Week

What I tried to replicate is something as below: Noted that the double-dotted is aligned as the red line denoted, and the "rotated box" is NOT what I want(just because the image I get rotated itself), I just want something the same as \dashbox or \doublebox, the normal horizonal box. The post here, I think, just want to focus the dots alignment. Now I have the following code: \documentclass{article} \usepackage[most]{tcolorbox} \usepackage{tikz} \usepackage{lipsum} \usepackage{dashbox} \usepackage{fancybox} % https://tex.stackexchange.com/a/101263/322482 \makeatletter \tikzset{ dot diameter/.store in=\dot@diameter, dot diameter=3pt, dot spacing/.store in=\dot@spacing, dot spacing=10pt, dots/.style={ line width=\dot@diameter, line cap=round, dash pattern=on 0pt off \dot@spacing }, } \tcbset{ doubledotted/.style={ empty, sharp corners, frame engine=path, frame empty, frame code={ \draw[dots](frame.south west) rectangle (frame.north east); \draw[dots]([xshift=-\dot@spacing,yshift=-\dot@spacing]frame.south west) rectangle ([xshift=\dot@spacing,yshift=\dot@spacing]frame.north east); }, } } \makeatother \begin{document} AAA \qquad\tcbox[doubledotted,nobeforeafter,box align=center]{This is a tcolorbox.}\qquad BBB \vspace{1cm} \begin{tcolorbox}[doubledotted] \lipsum[2] \end{tcolorbox} \bigskip \fbox{This is a framebox.} \dashbox{This is a dashed framebox.} \doublebox{This is a doublebox.} \end{document} which gives: The disturbing point is that the dotted in a \path is hard to control the alignment precisely. I have to cliam that, I think that would be two different approach to achieved this: One with tcolorbox and tikz Another with some "plain" approaches for example dashedbox and fancybox: fancybox.sty: % fancybox.sty % Line 143 \def\doublebox{\VerbBox\@doublebox} \def\@doublebox#1{% \begingroup \setbox\@fancybox\hbox{{#1}}% \fboxrule=.75\fboxrule \setbox\@fancybox\hbox{\fbox{\box\@fancybox}}% \fboxrule=2\fboxrule \fboxsep=\fboxrule \advance\fboxsep .5pt \fbox{\box\@fancybox}% \endgroup} dashbox.sty: %% %% This is file `dashbox.sty', %% generated with the docstrip utility. %% %% The original source files were: %% %% dashbox.dtx (with options: `package') %% Dashed and layered boxes. %% %% File `dashbox.dtx'. %% Copyright (C) 1997-2001 Reuben Thomas (rrt@sc3d.org) %% This file is distributed under the LaTeX Project Public License, %% and comes with no warranty. %% \NeedsTeXFormat{LaTeX2e} \ProvidesPackage{dashbox} [2001/12/11 v1.14 Dashed and layered boxes] \RequirePackage{calc} \RequirePackage{ifthen} \newlength{\dashlength} \setlength{\dashlength}{6pt} \newlength{\dashdash} \setlength{\dashdash}{3pt} \newlength{\layersize} \setlength{\layersize}{\dashdash} \newcommand{\hd@shrule}[1]{% \hbox to #1% {\vrule height \fboxrule width \dashdash% \cleaders\hbox to \dashlength% {\hfill\rule{\dashdash}{\fboxrule}\hfill}\hfill% \ifthenelse{\lengthtest{#1 > 2\dashdash}}% {\vrule height \fboxrule width \dashdash}{}% }} \newcommand{\vd@shrule}[1]{% \vbox to #1% {\hrule height \dashdash width \fboxrule% \cleaders\vbox to \dashlength% {\vfill\rule{\fboxrule}{\dashdash}\vfill}\vfill% \ifthenelse{\lengthtest{#1 > 2\dashdash}}% {\hrule height \dashdash width \fboxrule}{}% }} \newsavebox{\d@shedsavebox} \newlength{\d@shedboxwidth} \newlength{\d@shedboxtotalheight} \newcommand{\m@kedashbox}{% \setlength{\d@shedboxtotalheight}% {\dp\d@shedsavebox+\ht\d@shedsavebox+\fboxsep*2+\fboxrule*2}% \raisebox{-\fboxrule-\fboxsep-\dp\d@shedsavebox}{% \parbox[b]{\d@shedboxwidth}{% \offinterlineskip% \parskip=0pt% \hd@shrule{\d@shedboxwidth}% \kern-\fboxrule% \par% \parbox{\fboxrule}{\vd@shrule{\d@shedboxtotalheight}}% \kern\fboxsep% \parbox{\wd\d@shedsavebox}% {\vspace{\fboxsep}\usebox{\d@shedsavebox}\vspace{\fboxsep}}% \kern\fboxsep% \parbox{\fboxrule}{\vd@shrule{\d@shedboxtotalheight}}% \par% \kern-\fboxrule% \hd@shrule{\d@shedboxwidth}}% }} \newcommand{\dbox}[1]{% \sbox{\d@shedsavebox}{#1}% \setlength{\d@shedboxwidth}{\wd\d@shedsavebox+\fboxsep*2+\fboxrule*2}% \m@kedashbox} \def\dashbox{\@ifnextchar[\@dashbox\dbox} \def\@dashbox[#1]{\@ifnextchar[{\@idashbox[#1]}{\@idashbox[#1][c]}} \long\def\@idashbox[#1][#2]#3% {\setlength{\d@shedboxwidth}{#1}% \savebox{\d@shedsavebox}[#1-\fboxsep*2-\fboxrule*2][#2]{#3}% \m@kedashbox} \newsavebox{\l@yersavebox} \newlength{\l@yerwidth} \newlength{\l@yerboxwidth} \newlength{\l@yertotalheight} \newlength{\l@yerlineheight} \newlength{\l@yervoffset} \newcommand{\m@kelayer}[1]{% \setlength{\l@yertotalheight}% {\dp\l@yersavebox+\ht\l@yersavebox+\layersize-#1\layersize}% \setlength{\l@yerlineheight}% {\ht\l@yersavebox-#1\layersize-\fboxrule}% \setlength{\l@yervoffset}% {-\layersize-\dp\l@yersavebox}% \setlength{\l@yerboxwidth}% {\wd\l@yersavebox+\layersize-#1\layersize}% \parbox{\l@yerwidth}{% \offinterlineskip% \parskip=0pt% \usebox{\l@yersavebox}% \rule[\l@yerlineheight]{\layersize}{\fboxrule}% \kern-\fboxrule% \rule[\l@yervoffset]{\fboxrule}{\l@yertotalheight}% \kern-\wd\l@yersavebox\kern-\layersize\kern#1\layersize \rule[\l@yervoffset]{\fboxrule}{\layersize}% \kern-\fboxrule \rule[\l@yervoffset]{\l@yerboxwidth}{\fboxrule}% }} \newcommand{\l@yer}[2]{% \sbox{\l@yersavebox}{#2}% \setlength{\l@yerwidth}{\wd\l@yersavebox+\layersize}% \m@kelayer{#1}} \newcommand{\m@kedashlayer}[1]{% \setlength{\l@yertotalheight}% {\dp\l@yersavebox+\ht\l@yersavebox+\layersize-#1\layersize}% \setlength{\l@yerlineheight}{\ht\l@yersavebox-#1\layersize-\fboxrule}% \setlength{\l@yervoffset}{-\layersize-\dp\l@yersavebox}% \setlength{\l@yerboxwidth}% {\wd\l@yersavebox+\layersize-#1\layersize}% \parbox{\l@yerwidth}{% \offinterlineskip% \parskip=0pt% \usebox{\l@yersavebox}% \raisebox{\l@yerlineheight}{\hd@shrule{\layersize}}% \kern-\fboxrule% \raisebox{\l@yervoffset}% {\parbox[b]{\fboxrule}{\vd@shrule{\l@yertotalheight}}}% \kern-\wd\l@yersavebox\kern-\layersize\kern#1\layersize \raisebox{\l@yervoffset}% {\parbox[b]{\fboxrule}{\vd@shrule{\layersize}}}% \kern-\fboxrule \raisebox{\l@yervoffset}% {\hd@shrule{\l@yerboxwidth}}% }} \newcommand{\dl@yer}[2] {\sbox{\l@yersavebox}{#2}% \setlength{\l@yerwidth}{\wd\l@yersavebox+\layersize}% \m@kedashlayer{#1}} \newcounter{l@yercount} \newcommand{\l@yers}[3] {\setcounter{l@yercount}{1}% \sbox{\l@yersavebox}{#2}% \whiledo{\not\(\value{l@yercount} > #1\)}% {\sbox{\l@yersavebox}% {#3{\value{l@yercount}}{\usebox{\l@yersavebox}}}% \stepcounter{l@yercount}}% \usebox{\l@yersavebox}% } \newcommand{\lbox}[2][2]{% \l@yers{#1}{#2}{\l@yer}} \newcommand{\dlbox}[2][2]{% \l@yers{#1}{#2}{\dl@yer}} \endinput %% %% End of file `dashbox.sty'. I was not sure which one is more elegant/easy, any solution are all welcome!

