LaTeX2e: An unofficial reference manual 1 About this document 2 Overview of LaTeX 3 Document classes 4 Fonts 5 Layout 6 Sectioning 7 Cross references 8 Environments 9 Line breaking 10 Page breaking 11 Footnotes 12 Definitions 13 Counters 14 Lengths 15 Making paragraphs 16 Math formulas 17 Modes 18 Page styles 19 Spaces 20 Boxes 21 Graphics 22 Color 23 Special insertions 24 Splitting the input 25 Front/back matter 26 Letters 27 Input/output 28 Command line interface Appendix A Document templates Index LaTeX2e: An unofficial reference manual 1 About this document 2 Overview of LaTeX 2.1 Starting and ending 2.2 Output files 2.3 TeX engines 2.4 Input text 2.4.1 Input encodings 2.4.2 Ligatures 2.4.3 Special characters: ‘\ { } % $ & _ ^ # ~’ 2.5 LaTeX command syntax 2.6 Environment syntax 2.7 ‘\DocumentMetadata’: Producing tagged PDF output 2.8 CTAN: The Comprehensive TeX Archive Network 3 Document classes 3.1 Document class options 3.2 ‘\usepackage’: Additional packages 3.3 Class and package creation 3.3.1 Class and package structure 4 Fonts 4.1 ‘fontenc’ package 4.1.1 ‘\DeclareFontEncoding’ 4.1.2 ‘\DeclareTextAccent’ 4.1.3 ‘\DeclareTextAccentDefault’ 4.1.4 ‘\DeclareTextCommand’ & ‘\ProvideTextCommand’ 4.1.5 ‘\DeclareTextCommandDefault’ & ‘\ProvideTextCommandDefault ’ 4.1.6 ‘\DeclareTextComposite’ 4.1.7 ‘\DeclareTextCompositeCommand’ 4.1.8 ‘\DeclareTextSymbol’ 4.1.9 ‘\DeclareTextSymbolDefault’ 4.1.10 ‘\LastDeclaredEncoding’ 4.1.11 ‘\UseTextSymbol’ & ‘\UseTextAccent’ 4.2 Font styles 4.3 Font sizes 4.4 Low-level font commands 5 Layout 5.1 ‘\onecolumn’ 5.2 ‘\twocolumn’ 5.3 ‘\flushbottom’ 5.4 ‘\raggedbottom’ 5.5 Page layout parameters 5.6 ‘\baselineskip’ & ‘\baselinestretch’ 5.7 Floats 5.7.1 ‘\caption’ 6 Sectioning 6.1 ‘\part’ 6.2 ‘\chapter’ 6.3 ‘\section’ 6.4 ‘\subsection’ 6.5 ‘\subsubsection’, ‘\paragraph’, ‘\subparagraph’ 6.6 ‘\appendix’ 6.7 ‘\frontmatter’, ‘\mainmatter’, ‘\backmatter’ 6.8 ‘\@startsection’: Typesetting sectional unit headings 7 Cross references 7.1 ‘\label’ 7.2 ‘\pageref’ 7.3 ‘\ref’ 7.4 ‘xr’ package 8 Environments 8.1 ‘abstract’ 8.2 ‘array’ 8.3 ‘center’ 8.3.1 ‘\centering’ 8.4 ‘description’ 8.5 ‘displaymath’ 8.6 ‘document’ 8.6.1 ‘\AtBeginDocument’ 8.6.2 ‘\AtEndDocument’ 8.7 ‘enumerate’ 8.8 ‘eqnarray’ 8.9 ‘equation’ 8.10 ‘figure’ 8.11 ‘filecontents’ 8.12 ‘flushleft’ 8.12.1 ‘\raggedright’ 8.13 ‘flushright’ 8.13.1 ‘\raggedleft’ 8.14 ‘itemize’ 8.15 ‘letter’ environment: writing letters 8.16 ‘list’ 8.16.1 ‘\item’: An entry in a list 8.16.2 ‘trivlist’: A restricted form of ‘list’ 8.17 ‘math’ 8.18 ‘minipage’ 8.19 ‘picture’ 8.19.1 ‘\put’ 8.19.2 ‘\multiput’ 8.19.3 ‘\qbezier’ 8.19.4 ‘\graphpaper’ 8.19.5 ‘\line’ 8.19.6 ‘\linethickness’ 8.19.7 ‘\thinlines’ 8.19.8 ‘\thicklines’ 8.19.9 ‘\circle’ 8.19.10 ‘\oval’ 8.19.11 ‘\shortstack’ 8.19.12 ‘\vector’ 8.19.13 ‘\makebox’ (picture) 8.19.14 ‘\framebox’ (picture) 8.19.15 ‘\frame’ 8.19.16 ‘\dashbox’ 8.20 ‘quotation’ & ‘quote’ 8.21 ‘tabbing’ 8.21.1 ‘tabbing’ first example 8.21.2 ‘tabbing’ commands 8.21.3 ‘tabbing’ complex examples 8.22 ‘table’ 8.23 ‘tabular’ 8.23.1 ‘\multicolumn’ 8.23.2 ‘\vline’ 8.23.3 ‘\cline’ 8.23.4 ‘\hline’ 8.24 ‘thebibliography’ 8.24.1 ‘\bibitem’ 8.24.2 ‘\cite’ 8.24.3 ‘\nocite’ 8.24.4 Using BibTeX 8.24.4.1 BibTeX error messages 8.25 ‘theorem’ 8.26 ‘titlepage’ 8.27 ‘verbatim’ 8.27.1 ‘\verb’ 8.28 ‘verse’ 9 Line breaking 9.1 ‘\\’ 9.2 ‘\obeycr’ & ‘\restorecr’ 9.3 ‘\newline’ 9.4 ‘\-’ (discretionary hyphen) 9.5 ‘\slash’: breakable ‘/’ 9.6 ‘\discretionary’ (generalized hyphenation point) 9.7 ‘\fussy’ & ‘\sloppy’ 9.7.1 ‘sloppypar’ 9.8 ‘\hyphenation’ 9.9 ‘\linebreak’ & ‘\nolinebreak’ 10 Page breaking 10.1 ‘\clearpage’ & ‘\cleardoublepage’ 10.2 ‘\newpage’ 10.3 ‘\enlargethispage’ 10.4 ‘\pagebreak’ & ‘\nopagebreak’ 11 Footnotes 11.1 ‘\footnote’ 11.2 ‘\footnotemark’ 11.3 ‘\footnotetext’ 11.4 Footnotes in section headings 11.5 Footnotes in a table 11.6 Footnotes of footnotes 12 Definitions 12.1 ‘\newcommand’ & ‘\renewcommand’ 12.1.1 Control sequence, control word and control symbol 12.2 ‘\providecommand’ 12.3 ‘\makeatletter’ & ‘\makeatother’ 12.4 ‘\@ifstar’ 12.5 ‘\newcounter’: Allocating a counter 12.6 ‘\newlength’ 12.7 ‘\newsavebox’ 12.8 ‘\newenvironment’ & ‘\renewenvironment’ 12.9 ‘\newtheorem’ 12.10 ‘\newfont’ 12.11 ‘\protect’ 12.12 ‘\ignorespaces & \ignorespacesafterend’ 12.13 ‘xspace’ package 12.14 Class and package commands 12.14.1 ‘\AtBeginDvi’ & ‘\AtEndDvi’ 12.14.2 ‘\AtEndOfClass’ & ‘\AtEndOfPackage’ 12.14.3 ‘\CheckCommand’ 12.14.4 ‘\ClassError’ and ‘\PackageError’ and other messages 12.14.5 ‘\CurrentOption’ 12.14.6 ‘\DeclareOption’ 12.14.7 ‘\DeclareRobustCommand’ 12.14.8 ‘\ExecuteOptions’ 12.14.9 ‘\IfFileExists’ & ‘\InputIfFileExists’ 12.14.10 ‘\LoadClass’ & ‘\LoadClassWithOptions’ 12.14.11 ‘\NeedsTeXFormat’ 12.14.12 ‘\OptionNotUsed’ 12.14.13 ‘\PassOptionsToClass’ & ‘\PassOptionsToPackage’ 12.14.14 ‘\ProcessOptions’ 12.14.15 ‘\ProvidesClass’ & ‘\ProvidesPackage’ 12.14.16 ‘\ProvidesFile’ 12.14.17 ‘\RequirePackage’ & ‘\RequirePackageWithOptions’ 13 Counters 13.1 ‘\alph \Alph \arabic \roman \Roman \fnsymbol’: Printing counters 13.2 ‘\usecounter’ 13.3 ‘\value’ 13.4 ‘\setcounter’ 13.5 ‘\addtocounter’ 13.6 ‘\refstepcounter’ 13.7 ‘\stepcounter’ 13.8 ‘\day’ & ‘\month’ & ‘\year’ 14 Lengths 14.1 Units of length 14.2 ‘\setlength’ 14.3 ‘\addtolength’ 14.4 ‘\settodepth’ 14.5 ‘\settoheight’ 14.6 ‘\settowidth’ 14.7 ‘\stretch’ 14.8 Expressions 15 Making paragraphs 15.1 ‘\par’ 15.2 ‘\indent’ & ‘\noindent’ 15.3 ‘\parindent’ & ‘\parskip’ 15.4 Marginal notes 16 Math formulas 16.1 Subscripts & superscripts 16.2 Math symbols 16.2.1 Arrows 16.2.2 ‘\boldmath’ & ‘\unboldmath’ 16.2.2.1 ‘bm’: Individual bold math symbols 16.2.2.2 OpenType bold math 16.2.3 Blackboard bold 16.2.4 Calligraphic 16.2.5 Delimiters 16.2.5.1 ‘\left’ & ‘\right’ 16.2.5.2 ‘\bigl’, ‘\bigr’, etc. 16.2.6 Dots, horizontal or vertical 16.2.7 Greek letters 16.3 Math functions 16.4 Math accents 16.5 Over- or under math 16.6 Spacing in math mode 16.6.1 ‘\smash’ 16.6.2 ‘\phantom’ & ‘\vphantom’ & ‘\hphantom’ 16.6.3 ‘\mathstrut’ 16.7 Math styles 16.8 Math miscellany 16.8.1 Colon character ‘:’ & ‘\colon’ 16.8.2 ‘\*’ 16.8.3 ‘\frac’ 16.8.4 ‘\sqrt’ 16.8.5 ‘\stackrel’ 17 Modes 17.1 ‘\ensuremath’ 18 Page styles 18.1 ‘\maketitle’ 18.2 ‘\pagenumbering’ 18.3 ‘\pagestyle’ 18.4 ‘\thispagestyle’ 18.5 ‘\thepage’ 19 Spaces 19.1 ‘\enspace’ & ‘\quad’ & ‘\qquad’ 19.2 ‘\hspace’ 19.3 ‘\hfill’ 19.4 ‘\hss’ 19.5 ‘\spacefactor’ 19.5.1 ‘\@’ 19.5.2 ‘\frenchspacing’ & ‘\nonfrenchspacing’ 19.5.3 ‘\normalsfcodes’ 19.6 Backslash-space, ‘\ ’ 19.7 ‘~’, ‘\nobreakspace’ 19.8 ‘\thinspace’ & ‘\negthinspace’ 19.9 ‘\/’ 19.10 ‘\hrulefill’ & ‘\dotfill’ 19.11 ‘\bigskip’ & ‘\medskip’ & ‘\smallskip’ 19.12 ‘\bigbreak’ & ‘\medbreak’ & ‘\smallbreak’ 19.13 ‘\strut’ 19.14 ‘\vspace’ 19.15 ‘\vfill’ 19.16 ‘\addvspace’ 20 Boxes 20.1 ‘\mbox’ & ‘\makebox’ 20.2 ‘\fbox’ & ‘\framebox’ 20.3 ‘\parbox’ 20.4 ‘\raisebox’ 20.5 ‘\sbox’ & ‘\savebox’ 20.6 ‘lrbox’ 20.7 ‘\usebox’ 21 Graphics 21.1 ‘graphics’ package options 21.2 ‘graphics’ package configuration 21.2.1 ‘\graphicspath’ 21.2.2 ‘\DeclareGraphicsExtensions’ 21.2.3 ‘\DeclareGraphicsRule’ 21.3 Commands for graphics 21.3.1 ‘\includegraphics’ 21.3.2 ‘\rotatebox’ 21.3.3 ‘\scalebox’ 21.3.4 ‘\resizebox’ 22 Color 22.1 ‘color’ package options 22.2 Color models 22.3 Commands for color 22.3.1 Define colors 22.3.2 Colored text 22.3.3 Colored boxes 22.3.4 Colored pages 23 Special insertions 23.1 Printing special characters 23.2 Upper and lower case 23.3 Symbols by font position 23.4 Text symbols 23.5 Accents 23.5.1 ‘\accent’ 23.6 Additional Latin letters 23.7 ‘inputenc’ package 23.8 ‘\rule’ 23.9 ‘\today’ 24 Splitting the input 24.1 ‘\endinput’ 24.2 ‘\include’ & ‘\includeonly’ 24.3 ‘\input’ 25 Front/back matter 25.1 Table of contents, list of figures, list of tables 25.1.1 ‘\@dottedtocline’ 25.1.2 ‘\addcontentsline’ 25.1.3 ‘\addtocontents’ 25.1.4 ‘\contentsline’ 25.1.5 ‘\nofiles’ 25.1.6 ‘\numberline’ 25.2 Indexes 25.2.1 Produce the index manually 25.2.2 ‘\index’ 25.2.3 ‘makeindex’ 25.2.4 ‘\printindex’ 25.3 Glossaries 25.3.1 ‘\newglossaryentry’ 25.3.2 ‘\gls’ 26 Letters 26.1 ‘\address’ 26.2 ‘\cc’ 26.3 ‘\closing’ 26.4 ‘\encl’ 26.5 ‘\location’ 26.6 ‘\makelabels’ 26.7 ‘\name’ 26.8 ‘\opening’ 26.9 ‘\ps’ 26.10 ‘\signature’ 26.11 ‘\telephone’ 27 Input/output 27.1 ‘\openin’ & ‘\openout’ 27.2 ‘\read’ 27.3 ‘\typein’ 27.4 ‘\typeout’ 27.5 ‘\write’ 27.5.1 ‘\write’ and security 27.5.2 ‘\message’ 27.5.3 ‘\wlog’ 27.5.4 ‘\write18’ 28 Command line interface 28.1 Command line options 28.2 Command line input 28.3 Jobname 28.4 Recovering from errors Appendix A Document templates A.1 ‘beamer’ template A.2 ‘article’ template A.3 ‘book’ template A.4 Larger ‘book’ template Index LaTeX2e: An unofficial reference manual *************************************** This document is an unofficial reference manual (version of January 2025) for LaTeX2e, a document preparation system. 1 About this document ********************* This is an unofficial reference manual for the LaTeX2e document preparation system, which is a macro package for the TeX typesetting program (see Overview). This document's home page is ; it has separate web pages for each topic. Alternatively. has the entire document on a single page. For other output formats, the sources, and plenty more information, see . In this document, we will mostly just use 'LaTeX' rather than 'LaTeX2e', since the previous version of LaTeX (2.09) was frozen decades ago. LaTeX is maintained by a group of volunteers (). The official documentation written by the LaTeX project is available from their web site. The present document is completely unofficial and has not been written or reviewed by the LaTeX maintainers. Do not send bug reports or anything else about this document to them. Instead, please send all comments to . This is a public list; you can (un)subscribe, view the archives, etc., at . This document is a reference, not a tutorial. There is a vast array of other information available about LaTeX, at all levels. Here are a few introductions. Two pages of recommended references to LaTeX documentation. Writing your first document, with a bit of both text and math. A longer introduction to LaTeX, translated to many languages. Overview of getting started with TeX and LaTeX. 2 Overview of LaTeX ******************* LaTeX is a system for typesetting documents. It was originally created by Leslie Lamport in 1984, but has been maintained by a group of volunteers for many years now (). It is widely used, particularly but not exclusively for mathematical and technical documents. A LaTeX user writes an input file containing text to be typeset along with interspersed commands. The default encoding for the text is UTF-8 (as of 2018). The commands specify, for example, how the text should be formatted. LaTeX is implemented as a set of so-called "macros" (a TeX “format”) which use Donald E. Knuth's TeX typesetting program or one of its derivatives, collectively known as "engines". Thus, the user produces output, typically PDF, by giving the input file to a TeX engine. The following sections describe all this in more detail. The term LaTeX is also sometimes used to mean the language in which the input document is marked up, that is, to mean the set of commands available to a LaTeX user. The name LaTeX is short for "Lamport TeX". It is pronounced LAH-teck or LAY-teck, or sometimes LAY-tecks. Inside a document, produce the logo with ‘\LaTeX’. Where use of the logo is not sensible, such as in plain text, write it as ‘LaTeX’. 2.1 Starting and ending ======================= LaTeX files have a simple global structure, with a standard beginning and ending. Here is a small example: \documentclass{article} \begin{document} Hello, \LaTeX\ world. \end{document} Every LaTeX document has a ‘\begin{document}’ line and an ‘\end{document}’ line. Here, the ‘article’ is the “document class”. It is implemented in a file ‘article.cls’. You can use any document class available on your system. A few document classes are defined by LaTeX itself, and a vast array of others are available. See Document classes. You can include other LaTeX commands between the ‘\documentclass’ and the ‘\begin{document}’ commands. This area is called the “preamble”. The ‘\begin{document}’ ... ‘\end{document}’ pair defines an “environment”; the ‘document’ environment (and no others) is required in all LaTeX documents (see document). LaTeX provides many environments that are documented here (see Environments). Many more are available to you from external packages, most importantly those available at CTAN (see CTAN). The following sections discuss how to produce PDF or other output from a LaTeX input file. 2.2 Output files ================ LaTeX produces a main output file and at least two auxiliary files. The main output file's name ends in either ‘.dvi’ or ‘.pdf’. ‘.dvi’ If LaTeX is invoked with the system command ‘latex’ then it produces a DeVice Independent file, with extension ‘.dvi’. You can view this file with a command such as ‘xdvi’, or convert it to a PostScript ‘.ps’ file with ‘dvips’ or to a Portable Document Format ‘.pdf’ file with ‘dvipdfmx’. The contents of the file can be dumped in human-readable form with ‘dvitype’. A vast array of other DVI utility programs are available (). ‘.pdf’ If LaTeX is invoked via the system command ‘pdflatex’, among other commands (see TeX engines), then the main output is a Portable Document Format (PDF) file. Typically this is a self-contained file, with all fonts and images included. LaTeX always produces at least two additional files. ‘.log’ This transcript file contains summary information such as a list of loaded packages. It also includes diagnostic messages and perhaps additional information for any errors. ‘.aux’ Auxiliary information is used by LaTeX for things such as cross references. For example, the first time that LaTeX finds a forward reference--a cross reference to something that has not yet appeared in the source--it will appear in the output as a doubled question mark ‘??’. When the referred-to spot does eventually appear in the source then LaTeX writes its location information to this ‘.aux’ file. On the next invocation, LaTeX reads the location information from this file and uses it to resolve the reference, replacing the double question mark with the remembered location. LaTeX may produce yet more files, characterized by the filename ending. These include a ‘.lof’ file that is used to make a list of figures, a ‘.lot’ file used to make a list of tables, and a ‘.toc’ file used to make a table of contents (see Table of contents etc.). A particular class may create others; the list is open-ended. 2.3 TeX engines =============== LaTeX is a large set of commands (macros) that is executed by a TeX program (see Overview). Such a set of commands is called a “format”, and is embodied in a binary ‘.fmt’ file, which can be read much more quickly than the corresponding TeX source. This section gives a terse overview of the TeX programs that are commonly available (see also Command line interface). ‘latex’ ‘pdflatex’ In TeX Live (), if LaTeX is invoked via either the system command ‘latex’ or ‘pdflatex’, then the pdfTeX engine is run (). When invoked as ‘latex’, the main output is a ‘.dvi’ file; as ‘pdflatex’, the main output is a ‘.pdf’ file. pdfTeX incorporates the e-TeX extensions to Knuth's original program (), including additional programming features and bi-directional typesetting, and has plenty of extensions of its own. e-TeX is available on its own as the system command ‘etex’, but this is plain TeX (and produces ‘.dvi’). In other TeX distributions, ‘latex’ may invoke e-TeX rather than pdfTeX. In any case, the e-TeX extensions can be assumed to be available in LaTeX, and a few extensions beyond e-TeX, particularly for file manipulation. ‘lualatex’ If LaTeX is invoked via the system command ‘lualatex’, the LuaTeX engine is run (). This program allows code written in the scripting language Lua () to interact with TeX's typesetting. LuaTeX handles UTF-8 Unicode input natively, can handle OpenType and TrueType fonts, and produces a ‘.pdf’ file by default. There is also ‘dvilualatex’ to produce a ‘.dvi’ file. ‘xelatex’ If LaTeX is invoked with the system command ‘xelatex’, the XeTeX engine is run (). Like LuaTeX, XeTeX natively supports UTF-8 Unicode and TrueType and OpenType fonts, though the implementation is completely different, mainly using external libraries instead of internal code. XeTeX produces a ‘.pdf’ file as output; it does not support DVI output. Internally, XeTeX creates an ‘.xdv’ file, a variant of DVI, and translates that to PDF using the (‘x’)‘dvipdfmx’ program, but this process is automatic. The ‘.xdv’ file is only useful for debugging. ‘hilatex’ If LaTeX is invoked via the system command ‘hilatex’, the HiTeX engine is run (). This program produces its own format, named HINT, designed especially for high-quality typesetting on mobile devices. ‘platex’ ‘uplatex’ These commands provide significant additional support for Japanese and other languages; the ‘u’ variant supports Unicode. See and . As of 2019, there is a companion ‘-dev’ command and format for all of the above, except ‘hitex’: ‘dvilualatex-dev’ ‘latex-dev’ ‘lualatex-dev’ ‘pdflatex-dev’ ‘platex-dev’ ‘uplatex-dev’ ‘xelatex-dev’ These are candidates for an upcoming LaTeX release. The main purpose is to find and address compatibility problems before an official release. These ‘-dev’ formats make it easy for anyone to help test documents and code: you can run, say, ‘pdflatex-dev’ instead of ‘pdflatex’, without changing anything else in your environment. Indeed, it is easiest and most helpful to always run the ‘-dev’ versions instead of bothering to switch back and forth. During quiet times after a release, the commands will be equivalent. These are not daily snapshots or untested development code. They undergo the same extensive regression testing by the LaTeX team before being released. For more information, see "The LaTeX release workflow and the LaTeX ‘dev’ formats" by Frank Mittelbach, ‘TUGboat’ 40:2, . 2.4 Input text ============== To a first approximation, most input characters in LaTeX print as themselves. But there are exceptions, as discussed in the following sections. 2.4.1 Input encodings --------------------- The input to TeX (or any computer program) ultimately consists of a sequence of bytes. (Nowadays, a byte is almost universally an eight-bit number, i.e., an integer between 0 and 255, inclusive.) The input encoding defines how to interpret that sequence of bytes, and thus how LaTeX behaves. Today, by far the most common way to encode text is with “UTF-8”, a so-called "Unicode Transformation Format" which specifies how to transform a sequence of 8-bit bytes to Unicode code points, which are defined independent of any particular representation. The Unicode encoding defines code points for virtually all characters used today in written text. When TeX was created, Unicode and UTF-8 did not exist and the 7-bit ASCII encoding was by far the most widely used. So TeX does not require Unicode for text input. UTF-8 is a superset of ASCII, so a pure 7-bit ASCII document is also UTF-8. Since 2018, the default input encoding for LaTeX is UTF-8. Some methods for handling documents written in some other encoding, such as ISO-8859-1 (Latin 1), are explained in inputenc package. You can easily find more about all these topics in any introductory computer text or online. For example, you might start at: . 2.4.2 Ligatures --------------- A “ligature” combines two or more letters (more generally, characters) into a single glyph. For example, in Latin-based typography, the two letters ‘f’ and ‘i’ are often combined into the glyph 'fi'. TeX supports ligatures automatically. To continue the example, if the input has the word ‘fine’, written as four separate ASCII characters, TeX will output the word 'fine' (with the default fonts), with three typeset glyphs. In traditional TeX, the available ligatures, if any, are defined by the current font. TeX also uses the ligature mechanism to produce a few typographical characters which were not available in any computer encoding when TeX was invented. In all, in the original Computer Modern fonts, the following input character sequences are defined to lead to ligatures: ‘ff’ ff (ff ligature, U+FB00) ‘fi’ fi (fi ligature, U+FB01) ‘fl’ fl (fl ligature, U+FB02) ‘ffi’ ffi (ffi ligature, U+FB03) ‘ffl’ ffl (ffl ligature, U+FB04) ‘``’ " (left double quotation mark, U+201C) ‘''’ " (right double quotation mark, U+201D) ‘--’ - (en-dash, U+2013) ‘---’ -- (em-dash, U+2014) ‘!`’ !' (inverted exclamation mark, U+00A1) ‘?`’ ?' (inverted question mark, U+00BF) (For the f-ligatures above, the text in parentheses shows the individual characters, so in the typeset output you can easily see the difference between the ligature and the original character sequence.) Nowadays it's usually possible to directly input the punctuation characters as Unicode characters, and LaTeX supports that (see previous section). But even today, it can still often be useful to use the ASCII ligature input form; for example, the difference between an en-dash and em-dash, as a single glyph, can be all but impossible to discern, but the difference between two and three ASCII hyphen characters is clear. Similarly with quotation marks, in some fonts. Thus, even the engines with native support for UTF-8, namely LuaTeX and XeTeX, also support the ASCII ligature input sequences by default, independent of the font used. They also need to do so for compatibility. By the way, the f-ligatures are also available in Unicode (the "Alphabetic Presentation Forms" block starting at U+FB00), but it's almost never desirable to use them as input characters, since in principle it should be up to the typesetter and the current font whether to use ligatures. Also, in practice, using them will typically cause searches to fail, that is, a search for the two characters ‘fi’ will not be matched by the ligature 'fi' at U+FB01. 2.4.3 Special characters: ‘\ { } % $ & _ ^ # ~’ ----------------------------------------------- Besides ligatures (see previous section), a few individual characters have special meaning to LaTeX. They are called “reserved characters” or “special characters”. Here they are: ‘\’ Introduces a command name, as seen throughout this manual. ‘{’ ‘}’ Delimits a required argument to a command or a level of grouping, as seen throughout this manual. ‘%’ Starts a comment: the ‘%’ and all remaining characters on the current line are ignored. ‘$’ Starts and ends math mode (see Math formulas). ‘&’ Separates cells in a table (see tabular). ‘_’ ‘^’ Introduce a subscript or superscript, respectively, in math (see Subscripts & superscripts); they produce an error outside math mode. As a little-used special feature, two superscript characters in a row can introduce special notation for an arbitrary character. ‘#’ Stands for arguments in a macro definition (see \newcommand & \renewcommand). ‘~’ Produces a nonbreakable interword space (see ~). See Printing special characters, for how to typeset these characters when you need them literally. 2.5 LaTeX command syntax ======================== In the LaTeX input file, a command name starts with a backslash character, ‘\’. The name itself then consists of either (a) a string of letters or (b) a single non-letter. LaTeX commands names are case sensitive; for example, ‘\pagebreak’ differs from ‘\Pagebreak’ (the latter is not a standard command). Most command names are lowercase, but in any event you must enter all commands in the same case as they are defined. A command may be followed by zero, one, or more arguments. These arguments may be either required or optional. Required arguments are contained in curly braces, ‘{...}’. Optional arguments are contained in square brackets, ‘[...]’. Generally, but not universally, if the command accepts an optional argument, it comes first, before any required arguments; optional arguments could come after required arguments, or both before and after. Inside of an optional argument, to use the character close square bracket (‘]’) hide it inside curly braces, as in ‘\item[closing bracket {]}]’. Similarly, if an optional argument comes last, with no required argument after it, then to make the first character of the following text be an open square bracket, hide it inside curly braces. LaTeX has the convention that some commands have a ‘*’ form that is closely related to the form without a ‘*’, such as ‘\chapter’ and ‘\chapter*’. The difference in behavior varies from command to command. This manual describes all accepted options and ‘*’-forms for the commands it covers (barring unintentional omissions, a.k.a. bugs). As of the 2020-10-01 release of LaTeX, the ‘expl3’ and ‘xparse’ packages are part of the LaTeX2e format. They provide a completely different underlying programming language syntax. We won't try to cover that in this document; see the related package documentation and other LaTeX manuals. 2.6 Environment syntax ====================== Synopsis: \begin{ENVIRONMENT-NAME} ... \end{ENVIRONMENT-NAME} An “environment” is an area of LaTeX source, inside of which there is a distinct behavior. For instance, for poetry in LaTeX put the lines between ‘\begin{verse}’ and ‘\end{verse}’. \begin{verse} There once was a man from Nantucket \\ ... \end{verse} See Environments, for a list of environments. Particularly notable is that every LaTeX document must have a ‘document’ environment, a ‘\begin{document} ... \end{document}’ pair. The ENVIRONMENT-NAME at the beginning must exactly match that at the end. This includes the case where ENVIRONMENT-NAME ends in a star (‘*’); both the ‘\begin’ and ‘\end’ texts must include the star. Environments may have arguments, including optional arguments. This example produces a table. The first argument is optional (and causes the table to be aligned on its top row) while the second argument is required (it specifies the formatting of columns). \begin{tabular}[t]{r|l} ... ROWS-OF-TABLE ... \end{tabular} 2.7 ‘\DocumentMetadata’: Producing tagged PDF output ==================================================== The ‘\DocumentMetadata’ command was added to LaTeX in 2022. It enables so-called "tagging" of the PDF output, aiding accessibility of the PDF. It is supported best with LuaLaTeX; pdfLaTeX and XeLaTeX are supported as well as possible (see TeX engines). It is unlike nearly any other command in LaTeX in that it must occur before the ‘\documentclass’ command that starts a LaTeX document proper (see \documentclass). Therefore it must be called with ‘\RequirePackage’ rather than ‘\usepackage’ (see \RequirePackage). This support is still in development, so we will not try to list all the possible settings. Please see the ‘documentmetadata-support-doc’ document, part of the ‘latex-lab’ package (). Here is a simple example which enables most tagging currently implemented: \DocumentMetadata{testphase={phase-III,firstaid}} \documentclass{article} ... As you can see from the key name ‘testphase’, this is all still in an experimental phase. The LaTeX developers strongly encourage users to give it a try and report problems, so it can be improved. 2.8 CTAN: The Comprehensive TeX Archive Network =============================================== The Comprehensive TeX Archive Network, CTAN, is the TeX and LaTeX community's repository of free material. It is a set of Internet sites around the world that offer material related to LaTeX for download. Visit CTAN on the web at . This material is organized into packages, discrete bundles that typically offer some coherent functionality and are maintained by one person or a small number of people. For instance, many publishers have a package that allows authors to format papers to that publisher's specifications. In addition to its massive holdings, the ‘ctan.org’ web site offers features such as search by name or by functionality. CTAN is not a single host, but instead is a set of hosts, one of which is the so-called "master". The master host actively manages the material, for instance, by accepting uploads of new or updated packages. For many years, it has been hosted by the German TeX group, DANTE e.V. Other sites around the world help out by mirroring, that is, automatically syncing their collections with the master site and then in turn making their copies publicly available. This gives users close to their location better access and relieves the load on the master site. The list of mirrors is at . 3 Document classes ****************** The document's overall class is defined with the ‘\documentclass’ command, which is normally the first command in a LaTeX source file. \documentclass[OPTIONS]{CLASS} The following document CLASS names are built into LaTeX. Many other document classes are available as separate packages (see Overview). ‘article’ For a journal article, a presentation, and miscellaneous general use. ‘book’ Full-length books, including chapters and possibly including front matter, such as a preface, and back matter, such as an appendix (see Front/back matter). ‘letter’ Mail, optionally including mailing labels (see Letters). ‘report’ For documents of length between an ‘article’ and a ‘book’, such as technical reports or theses, which may contain several chapters. ‘slides’ For slide presentations--rarely used nowadays. The ‘beamer’ package is perhaps the most prevalent replacement (). See beamer template, for a small template for a beamer document. Standard OPTIONS are described in the next section. 3.1 Document class options ========================== You can specify “global options” or “class options” to the ‘\documentclass’ command by enclosing them in square brackets. To specify more than one OPTION, separate them with a comma. \documentclass[OPTION1,OPTION2,...]{CLASS} LaTeX automatically passes options specified for ‘\documentclass’ on to any other loaded classes that can handle them. Here is the list of the standard class options. All of the standard classes except ‘slides’ accept the following options for selecting the typeface size; the default is ‘10pt’: 10pt 11pt 12pt All of the standard classes accept these options for selecting the paper size (dimensions are listed height by width): ‘a4paper’ 210 by 297mm (about 8.25 by 11.75 inches) ‘a5paper’ 148 by 210mm (about 5.8 by 8.3 inches) ‘b5paper’ 176 by 250mm (about 6.9 by 9.8 inches) ‘executivepaper’ 7.25 by 10.5 inches ‘legalpaper’ 8.5 by 14 inches ‘letterpaper’ 8.5 by 11 inches (the default) When using one of the engines pdfLaTeX, LuaLaTeX, or XeLaTeX (see TeX engines), options other than ‘letterpaper’ set the print area but you must also set the physical paper size. Usually, the ‘geometry’ package is the best way to do that; it provides flexible ways of setting the print area and physical page size. Otherwise, setting the paper size is engine-dependent. For example, with pdfLaTeX, you could include ‘\pdfpagewidth=\paperwidth’ and ‘\pdfpageheight=\paperheight’ in the preamble. Miscellaneous other options: ‘draft’ ‘final’ Mark (‘draft’) or do not mark (‘final’) overfull boxes with a black box in the margin; default is ‘final’. ‘fleqn’ Put displayed formulas flush left; default is centered. ‘landscape’ Selects landscape format; default is portrait. ‘leqno’ Put equation numbers on the left side of equations; default is the right side. ‘openbib’ Use "open" bibliography format. ‘titlepage’ ‘notitlepage’ Specifies whether there is a separate page for the title information and for the abstract also, if there is one. The default for the ‘report’ class is ‘titlepage’, for the other classes it is ‘notitlepage’. The following options are not available with the ‘slides’ class. ‘onecolumn’ ‘twocolumn’ Typeset in one or two columns; default is ‘onecolumn’. ‘oneside’ ‘twoside’ Selects one- or two-sided layout; default is ‘oneside’, except that in the ‘book’ class the default is ‘twoside’. For one-sided printing, the text is centered on the page. For two-sided printing, the ‘\evensidemargin’ (‘\oddsidemargin’) parameter determines the distance on even (odd) numbered pages between the left side of the page and the text's left margin, with ‘\oddsidemargin’ being 40% of the difference between ‘\paperwidth’ and ‘\textwidth’, and ‘\evensidemargin’ is the remainder. ‘openright’ ‘openany’ Specifies whether a chapter (or appendix, etc.) should start on a right-hand page, by inserting a blank page if necessary. The default is ‘openright’ for ‘book’, and ‘openany’ for ‘report’. The ‘slides’ class offers the option ‘clock’ for printing the time at the bottom of each note. 3.2 ‘\usepackage’: Additional packages ====================================== To load a package PKG, with the package options given in the comma-separated list OPTIONS: \usepackage[OPTIONS]{PKG}[MINDATE] To specify more than one package you can separate them with a comma, as in ‘\usepackage{PKG1,PKG2,...}’, or use multiple ‘\usepackage’ commands. If the MINDATE optional argument is given, LaTeX gives a warning if the loaded package has an earlier date, i.e., is too old. The MINDATE argument must be in the form ‘YYYY/MM/DD’. More info on this: . ‘\usepackage’ must be used in the document preamble, between the ‘\documentclass’ declaration and the ‘\begin{document}’. Occasionally it is necessary to load packages before the ‘\documentclass’; see ‘\RequirePackage’ for that (see \RequirePackage). Any options given in the global ‘\documentclass’ command that are unknown to the selected document class are passed on to the packages loaded with ‘\usepackage’. 3.3 Class and package creation ============================== You can create new document classes and new packages. For instance, if your memos must satisfy some local requirements, such as a standard header for each page, then you could create a new class ‘smcmemo.cls’ and begin your documents with ‘\documentclass{smcmemo}’. What separates a package from a document class is that the commands in a package are useful across classes while those in a document class are specific to that class. Thus, a command to set page headers is for a package while a command to make the page headers be ‘Memo from the SMC Math Department’ is for a class. Inside of a class or package definition you can use the at-sign ‘@’ as a character in command names without having to surround the code containing that command with ‘\makeatletter’ and ‘\makeatother’ (see \makeatletter & \makeatother). This allows you to create commands that users will not accidentally redefine. It is also highly desirable to prefix class- or package-specific commands with your package name or similar string, to prevent your definitions from clashing with those from other packages. For instance, the class ‘smcmemo’ might have commands ‘\smc@tolist’, ‘\smc@fromlist’, etc. 3.3.1 Class and package structure --------------------------------- A class file or package file typically has four parts. 1. In the “identification part”, the file says that it is a LaTeX package or class and describes itself, using the ‘\NeedsTeXFormat’ and ‘\ProvidesClass’ or ‘\ProvidesPackage’ commands. 2. The “preliminary declarations part” declares some commands and can also load other files. Usually these commands will be those needed for the code used in the next part. For example, an ‘smcmemo’ class might be called with an option to read in a file with a list of people for the to-head, as ‘\documentclass[mathto]{smcmemo}’, and therefore needs to define a command ‘\newcommand{\setto}[1]{\def\@tolist{#1}}’ used in that file. 3. In the “handle options part” the class or package declares and processes its options. Class options allow a user to start their document as ‘\documentclass[OPTION LIST]{CLASS NAME}’, to modify the behavior of the class. An example is when you declare ‘\documentclass[11pt]{article}’ to set the default document font size. 4. Finally, in the “more declarations part” the class or package usually does most of its work: declaring new variables, commands and fonts, and loading other files. Here is a starting class file, which should be saved as ‘stub.cls’ where LaTeX can find it, for example in the same directory as the ‘.tex’ file. \NeedsTeXFormat{LaTeX2e} \ProvidesClass{stub}[2017/07/06 stub to start building classes from] \DeclareOption*{\PassOptionsToClass{\CurrentOption}{article}} \ProcessOptions\relax \LoadClass{article} It identifies itself, handles the class options via the default of passing them all to the ‘article’ class, and then loads the ‘article’ class to provide the basis for this class's code. For more, see the official guide for class and package writers, the Class Guide, at (much of the description here derives from this document), or the tutorial at . See Class and package commands, for some of the commands specifically intended for class and package writers. 4 Fonts ******* LaTeX comes with powerful font capacities. For one thing, its New Font Selection Scheme allows you to work easily with the font families in your document (for instance, see Font styles). And, LaTeX documents can use most fonts that are available today, including versions of Times Roman, Helvetica, Courier, etc. (Note, though, that many fonts do not have support for mathematics.) The first typeface in the TeX world was the Computer Modern family, developed by Donald Knuth. It is the default for LaTeX documents and is still the most widely used. But changing to another font often only involves a few commands. For instance, putting the following in your preamble gives you a Palatino-like font, which is handsome and more readable online than many other fonts, while still allowing you to typeset mathematics. (This example is from Michael Sharpe, .) \usepackage[osf]{newpxtext} % osf for text, not math \usepackage{cabin} % sans serif \usepackage[varqu,varl]{inconsolata} % sans serif typewriter \usepackage[bigdelims,vvarbb]{newpxmath} % bb from STIX \usepackage[cal=boondoxo]{mathalfa} % mathcal In addition, the ‘xelatex’ or ‘lualatex’ engines allow you to use any fonts on your system that are in OpenType or TrueType format (see TeX engines). The LaTeX Font Catalogue () shows font sample graphics and copy-and-pasteable source to use many fonts, including many with support for mathematics. It aims to cover all Latin alphabet free fonts available for easy use with LaTeX. More information is also available from the TeX Users Group, at . 4.1 ‘fontenc’ package ===================== Synopsis: \usepackage[FONT_ENCODING]{fontenc} or \usepackage[FONT_ENCODING1, FONT_ENCODING2, ...]{fontenc} Specify the font encodings. A font encoding is a mapping of the character codes to the font glyphs that are used to typeset your output. This package only applies if you use the ‘pdflatex’ engine (see TeX engines). If you use the ‘xelatex’ or ‘lualatex’ engine then instead use the ‘fontspec’ package. TeX's original font family, Computer Modern, has a limited character set. For instance, to make common accented characters you must use ‘\accent’ (see \accent) but this disables hyphenation. TeX users have agreed on a number of standards to access the larger sets of characters provided by modern fonts. If you are using ‘pdflatex’ then put this in the preamble \usepackage[T1]{fontenc} gives you support for the most widespread European languages, including French, German, Italian, Polish, and others. In particular, if you have words with accented letters then LaTeX will hyphenate them and your output can be copied and pasted. (The optional second line allows you to directly enter accented characters into your source file.) If you are using an encoding such as ‘T1’ and the characters appear blurry or do not magnify well then your fonts may be bitmapped, sometimes called raster or Type 3. You want vector fonts. Use a package such as ‘lmodern’ or ‘cm-super’ to get a font that extends LaTeX's default using vector fonts. For each FONT_ENCODING given as an option but not already declared, this package loads the encoding definition files, named ‘FONT_ENCODINGenc.def’. It also sets ‘\encodingdefault’ to be the last encoding in the option list. These are the common values for FONT_ENCODING: ‘OT1’ The original 7-bit encoding for TeX. Limited to mostly English characters. ‘OMS, OML’ Math symbols and math letters encoding. ‘T1’ TeX text extended. Sometimes called the Cork encoding for the users group meeting where it was developed (1990). Gives access to most European accented characters. The most common option for this package. ‘TS1’ Text Companion encoding. LaTeX's default is to load ‘OML’, ‘T1’, ‘OT1’, and then ‘OMS’, and set the default to ‘OT1’. Even if you do not use accented letters, you may need to specify a font encoding if your font requires it. If you use ‘T1’ encoded fonts other than the default Computer Modern family then you may need to load the package that selects your fonts before loading ‘fontenc’, to prevent the system from loading any ‘T1’ encoded fonts from the default. The LaTeX team reserves encoding names starting with: ‘T’ for the standard text encodings with 256 characters, ‘TS’ for symbols that extend the corresponding T encodings, ‘X’ for test encodings, ‘M’ for standard math encodings with 256 characters, ‘A’ for special applications, ‘OT’ for standard text encodings with 128 characters, and ‘OM’ for standard math encodings with 128 characters (‘O’ stands for ‘obsolete’). This package provides a number of commands, detailed below. Many of them are encoding-specific, so if you have defined a command that works for one encoding but the current encoding is different then the command is not in effect. 4.1.1 ‘\DeclareFontEncoding’ ---------------------------- Synopsis: \DeclareFontEncoding{ENCODING}{TEXT-SETTINGS}{MATH-SETTINGS} Declare the font encoding ENCODING. It also saves the value of ENCODING in ‘\LastDeclaredEncoding’ (see \LastDeclaredEncoding). The file ‘t1enc.def’ contains this line (followed by many others). \DeclareFontEncoding{T1}{}{} The TEXT-SETTINGS are the commands that LaTeX will run every time it switches from one encoding to another with the ‘\selectfont’ and ‘\fontencoding’ commands. The MATH-SETTINGS are the commands that LaTeX will use whenever the font is accessed as a math alphabet. LaTeX ignores any space characters inside TEXT-SETTINGS and MATH-SETTINGS, to prevent unintended spaces in the output. If you invent an encoding you should pick a two or three letter name starting with ‘L’ for ‘local’, or ‘E’ for ‘experimental’. Note that output encoding files may be read several times by LaTeX so using, e.g., ‘\newcommand’ may cause an error. In addition, such files should contain ‘\ProvidesFile’ line (see Class and package commands). Note also that you should use the ‘\...Default’ commands only in a package, not in the encoding definition files, since those files should only contain declarations specific to that encoding. 4.1.2 ‘\DeclareTextAccent’ -------------------------- Synopsis: \DeclareTextAccent{CMD}{ENCODING}{SLOT} Define an accent, to be put on top of other glyphs, in the encoding ENCODING at the location SLOT. A “slot” is the number identifying a glyph within a font. This line from ‘t1enc.def’ declares that to make a circumflex accent as in ‘\^A’, the system will put the accent in slot 2 over the ‘A’ character, which is represented in ASCII as 65. (This holds unless there is a relevant ‘DeclareTextComposite’ or ‘\DeclareTextCompositeCommand’ declaration; see \DeclareTextComposite.) \DeclareTextAccent{\^}{T1}{2} If CMD has already been defined then ‘\DeclareTextAccent’ does not give an error but it does log the redefinition in the transcript file. 4.1.3 ‘\DeclareTextAccentDefault’ --------------------------------- Synopsis: \DeclareTextAccentDefault{\CMD}{ENCODING} If there is an encoding-specific accent command \CMD but there is no associated ‘\DeclareTextAccent’ for that encoding then this command will pick up the slack, by saying to use it as described for ENCODING. For example, to make the encoding ‘OT1’ be the default encoding for the accent ‘\"’, declare this. \DeclareTextAccentDefault{\"}{OT1} If you issue a ‘\"’ when the current encoding does not have a definition for that accent then LaTeX will use the definition from ‘OT1’ That is, this command is equivalent to this call (see \UseTextSymbol & \UseTextAccent). \DeclareTextCommandDefault[1]{\CMD} {\UseTextAccent{ENCODING}{\CMD}{#1}} Note that ‘\DeclareTextAccentDefault’ works for any one-argument ‘fontenc’ command, not just the accent command. 4.1.4 ‘\DeclareTextCommand’ & ‘\ProvideTextCommand’ --------------------------------------------------- Synopsis, one of: \DeclareTextCommand{\CMD}{ENCODING}{DEFN} \DeclareTextCommand{\CMD}{ENCODING}[NARGS]{DEFN} \DeclareTextCommand{\CMD}{ENCODING}[NARGS][OPTARGDEFAULT]{DEFN} or one of: \ProvideTextCommand{\CMD}{ENCODING}{DEFN} \ProvideTextCommand{\CMD}{ENCODING}[NARGS]{DEFN} \ProvideTextCommand{\CMD}{ENCODING}[NARGS][OPTARGDEFAULT]{DEFN} Define the command ‘\CMD’, which will be specific to one encoding. The command name CMD must be preceded by a backslash, ‘\’. These commands can only appear in the preamble. Redefining \CMD does not cause an error. The defined command will be robust even if the code in DEFN is fragile (see \protect). For example, the file ‘t1enc.def’ contains this line. \DeclareTextCommand{\textperthousand}{T1}{\%\char 24 } With that, you can express parts per thousand. \usepackage[T1]{fontenc} % in preamble ... Legal limit is \( 0.8 \)\textperthousand. If you change the font encoding to ‘OT1’ then you get an error like ‘LaTeX Error: Command \textperthousand unavailable in encoding OT1’. The ‘\ProvideTextCommand’ variant does the same, except that it does nothing if ‘\CMD’ is already defined. The ‘\DeclareTextSymbol’ command is faster than this one for simple slot-to-glyph association (see \DeclareTextSymbol) The optional NARGS and OPTARGDEFAULT arguments play the same role here as in ‘\newcommand’ (see \newcommand & \renewcommand). Briefly, NARGS is an integer from 0 to 9 specifying the number of arguments that the defined command ‘\CMD’ takes. This number includes any optional argument. Omitting this argument is the same as specifying 0, meaning that ‘\CMD’ will have no arguments. And, if OPTARGDEFAULT is present then the first argument of ‘\CMD’ is optional, with default value OPTARGDEFAULT (which may be the empty string). If OPTARGDEFAULT is not present then ‘\CMD’ does not take an optional argument. 4.1.5 ‘\DeclareTextCommandDefault’ & ‘\ProvideTextCommandDefault ’ ------------------------------------------------------------------ Synopsis: \DeclareTextCommandDefault{\CMD}{DEFN} or: \ProvideTextCommandDefault{\CMD}{DEFN} Give a default definition for ‘\CMD’, for when that command is not defined in the encoding currently in force. This default should only use encodings known to be available. This makes ‘\copyright’ available. \DeclareTextCommandDefault{\copyright}{\textcircled{c}} It uses only an encoding (OMS) that is always available. The ‘\DeclareTextCommandDefault’ should not occur in the encoding definition files since those files should declare only commands for use when you select that encoding. It should instead be in a package. As with the related non-default commands, the ‘\ProvideTextCommandDefault’ has exactly the same behavior as ‘\DeclareTextCommandDefault’ except that it does nothing if ‘\CMD’ is already defined (see \DeclareTextCommand & \ProvideTextCommand). So, packages can use it to provide fallbacks that other packages can improve upon. 4.1.6 ‘\DeclareTextComposite’ ----------------------------- Synopsis: \DeclareTextComposite{\CMD}{ENCODING}{SIMPLE_OBJECT}{SLOT} Access an accented glyph directly, that is, without having to put an accent over a separate character. This line from ‘t1enc.def’ means that ‘\^o’ will cause LaTeX to typeset lowercase ‘o’ by taking the character directly from slot 224 in the font. \DeclareTextComposite{\^}{T1}{o}{244} See fontenc package, for a list of common encodings. The SIMPLE_OBJECT should be a single character or a single command. The SLOT argument is usually a positive integer represented in decimal (although octal or hexadecimal are possible). Normally \CMD has already been declared for this encoding, either with ‘\DeclareTextAccent’ or with a one-argument ‘\DeclareTextCommand’. In ‘t1enc.def’, the above line follows the ‘\DeclareTextAccent{\^}{T1}{2}’ command. 4.1.7 ‘\DeclareTextCompositeCommand’ ------------------------------------ Synopsis: \DeclareTextCompositeCommand{\CMD}{ENCODING}{ARG}{CODE} A more general version of ‘\DeclareTextComposite’ that runs arbitrary code with ‘\CMD’. This allows accents on ‘i’ to act like accents on dotless i, ‘\i’. \DeclareTextCompositeCommand{\'}{OT1}{i}{\'\i} See fontenc package, for a list of common encodings. Normally ‘\CMD’ will have already been declared with ‘\DeclareTextAccent’ or as a one argument ‘\DeclareTextCommand’. 4.1.8 ‘\DeclareTextSymbol’ -------------------------- Synopsis: \DeclareTextSymbol{\CMD}{ENCODING}{SLOT} Define a symbol in the encoding ENCODING at the location SLOT. Symbols defined in this way are for use in text, not mathematics. For example, this line from ‘t1enc.def’ declares the number of the glyph to use for «, the left guillemet. \DeclareTextSymbol{\guillemetleft}{T1}{19} The command ‘\DeclareTextCommand{\guillemetleft}{T1}{\char 19}’ has the same effect but is slower (see \DeclareTextCommand & \ProvideTextCommand). See fontenc package, for a list of common encodings. The SLOT can be specified in decimal, or octal (as in ‘'023’), or hexadecimal (as in ‘"13’), although decimal has the advantage that single quote or double quote could be redefined by another package. If ‘\CMD’ has already been defined then ‘\DeclareTextSymbol’ does not give an error but it does log the redefinition in the transcript file. 4.1.9 ‘\DeclareTextSymbolDefault’ --------------------------------- Synopsis: \DeclareTextSymbolDefault{\CMD}{ENCODING} If there is an encoding-specific symbol command ‘\CMD’ but there is no associated ‘\DeclareTextSymbol’ for that encoding, then this command will pick up the slack, by saying to get the symbol as described for ENCODING. For example, to declare that if the current encoding has no meaning for ‘\textdollar’ then use the one from ‘OT1’, declare this. \DeclareTextSymbolDefault{\textdollar}{OT1} That is, this command is equivalent to this call (see \UseTextSymbol & \UseTextAccent). \DeclareTextCommandDefault{\CMD} {\UseTextSymbol{ENCODING}{\CMD}} Note that ‘\DeclareTextSymbolDefault’ can be used to define a default for any zero-argument ‘fontenc’ command. 4.1.10 ‘\LastDeclaredEncoding’ ------------------------------ Synopsis: \LastDeclaredEncoding Get the name of the most recently declared encoding. The ‘\DeclareFontEncoding’ command stores the name so that it can be retrieved with this command (see \DeclareFontEncoding). This relies on ‘\LastDeclaredEncoding’ rather than give the name of the encoding explicitly. \DeclareFontEncoding{JH1}{}{} \DeclareTextAccent{\'}{\LastDeclaredEncoding}{0} 4.1.11 ‘\UseTextSymbol’ & ‘\UseTextAccent’ ------------------------------------------ Synopsis: \UseTextSymbol{ENCODING}{\CMD} or: \UseTextAccent{ENCODING}{\CMD}{TEXT} Use a symbol or accent not from the current encoding. In general, to use a ‘fontenc’ command in an encoding where it is not defined, and if the command has no arguments, then you can use it like this: \UseTextSymbol{OT1}{\ss} which is equivalent to this (note the outer braces form a group, so LaTeX reverts back to the prior encoding after the ‘\ss’): {\fontencoding{OT1}\selectfont\ss} Similarly, to use a ‘fontenc’ command in an encoding where it is not defined, and if the command has one argument, you can use it like this: \UseTextAccent{OT1}{\'}{a} which is equivalent to this (again note the outer braces forming a group): {fontencoding{OT1}\selectfont\'{\fontencoding{ENC_IN_USE}\selectfont a}} Here, ENC_IN_USE is the encoding in force before this sequence of commands, so that ‘a’ is typeset using the current encoding and only the accent is taken from ‘OT1’. 4.2 Font styles =============== The following type style commands are supported by LaTeX. In the table below the listed commands, the ‘\text...’ commands, are used with an argument as in ‘\textit{TEXT}’. This is the preferred form. But shown after it in parenthesis is the corresponding “declaration form”, which is often useful. This form takes no arguments, as in ‘{\itshape TEXT}’. The scope of the declaration form lasts until the next type style command or the end of the current group. In addition, each has an environment form such as ‘\begin{itshape}...\end{itshape}’, which we'll describe further at the end of the section. These commands, in any of the three forms, are cumulative; for instance you can get bold sans serif by saying either of ‘\sffamily\bfseries’ or ‘\bfseries\sffamily’. One advantage of these commands is that they automatically insert italic corrections if needed (see \/). Specifically, they insert the italic correction unless the following character is in the list ‘\nocorrlist’, which by default consists of period and comma. To suppress the automatic insertion of italic correction, use ‘\nocorr’ at the start or end of the command argument, such as ‘\textit{\nocorr text}’ or ‘\textsc{text \nocorr}’. ‘\textrm (\rmfamily)’ Roman. ‘\textit (\itshape)’ Italics. ‘\textmd (\mdseries)’ Medium weight (default). ‘\textbf (\bfseries)’ Boldface. ‘\textup (\upshape)’ Upright (default). ‘\textsl (\slshape)’ Slanted. ‘\textsf (\sffamily)’ Sans serif. ‘\textsc (\scshape)’ Small caps. ‘\texttt (\ttfamily)’ Typewriter. ‘\textnormal (\normalfont)’ Main document font. Although it also changes fonts, the ‘\emph{TEXT}’ command is semantic, for TEXT to be emphasized, and should not be used as a substitute for ‘\textit’. For example, ‘\emph{START TEXT \emph{MIDDLE TEXT} END TEXT}’ will result in the START TEXT and END TEXT in italics, but MIDDLE TEXT will be in roman. LaTeX also provides the following commands, which unconditionally switch to the given style, that is, are _not_ cumulative. They are used as declarations: ‘{\CMD...}’ instead of ‘\CMD{...}’. (The unconditional commands below are an older version of font switching. The earlier commands are an improvement in most circumstances. But sometimes an unconditional font switch is what is needed.) ‘\bf’ Switch to bold face. ‘\cal’ Switch to calligraphic letters for math. ‘\it’ Italics. ‘\rm’ Roman. ‘\sc’ Small caps. ‘\sf’ Sans serif. ‘\sl’ Slanted (oblique). ‘\tt’ Typewriter (monospace, fixed-width). The ‘\em’ command is the unconditional version of ‘\emph’. The following commands are for use in math mode. They are not cumulative, so ‘\mathbf{\mathit{SYMBOL}}’ does not create a boldface and italic SYMBOL; instead, it will just be in italics. This is because typically math symbols need consistent typographic treatment, regardless of the surrounding environment. ‘\mathrm’ Roman, for use in math mode. ‘\mathbf’ Boldface, for use in math mode. ‘\mathsf’ Sans serif, for use in math mode. ‘\mathtt’ Typewriter, for use in math mode. ‘\mathit’ Italics, for use in math mode. ‘\mathnormal’ For use in math mode, e.g., inside another type style declaration. ‘\mathcal’ Calligraphic letters, for use in math mode. These commands use the text fonts, but ignore spaces in their argument. If you need spaces, use the ‘\text...’ font commands. In addition, the command ‘\mathversion{bold}’ can be used for switching to bold letters and symbols in formulas. ‘\mathversion{normal}’ restores the default. Finally, the command ‘\oldstylenums{NUMERALS}’ will typeset so-called "old-style" numerals, which have differing heights and depths (and sometimes widths) from the standard "lining" numerals, which all have the same height as uppercase letters. LaTeX's default fonts support this, and will respect ‘\textbf’ (but not other styles; there are no italic old-style numerals in Computer Modern). Many other fonts have old-style numerals also; sometimes package options are provided to make them the default. FAQ entry: . 4.3 Font sizes ============== The following standard type size commands are supported by LaTeX. The table shows the command name and the corresponding actual font size used (in points) with the ‘10pt’, ‘11pt’, and ‘12pt’ document size options, respectively (see Document class options). Command ‘10pt’ ‘11pt’ ‘12pt’ -------------------------------------------------------- ‘\tiny’ 5 6 6 ‘\scriptsize’ 7 8 8 ‘\footnotesize’ 8 9 10 ‘\small’ 9 10 10.95 ‘\normalsize’ (default) 10 10.95 12 ‘\large’ 12 12 14.4 ‘\Large’ 14.4 14.4 17.28 ‘\LARGE’ 17.28 17.28 20.74 ‘\huge’ 20.74 20.74 24.88 ‘\Huge’ 24.88 24.88 24.88 The commands are listed here in declaration (not environment) form, since that is how they are typically used. For example. \begin{quotation} \small The Tao that can be named is not the eternal Tao. \end{quotation} Here, the scope of the ‘\small’ lasts until the end of the ‘quotation’ environment. It would also end at the next type style command or the end of the current group, so you could enclose it in curly braces ‘{\small This text is typeset in the small font.}’. Trying to use these commands in math, as with ‘$\small mv^2/2$’, results in ‘LaTeX Font Warning: Command \small invalid in math mode’, and the font size doesn't change. To work with a too-large formula, often the best option is to use the ‘displaymath’ environment (see Math formulas), or one of the environments from the ‘amsmath’ package. For inline mathematics, such as in a table of formulas, an alternative is something like ‘{\small $mv^2/2$}’. (Sometimes ‘\scriptsize’ and ‘\scriptstyle’ are confused. Both change the font size, but the latter also changes a number of other aspects of how mathematics is typeset. See Math styles.) An “environment form” of each of these commands is also defined; for instance, ‘\begin{tiny}...\end{tiny}’. However, in practice this form can easily lead to unwanted spaces at the beginning and/or end of the environment without careful consideration, so it's generally less error-prone to stick to the declaration form. (Aside: Technically, due to the way LaTeX defines ‘\begin’ and ‘\end’, nearly every command that does not take an argument technically has an environment form. But in almost all cases, it would only cause confusion to use it. The reason for mentioning the environment form of the font size declarations specifically is that this particular use is not rare.) 4.4 Low-level font commands =========================== These commands are primarily intended for writers of macros and packages. The commands listed here are only a subset of the available ones. ‘\fontencoding{ENCODING}’ Select the font encoding, the encoding of the output font. There are a large number of valid encodings. The most common are ‘OT1’, Knuth's original encoding for Computer Modern (the default), and ‘T1’, also known as the Cork encoding, which has support for the accented characters used by the most widespread European languages (German, French, Italian, Polish and others), which allows TeX to hyphenate words containing accented letters. For more, see . ‘\fontfamily{FAMILY}’ Select the font family. The web page provides one way to browse through many of the fonts easily used with LaTeX. Here are examples of some common families. ‘pag’ Avant Garde ‘fvs’ Bitstream Vera Sans ‘pbk’ Bookman ‘bch’ Charter ‘ccr’ Computer Concrete ‘cmr’ Computer Modern ‘cmss’ Computer Modern Sans Serif ‘cmtt’ Computer Modern Typewriter ‘pcr’ Courier ‘phv’ Helvetica ‘fi4’ Inconsolata ‘lmr’ Latin Modern ‘lmss’ Latin Modern Sans ‘lmtt’ Latin Modern Typewriter ‘pnc’ New Century Schoolbook ‘ppl’ Palatino ‘ptm’ Times ‘uncl’ Uncial ‘put’ Utopia ‘pzc’ Zapf Chancery ‘\fontseries{SERIES}’ Select the font series. A “series” combines a “weight” and a “width”. Typically, a font supports only a few of the possible combinations. Some common combined series values include: ‘m’ Medium (normal) ‘b’ Bold ‘c’ Condensed ‘bc’ Bold condensed ‘bx’ Bold extended The possible values for weight, individually, are: ‘ul’ Ultra light ‘el’ Extra light ‘l’ Light ‘sl’ Semi light ‘m’ Medium (normal) ‘sb’ Semi bold ‘b’ Bold ‘eb’ Extra bold ‘ub’ Ultra bold The possible values for width, individually, are (the meaning and relationship of these terms varies with individual typefaces): ‘uc’ Ultra condensed ‘ec’ Extra condensed ‘c’ Condensed ‘sc’ Semi condensed ‘m’ Medium ‘sx’ Semi expanded ‘x’ Expanded ‘ex’ Extra expanded ‘ux’ Ultra expanded When forming the SERIES string from the weight and width, drop the ‘m’ that stands for medium weight or medium width, unless both weight and width are ‘m’, in which case use just one (‘‘m’’). ‘\fontshape{SHAPE}’ Select font shape. Valid shapes are: ‘n’ Upright (normal) ‘it’ Italic ‘sl’ Slanted (oblique) ‘sc’ Small caps ‘ui’ Upright italics ‘ol’ Outline The two last shapes are not available for most font families, and small caps are often missing as well. ‘\fontsize{SIZE}{SKIP}’ Set the font size and the line spacing. The unit of both parameters defaults to points (‘pt’). The line spacing is the nominal vertical space between lines, baseline to baseline. It is stored in the parameter ‘\baselineskip’. The default ‘\baselineskip’ for the Computer Modern typeface is 1.2 times the ‘\fontsize’. Changing ‘\baselineskip’ directly is inadvisable since its value is reset every time a size change happens; instead use ‘\baselinestretch’. (see \baselineskip & \baselinestretch). ‘\linespread{FACTOR}’ Equivalent to ‘\renewcommand{\baselinestretch}{FACTOR}’, and therefore must be followed by ‘\selectfont’ to have any effect. Best specified in the preamble. See \baselineskip & \baselinestretch, for using ‘setspace’ package instead. ‘\selectfont’ The effects of the font commands described above do not happen until ‘\selectfont’ is called, as in ‘\fontfamily{FAMILYNAME}\selectfont’. It is often useful to put this in a macro: ‘\newcommand*{\myfont}{\fontfamily{FAMILYNAME}\selectfont}’ (see \newcommand & \renewcommand). ‘\usefont{ENC}{FAMILY}{SERIES}{SHAPE}’ The same as invoking ‘\fontencoding’, ‘\fontfamily’, ‘\fontseries’ and ‘\fontshape’ with the given parameters, followed by ‘\selectfont’. For example: \usefont{ot1}{cmr}{m}{n} 5 Layout ******** Commands for controlling the general page layout. 5.1 ‘\onecolumn’ ================ Synopsis: \onecolumn Start a new page and produce single-column output. If the document is given the class option ‘onecolumn’ then this is the default behavior (see Document class options). This command is fragile (see \protect). 5.2 ‘\twocolumn’ ================ Synopses: \twocolumn \twocolumn[PRELIM ONE COLUMN TEXT] Start a new page and produce two-column output. If the document is given the class option ‘twocolumn’ then this is the default (see Document class options). This command is fragile (see \protect). If the optional PRELIM ONE COLUMN TEXT argument is present, it is typeset in one-column mode before the two-column typesetting starts. These parameters control typesetting in two-column output: ‘\columnsep’ The distance between columns. The default is 35pt. Change it with a command such as ‘\setlength{\columnsep}{40pt}’. You must change it before the two column mode starts; in the preamble is a good place. ‘\columnseprule’ The width of the rule between columns. The default is 0pt, meaning that there is no rule. Otherwise, the rule appears halfway between the two columns. Change it with a command such as ‘\setlength{\columnseprule}{0.4pt}’, before the two-column mode starts. ‘\columnwidth’ The width of a single column. In one-column mode this is equal to ‘\textwidth’. In two-column mode by default LaTeX sets the width of each of the two columns, ‘\columnwidth’, to be half of ‘\textwidth’ minus ‘\columnsep’. In a two-column document, the starred environments ‘table*’ and ‘figure*’ are two columns wide, whereas the unstarred environments ‘table’ and ‘figure’ take up only one column (see figure and see table). LaTeX places starred floats at the top of a page. The following parameters control float behavior of two-column output. ‘\dbltopfraction’ The maximum fraction at the top of a two-column page that may be occupied by two-column wide floats. The default is 0.7, meaning that the height of a ‘table*’ or ‘figure*’ environment must not exceed ‘0.7\textheight’. If the height of your starred float environment exceeds this then you can take one of the following actions to prevent it from floating all the way to the back of the document: • Use the ‘[tp]’ location specifier to tell LaTeX to try to put the bulky float on a page by itself, as well as at the top of a page. • Use the ‘[t!]’ location specifier to override the effect of ‘\dbltopfraction’ for this particular float. • Increase the value of ‘\dbltopfraction’ to a suitably large number, to avoid going to float pages so soon. You can redefine it, as with ‘\renewcommand{\dbltopfraction}{0.9}’. ‘\dblfloatpagefraction’ For a float page of two-column wide floats, this is the minimum fraction that must be occupied by floats, limiting the amount of blank space. LaTeX's default is ‘0.5’. Change it with ‘\renewcommand’. ‘\dblfloatsep’ On a float page of two-column wide floats, this length is the distance between floats, at both the top and bottom of the page. The default is ‘12pt plus2pt minus2pt’ for a document set at ‘10pt’ or ‘11pt’, and ‘14pt plus2pt minus4pt’ for a document set at ‘12pt’. ‘\dbltextfloatsep’ This length is the distance between a multi-column float at the top or bottom of a page and the main text. The default is ‘20pt plus2pt minus4pt’. ‘\dbltopnumber’ On a float page of two-column wide floats, this counter gives the maximum number of floats allowed at the top of the page. The LaTeX default is ‘2’. This example uses ‘\twocolumn’'s optional argument of to create a title that spans the two-column article: \documentclass[twocolumn]{article} \newcommand{\authormark}[1]{\textsuperscript{#1}} \begin{document} \twocolumn[{% inside this optional argument goes one-column text \centering \LARGE The Title \\[1.5em] \large Author One\authormark{1}, Author Two\authormark{2}, Author Three\authormark{1} \\[1em] \normalsize \begin{tabular}{p{.2\textwidth}@{\hspace{2em}}p{.2\textwidth}} \authormark{1}Department one &\authormark{2}Department two \\ School one &School two \end{tabular}\\[3em] % space below title part }] Two column text here. 5.3 ‘\flushbottom’ ================== Make all pages in the document after this declaration have the same height, by stretching the vertical space where necessary to fill out the page. This is most often used when making two-sided documents since the differences in facing pages can be glaring. If TeX cannot satisfactorily stretch the vertical space in a page then you get a message like ‘Underfull \vbox (badness 10000) has occurred while \output is active’. If you get that, one option is to change to ‘\raggedbottom’ (see \raggedbottom). Alternatively, you can adjust the ‘textheight’ to make compatible pages, or you can add some vertical stretch glue between lines or between paragraphs, as in ‘\setlength{\parskip}{0ex plus0.1ex}’. Your last option is to, in a final editing stage, adjust the height of individual pages (see \enlargethispage). The ‘\flushbottom’ state is the default only if you select the ‘twocolumn’ document class option (see Document class options), and for indexes made using ‘makeidx’. 5.4 ‘\raggedbottom’ =================== Make all later pages the natural height of the material on that page; no rubber vertical lengths will be stretched. Thus, in a two-sided document the facing pages may be different heights. This command can go at any point in the document body. See \flushbottom. This is the default unless you select the ‘twocolumn’ document class option (see Document class options). 