diff options
author | Karl Berry <karl@freefriends.org> | 2010-03-02 01:11:14 +0000 |
---|---|---|
committer | Karl Berry <karl@freefriends.org> | 2010-03-02 01:11:14 +0000 |
commit | dc9b6d4a82e9927c3ea409bbf5c1e7e238e15684 (patch) | |
tree | e548138e5819829840e78340c34bcb4c9ed39f3e | |
parent | b90cb048d54013a5a88eeda85857a091fd5ba76f (diff) |
rm formula, requires scripts to work, very old
git-svn-id: svn://tug.org/texlive/trunk@17277 c570f23f-e606-0410-a88d-b1316a301751
21 files changed, 1 insertions, 1899 deletions
diff --git a/Master/texmf-dist/doc/latex/formula/formpel.dvi b/Master/texmf-dist/doc/latex/formula/formpel.dvi Binary files differdeleted file mode 100644 index 53e6a6f0c49..00000000000 --- a/Master/texmf-dist/doc/latex/formula/formpel.dvi +++ /dev/null diff --git a/Master/texmf-dist/doc/latex/formula/formpel.tex b/Master/texmf-dist/doc/latex/formula/formpel.tex deleted file mode 100644 index f3dc4cefdef..00000000000 --- a/Master/texmf-dist/doc/latex/formula/formpel.tex +++ /dev/null @@ -1,89 +0,0 @@ -%% -%% This is file `formpel.tex', -%% generated with the docstrip utility. -%% -%% The original source files were: -%% -%% formula.dtx (with options: `exampl') -%% -%% Copyleft 1997 Andreas Tille -%% -%% Usage without any waranty -%% - -\documentclass{article} -\usepackage[T1]{fontenc} -\usepackage[nopredefinition]{formula} - -\pagestyle{empty} -\textheight 55\baselineskip -\advance\oddsidemargin by -10mm -\textwidth 150mm - -\formuladef IQ {\text{IQ}} {Intelligenzquotient} {der} -\formuladef Kl {K} {Klugheit} {die} -\formuladef Du {D} {Dummheit} {die} -\begin{document} -\section*{Wie dumm ist der Zufall} - -Herr Rainer Zufall hat einen \IQ von \texttt{???} {(\em Zensiert, -Frau Emma N. Z. Daten-Schutz)}. Dabei ist der \IQ definiert als -\beq - \IQ = \frac{\Kl}{\Du} \label{IQ} -\eeq -wobei \Kl \Klart \Kltxt des Herrn Zufall und \Du \Duart \Dutxt -dieses werten Herrn ist. \par -\formulaarg {Kli} {K_} {Klugheit bei der T\"atigkeit $X$} {die} {X} -\formulaarg {Dui} {D_} {Dummheit bei der T\"atigkeit $X$} {die} {X} - -Angenommen, Herr Zufall stellt sich bei verschiedenen T\"atigkeiten -unterschiedlich dumm an, so l\"a\ss{}t sich (\ref{IQ}) folgenderma\ss{}en -pr\"azisieren: -\beq \label{IQi} - \IQ = \frac{\sum\limits_{i=1}^M\Kli{i}}{\sum\limits_{i=1}^N\Dui{i}} -\eeq\par -\formulamit {KlT} {K_} {^T} {Klugheit am Tag} {die} {X} -\formulamit {KlN} {K_} {^N} {Klugheit in der Nacht} {die} {X} -\formulamit {DuT} {D_} {^T} {Dummheit am Tag} {die} {X} -\formulamit {DuN} {D_} {^N} {Dummheit in der Nacht} {die} {X} - -Wird nun noch in Betracht gezogen, da\ss{} der Zufall im Traum eine ganz -andere Rolle spielt, als im realen Leben, so kann zwischen den Klugheiten -bei Tag (\KlT{X}) und Nacht (\KlN{X}), sowie den Dummheiten zu diesen -Tageszeiten (\DuT{X} bzw. \DuN{X}) unterschieden werden. Bei Reiner -Zufall ist die Klugheit tags\"uber vernachl\"assigbar klein gegen\"uber -der beim Tr\"aumen. Die Dummheit verh\"alt sich genau umgekehrt. - -Also ergibt sich aus (\ref{IQi}) -\beq - \IQ \simeq \frac{\sum\limits_{i=1}^M\KlN{i}}{\sum\limits_{i=1}^N\DuT{i}}. -\eeq - -\formuladiff Klt {d} {\Kl} {t} {Klugheitszuwachs n-ten Grades} {der} - -Da Herr Zufall ein eifriger Leser der Boulevardpresse ist, gilt: -\bea - \Klt{} & < & 0 \qquad\forall\quad t > t_0 \\ - \Klt{2} & > & 0 \qquad\forall\quad t > t_0 -\eea - -\bigskip\bigskip\noindent -Und hier noch einmal alle definierten Gr\"o\ss{}en auf einen Blick: - -\medskip -\begin{tabular}{@{}ll} -\IQdoc -\Kldoc -\Dudoc -\Klidoc -\Duidoc -\KlTdoc -\KlNdoc -\DuTdoc -\DuNdoc -\Kltdoc -\end{tabular} -\end{document} -\endinput -%% -%% End of file `formpel.tex'. diff --git a/Master/texmf-dist/source/latex/formula/Bugs b/Master/texmf-dist/source/latex/formula/Bugs deleted file mode 100644 index 272dfa32b96..00000000000 --- a/Master/texmf-dist/source/latex/formula/Bugs +++ /dev/null @@ -1,5 +0,0 @@ -formula 0.1: -The English-German interface \eorg fails if the LaTeX format -didn't know \l@german. ---> This is corrected in formula 0.2 - diff --git a/Master/texmf-dist/source/latex/formula/Changes b/Master/texmf-dist/source/latex/formula/Changes deleted file mode 100644 index be740f952d2..00000000000 --- a/Master/texmf-dist/source/latex/formula/Changes +++ /dev/null @@ -1,16 +0,0 @@ -formula 0.2: -April 28, 1998 - - The names of formula commands were build in formula 0.1 after the - scheme <my_inital_letters><what_to_do> for instance - <at><mathdef> - This was done to avoid redefining any other definitions. - Because my inital letters (at) didn't make any sense, I renamed - such definitions to - <formula><what_to_do> - - The files newformula (UNIX) and newform.bat (DOS) will help you - converting your definitions to the new names (and will tell you - the changes) - - Bug in \eorg when no German hyphenation patterns are loaded corrected - - Formula logo - - (small) part of documentation translated into English -
\ No newline at end of file diff --git a/Master/texmf-dist/source/latex/formula/Makefile b/Master/texmf-dist/source/latex/formula/Makefile deleted file mode 100644 index 0e47ce34eea..00000000000 --- a/Master/texmf-dist/source/latex/formula/Makefile +++ /dev/null @@ -1,119 +0,0 @@ -## Makefile to install formula -## Copyright Andreas Tille under GPL -## Apr 24, 1998 -## -PACKAGE = formula -VERSION = 0.2 -prefix = /usr -FORMULA_DIR = $(prefix)/lib/texmf/tex/latex/$(PACKAGE) -DOC_DIR = $(prefix)/doc/$(PACKAGE) -EXAMPLE_DIR = $(prefix)/doc/$(PACKAGE)/example -BIN_DIR = $(prefix)/bin -INSTALL = /usr/bin/install -c -INSTALL_TEX = $(INSTALL) -m 644 -INSTALLDIR = $(INSTALL) -d - -SOURCES = $(PACKAGE).dtx $(PACKAGE).ins -DOCS = README.1ST Bugs Changes Todo -INSTDOCS = install.ger install.eng -ALLDOCS = $(DOCS) $(INSTDOCS) -HELPER = newformula -DOSHELPER = newform.bat -ALLHELPER = $(HELPER) $(DOSHELPER) -DISTFILES = $(SOURCES) $(ALLDOCS) $(ALLHELPER) Makefile -EXAMPLES = abverz.tex abverz.dvi formpel.tex formpel.dvi -distdir = $(PACKAGE)-$(VERSION) - -PARTS=teile/driver.prt \ - teile/doc.prt \ - teile/formula.prt \ - teile/prepverz.prt \ - teile/exampl.prt - -all: $(PACKAGE).dvi abverz.dvi formpel.dvi - -##$(PACKAGE).dtx: dtx-stamp - -##dtx-stamp: -# if test -d teile; then \ -# cd teile && make && cp -p $(PACKAGE).dtx ../$(PACKAGE).dtx ; \ -# fi -# touch dtx-stamp - -$(PACKAGE).sty: $(PACKAGE).dtx - latex $(PACKAGE).ins - sed "/^$$/d" prepverz.sh > prepverz - rm prepverz.sh - chmod 755 prepverz - -$(PACKAGE).dvi: $(PACKAGE).sty - latex $(PACKAGE).drv - latex $(PACKAGE).drv - -abverz.dvi: $(PACKAGE).sty - ./prepverz $(PACKAGE).sty - latex abverz.tex - latex abverz.tex - -formpel.dvi: $(PACKAGE).sty - latex formpel.tex - latex formpel.tex - -install: all - $(INSTALLDIR) $(FORMULA_DIR) $(DOC_DIR) $(EXAMPLE_DIR) $(BIN_DIR) - $(INSTALL_TEX) $(PACKAGE).sty $(FORMULA_DIR) - $(INSTALL_TEX) $(DOCS) $(PACKAGE).dvi $(HELPER) $(DOC_DIR) - $(INSTALL_TEX) $(EXAMPLES) $(EXAMPLE_DIR) - $(INSTALL) prepverz $(BIN_DIR) - -upload: README.1ST Makefile - echo "mailx -s \"CTAN Submission\" ctan@urz.uni-heidelberg.de <<..." > upload - echo "Upload of formula version" $(VERSION) >> upload - echo " " >> upload - echo "I have upload in" >> upload - echo " " >> upload - echo " ftp.dante.de:/incoming/formula/" >> upload - for file in $(DISTFILES) ; \ - do \ - echo " "$$file >> upload ; \ - done - echo " " >> upload - echo "the package formula." >> upload - echo " " >> upload - echo "In my opinion a reasonable location would be" - echo " macros/latex/contrib/other ." >> upload - echo " " >> upload - echo "README.1ST says:" >> upload - echo "----------------------------------------------------------------------------" >> upload - cat README.1ST >> upload - echo "----------------------------------------------------------------------------" >> upload - echo " " >> upload - echo "Thank you for maintaining CTAN" >> upload - echo " " >> upload - echo "Andreas Tille (tille@physik.uni-halle.de)" >> upload - echo "..." >> upload - chmod 755 upload - -dist: distdir upload - -chmod -R a+r $(distdir) - GZIP=--best tar chozf $(distdir).tar.gz $(distdir) - -rm -rf $(distdir) - -distdir: $(DISTFILES) - rm -f dtx-stamp - -rm -rf $(distdir) - mkdir $(distdir) - -chmod 777 $(distdir) - @for file in $(DISTFILES); do \ - test -f $(distdir)/$$file \ - || ln $$file $(distdir)/$$file 2> /dev/null \ - || cp -p $$file $(distdir)/$$file; \ - done - -clean: - rm -f $(PACKAGE).sty formpel.tex prepverz.bat $(PACKAGE).drv abverz.tex prepverz.sh prepverz - rm -f *.log *.aux *.dvi *.toc zw *.bbl *.blg *.cp *.cps *.fn *.fns \ - *.ky *.pg *.tp *.vr *.vrs *~ - rm -f dtx-stamp - rm -f upload - diff --git a/Master/texmf-dist/source/latex/formula/README.1ST b/Master/texmf-dist/source/latex/formula/README.1ST deleted file mode 100644 index 666bd83a085..00000000000 --- a/Master/texmf-dist/source/latex/formula/README.1ST +++ /dev/null @@ -1,27 +0,0 @@ -Formula is intended to help you while putting physical symbols -into your text in a comfortable manner. It ensures the same -shape of the symbols which can be freely defined by you in text -*and* math mode. There are some (only some!! -- it needs -extension) predefined physical units. - -This is the first public available release of formula. -Initially it was written only to do some support in our -working