I’m struggling with formatting an enumerate list in LaTeX. I have an example image (attached below) showing the desired style — specifically, the left variant with the red frame. I need to achieve the following: The text in the list items should start exactly from the left margin (no «hanging indent»). The numbering (1., 2., etc.) should be aligned with the left edge, with minimal space between the number and the start of the text. When the text wraps to the second line, it should align directly under the beginning of the first line (not indented). The entire block (including the red frame in the example) should look clean and professional, similar to the left variant in the image. What I’ve tried so far: Used leftmargin=* in the enumerate environment — this helps, but there’s still a small gap between the number and the text. Tried adjusting labelindent, itemindent, and labelsep, but can’t get the perfect alignment. Looked into enumitem package options, but haven’t found the right combination. Current code snippet: \begin{enumerate}[beginpenalty=10000] \item First item with long text that wraps to the next line. \item Second item, also with lengthy description. \end{enumerate} The issue: while this reduces the indentation, it doesn’t fully match the style in the image. The wrapped lines still have a slight indent, and the overall look isn’t as clean as the example. Attached image: [insert image link/attachment here] — the left variant with the red frame is the target style. Questions: What additional parameters do I need to adjust to achieve this exact style? Should I use tcolorbox or another package to create the frame (as in the example)? If so, how to combine it with the enumerate list? Is there a «golden combination» of enumitem settings that guarantees this clean, flush-left alignment? How to ensure that wrapped lines align perfectly with the start of the first line? Any working examples or templates would be hugely appreciated! Thanks in advance! 😊

I have been asked to create badges for a conference. In each corner of the badge will be an image with some logos. I have a long list of names of attendees and their institutions in Excel. I'd like to create a LaTeX document with a unique page for each attendee that I can then print out into badges. Below is an example layout of such a badge. \documentclass{article} \usepackage{graphicx} \usepackage{geometry} \usepackage{anyfontsize} \begin{document} \pagenumbering{gobble} \noindent\includegraphics[width=3cm]{example-image-a}\hspace{9cm}\noindent\includegraphics[width=3cm]{example-image-b} \vspace{6cm} \centering \fontsize{50}{2}\selectfont{\textbf{Example Name}} \vspace{2cm} \fontsize{40}{2}\selectfont{Example University at Example Country} \end{document} I'm hoping there is some way to automate this process. For instance, create an array of names {Name1, Name2, Name3} and ask LaTeX to create a new page for each name in the array along with the instution.

I'm trying to get something like this (taken from Microsoft Word): The left cell is going to be "fixed", meaning it shouldn't grow with the text filling the right one; viceversa, the right cell should adapt to the text put in it, but: being at least as high as the left cell with the background for the entire cell the table should take horizontally all of the \textwidth optionally, the left cell should have a minimum height For now I kinda managed to get this, with LuaLaTeX (1): \documentclass{report} \usepackage{tabularx} \usepackage{multirow} \usepackage[table]{xcolor} \usepackage{lipsum} \begin{document} \noindent\begin{tabularx}{\textwidth}[h]{p{6cm} >{\columncolor{gray}}X} {\cellcolor{red}\color{white}\textbf{Title of boxed section:}} & \multirow[t]{2}{=}{\lipsum[1]} \\ & \end{tabularx} \lipsum[1] \end{document} but as you see it overlaps both in the right cell, and with the rest of the text: We can use LuaLaTeX and LaTeX3. Do you have any advise? Thanks! (1) EDIT: added \usepackage{...} to provide complete MWE