5.5 Page layout parameters ========================== ‘\columnsep’ ‘\columnseprule’ ‘\columnwidth’ The distance between the two columns, the width of a rule between the columns, and the width of the columns, when the document class option ‘twocolumn’ is in effect (see Document class options). See \twocolumn. ‘\headheight’ Height of the box that contains the running head. The default in the ‘article’, ‘report’, and ‘book’ classes is ‘12pt’, at all type sizes. ‘\headsep’ Vertical distance between the bottom of the header line and the top of the main text. The default in the ‘article’ and ‘report’ classes is ‘25pt’. In the ‘book’ class the default is: if the document is set at 10pt then it is ‘0.25in’, and at 11pt or 12pt it is ‘0.275in’. ‘\footskip’ Distance from the baseline of the last line of text to the baseline of the page footer. The default in the ‘article’ and ‘report’ classes is ‘30pt’. In the ‘book’ class the default is: when the type size is 10pt the default is ‘0.35in’, while at 11pt it is ‘0.38in’, and at 12pt it is ‘30pt’. ‘\linewidth’ Width of the current line, decreased for each nested ‘list’ (see list). That is, the nominal value for ‘\linewidth’ is to equal ‘\textwidth’ but for each nested list the ‘\linewidth’ is decreased by the sum of that list's ‘\leftmargin’ and ‘\rightmargin’ (see itemize). ‘\marginparpush’ ‘\marginsep’ ‘\marginparwidth’ The minimum vertical space between two marginal notes, the horizontal space between the text body and the marginal notes, and the horizontal width of the notes. Normally marginal notes appear on the outside of the page, but the declaration ‘\reversemarginpar’ changes that (and ‘\normalmarginpar’ changes it back). The defaults for ‘\marginparpush’ in both ‘book’ and ‘article’ classes are: ‘7pt’ if the document is set at 12pt, and ‘5pt’ if the document is set at 11pt or 10pt. For ‘\marginsep’, in ‘article’ class the default is ‘10pt’ except if the document is set at 10pt and in two-column mode where the default is ‘11pt’. For ‘\marginsep’ in ‘book’ class the default is ‘10pt’ in two-column mode and ‘7pt’ in one-column mode. For ‘\marginparwidth’ in both ‘book’ and ‘article’ classes, in two-column mode the default is 60% of ‘\paperwidth − \textwidth’, while in one-column mode it is 50% of that distance. ‘\oddsidemargin’ ‘\evensidemargin’ The ‘\oddsidemargin’ length is the extra distance between the left side of the page and the text's left margin, on odd-numbered pages when the document class option ‘twoside’ is chosen and on all pages when ‘oneside’ is in effect. When ‘twoside’ is in effect, on even-numbered pages the extra distance on the left is ‘\evensidemargin’. LaTeX's default is that ‘\oddsidemargin’ is 40% of the difference between ‘\paperwidth’ and ‘\textwidth’, and ‘\evensidemargin’ is the remainder. ‘\paperheight’ The height of the paper, as distinct from the height of the print area. Normally set with a document class option, as in ‘\documentclass[a4paper]{article}’ (see Document class options). ‘\paperwidth’ The width of the paper, as distinct from the width of the print area. Normally set with a document class option, as in ‘\documentclass[a4paper]{article}’ (see Document class options). ‘\textheight’ The normal vertical height of the page body. If the document is set at a nominal type size of 10pt then for an ‘article’ or ‘report’ the default is ‘43\baselineskip’, while for a ‘book’ it is ‘41\baselineskip’. At a type size of 11pt the default is ‘38\baselineskip’ for all document classes. At 12pt it is ‘36\baselineskip’ for all classes. ‘\textwidth’ The full horizontal width of the entire page body. For an ‘article’ or ‘report’ document, the default is ‘345pt’ when the chosen type size is 10pt, the default is ‘360pt’ at 11pt, and it is ‘390pt’ at 12pt. For a ‘book’ document, the default is ‘4.5in’ at a type size of 10pt, and ‘5in’ at 11pt or 12pt. In multi-column output, ‘\textwidth’ remains the width of the entire page body, while ‘\columnwidth’ is the width of one column (see \twocolumn). In lists (see list), ‘\textwidth’ remains the width of the entire page body (and ‘\columnwidth’ the width of the entire column), while ‘\linewidth’ may decrease for nested lists. Inside a minipage (see minipage) or ‘\parbox’ (see \parbox), all the width-related parameters are set to the specified width, and revert to their normal values at the end of the ‘minipage’ or ‘\parbox’. ‘\hsize’ This entry is included for completeness: ‘\hsize’ is the TeX primitive parameter used when text is broken into lines. It should not be used in normal LaTeX documents. ‘\topmargin’ Space between the top of the TeX page (one inch from the top of the paper, by default) and the top of the header. The value is computed based on many other parameters: ‘\paperheight − 2in − \headheight − \headsep − \textheight − \footskip’, and then divided by two. ‘\topskip’ Minimum distance between the top of the page body and the baseline of the first line of text. For the standard classes, the default is the same as the font size, e.g., ‘10pt’ at a type size of 10pt. 5.6 ‘\baselineskip’ & ‘\baselinestretch’ ======================================== The ‘\baselineskip’ is a rubber length (see Lengths). It gives the “leading”, the normal distance between lines in a paragraph, from baseline to baseline. Ordinarily document authors do not directly change ‘\baselineskip’ while writing. Instead, it is set by the low level font selection command ‘\fontsize’ (see low level font commands fontsize). The ‘\baselineskip’'s value is reset every time a font change happens and so any direct change to ‘\baselineskip’ would vanish the next time there was a font switch. For how to influence line spacing, see the discussion of ‘\baselinestretch’ below. Usually, a font's size and baseline skip is assigned by the font designer. These numbers are nominal in the sense that if, for instance, a font's style file has the command ‘\fontsize{10pt}{12pt}’ then that does not mean that the characters in the font are 10pt tall; for instance, parentheses and accented capitals may be taller. Nor does it mean that if the lines are spaced less than 12pt apart then they risk touching. Rather these numbers are typographic judgements. (Often, the ‘\baselineskip’ is about twenty percent larger than the font size.) The ‘\baselineskip’ is not a property of each line but of the entire paragraph. As a result, large text in the middle of a paragraph, such as a single ‘{\Huge Q}’, will be squashed into its line. TeX will make sure it doesn't scrape up against the line above but won't change the ‘\baselineskip’ for that one line to make extra room above. For the fix, use a ‘\strut’ (see \strut). The value of ‘\baselineskip’ that TeX uses for the paragraph is the value in effect at the blank line or command that ends the paragraph unit. So if a document contains this paragraph then its lines will be scrunched together, compared to lines in surrounding paragraphs. Many people see a page break between text and a displayed equation as bad style, so in effect the display is part of the paragraph. Because this display is in footnotesize, the entire paragraph has the baseline spacing matching that size. {\footnotesize $$a+b = c$$} The process for making paragraphs is that when a new line is added, if the depth of the previous line plus the height of the new line is less than ‘\baselineskip’ then TeX inserts vertical glue to make up the difference. There are two fine points. The first is that if the lines would be too close together, closer than ‘\lineskiplimit’, then TeX instead uses ‘\lineskip’ as the interline glue. The second is that TeX doesn't actually use the depth of the previous line. Instead it uses ‘\prevdepth’, which usually contains that depth. But at the beginning of the paragraph (or any vertical list) or just after a rule, ‘\prevdepth’ has the value -1000pt and this special value tells TeX not to insert any interline glue at the paragraph start. In the standard classes ‘\lineskiplimit’ is 0pt and ‘\lineskip’ is 1pt. By the prior paragraph then, the distance between lines can approach zero but if it becomes zero (or less than zero) then the lines jump to 1pt apart. Sometimes authors must, for editing purposes, put the document in double space or one-and-a-half space. The right way to influence the interline distance is via ‘\baselinestretch’. It scales ‘\baselineskip’, and has a default value of 1.0. It is a command, not a length, and does not take effect until a font change happens, so set the scale factor like this: ‘\renewcommand{\baselinestretch}{1.5}\selectfont’. The most straightforward way to change the line spacing for an entire document is to put ‘\linespread{FACTOR}’ in the preamble. For double spacing, take FACTOR to be 1.6 and for one-and-a-half spacing use 1.3. These numbers are rough: for instance, since the ‘\baselineskip’ is about 1.2 times the font size, multiplying by 1.6 gives a baseline skip to font size ratio of about 2. (The ‘\linespread’ command is defined as ‘\renewcommand{\baselinestretch}{FACTOR}’ so it also won't take effect until a font setting happens. But that always takes place at the start of a document, so there you don't need to follow it with ‘\selectfont’.) A simpler approach is the ‘setspace’ package. The basic example: \usepackage{setspace} \doublespacing % or \onehalfspacing for 1.5 In the preamble these will start the document off with that sizing. But you can also use these declarations in the document body to change the spacing from that point forward, and consequently there is ‘\singlespacing’ to return the spacing to normal. In the document body, a better practice than using the declarations is to use environments, such as ‘\begin{doublespace} ... \end{doublespace}’. The package also has commands to do arbitrary spacing: ‘\setstretch{FACTOR}’ and ‘\begin{spacing}{FACTOR} ... \end{spacing}’. This package also keeps the line spacing single-spaced in places where that is typically desirable, such as footnotes and figure captions. See the package documentation. 5.7 Floats ========== Some typographic elements, such as figures and tables, cannot be broken across pages. They must be typeset outside of the normal flow of text, for instance floating to the top of a later page. LaTeX can have a number of different classes of floating material. The default is the two classes, ‘figure’ (see figure) and ‘table’ (see table), but you can create a new class with the package ‘float’. Within any one float class LaTeX always respects the order, so that the first figure in a document source must be typeset before the second figure. However, LaTeX may mix the classes, so it can happen that while the first table appears in the source before the first figure, it appears in the output after it. The placement of floats is subject to parameters, given below, that limit the number of floats that can appear at the top of a page, and the bottom, etc. If so many floats are queued that the limits prevent them all from fitting on a page then LaTeX places what it can and defers the rest to the next page. In this way, floats may end up being typeset far from their place in the source. In particular, a float that is big may migrate to the end of the document. In which event, because all floats in a class must appear in sequential order, every following float in that class also appears at the end. In addition to changing the parameters, for each float you can tweak where the float placement algorithm tries to place it by using its PLACEMENT argument. The possible values are a sequence of the letters below. The default for both ‘figure’ and ‘table’, in both ‘article’ and ‘book’ classes, is ‘tbp’. ‘t’ (Top)--at the top of a text page. ‘b’ (Bottom)--at the bottom of a text page. (However, ‘b’ is not allowed for full-width floats (‘figure*’) with double-column output. To ameliorate this, use the ‘stfloats’ or ‘dblfloatfix’ package, but see the discussion at caveats in the FAQ: . ‘h’ (Here)--at the position in the text where the ‘figure’ environment appears. However, ‘h’ is not allowed by itself; ‘t’ is automatically added. To absolutely force a float to appear "here", you can ‘\usepackage{float}’ and use the ‘H’ specifier which it defines. For further discussion, see the FAQ entry at . ‘p’ (Page of floats)--on a separate “float page”, which is a page containing no text, only floats. ‘!’ Used in addition to one of the above; for this float only, LaTeX ignores the restrictions on both the number of floats that can appear and the relative amounts of float and non-float text on the page. The ‘!’ specifier does _not_ mean "put the float here"; see above. Note: the order in which letters appear in the PLACEMENT argument does not change the order in which LaTeX tries to place the float; for instance, ‘btp’ has the same effect as ‘tbp’. All that PLACEMENT does is that if a letter is not present then the algorithm does not try that location. Thus, LaTeX's default of ‘tbp’ is to try every location except placing the float where it occurs in the source. To prevent LaTeX from moving floats to the end of the document or a chapter you can use a ‘\clearpage’ command to start a new page and insert all pending floats. If a pagebreak is undesirable then you can use the ‘afterpage’ package and issue ‘\afterpage{\clearpage}’. This will wait until the current page is finished and then flush all outstanding floats. LaTeX can typeset a float before where it appears in the source (although on the same output page) if there is a ‘t’ specifier in the PLACEMENT parameter. If this is not desired, and deleting the ‘t’ is not acceptable as it keeps the float from being placed at the top of the next page, then you can prevent it by either using the ‘flafter’ package or using the command ‘\suppressfloats[t]’, which causes floats for the top position on this page to moved to the next page. Parameters relating to fractions of pages occupied by float and non-float text (change them with ‘\renewcommand{PARAMETER}{DECIMAL BETWEEN 0 AND 1}’): ‘\bottomfraction’ The maximum fraction of the page allowed to be occupied by floats at the bottom; default ‘.3’. ‘\floatpagefraction’ The minimum fraction of a float page that must be occupied by floats; default ‘.5’. ‘\textfraction’ Minimum fraction of a page that must be text; if floats take up too much space to preserve this much text, floats will be moved to a different page. The default is ‘.2’. ‘\topfraction’ Maximum fraction at the top of a page that may be occupied before floats; default ‘.7’. Parameters relating to vertical space around floats (change them with a command of the form ‘\setlength{PARAMETER}{LENGTH EXPRESSION}’): ‘\floatsep’ Space between floats at the top or bottom of a page; default ‘12pt plus2pt minus2pt’. ‘\intextsep’ Space above and below a float in the middle of the main text; default ‘12pt plus2pt minus2pt’ for 10 point and 11 point documents, and ‘14pt plus4pt minus4pt’ for 12 point documents. ‘\textfloatsep’ Space between the last (first) float at the top (bottom) of a page; default ‘20pt plus2pt minus4pt’. Counters relating to the number of floats on a page (change them with a command of the form ‘\setcounter{CTRNAME}{NATURAL NUMBER}’): ‘bottomnumber’ Maximum number of floats that can appear at the bottom of a text page; default 1. ‘dbltopnumber’ Maximum number of full-sized floats that can appear at the top of a two-column page; default 2. ‘topnumber’ Maximum number of floats that can appear at the top of a text page; default 2. ‘totalnumber’ Maximum number of floats that can appear on a text page; default 3. The principal TeX FAQ entry relating to floats contains suggestions for relaxing LaTeX's default parameters to reduce the problem of floats being pushed to the end. A full explanation of the float placement algorithm is in Frank Mittelbach's article "How to influence the position of float environments like figure and table in LaTeX?" (). 5.7.1 ‘\caption’ ---------------- Synopsis: \caption{CAPTION-TEXT} or \caption[SHORT-CAPTION-TEXT]{CAPTION-TEXT} Make a caption for a floating environment, such as a ‘figure’ or ‘table’ environment (see figure or table). In this example, LaTeX places a caption below the vertical blank space that is left by the author for the later inclusion of a picture. \begin{figure} \vspace*{1cm} \caption{Alonzo Cushing, Battery A, 4th US Artillery.} \label{fig:CushingPic} \end{figure} The ‘\caption’ command will label the CAPTION-TEXT with something like ‘Figure 1:’ for an article or ‘Figure 1.1:’ for a book. The text is centered if it is shorter than the text width, or set as an unindented paragraph if it takes more than one line. In addition to placing the CAPTION-TEXT in the output, the ‘\caption’ command also saves that information for use in a list of figures or list of tables (see Table of contents etc.). Here the ‘\caption’ command uses the optional SHORT-CAPTION-TEXT, so that the shorter text appears in the list of tables, rather than the longer CAPTION-TEXT. \begin{table} \centering \begin{tabular}{|*{3}{c}|} \hline 4 &9 &2 \\ 3 &5 &7 \\ 8 &1 &6 \\ \hline \end{tabular} \caption[\textit{Lo Shu} magic square]{% The \textit{Lo Shu} magic square, which is unique among squares of order three up to rotation and reflection.} \label{tab:LoShu} \end{table} LaTeX will label the CAPTION-TEXT with something like ‘Table 1:’ for an article or ‘Table 1.1:’ for a book. The caption can appear at the top of the ‘figure’ or ‘table’. For instance, that would happen in the prior example by putting the ‘\caption’ between the ‘\centering’ and the ‘\begin{tabular}’. Different floating environments are numbered separately, by default. It is ‘\caption’ that updates the counter, and so any ‘\label’ must come after the ‘\caption’. The counter for the ‘figure’ environment is named ‘figure’, and similarly the counter for the ‘table’ environment is ‘table’. The text that will be put in the list of figures or list of tables is moving argument. If you get the LaTeX error ‘! Argument of \@caption has an extra }’ then you must put ‘\protect’ in front of any fragile commands. See \protect. The ‘caption’ package has many options to adjust how the caption appears, for example changing the font size, making the caption be hanging text rather than set as a paragraph, or making the caption always set as a paragraph rather than centered when it is short. 6 Sectioning ************ Structure your text into divisions: parts, chapters, sections, etc. All sectioning commands have the same form, one of: SECTIONING-COMMAND{TITLE} SECTIONING-COMMAND*{TITLE} SECTIONING-COMMAND[TOC-TITLE]{TITLE} For instance, declare the start of a subsection as with ‘\subsection{Motivation}’. The table has each SECTIONING-COMMAND in LaTeX. All are available in all of LaTeX's standard document classes ‘book’, ‘report’, and ‘article’, except that ‘\chapter’ is not available in ‘article’. Sectioning unit Command Level -------------------------------------------------------------------- Part ‘\part’ -1 (‘book’, ‘report’), 0 (‘article’) Chapter ‘\chapter’ 0 Section ‘\section’ 1 Subsection ‘\subsection’ 2 Subsubsection ‘\subsubsection’ 3 Paragraph ‘\paragraph’ 4 Subparagraph ‘\subparagraph’ 5 All these commands have a ‘*’-form that prints TITLE as usual but does not number it and does not make an entry in the table of contents. An example of using this is for an appendix in an ‘article’. The input ‘\appendix\section{Appendix}’ gives the output ‘A Appendix’ (see \appendix). You can lose the numbering ‘A’ by instead entering ‘\section*{Appendix}’ (articles often omit a table of contents and have simple page headers so the other differences from the ‘\section’ command may not matter). The section title TITLE provides the heading in the main text, but it may also appear in the table of contents and in the running head or foot (see Page styles). You may not want the same text in these places as in the main text. All of these commands have an optional argument TOC-TITLE for these other places. The level number in the table above determines which sectional units are numbered, and which appear in the table of contents. If the sectioning command's LEVEL is less than or equal to the value of the counter ‘secnumdepth’ then the titles for this sectioning command will be numbered (see Sectioning/secnumdepth). And, if LEVEL is less than or equal to the value of the counter ‘tocdepth’ then the table of contents will have an entry for this sectioning unit (see Sectioning/tocdepth). LaTeX expects that before you have a ‘\subsection’ you will have a ‘\section’ and, in a ‘book’ class document, that before a ‘\section’ you will have a ‘\chapter’. Otherwise you can get something like a subsection numbered ‘3.0.1’. LaTeX lets you change the appearance of the sectional units. As a simple example, you can change the section numbering to uppercase letters with this (in the preamble): ‘\renewcommand\thesection{\Alph{section}}’ . (See \alph \Alph \arabic \roman \Roman \fnsymbol.) CTAN has many packages that make this adjustment easier, notably ‘titlesec’. Two counters relate to the appearance of headings made by sectioning commands. ‘secnumdepth’ Controls which sectioning unit are numbered. Setting the counter with ‘\setcounter{secnumdepth}{LEVEL}’ will suppress numbering of sectioning at any depth greater than LEVEL (see \setcounter). See the above table for the level numbers. For instance, if the ‘secnumdepth’ is 1 in an ‘article’ then a ‘\section{Introduction}’ command will produce output like ‘1 Introduction’ while ‘\subsection{Discussion}’ will produce output like ‘Discussion’, without the number. LaTeX's default ‘secnumdepth’ is 3 in ‘article’ class and 2 in the ‘book’ and ‘report’ classes. ‘tocdepth’ Controls which sectioning units are listed in the table of contents. The setting ‘\setcounter{tocdepth}{LEVEL}’ makes the sectioning units at LEVEL be the smallest ones listed (see \setcounter). See the above table for the level numbers. For instance, if ‘tocdepth’ is 1 then the table of contents will list sections but not subsections. LaTeX's default ‘tocdepth’ is 3 in ‘article’ class and 2 in the ‘book’ and ‘report’ classes. 6.1 ‘\part’ =========== Synopsis, one of: \part{TITLE} \part*{TITLE} \part[TOC-TITLE]{TITLE} Start a document part. The standard LaTeX classes ‘book’, ‘report’, and ‘article’, all have this command. This produces a document part, in a book. \part{VOLUME I \\ PERSONAL MEMOIRS OF U.\ S.\ GRANT} \chapter{ANCESTRY--BIRTH--BOYHOOD.} My family is American, and has been for generations, in all its branches, direct and collateral. In each standard class the ‘\part’ command outputs a part number such as ‘Part I’, alone on its line, in boldface, and in large type. Then LaTeX outputs TITLE, also alone on its line, in bold and in even larger type. In class ‘book’, the LaTeX default puts each part alone on its own page. If the book is two-sided then LaTeX will skip a page if needed to have the new part on an odd-numbered page. In ‘report’ it is again alone on a page, but LaTeX won't force it onto an odd-numbered page. In an ‘article’ LaTeX does not put it on a fresh page, but instead outputs the part number and part title onto the main document page. The ‘*’ form shows TITLE but it does not show the part number, does not increment the ‘part’ counter, and produces no table of contents entry. The optional argument TOC-TITLE will appear as the part title in the table of contents (see Table of contents etc.) and in running headers (see Page styles). If it is not present then TITLE will be there. This example puts a line break in TITLE but omits the break in the table of contents. \part[Up from the bottom; my life]{Up from the bottom\\ my life} For determining which sectional units are numbered and which appear in the table of contents, the level number of a part is -1 (see Sectioning/secnumdepth, and Sectioning/tocdepth). In the class ‘article’, if a paragraph immediately follows the part title then it is not indented. To get an indent you can use the package ‘indentfirst’. One package to change the behavior of ‘\part’ is ‘titlesec’. See its documentation on CTAN. 6.2 ‘\chapter’ ============== Synopsis, one of: \chapter{TITLE} \chapter*{TITLE} \chapter[TOC-TITLE]{TITLE} Start a chapter. The standard LaTeX classes ‘book’ and ‘report’ have this command but ‘article’ does not. This produces a chapter. \chapter{Loomings} Call me Ishmael. Some years ago---never mind how long precisely---having little or no money in my purse, and nothing particular to interest me on shore, I thought I would sail about a little and see the watery part of the world. The LaTeX default starts each chapter on a fresh page, an odd-numbered page if the document is two-sided. It produces a chapter number such as ‘Chapter 1’ in large boldface type (the size is ‘\huge’). It then puts TITLE on a fresh line, in boldface type that is still larger (size ‘\Huge’). It also increments the ‘chapter’ counter, adds an entry to the table of contents (see Table of contents etc.), and sets the running header information (see Page styles). The ‘*’ form shows TITLE on a fresh line, in boldface. But it does not show the chapter number, does not increment the ‘chapter’ counter, produces no table of contents entry, and does not affect the running header. (If you use the page style ‘headings’ in a two-sided document then the header will be from the prior chapter.) This example illustrates. \chapter*{Preamble} The optional argument TOC-TITLE will appear as the chapter title in the table of contents (see Table of contents etc.) and in running headers (see Page styles). If it is not present then TITLE will be there. This shows the full name in the chapter title, \chapter[Weyl]{Hermann Klaus Hugo (Peter) Weyl (1885--1955)} but only ‘Weyl’ on the contents page. This puts a line break in the title but that doesn't work well with running headers so it omits the break in the contents \chapter[Given it all; my story]{Given it all\\ my story} For determining which sectional units are numbered and which appear in the table of contents, the level number of a chapter is 0 (see Sectioning/secnumdepth and see Sectioning/tocdepth). The paragraph that follows the chapter title is not indented, as is a standard typographical practice. To get an indent use the package ‘indentfirst’. You can change what is shown for the chapter number. To change it to something like ‘Lecture 1’, put in the preamble either ‘\renewcommand{\chaptername}{Lecture}’ or this (see \makeatletter & \makeatother). \makeatletter \renewcommand{\@chapapp}{Lecture} \makeatother To make this change because of the primary language for the document, see the package ‘babel’. In a two-sided document LaTeX puts a chapter on odd-numbered page, if necessary leaving an even-numbered page that is blank except for any running headers. To make that page completely blank, see \clearpage & \cleardoublepage. To change the behavior of the ‘\chapter’ command, you can copy its definition from the LaTeX format file and make adjustments. But there are also many packages on CTAN that address this. One is ‘titlesec’. See its documentation, but the example below gives a sense of what it can do. \usepackage{titlesec} % in preamble \titleformat{\chapter} {\Huge\bfseries} % format of title {} % label, such as 1.2 for a subsection {0pt} % length of separation between label and title {} % before-code hook This omits the chapter number ‘Chapter 1’ from the page but unlike ‘\chapter*’ it keeps the chapter in the table of contents and the running headers. 6.3 ‘\section’ ============== Synopsis, one of: \section{TITLE} \section*{TITLE} \section[TOC-TITLE]{TITLE} Start a section. The standard LaTeX classes ‘article’, ‘book’, and ‘report’ all have this command. This produces a section. In this Part we tend to be more interested in the function, in the input-output behavior, than in the details of implementing that behavior. \section{Turing machines} Despite this desire to downplay implementation, we follow the approach of A~Turing that the first step toward defining the set of computable functions is to reflect on the details of what mechanisms can do. For the standard LaTeX classes ‘book’ and ‘report’ the default output is like ‘1.2 TITLE’ (for chapter 1, section 2), alone on its line and flush left, in boldface and a larger type (the type size is ‘\Large’). The same holds in ‘article’ except that there are no chapters in that class so it looks like ‘2 TITLE’. The ‘*’ form shows TITLE. But it does not show the section number, does not increment the ‘section’ counter, produces no table of contents entry, and does not affect the running header. (If you use the page style ‘headings’ in a two-sided document then the header will be from the prior section.) The optional argument TOC-TITLE will appear as the section title in the table of contents (see Table of contents etc.) and in running headers (see Page styles). If it is not present then TITLE will be there. This shows the full name in the title of the section: \section[Elizabeth~II]{Elizabeth the Second, by the Grace of God of the United Kingdom, Canada and Her other Realms and Territories Queen, Head of the Commonwealth, Defender of the Faith.} but only ‘Elizabeth II’ on the contents page and in the headers. This has a line break in TITLE but that does not work with headers so it is omitted from the contents and headers. \section[Truth is, I cheated; my life story]{Truth is, I cheated\\my life story} For determining which sectional units are numbered and which appear in the table of contents, the level number of a section is 1 (see Sectioning/secnumdepth and see Sectioning/tocdepth). The paragraph that follows the section title is not indented, as is a standard typographical practice. One way to get an indent is to use the package ‘indentfirst’. In general, to change the behavior of the ‘\section’ command, there are a number of options. One is the ‘\@startsection’ command (see \@startsection). There are also many packages on CTAN that address this, including ‘titlesec’. See the documentation but the example below gives a sense of what they can do. \usepackage{titlesec} % in preamble \titleformat{\section} {\normalfont\Large\bfseries} % format of title {\makebox[1pc][r]{\thesection\hspace{1pc}}} % label {0pt} % length of separation between label and title {} % before-code hook \titlespacing*{\section} {-1pc}{18pt}{10pt}[10pc] That puts the section number in the margin. 6.4 ‘\subsection’ ================= Synopsis, one of: \subsection{TITLE} \subsection*{TITLE} \subsection[TOC-TITLE]{TITLE} Start a subsection. The standard LaTeX classes ‘article’, ‘book’, and ‘report’ all have this command. This produces a subsection. We will show that there are more functions than Turing machines and that therefore some functions have no associated machine. \subsection{Cardinality} We will begin with two paradoxes that dramatize the challenge to our intuition posed by comparing the sizes of infinite sets. For the standard LaTeX classes ‘book’ and ‘report’ the default output is like ‘1.2.3 TITLE’ (for chapter 1, section 2, subsection 3), alone on its line and flush left, in boldface and a larger type (the type size is ‘\large’). The same holds in ‘article’ except that there are no chapters in that class so it looks like ‘2.3 TITLE’. The ‘*’ form shows TITLE. But it does not show the subsection number, does not increment the ‘subsection’ counter, and produces no table of contents entry. The optional argument TOC-TITLE will appear as the subsection title in the table of contents (see Table of contents etc.). If it is not present then TITLE will be there. This shows the full text in the title of the subsection: \subsection[$\alpha,\beta,\gamma$ paper]{\textit{The Origin of Chemical Elements} by R.A.~Alpher, H.~Bethe, and G.~Gamow} but only ‘α,β,γ paper’ on the contents page. For determining which sectional units are numbered and which appear in the table of contents, the level number of a subsection is 2 (see Sectioning/secnumdepth and see Sectioning/tocdepth). The paragraph that follows the subsection title is not indented, as is a standard typographical practice. One way to get an indent is to use the package ‘indentfirst’. There are a number of ways to change the behavior of the ‘\subsection’ command. One is the ‘\@startsection’ command (see \@startsection). There are also many packages on CTAN that address this, including ‘titlesec’. See the documentation but the example below gives a sense of what they can do. \usepackage{titlesec} % in preamble \titleformat{\subsection}[runin] {\normalfont\normalsize\bfseries} % format of the title {\thesubsection} % label {0.6em} % space between label and title {} % before-code hook That puts the subsection number and TITLE in the first line of text. 6.5 ‘\subsubsection’, ‘\paragraph’, ‘\subparagraph’ =================================================== Synopsis, one of: \subsubsection{TITLE} \subsubsection*{TITLE} \subsubsection[TOC-TITLE]{TITLE} or one of: \paragraph{TITLE} \paragraph*{TITLE} \paragraph[TOC-TITLE]{TITLE} or one of: \subparagraph{TITLE} \subparagraph*{TITLE} \subparagraph[TOC-TITLE]{TITLE} Start a subsubsection, paragraph, or subparagraph. The standard LaTeX classes ‘article’, ‘book’, and ‘report’ all have these commands, although they are not commonly used. This produces a subsubsection. \subsubsection{Piston ring compressors: structural performance} Provide exterior/interior wall cladding assemblies capable of withstanding the effects of load and stresses from consumer-grade gasoline engine piston rings. The default output of each of the three does not change over the standard LaTeX classes ‘article’, ‘book’, and ‘report’. For ‘\subsubsection’ the TITLE is alone on its line, in boldface and normal size type. For ‘\paragraph’ the TITLE is inline with the text, not indented, in boldface and normal size type. For ‘\subparagraph’ the TITLE is inline with the text, with a paragraph indent, in boldface and normal size type (Because an ‘article’ has no chapters its subsubsections are numbered and so it looks like ‘1.2.3 TITLE’, for section 1, subsection 2, and subsubsection 3. The other two divisions are not numbered.) The ‘*’ form shows TITLE. But it does not increment the associated counter and produces no table of contents entry (and does not show the number for ‘\subsubsection’). The optional argument TOC-TITLE will appear as the division title in the table of contents (see Table of contents etc.). If it is not present then TITLE will be there. For determining which sectional units are numbered and which appear in the table of contents, the level number of a subsubsection is 3, of a paragraph is 4, and of a subparagraph is 5 (see Sectioning/secnumdepth and see Sectioning/tocdepth). The paragraph that follows the subsubsection title is not indented, as is a standard typographical practice. One way to get an indent is to use the package ‘indentfirst’. There are a number of ways to change the behavior of the these commands. One is the ‘\@startsection’ command (see \@startsection). There are also many packages on CTAN that address this, including ‘titlesec’. See the documentation on CTAN. 6.6 ‘\appendix’ =============== Synopsis: \appendix This does not directly produce any output. But in a ‘book’ or ‘report’ document it declares that subsequent ‘\chapter’ commands start an appendix. In an article it does the same, for ‘\section’ commands. It also resets the ‘chapter’ and ‘section’ counters to 0 in a book or report, and in an article resets the ‘section’ and ‘subsection’ counters. In this book \chapter{One} ... \chapter{Two} ... ... \appendix \chapter{Three} ... \chapter{Four} ... the first two will generate output numbered ‘Chapter 1’ and ‘Chapter 2’. After the ‘\appendix’ the numbering will be ‘Appendix A’ and ‘Appendix B’. See Larger book template, for another example. The ‘appendix’ package adds the command ‘\appendixpage’ to put a separate ‘Appendices’ in the document body before the first appendix, and the command ‘\addappheadtotoc’ to do the same in the table of contents. You can reset the name ‘Appendices’ with a command like ‘\renewcommand{\appendixname}{Specification}’, as well as a number of other features. See the documentation on CTAN. 6.7 ‘\frontmatter’, ‘\mainmatter’, ‘\backmatter’ ================================================ Synopsis, one or more of: \frontmatter ... \mainmatter ... \backmatter ... Format a ‘book’ class document differently according to which part of the document is being produced. All three commands are optional. Traditionally, a book's front matter contains such things as the title page, an abstract, a table of contents, a preface, a list of notations, a list of figures, and a list of tables. (Some of these front matter pages, such as the title page, are traditionally not numbered.) The back matter may contain such things as a glossary, notes, a bibliography, and an index. The ‘\frontmatter’ command makes the pages numbered in lowercase roman, and makes chapters not numbered, although each chapter's title appears in the table of contents; if you use other sectioning commands here, use the ‘*’-version (see Sectioning). The ‘\mainmatter’ command changes the behavior back to the expected version, and resets the page number. The ‘\backmatter’ command leaves the page numbering alone but switches the chapters back to being not numbered. See Larger book template, for an example using these three commands. 6.8 ‘\@startsection’: Typesetting sectional unit headings ========================================================= Synopsis: \@startsection{NAME}{LEVEL}{INDENT}{BEFORESKIP}{AFTERSKIP}{STYLE} Used to help redefine the behavior of commands that start sectioning divisions such as ‘\section’ or ‘\subsection’. The ‘titlesec’ package makes manipulation of sectioning easier. Further, while most requirements for sectioning commands can be satisfied with ‘\@startsection’, some cannot. For instance, in the standard LaTeX ‘book’ and ‘report’ classes the commands ‘\chapter’ and ‘\report’ are not constructed using this. To make such a command you may want to use the ‘\secdef’ command. The ‘\@startsection’ macro is used like this: \@startsection{NAME} {LEVEL} {INDENT} {BEFORESKIP} {AFTERSKIP} {STYLE}*[TOCTITLE]{TITLE} so that issuing \renewcommand{\section}{\@startsection{NAME} {LEVEL} {INDENT} {BEFORESKIP} {AFTERSKIP} {STYLE}} redefines ‘\section’ while keeping its standard calling form ‘\section*[TOCTITLE]{TITLE}’ (in which, as a reminder, the star ‘*’ is optional). See Sectioning. This implies that when you write a command like ‘\renewcommand{\section}{...}’, the ‘\@startsection{...}’ must come last in the definition. See the examples below. NAME Name of the counter used to number the sectioning header. This counter must be defined separately. Most commonly this is either ‘section’, ‘subsection’, or ‘paragraph’. Although in those cases the counter name is the same as the sectioning command itself, you don't have to use the same name. Then ‘\the’NAME displays the title number and ‘\’NAME‘mark’ is for the page headers. See the third example below. LEVEL An integer giving the depth of the sectioning command. See Sectioning, for the list of standard level numbers. If LEVEL is less than or equal to the value of the counter ‘secnumdepth’ then titles for this sectioning command will be numbered (see Sectioning/secnumdepth). For instance, if ‘secnumdepth’ is 1 in an ‘article’ then the command ‘\section{Introduction}’ will produce output like "1 Introduction" while ‘\subsection{Discussion}’ will produce output like "Discussion", without the number prefix. If LEVEL is less than or equal to the value of the counter TOCDEPTH then the table of contents will have an entry for this sectioning unit (see Sectioning/tocdepth). For instance, in an ‘article’, if TOCDEPTH is 1 then the table of contents will list sections but not subsections. INDENT A length giving the indentation of all of the title lines with respect to the left margin. To have the title flush with the margin use ‘0pt’. A negative indentation such as ‘-\parindent’ will move the title into the left margin. BEFORESKIP The absolute value of this length is the amount of vertical space that is inserted before this sectioning unit's title. This space will be discarded if the sectioning unit happens to start at the beginning of a page. If this number is negative then the first paragraph following the header is not indented; if it is non-negative then the first paragraph is indented. (Example: the negative of ‘1pt plus 2pt minus 3pt’ is ‘-1pt plus -2pt minus -3pt’.) For example, if BEFORESKIP is ‘-3.5ex plus -1ex minus -0.2ex’ then to start the new sectioning unit, LaTeX will add about 3.5 times the height of a letter x in vertical space, and the first paragraph in the section will not be indented. Using a rubber length, with ‘plus’ and ‘minus’, is good practice here since it gives LaTeX more flexibility in making up the page (see Lengths). The full accounting of the vertical space between the baseline of the line prior to this sectioning unit's header and the baseline of the header is that it is the sum of the ‘\parskip’ of the text font, the ‘\baselineskip’ of the title font, and the absolute value of the BEFORESKIP. This space is typically rubber so it may stretch or shrink. (If the sectioning unit starts on a fresh page so that the vertical space is discarded then the baseline of the header text will be where LaTeX would put the baseline of the first text line on that page.) AFTERSKIP This is a length. If AFTERSKIP is non-negative then this is the vertical space inserted after the sectioning unit's title header. If it is negative then the title header becomes a run-in header, so that it becomes part of the next paragraph. In this case the absolute value of the length gives the horizontal space between the end of the title and the beginning of the following paragraph. (Note that the negative of ‘1pt plus 2pt minus 3pt’ is ‘-1pt plus -2pt minus -3pt’.) As with BEFORESKIP, using a rubber length, with ‘plus’ and ‘minus’ components, is good practice here since it gives LaTeX more flexibility in putting together the page. If ‘afterskip’ is non-negative then the full accounting of the vertical space between the baseline of the sectioning unit's header and the baseline of the first line of the following paragraph is that it is the sum of the ‘\parskip’ of the title font, the ‘\baselineskip’ of the text font, and the value of AFTER. That space is typically rubber so it may stretch or shrink. (Note that because the sign of ‘afterskip’ changes the sectioning unit header's from standalone to run-in, you cannot use a negative ‘afterskip’ to cancel part of the ‘\parskip’.) STYLE Controls the styling of the title. See the examples below. Typical commands to use here are ‘\centering’, ‘\raggedright’, ‘\normalfont’, ‘\hrule’, or ‘\newpage’. The last command in STYLE may be one that takes one argument, such as ‘\MakeUppercase’ or ‘\fbox’ that takes one argument. The section title will be supplied as the argument to this command. For instance, setting STYLE to ‘\bfseries\MakeUppercase’ would produce titles that are bold and uppercase. These are LaTeX's defaults for the first three sectioning units that are defined with ‘\@startsection’, for the ‘article’, ‘book’, and ‘report’ classes. • For ‘section’: LEVEL is 1, INDENT is 0pt, BEFORESKIP is ‘-3.5ex plus -1ex minus -0.2ex’, AFTERSKIP is ‘2.3ex plus 0.2ex’, and STYLE is ‘\normalfont\Large\bfseries’. • For ‘subsection’: LEVEL is 2, INDENT is 0pt, BEFORESKIP is ‘-3.25ex plus -1ex minus -0.2ex’, AFTERSKIP is ‘1.5ex plus 0.2ex’, and STYLE is ‘\normalfont\large\bfseries’. • For ‘subsubsection’: LEVEL is 3, INDENT is 0pt, BEFORESKIP is ‘-3.25ex plus -1ex minus -0.2ex’, AFTERSKIP is ‘1.5ex plus 0.2ex’, and STYLE is ‘\normalfont\normalsize\bfseries’. Some examples follow. These go either in a package or class file or in the preamble of a LaTeX document. If you put them in the preamble they must go between a ‘\makeatletter’ command and a ‘\makeatother’. (Probably the error message ‘You can't use `\spacefactor' in vertical mode.’ means that you forgot this.) See \makeatletter & \makeatother. This will put section titles in large boldface type, centered. It says ‘\renewcommand’ because LaTeX's standard classes have already defined a ‘\section’. For the same reason it does not define a ‘section’ counter, or the commands ‘\thesection’ and ‘\l@section’. \renewcommand\section{% \@startsection{section}% NAME: \@startsection/name {1}% LEVEL: \@startsection/level {0pt}% INDENT: \@startsection/indent {-3.5ex plus -1ex minus -.2ex}% BEFORESKIP: \@startsection/beforeskip {2.3ex plus.2ex}% AFTERSKIP: \@startsection/afterskip {\centering\normalfont\Large\bfseries}% STYLE: \@startsection/style } This will put ‘subsection’ titles in small caps type, inline with the paragraph. \renewcommand\subsection{% \@startsection{subsection}% NAME: \@startsection/name {2}% LEVEL: \@startsection/level {0em}% INDENT: \@startsection/indent {-1ex plus 0.1ex minus -0.05ex}% BEFORESKIP: \@startsection/beforeskip {-1em plus 0.2em}% AFTERSKIP: \@startsection/afterskip {\scshape}% STYLE: \@startsection/style } The prior examples redefined existing sectional unit title commands. This defines a new one, illustrating the needed counter and macros to display that counter. \setcounter{secnumdepth}{6}% show counters this far down \newcounter{subsubparagraph}[subparagraph]% counter for numbering \renewcommand{\thesubsubparagraph}% how to display {\thesubparagraph.\@arabic\c@subsubparagraph}% numbering \newcommand{\subsubparagraph}{\@startsection {subsubparagraph}% {6}% {0em}% {\baselineskip}% {0.5\baselineskip}% {\normalfont\normalsize}} \newcommand*\l@subsubparagraph{\@dottedtocline{6}{10em}{5em}}% for toc \newcommand{\subsubparagraphmark}[1]{}% for page headers 7 Cross references ****************** We often want something like ‘See Theorem~31’. But by-hand typing the 31 is poor practice. Instead you should write a “label” such as ‘\label{eq:GreensThm}’ and then “reference” it, as with ‘See equation~\ref{eq:GreensThm}’. LaTeX will automatically work out the number, put it into the output, and will change that number later if needed. We will see this with Theorem~\ref{th:GreensThm}. % forward reference ... \begin{theorem} \label{th:GreensThm} ... \end{theorem} ... See Theorem~\ref{th:GreensThm} on page~\pageref{th:GreensThm}. LaTeX tracks cross reference information in a file having the extension ‘.aux’ and with the same base name as the file containing the ‘\label’. So if ‘\label’ is in ‘calculus.tex’ then the information is in ‘calculus.aux’. LaTeX puts the information in that file every time it runs across a ‘\label’. The behavior described in the prior paragraph results in a quirk that happens when your document has a “forward reference”, a ‘\ref’ that appears before the associated ‘\label’. If this is the first time that you are compiling the document then you will get ‘LaTeX Warning: Label(s) may have changed. Rerun to get cross references right’ and in the output the forward reference will appear as two question marks ‘??’, in boldface. A similar thing happens if you change some things so the references changes; you get the same warning and the output contains the old reference information. In both cases, resolve this by compiling the document a second time. The ‘cleveref’ package enhances LaTeX's cross referencing features. You can arrange that if you enter ‘\begin{thm}\label{th:Nerode}...\end{thm}’ then ‘\cref{th:Nerode}’ will output ‘Theorem 3.21’, without you having to enter the "Theorem." 7.1 ‘\label’ ============ Synopsis: \label{KEY} Assign a reference number to KEY. In ordinary text ‘\label{KEY}’ assigns to KEY the number of the current sectional unit. Inside an environment with numbering, such as a ‘table’ or ‘theorem’ environment, ‘\label{KEY}’ assigns to KEY the number of that environment. Retrieve the assigned number with the ‘\ref{KEY}’ command (see \ref). A key name can consist of any sequence of letters, digits, or common punctuation characters. Upper and lowercase letters are distinguished, as usual. A common convention is to use labels consisting of a prefix and a suffix separated by a colon or period. Thus, ‘\label{fig:Post}’ is a label for a figure with a portrait of Emil Post. This helps to avoid accidentally creating two labels with the same name, and makes your source more readable. Some commonly-used prefixes: ‘ch’ for chapters ‘sec’ ‘subsec’ for lower-level sectioning commands ‘fig’ for figures ‘tab’ for tables ‘eq’ for equations In the auxiliary file the reference information is kept as the text of a command of the form ‘\newlabel{LABEL}{{CURRENTLABEL}{PAGENUMBER}}’. Here CURRENTLABEL is the current value of the macro ‘\@currentlabel’ that is usually updated whenever you call ‘\refstepcounter{COUNTER}’. Below, the key ‘sec:test’ will get the number of the current section and the key ‘fig:test’ will get the number of the figure. (Incidentally, put labels after captions in figures and tables.) \section{section name} \label{sec:test} This is Section~\ref{sec:test}. \begin{figure} ... \caption{caption text} \label{fig:test} \end{figure} See Figure~\ref{fig:test}. 7.2 ‘\pageref’ ============== Synopsis: \pageref{KEY} Produce the page number of the place in the text where the corresponding ‘\label’{KEY} command appears. If there is no ‘\label{KEY}’ then you get something like ‘LaTeX Warning: Reference `th:GrensThm' on page 1 undefined on input line 11.’ Below, the ‘\label{eq:main}’ is used both for the formula number and for the page number. (Note that the two references are forward references so this document would need to be compiled twice to resolve those.) The main result is formula~\ref{eq:main} on page~\pageref{eq:main}. ... \begin{equation} \label{eq:main} \mathbf{P}=\mathbf{NP} \end{equation} 7.3 ‘\ref’ ========== Synopsis: \ref{KEY} Produces the number of the sectional unit, equation, footnote, figure, ..., of the corresponding ‘\label’ command (see \label). It does not produce any text, such as the word 'Section' or 'Figure', just the bare number itself. If there is no ‘\label{KEY}’ then you get something like ‘LaTeX Warning: Reference `th:GrensThm' on page 1 undefined on input line 11.’ In this example the ‘\ref{popular}’ produces ‘2’. Note that it is a forward reference since it comes before ‘\label{popular}’ so this document would have to be compiled twice. The most widely-used format is item number~\ref{popular}. \begin{enumerate} \item Plain \TeX \item \label{popular} \LaTeX \item Con\TeX t \end{enumerate} The ‘cleveref’ package includes text such as ‘Theorem’ in the reference. See the documentation on CTAN. 7.4 ‘xr’ package ================ Synopsis: \usepackage{xr} \externaldocument{DOCUMENT-BASENAME} or \usepackage{xr} \externaldocument[REFERENCE-PREFIX]{DOCUMENT-BASENAME} Make cross references to the external document ‘DOCUMENT-BASENAME.tex’. Here is an example. If ‘lectures.tex’ has this in the preamble \usepackage{xr} \externaldocument{exercises} \externaldocument[H-]{hints} \externaldocument{answers} then it can use cross reference labels from the other three documents. Suppose that ‘exercises.tex’ has an enumerated list containing this, \item \label{exer:EulersThm} What if every vertex has odd degree? and ‘hints.tex’ has an enumerated list with this, \item \label{exer:EulersThm} Distinguish the case of two vertices. and ‘answers.tex’ has an enumerated list with this, \item \label{ans:EulersThm} There is no Euler path, except if there are exactly two vertices. After compiling the exercises, hints, and answers documents, entering this in the body of ‘lectures.tex’ will result in the lectures getting the reference numbers used in the other documents. See Exercise~\ref{exer:EulersThm}, with Hint~\ref{H-exer:EulersThm}. The solution is Answer~\ref{ans:EulersThm}. The prefix ‘H-’ for the reference from the hints file is needed because the label in the hints file is the same as the label in the exercises file. Without that prefix, both references would get the number from the later file. Note: if the document uses the ‘hyperref’ package then in place of ‘xr’, put ‘\usepackage{xr-hyper}’ before the ‘\usepackage{hyperref}’. Also, if any of the multiple documents uses ‘hyperref’ then they all must use it. 8 Environments ************** LaTeX provides many environments for delimiting certain behavior. An environment begins with ‘\begin’ and ends with ‘\end’, like this: \begin{ENVIRONMENT-NAME} ... \end{ENVIRONMENT-NAME} The ENVIRONMENT-NAME at the beginning must exactly match that at the end. For instance, the input ‘\begin{table*}...\end{table}’ will cause an error like: ‘! LaTeX Error: \begin{table*} on input line 5 ended by \end{table}.’ Environments are executed within a group. 8.1 ‘abstract’ ============== Synopsis: \begin{abstract} ... \end{abstract} Produce an abstract, possibly of multiple paragraphs. This environment is only defined in the ‘article’ and ‘report’ document classes (see Document classes). Using the example below in the ‘article’ class produces a displayed paragraph. Document class option ‘titlepage’ causes the abstract to be on a separate page (see Document class options); this is the default only in the ‘report’ class. \begin{abstract} We compare all known accounts of the proposal made by Porter Alexander to Robert E Lee at the Appomattox Court House that the army continue in a guerrilla war, which Lee refused. \end{abstract} The next example produces a one column abstract in a two column document (for a more flexible solution, use the package ‘abstract’). \documentclass[twocolumn]{article} ... \begin{document} \title{Babe Ruth as Cultural Progenitor: a Atavistic Approach} \author{Smith \\ Jones \\ Robinson\thanks{Railroad tracking grant.}} \twocolumn[ \begin{@twocolumnfalse} \maketitle \begin{abstract} Ruth was not just the Sultan of Swat, he was the entire swat team. \end{abstract} \end{@twocolumnfalse} ] { % by-hand insert a footnote at page bottom \renewcommand{\thefootnote}{\fnsymbol{footnote}} \footnotetext[1]{Thanks for all the fish.} } 8.2 ‘array’ =========== Synopsis: \begin{array}{COLS} COLUMN 1 ENTRY &COLUMN 2 ENTRY ... &COLUMN N ENTRY \\ ... \end{array} or: \begin{array}[POS]{COLS} COLUMN 1 ENTRY &COLUMN 2 ENTRY ... &COLUMN N ENTRY \\ ... \end{array} Produce a mathematical array. This environment can only be used in math mode (see Modes), and normally appears within a displayed mathematics environment such as ‘equation’ (see equation). Inside of each row the column entries are separated by an ampersand, (‘&’). Rows are terminated with double-backslashes (see \\). This example shows a three by three array. \begin{displaymath} \chi(x) = \left| % vertical bar fence \begin{array}{ccc} x-a &-b &-c \\ -d &x-e &-f \\ -g &-h &x-i \end{array} \right| \end{displaymath} The required argument COLS describes the number of columns, their alignment, and the formatting of the intercolumn regions. For instance, ‘\begin{array}{rcl}...\end{array}’ gives three columns: the first flush right, the second centered, and the third flush left. See tabular for the complete description of COLS and of the other common features of the two environments, including the optional POS argument. There are two ways that ‘array’ diverges from ‘tabular’. The first is that ‘array’ entries are typeset in math mode, in textstyle (see Math styles) except if the COLS definition specifies the column with ‘p{...}’, which causes the entry to be typeset in text mode. The second is that, instead of ‘tabular’'s parameter ‘\tabcolsep’, LaTeX's intercolumn space in an ‘array’ is governed by ‘\arraycolsep’, which gives half the width between columns. The default for this is ‘5pt’ so that between two columns comes 10pt of space. To obtain arrays with braces the standard is to use the ‘amsmath’ package. It comes with environments ‘pmatrix’ for an array surrounded by parentheses ‘(...)’, ‘bmatrix’ for an array surrounded by square brackets ‘[...]’, ‘Bmatrix’ for an array surrounded by curly braces ‘{...}’, ‘vmatrix’ for an array surrounded by vertical bars ‘|...|’, and ‘Vmatrix’ for an array surrounded by double vertical bars ‘||...||’, along with a number of other array constructs. The next example uses the ‘amsmath’ package. \usepackage{amsmath} % in preamble \begin{equation} \begin{vmatrix}{cc} % array with vert lines a &b \\ c &d \end{vmatrix}=ad-bc \end{equation} There are many packages concerning arrays. The ‘array’ package has many useful extensions, including more column types. The ‘dcolumn’ package adds a column type to center on a decimal point. For both see the documentation on CTAN. 8.3 ‘center’ ============ Synopsis: \begin{center} LINE1 \\ LINE2 \\ ... \end{center} Create a new paragraph consisting of a sequence of lines that are centered within the left and right margins. Use double-backslash, ‘\\’, to get a line break (see \\). If some text is too long to fit on a line then LaTeX will insert line breaks that avoid hyphenation and avoid stretching or shrinking any interword space. This environment inserts space above and below the text body. See \centering to avoid such space, for example inside a ‘figure’ environment. This example produces three centered lines. There is extra vertical space between the last two lines. \begin{center} A Thesis Submitted in Partial Fufillment \\ of the Requirements of \\[0.5ex] the School of Environmental Engineering \end{center} In this example, depending on the page's line width, LaTeX may choose a line break for the part before the double backslash. If so, it will center each of the two lines and if not it will center the single line. Then LaTeX will break at the double backslash, and will center the ending. \begin{center} My father considered that anyone who went to chapel and didn't drink alcohol was not to be tolerated.\\ I grew up in that belief. ---Richard Burton \end{center} A double backslash after the final line is optional. If present it doesn't add any vertical space. In a two-column document the text is centered in a column, not in the entire page. 8.3.1 ‘\centering’ ------------------ Synopsis: {\centering ... } or \begin{group} \centering ... \end{group} Center the material in its scope. It is most often used inside an environment such as ‘figure’, or in a ‘parbox’. This example's ‘\centering’ declaration causes the graphic to be horizontally centered. \begin{figure} \centering \includegraphics[width=0.6\textwidth]{ctan_lion.png} \caption{CTAN Lion} \label{fig:CTANLion} \end{figure} The scope of this ‘\centering’ ends with the ‘\end{figure}’. Unlike the ‘center’ environment, the ‘\centering’ command does not add vertical space above and below the text. That's its advantage in the above example; there is not an excess of space. It also does not start a new paragraph; it simply changes how LaTeX formats paragraph units. If ‘ww {\centering xx \\ yy} zz’ is surrounded by blank lines then LaTeX will create a paragraph whose first line ‘ww xx’ is centered and whose second line, not centered, contains ‘yy zz’. Usually what is desired is for the scope of the declaration to contain a blank line or the ‘\end’ command of an environment such as ‘figure’ or ‘table’ that ends the paragraph unit. Thus, if ‘{\centering xx \\ yy\par} zz’ is surrounded by blank lines then it makes a new paragraph with two centered lines ‘xx’ and ‘yy’, followed by a new paragraph with ‘zz’ that is formatted as usual. 8.4 ‘description’ ================= Synopsis: \begin{description} \item[LABEL OF FIRST ITEM] TEXT OF FIRST ITEM \item[LABEL OF SECOND ITEM] TEXT OF SECOND ITEM ... \end{description} Environment to make a list of labeled items. Each item's LABEL is typeset in bold and is flush left, so that long labels continue into the first line of the item text. There must be at least one item; having none causes the LaTeX error ‘Something's wrong--perhaps a missing \item’. This example shows the environment used for a sequence of definitions. \begin{description} \item[lama] A priest. \item[llama] A beast. \end{description} The labels ‘lama’ and ‘llama’ are output in boldface, with the left edge on the left margin. Start list items with the ‘\item’ command (see \item). Use the optional labels, as in ‘\item[Main point]’, because there is no sensible default. Following the ‘\item’ is optional text, which may contain multiple paragraphs. Since the labels are in bold style, if the label text calls for a font change given in argument style (see Font styles) then it will come out bold. For instance, if the label text calls for typewriter with ‘\item[\texttt{label text}]’ then it will appear in bold typewriter, if that is available. If you want to avoid this, and get non-bold typewriter, you can use declarative style: ‘\item[{\tt label text}]’. Similarly, you can get the standard roman font, instead of bold, with ‘\item[{\rm label text}]’. For other major LaTeX list environments, see itemize and enumerate. Unlike those environments, nesting ‘description’ environments does not change the default label; it is boldface and flush left at all levels. For information about list layout parameters, including the default values, and for information about customizing list layout, see list. The package ‘enumitem’ is useful for customizing lists. This example changes the description labels to small caps. \renewcommand{\descriptionlabel}[1]{% {\hspace{\labelsep}\textsc{#1}}} 8.5 ‘displaymath’ ================= Synopsis: \begin{displaymath} MATHEMATICAL TEXT \end{displaymath} Environment to typeset the MATHEMATICAL TEXT on its own line, in display style and centered. To make the text be flush-left use the global option ‘fleqn’ (see Document class options). In the ‘displaymath’ environment no equation number is added to the math text. One way to get an equation number is to use the ‘equation’ environment (see equation). LaTeX will not break the MATH TEXT across lines. The ‘amsmath’ package defines an ‘equation*’ environment which is functionally identical to ‘displaymath’ but allows use of other ‘amsmath’ facilities. In general, ‘amsmath’has significantly more extensive displayed equation facilities. For example, there are a number of ways in that package for having math text broken across lines; see also the ‘breqn’ package for that (). The construct ‘\[ MATH \]’ is a synonym for the environment ‘\begin{displaymath} MATH \end{displaymath}’ but the latter is easier to work with in the source; for instance, searching for a square bracket may get false positives but the word ‘displaymath’ will likely be unique. The construct ‘$$MATH$$’ from plain TeX is sometimes used instead of LaTeX's ‘displaymath’. Although the output is similar, but is not officially supported in LaTeX at all; ‘$$’ doesn't support the ‘fleqn’ option, has different vertical spacing, and doesn't perform consistency checks. The output from this example is centered and alone on its line. \begin{displaymath} \int_1^2 x^2\,dx=7/3 \end{displaymath} Also, the integral sign is larger than the inline version ‘\( \int_1^2 x^2\,dx=7/3 \)’ produces. 8.6 ‘document’ ============== The ‘document’ environment encloses the entire body of a document. It is required in every LaTeX document. See Starting and ending. 8.6.1 ‘\AtBeginDocument’ ------------------------ Synopsis: \AtBeginDocument{CODE} Save CODE and execute it when ‘\begin{document}’ is executed, at the very end of the preamble. The code is executed after the font selection tables have been set up, so the normal font for the document is the current font. However, the code is executed as part of the preamble so you cannot do any typesetting with it. You can issue this command more than once; the successive code lines will be executed in the order that you gave them. 8.6.2 ‘\AtEndDocument’ ---------------------- Synopsis: \AtEndDocument{CODE} Save CODE and execute it near the end of the document. Specifically, it is executed when ‘\end{document}’ is executed, before the final page is finished and before any leftover floating environments are processed. If you want some of the code to be executed after these two processes then include a ‘\clearpage’ at the appropriate point in CODE. You can issue this command more than once; the successive code lines will be executed in the order that you gave them. 8.7 ‘enumerate’ =============== Synopsis: \begin{enumerate} \item[OPTIONAL LABEL OF FIRST ITEM] TEXT OF FIRST ITEM \item[OPTIONAL LABEL OF SECOND ITEM] TEXT OF SECOND ITEM ... \end{enumerate} Environment to produce a numbered list of items. The format of the label numbering depends on the nesting level of this environment; see below. The default top-level numbering is ‘1.’, ‘2.’, etc. Each ‘enumerate’ list environment must have at least one item; having none causes the LaTeX error ‘Something's wrong--perhaps a missing \item’. This example gives the first two finishers in the 1908 Olympic marathon. As a top-level list the labels would come out as ‘1.’ and ‘2.’. \begin{enumerate} \item Johnny Hayes (USA) \item Charles Hefferon (RSA) \end{enumerate} Start list items with the ‘\item’ command (see \item). If you give ‘\item’ an optional argument by following it with square brackets, as in ‘\item[Interstitial label]’, then the next item will continue the interrupted sequence (see \item). That is, you will get labels like ‘1.’, then ‘Interstitial label’, then ‘2.’. Following the ‘\item’ is optional text, which may contain multiple paragraphs. Enumerations may be nested within other ‘enumerate’ environments, or within any paragraph-making environment such as ‘itemize’ (see itemize), up to four levels deep. This gives LaTeX's default for the format at each nesting level, where 1 is the top level, the outermost level. 1. arabic number followed by a period: ‘1.’, ‘2.’, ... 2. lowercase letter inside parentheses: ‘(a)’, ‘(b)’ ... 3. lowercase roman numeral followed by a period: ‘i.’, ‘ii.’, ... 4. uppercase letter followed by a period: ‘A.’, ‘B.’, ... The ‘enumerate’ environment uses the counters ‘\enumi’ through ‘\enumiv’ (see Counters). For other major LaTeX labeled list environments, see description and itemize. For information about list layout parameters, including the default values, and for information about customizing list layout, see list. The package ‘enumitem’ is useful for customizing lists. To change the format of the label use ‘\renewcommand’ (see \newcommand & \renewcommand) on the commands ‘\labelenumi’ through ‘\labelenumiv’. For instance, this first level list will be labelled with uppercase letters, in boldface, and without a trailing period. \renewcommand{\labelenumi}{\textbf{\Alph{enumi}}} \begin{enumerate} \item Shows as boldface A \item Shows as boldface B \end{enumerate} For a list of counter-labeling commands see \alph \Alph \arabic \roman \Roman \fnsymbol. 8.8 ‘eqnarray’ ============== The ‘eqnarray’ environment is obsolete. It has infelicities, including spacing that is inconsistent with other mathematics elements. (See "Avoid eqnarray!" by Lars Madsen ). New documents should include the ‘amsmath’ package and use the displayed mathematics environments provided there, such as the ‘align’ environment. We include a description only for completeness and for working with old documents. Synopsis: \begin{eqnarray} FIRST FORMULA LEFT &FIRST FORMULA MIDDLE &FIRST FORMULA RIGHT \\ ... \end{eqnarray} or \begin{eqnarray*} FIRST FORMULA LEFT &FIRST FORMULA MIDDLE &FIRST FORMULA RIGHT \\ ... \end{eqnarray*} Display a sequence of equations or inequalities. The left and right sides are typeset in display mode, while the middle is typeset in text mode. It is similar to a three-column ‘array’ environment, with items within a row separated by an ampersand (‘&’), and with rows separated by double backslash ‘\\’). The starred form of line break (‘\\*’) can also be used to separate equations, and will disallow a page break there (see \\). The unstarred form ‘eqnarray’ places an equation number on every line (using the ‘equation’ counter), unless that line contains a ‘\nonumber’ command. The starred form ‘eqnarray*’ omits equation numbering, while otherwise being the same. The command ‘\lefteqn’ is used for splitting long formulas across lines. It typesets its argument in display style flush left in a box of zero width. This example shows three lines. The first two lines make an inequality, while the third line has not entry on the left side. \begin{eqnarray*} \lefteqn{x_1+x_2+\cdots+x_n} \\ &\leq &y_1+y_2+\cdots+y_n \\ &= &z+y_3+\cdots+y_n \end{eqnarray*} 8.9 ‘equation’ ============== Synopsis: \begin{equation} MATHEMATICAL TEXT \end{equation} The same as a ‘displaymath’ environment (see displaymath) except that LaTeX puts an equation number flush to the right margin. The equation number is generated using the ‘equation’ counter. You should have no blank lines between ‘\begin{equation}’ and ‘\end{equation}’, or LaTeX will tell you that there is a missing dollar sign. The package ‘amsmath’ package has extensive displayed equation facilities. New documents should include this package. 8.10 ‘figure’ ============= Synopsis: \begin{figure}[PLACEMENT] FIGURE BODY \caption[LOFTITLE]{TITLE} % optional \label{LABEL} % optional \end{figure} or: \begin{figure*}[PLACEMENT] FIGURE BODY \caption[LOFTITLE]{TITLE} % optional \label{LABEL} % optional \end{figure*} Figures are for material that is not part of the normal text. An example is material that you cannot have split between two pages, such as a graphic. Because of this, LaTeX does not typeset figures in sequence with normal text but instead "floats" them to a convenient place, such as the top of a following page (see Floats). The FIGURE BODY can consist of imported graphics (see Graphics), or text, LaTeX commands, etc. It is typeset in a ‘parbox’ of width ‘\textwidth’. The possible values of PLACEMENT are ‘h’ for ‘here’, ‘t’ for ‘top’, ‘b’ for ‘bottom’, and ‘p’ for ‘on a separate page of floats’. For the effect of these options on the float placement algorithm, see Floats. The starred form ‘figure*’ is used when a document is in double-column mode (see \twocolumn). It produces a figure that spans both columns, at the top of the page. To add the possibility of placing at a page bottom see the discussion of PLACEMENT ‘b’ in Floats. The label is optional; it is used for cross references (see Cross references). The optional ‘\caption’ command specifies caption text for the figure (see \caption). By default it is numbered. If LOFTITLE is present, it is used in the list of figures instead of TITLE (see Table of contents etc.). This example makes a figure out of a graphic. LaTeX will place that graphic and its caption at the top of a page or, if it is pushed to the end of the document, on a page of floats. \usepackage{graphicx} % in preamble ... \begin{figure}[t] \centering \includegraphics[width=0.5\textwidth]{CTANlion.png} \caption{The CTAN lion, by Duane Bibby} \end{figure} 8.11 ‘filecontents’ =================== Synopsis: \begin{filecontents}[OPTION]{FILENAME} TEXT \end{filecontents} or \begin{filecontents*}[OPTION]{FILENAME} TEXT \end{filecontents*} Create a file named FILENAME in the current directory (or the output directory, if specified; see output directory) and write TEXT to it. By default, an existing file is not overwritten. The unstarred version of the environment ‘filecontents’ prefixes the content of the created file with a header of TeX comments; see the example below. The starred version ‘filecontents*’ does not include the header. The possible options are: ‘force’ ‘overwrite’ Overwrite an existing file. ‘noheader’ Omit the header. Equivalent to using ‘filecontents*’. ‘nosearch’ Only check the current directory (and the output directory, if specified) for an existing file, not the entire search path. These options were added in a 2019 release of LaTeX. This environment can be used anywhere in the preamble, although it often appears before the ‘\documentclass’ command. It is commonly used to create a ‘.bib’ or other such data file from the main document source, to make the source file self-contained. Similarly, it can be used to create a custom style or class file, again making the source self-contained. For example, this document: \documentclass{article} \begin{filecontents}{JH.sty} \newcommand{\myname}{Jim Hef{}feron} \end{filecontents} \usepackage{JH} \begin{document} Article by \myname. \end{document} produces this file ‘JH.sty’: %% LaTeX2e file `JH.sty' %% generated by the `filecontents' environment %% from source `test' on 2015/10/12. %% \newcommand{\myname}{Jim Hef{}feron} 8.12 ‘flushleft’ ================ Synopsis: \begin{flushleft} LINE1 \\ LINE2 \\ ... \end{flushleft} An environment that creates a paragraph whose lines are flush to the left-hand margin, and ragged right. If you have lines that are too long then LaTeX will linebreak them in a way that avoids hyphenation and stretching or shrinking interword spaces. To force a new line use a double backslash, ‘\\’. For the declaration form see \raggedright. This creates a box of text that is at most 3 inches wide, with the text flush left and ragged right. \noindent\begin{minipage}{3in} \begin{flushleft} A long sentence that will be broken by \LaTeX{} at a convenient spot. \\ And, a fresh line forced by the double backslash. \end{flushleft} \end{minipage} 8.12.1 ‘\raggedright’ --------------------- Synopses: {\raggedright ... } or \begin{ENVIRONMENT} \raggedright ... \end{ENVIRONMENT} A declaration which causes lines to be flush to the left margin and ragged right. It can be used inside an ENVIRONMENT such as ‘quote’ or in a ‘parbox’. For the environment form see flushleft. Unlike the ‘flushleft’ environment, the ‘\raggedright’ command does not start a new paragraph; it only changes how LaTeX formats paragraph units. To affect a paragraph unit's format, the scope of the declaration must contain the blank line or ‘\end’ command that ends the paragraph unit. Here ‘\raggedright’ in each second column keeps LaTeX from doing awkward typesetting to fit the text into the narrow column. Note that ‘\raggedright’ is inside the curly braces ‘{...}’ to delimit its effect. \begin{tabular}{rp{2in}} Team alpha &{\raggedright This team does all the real work.} \\ Team beta &{\raggedright This team ensures that the water cooler is never empty.} \\ \end{tabular} 8.13 ‘flushright’ ================= \begin{flushright} LINE1 \\ LINE2 \\ ... \end{flushright} An environment that creates a paragraph whose lines are flush to the right-hand margin and ragged left. If you have lines that are too long to fit the margins then LaTeX will linebreak them in a way that avoids hyphenation and stretching or shrinking inter-word spaces. To force a new line use a double backslash, ‘\\’. For the declaration form see \raggedleft. For an example related to this environment, see flushleft, where one just have mutatis mutandis to replace ‘flushleft’ by ‘flushright’. 8.13.1 ‘\raggedleft’ -------------------- Synopses: {\raggedleft ... } or \begin{ENVIRONMENT} \raggedleft ... \end{ENVIRONMENT} A declaration which causes lines to be flush to the right margin and ragged left. It can be used inside an ENVIRONMENT such as ‘quote’ or in a ‘parbox’. For the environment form see flushright. Unlike the ‘flushright’ environment, the ‘\raggedleft’ command does not start a new paragraph; it only changes how LaTeX formats paragraph units. To affect a paragraph unit's formatting, the scope of the declaration must contain the blank line or ‘\end’ command that ends the paragraph unit. See \raggedright, for an example related to this environment; just replace ‘\raggedright’ there by ‘\raggedleft’. 8.14 ‘itemize’ ============== Synopsis: \begin{itemize} \item[OPTIONAL LABEL OF FIRST ITEM] TEXT OF FIRST ITEM \item[OPTIONAL LABEL OF SECOND ITEM] TEXT OF SECOND ITEM ... \end{itemize} Produce an “unordered list”, sometimes called a bullet list. There must be at least one ‘\item’ within the environment; having none causes the LaTeX error ‘Something's wrong--perhaps a missing \item’. This gives a two-item list: \begin{itemize} \item Pencil and watercolor sketch by Cassandra \item Rice portrait \end{itemize} By default, in a top-level list each label would come out as a bullet, •. The format of the labeling depends on the nesting level; see below. Many language adaptations change list formatting, in which case this section may apply only partially or not at all. For instance, after this: \usepackage[french]{babel} % changes list formatting! the margins are smaller and the item markers are different. Start list items with the ‘\item’ command (see \item). If you give ‘\item’ an optional argument by following it with square brackets, as in ‘\item[OPTIONAL LABEL]’, then by default OPTIONAL LABEL will appear in bold and be flush right, so it could extend into the left margin. For labels that are flush left see the description environment. Following the ‘\item’ is the text of the item, which may be empty or contain multiple paragraphs. Unordered lists can be nested within one another, up to four levels deep. They can also be nested within other paragraph-making environments, such as ‘enumerate’ (see enumerate). The ‘itemize’ environment uses the commands ‘\labelitemi’ through ‘\labelitemiv’ to produce the default label (note the convention of lowercase roman numerals at the end of the command names that signify the nesting level). These are the default marks at each level. 