% % Makra pouzite pri sadzani zbierky prikladov % z Teorie grafov % \ProvidesPackage{grafy-zbierka} % % VERSION % \newcommand{\version}{release 0.2.2 build 2003-07-18} %% %% Pouzitie: %% \cislo {cela_cast} {desatinna_cast} %% \cisloexp {cela_cast} {desatinna_cast} {exponent} %% %\def\cislo#1.#2{\ensuremath{#1.#2}} %\def\cisloexp#1.#2^#3{\cislo #1.#2\ensuremath{\;10^{#3}}} %% Nejake casto pouzivane slova: % elektron: %\def\el#1{elek\-tr\'{o}\-n#1} % elektromagnetick: %\def\elmag#1{elek\-tro\-mag\-ne\-tic\-k#1} %% %% Nastavenie rozmerov \unitlength=1mm % Viacriadkova rovnica sa sadza cez prostredie 'eqnarray' % - nastavenie sirky medzi stlpcami %\setlength\arraycolsep{2pt} %\linespread{1.3} % riadkovanie %%% %%% NEPTO settings %%% % vyskyt "vdov" a "sirôtok" \clubpenalty=10000 % sirôtky - 1. a 2. riadok \widowpenalty=10000 % vdova - posledny riadok odstavca \interlinepenalty=10 % lepsie je zlomit medzi odstavcami % % Paragraph macro definition (\p) % \setlength{\parindent}{0pt} \setlength{\parskip}{\medskipamount} %\def\p{\par \noindent \parindent = 0pt \parskip = 7pt} \def\p{\par} % % New characters % \newcommand{\cent}{\textrm{c\kern-0.3em\small$|$}} \newcommand{\lb}{[\kern-0.6mm [} \newcommand{\rb}{]\kern-0.6mm ]} \newcommand{\M}{\mathcal{M}} \newcommand{\W}{\mathcal{W}} %\newcommand{\UU}{\bigsqcup_{0}^{\infty}} \DeclareMathSymbol{\UUsum}{\mathop}{symbols}{"74} \newcommand{\UU}{\UUsum_{0}^{\infty}} %\newcommand{\notsubseteq}{\subseteq\kern-0.8em|} %\newcommand{\notsqsubseteq}{\sqsubseteq\kern-0.8em|} %\newcommand{\nottrianglelefteq}{\trianglelefteq\kern-0.8em|} \def\notsubseteq{\mathrel{\m@th\mathpalette\c@ncel\subseteq}} \def\notsqsubseteq{\mathrel{\m@th\mathpalette\c@ncel\sqsubseteq}} \def\nottrianglelefteq{\mathrel{\m@th\mathpalette\c@ncel\trianglelefteq}} \newcommand{\efsubseteq}{\trianglelefteq} \newcommand{\notefsubseteq}{\nottrianglelefteq} % % \cmd % %\def\cmd#1{\bf{#1}} %\newcommand{\cmd}[1]{ ~{ \bf{#1} }~ } \def\cmd#1{{ \bf{#1} }} \def\stvorcek#1{ % stvorcek premmennej velkosti \hbox {\vrule height#1pt depth0pt width#1pt \hss} } %% %% Images %% %% \inputImage{label}{width}{file}{caption} \newcommand{\inputImage}[5][hbt!]{% \begin{figure}[#1]% \begin{center}% \includegraphics[width=#3]{#4}% \caption{#5}% \label{#2}% \end{center}% \end{figure}% } % \newtheorem override /* %% %% This is copy/paste from file %% /usr/share/texmf/tex/latex/base/latex.ltx %% %%% From File: ltthm.dtx \def\newtheorem#1{% \@ifnextchar[{\@othm{#1}}{\@nthm{#1}}} \def\@nthm#1#2{% \@ifnextchar[{\@xnthm{#1}{#2}}{\@ynthm{#1}{#2}}} \def\@xnthm#1#2[#3]{% \expandafter\@ifdefinable\csname #1\endcsname {\@definecounter{#1}\@newctr{#1}[#3]% \expandafter\xdef\csname the#1\endcsname{% \expandafter\noexpand\csname the#3\endcsname \@thmcountersep \@thmcounter{#1}}% \global\@namedef{#1}{\@thm{#1}{#2}}% \global\@namedef{end#1}{\@endtheorem}}} \def\@ynthm#1#2{% \expandafter\@ifdefinable\csname #1\endcsname {\@definecounter{#1}% \expandafter\xdef\csname the#1\endcsname{\@thmcounter{#1}}% \global\@namedef{#1}{\@thm{#1}{#2}}% \global\@namedef{end#1}{\@endtheorem}}} \def\@othm#1[#2]#3{% \@ifundefined{c@#2}{\@nocounterr{#2}}% {\expandafter\@ifdefinable\csname #1\endcsname {\global\@namedef{the#1}{\@nameuse{the#2}}% \global\@namedef{#1}{\@thm{#2}{#3}}% \global\@namedef{end#1}{\@endtheorem}}}} \def\@thm#1#2{% \refstepcounter{#1}% \@ifnextchar[{\@ythm{#1}{#2}}{\@xthm{#1}{#2}}} \def\@xthm#1#2{% \@begintheorem{#2}{\csname the#1\endcsname}\ignorespaces} \def\@ythm#1#2[#3]{% \@opargbegintheorem{#2}{\csname the#1\endcsname}{#3}\ignorespaces} \def\@thmcounter#1{\noexpand\arabic{#1}} \def\@thmcountersep{.} \def\@begintheorem#1#2{\trivlist \item[\hskip \labelsep{\bfseries #1\ #2}]} \def\@opargbegintheorem#1#2#3{\trivlist \item[\hskip \labelsep{\bfseries #1\ #2\ (#3)}]} \def\@endtheorem{\endtrivlist} % */ \newtheorem{example}{Príklad} \newtheorem{solution}{Riešenie} % vim: ts=4 % vim600: fdl=0 fdm=marker fdc=3 fmr=/*,*/