I'm currently working on a math paper about some concepts in virtual knot theory. It is a very "visual" field of mathematics and we are often challenged to draw some original figures using Tikz code. The following is a hand made version of the figure I want to draw using Tikz code: I was able to produce the code for the left hand side figure (the crossings with the shaded bands spanning over its strands). But I could not produce the right hand side figure. Here is a minimal working example that could be given here. 🙂 \documentclass{standalone} \usepackage{tikz} \usetikzlibrary{calc,arrows.meta} \tikzset{>={Stealth[length=2mm]}} \begin{document} \begin{tikzpicture} \coordinate (P) at (-0.5,0); \draw[gray!55, line width=2mm, line cap=round] ($(P)+(-1,1)$) .. controls ($(P)+(0.2,-0.1)$) and ($(P)+(0.2,0.1)$) .. ($(P)+(-1,-1)$); \coordinate (Q) at (0.5,0); \draw[gray!55, line width=2mm, line cap=round] ($(Q)+(1,1)$) .. controls ($(P)+(0.8,-0.1)$) and ($(P)+(0.8,0.1)$) .. ($(Q)+(1,-1)$); \draw[thick, line cap=round,->] (-1.4,-1.4) -- (1.4,1.4); \draw[thick, line cap=round,->] (-1.4,1.4) -- (-0.2,0.2) ( 0.2,-0.2) -- ( 1.4,-1.4); \end{tikzpicture} \end{document}

I recently noticed a bug, where the TikZ backgrounds library ignores any other options applied within the same scope definition. As you can see in the MWE below, I have a scope on the background layer with the additional options blue and ultra thick, which are ignored. \documentclass{standalone} \usepackage{tikz} \usetikzlibrary{backgrounds} \begin{document} \begin{tikzpicture} \draw[red, ultra thick] (0,0) -- (2,0); \begin{scope}[on background layer,blue,ultra thick] \draw (1,-1) -- (1,1); \end{scope} \end{tikzpicture} \end{document} Using nested scopes or defining the options directly in the path definition gives the desired result. \documentclass{standalone} \usepackage{tikz} \usetikzlibrary{backgrounds} \begin{document} \begin{tikzpicture} \draw[red, ultra thick] (0,0) -- (2,0); \begin{scope}[on background layer] \begin{scope}[blue,ultra thick] \draw (1,-1) -- (1,1); \end{scope} \end{scope} \end{tikzpicture} \end{document} Is this a bug? It isn't mentioned in the manual. I couldn't find a git repo to report an issue, so I hope this is the right place to ask.

I am using the "shorttitle" field with "biblatex" to handle the removal of articles (like "the") in French in some cases. The problem is that, as a result, the "citetitle" function uses the "shorttitle" attribute by default instead of the full title. How can I get to use full title by default? Here is the MWE: \documentclass{scrartcl} \usepackage{polyglossia} \setdefaultlanguage{french} \usepackage[ backend=biber, citestyle=verbose-trad2, ]{biblatex} \usepackage{filecontents} \DeclareCiteCommand\citeshorttitle {\usebibmacro{prenote}} {\mkbibemph{\printfield{shorttitle}}} {\multicitedelim} {\usebibmacro{postnote}} \begin{filecontents}{\jobname.bib} @book{Constitution, title = {La Constitution}, shorttitle = {Constitution}} \end{filecontents} \addbibresource{\jobname.bib} \nocite{*} \begin{document} The short title is \citeshorttitle{Constitution} but \texttt{citetitle} also becomes \citetitle{Constitution} instead of \emph{La Constitution}. \end{document}

I am struggling to make a professional looking coin catalogue on LaTeX, but don't want to go back to using word. Need to figure out a way of formatting in a way that looks professional but is semi easy to use.

I have two rectangular TikZ nodes placed one below the other: B1 is above B2. I would like to create a third rectangular node B3, shifted to the right in the x-direction, such that: the top of B3 is aligned with B1.north the bottom of B3 is aligned with B2.south I am not sure what is the best TikZ way to do this cleanly. Here is a minimal example of the situation: \documentclass{standalone} \usepackage{tikz} \usetikzlibrary{calc} \begin{document} \tikzstyle{block} = [draw, fill=white, rectangle, inner xsep=0pt, align=center, font=\small]% \begin{tikzpicture} \node [block, text width=3em] (B1) {Block 1}; \node [block, anchor=north, text width=3em] (B2) at ([yshift=-5em]B1.south) {Block 2}; \node [block, anchor=west] (B3) at ([xshift=5em]$(B1.east)!0.5!(B2.east)$) {Block 3}; \end{tikzpicture} \end{document} I tried using minimum height with coordinate differences, but I could not make it work properly. What is the recommended approach?

I'm trying to print a table from a csv loaded with datatool, but have it display in groups - by which I mean (in the below example), the column 'group' should only have one entry per group, with 'data' repeated. In other words, no group name should appear twice. What I've done is to define (and re-define) a macro at the end of the loop to update to the latest group, then pass that to \DTLifstringeq. I've checked that the \lasttype is being updated each iteration by adding it's value to the printout table - it is. But despite it being the current value, the string comparison isn't working. The MWE \documentclass[12pt]{report} \usepackage{datatool} \usepackage{array} % Required for p{} columns \usepackage{tabularx} % Optional: for auto-width columns \usepackage{booktabs} % better tables \usepackage{longtable} % tables breaking across pages \usepackage{multirow} \usepackage{xstring} \usepackage{filecontents} \begin{filecontents*}{test.csv} group,data Thing1,something Thing1,somethingelse Thing1,somethingother Thing1,somethingsomething Thing2,newthing Thing2,newotherthing Thing2,newthirdthing Thing2,lastthing \end{filecontents*} \begin{document} % Load datatables % Load datatables \DTLread[name=test]{test.csv} % Define this BEFORE the longtable \newcommand{\lasttype}{} \begin{longtable}{l l} \toprule Group & Data\\ \midrule \endfirsthead \multicolumn{2}{l}{\textit{(continued)}} \\ \toprule Group & Data\\ \midrule \endhead \bottomrule \endlastfoot \gdef\lasttype{}% Reset tracker at the start of the table \DTLforeach{test}{ \group=group, \data=data }{% \DTLifstringeq{\group}{\lasttype}{ % Same type, leave first column empty & \data \\ }{% % New type, print it and update tracker GLOBALLY \group & \data \\ \gdef\lasttype{\group} } } \end{longtable} \end{document} If there's a better way to do it, that's great, but I'd love to know what the \DTLifstringeq isn't working when (as far as I can tell), I've literally just defined the two strings to be the same.