1. • (bullet, from ‘\textbullet’) 2. - (bold en-dash, from ‘\normalfont\bfseries\textendash’) 3. * (asterisk, from ‘\textasteriskcentered’) 4. \cdot (vertically centered dot, rendered here as a period, from ‘\textperiodcentered’) Change the labels with ‘\renewcommand’. For instance, this makes the first level use diamonds. \renewcommand{\labelitemi}{$\diamond$} The distance between the left margin of the enclosing environment and the left margin of the ‘itemize’ list is determined by the parameters ‘\leftmargini’ through ‘\leftmarginvi’. (This also uses the convention of using lowercase roman numerals at the end of the command name to denote the nesting level.) The defaults are: ‘2.5em’ in level 1 (‘2em’ in two-column mode), ‘2.2em’ in level 2, ‘1.87em’ in level 3, and ‘1.7em’ in level 4, with smaller values for more deeply nested levels. The margin parameters must be overridden before the list starts. For other major LaTeX labeled list environments, see description and enumerate. The ‘itemize’, ‘enumerate’ and ‘description’ environment use the same list layout parameters. For a description, including the default values, and for information about customizing list layout, see list. The package ‘enumitem’ is useful for customizing lists. This example greatly reduces the margin space for an outermost itemized list: \setlength{\leftmargini}{1.25em} % default 2.5em \begin{itemize} \item ... \end{itemize} Especially for lists with short items, it may be desirable to elide space between items. Here is an example defining an ‘itemize*’ environment with no extra spacing between items, or between paragraphs within a single item (‘\parskip’ is not list-specific; see \parindent & \parskip): \newenvironment{itemize*}% {\begin{itemize}% \setlength{\itemsep}{0pt}% \setlength{\parsep}{0pt}% \setlength{\parskip}{0pt}% }% {\end{itemize}} 8.15 ‘letter’ environment: writing letters ========================================== This environment is used for creating letters. See Letters. 8.16 ‘list’ =========== Synopsis: \begin{list}{LABELING}{SPACING} \item[OPTIONAL LABEL OF FIRST ITEM] TEXT OF FIRST ITEM \item[OPTIONAL LABEL OF SECOND ITEM] TEXT OF SECOND ITEM ... \end{list} An environment for constructing lists. Note that this environment does not typically appear in the document body. Most lists created by LaTeX authors are the ones that come standard: the ‘description’, ‘enumerate’, and ‘itemize’ environments (see description, enumerate, and itemize). Instead, the ‘list’ environment is most often used in macros. For example, many standard LaTeX environments that do not immediately appear to be lists are in fact constructed using ‘list’, including ‘quotation’, ‘quote’, and ‘center’ (see quotation & quote, see center). This uses the ‘list’ environment to define a new custom environment. \newcounter{namedlistcounter} % number the items \newenvironment{named} {\begin{list} {Item~\Roman{namedlistcounter}.} % labeling {\usecounter{namedlistcounter} % set counter \setlength{\leftmargin}{3.5em}} % set spacing } {\end{list}} \begin{named} \item Shows as ``Item~I.'' \item[Special label.] Shows as ``Special label.'' \item Shows as ``Item~II.'' \end{named} The mandatory first argument LABELING specifies the default labeling of list items. It can contain text and LaTeX commands, as above where it contains both ‘Item’ and ‘\Roman{...}’. LaTeX forms the label by putting the LABELING argument in a box of width ‘\labelwidth’. If the label is wider than that, the additional material extends to the right. When making an instance of a ‘list’ you can override the default labeling by giving ‘\item’ an optional argument by including square braces and the text, as in the above ‘\item[Special label.]’; see \item. The mandatory second argument SPACING has a list of commands. This list can be empty. A command that can go in here is ‘\usecounter{COUNTERNAME}’ (see \usecounter). Use this to tell LaTeX to number the items using the given counter. The counter will be reset to zero each time LaTeX enters the environment, and the counter is incremented by one each time LaTeX encounters an ‘\item’ that does not have an optional argument. Another command that can go in SPACING is ‘\makelabel’, which constructs the label box. By default it puts the contents flush right. Its only argument is the label, which it typesets in LR mode (see Modes). One example of changing its definition is that to the above ‘named’ example, before the definition of the environment add ‘\newcommand{\namedmakelabel}[1]{\textsc{#1}}’, and between the ‘\setlength’ command and the parenthesis that closes the SPACING argument also add ‘\let\makelabel\namedmakelabel’. Then the labels will be typeset in small caps. Similarly, changing the second code line to ‘\let\makelabel\fbox’ puts the labels inside a framed box. Another example of the ‘\makelabel’ command is below, in the definition of the ‘redlabel’ environment. Also often in SPACING are commands to redefine the spacing for the list. Below are the spacing parameters with their default values. (Default values for derived environments such as ‘itemize’ can be different than the values shown here.) See also the figure that follows the list. Each is a length (see Lengths). The vertical spaces are normally rubber lengths, with ‘plus’ and ‘minus’ components, to give TeX flexibility in setting the page. Change each with a command such as ‘\setlength{\itemsep}{2pt plus1pt minus1pt}’. For some effects these lengths should be zero or negative. ‘\itemindent’ Extra horizontal space indentation, beyond ‘leftmargin’, of the each item's first line. Its default value is ‘0pt’. ‘\itemsep’ Vertical space between items, in addition to ‘\parsep’ and ‘\parskip’. The defaults for the first three levels in LaTeX's ‘article’, ‘book’, and ‘report’ classes at 10 point size are: ‘4pt plus2pt minus1pt’, ‘\parsep’ (that is, ‘2pt plus1pt minus1pt’), and ‘\topsep’ (that is, ‘2pt plus1pt minus1pt’). The defaults at 11 point are: ‘4.5pt plus2pt minus1pt’, ‘\parsep’ (that is, ‘2pt plus1pt minus1pt’), and ‘\topsep’ (that is, ‘2pt plus1pt minus1pt’). The defaults at 12 point are: ‘5pt plus2.5pt minus1pt’, ‘\parsep’ (that is, ‘2.5pt plus1pt minus1pt’), and ‘\topsep’ (that is, ‘2.5pt plus1pt minus1pt’). ‘\labelsep’ Horizontal space between the label and text of an item. The default for LaTeX's ‘article’, ‘book’, and ‘report’ classes is ‘0.5em’. ‘\labelwidth’ Horizontal width. The box containing the label is nominally this wide. If ‘\makelabel’ returns text that is wider than this then the first line of the item will be indented to make room for this extra material. If ‘\makelabel’ returns text of width less than or equal to ‘\labelwidth’ then LaTeX's default is that the label is typeset flush right in a box of this width. The left edge of the label box is ‘\leftmargin’+‘\itemindent’-‘\labelsep’-‘\labelwidth’ from the left margin of the enclosing environment. The default for LaTeX's ‘article’, ‘book’, and ‘report’ classes at the top level is ‘\leftmargini’-‘\labelsep’, (which is ‘2em’ in one column mode and ‘1.5em’ in two column mode). At the second level it is ‘\leftmarginii’-‘\labelsep’, and at the third level it is ‘\leftmarginiii’-‘\labelsep’. These definitions make the label's left edge coincide with the left margin of the enclosing environment. ‘\leftmargin’ Horizontal space between the left margin of the enclosing environment (or the left margin of the page if this is a top-level list), and the left margin of this list. It must be non-negative. In the standard LaTeX document classes, a top-level list has this set to the value of ‘\leftmargini’, while a list that is nested inside a top-level list has this margin set to ‘\leftmarginii’. More deeply nested lists get the values of ‘\leftmarginiii’ through ‘\leftmarginvi’. (Nesting greater than level five generates the error message ‘Too deeply nested’.) The defaults for the first three levels in LaTeX's ‘article’, ‘book’, and ‘report’ classes are: ‘\leftmargini’ is ‘2.5em’ (in two column mode, ‘2em’), ‘\leftmarginii’ is ‘2.2em’, and ‘\leftmarginiii’ is ‘1.87em’. ‘\listparindent’ Horizontal space of additional line indentation, beyond ‘\leftmargin’, for second and subsequent paragraphs within a list item. A negative value makes this an "outdent". Its default value is ‘0pt’. ‘\parsep’ Vertical space between paragraphs within an item. The defaults for the first three levels in LaTeX's ‘article’, ‘book’, and ‘report’ classes at 10 point size are: ‘4pt plus2pt minus1pt’, ‘2pt plus1pt minus1pt’, and ‘0pt’. The defaults at 11 point size are: ‘4.5pt plus2pt minus1pt’, ‘2pt plus1pt minus1pt’, and ‘0pt’. The defaults at 12 point size are: ‘5pt plus2.5pt minus1pt’, ‘2.5pt plus1pt minus1pt’, and ‘0pt’. ‘\partopsep’ Vertical space added, beyond ‘\topsep’+‘\parskip’, to the top and bottom of the entire environment if the list instance is preceded by a blank line. (A blank line in the LaTeX source before the list changes spacing at both the top and bottom of the list; whether the line following the list is blank does not matter.) The defaults for the first three levels in LaTeX's ‘article’, ‘book’, and ‘report’ classes at 10 point size are: ‘2pt plus1 minus1pt’, ‘2pt plus1pt minus1pt’, and ‘1pt plus0pt minus1pt’. The defaults at 11 point are: ‘3pt plus1pt minus1pt’, ‘3pt plus1pt minus1pt’, and ‘1pt plus0pt minus1pt’). The defaults at 12 point are: ‘3pt plus2pt minus3pt’, ‘3pt plus2pt minus2pt’, and ‘1pt plus0pt minus1pt’. ‘\rightmargin’ Horizontal space between the right margin of the list and the right margin of the enclosing environment. Its default value is ‘0pt’. It must be non-negative. ‘\topsep’ Vertical space added to both the top and bottom of the list, in addition to ‘\parskip’ (see \parindent & \parskip). The defaults for the first three levels in LaTeX's ‘article’, ‘book’, and ‘report’ classes at 10 point size are: ‘8pt plus2pt minus4pt’, ‘4pt plus2pt minus1pt’, and ‘2pt plus1pt minus1pt’. The defaults at 11 point are: ‘9pt plus3pt minus5pt’, ‘4.5pt plus2pt minus1pt’, and ‘2pt plus1pt minus1pt’. The defaults at 12 point are: ‘10pt plus4pt minus6pt’, ‘5pt plus2.5pt minus1pt’, and ‘2.5pt plus1pt minus1pt’. This shows the horizontal and vertical distances. ....................................................................... ..............Surrounding environment, preceding material.............. - | v0 |---h0--|-h1-| | ..Label.. .....First item..................................... - ............................................................ ............................................................ - | v1 ........First item, second paragraph .................. - |-h2-| | v2 | ..Label.. .....Second item.................................... - ............................................................ ............................................................ - |-h3--|-h4-| |-h5-| |v3 | ..............Surrounding environment, following material.............. - ....................................................................... The lengths shown are listed below. The key relationship is that the right edge of the bracket for H1 equals the right edge of the bracket for H4, so that the left edge of the label box is at H3+H4-(H0+H1). V0 ‘\topsep’ + ‘\parskip’ if the list environment does not start a new paragraph, and ‘\topsep’+‘\parskip’+‘\partopsep’ if it does V1 ‘\parsep’ V2 ‘\itemsep’+‘\parsep’ V3 Same as V0. (This space is affected by whether a blank line appears in the source above the environment; whether a blank line appears in the source below the environment does not matter.) H0 ‘\labelwidth’ H1 ‘\labelsep’ H2 ‘\listparindent’ H3 ‘\leftmargin’ H4 ‘\itemindent’ H5 ‘\rightmargin’ The list's left and right margins, shown above as H3 and H5, are with respect to the ones provided by the surrounding environment, or with respect to the page margins for a top-level list. The line width used for typesetting the list items is ‘\linewidth’ (see Page layout parameters). For instance, set the list's left margin to be one quarter of the distance between the left and right margins of the enclosing environment with ‘\setlength{\leftmargin}{0.25\linewidth}’. Page breaking in a list structure is controlled by the three parameters below. For each, the LaTeX default is ‘-\@lowpenalty’, that is, ‘-51’. Because it is negative, it somewhat encourages a page break at each spot. Change it with, e.g., ‘\@beginparpenalty=9999’; a value of 10000 prohibits a page break. ‘\@beginparpenalty’ The page breaking penalty for breaking before the list (default ‘-51’). ‘\@itempenalty’ The page breaking penalty for breaking before a list item (default ‘-51’). ‘\@endparpenalty’ The page breaking penalty for breaking after a list (default ‘-51’). The package ‘enumitem’ is useful for customizing lists. This example has the labels in red. They are numbered, and the left edge of the label lines up with the left edge of the item text. See \usecounter. \usepackage{color} \newcounter{cnt} \newcommand{\makeredlabel}[1]{\textcolor{red}{#1.}} \newenvironment{redlabel} {\begin{list} {\arabic{cnt}} {\usecounter{cnt} \setlength{\labelwidth}{0em} \setlength{\labelsep}{0.5em} \setlength{\leftmargin}{1.5em} \setlength{\itemindent}{0.5em} % equals \labelwidth+\labelsep \let\makelabel=\makeredlabel } } {\end{list}} 8.16.1 ‘\item’: An entry in a list ---------------------------------- Synopsis: \item text of item or \item[OPTIONAL-LABEL] text of item An entry in a list. The entries are prefixed by a label, whose default depends on the list type. Because the optional label is surrounded by square brackets ‘[...]’, if you have an item whose text starts with [, you have to hide the bracket inside curly braces, as in: ‘\item {[} is an open square bracket’; otherwise, LaTeX will think it marks the start of an optional label. Similarly, if the item does have the optional label and you need a close square bracket inside that label, you must hide it in the same way: ‘\item[Close square bracket, {]}]’. See LaTeX command syntax. In this example the enumerate list has two items that use the default label and one that uses the optional label. \begin{enumerate} \item Moe \item[sometimes] Shemp \item Larry \end{enumerate} The first item is labelled ‘1.’, the second item is labelled ‘sometimes’, and the third item is labelled ‘2.’. Because of the optional label in the second item, the third item is not labelled ‘3.’. 8.16.2 ‘trivlist’: A restricted form of ‘list’ ---------------------------------------------- Synopsis: \begin{trivlist} ... \end{trivlist} A restricted version of the list environment, in which margins are not indented and an ‘\item’ without an optional argument produces no text. It is most often used in macros, to define an environment where the ‘\item’ command is part of the environment's definition. For instance, the ‘center’ environment is defined essentially like this: \newenvironment{center} {\begin{trivlist}\centering\item\relax} {\end{trivlist}} Using ‘trivlist’ in this way allows the macro to inherit some common code: combining vertical space of two adjacent environments; detecting whether the text following the environment should be considered a new paragraph or a continuation of the previous one; adjusting the left and right margins for possible nested list environments. Specifically, ‘trivlist’ uses the current values of the list parameters (see list), except that ‘\parsep’ is set to the value of ‘\parskip’, and ‘\leftmargin’, ‘\labelwidth’, and ‘\itemindent’ are set to zero. This example outputs the items as two paragraphs, except that (by default) they have no paragraph indent and are vertically separated. \begin{trivlist} \item The \textit{Surprise} is not old; no one would call her old. \item She has a bluff bow, lovely lines. \end{trivlist} 8.17 ‘math’ =========== Synopsis: \begin{math} MATH \end{math} The ‘math’ environment inserts given MATH material within the running text. ‘\(...\)’ and ‘$...$’ are synonyms. See Math formulas. 8.18 ‘minipage’ =============== Synopses: \begin{minipage}{WIDTH} CONTENTS \end{minipage} or \begin{minipage}[POSITION][HEIGHT][INNER-POS]{WIDTH} CONTENTS \end{minipage} Put CONTENTS into a box that is WIDTH wide. This is like a small version of a page; it can contain its own footnotes, itemized lists, etc. (There are some restrictions, including that it cannot have floats.) This box will not be broken across pages. So ‘minipage’ is similar to ‘\parbox’ (see \parbox) but here you can have paragraphs. This example will be 3 inches wide, and has two paragraphs. \begin{minipage}{3in} Stephen Kleene was a founder of the Theory of Computation. He was a student of Church, wrote three influential texts, was President of the Association for Symbolic Logic, and won the National Medal of Science. \end{minipage} See below for a discussion of the paragraph indent inside a ‘minipage’. The required argument WIDTH is a rigid length (see Lengths). It gives the width of the box into which CONTENTS are typeset. There are three optional arguments, POSITION, HEIGHT, and INNER-POS. You need not include all three. For example, get the default POSITION and set the HEIGHT with ‘\begin{minipage}[c][2.54cm]{\columnwidth} CONTENTS \end{minipage}’. (Get the natural height with an empty argument, ‘[]’.) The optional argument POSITION governs how the ‘minipage’ vertically aligns with the surrounding material. ‘c’ (synonym ‘m’) Default. Positions the ‘minipage’ so its vertical center lines up with the center of the adjacent text line. ‘t’ Align the baseline of the top line in the ‘minipage’ with the baseline of the surrounding text (plain TeX's ‘\vtop’). ‘b’ Align the baseline of the bottom line in the ‘minipage’ with the baseline of the surrounding text (plain TeX's ‘\vbox’). To see the effects of these, contrast running this ---\begin{minipage}[c]{0.25in} first\\ second\\ third \end{minipage} with the results of changing ‘c’ to ‘b’ or ‘t’. The optional argument HEIGHT is a rigid length (see Lengths). It sets the height of the ‘minipage’. You can enter any value larger than, or equal to, or smaller than the ‘minipage’'s natural height and LaTeX will not give an error or warning. You can also set it to a height of zero or a negative value. The final optional argument INNER-POS controls the placement of CONTENTS inside the box. These are the possible values are (the default is the value of POSITION). ‘t’ Place CONTENTS at the top of the box. ‘c’ Place it in the vertical center. ‘b’ Place it at the box bottom. ‘s’ Stretch CONTENTS out vertically; it must contain vertically stretchable space. The INNER-POS argument makes sense when the HEIGHT option is set to a value larger than the ‘minipage’'s natural height. To see the effect of the options, run this example with the various choices in place of ‘b’. Text before \begin{center} ---\begin{minipage}[c][3in][b]{0.25\textwidth} first\\ second\\ third \end{minipage} \end{center} Text after By default paragraphs are not indented in a ‘minipage’. Change that with a command such as ‘\setlength{\parindent}{1pc}’ at the start of CONTENTS. Footnotes in a ‘minipage’ environment are handled in a way that is particularly useful for putting footnotes in figures or tables. A ‘\footnote’ or ‘\footnotetext’ command puts the footnote at the bottom of the minipage instead of at the bottom of the page, and it uses the ‘\mpfootnote’ counter instead of the ordinary ‘footnote’ counter (see Counters). This puts the footnote at the bottom of the table, not the bottom of the page. \begin{center} % center the minipage on the line \begin{minipage}{2.5in} \begin{center} % center the table inside the minipage \begin{tabular}{ll} \textsc{Monarch} &\textsc{Reign} \\ \hline Elizabeth II &63 years\footnote{to date} \\ Victoria &63 years \\ George III &59 years \end{tabular} \end{center} \end{minipage} \end{center} If you nest minipages then there is an oddness when using footnotes. Footnotes appear at the bottom of the text ended by the next ‘\end{minipage}’ which may not be their logical place. This puts a table containing data side by side with a map graphic. They are vertically centered. % siunitx to have the S column specifier, % which aligns numbers on their decimal point. \usepackage{siunitx} \newcommand*{\vcenteredhbox}[1]{\begin{tabular}{@{}c@{}}#1\end{tabular}} ... \begin{center} \vcenteredhbox{\includegraphics[width=0.3\textwidth]{nyc.png}} \hspace{0.1\textwidth} \begin{minipage}{0.5\textwidth} \begin{tabular}{r|S} % \multicolumn to remove vertical bar between column headers \multicolumn{1}{r}{Borough} & % braces to prevent siunitx from misinterpreting the % period as a decimal separator {Pop. (million)} \\ \hline The Bronx &1.5 \\ Brooklyn &2.6 \\ Manhattan &1.6 \\ Queens &2.3 \\ Staten Island &0.5 \end{tabular} \end{minipage} \end{center} 8.19 ‘picture’ ============== Synopses: \begin{picture}(WIDTH,HEIGHT) PICTURE COMMAND \end{picture} or \begin{picture}(WIDTH,HEIGHT)(XOFFSET,YOFFSET) PICTURE COMMAND \end{picture} Where there may be any number of PICTURE COMMAND's. An environment to create simple pictures containing lines, arrows, boxes, circles, and text. This environment is not obsolete, but new documents typically use much more powerful graphics creation systems, such as TikZ, PSTricks, MetaPost, or Asymptote. None of these are covered in this document; see CTAN. To start, here's an example showing the parallelogram law for adding vectors. \setlength{\unitlength}{1cm} \begin{picture}(6,6) % picture box will be 6cm wide by 6cm tall \put(0,0){\vector(2,1){4}} % for every 2 over this vector goes 1 up \put(2,1){\makebox(0,0)[l]{\ first leg}} \put(4,2){\vector(1,2){2}} \put(5,4){\makebox(0,0)[l]{\ second leg}} \put(0,0){\vector(1,1){6}} \put(3,3){\makebox(0,0)[r]{sum\ }} \end{picture} The ‘picture’ environment has one required argument, a pair of positive real numbers (WIDTH,HEIGHT). Multiply these by the value ‘\unitlength’ to get the nominal size of the output, i.e. the space that LaTeX reserves on the output page. This nominal size need not be how large the picture really is; LaTeX will draw things from the picture outside the picture's box. This environment also has an optional argument (XOFFSET,YOFFSET). It is used to shift the origin. Unlike most optional arguments, this one is not contained in square brackets. As with the required argument, it consists of a pair of two real numbers, but these may also be negative or null. Multiply these by ‘\unitlength’ to get the coordinates of the point at the lower-left corner of the picture. For example, if ‘\unitlength’ has been set to ‘1mm’, the command \begin{picture}(100,200)(10,20) produces a box of width 100 millimeters and height 200 millimeters. The picture's origin is the point (10mm,20mm) and so the lower-left corner is there, and the upper-right corner is at (110mm,220mm). When you first draw a picture you typically omit the optional argument, leaving the origin at the lower-left corner. If you then want to modify your picture by shifting everything, you can just add the appropriate optional argument. Each PICTURE COMMAND tells LaTeX where to put something by providing its position. A “position” is a pair such as ‘(2.4,-5)’ giving the x- and y-coordinates. A “coordinate” is a not a length, it is a real number (it may have a decimal point or a minus sign). It specifies a length in multiples of the unit length ‘\unitlength’, so if ‘\unitlength’ has been set to ‘1cm’, then the coordinate ‘2.54’ specifies a length of 2.54 centimeters. LaTeX's default for ‘\unitlength’ is ‘1pt’. It is a rigid length (see Lengths). Change it with the ‘\setlength’ command (see \setlength). Make this change only outside of a ‘picture’ environment. The ‘picture’ environment supports using standard arithmetic expressions as well as numbers. Coordinates are given with respect to an origin, which is by default at the lower-left corner of the picture. Note that when a position appears as an argument, as with ‘\put(1,2){...}’, it is not enclosed in braces since the parentheses serve to delimit the argument. Also, unlike in some computer graphics systems, larger y-coordinates are further up the page, for example, y = 1 is _above_ y = 0. There are four ways to put things in a picture: ‘\put’, ‘\multiput’, ‘\qbezier’, and ‘\graphpaper’. The most often used is ‘\put’. This \put(11.3,-0.3){...} places the object with its reference point at coordinates (11.3,-0.3). The reference points for various objects will be described below. The ‘\put’ command creates an “LR box” (see Modes). Anything that can go in an ‘\mbox’ (see \mbox & \makebox) can go in the text argument of the ‘\put’ command. The reference point will be the lower left corner of the box. In this picture \setlength{\unitlength}{1cm} ...\begin{picture}(1,1) \put(0,0){\line(1,0){1}} \put(0,0){\line(1,1){1}} \end{picture} the three dots are just slightly left of the point of the angle formed by the two lines. (Also, ‘\line(1,1){1}’ does not call for a line of length one; rather the line has a change in the x coordinate of 1.) The ‘\multiput’, ‘qbezier’, and ‘graphpaper’ commands are described below. You can also use this environment to place arbitrary material at an exact location. For example: \usepackage{color,graphicx} % in preamble ... \begin{center} \setlength{\unitlength}{\textwidth} \begin{picture}(1,1) % leave space, \textwidth wide and tall \put(0,0){\includegraphics[width=\textwidth]{desertedisland.jpg}} \put(0.25,0.35){\textcolor{red}{X Treasure here}} \end{picture} \end{center} The red X will be precisely a quarter of the ‘\textwidth’ from the left margin, and ‘0.35\textwidth’ up from the bottom of the picture. Another example of this usage is to put similar code in the page header to get repeat material on each of a document's pages. 8.19.1 ‘\put’ ------------- Synopsis: \put(XCOORD,YCOORD){CONTENT} Place CONTENT at the coordinate (XCOORD,YCOORD). See the discussion of coordinates and ‘\unitlength’ in picture. The CONTENT is processed in LR mode (see Modes) so it cannot contain line breaks. This includes the text into the ‘picture’. \put(4.5,2.5){Apply the \textit{unpoke} move} The reference point, the location (4.5,2.5), is the lower left of the text, at the bottom left of the ‘A’. 8.19.2 ‘\multiput’ ------------------ Synopsis: \multiput(X,Y)(DELTA_X,DELTA_Y){NUM-COPIES}{OBJ} Copy OBJ a total of NUM-COPIES times, with an increment of DELTA_X,DELTA_Y. The OBJ first appears at position (x,y), then at (x+\delta_x,y+\delta_y), and so on. This draws a simple grid with every fifth line in bold (see also \graphpaper). \begin{picture}(10,10) \linethickness{0.05mm} \multiput(0,0)(1,0){10}{\line(0,1){10}} \multiput(0,0)(0,1){10}{\line(1,0){10}} \linethickness{0.5mm} \multiput(0,0)(5,0){3}{\line(0,1){10}} \multiput(0,0)(0,5){3}{\line(1,0){10}} \end{picture} 8.19.3 ‘\qbezier’ ----------------- Synopsis: \qbezier(X1,Y1)(X2,Y2)(X3,Y3) \qbezier[NUM](X1,Y1)(X2,Y2)(X3,Y3) Draw a quadratic Bezier curve whose control points are given by the three required arguments ‘(X1,Y1)’, ‘(X2,Y2)’, and ‘(X3,Y3)’. That is, the curve runs from (X1,Y1) to (X3,Y3), is quadratic, and is such that the tangent line at (X1,Y1) passes through (X2,Y2), as does the tangent line at (X3,Y3). This draws a curve from the coordinate (1,1) to (1,0). \qbezier(1,1)(1.25,0.75)(1,0) The curve's tangent line at (1,1) contains (1.25,0.75), as does the curve's tangent line at (1,0). The optional argument NUM gives the number of calculated intermediate points. The default is to draw a smooth curve whose maximum number of points is ‘\qbeziermax’ (change this value with ‘\renewcommand’). This draws a rectangle with a wavy top, using ‘\qbezier’ for that curve. \begin{picture}(8,4) \put(0,0){\vector(1,0){8}} % x axis \put(0,0){\vector(0,1){4}} % y axis \put(2,0){\line(0,1){3}} % left side \put(4,0){\line(0,1){3.5}} % right side \qbezier(2,3)(2.5,2.9)(3,3.25) \qbezier(3,3.25)(3.5,3.6)(4,3.5) \thicklines % below here, lines are twice as thick \put(2,3){\line(4,1){2}} \put(4.5,2.5){\framebox{Trapezoidal Rule}} \end{picture} 8.19.4 ‘\graphpaper’ -------------------- Synopsis: \graphpaper(X_INIT,Y_INIT)(X_DIMEN,Y_DIMEN) \graphpaper[SPACING](X_INIT,Y_INIT)(X_DIMEN,Y_DIMEN) Draw a coordinate grid. Requires the ‘graphpap’ package. The grid's origin is ‘(X_INIT,Y_INIT)’. Grid lines come every SPACING units (the default is 10). The grid extends X_DIMEN units to the right and Y_DIMEN units up. All arguments must be positive integers. This make a grid with seven vertical lines and eleven horizontal lines. \usepackage{graphpap} % in preamble ... \begin{picture}(6,20) % in document body \graphpaper[2](0,0)(12,20) \end{picture} The lines are numbered every ten units. 8.19.5 ‘\line’ -------------- Synopsis: \line(X_RUN,Y_RISE){TRAVEL} Draw a line. It slopes such that it vertically rises Y_RISE for every horizontal X_RUN. The TRAVEL is the total horizontal change--it is not the length of the vector, it is the change in x. In the special case of vertical lines, where (X_RUN,Y_RISE)=(0,1), the TRAVEL gives the change in y. This draws a line starting at coordinates (1,3). \put(1,3){\line(2,5){4}} For every over 2, this line will go up 5. Because TRAVEL specifies that this goes over 4, it must go up 10. Thus its endpoint is (1,3)+(4,10)=(5,13). In particular, note that TRAVEL=4 is not the length of the line, it is the change in x. The arguments X_RUN and Y_RISE are integers that can be positive, negative, or zero. (If both are 0 then LaTeX treats the second as 1.) With ‘\put(X_INIT,Y_INIT){\line(X_RUN,Y_RISE){TRAVEL}}’, if X_RUN is negative then the line's ending point has a first coordinate that is less than X_INIT. If Y_RISE is negative then the line's ending point has a second coordinate that is less than Y_INIT. If TRAVEL is negative then you get ‘LaTeX Error: Bad \line or \vector argument.’ Standard LaTeX can only draw lines with a limited range of slopes because these lines are made by putting together line segments from pre-made fonts. The two numbers X_RUN and Y_RISE must have integer values from −6 through 6. Also, they must be relatively prime, so that (X_RUN,Y_RISE) can be (2,1) but not (4,2) (if you choose the latter then instead of lines you get sequences of arrowheads; the solution is to switch to the former). To get lines of arbitrary slope and plenty of other shapes in a system like ‘picture’, see the package ‘pict2e’ (). Another solution is to use a full-featured graphics system such as TikZ, PSTricks, MetaPost, or Asymptote. 8.19.6 ‘\linethickness’ ----------------------- Synopsis: \linethickness{DIM} Declares the thickness of subsequent horizontal and vertical lines in a picture to be DIM, which must be a positive length (see Lengths). It differs from ‘\thinlines’ and ‘\thicklines’ in that it does not affect the thickness of slanted lines, circles, or ovals (see \oval). 8.19.7 ‘\thinlines’ ------------------- Declaration to set the thickness of subsequent lines, circles, and ovals in a picture environment to be 0.4pt. This is the default thickness, so this command is unnecessary unless the thickness has been changed with either \linethickness or \thicklines. 8.19.8 ‘\thicklines’ -------------------- Declaration to set the thickness of subsequent lines, circles, and ovals in a picture environment to be 0.8pt. See also \linethickness and \thinlines. This command is illustrated in the Trapezoidal Rule example of \qbezier. 8.19.9 ‘\circle’ ---------------- Synopsis: \circle{DIAMETER} \circle*{DIAMETER} Produces a circle with a diameter as close as possible to the specified one. The ‘*’ form produces a filled-in circle. This draws a circle of radius 6, centered at ‘(5,7)’. \put(5,7){\circle{6}} The available radii for ‘\circle’ are, in points, the even numbers from 2 to 20, inclusive. For ‘\circle*’ they are all the integers from 1 to 15. 8.19.10 ‘\oval’ --------------- Synopsis: \oval(WIDTH,HEIGHT) \oval(WIDTH,HEIGHT)[PORTION] Produce a rectangle with rounded corners, hereinafter referred to as an “oval”. The optional argument PORTION allows you to produce only half or a quarter of the oval. For half an oval take PORTION to be one of these. ‘t’ top half ‘b’ bottom half ‘r’ right half ‘l’ left half Produce only one quarter of the oval by setting PORTION to ‘tr’, ‘br’, ‘bl’, or ‘tl’. This draws the top half of an oval that is 3 wide and 7 tall. \put(5,7){\oval(3,7)[t]} The (5,7) is the center of the entire oval, not just the center of the top half. These shapes are not ellipses. They are rectangles whose corners are made with quarter circles. These circles have a maximum radius of 20pt (see \circle for the sizes). Thus large ovals are just frames with a small amount of corner rounding. 8.19.11 ‘\shortstack’ --------------------- Synopsis: \shortstack[POSITION]{LINE 1 \\ ... } Produce a vertical stack of objects. This labels the y axis by writing the word ‘y’ above the word ‘axis’. \setlength{\unitlength}{1cm} \begin{picture}(5,2.5)(-0.75,0) \put(0,0){\vector(1,0){4}} % x axis \put(0,0){\vector(0,1){2}} % y \put(-0.2,2){\makebox(0,0)[r]{\shortstack[r]{$y$\\ axis}}} \end{picture} For a short stack, the reference point is the lower left of the stack. In the above example the ‘\makebox’ (see \mbox & \makebox) puts the stack flush right in a zero width box so in total the short stack sits slightly to the left of the y axis. The valid positions are: ‘r’ Make objects flush right ‘l’ Make objects flush left ‘c’ Center objects (default) Separate objects into lines with ‘\\’. These stacks are short in that, unlike in a ‘tabular’ or ‘array’ environment, here the rows are not spaced out to be of even baseline skips. Thus, in ‘\shortstack{X\\o\\o\\X}’ the first and last rows are taller than the middle two, and therefore the baseline skip between the two middle rows is smaller than that between the third and last row. You can adjust row heights and depths either by putting in the usual interline spacing with ‘\shortstack{X\\ \strut o\\o\\X}’ (see \strut), or explicitly, via an zero-width box ‘\shortstack{X \\ \rule{0pt}{12pt} o\\o\\X}’ or by using ‘\\’'s optional argument ‘\shortstack{X\\[2pt] o\\o\\X}’. The ‘\shortstack’ command is also available outside the ‘picture’ environment. 8.19.12 ‘\vector’ ----------------- Synopsis: \vector(X_RUN,Y_RISE){TRAVEL} Draw a line ending in an arrow. The slope of that line is: it vertically rises Y_RISE for every horizontal X_RUN. The TRAVEL is the total horizontal change--it is not the length of the vector, it is the change in x. In the special case of vertical vectors, if (X_RUN,Y_RISE)=(0,1), then TRAVEL gives the change in y. For an example see picture. For elaboration on X_RUN and Y_RISE see \line. As there, the values of X_RUN and Y_RISE are limited. For ‘\vector’ you must chooses integers between −4 and 4, inclusive. Also, the two you choose must be relatively prime. Thus, ‘\vector(2,1){4}’ is acceptable but ‘\vector(4,2){4}’ is not (if you use the latter then you get a sequence of arrowheads). 8.19.13 ‘\makebox’ (picture) ---------------------------- Synopsis: \makebox(REC-WIDTH,REC-HEIGHT){TEXT} \makebox(REC-WIDTH,REC-HEIGHT)[POSITION]{TEXT} Make a box to hold TEXT. This command fits with the ‘picture’ environment, although you can use it outside of there, because REC-WIDTH and REC-HEIGHT are numbers specifying distances in terms of the ‘\unitlength’ (see picture). This command is similar to the normal ‘\makebox’ command (see \mbox & \makebox) except here that you must specify the width and height. This command is fragile (see \protect). This makes a box of length 3.5 times ‘\unitlength’ and height 4 times ‘\unitlength’. \put(1,2){\makebox(3.5,4){...}} The optional argument ‘POSITION’ specifies where in the box the TEXT appears. The default is to center it, both horizontally and vertically. To place it somewhere else, use a string with one or two of these letters. ‘t’ Puts TEXT the top of the box. ‘b’ Put TEXT at the bottom. ‘l’ Put TEXT on the left. ‘r’ Put TEXT on the right. 8.19.14 ‘\framebox’ (picture) ----------------------------- Synopsis: \framebox(REC-WIDTH,REC-HEIGHT){TEXT} \framebox(REC-WIDTH,REC-HEIGHT)[POSITION]{TEXT} This is the same as \makebox (picture) except that it puts a frame around the outside of the box that it creates. The reference point is the bottom left corner of the frame. This command fits with the ‘picture’ environment, although you can use it outside of there, because lengths are numbers specifying the distance in terms of the ‘\unitlength’ (see picture). This command is fragile (see \protect). This example creates a frame 2.5 inches by 3 inches and puts the text in the center. \setlength{\unitlength}{1in} \framebox(2.5,3){test text} The required arguments are that the rectangle has overall width RECT-WIDTH units and height RECT-HEIGHT units. The optional argument POSITION specifies the position of TEXT; see \makebox (picture) for the values that it can take. The rule has thickness ‘\fboxrule’ and there is a blank space ‘\fboxsep’ between the frame and the contents of the box. For this command, you must specify the WIDTH and HEIGHT. If you want to just put a frame around some contents whose dimension is determined in some other way then either use ‘\fbox’ (see \fbox & \framebox) or ‘\frame’ (see \frame). 8.19.15 ‘\frame’ ---------------- Synopsis: \frame{CONTENTS} Puts a rectangular frame around CONTENTS. The reference point is the bottom left corner of the frame. In contrast to ‘\framebox’ (see \framebox (picture)), this command puts no extra space between the frame and the object. It is fragile (see \protect). 8.19.16 ‘\dashbox’ ------------------ Synopsis: \dashbox{DASH-LEN}(RECT-WIDTH,RECT-HEIGHT){TEXT} \dashbox{DASH-LEN}(RECT-WIDTH,RECT-HEIGHT)[POSITION]{TEXT} Create a dashed rectangle around TEXT. This command fits with the ‘picture’ environment, although you can use it outside of there, because lengths are numbers specifying the distance in terms of the ‘\unitlength’ (see picture). The required arguments are: dashes are DASH-LEN units long, with the same length gap, and the rectangle has overall width RECT-WIDTH units and height RECT-HEIGHT units. The optional argument POSITION specifies the position of TEXT; see \makebox (picture) for the values that it can take. This shows that you can use non-integer value for DASH-LEN. \put(0,0){\dashbox{0.1}(5,0.5){My hovercraft is full of eels.}} Each dash will be ‘0.1\unitlength’ long, the box's width is ‘5\unitlength’ and its height is ‘0.5\unitlength’. As in that example, a dashed box looks best when RECT-WIDTH and RECT-HEIGHT are multiples of the DASH-LEN. 8.20 ‘quotation’ & ‘quote’ ========================== Synopsis: \begin{quotation} TEXT \end{quotation} or \begin{quote} TEXT \end{quote} Include a quotation. Both environments indent margins on both sides by ‘\leftmargin’ (i.e., ‘\rightmargin’ is set to ‘\leftmargin’), and the text is right-justified. They differ in how they treat paragraphs: • In the ‘quotation’ environment, paragraphs are indented by 1.5em and the space between paragraphs is small, ‘0pt plus 1pt’. • In the ‘quote’ environment, paragraphs are not indented and the vertical space between paragraphs is the rubber length ‘\parsep’ (see list). Here is a quotation using the ‘quote’ environment: \begin{quote} \small\it Four score and seven years ago \ldots\ Now we are engaged \ldots But, in a larger sense, \ldots \hspace{1em plus 1fill}---Abraham Lincoln \end{quote} Because it uses ‘quote’, there will be ‘\parsep’ space between each paragraph, and the paragraphs won't be indented. If we had used ‘quotation’, each paragraph would be indented and there would be only that small amount of stretch between paragraphs. The ‘quote’ and ‘quotation’ environments are implemented as lists (see list). The ‘csquotes’ and ‘quoting’ packages provide additional functionality and parameters. 8.21 ‘tabbing’ ============== Synopsis: \begin{tabbing} ROW1-COL1 \= ROW1-COL2 ... \\ ROW2-COL1 \> ROW2-COL2 ... \\ ... \end{tabbing} Align text in columns, by setting tab stops and tabbing to them much as is done on a typewriter. This environment is less often used than the ‘tabular’ (see tabular) and ‘array’ (see array) environments, because in those the width of each column need not be known in advance. 8.21.1 ‘tabbing’ first example ------------------------------ This first example sets the tab stops to explicit widths in the first line, which is ended by a ‘\kill’ command to avoid typesetting anything (described further below): \begin{tabbing} \hspace{1.2in}\=\hspace{1in}\=\kill Ship \>Guns \>Year \\ \textit{Sophie} \>14 \>1800 \\ \textit{Polychrest} \>24 \>1803 \\ \textit{Lively} \>38 \>1804 \\ \textit{Surprise} \>28 \>1805 \\ \end{tabbing} The ‘tabbing’ environment contains a sequence of “tabbed rows”. The first tabbed row begins immediately after ‘\begin{tabbing}’ and each row ends with ‘\\’ or ‘\kill’. The last row may omit the ‘\\’ and end at the ‘\end{tabbing}’. Both the ‘tabbing’ environment and the more widely-used ‘tabular’ environment put text in columns. The most important distinction is that in ‘tabular’ the width of columns is determined automatically by LaTeX, while in ‘tabbing’ the user sets the tab stops. Another distinction is that ‘tabular’ generates a box that cannot be broken, but ‘tabbing’ can be broken across pages. Finally, while ‘tabular’ can be used in any mode, ‘tabbing’ can be used only in paragraph mode and it always starts a new paragraph, without indentation. As shown in the example above, there is no need to use the starred form of the ‘\hspace’ command (see \hspace) at the beginning of a tabbed row. The right margin of the ‘tabbing’ environment is the end of line, so that the width of the environment is ‘\linewidth’. 8.21.2 ‘tabbing’ commands ------------------------- The best overall description of the tabbing environment commands we know is in Leslie Lamport's original reference manual, section C.10.1 of ‘\LaTeX: A Document Preparation System’. A summary of the commands follows. In general, at any point the ‘tabbing’ environment has a “current tab stop pattern”: a sequence of N > 0 tab stops, numbered 0, 1, etc. Each tab stop creates a corresponding column. Tab stop 0 is always the left margin, defined by the enclosing environment. Tab stop number I is set if it is assigned a horizontal position on the page. Tab stop number I can only be set if all the stops 0, ..., i-1 have already been set; normally later stops are to the right of earlier ones. By default any text typeset in a ‘tabbing’ environment is typeset ragged right and left-aligned on the current tab stop. Typesetting is done in LR mode (see Modes). The following commands can be used inside a ‘tabbing’ environment. They are all fragile (see \protect). ‘\\ (tabbing)’ End a tabbed line and typeset it. ‘\= (tabbing)’ Set a tab stop at the current position. ‘\> (tabbing)’ Advance to the next tab stop. ‘\+ (tabbing)’ Move the left margin of the next and all the following commands one tab stop to the right, beginning a tabbed line if necessary. ‘\< (tabbing)’ Put following text to the left of the local margin (without changing the margin). Can only be used at the start of a line, and a preceding line must have used ‘\+’. ‘\- (tabbing)’ Move the left margin of the next and all following lines one tab stop to the left (undoing one ‘\+’). Does not change the current line. ‘\' (tabbing)’ Move everything in the current column so far, i.e., everything from the most recent ‘\>’, ‘\<’, ‘\'’, ‘\\’, or ‘\kill’ command, to the previous column and aligned to the right, flush against the current column's tab stop. ‘\` (tabbing)’ Move all the text following, up to the ‘\\’ or ‘\end{tabbing}’ command that ends the line, to the right margin of the ‘tabbing’ environment. There must be no ‘\>’ or ‘\'’ command between the ‘\`’ and the ‘\\’ or ‘\end{tabbing}’ command that ends the line. This allows you to put text flush right against any tab stop, including tab stop 0. However, it can't move text to the right of the last column because there's no tab stop there. ‘\a (tabbing)’ In a ‘tabbing’ environment, the commands ‘\=’, ‘\'’ and ‘\`’ do not produce accents as usual (see Accents). Instead, use the commands ‘\a=’, ‘\a'’ and ‘\a`’. ‘\kill (tabbing)’ Sets tab stops without producing text. Works just like ‘\\’ except that it throws away the current line instead of producing output for it. Any ‘\=’, ‘\+’ or ‘\-’ commands in that line remain in effect. ‘\poptabs’ Restores the tab stop positions saved by the last ‘\pushtabs’. ‘\pushtabs’ Saves all current tab stop positions. Useful for temporarily changing tab stop positions in the middle of a ‘tabbing’ environment. ‘\tabbingsep’ Distance of the text moved by ‘\'’ to left of current tab stop; its default value is ‘\labelsep’ (see list labelsep). 8.21.3 ‘tabbing’ complex examples --------------------------------- Here is a simple example using the (rather confusing) ‘\<’ command, along with ‘\+’ and ‘\-’: \begin{tabbing} \hspace{1in}\=\hspace{1in}\=\kill \+ \> A \\ % change left margin to second tab stop \< left \\ % but typeset "left" at first tab stop \- B \> C \\ % return to normal left margin on next line D \> E \\ \end{tabbing} The output looks like this (except not in typewriter): A left B C D E This last example typesets a Pascal function (in typewriter), defining new tab stops and using ‘\+’ and ‘\-’ for the different indentation levels: {\tt \frenchspacing \begin{tabbing} function \= fact(n : integer) : integer;\\ \> begin \= \+ \\ \> if \= n > 1 then \+ \\ fact := n * fact(n-1) \- \\ else \+ \\ fact := 1; \-\- \\ end;\\ \end{tabbing} } The output looks like this: function fact(n : integer) : integer; begin if n > 1 then fact := n * fact(n-1); else fact := 1; end; This example is just for illustration of the environment. To actually typeset computer code in typewriter like this, a verbatim environment (see verbatim) would normally be best. For pretty-printed (not typewriter) code, there are quite a few packages, including ‘algorithm2e’, ‘fancyvrb’, ‘listings’, and ‘minted’. 8.22 ‘table’ ============ Synopsis: \begin{table}[PLACEMENT] TABLE BODY \caption[LOFTITLE]{TITLE} % optional \label{LABEL} % also optional \end{table} A class of floats (see Floats). They cannot be split across pages and so they are not typeset in sequence with the normal text but instead are floated to a convenient place, such as the top of a following page. This example ‘table’ environment contains a ‘tabular’ \begin{table} \centering\small \begin{tabular}{ll} \multicolumn{1}{c}{\textit{Author}} &\multicolumn{1}{c}{\textit{Piece}} \\ \hline Bach &Cello Suite Number 1 \\ Beethoven &Cello Sonata Number 3 \\ Brahms &Cello Sonata Number 1 \end{tabular} \caption{Top cello pieces} \label{tab:cello} \end{table} but you can put many different kinds of content in a ‘table’: the TABLE BODY may contain text, LaTeX commands, graphics, etc. It is typeset in a ‘parbox’ of width ‘\textwidth’. For the possible values of PLACEMENT and their effect on the float placement algorithm, see Floats. The label is optional; it is used for cross references (see Cross references). The ‘\caption’ command is also optional. It specifies caption text TITLE for the table (see \caption). By default it is numbered. If its optional LOTTITLE is present then that text is used in the list of tables instead of TITLE (see Table of contents etc.). In this example the table and caption will float to the bottom of a page, unless it is pushed to a float page at the end. \begin{table}[b] \centering \begin{tabular}{r|p{2in}} \hline One &The loneliest number \\ Two &Can be as sad as one. It's the loneliest number since the number one. \end{tabular} \caption{Cardinal virtues} \label{tab:CardinalVirtues} \end{table} 8.23 ‘tabular’ ============== Synopsis: \begin{tabular}[POS]{COLS} COLUMN 1 ENTRY &COLUMN 2 ENTRY ... &COLUMN N ENTRY \\ ... \end{tabular} or \begin{tabular*}{WIDTH}[POS]{COLS} COLUMN 1 ENTRY &COLUMN 2 ENTRY ... &COLUMN N ENTRY \\ ... \end{tabular*} Produce a table, a box consisting of a sequence of horizontal rows. Each row consists of items that are aligned vertically in columns. This illustrates many of the features. \begin{tabular}{l|l} \textit{Player name} &\textit{Career home runs} \\ \hline Hank Aaron &755 \\ Babe Ruth &714 \end{tabular} The output will have two left-aligned columns with a vertical bar between them. This is specified in ‘tabular’'s argument ‘{l|l}’. Put the entries into different columns by separating them with an ampersand, ‘&’. The end of each row is marked with a double backslash, ‘\\’. Put a horizontal rule below a row, after a double backslash, with ‘\hline’. After the last row the ‘\\’ is optional, unless an ‘\hline’ command follows to put a rule below the table. The required and optional arguments to ‘tabular’ consist of: POS Optional. Specifies the table's vertical position. The default is to align the table so its vertical center matches the baseline of the surrounding text. There are two other possible alignments: ‘t’ aligns the table so its top row matches the baseline of the surrounding text, and ‘b’ aligns on the bottom row. This only has an effect if there is other text. In the common case of a ‘tabular’ alone in a ‘center’ environment this option makes no difference. COLS Required. Specifies the formatting of columns. It consists of a sequence of the following specifiers, corresponding to the types of column and intercolumn material. ‘l’ A column of left-aligned items. ‘r’ A column of right-aligned items. ‘c’ A column of centered items. ‘|’ A vertical line the full height and depth of the environment. ‘@{TEXT OR SPACE}’ Insert TEXT OR SPACE at this location in every row. The TEXT OR SPACE material is typeset in LR mode. This text is fragile (see \protect). If between two column specifiers there is no @-expression then LaTeX's ‘book’, ‘article’, and ‘report’ classes will put on either side of each column a space of width ‘\tabcolsep’, which by default is 6pt. That is, by default adjacent columns are separated by 12pt (so ‘\tabcolsep’ is misleadingly named since it is only half of the separation between tabular columns). In addition, a space of ‘\tabcolsep’ also comes before the first column and after the final column, unless you put a ‘@{...}’ there. If you override the default and use an @-expression then LaTeX does not insert ‘\tabcolsep’ so you must insert any desired space yourself, as in ‘@{\hspace{1em}}’. An empty expression ‘@{}’ will eliminate the space. In particular, sometimes you want to eliminate the space before the first column or after the last one, as in the example below where the tabular lines need to lie on the left margin. \begin{flushleft} \begin{tabular}{@{}l} ... \end{tabular} \end{flushleft} The next example shows text, a decimal point between the columns, arranged so the numbers in the table are aligned on it. \begin{tabular}{r@{$.$}l} $3$ &$14$ \\ $9$ &$80665$ \end{tabular} An ‘\extracolsep{WD}’ command in an @-expression causes an extra space of width WD to appear to the left of all subsequent columns, until countermanded by another ‘\extracolsep’. Unlike ordinary intercolumn space, this extra space is not suppressed by an @-expression. An ‘\extracolsep’ command can be used only in an @-expression in the ‘cols’ argument. Below, LaTeX inserts the right amount of intercolumn space to make the entire table 4 inches wide. \begin{tabular*}{4in}{l@{\extracolsep{\fill}}l} Seven times down, eight times up \ldots &such is life! \end{tabular*} To insert commands that are automatically executed before a given column, load the ‘array’ package and use the ‘>{...}’ specifier. ‘p{WD}’ Each item in the column is typeset in a parbox of width WD, as if it were the argument of a ‘\parbox[t]{wd}{...}’ command. A line break double backslash ‘\\’ may not appear in the item, except inside an environment like ‘minipage’, ‘array’, or ‘tabular’, or inside an explicit ‘\parbox’, or in the scope of a ‘\centering’, ‘\raggedright’, or ‘\raggedleft’ declaration (when used in a ‘p’-column element these declarations must appear inside braces, as with ‘{\centering .. \\ ..}’). Otherwise LaTeX will misinterpret the double backslash as ending the tabular row. Instead, to get a line break in there use ‘\newline’ (see \newline). ‘*{NUM}{COLS}’ Equivalent to NUM copies of COLS, where NUM is a positive integer and COLS is a list of specifiers. Thus the specifier ‘\begin{tabular}{|*{3}{l|r}|}’ is equivalent to the specifier ‘\begin{tabular}{|l|rl|rl|r|}’. Note that COLS may contain another ‘*’-expression. WIDTH Required for ‘tabular*’, not allowed for ‘tabular’. Specifies the width of the ‘tabular*’ environment. The space between columns should be rubber, as with ‘@{\extracolsep{\fill}}’, to allow the table to stretch or shrink to make the specified width, or else you are likely to get the ‘Underfull \hbox (badness 10000) in alignment ...’ warning. Parameters that control formatting: ‘\arrayrulewidth’ A length that is the thickness of the rule created by ‘|’, ‘\hline’, and ‘\vline’ in the ‘tabular’ and ‘array’ environments. The default is ‘.4pt’. Change it as in ‘\setlength{\arrayrulewidth}{0.8pt}’. ‘\arraystretch’ A factor by which the spacing between rows in the ‘tabular’ and ‘array’ environments is multiplied. The default is ‘1’, for no scaling. Change it as ‘\renewcommand{\arraystretch}{1.2}’. ‘\doublerulesep’ A length that is the distance between the vertical rules produced by the ‘||’ specifier. The default is ‘2pt’. ‘\tabcolsep’ A length that is half of the space between columns. The default is ‘6pt’. Change it with ‘\setlength’. The following commands can be used inside the body of a ‘tabular’ environment, the first two inside an entry and the second two between lines: 8.23.1 ‘\multicolumn’ --------------------- Synopsis: \multicolumn{NUMCOLS}{COLS}{TEXT} Make an ‘array’ or ‘tabular’ entry that spans several columns. The first argument NUMCOLS gives the number of columns to span. The second argument COLS specifies the formatting of the entry, with ‘c’ for centered, ‘l’ for flush left, or ‘r’ for flush right. The third argument TEXT gives the contents of that entry. In this example, in the first row, the second and third columns are spanned by the single heading ‘Name’. \begin{tabular}{lccl} \textit{ID} &\multicolumn{2}{c}{\textit{Name}} &\textit{Age} \\ \hline 978-0-393-03701-2 &O'Brian &Patrick &55 \\ ... \end{tabular} What counts as a column is: the column format specifier for the ‘array’ or ‘tabular’ environment is broken into parts, where each part (except the first) begins with ‘l’, ‘c’, ‘r’, or ‘p’. So from ‘\begin{tabular}{|r|ccp{1.5in}|}’ the parts are ‘|r|’, ‘c’, ‘c’, and ‘p{1.5in}|’. The COLS argument overrides the ‘array’ or ‘tabular’ environment's intercolumn area default adjoining this multicolumn entry. To affect that area, this argument can contain vertical bars ‘|’ indicating the placement of vertical rules, and ‘@{...}’ expressions. Thus if COLS is ‘|c|’ then this multicolumn entry will be centered and a vertical rule will come in the intercolumn area before it and after it. This table details the exact behavior. \begin{tabular}{|cc|c|c|} \multicolumn{1}{r}{w} % entry one &\multicolumn{1}{|r|}{x} % entry two &\multicolumn{1}{|r}{y} % entry three &z % entry four \end{tabular} Before the first entry the output will not have a vertical rule because the ‘\multicolumn’ has the COLS specifier ‘r’ with no initial vertical bar. Between entry one and entry two there will be a vertical rule; although the first COLS does not have an ending vertical bar, the second COLS does have a starting one. Between entry two and entry three there is a single vertical rule; despite that the COLS in both of the surrounding ‘multicolumn’'s call for a vertical rule, you only get one rule. Between entry three and entry four there is no vertical rule; the default calls for one but the COLS in the entry three ‘\multicolumn’ leaves it out, and that takes precedence. Finally, following entry four there is a vertical rule because of the default. The number of spanned columns NUMCOLS can be 1. Besides giving the ability to change the horizontal alignment, this also is useful to override for one row the ‘tabular’ definition's default intercolumn area specification, including the placement of vertical rules. In the example below, in the ‘tabular’ definition the first column is specified to default to left justified but in the first row the entry is centered with ‘\multicolumn{1}{c}{\textsc{Period}}’. Also in the first row, the second and third columns are spanned by a single entry with ‘\multicolumn{2}{c}{\textsc{Span}}’, overriding the specification to center those two columns on the page range en-dash. \begin{tabular}{l|r@{--}l} \multicolumn{1}{c}{\textsc{Period}} &\multicolumn{2}{c}{\textsc{Span}} \\ \hline Baroque &1600 &1760 \\ Classical &1730 &1820 \\ Romantic &1780 &1910 \\ Impressionistic &1875 &1925 \end{tabular} Although the ‘tabular’ specification by default puts a vertical rule between the first and second columns, no such vertical rule appears in the first row here. That's because there is no vertical bar in the COLS part of the first row's first ‘\multicolumn’ command. 8.23.2 ‘\vline’ --------------- Draw a vertical line in a ‘tabular’ or ‘array’ environment extending the full height and depth of an entry's row. Can also be used in an @-expression, although its synonym vertical bar ‘|’ is more common. This command is rarely used in the body of a table; typically a table's vertical lines are specified in ‘tabular’'s COLS argument and overridden as needed with ‘\multicolumn’ (see tabular). The example below illustrates some pitfalls. In the first row's second entry the ‘\hfill’ moves the ‘\vline’ to the left edge of the cell. But that is different than putting it halfway between the two columns, so between the first and second columns there are two vertical rules, with the one from the ‘{c|cc}’ specifier coming before the one produced by the ‘\vline\hfill’. In contrast, the first row's third entry shows the usual way to put a vertical bar between two columns. In the second row, the ‘ghi’ is the widest entry in its column so in the ‘\vline\hfill’ the ‘\hfill’ has no effect and the vertical line in that entry appears immediately next to the ‘g’, with no whitespace. \begin{tabular}{c|cc} x &\vline\hfill y &\multicolumn{1}{|r}{z} \\ % row 1 abc &def &\vline\hfill ghi % row 2 \end{tabular} 8.23.3 ‘\cline’ --------------- Synopsis: \cline{I-J} In an ‘array’ or ‘tabular’ environment, draw a horizontal rule beginning in column I and ending in column J. The dash, ‘-’, must appear in the mandatory argument. To span a single column use the number twice, as with ‘\cline{2-2}’. This example puts two horizontal lines between the first and second rows, one line in the first column only, and the other spanning the third and fourth columns. The two lines are side-by-side, at the same height. \begin{tabular}{llrr} a &b &c &d \\ \cline{1-1} \cline{3-4} e &f &g &h \end{tabular} 8.23.4 ‘\hline’ --------------- Draw a horizontal line the width of the enclosing ‘tabular’ or ‘array’ environment. It's most commonly used to draw a line at the top, bottom, and between the rows of a table. In this example the top of the table has two horizontal rules, one above the other, that span both columns. The bottom of the table has a single rule spanning both columns. Because of the ‘\hline’, the ‘tabular’ second row's line ending double backslash ‘\\’ is required. \begin{tabular}{ll} \hline\hline Baseball &Red Sox \\ Basketball &Celtics \\ \hline \end{tabular} 8.24 ‘thebibliography’ ====================== Synopsis: \begin{thebibliography}{WIDEST-LABEL} \bibitem[LABEL]{CITE_KEY} ... \end{thebibliography} Produce a bibliography or reference list. There are two ways to produce bibliographic lists. This environment is suitable when you have only a few references and can maintain the list by hand. See Using BibTeX, for a more sophisticated approach. This shows the environment with two entries. This work is based on \cite{latexdps}. Together they are \cite{latexdps, texbook}. ... \begin{thebibliography}{9} \bibitem{latexdps} Leslie Lamport. \textit{\LaTeX{}: a document preparation system}. Addison-Wesley, Reading, Massachusetts, 1993. \bibitem{texbook} Donald Ervin Knuth. \textit{The \TeX book}. Addison-Wesley, Reading, Massachusetts, 1983. \end{thebibliography} This styles the first reference as ‘[1] Leslie ...’, and so that ‘... based on \cite{latexdps}’ produces the matching ‘... based on [1]’. The second ‘\cite’ produces ‘[1, 2]’. You must compile the document twice to resolve these references. The mandatory argument WIDEST-LABEL is text that, when typeset, is as wide as the widest item label produced by the ‘\bibitem’ commands. The tradition is to use ‘9’ for bibliographies with less than 10 references, ‘99’ for ones with less than 100, etc. The bibliographic list is headed by a title such as ‘Bibliography’. To change it there are two cases. In the ‘book’ and ‘report’ classes, where the top level sectioning is ‘\chapter’ and the default title is ‘Bibliography’, that title is in the macro ‘\bibname’. For ‘article’, where the class's top level sectioning is ‘\section’ and the default is ‘References’, the title is in macro ‘\refname’. Change it by redefining the command, as with ‘\renewcommand{\refname}{Cited references}’, after ‘\begin{document}’. Language support packages such as ‘babel’ will automatically redefine ‘\refname’ or ‘\bibname’ to fit the selected language. See list, for the list layout control parameters. 8.24.1 ‘\bibitem’ ----------------- Synopsis: \bibitem{CITE_KEY} or \bibitem[LABEL]{CITE_KEY} Generate an entry labeled by default by a number generated using the ‘enumi’ counter. The “citation key” CITE_KEY can be any string of letters, numbers, and punctuation symbols (but not comma). See thebibliography, for an example. When provided, the optional LABEL becomes the entry label and the ‘enumi’ counter is not incremented. With this \begin{thebibliography} \bibitem[Lamport 1993]{latexdps} Leslie Lamport. \textit{\LaTeX{}: a document preparation system}. Addison-Wesley, Reading, Massachusetts, 1993. \bibitem{texbook} Donald Ervin Knuth. \textit{The \TeX book}. Addison-Wesley, Reading, Massachusetts, 1983. \end{thebibliography} the first entry will be styled as ‘[Lamport 1993] Leslie ...’ (The amount of horizontal space that LaTeX leaves for the label depends on the WIDEST-LABEL argument of the ‘thebibliography’ environment; see thebibliography.) Similarly, ‘... based on \cite{latexdps}’ will produce ‘... based on [Lamport 1994]’. If you mix ‘\bibitem’ entries having a LABEL with those that do not then LaTeX will number the unlabelled ones sequentially. In the example above the ‘texbook’ entry will appear as ‘[1] Donald ...’, despite that it is the second entry. If you use the same CITE_KEY twice then you get ‘LaTeX Warning: There were multiply-defined labels’. Under the hood, LaTeX remembers the CITE_KEY and LABEL information because ‘\bibitem’ writes it to the auxiliary file ‘JOBNAME.aux’ (see Jobname). For instance, the above example causes the two ‘\bibcite{latexdps}{Lamport, 1993}’ and ‘\bibcite{texbook}{1}’ to appear in that file. The ‘.aux’ file is read by the ‘\begin{document}’ command and then the information is available for ‘\cite’ commands. This explains why you need to run LaTeX twice to resolve references: once to write it out and once to read it in. Because of this two-pass algorithm, when you add a ‘\bibitem’ or change its CITE_KEY you may get ‘LaTeX Warning: Label(s) may have changed. Rerun to get cross-references right’. Fix it by recompiling. 8.24.2 ‘\cite’ -------------- Synopsis: \cite{KEYS} or \cite[SUBCITE]{KEYS} Generate as output a citation to the references associated with KEYS. The mandatory KEYS is a citation key, or a comma-separated list of citation keys (see \bibitem). This The ultimate source is \cite{texbook}. ... \begin{thebibliography} \bibitem{texbook} Donald Ervin Knuth. \textit{The \TeX book}. Addison-Wesley, Reading, Massachusetts, 1983. \end{thebibliography} produces output like ‘... source is [1]’. You can change the appearance of the citation and of the reference by using bibliography styles if you generate automatically the ‘thebibliography’ environment. More information in Using BibTeX. The optional argument SUBCITE is appended to the citation. For example, ‘See 14.3 in \cite[p.~314]{texbook}’ might produce ‘See 14.3 in [1, p. 314]’. In addition to what appears in the output, ‘\cite’ writes information to the auxiliary file ‘JOBNAME.aux’ (see Jobname). For instance, ‘\cite{latexdps}’ writes ‘\citation{latexdps}’ to that file. This information is used by BibTeX to include in your reference list only those works that you have actually cited; see \nocite also. If KEYS is not in your bibliography information then you get ‘LaTeX Warning: There were undefined references’, and in the output the citation shows as a boldface question mark between square brackets. There are two possible causes. If you have mistyped something, as in ‘\cite{texbok}’ then you need to correct the spelling. On the other hand, if you have just added or modified the bibliographic information and so changed the ‘.aux’ file (see \bibitem) then the fix may be to run LaTeX again. 8.24.3 ‘\nocite’ ---------------- Synopsis: \nocite{KEYS} Produces no output but writes KEYS to the auxiliary file ‘JOBNAME.aux’ (see Jobname). The mandatory argument KEYS is a comma-separated list of one or more citation keys (see \bibitem). This information is used by BibTeX to include these works in your reference list even though you have not explicitly cited them (see \cite). 8.24.4 Using BibTeX ------------------- As described in ‘thebibliography’ (see thebibliography), a sophisticated approach to managing bibliographies is provided by the BibTeX program. This is only an introduction; see the full documentation on CTAN (see CTAN). With BibTeX, you don't use the ‘thebibliography’ environment directly (see thebibliography). Instead, include these lines: \bibliographystyle{BIBSTYLE} \bibliography{BIBFILE1, BIBFILE2, ...} The BIBSTYLE refers to a file ‘BIBSTYLE.bst’, which defines how your citations will look. The standard BIBSTYLE's distributed with BibTeX are: ‘alpha’ Labels are formed from name of author and year of publication. The bibliographic items are sorted alphabetically. ‘plain’ Labels are integers. Sort the bibliographic items alphabetically. ‘unsrt’ Like ‘plain’, but entries are in order of citation. ‘abbrv’ Like ‘plain’, but more compact labels. Many, many other BibTeX style files exist, tailored to the demands of various publications. See the CTAN topic . The ‘\bibliography’ command is what actually produces the bibliography. Its argument is a comma-separated list, referring to files named ‘BIBFILE1.bib’, ‘BIBFILE2.bib’, ... These contain your database in BibTeX format. This shows a typical couple of entries in that format. @book{texbook, title = {The {{\TeX}}book}, author = {D.E. Knuth}, isbn = {0201134489}, series = {Computers \& typesetting}, year = {1983}, publisher = {Addison-Wesley} } @book{sexbook, author = {W.H. Masters and V.E. Johnson}, title = {Human Sexual Response}, year = {1966}, publisher = {Bantam Books} } Only the bibliographic entries referred to via ‘\cite’ and ‘\nocite’ will be listed in the document's bibliography. Thus you can keep all your sources together in one file, or a small number of files, and rely on BibTeX to include in this document only those that you used. With BibTeX, the KEYS argument to ‘\nocite’ can also be the single character ‘*’. This means to implicitly cite all entries from all given bibliographies. 8.24.4.1 BibTeX error messages .............................. If you forget to use ‘\bibliography’ or ‘\bibliographystyle’ in your document (or, less likely, any ‘\cite’ or ‘\nocite’ command), BibTeX will issue an error message. Because BibTeX can be used with any program, not just LaTeX, the error messages refer to the internal commands read by BibTeX (from the ‘.aux’ file), rather than the user-level commands described above. Here is a table showing internal commands mentioned in the BibTeX errors, and the corresponding user-level commands. ‘\bibdata’ ‘\bibliography’ ‘\bibstyle’ ‘\bibliographystyle’ ‘\citation’ ‘\cite’, ‘\nocite’ For example, if your document has no ‘\bibliographystyle’ command, BibTeX complains as follows: I found no \bibstyle command---while reading file DOCUMENT.aux 8.25 ‘theorem’ ============== Synopsis: \begin{theorem} THEOREM BODY \end{theorem} Produces ‘Theorem N’ in boldface followed by THEOREM BODY in italics. The numbering possibilities for N are described under ‘\newtheorem’ (see \newtheorem). \newtheorem{lem}{Lemma} % in preamble \newtheorem{thm}{Theorem} ... \begin{lem} % in document body text of lemma \end{lem} The next result follows immediately. \begin{thm}[Gauss] % put `Gauss' in parens after theorem head text of theorem \end{thm} Most new documents use the packages ‘amsthm’ and ‘amsmath’ from the American Mathematical Society. Among other things these packages include a large number of options for theorem environments, such as styling options. 8.26 ‘titlepage’ ================ Synopsis: \begin{titlepage} ... text and spacing ... \end{titlepage} Create a title page, a page with no printed page number or heading and with succeeding pages numbered starting with page one. In this example all formatting, including vertical spacing, is left to the author. \begin{titlepage} \vspace*{\stretch{1}} \begin{center} {\huge\bfseries Thesis \\[1ex] title} \\[6.5ex] {\large\bfseries Author name} \\ \vspace{4ex} Thesis submitted to \\[5pt] \textit{University name} \\[2cm] in partial fulfilment for the award of the degree of \\[2cm] \textsc{\Large Doctor of Philosophy} \\[2ex] \textsc{\large Mathematics} \\[12ex] \vfill Department of Mathematics \\ Address \\ \vfill \today \end{center} \vspace{\stretch{2}} \end{titlepage} To instead produce a standard title page without a ‘titlepage’ environment, use ‘\maketitle’ (see \maketitle). 8.27 ‘verbatim’ =============== Synopsis: \begin{verbatim} LITERAL-TEXT \end{verbatim} A paragraph-making environment in which LaTeX produces as output exactly what you type as input. For instance inside LITERAL-TEXT the backslash ‘\’ character does not start commands, it produces a printed ‘\’, and carriage returns and blanks are taken literally. The output appears in a monospaced typewriter-like font (‘\tt’). \begin{verbatim} Symbol swearing: %&$#?!. \end{verbatim} The only restriction on ‘literal-text’ is that it cannot include the string ‘\end{verbatim}’. You cannot use the verbatim environment in the argument to macros, for instance in the argument to a ‘\section’. This is not the same as commands being fragile (see \protect), instead it just cannot work, as the ‘verbatim’ environment changes the catcode regime before processing its contents, and restore it immediately afterward, nevertheless with a macro argument the content of the argument has already be converted to a token list along the catcode regime in effect when the macro was called. However, the ‘cprotect’ package can help with this. One common use of verbatim input is to typeset computer code. Some packages offer many features not provided by the ‘verbatim’ environment; two of the most popular are ‘listings’ and ‘minted’. For example, they are capable of pretty-printing, line numbering, and selecting parts of files for a continuing listing. A package that provides many more options for verbatim environments is ‘fancyvrb’. Another is ‘verbatimbox’. For a list of all the relevant packages, see CTAN (see CTAN), particularly the topics ‘listing’ () and ‘verbatim’ (). 8.27.1 ‘\verb’ -------------- Synopsis: \verb CHAR LITERAL-TEXT CHAR \verb* CHAR LITERAL-TEXT CHAR Typeset LITERAL-TEXT as it is input, including special characters and spaces, using the typewriter (‘\tt’) font. This example shows two different invocations of ‘\verb’. This is \verb!literally! the biggest pumpkin ever. And this is the best squash, \verb+literally!