% LaTeX test file for kate's syntax highlighting and code folding

\ordinaryLaTeXcommandwithoption[10pt,a4paper]{article}
% BEGIN region
%comment, this is all ok % $\%no comments please \\%comment % END of region \newcommand{\nohighlighting} \section{normal} \ref{blue} \pageref{blue} \cite{blue} \begin{environmentshavespecialcolors} normal \end{environmentshavespecialcolors}$equations are green, \commands somewhat darker$normal $$equations are green, \commands somewhat darker$$ normal $$\frac{1}{2} \begin{test} \end{test}$$ normal $%comment displaymath$ normal \begin{equation} green\darkergreen \begin{test} \test \end{test} \end{equation} \begin{equation*} green\darkergreen %comment \begin{test} \test \end{test} \%no comment \end{equation*} \{ %this should be comment \verb%this shouldn't be%and this should be normal text \verb!verbatim text! normal text text \texttt{more text} \begin{verbatim} text inside a verbatim environment is also treated special$ %,
you can even put a \begin{verbatim} inside
\end{verbatim}

normal

\begin{Verbatim}
&@@#^%&^#\end{Verbatim} \begin{Verbatim*} @*&^#@*(^#(*@& \end{Verbatim*} normal \begin{Verbatim} \begin{verbatim} This is a verbatim block. \end{verbatim} \end{Verbatim} normal % test alignat \begin{alignat}{2} A &= B &= C \\ A &= B &= C \end{alignat} normal text \iffalse \fill commented out text \fi % Math mode Depending on the value ofxthe equation $$f(x) = \sum_{i=0}^{n} \frac{a_i}{1+x}$$ may diverge or converge. $f(x) = \sum_{i=0}^{n} \frac{a_i}{1+x}$ $S = \{ z \in \mathbb{C}\, |\, |z| < 1 \} \quad \textrm{and} \quad S_2=\partial{S}$ $\frac{ \begin{array}[b]{r} \left( x_1 x_2 \right)\\ \times \left( x'_1 x'_2 \right) \end{array} }{ \left( y_1y_2y_3y_4 \right) }$ \begin{eqnarray*} \begin{eqnarray*} f(x) = \sum_{i=0}^{n} \frac{a_i}{1+x} \\ \textstyle f(x) = \textstyle \sum_{i=0}^{n} \frac{a_i}{1+x} \\ \scriptstyle f(x) = \scriptstyle \sum_{i=0}^{n} \frac{a_i}{1+x} \\ \scriptscriptstyle f(x) = \scriptscriptstyle \sum_{i=0}^{n} \frac{a_i}{1+x} \end{eqnarray*} \end{eqnarray*} \begin{xalignat}{3} i_{11} & =i_{23}\nonumber \end{xalignat} c \begin{equation} c \begin{aligned} a & b\\ c & d \end{aligned} c \end{equation} c $$E=mc^2$$ \begin{equation} E=m \end{equation} \begin{equation x=3\textrm{plop} \end{equation} $\begin{array}{llll} x^3 = (-x)^3 & \text{if x > 0}\\ x^3 = (-x)^3 & \text{if {x > 0}}\\ x^3 = (-x)^3 & \text{if {\color{green} x > 0}}\\ \end{array}$ \section*{Notes for My Paper} \begin{center} \begin{tabular}{ |c|c|c| } \hline cell1 & cell2 & cell3 \\ cell4 & cell5 & cell6 \\ cell7 & cell8 & cell9 \\ \hline \end{tabular} \begin{tabular*}{0.75\textwidth}{@{\extracolsep{\fill} } | c | c | c | r | } \hline label 1 & label 2 & label 3 & label 4 \\ \hline item 1 & item 2 & item 3 & item 4 \\ \hline \end{tabular*} \begin{tabular*}{0.75\textwidth}{ | c | c | c | r | } \hline label 1 & label 2 & label 3 & label 4 \\ \hline item 1 & item 2 & item 3 & item 4 \\ \hline \end{tabular*} \end{center} \begin{tabularx}{1\textwidth}{ |>{\setlength\hsize{1\hsize}\centering}X|>{\setlength\hsize{1\hsize}\raggedleft}X@{} >{\setlength\hsize{1\hsize}\raggedright}X|>{\setlength\hsize{1\hsize}\centering}X| } \hline Label 1 & \multicolumn{2}{>{\centering\setlength\hsize{2\hsize} }X|}{Label 2} & Label 3\tabularnewline \hline 123 & 123 & 456 & 123 \tabularnewline \hline 123 & 123 & 456 & 123 \tabularnewline \hline \end{tabularx} \begin{lstlisting} Write('Case insensitive '); Write('Pascal keywords.'); \end{lstlisting} \begin{lstlisting}%[frame=single] Write('Case insensitive '); Write('Pascal keywords.'); \end{lstlisting} \begin{lstlisting}[frame=single] Write('Case insensitive '); Write('Pascal keywords.'); \end{lstlisting} \begin{lstlisting}[frame=single] % blah blah Write('Case insensitive '); Write('Pascal keywords.'); \end{lstlisting} \begin{lstlisting} [frame=single] % blah blah Write('Case insensitive '); Write('Pascal keywords.'); \end{lstlisting} \begin{minted}{python} def foo(x): return x \end{minted} \begin{minted} % blah blah {python} def foo(x): return x \end{minted} \begin{minted}[frame=lines]{python} def foo(x): return x \end{minted} \begin{minted} % plop [frame=lines, fontsize=\footnotesize ] % ok {python} def foo(x): return x \end{minted} \begin{comment} This is a comment block. \end{comment} \documentclass{article} \usepackage{fancyvrb} \documentclass[12pt]{article} \begin{document} Text that has a footnote\footnote{Thisi_sthe $i_s$ $$x_i$$ $$x_i$$footnote}\addtocounter{footnote}{-1}\addtocounter{footnote}{-1} looks like this. Later text referring to same footnote\footnotemark uses the other command. \end{document} % A delimiter is not required before "\" in keywords of kind "\command" (see bug #413493) \begin{equation}123\end{equation} \begin{comment}Comment\end{comment} \iffalse text\fi normal text text\begin{tabular}text\end{tabular} text\begin{a}text\end{a} % Close brackets correctly in some commands (see bug #415384) \input{\a{}} \cites{ text { text } text } % Parentheses within [ ... ] (see bug #418979) \cite[eq. (1.1)]{some_reference} \cite[eq. $$x^n + y^n = z^n$$]{some reference} % Close folding correctly in "\end{...}" and in region markers (see bug #419125) \begin{document} \begin{abstract} \end{abstract} \begin{itemize} \item[$$\bullet$$] %% BEGIN something Here are some text describiing a new theorem. In the equation \begin{equation} E = mc^2 \end{equation} we have a solution for energy-mass equivalence. %% END \item[$$\bullet$$] \begin{align*} B(z) &= p^r \sum_{k \geq 0} \binom{-r}{k} (-1)^k (1 - p)^k z^k \\ B(z) &= p^r \sum_{k \geq 0} \binom{-r}{k} (-(1-p) z)^k \end{align*} \end{itemize} \end{document} % Allow Math environment within another Math environment (see bug #435086) \begin{gather*} a = 5 \\ y = \begin{cases} 0 & x < 2 \\ 2x-4 & x > 2 \\ \end{cases} \\ x = 5 \\ z = 5 \end{gather*} \begin{bashcode} find . -name '*.jpg' -print | parallel --bar convert '{}' '{.}.png' $$ToRemember$$ # Remember expression in brackets and then use "{RAXML}" -s ${INPUT} # All the parameters as usually... \end{bashcode} $\begin{matrix}2\\3\\3\end{matrix}$ \section{title}{\small bla bla} \section {title} {\small bla bla} \section {title} {\small bla bla}$\begin{tabu*} to 140mm {|X[$c]} \alpha & \beta & \gamma \\ \sum_i \frac{a_i}{x_i} & 0 & \cdot \\ \end{tabu}$

\begin{tabu}{|c|*{21}{X[$c]|}} \toprule Notes$x_i$& 0 & 0b\\ \hline Notes$x_i\$ & 0 & 0b\\
\bottomrule
\end{tabu}