What is the reason of why I can haven't the colors? \documentclass{article} \usepackage{xcolor} \usepackage{lucide-icons} \begin{document} \lucideicon{alarm-clock-check} \textcolor{red}{\lucideicon{alarm-clock-check}} \end{document}

How to make rounded corner and curve (..controls?) for this path (or similar)? \documentclass[margin={1.5cm 1,5cm 1.5cm 1.5cm}]{standalone} \usepackage{tikz} \begin{document} \begin{tikzpicture} \fill[cyan] (0,0)--(2,0)--(5,2)--(7,3)--(6,4)--(4,7)--(2,7)--(.5,5)--(0,2)--cycle; \end{tikzpicture} \end{document}

I am debugging somebody else's .tex file. The first line is: %&xx I also see files xx.fmt and xx.tex in the same folder. What does this line mean ? Is it like \input ? But apparently faster (I guess it includes a pre-compiled represemtation of the .tex file),is it ? The file xx.tex loads a number of packages, which makes it slow to compile. I guess the intention might have been to speed up the compilation. I am trying to compile the file that I am debugging with pdflatex (MikTex on Windows-10) . Strangely, pdflatex does not even produce a .log file -- Iguess it fails before that?

As a follow-up to this question here, I'd like to redefine \backrefxxx so that multiple back-references are formatted as they are on Wikipedia: I tried the following command: \renewcommand{\backrefxxx}[3]{\textasciicircum \textsuperscript{\hyperlink{page.#1}{#1}}} Minimum working example: \documentclass{article} \usepackage[pagebackref]{hyperref} \renewcommand{\backrefxxx}[3]{\textasciicircum \textsuperscript{\hyperlink{page.#1}{#1}}} \begin{document} \cite{fml2026} \newpage \cite{fml2026} \begin{thebibliography}{1} \bibitem{fml2026} First M.~Last. \newblock Title. \newblock {\em Journal}, 2026. \end{thebibliography} \end{document} but this produces the format: ${\textasciicircum}^{1,2}$ Question: Is it possible to achieve the Wikipedia format where the back-reference goes back to exact location and not just the page?

I'm trying to write a multi-file using simultaneously the subfiles and fancyhdr packages. My main.tex file is \documentclass[a4paper]{article} \usepackage{graphicx} % Required for inserting images \graphicspath{{images/}} \usepackage[utf8]{inputenc} \usepackage[T1]{fontenc} \usepackage[brazil]{babel} \usepackage[top=190pt,head=80pt,headsep=50pt,bottom=110pt,footskip=50pt]{geometry} \usepackage{fancyhdr} \usepackage{array} \usepackage{subfiles} \title{Title} \author{Author} \date{Somewhere in the past} \begin{document} \maketitle \newpage \section{Introduction} Odd stuffs \section{Good morning} \subfile{sections/section.tex} \end{document} and the section.tex file is \documentclass[../main.tex]{subfiles} \graphicspath{{\subfix{../images/}}} \begin{document} \pagestyle{fancy} \fancyhf{} \fancyhead[C]{ \huge \renewcommand{\arraystretch}{1.4} \begin{tabular}{|>{\centering}m{0.19\textwidth}|m{0.74\textwidth}<{\centering}|} \hline {\textbf{N-0}} & {\textbf{Header Title}} \\ \hline \end{tabular} } \fancyfoot[C]{% \begin{tabular}{|m{0.5\textwidth}|>{\centering}m{0.2\textwidth}|m{0.2\textwidth}<{\centering}|} \hline {Laboratory of Strange Stuff & Version 1 & {Page \thepage}} \\ \hline {{Stranger Stuffs} & {a} & {b} } \\ \hline \end{tabular} } \textbf{Hello world!} \end{document} When I compile the sub-file section.tex, the fancyhdr package runs fine and I get a customized header and footer. When I compile main.tex, the header and footer are absent. Is there a way to customize the header this way? I want to create a lot of sub-files, all with the same header format, but each one with its own header title.

It is possible that either the package does not behave as I expect, or I am misunderstanding how to use it correctly. According to the manual, the inequality 3x + 2y - 6 >= 0 should represent the half-plane above the line 3x + 2y - 6 = 0, i.e., the region containing points such as (0,3). However, in my code the line is drawn correctly (it passes through (0,3) and (2,0)), but the shaded region does not match the expected half-plane: it appears on the opposite side of the line. What am I doing wrong when using \LinearInequality? Is it a sign convention issue, an internal convention of the package, or do I need to rewrite the expression in a different form to obtain the correct shaded region? \documentclass{article} \usepackage{tkz-grapheur} \begin{document} \begin{GraphTikz}[ x=1cm, y=1cm, Xmin=-3,Xmax=3, Ymin=-3,Ymax=3 ] \DrawAxisGrids[Font=\small]{auto}{auto} \LinearInequality[color=pink,hatch={north east lines}]{3x+2y-6}{>=0} \end{GraphTikz} \end{document}

I'm using a per-chapter bibliography. I would like to disregard the margin note spacing, and make full use of the page. Using a two page layout is making this hard. This is my macro, but the \checkoddpage is not working I don't know why. \newcommand{\insertChapterBibliography}{% % 1. Sync the page check without forcing a new page \strictpagecheck \checkoddpage % 2. Identify the distance from the left edge of the paper to the text block. % LaTeX measures this as 1 inch + \oddsidemargin (or \evensidemargin). % To get back to exactly 1 inch, we shift by exactly -\sidemargin. \ifoddpage \def\leftshift{-\oddsidemargin} \else \def\leftshift{-\evensidemargin} \fi % 3. Apply the shift using standard [left][right] logic. % We want the final width to be \headwidth. % The math for the right offset to reach \headwidth is: % RightOffset = \linewidth - \headwidth - \leftshift \begin{adjustwidth}{\leftshift}{\dimexpr\linewidth-\headwidth-\leftshift\relax} \begin{multicols}{2} \bibliographystyle{alpha} \bibliography{main} \end{multicols} \end{adjustwidth} } I can try to provide a minimal working example, but I'm not sure how, with all these citations… biblio.tex \documentclass[twoside]{book} \usepackage[includemp, inner=1in, outer=10mm, marginparwidth=161pt, showframe]{geometry} \usepackage{fancyhdr} \usepackage{multicol} \usepackage{changepage} \usepackage{etoolbox} \usepackage{lipsum} \usepackage[sectionbib]{chapterbib} \pagestyle{fancy} \setlength{\headwidth}{468pt} \AfterEndPreamble{% \patchcmd{\thebibliography}{\section*{\bibname}}{\relax}{}{}% \patchcmd{\thebibliography}{\section*{\refname}}{\relax}{}{}% } \newcommand{\insertBib}{% \strictpagecheck\checkoddpage \ifoddpage \def\lshift{-\oddsidemargin} \else \def\lshift{-\evensidemargin} \fi \begin{adjustwidth*}{\lshift}{\dimexpr\linewidth-\headwidth-\lshift\relax} \begin{multicols}{2} \scriptsize \bibliographystyle{alpha} \bibliography{biblio} \end{multicols} \end{adjustwidth*} } \begin{document} \include{odd} \include{even} \end{document} biblio.bib @book{key1, author = {Author, A.}, year = {2001}, title = {Title One}, publisher = {Publisher}, } @book{key2, author = {Writer, B.}, year = {2002}, title = {Title Two}, publisher = {Publisher}, } odd.tex \chapter{Odd page bibliography} \lipsum[1-2] \cite{key1} \cite{key2} \insertBib even.tex \chapter{Even page bibliography} \lipsum[1-4] \cite{key1} \cite{key2} \insertBib