+ The first ‘\verb’ has its LITERAL-TEXT surrounded with exclamation point, ‘!’. The second instead uses plus, ‘+’, because the exclamation point is part of ‘literal-text’. The single-character delimiter CHAR surrounds LITERAL-TEXT--it must be the same character before and after. No spaces come between ‘\verb’ or ‘\verb*’ and CHAR, or between CHAR and LITERAL-TEXT, or between LITERAL-TEXT and the second occurrence of CHAR (the synopsis shows a space only to distinguish one component from the other). The delimiter must not appear in LITERAL-TEXT. The LITERAL-TEXT cannot include a line break. The ‘*’-form differs only in that spaces are printed with a visible space character. The output from this will include a visible space on both side of word ‘with’: The command's first argument is \verb*!filename with extension! and ... For typesetting Internet addresses, urls, the package ‘url’ is a better option than the ‘\verb’ command, since it allows line breaks. You cannot use ‘\verb’ in the argument to a macro, for instance in the argument to a ‘\section’. It is not a question of ‘\verb’ being fragile (see \protect), instead it just cannot work, as the ‘\verb’ command changes the catcode regime before reading its argument, and restore it immediately afterward, nevertheless with a macro argument the content of the argument has already be converted to a token list along the catcode regime in effect when the macro was called. However, the ‘cprotect’ package can help with this. 8.28 ‘verse’ ============ Synopsis: \begin{verse} LINE1 \\ LINE2 \\ ... \end{verse} An environment for poetry. Here are two lines from Shakespeare's Romeo and Juliet. Then plainly know my heart's dear love is set \\ On the fair daughter of rich Capulet. Separate the lines of each stanza with ‘\\’, and use one or more blank lines to separate the stanzas. \begin{verse} \makebox[\linewidth][c]{\textit{Shut Not Your Doors} ---Walt Whitman} \\[1\baselineskip] Shut not your doors to me proud libraries, \\ For that which was lacking on all your well-fill'd shelves, \\ \qquad yet needed most, I bring, \\ Forth from the war emerging, a book I have made, \\ The words of my book nothing, the drift of it every thing, \\ A book separate, not link'd with the rest nor felt by the intellect, \\ But you ye untold latencies will thrill to every page. \end{verse} The output has margins indented on the left and the right, paragraphs are not indented, and the text is not right-justified. 9 Line breaking *************** The first thing LaTeX does when processing ordinary text is to translate your input file into a sequence of glyphs and spaces. To produce a printed document, this sequence must be broken into lines (and these lines must be broken into pages). LaTeX usually does the line (and page) breaking in the text body for you but in some environments you manually force line breaks. A common workflow is to get a final version of the document content before taking a final pass through and considering line breaks (and page breaks). This differs from word processing, where you are formatting text as you input it. Putting these off until the end prevents a lot of fiddling with breaks that will change anyway. 9.1 ‘\\’ ======== Synopsis, one of: \\ \\[MORESPACE] or one of: \\* \\*[MORESPACE] End the current line. The optional argument MORESPACE specifies extra vertical space to be inserted before the next line. This is a rubber length (see Lengths) and can be negative. The text before the line break is set at its normal length, that is, it is not stretched to fill out the line width. This command is fragile (see \protect). \title{My story: \\[0.25in] a tale of woe} The starred form, ‘\\*’, tells LaTeX not to start a new page between the two lines, by issuing a ‘\nobreak’. Explicit line breaks in the main text body are unusual in LaTeX. In particular, don't start new paragraphs with ‘\\’. Instead leave a blank line between the two paragraphs. And don't put in a sequence of ‘\\’'s to make vertical space. Instead use ‘\vspace{LENGTH}’, or ‘\leavevmode\vspace{LENGTH}’, or ‘\vspace*{LENGTH}’ if you want the space to not be thrown out at the top of a new page (see \vspace). The ‘\\’ command is mostly used outside of the main flow of text such as in a ‘tabular’ or ‘array’ environment or in an equation environment. The ‘\\’ command is a synonym for ‘\newline’ (see \newline) under ordinary circumstances (an example of an exception is the ‘p{...}’ column in a ‘tabular’ environment; see tabular). The ‘\\’ command is a macro, and its definition changes by context so that its definition in normal text, a ‘center’ environment, a ‘flushleft’ environment, and a ‘tabular’ are all different. In normal text when it forces a linebreak it is essentially a shorthand for ‘\newline’. It does not end horizontal mode or end the paragraph, it just inserts some glue and penalties so that when the paragraph does end a linebreak will occur at that point, with the short line padded with white space. You get ‘LaTeX Error: There's no line here to end’ if you use ‘\\’ to ask for a new line, rather than to end the current line. An example is if you have ‘\begin{document}\\’ or, more likely, something like this. \begin{center} \begin{minipage}{0.5\textwidth} \\ In that vertical space put your mark. \end{minipage} \end{center} Fix it by replacing the double backslash with something like ‘\vspace{\baselineskip}’. 9.2 ‘\obeycr’ & ‘\restorecr’ ============================ The ‘\obeycr’ command makes a return in the input file (‘^^M’, internally) the same as ‘\\’, followed by ‘\relax’. So each new line in the input will also be a new line in the output. The ‘\restorecr’ command restores normal line-breaking behavior. This is not the way to show verbatim text or computer code. Use ‘verbatim’ (see verbatim) instead. With LaTeX's usual defaults, this aaa bbb \obeycr ccc ddd eee \restorecr fff ggg hhh iii produces output like this. aaa bbb ccc ddd eee fff ggg hhh iii The indents are paragraph indents. 9.3 ‘\newline’ ============== In ordinary text, this ends a line in a way that does not right-justify it, so the text before the end of line is not stretched. That is, in paragraph mode (see Modes), the ‘\newline’ command is equivalent to double-backslash (see \\). This command is fragile (see \protect). However, the two commands are different inside a ‘tabular’ or ‘array’ environment. In a column with a specifier producing a paragraph box such as typically ‘p{...}’, ‘\newline’ will insert a line end inside of the column; that is, it does not break the entire tabular row. To break the entire row use ‘\\’ or its equivalent ‘\tabularnewline’. This will print ‘Name:’ and ‘Address:’ as two lines in a single cell of the table. \begin{tabular}{p{1in}@{\hspace{2in}}p{1in}} Name: \newline Address: &Date: \\ \hline \end{tabular} The ‘Date:’ will be baseline-aligned with ‘Name:’. 9.4 ‘\-’ (discretionary hyphen) =============================== Tell LaTeX that it may hyphenate the word at the given point. When you insert ‘\-’ commands in a word, the word will only be hyphenated at those points and not at any of the other hyphenation points that LaTeX might otherwise have chosen. This command is robust (see \protect). LaTeX is good at hyphenating and usually finds most of the correct hyphenation points, while almost never using an incorrect one. The ‘\-’ command is for exceptional cases. For example, LaTeX does not ordinarily hyphenate words containing a hyphen. Below, the long and hyphenated word means LaTeX has to put in unacceptably large spaces to set the narrow column. \begin{tabular}{rp{1.75in}} Isaac Asimov &The strain of anti-intellectualism % an\-ti-in\-tel\-lec\-tu\-al\-ism has been a constant thread winding its way through our political and cultural life, nurtured by the false notion that democracy means that `my ignorance is just as good as your knowledge'. \end{tabular} Commenting out the third line and uncommenting the fourth makes a much better fit. The ‘\-’ command only allows LaTeX to break there, it does not require that it break there. You can force a split with something like ‘Hef-\linebreak feron’. Of course, if you later change the text then this forced break may look out of place, so this approach requires care. 9.5 ‘\slash’: breakable ‘/’ =========================== The ‘\slash’ command produces a ‘/’ character and then a penalty of the same value as an explicit ‘-’ character (‘\exhyphenpenalty’). This allows TeX to break a line at the ‘/’, similar to a hyphen. Hyphenation is allowed in the word part preceding the ‘/’, but not after. For example: The input\slash output of the program is complicated. 9.6 ‘\discretionary’ (generalized hyphenation point) ==================================================== Synopsis: \discretionary{PRE-BREAK}{POST-BREAK}{NO-BREAK} Handle word changes around hyphens. This command is not often used in LaTeX documents. If a line break occurs at the point where ‘\discretionary’ appears then TeX puts PRE-BREAK at the end of the current line and puts POST-BREAK at the start of the next line. If there is no line break here then TeX puts NO-BREAK. In ‘difficult’ the three letters ‘ffi’ form a ligature. But TeX can nonetheless break between the two ‘f’'s with this. di\discretionary{f-}{fi}{ffi}cult Note that users do not have to do this. It is typically handled automatically by TeX's hyphenation algorithm. 9.7 ‘\fussy’ & ‘\sloppy’ ======================== Declarations to make TeX more picky or less picky about line breaking. Declaring ‘\fussy’ usually avoids too much space between words, at the cost of an occasional overfull box. Conversely, ‘\sloppy’ avoids overfull boxes while suffering loose interword spacing. The default is ‘\fussy’. Line breaking in a paragraph is controlled by whichever declaration is current at the end of the paragraph, i.e., at the blank line or ‘\par’ or displayed equation ending that paragraph. So to affect the line breaks, include that paragraph-ending material in the scope of the command. 9.7.1 ‘sloppypar’ ----------------- Synopsis: \begin{sloppypar} ... paragraphs ... \end{sloppypar} Typeset the paragraphs with ‘\sloppy’ in effect (see \fussy & \sloppy). Use this to locally adjust line breaking, to avoid ‘Overfull box’ or ‘Underfull box’ errors. The example is simple. \begin{sloppypar} Her plan for the morning thus settled, she sat quietly down to her book after breakfast, resolving to remain in the same place and the same employment till the clock struck one; and from habitude very little incommoded by the remarks and ejaculations of Mrs.\ Allen, whose vacancy of mind and incapacity for thinking were such, that as she never talked a great deal, so she could never be entirely silent; and, therefore, while she sat at her work, if she lost her needle or broke her thread, if she heard a carriage in the street, or saw a speck upon her gown, she must observe it aloud, whether there were anyone at leisure to answer her or not. \end{sloppypar} 9.8 ‘\hyphenation’ ================== Synopsis: \hyphenation{WORD1 ...} Declares allowed hyphenation points within the words in the list. The words in that list are separated by spaces. Show permitted points for hyphenation with an ASCII dash character, ‘-’. Here is an example: \hyphenation{hat-er il-lit-e-ra-ti tru-th-i-ness} Use lowercase letters. TeX will only hyphenate if the word matches exactly; no inflections are tried. Multiple ‘\hyphenation’ commands accumulate. 9.9 ‘\linebreak’ & ‘\nolinebreak’ ================================= Synopses, one of: \linebreak \linebreak[ZERO-TO-FOUR] or one of these. \nolinebreak \nolinebreak[ZERO-TO-FOUR] Encourage or discourage a line break. The optional ZERO-TO-FOUR is an integer lying between 0 and 4 that allows you to soften the instruction. The default is 4, so that without the optional argument these commands entirely force or prevent the break. But for instance, ‘\nolinebreak[1]’ is a suggestion that another place may be better. The higher the number, the more insistent the request. Both commands are fragile (see \protect). Here we tell LaTeX that a good place to put a linebreak is after the standard legal text. \boilerplatelegal{} \linebreak[2] We especially encourage applications from members of traditionally underrepresented groups. When you issue ‘\linebreak’, the spaces in the line are stretched out so that the break point reaches the right margin. See \\ and \newline, to have the spaces not stretched out. 10 Page breaking **************** Ordinarily LaTeX automatically takes care of breaking output into pages with its usual aplomb. But if you are writing commands, or tweaking the final version of a document, then you may need to understand how to influence its actions. LaTeX's algorithm for splitting a document into pages is more complex than just waiting until there is enough material to fill a page and outputting the result. Instead, LaTeX typesets more material than would fit on the page and then chooses a break that is optimal in some way (it has the smallest “badness”). An example of the advantage of this approach is that if the page has some vertical space that can be stretched or shrunk, such as with rubber lengths between paragraphs, then LaTeX can use that to avoid widow lines (where a new page starts with the last line of a paragraph; LaTeX can squeeze the extra line onto the first page) and orphans (where the first line of paragraph is at the end of a page; LaTeX can stretch the material of the first page so the extra line falls on the second page). Another example is where LaTeX uses available vertical shrinkage to fit on a page not just the header for a new section but also the first two lines of that section. But LaTeX does not optimize over the entire document's set of page breaks. So it can happen that the first page break is great but the second one is lousy; to break the current page LaTeX doesn't look as far ahead as the next page break. So occasionally you may want to influence page breaks while preparing a final version of a document. See Layout, for more material that is relevant to page breaking. 10.1 ‘\clearpage’ & ‘\cleardoublepage’ ====================================== Synopsis: \clearpage or \cleardoublepage End the current page and output all of the pending floating figures and tables (see Floats). If there are too many floats to fit on the page then LaTeX will put in extra pages containing only floats. In two-sided printing, ‘\cleardoublepage’ also makes the next page of content a right-hand page, an odd-numbered page, if necessary inserting a blank page. The ‘\clearpage’ command is robust while ‘\cleardoublepage’ is fragile (see \protect). LaTeX's page breaks are optimized so ordinarily you only use this command in a document body to polish the final version, or inside commands. The ‘\cleardoublepage’ command will put in a blank page, but it will have the running headers and footers. To get a really blank page, use this command. \let\origdoublepage\cleardoublepage \newcommand{\clearemptydoublepage}{% \clearpage {\pagestyle{empty}\origdoublepage}% } If you want LaTeX's standard ‘\chapter’ command to do this then add the line ‘\let\cleardoublepage\clearemptydoublepage’. (Of course this affects all uses of ‘\cleardoublepage’, not just the one in ‘\chapter’.) The command ‘\newpage’ (see \newpage) also ends the current page, but without clearing pending floats. And, if LaTeX is in two-column mode then ‘\newpage’ ends the current column while ‘\clearpage’ and ‘\cleardoublepage’ end the current page. 10.2 ‘\newpage’ =============== Synopsis: \newpage End the current page. This command is robust (see \protect). LaTeX's page breaks are optimized so ordinarily you only use this command in a document body to polish the final version, or inside commands. While the commands ‘\clearpage’ and ‘\cleardoublepage’ also end the current page, in addition they clear pending floats (see \clearpage & \cleardoublepage). And, if LaTeX is in two-column mode then ‘\clearpage’ and ‘\cleardoublepage’ end the current page, possibly leaving an empty column, while ‘\newpage’ only ends the current column. In contrast with ‘\pagebreak’ (see \pagebreak & \nopagebreak), the ‘\newpage’ command will cause the new page to start right where requested. This Four score and seven years ago our fathers brought forth on this continent, \newpage \noindent a new nation, conceived in Liberty, and dedicated to the proposition that all men are created equal. makes a new page start after ‘continent’, and the cut-off line is not right justified. In addition, ‘\newpage’ does not vertically stretch out the page, as ‘\pagebreak’ does. 10.3 ‘\enlargethispage’ ======================= Synopsis, one of: \enlargethispage{SIZE} \enlargethispage*{SIZE} Enlarge the ‘\textheight’ for the current page. The required argument SIZE must be a rigid length (see Lengths). It may be positive or negative. This command is fragile (see \protect). A common strategy is to wait until you have the final text of a document, and then pass through it tweaking line and page breaks. This command allows you some page size leeway. This will allow one extra line on the current page. \enlargethispage{\baselineskip} The starred form ‘\enlargesthispage*’ tries to squeeze the material together on the page as much as possible, for the common use case of getting one more line on the page. This is often used together with an explicit ‘\pagebreak’. 10.4 ‘\pagebreak’ & ‘\nopagebreak’ ================================== Synopses: \pagebreak \pagebreak[ZERO-TO-FOUR] or \nopagebreak \nopagebreak[ZERO-TO-FOUR] Encourage or discourage a page break. The optional ZERO-TO-FOUR is an integer that allows you to soften the request. The default is 4, so that without the optional argument these commands entirely force or prevent the break. But for instance ‘\nopagebreak[1]’ suggests to LaTeX that another spot might be preferable. The higher the number, the more insistent the request. Both commands are fragile (see \protect). LaTeX's page endings are optimized so ordinarily you only use these commands in a document body to polish the final version, or inside commands. If you use these inside a paragraph, they apply to the point following the line in which they appear. So this Four score and seven years ago our fathers brought forth on this continent, \pagebreak a new nation, conceived in Liberty, and dedicated to the proposition that all men are created equal. does not give a page break at ‘continent’, but instead at ‘nation’, since that is where LaTeX breaks that line. In addition, with ‘\pagebreak’ the vertical space on the page is stretched out where possible so that it extends to the normal bottom margin. This can look strange, and if ‘\flushbottom’ is in effect this can cause you to get ‘Underfull \vbox (badness 10000) has occurred while \output is active’. See \newpage, for a command that does not have these effects. A declaration ‘\samepage’ and corresponding ‘samepage’ environment try to only allow breaks between paragraphs. They are not perfectly reliable. For more on keeping material on the same page, see the FAQ entry .) 11 Footnotes ************ Place a footnote at the bottom of the current page, as here. Noël Coward quipped that having to read a footnote is like having to go downstairs to answer the door, while in the midst of making love.\footnote{% I wouldn't know, I don't read footnotes.} You can put multiple footnotes on a page. If the footnote text becomes too long then it will flow to the next page. You can also produce footnotes by combining the ‘\footnotemark’ and the ‘\footnotetext’ commands, which is useful in special circumstances. To make bibliographic references come out as footnotes you need to include a bibliographic style with that behavior (see Using BibTeX). 11.1 ‘\footnote’ ================ Synopsis, one of: \footnote{TEXT} \footnote[NUMBER]{TEXT} Place a footnote TEXT at the bottom of the current page, with a footnote marker at the current position in the text. There are over a thousand footnotes in Gibbon's \textit{Decline and Fall of the Roman Empire}.\footnote{% After reading an early version with endnotes David Hume complained, ``One is also plagued with his Notes, according to the present Method of printing the Book'' and suggested that they ``only to be printed at the Margin or the Bottom of the Page.''} The optional argument NUMBER allows you to specify the number of the footnote. If you use this then LaTeX does not increment the ‘footnote’ counter. By default, LaTeX uses arabic numbers as footnote markers. Change this with something like ‘\renewcommand{\thefootnote}{\fnsymbol{footnote}}’, which uses a sequence of symbols (see \alph \Alph \arabic \roman \Roman \fnsymbol). To make this change global put that in the preamble. If you make the change local then you may want to reset the counter with ‘\setcounter{footnote}{0}’. LaTeX determines the spacing of footnotes with two parameters. ‘\footnoterule’ Produces the rule separating the main text on a page from the page's footnotes. Default dimensions in the standard document classes (except ‘slides’, where it does not appear) are: vertical thickness of ‘0.4pt’, and horizontal size of ‘0.4\columnwidth’ long. Change the rule with something like this. % \footnoterule is expanded in vertical mode, thus \kern % commands ensure that no vertical space is created, % and the rule is separated vertically with 2pt % above the note text. \renewcommand*{\footnoterule}{% \kern -3pt % This -3 is negative \hrule width \textwidth height 1pt % of the sum of this 1 \kern 2pt} % and this 2 ‘\footnotesep’ The height of the strut placed at the beginning of the footnote (see \strut). By default, this is set to the normal strut for ‘\footnotesize’ fonts (see Font sizes), therefore there is no extra space between footnotes. This is ‘6.65pt’ for ‘10pt’, ‘7.7pt’ for ‘11pt’, and ‘8.4pt’ for ‘12pt’. Change it as with ‘\setlength{\footnotesep}{11pt}’. The ‘\footnote’ command is fragile (see \protect). LaTeX's default puts many restrictions on where you can use a ‘\footnote’; for instance, you cannot use it in an argument to a sectioning command such as ‘\chapter’ (it can only be used in outer paragraph mode; see Modes). There are some workarounds; see following sections. In a ‘minipage’ environment the ‘\footnote’ command uses the ‘mpfootnote’ counter instead of the ‘footnote’ counter, so they are numbered independently. They are shown at the bottom of the environment, not at the bottom of the page. And by default they are shown alphabetically. See minipage and Footnotes in a table. 11.2 ‘\footnotemark’ ==================== Synopsis, one of: \footnotemark \footnotemark[NUMBER] Put the current footnote mark in the text. To specify associated text for the footnote see \footnotetext. The optional argument NUMBER causes the command to use that number to determine the footnote mark. This command can be used in inner paragraph mode (see Modes). If you use ‘\footnotemark’ without the optional argument then it increments the ‘footnote’ counter, but if you use the optional NUMBER then it does not. The next example produces several consecutive footnote markers referring to the same footnote. The first theorem\footnote{Due to Gauss.} and the second theorem\footnotemark[\value{footnote}] and the third theorem.\footnotemark[\value{footnote}] If there are intervening footnotes then you must remember the value of the number of the common mark. This example gives the same institutional affiliation to both the first and third authors (‘\thanks’ is a version of ‘\footnote’), by explicitly specifying the number of the footnote (‘1’). \title{A Treatise on the Binomial Theorem} \author{J Moriarty\thanks{University of Leeds} \and A C Doyle\thanks{Durham University} \and S Holmes\footnotemark[1]} \begin{document} \maketitle This example accomplishes the same by using the package ‘cleveref’. \usepackage{cleveref}[2012/02/15] % in preamble \crefformat{footnote}{#2\footnotemark[#1]#3} ... The theorem is from Evers.\footnote{\label{fn:TE}Tinker, Evers, 1994.} The corollary is from Chance.\footnote{Evers, Chance, 1990.} But the key lemma is from Tinker.\cref{fn:TE} It will work with the package ‘hyperref’. This uses a counter to remember the footnote number. The third sentence is followed by the same footnote marker as the first. \newcounter{footnoteValueSaver} All babies are illogical.\footnote{% Lewis Carroll.}\setcounter{footnoteValueSaver}{\value{footnote}} Nobody is despised who can manage a crocodile.\footnote{% Captain Hook.} Illogical persons are despised.\footnotemark[\value{footnoteValueSaver}] Therefore, anyone who can manage a crocodile is not a baby. 11.3 ‘\footnotetext’ ==================== Synopsis, one of: \footnotetext{TEXT} \footnotetext[NUMBER]{TEXT} Place TEXT at the bottom of the page as a footnote. It pairs with ‘\footnotemark’ (see \footnotemark) and can come anywhere after that command, but must appear in outer paragraph mode (see Modes). The optional argument NUMBER changes the number of the footnote mark. See \footnotemark and Footnotes in a table, for usage examples. 11.4 Footnotes in section headings ================================== Putting a footnote in a section heading, as in: \section{Full sets\protect\footnote{This material due to ...}} causes the footnote to appear at the bottom of the page where the section starts, as usual, but also at the bottom of the table of contents, where it is not likely to be desired. The simplest way to have it not appear on the table of contents is to use the optional argument to ‘\section’. \section[Please]{Please\footnote{% Don't footnote in chapter and section headers!}} No ‘\protect’ is needed in front of ‘\footnote’ here because what gets moved to the table of contents is the optional argument. 11.5 Footnotes in a table ========================= Inside a ‘tabular’ or ‘array’ environment the ‘\footnote’ command does not work; there is a footnote mark in the table cell but the footnote text does not appear. The solution is to use a ‘minipage’ environment as here (see minipage). \begin{center} \begin{minipage}{\textwidth} \centering \begin{tabular}{l|l} \textsc{Ship} &\textsc{Book} \\ \hline \textit{HMS Sophie} &Master and Commander \\ \textit{HMS Polychrest} &Post Captain \\ \textit{HMS Lively} &Post Captain \\ \textit{HMS Surprise} &A number of books\footnote{% Starting with \textit{HMS Surprise}.} \end{tabular} \end{minipage} \end{center} Inside a ‘minipage’, footnote marks are lowercase letters. Change that with something like ‘\renewcommand{\thempfootnote}{\arabic{mpfootnote}}’ (see \alph \Alph \arabic \roman \Roman \fnsymbol). The footnotes in the prior example appear at the bottom of the ‘minipage’. To have them appear at the bottom of the main page, as part of the regular footnote sequence, use the ‘\footnotemark’ and ‘\footnotetext’ pair and make a new counter. \newcounter{mpFootnoteValueSaver} \begin{center} \begin{minipage}{\textwidth} \setcounter{mpFootnoteValueSaver}{\value{footnote}} \centering \begin{tabular}{l|l} \textsc{Woman} &\textsc{Relationship} \\ \hline Mona &Attached\footnotemark \\ Diana Villiers &Eventual wife \\ Christine Hatherleigh Wood &Fiance\footnotemark \end{tabular} \end{minipage}% percent sign keeps footnote text close to minipage \stepcounter{mpFootnoteValueSaver}% \footnotetext[\value{mpFootnoteValueSaver}]{% Little is known other than her death.}% \stepcounter{mpFootnoteValueSaver}% \footnotetext[\value{mpFootnoteValueSaver}]{% Relationship is unresolved.} \end{center} For a floating ‘table’ environment (see table), use the ‘tablefootnote’ package. \usepackage{tablefootnote} % in preamble ... \begin{table} \centering \begin{tabular}{l|l} \textsc{Date} &\textsc{Campaign} \\ \hline 1862 &Fort Donelson \\ 1863 &Vicksburg \\ 1865 &Army of Northern Virginia\tablefootnote{% Ending the war.} \end{tabular} \caption{Forces captured by US Grant} \end{table} The footnote appears at the page bottom and is numbered in sequence with other footnotes. 11.6 Footnotes of footnotes =========================== Particularly in the humanities, authors can have multiple classes of footnotes, including having footnotes of footnotes. The package ‘bigfoot’ extends LaTeX's default footnote mechanism in many ways, including allow these two, as in this example. \usepackage{bigfoot} % in preamble \DeclareNewFootnote{Default} \DeclareNewFootnote{from}[alph] % create class \footnotefrom{} ... The third theorem is a partial converse of the second.\footnotefrom{% Noted in Wilson.\footnote{Second edition only.}} 12 Definitions ************** LaTeX has support for making new commands of many different kinds. 12.1 ‘\newcommand’ & ‘\renewcommand’ ==================================== Synopses, one of (three regular forms, three starred forms): \newcommand{\CMD}{DEFN} \newcommand{\CMD}[NARGS]{DEFN} \newcommand{\CMD}[NARGS][OPTARGDEFAULT]{DEFN} \newcommand*{\CMD}{DEFN} \newcommand*{\CMD}[NARGS]{DEFN} \newcommand*{\CMD}[NARGS][OPTARGDEFAULT]{DEFN} or the same six possibilities with ‘\renewcommand’ instead of ‘\newcommand’: \renewcommand{\CMD}{DEFN} \renewcommand{\CMD}[NARGS]{DEFN} \renewcommand{\CMD}[NARGS][OPTARGDEFAULT]{DEFN} \renewcommand*{\CMD}{DEFN} \renewcommand*{\CMD}[NARGS]{DEFN} \renewcommand*{\CMD}[NARGS][OPTARGDEFAULT]{DEFN} Define or redefine a command (see also ‘\DeclareRobustCommand’ in Class and package commands). The starred form of these two forbids the arguments from containing multiple paragraphs of text (i.e., a ‘\par’ token; in plain TeX terms: the commands are not ‘\long’). With the default form, arguments can be multiple paragraphs. These are the parameters (examples follow): CMD Required; ‘\CMD’ is the command name. It must begin with a backslash, ‘\’, and must not begin with the four character string ‘\end’. For ‘\newcommand’, it must not be already defined. For ‘\renewcommand’, this name must already be defined. NARGS Optional; an integer from 0 to 9, specifying the number of arguments that the command takes, including any optional argument. Omitting this argument is the same as specifying 0, meaning that the command has no arguments. If you redefine a command, the new version can have a different number of arguments than the old version. OPTARGDEFAULT Optional; if this argument is present then the first argument of ‘\CMD’ is optional, with default value OPTARGDEFAULT (which may be the empty string). If OPTARGDEFAULT is not present then ‘\CMD’ does not take an optional argument. That is, if ‘\CMD’ is called with a following argument in square brackets, as in ‘\CMD[OPTVAL]{...}...’, then within DEFN the parameter ‘#1’ is set to OPTVAL. On the other hand, if ‘\CMD’ is called without following square brackets then within DEFN the parameter ‘#1’ is set to OPTARGDEFAULT. In either case, the required arguments start with ‘#2’. Omitting ‘[OPTARGDEFAULT]’ from the definition is entirely different from giving the square brackets with empty contents, as in ‘[]’. The former says the command being defined takes no optional argument, so ‘#1’ is the first required argument (if NARGS ≥ 1); the latter sets the optional argument ‘#1’ to the empty string as the default, if no optional argument was given in the call. Similarly, omitting ‘[OPTVAL]’ from a call is also entirely different from giving the square brackets with empty contents. The former sets ‘#1’ to the value of OPTVAL (assuming the command was defined to take an optional argument); the latter sets ‘#1’ to the empty string, just as with any other value. If a command is not defined to take an optional argument, but is called with an optional argument, the results are unpredictable: there may be a LaTeX error, there may be incorrect typeset output, or both. DEFN Required; the text to be substituted for every occurrence of ‘\CMD’. The parameters ‘#1’, ‘#2’, ..., ‘#NARGS’ are replaced by the values supplied when the command is called (or by OPTARGDEFAULT in the case of an optional argument not specified in the call, as just explained). TeX ignores blanks in the source following a control word (see Control sequences), as in ‘\cmd ’. If you want a space there, one solution is to type ‘{}’ after the command (‘\cmd{} ’), and another solution is to use an explicit control space (‘\cmd\ ’). A simple example of defining a new command: ‘\newcommand{\RS}{Robin Smith}’ results in ‘\RS’ being replaced by the longer text. Redefining an existing command is similar: ‘\renewcommand{\qedsymbol}{{\small QED}}’. If you use ‘\newcommand’ and the command name has already been used then you get something like ‘LaTeX Error: Command \fred already defined. Or name \end... illegal, see p.192 of the manual’. Similarly, If you use ‘\renewcommand’ and the command name has not been defined then you get something like ‘LaTeX Error: \hank undefined’. Here the first definition creates a command with no arguments, and the second, a command with one required argument: \newcommand{\student}{Ms~O'Leary} \newcommand{\defref}[1]{Definition~\ref{#1}} Use the first as in ‘I highly recommend \student{} to you’. The second has a variable argument, so that ‘\defref{def:basis}’ expands to ‘Definition~\ref{def:basis}’, which ultimately expands to something like ‘Definition~3.14’. Similarly, but with two required arguments: ‘\newcommand{\nbym}[2]{$#1 \times #2$}’ is invoked as ‘\nbym{2}{k}’. This example has an optional argument. \newcommand{\salutation}[1][Sir or Madam]{Dear #1:} Then ‘\salutation’ gives ‘Dear Sir or Madam:’ while ‘\salutation[John]’ gives ‘Dear John:’. And ‘\salutation[]’ gives ‘Dear :’. This example has an optional argument and two required arguments. \newcommand{\lawyers}[3][company]{#2, #3, and~#1} I employ \lawyers[Howe]{Dewey}{Cheatem}. The output is ‘I employ Dewey, Cheatem, and Howe.’. The optional argument, ‘Howe’, is associated with ‘#1’, while ‘Dewey’ and ‘Cheatem’ are associated with ‘#2’ and ‘#3’. Because of the optional argument, ‘\lawyers{Dewey}{Cheatem}’ will give the output ‘I employ Dewey, Cheatem, and company.’. The braces around DEFN do not define a group, that is, they do not delimit the scope of the result of expanding DEFN. For example, with ‘\newcommand{\shipname}[1]{\it #1}’, in this sentence, The \shipname{Monitor} met the \shipname{Merrimac}. the words ‘met the’, and the period, would incorrectly be in italics. The solution is to put another pair of braces inside the definition: ‘\newcommand{\shipname}[1]{{\it #1}}’. 12.1.1 Control sequence, control word and control symbol -------------------------------------------------------- When reading input TeX converts the stream of read characters into a sequence of “tokens”. When TeX sees a backslash ‘\’, it will handle the following characters in a special way in order to make a “control sequence” token. The control sequences fall into two categories: • “control word”, when the control sequence is gathered from a ‘\’ followed by at least one ASCII letter (‘A-Z’ and ‘a-z’), followed by at least one non-letter. • “control symbol”, when the control sequence is gathered from a ‘\’ followed by one non-letter character. The sequence of characters so found after the ‘\’ is also called the “control sequence name”. Blanks after a control word are ignored and do not produce any whitespace in the output (see \newcommand & \renewcommand and \(SPACE)). Just as the ‘\relax’ command does nothing, the following input will simply print ‘Hello!’ (if you use the Emacs info viewer, turn on the ‘whitespace-mode’ minor mode to see the trailing spaces): Hel\relax lo! This is because blanks after ‘\relax’, including the newline, are ignored, and blanks at the beginning of a line are also ignored (see Leading blanks). 12.2 ‘\providecommand’ ====================== Synopses, one of: \providecommand{\CMD}{DEFN} \providecommand{\CMD}[NARGS]{DEFN} \providecommand{\CMD}[NARGS][OPTARGDEFAULT]{DEFN} \providecommand*{\CMD}{DEFN} \providecommand*{\CMD}[NARGS]{DEFN} \providecommand*{\CMD}[NARGS][OPTARGDEFAULT]{DEFN} Defines a command, as long as no command of this name already exists. If no command of this name already exists then this has the same effect as ‘\newcommand’. If a command of this name already exists then this definition does nothing. This is particularly useful in a file that may be loaded more than once, such as a style file. See \newcommand & \renewcommand, for the description of the arguments. This example \providecommand{\myaffiliation}{Saint Michael's College} \providecommand{\myaffiliation}{Lyc\'ee Henri IV} From \myaffiliation. outputs ‘From Saint Michael's College.’. Unlike ‘\newcommand’, the repeated use of ‘\providecommand’ to (try to) define ‘\myaffiliation’ does not give an error. 12.3 ‘\makeatletter’ & ‘\makeatother’ ===================================== Synopsis: \makeatletter ... definition of commands with @ in their name .. \makeatother Use this pair when you redefine LaTeX commands that are named with an at-sign character ‘‘@’’. The ‘\makeatletter’ declaration makes the at-sign character have the category code of a letter, code 11. The ‘\makeatother’ declaration sets the category code of the at-sign to code 12, its default value. As TeX reads characters, it assigns each one a category code, or “catcode”. For instance, it assigns the backslash character ‘‘\’’ the catcode 0. Command names consist of a category 0 character, ordinarily backslash, followed by letters, category 11 characters (except that a command name can also consist of a category 0 character followed by a single non-letter symbol). LaTeX's source code has the convention that some commands use ‘@’ in their name. These commands are mainly intended for package or class writers. The convention prevents authors who are just using a package or class from accidentally replacing such a command with one of their own, because by default the at-sign has catcode 12. Use the pair ‘\makeatletter’ and ‘\makeatother’ inside a ‘.tex’ file, typically in the preamble, when you are defining or redefining commands named with ‘@’, by having them surround your definition. Don't use these inside ‘.sty’ or ‘.cls’ files since the ‘\usepackage’ and ‘\documentclass’ commands already arrange that the at-sign has the character code of a letter, catcode 11. For a comprehensive list of macros with an at-sign in their names see . In this example the class file has a command ‘\thesis@universityname’ that the user wants to change. These three lines should go in the preamble, before the ‘\begin{document}’. \makeatletter \renewcommand{\thesis@universityname}{Saint Michael's College} \makeatother 12.4 ‘\@ifstar’ =============== Synopsis: \newcommand{\mycmd}{\@ifstar{\mycmd@star}{\mycmd@nostar}} \newcommand{\mycmd@nostar}[NOSTAR-NUM-ARGS]{NOSTAR-BODY} \newcommand{\mycmd@star}[STAR-NUM-ARGS]{STAR-BODY} Many standard LaTeX environments or commands have a variant with the same name but ending with a star character ‘*’, an asterisk. Examples are the ‘table’ and ‘table*’ environments and the ‘\section’ and ‘\section*’ commands. When defining environments, following this pattern is straightforward because ‘\newenvironment’ and ‘\renewenvironment’ allow the environment name to contain a star. So you just have to write ‘\newenvironment{MYENV}’ or ‘\newenvironment{MYENV*}’ and continue the definition as usual. For commands the situation is more complex as the star not being a letter cannot be part of the command name. As in the synopsis above, there will be a user-called command, given above as ‘\mycmd’, which peeks ahead to see if it is followed by a star. For instance, LaTeX does not really have a ‘\section*’ command; instead, the ‘\section’ command peeks ahead. This command does not accept arguments but instead expands to one of two commands that do accept arguments. In the synopsis these two are ‘\mycmd@nostar’ and ‘\mycmd@star’. They could take the same number of arguments or a different number, or no arguments at all. As always, in a LaTeX document a command using an at-sign ‘@’ in its name must be enclosed inside a ‘\makeatletter ... \makeatother’ block (see \makeatletter & \makeatother). This example of ‘\@ifstar’ defines the command ‘\ciel’ and a variant ‘\ciel*’. Both have one required argument. A call to ‘\ciel{blue}’ will return "not starry blue sky" while ‘\ciel*{night}’ will return "starry night sky". \makeatletter \newcommand*{\ciel@unstarred}[1]{not starry #1 sky} \newcommand*{\ciel@starred}[1]{starry #1 sky} \newcommand*{\ciel}{\@ifstar{\ciel@starred}{\ciel@unstarred}} \makeatother In the next example, the starred variant takes a different number of arguments than the unstarred one. With this definition, Agent 007's ‘``My name is \agentsecret*{Bond}, \agentsecret{James}{Bond}.''’ is equivalent to entering the commands ‘``My name is \textsc{Bond}, \textit{James} textsc{Bond}.''’ \newcommand*{\agentsecret@unstarred}[2]{\textit{#1} \textsc{#2}} \newcommand*{\agentsecret@starred}[1]{\textsc{#1}} \newcommand*{\agentsecret}{% \@ifstar{\agentsecret@starred}{\agentsecret@unstarred}} After a command name, a star is handled similarly to an optional argument. (This differs from environment names in which the star is part of the name itself and as such could be in any position.) Thus, it is technically possible to put any number of spaces between the command and the star. Thus ‘\agentsecret*{Bond}’ and ‘\agentsecret *{Bond}’ are equivalent. However, the standard practice is not to insert any such spaces. There are two alternative ways to accomplish the work of ‘\@ifstar’. (1) The ‘suffix’ package allows the construct ‘\newcommand\mycommand{UNSTARRED-VARIANT}’ followed by ‘\WithSuffix\newcommand\mycommand*{STARRED-VARIANT}’. (2) LaTeX provides the ‘xparse’ package, which allows this code: \NewDocumentCommand\foo{s}{\IfBooleanTF#1 {STARRED-VARIANT}% {UNSTARRED-VARIANT}% } 12.5 ‘\newcounter’: Allocating a counter ======================================== Synopsis, one of: \newcounter{COUNTERNAME} \newcounter{COUNTERNAME}[SUPERCOUNTER] Globally defines a new counter named COUNTERNAME and initialize it to zero (see Counters). The name COUNTERNAME must consist of letters only. It does not begin with a backslash. This name must not already be in use by another counter. When you use the optional argument ‘[SUPERCOUNTER]’ then the counter COUNTERNAME will be reset to zero whenever SUPERCOUNTER is incremented. For example, ordinarily ‘subsection’ is numbered within ‘section’ so that any time you increment SECTION, either with ‘\stepcounter’ (see \stepcounter) or ‘\refstepcounter’ (see \refstepcounter), then LaTeX will reset SUBSECTION to zero. This example \newcounter{asuper} \setcounter{asuper}{1} \newcounter{asub}[asuper] \setcounter{asub}{3} % Note `asuper' The value of asuper is \arabic{asuper} and of asub is \arabic{asub}. \stepcounter{asuper} Now asuper is \arabic{asuper} while asub is \arabic{asub}. produces ‘The value of asuper is 1 and that of asub is 3’ and ‘Now asuper is 2 while asub is 0’. If the counter already exists, for instance by entering ‘asuper’ twice, then you get something like ‘LaTeX Error: Command \c@asuper already defined. Or name \end... illegal, see p.192 of the manual.’. If you use the optional argument then the super counter must already exist. Entering ‘\newcounter{jh}[lh]’ when ‘lh’ is not a defined counter will get you ‘LaTeX Error: No counter 'lh' defined.’ 12.6 ‘\newlength’ ================= Synopsis: \newlength{\LEN} Allocate a new length register (see Lengths). The required argument ‘\LEN’ has to be a control sequence (see Control sequences), and as such must begin with a backslash, ‘\’ under normal circumstances. The new register holds rubber lengths such as ‘72.27pt’ or ‘1in plus.2in minus.1in’ (a LaTeX length register is what plain TeX calls a ‘skip’ register). The initial value is zero. The control sequence ‘\LEN’ must not be already defined. An example: \newlength{\graphichgt} If you forget the backslash then you get ‘Missing control sequence inserted’. If the control sequence already exists then you get something like ‘LaTeX Error: Command \graphichgt already defined. Or name \end... illegal, see p.192 of the manual’. 12.7 ‘\newsavebox’ ================== Synopsis: \newsavebox{\CMD} Define \CMD, the string consisting of a backslash followed by CMD, to refer to a new bin for storing material. These bins hold material that has been typeset, to use multiple times or to measure or manipulate (see Boxes). The bin name \CMD is required, must start with a backslash, \, and must not already be a defined command. This command is fragile (see \protect). This allocates a bin and then puts typeset material into it. \newsavebox{\logobox} \savebox{\logobox}{LoGo} Our logo is \usebox{\logobox}. The output is ‘Our logo is LoGo’. If there is an already defined bin then you get something like ‘LaTeX Error: Command \logobox already defined. Or name \end... illegal, see p.192 of the manual’. The allocation of a box is global. 12.8 ‘\newenvironment’ & ‘\renewenvironment’ ============================================ Synopses, one of: \newenvironment{ENV}{BEGDEF}{ENDDEF} \newenvironment{ENV}[NARGS]{BEGDEF}{ENDDEF} \newenvironment{ENV}[NARGS][OPTARGDEFAULT]{BEGDEF}{ENDDEF} \newenvironment*{ENV}{BEGDEF}{ENDDEF} \newenvironment*{ENV}[NARGS]{BEGDEF}{ENDDEF} \newenvironment*{ENV}[NARGS][OPTARGDEFAULT]{BEGDEF}{ENDDEF} or one of these. \renewenvironment{ENV}{BEGDEF}{ENDDEF} \renewenvironment{ENV}[NARGS]{BEGDEF}{ENDDEF} \renewenvironment{ENV}[NARGS][OPTARGDEFAULT]{BEGDEF}{ENDDEF} \renewenvironment*{ENV}{BEGDEF}{ENDDEF} \renewenvironment*{ENV}[NARGS]{BEGDEF}{ENDDEF} \renewenvironment*{ENV}[NARGS][OPTARGDEFAULT]{BEGDEF}{ENDDEF} Define or redefine the environment ENV, that is, create the construct ‘\begin{ENV} ... BODY ... \end{ENV}’. The starred form of these commands requires that the arguments not contain multiple paragraphs of text. However, the body of these environments can contain multiple paragraphs. ENV Required; the environment name. It consists only of letters or the ‘*’ character, and thus does not begin with backslash, ‘\’. It must not begin with the string ‘end’. For ‘\newenvironment’, the name ENV must not be the name of an already existing environment, and also the command ‘\ENV’ must be undefined. For ‘\renewenvironment’, ENV must be the name of an existing environment. NARGS Optional; an integer from 0 to 9 denoting the number of arguments of that the environment takes. When you use the environment these arguments appear after the ‘\begin’, as in ‘\begin{ENV}{ARG1} ... {ARGN}’. Omitting this is equivalent to setting it to 0; the environment will have no arguments. When redefining an environment, the new version can have a different number of arguments than the old version. OPTARGDEFAULT Optional; if this is present then the first argument of the defined environment is optional, with default value OPTARGDEFAULT (which may be the empty string). If this is not in the definition then the environment does not take an optional argument. That is, when OPTARGDEFAULT is present in the definition of the environment then you can start the environment with square brackets, as in ‘\begin{ENV}[OPTVAL]{...} ... \end{ENV}’. In this case, within BEGDEFN the parameter ‘#1’ is set to the value of OPTVAL. If you call ‘\begin{ENV}’ without square brackets, then within BEGDEFN the parameter ‘#1’ is set to the value of the default OPTARGDEFAULT. In either case, any required arguments start with ‘#2’. Omitting ‘[MYVAL]’ in the call is different than having the square brackets with no contents, as in ‘[]’. The former results in ‘#1’ expanding to OPTARGDEFAULT; the latter results in ‘#1’ expanding to the empty string. BEGDEF Required; the text expanded at every occurrence of ‘\begin{ENV}’. Within BEGDEF, the parameters ‘#1’, ‘#2’, ... ‘#NARGS’, are replaced by the values that you supply when you call the environment; see the examples below. ENDDEF Required; the text expanded at every occurrence of ‘\end{ENV}’. This may not contain any parameters, that is, you cannot use ‘#1’, ‘#2’, etc., here (but see the final example below). All environments, that is to say the BEGDEF code, the environment body, and the ENDDEF code, are processed within a group. Thus, in the first example below, the effect of the ‘\small’ is limited to the quote and does not extend to material following the environment. If you try to define an environment and the name has already been used then you get something like ‘LaTeX Error: Command \fred already defined. Or name \end... illegal, see p.192 of the manual’. If you try to redefine an environment and the name has not yet been used then you get something like ‘LaTeX Error: Environment hank undefined.’. This example gives an environment like LaTeX's ‘quotation’ except that it will be set in smaller type. \newenvironment{smallquote}{% \small\begin{quotation} }{% \end{quotation} } This has an argument, which is set in boldface at the start of a paragraph. \newenvironment{point}[1]{% \noindent\textbf{#1} }{% } This one shows the use of a optional argument; it gives a quotation environment that cites the author. \newenvironment{citequote}[1][Shakespeare]{% \begin{quotation} \noindent\textit{#1}: }{% \end{quotation} } The author's name is optional, and defaults to ‘Shakespeare’. In the document, use the environment like this. \begin{citequote}[Lincoln] ... \end{citequote} The final example shows how to save the value of an argument to use in ENDDEF, in this case in a box (see \sbox & \savebox). \newsavebox{\quoteauthor} \newenvironment{citequote}[1][Shakespeare]{% \sbox\quoteauthor{#1}% \begin{quotation} }{% \hspace{1em plus 1fill}---\usebox{\quoteauthor} \end{quotation} } 12.9 ‘\newtheorem’ ================== Synopses: \newtheorem{NAME}{TITLE} \newtheorem{NAME}{TITLE}[NUMBERED_WITHIN] \newtheorem{NAME}[NUMBERED_LIKE]{TITLE} Define a new theorem-like environment. You can specify one of NUMBERED_WITHIN and NUMBERED_LIKE, or neither, but not both. The first form, ‘\newtheorem{NAME}{TITLE}’, creates an environment that will be labelled with TITLE; see the first example below. The second form, ‘\newtheorem{NAME}{TITLE}[NUMBERED_WITHIN]’, creates an environment whose counter is subordinate to the existing counter NUMBERED_WITHIN, so this counter will be reset when NUMBERED_WITHIN is reset. See the second example below. The third form ‘\newtheorem{NAME}[NUMBERED_LIKE]{TITLE}’, with optional argument between the two required arguments, creates an environment whose counter will share the previously defined counter NUMBERED_LIKE. See the third example. This command creates a counter named NAME. In addition, unless the optional argument NUMBERED_LIKE is used, inside of the theorem-like environment the current ‘\ref’ value will be that of ‘\theNUMBERED_WITHIN’ (see \ref). This declaration is global. It is fragile (see \protect). Arguments: NAME The name of the environment. It is a string of letters. It must not begin with a backslash, ‘\’. It must not be the name of an existing environment, and the command name ‘\NAME’ must not already be defined. TITLE The text to be printed at the beginning of the environment, before the number. For example, ‘Theorem’. NUMBERED_WITHIN Optional; the name of an already defined counter, usually a sectional unit such as ‘chapter’ or ‘section’. When the NUMBERED_WITHIN counter is reset then the NAME environment's counter will also be reset. If this optional argument is not used then the command ‘\theNAME’ is set to ‘\arabic{NAME}’. NUMBERED_LIKE Optional; the name of an already defined theorem-like environment. The new environment will be numbered in sequence with NUMBERED_LIKE. Without any optional arguments the environments are numbered sequentially. The example below has a declaration in the preamble that results in ‘Definition 1’ and ‘Definition 2’ in the output. \newtheorem{defn}{Definition} \begin{document} \section{...} \begin{defn} First def \end{defn} \section{...} \begin{defn} Second def \end{defn} This example has the same document body as the prior one. But here ‘\newtheorem’'s optional argument NUMBERED_WITHIN is given as ‘section’, so the output is like ‘Definition 1.1’ and ‘Definition 2.1’. \newtheorem{defn}{Definition}[section] \begin{document} \section{...} \begin{defn} First def \end{defn} \section{...} \begin{defn} Second def \end{defn} In the next example there are two declarations in the preamble, the second of which calls for the new ‘thm’ environment to use the same counter as ‘defn’. It gives ‘Definition 1.1’, followed by ‘Theorem 2.1’ and ‘Definition 2.2’. \newtheorem{defn}{Definition}[section] \newtheorem{thm}[defn]{Theorem} \begin{document} \section{...} \begin{defn} First def \end{defn} \section{...} \begin{thm} First thm \end{thm} \begin{defn} Second def \end{defn} 12.10 ‘\newfont’ ================ This command is obsolete. This description is here only to help with old documents. New documents should define fonts in families through the New Font Selection Scheme which allows you to, for example, associate a boldface with a roman (see Fonts). Synopsis: \newfont{\CMD}{FONT DESCRIPTION} Define a command ‘\CMD’ that will change the current font. The control sequence must not already be defined. It must begin with a backslash, ‘\’. The FONT DESCRIPTION consists of a FONTNAME and an optional “at clause”. LaTeX will look on your system for a file named ‘FONTNAME.tfm’. The at clause can have the form either ‘at DIMEN’ or ‘scaled FACTOR’, where a FACTOR of ‘1000’ means no scaling. For LaTeX's purposes, all this does is scale all the character and other font dimensions relative to the font's design size, which is a value defined in the ‘.tfm’ file. This defines two equivalent fonts and typesets a few characters in each. \newfont{\testfontat}{cmb10 at 11pt} \newfont{\testfontscaled}{cmb10 scaled 1100} \testfontat abc \testfontscaled abc 12.11 ‘\protect’ ================ All LaTeX commands are either “fragile” or “robust”. A fragile command can break when it is used in the argument to certain other commands, typically those that write material to the table of contents, the cross-reference file, etc. To prevent fragile commands from causing errors, one solution is to precede them with the command ‘\protect’. For example, when LaTeX runs the ‘\section{SECTION NAME}’ command it writes the SECTION NAME text to the ‘.aux’ auxiliary file, moving it there for use elsewhere in the document such as in the table of contents. Such an argument that is used in multiple places is referred to as a “moving argument”. A command is fragile if it can expand during this process into invalid TeX code. Some examples of moving arguments are those that appear in the ‘\caption{...}’ command (see figure), in the ‘\thanks{...}’ command (see \maketitle), and in @-expressions in the ‘tabular’ and ‘array’ environments (see tabular). If you get strange errors from commands used in moving arguments, try preceding it with ‘\protect’. Each fragile command must be protected with their own ‘\protect’. Although usually a ‘\protect’ command doesn't hurt, length commands such as ‘\parindent’ should not be preceded by a ‘\protect’ command (see Lengths. Nor can a ‘\protect’ command be used in the argument to ‘\addtocounter’ or ‘\setcounter’ command (see \setcounter and \addtocounter. These commands are already robust. As of the October 2019 release of LaTeX (), most commands that had been previously fragile were fixed to be robust. For example, any command taking an optional argument, such as ‘\root’ or ‘\raisebox’, was fragile, but is now robust. Similarly, ‘\(...\)’ math was fragile and is now robust (‘$...$’ has always been robust). Perhaps the most commonly used remaining fragile command is ‘\verb’; for example, \begin{figure} ... \caption{This \verb|\command| causes an error.} \end{figure} Adding ‘\protect’ does not help here. It's usually feasible to rewrite the caption (or section heading or whatever) to use ‘\texttt’, often the simplest solution. Alternatively, to use ‘\verb’, you can apply the ‘\cprotect’ command from ‘cprotect’ package () to the ‘\caption’: \cprotect\caption{This \verb|\command| is ok with \verb|\cprotect|.} ‘\cprotect’ also allows use of ‘\begin...\end’ environments in moving arguments, where they are normally not allowed, via a similar prefix command ‘\cprotEnv’. 12.12 ‘\ignorespaces & \ignorespacesafterend’ ============================================= Synopsis: \ignorespaces or \ignorespacesafterend Both commands cause LaTeX to ignore blanks (that is, characters of catcode 10 such as space or tabulation) after the end of the command up to the first box or non-blank character. The first is a primitive command of TeX, and the second is LaTeX-specific. The ‘\ignorespaces’ is often used when defining commands via ‘\newcommand’, or ‘\newenvironment’, or ‘\def’. The example below illustrates. It allows a user to show the points values for quiz questions in the margin but it is inconvenient because, as shown in the ‘enumerate’ list, users must not put any space between the command and the question text. \newcommand{\points}[1]{\makebox[0pt]{\makebox[10em][l]{#1~pts}} \begin{enumerate} \item\points{10}no extra space output here \item\points{15} extra space between the number and the `extra' \end{enumerate} The solution is to change to this. \newcommand{\points}[1]{% \makebox[0pt]{\makebox[10em][l]{#1~pts}}\ignorespaces} A second example shows blanks being removed from the front of text. The commands below allow a user to uniformly attach a title to names. But, as given, if a title accidentally starts with a space then ‘\fullname’ will reproduce that. \newcommand{\honorific}[1]{\def\honorific{#1}} % remember title \newcommand{\fullname}[1]{\honorific~#1} % put title before name \begin{tabular}{|l|} \honorific{Mr/Ms} \fullname{Jones} \\ % no extra space here \honorific{ Mr/Ms} \fullname{Jones} % extra space before title \end{tabular} To fix this, change to ‘\newcommand{\fullname}[1]{\ignorespaces\honorific~#1}’. The ‘\ignorespaces’ is also often used in a ‘\newenvironment’ at the end of the BEGIN clause, as in ‘\begin{newenvironment}{ENV NAME}{... \ignorespaces}{...}’. To strip blanks off the end of an environment use ‘\ignorespacesafterend’. An example is that this will show a much larger vertical space between the first and second environments than between the second and third. \newenvironment{eq}{\begin{equation}}{\end{equation}} \begin{eq} e=mc^2 \end{eq} \begin{equation} F=ma \end{equation} \begin{equation} E=IR \end{equation} Putting a comment character ‘%’ immediately after the ‘\end{eq}’ will make the vertical space disappear, but that is inconvenient. The solution is to change to ‘\newenvironment{eq}{\begin{equation}}{\end{equation}\ignorespacesafterend}’. 12.13 ‘xspace’ package ====================== This is an add-on package, not part of core LaTeX. Synopsis: \usepackage{xspace} ... \newcommand{...}{...\xspace} The ‘\xspace’ macro, when used at the end of a command definition, adds a space unless the command is followed by certain punctuation characters. After a control sequence that is a control word (see Control sequences, as opposed to control symbols such as ‘\$’), TeX gobbles blank characters. Thus, in the first sentence below, the output has ‘Vermont’ placed snugly against the period, without any intervening space, despite the space in the input. \newcommand{\VT}{Vermont} Our college is in \VT . \VT{} summers are nice. But because of the gobbling, the second sentence needs the empty curly braces or else there would be no space separating ‘Vermont’ from ‘summers’. (Many authors instead use a backslash-space ‘\ ’ for this. See \(SPACE).) The ‘xspace’ package provides ‘\xspace’. It is for writing commands which are designed to be used mainly in text. It must be placed at the very end of the definition of these commands. It inserts a space after that command unless what immediately follows is in a list of exceptions. In this example, the empty braces are not needed. \newcommand{\VT}{Vermont\xspace} Our college is in \VT . \VT summers are nice. The default exception list contains the characters ‘,.'/?;:!~-)’, the open curly brace and the backslash-space command discussed above, and the commands ‘\footnote’ or ‘\footnotemark’. You can add to that list as with ‘\xspaceaddexceptions{\myfni \myfnii}’ which adds ‘\myfni’ and ‘\myfnii’ to the list; and you can remove from that list as with ‘\xspaceremoveexception{!}’. A comment: many experts prefer not to use ‘\xspace’. Putting it in a definition means that the command will usually get the spacing right. But it isn't easy to predict when to enter empty braces because ‘\xspace’ will get it wrong, such as when it is followed by another command, and so ‘\xspace’ can make editing material harder and more error-prone than instead of always inserting the empty braces. 12.14 Class and package commands ================================ These are commands designed to help writers of classes or packages. 12.14.1 ‘\AtBeginDvi’ & ‘\AtEndDvi’ ----------------------------------- Synopsis: \AtBeginDvi{CODE} \AtEndDvi{CODE} ‘\AtBeginDvi’ saves, in a box register, CODE to be executed at the beginning of the shipout of the first page of the document. Despite the name, it applies to DVI, PDF, and XDV output. It fills the ‘shipout/firstpage’ hook; new code should use that hook directly. Similarly, ‘\AtEndDvi’ (previously available only with the ‘atenddvi’ package) is code executed when finalizing the main output document. 12.14.2 ‘\AtEndOfClass’ & ‘\AtEndOfPackage’ ------------------------------------------- Synopses: \AtEndOfClass{CODE} \AtEndOfPackage{CODE} Hooks to insert CODE to be executed when LaTeX finishes processing the current class resp. package. These hooks can be used multiple times; each ‘code’ segment will be executed in the order called. Many packages and classes use these commands. See also \AtBeginDocument. 12.14.3 ‘\CheckCommand’ ----------------------- Synopsis: \CheckCommand{CMD}[NUM][DEFAULT]{DEFINITION} \CheckCommand* (same parameters) Like ‘\newcommand’ (see \newcommand & \renewcommand) but does not define CMD; instead it checks that the current definition of CMD is exactly as given by DEFINITION and is or is not “‘\long’” as expected. A long command is a command that accepts ‘\par’ within an argument. With the unstarred version of ‘\CheckCommand’, CMD is expected to be ‘\long’; with the starred version, CMD must not be ‘\long’ ‘\CheckCommand’ raises an error when the check fails. This allows you to check before you start redefining ‘cmd’ yourself that no other package has already redefined this command. 12.14.4 ‘\ClassError’ and ‘\PackageError’ and other messages ------------------------------------------------------------ Produce error, warning, and informational messages for classes: ‘\ClassError{CLASS NAME}{ERROR-TEXT}{HELP-TEXT}’ ‘\ClassWarning{CLASS NAME}{WARNING-TEXT}’ ‘\ClassWarningNoLine{CLASS NAME}{WARNING-TEXT}’ ‘\ClassNote{CLASS NAME}{NOTE-TEXT}’ ‘\ClassNoteNoLine{CLASS NAME}{NOTE-TEXT}’ ‘\ClassInfo{CLASS NAME}{LOG-TEXT}’ and the same for packages: ‘\PackageError{PACKAGE NAME}{ERROR-TEXT}{HELP-TEXT}’ ‘\PackageWarning{PACKAGE NAME}{WARNING-TEXT}’ ‘\PackageWarningNoLine{PACKAGE NAME}{WARNING-TEXT}’ ‘\PackageNote{PACKAGE NAME}{NOTE-TEXT}’ ‘\PackageNoteNoLine{PACKAGE NAME}{NOTE-TEXT}’ ‘\PackageInfo{PACKAGE NAME}{LOG-TEXT}’ For ‘\ClassError’ and ‘\PackageError’ the message is ERROR-TEXT, followed by TeX's '‘?’' error prompt. If the user then asks for help by typing ‘h’, they see HELP-TEXT. The four ‘Warning’ commands write WARNING-TEXT on the terminal and log file (with no error prompt), prefixed by the text ‘Warning:’. The four ‘Note’ commands also write the NOTE-TEXT to the terminal and log file, without the ‘Warning:’ prefix. The ‘NoLine’ versions omit the number of the input line generating the message, while the other versions do show that number. The two ‘Info’ commands write LOG-TEXT only in the transcript file and not to the terminal. To format the messages, including the HELP-TEXT: use ‘\protect’ to stop a command from expanding, get a line break with ‘\MessageBreak’, and get a space with ‘\space’ where a space character is ignored, most commonly after a command. LaTeX appends a period to the messages. 12.14.5 ‘\CurrentOption’ ------------------------ Expands to the name of the option currently being processed. This can only be used within the CODE argument of either ‘\DeclareOption’ or ‘\DeclareOption*’. 12.14.6 ‘\DeclareOption’ ------------------------ Synopsis: \DeclareOption{OPTION}{CODE} \DeclareOption*{OPTION}{CODE} Define an option a user can include in their ‘\documentclass’ command. For example, a class ‘smcmemo’ could have an option ‘logo’ allowing users to put the institutional logo on the first page. The document would start with ‘\documentclass[logo]{smcmemo}’. To enable this, the class file must contain ‘\DeclareOption{logo}{CODE}’ (and later, ‘\ProcessOptions’). If you request an option that has not been declared, by default this will produce a warning like ‘Unused global option(s): [badoption].’ This can be changed by using ‘\DeclareOption*{CODE}’, which executes CODE for any unknown option. For example, many classes extend an existing class, using code such as ‘\LoadClass{article}’ (see \LoadClass). In this case, it makes sense to pass any otherwise-unknown options to the underlying class, like this: \DeclareOption*{% \PassOptionsToClass{\CurrentOption}{article}% } As another example, our class ‘smcmemo’ might allow users to keep lists of memo recipients in external files, so the user could invoke ‘\documentclass[math]{smcmemo}’ and it will read the file ‘math.memo’. This code inputs the file if it exists, while if it doesn't, the option is passed to the ‘article’ class: \DeclareOption*{\InputIfFileExists{\CurrentOption.memo} {}{% \PassOptionsToClass{\CurrentOption}{article}}} 12.14.7 ‘\DeclareRobustCommand’ ------------------------------- Synopsis: \DeclareRobustCommand{CMD}[NUM][DEFAULT]{DEFINITION} \DeclareRobustCommand* (same parameters ‘\DeclareRobustCommand’ and its starred form are generally like ‘\newcommand’ and ‘\newcommand*’ (see \newcommand & \renewcommand), with the addition that they define a so-called “robust” command, even if some code within the DEFINITION is fragile. (For a discussion of robust and fragile commands, see \protect.) Also unlike ‘\newcommand’, these do not give an error if macro CMD already exists; instead, a log message is put into the transcript file if a command is redefined. Thus, ‘\DeclareRobustCommand’ can be used to define new robust commands or to redefine existing commands, making them robust. The starred form, ‘\DeclareRobustCommand*’, disallows the arguments from containing multiple paragraphs, just like the starred form of ‘\newcommand’ and ‘\renewcommand’. The meaning of the arguments is the same. Commands defined this way are a bit less efficient than those defined using ‘\newcommand’ so unless the command's data is fragile and the command is used within a moving argument, use ‘\newcommand’. Related to this, the ‘etoolbox’ package offers three commands and their starred forms: ‘\newrobustcmd’(‘*’) ‘\renewrobustcmd’(‘*’), and ‘\providerobustcmd’(‘*’). They are similar to ‘\newcommand’, ‘\renewcommand’, and ‘\providecommand’ and their own starred forms, but define a robust CMD. They have two possible advantages compared to ‘\DeclareRobustCommand’: 1. They use the low-level e-TeX protection mechanism rather than the higher-level LaTeX ‘\protect’ mechanism, so they do not incur the slight loss of performance mentioned above, and 2. They make the same distinction between ‘\new...’, ‘\renew...’, and ‘\provide...’, as the standard commands. That is, they do not just write a log message when you redefine CMD that already exists; you need to use either ‘\renew...’ or ‘\provide...’, or you get an error. This may or may not be a benefit. 12.14.8 ‘\ExecuteOptions’ ------------------------- Synopsis: \ExecuteOptions{OPTION-LIST} For each option OPTION in OPTION-LIST, in order, this command executes the command ‘\ds@OPTION’. If this command is not defined then that option is silently ignored. This can be used to provide a default option list before ‘\ProcessOptions’. For example, if in a class file you want the default to be 11pt fonts then you could specify ‘\ExecuteOptions{11pt}\ProcessOptions\relax’. 12.14.9 ‘\IfFileExists’ & ‘\InputIfFileExists’ ---------------------------------------------- Synopses: \IfFileExists{FILENAME}{TRUE-CODE}{FALSE-CODE} \InputIfFileExists{FILENAME}{TRUE-CODE}{FALSE-CODE} ‘\IfFileExists’ executes TRUE-CODE if LaTeX finds the file ‘FILENAME’ or FALSE-CODE otherwise. In the first case it executing TRUE-CODE and then inputs the file. Thus the command \IfFileExists{img.pdf}{% \includegraphics{img.pdf}} {\typeout{!! img.pdf not found} will include the graphic ‘img.pdf’ if it is found and otherwise give a warning. This command looks for the file in all search paths that LaTeX uses, not only in the current directory. To look only in the current directory do something like ‘\IfFileExists{./FILENAME}{TRUE-CODE}{FALSE-CODE}’. If you ask for a filename without a ‘.tex’ extension then LaTeX will first look for the file by appending the ‘.tex’; for more on how LaTeX handles file extensions see \input. ‘\InputIfFileExists’ is similar, but, as the name states, automatically ‘\input’s FILENAME if it exists. The TRUE-CODE is executed just before the ‘\input’; if the file doesn't exist, the FALSE-CODE is executed. An example: \InputIfFileExists{mypkg.cfg} {\PackageInfo{Loading mypkg.cfg for configuration information}} {\PackageInfo{No mypkg.cfg found}} 12.14.10 ‘\LoadClass’ & ‘\LoadClassWithOptions’ ----------------------------------------------- Synopses: \LoadClass[OPTIONS-LIST]{CLASS-NAME}[RELEASE-DATE] \LoadClassWithOptions{CLASS-NAME}[RELEASE-DATE] Load a class, as with ‘\documentclass[OPTIONS-LIST]{CLASS-NAME}[RELEASE-DATE]’. An example: ‘\LoadClass[twoside]{article}’. The OPTIONS-LIST, if present, is a comma-separated list. The RELEASE-DATE is also optional. If present it must have the form ‘YYYY/MM/DD’. If you request RELEASE-DATE and the date of the package installed on your system is earlier, then you get a warning on the screen and in the log like this: You have requested, on input line 4, version `2038/01/19' of document class article, but only version `2014/09/29 v1.4h Standard LaTeX document class' is available. The command version ‘\LoadClassWithOptions’ uses the list of options for the current class. This means it ignores any options passed to it via ‘\PassOptionsToClass’. This is a convenience command that lets you build classes on existing ones, such as the standard ‘article’ class, without having to track which options were passed. 12.14.11 ‘\NeedsTeXFormat’ -------------------------- Synopsis: \NeedsTeXFormat{FORMAT}[FORMAT-DATE] Specifies the format that this class must be run under. Often issued as the first line of a class file, and most often used as: ‘\NeedsTeXFormat{LaTeX2e}’. When a document using that class is processed, the format being run must exactly match the FORMAT name given, including case. If it does not match then execution stops with an error like ‘This file needs format `LaTeX2e' but this is `plain'.’. To require a version of the format that you know to have certain features, include the optional FORMAT-DATE on which those features were implemented. If present, it must be in the form ‘YYYY/MM/DD’. If the format version installed on your system is earlier than FORMAT DATE then you get a warning like this. You have requested release `2038/01/20' of LaTeX, but only release `2016/02/01' is available. 12.14.12 ‘\OptionNotUsed’ ------------------------- Adds the current option to the list of unused options. Can only be used within the CODE argument of either ‘\DeclareOption’ or ‘\DeclareOption*’. 12.14.13 ‘\PassOptionsToClass’ & ‘\PassOptionsToPackage’ -------------------------------------------------------- Synopses: \PassOptionsToClass{OPTIONS}{CLSNAME} \PassOptionsToPackage{OPTION}{PKGNAME} Adds the options in the comma-separated list OPTIONS to the options used by any future ‘\RequirePackage’ or ‘\usepackage’ command for the class CLSNAME or the package PKGNAME, respectively. The reason for these commands is that although you may load a package any number of times with no options, if you can specify options only the first time you load the package. Loading a package with options more than once will get you an error like ‘Option clash for package foo.’