group and was not intended to be made public. -It is provided *as is*. -Formula is under the GNU copying license. - -Because of the needs of some people I decided to make it -available in this form. - -Sorry for the language mixing of German and English. I will -translate the documentation into English sooner or later -(I think later :-(, because of a lack of time). - -The main reason for making public this alpha state software is -to get opinions an critics as well as additions of personal -needs. - -The more feedback I will get, the faster formula will come to -a more useful state. - -Andreas Tille (tille@physik.uni-halle.de) diff --git a/Master/texmf-dist/source/latex/formula/Todo b/Master/texmf-dist/source/latex/formula/Todo deleted file mode 100644 index fe69bc631b4..00000000000 --- a/Master/texmf-dist/source/latex/formula/Todo +++ /dev/null @@ -1,6 +0,0 @@ -- Translate the documentation into English - + include index of all macros - + extra tabular of all macros -- complete all predefined with English and German description (using \eorg) -- group predefined symbols into extra files and load them via option like - \usepackage[physics,units,my_own]{formula} diff --git a/Master/texmf-dist/source/latex/formula/dp/ftp_incoming.txt b/Master/texmf-dist/source/latex/formula/dp/ftp_incoming.txt deleted file mode 100644 index aae1ed06dcb..00000000000 --- a/Master/texmf-dist/source/latex/formula/dp/ftp_incoming.txt +++ /dev/null @@ -1,2 +0,0 @@ -All uploads & submissions in here. - diff --git a/Master/texmf-dist/source/latex/formula/formula.drv b/Master/texmf-dist/source/latex/formula/formula.drv deleted file mode 100644 index 0b2b7232326..00000000000 --- a/Master/texmf-dist/source/latex/formula/formula.drv +++ /dev/null @@ -1,36 +0,0 @@ -%% -%% This is file `formula.drv', -%% generated with the docstrip utility. -%% -%% The original source files were: -%% -%% formula.dtx (with options: `driver') -%% -%% Copyleft 1997 Andreas Tille -%% -%% Usage without any waranty -%% -\def\formuladate{April 29, 1998} -\def\formulaversion{0.2} -\documentclass[11pt,twoside,a4paper]{article} -\usepackage{doc} -\usepackage{formula} -\usepackage[T1]{fontenc} -\usepackage{relsize} -\newcommand{\FORMULA}{{\relsize{3}$\varphi$}{\relsize{2}$\!_o$}$rmula$} -\newcommand{\Formula}{\FORMULA\xspace} -\newcommand{\atname}{\texttt{formula}} -\newcommand{\atnamesty}{\texttt{formula.sty}\xspace} -\begin{document} - \title{The \Formula style \\ - {\small Version \formulaversion}} - \author{Andreas Tille} - \date{\formuladate} - \maketitle - \OnlyDescription - \DocInput{formula.dtx} -\end{document} - -\endinput -%% -%% End of file `formula.drv'. diff --git a/Master/texmf-dist/source/latex/formula/formula.dtx b/Master/texmf-dist/source/latex/formula/formula.dtx deleted file mode 100644 index 2ced2b2b317..00000000000 --- a/Master/texmf-dist/source/latex/formula/formula.dtx +++ /dev/null @@ -1,1080 +0,0 @@ -% \iffalse -%<*driver> -\def\formuladate{April 29, 1998} -\def\formulaversion{0.2} -\documentclass[11pt,twoside,a4paper]{article} -\usepackage{doc} -\usepackage{formula} -\usepackage[T1]{fontenc} -\usepackage{relsize} -\newcommand{\FORMULA}{{\relsize{3}$\varphi$}{\relsize{2}$\!_o$}$rmula$} -\newcommand{\Formula}{\FORMULA\xspace} -\newcommand{\atname}{\texttt{formula}} -\newcommand{\atnamesty}{\texttt{formula.sty}\xspace} -\begin{document} - \title{The \Formula style \\ - {\small Version \formulaversion}} - \author{Andreas Tille} - \date{\formuladate} - \maketitle - \OnlyDescription - \DocInput{formula.dtx} -\end{document} -%</driver> -% \fi -% \CheckSum{671} - - - -% \newcommand{\HOCH}{$\vphantom{\biggl(}$} -% \iffalse excerpt from amsdoc.cls \fi -% \newcommand{\AmS}{{\protect\usefont{OMS}{cmsy}{m}{n}% -% A\kern-.1667em\lower.5ex\hbox{M}\kern-.125emS}} -% \newcommand{\amslatex}{{\protect\AmS-\protect\LaTeX}} -% \newcommand{\Mac}[1]{\texttt{\textbackslash #1}} -% \newcommand{\parm}[1]{{\em #1}} -% \newcommand{\ttBo}{\texttt{\{}} -% \newcommand{\ttBc}{\texttt{\}}} -% \newcommand{\Parm}[1]{\ttBo\parm{#1}\ttBc} -% \newcommand{\Parmz}[2]{\Parm{#1}\Parm{#2}} -% \newcommand{\Parmd}[3]{\Parmz{#1}{#2}\Parm{#3}} -% \newcommand{\Parmv}[4]{\Parmd{#1}{#2}{#3}\Parm{#4}} -% \newcommand{\oParm}[1]{\texttt{[}#1\texttt{]}} -% \newcommand{\BB}{\textbackslash\textbackslash} -% \newenvironment{syntax} -% {\list{}{\rightmargin\leftmargin}% -% \item\relax} -% {\endlist} -% -% \thispagestyle{empty} -% \tableofcontents -% \bigskip\bigskip -% -% \begin{abstract} -% \Formula is inteded to be helpful when using symbols inside -% and outside math-mode. The symbols which can be defined using -% \Formula should help to ensure a unique layout over all documents -% using the same definitions. -% -% Additionally there is support for physical units. The use of -% \Formula units makes sure to have the right spacing. -% \end{abstract} -% -% -% \section{Usage} -% -% To use \Formula you have to include -% \begin{syntax} -% \Mac{usepackage\{\atname\}} -% \end{syntax} -% in the preamble of your \LaTeX2e-document. -% The \atnamesty depends from some other packages which are: -% \begin{itemize} -% \item \texttt{xspace.sty} from {\em David Carlisle}, -% \item \texttt{amsfonts.sty} and \texttt{amstext.sty} contained in -% the \amslatex-package and -% \item \texttt{textcomp.sty} from {\em J\"org Knappen} (at least -% Version 1998/03/05 v1.9n; if you really havn't access to this -% Version you will have to replace \Mac{textcelsius} by -% \Mac{textcentigrade} in \texttt{formula.dtx}). -% \end{itemize} -% -% Loading of \atnamesty takes some time. If the predefined -% commands are not used this time can be shortened by using -% the option \texttt{[nopredefinition]}. To get a list of all -% predefined commands in \Formula use prepverz -% (see section \ref{predef}). -% -% \section{Definitions of \Formula} -% \subsection{Definining single \Formula commands} -% -% Zur Definition von einfachen Symbolen wird \Mac{formuladef} verwendet. -% Dieses Makro ist mit vier Argumenten aufzurufen. -% \begin{syntax} -% \Mac{formuladef \Parm{Name} \Parm{Inhalt} \Parm{Beschreibung} \Parm{Artikel}} -% \end{syntax} -% Dabei steht \parm{Name} f\"ur den Namen eines zu definierenden Makros -% das im Folgenden mit \Mac{Name} verwendet werden kann. Das Makro -% \Mac{Name} bewirkt, da\ss{} \parm{Inhalt} im Mathemodus gesetzt wird, unabh\"angig -% davon, ob der Mathemodus oder der Textmodus aktiv ist. -% Falls der \parm{Inhalt} oder Teile desselben in Roman gesetzt werden -% sollen, so ist das durch \Mac{mathrm}\Parm{Inhalt in Roman} zu kennzeichnen. -% Durch \Mac{formuladef} wird ein weiteres Makro \Mac{Namedoc} erzeugt. -% Dieses Makro hat folgenden Inhalt: -% \begin{syntax} -% \Mac{Name \& }\parm{Beschreibung} \BB -% \end{syntax} -% Der Zweck dieses Makros ist die Vereinfachte Schreibweise f\"ur ein -% Abk\"urzungsverzeichnis. Ein typisches Abk\"urzungsverzeichnis sieht -% folglich so aus: -% \begin{syntax} -% \Mac{begin\{tabular\}\{ll\}} \\ -% \Mac{einsdoc} \\ -% \Mac{zweidoc} \\ -% \Mac{dreidoc} \\ -% \Mac{end\{tabular\}} -% \end{syntax} -% wobei \Mac{eins}, \Mac{zwei} und \Mac{drei} durch \Mac{formuladef} definierte -% Befehle sein m\"ogen. -% Zwei weitere durch \Mac{formuladef} erzeugte Makros sind \Mac{Nametxt} und -% \Mac{Nameart}. Sie stellen das dritte bzw.~vierte Argument des -% Aufrufs von \Mac{formuladef} bereit. Diese beiden Befehle k\"onnen sich -% bei der Erl\"auterung von Symbolen in einer Formel als n\"utzlich -% erweisen. Der \parm{Artikel} kann nat\"urlich auch \Parm{} sein. Er wird -% lediglich deshalb extra aufgelistet, weil er im Abk\"urzungsverzeichnis -% in der Regel nicht ben\"otigt wird, bei Erl\"auterungen von -% Formelzeichen jedoch erst einen vollst\"andigen Satz erm\"oglicht. -% Das letzte durch \Mac{formuladef} erzeugte Makro hei\ss{}t \Mac{Namemy}. -% Es gibt dem Autor die M\"oglichkeit, einen \"Uberblick \"uber seine -% 1001 \Mac{formuladef}-Definitionen zu behalten. Es hat folgenden -% Inhalt: -% \begin{syntax} -% \Mac{texttt\{}\Mac{Name\} \& }\Mac{Namedoc} -% \end{syntax} -% Damit wird f\"ur den Autor dokumentiert, welchen Befehl er einzugeben hat und -% was sich hinter dem Befehl verbirgt. -% Beispiel: -% \iffalse -%<*exampl> -% \fi -% \begin{verbatim} -\documentclass{article} -\usepackage[T1]{fontenc} -\usepackage[nopredefinition]{formula} - -\pagestyle{empty} -\textheight 55\baselineskip -\advance\oddsidemargin by -10mm -\textwidth 150mm - -\formuladef IQ {\text{IQ}} {Intelligenzquotient} {der} -\formuladef Kl {K} {Klugheit} {die} -\formuladef Du {D} {Dummheit} {die} -\begin{document} -\section*{Wie dumm ist der Zufall} - -Herr Rainer Zufall hat einen \IQ von \texttt{???