Is this an appropriate way to define a new math operator-with-limits (for a "box product"), like \bigcup, assuming use of lua-unicode-math and lualatex? % !TEX program = lualatex \documentclass{article} \usepackage{fontspec} \usepackage{lua-unicode-math} \setmainfont{TeX Gyre Termes X} \setmathfont{STIX Two Math} \usepackage{amsmath} \usepackage{scalerel} \AtBeginDocument{% \DeclareMathOperator*{\bigsquareop}{\scalerel*{\lgwhtsquare}{\bigcup}} \DeclareRobustCommand{\BoxProd}{\DOTSB\bigsquareop}% } \begin{document} $\bigcup_{i \in I} X_{i} \quad \BoxProd_{i \in I} X_{i}$ and \[ \bigcup_{i \in I} X_{i} \quad \BoxProd_{i \in I} X_{i} \] \end{document} Related: How to create my own math operator with limits?, How to create a new math operator?, https://tex.stackexchange.com/a/552914/13492.

Edit: follow-up question here: How to highlight the current subsection at the beginning of each subsection in ltx-talk? How do I show the start of a new section, either as itself a "section slide" or even in the "body" slides? \DocumentMetadata{ lang = de, pdfstandard = ua-2, pdfstandard = a-4f, tagging=on, tagging-setup={math/setup=mathml-SE} } \documentclass{ltx-talk} \EditInstance{footer}{std}{ element-order = {title, subtitle, framenumber} } \title{My talk} \subtitle{I want to show sections} \institute{University of Stack Exchange} \date{} \begin{document} \begin{frame} \maketitle \end{frame} \section{Motivation} \begin{frame}\frametitle{Here is a frame title} Some text. \end{frame} \section{Real talk} \begin{frame}\frametitle{Here is a frame title} Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. \end{frame} \end{document}

I want to use \str_set_convert:Nnnn with Japanese chars directly in document. The MWE below has no problem in pdfLaTeX. It correctly displays E782B9. \documentclass{article} \begin{document} \ExplSyntaxOn % works in pdflatex, fails in lualatex \str_set_convert:Nnnn \l_tmpa_str {点} {utf8} {utf8/hex} \l_tmpa_str \ExplSyntaxOff \end{document} But in LuaLaTeX, it gives the error message: LaTeX Error: String invalid in escaping 'bytes': it may only contain bytes. What am I missing? How should I wrap the text to get the same result in any engine provided that "the user" can type the actual Japanese char, not some escaping sequences?

I'm going to have a printed version of my ltx-talk that won't have color. I would still like to have \alert do something, however. I think that means I should renew alert to make things bold, but I'm having trouble making that work properly: many of the options listed at How can I get bold math symbols? don't make things bold, or they cause errors if tagging is enabled. To give an example: \DocumentMetadata{} \RequirePackage{fixmath} % must come before unicode-math loaded by ltx-talk \documentclass{ltx-talk} \usepackage{bm} \usepackage{amsmath} \usepackage{amsbsy} \newcommand{\colvect}{\begin{pmatrix}x\\-1\end{pmatrix}} \begin{document} \colorlet{alert}{black} \begin{frame} \( normal \colvect alert \alert{\colvect} mathbf \mathbf{\colvect} symbf \symbf{\colvect} pmb \pmb{\colvect} % incompatible with unicode-math, tagging? mathbold \mathbold{\colvect} % requires package fixmath, conflicts with unicode-math % \boldsymbol{\colvect}\quad % error % \bm{\colvect}\quad % error \) boldmath {\boldmath\(\colvect\)} % {\setmathfont{luciole-math}\(\colvect\)} % preamble only bfseries {\bfseries\(\colvect\)} % \(\bfseries\colvect\) % invalid in math mode \bigskip normal \alert{alert} \textbf{textbf} \symbf{symbf} \pmb{pmb} {\bfseries bfseries} \end{frame} \end{document} has the output Notice that without color, \alert doesn't do anything. \symbf does a bit in math mode, but only the letter and number, not the parentheses and minus. \textbf and \bfseries succeed in text mode, so I could test \ifmmode, but I still need something in math mode. \pmb seems to work the best, but https://github.com/latex3/tagging-project/issues/1240 says that it's not working at the moment (and it appears to be intentionally broken in text mode).

After updating miktex today I get the message Undefined control sequence. \mathemptydisplaymode in the luabidi.sty. I removed miktex completely and installed it, the same result. Could you please help me? It’s a 4,000-page book in Greek, Hebrew, and Dutch that was compiled over the past three years. % !TeX TS-program = lualatex \documentclass[11pt,a4paper,twoside]{book} %%%%%%%%%%%%------following loaded before biblatex` \usepackage{fontspec} \usepackage{polyglossia} \setmainlanguage{dutch} \setotherlanguage{greek} \setotherlanguage{hebrew} %%<<-------------------Greek/Hebrew \setmainfont[Ligatures=TeX]{Charis SIL} \defaultfontfeatures{Ligatures=TeX} \newfontfamily\hebrewfont{Ezra SIL‬‬}[Script=Hebrew,Contextuals=Alternate]%\texthebrew %%Greek \newfontfamily{\greekfont}[Script=Greek, Scale=MatchUppercase, Ligatures=TeX]{SBL Greek} \begin{document} Nederlands: gewoon een zinnetje Grieks: \textgreek{Οὗτος δῶρα} Hebrew: \texthebrew{תְהֹ֑ום} \end{document}