. LaTeX throws an error even if there is no conflict between the options. If your own code is bringing in a package twice then you can combine the calls; for example, replacing the two \RequirePackage[landscape]{geometry} \RequirePackage[margins=1in]{geometry} with the single command \RequirePackage[landscape,margins=1in]{geometry} However, suppose you are loading ‘firstpkg’ and inside that package it loads ‘secondpkg’, and you need ‘secondpkg’ to be loaded with option ‘draft’. Then before load the first package you must tell LaTeX about the desired options for the second package, like this: \PassOptionsToPackage{draft}{secondpkg} \RequirePackage{firstpkg} If ‘firstpkg.sty’ loads an option in conflict with what you want then you may have to alter its source, or yours. These commands are useful for general users as well as class and package writers. For instance, suppose a user wants to load the ‘graphicx’ package with the option ‘draft’ and also wants to use a class ‘foo’ that loads the ‘graphicx’ package, but without that option. The user could start their LaTeX file with ‘\PassOptionsToPackage{draft}{graphicx} \documentclass{foo}’. 12.14.14 ‘\ProcessOptions’ -------------------------- Synopsis: \ProcessOptions\@OPTIONS \ProcessOptions*\@OPTIONS Execute the code for each option that the user has invoked. Invoke it in the class file as ‘\ProcessOptions\relax’ (because of the existence of the starred version, described below). Options come in two types. “Local options” have been specified for this particular package in ‘\usepackage[OPTIONS]’, ‘\RequirePackage[OPTIONS]’, or the OPTIONS argument of ‘\PassOptionsToPackage{OPTIONS}’. “Global options” are those given by the class user in ‘\documentclass[OPTIONS]’. If an option is specified both locally and globally then it is local. When ‘\ProcessOptions’ is called for a package ‘pkg.sty’, the following happens: 1. For each option OPTION so far declared with ‘\DeclareOption’, ‘\ProcessOptions’ looks to see if that option is either global or local for ‘pkg’. If so, then it executes the declared code. This is done in the order in which these options were given in ‘pkg.sty’. 2. For each remaining local option, it executes the command ‘\ds@’OPTION if it has been defined somewhere (other than by a ‘\DeclareOption’); otherwise, it executes the default option code given in ‘\DeclareOption*’. If no default option code has been declared then it gives an error message. This is done in the order in which these options were specified. When ‘\ProcessOptions’ is called for a class it works in the same way except that all options are local, and the default CODE for ‘\DeclareOption*’ is ‘\OptionNotUsed’ rather than an error. The starred version ‘\ProcessOptions*’ executes the options in the order specified in the calling commands, rather than in the order of declaration in the class or package. For a package, this means that the global options are processed first. 12.14.15 ‘\ProvidesClass’ & ‘\ProvidesPackage’ ---------------------------------------------- Synopses: \ProvidesClass{CLSNAME}[RELEASE-DATE [INFO-TEXT]] \ProvidesPackage{PKGNAME}[RELEASE-DATE [INFO-TEXT]] Identifies the class or package being defined, printing a message to the screen and the log file. When you load a class or package, for example with ‘\documentclass{smcmemo}’ or ‘\usepackage{test}’, LaTeX inputs a file (‘smcmemo.cls’ and ‘test.sty’, respectively). If the name of the file does not match the class or package name declared in it then you get a warning. Thus, if you invoke ‘\documentclass{smcmemo}’, and the file ‘smcmemo.cls’ has the statement ‘\ProvidesClass{foo}’ then you get a warning like ‘You have requested document class `smcmemo', but the document class provides 'foo'.’ This warning does not prevent LaTeX from processing the rest of the class file normally. If you include the optional argument then you must include a date, before any spaces, of the form ‘YYYY/MM/DD’. The rest of the optional argument is free-form, although it traditionally identifies the class. It is written to the screen during compilation and to the log file. Thus, if your file ‘smcmemo.cls’ contains the line ‘\ProvidesClass{smcmemo}[2008/06/01 v1.0 SMC memo class]’ and your document's first line is ‘\documentclass{smcmemo}’ then you will see ‘Document Class: smcmemo 2008/06/01 v1.0 SMC memo class’. The date in the optional argument allows class and package users to ask to be warned if the version of the class or package is earlier than RELEASE DATE. For instance, a user could enter ‘\documentclass{smcmemo}[2018/10/12]’ or ‘\usepackage{foo}[[2017/07/07]]’ to require a class or package with certain features by specifying that it must be released no earlier than the given date. Perhaps more importantly, the date serves as documentation of the last release. (In practice, package users rarely include a date, and class users almost never do.) 12.14.16 ‘\ProvidesFile’ ------------------------ Synopsis: \ProvidesFile{FILENAME}[INFO-TEXT] Declare a file other than the main class and package files, such as a configuration or font definition file. It writes the given information to the log file, essentially like ‘\ProvidesClass’ and ‘\ProvidesPackage’ (see the previous section). For example: \ProvidesFile{smcmemo.cfg}[2017/10/12 config file for smcmemo.cls] writes this into the log: File: smcmemo.cfg 2017/10/12 config file for smcmemo.cls 12.14.17 ‘\RequirePackage’ & ‘\RequirePackageWithOptions’ --------------------------------------------------------- Synopsis: \RequirePackage[OPTION-LIST]{PKGNAME}[RELEASE-DATE] \RequirePackageWithOptions{PKGNAME}[RELEASE-DATE] Load a package, like the command ‘\usepackage’ (see Additional packages). An example: ‘\RequirePackage[landscape,margin=1in]{geometry}’ The initial optional argument OPTION-LIST, if present, must be a comma-separated list. The trailing optional argument RELEASE-DATE, if present, must have the form ‘YYYY/MM/DD’. If the release date of the package as installed on your system is earlier than RELEASE-DATE then you get a warning like ‘You have requested, on input line 9, version `2017/07/03' of package jhtest, but only version `2000/01/01' is available’. The ‘\RequirePackageWithOptions’ variant uses the list of options for the current class. This means it ignores any options passed to it via ‘\PassOptionsToClass’. This is a convenience command to allow easily building classes on existing ones without having to track which options were passed. The difference between ‘\usepackage’ and ‘\RequirePackage’ is small. The ‘\usepackage’ command is intended to be used in documents, while ‘\RequirePackage’ is intended for package and class files. The most significant difference in practice is that ‘\RequirePackage’ can be used in a document before the ‘\documentclass’ command, while ‘\usepackage’ gives an error there. The most common need for this nowadays is for the ‘\DocumentMetadata’ command (see \DocumentMetadata). The LaTeX development team strongly recommends use of these and related commands over plain TeX's ‘\input’; see the Class Guide (). 13 Counters *********** Everything LaTeX numbers for you has a counter associated with it. The name of the counter is often the same as the name of the environment or command associated with the number, except that the counter's name has no backslash ‘\’. Thus, associated with the ‘\chapter’ command is the ‘chapter’ counter that keeps track of the chapter number. Below is a list of the counters used in LaTeX's standard document classes to control numbering. part paragraph figure enumi chapter subparagraph table enumii section page footnote enumiii subsection equation mpfootnote enumiv subsubsection The ‘mpfootnote’ counter is used by the ‘\footnote’ command inside of a minipage (see minipage). The counters ‘enumi’ through ‘enumiv’ are used in the ‘enumerate’ environment, for up to four levels of nesting (see enumerate). Counters can have any integer value but they are typically positive. New counters are created with ‘\newcounter’. See \newcounter. 13.1 ‘\alph \Alph \arabic \roman \Roman \fnsymbol’: Printing counters ===================================================================== Print the value of a counter, in a specified style. For instance, if the counter COUNTER has the value 1 then a ‘\alph{COUNTER}’ in your source will result in a lowercase letter a appearing in the output. All of these commands take a single counter as an argument, for instance, ‘\alph{enumi}’. Note that the counter name does not start with a backslash. ‘\alph{COUNTER}’ Print the value of COUNTER in lowercase letters: 'a', 'b', ... If the counter's value is less than 1 or more than 26 then you get ‘LaTeX Error: Counter too large.’ ‘\Alph{COUNTER}’ Print in uppercase letters: 'A', 'B', ... If the counter's value is less than 1 or more than 26 then you get ‘LaTeX Error: Counter too large.’ ‘\arabic{COUNTER}’ Print in Arabic numbers such as ‘5’ or ‘-2’. ‘\roman{COUNTER}’ Print in lowercase roman numerals: 'i', 'ii', ... If the counter's value is less than 1 then you get no warning or error but LaTeX does not print anything in the output. ‘\Roman{COUNTER}’ Print in uppercase roman numerals: 'I', 'II', ... If the counter's value is less than 1 then you get no warning or error but LaTeX does not print anything in the output. ‘\fnsymbol{COUNTER}’ Prints the value of COUNTER using a sequence of nine symbols that are traditionally used for labeling footnotes. The value of COUNTER should be between 1 and 9, inclusive. If the counter's value is less than 0 or more than 9 then you get ‘LaTeX Error: Counter too large’, while if it is 0 then you get no error or warning but LaTeX does not output anything. Here are the symbols: Number Name Command Symbol ----------------------------------------------------------------------------- 1 asterisk ‘\ast’ * 2 dagger ‘\dagger’ † 3 ddagger ‘\ddagger’ ‡ 4 section-sign ‘\S’ § 5 paragraph-sign ‘\P’ ¶ 6 double-vert ‘\parallel’ ‖ 7 double-asterisk ‘\ast\ast’ ** 8 double-dagger ‘\dagger\dagger’ †† 9 double-ddagger ‘\ddagger\ddagger’ ‡‡ 13.2 ‘\usecounter’ ================== Synopsis: \usecounter{COUNTER} Used in the second argument of the ‘list’ environment (see list), this declares that list items will be numbered by COUNTER. It initializes COUNTER to zero, and arranges that when ‘\item’ is called without its optional argument then COUNTER is incremented by ‘\refstepcounter’, making its value be the current ‘ref’ value (see \ref). This command is fragile (see \protect). Put in the document preamble, this example makes a new list environment enumerated with TESTCOUNTER: \newcounter{testcounter} \newenvironment{test}{% \begin{list}{}{% \usecounter{testcounter} } }{% \end{list} } 13.3 ‘\value’ ============= Synopsis: \value{COUNTER} Expands to the value of the counter COUNTER. (Note that the name of a counter does not begin with a backslash.) This example outputs ‘Test counter is 6. Other counter is 5.’. \newcounter{test} \setcounter{test}{5} \newcounter{other} \setcounter{other}{\value{test}} \addtocounter{test}{1} Test counter is \arabic{test}. Other counter is \arabic{other}. The ‘\value’ command is not used for typesetting the value of the counter. For that, see \alph \Alph \arabic \roman \Roman \fnsymbol. It is often used in ‘\setcounter’ or ‘\addtocounter’ but ‘\value’ can be used anywhere that LaTeX expects a number, such as in ‘\hspace{\value{foo}\parindent}’. It must not be preceded by ‘\protect’ (see \protect). This example inserts ‘\hspace{4\parindent}’. \setcounter{myctr}{3} \addtocounter{myctr}{1} \hspace{\value{myctr}\parindent} 13.4 ‘\setcounter’ ================== Synopsis: \setcounter{COUNTER}{VALUE} Globally set the counter COUNTER to have the value of the VALUE argument, which must be an integer. Thus, you can set a counter's value as ‘\setcounter{section}{5}’. Note that the counter name does not start with a backslash. In this example if the counter ‘theorem’ has value 12 then the second line will print ‘XII’. \setcounter{exercise}{\value{theorem}} Here it is in Roman: \Roman{exercise}. 13.5 ‘\addtocounter’ ==================== Synopsis: \addtocounter{COUNTER}{VALUE} Globally increment COUNTER by the amount specified by the VALUE argument, which may be negative. In this example the section value appears as ‘VII’. \setcounter{section}{5} \addtocounter{section}{2} Here it is in Roman: \Roman{section}. 13.6 ‘\refstepcounter’ ====================== Synopsis: \refstepcounter{COUNTER} Globally increments the value of COUNTER by one, as does ‘\stepcounter’ (see \stepcounter). The difference is that this command resets the value of any counter numbered within it. (For the definition of "counters numbered within", see \newcounter.) In addition, this command also defines the current ‘\ref’ value to be the result of ‘\thecounter’. While the counter value is set globally, the ‘\ref’ value is set locally, i.e., inside the current group. 13.7 ‘\stepcounter’ =================== Synopsis: \stepcounter{COUNTER} Globally adds one to COUNTER and resets all counters numbered within it. (For the definition of "counters numbered within", see \newcounter.) This command differs from ‘\refstepcounter’ in that this one does not influence references; that is, it does not define the current ‘\ref’ value to be the result of ‘\thecounter’ (see \refstepcounter). 13.8 ‘\day’ & ‘\month’ & ‘\year’ ================================ LaTeX defines the counter ‘\day’ for the day of the month (nominally with value between 1 and 31), ‘\month’ for the month of the year (nominally with value between 1 and 12), and ‘\year’ for the year. When TeX starts up, they are set from the current values on the system. The related command ‘\today’ produces a string representing the current day (see \today). They counters are not updated as the job progresses so in principle they could be incorrect by the end. In addition, TeX does no sanity check: \day=-2 \month=13 \year=-4 \today gives no error or warning and results in the output ‘-2, -4’ (the bogus month value produces no output). See Command line input, to force the date to a given value from the command line. 14 Lengths ********** A “length” is a measure of distance. Many LaTeX commands take a length as an argument. Lengths come in two types. A “rigid length” such as ‘10pt’ does not contain a ‘plus’ or ‘minus’ component. (Plain TeX calls this a “dimen”.) A “rubber length” (what plain TeX calls a “skip” or “glue”) such as with ‘1cm plus0.05cm minus0.01cm’ can contain either or both of those components. In that rubber length, the ‘1cm’ is the “natural length” while the other two, the ‘plus’ and ‘minus’ components, allow TeX to stretch or shrink the length to optimize placement. The illustrations below use these two commands. % make a black bar 10pt tall and #1 wide \newcommand{\blackbar}[1]{\rule{#1}{10pt}} % Make a box around #2 that is #1 wide (excluding the border) \newcommand{\showhbox}[2]{% \fboxsep=0pt\fbox{\hbox to #1{#2}}} This next example uses those commands to show a black bar 100 points long between ‘ABC’ and ‘XYZ’. This length is rigid. ABC\showhbox{100pt}{\blackbar{100pt}}XYZ As for rubber lengths, shrinking is simpler one: with ‘1cm minus 0.05cm’, the natural length is 1cm but TeX can shrink it down as far as 0.95cm. Beyond that, TeX refuses to shrink any more. Thus, below the first one works fine, producing a space of 98 points between the two bars. ABC\showhbox{300pt}{% \blackbar{101pt}\hspace{100pt minus 2pt}\blackbar{101pt}}YYY ABC\showhbox{300pt}{% \blackbar{105pt}\hspace{100pt minus 1pt}\blackbar{105pt}}YYY But the second one gets a warning like ‘Overfull \hbox (1.0pt too wide) detected at line 17’. In the output the first ‘Y’ is overwritten by the end of the black bar, because the box's material is wider than the 300pt allocated, as TeX has refused to shrink the total to less than 309 points. Stretching is like shrinking except that if TeX is asked to stretch beyond the given amount, it will do it. Here the first line is fine, producing a space of 110 points between the bars. ABC\showhbox{300pt}{% \blackbar{95pt}\hspace{100pt plus 10pt}\blackbar{95pt}}YYY ABC\showhbox{300pt}{% \blackbar{95pt}\hspace{100pt plus 1pt}\blackbar{95pt}}YYY In the second line TeX needs a stretch of 10 points and only 1 point was specified. TeX stretches the space to the required length but it gives you a warning like ‘Underfull \hbox (badness 10000) detected at line 22’. (We won't discuss badness.) You can put both stretch and shrink in the same length, as in ‘1ex plus 0.05ex minus 0.02ex’. If TeX is setting two or more rubber lengths then it allocates the stretch or shrink in proportion. ABC\showhbox{300pt}{% \blackbar{100pt}% left \hspace{0pt plus 50pt}\blackbar{80pt}\hspace{0pt plus 10pt}% middle \blackbar{100pt}}YYY % right The left and right bars take up 100 points, so the middle needs another 100. The middle bar is 80 points so the two ‘\hspace’'s must stretch 20 points. Because the two are ‘plus 50pt’ and ‘plus 10pt’, TeX gets 5/6 of the stretch from the first space and 1/6 from the second. The ‘plus’ or ‘minus’ component of a rubber length can contain a “fill” component, as in ‘1in plus2fill’. This gives the length infinite stretchability or shrinkability so that TeX could set it to any distance. Here the two figures will be equally spaced across the page. \begin{minipage}{\linewidth} \hspace{0pt plus 1fill}\includegraphics{godel.png}% \hspace{0pt plus 1fill}\includegraphics{einstein.png}% \hspace{0pt plus 1fill} \end{minipage} TeX has three levels of infinity for glue components: ‘fil’, ‘fill’, and ‘filll’. The later ones are more infinite than the earlier ones. Ordinarily document authors only use the middle one (see \hfill and see \vfill). Multiplying a rubber length by a number turns it into a rigid length, so that after ‘\setlength{\ylength}{1in plus 0.2in}’ and ‘\setlength{\zlength}{3\ylength}’ then the value of ‘\zlength’ is ‘3in’. 14.1 Units of length ==================== TeX and LaTeX know about these units both inside and outside of math mode. ‘pt’ Point, 1/72.27 inch. The (approximate) conversion to metric units is 1point = .35146mm = .035146cm. ‘pc’ Pica, 12 pt ‘in’ Inch, 72.27 pt ‘bp’ Big point, 1/72 inch. This length is the definition of a point in PostScript and many desktop publishing systems. ‘mm’ Millimeter, 2.845pt ‘cm’ Centimeter, 10mm ‘dd’ Didot point, 1.07 pt ‘cc’ Cicero, 12 dd ‘sp’ Scaled point, 1/65536 pt Three other units are defined according to the current font, rather than being an absolute dimension. ‘ex’ The x-height of the current font “ex”, traditionally the height of the lowercase letter x, is often used for vertical lengths. ‘em’ Similarly “em”, traditionally the width of the capital letter M, is often used for horizontal lengths. This is also often the size of the current font, e.g., a nominal 10pt font will have 1em = 10pt. LaTeX has several commands to produce horizontal spaces based on the em (see \enspace & \quad & \qquad). ‘mu’ Finally, in math mode, many definitions are expressed in terms of the math unit “mu”, defined by 1em = 18mu, where the em is taken from the current math symbols family. See Spacing in math mode. Using these units can help make a definition work better across font changes. For example, a definition of the vertical space between list items given as ‘\setlength{\itemsep}{1ex plus 0.05ex minus 0.01ex}’ is more likely to still be reasonable if the font is changed than a definition given in points. 14.2 ‘\setlength’ ================= Synopsis: \setlength{\LEN}{AMOUNT} Set the length \LEN to AMOUNT. The length name ‘\LEN’ has to be a control sequence (see Control sequences), and as such must begin with a backslash, ‘\’ under normal circumstances. The AMOUNT can be a rubber length (see Lengths). It can be positive, negative or zero, and can be in any units that LaTeX understands (see Units of length). Below, with LaTeX's defaults the first paragraph will be indented while the second will not. I told the doctor I broke my leg in two places. \setlength{\parindent}{0em} He said stop going to those places. If you did not declare \LEN with ‘\newlength’, for example if you mistype it as in ‘\newlength{\specparindent}\setlength{\sepcparindent}{...}’, then you get an error like ‘Undefined control sequence. \sepcindent’. If you omit the backslash at the start of the length name then you get an error like ‘Missing number, treated as zero.’. 14.3 ‘\addtolength’ =================== Synopsis: \addtolength{\LEN}{AMOUNT} Increment the length \LEN by AMOUNT. The length name ‘\LEN’ has to be a control sequence (see Control sequences), and as such must begin with a backslash, ‘\’ under normal circumstances. The AMOUNT is a rubber length (see Lengths). It can be positive, negative or zero, and can be in any units that LaTeX understands (see Units of length). Below, if ‘\parskip’ starts with the value ‘0pt plus 1pt’ Doctor: how is the boy who swallowed the silver dollar? \addtolength{\parskip}{1pt} Nurse: no change. then it has the value ‘1pt plus 1pt’ for the second paragraph. If you did not declare \LEN with ‘\newlength’, for example if you mistype it as in ‘\newlength{\specparindent}\addtolength{\sepcparindent}{...}’, then you get an error like ‘Undefined control sequence. \sepcindent’. If the AMOUNT uses some length that has not been declared, for instance if for example you mistype the above as ‘\addtolength{\specparindent}{0.6\praindent}’, then you get something like ‘Undefined control sequence. \praindent’. If you leave off the backslash at the start of \LEN, as in ‘\addtolength{parindent}{1pt}’, then you get something like ‘You can't use `the letter p' after \advance’. 14.4 ‘\settodepth’ ================== Synopsis: \settodepth{\LEN}{TEXT} Set the length \LEN to the depth of box that LaTeX gets on typesetting the TEXT argument. The length name ‘\LEN’ has to be a control sequence (see Control sequences), and as such must begin with a backslash, ‘\’ under normal circumstances. This will print how low the character descenders go. \newlength{\alphabetdepth} \settodepth{\alphabetdepth}{abcdefghijklmnopqrstuvwxyz} \the\alphabetdepth If you did not declare \LEN with ‘\newlength’, if for example you mistype the above as ‘\settodepth{\aplhabetdepth}{abc...}’, then you get something like ‘Undefined control sequence. \aplhabetdepth’. If you leave the backslash out of \LEN, as in ‘\settodepth{alphabetdepth}{...}’ then you get something like ‘Missing number, treated as zero. \setbox’. 14.5 ‘\settoheight’ =================== Synopsis: \settoheight{\LEN}{text} Sets the length \LEN to the height of box that LaTeX gets on typesetting the ‘text’ argument. The length name ‘\LEN’ has to be a control sequence (see Control sequences), and as such must begin with a backslash, ‘\’ under normal circumstances. This will print how high the characters go. \newlength{\alphabetheight} \settoheight{\alphabetheight}{abcdefghijklmnopqrstuvwxyz} \the\alphabetheight If no such length \LEN has been declared with ‘\newlength’, if for example you mistype as ‘\settoheight{\aplhabetheight}{abc...}’, then you get something like ‘Undefined control sequence. \alphabetheight’. If you leave the backslash out of \LEN, as in ‘\settoheight{alphabetheight}{...}’ then you get something like ‘Missing number, treated as zero. \setbox’. 14.6 ‘\settowidth’ ================== Synopsis: \settowidth{\LEN}{TEXT} Set the length \LEN to the width of the box that LaTeX gets on typesetting the TEXT argument. The length name ‘\LEN’ has to be a control sequence (see Control sequences), and as such must begin with a backslash, ‘\’ under normal circumstances. This prints the width of the lowercase ASCII alphabet. \newlength{\alphabetwidth} \settowidth{\alphabetwidth}{abcdefghijklmnopqrstuvwxyz} \the\alphabetwidth If no such length \LEN has been declared with ‘\newlength’, if for example you mistype the above as ‘\settowidth{\aplhabetwidth}{abc...}’, then you get something like ‘Undefined control sequence. \aplhabetwidth’. If you leave the backslash out of \LEN, as in ‘\settoheight{alphabetwidth}{...}’ then you get something like ‘Missing number, treated as zero. \setbox’. 14.7 ‘\stretch’ =============== Synopsis: \stretch{NUMBER} Produces a rubber length with zero natural length and NUMBER times ‘\fill’ units of stretchability (see Lengths). The NUMBER can be positive or negative. This command is robust (see \protect). It works for both vertical and horizontal spacing. In this horizontal example, LaTeX produces three tick marks, and the distance between the first and second is half again as long as the distance between the second and third. \rule{0.4pt}{1ex}\hspace{\stretch{1.5}}% \rule{0.4pt}{1ex}\hspace{\stretch{1}}% \rule{0.4pt}{1ex} In this vertical example, the ‘We dedicate ...’ will have three times as much space under it as above it. \newenvironment{dedication}{% in document preamble \clearpage\thispagestyle{empty}% \vspace*{\stretch{1}} % stretchable space at top \it }{% \vspace{\stretch{3}} % space at bot is 3x as at top \clearpage } ... \begin{dedication} % in document body We dedicate this book to our wives. \end{dedication} 14.8 Expressions ================ Synopsis, one of: \numexpr EXPRESSION \dimexpr EXPRESSION \glueexpr EXPRESSION \muglue EXPRESSION Any place where you may write an integer, or a TeX dimen, or TeX glue, or muglue, you can instead write an expression to compute that type of quantity. An example is that ‘\the\dimexpr\linewidth-4pt\relax’ will produce as output the length that is four points less than width of a line (the only purpose of ‘\the’ is to show the result in the document). Analogously, ‘\romannumeral\numexpr6+3\relax’ will produce ‘ix’, and ‘\the\glueexpr 5pt plus 1pt * 2 \relax’ will produce ‘10.0pt plus 2.0pt’. A convenience here over doing calculations by allocating registers and then using ‘\advance’, etc., is that the evaluation of expressions does not involve assignments and can therefore be performed in places where assignments are not allowed. The next example computes the width of the ‘\parbox’. \newlength{\offset}\setlength{\offset}{2em} \begin{center} \parbox{\dimexpr\linewidth-\offset*3}{With malice toward none with charity for all with firmness in the right as God gives us to see the right let us strive on to finish the work we are in to bind up the nation's wounds, to care for him who shall have borne the battle and for his widow and his orphan \textasciitilde\ to do all which may achieve and cherish a just and lasting peace among ourselves and with all nations. ---Abraham Lincoln, Second Inaugural Address, from the memorial} \end{center} The EXPRESSION consists of one or more terms of the same type (integer, dimension, etc.) that are added or subtracted. A term that is a type of number, dimension, etc., consists of a factor of that type, optionally multiplied or divided by factors. A factor of a type is either a quantity of that type or a parenthesized subexpression. The expression produces a result of the given type, so that ‘\numexpr’ produces an integer, ‘\dimexpr’ produces a dimension, etc. In the quotation example above, changing to ‘\dimexpr\linewidth-3*\offset’ gives the error ‘Illegal unit of measure (pt inserted)’. This is because for ‘\dimexpr’ and ‘\glueexpr’, the input consists of a dimension or glue value followed by an optional multiplication factor, and not the other way around. Thus ‘\the\dimexpr 1pt*10\relax’ is valid and produces ‘10.0pt’, but ‘\the\dimexpr 10*1pt\relax’ gives the ‘Illegal unit’ error. The expressions absorb tokens and carry out appropriate mathematics up to a ‘\relax’ (which will be absorbed), or up to the first non-valid token. Thus, ‘\the\numexpr2+3px’ will print ‘5px’, because LaTeX reads the ‘\numexpr2+3’, which is made up of numbers, and then finds the letter ‘p’, which cannot be part of a number. It therefore terminates the expression and produces the ‘5’, followed by the regular text ‘px’. This termination behavior is useful in comparisons. In ‘\ifnum\numexpr\parindent*2 < 10pt Yes\else No\fi’, the less than sign terminates the expression and the result is ‘No’ (in a standard LaTeX article). Expressions may use the operators ‘+’, ‘-’, ‘*’ and ‘/’ along with parentheses for subexpressions, ‘(...)’. In glue expressions the ‘plus’ and ‘minus’ parts do not need parentheses to be affected by a factor. So ‘\the\glueexpr 5pt plus 1pt * 2 \relax’ results in ‘10pt plus 2pt’. TeX will coerce other numerical types in the same way as it does when doing register assignment. Thus ‘\the\numexpr\dimexpr 1pt\relax\relax’ will result in ‘65536’, which is ‘1pt’ converted to scaled points (see ‘sp’: units of length sp, TeX's internal unit) and then coerced into an integer. With a ‘\glueexpr’ here, the stretch and shrink would be dropped. Going the other way, a ‘\numexpr’ inside a ‘\dimexpr’ or ‘\glueexpr’ will need appropriate units, as in ‘\the\dimexpr\numexpr 1 + 2\relax pt\relax’, which produces ‘3.0pt’. The details of the arithmetic: each factor is checked to be in the allowed range, numbers must be less than 2^{31} in absolute value, and dimensions or glue components must be less than 2^{14} points, or ‘mu’, or ‘fil’, etc. The arithmetic operations are performed individually, except for a scaling operation (a multiplication immediately followed by a division) which is done as one combined operation with a 64-bit product as intermediate value. The result of each operation is again checked to be in the allowed range. Finally, division and scaling take place with rounding (unlike TeX's ‘\divide’, which truncates). Thus ‘\the\dimexpr 5pt*(3/2)\relax’ puts ‘10.0pt’ in the document, because it rounds ‘3/2’ to ‘2’, while ‘\the\dimexpr 5pt*(4/3)\relax’ produces ‘5.0pt’. 15 Making paragraphs ******************** To start a paragraph, just type some text. To end the current paragraph, put an empty line. This is three paragraphs, the separation of which is made by two empty lines. It is a truth universally acknowledged, that a single man in possession of a good fortune, must be in want of a wife. However little known the feelings or views of such a man may be on his first entering a neighbourhood, this truth is so well fixed in the minds of the surrounding families, that he is considered the rightful property of some one or other of their daughters. ``My dear Mr. Bennet,'' said his lady to him one day, ``have you heard that Netherfield Park is let at last?'' A paragraph separator can be made of a sequence of at least one blank line, at least one of which is not terminated by a comment. A blank line is a line that is empty or made only of blank characters such as space or tab. Comments in source code are started with a ‘%’ and span up to the end of line. In the following example the two columns are identical: \documentclass[twocolumn]{article} \begin{document} First paragraph. Second paragraph. \newpage First paragraph. % separator lines may contain blank characters. Second paragraph. \end{document} Once LaTeX has gathered all of a paragraph's contents it divides that content into lines in a way that is optimized over the entire paragraph (see Line breaking). There are places where a new paragraph is not permitted. Don't put a blank line in math mode (see Modes); here the blank line before the ‘\end{equation}’ \begin{equation} 2^{|S|} > |S| \end{equation} will get you the error ‘Missing $ inserted’. Similarly, the blank line in this ‘\section’ argument \section{aaa bbb} gets ‘Runaway argument? {aaa ! Paragraph ended before \@sect was complete’. 15.1 ‘\par’ =========== Synopsis (note that while reading the input TeX converts any sequence of one or more blank lines to a ‘\par’, Making paragraphs): \par End the current paragraph. The usual way to separate paragraphs is with a blank line but the ‘\par’ command is entirely equivalent. This command is robust (see \protect). This example uses ‘\par’ rather than a blank line simply for readability. \newcommand{\syllabusLegalese}{% \whatCheatingIs\par\whatHappensWhenICatchYou} In LR mode the ‘\par’ command does nothing and is ignored. In paragraph mode, the ‘\par’ command terminates paragraph mode, switching LaTeX to vertical mode (see Modes). You cannot use the ‘\par’ command in a math mode. You also cannot use it in the argument of many commands, such as the sectioning commands, e.g. ‘\section’ (see Making paragraphs and \newcommand & \renewcommand). The ‘\par’ command is not the same as the ‘\paragraph’ command. The latter is, like ‘\section’ or ‘\subsection’, a sectioning command used by the LaTeX document standard classes (see \subsubsection & \paragraph & \subparagraph). The ‘\par’ command is not the same as ‘\newline’ or the line break double backslash, ‘\\’. The difference is that ‘\par’ ends the paragraph, not just the line, and also triggers the addition of the between-paragraph vertical space ‘\parskip’ (see \parindent & \parskip). The output from this example xyz \setlength{\parindent}{3in} \setlength{\parskip}{5in} \noindent test\indent test1\par test2 is: after ‘xyz’ there is a vertical skip of 5 inches and then ‘test’ appears, aligned with the left margin. On the same line, there is an empty horizontal space of 3 inches and then ‘test1’ appears. Finally. there is a vertical space of 5 inches, followed by a fresh paragraph with a paragraph indent of 3 inches, and then LaTeX puts the text ‘test2’. 15.2 ‘\indent’ & ‘\noindent’ ============================ Synopsis: \indent or \noindent Go into horizontal mode (see Modes). The ‘\indent’ command first outputs an empty box whose width is ‘\parindent’. These commands are robust (see \protect). Ordinarily you create a new paragraph by putting in a blank line. See \par, for the difference between this command and ‘\par’. To start a paragraph without an indent, or to continue an interrupted paragraph, use ‘\noindent’. In the middle of a paragraph the ‘\noindent’ command has no effect, because LaTeX is already in horizontal mode there. The ‘\indent’ command's only effect is to output a space. This example starts a fresh paragraph. ... end of the prior paragraph. \noindent This paragraph is not indented. and this continues an interrupted paragraph. The data \begin{center} \begin{tabular}{rl} ... \end{tabular} \end{center} \noindent shows this clearly. To omit indentation in the entire document put ‘\setlength{\parindent}{0pt}’ in the preamble. If you do that, you may want to also set the length of spaces between paragraphs, ‘\parskip’ (see \parindent & \parskip). Default LaTeX styles have the first paragraph after a section that is not indented, as is traditional typesetting in English. To change that, look on CTAN for the package ‘indentfirst’. 15.3 ‘\parindent’ & ‘\parskip’ ============================== Synopsis: \setlength{\parindent}{HORIZONTAL LEN} \setlength{\parskip}{VERTICAL LEN} Both are rubber lengths (see Lengths). They affect the indentation of ordinary paragraphs, not paragraphs inside minipages (see minipage), and the vertical space between paragraphs, respectively. For example, if this is put in the preamble: \setlength{\parindent}{0em} \setlength{\parskip}{1ex} The document will have paragraphs that are not indented, but instead are vertically separated by about the height of a lowercase ‘x’. In LaTeX standard class documents, the default value for ‘\parindent’ in one-column documents is ‘15pt’ when the default text size is ‘10pt’, ‘17pt’ for ‘11pt’, and ‘1.5em’ for ‘12pt’. In two-column documents it is ‘1em’. (These values are set before LaTeX calls ‘\normalfont’ so ‘em’ is derived from the default font, Computer Modern. If you use a different font then to set ‘\parindent’ to 1em matching that font, put ‘\AtBeginDocument{\setlength{\parindent}{1em}}’ in the preamble.) The default value for ‘\parskip’ in LaTeX's standard document classes is ‘0pt plus1pt’. 15.4 Marginal notes =================== Synopsis, one of: \marginpar{RIGHT} \marginpar[LEFT]{RIGHT} Create a note in the margin. The first line of the note will have the same baseline as the line in the text where the ‘\marginpar’ occurs. The margin that LaTeX uses for the note depends on the current layout (see Document class options) and also on ‘\reversemarginpar’ (see below). If you are using one-sided layout (document option ‘oneside’) then it goes in the right margin. If you are using two-sided layout (document option ‘twoside’) then it goes in the outside margin. If you are in two-column layout (document option ‘twocolumn’) then it goes in the nearest margin. If you declare ‘\reversemarginpar’ then LaTeX will place subsequent marginal notes in the opposite margin to that given in the prior paragraph. Revert that to the default position with ‘\normalmarginpar’. When you specify the optional argument LEFT then it is used for a note in the left margin, while the mandatory argument RIGHT is used for a note in the right margin. Normally, a note's first word will not be hyphenated. You can enable hyphenation there by beginning LEFT or RIGHT with ‘\hspace{0pt}’. These parameters affect the formatting of the note: ‘\marginparpush’ Minimum vertical space between notes; default ‘7pt’ for ‘12pt’ documents, ‘5pt’ else. See also page layout parameters marginparpush. ‘\marginparsep’ Horizontal space between the main text and the note; default ‘11pt’ for ‘10pt’ documents, ‘10pt’ else. ‘\marginparwidth’ Width of the note itself; default for a one-sided ‘10pt’ document is ‘90pt’, ‘83pt’ for ‘11pt’, and ‘68pt’ for ‘12pt’; ‘17pt’ more in each case for a two-sided document. In two column mode, the default is ‘48pt’. The standard LaTeX routine for marginal notes does not prevent notes from falling off the bottom of the page. 16 Math formulas **************** Produce mathematical text by putting LaTeX into math mode or display math mode (see Modes). This example shows both. The wave equation for \( u \) is \begin{displaymath} \frac{\partial^2u}{\partial t^2} = c^2\nabla^2u \end{displaymath} where \( \nabla^2 \) is the spatial Laplacian and \( c \) is constant. Math mode is for inline mathematics. In the above example it is invoked by the starting ‘\(’ and finished by the matching ending ‘\)’. Display math mode is for displayed equations and here is invoked by the ‘displaymath’ environment. Note that any mathematical text whatever, including mathematical text consisting of just one character, is handled in math mode. When in math mode or display math mode, LaTeX handles many aspects of your input text differently than in other text modes. For example, contrast x+y with \( x+y \) in math mode the letters are in italics and the spacing around the plus sign is different. There are three ways to make inline formulas, to put LaTeX in math mode. \( MATHEMATICAL MATERIAL \) $ MATHEMATICAL MATERIAL $ \begin{math} MATHEMATICAL MATERIAL \end{math} The first form is preferred and the second is quite common, but the third form is rarely used. You can sometimes use one and sometimes another, as in ‘\(x\) and $y$’. You can use these in paragraph mode or in LR mode (see Modes). To make displayed formulas, put LaTeX into display math mode with either: \begin{displaymath} MATHEMATICAL MATERIAL \end{displaymath} or \begin{equation} MATHEMATICAL MATERIAL \end{equation} (see displaymath, see equation). The only difference is that with the ‘equation’ environment, LaTeX puts a formula number alongside the formula. The construct ‘\[ MATH \]’ is equivalent to ‘\begin{displaymath} MATH \end{displaymath}’. These environments can only be used in paragraph mode (see Modes). The American Mathematical Society has made freely available a set of packages that greatly expand your options for writing mathematics, ‘amsmath’ and ‘amssymb’ (also be aware of the ‘mathtools’ package that is an extension to, and loads, ‘amsmath’). New documents that will have mathematical text should use these packages. Descriptions of these packages is outside the scope of this document; see their documentation on CTAN. 16.1 Subscripts & superscripts ============================== Synopsis (in math mode or display math mode), one of: BASE^EXP BASE^{EXP} or, one of: BASE_EXP BASE_{EXP} Make EXP appear as a superscript of BASE (with the caret character, ‘^’) or a subscript (with underscore, ‘_’). In this example the ‘0’'s and ‘1’'s are subscripts while the ‘2’'s are superscripts. \( (x_0+x_1)^2 \leq (x_0)^2+(x_1)^2 \) To have the subscript or superscript contain more than one character, surround the expression with curly braces, as in ‘e^{-2x}’. This example's fourth line shows curly braces used to group an expression for the exponent. \begin{displaymath} (3^3)^3=27^3=19\,683 \qquad 3^{(3^3)}=3^{27}=7\,625\,597\,484\,987 \end{displaymath} LaTeX knows how to handle a superscript on a superscript, or a subscript on a subscript, or supers on subs, or subs on supers. So, expressions such as ‘e^{x^2}’ and ‘x_{i_0}’ give correct output. Note the use in those expressions of curly braces to give the BASE a determined EXP. If you enter ‘\(3^3^3\)’, this interpreted as ‘\(3^{3}^{3}\)’ and then you get TeX error ‘Double superscript’. LaTeX does the right thing when something has both a subscript and a superscript. In this example the integral has both. They come out in the correct place without any author intervention. \begin{displaymath} \int_{x=a}^b f'(x)\,dx = f(b)-f(a) \end{displaymath} Note the curly braces around ‘x=a’ to make the entire expression a subscript. To put a superscript or subscript before a symbol, use a construct like ‘{}_t K^2’. The empty curly braces ‘{}’ give the subscript something to attach to and keeps it from accidentally attaching to a prior symbols. Using the subscript or superscript character outside of math mode or display math mode, as in ‘the expression x^2’, will get you the TeX error ‘Missing $ inserted’. A common reason to want subscripts outside of a mathematics mode is to typeset chemical formulas. There are packages for that, such as ‘mhchem’; see CTAN. 16.2 Math symbols ================= LaTeX provides almost any mathematical or technical symbol that anyone uses. For example, if you include ‘$\pi$’ in your source, you will get the pi symbol π. See the "Comprehensive LaTeX Symbol List" package at . Here is a list of commonly-used symbols. It is by no means exhaustive. Each symbol is described with a short phrase, and its symbol class, which determines the spacing around it, is given in parenthesis. Unless said otherwise, the commands for these symbols can be used only in math mode. To redefine a command so that it can be used whatever the current mode, see \ensuremath. ‘\|’ ∥ Parallel (relation). Synonym: ‘\parallel’. ‘\aleph’ ℵ Aleph, transfinite cardinal (ordinary). ‘\alpha’ α Lowercase Greek letter alpha (ordinary). ‘\amalg’ ⨿ Disjoint union (binary) ‘\angle’ ∠ Geometric angle (ordinary). Similar: less-than sign ‘<’ and angle bracket ‘\langle’. ‘\approx’ ≈ Almost equal to (relation). ‘\ast’ ∗ Asterisk operator, convolution, six-pointed (binary). Synonym: ‘*’, which is often a superscript or subscript, as in the Kleene star. Similar: ‘\star’, which is five-pointed, and is sometimes used as a general binary operation, and sometimes reserved for cross-correlation. ‘\asymp’ ≍ Asymptotically equivalent (relation). ‘\backslash’ \ Backslash (ordinary). Similar: set minus ‘\setminus’, and ‘\textbackslash’ for backslash outside of math mode. ‘\beta’ β Lowercase Greek letter beta (ordinary). ‘\bigcap’ ⋂ Variable-sized, or n-ary, intersection (operator). Similar: binary intersection ‘\cap’. ‘\bigcirc’ ⚪ Circle, larger (binary). Similar: function composition ‘\circ’. ‘\bigcup’ ⋃ Variable-sized, or n-ary, union (operator). Similar: binary union ‘\cup’. ‘\bigodot’ ⨀ Variable-sized, or n-ary, circled dot operator (operator). ‘\bigoplus’ ⨁ Variable-sized, or n-ary, circled plus operator (operator). ‘\bigotimes’ ⨂ Variable-sized, or n-ary, circled times operator (operator). ‘\bigtriangledown’ ▽ Variable-sized, or n-ary, open triangle pointing down (binary). Synonym: \VARBIGTRIANGLEDOWN. ‘\bigtriangleup’ △ Variable-sized, or n-ary, open triangle pointing up (binary). Synonym: \VARBIGTRIANGLEUP. ‘\bigsqcup’ ⨆ Variable-sized, or n-ary, square union (operator). ‘\biguplus’ ⨄ Variable-sized, or n-ary, union operator with a plus (operator). (Note that the name has only one p.) ‘\bigvee’ ⋁ Variable-sized, or n-ary, logical-or (operator). ‘\bigwedge’ ⋀ Variable-sized, or n-ary, logical-and (operator). ‘\bot’ ⊥, Up tack, bottom, least element of a partially ordered set, or a contradiction (ordinary). See also ‘\top’. ‘\bowtie’ ⋈ Natural join of two relations (relation). ‘\Box’ □ Modal operator for necessity; square open box (ordinary). Not available in plain TeX. In LaTeX you need to load the ‘amssymb’ package. ‘\bullet’ • Bullet (binary). Similar: multiplication dot ‘\cdot’. ‘\cap’ ∩ Intersection of two sets (binary). Similar: variable-sized operator ‘\bigcap’. ‘\cdot’ ⋅ Multiplication (binary). Similar: Bullet dot ‘\bullet’. ‘\chi’ χ Lowercase Greek chi (ordinary). ‘\circ’ ∘ Function composition, ring operator (binary). Similar: variable-sized operator ‘\bigcirc’. ‘\clubsuit’ ♣ Club card suit (ordinary). ‘\complement’ ∁, Set complement, used as a superscript as in ‘$S^\complement$’ (ordinary). Not available in plain TeX. In LaTeX you need to load the ‘amssymb’ package. Also used: ‘$S^{\mathsf{c}}$’ or ‘$\bar{S}$’. ‘\cong’ ≅ Congruent (relation). ‘\coprod’ ∐ Coproduct (operator). ‘\cup’ ∪ Union of two sets (binary). Similar: variable-sized operator ‘\bigcup’. ‘\dagger’ † Dagger relation (binary). ‘\dashv’ ⊣ Dash with vertical, reversed turnstile (relation). Similar: turnstile ‘\vdash’. ‘\ddagger’ ‡ Double dagger relation (binary). ‘\Delta’ Δ Greek uppercase delta, used for increment (ordinary). ‘\delta’ δ Greek lowercase delta (ordinary). ‘\Diamond’ ◇ Large diamond operator (ordinary). Not available in plain TeX. In LaTeX you need to load the ‘amssymb’ package. ‘\diamond’ ⋄ Diamond operator (binary). Similar: large diamond ‘\Diamond’, circle bullet ‘\bullet’. ‘\diamondsuit’ ♢ Diamond card suit (ordinary). ‘\div’ ÷ Division sign (binary). ‘\doteq’ ≐ Approaches the limit (relation). Similar: geometrically equal to ‘\Doteq’. ‘\downarrow’ ↓ Down arrow, converges (relation). Similar: ‘\Downarrow’ double line down arrow. ‘\Downarrow’ ⇓ Double line down arrow (relation). Similar: ‘\downarrow’ single line down arrow. ‘\ell’ ℓ Lowercase cursive letter l (ordinary). ‘\emptyset’ ∅ Empty set symbol (ordinary). The variant form is ‘\varnothing’. ‘\epsilon’ ϵ Lowercase lunate epsilon (ordinary). Similar to Greek text letter. More widely used in mathematics is the script small letter epsilon ‘\varepsilon’ ε. Related: the set membership relation ‘\in’ ∈. ‘\equiv’ ≡ Equivalence (relation). ‘\eta’ η Lowercase Greek letter (ordinary). ‘\exists’ ∃ Existential quantifier (ordinary). ‘\flat’ ♭ Musical flat (ordinary). ‘\forall’ ∀ Universal quantifier (ordinary). ‘\frown’ ⌢ Downward curving arc (ordinary). ‘\Gamma’ Γ uppercase Greek letter (ordinary). ‘\gamma’ γ Lowercase Greek letter (ordinary). ‘\ge’ ≥ Greater than or equal to (relation). This is a synonym for ‘\geq’. ‘\geq’ ≥ Greater than or equal to (relation). This is a synonym for ‘\ge’. ‘\gets’ ← Is assigned the value (relation). Synonym: ‘\leftarrow’. ‘\gg’ ≫ Much greater than (relation). Similar: much less than ‘\ll’. ‘\hbar’ ℏ Planck constant over two pi (ordinary). ‘\heartsuit’ ♡ Heart card suit (ordinary). ‘\hookleftarrow’ ↩ Hooked left arrow (relation). ‘\hookrightarrow’ ↪ Hooked right arrow (relation). ‘\iff’ ⟷ If and only if (relation). It is ‘\Longleftrightarrow’ with a ‘\thickmuskip’ on either side. ‘\Im’ ℑ Imaginary part (ordinary). See: real part ‘\Re’. ‘\imath’ Dotless i; used when you are putting an accent on an i (see Math accents). ‘\in’ ∈ Set element (relation). See also: lowercase lunate epsilon ‘\epsilon’ϵ and small letter script epsilon ‘\varepsilon’. ‘\infty’ ∞ Infinity (ordinary). ‘\int’ ∫ Integral (operator). ‘\iota’ ι Lowercase Greek letter (ordinary). ‘\Join’ ⨝ Condensed bowtie symbol (relation). Not available in Plain TeX. ‘\jmath’ Dotless j; used when you are putting an accent on a j (see Math accents). ‘\kappa’ κ Lowercase Greek letter (ordinary). ‘\Lambda’ Λ uppercase Greek letter (ordinary). ‘\lambda’ λ Lowercase Greek letter (ordinary). ‘\land’ ∧ Logical and (binary). Synonym: ‘\wedge’. See also logical or ‘\lor’. ‘\langle’ ⟨ Left angle, or sequence, bracket (opening). Similar: less-than ‘<’. Matches ‘\rangle’. ‘\lbrace’ { Left curly brace (opening). Synonym: ‘\{’. Matches ‘\rbrace’. ‘\lbrack’ [ Left square bracket (opening). Synonym: ‘[’. Matches ‘\rbrack’. ‘\lceil’ ⌈ Left ceiling bracket, like a square bracket but with the bottom shaved off (opening). Matches ‘\rceil’. ‘\le’ ≤ Less than or equal to (relation). This is a synonym for ‘\leq’. ‘\leadsto’ ⇝ Squiggly right arrow (relation). To get this symbol outside of math mode you can put ‘\newcommand*{\Leadsto}{\ensuremath{\leadsto}}’ in the preamble and then use ‘\Leadsto’ instead. ‘\Leftarrow’ ⇐ Is implied by, double-line left arrow (relation). Similar: single-line left arrow ‘\leftarrow’. ‘\leftarrow’ ← Single-line left arrow (relation). Synonym: ‘\gets’. Similar: double-line left arrow ‘\Leftarrow’. ‘\leftharpoondown’ ↽ Single-line left harpoon, barb under bar (relation). ‘\leftharpoonup’ ↼ Single-line left harpoon, barb over bar (relation). ‘\Leftrightarrow’ ⇔ Bi-implication; double-line double-headed arrow (relation). Similar: single-line double headed arrow ‘\leftrightarrow’. ‘\leftrightarrow’ ↔ Single-line double-headed arrow (relation). Similar: double-line double headed arrow ‘\Leftrightarrow’. ‘\leq’ ≤ Less than or equal to (relation). This is a synonym for ‘\le’. ‘\lfloor’ ⌊ Left floor bracket (opening). Matches: ‘\floor’. ‘\lhd’ ◁ Arrowhead, that is, triangle, pointing left (binary). For the normal subgroup symbol you should load ‘amssymb’ and use ‘\vartriangleleft’ (which is a relation and so gives better spacing). ‘\ll’ ≪ Much less than (relation). Similar: much greater than ‘\gg’. ‘\lnot’ ¬ Logical negation (ordinary). Synonym: ‘\neg’. ‘\longleftarrow’ ⟵ Long single-line left arrow (relation). Similar: long double-line left arrow ‘\Longleftarrow’. ‘\longleftrightarrow’ ⟷ Long single-line double-headed arrow (relation). Similar: long double-line double-headed arrow ‘\Longleftrightarrow’. ‘\longmapsto’ ⟼ Long single-line left arrow starting with vertical bar (relation). Similar: shorter version ‘\mapsto’. ‘\longrightarrow’ ⟶ Long single-line right arrow (relation). Similar: long double-line right arrow ‘\Longrightarrow’. ‘\lor’ ∨ Logical or (binary). Synonym: ‘\vee’. See also logical and ‘\land’. ‘\mapsto’ ↦ Single-line left arrow starting with vertical bar (relation). Similar: longer version ‘\longmapsto’. ‘\mho’ ℧ Conductance, half-circle rotated capital omega (ordinary). ‘\mid’ ∣ Single-line vertical bar (relation). A typical use of ‘\mid’ is for a set ‘\{\, x \mid x\geq 5 \,\}’. Similar: ‘\vert’ and ‘|’ produce the same single-line vertical bar symbol but without any spacing (they fall in class ordinary) and you should not use them as relations but instead only as ordinals, i.e., footnote symbols. For absolute value, see the entry for ‘\vert’ and for norm see the entry for ‘\Vert’. ‘\models’ ⊨ Entails, or satisfies; double turnstile, short double dash (relation). Similar: long double dash ‘\vDash’. ‘\mp’ ∓ Minus or plus (relation). ‘\mu’ μ Lowercase Greek letter (ordinary). ‘\nabla’ ∇ Hamilton's del, or differential, operator (ordinary). ‘\natural’ ♮ Musical natural notation (ordinary). ‘\ne’ ≠ Not equal (relation). Synonym: ‘\neq’. ‘\nearrow’ ↗ North-east arrow (relation). ‘\neg’ ¬ Logical negation (ordinary). Synonym: ‘\lnot’. Sometimes instead used for negation: ‘\sim’. ‘\neq’ ≠ Not equal (relation). Synonym: ‘\ne’. ‘\ni’ ∋ Reflected membership epsilon; has the member (relation). Synonym: ‘\owns’. Similar: is a member of ‘\in’. ‘\not’ Long solidus, or slash, used to overstrike a following operator (relation). Many negated operators are available that don't require ‘\not’, particularly with the ‘amssymb’ package. For example, ‘\notin’ is typographically preferable to ‘\not\in’. ‘\notin’ ∉ Not an element of (relation). Similar: not subset of ‘\nsubseteq’. ‘\nu’ ν Lowercase Greek letter (ordinary). ‘\nwarrow’ ↖ North-west arrow (relation). ‘\odot’ ⊙ Dot inside a circle (binary). Similar: variable-sized operator ‘\bigodot’. ‘\oint’ ∮ Contour integral, integral with circle in the middle (operator). ‘\Omega’ Ω uppercase Greek letter (ordinary). ‘\omega’ ω Lowercase Greek letter (ordinary). ‘\ominus’ ⊖ Minus sign, or dash, inside a circle (binary). ‘\oplus’ ⊕ Plus sign inside a circle (binary). Similar: variable-sized operator ‘\bigoplus’. ‘\oslash’ ⊘ Solidus, or slash, inside a circle (binary). ‘\otimes’ ⊗ Times sign, or cross, inside a circle (binary). Similar: variable-sized operator ‘\bigotimes’. ‘\owns’ ∋ Reflected membership epsilon; has the member (relation). Synonym: ‘\ni’. Similar: is a member of ‘\in’. ‘\parallel’ ∥ Parallel (relation). Synonym: ‘\|’. ‘\partial’ ∂ Partial differential (ordinary). ‘\perp’ ⟂ Perpendicular (relation). Similar: ‘\bot’ uses the same glyph but the spacing is different because it is in the class ordinary. ‘\Phi’ Φ Uppercase Greek letter (ordinary). ‘\phi’ ϕ Lowercase Greek letter (ordinary). The variant form is ‘\varphi’ φ. ‘\Pi’ Π uppercase Greek letter (ordinary). ‘\pi’ π Lowercase Greek letter (ordinary). The variant form is ‘\varpi’ ϖ. ‘\pm’ ± Plus or minus (binary). ‘\prec’ ≺ Precedes (relation). Similar: less than ‘<’. ‘\preceq’ ⪯ Precedes or equals (relation). Similar: less than or equals ‘\leq’. ‘\prime’ ′ Prime, or minute in a time expression (ordinary). Typically used as a superscript: ‘$f^\prime$’; ‘$f^\prime$’ and ‘$f'$’ produce the same result. An advantage of the second is that ‘$f'''$’ produces the desired symbol, that is, the same result as ‘$f^{\prime\prime\prime}$’, but uses rather less typing. You can only use ‘\prime’ in math mode. Using the right single quote ‘'’ in text mode produces a different character (apostrophe). ‘\prod’ ∏ Product (operator). ‘\propto’ ∝ Is proportional to (relation) ‘\Psi’ Ψ uppercase Greek letter (ordinary). ‘\psi’ ψ Lowercase Greek letter (ordinary). ‘\rangle’ ⟩ Right angle, or sequence, bracket (closing). Similar: greater than ‘>’. Matches:‘\langle’. ‘\rbrace’ } Right curly brace (closing). Synonym: ‘\}’. Matches ‘\lbrace’. ‘\rbrack’ ] Right square bracket (closing). Synonym: ‘]’. Matches ‘\lbrack’. ‘\rceil’ ⌉ Right ceiling bracket (closing). Matches ‘\lceil’. ‘\Re’ ℜ Real part, real numbers, cursive capital R (ordinary). Related: double-line, or blackboard bold, R ‘\mathbb{R}’; to access this, load the ‘amsfonts’ package. ‘\restriction’ ↾, Restriction of a function (relation). Synonym: ‘\upharpoonright’. Not available in plain TeX. In LaTeX you need to load the ‘amssymb’ package. ‘\revemptyset’ ⦰, Reversed empty set symbol (ordinary). Related: ‘\varnothing’. Not available in plain TeX. In LaTeX you need to load the ‘stix’ package. ‘\rfloor’ ⌋ Right floor bracket, a right square bracket with the top cut off (closing). Matches ‘\lfloor’. ‘\rhd’ ◁ Arrowhead, that is, triangle, pointing right (binary). For the normal subgroup symbol you should instead load ‘amssymb’ and use ‘\vartriangleright’ (which is a relation and so gives better spacing). ‘\rho’ ρ Lowercase Greek letter (ordinary). The variant form is ‘\varrho’ ϱ. ‘\Rightarrow’ ⇒ Implies, right-pointing double line arrow (relation). Similar: right single-line arrow ‘\rightarrow’. ‘\rightarrow’ → Right-pointing single line arrow (relation). Synonym: ‘\to’. Similar: right double line arrow ‘\Rightarrow’. ‘\rightharpoondown’ ⇁ Right-pointing harpoon with barb below the line (relation). ‘\rightharpoonup’ ⇀ Right-pointing harpoon with barb above the line (relation). ‘\rightleftharpoons’ ⇌ Right harpoon up above left harpoon down (relation). ‘\searrow’ ↘ Arrow pointing southeast (relation). ‘\setminus’ ⧵ Set difference, reverse solidus or reverse slash, like \ (binary). Similar: backslash ‘\backslash’ and also ‘\textbackslash’ outside of math mode. ‘\sharp’ ♯ Musical sharp (ordinary). ‘\Sigma’ Σ uppercase Greek letter (ordinary). ‘\sigma’ σ Lowercase Greek letter (ordinary). The variant form is ‘\varsigma’ ς. ‘\sim’ ∼ Similar, in a relation (relation). ‘\simeq’ ≃ Similar or equal to, in a relation (relation). ‘\smallint’ ∫ Integral sign that does not change to a larger size in a display (operator). ‘\smile’ ⌣ Upward curving arc, smile (ordinary). ‘\spadesuit’ ♠ Spade card suit (ordinary). ‘\sqcap’ ⊓ Square intersection symbol (binary). Similar: intersection ‘cap’. ‘\sqcup’ ⊔ Square union symbol (binary). Similar: union ‘cup’. Related: variable-sized operator ‘\bigsqcup’. ‘\sqsubset’ ⊏, Square subset symbol (relation). Similar: subset ‘\subset’. Not available in plain TeX. In LaTeX you need to load the ‘amssymb’ package. ‘\sqsubseteq’ ⊑ Square subset or equal symbol (binary). Similar: subset or equal to ‘\subseteq’. ‘\sqsupset’ ⊐, Square superset symbol (relation). Similar: superset ‘\supset’. Not available in plain TeX. In LaTeX you need to load the ‘amssymb’ package. ‘\sqsupseteq’ ⊒ Square superset or equal symbol (binary). Similar: superset or equal ‘\supseteq’. ‘\star’ ⋆ Five-pointed star, sometimes used as a general binary operation but sometimes reserved for cross-correlation (binary). Similar: the synonyms asterisk ‘*’ and ‘\ast’, which are six-pointed, and more often appear as a superscript or subscript, as with the Kleene star. ‘\subset’ ⊂ Subset (occasionally, is implied by) (relation). ‘\subseteq’ ⊆ Subset or equal to (relation). ‘\succ’ ≻ Comes after, succeeds (relation). Similar: is less than ‘>’. ‘\succeq’ ⪰ Succeeds or is equal to (relation). Similar: less than or equal to ‘\leq’. ‘\sum’ ∑ Summation (operator). Similar: Greek capital sigma ‘\Sigma’. ‘\supset’ ⊃ Superset (relation). ‘\supseteq’ ⊇ Superset or equal to (relation). ‘\surd’ √ Radical symbol (ordinary). The LaTeX command ‘\sqrt{...}’ typesets the square root of the argument, with a bar that extends to cover the argument. ‘\swarrow’ ↙ Southwest-pointing arrow (relation). ‘\tau’ τ Lowercase Greek letter (ordinary). ‘\theta’ θ Lowercase Greek letter (ordinary). The variant form is ‘\vartheta’ ϑ. ‘\times’ × Primary school multiplication sign (binary). See also ‘\cdot’. ‘\to’ → Right-pointing single line arrow (relation). Synonym: ‘\rightarrow’. ‘\top’ ⊤ Top, greatest element of a partially ordered set (ordinary). See also ‘\bot’. ‘\triangle’ △ Triangle (ordinary). ‘\triangleleft’ ◁ Not-filled triangle pointing left (binary). Similar: ‘\lhd’. For the normal subgroup symbol you should load ‘amssymb’ and use ‘\vartriangleleft’ (which is a relation and so gives better spacing). ‘\triangleright’ ▷ Not-filled triangle pointing right (binary). For the normal subgroup symbol you should instead load ‘amssymb’ and use ‘\vartriangleright’ (which is a relation and so gives better spacing). ‘\unlhd’ ⊴ Left-pointing not-filled underlined arrowhead, that is, triangle, with a line under (binary). For the normal subgroup symbol load ‘amssymb’ and use ‘\vartrianglelefteq’ (which is a relation and so gives better spacing). ‘\unrhd’ ⊵ Right-pointing not-filled underlined arrowhead, that is, triangle, with a line under (binary). For the normal subgroup symbol load ‘amssymb’ and use ‘\vartrianglerighteq’ (which is a relation and so gives better spacing). ‘\Uparrow’ ⇑ Double-line upward-pointing arrow (relation). Similar: single-line up-pointing arrow ‘\uparrow’. ‘\uparrow’ ↑ Single-line upward-pointing arrow, diverges (relation). Similar: double-line up-pointing arrow ‘\Uparrow’. ‘\Updownarrow’ ⇕ Double-line upward-and-downward-pointing arrow (relation). Similar: single-line upward-and-downward-pointing arrow ‘\updownarrow’. ‘\updownarrow’ ↕ Single-line upward-and-downward-pointing arrow (relation). Similar: double-line upward-and-downward-pointing arrow ‘\Updownarrow’. ‘\upharpoonright’ ↾, Up harpoon, with barb on right side (relation). Synonym: ‘\restriction’. Not available in plain TeX. In LaTeX you need to load the ‘amssymb’ package. ‘\uplus’ ⊎ Multiset union, a union symbol with a plus symbol in the middle (binary). Similar: union ‘\cup’. Related: variable-sized operator ‘\biguplus’. ‘\Upsilon’ Υ uppercase Greek letter (ordinary). ‘\upsilon’ υ Lowercase Greek letter (ordinary). ‘\varepsilon’ ε Small letter script epsilon (ordinary). This is more widely used in mathematics than the non-variant lunate epsilon form ‘\epsilon’ ϵ. Related: set membership ‘\in’. ‘\vanothing’ ∅, Empty set symbol. Similar: ‘\emptyset’. Related: ‘\revemptyset’. Not available in plain TeX. In LaTeX you need to load the ‘amssymb’ package. ‘\varphi’ φ Variant on the lowercase Greek letter (ordinary). The non-variant form is ‘\phi’ ϕ. ‘\varpi’ ϖ Variant on the lowercase Greek letter (ordinary). The non-variant form is ‘\pi’ π. ‘\varrho’ ϱ Variant on the lowercase Greek letter (ordinary). The non-variant form is ‘\rho’ ρ. ‘\varsigma’ ς Variant on the lowercase Greek letter (ordinary). The non-variant form is ‘\sigma’ σ. ‘\vartheta’ ϑ Variant on the lowercase Greek letter (ordinary). The non-variant form is ‘\theta’ θ. ‘\vdash’ ⊢ Provable; turnstile, vertical and a dash (relation). Similar: turnstile rotated a half-circle ‘\dashv’. ‘\vee’ ∨ Logical or; a downwards v shape (binary). Related: logical and ‘\wedge’. Similar: variable-sized operator ‘\bigvee’. ‘\Vert’ ‖ Vertical double bar (ordinary). See Delimiters, for how to use the ‘mathtools’ package to create flexibly-sized norm symbols. ‘\vert’ | Single line vertical bar (ordinary). For "such that", as in the definition of a set, use ‘\mid’ because it is a relation. See Delimiters, for how to use the ‘mathtools’ package to create flexibly-sized absolute-value symbols. ‘\wedge’ ∧ Logical and (binary). Synonym: ‘\land’. See also logical or ‘\vee’. Similar: variable-sized operator ‘\bigwedge’. ‘\wp’ ℘ Weierstrass p (ordinary). ‘\wr’ ≀ Wreath product (binary). ‘\Xi’ Ξ uppercase Greek letter (ordinary). ‘\xi’ ξ Lowercase Greek letter (ordinary). ‘\zeta’ ζ Lowercase Greek letter (ordinary). The following symbols are most often used in plain text but LaTeX provides versions to use in mathematical text. ‘\mathdollar’ Dollar sign in math mode: $. ‘\mathparagraph’ Paragraph sign (pilcrow) in math mode, ¶. ‘\mathsection’ Section sign in math mode: §. ‘\mathsterling’ Sterling sign in math mode: £. ‘\mathunderscore’ Underscore in math mode: _. 16.2.1 Arrows ------------- These are the arrows that come with standard LaTeX. The ‘latexsym’ and ‘amsfonts’ packages contain many more. Symbol Command --------------------------------------------------------------------------- ⇓ ‘\Downarrow’ ↓ ‘\downarrow’ ↩ ‘\hookleftarrow’ ↪ ‘\hookrightarrow’ ← ‘\leftarrow’ ⇐ ‘\Leftarrow’ ⇔ ‘\Leftrightarrow’ ↔ ‘\leftrightarrow’ ⟵ ‘\longleftarrow’ ⟸ ‘\Longleftarrow’ ⟷ ‘\longleftrightarrow’ ⟺ ‘\Longleftrightarrow’ ⟼ ‘\longmapsto’ ⟹ ‘\Longrightarrow’ ⟶ ‘\longrightarrow’ ↦ ‘\mapsto’ ↗ ‘\nearrow’ ↖ ‘\nwarrow’ ⇒ ‘\Rightarrow’ → ‘\rightarrow’, or ‘\to’ ↘ ‘\searrow’ ↙ ‘\swarrow’ ↑ ‘\uparrow’ ⇑ ‘\Uparrow’ ↕ ‘\updownarrow’ ⇕ ‘\Updownarrow’ An example of the difference between ‘\to’ and ‘\mapsto’ is: ‘\( f\colon D\to C \) given by \( n\mapsto n^2 \)’. For commutative diagrams there are a number of packages, including ‘tikz-cd’ and ‘amscd’. 16.2.2 ‘\boldmath’ & ‘\unboldmath’ ---------------------------------- Synopsis (used in paragraph mode or LR mode): \boldmath \( MATH \) or \unboldmath \( MATH \) Declarations to change the letters and symbols in MATH to be in a bold font, or to countermand that and bring back the regular (non-bold) default, respectively. They must be used when _not_ in math mode or display math mode (see Modes). Both commands are fragile (see \protect). In this example each ‘\boldmath’ command takes place inside an ‘\mbox’, we have $\mbox{\boldmath \( v \)} = 5\cdot\mbox{\boldmath \( u \)$}$ which means ‘\boldmath’ is only called in a text mode, here LR mode, and explains why we must switch LaTeX into math mode to set ‘v’ and ‘u’. If you use either command inside math mode, as with ‘Trouble: \( \boldmath x \)’, then you get something like ‘LaTeX Font Warning: Command \boldmath invalid in math mode’ and ‘LaTeX Font Warning: Command \mathversion invalid in math mode’. 16.2.2.1 ‘bm’: Individual bold math symbols ........................................... Specifying ‘\boldmath’ is the best method for typesetting a whole math expression in bold. But to typeset individual symbols within an expression in bold, the ‘bm’ package provided by the LaTeX Project team is better. Its usage is outside the scope of this document (see its documentation at or in your installation) but the spacing in the output of this small example will show that it is an improvement over ‘\boldmath’ within an expression: \usepackage{bm} % in preamble ... we have $\bm{v} = 5\cdot\bm{u}$ 16.2.2.2 OpenType bold math ........................... Unfortunately, when using the Unicode engines (XeLaTeX, LuaLaTeX), neither ‘\boldmath’ nor ‘bm’ usually work well, because the OpenType math fonts normally used with those engines rarely come with a bold companion, and both ‘\boldmath’ and ‘bm’ require this. (The implementation of ‘bm’ relies on ‘\boldmath’, so the requirements are the same.) If you do have a bold math font, though, then ‘\boldmath’ and ‘bm’ work fine. If no such font is available, one alternative is to construct fake bold fonts with the ‘fontspec’ package's ‘FakeBold=1’ parameter (see its documentation, ). This may be acceptable for drafting or informal distribution, but the results are far from a true bold font. Another alternative to handling bold for OpenType math fonts is to use the ‘\symbf’ (bold), ‘\symbfit’ (bold italic), and related commands from the ‘unicode-math’ package. These do not change the current font, but rather change the (Unicode) "alphabet" used, which in practice is more widely supported than a separate bold font. Many variations are possible, and so there are subtleties to getting the desired output. As usual, see the package documentation (). 16.2.3 Blackboard bold ---------------------- Synopsis: \usepackage{amssymb} % in preamble ... \mathbb{UPPERCASE-LETTER} Provide blackboard bold symbols, sometimes also known as doublestruck letters, used to denote number sets such as the natural numbers, the integers, etc. Here \( \forall n \in \mathbb{N}, n^2 \geq 0 \) the ‘\mathbb{N}’ gives blackboard bold symbol ℕ, representing the natural numbers. If the argument contains something other than an uppercase letter, you do not get an error but you do get strange results, including unexpected characters. There are packages that give access to symbols other than just the capital letters; look on CTAN. 16.2.4 Calligraphic ------------------- Synopsis: \mathcal{UPPERCASE-LETTERS} Use a script-like font. In this example the graph identifier is output in a cursive font. Let the graph be \( \mathcal{G} \). If you use something other than an uppercase letter then you do not get an error but you also do not get math calligraphic output. For instance, ‘\mathcal{g}’ outputs a close curly brace symbol. 16.2.5 Delimiters ----------------- Delimiters are parentheses, braces, or other characters used to mark the start and end of subformulas. This formula has three sets of parentheses delimiting the three subformulas. (z-z_0)^2 = (x-x_0)^2 + (y-y_0)^2 The delimiters do not need to match, so you can enter ‘\( [0,1) \)’. Here are the common delimiters: DelimiterCommand Name ------------------------------------------------------ ( ‘(’ Left parenthesis ) ‘)’ Right parenthesis \{ ‘{’ or Left brace ‘\lbrace’ \} ‘}’ or Right brace ‘\rbrace’ [ ‘[’ or Left bracket ‘\lbrack’ ] ‘]’ or Right bracket ‘\rbrack’ ⌊ ‘\lfloor’ Left floor bracket ⌋ ‘\rfloor’ Right floor bracket ⌈ ‘\lceil’ Left ceiling bracket ⌉ ‘\rceil’ Right ceiling bracket ⟨ ‘\langle’ Left angle bracket ⟩ ‘\rangle’ Right angle bracket / ‘/’ Slash, or forward slash \ ‘\backslash’ Reverse slash, or backslash | ‘|’ or Vertical bar ‘\vert’ ‖ ‘\|’ or Double vertical bar ‘\Vert’ The ‘mathtools’ package allows you to create commands for paired delimiters. For instance, if you put ‘\DeclarePairedDelimiter\abs{\lvert}{\rvert}’ in your preamble then you get two commands for single-line vertical bars (they only work in math mode). The starred form, such as ‘\abs*{\frac{22}{7}}’, has the height of the vertical bars match the height of the argument. The unstarred form, such as ‘\abs{\frac{22}{7}}’, has the bars fixed at a default height. This form accepts an optional argument, as in ‘\abs[SIZE COMMAND]{\frac{22}{7}}’, where the height of the bars is given in SIZE COMMAND, such as ‘\Bigg’. Using instead ‘\lVert’ and ‘\rVert’ as the symbols will give you a norm symbol with the same behavior. 16.2.5.1 ‘\left’ & ‘\right’ ........................... Synopsis: \left DELIMITER1 ... \right DELIMITER2 Make matching parentheses, braces, or other delimiters. LaTeX makes the delimiters tall enough to just cover the size of the formula that they enclose. This makes a unit vector surrounded by parentheses tall enough to cover the entries. \begin{equation} \left(\begin{array}{c} 1 \\ 0 \\ \end{array}\right) \end{equation} See Delimiters, for a list of the common delimiters. Every ‘\left’ must have a matching ‘\right’. In the above example, leaving out the ‘\left(’ gets the error message ‘Extra \right’. Leaving out the ‘\right)’ gets ‘You can't use `\eqno' in math mode’. However, DELIMITER1 and DELIMITER2 need not match. A common case is that you want an unmatched brace, as below. Use a period, ‘.’, as a “null delimiter”. \begin{equation} f(n)=\left\{\begin{array}{ll} 1 &\mbox{--if \(n=0\)} \\ f(n-1)+3n^2 &\mbox{--else} \end{array}\right. \end{equation} Note that to get a curly brace as a delimiter you must prefix it with a backslash, ‘\{’ (see Reserved characters). (The packages ‘amsmath’ and ‘mathtools’ allow you to get the above construct through in a ‘cases’ environment.) The ‘\left ... \right’ pair make a group. One consequence is that the formula enclosed in the ‘\left ... \right’ pair cannot have line breaks in the output. This includes both manual line breaks and LaTeX-generated automatic ones. In this example, LaTeX breaks the equation to make the formula fit the margins. Lorem ipsum dolor sit amet \( (a+b+c+d+e+f+g+h+i+j+k+l+m+n+o+p+q+r+s+t+u+v+w+x+y+z) \) But with ‘\left’ and ‘\right’ Lorem ipsum dolor sit amet \( \left(a+b+c+d+e+f+g+h+i+j+k+l+m+n+o+p+q+r+s+t+u+v+w+x+y+z\right) \) LaTeX won't break the line, causing the formula to extend into the margin. Because ‘\left ... \right’ make a group, all the usual grouping rules hold. Here, the value of ‘\testlength’ set inside the equation will be forgotten, and the output is ‘1.2pt’. \newlength{\testlength} \setlength{\testlength}{1.2pt} \begin{equation} \left( a+b=c \setlength{\testlength}{3.4pt} \right) \the\testlength \end{equation} The ‘\left ... \right’ pair affect the horizontal spacing of the enclosed formula, in two ways. The first is that in ‘\( \sin(x) = \sin\left(x\right) \)’ the one after the equals sign has more space around the ‘x’. That's because ‘\left( ... \right)’ inserts an inner node while ‘( ... )’ inserts an opening node. The second way that the pair affect the horizontal spacing is that because they form a group, the enclosed subformula will be typeset at its natural width, with no stretching or shrinking to make the line fit better. TeX scales the delimiters according to the height and depth of the enclosed formula. Here LaTeX grows the brackets to extend the full height of the integral. \begin{equation} \left[ \int_{x=r_0}^{\infty} -G\frac{Mm}{r^2}\, dr \right] \end{equation} Manual sizing is often better. For instance, although below the rule has no depth, TeX will create delimiters that extend far below the rule. \begin{equation} \left( \rule{1pt}{1cm} \right) \end{equation} TeX can choose delimiters that are too small, as in ‘\( \left| |x|+|y| \right| \)’. It can also choose delimiters that are too large, as here. \begin{equation} \left( \sum_{0\leq i) does text mode underlining and allows line breaking as well as a number of other features. See also \hrulefill & \dotfill for producing a line for such things as a signature or placeholder. ‘\overline{MATH}’ Put a horizontal line over MATH. For example: ‘\overline{x+y}’. This differs from the accent command ‘\bar’ (see Math accents). ‘\underbrace{MATH}’ Put a brace under MATH. For example: ‘(1-\underbrace{1/2)+(1/2}-1/3)’. You can attach text to the brace as a subscript (‘_’) or superscript (‘^’) as here: \begin{displaymath} 1+1/2+\underbrace{1/3+1/4}_{>1/2}+ \underbrace{1/5+1/6+1/7+1/8}_{>1/2}+\cdots \end{displaymath} The superscript appears on top of the expression, and so can look unconnected to the underbrace. ‘\overbrace{MATH}’ Put a brace over MATH. For example: ‘\overbrace{x+x+\cdots+x}^{\mbox{\(k\) times}}’. ‘\overrightarrow{MATH}’ Put a right arrow over MATH. For example: ‘\overrightarrow{x+y}’. ‘\overleftarrow{MATH}’ Put a left arrow over MATH. For example: ‘\overleftarrow{a+b}’. The package ‘mathtools’ () adds an over- and underbracket, as well as some improvements on the braces. 