sl} parameters of +% \mfc{compute_fcnspline}, emit the necessary endpoint equations (zero +% second derivatives) and calls the previous two routines. +% +% \DescribeRoutine{mkperiodicfcnspline} +% This does the same as the previous command, but the endpoint equations +% make the first and second derivatives at the start equal to those at +% the end. +% +% \DescribeRoutine{fcnspline} +% Finally, this command copies a list of pairs into an array and calls the +% appropriate command to process them. +% \begin{macrocode} +def compute_fcnspline (suffix points, dx, sl) = + % Get delta_x: + for j = 1 upto points - 1: dx[j] := xpart (points[j+1]-points[j]); + endfor + for j=2 upto points - 1: + sl[j + 1] * dx[j] + 2sl[j]*(dx[j] + dx[j-1]) + sl[j-1]*dx[j-1] + = 3*ypart(points[j+1] - points[j-1]); + endfor +enddef; + +vardef mkfcnsplinepath (suffix points, dx, sl) = + points1..controls (points1 + (1, sl1)*dx1/3) and + for j = 2 upto points - 1: + (points[j] - (1, sl[j])*dx[j-1]/3) ..points[j].. + controls (points[j] + (1,sl[j])*dx[j]/3) and + endfor + (points[points] - (1,sl[points])*dx[points-1]/3)..points[points] +enddef; + +vardef mkperiodicfcnspline (suffix pnts) = + save _sl, _dx; numeric _dx[], _sl[]; + compute_fcnspline (pnts, _dx, _sl); + % periodicity equations: + _sl 1 = _sl[pnts]; + _sl 2 * _dx 1 + 2 _sl 1 * _dx 1 + 2 _sl[pnts] * _dx[pnts-1] + + _sl[pnts-1] * _dx[pnts-1] + = 3 * ypart(pnts[2] - pnts[pnts-1]); + mkfcnsplinepath (pnts, _dx, _sl) +enddef; + +vardef mkrelaxedfcnspline (suffix pnts) = + save _sl, _dx; numeric _dx[], _sl[]; + compute_fcnspline (pnts, _dx, _sl); + % relaxation equations. + _sl 2 * _dx 1 + 2 _sl1 * _dx 1 = 3 * ypart(pnts2 - pnts1); + _sl[pnts-1] * _dx[pnts-1] + 2 _sl[pnts] * _dx[pnts-1] + = 3 * ypart(pnts[pnts] - pnts[pnts-1]); + mkfcnsplinepath (pnts, _dx, _sl) +enddef; + +vardef fcnspline (expr periodic) (text the_list) = + save _fs; pair _fs[]; + list_to_array (_fs) (the_list); + if periodic: + mkperiodicfcnspline (_fs) + else: + mkrelaxedfcnspline (_fs) + fi +enddef; + +% +% \end{macrocode} +% \clearpage +%\Finale diff --git a/Master/texmf-dist/source/metapost/splines/splines.ins b/Master/texmf-dist/source/metapost/splines/splines.ins new file mode 100644 index 00000000000..ac047affa34 --- /dev/null +++ b/Master/texmf-dist/source/metapost/splines/splines.ins @@ -0,0 +1,48 @@ +\input docstrip +\keepsilent +\preamble + +------------------------------------------------------------------- + +Copyright 2002--2005, Daniel H. Luecking + +Splines.mp may be distributed and/or modified under the conditions of the +LaTeX Project Public License, either version 1.3 of this license or (at +your option) any later version. The latest version of this license is in + +and version 1.3 or later is part of all distributions of LaTeX version +2003/12/01 or later. + +Splines has maintenance status "author-maintained". The Current Maintainer +is Daniel H. Luecking. The Base Interpreter is MetaPost (or Metafont). + +\endpreamble +\edef\zyx{% +endinput.^^J% +\DoubleperCent^^J% +\DoubleperCent\space End of file `\outFileName'.} + +\askforoverwritefalse +\usepostamble\zyx +\generate{\file{splines.mp}{\from{splines.dtx}{package}}} + +\def\sJ{^^J \space\space\space} +\immediate\write16{% +^^J******************************************************************* +^^J +^^J To finish the installation: +^^J +^^J -- Copy the file splines.mp to a location where MetaPost +\sJ will find it, for example TEXMF/metapost/splines/ . +^^J +^^J -- If desired, copy splines.mp to a location where Metafont will +\sJ find it, e.g., TEXMF/metafont/splines/ . Rename it splines.mf. +^^J +^^J -- To generate the documentation, run latex on splines.dtx (requires +\sJ the package docmfp). +^^J +^^J -- Refresh the filename database if your TeX system requires it. +^^J +^^J*******************************************************************} + +\endbatchfile -- cgit v1.2.3