I am creating a beamerposter with linguistic examples in expex with a custom font (libertine). I originally wrote most of it using pdflatex but have to switch to lua or xetex now. However, when I do so, the spacing within the examples changes drastically. Simply loading fontspec has the same effect, so it doesn't seem to have anything to do with the font specifically. Loading neither libertine nor fontspec produces the same spacing as pdflatex. \documentclass{beamer} \usepackage{beamerposter} % loading either of these increases the spacing within expex's (cf. second picture) %\usepackage{fontspec} %\usepackage{libertine} \usepackage{expex} \begin{document} \begin{frame} \pex \a \begingl \gla text// \glb gloss// \glft `transl'// \endgl \xe \ex \begingl \gla text// \glb gloss// \glft `transl'// \endgl \xe \end{frame} \end{document} pdflatex with libertine: lualatex with libertine (same spacing with xetex and/or fontspec): lualatex without libertine or fontspec:

I want to pose a question to resolve the issue described in https://stackoverflow.com/a/32463868/32395400, by simplicial partitioning. There doesn't seem to be a precedent for this, so I made a little document: \documentclass[tikz,border=1cm]{standalone} \begin{document} \begin{tikzpicture} \foreach \ang/\col in {0/red,120/green,240/blue} { \draw[\col,ultra thick] (\ang:1) -- +(\ang-90:3) -- +(\ang+90:3); } \end{tikzpicture} \end{document}

Under normal circumstances, BibLaTeX uses the same coordinating conjunction "and" for two authors that may have their names in one script (Latin, for now) and also to join two translator names that could have their names in another script (Cyrillic in this example). You may change the scripts above to any other pair and the problem remains the same. This has the unfortunate consequence of placing a pair of names in English joined by a Russian conjunction in the text as seen here: generated by the simple MWE: \documentclass{article} \begin{filecontents}[overwrite]{isaac.bib} @BOOK{isaacson:en, author = {Isaacson, Eugene and Keller, Herbert Bishop}, title = {Analysis of Numerical Methods}, publisher = {Dover Publications}, address = {Mineola, New York}, year = {1994}, langid = {english}, } @BOOK{isaacson:ru, author = {Isaacson, Eugene and Keller, Herbert Bishop}, title = {Анализ численных методов}, author-ru = {Э. Исааксон and Х. Б. Келлер}, translator = {В. В. Пчелинцев and L. L. Пчелинцев}, publisher = {Мир}, address = {Москва}, year = {1976}, langid = {russian}, } @book{rudin:zh, author = {Walter Rudin and Elena Rudin}, title = {实分析与复分析}, translator = {戴牧民 and 张更容}, publisher = {机械工业出版社}, address = {北京}, year = {2006}, langid = {chinese-simplified}, } \end{filecontents} \usepackage{babel} \babelprovide[import, main]{american} \babelprovide[import]{russian} \babelfont{rm}{NewComputerModern10} \babelfont{sf}{NewCMSans10-Regular} \babelfont{tt}{NewCMMono10-Regular} \babelprovide[import]{chinese-simplified} \babelfont[chinese-simplified]{rm}[ Scale = MatchLowercase, ItalicFont = Noto Serif CJK SC, ItalicFeatures = {FakeSlant=0} ]{Noto Serif CJK SC} \usepackage[style=authoryear,language=auto,autolang=other]{biblatex} \addbibresource{isaac.bib} \begin{document} Citing \textcite{isaacson:en}, \textcite{isaacson:ru}, \textcite{rudin:zh}. \printbibliography \end{document} It would be desirable to: Have one conjunction to be used with the authors names (and) that would show up in the Biblio list and in the main text, that is mostly in Latin. Have another to be used with the translator names (и) or inside the record, that is mostly in Cyrillic The russian.lbx file (as all others I know of) seems to have only one coordinating conjunction. and = {{и}{и}}, Is there a way to separate them, or define a new one, to be used in the bibliographical tags?