16.6 Spacing in math mode ========================= When typesetting mathematics, LaTeX puts in spacing according to the normal rules for mathematics texts. If you enter ‘y=m x’ then LaTeX ignores the space and in the output the m is next to the x, as y=mx. But LaTeX's rules occasionally need tweaking. For example, in an integral the tradition is to put a small extra space between the ‘f(x)’ and the ‘dx’, here done with the ‘\,’ command: \int_0^1 f(x)\,dx LaTeX provides the commands that follow for use in math mode. Many of these spacing definitions are expressed in terms of the math unit “mu”. It is defined as 1/18em, where the em is taken from the current math symbols family (see Units of length). Thus, a ‘\thickspace’ is something like 5/18 times the width of a ‘M’. ‘\;’ Synonym: ‘\thickspace’. Normally ‘5.0mu plus 5.0mu’. With the ‘amsmath’ package, or as of the 2020-10-01 LaTeX release, can be used in text mode as well as math mode; otherwise, in math mode only. ‘\negthickspace’ Normally ‘-5.0mu plus 2.0mu minus 4.0mu’. With the ‘amsmath’ package, or as of the 2020-10-01 LaTeX release, can be used in text mode as well as math mode; otherwise, in math mode only. ‘\:’ ‘\>’ Synonym: ‘\medspace’. Normally ‘4.0mu plus 2.0mu minus 4.0mu’. With the ‘amsmath’ package, or as of the 2020-10-01 LaTeX release, can be used in text mode as well as math mode; before that, in math mode only. ‘\negmedspace’ Normally ‘-4.0mu plus 2.0mu minus 4.0mu’. With the ‘amsmath’ package, or as of the 2020-10-01 LaTeX release, can be used in text mode as well as math mode; before that, in math mode only. ‘\,’ Synonym: ‘\thinspace’. Normally ‘3mu’, which is 1/6em. Can be used in both math mode and text mode (see \thinspace & \negthinspace). This space is widely used, for instance between the function and the infinitesimal in an integral ‘\int f(x)\,dx’ and, if an author does this, before punctuation in a displayed equation. The antiderivative is \begin{equation} 3x^{-1/2}+3^{1/2}\,. \end{equation} ‘\!’ Synonym: ‘\negthinspace’. A negative thin space. Normally ‘-3mu’. With the ‘amsmath’ package, or as of the 2020-10-01 LaTeX release, can be used in text mode as well as math mode; otherwise, the ‘\!’ command is math mode only but the ‘\negthinspace’ command has always also worked in text mode (see \thinspace & \negthinspace). ‘\quad’ This is 18mu, that is, 1em. This is often used for space surrounding equations or expressions, for instance for the space between two equations inside a ‘displaymath’ environment. It is available in both text and math mode. ‘\qquad’ A length of 2 quads, that is, 36mu = 2em. It is available in both text and math mode. 16.6.1 ‘\smash’ --------------- Synopsis: \smash{SUBFORMULA} Typeset SUBFORMULA as if its height and depth were zero. In this example the exponential is so tall that without the ‘\smash’ command LaTeX would separate its line from the line above it, and the uneven line spacing might be unsightly. To compute the tetration $\smash{2^{2^{2^2}}}$, evaluate from the top down, as $2^{2^4}=2^{16}=65536$. (Because of the ‘\smash’ the printed expression could run into the line above so you may want to wait until the final version of the document to make such adjustments.) This pictures the effect of ‘\smash’ by using ‘\fbox’ to surround the box that LaTeX will put on the line. The ‘\blackbar’ command makes a bar extending from 10 points below the baseline to 20 points above. \newcommand{\blackbar}{\rule[-10pt]{5pt}{30pt}} \fbox{\blackbar} \fbox{\smash{\blackbar}} The first box that LaTeX places is 20 points high and 10 points deep. But the second box is treated by LaTeX as having zero height and zero depth, despite that the ink printed on the page still extends well above and below the line. The ‘\smash’ command appears often in mathematics to adjust the size of an element that surrounds a subformula. Here the first radical extends below the baseline while the second lies just on the baseline. \begin{equation} \sqrt{\sum_{0\leq k< n} f(k)} \sqrt{\vphantom{\sum}\smash{\sum_{0\leq k< n}} f(k)} \end{equation} Note the use of ‘\vphantom’ to give the ‘\sqrt’ command an argument with the height of the ‘\sum’ (see \phantom & \vphantom & \hphantom). While most often used in mathematics, the ‘\smash’ command can appear in other contexts. However, it doesn't change into horizontal mode. So if it starts a paragraph then you should first put a ‘\leavevmode’, as in the bottom line below. Text above. \smash{smashed, no indent} % no paragraph indent \leavevmode\smash{smashed, with indent} % usual paragraph indent The package ‘mathtools’ has operators that provide even finer control over smashing a subformula box. 16.6.2 ‘\phantom’ & ‘\vphantom’ & ‘\hphantom’ --------------------------------------------- Synopsis: \phantom{SUBFORMULA} or \vphantom{SUBFORMULA} or \hphantom{SUBFORMULA} The ‘\phantom’ command creates a box with the same height, depth, and width as SUBFORMULA, but empty. That is, this command causes LaTeX to typeset the space but not fill it with the material. Here LaTeX will put a blank line that is the correct width for the answer, but will not show that answer. \begin{displaymath} \int x^2\,dx=\mbox{\underline{$\phantom{(1/3)x^3+C}$}} \end{displaymath} The ‘\vphantom’ variant produces an invisible box with the same vertical size as SUBFORMULA, the same height and depth, but having zero width. And ‘\hphantom’ makes a box with the same width as SUBFORMULA but with zero height and depth. In this example, the tower of exponents in the second summand expression is so tall that TeX places this expression further down than its default. Without adjustment, the two summand expressions would be at different levels. The ‘\vphantom’ in the first expression tells TeX to leave as much vertical room as it does for the tower, so the two expressions come out at the same level. \begin{displaymath} \sum_{j\in\{0,\ldots\, 10\}\vphantom{3^{3^{3^j}}}} \sum_{i\in\{0,\ldots\, 3^{3^{3^j}}\}} i\cdot j \end{displaymath} These commands are often used in conjunction with ‘\smash’. See \smash, which includes another example of ‘\vphantom’. The three phantom commands appear often but note that LaTeX provides a suite of other commands to work with box sizes that may be more convenient, including ‘\makebox’ (see \mbox & \makebox) as well as ‘\settodepth’ (see \settodepth), ‘\settoheight’ (see \settoheight), and ‘\settowidth’ (see \settowidth). In addition, the ‘mathtools’ package has many commands that offer fine-grained control over spacing. All three commands produce an ordinary box, without any special mathematics status. So to do something like attaching a superscript you should give it such a status, for example with the ‘\operatorname’ command from the package ‘amsmath’. While most often used in mathematics, these three can appear in other contexts. However, they don't cause LaTeX to change into horizontal mode. So if one of these starts a paragraph then you should prefix it with ‘\leavevmode’. 16.6.3 ‘\mathstrut’ ------------------- Synopsis: \mathstrut The analogue of ‘\strut’ for mathematics. See \strut. The input ‘$\sqrt{x} + \sqrt{x^i}$’ gives output where the second radical is taller than the first. To add extra vertical space without any horizontal space, so that the two have the same height, use ‘$\sqrt{x\mathstrut} + \sqrt{x^i\mathstrut}$’. The ‘\mathstrut’ command adds the vertical height of an open parenthesis, ‘(’, but no horizontal space. It is defined as ‘\vphantom{(}’, so see \phantom & \vphantom & \hphantom for more. An advantage over ‘\strut’ is that ‘\mathstrut’ adds no depth, which is often the right thing for formulas. Using the height of an open parenthesis is just a convention; for complete control over the amount of space, use ‘\rule’ with a width of zero. See \rule. 16.7 Math styles ================ TeX's rules for typesetting a formula depend on the context. For example, inside a displayed equation, the input ‘\sum_{0\leq i). Values for STYLE: ‘plain’ The header is empty. The footer contains only a page number, centered. ‘empty’ The header and footer are both empty. ‘headings’ Put running headers and footers on each page. The document style specifies what goes in there; see the discussion below. ‘myheadings’ Custom headers, specified via the ‘\markboth’ or the ‘\markright’ commands. Some discussion of the motivation for LaTeX's mechanism will help you work with the options ‘headings’ or ‘myheadings’. The document source below produces an article, two-sided, with the pagestyle ‘headings’. On this document's left hand pages, LaTeX wants (in addition to the page number) the title of the current section. On its right hand pages LaTeX wants the title of the current subsection. When it makes up a page, LaTeX gets this information from the commands ‘\leftmark’ and ‘\rightmark’. So it is up to ‘\section’ and ‘\subsection’ to store that information there. \documentclass[twoside]{article} \pagestyle{headings} \begin{document} ... \section{Section 1} ... \subsection{Subsection 1.1} ... \section{Section 2} ... \subsection{Subsection 2.1} ... \subsection{Subsection 2.2} ... Suppose that the second section falls on a left page. Although when the page starts it is in the first section, LaTeX will put ‘Section 2’ in the left page header. As to the right header, if no subsection starts before the end of the right page then LaTeX blanks the right hand header. If a subsection does appear before the right page finishes then there are two cases. If at least one subsection starts on the right hand page then LaTeX will put in the right header the title of the first subsection starting on that right page. If at least one of 2.1, 2.2, ..., starts on the left page but none starts on the right then LaTeX puts in the right hand header the title of the last subsection to start, that is, the one in effect during the right hand page. To accomplish this, in a two-sided article, LaTeX has ‘\section’ issue a command ‘\markboth’, setting ‘\leftmark’ to ‘Section 2’ and setting ‘\rightmark’ to an empty content. And, LaTeX has ‘\subsection’ issue a command ‘\markright’, setting ‘\rightmark’ to ‘Subsection 2.1’, etc. Here are the descriptions of ‘\markboth’ and ‘\markright’: ‘\markboth{LEFT-HEAD}{RIGHT-HEAD}’ Sets both the right hand and left hand heading information for either a page style of ‘headings’ or ‘myheadings’. A left hand page heading LEFT-HEAD is generated by the last ‘\markboth’ command before the end of the page. A right hand page heading RIGHT-HEAD is generated by the first ‘\markboth’ or ‘\markright’ that comes on the page if there is one, otherwise by the last one that came before that page. ‘\markright{RIGHT-HEAD}’ Sets the right hand page heading, leaving the left unchanged. 18.4 ‘\thispagestyle’ ===================== Synopsis: \thispagestyle{STYLE} Works in the same way as the ‘\pagestyle’ (see \pagestyle), except that it changes to STYLE for the current page only. This declaration has global scope, so its effect is not delimited by braces or environments. Often the first page of a chapter or section has a different style. For example, this LaTeX book document has the first page of the first chapter in ‘plain’ style, as is the default (see Page styles). \documentclass{book} \pagestyle{headings} \begin{document} \chapter{First chapter} ... \chapter{Second chapter}\thispagestyle{empty} ... The ‘plain’ style has a page number on it, centered in the footer. To make the page entirely empty, the command ‘\thispagestyle{empty}’ immediately follows the second ‘\chapter’. 18.5 ‘\thepage’ =============== If you want to change the appearance of page numbers only in the page headers, for example by adding an ornament, typesetting in small caps, etc., then the ‘fancyhdr’ package, as mentioned in a previous section, is the best approach. On the other hand, you may want to change how page numbers are denoted everywhere, including the table of contents and cross-references, as well as the page headers. In this case, you should redefine ‘\thepage’, which is the command LaTeX uses for the representation of page numbers. However, ‘\thepage’ should do any typesetting or other complicated maneuvers, but merely expand to the intended page number representation. The results of a complicated redefinition of ‘\thepage’ are not predictable, but LaTeX's report of page numbers in diagnostic messages, at least, will become unusable. There is some discussion of this issue at . 19 Spaces ********* LaTeX has many ways to produce white space, or filled space. Some of these are best suited to mathematical text; for these see Spacing in math mode. 19.1 ‘\enspace’ & ‘\quad’ & ‘\qquad’ ==================================== Synopsis, one of: \enspace \quad \qquad Insert a horizontal space of 1/2em, 1em, or 2em. The em is a length defined by a font designer, often thought of as being the width of a capital M. One advantage of describing space in ems is that it can be more portable across documents than an absolute measurement such as points (see Lengths/em). This puts a suitable gap between two graphics. \begin{center} \includegraphics{womensmile.png}% \qquad\includegraphics{mensmile.png} \end{center} See Spacing in math mode, for ‘\quad’ and ‘\qquad’. These are lengths from centuries of typesetting and so may be a better choice in many circumstances than arbitrary lengths, such as you get with ‘\hspace’. 19.2 ‘\hspace’ ============== Synopsis, one of: \hspace{LENGTH} \hspace*{LENGTH} Insert the amount LENGTH of horizontal space. The LENGTH can be positive, negative, or zero; adding a negative amount of space is like backspacing. It is a rubber length, that is, it may contain a ‘plus’ or ‘minus’ component, or both (see Lengths). Because the space is stretchable and shrinkable, it is sometimes called “glue”. This makes a line with ‘Name:’ an inch from the right margin. \noindent\makebox[\linewidth][r]{Name:\hspace{1in}} The ‘*’-form inserts horizontal space that is non-discardable. More precisely, when TeX breaks a paragraph into lines any white space--glues and kerns--that come at a line break are discarded. The ‘*’-form avoids that (technically, it adds a non-discardable invisible item in front of the space). In this example \parbox{0.8\linewidth}{% Fill in each blank: Four \hspace*{1in} and seven years ago our fathers brought forth on this continent, a new \hspace*{1in}, conceived in \hspace*{1in}, and dedicated to the proposition that all men are created \hspace*{1in}.} the 1 inch blank following ‘conceived in’ falls at the start of a line. If you erase the ‘*’ then LaTeX discards the blank. Here, the ‘\hspace’ separates the three graphics. \begin{center} \includegraphics{lion.png}% comment keeps out extra space \hspace{1cm minus 0.25cm}\includegraphics{tiger.png}% \hspace{1cm minus 0.25cm}\includegraphics{bear.png} \end{center} Because the argument to each ‘\hspace’ has ‘minus 0.25cm’, each can shrink a little if the three figures are too wide. But each space won't shrink more than 0.25cm (see Lengths). 19.3 ‘\hfill’ ============= Synopsis: \hfill Produce a rubber length which has no natural space but that can stretch horizontally as far as needed (see Lengths). This creates a one-line paragraph with ‘Name:’ on the left side of the page and ‘Quiz One’ on the right. \noindent Name:\hfill Quiz One The ‘\hfill’ command is equivalent to ‘\hspace{\fill}’ and so the space can be discarded at line breaks. To avoid that instead use ‘\hspace*{\fill}’ (see \hspace). Here the graphs are evenly spaced in the middle of the figure. \newcommand*{\vcenteredhbox}[1]{\begin{tabular}{@{}c@{}}#1\end{tabular}} ... \begin{figure} \hspace*{\fill}% \vcenteredhbox{\includegraphics{graph0.png}}% \hfill\vcenteredhbox{\includegraphics{graph1.png}}% \hspace*{\fill}% \caption{Comparison of two graphs} \label{fig:twographs} \end{figure} Note the ‘\hspace*’'s where the space could otherwise be dropped. 19.4 ‘\hss’ =========== Synopsis: \hss Produce a horizontal space that is infinitely shrinkable as well as infinitely stretchable (this command is a TeX primitive). LaTeX authors should reach first for the ‘\makebox’ command to get the effects of ‘\hss’ (see \mbox & \makebox). Here, the first line's ‘\hss’ makes the Z stick out to the right, overwriting the Y. In the second line the Z sticks out to the left, overwriting the X. X\hbox to 0pt{Z\hss}Y X\hbox to 0pt{\hss Z}Y Without the ‘\hss’ you get something like ‘Overfull \hbox (6.11111pt too wide) detected at line 20’. 19.5 ‘\spacefactor’ =================== Synopsis: \spacefactor=INTEGER Influence LaTeX's stretching and shrinking of glue. Few user-level documents need to use this. While LaTeX is laying out the material, it may stretch or shrink the gaps between words. (This space is not a character; it is called the “interword glue”; see \hspace). The ‘\spacefactor’ parameter (a TeX primitive) allows you to, for instance, have the space after a period stretch more than the space after a word-ending letter. After LaTeX places each character, or rule or other box, it sets a parameter called the “space factor”. If the next thing in the input is a space then this parameter affects how much stretching or shrinking can happen. A space factor that is larger than the normal value means that the glue can stretch more and shrink less. Normally, the space factor is 1000. This value is in effect following most characters, and any non-character box or math formula. But it is 3000 after a period, exclamation mark, or question mark, 2000 after a colon, 1500 after a semicolon, 1250 after a comma, and 0 after a right parenthesis or bracket, or closing double quote or single quote. Finally, it is 999 after a capital letter. If the space factor F is 1000 then the glue gap will be the font's normal space value (for Computer Modern Roman 10 point this is 3.3333pt). Otherwise, if the space factor F is greater than 2000 then TeX adds the font's extra space value (for Computer Modern Roman 10 point this is 1.11111pt), and then the font's normal stretch value is multiplied by f /1000 and the normal shrink value is multiplied by 1000/f (for Computer Modern Roman 10 point these are 1.66666 and 1.11111pt). For example, consider the period ending ‘A man's best friend is his dog.’. After it, TeX puts in a fixed extra space, and also allows the glue to stretch 3 times as much and shrink 1/3 as much, as the glue after ‘friend’ or any of the other words, since they are not followed by punctuation. The rules for space factors are even more complex because they play additional roles. In practice, there are two consequences. First, if a period or other punctuation is followed by a right parenthesis or bracket, or right single or double quote then the spacing effect of that period carries through those characters (that is, the following glue will have increased stretch and shrink). Second, if punctuation comes after a capital letter then the normal effect of the period is does not happen, so you get an ordinary space. This second case also affects abbreviations that do not end in a capital letter (see \@). You can only use ‘\spacefactor’ in paragraph mode or LR mode (see Modes). You can see the current value with ‘\the\spacefactor’ or ‘\showthe\spacefactor’. Finally, not especially related to ‘\spacefactor’ itself: if you get errors like ‘You can't use `\spacefactor' in vertical mode’, or ‘You can't use `\spacefactor' in math mode.’, or ‘Improper \spacefactor’ then you have probably tried to redefine an internal command. See \makeatletter & \makeatother. 19.5.1 ‘\@’ ----------- Synopsis: CAPITAL-LETTER\@. Treat a following period (or other punctuation) as sentence-ending. By default, LaTeX thinks that a period ends an abbreviation if the period comes after a capital letter, and otherwise thinks the period ends the sentence. This example shows the two cases to remember. The songs \textit{Red Guitar}, etc.\ are by Loudon Wainwright~III\@. The first period ends the abbreviation ‘etc.’ but not the sentence. The backslash-space, ‘\ ’, produces a mid-sentence space. The second period ends the sentence, despite it being preceded by a capital letter. We tell LaTeX that it ends the sentence by putting ‘\@’ before it. So: if you have a capital letter followed by a period that ends the sentence, then put ‘\@’ before the period. This holds even if there is an intervening right parenthesis or bracket, or right single or double quote, because the spacing effect of that period carries through those characters. For example, this Use the \textit{Instructional Practices Guide}, (a book by the MAA)\@. will have correct inter-sentence spacing after the period. The ‘\@’ command is only for text modes. If you use it outside of a text mode then you get the error ‘You can't use `\spacefactor' in vertical mode’ (see Modes). All the above applies equally to question marks and exclamation points as periods, since all are sentence-ending punctuation, and LaTeX increases the space after each in the same way, when they end a sentence. LaTeX also increases spacing after colon, semicolon, and comma characters (see \spacefactor). In contrast: the converse case is a period (or other punctuation) that does not end a sentence. For that case, follow the period with a backslash-space, (‘\ ’), or a tie, (‘~’), or ‘\@’. Examples are ‘Nat.\ Acad.\ Science’, and ‘Mr.~Bean’, and ‘(manure, etc.\@) for sale’ (note in the last one that the ‘\@’ comes after the period but before the closing parenthesis). 19.5.2 ‘\frenchspacing’ & ‘\nonfrenchspacing’ --------------------------------------------- Synopsis, one of: \frenchspacing \nonfrenchspacing ‘\frenchspacing’ causes LaTeX to make spacing after all punctuation, including periods, be the same as the space between words in the middle of a sentence. ‘\nonfrenchspacing’ switches back to the default handling in which spacing after most punctuation stretches or shrinks differently than a word space (see \spacefactor). In American English, the typesetting tradition is to adjust, typically increasing, the space after punctuation more than the space between words that are in the middle of a sentence. Declaring ‘\frenchspacing’ (the command is inherited from plain TeX) switches to the tradition that all spaces are treated equally. If your LaTeX document specifies the language being used, for example with the ‘babel’ package, the necessary settings should be taken care of for you. 19.5.3 ‘\normalsfcodes’ ----------------------- Synopsis: \normalsfcodes Reset the LaTeX space factors to the default values (see \spacefactor). 19.6 Backslash-space, ‘\ ’ ========================== This section refers to the command consisting of two characters, a backslash followed by a space. Synopsis: \ Produce a space. By default it produces white space of length 3.33333pt plus 1.66666pt minus 1.11111pt. When you type one or more blanks between words, LaTeX produces whitespace that is different than an explicit space. This illustrates: \begin{tabular}{rl} One blank:& makes some space \\ Three blanks:& in a row \\ Three spaces:&\ \ \ in a row \\ \end{tabular} On the first line LaTeX puts some space after the colon. On the second line LaTeX collapses the three blanks to output one whitespace, so you end with the same space after the colon as in the first line. LaTeX would similarly collapse them to a single whitespace if one, two or all of the three blanks were replaced by a tab, or by a newline. However, the bottom line asks for three spaces so the white area is wider. That is, the backslash-space command creates a fixed amount of horizontal space. (Note that you can define a horizontal space of any width at all with ‘\hspace’; see \hspace.) The backslash-space command has two main uses. It is often used after control sequences to keep them from gobbling the blank that follows, as after ‘\TeX’ in ‘\TeX\ (or \LaTeX)’. (But using curly braces has the advantage of still working whether the next character is a blank or any other non-letter, as in ‘\TeX{} (or \LaTeX{})’ in which ‘{}’ can be added after ‘\LaTeX’ as well as after ‘\TeX’.) The other common use is that it marks a period as ending an abbreviation instead of ending a sentence, as in ‘Prof.\ Smith’ or ‘Jones et al.\ (1993)’ (see \@). Under normal circumstances, ‘\’ and ‘\’ are equivalent to backslash-space, ‘\ ’. In order to allow source code indentation, under normal circumstances, TeX ignores leading blanks in a line. So the following prints ‘one word’: one word where the white space between ‘one’ and ‘word’ is produced by the newline after ‘one’, not by the space before ‘word’. 19.7 ‘~’, ‘\nobreakspace’ ========================= Synopsis: BEFORE~AFTER The “tie” character, ‘~’, produces a space between BEFORE and AFTER at which the line will not be broken. By default the white space has length 3.33333pt plus 1.66666pt minus 1.11111pt (see Lengths). The command ‘\nobreakspace’ and the Unicode input character U+00A0 (also in many 8-bit encodings) are synonyms. Note that the word ‘tie’ has this meaning in the TeX/Texinfo community; this differs from the typographic term "tie", which is a diacritic in the shape of an arc, called a "tie-after" accent in ‘The TeXbook’. Here LaTeX will not break the line between the final two words: Thanks to Prof.~Lerman. In addition, despite the period, LaTeX does not use the end-of-sentence spacing (see \@). Ties prevent a line break where that could cause confusion. They also still allow hyphenation (of either of the tied words), so they are generally preferable to putting consecutive words in an ‘\mbox’ (see \mbox & \makebox). Exactly where ties should be used is something of a matter of taste, sometimes alarmingly dogmatic taste, among readers. Nevertheless, here are some usage models, many of them from ‘The TeXbook’. • Between an enumerator label and number, such as in references: ‘Chapter~12’, or ‘Theorem~\ref{th:Wilsons}’, or ‘Figure~\ref{fig:KGraph}’. • When cases are enumerated inline: ‘(b)~Show that $f(x)$ is (1)~continuous, and (2)~bounded’. • Between a number and its unit: ‘$745.7.8$~watts’ (the ‘siunitx’ package has a special facility for this) or ‘144~eggs’. This includes between a month and day number in a date: ‘October~12’ or ‘12~Oct’. In general, in any expressions where numbers and abbreviations or symbols are separated by a space: ‘AD~565’, or ‘2:50~pm’, or ‘Boeing~747’, or ‘268~Plains Road’, or ‘\$$1.4$~billion’. Other common choices here are a thin space (see \thinspace & \negthinspace) and no space at all. • When mathematical phrases are rendered in words: ‘equals~$n$’, or ‘less than~$\epsilon$’, or ‘given~$X$’, or ‘modulo~$p^e$ for all large~$n$’ (but compare ‘is~$15$’ with ‘is $15$~times the height’). Between mathematical symbols in apposition with nouns: ‘dimension~$d$’ or ‘function~$f(x)$’ (but compare ‘with length $l$~or more’). When a symbol is a tightly bound object of a preposition: ‘of~$x$’, or ‘from $0$ to~$1$’, or ‘in common with~$m$’. • Between symbols in series: ‘$1$,~$2$, or~$3$’ or ‘$1$,~$2$, \ldots,~$n$’. • Between a person's given names and between multiple surnames: ‘Donald~E. Knuth’, or ‘Luis~I. Trabb~Pardo’, or ‘Charles~XII’--but you must give TeX places to break the line so you might do ‘Charles Louis Xavier~Joseph de~la Vall\'ee~Poussin’. 19.8 ‘\thinspace’ & ‘\negthinspace’ =================================== Synopsis, one of: \thinspace \negthinspace These produce unbreakable and unstretchable spaces of 1/6em and -1/6em, respectively. These are the text mode equivalents of ‘\,’ and ‘\!’ (see Spacing in math mode/\thinspace). You can use ‘\,’ as a synonym for ‘\thinspace’ in text mode. One common use of ‘\thinspace’ is as the space between nested quotes: Killick replied, ``I heard the Captain say, `Ahoy there.'\thinspace'' Another use is that some style guides call for a ‘\thinspace’ between an ellipsis and a sentence ending period (other style guides, think the three dots and/or four dots are plenty). Another style-specific use is between initials, as in ‘D.\thinspace E.\ Knuth’. LaTeX provides a variety of similar spacing commands for math mode (see Spacing in math mode). With the ‘amsmath’ package, or as of the 2020-10-01 LaTeX release, they can be used in text mode as well as math mode, including ‘\!’ for ‘\negthinspace’; but otherwise, they are available only in math mode. 19.9 ‘\/’ ========= Synopsis: BEFORE-CHARACTER\/AFTER-CHARACTER Insert an “italic correction”, a small space defined by the font designer for each character (possibly zero), to avoid the character colliding with whatever follows. When you use ‘\/’, LaTeX takes the correction from the font metric file, scales it by any scaling that has been applied to the font, and then inserts that much horizontal space. Here, were it not for the ‘\/’, the BEFORE-CHARACTER italic f would hit the AFTER-CHARACTER roman H \newcommand{\companylogo}{{\it f}\/H} because the italic letter f leans far to the right. If AFTER-CHARACTER is a period or comma then don't insert an italic correction since those punctuation symbols are so low to the baseline already. However, with semicolons or colons, as well as with normal letters, the italic correction can help. It is typically used between a switch from italic or slanted fonts to an upright font. When you use commands such as ‘\emph’ and ‘\textit’ and ‘\textsl’ to change fonts, LaTeX automatically inserts the italic correction when needed (see Font styles). However, declarations such as ‘\em’ and ‘\itshape’ and ‘\slshape’ do not automatically insert italic corrections. Upright characters can also have an italic correction. An example where this is needed is the name ‘pdf\/\TeX’. However, most upright characters have a zero italic correction. Some font creators do not include italic correction values even for italic fonts. Technically, LaTeX uses another font-specific value, the so-called “slant parameter” (namely ‘\fontdimen1’), to determine whether to possibly insert an italic correction, rather than tying the action to particular font commands. There is no concept of italic correction in math mode; math spacing is done in a different way. 19.10 ‘\hrulefill’ & ‘\dotfill’ =============================== Synopsis, one of: \hrulefill \dotfill Produce an infinite horizontal rubber length (see Lengths) that LaTeX fills with a rule (that is, a line) or with dots, instead of white space. This outputs a line 2 inches long. Name:~\makebox[2in]{\hrulefill} This example, when placed between blank lines, creates a paragraph that is left and right justified and where the middle is filled with evenly spaced dots. \noindent John Aubrey, RN \dotfill{} Melbury Lodge To make the rule or dots go to the line's end use ‘\null’ at the start or end. To change the rule's thickness, copy the definition and adjust it, as here \renewcommand{\hrulefill}{% \leavevmode\leaders\hrule height 1pt\hfill\kern0pt } which changes the default thickness of 0.4pt to 1pt. Similarly, adjust the dot spacing as with \renewcommand{\dotfill}{% \leavevmode\cleaders\hbox to 1.00em{\hss .\hss }\hfill\kern0pt } which changes the default length of 0.33em to 1.00em. This example produces a line for a signature. \begin{minipage}{4cm} \centering \hrulefill\\ Signed \end{minipage} The line is 4cm long. 19.11 ‘\bigskip’ & ‘\medskip’ & ‘\smallskip’ ============================================ Synopsis, one of: \bigskip \medskip \smallskip Produce an amount of vertical space, large or medium-sized or small. These commands are fragile (see \protect). Here the skip suggests the passage of time (from The Golden Ocean by O'Brian). Mr Saumarez would have something rude to say to him, no doubt: he was at home again, and it was delightful. \bigskip ``A hundred and fifty-seven miles and one third, in twenty-four hours,'' said Peter. Each command is associated with a length defined in the document class file. ‘\bigskip’ The same as ‘\vspace{\bigskipamount}’, ordinarily about one line space, with stretch and shrink. The default for the ‘book’ and ‘article’ classes is ‘12pt plus 4pt minus 4pt’. ‘\medskip’ The same as ‘\vspace{\medskipamount}’, ordinarily about half of a line space, with stretch and shrink. The default for the ‘book’ and ‘article’ classes is ‘6pt plus 2pt minus 2pt’. ‘\smallskip’ The same as ‘\vspace{\smallskipamount}’, ordinarily about a quarter of a line space, with stretch and shrink. The default for the ‘book’ and ‘article’ classes is ‘3pt plus 1pt minus 1pt’. Because each command is a ‘\vspace’, if you use it in mid-paragraph then it will insert its vertical space between the line in which you use it and the next line, not necessarily at the place that you use it. So these are best between paragraphs. The commands ‘\bigbreak’, ‘\medbreak’, and ‘\smallbreak’ are similar but also suggest to LaTeX that this is a good place to put a page break (see \bigbreak & \medbreak & \smallbreak. 19.12 ‘\bigbreak’ & ‘\medbreak’ & ‘\smallbreak’ =============================================== Synopsis, one of: \bigbreak \medbreak \smallbreak Produce a vertical space that is big or medium-sized or small, and suggest to LaTeX that this is a good place to break the page. (The associated penalties are respectively −200, −100, and −50.) See \bigskip & \medskip & \smallskip, for more. These commands produce the same vertical space but differ in that they also remove a preceding vertical space if it is less than what they would insert (as with ‘\addvspace’). In addition, they terminate a paragraph where they are used: this example abc\bigbreak def ghi jkl mno pqr will output three paragraphs, the first ending in ‘abc’ and the second starting, after an extra vertical space and a paragraph indent, with ‘def’. 19.13 ‘\strut’ ============== Synopsis: \strut Ensure that the current line has height at least ‘0.7\baselineskip’ and depth at least ‘0.3\baselineskip’. Essentially, LaTeX inserts into the line a rectangle having zero width, ‘\rule[-0.3\baselineskip]{0pt}{\baselineskip}’ (see \rule). The ‘\baselineskip’ changes with the current font or fontsize. In this example the ‘\strut’ keeps the box inside the frame from having zero height. \setlength{\fboxsep}{0pt}\framebox[2in]{\strut} This example has four lists. In the first there is a much bigger gap between items 2 and 3 than there is between items 1 and 2. The second list fixes that with a ‘\strut’ at the end of its first item's second line. \setlength{\fboxsep}{0pt} \noindent\begin{minipage}[t]{0.2\linewidth} \begin{enumerate} \item \parbox[t]{15pt}{test \\ test} \item test \item test \end{enumerate} \end{minipage}% \begin{minipage}[t]{0.2\linewidth} \begin{enumerate} \item \parbox[t]{15pt}{test \\ test\strut} \item test \item test \end{enumerate} \end{minipage}% \begin{minipage}[t]{0.2\linewidth} \begin{enumerate} \item \fbox{\parbox[t]{15pt}{test \\ test}} \item \fbox{test} \item \fbox{test} \end{enumerate} \end{minipage}% \begin{minipage}[t]{0.2\linewidth} \begin{enumerate} \item \fbox{\parbox[t]{15pt}{test \\ test\strut}} \item \fbox{test} \item \fbox{test} \end{enumerate} \end{minipage}% The final two lists use ‘\fbox’ to show what's happening. The first item ‘\parbox’ of the third list goes only to the bottom of its second ‘test’, which happens not have any characters that descend below the baseline. The fourth list adds the strut that gives the needed extra below-baseline space. The ‘\strut’ command is often useful in graphics, such as in ‘TikZ’ or ‘Asymptote’. For instance, you may have a command such as ‘\graphnode{NODE-NAME}’ that fits a circle around NODE-NAME. However, unless you are careful the NODE-NAME's ‘x’ and ‘y’ will produce different-diameter circles because the characters are different sizes. A careful ‘\graphnode’ might insert a ‘\strut’, then NODE-NAME, and then draw the circle. The general approach of using a zero width ‘\rule’ is useful in many circumstances. In this table, the zero-width rule keeps the top of the first integral from hitting the ‘\hline’. Similarly, the second rule keeps the second integral from hitting the first. \begin{tabular}{rl} \textsc{Integral} &\textsc{Value} \\ \hline $\int_0^x t\, dt$ &$x^2/2$ \rule{0em}{2.5ex} \\ $\int_0^x t^2\, dt$ &$x^3/3$ \rule{0em}{2.5ex} \end{tabular} (Although the line-ending double backslash command has an available optional argument to change the corresponding baseline skip, that won't solve this issue. Changing the first double backslash to something like ‘\\[2.5ex]’ will put more room between the header line and the ‘\hline’ rule, and the integral would still hit the rule.) 19.14 ‘\vspace’ =============== Synopsis, one of: \vspace{LENGTH} \vspace*{LENGTH} Add the vertical space LENGTH. The LENGTH can be positive, negative, or zero. It is a rubber length--it may contain a ‘plus’ or ‘minus’ component (see Lengths). This puts space between the two paragraphs. And I slept. \vspace{1ex plus 0.5ex} The new day dawned cold. (See \bigskip & \medskip & \smallskip, for common inter-paragraph spaces.) The ‘*’-form inserts vertical space that is non-discardable. More precisely, LaTeX discards vertical space at a page break and the ‘*’-form causes the space to stay. This example leaves space between the two questions. Question: Find the integral of \( 5x^4+5 \). \vspace*{2cm plus 0.5cm} Question: Find the derivative of \( x^5+5x+9 \). That space will be present even if the page break happens to fall between the questions. If you use ‘\vspace’ in the middle of a paragraph (i.e., in horizontal mode) then the space is inserted after the line containing the ‘\vspace’ command; it does not start a new paragraph at the ‘\vspace’ command. In this example the two questions will be evenly spaced vertically on the page, with at least one inch of space below each. \begin{document} 1) Who put the bomp in the bomp bah bomp bah bomp? \vspace{1in plus 1fill} 2) Who put the ram in the rama lama ding dong? \vspace{1in plus 1fill} \end{document} 19.15 ‘\vfill’ ============== Synopsis: \vfill End the current paragraph and insert a vertical rubber length that is infinite, so it can stretch or shrink as far as needed (see Lengths). It is often used in the same way as ‘\vspace{\fill}’, except that ‘\vfill’ ends the current paragraph whereas ‘\vspace{\fill}’ adds the infinite vertical space below its line, irrespective of the paragraph structure. In both cases that space will disappear at a page boundary; to circumvent this see the starred option in \vspace. In this example the page is filled, so the top and bottom lines contain the text ‘Lost Dog!’ and the second ‘Lost Dog!’ is exactly halfway between them. \begin{document} Lost Dog! \vfill Lost Dog! % perfectly in the middle \vfill Lost Dog! \end{document} 19.16 ‘\addvspace’ ================== Synopsis: \addvspace{VERT-LENGTH} Add a vertical space of VERT-LENGTH. However, if there are two or more ‘\addvspace’'s in a sequence then together they only add the space needed to make the natural length equal to the maximum of the VERT-LENGTH's in that sequence. This command is fragile (see \protect). The VERT-LENGTH is a rubber length (see Lengths). This example illustrates. The ‘picture’ draws a scale over which to rules are placed. In a standard LaTeX article the length ‘\baselineskip’ is 12pt. As shown by the scale, the two rules are 22pt apart: the sum of the ‘\baselineskip’ and the 10pt from the first ‘\addvspace’. \documentclass{article} \usepackage{color} \begin{document} \setlength{\unitlength}{2pt}% \noindent\begin{picture}(0,0)% \multiput(0,0)(0,-1){25}{{\color{blue}\line(1,0){1}}} \multiput(0,0)(0,-5){6}{{\color{red}\line(1,0){2}}} \end{picture}% \rule{0.25\linewidth}{0.1pt}% \par\addvspace{10pt}% \addvspace{20pt}% \par\noindent\rule{0.25\linewidth}{0.1pt}% \end{document} Now uncomment the second ‘\addvspace’. It does not make the gap 20pt longer; instead the gap is the sum of ‘\baselineskip’ and 20pt. So ‘\addvspace’ in a sense does the opposite of its name--it makes sure that multiple vertical spaces do not accumulate, but instead that only the largest one is used. LaTeX uses this command to adjust the vertical space above or below an environment that starts a new paragraph. For instance, a ‘theorem’ environment begins and ends with ‘\addvspace’ so that two consecutive ‘theorem’'s are separated by one vertical space, not two. A error ‘Something's wrong--perhaps a missing \item’ pointing to an ‘\addvspace’ means that you were not in vertical mode when you hit this command. One way to change that is to precede ‘\addvspace’ with a ‘\par’ command (see \par), as in the above example. 20 Boxes ******** At its core, LaTeX puts things in boxes and then puts the boxes on a page. So these commands are central. There are many packages on CTAN that are useful for manipulating boxes. One useful adjunct to the commands here is ‘adjustbox’. 20.1 ‘\mbox’ & ‘\makebox’ ========================= Synopsis, one of: \mbox{TEXT} \makebox{TEXT} \makebox[WIDTH]{TEXT} \makebox[WIDTH][POSITION]{TEXT} Create a box, a container for material. The TEXT is typeset in LR mode (see Modes) so it is not broken into lines. The ‘\mbox’ command is robust, while ‘\makebox’ is fragile (see \protect). Because ‘text’ is not broken into lines, you can use ‘\mbox’ to prevent hyphenation. In this example, LaTeX will not hyphenate the tank name, ‘T-34’. The soviet tank \mbox{T-34} is a symbol of victory against nazism. The first two command invocations shown, ‘\mbox’ and ‘\makebox’, are roughly the same. They create a box just wide enough to contain the TEXT. (They are like plain TeX's ‘\hbox’.) In the third version the optional argument WIDTH specifies the width of the box. Note that the space occupied by the text need not equal the width of the box. For one thing, TEXT can be too small; this creates a full-line box: \makebox[\linewidth]{Chapter Exam} with ‘Chapter Exam’ centered. But TEXT can also be too wide for WIDTH. See the example below of zero-width boxes. In the WIDTH argument you can use the following lengths that refer to the dimension of the box that LaTeX gets on typesetting TEXT: ‘\depth’, ‘\height’, ‘\width’, ‘\totalheight’ (this is the box's height plus its depth). For example, to make a box with the text stretched to double the natural size you can say this. \makebox[2\width]{Get a stretcher} For the fourth command synopsis version the optional argument POSITION gives position of the text within the box. It may take the following values: ‘c’ The TEXT is centered (default). ‘l’ The TEXT is flush left. ‘r’ Flush right. ‘s’ Stretch the interword space in TEXT across the entire WIDTH. The TEXT must contain stretchable space for this to work. For instance, this could head a press release: ‘\noindent\makebox[\textwidth][s]{\large\hfil IMMEDIATE\hfil RELEASE\hfil}’ A common use of ‘\makebox’ is to make zero-width text boxes. This puts the value of the quiz questions to the left of those questions. \newcommand{\pts}[1]{\makebox[0em][r]{#1 points\hspace*{1em}}} \pts{10}What is the air-speed velocity of an unladen swallow? \pts{90}An African or European swallow? The right edge of the output ‘10 points ’ (note the ending space after ‘points’) will be just before the ‘What’. You can use ‘\makebox’ similarly when making graphics, such as in ‘TikZ’ or ‘Asymptote’, where you put the edge of the text at a known location, regardless of the length of that text. For boxes with frames see \fbox & \framebox. For colors see Colored boxes. There is a related version of ‘\makebox’ that is used within the ‘picture’ environment, where the length is given in terms of ‘\unitlength’ (see \makebox (picture)). As TEXT is typeset in LR mode, neither a double backslash ‘\\’ nor ‘\par’ will give you a new line; for instance ‘\makebox{abc def \\ ghi}’ outputs ‘abc defghi’ while ‘\makebox{abc def \par ghi}’ outputs ‘abc def ghi’, both on a single line. To get multiple lines see \parbox and minipage. 20.2 ‘\fbox’ & ‘\framebox’ ========================== Synopses, one of: \fbox{TEXT} \framebox{TEXT} \framebox[WIDTH]{TEXT} \framebox[WIDTH][POSITION]{TEXT} Create a box with an enclosing frame, four rules surrounding the TEXT. These commands are the same as ‘\mbox’ and ‘\makebox’ except for the frame (see \mbox & \makebox). The ‘\fbox’ command is robust, the ‘\framebox’ command is fragile (see \protect). \fbox{Warning! No work shown, no credit given.} LaTeX puts the text into a box, the text cannot be hyphenated. Around that box, separated from it by a small gap, are four rules making a frame. The first two command invocations, ‘\fbox{...}’ and ‘\framebox{...}’, are roughly the same. As to the third and fourth invocations, the optional arguments allow you to specify the box width as WIDTH and the position of the text inside that box as POSITION. See \mbox & \makebox, for the full description but here is an example creating an empty box that is 1/4in wide. \setlength{\fboxsep}{0pt}\framebox[0.25in]{\strut}} The ‘\strut’ ensures a total height of ‘\baselineskip’ (see \strut). These parameters determine the frame layout. ‘\fboxrule’ The thickness of the rules around the enclosed box. The default is 0.2pt. Change it with a command such as ‘\setlength{\fboxrule}{0.8pt}’ (see \setlength). ‘\fboxsep’ The distance from the frame to the enclosed box. The default is 3pt. Change it with a command such as ‘\setlength{\fboxsep}{0pt}’ (see \setlength). Setting it to 0pt is useful sometimes: this will put a frame around the picture with no white border. {\setlength{\fboxsep}{0pt}% \framebox{% \includegraphics[width=0.5\textwidth]{prudence.jpg}}} The extra curly braces keep the effect of the ‘\setlength’ local. As with ‘\mbox’ and ‘\makebox’, LaTeX will not break lines in TEXT. But this example has LaTeX break lines to make a paragraph, and then frame the result. \framebox{% \begin{minipage}{0.6\linewidth} My dear, here we must run as fast as we can, just to stay in place. And if you wish to go anywhere you must run twice as fast as that. \end{minipage}} See Colored boxes, for colors other than black and white. The ‘picture’ environment has a version of the ‘\framebox’ command where the units depend on ‘picture’'s ‘\unitlength’ (see \framebox (picture)). 20.3 ‘\parbox’ ============== Synopses, one of: \parbox{WIDTH}{CONTENTS} \parbox[POSITION]{WIDTH}{CONTENTS} \parbox[POSITION][HEIGHT]{WIDTH}{CONTENTS} \parbox[POSITION][HEIGHT][INNER-POS]{WIDTH}{CONTENTS} Produce a box of text that is WIDTH wide. Use this command to make a box of small pieces of text, of a single paragraph. This command is fragile (see \protect). \begin{picture}(0,0) ... \put(1,2){\parbox{1.75in}{\raggedright Because the graph is a line on this semilog paper, the relationship is exponential.}} \end{picture} The CONTENTS are processed in a text mode (see Modes) so LaTeX will break lines to make a paragraph. But it won't make multiple paragraphs; for that, use a ‘minipage’ environment (see minipage). The options for ‘\parbox’ (except for CONTENTS) are the same as those for ‘minipage’. For convenience a summary of the options is here but see minipage for a complete description. There are two required arguments. The WIDTH is a rigid length (see Lengths). It sets the width of the box into which LaTeX typesets CONTENTS. The CONTENTS is the text that is placed in that box. It should not have any paragraph-making components. There are three optional arguments, POSITION, HEIGHT, and INNER-POS. The POSITION gives the vertical alignment of the “parbox” with respect to the surrounding material. The supported values are ‘c’ or ‘m’ to make the vertical center of the parbox lines up with the center of the adjacent text line (this is the default), or ‘t’ to match the top line of the parbox with the baseline of the surrounding material, or ‘b’ to match the bottom line. The optional argument HEIGHT overrides the natural height of the box. The optional argument INNER-POS controls the placement of CONTENT inside the ‘parbox’. Its default is the value of POSITION. Its possible values are: ‘t’ to put the CONTENT at the top of the box, ‘c’ to put it in the vertical center, ‘b’ to put it at the bottom of the box, and ‘s’ to stretch it out vertically (for this, the text must contain vertically stretchable space). 20.4 ‘\raisebox’ ================ Synopsis, one of: \raisebox{DISTANCE}{TEXT} \raisebox{DISTANCE}[HEIGHT]{TEXT} \raisebox{DISTANCE}[HEIGHT][DEPTH]{TEXT} Raise or lower TEXT. This command is fragile (see \protect). This example makes a command for denoting the restriction of a function by lowering the vertical bar symbol. \newcommand*\restricted[1]{\raisebox{-.5ex}{$|$}_{#1}} $f\restricted{A}$ The first mandatory argument DISTANCE specifies how far to raise the second mandatory argument TEXT. This is a rigid length (see Lengths). If it is negative then it lowers TEXT. The TEXT is processed in LR mode so it cannot contain line breaks (see Modes). The optional arguments HEIGHT and DEPTH are dimensions. If they are specified, they override the natural height and depth of the box LaTeX gets by typesetting TEXT. In the arguments DISTANCE, HEIGHT, and DEPTH you can use the following lengths that refer to the dimension of the box that LaTeX gets on typesetting TEXT: ‘\depth’, ‘\height’, ‘\width’, ‘\totalheight’ (this is the box's height plus its depth). This will align two graphics on their top (see Graphics). \usepackage{graphicx,calc} % in preamble ... \begin{center} \raisebox{1ex-\height}{% \includegraphics[width=0.4\linewidth]{lion.png}} \qquad \raisebox{1ex-\height}{% \includegraphics[width=0.4\linewidth]{meta.png}} \end{center} The first ‘\height’ is the height of ‘lion.png’ while the second is the height of ‘meta.png’. 20.5 ‘\sbox’ & ‘\savebox’ ========================= Synopsis, one of: \sbox{BOX-CMD}{TEXT} \savebox{BOX-CMD}{TEXT} \savebox{BOX-CMD}[WIDTH]{TEXT} \savebox{BOX-CMD}[WIDTH][POS]{TEXT} Typeset TEXT just as with ‘\makebox’ (see \mbox & \makebox) except that LaTeX does not output it but instead saves it in a box register referred to by a variable named BOX-CMD. The variable name BOX-CMD begins with a backslash, ‘\’. You must have previously allocated the box register BOX-CMD with ‘\newsavebox’ (see \newsavebox). The ‘\sbox’ command is robust while ‘\savebox’ is fragile (see \protect). This creates and uses a box register. \newsavebox{\fullname} \sbox{\fullname}{John Jacob Jingleheimer Schmidt} ... \usebox{\fullname}! His name is my name, too! Whenever we go out, the people always shout! There goes \usebox{\fullname}! Ya da da da da da da. One advantage of using and reusing a box register over a ‘\newcommand’ macro variable is efficiency, that LaTeX need not repeatedly retypeset the contents. See the example below. The first two command invocations shown above, ‘\sbox{BOX-CMD}{TEXT}’ and ‘\savebox{BOX-CMD}{TEXT}’, are roughly the same. As to the third and fourth, the optional arguments allow you to specify the box width as WIDTH, and the position of the text inside that box as POSITION. See \mbox & \makebox, for the full description. In the ‘\sbox’ and ‘\savebox’ commands the TEXT is typeset in LR mode so it does not have line breaks (see Modes). If you use these then LaTeX doesn't give you an error but it ignores what you want: if you enter ‘\sbox{\newreg}{test \\ test}’ and ‘\usebox{\newreg}’ then you get ‘testtest’, while if you enter ‘\sbox{\newreg}{test \par test}’ and ‘\usebox{\newreg}’ then you get ‘test test’, but no error or warning. To fix this use a ‘\parbox’ or ‘minipage’ as here. \newsavebox{\areg} \savebox{\areg}{% \begin{minipage}{\linewidth} \begin{enumerate} \item First item \item Second item \end{enumerate} \end{minipage}} ... \usebox{\areg} As an example of the efficiency of reusing a register's contents, this puts the same picture on each page of the document by putting it in the header. LaTeX only typesets it once. \usepackage{graphicx} % all this in the preamble \newsavebox{\sealreg} \savebox{\sealreg}{% \setlength{\unitlength}{1in}% \begin{picture}(0,0)% \put(1.5,-2.5){% \begin{tabular}{c} \includegraphics[height=2in]{companylogo.png} \\ Office of the President \end{tabular}} \end{picture}% } \markright{\usebox{\sealreg}} \pagestyle{headings} The ‘picture’ environment is good for fine-tuning the placement. If the register ‘\noreg’ has not already been defined then you get something like ‘Undefined control sequence. \noreg’. 20.6 ‘lrbox’ ============ Synopsis: \begin{lrbox}{BOX-CMD} TEXT \end{lrbox} This is the environment form of the ‘\sbox’ and ‘\savebox’ commands, and is equivalent to them. See \sbox & \savebox, for the full description. The TEXT inside the environment is saved in the box register referred to by variable ‘BOX-CMD’. The variable name BOX-CMD must begin with a backslash, ‘\’. You must allocate this box register in advance with ‘\newsavebox’ (see \newsavebox). In this example the environment is convenient for entering the ‘tabular’. \newsavebox{\jhreg} \begin{lrbox}{\jhreg} \begin{tabular}{c} \includegraphics[height=1in]{jh.png} \\ Jim Hef{}feron \end{tabular} \end{lrbox} ... \usebox{\jhreg} 20.7 ‘\usebox’ ============== Synopsis: \usebox{BOX-CMD} Produce the box most recently saved in the box register BOX-CMD by the commands ‘\sbox’ or ‘\savebox’, or the ‘lrbox’ environment. For more information and examples, see \sbox & \savebox. (Note that the variable name BOX-CMD starts with a backslash, ‘\’.) This command is robust (see \protect). 21 Graphics *********** You can use graphics such as PNG or PDF files in your LaTeX document. You need an additional package, which comes standard with LaTeX. This example is the short how-to. \include{graphicx} % goes in the preamble ... \includegraphics[width=0.5\linewidth]{plot.pdf} To use the commands described here your document preamble must contain either ‘\usepackage{graphicx}’ or ‘\usepackage{graphics}’. Most of the time, ‘graphicx’ is the better choice. Graphics come in two main types, raster and vector. LaTeX can use both. In raster graphics the file contains an entry for each location in an array, describing what color it is. An example is a photograph in JPG format. In vector graphics, the file contains a list of instructions such as ‘draw a circle with this radius and that center’. An example is a line drawing produced by the Asymptote program, in PDF format. Generally vector graphics are more useful because you can rescale their size without pixelation or other problems, and because they often have a smaller size. There are systems particularly well-suited to make graphics for a LaTeX document. For example, these allow you to use the same fonts as in your document. LaTeX comes with a ‘picture’ environment (see picture) that has simple capabilities. Besides that, there are other ways to include the graphic-making commands in the document. Two such systems are the PSTricks and TikZ packages. There are also systems external to LaTeX, that generate a graphic that you include using the commands of this chapter. Two that use a programming language are Asymptote and MetaPost. One that uses a graphical interface is Xfig. Full description of these systems is outside the scope of this document; see their documentation on CTAN. 21.1 ‘graphics’ package options =============================== Synopsis (must be in the document preamble): \usepackage[COMMA-SEPARATED OPTION LIST]{graphics} or \usepackage[COMMA-SEPARATED OPTION LIST]{graphicx} The ‘graphicx’ package has a format for optional arguments to the ‘\includegraphics’ command that is convenient (it is the key-value format), so it is the better choice for new documents. When you load the ‘graphics’ or ‘graphicx’ package with ‘\usepackage’ there are two kinds of available options. The first is that LaTeX does not contain information about different output systems but instead depends on information stored in a “printer driver” file. Normally you should not specify the driver option in the document, and instead rely on your system's default. One advantage of this is that it makes the document portable across systems. For completeness here is a list of the drivers. The currently relevant ones are: ‘dvipdfmx’, ‘dvips’, ‘dvisvgm’, ‘luatex’, ‘pdftex’, ‘xetex’. The two ‘xdvi’ and ‘oztex’ are essentially aliases for ‘dvips’ (and ‘xdvi’ is monochrome). Ones that should not be used for new systems are: ‘dvipdf’, ‘dvipdfm’, ‘dviwin’, ‘dvipsone’, ‘emtex’, ‘pctexps’, ‘pctexwin’, ‘pctexhp’, ‘pctex32’, ‘truetex’, ‘tcidvi’, ‘vtex’ (and ‘dviwindo’ is an alias for ‘dvipsone’). These are stored in files with a ‘.def’ extension, such as ‘pdftex.def’. The second kind of options are below. ‘demo’ Instead of an image file, LaTeX puts in a 150 pt by 100 pt rectangle (unless another size is specified in the ‘\includegraphics’ command). ‘draft’ For each graphic file, it is not shown but instead its file name is printed in a box of the correct size. In order to determine the size, the file must be present. ‘final’ (Default) Override any previous ‘draft’ option, so that the document shows the contents of the graphic files. ‘hiderotate’ Do not show rotated text. (This allows for the possibility that a previewer does not have the capability to rotate text.) ‘hidescale’ Do not show scaled text. (This allows for the possibility that a previewer does not have the capability to scale.) ‘hiresbb’ In a PS or EPS file the graphic size may be specified in two ways. The ‘%%BoundingBox’ lines describe the graphic size using integer multiples of a PostScript point, that is, integer multiples of 1/72 inch. A later addition to the PostScript language allows decimal multiples, such as 1.23, in ‘%%HiResBoundingBox’ lines. This option has LaTeX to read the size from the latter. 21.2 ‘graphics’ package configuration ===================================== These commands configure the way LaTeX searches the file system for the graphic. The behavior of file system search code is necessarily platform dependent. In this document we cover GNU/Linux, Macintosh, and Windows, as those systems are typically configured. For other situations consult the documentation in ‘grfguide.pdf’, or the LaTeX source, or your TeX distribution's documentation. 21.2.1 ‘\graphicspath’ ---------------------- Synopsis: \graphicspath{LIST OF DIRECTORIES INSIDE CURLY BRACES} Declare a list of directories to search for graphics files. This allows you to later say something like ‘\includegraphics{lion.png}’ instead of having to give its path. LaTeX always looks for graphic files first in the current directory (and the output directory, if specified; see output directory). The declaration below tells the system to then look in the subdirectory ‘pix’, and then ‘../pix’. \usepackage{graphicx} % or graphics; put in preamble ... \graphicspath{ {pix/} {../pix/} } The ‘\graphicspath’ declaration is optional. If you don't include it then LaTeX's default is to search all of the places that it usually looks for a file (it uses LaTeX's ‘\input@path’). In particular, in this case one of the places it looks is the current directory. Enclose each directory name in curly braces; for example, above it says ‘‘{pix}’’. Do this even if there is only one directory. Each directory name must end in a forward slash, ‘/’. This is true even on Windows, where good practice is to use forward slashes for all the directory separators since it makes the document portable to other platforms. If you have spaces in your directory name then use double quotes, as with ‘{"my docs/"}’. Getting one of these rules wrong will cause LaTeX to report ‘Error: File `FILENAME' not found’. Basically, the algorithm is that with this example, after looking in the current directory, \graphicspath{ {pix/} {../pix/} } ... \usepackage{lion.png} for each of the listed directories, LaTeX concatenates it with the filename and searches for the result, checking for ‘pix/lion.png’ and then ‘../pix/lion.png’. This algorithm means that the ‘\graphicspath’ command does not recursively search subdirectories: if you issue ‘\graphicspath{{a/}}’ and the graphic is in ‘a/b/lion.png’ then LaTeX will not find it. It also means that you can use absolute paths such as ‘\graphicspath{{/home/jim/logos/}}’ or ‘\graphicspath{{C:/Users/Albert/Pictures/}}’. However, using these means that the document is not portable. (You could preserve portability by adjusting your TeX system settings configuration file parameter ‘TEXINPUTS’; see the documentation of your system.) You can use ‘\graphicspath’ anywhere in the document. You can use it more than once. Show its value with ‘\makeatletter\typeout{\Ginput@path}\makeatother’. The directories are taken with respect to the base file. That is, suppose that you are working on a document based on ‘book/book.tex’ and it contains ‘\include{chapters/chap1}’. If in ‘chap1.tex’ you put ‘\graphicspath{{plots/}}’ then LaTeX will not search for graphics in ‘book/chapters/plots’, but instead in ‘book/plots’. 21.2.2 ‘\DeclareGraphicsExtensions’ ----------------------------------- Synopses: \DeclareGraphicsExtensions{COMMA-SEPARATED LIST OF FILE EXTENSIONS} Declare the filename extensions to try. This allows you to specify the order in which to choose graphic formats when you include graphic files by giving the filename without the extension, as in ‘\includegraphics{functionplot}’. In this example, LaTeX will find files in the PNG format before PDF files. \DeclareGraphicsExtensions{.png,PNG,.pdf,.PDF} ... \includegraphics{lion} % will find lion.png before lion.pdf Because the filename ‘lion’ does not have a period, LaTeX uses the extension list. For each directory in the graphics path (see \graphicspath), LaTeX will try the extensions in the order given. If it does not find such a file after trying all the directories and extensions then it reports ‘! LaTeX Error: File `‘lion’' not found’. Note that you must include the periods at the start of the extensions. Because GNU/Linux and Macintosh filenames are case sensitive, the list of file extensions is case sensitive on those platforms. The Windows platform is not case sensitive. You are not required to include ‘\DeclareGraphicsExtensions’ in your document; the printer driver has a sensible default. For example, the most recent ‘pdftex.def’ has this extension list. .pdf,.png,.jpg,.mps,.jpeg,.jbig2,.jb2,.PDF,.PNG,.JPG,.JPEG,.JBIG2,.JB2 To change the order, use the ‘grfext’ package. You can use this command anywhere in the document. You can use it more than once. Show its value with ‘\makeatletter\typeout{\Gin@extensions}\makeatother’. 21.2.3 ‘\DeclareGraphicsRule’ ----------------------------- Synopsis: \DeclareGraphicsRule{EXTENSION}{TYPE}{SIZE-FILE EXTENSION}{COMMAND} Declare how to handle graphic files whose names end in EXTENSION. This example declares that all files with names of the form ‘filename-without-dot.mps’ will be treated as output from MetaPost, meaning that the printer driver will use its MetaPost-handling code to input the file. \DeclareGraphicsRule{.mps}{mps}{.mps}{} This \DeclareGraphicsRule{*}{mps}{*}{} tells LaTeX that it should handle as MetaPost output any file with an extension not covered by another rule, so it covers ‘filename.1’, ‘filename.2’, etc. This describes the four arguments. EXTENSION The file extension to which this rule applies. The extension is anything after and including the first dot in the filename. Use the Kleene star, ‘*’, to denote the default behavior for all undeclared extensions. TYPE The type of file involved. This type is a string that must be defined in the printer driver. For instance, files with extensions ‘.ps’, ‘.eps’, or ‘.ps.gz’ may all be classed as type ‘eps’. All files of the same type will be input with the same internal command by the printer driver. For example, the file types that ‘pdftex’ recognizes are: ‘jpg’, ‘jbig2’, ‘mps’, ‘pdf’, ‘png’, ‘tif’. SIZE-FILE EXTENSION The extension of the file to be read to determine the size of the graphic, if there is such a file. It may be the same as EXTENSION but it may be different. As an example, consider a PostScript graphic. To make it smaller, it might be compressed into a ‘.ps.gz’ file. Compressed files are not easily read by LaTeX so you can put the bounding box information in a separate file. If SIZE-FILE EXTENSION is empty then you must specify size information in the arguments of ‘\includegraphics’. If the driver file has a procedure for reading size files for ‘type’ then that will be used, otherwise it will use the procedure for reading ‘.eps’ files. (Thus you may specify the size of bitmap files in a file with a PostScript style ‘%%BoundingBox’ line if no other format is available.) COMMAND A command that will be applied to the file. This is often left empty. This command must start with a single backward quote. Thus, ‘\DeclareGraphicsRule{.eps.gz}{eps}{.eps.bb}{`gunzip -c #1}’ specifies that any file with the extension ‘.eps.gz’ should be treated as an ‘eps’ file, with the BoundingBox information stored in the file with extension ‘.eps.bb’, and that the command ‘gunzip -c’ will run on your platform to decompresses the file. Such a command is specific to your platform. In addition, your TeX system must allow you to run external commands; as a security measure modern systems restrict running commands unless you explicitly allow it. See the documentation for your TeX distribution. 21.3 Commands for graphics ========================== These are the commands available with the ‘graphics’ and ‘graphicx’ packages. 21.3.1 ‘\includegraphics’ ------------------------- Synopses for ‘graphics’ package: \includegraphics{FILENAME} \includegraphics[URX,URY]{FILENAME} \includegraphics[LLX,LLY][URX,URY]{FILENAME} \includegraphics*{FILENAME} \includegraphics*[URX,URY]{FILENAME} \includegraphics*[LLX,LLY][URX,URY]{FILENAME} Synopses for ‘graphicx’ package: \includegraphics{FILENAME} \includegraphics[KEY-VALUE LIST]{FILENAME} \includegraphics*{FILENAME} \includegraphics*[KEY-VALUE LIST]{FILENAME} Include a graphics file. The starred form ‘\includegraphics*’ will clip the graphic to the size specified, while for the unstarred form any part of the graphic that is outside the box of the specified size will over-print the surrounding area. This \usepackage{graphicx} % in preamble ... \begin{center} \includegraphics{plot.pdf} \end{center} will incorporate into the document the graphic in ‘plot.pdf’, centered and at its nominal size. You can also give a path to the file, as with ‘\includegraphics{graphics/plot.pdf}’. To specify a list of locations to search for the file, see \graphicspath. If your filename includes spaces then put it in double quotes. An example is ‘\includegraphics{"sister picture.jpg"}’. The ‘\includegraphics{FILENAME}’ command decides on the type of graphic by splitting FILENAME on the first dot. You can instead use FILENAME with no dot, as in ‘\includegraphics{turing}’, and then LaTeX tries a sequence of extensions such as ‘.png’ and ‘.pdf’ until it finds a file with that extension (see \DeclareGraphicsExtensions). If your file name contains dots before the extension then you can hide them with curly braces, as in ‘\includegraphics{{plot.2018.03.12.a}.pdf}’. Or, if you use the ‘graphicx’ package then you can use the options ‘type’ and ‘ext’; see below. This and other filename issues are also handled with the package ‘grffile’. This example puts a graphic in a ‘figure’ environment so LaTeX can move it to the next page if fitting it on the current page is awkward (see figure). \begin{figure} \centering \includegraphics[width=3cm]{lungxray.jpg} \caption{The evidence is overwhelming: don't smoke.} \label{fig:xray} \end{figure} This places a graphic that will not float, so it is sure to appear at this point in the document even if makes LaTeX stretch the text or resort to blank areas on the page. It will be centered and will have a caption. \usepackage{caption} % in preamble ... \begin{center} \includegraphics{pix/nix.png} \captionof{figure}{The spirit of the night} \label{pix:nix} % optional \end{center} This example puts a box with a graphic side by side with one having text, with the two vertically centered. \newcommand*{\vcenteredhbox}[1]{\begin{tabular}{@{}c@{}}#1\end{tabular}} ... \begin{center} \vcenteredhbox{\includegraphics[width=0.4\textwidth]{plot}} \hspace{1em} \vcenteredhbox{\begin{minipage}{0.4\textwidth} \begin{displaymath} f(x)=x\cdot \sin (1/x) \end{displaymath} \end{minipage}} \end{center} If you use the ‘graphics’ package then the only options involve the size of the graphic (but see \rotatebox and \scalebox). When one optional argument is present then it is ‘[URX,URY]’ and it gives the coordinates of the top right corner of the image, as a pair of TeX dimensions (see Units of length). If the units are omitted they default to ‘bp’. In this case, the lower left corner of the image is assumed to be at (0,0). If two optional arguments are present then the leading one is ‘[LLX,LLY]’, specifying the coordinates of the image's lower left. Thus, ‘\includegraphics[1in,0.618in]{...}’ calls for the graphic to be placed so it is 1 inch wide and 0.618 inches tall and so its origin is at (0,0). The ‘graphicx’ package gives you many more options. Specify them in a key-value form, as here. \begin{center} \includegraphics[width=1in,angle=90]{lion} \hspace{2em} \includegraphics[angle=90,width=1in]{lion} \end{center} The options are read left-to-right. So the first graphic above is made one inch wide and then rotated, while the second is rotated and then made one inch wide. Thus, unless the graphic is perfectly square, the two will end with different widths and heights. There are many options. The primary ones are listed first. Note that a graphic is placed by LaTeX into a box, which is traditionally referred to as its “bounding box” (distinct from the PostScript BoundingBox described below). The graphic's printed area may go beyond this box, or sit inside this box, but when LaTeX makes up a page it puts together boxes and this is the box allocated for the graphic. ‘width’ The graphic will be shown so its bounding box is this width. An example is ‘\includegraphics[width=1in]{plot}’. You can use the standard TeX dimensions (see Units of length) and also convenient is ‘\linewidth’, or in a two-column document, ‘\columnwidth’ (see Page layout parameters). An example is that by using the ‘calc’ package you can make the graphic be 1 cm narrower than the width of the text with ‘\includegraphics[width=\linewidth-1.0cm]{hefferon.jpg}’. ‘height’ The graphic will be shown so its bounding box is this height. You can use the standard TeX dimensions (see Units of length), and also convenient are ‘\pageheight’ and ‘\textheight’ (see Page layout parameters). For instance, the command ‘\includegraphics[height=0.25\textheight]{godel}’ will make the graphic a quarter of the height of the text area. ‘totalheight’ The graphic will be shown so its bounding box has this height plus depth. This differs from the height if the graphic was rotated. For instance, if it has been rotated by -90 then it will have zero height but a large depth. ‘keepaspectratio’ If set to ‘true’, or just specified as here \includegraphics[...,keepaspectratio,...]{...} and you give as options both ‘width’ and ‘height’ (or ‘totalheight’), then LaTeX will make the graphic is as large as possible without distortion. That is, LaTeX will ensure that neither is the graphic wider than ‘width’ nor taller than ‘height’ (or ‘totalheight’). ‘scale’ Factor by which to scale the graphic. To make a graphic twice its nominal size, enter ‘\includegraphics[scale=2.0]{...