\documentclass{article} \usepackage{fouriernc} \usepackage[utf8]{inputenc} \usepackage{nl-interval} \usepackage{indentfirst} \usepackage{fancyvrb} \usepackage{siunitx} \title{The {\bf nl-interval} package} \author{Antero Neves} \date{12 March 2021 \quad version 1.0} \begin{document} \maketitle \begin{abstract} This is a \LaTeX\ package that aims to simplify and agilize the process of representing intervals in the real axis. Four commands are provided: \verb*|\nlAxisX|, \verb*|\nlnuminf|, \verb*|\nlinfnum| and \verb*|\nlnumnum|, they were built around the packages {\bf tkz-fct}, {\bf ifthen} and {\bf xparse} and require being used inside a \verb*|tikzpicture| environment. \end{abstract} \section{How to use} \subsection{How to load the package} The package is loaded as usual, through the command \medskip \verb*|\usepackage{nl-interval}| \medskip There are, at this time, no options available to include here. \subsection{The commands} The first command is \verb*|\nlAxisX| and it simply draws the \(x\) axis where the intervals are going to be represented. It has two mandatory inputs: the minimum and maximum of the axis, so, the full instruction is: \Verb*|\nlAxisX{min}{max}|: \begin{Verbatim}[gobble=1,xleftmargin=5mm] \begin{tikzpicture} \nlAxisX{-2}{5} \end{tikzpicture} \end{Verbatim} would give the output: \medskip \begin{center} \begin{tikzpicture} \nlAxisX{-2}{5} \end{tikzpicture} \end{center} After the axis is drawn, one can start placing the intervals. To do this we will consider two kinds of intervals, the ones with infinity, either \(-\infty\) or \(+\infty\) and the ones with two numbers. \newpage Let's start with the first group. \begin{itemize} \item \verb*|\nlinfnum| will draw intervals of the kind: \(\left]-\infty, number\right]\) or \(\left]-\infty, number\right[\). \item \verb*|\nlnuminf| will draw intervals of the kind: \(\left[number, +\infty\right[\) or \(\left]number, +\infty\right[\). \end{itemize} These two commands also have two mandatory inputs: first one is the number ({\it always a decimal representation, so, something like \(\pi\) doesn't work but there is a workaround!}) and the second if it's an \underline{o}pen or \underline{c}losed interval at the number. So, for instance \medskip \begin{Verbatim}[gobble=1,xleftmargin=5mm] \begin{tikzpicture} \nlAxisX{-2}{5} \nlnuminf{3}{o} \nlinfnum{1}{c} \end{tikzpicture} \end{Verbatim} gives us \medskip \begin{center} \begin{tikzpicture} \nlAxisX{-2}{5} \nlnuminf{3}{o} \nlinfnum{1}{c} \end{tikzpicture} \end{center} This time, there are a few optional inputs, the full commands are like this: \begin{Verbatim}[gobble=1,xleftmargin=5mm] \nlnuminf[1]{number}[2]{o or c}[3] \nlinfnum[1]{number}[2]{o or c}[3] \end{Verbatim} \begin{itemize} \item in [1] you can put options like different colours or patters used; \item in [2] you can substitute the number for a letter or an exact representation of the number, don't put it in math environment!; \item in [3] you can change the height of the interval, which is \(0.5\si{\centi\meter}\) by default. \end{itemize} Let's try some of these options: \begin{Verbatim}[gobble=1,xleftmargin=5mm] \begin{tikzpicture} \nlAxisX{-2}{5} \nlnuminf[pattern=north west lines]{1.4142}[\sqrt{2}]{c}[.7] \nlinfnum[red!20]{3.1416}[\pi]{o} \end{tikzpicture} \end{Verbatim} \begin{center} \begin{tikzpicture} \nlAxisX{-1}{4} \nlnuminf[pattern=north west lines]{1.4142}[\sqrt{2}]{c}[.7] \nlinfnum[red!20]{3.1416}[\pi]{o} \end{tikzpicture} \end{center} \newpage The second group of intervals, works with a single command: \begin{itemize} \item \verb*|\nlnumnum| \end{itemize} and, since it uses two numbers, we have four mandatory inputs: the numbers and the instruction of closed or open. It works like this: \begin{Verbatim}[gobble=1,xleftmargin=5mm] \begin{tikzpicture} \nlAxisX{-2}{5} \nlnumnum{-1}{o}{3}{c} \end{tikzpicture} \end{Verbatim} \begin{center} \begin{tikzpicture} \nlAxisX{-2}{5} \nlnumnum{-1}{o}{3}{c} \end{tikzpicture} \end{center} As with the previous commands, there are a few options, this time we have one more which allows us to change what is shown in the second number: \begin{Verbatim}[gobble=1,xleftmargin=5mm] \begin{tikzpicture} \nlAxisX{-2}{5} \nlnumnum[red!20]{-1.4142}[-\sqrt{2}]{o}{3.1416}[\pi]{c} \end{tikzpicture} \end{Verbatim} \begin{center} \begin{tikzpicture} \nlAxisX{-2}{5} \nlnumnum[red!20]{-1.4142}[-\sqrt{2}]{o}{3.1416}[\pi]{c} \end{tikzpicture} \end{center} \section{Conclusion} This is a really simple package (my first attempt at a package) but one that, I hope, can help you draw stuff like: \begin{center} \begin{tikzpicture} \nlAxisX{-2}{5} \nlnumnum[red!20]{-1.4142}[-\sqrt{2}]{o}{3.1416}[\pi]{c} \nlnuminf[pattern=north west lines]{1.4142}[\sqrt{2}]{c}[.7] \nlinfnum{2}{o}[.3] \end{tikzpicture} \end{center} somewhat quickly and easily. By the way, the instructions for this are: \begin{Verbatim}[gobble=1,xleftmargin=5mm] \begin{tikzpicture} \nlAxisX{-2}{5} \nlnumnum[red!20]{-1.4142}[-\sqrt{2}]{o}{3.1416}[\pi]{c} \nlnuminf[pattern=north west lines]{1.4142}[\sqrt{2}]{c}[.7] \nlinfnum{2}{o}[.3] \end{tikzpicture} \end{Verbatim} \end{document}