My code snippets: \renewcommand{\chaptermark}[1]{\markboth{\scshape\chaptername\ \thechapter. #1}{}}% \renewcommand{\sectionmark}[1]{\markright{\scshape\S\thesection. #1}}% worked just fine in TeXLive 2022 (using amsbook format in LaTeX), but in TeXLive 2026 the section heads do not appear at all. I gather this is due to the changes in the way headers are handled now. Can you suggest a modern modification I can make to get section heads to appear? fancyhdr did nothing for me. EDIT: OK. Here is a short document which typesets to three pages. Using TeXLive 2022 I get a section header on p. 3; using TeXLive 2026 there is none. 🙂 \documentclass[11pt]{amsbook} \renewcommand{\chaptermark}[1]{\markboth{\scshape\chaptername\ \thechapter. #1}{}}% \renewcommand{\sectionmark}[1]{\markright{\scshape\S\thesection. #1}}% \begin{document} \chapter{Curves} \section{Examples, Arclength Parametrization} We say a vector function $f\: (a,b)\to\mathbb R^3$ is $C^k$ ($k=0,1,2,\dots$) if $f$ and its first $k$ derivatives, $f'$, $f''$, \dots, $f^{(k)}$, exist and are all continuous. We say $f$ is smooth if $f$ is $C^k$ for every positive integer $k$. A parametrized curve is a $C^3$ (or smooth) map $\alpha\: I\to\mathbb R^3$ for some interval $I=(a,b)$ or $[a,b]$ (possibly infinite). We say $\alpha$ is regular if $\alpha'(t)\ne 0$ for all $t\in I$. We can imagine a particle moving along the path $\alpha$, with its position at time $t$ given by $\alpha(t)$. As we learned in vector calculus, $$\alpha'(t) = \lim_{h\to 0}\frac{\alpha(t+h)-\alpha(t)}h$$ is the velocity of the particle at time $t$. The velocity vector $\alpha'(t)$ is tangent to the curve at $\alpha(t)$ and its length, $\|\alpha'(t)\|$, is the speed of the particle. We say a vector function $f\: (a,b)\to\mathbb R^3$ is $C^k$ ($k=0,1,2,\dots$) if $f$ and its first $k$ derivatives, $f'$, $f''$, \dots, $f^{(k)}$, exist and are all continuous. We say $f$ is smooth if $f$ is $C^k$ for every positive integer $k$. A parametrized curve is a $C^3$ (or smooth) map $\alpha\: I\to\mathbb R^3$ for some interval $I=(a,b)$ or $[a,b]$ (possibly infinite). We say $\alpha$ is regular if $\alpha'(t)\ne 0$ for all $t\in I$. We can imagine a particle moving along the path $\alpha$, with its position at time $t$ given by $\alpha(t)$. As we learned in vector calculus, $$\alpha'(t) = \lim_{h\to 0}\frac{\alpha(t+h)-\alpha(t)}h$$ is the velocity of the particle at time $t$. The velocity vector $\alpha'(t)$ is tangent to the curve at $\alpha(t)$ and its length, $\|\alpha'(t)\|$, is the speed of the particle. We say a vector function $f\: (a,b)\to\mathbb R^3$ is $C^k$ ($k=0,1,2,\dots$) if $f$ and its first $k$ derivatives, $f'$, $f''$, \dots, $f^{(k)}$, exist and are all continuous. We say $f$ is smooth if $f$ is $C^k$ for every positive integer $k$. A parametrized curve is a $C^3$ (or smooth) map $\alpha\: I\to\mathbb R^3$ for some interval $I=(a,b)$ or $[a,b]$ (possibly infinite). We say $\alpha$ is regular if $\alpha'(t)\ne 0$ for all $t\in I$. We can imagine a particle moving along the path $\alpha$, with its position at time $t$ given by $\alpha(t)$. As we learned in vector calculus, $$\alpha'(t) = \lim_{h\to 0}\frac{\alpha(t+h)-\alpha(t)}h$$ is the velocity of the particle at time $t$. The velocity vector $\alpha'(t)$ is tangent to the curve at $\alpha(t)$ and its length, $\|\alpha'(t)\|$, is the speed of the particle. We say a vector function $f\: (a,b)\to\mathbb R^3$ is $C^k$ ($k=0,1,2,\dots$) if $f$ and its first $k$ derivatives, $f'$, $f''$, \dots, $f^{(k)}$, exist and are all continuous. We say $f$ is smooth if $f$ is $C^k$ for every positive integer $k$. A parametrized curve is a $C^3$ (or smooth) map $\alpha\: I\to\mathbb R^3$ for some interval $I=(a,b)$ or $[a,b]$ (possibly infinite). We say $\alpha$ is regular if $\alpha'(t)\ne 0$ for all $t\in I$. We can imagine a particle moving along the path $\alpha$, with its position at time $t$ given by $\alpha(t)$. As we learned in vector calculus, $$\alpha'(t) = \lim_{h\to 0}\frac{\alpha(t+h)-\alpha(t)}h$$ is the velocity of the particle at time $t$. The velocity vector $\alpha'(t)$ is tangent to the curve at $\alpha(t)$ and its length, $\|\alpha'(t)\|$, is the speed of the particle. We say a vector function $f\: (a,b)\to\mathbb R^3$ is $C^k$ ($k=0,1,2,\dots$) if $f$ and its first $k$ derivatives, $f'$, $f''$, \dots, $f^{(k)}$, exist and are all continuous. We say $f$ is smooth if $f$ is $C^k$ for every positive integer $k$. A parametrized curve is a $C^3$ (or smooth) map $\alpha\: I\to\mathbb R^3$ for some interval $I=(a,b)$ or $[a,b]$ (possibly infinite). We say $\alpha$ is regular if $\alpha'(t)\ne 0$ for all $t\in I$. We can imagine a particle moving along the path $\alpha$, with its position at time $t$ given by $\alpha(t)$. As we learned in vector calculus, $$\alpha'(t) = \lim_{h\to 0}\frac{\alpha(t+h)-\alpha(t)}h$$ is the velocity of the particle at time $t$. The velocity vector $\alpha'(t)$ is tangent to the curve at $\alpha(t)$ and its length, $\|\alpha'(t)\|$, is the speed of the particle. \section{Local Theory: Frenet Frame} What distinguishes a circle or a helix from a line is their curvature, i.e., the tendency of the curve to change direction. We shall now see that we can associate to each smooth ($C^3$) arclength-parametrized curve $\alpha$ a natural ``moving frame" (an orthonormal basis for $\mathbb R^3$ chosen at each point on the curve, adapted to the geometry of the curve as much as possible). We begin with a fact from vector calculus that will appear throughout this course. Suppose $f, g: (a,b)\to\mathbb R^3$ are differentiable and satisfy $f(t)\cdot g(t)=\text{const}$ for all $t$. Then $f'(t)\cdot g(t) = -f(t)\cdot g'(t)$. In particular, $$\|f(t)\|=\text{const} \quad\text{if and only if}\quad f(t)\cdot f'(t)=0 \quad\text{for all }t\,.$$ What distinguishes a circle or a helix from a line is their curvature, i.e., the tendency of the curve to change direction. We shall now see that we can associate to each smooth ($C^3$) arclength-parametrized curve $\alpha$ a natural ``moving frame" (an orthonormal basis for $\mathbb R^3$ chosen at each point on the curve, adapted to the geometry of the curve as much as possible). We begin with a fact from vector calculus that will appear throughout this course. Suppose $f, g: (a,b)\to\mathbb R^3$ are differentiable and satisfy $f(t)\cdot g(t)=\text{const}$ for all $t$. Then $f'(t)\cdot g(t) = -f(t)\cdot g'(t)$. In particular, $$\|f(t)\|=\text{const} \quad\text{if and only if}\quad f(t)\cdot f'(t)=0 \quad\text{for all }t\,.$$ What distinguishes a circle or a helix from a line is their curvature, i.e., the tendency of the curve to change direction. We shall now see that we can associate to each smooth ($C^3$) arclength-parametrized curve $\alpha$ a natural ``moving frame" (an orthonormal basis for $\mathbb R^3$ chosen at each point on the curve, adapted to the geometry of the curve as much as possible). We begin with a fact from vector calculus that will appear throughout this course. Suppose $f, g: (a,b)\to\mathbb R^3$ are differentiable and satisfy $f(t)\cdot g(t)=\text{const}$ for all $t$. Then $f'(t)\cdot g(t) = -f(t)\cdot g'(t)$. In particular, $$\|f(t)\|=\text{const} \quad\text{if and only if}\quad f(t)\cdot f'(t)=0 \quad\text{for all }t\,.$$ What distinguishes a circle or a helix from a line is their curvature, i.e., the tendency of the curve to change direction. We shall now see that we can associate to each smooth ($C^3$) arclength-parametrized curve $\alpha$ a natural ``moving frame" (an orthonormal basis for $\mathbb R^3$ chosen at each point on the curve, adapted to the geometry of the curve as much as possible). We begin with a fact from vector calculus that will appear throughout this course. Suppose $f, g: (a,b)\to\mathbb R^3$ are differentiable and satisfy $f(t)\cdot g(t)=\text{const}$ for all $t$. Then $f'(t)\cdot g(t) = -f(t)\cdot g'(t)$. In particular, $$\|f(t)\|=\text{const} \quad\text{if and only if}\quad f(t)\cdot f'(t)=0 \quad\text{for all }t\,.$$ What distinguishes a circle or a helix from a line is their curvature, i.e., the tendency of the curve to change direction. We shall now see that we can associate to each smooth ($C^3$) arclength-parametrized curve $\alpha$ a natural ``moving frame" (an orthonormal basis for $\mathbb R^3$ chosen at each point on the curve, adapted to the geometry of the curve as much as possible). We begin with a fact from vector calculus that will appear throughout this course. Suppose $f, g: (a,b)\to\mathbb R^3$ are differentiable and satisfy $f(t)\cdot g(t)=\text{const}$ for all $t$. Then $f'(t)\cdot g(t) = -f(t)\cdot g'(t)$. In particular, $$\|f(t)\|=\text{const} \quad\text{if and only if}\quad f(t)\cdot f'(t)=0 \quad\text{for all }t\,.$$ \end{document} I hope this helps.