}’. This number may be any value; a number between 0 and 1 will shrink the graphic and a negative number will reflect it. ‘angle’ Rotate the graphic. The angle is taken in degrees and counterclockwise. The graphic is rotated about its ‘origin’; see that option. For a complete description of how rotated material is typeset, see \rotatebox. ‘origin’ The point of the graphic about which the rotation happens. Possible values are any string containing one or two of: ‘l’ for left, ‘r’ for right, ‘b’ for bottom, ‘c’ for center, ‘t’ for top, and ‘B’ for baseline. Thus, entering the command ‘\includegraphics[angle=180,origin=c]{moon}’ will turn the picture upside down about that picture's center, while the command ‘\includegraphics[angle=180,origin=lB]{LeBateau}’ will turn its picture upside down about its left baseline. (The character ‘c’ gives the horizontal center in ‘bc’ or ‘tc’, but gives the vertical center in ‘lc’ or ‘rc’.) The default is ‘lB’. To rotate about an arbitrary point, see \rotatebox. These are lesser-used options. ‘viewport’ Pick out a subregion of the graphic to show. Takes four arguments, separated by spaces and given in TeX dimensions, as with ‘\includegraphics[.., viewport=0in 0in 1in 0.618in]{...}’. When the unit is omitted, the dimensions default to big points, ‘bp’. They are taken relative to the origin specified by the bounding box. See also the ‘trim’ option. ‘trim’ Gives parts of the graphic to not show. Takes four arguments, separated by spaces, that are given in TeX dimensions, as with ‘\includegraphics[.., trim= 0in 0.1in 0.2in 0.3in, ...]{...}’. These give the amounts of the graphic not to show, that is, LaTeX will crop the picture by 0 inches on the left, 0.1 inches on the bottom, 0.2 inches on the right, and 0.3 inches on the top. See also the ‘viewport’ option. ‘clip’ If set to ‘true’, or just specified as here \includegraphics[...,clip,...]{...} then the graphic is cropped to the bounding box. This is the same as using the starred form of the command, ‘\includegraphics*[...]{...}’. ‘page’ Give the page number of a multi-page PDF file. The default is ‘page=1’. ‘pagebox’ Specifies which bounding box to use for PDF files from among ‘mediabox’, ‘cropbox’, ‘bleedbox’, ‘trimbox’, or ‘artbox’. PDF files do not have the BoundingBox that PostScript files have, but may specify up to four predefined rectangles. The MediaBox gives the boundaries of the physical medium. The CropBox is the region to which the contents of the page are to be clipped when displayed. The BleedBox is the region to which the contents of the page should be clipped in production. The TrimBox is the intended dimensions of the finished page. The ArtBox is the extent of the page's meaningful content. The driver will set the image size based on CropBox if present, otherwise it will not use one of the others, with a driver-defined order of preference. MediaBox is always present. ‘interpolate’ Enable or disable interpolation of raster images by the viewer. Can be set with ‘interpolate=true’ or just specified as here. \includegraphics[...,interpolate,...]{...} ‘quiet’ Do not write information to the log. You can set it with ‘quiet=true’ or just specified it with ‘\includegraphics[...,quiet,...]{...}’, ‘draft’ If you set it with ‘draft=true’ or just specify it with \includegraphics[...,draft,...]{...} then the graphic will not appear in the document, possibly saving color printer ink. Instead, LaTeX will put an empty box of the correct size with the filename printed in it. These options address the bounding box for Encapsulated PostScript graphic files, which have a size specified with a line ‘%%BoundingBox’ that appears in the file. It has four values, giving the lower x coordinate, lower y coordinate, upper x coordinate, and upper y coordinate. The units are PostScript points, equivalent to TeX's big points, 1/72 inch. For example, if an ‘.eps’ file has the line ‘%%BoundingBox 10 20 40 80’ then its natural size is 30/72 inch wide by 60/72 inch tall. ‘bb’ Specify the bounding box of the displayed region. The argument is four dimensions separated by spaces, as with ‘\includegraphics[.., bb= 0in 0in 1in 0.618in]{...}’. Usually ‘\includegraphics’ reads the BoundingBox numbers from the EPS file automatically, so this option is only useful if the bounding box is missing from that file or if you want to change it. ‘bbllx, bblly, bburx, bbury’ Set the bounding box. These four are obsolete, but are retained for compatibility with old packages. ‘natwidth, natheight’ An alternative for ‘bb’. Setting \includegraphics[...,natwidth=1in,natheight=0.618in,...]{...} is the same as setting ‘bb=0 0 1in 0.618in’. ‘hiresbb’ If set to ‘true’, or just specified as with \includegraphics[...,hiresbb,...]{...} then LaTeX will look for ‘%%HiResBoundingBox’ lines instead of ‘%%BoundingBox’ lines. (The ‘BoundingBox’ lines use only natural numbers while the ‘HiResBoundingBox’ lines use decimals; both use units equivalent to TeX's big points, 1/72 inch.) To override a prior setting of ‘true’, you can set it to ‘false’. These following options allow a user to override LaTeX's method of choosing the graphic type based on the filename extension. An example is that ‘\includegraphics[type=png,ext=.xyz,read=.xyz]{lion}’ will read the file ‘lion.xyz’ as though it were ‘lion.png’. For more on these, see \DeclareGraphicsRule. ‘type’ Specify the graphics type. ‘ext’ Specify the graphics extension. Only use this in conjunction with the option ‘type’. ‘read’ Specify the file extension of the read file. Only use this in conjunction with the option ‘type’. ‘command’ Specify a command to be applied to this file. Only use this in conjunction with the option ‘type’. See Command line options, for a discussion of enabling the ‘\write18’ functionality to run external commands. 21.3.2 ‘\rotatebox’ ------------------- Synopsis if you use the ‘graphics’ package: \rotatebox{ANGLE}{MATERIAL} Synopses if you use the ‘graphicx’ package: \rotatebox{ANGLE}{MATERIAL} \rotatebox[KEY-VALUE LIST]{ANGLE}{MATERIAL} Put MATERIAL in a box and rotate it ANGLE degrees counterclockwise. This example rotates the table column heads forty-five degrees. \begin{tabular}{ll} \rotatebox{45}{Character} &\rotatebox{45}{NATO phonetic} \\ A &AL-FAH \\ B &BRAH-VOH \end{tabular} The MATERIAL can be anything that goes in a box, including a graphic. \rotatebox[origin=c]{45}{\includegraphics[width=1in]{lion}} To place the rotated material, the first step is that LaTeX sets MATERIAL in a box, with a reference point on the left baseline. The second step is the rotation, by default about the reference point. The third step is that LaTeX computes a box to bound the rotated material. Fourth, LaTeX moves this box horizontally so that the left edge of this new bounding box coincides with the left edge of the box from the first step (they need not coincide vertically). This new bounding box, in its new position, is what LaTeX uses as the box when typesetting this material. If you use the ‘graphics’ package then the rotation is about the reference point of the box. If you use the ‘graphicx’ package then these are the options that can go in the KEY-VALUE LIST, but note that you can get the same effect without needing this package, except for the ‘x’ and ‘y’ options (see \includegraphics). ‘origin’ The point of the MATERIAL's box about which the rotation happens. Possible value is any string containing one or two of: ‘l’ for left, ‘r’ for right, ‘b’ for bottom, ‘c’ for center, ‘t’ for top, and ‘B’ for baseline. Thus, the first line here \rotatebox[origin=c]{180}{moon} \rotatebox[origin=lB]{180}{LeBateau} will turn the picture upside down from the center while the second will turn its picture upside down about its left baseline. (The character ‘c’ gives the horizontal center in ‘bc’ or ‘tc’ but gives the vertical center in ‘lc’ or ‘rc’, and gives both in ‘c’.) The default is ‘lB’. ‘x, y’ Specify an arbitrary point of rotation with ‘\rotatebox[x=TeX DIMENSION,y=TeX DIMENSION]{...}’ (see Units of length). These give the offset from the box's reference point. ‘units’ This key allows you to change the default of degrees counterclockwise. Setting ‘units=-360’ changes the direction to degrees clockwise and setting ‘units=6.283185’ changes to radians counterclockwise. 21.3.3 ‘\scalebox’ ------------------ Synopses: \scalebox{HORIZONTAL FACTOR}{MATERIAL} \scalebox{HORIZONTAL FACTOR}[VERTICAL FACTOR]{MATERIAL} \reflectbox{MATERIAL} Scale the MATERIAL. This example halves the size, both horizontally and vertically, of the first text and doubles the size of the second. \scalebox{0.5}{DRINK ME} and \scalebox{2.0}{Eat Me} If you do not specify the optional VERTICAL FACTOR then it defaults to the same value as the HORIZONTAL FACTOR. You can use this command to resize a graphic, as here. \scalebox{0.5}{\includegraphics{lion}} If you use the ‘graphicx’ package then you can accomplish the same thing with optional arguments to ‘\includegraphics’ (see \includegraphics). The ‘\reflectbox’ command abbreviates ‘\scalebox{-1}[1]{MATERIAL}’. Thus, ‘Able was I\reflectbox{Able was I}’ will show the phrase ‘Able was I’ immediately followed by its mirror reflection against a vertical axis. 21.3.4 ‘\resizebox’ ------------------- Synopses: \resizebox{HORIZONTAL LENGTH}{VERTICAL LENGTH}{MATERIAL} \resizebox*{HORIZONTAL LENGTH}{VERTICAL LENGTH}{MATERIAL} Given a size, such as ‘3cm’, transform MATERIAL to make it that size. If either HORIZONTAL LENGTH or VERTICAL LENGTH is an exclamation point ‘!’ then the other argument is used to determine a scale factor for both directions. This example makes the graphic be a half inch wide and scales it vertically by the same factor to keep it from being distorted. \resizebox{0.5in}{!}{\includegraphics{lion}} The unstarred form ‘\resizebox’ takes VERTICAL LENGTH to be the box's height while the starred form ‘\resizebox*’ takes it to be height+depth. For instance, make the text have a height+depth of a quarter-inch with ‘\resizebox*{!}{0.25in}{\parbox{3.5in}{This box has both height and depth.}}’. You can use ‘\depth’, ‘\height’, ‘\totalheight’, and ‘\width’ to refer to the original size of the box. Thus, make the text two inches wide but keep the original height with ‘\resizebox{2in}{\height}{Two inches}’. 22 Color ******** You can add color to text, rules, etc. You can also have color in a box or on an entire page and write text on top of it. Color support comes as an additional package. So put ‘\usepackage{color}’ in your document preamble to use the commands described here. Many other packages also supplement LaTeX's color abilities. Particularly worth mentioning is ‘xcolor’, which is widely used and significantly extends the capabilities described here, including adding ‘HTML’ and ‘Hsb’ color models. 22.1 ‘color’ package options ============================ Synopsis (must be in the document preamble): \usepackage[COMMA-SEPARATED OPTION LIST]{color} When you load the ‘color’ package there are two kinds of available options. The first specifies the “printer driver”. LaTeX doesn't contain information about different output systems but instead depends on information stored in a file. Normally you should not specify the driver option in the document, and instead rely on your system's default. One advantage of this is that it makes the document portable across systems. For completeness we include a list of the drivers. The currently relevant ones are: ‘dvipdfmx’, ‘dvips’, ‘dvisvgm’, ‘luatex’, ‘pdftex’, ‘xetex’. The two ‘xdvi’ and ‘oztex’ are essentially aliases for ‘dvips’ (and ‘xdvi’ is monochrome). Ones that should not be used for new systems are: ‘dvipdf’, ‘dvipdfm’, ‘dviwin’, ‘dvipsone’, ‘emtex’, ‘pctexps’, ‘pctexwin’, ‘pctexhp’, ‘pctex32’, ‘truetex’, ‘tcidvi’, ‘vtex’ (and ‘dviwindo’ is an alias for ‘dvipsone’). The second kind of options, beyond the drivers, are below. ‘monochrome’ Disable the color commands, so that they do not generate errors but do not generate color either. ‘dvipsnames’ Make available a list of 68 color names that are often used, particularly in legacy documents. These color names were originally provided by the ‘dvips’ driver, giving the option name. ‘nodvipsnames’ Do not load that list of color names, saving LaTeX a tiny amount of memory space. 22.2 Color models ================= A “color model” is a way of representing colors. LaTeX's capabilities depend on the printer driver. However, the ‘pdftex’, ‘xetex’, and ‘luatex’ printer drivers are today by far the most commonly used. The models below work for those drivers. All but one of these is also supported by essentially all other printer drivers used today. Note that color combination can be additive or subtractive. Additive mixes colors of light, so that for instance combining full intensities of red, green, and blue produces white. Subtractive mixes pigments, such as with inks, so that combining full intensity of cyan, magenta, and yellow makes black. ‘cmyk’ A comma-separated list with four real numbers between 0 and 1, inclusive. The first number is the intensity of cyan, the second is magenta, and the others are yellow and black. A number value of 0 means minimal intensity, while a 1 is for full intensity. This model is often used in color printing. It is a subtractive model. ‘gray’ A single real number between 0 and 1, inclusive. The colors are shades of grey. The number 0 produces black while 1 gives white. ‘rgb’ A comma-separated list with three real numbers between 0 and 1, inclusive. The first number is the intensity of the red component, the second is green, and the third the blue. A number value of 0 means that none of that component is added in, while a 1 means full intensity. This is an additive model. ‘RGB’ (‘pdftex’, ‘xetex’, ‘luatex’ drivers) A comma-separated list with three integers between 0 and 255, inclusive. This model is a convenience for using ‘rgb’ since outside of LaTeX colors are often described in a red-green-blue model using numbers in this range. The values entered here are converted to the ‘rgb’ model by dividing by 255. ‘named’ Colors are accessed by name, such as ‘PrussianBlue’. The list of names depends on the driver, but all support the names ‘black’, ‘blue’, ‘cyan’, ‘green’, ‘magenta’, ‘red’, ‘white’, and ‘yellow’ (See the ‘dvipsnames’ option in Color package options). 22.3 Commands for color ======================= These are the commands available with the ‘color’ package. 22.3.1 Define colors -------------------- Synopsis: \definecolor{NAME}{MODEL}{SPECIFICATION} Give the name NAME to the color. For example, after this \definecolor{silver}{rgb}{0.75,0.75,0.74} you can use that color name with ‘Hi ho, \textcolor{silver}{Silver}!’. This example gives the color a more abstract name, so it could change and not be misleading. \definecolor{logocolor}{RGB}{145,92,131} % RGB needs pdflatex \newcommand{\logo}{\textcolor{logocolor}{Bob's Big Bagels}} Often a document's colors are defined in the preamble, or in the class or style, rather than in the document body. 22.3.2 Colored text ------------------- Synopses: \textcolor{NAME}{...} \textcolor[COLOR MODEL]{COLOR SPECIFICATION}{...} or \color{NAME} \color[COLOR MODEL]{COLOR SPECIFICATION} The affected text gets the color. This line \textcolor{magenta}{My name is Ozymandias, King of Kings;} Look on my works, ye Mighty, and despair! causes the first half to be in magenta while the rest is in black. You can use a color declared with ‘\definecolor’ in exactly the same way that we just used the builtin color ‘magenta’. \definecolor{MidlifeCrisisRed}{rgb}{1.0,0.11,0.0} I'm thinking about getting a \textcolor{MidlifeCrisisRed}{sports car}. The two ‘\textcolor’ and ‘\color’ differ in that the first is a command form, enclosing the text to be colored as an argument. Often this form is more convenient, or at least more explicit. The second form is a declaration, as in ‘The moon is made of {\color{green} green} cheese’, so it is in effect until the end of the current group or environment. This is sometimes useful when writing macros or as below where it colors everything inside the ‘center’ environment, including the vertical and horizontal lines. \begin{center} \color{blue} \begin{tabular}{l|r} UL &UR \\ \hline LL &LR \end{tabular} \end{center} You can use color in equations. A document might have this definition in the preamble \definecolor{highlightcolor}{RGB}{225,15,0} and then contain this equation. \begin{equation} \int_a^b \textcolor{highlightcolor}{f'(x)}\,dx=f(b)-f(a) \end{equation} Typically the colors used in a document are declared in a class or style but sometimes you want a one-off. Those are the second forms in the synopses. Colors of \textcolor[rgb]{0.33,0.14,0.47}{Purple} and {\color[rgb]{0.72,0.60,0.37}Gold} for the team. The format of COLOR SPECIFICATION depends on the color model (see Color models). For instance, while ‘rgb’ takes three numbers, ‘gray’ takes only one. The selection was \textcolor[gray]{0.5}{grayed out}. Colors inside colors do not combine. Thus \textcolor{green}{kind of \textcolor{blue}{blue}} has a final word that is blue, not a combination of blue and green. 22.3.3 Colored boxes -------------------- Synopses: \colorbox{NAME}{...} \colorbox[MODEL NAME]{BOX BACKGROUND COLOR}{...} or \fcolorbox{FRAME COLOR}{BOX BACKGROUND COLOR}{...} \fcolorbox[MODEL NAME]{FRAME COLOR}{BOX BACKGROUND COLOR}{...} Make a box with the stated background color. The ‘\fcolorbox’ command puts a frame around the box. For instance this Name:~\colorbox{cyan}{\makebox[5cm][l]{\strut}} makes a cyan-colored box that is five centimeters long and gets its depth and height from the ‘\strut’ (so the depth is ‘-.3\baselineskip’ and the height is ‘\baselineskip’). This puts white text on a blue background. \colorbox{blue}{\textcolor{white}{Welcome to the machine.}} The ‘\fcolorbox’ commands use the same parameters as ‘\fbox’ (see \fbox & \framebox), ‘\fboxrule’ and ‘\fboxsep’, to set the thickness of the rule and the boundary between the box interior and the surrounding rule. LaTeX's defaults are ‘0.4pt’ and ‘3pt’, respectively. This example changes the thickness of the border to 0.8 points. Note that it is surrounded by curly braces so that the change ends at the end of the second line. {\setlength{\fboxrule}{0.8pt} \fcolorbox{black}{red}{Under no circumstances turn this knob.}} 22.3.4 Colored pages -------------------- Synopses: \pagecolor{NAME} \pagecolor[COLOR MODEL]{COLOR SPECIFICATION} \nopagecolor The first two set the background of the page, and all subsequent pages, to the color. For an explanation of the specification in the second form see Colored text. The third returns the background to normal, which is a transparent background. (If that is not supported use ‘\pagecolor{white}’, although that will make a white background rather than the default transparent background.) ... \pagecolor{cyan} ... \nopagecolor 23 Special insertions ********************* LaTeX provides commands for inserting characters that have a special meaning do not correspond to simple characters you can type. 23.1 Printing special characters ================================ LaTeX sets aside a few characters for special purposes; they are called reserved characters or special characters. Here they are: # $ % & { } _ ~ ^ \ The meaning of all the special characters is given elsewhere in this manual (see Reserved characters). If you want a reserved character to be printed as itself, in the text body font, for all but the final three characters in that list simply put a ‘\’ in front of the character. Thus, typing ‘\$1.23’ will produce ‘$1.23’ in your output. As to the last three characters, to get a tilde in the text body font use ‘\~{}’ (omitting the curly braces would result in the next character receiving a tilde accent). Similarly, to get a text body font circumflex use ‘\^{}’. To get a backslash in the font of the text body, enter ‘\textbackslash{}’. To produce the reserved characters in a typewriter font, use ‘\verb!!’ as below (the ‘\newline’ in the example is there only to split the lines in the output). \begin{center} \# \$ \% \& \{ \} \_ \~{} \^{} \textbackslash \newline \verb!# $ % & { } _ ~ ^ \! \end{center} 23.2 Upper and lower case ========================= Synopsis: \uppercase{TEXT} \lowercase{TEXT} \MakeUppercase{TEXT} \MakeLowercase{TEXT} Change the case of characters. The TeX primitive commands ‘\uppercase’ and ‘\lowercase’ are set up by default to work only with the 26 letters a-z and A-Z. The LaTeX commands ‘\MakeUppercase’ and ‘\MakeLowercase’ commands also change characters accessed by commands such as ‘\ae’ or ‘\aa’. The commands ‘\MakeUppercase’ and ‘\MakeLowercase’ are robust but they have moving arguments (see \protect). These commands do not change the case of letters used in the name of a command within TEXT. But they do change the case of every other Latin letter inside the argument TEXT. Thus, ‘\MakeUppercase{Let $y=f(x)$’} produces ‘LET Y=F(X)’. Another example is that the name of an environment will be changed, so that ‘\MakeUppercase{\begin{tabular} ... \end{tabular}}’ will produce an error because the first half is changed to ‘\begin{TABULAR}’. LaTeX uses the same fixed table for changing case throughout a document, The table used is designed for the font encoding T1; this works well with the standard TeX fonts for all Latin alphabets but will cause problems when using other alphabets. To change the case of text that results from a macro inside TEXT you need to do expansion. Here the ‘\Schoolname’ produces ‘COLLEGE OF MATHEMATICS’. \newcommand{\schoolname}{College of Mathematics} \newcommand{\Schoolname}{\expandafter\MakeUppercase \expandafter{\schoolname}} The ‘textcase’ package brings some of the missing feature of the standard LaTeX commands ‘\MakeUppercase’ and ‘\MakeLowerCase’. To uppercase only the first letter of words, you can use the package ‘mfirstuc’. Handling all the casing rules specified by Unicode, e.g., for non-Latin scripts, is a much bigger job than anything envisioned in the original TeX and LaTeX. It has been implemented in the ‘expl3’ package as of 2020. The article "Case changing: From TeX primitives to the Unicode algorithm", (Joseph Wright, ‘TUGboat’ 41:1, ), gives a good overview of the topic, past and present. 23.3 Symbols by font position ============================= You can access any character of the current font using its number with the ‘\symbol’ command. For example, the visible space character used in the ‘\verb*’ command has the code decimal 32 in the standard Computer Modern typewriter font, so it can be typed as ‘\symbol{32}’. You can also specify numbers in octal (base 8) by using a ‘'’ prefix, or hexadecimal (base 16) with a ‘"’ prefix, so the visible space at 32 decimal could also be written as ‘\symbol{'40}’ or ‘\symbol{"20}’. 23.4 Text symbols ================= LaTeX provides commands to generate a number of non-letter symbols in running text. Some of these, especially the more obscure ones, are not available in OT1. As of the LaTeX February 2020 release, all symbols are available by default; before that, it was necessary to use the ‘textcomp’ package for some (technically, those in the ‘TS1’ font encoding). ‘\copyright’ ‘\textcopyright’ © The copyright symbol. ‘\dag’ † The dagger symbol (in text). ‘\ddag’ ‡ The double dagger symbol (in text). ‘\LaTeX’ The LaTeX logo. ‘\LaTeXe’ The LaTeX2e logo. ‘\guillemetleft («)’ ‘\guillemetright (»)’ ‘\guillemotleft («)’ ‘\guillemotright (»)’ ‘\guilsinglleft (‹)’ ‘\guilsinglright (›)’ «, », ‹, › Double and single angle quotation marks, commonly used in French. The commands ‘@guillemotleft’ and ‘@guillemotright’ are synonyms for ‘@guillemet...’; these are misspellings inherited from Adobe. (Guillemots are seabirds; guillemets are French quotes.) ‘\ldots’ ‘\textellipsis’ ‘\dots’ ... An ellipsis (three dots at the baseline): ‘\ldots’ and ‘\dots’ also work in math mode (see Dots). See that math mode ellipsis description for additional general information. ‘\lq’ ' Left (opening) quote. ‘\P’ ‘\textparagraph’ ¶ Paragraph sign (pilcrow). ‘\pounds’ ‘\textsterling’ £ English pounds sterling. ‘\quotedblbase („)’ ‘\quotesinglbase (‚)’ „ and ‚ Double and single quotation marks on the baseline. ‘\rq’ ' Right (closing) quote. ‘\S’ ‘\textsection’ § Section sign. ‘\TeX’ The TeX logo. ‘\textasciicircum’ ^ ASCII circumflex. ‘\textasciitilde’ ~ ASCII tilde. ‘\textasteriskcentered’ * Centered asterisk. ‘\textbackslash’ \ Backslash. However, ‘\texttt{\textbackslash}’ produces a roman (not typewriter) backslash by default; for a typewriter backslash, it is necessary to use the T1 (or other non-default) font encoding, as in: \usepackage[T1]{fontenc} ‘\textbar’ | Vertical bar. ‘\textbardbl’ ⏸ Double vertical bar. ‘\textbigcircle’ ◯, Big circle symbol. ‘\textbraceleft’ { Left brace. See remarks at ‘\textbackslash’ above about making ‘\texttt{\textbraceleft}’ produce a typewriter brace. ‘\textbraceright’ } Right brace. See remarks at ‘\textbackslash’ above about making ‘\texttt{\textbraceright}’ produce a typewriter brace. ‘\textbullet’ • Bullet. ‘\textcircled{LETTER}’ Ⓐ, Circle around LETTER. ‘\textcompwordmark’ ‘\textcapitalcompwordmark’ ‘\textascendercompwordmark’ Used to separate letters that would normally ligature. For example, ‘f\textcompwordmark i’ produces ‘fi’ without a ligature. This is most useful in non-English languages. The ‘\textcapitalcompwordmark’ form has the cap height of the font while the ‘\textascendercompwordmark’ form has the ascender height. ‘\textdagger’ † Dagger. ‘\textdaggerdbl’ ‡ Double dagger. ‘\textdollar (or ‘\$’)’ $ Dollar sign. ‘\textemdash (or ‘---’)’ -- Em-dash. Used for punctuation, usually similar to commas or parentheses, as in '‘The playoffs---if you're lucky enough to make the playoffs---are more like a sprint.’' Conventions for spacing around em-dashes vary widely. ‘\textendash (or ‘--’)’ - En-dash. Used for ranges, as in '‘see pages 12--14’'. ‘\texteuro’ The Euro currency symbol: €. For an alternative glyph design, try the ‘eurosym’ package; also, most fonts nowadays come with their own Euro symbol (Unicode U+20AC). ‘\textexclamdown (or ‘!`’)’ ¡ Upside down exclamation point. ‘\textfiguredash’ Dash used between numerals, Unicode U+2012. Defined in the June 2021 release of LaTeX. When used in pdfTeX, approximated by an en-dash; with a Unicode engine, either typesets the glyph if available in the current font, or writes the usual "Missing character" warning to the log file. ‘\textgreater’ > Greater than symbol. ‘\texthorizontalbar’ Horizontal bar character, Unicode U+2015. Defined in the June 2021 release of LaTeX. Behavior as with ‘\textfiguredash’ above; the pdfTeX approximation is an em-dash. ‘\textless’ < Less than symbol. ‘\textleftarrow’ ←, Left arrow. ‘\textnonbreakinghyphen’ Non-breaking hyphen character, Unicode U+2011. Defined in the June 2021 release of LaTeX. Behavior as with ‘\textfiguredash’ above; the pdfTeX approximation is a regular ASCII hyphen (with breaks disallowed after). ‘\textordfeminine’ ‘\textordmasculine’ ª, º Feminine and masculine ordinal symbols. ‘\textperiodcentered’ · Centered period. ‘\textquestiondown (or ‘?`’)’ ¿ Upside down question mark. ‘\textquotedblleft (or ‘``’)’ " Double left quote. ‘\textquotedblright (or ‘''’)’ " Double right quote. ‘\textquoteleft (or ‘`’)’ ' Single left quote. ‘\textquoteright (or ‘'’)’ ' Single right quote. ‘\textquotesingle’ ', Straight single quote. (From TS1 encoding.) ‘\textquotestraightbase’ ‘\textquotestraightdblbase’ Single and double straight quotes on the baseline. ‘\textregistered’ ® Registered symbol. ‘\textrightarrow’ →, Right arrow. ‘\textthreequartersemdash’ ﹘, "Three-quarters" em-dash, between en-dash and em-dash. ‘\texttrademark’ ™ Trademark symbol. ‘\texttwelveudash’ ﹘, "Two-thirds" em-dash, between en-dash and em-dash. ‘\textunderscore’ _ Underscore. ‘\textvisiblespace’ ␣, Visible space symbol. 23.5 Accents ============ LaTeX has wide support for many of the world's scripts and languages, provided through the core ‘babel’ package, which supports pdfLaTeX, XeLaTeX and LuaLaTeX. The ‘polyglossia’ package provides similar support with the latter two engines. This section does not cover that support. It only lists the core LaTeX commands for creating accented characters. The ‘\capital...’ commands shown here produce alternative forms for use with capital letters. These are not available with OT1. Below, to make them easier to find, the accents are all illustrated with lowercase ‘o’. Note that ‘\i’ produces a dotless i, and ‘\j’ produces a dotless j. These are often used in place of their dotted counterparts when they are accented. ‘\"’ ‘\capitaldieresis’ ö Umlaut (dieresis). ‘\'’ ‘\capitalacute’ ó Acute accent. ‘\.’ ȯ Dot accent. ‘\=’ ‘\capitalmacron’ ō Macron (overbar) accent. ‘\^’ ‘\capitalcircumflex’ ô Circumflex (hat) accent. ‘\`’ ‘\capitalgrave’ ò Grave accent. ‘\~’ ‘\capitaltilde’ ñ Tilde accent. ‘\b’ o̲ Bar accent underneath. Related to this, ‘\underbar{TEXT}’ produces a bar under TEXT. The argument is always processed in LR mode (see Modes). The bar is always a fixed position under the baseline, thus crossing through descenders. See also ‘\underline’ in Over- and Underlining. ‘\c’ ‘\capitalcedilla’ ç Cedilla accent underneath. ‘\d’ ‘\capitaldotaccent’ ọ Dot accent underneath. ‘\H’ ‘\capitalhungarumlaut’ ő Long Hungarian umlaut accent. ‘\k’ ‘\capitalogonek’ ǫ Ogonek. Not available in the OT1 encoding. ‘\r’ ‘\capitalring’ o̊ Ring accent. ‘\t’ ‘\capitaltie’ ‘\newtie’ ‘\capitalnewtie’ Tie-after accent (used for transliterating from Cyrillic, such as in the ALA-LC romanization). It expects that the argument has two characters. The ‘\newtie’ form is centered in its box. ‘\u’ ‘\capitalbreve’ ŏ Breve accent. ‘\v’ ‘\capitalcaron’ ǒ Háček (check, caron) accent. 23.5.1 ‘\accent’ ---------------- Synopsis: \accent NUMBER CHARACTER A TeX primitive command used to generate accented characters from accent marks and letters. The accent mark is selected by NUMBER, a numeric argument, followed by a space and then a CHARACTER argument to construct the accented character in the current font. These are accented ‘e’ characters. \accent18 e \accent20 e \accent21 e \accent22 e \accent23 e The first is a grave, the second a caron, the third a breve, the fourth a macron, and the fifth a ring above. The position of the accent is determined by the font designer and so the outcome of ‘\accent’ use may differ between fonts. In LaTeX it is desirable to have glyphs for accented characters rather than building them using ‘\accent’. Using glyphs that already contain the accented characters (as in T1 encoding) allows correct hyphenation whereas ‘\accent’ disables hyphenation (specifically with OT1 font encoding where accented glyphs are absent). There can be an optional font change between NUMBER and CHARACTER. Note also that this command sets the ‘\spacefactor’ to 1000 (see \spacefactor). An unavoidable characteristic of some Cyrillic letters and the majority of accented Cyrillic letters is that they must be assembled from multiple elements (accents, modifiers, etc.) while ‘\accent’ provides for a single accent mark and a single letter combination. There are also cases where accents must appear between letters that \accent does not support. Still other cases exist where the letters I and J have dots above their lowercase counterparts that conflict with dotted accent marks. The use of ‘\accent’ in these cases will not work as it cannot analyze upper/lower case. 23.6 Additional Latin letters ============================= Here are the basic LaTeX commands for inserting letters beyond A-Z that extend the Latin alphabet, used primarily in languages other than English. ‘\aa’ ‘\AA’ å and Å. ‘\ae’ ‘\AE’ æ and Æ. ‘\dh’ ‘\DH’ Icelandic letter eth: ð and Ð. Not available with OT1 encoding, you need the ‘fontenc’ package to select an alternate font encoding, such as T1. ‘\dj’ ‘\DJ’ Crossed d and D, a.k.a. capital and small letter d with stroke. Not available with OT1 encoding, you need the ‘fontenc’ package to select an alternate font encoding, such as T1. ‘\ij’ ‘\IJ’ ij and IJ (except somewhat closer together than appears here). ‘\l’ ‘\L’ ł and Ł. ‘\ng’ ‘\NG’ Lappish letter eng, also used in phonetics. ‘\o’ ‘\O’ ø and Ø. ‘\oe’ ‘\OE’ œ and Œ. ‘\ss’ ‘\SS’ ß and SS. ‘\th’ ‘\TH’ Icelandic letter thorn: þ and Þ. Not available with OT1 encoding, you need the ‘fontenc’ package to select an alternate font encoding, such as T1. 23.7 ‘inputenc’ package ======================= Synopsis: \usepackage[ENCODING-NAME]{inputenc} Declare the input file's text encoding to be ENCODING-NAME. (For basic background, see Input encodings). The default, if this package is not loaded, is UTF-8. Technically, specifying the encoding name is optional, but in practice it is not useful to omit it. The ‘inputenc’ package tells LaTeX what encoding is used. For instance, the following command explicitly says that the input file is UTF-8 (note the lack of a dash). \usepackage[utf8]{inputenc} The most common values for ENCODING-NAME are: ‘ascii’, ‘latin1’, ‘latin2’, ‘latin3’, ‘latin4’, ‘latin5’, ‘latin9’, ‘latin10’, ‘utf8’. Caution: use ‘inputenc’ only with the pdfTeX engine (see TeX engines); with ‘xelatex’ or ‘lualatex’, declaring a non-UTF-8 encoding with ‘inputenc’, such as ‘latin1’, will get the error ‘inputenc is not designed for xetex or luatex’. An ‘inputenc’ package error such as ‘Invalid UTF-8 byte "96’ means that some of the material in the input file does not follow the encoding scheme. Often these errors come from copying material from a document that uses a different encoding than the input file. The simplest solution is often to replace the non-UTF-8 character with a UTF-8 or LaTeX equivalent. If you need to process a non-UTF-8 document with LuaTeX, you can use the ‘luainputenc’ package (). With XeTeX, the ‘\XeTeXinputencoding’ and ‘\XeTeXdefaultencoding’ primitives can be used (for an explanation and examples, see ). It's also possible to re-encode a document from an 8-bit encoding to UTF-8 outside of TeX, using system utilities. For example, ‘recode latin1..utf8’ or ‘iconv -f latin1 -t utf8’. In a few documents, such as a collection of journal articles from a variety of authors, changing the encoding in mid-document may be necessary. You can use the command ‘\inputencoding{ENCODING-NAME}’ for this. 23.8 ‘\rule’ ============ Synopsis, one of: \rule{WIDTH}{THICKNESS} \rule[RAISE]{WIDTH}{THICKNESS} Produce a “rule”, a filled-in rectangle. This example produces a rectangular blob, sometimes called a Halmos symbol, or just "qed", often used to mark the end of a proof: \newcommand{\qedsymbol}{\rule{0.4em}{2ex}} The ‘amsthm’ package includes this command, with a somewhat different-looking symbol. The mandatory arguments give the horizontal WIDTH and vertical THICKNESS of the rectangle. They are rigid lengths (see Lengths). The optional argument RAISE is also a rigid length, and tells LaTeX how much to raise the rule above the baseline, or lower it if the length is negative. This produces a line, a rectangle that is wide but not tall. \noindent\rule{\textwidth}{0.4pt} The line is the width of the page and 0.4 points tall. This line thickness is common in LaTeX. A rule that has zero width, or zero thickness, will not show up in the output, but can cause LaTeX to change the output around it. See \strut, for examples. 23.9 ‘\today’ ============= Synopsis: \today Produce today's date in the format ‘MONTH DD, YYYY’. An example of a date in that format is ‘July 4, 1976’. Multilingual packages such as ‘babel’ or ‘polyglossia’, or classes such as ‘lettre’, will localize ‘\today’. For example, the following will output ‘4 juillet 1976’: \year=1976 \month=7 \day=4 \documentclass{minimal} \usepackage[french]{babel} \begin{document} \today \end{document} ‘\today’ uses the counters ‘\day’, ‘\month’, and ‘\year’ (see \day & \month & \year). A number of package on CTAN work with dates. One is ‘datetime’ package which can produce a wide variety of date formats, including ISO standards. The date is not updated as the LaTeX process runs, so in principle the date could be incorrect by the time the program finishes. 24 Splitting the input ********************** LaTeX lets you split a large document into several smaller ones. This can simplify editing or allow multiple authors to work on the document. It can also speed processing. Regardless of how many separate files you use, there is always one “root file”, on which LaTeX compilation starts. This shows such a file with five included files. \documentclass{book} \includeonly{ % comment out lines below to omit compiling pref, chap1, chap2, append, bib } \begin{document} \frontmatter \include{pref} \mainmatter \include{chap1} \include{chap2} \appendix \include{append} \backmatter \include{bib} \end{document} This will bring in material from ‘pref.tex’, ‘chap1.tex’, ‘chap2.tex’, ‘append.tex’, and ‘bib.tex’. If you compile this file, and then comment out all of the lines inside ‘\includeonly{...}’ except for ‘chap1’, and compile again, then LaTeX will only process the material in the first chapter. Thus, your output will appear more quickly and be shorter to print. However, the advantage of the ‘\includeonly’ command is that LaTeX will retain the page numbers and all of the cross reference information from the other parts of the document so these will appear in your output correctly. See Larger book template, for another example of ‘\includeonly’. 24.1 ‘\endinput’ ================ Synopsis: \endinput When you ‘\include{filename}’, inside ‘filename.tex’ the material after ‘\endinput’ will not be included. This command is optional; if ‘filename.tex’ has no ‘\endinput’ then LaTeX will read all of the file. For example, suppose that a document's root file has ‘\input{chap1}’ and this is ‘chap1.tex’. \chapter{One} This material will appear in the document. \endinput This will not appear. This can be useful for putting documentation or comments at the end of a file, or for avoiding junk characters that can be added if the file is transmitted in the body of an email. It is also useful for debugging: one strategy to localize errors is to put ‘\endinput’ halfway through the included file and see if the error disappears. Now, knowing which half contains the error, moving ‘\endinput’ to halfway through that area further narrows down the location. This process rapidly finds the offending line. After reading ‘\endinput’, LaTeX continues to read to the end of the line, so something can follow this command and be read nonetheless. This allows you, for instance, to close an ‘\if...’ with a ‘\fi’. 24.2 ‘\include’ & ‘\includeonly’ ================================ Synopsis: \includeonly{ % in document preamble ... FILENAME, ... } ... \include{FILENAME} % in document body Bring material from the external file ‘FILENAME.tex’ into a LaTeX document. The ‘\include’ command does three things: it executes ‘\clearpage’ (see \clearpage & \cleardoublepage), then it inputs the material from ‘FILENAME.tex’ into the document, and then it does another ‘\clearpage’. This command can only appear in the document body. The ‘\includeonly’ command controls which files will be read by LaTeX under subsequent ‘\include’ commands. Its list of filenames is comma-separated. It must appear in the preamble or even earlier, e.g., the command line; it can't appear in the document body. This example root document, ‘constitution.tex’, brings in three files, ‘preamble.tex’, ‘articles.tex’, and ‘amendments.tex’. \documentclass{book} \includeonly{ preamble, articles, amendments } \begin{document} \include{preamble} \include{articles} \include{amendments} \end{document} The file ‘preamble.tex’ contains no special code; you have just excerpted the chapter from ‘consitution.tex’ and put it in a separate file just for editing convenience. \chapter{Preamble} We the People of the United States, in Order to form a more perfect Union, ... Running LaTeX on ‘constitution.tex’ makes the material from the three files appear in the document but also generates the auxiliary files ‘preamble.aux’, ‘articles.aux’, and ‘amendments.aux’. These contain information such as page numbers and cross-references (see Cross references). If you now comment out ‘\includeonly’'s lines with ‘preamble’ and ‘amendments’ and run LaTeX again then the resulting document shows only the material from ‘articles.tex’, not the material from ‘preamble.tex’ or ‘amendments.tex’. Nonetheless, all of the auxiliary information from the omitted files is still there, including the starting page number of the chapter. If the document preamble does not have ‘\includeonly’ then LaTeX will include all the files you call for with ‘\include’ commands. The ‘\include’ command makes a new page. To avoid that, see \input (which, however, does not retain the auxiliary information). See Larger book template, for another example using ‘\include’ and ‘\includeonly’. That example also uses ‘\input’ for some material that will not necessarily start on a new page. File names can involve paths. \documentclass{book} \includeonly{ chapters/chap1, } \begin{document} \include{chapters/chap1} \end{document} To make your document portable across distributions and platforms you should avoid spaces in the file names. The tradition is to instead use dashes or underscores. Nevertheless, for the name ‘amo amas amat’, this works under TeX Live on GNU/Linux: \documentclass{book} \includeonly{ "amo\space amas\space amat" } \begin{document} \include{"amo\space amas\space amat"} \end{document} and this works under MiKTeX on Windows: \documentclass{book} \includeonly{ {"amo amas amat"} } \begin{document} \include{{"amo amas amat"}} \end{document} You cannot use ‘\include’ inside a file that is being included or you get ‘LaTeX Error: \include cannot be nested.’ The ‘\include’ command cannot appear in the document preamble; you will get ‘LaTeX Error: Missing \begin{document}’. If a file that you ‘\include’ does not exist, for instance if you ‘\include{athiesm}’ but you meant ‘\include{atheism}’, then LaTeX does not give you an error but will warn you ‘No file athiesm.tex.’ (It will also create ‘athiesm.aux’.) If you ‘\include’ the root file in itself then you first get ‘LaTeX Error: Can be used only in preamble.’ Later runs get ‘TeX capacity exceeded, sorry [text input levels=15]’. To fix this, you must remove the inclusion ‘\include{ROOT}’ but also delete the file ‘ROOT.aux’ and rerun LaTeX. 24.3 ‘\input’ ============= Synopsis: \input{FILENAME} LaTeX processes the file as if its contents were inserted in the current file. For a more sophisticated inclusion mechanism see \include & \includeonly. If FILENAME does not end in ‘.tex’ then LaTeX first tries the filename with that extension; this is the usual case. If FILENAME ends with ‘.tex’ then LaTeX looks for the filename as it is. For example, this \input{macros} will cause LaTeX to first look for ‘macros.tex’. If it finds that file then it processes its contents as thought they had been copy-pasted in. If there is no file of the name ‘macros.tex’ then LaTeX tries the name ‘macros’, without an extension. (This may vary by distribution.) To make your document portable across distributions and platforms you should avoid spaces in the file names. The tradition is to instead use dashes or underscores. Nevertheless, for the name ‘amo amas amat’, this works under TeX Live on GNU/Linux: \input{"amo\space amas\space amat"} and this works under MiKTeX on Windows: \input{{"amo amas amat"}} 25 Front/back matter ******************** 25.1 Table of contents, list of figures, list of tables ======================================================= Synopsis, one of: \tableofcontents \listoffigures \listoftables Produce a table of contents, or list of figures, or list of tables. Put the command in the input file where you want the table or list to go. You do not type the entries; for example, typically the table of contents entries are automatically generated from the sectioning commands ‘\chapter’, etc. This example illustrates the first command, ‘\tableofcontents’. LaTeX will produce a table of contents on the book's first page. \documentclass{book} % \setcounter{tocdepth}{1} \begin{document} \tableofcontents\newpage ... \chapter{...} ... \section{...} ... \subsection{...} ... \end{document} Uncommenting the second line would cause that table to contain chapter and section listings but not subsection listings, because the ‘\section’ command has level 1. See Sectioning, for level numbers of the sectioning units. For more on the ‘tocdepth’ see Sectioning/tocdepth. Another example of the use of ‘\tableofcontents’ is in Larger book template. If you want a page break after the table of contents, write a ‘\newpage’ command after the ‘\tableofcontents’ command, as above. To make the table of contents, LaTeX stores the information in an auxiliary file named ‘ROOT-FILE.toc’ (see Splitting the input). For example, this LaTeX file ‘test.tex’ \documentclass{article} \begin{document} \tableofcontents\newpage \section{First section} \subsection{First subsection} ... writes these lines to ‘test.toc’. \contentsline {section}{\numberline {1}First section}{2} \contentsline {subsection}{\numberline {1.1}First subsection}{2} Each line contains a single command, ‘\contentsline’ (see \contentsline). The first argument, the ‘section’ or ‘subsection’, is the sectioning unit. The second argument has two components. The hook ‘\numberline’ determines how the sectioning number, ‘1’ or ‘1.1’, appears in the table of contents (see \numberline). The remainder of the second argument of ‘\contentsline’, ‘First section’ or ‘First subsection’, is the sectioning title text. Finally, the third argument, ‘2’, is the page number on which this sectioning unit starts. To typeset these lines, the document class provides ‘\l@SECTION-UNIT’ commands such as ‘\l@section{TEXT}{PAGENUMBER}’ and ‘\l@subsection{TEXT}{PAGENUMBER}’. These commands often use the ‘\@dottedtocline’ command (see \@dottedtocline). A consequence of LaTeX's strategy of using auxiliary files is that to get the correct information in the document you must run LaTeX twice, once to store the information and the second time to retrieve it. In the ordinary course of writing a document authors run LaTeX a number of times, but you may notice that the first time that you compile a new document, the table of contents page will be empty except for its ‘Contents’ header. Just run LaTeX again. The commands ‘\listoffigures’ and ‘\listoftables’ produce a list of figures and a list of tables. Their information is stored in files with extension ‘.lof’ and ‘.lot’. They work the same way as ‘\tableofcontents’ but the latter is more common, so we use it for most examples. You can manually add material to the table of contents, the list of figures, and the list of tables. For instance, add a line about a section to the table of contents with ‘\addcontentsline{toc}{section}{TEXT}’. (see \addcontentsline). Add arbitrary material, that is, non-line material, with ‘\addtocontents’, as with the command ‘\addtocontents{lof}{\protect\vspace{2ex}}’, which adds vertical space to the list of figures (see \addtocontents). Lines in the table of contents, the list of figures, and the list of tables, have four parts. First is an indent. Next is a box into which sectioning numbers are placed, and then the third box holds the title text, such as ‘First section’. Finally there is a box up against the right margin, inside of which LaTeX puts the page number box. For the indent and the width of the number box, see \@dottedtocline. The right margin box has width ‘\@tocrmarg’ and the page number is flush right in that space, inside a box of width ‘\@pnumwidth’. By default ‘\@tocrmarg’ is ‘2.55em’ and ‘\@pnumwidth’ is ‘1.55em’. Change these as with ‘\renewcommand{\@tocrmarg}{3.5em}’. CTAN has many packages for the table of contents and lists of figures and tables (see CTAN). The package ‘tocloft’ is convenient for adjusting some aspects of the default such as spacing. And, ‘tocbibbind’ will automatically add the bibliography, index, etc. to the table of contents. To change the header for the table of contents page, do something like these commands before you call ‘\tableofcontents’, etc. \renewcommand{\contentsname}{Table of Contents} \renewcommand{\listfigurename}{Plots} \renewcommand{\listtablename}{Specifications} Internationalization packages such as ‘babel’ or ‘polyglossia’ will change these headers depending on the chosen base language. 25.1.1 ‘\@dottedtocline’ ------------------------ Synopsis: \@dottedtocline{SECTION-LEVEL-NUM}{INDENT}{NUMWIDTH}{TEXT}{PAGENUMBER} Used internally by LaTeX to format an entry line in the table of contents, list of figures, or list of tables. Authors do not directly enter ‘\@dottedtocline’ commands. This command is typically used by ‘\l@section’, ‘\l@subsection’, etc., to format the content lines. For example, the ‘article.cls’ file contains these definitions: \newcommand*\l@section{\@dottedtocline{1}{1.5em}{2.3em}} \newcommand*\l@subsection{\@dottedtocline{2}{3.8em}{3.2em}} \newcommand*\l@subsubsection{\@dottedtocline{3}{7.0em}{4.1em}} In this example, ‘\@dottedcline’ appears to have been given only three arguments. But tracing the internal code shows that it picks up the final TEXT and PAGENUMBER arguments in the synopsis from a call to ‘\contentsline’ (see \contentsline). Between the box for the title text of a section and the right margin box, these ‘\@dottedtocline’ commands insert “leaders”, that is, evenly-spaced dots. The dot-to-dot space is given by the command ‘\@dotsep’. By default it is 4.5 (it is in math units, aka. ‘mu’, which are ‘1/18’ em. Change it using ‘\renewcommand’, as in ‘\renewcommand{\@dotsep}{3.5}’. In the standard ‘book’ class, LaTeX does not use dotted leaders for the Part and Chapter table entries, and in the standard ‘article’ class it does not use dotted leaders for Section entries. 25.1.2 ‘\addcontentsline’ ------------------------- Synopsis: \addcontentsline{EXT}{UNIT}{TEXT} Add an entry to the auxiliary file with extension EXT. The following will result in an ‘Appendices’ line in the table of contents. \addcontentsline{toc}{section}{\protect\textbf{Appendices}} It will appear at the same indentation level as the sections, will be in boldface, and will be assigned the page number associated with the point where the command appears in the input file. The ‘\addcontentsline’ command writes information to the file ‘ROOT-NAME.EXT’, where ROOT-NAME is the file name of the root file (see Splitting the input). It writes that information as the text of the command ‘\contentsline{UNIT}{TEXT}{NUM}’, where ‘NUM’ is the current value of counter ‘UNIT’ (see \contentsline). The most common case is the table of contents and there NUM is the page number of the first page of UNIT. This command is invoked by the sectioning commands ‘\chapter’, etc. (see Sectioning), and also by ‘\caption’ inside a float environment (see Floats). But it is also directly used by authors. For example, an author writing a book whose style is to have an unnumbered preface may use the starred ‘\chapter*’. But that command leaves out table of contents information, which can be entered manually, as here. \chapter*{Preface} \addcontentsline{toc}{chapter}{\protect\numberline{}Preface} In the ‘ROOT-NAME.toc’ file LaTeX will put the line ‘\contentsline {chapter}{\numberline {}Preface}{3}’; note that the page number ‘3’ is automatically generated by the system, not entered manually. All of the arguments for ‘\addcontentsline’ are required. EXT Typically one of the strings ‘toc’ for the table of contents, ‘lof’ for the list of figures, or ‘lot’ for the list of tables. The filename extension of the information file. UNIT A string that depends on the value of the EXT argument, typically one of: ‘toc’ For the table of contents, this is the name of a sectional unit: ‘part’, ‘chapter’, ‘section’, ‘subsection’, etc. ‘lof’ For the list of figures: ‘figure’. ‘lot’ For the list of tables: ‘table’. TEXT The text of the entry. You must ‘\protect’ any fragile commands (see \protect) used in it. The ‘\addcontentsline’ command has an interaction with ‘\include’ (see \include & \includeonly). If you use them at the same level, as with ‘\addcontentsline{...}{...}{...}\include{...}’ then lines in the table of contents can come out in the wrong order. The solution is to move ‘\addcontentsline’ into the file being included. If you use a UNIT that LaTeX does not recognize, as with the typo here \addcontentsline{toc}{setcion}{\protect\textbf{Appendices}} then you don't get an error but the formatting in the table of contents will not make sense. 25.1.3 ‘\addtocontents’ ----------------------- Synopsis: \addtocontents{EXT}{TEXT} Add TEXT, which may be text or formatting commands, directly to the auxiliary file with extension EXT. This is most commonly used for the table of contents so that is the discussion here, but it also applies to the list of figures and list of tables. This will put some vertical space in the table of contents after the ‘Contents’ header. \tableofcontents\newpage \addtocontents{toc}{\protect\vspace*{3ex}} This puts the word ‘Page’, in boldface, above the column of page numbers and after the header. \tableofcontents \addtocontents{toc}{~\hfill\textbf{Page}\par} \chapter{...} This adds a line announcing work by a new author. \addtocontents{toc}{% \protect\vspace{2ex} \textbf{Chapters by N. Other Author}\par} The difference between ‘\addtocontents’ and ‘\addcontentsline’ is that the latter is strictly for lines, such as with a line giving the page number for the start of a new subset of the chapters. As the above examples show, ‘\addtocontents’ is for material such as spacing. The ‘\addtocontents’ command has two arguments. Both are required. EXT Typically one of: ‘toc’ for the table of contents, ‘lof’ for the list of figures, or ‘lot’ for the list of tables. The extension of the file holding the information. TEXT The text, and possibly commands, to be written. The sectioning commands such as ‘\chapter’ use the ‘\addcontentsline’ command to store information. This command creates lines in the ‘.toc’ auxiliary file containing the ‘\contentsline’ command (see \addcontentsline). In contrast, the command ‘\addtocontents’ puts material directly in that file. The ‘\addtocontents’ command has an interaction with ‘\include’ (see \include & \includeonly). If you use them at the same level, as with ‘\addtocontents{...}{...}\include{...}’ then lines in the table of contents can come out in the wrong order. The solution is to move ‘\addtocontents’ into the file being included. 25.1.4 ‘\contentsline’ ---------------------- Synopsis: \contentsline{UNIT}{TEXT}{PAGENUMBER} Used internally by LaTeX to typeset an entry of the table of contents, list of figures, or list of tables (see Table of contents etc.). Authors do not directly enter ‘\contentsline’ commands. Usually adding material to these lists is done automatically by the commands ‘\chapter’, ‘\section’, etc. for the table of contents, or by the ‘\caption’ command inside of a ‘\figure’ or ‘\table’ environment (see figure and see table). Thus, where the root file is ‘thesis.tex’, and contains the declaration ‘\tableofcontents’, the command ‘\chapter{Chapter One}’ produces something like this in the file ‘thesis.toc’. \contentsline {chapter}{\numberline {1}Chapter One}{3} If the file contains the declaration ‘\listoffigures’ then a figure environment involving ‘\caption{Test}’ will produce something like this in ‘thesis.lof’. \contentsline {figure}{\numberline {1.1}{\ignorespaces Test}}{6} To manually add material, use ‘\addcontentsline{FILETYPE}{UNIT}{TEXT}’, where FILETYPE is ‘toc’, ‘lof’, or ‘lot’ (see \addcontentsline). For manipulating how the ‘\contentline’ material is typeset, see the ‘tocloft’ package. Note that the ‘hyperref’ package changes the definition of ‘\contentsline’ (and ‘\addcontentsline’) to add more arguments, to make hyperlinks. This is the source of the error ‘Argument of \contentsline has an extra }’ when one adds/remove the use of package ‘hyperref’ and a compilation was already run. Fix this error by deleting the ‘.toc’ or ‘.lof’ or ‘.lot’ file, and running LaTeX again. 25.1.5 ‘\nofiles’ ----------------- Synopsis: \nofiles Prevent LaTeX from writing any auxiliary files. The only output will be the ‘.log’ and ‘.pdf’ (or ‘.dvi’) files. This command must go in the preamble. Because of the ‘\nofiles’ command this example will not produce a ‘.toc’ file. \documentclass{book} \nofiles \begin{document} \tableofcontents\newpage \chapter{...} ... LaTeX will not erase any existing auxiliary files, so if you insert the ‘\nofiles’ command after you have run the file and gotten a ‘.toc’ then the table of contents page will continue to show the old information. 25.1.6 ‘\numberline’ -------------------- Synopsis: \numberline{NUMBER} Typeset its argument flush left in a box. This is used in a ‘\contentsline’ command to typeset the section number (see \contentsline). For example, this line in a ‘.toc’ file causes the ‘1.1’ to be typeset flush left. \contentsline {subsection}{\numberline {1.1}Motivation}{2} By default, LaTeX typesets the section numbers in a box of length ‘\@tempdima’. That length is set by the commands ‘\l@section’, ‘\l@subsection’, etc. Put section numbers inside a natural-width box with ‘\renewcommand{\numberline}[1]{#1~}’ before ‘\tableofcontents’. This command is fragile so you may need to precede it with ‘\protect’ (see \protect). An example is the use of ‘\protect’ in this command, \addcontentsline{toc}{section}{\protect\numberline{}Summary} to get the ‘\numberline’ into the ‘\contentsline’ command in the ‘.toc’ file: ‘\contentsline {section}{\numberline {}Summary}{6}’ (the page number ‘6’ is automatically added by LaTeX; see \addcontentsline). 25.2 Indexes ============ If you tell LaTeX what terms you want to appear in an index then it can produce that index, alphabetized and with the page numbers automatically maintained. This illustrates the basics. \documentclass{article} \usepackage{makeidx} % Provide indexing commands \makeindex % \usepackage{showidx} % Show marginal notes of index entries ... \begin{document} ... Wilson's Theorem\index{Wilson's Theorem} says that a number $n>1$ is prime if and only if the factorial of $n-1$ is congruent to $-1$ modulo~$n$.\index{congruence!and Wilson's Theorem} ... \printindex \end{document} As that shows, declare index entries with the ‘\index’ command (see \index). When you run LaTeX, the ‘\index’ writes its information, such as ‘Wilson's Theorem’ and the page number, to an auxiliary file whose name ends in ‘.idx’. Next, to alphabetize and do other manipulations, run an external command, typically ‘makeindex’ (see makeindex), which writes a file whose name ends in ‘.ind’. Finally, ‘\printindex’ brings this manipulated information into the output (see \printindex). Thus, if the above example is in the file ‘numth.tex’ then running ‘pdflatex numth’ will save index entry and page number information to ‘numth.idx’. Then running ‘makeindex numth’ will alphabetize and save the results to ‘numth.ind’. Finally, again running ‘pdflatex numth’ will show the desired index, at the place where the ‘\printindex’ command is in the source file. There are many options for the output. An example is that the exclamation point in ‘\index{congruence!and Wilson's Theorem}’ produces a main entry of ‘congruence’ with a subentry of ‘and Wilson's Theorem’. For more, see makeindex. The ‘\makeindex’ and ‘\printindex’ commands are independent. Leaving out the ‘\makeindex’ will stop LaTeX from saving the index entries to the auxiliary file. Leaving out the ‘\printindex’ will cause LaTeX to not show the index in the document output. There are many packages in the area of indexing. The ‘showidx’ package causes each index entries to be shown in the margin on the page where the ‘\index’ appears. This can help in preparing the index. The ‘multind’ package, among others, supports multiple indexes. See also the TeX FAQ entry on this topic, , and the CTAN topic, . 25.2.1 Produce the index manually --------------------------------- Documents that are small and static can have a manually produced index. This will make a separate page labeled ‘Index’, in twocolumn format. \begin{theindex} \item acorn squash, 1 \subitem maple baked, 2 \indexspace \item bacon, 3 \subitem maple baked, 4 \end{theindex} Note that the author must enter the page numbers, which is tedious and which will result in wrong numbers if the document changes. This is why in most cases automated methods such as ‘makeindex’ are best. See Indexes. However we cover the commands for completeness, and because the automated methods are based on these commands. There are three levels of entries. As the example shows, a main entry uses ‘\item’, subentries use ‘\subitem’, and the lowest level uses ‘\subsubitem’. Blank lines between entries have no effect. The example above includes ‘\indexspace’ to produce vertical space in the output that some index styles use before the first entry starting with a new letter. 25.2.2 ‘\index’ --------------- Synopsis: \index{INDEX-ENTRY-STRING} Declare an entry in the index. This command is fragile (see \protect). For example, as described in Indexes, one way to get an index from what's below is to compile the document with ‘pdflatex test’, then process the index entries with ‘makeindex test’, and then compile again with ‘pdflatex test’. % file test.tex ... W~Ackermann (1896--1962).\index{Ackermann} ... Ackermann function\index{Ackermann!function} ... rate of growth\index{Ackermann!function!growth rate} All three index entries will get a page number, such as ‘Ackermann, 22’. LaTeX will format the second as a subitem of the first, on the line below it and indented, and the third as a subitem of the second. Three levels deep is as far as you can nest subentries. (If you add ‘\index{Ackermann!function!growth rate!comparison}’ then ‘makeindex’ says ‘Scanning input file test.idx....done (4 entries accepted, 1 rejected)’ and the fourth level is silently missing from the index.) If you enter a second ‘\index’ with the same INDEX-ENTRY-STRING then you will get a single index entry with two page numbers (unless they happen to fall on the same page). Thus, adding ‘as for Ackermann.\index{Ackermann}’ later in the same document as above will give an index entry like ‘Ackermann, 22, 151’. Also, you can enter the index entries in any order, so for instance ‘\index{Ackermann!function}’ could come before ‘\index{Ackermann}’. Get a page range in the output, like ‘Hilbert, 23--27’, as here. W~Ackermann (1896--1962).\index{Ackermann} ... D~Hilbert (1862--1943)\index{Ackermann!Hilbert|(} ... disapproved of his marriage.\index{Ackermann!Hilbert|)} If the beginning and ending of the page range are equal then the system just gives a single page number, not a range. If you index subentries but not a main entry, as with ‘\index{Jones!program}’ and ‘\index{Jones!results}’, then the output is the item ‘Jones’ with no comma or page number, followed by two subitems, like ‘program, 50’ and ‘results, 51’. Generate a index entry that says ‘see’ by using a vertical bar character: ‘\index{Ackermann!function|see{P\'eter's function}}’. You can instead get ‘see also’ with ‘seealso’. (The text ‘see’ is defined by ‘\seename’, and ‘see also’ by ‘\alsoname’. You can redefine these either by using an internationalization package such as ‘babel’ or ‘polyglossia’, or directly as with ‘\renewcommand{\alsoname}{Also see}’.) The ‘see’ feature is part of a more general functionality. After the vertical bar you can put the name of a one-input command, as in ‘\index{group|textit}’ (note the missing backslash on the ‘\textit’ command) and the system will apply that command to the page number, here giving something like ‘\textit{7}’. You can define your own one-input commands, such as ‘\newcommand{\definedpage}[1]{{\color{blue}#1}}’ and then ‘\index{Ackermann!function|definedpage}’ will give a blue page number (see Color). Another, less practical, example is this, \newcommand\indexownpage[1]{#1, \thepage} ... Epimenides.\index{self-reference|indexownpage} which creates an entry citing the page number of its own index listing. The two functions just described combine, as here \index{Ackermann!function|(definedpage} ... \index{Ackermann!function|)} which outputs an index entry like ‘function, 23--27’ where the page number range is in blue. Consider an index entry such as ‘α-ring’. Entering it as ‘$\alpha$-ring’ will cause it to be alphabetized according to the dollar sign. You can instead enter it using an at-sign, as ‘\index{alpha-ring@$\alpha$-ring}’. If you specify an entry with an at-sign separating two strings, ‘POS@TEXT’, then POS gives the alphabetical position of the entry while TEXT produces the text of the entry. Another example is that ‘\index{Saint Michael's College@SMC}’ produces an index entry ‘SMC’ alphabetized into a different location than its spelling would naturally give it. To put a ‘!’, or ‘@’, or ‘|’, or ‘"’ character in an index entry, escape it by preceding it with a double quote, ‘"’. (The double quote gets deleted before alphabetization.) A number of packages on CTAN have additional functionality beyond that provided by ‘makeidx’. One is ‘index’, which allows for multiple indices and contains a command ‘\index*{INDEX-ENTRY-STRING}’ that prints the INDEX-ENTRY-STRING as well as indexing it. The ‘\index’ command writes the indexing information to the file ‘ROOT-NAME.idx’ file. Specifically, it writes text of the command ‘\indexentry{INDEX-ENTRY-STRING}{PAGE-NUM}’, where PAGE-NUM is the value of the ‘\thepage’ counter. On occasion, when the ‘\printindex’ command is confused, you have to delete this file to start with a fresh slate. If you omit the closing brace of an ‘\index’ command then you get a message like this. Runaway argument? {Ackermann!function ! Paragraph ended before \@wrindex was complete. 25.2.3 ‘makeindex’ ------------------ Synopsis, one of: makeindex FILENAME makeindex -s STYLE-FILE FILENAME makeindex OPTIONS FILENAME0 ... Sort, and otherwise process, the index information in the auxiliary file FILENAME. This is a command line program. It takes one or more raw index files, ‘FILENAME.idx’ files, and produces the actual index file, the ‘FILENAME.ind’ file that is input by ‘\printindex’ (see \printindex). The first form of the command suffices for many uses. The second allows you to format the index by using an “index style file”, a ‘.isty’ file. The third form is the most general; see the full documentation on CTAN. This is a simple ‘.isty’ file. % book.isty % $ makeindex -s book.isty -p odd book.idx % creates the index as book.ind, starting on an odd page. preamble "\\pagestyle{empty} \\small \\begin{theindex} \\thispagestyle{empty}" postamble "\n \\end{theindex}" The description here covers only some of the index formatting possibilities in STYLE-FILE. For a full list see the documentation on CTAN. A style file consists of a list of pairs: SPECIFIER and ATTRIBUTE. These can appear in the file in any order. All of the ATTRIBUTEs are strings, except where noted. Strings are surrounded with double quotes, ‘"’, and the maximum length of a string is 144 characters. The ‘\n’ is for a newline and ‘\t’ is for a tab. Backslashes are escaped with another backslash, ‘\\’. If a line begins with a percent sign, ‘%’, then it is a comment. ‘preamble’ Preamble of the output index file. Defines the context in which the index is formatted. Default: ‘"\\begin{theindex}\n"’. ‘postamble’ Postamble of the output index file. Default: ‘"\n\n\\end{theindex}\n"’. ‘group_skip’ Traditionally index items are broken into groups, typically a group for entries starting with letter ‘a’, etc. This specifier gives what is inserted when a new group begins. Default: ‘"\n\n \\indexspace\n"’ (‘\indexspace’ is a command inserting a rubber length, by default ‘10pt plus5pt minus3pt’). ‘lethead_flag’ An integer. It governs what is inserted for a new group or letter. If it is 0 (which is the default) then other than ‘group_skip’ nothing will be inserted before the group. If it is positive then at a new letter the ‘lethead_prefix’ and ‘lethead_suffix’ will be inserted, with that letter in uppercase between them. If it is negative then what will be inserted is the letter in lowercase. The default is 0. ‘lethead_prefix’ If a new group begins with a different letter then this is the prefix inserted before the new letter header. Default: ‘""’ ‘lethead_suffix’ If a group begins with a different letter then this is the suffix inserted after the new letter header. Default: ‘""’. ‘item_0’ What is put between two level 0 items. Default: ‘"\n \\item "’. ‘item_1’ Put between two level 1 items. Default: ‘"\n \\subitem "’. ‘item_2’ put between two level 2 items. Default: ‘"\n \\subsubitem "’. ‘item_01’ What is put between a level 0 item and a level 1 item. Default: ‘"\n \\subitem "’. ‘item_x1’ What is put between a level 0 item and a level 1 item in the case that the level 0 item doesn't have any page numbers (as in ‘\index{aaa|see{bbb}}’). Default: ‘"\n \\subitem "’. ‘item_12’ What is put between a level 1 item and a level 2 item. Default: ‘"\n \\subsubitem "’. ‘item_x2’ What is put between a level 1 item and a level 2 item, if the level 1 item doesn't have page numbers. Default: ‘"\n \\subsubitem "’. ‘delim_0’ Delimiter put between a level 0 key and its first page number. Default: a comma followed by a blank, ‘", "’. ‘delim_1’ Delimiter put between a level 1 key and its first page number. Default: a comma followed by a blank, ‘", "’. ‘delim_2’ Delimiter between a level 2 key and its first page number. Default: a comma followed by a blank, ‘", "’. ‘delim_n’ Delimiter between two page numbers for the same key (at any level). Default: a comma followed by a blank, ‘", "’. ‘delim_r’ What is put between the starting and ending page numbers of a range. Default: ‘"--"’. ‘line_max’ An integer. Maximum length of an index entry's line in the output, beyond which the line wraps. Default: ‘72’. ‘indent_space’ What is inserted at the start of a wrapped line. Default: ‘"\t\t"’. ‘indent_length’ A number. The length of the wrapped line indentation. The default ‘indent_space’ is two tabs and each tab is eight spaces so the default here is ‘16’. ‘page_precedence’ A document may have pages numbered in different ways. For example, a book may have front matter pages numbered in lowercase roman while main matter pages are in arabic. This string specifies the order in which they will appear in the index. The ‘makeindex’ command supports five different types of numerals: lowercase roman ‘r’, and numeric or arabic ‘n’, and lowercase alphabetic ‘a’, and uppercase roman ‘R’, and uppercase alphabetic ‘A’. Default: ‘"rnaRA"’. There are a number of other programs that do the job ‘makeindex’ does. One is ‘xindy’ (), which does internationalization and can process indexes for documents marked up using LaTeX and a number of other languages. It is written in Lisp, highly configurable, both in markup terms and in terms of the collating order of the text, as described in its documentation. A more recent indexing program supporting Unicode is ‘xindex’, written in Lua (). 25.2.4 ‘\printindex’ -------------------- Synopsis: \printindex Place the index into the output. To get an index you must first include ‘\usepackage{makeidx}\makeindex’ in the document preamble and compile the document, then run the system command ‘makeindex’, and then compile the document again. See Indexes, for further discussion and an example of the use of ‘\printindex’. 25.3 Glossaries =============== Synopsis: \usepackage{glossaries} \makeglossaries ... \newglossaryentry{LABEL}{SETTINGS} ... \gls{LABEL}. ... \printglossaries The ‘glossaries’ package allows you to make glossaries, including multiple glossaries, as well as lists of acronyms. To get the output from this example, compile the document (for instance with ‘pdflatex filename’), then run the command line command ‘makeglossaries filename’, and then compile the document again. \documentclass{...} \usepackage{glossaries} \makeglossaries \newglossaryentry{tm}{% name={Turing machine}, description={A model of a machine that computes. The model is simple but can compute anything any existing device can compute. It is the standard model used in Computer Science.