} {(\em Zensiert, -Frau Emma N. Z. Daten-Schutz)}. Dabei ist der \IQ definiert als -\beq - \IQ = \frac{\Kl}{\Du} \label{IQ} -\eeq -wobei \Kl \Klart \Kltxt des Herrn Zufall und \Du \Duart \Dutxt -dieses werten Herrn ist. \par -% \end{verbatim} -% \iffalse -%</exampl> -% \fi -% -% Bemerkung: \Mac{formuladef} und auch die im Folgenden definierten -% Befehle werden {\em global} definiert, da\ss{} hei\ss{}t, auch wenn -% die Definitionen der Befehle innerhalb einer Umgebung vereinbart -% werden, sind sie im gesamten folgenden Text bekannt. -% -% \subsection{Formelzeichen mit Anhang} -% -% Es kann vorkommen, da\ss{} an ein Formelzeichen etwas angeh\"angt -% werden soll (Indizes, Potenzen, etc.). Daf\"ur wurde eine Abwandlung -% von \Mac{formuladef} eingef\"uhrt: -% \begin{syntax} -% \Mac{formulaarg} \Parm{Name} \Parm{Inhalt} \Parm{Beschreibung} \Parm{Artikel} \Parm{Argument} -% \end{syntax} -% Die ersten vier Argumente von \Mac{formulaarg} entsprechen denen von -% \Mac{formuladef}. Hinzugekommen ist lediglich das f\"unfte Argument. Es -% ist nur in \Mac{Namedoc} von Bedeutung: In der Dokumentation wird -% das \parm{Argument} an den Befehl angeh\"angt. In der \parm{Beschreibung} ist -% zweckm\"a\ss{}igerweise auf diese Argument Bezug zu nehmen. -% Das sieht zum Beispiel so aus: -% \iffalse -%<*exampl> -% \fi -% \begin{verbatim} -\formulaarg {Kli} {K_} {Klugheit bei der T\"atigkeit $X$} {die} {X} -\formulaarg {Dui} {D_} {Dummheit bei der T\"atigkeit $X$} {die} {X} - -Angenommen, Herr Zufall stellt sich bei verschiedenen T\"atigkeiten -unterschiedlich dumm an, so l\"a\ss{}t sich (\ref{IQ}) folgenderma\ss{}en -pr\"azisieren: -\beq \label{IQi} - \IQ = \frac{\sum\limits_{i=1}^M\Kli{i}}{\sum\limits_{i=1}^N\Dui{i}} -\eeq\par -% \end{verbatim} -% \iffalse -%</exampl> -% \fi -% -% \subsection{Formelzeichen mit Einschub} -% -% Auch wenn ein Argument zwischen Teile eines zu definierenden Befehls -% eingebaut werden soll, wird eine Definition bereitgestellt: -% \begin{syntax} -% \Mac{formulamit} \Parm{Name} \Parm{I1} \Parm{I2} \Parm{Beschreibung} \Parm{Artikel} \Parm{Argument}. -% \end{syntax} -% In \Mac{formulamit} wird offensichtlich der \parm{Inhalt} in zwei Teilen -% \parm{I1} und \parm{I2} angegeben. Zwischen diese beiden Teile wird das -% Argument eingef\"ugt. Das l\"a\ss{}t sich auch wieder am Beispiel eines -% reinen Zufalls demonstrieren: -% \iffalse -%<*exampl> -% \fi -% \begin{verbatim} -\formulamit {KlT} {K_} {^T} {Klugheit am Tag} {die} {X} -\formulamit {KlN} {K_} {^N} {Klugheit in der Nacht} {die} {X} -\formulamit {DuT} {D_} {^T} {Dummheit am Tag} {die} {X} -\formulamit {DuN} {D_} {^N} {Dummheit in der Nacht} {die} {X} - -Wird nun noch in Betracht gezogen, da\ss{} der Zufall im Traum eine ganz -andere Rolle spielt, als im realen Leben, so kann zwischen den Klugheiten -bei Tag (\KlT{X}) und Nacht (\KlN{X}), sowie den Dummheiten zu diesen -Tageszeiten (\DuT{X} bzw. \DuN{X}) unterschieden werden. Bei Reiner -Zufall ist die Klugheit tags\"uber vernachl\"assigbar klein gegen\"uber -der beim Tr\"aumen. Die Dummheit verh\"alt sich genau umgekehrt. - -Also ergibt sich aus (\ref{IQi}) -\beq - \IQ \simeq \frac{\sum\limits_{i=1}^M\KlN{i}}{\sum\limits_{i=1}^N\DuT{i}}. -\eeq - -% \end{verbatim} -% \iffalse -%</exampl> -% \fi -% -% \subsection{Differenzenquotienten} -% -% Schlie\ss{}lich wird noch ein Makro bereitgestellt, mit der -% Differenzenquotienten leicht definiert werden k\"onnen. Dieses wird -% folgenderma\ss{}en aufgerufen: -% \begin{syntax} -% \Mac{formuladiff} \Parm{Name} \Parm{Art} \Parm{y} \Parm{x} \Parm{Beschreibung} \Parm{Artikel}. -% \end{syntax} -% Dabei haben \parm{Name}, \parm{Beschreibung} und \parm{Artikel} die gleiche -% Bedeutung wie in den vorangegangenen Definitionen. Das Argument \parm{Art} -% kann den Wert 'd' oder '$\partial$' haben, kennzeichnet also, ob es -% sich um eine totale oder partielle Ableitung handeln soll. -% Die abh\"angige Variable \parm{y} erscheint im Nenner, die unabh\"angige -% Variable \parm{x} im Z\"ahler. Einem auf diese Art und Weise definierten -% Befehl mu\ss{} ein Argument folgen, da\ss{} den Grad der Ableitung angibt. -% Mit diesem Argument wird im Nenner das entsprechende -% Differentialzeichen (\parm{Art}) potenziert, im Z\"ahler dagegen -% die unabh\"angige Variable (\parm{x}) -- wie das halt so \"ublich ist. -% \iffalse -%<*exampl> -% \fi -% \begin{verbatim} -\formuladiff Klt {d} {\Kl} {t} {Klugheitszuwachs n-ten Grades} {der} - -Da Herr Zufall ein eifriger Leser der Boulevardpresse ist, gilt: -\bea - \Klt{} & < & 0 \qquad\forall\quad t > t_0 \\ - \Klt{2} & > & 0 \qquad\forall\quad t > t_0 -\eea -% \end{verbatim} -% \iffalse -%</exampl> -% \fi -% -% \subsection{Ma\ss{}einheiten} -% -% Zur Vereinheitlichung von Ma\ss{}einheiten wurde der Befehl \Mac{formulaunit} -% eingef\"uhrt. Er hat folgende Syntax: -% \begin{syntax} -% \Mac{formulaunit} \Parm{Name} \Parm{rm} \Parm{gr} \Parm{Einheit} \Parm{Einheit in Worten}. -% \end{syntax} -% Wie in den Definitionen oben ist \parm{Name} ein zu definierender -% Befehl. Weiterhin werden die Befehle \Mac{Namedoc}, \Mac{Nametxt} -% und \Mac{Namemy} erzeugt, die die gleiche Bedeutung wie oben haben. -% Die Argumente \parm{rm} und \parm{gr} sind als Vors\"atze vor Einheiten -% zu gebrauchen. Dabei steht \parm{rm} f\"ur einen Vorsatz aus lateinischen -% Buchstaben (z.B. m f\"ur Milli) und \parm{gr} f\"ur einen Vorsatz in -% griechischen Buchstaben (z.B.~\textmu\ f\"ur Mikro). -% Die Definitionen -% \begin{syntax}\tt -% \Mac{formulaunit} mm \{m\} \{\} m \{Millimeter\} \\ -% \Mac{formulaunit} mum \{\} \{\textbackslash mu\} m \{Mikrometer\} -% \end{syntax} -% bewirken folglich, da\ss{} die Eingabe -% \begin{syntax}\tt -% 1\Mac{mm} = 1000\Mac{mum} -% \end{syntax} -% im Ergebnis ~~$1\mm = 1000\mum$~~ liefert. Zu beachten ist, da\ss{} der -% Einheit-Befehl immer unmittelbar auf den Zahlenwert folgt, damit -% nicht zus\"atzlicher Leerraum eingef\"ugt wird und \TeX\ an dieser -% Stelle nicht trennt. -% \parm{Einheit} ist die Einheit ohne weitere Vors\"atze. Einheiten -% werden unabh\"angig davon, ob sie im Mathemodus oder nicht verwendet -% werden, immer in Roman gesetzt. Der Wert der Einheit wird durch -% \Mac{,} von der Einheit getrennt. -% -% \subsection{\label{predef}How to get all \Formula definitions} -% -% \Formula contains a number predefined commands. The script -% \texttt{prepverz} can be used to get an overview -% of this predefinitions and to remember your own \Formula definitions. -% There should be no problem on any \texttt{UNIX} system. Using -% \texttt{DOS} or \texttt{OS/2} (rename \texttt{prepverz.bat} to -% \texttt{prepverz.cmd} in the latter case) you need a working \texttt{grep} -% and \texttt{sed}. There should be no problems with any \texttt{grep} -% version but there are reports of \texttt{DOS} \texttt{sed}s which failed. -% The \texttt{GNU-sed} version 2.05 is known to work reliable. -% Try to get a copy of it for your operating system. -% -% The streameditor \texttt{sed} is used to get all -% \Mac{formula\dots}-definitions from any input file of \texttt{prepverz}. -% These definitions where written into a \texttt{longtable} -% environment in the outputfile \texttt{abverz.tex}. For example -% \begin{syntax}\tt -% prepverz formula.sty -% \end{syntax} -% creates \texttt{abverz.tex} with all predefined \Formula definitions. -% Use your own files containing \Formula definitions to get all your -% own defined commands. Then you can type -% \begin{syntax}\tt -% latex abverz.tex -% \end{syntax} -% twice (to get the longtable formatted correctly) and you will get -% a fairly formated output of the definitions. -% -% \subsection{Einfache Differenzenquotienten} -% -% Es kann auch einmal der Fall eintreten, da\ss{} der Nutzer f\"ur eine Ableitung -% keinen extra Befehl definieren will. Es gibt deshalb f\"ur partielle -% Ableitungen (wenn auch totale gew\"unscht werden, kann das schnell analog -% definiert werden) eine kleine Unterst\"utzung. -% \DeleteShortVerb{\|} -% \setbox0=\hbox{2. Ordnung nach einer Variablen ohne Klammern} -% \dimen0=\wd0 -% \begin{center} -% \begin{tabular}{|l|c|p{\dimen0}|}\hline -% Eingabe & Resultat & Beschreibung \\ \hline -% \HOCH\Mac{odif}\Parmz{y}{x} & \odif{y}{x} & 1. Ordnung ohne Klammern \\ -% \HOCH\Mac{pdif}\Parmz{y}{x} & \pdif{y}{x} & 1. Ordnung mit Klammern \\ -% \HOCH\Mac{osdif}\Parmz{y}{x} & \osdif{y}{x} & \box0\\ -% \HOCH\Mac{oodif}\Parmd{z}{y}{x} & \oodif{z}{y}{x} & 2. Ordnung nach zwei Variablen ohne Klammern\\ -% \HOCH\Mac{ppdif}\Parmd{z}{y}{x} & \ppdif{z}{y}{x} & 2. Ordnung nach zwei Variablen mit Klammern\\ -% \HOCH\Mac{ooodif}\Parmv{u}{z}{y}{x} & \ooodif{u}{z}{y}{x} & 3. Ordnung ohne Klammern\\ -% \HOCH\Mac{pppdif}\Parmv{u}{z}{y}{x} & \pppdif{u}{z}{y}{x} & 3. Ordnung mit Klammern\\ -% \HOCH\Mac{oosdif}\Parmd{z}{y}{x} & \oosdif{z}{y}{x} & -% 3. Ordnung ohne Klammern, wobei nach einer Variablen zweimal abgelitten wird \\ -% \hline\end{tabular} -% \end{center} -% -% Offensichtlich ist diese Tabelle unvollst\"andig und recht willk\"urlich -% zusammengestellt. Es wurden nur diejenigen F\"alle aufgenommen, -% die in der bisherigen Praxis auftraten. Analoge Definitionen k\"onnen -% leicht abgeleitet werden. -% -% -% \paragraph{\Mac{buildul}} -% Mit \Mac{buildrel} k\"onnen im Mathematiksatz neue mathematische -% Relationen durch \"Ubereinandersetzen von verschiedenen Symbolen -% erzeugt werden. -% \begin{syntax} -% \Mac{buildrel} \Parm{oben} \Mac{over} \Parm{unten} -% \end{syntax} -% Dabei wird \Parm{oben} verkleinert \"uber \Parm{unten} gesetzt. -% Ein Pendant zu \Mac{buildrel} wird durch \Formula bereitgestellt. -% Mit dem Befehl \Mac{buildrul} wird das zweite Argument verkleinert -% unter das erste gesetzt: -% \begin{syntax} -% \texttt{\$}\Mac{buildrul}\Mac{longrightarrow}\Mac{over}% -% \texttt{\{\parm{i}\Mac{to}\Mac{infty}\}}\texttt{\$} \qquad -% $\buildrul\longrightarrow\over{i\to\infty}$ -% \end{syntax} -% -% -% \section{Language support} -% -% Originally \Formula was designed for internal use and -% the documentation is mostly in German. This will change in the -% future but may take a little time. For users who didn't understand -% German all comments in the code section are written in English and -% hopefully they are understandable and useful. -% -% To give easy support for translations the macro \Mac{eorg} was -% included. It is intended to define \Mac{formuladef} and friends -% macros with German and English description (the \Mac{*doc} part of -% the created macro. For example you can use -% \begin{syntax} -% \Mac{formuladef} Du \Parm{D} \ttBo\Mac{eorg}\Parm{foolery}\Parm{Dummheit}\ttBc\ \ttBo\Mac{eorg}\Parm{the}\Parm{die}\ttBc -% \end{syntax} -% -% \StopEventually{ -% \vfill -% Questions, comments or additions to: -% -% \hbox to \hsize{ -% \parbox[t]{0.39\hsize}{ -% Andreas Tille \\ -% Gartenstra\ss{}e 8 \\ -% D-38855 Wernigerode} -% \hss -% \parbox[t]{0.59\hsize}{ -% Martin-Luther-Universit\"at Halle/Wittenberg \\ -% Fachbereich Physik \\ -% Experimentalphysik II \\ -% Friedemann-Bach-Platz 6 \\ -% D-06108 Halle\,/\,Saale \\[3pt] -% Telefon: (+49 345) 55\,25550 \\ -% Fax: (+49 345) 55\,27\,158}} -% \par\medskip -% E-Mail: \texttt{tille@physik.uni-halle.de} \\ -% WWW: \texttt{http://www.physik.uni-halle.de/~e2od5} -% -% \clearpage -% \endinput -% } -% -% \advance\hsize by -10mm% to get more space for marginpars -% \section{The Code} -% -% Here we are for the folks who do not understand German. -% -% \iffalse -%<*formula> -% \fi -% \newcommand{\EngTrans}[2]{\typeout{#1 -> #2}{#2}\xspace} -% \newcommand{\CIRC}{\textsf CIRC} -% -% \subsection{Code of the \atname-Style} -% \subsubsection{The beginning and the included styles} -% -% First we check if the style was loaded before. -% \begin{macrocode} -\csname @ifundefined\endcsname{formuladef}{}{\endinput} -% \end{macrocode} -% Then we make sure, that \LaTeX2e{} is used -% \begin{macrocode} -\NeedsTeXFormat{LaTeX2e}[1997/12/01] -% \end{macrocode} -% and declare the package name. -% \begin{macrocode} -\ProvidesPackage{formula} -% \end{macrocode} -% Some necessary packages used in \atname\texttt{.sty} were loaded. -% \begin{macrocode} -\RequirePackage{amsfonts} -\RequirePackage{amstext} -\RequirePackage{textcomp}[1998/03/05 v1.9n] -\RequirePackage{xspace} -% \end{macrocode} -% -% \subsubsection{The \Mac{formuladef}-family} -% \begin{macro}{\formuladef} -% The macro \Mac{formuladef} is used to define macros which ensure that -% the contained text is the same in math mode and normal text. The -% parameters which have to be separated by blanks have the following meaning: -% -% \#1 - macro name \\ -% \#2 - contents to be printed \\ -% \#3 - description for a list of abbreviations \\ -% \#4 - \{\} or an article which is useful in German to put in front of \#3 -% \begin{macrocode} -\def\formuladef#1 #2 #3 #4{% - \globaldefs=1% - \expandafter\newcommand\expandafter{\csname#1\endcsname} - {\relax\ensuremath{#2}\xspace}% -% \end{macrocode} -% First we define the macro \Mac{\#1}. This definition makes sure that -% the contents of the macro is printed in math mode regardless of -% whether we are in math or normal mode. To use roman fonts (instead of -% the italic math fonts) you have to use -% \Mac{mathrm}, \Mac{mbox} or preferably \Mac{text} from the -% \texttt{amstext}-style inside the second parameter (\#2). Please -% note, that in the end is the \Mac{xspace} command to make sure -% that some space follows after the macro \Mac{\#1} if this makes -% sense. We set \Mac{globaldefs=1} to ensure that definitions given by -% \Mac{formuladef} are known global. -% \begin{macrocode} - \expandafter\newcommand\expandafter{\csname#1doc\endcsname} - {\csname#1\endcsname & #3\\}% -% \end{macrocode} -% Then we define the macro \Mac{\#1doc} which is useful in a list of -% abbreviations (two column table each row containig a single -% \Mac{\#1doc}-command). -% \begin{macrocode} - \expandafter\newcommand\expandafter{\csname#1art\endcsname} - {#4\xspace}% der Artikel - \expandafter\newcommand\expandafter{\csname#1txt\endcsname} - {#3\xspace}% der beschreibende Text -% \end{macrocode} -% These two macros could be useful to build the description of a formula -% or things like that inside the text. -% \begin{macrocode} - \expandafter\newcommand\expandafter{\csname#1my\endcsname} - {{\tt\char92#1} & \csname#1doc\endcsname} - \globaldefs=0}% -% \end{macrocode} -% The last Macro \Mac{\#1my} which is defined by \Mac{formuladef} can be -% used for a private overview of the author which macros are defined -% ad how to call them. It is used in a three column table each row -% containing a single \Mac{\#1my}-command. -% \end{macro} -% \begin{macro}{\formulaarg} -% The macro \Mac{formuladef} does the same as \Mac{formuladef}, however, -% you can add an argument behind the defined macro which will be -% concatenated with the text to be printed. All parameters have the -% same meaning as in \Mac{formuladef}. The additional fifth parameter -% is used as default value when printed in the list of abbreviations. -% Resetting globaldefs is importand to make other styles work properly. -% \begin{macrocode} -\def\formulaarg#1 #2 #3 #4 #5{% - \globaldefs=1% - \expandafter\newcommand\expandafter{\csname#1\endcsname}[1]% - {\relax\ensuremath{#2{##1}}\xspace}% - \expandafter\newcommand\expandafter{\csname#1doc\endcsname}% - {\csname#1\endcsname{#5} & #3\\}% - \expandafter\newcommand\expandafter{\csname#1art\endcsname}% - {#4}% der Artikel - \expandafter\newcommand\expandafter{\csname#1txt\endcsname}% - {#3}% der beschreibende Text - \expandafter\newcommand\expandafter{\csname#1my\endcsname}% - {{\tt\char92#1\{}{\em #5}{\tt \}} & \csname#1doc\endcsname} - \globaldefs=0}% -% \end{macrocode} -% \end{macro} -% \begin{macro}{\formulamit} -% Like \Mac{formulaarg} but the argument is printed in between the text -% to be printed instead of the end. So we need a first part of the -% macro-text then comes the argument and the second part of the text in -% the end. The -% parameters (which may separated by blanks) have the following meaning: -% -% \#1 - macro name \\ -% \#2 - first part of the contents to be printed \\ -% \#3 - end of the contents to be printed (after the Argument) \\ -% \#4 - description for a list of abbreviations \\ -% \#5 - \{\} or an article which is useful in German to put in front of \#4 -% \#6 - default argument which is used in the list of abbreviations -% \begin{macrocode} -\def\formulamit#1 #2 #3 #4 #5 #6{% - \globaldefs=1% - \expandafter\newcommand\expandafter{\csname#1\endcsname}[1]% - {\relax\ensuremath{#2{##1}#3}\xspace}% - \expandafter\newcommand\expandafter{\csname#1doc\endcsname} - {\csname#1\endcsname{#6} & #4\\}% - \expandafter\newcommand\expandafter{\csname#1art\endcsname} - {#5}% der Artikel - \expandafter\newcommand\expandafter{\csname#1txt\endcsname} - {#4}% der beschreibende Text - \expandafter\newcommand\expandafter{\csname#1my\endcsname}% - {{\tt\char92#1\{}{\em #6}{\tt \}} & \csname#1doc\endcsname} - \globaldefs=0}% -% \end{macrocode} -% \end{macro} -% \begin{macro}{\formuladiff} -% To be helpful in typing differentials the macro \Mac{formuladiff} is defined. -% It needs one argument to declare the order of the differential. The -% parameters of \Mac{formuladiff} have the following meanings: -% -% \#1 - macro name \\ -% \#2 - type of the differential (d or $\partial$) \\ -% \#3 - denominator \\ -% \#4 - numerator \\ -% \#5 - description for a list of abbreviations \\ -% \#6 - \{\} or an article which is useful in German to put in front of \#5 -% \begin{macrocode} -\def\formuladiff#1 #2 #3 #4 #5 #6{% - \globaldefs=1% - \expandafter\newcommand\expandafter{\csname#1\endcsname}[1]% - {\relax\ensuremath{\frac{#2^{##1}#3}{#2#4^{##1}}}\xspace}% - \expandafter\newcommand\expandafter{\csname#1doc\endcsname}% - {\csname#1\endcsname{n} & #5\\}% - \expandafter\newcommand\expandafter{\csname#1art\endcsname}% - {#6}% der Artikel - \expandafter\newcommand\expandafter{\csname#1txt\endcsname}% - {#5}% der beschreibende Text - \expandafter\newcommand\expandafter{\csname#1my\endcsname}% - {{\tt\char92#1\{}{\em n}{\tt \}} & \csname#1doc\endcsname} - \globaldefs=0}% -% \end{macrocode} -% \end{macro} -% -% \begin{macro}{\eorg} -% To support easy translations of texts the describing parts can be -% defined with an English and a German part. -% -% \#1 - English description -% \#2 - German description -% \begin{macrocode} -\newcommand{\eorg}[2]{% - \expandafter\ifx\csname l@german\endcsname\relax #1% - \else \ifnum\csname l@german\endcsname=\language #2% - \else #1\fi\fi} -% \end{macrocode} -% \end{macro} -% -% We define some symbols which are often used in our group. If -% you do not want this symbols call \atname in this way: -% \begin{syntax}\texttt{ -% \Mac{usepackage}[nopredefinition]\{formula\} -% }\end{syntax} -% This option makes sense if you want to save time while loading -% \atname-style or you want to use the same names of some macros -% with a different meaning. -% \begin{macrocode} -\newif\ifpredefinition -\predefinitiontrue -\newcommand{\NoPreDefinition}{\predefinitionfalse} -\DeclareOption{nopredefinition}{\NoPreDefinition} -\ProcessOptions -\ifpredefinition -% \end{macrocode} -% Here