I have been looking into switching my lecture presentations from Beamer to ltx-talk for the automatic tagging functionality. For frame titles, the default behavior does not vertically center the text in the colored header/banner. Here is a minimum working example (most recent release of MacTeX). % !TEX TS-program = lualatex \DocumentMetadata{tagging=on} \documentclass{ltx-talk} \EditInstance{header}{std}{ background-color = blue!50, color = white, } \author{John Doe PhD} \title{An interesting title} \institute{Interesting Conference} \begin{document} \begin{frame} \maketitle[framestyle = wallpaper] \end{frame} \begin{frame} \frametitle{Frame title not vertically centered in colored header} Some text \ldots \end{frame} \end{document} Does anyone know how to achieve a frame title that is vertically centered in the header/banner when using ltx-talk?

I am using exam clas with liguistix package to create an exam paper in Marathi. As English has base line, the Devanagari script used for writing Marathi has head-line or Shiro-rekha (ꣻꣻꣻ). As in english the space for an answer is provided using an \hrulefill command which is at the position of base line of Latin characters, I wan to use Shiro-rekha for providing answering space for Marathi text. I can type the shiro-rekha character many times (like this: ꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻ) to fill the space. But it will take time and will be unevenly filled. Is there any way to use this shiro-rekha character and get filled it like a hrulefill? My MWE is as bellow: \documentclass{exam} \usepackage{linguistix} \linguistix{languages={english,marathi}} \begin{document} \makebox[\textwidth]{\textsc{संपूर्ण नाव : } ꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻꣻ} \vspace{0.2in} \makebox[\textwidth]{\textsc{Full name:}\enspace\hrulefill} \end{document}

I'm using a two-column extarticle document, without multicol. How do I make these two plots in a {figure} environment right-aligned instead of left-aligned in the column? They are a part of a nested list in my actual document so I did the same in the code here; other than the lorem ipsum, those are the same figures I'm using in my actual document. My goal with making them right-aligned is to align the left-hand side of the plots with the text following them. \documentclass[twocolumn]{extarticle} \usepackage{pgfplots, lipsum} \usepackage[margin=1cm]{geometry} \pgfplotsset{compat=1.18} \begin{document} \lipsum[1-5] \begin{enumerate} \item \begin{enumerate} \item \lipsum[1] \begin{figure} \label{fig:3sinx+2-x} \begin{tikzpicture} \begin{axis}[ xlabel=$x$, ylabel=$f(x)$, xmin=-0.5, xmax=2*pi+0.5, ymin=-6.25, ymax=6.25, xtick={0, pi/4, pi/2, 3*pi/4, pi, 5*pi/4, 3*pi/2, 7*pi/4, 2*pi}, xticklabels={$0$, , $\frac{\pi}{2}$, , $\pi$, , $\frac{3\pi}{2}$, , $2\pi$}, ytick={-6, -5, -4, -3, -2, -1, 0, 1, 2, 3, 4, 5, 6}, yticklabels={$-6$, , $-4$, , $-2$, , $0$, , $2$, , $4$, , $6$}, axis lines=middle, width=5.5cm, title={$f(x) = 3\sin(x)+2-x$} ] \addplot[ color=red, domain=0:2*pi, smooth ]{3*sin(deg(x)) + 2 - x}; \end{axis} \end{tikzpicture} \label{fig:3sinx+x-3} \begin{tikzpicture} \begin{axis}[ xlabel=$x$, ylabel=$f(x)$, xmin=-0.5, xmax=2*pi+0.5, ymin=-4.25, ymax=4.25, xtick={0, pi/4, pi/2, 3*pi/4, pi, 5*pi/4, 3*pi/2, 7*pi/4, 2*pi}, xticklabels={$0$, , $\frac{\pi}{2}$, , $\pi$, , $\frac{3\pi}{2}$, , $2\pi$}, ytick={-4, -3, -2, -1, 0, 1, 2, 3, 4}, yticklabels={$-4$, $-3$, $-2$, $-1$, $0$, $1$, $2$, $3$, $4$}, axis lines=middle, width=5.5cm, title={$f(x) = 3\sin(x)+x-3$} ] \addplot[ color=red, domain=0:2*pi, smooth ]{3*sin(deg(x)) + x - 3}; \end{axis} \end{tikzpicture} \end{figure} \item \lipsum[1-2] \end{enumerate} \end{enumerate} \end{document}

I am trying to graph a system of 3 inequalities in 3 dimensions. These ineuqalities are: y-z>=1/2x, x-z>=0, and x+y>=3z. Currently I am struggling to get even a basic output. My input is: \documentclass[12pt, a4paper]{article} \usepackage{float, ulem, amsmath, amsthm, amssymb, pgfplots, tikz} \pgfplotsset{width=10cm,compat=1.9} \usepgfplotslibrary{external, fillbetween} \tikzexternalize \begin{document} \begin{tikzpicture} \begin{axis}[domain=0:10,y domain=0:10] \addplot3[surf] {y-(\frac{1}{2}*x)}; \addplot3[surf] {x}; \addplot3[surf] {\frac{x+y}{3}}; \end{axis} \end{tikzpicture} \end{document} I am getting the error: ! Package tikz Error: Sorry, the system call 'pdflatex -halt-on-error -interact ion=batchmode -jobname "mwe-figure0" "\def\tikzexternalrealjob{mwe}\input{mwe}" ' did NOT result in a usable output file 'mwe-figure0' (expected one of .pdf:.j pg:.jpeg:.png:). Please verify that you have enabled system calls. For pdflatex , this is 'pdflatex -shell-escape'. Sometimes it is also named 'write 18' or so mething like that. Or maybe the command simply failed? Error messages can be fo und in 'mwe-figure0.log'. If you continue now, I'll try to typeset the picture. See the tikz package documentation for explanation. Type H <return> for immediate help. ... l.19 \end{tikzpicture} ?