come a lot of predefined macros in \atname-style (sorry, all the -% descriptions are in German, but all this stuff was developed for -% {\bf internal} use in a German institute.) -% \begin{macrocode} -\formuladef MA {\text{\bf A}} - {\eorg{m}{M}atrix A} {\eorg{the}{die}} -\formuladef Cmess {\text{C}_m} - {\eorg{linear capacitor for measurement} - {linearer Me\ss{}kondensator}} {} -\formuladef Cnl {C_{nl}} - {\eorg{nonlinear capacity of the sample} - {nichtlineare Kapazit\"at der Probe}} {\eorg{the}{die}} -\formulaarg Cr {\mathbb{C}^} - {\eorg{set of r times continuous differentiable functions} - {Menge der r-mal stetig differenzierbaren Funktionen}} - {} {r} -\formuladef dPR {d} - {\eorg{d}{D}imension \eorg{of phase space}{des Phasenraums}} {die} -\formuladef DV {D} - {dielektrische Verschiebung} {die} -\formuladef Det {\text{det}} - {Determinante einer Matrix} {die} -\formuladef Dx {\text{\bf D}_x} - {Jakobimatrix} {die} -\formuladef EF {E} - {elektrische Feldst\"arke} {die} -\formuladef EC {E_C} - {Koerzitivfeldst\"arke} {die} -\formuladef ECnl {E_{\Cnl}} - {elektrische Feldst\"arke \"uber der Probe} {die} -\formuladef dynSys {\vec{f}(\vec{x},\vp)} - {beliebiges dynamisches System} {ein} -\formulamit Effi {f_} {(\cdot,\cdot)} - {} {} {i} -\formuladef falles {\Effi{1}, \Effi{2}, \cdots} - {Komponenten des beliebigen dynamischen Systems} {} -\formuladef F {\text{F}} - {Probenfl\"ache} {die} -\formuladef Fouri {\mathcal{F}} - {Fouriertransformation} {die} -\formuladef Fourin {\text{F}_{i,n}} - {$n$-te Fourierkomponente von \Effi{i}} {die} -\formuladef FOp {\Fouri_{n}} - {Operator f\"ur die $n$-te Fourierkomponente} {der} -\formuladef FB {\text{f}} - {Brennweite} {die} -\formuladef freq {f} - {Frequenz} {die} -\formuladef vf {\vec{f}} - {Vektorfeld} {ein} -\formuladef fa {\freq_a} - {Abtastfrequenz} {die} -\formuladef fgrund {\freq_{ext}} - {Anregungsfrequenz der Schwingung} {die} -\formuladef fstrob {\freq_s} - {Blitzfrequenz des Stroboskops} {die} -\formuladef fvirt {\freq_v} - {virtuelle Frequenz} {die} -\formuladef vfO {\vf(\vO)} - {Vektorfeld f im Ursprung} {} -\formuladef FE {G} - {freie Enthalpie} {die} -\formuladef FEO {\FE_0} - {temperaturunabh\"angiger Anteil der freien Energie} {} -\formuladef h {\text{h}} - {Probendicke} {die} -\formuladef Hrel {H_r} - {relative Helligkeit eines Videobildes} {die} -\formuladef IH {I} - {elektrische Stromst\"arke} {die} -\formuladef Itot {\IH_{tot}} - {Gesamtstromst\"arke} {die} -\formuladef ICnl {\IH_{\Cnl}} - {Strom durch die nichtlineare Kapazit\"at} {der} -\formuladef IRp {\IH_{\Rp}} - {Strom durch den Parallelverlustwiderstand \Rp} {der} -\formuladef je {j} - {Stromdichte} {die} -\formuladef Lx {\text{L}} - {Induktivit\"at der linearen Spule} {die} -% \end{macrocode} -% {\tiny (I would like to name the inductance of a coil "`L"' but it conflicts -% with the coil in \CIRC. Furthermore \Mac{L} is used inside \TeX.} -% \begin{macrocode} -\formuladef vO {\vec{o}} - {Nullvektor} {der} -\formuladef Par {p} - {} {} -\formuladef vp {\vec{\Par}} - {Modellparameter} {die} -\formulaarg Para {\Par_} - {} {} {i} -\formuladef Parai {\Para{1}, \Para{2}, \cdots} - {Komponenten der Modellparameter} {die} -\formuladef Pol {P} - {Polarisation} {die} -\formuladef Poinc {\mathfrak{P}} - {Poincar\'e-Ebene} {die} -\formuladef Pols {\Pol_s} - {spontane Polarisation} {die} -\formuladef Lad {Q} - {elektrische Ladung} {die} -\formuladef Rz {\mathbb{R}} - {reeller Raum} {} -\formuladef Rx {\text{R}} - {Widerstand} {} -% \end{macrocode} -% {\tiny (I would like to name the resistor "`R"' but it conflicts -% with the resistor in \CIRC.)} -% \begin{macrocode} -\formuladef RCnl {\Rx_{\Cnl}} - {linearer Widerstand in der Ersatzschaltung der Probe} {} -\formuladef RL {\Rx_{\Lx}} - {Verlustwiderstand der Spule} {der} -\formuladef Rlin {\Rx_{lin}} - {linearer Verlustwiderstand; \Rlin = \RL + \Rmess} {} -\formuladef Rmess {\Rx_m} - {linearer Me\ss{}widerstand} {} -\formulaarg Rn {\Rz^} - {n-dimensionaler reeller Raum} {} {n} -\formuladef Rp {\Rx_p} - {Parallelverlustwiderstand der nichtlinearen Kapazit\"at} {der} -\formuladef Rs {\Rx_s} - {Serienverlustwiderstand der nichtlinearen Kapazit\"at} {der} -\formuladef Spur {\text{Spur}} - {Spur einer Matrix} {die} -\formuladef tx {t} - {Zeit} {die} -\formuladef T {T} - {Periodendauer} {die} -\formuladef Te {\text{T}} - {Temperatur} {die} -\formuladef ta {\tx_a} - {Abtastzeit} {die} -\formuladef te {\tx_e} - {Delay-Zeit} {die} -\formuladef Tgrund {\T_0} - {Periodendauer der Anregung} {die} -\formuladef TC {\Te_C} - {absolute Curie-Temperatur} {die} -\formuladef TCrit {\Te_{crit}} - {kritische absolute Temperatur} {die} -\formuladef Ux {U} - {Spannung} {die} -% \end{macrocode} -% {\tiny (I would like to name the voltage "`U"' but it conflicts -% with the voltage in \CIRC.)} -% \begin{macrocode} -\formuladef Umg {\mathbb{U}} - {Umgebung} {} -\formuladef Ueff {\Ux_{ef\kern-1pt{f}}} - {Effektivwert der Anregungsspannung} {der} -\formuladef Uext {\Ux_{ext}} - {externe Spannung} {die} -\formuladef UCnl {\Ux_{\Cnl}} - {Spannung \"uber \Cnl} {die} -\formuladef URL {\Ux_{\RL}} - {Spannung \"uber \RL} {die} -\formuladef URs {\Ux_{\Rs}} - {Spannung \"uber \Rs} {die} -\formuladef Vnl {V_{nl}} - {nichtlineares Potential} {} -\formuladef x {x} - {beliebige skalare physikalische Gr\"o\ss{}e} {} -\formuladef dxdt {\dot x} - {Ableitung von x nach der Zeit} {} -\formuladef vx {\vec{x}} - {beliebige vektorielle physikalische Gr\"o\ss{}e} {} -\formuladef vX {\vec{X}} - {Fouriertransformierte der vektoriellen Gr\"o\ss{}e \vx} {} -\formuladef xO {x_0} - {} {} -\formuladef vxO {\vec{\xO}} - {} {} -\formulaarg PotK {\alpha_} - {} {} {i} -\formuladef PotKo {\PotK{2}, \PotK{4}} - {Koeffizienten des nichtlinearen Potentials \Vnl} {die} -\formulaarg LanK {\tilde{\alpha}_} - {} {} {i} -\formuladef LanKo {\LanK{1}, \LanK{2}, \cdots} - {Entwicklungskoeffizienten der Landau-Entwicklung} {die} -\formuladef Feige {\delta} - {Feigenbaum-Konstante} {die} -\formuladef Abli {\partial_i} - {Ableitungsoperator nach der $i$-ten Koordinate} {der} -\formuladef eps {\varepsilon} - {Dielektrizit\"atskonstante} {die} -\formuladef epsO {\eps_0} - {Influenzkonstante $\epsO = 8.84\cdot 10^{-12}\AsVm$} {die} -\formuladef epsr {\eps_r} - {relative Dielektrizit\"atskonstante} {die} -\formuladef OP {\eta} - {Ordnungsparameter} {der} -\formuladef Ev {\eta} - {mit Index: Komponente des Eigenvektors} {der} -\formuladef vEv {\vec{\Ev}} - {Eigenvektor} {der} -\formuladef GOP {\OP^{*}} - {Gleichgewichtswert des Ordnungsparameters} {der} -\formuladef Ewl {\lambda} - {Eigenwert} {der} -\formuladef phistrob {\varphi_s} - {Phasenwinkel des Stroboskops} {der} -\formuladef TGrdC {\vartheta} - {Temperatur in Celsius} {die} -\formuladef ThC {\TGrdC_C} - {Curie-Temperatur} {die} -\formuladef ThCrit {\TGrdC_{crit}} - {kritische Temperatur} {die} -\formuladef oC {\omega} - {Kreisfrequenz $\oC = 2\pi\freq$} {die} -\formuladef oO {\oC_0} - {Grundfrequenz} {die} -\formuladef siehe {\rightarrow} - {siehe} {} -\formuladef drf {\Rightarrow} - {daraus folgt} {} -\fi% end of predefinition -% \end{macrocode} -% -% \begin{macro}{\formulaunit} -% Last but not least in the \Mac{formuladef}-family we define a macro -% \Mac{formulaunit} which is helpful when defining macros for physical -% units. The parameters have the following meaning: -% -% \#1 - macro name \\ -% \#2 - \EngTrans{Vorsatz}{preposition} typed in roman \\ -% \#3 - \EngTrans{Vorsatz}{preposition} typed in greek \\ -% \#4 - the unit \\ -% \#5 - the unit in words -% \begin{macrocode} -\def\formulaunit#1 #2 #3 #4 #5{% - \globaldefs=1% - \expandafter\newcommand\expandafter{\csname#1\endcsname}% - {\relax\ensuremath{\text{\,#2}#3\text{#4}}\xspace}% -% \end{macrocode} -% Here the unit-macro \Mac{\#1} is defined. Used right behind a value -% it is separated from this value by a small space (\Mac{,}). Than follows -% the \EngTrans{Vorsatz}{preposition} in roman (if this parameter is not) -% empty or the \EngTrans{Vorsatz}{preposition} in greek. (I do not know any -% example where a roman {\bf and} a greek \EngTrans{Vorsatz}{preposition} -% is used.) I strongly recommend you to use the upright versions of -% greek letters in \texttt{textcomp.sty} like in the examples below. -% Behind the \EngTrans{Vorsatz}{preposition} follows the unit and as in all -% the macros of the \Mac{formuladef}-family a \Mac{xspace}. -% -% The following three macros do the same job like in the other definitions. -% \begin{macrocode} - \expandafter\newcommand\expandafter{\csname#1doc\endcsname} - {{\em x}\csname#1\endcsname & #5\\}% - \expandafter\newcommand\expandafter{\csname#1txt\endcsname} - {#5}% description of units in words - \expandafter\newcommand\expandafter{\csname#1my\endcsname}% - {{\em x\tt\char92#1} & \csname#1doc\endcsname} - \globaldefs=0}% -% \end{macrocode} -% \end{macro} -% Now we come to some often used units which are predefined in -% the \atname-style (sorry once more for the German descriptions) -% \begin{macrocode} -\ifpredefinition -\formulaunit mn {} {} min {\eorg{minute}{Minute}} -\formulaunit sek {} {} s {\eorg{second}{Sekunde}} -\formulaunit msek {m} {} s {Millisekunde} -\formulaunit musek {} {\text{\textmu}} s {Mikrosekunde} -\formulaunit m {} {} m {Meter} -\formulaunit cm {c} {} m {Zentimeter} -\formulaunit mm {m} {} m {Millimeter} -\formulaunit mum {} {\text{\textmu}} m {Mikrometer} -\formulaunit nm {n} {} m {Nanometer} -\formulaunit li {} {} l {Liter} -\formulaunit ml {m} {} l {Milliliter} -\formulaunit g {} {} g {Gramm} -\formulaunit kg {k} {} g {Kilogramm} -\formulaunit Hz {} {} Hz {Hertz} -\formulaunit kHz {k} {} Hz {Kilohertz} -\formulaunit MHz {M} {} Hz {Megahertz} -\formulaunit MV {M} {} V {Megavolt} -\formulaunit kV {k} {} V {Kilovolt} -\formulaunit Vo {} {} V {Volt} -\formulaunit mV {m} {} V {Millivolt} -\formulaunit Ohm {} {\text{\textohm}} {} {Ohm} -\formulaunit kOhm {k} {\text{\textohm}} {} {Kiloohm} -\formulaunit MOhm {M} {\text{\textohm}} {} {Megaohm} -\formulaunit muF {} {\text{\textmu}} F {Mikrofarad} -\formulaunit nF {n} {} F {Nanofarad} -\formulaunit pF {p} {} F {Picofarad} -\formulaunit He {} {} H {Henry} -\formulaunit mH {m} {} H {Millihenry} -\formulaunit K {} {} K {Kelvin} -\formulaunit grd {} {\text{\textdegree}} {} {Grad} -\formulaunit grdC {} {\text{\textcelsius}} {} {Grad Celsius} -\formulaunit J {} {} {J} {Joule} -\formulaunit muJ {} {\text{\textmu}} {J} {Mikrojoule} -\formulaunit mW {m} {} {W} {Milliwatt} -\formulaunit W {} {} {W} {Watt} -\formulaunit Bit {} {} Bit {Bit} -\formulaunit Byte {} {} HByte {Byte} -\formulaunit kByte {k} {} Byte {Kilobyte} -\formulaunit MByte {M} {} Byte {Megabyte} -\formulaunit Bilderprosek {} {} {\eorg{images}{Bilder}/s} {\eorg{Bilder pro Sekunde}{images per second}} -\formulaunit Bilder {} {} {\eorg{images}{Bilder}} {\eorg{images}{Bilder}} -\formulaunit dpi {} {} {dpi} {\eorg{dots per inch}{Punkte pro Zoll}} -\formulaunit Prozent {} {} {\%} {\eorg{per cent}{Prozent}} -\formulaunit Upromin {} {} {U/min} {Umdrehungen pro Minute} -\formulaunit AsVm {} {} {\ensuremath{\frac{\text{As}}{\text{Vm}}}} - {Amperesekunden pro Voltmeter} -\formulaunit DM {} {} {DM} {DM} -\formulaunit TDM {T} {} {DM} {tausend DM} -\fi% end predefinition -% \end{macrocode} -% -% \subsubsection{Some useful abbreviations} -% -% Now we define some macros to abbreviate some partial derivations. -% They are not complete. Only those which were used in my very own -% texts were included. Add your own ones if you like. -% -% 1.~order without brackets -% \begin{macrocode} -\newcommand{\Odif}[2]{\frac{\partial #1}{\partial #2}} -\newcommand{\odif}[2]{\relax\ensuremath{\Odif{#1}{#2}}} -% \end{macrocode} -% 1.~order with brackets -% \begin{macrocode} -\newcommand{\Pdif}[2]{\left( \odif{#1}{#2} \right)} -\newcommand{\pdif}[2]{\relax\ensuremath{\Pdif{#1}{#2}}} -% \end{macrocode} -% 2.~order without brackets \EngTrans{Ableitung nach}{after} a single variable -% \begin{macrocode} -\newcommand{\OSdif}[2]{\frac{\partial^2 #1}{\partial #2^2}} -\newcommand{\osdif}[2]{\relax\ensuremath{\OSdif{#1}{#2}}} -% \end{macrocode} -% 2.~order without brackets -% \begin{macrocode} -\newcommand{\OOdif}[3]{\frac{\partial^2 #1}{\partial #2 \partial #3}} -\newcommand{\oodif}[3]{\relax\ensuremath{\OOdif{#1}{#2}{#3}}} -% \end{macrocode} -% 2.~order with brackets -% \begin{macrocode} -\newcommand{\PPdif}[3]{\left( \oodif{#1}{#2}{#3} \right)} -\newcommand{\ppdif}[3]{\relax\ensuremath{\PPdif{#1}{#2}{#3}}} -% \end{macrocode} -% 3.~order without brackets -% \begin{macrocode} -\newcommand{\OOOdif}[4]{\frac{\partial^3 #1}{\partial #2 \partial #3 \partial #4}} -\newcommand{\ooodif}[4]{\relax\ensuremath{\OOOdif{#1}{#2}{#3}{#4}}} -% \end{macrocode} -% 3.~order with brackets -% \begin{macrocode} -\newcommand{\PPPdif}[4]{\left( \ooodif{#1}{#2}{#3}{#4} \right)} -\newcommand{\pppdif}[4]{\relax\ensuremath{\PPPdif{#1}{#2}{#3}{#4}}} -% \end{macrocode} -% 3.~order without brackets in which the function is derived two times -% \EngTrans{nach}{after} one variable -% \begin{macrocode} -\newcommand{\OOSdif}[3]{\frac{\partial^3 #1}{\partial #2^2\partial #3}} -\newcommand{\oosdif}[3]{\relax\ensuremath{\OOSdif{#1}{#2}{#3}}} -% \end{macrocode} -% Some further useful abbreviations. -% \begin{macrocode} -\newcommand{\beq}{\begin{equation}} -\newcommand{\eeq}{\end{equation}} -\newcommand{\bea}{\begin{eqnarray}} -\newcommand{\eea}{\end{eqnarray}} -% \end{macrocode} -% \iffalse -% Hmmm, wie macht man das mit einem '*' sauber ???? -% \catcode\blablabla --- da mu\ss{} ich mich nochmal Schlau machen (at) -% \chardef\@ccst\the\catcode`\* -% \catcode`\*=11 -% \newcommand{\be*}{\begin{eqnarray*}} -% \newcommand{\ee*}{\end{eqnarray*}} -% \catcode`\*=\@ccst -% %% \catcode`\*=12 -% \fi -% \begin{macrocode} -\def\be*{\begin{eqnarray*}} -\def\ee*{\end{eqnarray*}} -% \end{macrocode} -% \begin{macro}{\buildrul} -% To define mathematical symbols as \Mac{buildrel} we define -% \Mac{buildrul} which puts its second argument in small font -% under the first argument. -% \begin{macrocode} -\def\buildrul#1\over #2{\mathrel {\mathop {#1}\limits_{#2}}} -% \end{macrocode} -% \end{macro} -% \Finale -%</formula> -%<*prepverz> -@echo off -set name=zw$$$ -echo \documentclass{article} > %name% -echo %%%%%% uncomment this if you want descriptions in German language >> %name% -echo %% \usepackage{german} >> %name% -echo \usepackage[T1]{fontenc} >> %name% -echo \usepackage{formula,longtable,vmargin} >> %name% -echo \setpapersize{A4} >> %name% -echo \setmargins{20mm}{9mm}{180mm}{240mm}{12pt}{11mm}{0pt}{11mm} >> %name% -echo \input %1 >> %name% -echo \setlongtables >> %name% -echo \begin{document} >> %name% -echo \begin{longtable}{llp{10cm}} >> %name% -grep "^ *\\formula" %1 >> %name% -echo \end{longtable} >> %name% -echo \end{document} >> %name% -type %name% | sed -e "/^\\formula[^ ]* *{*\([A-Za-z]*\)}* .*/s//\\\1my/" > zw$$$$ -sed -e "/^File /d" zw$$$$ > abverz.tex -del %name% -del zw$$$$ -rem mit GnuGrep kann "grep -h" aufgerufen werden - kein Filename - zweiter -rem sed-Aufruf entf"allt -rem eleganter w"are (ohne Zwischendatei zz$$$): -rem grep -h "^ *\\formula" %1 | sed -e "/^\\formula[^ ]* *{*\([A-Za-z]*\)}* .*/s//\\\1my/" -rem irgendwie m"ochte DOS die Pipe nicht so richtig und es funktionukelt -rem so nur im OS/2 - -%</prepverz> -%<*prepverzsh> -#!/bin/sh -name=abverz.tex -echo \\documentclass{article} > $name -echo %%% uncomment this if you want descriptions in German language >> $name -echo % \\usepackage{german} >> $name -echo \\usepackage[T1]{fontenc} >> $name -echo "\\usepackage{formula,longtable,vmargin}" >> $name -echo \\setpapersize{A4} >> $name -echo \\setmargins{20mm}{9mm}{180mm}{240mm}{12pt}{11mm}{0pt}{11mm} >> $name -echo \\input $1 >> $name -echo \\setlongtables >> $name -echo \\begin{document} >> $name -echo \\begin{longtable}{llp{10cm}} >> $name -grep -h "^ *\\\\formula" $1 | sed -e "/^\\\\formula[^ ]* *{*\([A-Za-z]*\)}* .*/s//\\\\\\1my/" >> $name -echo \\end{longtable} >> $name -echo \\end{document} >> $name - -%</prepverzsh> -%<*exampl> - -\bigskip\bigskip\noindent -Und hier noch einmal alle definierten Gr\"o\ss{}en auf einen Blick: - -\medskip -\begin{tabular}{@{}ll} -\IQdoc -\Kldoc -\Dudoc -\Klidoc -\Duidoc -\KlTdoc -\KlNdoc -\DuTdoc -\DuNdoc -\Kltdoc -\end{tabular} -\end{document} -%</exampl> diff --git a/Master/texmf-dist/source/latex/formula/formula.ins b/Master/texmf-dist/source/latex/formula/formula.ins deleted file mode 100644 index d6bd1dc1e29..00000000000 --- a/Master/texmf-dist/source/latex/formula/formula.ins +++ /dev/null @@ -1,30 +0,0 @@ -\def\batchfile{formula.ins} -\input docstrip -\keepsilent -\preamble - -Copyleft 1997 Andreas Tille - -Usage without any waranty - -\endpreamble - - \generate{ - \file{formula.sty} {\from{formula.dtx}{formula}} - \file{formula.drv} {\from{formula.dtx}{driver}} - \file{formpel.tex} {\from{formula.dtx}{exampl}} - } -\def\mypostamble{} -\usepostamble\mypostamble -\def\mypreamble{} -\usepreamble\mypreamble - \generate{ - \file{prepverz.bat} {\from{formula.dtx}{prepverz}} - \file{prepverz.sh} {\from{formula.dtx}{prepverzsh}} - } - -\typeout{******************************************************************************} -\typeout{Copy formula.sty into TEXINPUT-PATH.} -\typeout{Get documentation by running "latex formula.drv" twice.} -\typeout{******************************************************************************} -\end diff --git a/Master/texmf-dist/source/latex/formula/install.eng b/Master/texmf-dist/source/latex/formula/install.eng deleted file mode 100644 index 7a758d8bf20..00000000000 --- a/Master/texmf-dist/source/latex/formula/install.eng +++ /dev/null @@ -1,27 +0,0 @@ -Installation: - -1. latex formula.ins - --->formula.sty - formula.drv - formpel.tex - prepverz.bat - prepverz - -2. copy formula.sty to TEXINPUT directory - -3. under DOS: prepverz.bat to PATH directory. - under UNIX: mv prepverz.sh prepverz; chmod 755 prepverz - to PATH directory - -4. latex formula.drv (3 times) - latex formpel (2 times) - -5. prepverz formula.sty - German (object to change!!) description (see comments in abverz.tex !!) - latex abverz (2 times) - -X. Using the Makefile some steps can be done automatically. - -Andreas Tille (tille@physik.uni-halle.de) - diff --git a/Master/texmf-dist/source/latex/formula/install.ger b/Master/texmf-dist/source/latex/formula/install.ger deleted file mode 100644 index d846878a91b..00000000000 --- a/Master/texmf-dist/source/latex/formula/install.ger +++ /dev/null @@ -1,27 +0,0 @@ -Installation: - -1. latex formula.ins - --->formula.sty - formula.drv - formpel.tex - prepverz.bat - prepverz - -2. formula.sty-Datei in TEXINPUT-Verzeichnis - -3. unter DOS: prepverz.bat in PATH-Verzeichnis. - unter UNIX: mv prepverz.sh prepverz; chmod 755 prepverz - in PATH-Verzeichnis - -4. latex formula.drv (3x) - latex formpel (2x) - -5. prepverz formula.sty - Deutsche Beschreibung -> Kommentar in abverz.tex !! - latex abverz (2x) - -X. Mit dem beigef"ugten Makefile kan man einige Schritte automatisieren - -Andreas Tille (tille@physik.uni-halle.de) - diff --git a/Master/texmf-dist/source/latex/formula/newform.bat b/Master/texmf-dist/source/latex/formula/newform.bat deleted file mode 100644 index 9babdb5b71e..00000000000 --- a/Master/texmf-dist/source/latex/formula/newform.bat +++ /dev/null @@ -1,5 +0,0 @@ -#!/bin/sh
-sed "s/atmath/formula/g" %1 > zw1
-sed "s/atdiffdef/formuladiff/g" zw1 > zw2
-sed "s/atunitdef/formulaunit/g" zw2 > %1
-del zw1 zw2
diff --git a/Master/texmf-dist/source/latex/formula/newformula b/Master/texmf-dist/source/latex/formula/newformula deleted file mode 100644 index d88fce3161c..00000000000 --- a/Master/texmf-dist/source/latex/formula/newformula +++ /dev/null @@ -1,7 +0,0 @@ -#!/bin/sh -cat $1 | \ - sed "s/atmath/formula/g" | \ - sed "s/atdiffdef/formuladiff/g" | \ - sed "s/atunitdef/formulaunit/g" | \ -cat > $1.$$ -mv $1.$$ $1 diff --git a/Master/texmf-dist/source/latex/formula/prepverz.bat b/Master/texmf-dist/source/latex/formula/prepverz.bat deleted file mode 100644 index 71778d0bace..00000000000 --- a/Master/texmf-dist/source/latex/formula/prepverz.bat +++ /dev/null @@ -1,30 +0,0 @@ -
-
-@echo off
-set name=zw$$$
-echo \documentclass{article} > %name%
-echo %%%%%% uncomment this if you want descriptions in German language >> %name%
-echo %% \usepackage{german} >> %name%
-echo \usepackage[T1]{fontenc} >> %name%
-echo \usepackage{formula,longtable,vmargin} >> %name%
-echo \setpapersize{A4} >> %name%
-echo \setmargins{20mm}{9mm}{180mm}{240mm}{12pt}{11mm}{0pt}{11mm} >> %name%
-echo \input %1 >> %name%
-echo \setlongtables >> %name%
-echo \begin{document} >> %name%
-echo \begin{longtable}{llp{10cm}} >> %name%
-grep "^ *\\formula" %1 >> %name%
-echo \end{longtable} >> %name%
-echo \end{document} >> %name%
-type %name% | sed -e "/^\\formula[^ ]* *{*\([A-Za-z]*\)}* .*/s//\\\1my/" > zw$$$$
-sed -e "/^File /d" zw$$$$ > abverz.tex
-del %name%
-del zw$$$$
-rem mit GnuGrep kann "grep -h" aufgerufen werden - kein Filename - zweiter
-rem sed-Aufruf entf"allt
-rem eleganter w"are (ohne Zwischendatei zz$$$):
-rem grep -h "^ *\\formula" %1 | sed -e "/^\\formula[^ ]* *{*\([A-Za-z]*\)}* .*/s//\\\1my/"
-rem irgendwie m"ochte DOS die Pipe nicht so richtig und es funktionukelt
-rem so nur im OS/2
-
-
diff --git a/Master/texmf-dist/source/latex/formula/prepverz.sh b/Master/texmf-dist/source/latex/formula/prepverz.sh deleted file mode 100644 index 689cd792d38..00000000000 --- a/Master/texmf-dist/source/latex/formula/prepverz.sh +++ /dev/null @@ -1,20 +0,0 @@ - - -#!/bin/sh -name=abverz.tex -echo \\documentclass{article} > $name -echo %%% uncomment this if you want descriptions in German language >> $name -echo % \\usepackage{german} >> $name -echo \\usepackage[T1]{fontenc} >> $name -echo "\\usepackage{formula,longtable,vmargin}" >> $name -echo \\setpapersize{A4} >> $name -echo \\setmargins{20mm}{9mm}{180mm}{240mm}{12pt}{11mm}{0pt}{11mm} >> $name -echo \\input $1 >> $name -echo \\setlongtables >> $name -echo \\begin{document} >> $name -echo \\begin{longtable}{llp{10cm}} >> $name -grep -h "^ *\\\\formula" $1 | sed -e "/^\\\\formula[^ ]* *{*\([A-Za-z]*\)}* .*/s//\\\\\\1my/" >> $name -echo \\end{longtable} >> $name -echo \\end{document} >> $name - - diff --git a/Master/texmf-dist/tex/latex/formula/formula.sty b/Master/texmf-dist/tex/latex/formula/formula.sty deleted file mode 100644 index 2678c1d62c5..00000000000 --- a/Master/texmf-dist/tex/latex/formula/formula.sty +++ /dev/null @@ -1,372 +0,0 @@ -%% -%% This is file `formula.sty', -%% generated with the docstrip utility. -%% -%% The original source files were: -%% -%% formula.dtx (with options: `formula') -%% -%% Copyleft 1997 Andreas Tille -%% -%% Usage without any waranty -%% - -\csname @ifundefined\endcsname{formuladef}{}{\endinput} -\NeedsTeXFormat{LaTeX2e}[1997/12/01] -\ProvidesPackage{formula} -\RequirePackage{amsfonts} -\RequirePackage{amstext} -\RequirePackage{textcomp}[1998/03/05 v1.9n] -\RequirePackage{xspace} -\def\formuladef#1 #2 #3 #4{% - \globaldefs=1% - \expandafter\newcommand\expandafter{\csname#1\endcsname} - {\relax\ensuremath{#2}\xspace}% - \expandafter\newcommand\expandafter{\csname#1doc\endcsname} - {\csname#1\endcsname & #3\\}% - \expandafter\newcommand\expandafter{\csname#1art\endcsname} - {#4\xspace}% der Artikel - \expandafter\newcommand\expandafter{\csname#1txt\endcsname} - {#3\xspace}% der beschreibende Text - \expandafter\newcommand\expandafter{\csname#1my\endcsname} - {{\tt\char92#1} & \csname#1doc\endcsname} - \globaldefs=0}% -\def\formulaarg#1 #2 #3 #4 #5{% - \globaldefs=1% - \expandafter\newcommand\expandafter{\csname#1\endcsname}[1]% - {\relax\ensuremath{#2{##1}}\xspace}% - \expandafter\newcommand\expandafter{\csname#1doc\endcsname}% - {\csname#1\endcsname{#5} & #3\\}% - \expandafter\newcommand\expandafter{\csname#1art\endcsname}% - {#4}% der Artikel - \expandafter\newcommand\expandafter{\csname#1txt\endcsname}% - {#3}% der beschreibende Text - \expandafter\newcommand\expandafter{\csname#1my\endcsname}% - {{\tt\char92#1\{}{\em #5}{\tt \}} & \csname#1doc\endcsname} - \globaldefs=0}% -\def\formulamit#1 #2 #3 #4 #5 #6{% - \globaldefs=1% - \expandafter\newcommand\expandafter{\csname#1\endcsname}[1]% - {\relax\ensuremath{#2{##1}#3}\xspace}% - \expandafter\newcommand\expandafter{\csname#1doc\endcsname} - {\csname#1\endcsname{#6} & #4\\}% - \expandafter\newcommand\expandafter{\csname#1art\endcsname} - {#5}% der Artikel - \expandafter\newcommand\expandafter{\csname#1txt\endcsname} - {#4}% der beschreibende Text - \expandafter\newcommand\expandafter{\csname#1my\endcsname}% - {{\tt\char92#1\{}{\em #6}{\tt \}} & \csname#1doc\endcsname} - \globaldefs=0}% -\def\formuladiff#1 #2 #3 #4 #5 #6{% - \globaldefs=1% - \expandafter\newcommand\expandafter{\csname#1\endcsname}[1]% - {\relax\ensuremath{\frac{#2^{##1}#3}{#2#4^{##1}}}\xspace}% - \expandafter\newcommand\expandafter{\csname#1doc\endcsname}% - {\csname#1\endcsname{n} & #5\\}% - \expandafter\newcommand\expandafter{\csname#1art\endcsname}% - {#6}% der Artikel - \expandafter\newcommand\expandafter{\csname#1txt\endcsname}% - {#5}% der beschreibende Text - \expandafter\newcommand\expandafter{\csname#1my\endcsname}% - {{\tt\char92#1\{}{\em n}{\tt \}} & \csname#1doc\endcsname} - \globaldefs=0}% -\newcommand{\eorg}[2]{% - \expandafter\ifx\csname l@german\endcsname\relax #1% - \else \ifnum\csname l@german\endcsname=\language #2% - \else #1\fi\fi} -\newif\ifpredefinition -\predefinitiontrue -\newcommand{\NoPreDefinition}{\predefinitionfalse} -\DeclareOption{nopredefinition}{\NoPreDefinition} -\ProcessOptions -\ifpredefinition -\formuladef MA {\text{\bf A}} - {\eorg{m}{M}atrix A} {\eorg{the}{die}} -\formuladef Cmess {\text{C}_m} - {\eorg{linear capacitor for measurement} - {linearer Me\ss{}kondensator}} {} -\formuladef Cnl {C_{nl}} - {\eorg{nonlinear capacity of the sample} - {nichtlineare Kapazit\"at der Probe}} {\eorg{the}{die}} -\formulaarg Cr {\mathbb{C}^} - {\eorg{set of r times continuous differentiable functions} - {Menge der r-mal stetig differenzierbaren Funktionen}} - {} {r} -\formuladef dPR {d} - {\eorg{d}{D}imension \eorg{of phase space}{des Phasenraums}} {die} -\formuladef DV {D} - {dielektrische Verschiebung} {die} -\formuladef Det {\text{det}} - {Determinante einer Matrix} {die} -\formuladef Dx {\text{\bf D}_x} - {Jakobimatrix} {die} -\formuladef EF {E} - {elektrische Feldst\"arke} {die} -\formuladef EC {E_C} - {Koerzitivfeldst\"arke} {die} -\formuladef ECnl {E_{\Cnl}} - {elektrische Feldst\"arke \"uber der Probe} {die} -\formuladef dynSys {\vec{f}(\vec{x},\vp)} - {beliebiges dynamisches System} {ein} -\formulamit Effi {f_} {(\cdot,\cdot)} - {} {} {i} -\formuladef falles {\Effi{1}, \Effi{2}, \cdots} - {Komponenten des beliebigen dynamischen Systems} {} -\formuladef F {\text{F}} - {Probenfl\"ache} {die} -\formuladef Fouri {\mathcal{F}} - {Fouriertransformation} {die} -\formuladef Fourin {\text{F}_{i,n}} - {$n$-te Fourierkomponente von \Effi{i}} {die} -\formuladef FOp {\Fouri_{n}} - {Operator f\"ur die $n$-te Fourierkomponente} {der} -\formuladef FB {\text{f}} - {Brennweite} {die} -\formuladef freq {f} - {Frequenz} {die} -\formuladef vf {\vec{f}} - {Vektorfeld} {ein} -\formuladef fa {\freq_a} - {Abtastfrequenz} {die} -\formuladef fgrund {\freq_{ext}} - {Anregungsfrequenz der Schwingung} {die} -\formuladef fstrob {\freq_s} - {Blitzfrequenz des Stroboskops} {die} -\formuladef fvirt {\freq_v} - {virtuelle Frequenz} {die} -\formuladef vfO {\vf(\vO)} - {Vektorfeld f im Ursprung} {} -\formuladef FE {G} - {freie Enthalpie} {die} -\formuladef FEO {\FE_0} - {temperaturunabh\"angiger Anteil der freien Energie} {} -\formuladef h {\text{h}} - {Probendicke} {die} -\formuladef Hrel {H_r} - {relative Helligkeit eines Videobildes} {die} -\formuladef IH {I} - {elektrische Stromst\"arke} {die} -\formuladef Itot {\IH_{tot}} - {Gesamtstromst\"arke} {die} -\formuladef ICnl {\IH_{\Cnl}} - {Strom durch die nichtlineare Kapazit\"at} {der} -\formuladef IRp {\IH_{\Rp}} - {Strom durch den Parallelverlustwiderstand \Rp} {der} -\formuladef je {j} - {Stromdichte} {die} -\formuladef Lx {\text{L}} - {Induktivit\"at der linearen Spule} {die} -\formuladef vO {\vec{o}} - {Nullvektor} {der} -\formuladef Par {p} - {} {} -\formuladef vp {\vec{\Par}} - {Modellparameter} {die} -\formulaarg Para {\Par_} - {} {} {i} -\formuladef Parai {\Para{1}, \Para{2}, \cdots} - {Komponenten der Modellparameter} {die} -\formuladef Pol {P} - {Polarisation} {die} -\formuladef Poinc {\mathfrak{P}} - {Poincar\'e-Ebene} {die} -\formuladef Pols {\Pol_s} - {spontane Polarisation} {die} -\formuladef Lad {Q} - {elektrische Ladung} {die} -\formuladef Rz {\mathbb{R}} - {reeller Raum} {} -\formuladef Rx {\text{R}} - {Widerstand} {} -\formuladef RCnl {\Rx_{\Cnl}} - {linearer Widerstand in der Ersatzschaltung der Probe} {} -\formuladef RL {\Rx_{\Lx}} - {Verlustwiderstand der Spule} {der} -\formuladef Rlin {\Rx_{lin}} - {linearer Verlustwiderstand; \Rlin = \RL + \Rmess} {} -\formuladef Rmess {\Rx_m} - {linearer Me\ss{}widerstand} {} -\formulaarg Rn {\Rz^} - {n-dimensionaler reeller Raum} {} {n} -\formuladef Rp {\Rx_p} - {Parallelverlustwiderstand der nichtlinearen Kapazit\"at} {der} -\formuladef Rs {\Rx_s} - {Serienverlustwiderstand der nichtlinearen Kapazit\"at} {der} -\formuladef Spur {\text{Spur}} - {Spur einer Matrix} {die} -\formuladef tx {t} - {Zeit} {die} -\formuladef T {T} - {Periodendauer} {die} -\formuladef Te {\text{T}} - {Temperatur} {die} -\formuladef ta {\tx_a} - {Abtastzeit} {die} -\formuladef te {\tx_e} - {Delay-Zeit} {die} -\formuladef Tgrund {\T_0} - {Periodendauer der Anregung} {die} -\formuladef TC {\Te_C} - {absolute Curie-Temperatur} {die} -\formuladef TCrit {\Te_{crit}} - {kritische absolute Temperatur} {die} -\formuladef Ux {U} - {Spannung} {die} -\formuladef Umg {\mathbb{U}} - {Umgebung} {} -\formuladef Ueff {\Ux_{ef\kern-1pt{f}}} - {Effektivwert der Anregungsspannung} {der} -\formuladef Uext {\Ux_{ext}} - {externe Spannung} {die} -\formuladef UCnl {\Ux_{\Cnl}} - {Spannung \"uber \Cnl} {die} -\formuladef URL {\Ux_{\RL}} - {Spannung \"uber \RL} {die} -\formuladef URs {\Ux_{\Rs}} - {Spannung \"uber \Rs} {die} -\formuladef Vnl {V_{nl}} - {nichtlineares Potential} {} -\formuladef x {x} - {beliebige skalare physikalische Gr\"o\ss{}e} {} -\formuladef dxdt {\dot x} - {Ableitung von x nach der Zeit} {} -\formuladef vx {\vec{x}} - {beliebige vektorielle physikalische Gr\"o\ss{}e} {} -\formuladef vX {\vec{X}} - {Fouriertransformierte der vektoriellen Gr\"o\ss{}e \vx} {} -\formuladef xO {x_0} - {} {} -\formuladef vxO {\vec{\xO}} - {} {} -\formulaarg PotK {\alpha_} - {} {} {i} -\formuladef PotKo {\PotK{2}, \PotK{4}} - {Koeffizienten des nichtlinearen Potentials \Vnl} {die} -\formulaarg LanK {\tilde{\alpha}_} - {} {} {i} -\formuladef LanKo {\LanK{1}, \LanK{2}, \cdots} - {Entwicklungskoeffizienten der Landau-Entwicklung} {die} -\formuladef Feige {\delta} - {Feigenbaum-Konstante} {die} -\formuladef Abli {\partial_i} - {Ableitungsoperator nach der $i$-ten Koordinate} {der} -\formuladef eps {\varepsilon} - {Dielektrizit\"atskonstante} {die} -\formuladef epsO {\eps_0} - {Influenzkonstante $\epsO = 8.84\cdot 10^{-12}\AsVm$} {die} -\formuladef epsr {\eps_r} - {relative Dielektrizit\"atskonstante} {die} -\formuladef OP {\eta} - {Ordnungsparameter} {der} -\formuladef Ev {\eta} - {mit Index: Komponente des Eigenvektors} {der} -\formuladef vEv {\vec{\Ev}} - {Eigenvektor} {der} -\formuladef GOP {\OP^{*}} - {Gleichgewichtswert des Ordnungsparameters} {der} -\formuladef Ewl {\lambda} - {Eigenwert} {der} -\formuladef phistrob {\varphi_s} - {Phasenwinkel des Stroboskops} {der} -\formuladef TGrdC {\vartheta} - {Temperatur in Celsius} {die} -\formuladef ThC {\TGrdC_C} - {Curie-Temperatur} {die} -\formuladef ThCrit {\TGrdC_{crit}} - {kritische Temperatur} {die} -\formuladef oC {\omega} - {Kreisfrequenz $\oC = 2\pi\freq$} {die} -\formuladef oO {\oC_0} - {Grundfrequenz} {die} -\formuladef siehe {\rightarrow} - {siehe} {} -\formuladef drf {\Rightarrow} - {daraus folgt} {} -\fi% end of predefinition -\def\formulaunit#1 #2 #3 #4 #5{% - \globaldefs=1% - \expandafter\newcommand\expandafter{\csname#1\endcsname}% - {\relax\ensuremath{\text{\,#2}#3\text{#4}}\xspace}% - \expandafter\newcommand\expandafter{\csname#1doc\endcsname} - {{\em x}\csname#1\endcsname & #5\\}% - \expandafter\newcommand\expandafter{\csname#1txt\endcsname} - {#5}% description of units in words - \expandafter\newcommand\expandafter{\csname#1my\endcsname}% - {{\em x\tt\char92#1} & \csname#1doc\endcsname} - \globaldefs=0}% -\ifpredefinition -\formulaunit mn {} {} min {\eorg{minute}{Minute}} -\formulaunit sek {} {} s {\eorg{second}{Sekunde}} -\formulaunit msek {m} {} s {Millisekunde} -\formulaunit musek {} {\text{\textmu}} s {Mikrosekunde} -\formulaunit m {} {} m {Meter} -\formulaunit cm {c} {} m {Zentimeter} -\formulaunit mm {m} {} m {Millimeter} -\formulaunit mum {} {\text{\textmu}} m {Mikrometer} -\formulaunit nm {n} {} m {Nanometer} -\formulaunit li {} {} l {Liter} -\formulaunit ml {m} {} l {Milliliter} -\formulaunit g {} {} g {Gramm} -\formulaunit kg {k} {} g {Kilogramm} -\formulaunit Hz {} {} Hz {Hertz} -\formulaunit kHz {k} {} Hz {Kilohertz} -\formulaunit MHz {M} {} Hz {Megahertz} -\formulaunit MV {M} {} V {Megavolt} -\formulaunit kV {k} {} V {Kilovolt} -\formulaunit Vo {} {} V {Volt} -\formulaunit mV {m} {} V {Millivolt} -\formulaunit Ohm {} {\text{\textohm}} {} {Ohm} -\formulaunit kOhm {k} {\text{\textohm}} {} {Kiloohm} -\formulaunit MOhm {M} {\text{\textohm}} {} {Megaohm} -\formulaunit muF {} {\text{\textmu}} F {Mikrofarad} -\formulaunit nF {n} {} F {Nanofarad} -\formulaunit pF {p} {} F {Picofarad} -\formulaunit He {} {} H {Henry} -\formulaunit mH {m} {} H {Millihenry} -\formulaunit K {} {} K {Kelvin} -\formulaunit grd {} {\text{\textdegree}} {} {Grad} -\formulaunit grdC {} {\text{\textcelsius}} {} {Grad Celsius} -\formulaunit J {} {} {J} {Joule} -\formulaunit muJ {} {\text{\textmu}} {J} {Mikrojoule} -\formulaunit mW {m} {} {W} {Milliwatt} -\formulaunit W {} {} {W} {Watt} -\formulaunit Bit {} {} Bit {Bit} -\formulaunit Byte {} {} HByte {Byte} -\formulaunit kByte {k} {} Byte {Kilobyte} -\formulaunit MByte {M} {} Byte {Megabyte} -\formulaunit Bilderprosek {} {} {\eorg{images}{Bilder}/s} {\eorg{Bilder pro Sekunde}{images per second}} -\formulaunit Bilder {} {} {\eorg{images}{Bilder}} {\eorg{images}{Bilder}} -\formulaunit dpi {} {} {dpi} {\eorg{dots per inch}{Punkte pro Zoll}} -\formulaunit Prozent {} {} {\%} {\eorg{per cent}{Prozent}} -\formulaunit Upromin {} {} {U/min} {Umdrehungen pro Minute} -\formulaunit AsVm {} {} {\ensuremath{\frac{\text{As}}{\text{Vm}}}} - {Amperesekunden pro Voltmeter} -\formulaunit DM {} {} {DM} {DM} -\formulaunit TDM {T} {} {DM} {tausend DM} -\fi% end predefinition -\newcommand{\Odif}[2]{\frac{\partial #1}{\partial #2}} -\newcommand{\odif}[2]{\relax\ensuremath{\Odif{#1}{#2}}} -\newcommand{\Pdif}[2]{\left( \odif{#1}{#2} \right)} -\newcommand{\pdif}[2]{\relax\ensuremath{\Pdif{#1}{#2}}} -\newcommand{\OSdif}[2]{\frac{\partial^2 #1}{\partial #2^2}} -\newcommand{\osdif}[2]{\relax\ensuremath{\OSdif{#1}{#2}}} -\newcommand{\OOdif}[3]{\frac{\partial^2 #1}{\partial #2 \partial #3}} -\newcommand{\oodif}[3]{\relax\ensuremath{\OOdif{#1}{#2}{#3}}} -\newcommand{\PPdif}[3]{\left( \oodif{#1}{#2}{#3} \right)} -\newcommand{\ppdif}[3]{\relax\ensuremath{\PPdif{#1}{#2}{#3}}} -\newcommand{\OOOdif}[4]{\frac{\partial^3 #1}{\partial #2 \partial #3 \partial #4}} -\newcommand{\ooodif}[4]{\relax\ensuremath{\OOOdif{#1}{#2}{#3}{#4}}} -\newcommand{\PPPdif}[4]{\left( \ooodif{#1}{#2}{#3}{#4} \right)} -\newcommand{\pppdif}[4]{\relax\ensuremath{\PPPdif{#1}{#2}{#3}{#4}}} -\newcommand{\OOSdif}[3]{\frac{\partial^3 #1}{\partial #2^2\partial #3}} -\newcommand{\oosdif}[3]{\relax\ensuremath{\OOSdif{#1}{#2}{#3}}} -\newcommand{\beq}{\begin{equation}} -\newcommand{\eeq}{\end{equation}} -\newcommand{\bea}{\begin{eqnarray}} -\newcommand{\eea}{\end{eqnarray}} -\def\be*{\begin{eqnarray*}} -\def\ee*{\end{eqnarray*}} -\def\buildrul#1\over #2{\mathrel {\mathop {#1}\limits_{#2}}} -\endinput -%% -%% End of file `formula.sty'. diff --git a/Master/tlpkg/libexec/ctan2tds b/Master/tlpkg/libexec/ctan2tds index 99d8d7b9f22..c223304b8c8 100755 --- a/Master/tlpkg/libexec/ctan2tds +++ b/Master/tlpkg/libexec/ctan2tds @@ -259,6 +259,7 @@ $Master = "$mydir/../.."; 'fontinst', "&MAKEfontinst", 'fontname', "die 'skipping, done through tl-update-auto'", 'footnpag', "&MAKEfootnpag", + 'formula', "die 'skipping, requires scripts, very old'", 'fourier', "&MAKEflatten", 'fouriernc', "&MAKEflatten", 'fp', "&MAKEfp", diff --git a/Master/tlpkg/tlpsrc/collection-science.tlpsrc b/Master/tlpkg/tlpsrc/collection-science.tlpsrc index 61e878a6980..1033b9a9110 100644 --- a/Master/tlpkg/tlpsrc/collection-science.tlpsrc +++ b/Master/tlpkg/tlpsrc/collection-science.tlpsrc @@ -21,7 +21,6 @@ depend digiconfigs depend dyntree depend eltex depend engtlc -depend formula depend fouridx depend functan depend galois diff --git a/Master/tlpkg/tlpsrc/formula.tlpsrc b/Master/tlpkg/tlpsrc/formula.tlpsrc deleted file mode 100644 index e69de29bb2d..00000000000 --- a/Master/tlpkg/tlpsrc/formula.tlpsrc +++ /dev/null |