}, } \begin{document} Everything begins with the definition of a \gls{tm}. ... \printglossaries \end{document} That gives two things. In the main text it outputs ‘... definition of a Turing machine’. In addition, in a separate sectional unit headed ‘Glossary’ there appears a description list. In boldface it says ‘Turing machine’ and the rest of the item says in normal type ‘A model of a machine ... Computer Science’. The command ‘\makeglossary’ opens the file that will contain the entry information, ‘ROOT-FILE.glo’. Put the ‘\printglossaries’ command where you want the glossaries to appear in your document. The ‘glossaries’ package is very powerful. For instance, besides the commands ‘\newglossaryentry’ and ‘\gls’, there are similar commands for a list of acronyms. See the package documentations on CTAN. 25.3.1 ‘\newglossaryentry’ -------------------------- Synopsis, one of: \newglossaryentry{LABEL} { name={NAME}, description={DESCRIPTION}, OTHER OPTIONS, ... } or \longnewglossaryentry{LABEL} { name={NAME}, OTHER OPTIONS ..., } {DESCRIPTION} Declare a new entry for a glossary. The LABEL must be unique for the document. The settings associated with the label are pairs: ‘KEY=VALUE’. This puts the blackboard bold symbol for the real numbers ℝ, in the glossary. \newglossaryentry{R} { name={\ensuremath{\mathbb{R}}}, description={the real numbers}, } Use the second command form if the DESCRIPTION spans more than one paragraph. For a full list of KEYs see the package documentation on CTAN but here are a few. ‘name’ (Required.) The word, phrase, or symbol that you are defining. ‘description’ (Required.) The description that will appear in the glossary. If this has more than one paragraph then you must use the second command form given in the synopsis. ‘plural’ The plural form of NAME. Refer to the plural form using ‘\glspl’ or ‘\Glspl’ (see \gls). ‘sort’ How to place this entry in the list of entries that the glossary holds. ‘symbol’ A symbol, such as a mathematical symbol, besides the name. 25.3.2 ‘\gls’ ------------- Synopsis, one of: \gls{LABEL} \glspl{LABEL} \Gls{LABEL} \Glspl{LABEL} Refer to a glossary entry. The entries are declared with ‘\newglossaryentry’ (see \newglossaryentry). This \newglossaryentry{N}{% name={the natural numbers}, description={The numbers $0$, $1$, $2$, $\ldots$\@}, symbol={\ensuremath{\mathbb{N}}}, } ... Consider \gls{N}. gives the output ‘Consider the natural numbers’. The second command form ‘\glspl{LABEL}’ produces the plural of NAME (by default it tries adding an ‘s’). The third form capitalizes the first letter of NAME, as does the fourth form, which also takes the plural. 26 Letters ********** Synopsis: \documentclass{letter} \address{SENDERS ADDRESS} % return address \signature{SENDER NAME} \begin{document} \begin{letter}{RECIPIENT ADDRESS} \opening{SALUTATION} LETTER BODY \closing{CLOSING TEXT} \end{letter} ... \end{document} Produce one or more letters. Each letter is in a separate ‘letter’ environment, whose argument RECIPIENT ADDRESS often contains multiple lines separated with a double backslash, (‘\\’). For example, you might have: \begin{letter}{Ninon de l'Enclos \\ l'h\^otel Sagonne} ... \end{letter} The start of the ‘letter’ environment resets the page number to 1, and the footnote number to 1 also. The SENDER ADDRESS and SENDER NAME are common to all of the letters, whether there is one or more, so these are best put in the preamble. As with the recipient address, often SENDER ADDRESS contains multiple lines separated by a double backslash (‘\\’). LaTeX will put the SENDER NAME under the closing, after a vertical space for the traditional hand-written signature. Each ‘letter’ environment body begins with a required ‘\opening’ command such as ‘\opening{Dear Madam or Sir:}’. The LETTER BODY text is ordinary LaTeX so it can contain everything from enumerated lists to displayed math, except that commands such as ‘\chapter’ that make no sense in a letter are turned off. Each ‘letter’ environment body typically ends with a ‘\closing’ command such as ‘\closing{Yours,}’. Additional material may come after the ‘\closing’. You can say who is receiving a copy of the letter with a command like ‘\cc{the Boss \\ the Boss's Boss}’. There's a similar ‘\encl’ command for a list of enclosures. And, you can add a postscript with ‘\ps’. LaTeX's default is to indent the sender name and the closing above it by a length of ‘\longindentation’. By default this is ‘0.5\textwidth’. To make them flush left, put ‘\setlength{\longindentation}{0em}’ in your preamble. To set a fixed date use something like ‘\renewcommand{\today}{1958-Oct-12}’. If put in your preamble then it will apply to all the letters. This example shows only one ‘letter’ environment. The three lines marked as optional are typically omitted. \documentclass{letter} \address{Sender's street \\ Sender's town} \signature{Sender's name \\ Sender's title} % optional: \location{Mailbox 13} % optional: \telephone{(102) 555-0101} \begin{document} \begin{letter}{Recipient's name \\ Recipient's address} \opening{Sir:} % optional: \thispagestyle{firstpage} I am not interested in entering a business arrangement with you. \closing{Your most humble, etc.,} \end{letter} \end{document} These commands are used with the ‘letter’ class. 26.1 ‘\address’ =============== Synopsis: \address{SENDERS ADDRESS} Specify the return address, as it appears on the letter and on the envelope. Separate multiple lines in SENDERS ADDRESS with a double backslash, ‘\\’. Because it can apply to multiple letters this declaration is often put in the preamble. However, it can go anywhere, including inside an individual ‘letter’ environment. This command is optional: if you do not use it then the letter is formatted with some blank space on top, for copying onto pre-printed letterhead paper. If you do use the ‘\address’ declaration then it is formatted as a personal letter. Here is an example. \address{Stephen Maturin \\ The Grapes of the Savoy} 26.2 ‘\cc’ ========== Synopsis: \cc{NAME0 \\ ... } Produce a list of names to which copies of the letter were sent. This command is optional. If it appears then typically it comes after ‘\closing’. Put the names on different lines by separating them with a double backslash, ‘\\’, as in: \cc{President \\ Vice President} 26.3 ‘\closing’ =============== Synopsis: \closing{TEXT} Produce the letter's closing. This is optional, but usual. It appears at the end of a letter, above a handwritten signature. For example: \closing{Regards,} 26.4 ‘\encl’ ============ Synopsis: \encl{FIRST ENCLOSED OBJECT \\ ... } Produce a list of things included with the letter. This command is optional; when it is used, it typically is put after ‘\closing’. Separate multiple lines with a double backslash, ‘\\’. \encl{License \\ Passport} 26.5 ‘\location’ ================ Synopsis: \location{TEXT} The TEXT appears centered at the bottom of the page. It only appears if the page style is ‘firstpage’. 26.6 ‘\makelabels’ ================== Synopsis: \makelabels % in preamble Optional, for a document that contains ‘letter’ environments. If you just put ‘\makelabels’ in the preamble then at the end of the document you will get a sheet with labels for all the recipients, one for each letter environment, that you can copy to a sheet of peel-off address labels. Customize the labels by redefining the commands ‘\startlabels’, ‘\mlabel’, and ‘\returnaddress’ (and perhaps ‘\name’) in the preamble. The command ‘\startlabels’ sets the width, height, number of columns, etc., of the page onto which the labels are printed. The command ‘\mlabel{RETURN ADDRESS}{RECIPIENT ADDRESS}’ produces the two labels (or one, if you choose to ignore the RETURN ADDRESS) for each letter environment. The first argument, RETURN ADDRESS, is the value returned by the macro ‘\returnaddress’. The second argument, RECIPIENT ADDRESS, is the value passed in the argument to the ‘letter’ environment. By default ‘\mlabel’ ignores the first argument, the RETURN ADDRESS, causing the default behavior described in the prior paragraph. This illustrates customization. Its output includes a page with two columns having two labels each. \documentclass{letter} \renewcommand*{\returnaddress}{Fred McGuilicuddy \\ Oshkosh, Mineola 12305} \newcommand*\originalMlabel{} \let\originalMlabel\mlabel \def\mlabel#1#2{\originalMlabel{}{#1}\originalMlabel{}{#2}} \makelabels ... \begin{document} \begin{letter}{A Einstein \\ 112 Mercer Street \\ Princeton, New Jersey, USA 08540} ... \end{letter} \begin{letter}{K G\"odel \\ 145 Linden Lane \\ Princeton, New Jersey, USA 08540} ... \end{letter} \end{document} The first column contains the return address twice. The second column contains the address for each recipient. The package ‘envlab’ makes formatting the labels easier, with standard sizes already provided. The preamble lines ‘\usepackage[personalenvelope]{envlab}’ and ‘\makelabels’ are all that you need to print envelopes. 26.7 ‘\name’ ============ Synopsis: \name{NAME} Optional. Sender's name, used for printing on the envelope together with the return address. 26.8 ‘\opening’ =============== Synopsis: \opening{SALUTATION} Required. Follows the ‘\begin{letter}{...}’. The argument SALUTATION is mandatory. For instance: \opening{Dear John:} 26.9 ‘\ps’ ========== Synopsis: \ps{TEXT} Add a postscript. This command is optional and usually is used after ‘\closing’. \ps{P.S. After you have read this letter, burn it. Or eat it.} 26.10 ‘\signature’ ================== Synopsis: \signature{FIRST LINE \\ ... } The sender's name. This command is optional, although its inclusion is usual. The argument text appears at the end of the letter, after the closing. LaTeX leaves some vertical space for a handwritten signature. Separate multiple lines with a double backslash, ‘\\’. For example: \signature{J Fred Muggs \\ White House} LaTeX's default for the vertical space from the ‘\closing’ text down to the ‘\signature’ text is ‘6\medskipamount’, which is six times ‘\medskipamount’ (where ‘\medskipamount’ is equal to a ‘\parskip’, which in turn is defined by default here to 0.7em). This command is usually in the preamble, to apply to all the letters in the document. To have it apply to one letter only, put it inside a ‘letter’ environment and before the ‘\closing’. You can include a graphic in the signature as here. \signature{\vspace{-6\medskipamount}\includegraphics{sig.png}\\ My name} For this you must put ‘\usepackage{graphicx}’ in the preamble (see Graphics). 26.11 ‘\telephone’ ================== Synopsis: \telephone{NUMBER} The sender's telephone number. This is typically in the preamble, where it applies to all letters. This only appears if the ‘firstpage’ pagestyle is selected. If so, it appears on the lower right of the page. 27 Input/output *************** LaTeX uses the ability to write to a file and later read it back in to build document components such as a table of contents or index. You can also read a file that other programs written, or write a file for others to read. You can communicate with users through the terminal. And, you can issue instructions for the operating system. 27.1 ‘\openin’ & ‘\openout’ =========================== Synopsis: \openin NUMBER=FILENAME or: \openout NUMBER=FILENAME Open a file for reading material, or for writing it. In most engines, the NUMBER must be between 0 and 15, as in ‘\openin3’; in LuaLaTeX, NUMBER can be between 0 and 127. Here TeX opens the file ‘presidents.tex’ for reading. \newread\presidentsfile \openin\presidentsfile=presidents \typeout{presidentsfile is \the\presidentsfile} \read\presidentsfile to\presidentline \typeout{\presidentline} The ‘\newread’ command allocates input stream numbers from 0 to 15 (there is also a ‘\newwrite’). The ‘\presidentsfile’ is more memorable but under the hood it is still a number; the first ‘\typeout’ gives something like ‘presidentsfile is 1’. In addition, ‘\newread’ keeps track of the allocation so that if you use too many then you get an error like ‘! No room for a new \read’. The second ‘\typeout’ gives the first line of the file, something like ‘1 Washington, George’. Ordinarily TeX will not try to open the file until the next page shipout. To change this, use ‘\immediate\openin NUMBER=FILENAME’ or ‘\immediate\openout NUMBER=FILENAME’. Close files with ‘\closein NUMBER’ and ‘\closeout NUMBER’. How LaTeX handles filenames varies among distributions, and even can vary among versions of a distribution. If the file does not have an extension then TeX will add a ‘.tex’. This creates ‘presidents.tex’, writes one line to it, and closes it. \newwrite\presidentsfile \openout\presidentsfile=presidents \write\presidentsfile{1 Washington, George} \closeout\presidentsfile But filenames with a period can cause trouble: if TeX finds a FILENAME of ‘presidents.dat’ it could look first for ‘presidents.dat.tex’ and later for ‘presidents.dat’, or it could do the opposite. Your distribution's documentation should say more, and if you find something that works for you then you are good, but to ensure complete portability the best thing is to use file names containing only the twenty six ASCII letters (not case-sensitive) and the ten digits, along with underscore and dash, and in particular with no dot or space. For ‘\openin’, if TeX cannot find the file then it does not give an error. It just considers that the stream is not open (test for this with ‘\ifeof’; one recourse is the command ‘\InputIfFileExists’, see Class and package commands). If you try to use the same number twice, LaTeX won't give you an error. If you try to use a bad number then you get an error message like ‘! Bad number (16). = l.30 \openin16=test.jh’. 27.2 ‘\read’ ============ Synopsis: \read NUMBER toMACRO Make the command MACRO contain the next line of input from text stream NUMBER, as in ‘\read5 to\data’. This opens the file ‘email.tex’ for reading, puts the contents of the first line into the command ‘\email’, and then closes the file. \newread\recipientfile \openin\recipientfile=email \read\recipientfile to\email \typeout{Email address: \email} \closein\recipientfile If NUMBER is outside the range from 0 to 15 or if no file of that number is open, or if the file has ended, then ‘\read’ will take input from the terminal (or exit if interaction is not allowed, e.g., ‘\nonstopmode’; see interaction modes). (However, the natural way in LaTeX to take input from the terminal is ‘\typein’ (see \typein.) To read an entire file as additional LaTeX source, use ‘\input’ (see \input) or ‘\include’ (see \include & \includeonly). A common reason to want to read from a data file is to do mail merges. CTAN has a number of packages for that; one is ‘datatool’. 27.3 ‘\typein’ ============== Synopsis, one of: \typein{PROMPT-MSG} \typein[CMD]{PROMPT-MSG} Print PROMPT-MSG on the terminal and cause LaTeX to stop and wait for you to type a line of input. This line of input ends when you hit the return key. For example, this As long as I live I shall never forget \typein{Enter student name:} coupled with this command line interaction Enter student name: \@typein=Aphra Behn gives the output ‘... never forget Aphra Behn’. The first command version, ‘\typein{PROMPT-MSG}’, causes the input you typed to be processed as if it had been included in the input file in place of the ‘\typein’ command. In the second command version the optional argument ‘CMD’ argument must be a command name, that is, it must begin with a backslash, \. This command name is then defined or redefined to be the input that you typed. For example, this \typein[\student]{Enter student name:} \typeout{Recommendation for \student .} gives this output on the command line, Enter student name: \student=John Dee Recommendation for John Dee. where the user has entered ‘John Dee.’ 27.4 ‘\typeout’ =============== Synopsis: \typeout{MSG} Print ‘msg’ on the terminal and in the ‘log’ file. This \newcommand{\student}{John Dee} \typeout{Recommendation for \student .} outputs ‘Recommendation for John Dee’. Like what happens here with ‘\student’, commands that are defined with ‘\newcommand’ or ‘\renewcommand’ (among others) are replaced by their definitions before being printed. LaTeX's usual rules for treating multiple spaces as a single space and ignoring spaces after a command name apply to ‘msg’. Use the command ‘\space’ to get a single space, independent of surrounding spaces. Use ‘^^J’ to get a newline. Get a percent character with ‘\csname @percentchar\endcsname’. This command can be useful for simple debugging, as here: \newlength{\jhlength} \setlength{\jhlength}{5pt} \typeout{The length is \the\jhlength.} produces on the command line ‘The length is 5.0pt’. 27.5 ‘\write’ ============= Synopsis: \write NUMBER{STRING} Write STRING to the log file, to the terminal, or to a file opened by ‘\openout’. For instance, ‘\write6’ writes to text stream number 6. If the following appears in ‘BASEFILE.tex’ then it opens ‘BASEFILE.jh’, writes ‘Hello World!’ and a newline to it, and closes that file. \newwrite\myfile \immediate\openout\myfile=\jobname.jh % \jobname is root file basename ... \immediate\write\myfile{Hello world!} ... \immediate\closeout\myfile The ‘\newwrite’ allocates a stream number, giving it a symbolic name to make life easier, so that ‘stream \newwrite\myfile\the\myfile’ produces something like ‘stream 3’. Then ‘\openout’ associates the stream number with the given file name. TeX ultimately executed ‘\write3’ which puts the string in the file. Typically NUMBER is between 0 and 15, because typically LaTeX authors follow the prior example and the number is allocated by the system. If NUMBER is outside the range from 0 to 15 or if it is not associated with an open file then LaTeX writes STRING to the log file. If NUMBER is positive then in addition LaTeX writes STRING to the terminal. Thus, ‘test \write-1{Hello World!}’ puts ‘Hello World!’ followed by a newline in the log file. (This is what the ‘\wlog’ command does; see \wlog). And ‘\write100{Hello World!}’ puts the same in the log file but also puts ‘Hello World!’ followed by a newline in the terminal output. (But 16, 17, and 18 are special as NUMBER; see below.) In LuaTeX, instead of 16 output streams there are 256 (see TeX engines). Use ‘\write\@auxout{STRING}’ to write to the current ‘.aux’ file, which is associated with either the root file or with the current include file; and use ‘\write\@mainaux{STRING}’ to write to the main ‘.aux’. These symbolic names are defined by LaTeX. By default LaTeX does not write STRING to the file right away. This is because, for example, you may need ‘\write’ to save the current page number, but when TeX comes across a ‘\write’ it typically does not know what the page number is, since it has not yet done the page breaking. So, you use ‘\write’ in one of three contexts: \immediate\write\@auxout{STRING} %1 \write\@auxout{STRING} %2 \protected@write\@auxout{}{STRING} %3 1. With the first, LaTeX writes STRING to the file immediately. Any macros in STRING are fully expanded (just as in ‘\edef’) so to prevent expansion you must use ‘\noexpand’, ‘toks’, etc., except that you should use ‘#’ instead of ‘##’). 2. With the second, STRING is stored on the current list of things (as a TeX "whatsit" item) and kept until the page is shipped out and likewise the macros are unexpanded until ‘\shipout’. At ‘\shipout’, STRING is fully expanded. 3. The third, ‘\protected@write’, is like the second except that you can use ‘\protect’ to avoid expansion. The extra first argument allows you to locally insert extra definitions to make more macros protected or to have some other special definition for the write. As a simple example of expansion with ‘\write’, STRING here contains a control sequence ‘\triplex’ which we've defined to be the text ‘XYZ’: \newwrite\jhfile \openout\jhfile=test.jh \newcommand{\triplex}{XYZ} \write\jhfile{test \triplex test} This results in the file ‘test.jh’ containing the text ‘test XYZtest’ followed by a newline. The cases where NUMBER is 16, 17, or 18 are special. Because of ‘\write’'s behavior when NUMBER is outside the range from 0 to 15 described above, in plain TeX ‘\write16’ and ‘\write17’ were sometimes used to write to the log file and the terminal; however, in LaTeX, the natural way to do that is with ‘\typeout’ (see \typeout). The ‘\write18’ command is even more special; modern TeX systems use it to run an external operating system command (see \write18). Ordinarily ‘\write’ outputs a single line. You can include a newline with ‘^^J’. Thus, this produces two lines in the log file: \wlog{Parallel lines have a lot in common.^^JBut they never meet.} A common case where authors need to write their own file is for answers to exercises, or another situation where you want to write out verbatim, without expanding the macros. CTAN has a number of packages for this; one is ‘answers’. 27.5.1 ‘\write’ and security ---------------------------- The ability to write files raises security issues. If you compiled a downloaded LaTeX file and it overwrote your password file then you would be justifiably troubled. Thus, by default TeX systems only allow you to open files for writing that are in the current directory or output directory, if specified (see output directory), or in a subdirectory of those. So, this code \newwrite\jhfile \openout\jhfile=../test.jh gives an error like: Not writing to ../test.jh (openout_any = p). ! I can't write on file `../test.jh' You can get just such an error when using commands such as ‘\include{../filename}’ because LaTeX will try to open ‘../filename.aux’. The simplest solution is to put the included files in the same directory as the root file, or in subdirectories. 27.5.2 ‘\message’ ----------------- Synopsis: \message{STRING} Write STRING to the log file and the terminal. Typically, LaTeX authors use ‘\typeout’ (see \typeout). It allows you to use ‘\protect’ on any fragile commands in STRING (see \protect). But ‘\typeout’ always inserts a newline at the end of STRING while ‘\message’ does not, so the latter can be useful. With this example document body. before\message{One Two}\message{Three}\message{Four^^JI} \message{declare a thumb war.}After under some circumstances (see below) LaTeX writes the following to both the terminal and the log file. One Two Three Four I declare a thumb war. The ‘^^J’ produces a newline. Also, in the output document, between ‘before’ and ‘After’ will be a single space (from the end of line following ‘I}’). While ‘\message’ allows you more control over formatting, a gotcha is that LaTeX may mess up that formatting because it inserts line breaks depending on what it has already written. Contrast this document body, where the ‘Two’ has moved, to the one given above. before\message{One}\message{Two Three}\message{Four^^JI} \message{declare a thumb war.}After This can happen: when LaTeX is outputting the messages to the terminal, now the message with ‘One’ is shorter and it fits at the end of the output terminal line, and so LaTeX breaks the line between it and the ‘Two Three’. That line break appears also in the log file. This line break insertion can depend on, for instance, the length of the full path names of included files. So producing finely-formatted lines in a way that is portable is hard, likely requiring starting your message at the beginning of a line. 27.5.3 ‘\wlog’ -------------- Synopsis: \wlog{STRING} Write STRING to the log file. \wlog{Did you hear about the mathematician who hates negatives?} \wlog{He'll stop at nothing to avoid them.} Ordinarily STRING appears in a single separate line. Use ‘^^J’ to insert a newline. \wlog{Helvetica and Times Roman walk into a bar.} \wlog{The barman says,^^JWe don't serve your type.} 27.5.4 ‘\write18’ ----------------- Synopsis: \write18{SHELL_COMMAND} Issue a command to the operating system shell. The operating system runs the command and LaTeX's execution is blocked until that finishes. This sequence (on Unix) \usepackage{graphicx} % in preamble ... \newcommand{\fignum}{1} \immediate\write18{cd pix && asy figure\fignum} \includegraphics{pix/figure\fignum.pdf} will run Asymptote (the ‘asy’ program) on ‘pix/figure1.asy’, so that the document can later read in the resulting graphic (see \includegraphics). Like any ‘\write’, here LaTeX expands macros in SHELL_COMMAND so that ‘\fignum’ is replaced by ‘1’. Another example is that you can automatically run BibTeX at the start of each LaTeX run (see Using BibTeX) by including ‘\immediate\write18{bibtex8 \jobname}’ as the first line of the file. Note that ‘\jobname’ expands to the basename of the root file unless the ‘--jobname’ option is passed on the command line, in which case this is the option argument. You sometimes need to do a multi-step process to get the information that you want. This will insert into the input a list of all PDF files in the current directory (but see ‘texosquery’ below): \immediate\write18{ls *.pdf > tmp.dat} \input{tmp.dat} The standard behavior of any ‘\write’ is to wait until a page is being shipped out before expanding the macros or writing to the stream (see \write). But sometimes you want it done now. For this, use ‘\immediate\write18{SHELL_COMMAND}’. There are obvious security issues with allowing system commands inside a LaTeX file. If you download a file off the net and it contains commands to delete all your files then you would be unhappy. The standard settings in modern distributions turn off full shell access. You can turn it on, if you are sure the shell commands are safe, by compiling with ‘latex --enable-write18 FILENAME’ (see Command line options). (The ‘--shell-escape’ option is a synonym, in TeX Live.) In the place of full shell access, modern distributions by default use a restricted version that allows some commands to work, such as those that run Metafont to generate missing fonts, even if you do not use the ‘enable-write18’ option. By default this list of allowed commands is short and features only commands that are under the control of the distribution maintainers (see Command line options). The SHELL_COMMAND text is always passed to ‘/bin/sh’ on Unix-like operating systems, and the DOS command interpreter ‘cmd.exe’ on Windows. Any different shell set by the user, and the ‘SHELL’ environment variable, is ignored. If what you need is system information, such as the operating system name, locale information, or directory contents, take a look at the ‘texosquery’ package, which provides a convenient and secure interface for this, unlike the above examples using the raw ‘\write18’: . LaTeX provides a package ‘shellesc’ on top of the primitive ‘\write18’ command. Its primary purpose is to provide a command ‘\ShellEscape’ which works identically on all TeX engines; LuaTeX intentionally did not retain ‘\write18’ as a way to invoke a shell command, so some engine-specific code is needed. The ‘shellesc’ package also provides a command ‘\DelayedShellEscape’, executed at ‘\output’ time, for the same reason. 28 Command line interface ************************* Synopsis (from a terminal command line): pdflatex OPTIONS ARGUMENT Run LaTeX on ARGUMENT. In place of ‘pdflatex’ you can also use (for PDF output) ‘xelatex’ or ‘lualatex’, or (for DVI output) ‘latex’ or ‘dvilualatex’, among others (see TeX engines). For example, this will run LaTeX on the file ‘thesis.tex’, creating the output ‘thesis.pdf’. pdflatex thesis Note that ‘.tex’ is the default file name extension. pdfTeX is an extension of the original TeX program, as are XeTeX and LuaTeX (see TeX engines). The first two are completely backward compatible and the latter, almost so. Perhaps the most fundamental new feature for all three is that the original TeX output its own DVI format, while the newer ones can output directly to PDF. This allows them to take advantage of the extra features in PDF such as hyperlinks, support for modern image formats such as JPG and PNG, and ubiquitous viewing programs. In short, if you run ‘pdflatex’ or ‘xelatex’ or ‘lualatex’ then you will by default get PDF and have access to all its modern features. If you run ‘latex’, or ‘dvilualatex’, then you will get DVI. The description here assumes ‘pdflatex’. See Command line options, for a selection of the most useful command line options. As to ARGUMENT, the usual case is that it does not begin with a backslash, so the system takes it to be the name of a file and it compiles that file. If ARGUMENT begins with a backslash then the system will interpret it as a line of LaTeX input, which can be used for special effects (see Command line input). If you gave no arguments or options then ‘pdflatex’ prompts for input from the terminal. You can escape from this by entering ‘CTRL-D’. If LaTeX finds an error in your document then by default it stops and asks you about it. See Recovering from errors, for an outline of what to do. 28.1 Command line options ========================= These are the command-line options relevant to ordinary document authoring. For a full list, try running ‘latex --help’ from the command line. With many implementations you can specify command line options by prefixing them with ‘-’ or ‘--’. This is the case for both TeX Live (including MacTeX) and MiKTeX. We will use both conventions interchangeably. If an option takes a value, it can be specified either as a separate argument (‘--foo val’), or as one argument with an ‘=’ sign (‘--foo=val’), but there can be no spaces around the ‘=’. We will generally use the ‘=’ syntax. ‘-version’ Show the current version, like ‘pdfTeX 3.14159265-2.6-1.40.16 (TeX Live 2015/Debian)’ along with a small amount of additional information, and exit. ‘-help’ Give a brief usage message that is useful as a prompt and exit. ‘-interaction=MODE’ TeX compiles a document in one of four interaction modes: ‘batchmode’, ‘nonstopmode’, ‘scrollmode’, ‘errorstopmode’. In “errorstopmode” (the default), TeX stops at each error and asks for user intervention. In “batchmode” it prints nothing on the terminal, errors are scrolled as if the user hit ‘RETURN’ at every error, and missing files cause the job to abort. In “nonstopmode”, diagnostic message appear on the terminal but as in batch mode there is no user interaction. In “scrollmode”, TeX stops for missing files or keyboard input, but nothing else. For instance, starting LaTeX with this command line pdflatex -interaction=batchmode FILENAME eliminates most terminal output. ‘-jobname=STRING’ Set the value of TeX's “jobname” to the string. The log file and output file will then be named ‘STRING.log’ and ‘STRING.pdf’. see Jobname. ‘-output-directory=DIRECTORY’ Write files in the directory DIRECTORY. It must already exist. This applies to all external files created by TeX or LaTeX, such as the ‘.log’ file for the run, the ‘.aux’, ‘.toc’, etc., files created by LaTeX, as well as the main ‘.pdf’ or ‘.dvi’ output file itself. When specified, the output directory DIRECTORY is also automatically checked first for any file that it is input, so that the external files can be read back in, if desired. The true current directory (in which LaTeX was run) remains unchanged, and is also checked for input files. ‘--enable-write18’ ‘--disable-write18’ ‘--shell-escape’ ‘--no-shell-escape’ Enable or disable ‘\write18{SHELL_COMMAND}’ (see \write18). The first two options are supported by both TeX Live and MiKTeX, while the second two are synonyms supported by TeX Live. Enabling this functionality has major security implications, since it allows a LaTeX file to run any command whatsoever. Thus, by default, unrestricted ‘\write18’ is not allowed. (The default for TeX Live, MacTeX, and MiKTeX is to allow the execution of a limited number of TeX-related programs, which they distribute.) For example, if you invoke LaTeX with the option ‘no-shell-escape’, and in your document you call ‘\write18{ls -l}’, then you do not get an error but the log file says ‘runsystem(ls -l)...disabled’. ‘-halt-on-error’ Stop processing at the first error. ‘-file-line-error’ ‘-no-file-line-error’ Enable or disable ‘FILENAME:LINENO:ERROR’-style error messages. These are only available with TeX Live or MacTeX. 28.2 Command line input ======================= As part of the command line invocation LATEX-ENGINE OPTIONS ARGUMENT you can specify arbitrary LaTeX input by starting ARGUMENT with a backslash. (All the engines support this.) This allows you to do some special effects. For example, this file (which uses the ‘hyperref’ package for hyperlinks) can produce two kinds of output, one to be read on physical paper and one to be read online. \ifdefined\paperversion % in preamble \newcommand{\urlcolor}{black} \else \newcommand{\urlcolor}{blue} \fi \usepackage[colorlinks=true,urlcolor=\urlcolor]{hyperref} ... \href{https://www.ctan.org}{CTAN} % in body ... Compiling this document ‘book.tex’ with the command line ‘pdflatex book’ will give the ‘CTAN’ link in blue. But compiling it with pdflatex "\def\paperversion{}\input book.tex" has the link in black. We use double quotes to prevent interpretation of the symbols by the command line shell. (This usually works on both Unix and Windows systems, but there are many peculiarities to shell quoting, so read your system documentation if need be.) In a similar way, from the single file ‘main.tex’ you can compile two different versions. pdflatex -jobname=students "\def\student{}\input{main}" pdflatex -jobname=teachers "\def\teachers{}\input{main}" The ‘jobname’ option is there because otherwise both files would be called ‘main.pdf’ and the second would overwrite the first (see Jobname). In this example we use the command line to select which parts of a document to include. For a book named ‘mybook.tex’ and structured like this. \documentclass{book} \begin{document} ... \include{chap1} \include{chap2} ... \end{document} the command line pdflatex "\includeonly{chap1}\input{mybook}" will give output that has the first chapter but no other chapter. See Splitting the input. 28.3 Jobname ============ Running LaTeX creates a number of files, including the main PDF (or DVI) output but also including others. These files are named with the so-called “jobname”. The most common case is also the simplest, where for instance the command ‘pdflatex thesis’ creates ‘thesis.pdf’ and also ‘thesis.log’ and ‘thesis.aux’. Here the job name is ‘thesis’. In general, LaTeX is invoked as ‘LATEX-ENGINE OPTIONS ARGUMENT’, where LATEX-ENGINE is ‘pdflatex’, ‘lualatex’, etc. (see TeX engines). If ARGUMENT does not start with a backslash, as is the case above with ‘thesis’, then TeX considers it to be the name of the file to input as the main document. This file is referred to as the “root file” (see Splitting the input, and \input). The name of that root file, without the ‘.tex’ extension if any, is the jobname. If ARGUMENT does start with a backslash, or if TeX is in interactive mode, then it waits for the first ‘\input’ command, and the jobname is the argument to ‘\input’. There are two more possibilities for the jobname. It can be directly specified with the ‘-jobname’ option, as in ‘pdflatex -jobname=myname’ (see Command line input for a practical example). The final possibility is ‘texput’, which is the final fallback default if no other name is available to TeX. That is, if no ‘-jobname’ option was specified, and the compilation stops before any input file is met, then the log file will be named ‘texput.log’. A special case of this is that in LaTeX versions of (approximately) 2020 or later, the jobname is also ‘texput’ if the first ‘\input’ occurs as a result of being called by either ‘\documentclass’ or ‘\RequirePackage’. So this will produce a file named ‘texput.pdf’: pdflatex "\documentclass{minimal}\begin{document}Hello!\end{document}" However, this special case only applies to those two commands. Thus, with pdflatex "\documentclass{article}\usepackage{lipsum}\input{thesis}" the output file is ‘lipsum.pdf’, as ‘\usepackage’ calls ‘\input’. Within the document, the macro ‘\jobname’ expands to the jobname. (When you run LaTeX on a file whose name contains spaces, the string returned by ‘\jobname’ contains matching start and end quotes.) In the expansion of that macro, all characters are of catcode 12 (other) except that spaces are category 10, including letters that are normally catcode 11. Because of this catcode situation, using the jobname in a conditional can become complicated. One solution is to use the macro ‘\IfBeginWith’ from the ‘xstring’ package in its star variant, which is insensitive to catcode. For example, in the following text the footnote "Including Respublica Bananensis Francorum." is only present if the task name starts with ‘my-doc’. If a democracy is just a regime where citizens vote then all banana republics \IfBeginWith*{\jobname}{my-doc}% {\footnote{Including Respublica Bananensis Francorum.}}{} are democracies. Manipulating the value of ‘\jobname’ inside of a document does not change the name of the output file or the log file. 28.4 Recovering from errors =========================== If LaTeX finds an error in your document then it gives you an error message and prompts you with a question mark, ‘?’. For instance, running LaTeX on this file \newcommand{\NP}{\ensuremath{\textbf{NP}}} The \PN{} problem is a million dollar one. causes it show this, and wait for input. ! Undefined control sequence. l.5 The \PN {} problem is a million dollar one. ? The simplest thing is to enter ‘x’ and ‘RETURN’ and fix the typo. You could instead enter ‘?’ and ‘RETURN’ to see other options. There are two other error scenarios. The first is that you forgot to include the ‘\end{document}’ or misspelled it. In this case LaTeX gives you a ‘*’ prompt. You can get back to the command line by typing ‘\stop’ and ‘RETURN’; this command does its best to exit LaTeX immediately, whatever state it may be in. The last scenario is that you mistyped the filename. For instance, instead of ‘pdflatex test’ you might type ‘pdflatex tste’. ! I can't find file `tste'. <*> tste (Press Enter to retry, or Control-D to exit) Please type another input file name: The simplest thing is to enter ‘CTRL d’ (holding the Control and d keys down at the same time), and then retype the correct command line. Appendix A Document templates ***************************** Although illustrative material, perhaps these document templates will be useful. Additional template resources are listed at . A.1 ‘beamer’ template ===================== The ‘beamer’ class creates presentation slides. It has a vast array of features, but here is a basic template: \documentclass{beamer} \title{Beamer Class template} \author{Alex Author} \date{July 31, 2020} \begin{document} \maketitle % without [fragile], any {verbatim} code gets mysterious errors. \begin{frame}[fragile] \frametitle{First Slide} \begin{verbatim} This is \verbatim! \end{verbatim} \end{frame} \end{document} The Beamer package on CTAN: . A.2 ‘article’ template ====================== A simple template for an article. \documentclass{article} \title{Article Class Template} \author{Alex Author} \begin{document} \maketitle \section{First section} Some text. \subsection{First section, first subsection} Additional text. \section{Second section} Some more text. \end{document} A.3 ‘book’ template =================== This is a straightforward template for a book. See Larger book template, for a more elaborate one. \documentclass{book} \title{Book Class Template} \author{Alex Author} \begin{document} \maketitle \chapter{First} Some text. \chapter{Second} Some other text. \section{A subtopic} The end. \end{document} A.4 Larger ‘book’ template ========================== This is a somewhat elaborate template for a book. See book template, for a simpler one. This template uses ‘\frontmatter’, ‘\mainmatter’, and ‘\backmatter’ to control the typography of the three main areas of a book (see \frontmatter & \mainmatter & \backmatter). The book has a bibliography and an index. Also notable is that it uses ‘\include’ and ‘\includeonly’ (see Splitting the input). While you are working on a chapter you can comment out all the other chapter entries from the argument to ‘\includeonly’. That will speed up compilation without losing any information such as cross-references. (Material that does not need to come on a new page is brought in with ‘\input’ instead of ‘\include’. You don't get the cross-reference benefit with ‘\input’.) \documentclass[titlepage]{book} \usepackage{makeidx}\makeindex \title{Book Class Template} \author{Alex Author} \includeonly{% % frontcover, preface, chap1, % appenA, } \begin{document} \frontmatter \include{frontcover} % maybe comment out while drafting: \maketitle \input{dedication} \input{copyright} \tableofcontents \include{preface} \mainmatter \include{chap1} ... \appendix \include{appenA} ... \backmatter \bibliographystyle{apalike} \addcontentsline{toc}{chapter}{Bibliography} \bibliography \addcontentsline{toc}{chapter}{Index} \printindex \include{backcover} \end{document} Index ***** * Menu: * _ character, meaning of: Special characters. (line 759) * _ subscript: Subscripts & superscripts. (line 9515) * --disable-write18 command-line option: Command line options. (line 16678) * --enable-write18 command-line option: Command line options. (line 16678) * --file-line-error command-line option: Command line options. (line 16699) * --halt-on-error command-line option: Command line options. (line 16696) * --help command-line option: Command line options. (line 16640) * --interaction command-line option: Command line options. (line 16643) * --jobname command-line option: Command line options. (line 16660) * --no-file-line-error command-line option: Command line options. (line 16699) * --no-shell-escape command-line option: Command line options. (line 16678) * --output-directory command-line option: Command line options. (line 16665) * --shell-escape command-line option: Command line options. (line 16678) * --version command-line option: Command line options. (line 16635) * -1, write stream number: \write. (line 16339) * : (for math): Colon character & \colon. (line 11444) * .aux file: Output files. (line 520) * .aux file and BibTeX commands: BibTeX error messages. (line 6203) * .dvi file: Output files. (line 497) * .fmt file: TeX engines. (line 539) * .glo file: Glossaries. (line 15738) * .idx file: Indexes. (line 15329) * .idx file <1>: makeindex. (line 15527) * .ind file: makeindex. (line 15527) * .isty file: makeindex. (line 15539) * .lof file: Output files. (line 530) * .lof file <1>: Table of contents etc.. (line 14940) * .lof file <2>: \contentsline. (line 15233) * .log file: Output files. (line 515) * .lot file: Output files. (line 530) * .lot file <1>: Table of contents etc.. (line 14940) * .lot file <2>: \contentsline. (line 15233) * .pdf file: Output files. (line 507) * .tex, default extension: Command line interface. (line 16592) * .toc file: Output files. (line 530) * .toc file <1>: Table of contents etc.. (line 14940) * .toc file <2>: \contentsline. (line 15233) * .xdv file: TeX engines. (line 576) * [...] (for optional arguments): LaTeX command syntax. (line 777) * { character, meaning of: Special characters. (line 744) * {...} (for required arguments): LaTeX command syntax. (line 777) * } character, meaning of: Special characters. (line 744) * * prompt: Recovering from errors. (line 16852) * *-form of environment commands: \newenvironment & \renewenvironment. (line 7616) * *-form of sectioning commands: Sectioning. (line 2539) * *-form, defining new commands: \newcommand & \renewcommand. (line 7200) * *, to \nocite all keys: Using BibTeX. (line 6196) * /bin/sh, used by \write18: \write18. (line 16557) * \ (backslash-space): \(SPACE). (line 12165) * \ character starting commands: LaTeX command syntax. (line 777) * \ character, meaning of: Special characters. (line 740) * \_: Printing special characters. (line 14089) * \- (hyphenation): \- (hyphenation). (line 6569) * \- (tabbing): tabbing commands. (line 5483) * \,: Spacing in math mode. (line 11194) * \;: Spacing in math mode. (line 11170) * \:: Spacing in math mode. (line 11183) * \!: Spacing in math mode. (line 11208) * \. (dot-over accent): Accents. (line 14427) * \' (acute accent): Accents. (line 14424) * \' (tabbing): tabbing commands. (line 5488) * \" (umlaut accent): Accents. (line 14420) * \(...\) inline math: math. (line 4640) * \[...\] display math: displaymath. (line 3737) * \{: Printing special characters. (line 14089) * \}: Printing special characters. (line 14089) * \@: \@. (line 12082) * \@auxout: \write. (line 16354) * \@beginparpenalty: list. (line 4522) * \@dottedtocline: \@dottedtocline. (line 15061) * \@endparpenalty: list. (line 4530) * \@fnsymbol: \footnote. (line 6945) * \@ifstar: \@ifstar. (line 7430) * \@itempenalty: list. (line 4526) * \@mainaux: \write. (line 16354) * \@startsection: \@startsection. (line 3023) * \*: \*. (line 11464) * \/: \/. (line 12314) * \\ (for \author): \maketitle. (line 11646) * \\ (for \shortstack objects): \shortstack. (line 5192) * \\ (for \title): \maketitle. (line 11667) * \\ (for center): center. (line 3579) * \\ (for eqnarray): eqnarray. (line 3887) * \\ (for flushleft): flushleft. (line 4067) * \\ (for flushright): flushright. (line 4126) * \\ (for letters): Letters. (line 15880) * \\ (for tabular): tabular. (line 5669) * \\ (for verse): verse. (line 6406) * \\ (force line break): \\. (line 6444) * \\ (tabbing): tabbing commands. (line 5465) * \\* (for eqnarray): eqnarray. (line 3893) * \&: Printing special characters. (line 14089) * \#: Printing special characters. (line 14089) * \%: Printing special characters. (line 14089) * \` (grave accent): Accents. (line 14439) * \` (tabbing): tabbing commands. (line 5494) * \^: Printing special characters. (line 14094) * \^ (circumflex accent): Accents. (line 14435) * \+ (tabbing): tabbing commands. (line 5474) * \< (tabbing): tabbing commands. (line 5478) * \= (macron accent): Accents. (line 14431) * \= (tabbing): tabbing commands. (line 5468) * \>: tabbing commands. (line 5472) * \> <1>: Spacing in math mode. (line 11183) * \> (tabbing): tabbing commands. (line 5471) * \|: Math symbols. (line 9590) * \~: Printing special characters. (line 14094) * \~ (tilde accent): Accents. (line 14443) * \$: Printing special characters. (line 14089) * \a (tabbing): tabbing commands. (line 5504) * \a' (acute accent in tabbing): tabbing commands. (line 5505) * \a` (grave accent in tabbing): tabbing commands. (line 5505) * \a= (macron accent in tabbing): tabbing commands. (line 5505) * \aa (å): Additional Latin letters. (line 14543) * \AA (Å): Additional Latin letters. (line 14543) * \accent: \accent. (line 14492) * \acute: Math accents. (line 11057) * \addcontentsline: \addcontentsline. (line 15096) * \address: \address. (line 15916) * \addtocontents{EXT}{TEXT}: \addtocontents. (line 15175) * \addtocounter: \addtocounter. (line 8710) * \addtolength: \addtolength. (line 8966) * \addvspace: \addvspace. (line 12648) * \ae (æ): Additional Latin letters. (line 14547) * \AE (Æ): Additional Latin letters. (line 14547) * \aleph: Math symbols. (line 9593) * \Alph example: enumerate. (line 3852) * \alph{COUNTER}: \alph \Alph \arabic \roman \Roman \fnsymbol. (line 8586) * \Alph{COUNTER}: \alph \Alph \arabic \roman \Roman \fnsymbol. (line 8591) * \alpha: Math symbols. (line 9596) * \alsoname: \index. (line 15462) * \amalg: Math symbols. (line 9599) * \and (for \author): \maketitle. (line 11646) * \angle: Math symbols. (line 9602) * \appendix: \appendix. (line 2954) * \approx: Math symbols. (line 9606) * \arabic{COUNTER}: \alph \Alph \arabic \roman \Roman \fnsymbol. (line 8596) * \arccos: Math functions. (line 10941) * \arcsin: Math functions. (line 10944) * \arctan: Math functions. (line 10947) * \arg: Math functions. (line 10950) * \arraycolsep: array. (line 3538) * \arrayrulewidth: tabular. (line 5790) * \arraystretch: tabular. (line 5796) * \ast: Math symbols. (line 9609) * \asymp: Math symbols. (line 9616) * \AtBeginDocument: \AtBeginDocument. (line 3767) * \AtBeginDvi: \AtBeginDvi & \AtEndDvi. (line 8063) * \AtEndDocument: \AtEndDocument. (line 3783) * \AtEndDvi: \AtBeginDvi & \AtEndDvi. (line 8063) * \AtEndOfClass: \AtEndOfClass & \AtEndOfPackage. (line 8079) * \AtEndOfPackage: \AtEndOfClass & \AtEndOfPackage. (line 8079) * \author{NAME1 \and NAME2 \and ...}: \maketitle. (line 11645) * \b (bar-under accent): Accents. (line 14446) * \backmatter: \frontmatter & \mainmatter & \backmatter. (line 2988) * \backslash: Math symbols. (line 9619) * \bar: Math accents. (line 11060) * \baselineskip: Low-level font commands. (line 1877) * \baselineskip <1>: \baselineskip & \baselinestretch. (line 2197) * \baselinestretch: \baselineskip & \baselinestretch. (line 2197) * \begin: Environments. (line 3430) * \beta: Math symbols. (line 9623) * \bf: Font styles. (line 1653) * \bfseries: Font styles. (line 1618) * \bibdata: BibTeX error messages. (line 6213) * \bibitem: \bibitem. (line 6018) * \bibliography: Using BibTeX. (line 6141) * \bibliography and internal \bibdata: BibTeX error messages. (line 6214) * \bibliographystyle: Using BibTeX. (line 6141) * \bibliographystyle and internal \bibstyle: BibTeX error messages. (line 6217) * \bibname: thebibliography. (line 6001) * \bibstyle: BibTeX error messages. (line 6216) * \bigbreak: \bigbreak & \medbreak & \smallbreak. (line 12457) * \bigcap: Math symbols. (line 9626) * \bigcirc: Math symbols. (line 9630) * \bigcup: Math symbols. (line 9633) * \bigl: \bigl & \bigr etc.. (line 10738) * \bigodot: Math symbols. (line 9637) * \bigoplus: Math symbols. (line 9640) * \bigotimes: Math symbols. (line 9643) * \bigr: \bigl & \bigr etc.. (line 10738) * \bigskip: \bigskip & \medskip & \smallskip. (line 12408) * \bigskip <1>: \bigskip & \medskip & \smallskip. (line 12430) * \bigskipamount: \bigskip & \medskip & \smallskip. (line 12431) * \bigsqcup: Math symbols. (line 9654) * \bigtriangledown: Math symbols. (line 9646) * \bigtriangleup: Math symbols. (line 9650) * \biguplus: Math symbols. (line 9657) * \bigvee: Math symbols. (line 9661) * \bigwedge: Math symbols. (line 9664) * \bmod: Math functions. (line 10953) * \boldmath: \boldmath & \unboldmath. (line 10465) * \boldmath <1>: \boldmath & \unboldmath. (line 10473) * \bot: Math symbols. (line 9667) * \bottomfraction: Floats. (line 2378) * \bottomfraction <1>: Floats. (line 2379) * \bowtie: Math symbols. (line 9671) * \Box: Math symbols. (line 9674) * \breve: Math accents. (line 11063) * \bullet: Math symbols. (line 9679) * \c (cedilla accent): Accents. (line 14455) * \cal: Font styles. (line 1656) * \cap: Math symbols. (line 9682) * \capitalacute: Accents. (line 14424) * \capitalbreve: Accents. (line 14483) * \capitalcaron: Accents. (line 14487) * \capitalcedilla: Accents. (line 14455) * \capitalcircumflex: Accents. (line 14435) * \capitaldieresis: Accents. (line 14420) * \capitaldotaccent: Accents. (line 14459) * \capitalgrave: Accents. (line 14439) * \capitalhungarumlaut: Accents. (line 14463) * \capitalmacron: Accents. (line 14431) * \capitalnewtie: Accents. (line 14477) * \capitalogonek: Accents. (line 14467) * \capitalring: Accents. (line 14471) * \capitaltie: Accents. (line 14477) * \capitaltilde: Accents. (line 14443) * \caption: \caption. (line 2440) * \caption <1>: figure. (line 3973) * \caption <2>: table. (line 5617) * \cc: \cc. (line 15941) * \cdot: Math symbols. (line 9686) * \cdots: Dots. (line 10835) * \centering: \centering. (line 3617) * \chapter: Sectioning. (line 2514) * \chapter <1>: \chapter. (line 2654) * \check: Math accents. (line 11066) * \CheckCommand: \CheckCommand. (line 8096) * \chi: Math symbols. (line 9689) * \circ: Math symbols. (line 9692) * \circle: \circle. (line 5107) * \citation: BibTeX error messages. (line 6219) * \cite: \cite. (line 6076) * \cite and internal \citation: BibTeX error messages. (line 6220) * \ClassError: \ClassError and \PackageError and other messages. (line 8124) * \ClassInfo: \ClassError and \PackageError and other messages. (line 8124) * \ClassNote: \ClassError and \PackageError and other messages. (line 8124) * \ClassNoteNoLine: \ClassError and \PackageError and other messages. (line 8124) * \ClassWarning: \ClassError and \PackageError and other messages. (line 8124) * \ClassWarningNoLine: \ClassError and \PackageError and other messages. (line 8124) * \cleardoublepage: \clearpage & \cleardoublepage. (line 6761) * \clearpage: \clearpage & \cleardoublepage. (line 6761) * \cline: \cline. (line 5924) * \closein: \openin & \openout. (line 16142) * \closeout: \openin & \openout. (line 16142) * \closing: \closing. (line 15957) * \clubsuit: Math symbols. (line 9696) * \colon: Colon character & \colon. (line 11444) * \columnsep: \twocolumn. (line 1940) * \columnsep <1>: Page layout parameters. (line 2066) * \columnsep <2>: Page layout parameters. (line 2069) * \columnseprule: \twocolumn. (line 1946) * \columnseprule <1>: Page layout parameters. (line 2067) * \columnseprule <2>: Page layout parameters. (line 2069) * \columnwidth: \twocolumn. (line 1953) * \columnwidth <1>: Page layout parameters. (line 2068) * \columnwidth <2>: Page layout parameters. (line 2069) * \complement: Math symbols. (line 9699) * \cong: Math symbols. (line 9705) * \contentsline: Table of contents etc.. (line 14995) * \contentsline <1>: \addcontentsline. (line 15100) * \contentsline <2>: \contentsline. (line 15233) * \coprod: Math symbols. (line 9708) * \copyright: Text symbols. (line 14184) * \cos: Math functions. (line 10956) * \cosh: Math functions. (line 10959) * \cot: Math functions. (line 10962) * \coth: Math functions. (line 10965) * \cprotect: \protect. (line 7918) * \cprotEnv: \protect. (line 7924) * \csc: Math functions. (line 10968) * \cup: Math symbols. (line 9711) * \CurrentOption: \CurrentOption. (line 8159) * \d (dot-under accent): Accents. (line 14459) * \dag: Text symbols. (line 14188) * \dagger: Math symbols. (line 9715) * \dashbox: \dashbox. (line 5315) * \dashv: Math symbols. (line 9718) * \date{TEXT}: \maketitle. (line 11653) * \day: \day & \month & \year. (line 8759) * \dblfloatpagefraction: \twocolumn. (line 1986) * \dblfloatsep: \twocolumn. (line 1992) * \dbltextfloatsep: \twocolumn. (line 1999) * \dbltopfraction: \twocolumn. (line 1965) * \dbltopnumber: \twocolumn. (line 2004) * \ddag: Text symbols. (line 14191) * \ddagger: Math symbols. (line 9722) * \ddot: Math accents. (line 11069) * \ddots: Dots. (line 10839) * \DeclareFontEncoding: \DeclareFontEncoding. (line 1269) * \DeclareGraphicsExtensions: \DeclareGraphicsExtensions. (line 13255) * \DeclareGraphicsRule: \DeclareGraphicsRule. (line 13297) * \DeclareOption: \DeclareOption. (line 8166) * \DeclareRobustCommand: \DeclareRobustCommand. (line 8205) * \DeclareTextAccent: \DeclareTextAccent. (line 1302) * \DeclareTextAccent <1>: \DeclareTextAccentDefault. (line 1325) * \DeclareTextAccentDefault: \DeclareTextAccentDefault. (line 1325) * \DeclareTextCommand: \DeclareTextCommand & \ProvideTextCommand. (line 1353) * \DeclareTextCommandDefault: \DeclareTextCommandDefault & \ProvideTextCommandDefault. (line 1402) * \DeclareTextComposite: \DeclareTextComposite. (line 1434) * \DeclareTextCompositeCommand: \DeclareTextCompositeCommand. (line 1458) * \DeclareTextSymbol: \DeclareTextCommand & \ProvideTextCommand. (line 1384) * \DeclareTextSymbol <1>: \DeclareTextSymbol. (line 1476) * \DeclareTextSymbol <2>: \DeclareTextSymbolDefault. (line 1503) * \DeclareTextSymbolDefault: \DeclareTextSymbolDefault. (line 1503) * \deg: Math functions. (line 10971) * \DelayedShellEscape: \write18. (line 16568) * \Delta: Math symbols. (line 9725) * \delta: Math symbols. (line 9728) * \det: Math functions. (line 10974) * \dh (ð): Additional Latin letters. (line 14551) * \DH (Ð): Additional Latin letters. (line 14551) * \Diamond: Math symbols. (line 9731) * \diamond: Math symbols. (line 9735) * \diamondsuit: Math symbols. (line 9739) * \dim: Math functions. (line 10977) * \displaystyle: Math styles. (line 11393) * \div: Math symbols. (line 9742) * \dj: Additional Latin letters. (line 14557) * \DJ: Additional Latin letters. (line 14557) * \documentclass: Document classes. (line 906) * \documentclass, and texput jobname: Jobname. (line 16796) * \DocumentMetadata: \DocumentMetadata. (line 851) * \dot: Math accents. (line 11072) * \doteq: Math symbols. (line 9745) * \dotfill: \hrulefill & \dotfill. (line 12359) * \dots: Dots. (line 10844) * \dots <1>: Dots. (line 10867) * \dots <2>: Text symbols. (line 14213) * \dotsb: Dots. (line 10867) * \dotsc: Dots. (line 10867) * \dotsi: Dots. (line 10867) * \doublerulesep: tabular. (line 5801) * \downarrow: Math symbols. (line 9749) * \Downarrow: Math symbols. (line 9753) * \ds@OPTION: \ExecuteOptions. (line 8255) * \ell: Math symbols. (line 9757) * \emph: Font styles. (line 1638) * \emptyset: Math symbols. (line 9760) * \encl: \encl. (line 15970) * \end: Environments. (line 3430) * \endinput: \endinput. (line 14751) * \enlargethispage: \enlargethispage. (line 6836) * \enspace: \enspace & \quad & \qquad. (line 11891) * \enumi: enumerate. (line 3839) * \enumii: enumerate. (line 3839) * \enumiii: enumerate. (line 3839) * \enumiv: enumerate. (line 3839) * \epsilon: Math symbols. (line 9763) * \equiv: Math symbols. (line 9769) * \eta: Math symbols. (line 9772) * \evensidemargin: Document class options. (line 1022) * \evensidemargin <1>: Page layout parameters. (line 2127) * \evensidemargin <2>: Page layout parameters. (line 2128) * \ExecuteOptions: \ExecuteOptions. (line 8251) * \exists: Math symbols. (line 9775) * \exp: Math functions. (line 10980) * \externaldocument: xr package. (line 3376) * \extracolsep: tabular. (line 5741) * \fbox: \fbox & \framebox. (line 12794) * \fboxrule: \framebox (picture). (line 5292) * \fboxrule <1>: \fbox & \framebox. (line 12826) * \fboxrule <2>: \fbox & \framebox. (line 12825) * \fboxsep: \framebox (picture). (line 5292) * \fboxsep <1>: \fbox & \framebox. (line 12831) * \fboxsep <2>: \fbox & \framebox. (line 12830) * \fill: \hfill. (line 11976) * \flat: Math symbols. (line 9778) * \floatpagefraction: Floats. (line 2382) * \floatpagefraction <1>: Floats. (line 2383) * \floatsep: Floats. (line 2398) * \floatsep <1>: Floats. (line 2399) * \flushbottom: \flushbottom. (line 2033) * \fnsymbol, and footnotes: \footnote. (line 6945) * \fnsymbol{COUNTER}: \alph \Alph \arabic \roman \Roman \fnsymbol. (line 8609) * \fontdimen1: \/. (line 12348) * \fontencoding: Low-level font commands. (line 1787) * \fontfamily: Low-level font commands. (line 1797) * \fontseries: Low-level font commands. (line 1824) * \fontshape: Low-level font commands. (line 1864) * \fontsize: Low-level font commands. (line 1877) * \footnote: \footnote. (line 6926) * \footnotemark: \footnotemark. (line 6996) * \footnoterule: \footnote. (line 6955) * \footnotesep: \footnote. (line 6971) * \footnotesize: Font sizes. (line 1730) * \footnotetext: \footnotetext. (line 7053) * \footskip: Page layout parameters. (line 2086) * \footskip <1>: Page layout parameters. (line 2087) * \forall: Math symbols. (line 9781) * \frac: \frac. (line 11480) * \frame: \frame. (line 5303) * \framebox: \framebox (picture). (line 5268) * \framebox <1>: \fbox & \framebox. (line 12794) * \frenchspacing: \frenchspacing & \nonfrenchspacing. (line 12131) * \frontmatter: \frontmatter & \mainmatter & \backmatter. (line 2988) * \frown: Math symbols. (line 9784) * \fussy: \fussy & \sloppy. (line 6637) * \Gamma: Math symbols. (line 9787) * \gamma: Math symbols. (line 9790) * \gcd: Math functions. (line 10983) * \ge: Math symbols. (line 9793) * \geq: Math symbols. (line 9797) * \gets: Math symbols. (line 9801) * \gg: Math symbols. (line 9804) * \gls: \gls. (line 15808) * \graphicspath: \graphicspath. (line 13192) * \graphpaper: \graphpaper. (line 5011) * \grave: Math accents. (line 11075) * \guillemetleft («): Text symbols. (line 14200) * \guillemetright (»): Text symbols. (line 14201) * \guillemotleft («): Text symbols. (line 14202) * \guillemotright (»): Text symbols. (line 14203) * \guilsinglleft (‹): Text symbols. (line 14204) * \guilsinglright (›): Text symbols. (line 14205) * \H (Hungarian umlaut accent): Accents. (line 14463) * \hat: Math accents. (line 11078) * \hbar: Math symbols. (line 9807) * \headheight: Page layout parameters. (line 2074) * \headheight <1>: Page layout parameters. (line 2075) * \headsep: Page layout parameters. (line 2079) * \headsep <1>: Page layout parameters. (line 2080) * \heartsuit: Math symbols. (line 9810) * \hfill: \hfill. (line 11964) * \hline: \hline. (line 5946) * \hom: Math functions. (line 10986) * \hookleftarrow: Math symbols. (line 9813) * \hookrightarrow: Math symbols. (line 9816) * \hphantom: \phantom & \vphantom & \hphantom. (line 11286) * \hrulefill: \hrulefill & \dotfill. (line 12359) * \hsize: Page layout parameters. (line 2177) * \hsize <1>: Page layout parameters. (line 2178) * \hspace: \hspace. (line 11917) * \hss: \hss. (line 11997) * \huge: Font sizes. (line 1730) * \Huge: Font sizes. (line 1730) * \hyphenation: \hyphenation. (line 6679) * \i (dotless i): Accents. (line 14414) * \IfBeginWith* macro from xstring: Jobname. (line 16817) * \iff: Math symbols. (line 9819) * \IfFileExists: \IfFileExists & \InputIfFileExists. (line 8267) * \ignorespaces: \ignorespaces & \ignorespacesafterend. (line 7931) * \ignorespacesafterend: \ignorespaces & \ignorespacesafterend. (line 7931) * \ij (ij): Additional Latin letters. (line 14563) * \IJ (IJ): Additional Latin letters. (line 14563) * \Im: Math symbols. (line 9823) * \imath: Math symbols. (line 9826) * \immediate\write: \write. (line 16369) * \in: Math symbols. (line 9830) * \include: \include & \includeonly. (line 14783) * \includegraphics: \includegraphics. (line 13376) * \includeonly: \include & \includeonly. (line 14783) * \indent: \indent & \noindent. (line 9319) * \index: Indexes. (line 15329) * \index <1>: \index. (line 15410) * \indexentry: \index. (line 15512) * \indexspace: Produce the index manually. (line 15399) * \indexspace <1>: makeindex. (line 15580) * \inf: Math functions. (line 10989) * \infty: Math symbols. (line 9834) * \input: \input. (line 14902) * \inputencoding: inputenc package. (line 14634) * \InputIfFileExists: \IfFileExists & \InputIfFileExists. (line 8267) * \int: Math symbols. (line 9837) * \intextsep: Floats. (line 2402) * \intextsep <1>: Floats. (line 2403) * \iota: Math symbols. (line 9840) * \it: Font styles. (line 1659) * \item: description. (line 3684) * \item <1>: enumerate. (line 3822) * \item <2>: itemize. (line 4165) * \item <3>: itemize. (line 4196) * \item <4>: Produce the index manually. (line 15399) * \itemindent: list. (line 4346) * \itemsep: list. (line 4350) * \itshape: Font styles. (line 1612) * \j (dotless j): Accents. (line 14414) * \jmath: Math symbols. (line 9846) * \jobname: Jobname. (line 16771) * \jobname <1>: Jobname. (line 16810) * \Join: Math symbols. (line 9843) * \k (ogonek): Accents. (line 14467) * \kappa: Math symbols. (line 9850) * \ker: Math functions. (line 10992) * \kill (tabbing): tabbing commands. (line 5509) * \l (ł): Additional Latin letters. (line 14567) * \L (Ł): Additional Latin letters. (line 14567) * \l@chapter: \contentsline. (line 15233) * \l@section: \contentsline. (line 15233) * \l@subsection: \contentsline. (line 15233) * \label: \label. (line 3265) * \labelenumi: enumerate. (line 3847) * \labelenumii: enumerate. (line 3847) * \labelenumiii: enumerate. (line 3847) * \labelenumiv: enumerate. (line 3847) * \labelitemi: itemize. (line 4208) * \labelitemii: itemize. (line 4208) * \labelitemiii: itemize. (line 4208) * \labelitemiv: itemize. (line 4208) * \labelsep: list. (line 4362) * \labelwidth: list. (line 4367) * \Lambda: Math symbols. (line 9853) * \lambda: Math symbols. (line 9856) * \land: Math symbols. (line 9859) * \langle: Math symbols. (line 9863) * \large: Font sizes. (line 1730) * \Large: Font sizes. (line 1730) * \LARGE: Font sizes. (line 1730) * \LastDeclaredEncoding: \LastDeclaredEncoding. (line 1529) * \LaTeX: Text symbols. (line 14194) * \LaTeXe: Text symbols. (line 14197) * \lbrace: Math symbols. (line 9867) * \lbrack: Math symbols. (line 9870) * \lceil: Math symbols. (line 9873) * \ldots: Dots. (line 10842) * \ldots <1>: Text symbols. (line 14211) * \le: Math symbols. (line 9877) * \leadsto: Math symbols. (line 9880) * \left: \left & \right. (line 10630) * \Leftarrow: Math symbols. (line 9886) * \leftarrow: Math symbols. (line 9890) * \lefteqn: eqnarray. (line 3902) * \leftharpoondown: Math symbols. (line 9894) * \leftharpoonup: Math symbols. (line 9897) * \leftmargin: itemize. (line 4224) * \leftmargin <1>: list. (line 4387) * \leftmargini: itemize. (line 4224) * \leftmarginii: itemize. (line 4224) * \leftmarginiii: itemize. (line 4224) * \leftmarginiv: itemize. (line 4224) * \leftmarginv: itemize. (line 4224) * \leftmarginvi: itemize. (line 4224) * \Leftrightarrow: Math symbols. (line 9900) * \leftrightarrow: Math symbols. (line 9904) * \leq: Math symbols. (line 9908) * \lfloor: Math symbols. (line 9911) * \lg: Math functions. (line 10995) * \lhd: Math symbols. (line 9914) * \lim: Math functions. (line 10998) * \liminf: Math functions. (line 11001) * \limsup: Math functions. (line 11004) * \line: \line. (line 5035) * \linebreak: \linebreak & \nolinebreak. (line 6698) * \lineskip: \baselineskip & \baselinestretch. (line 2236) * \lineskiplimit: \baselineskip & \baselinestretch. (line 2236) * \linespread: Low-level font commands. (line 1887) * \linespread <1>: \baselineskip & \baselinestretch. (line 2197) * \linethickness: \linethickness. (line 5079) * \linewidth: Page layout parameters. (line 2093) * \linewidth <1>: Page layout parameters. (line 2094) * \listoffigures: Table of contents etc.. (line 14940) * \listoffigures <1>: \contentsline. (line 15233) * \listoftables: Table of contents etc.. (line 14940) * \listoftables <1>: \contentsline. (line 15233) * \listparindent: list. (line 4404) * \ll: Math symbols. (line 9920) * \ln: Math functions. (line 11007) * \lnot: Math symbols. (line 9923) * \LoadClass: \LoadClass & \LoadClassWithOptions. (line 8303) * \LoadClassWithOptions: \LoadClass & \LoadClassWithOptions. (line 8303) * \location: \location. (line 15985) * \log: Math functions. (line 11010) * \long command, checking for: \CheckCommand. (line 8096) * \long, not defining a command as: \newcommand & \renewcommand. (line 7200) * \longleftarrow: Math symbols. (line 9926) * \longleftrightarrow: Math symbols. (line 9930) * \longmapsto: Math symbols. (line 9934) * \longrightarrow: Math symbols. (line 9938) * \lor: Math symbols. (line 9942) * \lq: Text symbols. (line 14218) * \mainmatter: \frontmatter & \mainmatter & \backmatter. (line 2988) * \makeatother: \makeatletter & \makeatother. (line 7384) * \makeatother <1>: \makeatletter & \makeatother. (line 7384) * \makebox: \mbox & \makebox. (line 12705) * \makebox (for picture): \makebox (picture). (line 5231) * \makeglossary: Glossaries. (line 15701) * \makeglossary <1>: Glossaries. (line 15738) * \makeindex: Indexes. (line 15329) * \makelabel: list. (line 4323) * \makelabels: \makelabels. (line 15995) * \maketitle: \maketitle. (line 11609) * \mapsto: Math symbols. (line 9946) * \marginpar: Marginal notes. (line 9399) * \marginparpush: Page layout parameters. (line 2100) * \marginparpush <1>: Page layout parameters. (line 2103) * \marginparpush <2>: Marginal notes. (line 9428) * \marginparsep: Marginal notes. (line 9433) * \marginparwidth: Page layout parameters. (line 2102) * \marginparwidth <1>: Page layout parameters. (line 2103) * \marginparwidth <2>: Marginal notes. (line 9437) * \marginsep: Page layout parameters. (line 2101) * \marginsep <1>: Page layout parameters. (line 2103) * \markboth{LEFT-HEAD}{RIGHT-HEAD}: \pagestyle. (line 11818) * \markright{RIGHT-HEAD}: \pagestyle. (line 11827) * \mathbf: Font styles. (line 1689) * \mathcal: Font styles. (line 1704) * \mathdollar: Math symbols. (line 10406) * \mathellipsis: Dots. (line 10843) * \mathnormal: Font styles. (line 1701) * \mathparagraph: Math symbols. (line 10409) * \mathring: Math accents. (line 11081) * \mathrm: Font styles. (line 1686) * \mathsection: Math symbols. (line 10412) * \mathsf: Font styles. (line 1692) * \mathsterling: Math symbols. (line 10415) * \mathstrut: \mathstrut. (line 11348) * \mathtt: Font styles. (line 1695) * \mathunderscore: Math symbols. (line 10418) * \mathversion: Font styles. (line 1709) * \max: Math functions. (line 11013) * \mbox: \mbox & \makebox. (line 12705) * \mdseries: Font styles. (line 1615) * \medbreak: \bigbreak & \medbreak & \smallbreak. (line 12457) * \medskip: \bigskip & \medskip & \smallskip. (line 12408) * \medskip <1>: \bigskip & \medskip & \smallskip. (line 12435) * \medskipamount: \bigskip & \medskip & \smallskip. (line 12436) * \medspace: Spacing in math mode. (line 11183) * \message: \message. (line 16439) * \MessageBreak, and message text: \ClassError and \PackageError and other messages. (line 8149) * \mho: Math symbols. (line 9950) * \mid: Math symbols. (line 9953) * \min: Math functions. (line 11016) * \models: Math symbols. (line 9963) * \month: \day & \month & \year. (line 8759) * \mp: Math symbols. (line 9967) * \mu: Math symbols. (line 9970) * \multicolumn: \multicolumn. (line 5816) * \multiput: \multiput. (line 4948) * \nabla: Math symbols. (line 9973) * \name: \name. (line 16052) * \natural: Math symbols. (line 9976) * \ne: Math symbols. (line 9979) * \nearrow: Math symbols. (line 9982) * \NeedsTeXFormat: \NeedsTeXFormat. (line 8333) * \neg: Math symbols. (line 9985) * \negmedspace: Spacing in math mode. (line 11189) * \negthickspace: Spacing in math mode. (line 11177) * \negthinspace: Spacing in math mode. (line 11208) * \negthinspace <1>: \thinspace & \negthinspace. (line 12285) * \neq: Math symbols. (line 9989) * \newcommand: \newcommand & \renewcommand. (line 7178) * \newcounter: \newcounter. (line 7502) * \newenvironment: \newenvironment & \renewenvironment. (line 7595) * \newfont: \newfont. (line 7841) * \newglossaryentry: \newglossaryentry. (line 15749) * \newlength: \newlength. (line 7543) * \newline: \newline. (line 6546) * \: \(SPACE). (line 12165) * \newpage: \newpage. (line 6803) * \newrobustcmd (etoolbox package): \DeclareRobustCommand. (line 8231) * \newsavebox: \newsavebox. (line 7567) * \newtheorem: \newtheorem. (line 7729) * \newtie: Accents. (line 14477) * \newwrite: \write. (line 16333) * \ng: Additional Latin letters. (line 14571) * \NG: Additional Latin letters. (line 14571) * \ni: Math symbols. (line 9992) * \nobreakspace: ~. (line 12222) * \nocite: \nocite. (line 6126) * \nocite {*}, for all keys: Using BibTeX. (line 6196) * \nocite and internal \citation: BibTeX error messages. (line 6220) * \nocorr: Font styles. (line 1600) * \nocorrlist: Font styles. (line 1600) * \nofiles: \nofiles. (line 15274) * \noindent: \indent & \noindent. (line 9319) * \nolinebreak: \linebreak & \nolinebreak. (line 6698) * \nonfrenchspacing: \frenchspacing & \nonfrenchspacing. (line 12131) * \nonumber: eqnarray. (line 3897) * \nopagebreak: \pagebreak & \nopagebreak. (line 6861) * \normalfont: Font styles. (line 1636) * \normalmarginpar: Marginal notes. (line 9415) * \normalsfcodes: \normalsfcodes. (line 12155) * \normalsize: Font sizes. (line 1730) * \not: Math symbols. (line 9996) * \notin: Math symbols. (line 10004) * \nu: Math symbols. (line 10008) * \numberline: \numberline. (line 15299) * \nwarrow: Math symbols. (line 10011) * \o (ø): Additional Latin letters. (line 14575) * \O (Ø): Additional Latin letters. (line 14575) * \obeycr: \obeycr & \restorecr. (line 6506) * \oddsidemargin: Document class options. (line 1022) * \oddsidemargin <1>: Page layout parameters. (line 2126) * \oddsidemargin <2>: Page layout parameters. (line 2128) * \odot: Math symbols. (line 10014) * \oe (œ): Additional Latin letters. (line 14579) * \OE (Œ): Additional Latin letters. (line 14579) * \oint: Math symbols. (line 10018) * \oldstylenums: Font styles. (line 1713) * \Omega: Math symbols. (line 10021) * \omega: Math symbols. (line 10024) * \ominus: Math symbols. (line 10027) * \onecolumn: \onecolumn. (line 1915) * \openin: \openin & \openout. (line 16142) * \opening: \opening. (line 16062) * \openout: \openin & \openout. (line 16142) * \oplus: Math symbols. (line 10030) * \OptionNotUsed: \OptionNotUsed. (line 8356) * \oslash: Math symbols. (line 10034) * \otimes: Math symbols. (line 10037) * \oval: \oval. (line 5126) * \overbrace{MATH}: Over- or under math. (line 11137) * \overleftarrow{MATH}: Over- or under math. (line 11144) * \overline{MATH}: Over- or under math. (line 11118) * \overrightarrow{MATH}: Over- or under math. (line 11141) * \owns: Math symbols. (line 10041) * \P: Text symbols. (line 14221) * \PackageError: \ClassError and \PackageError and other messages. (line 8132) * \PackageInfo: \ClassError and \PackageError and other messages. (line 8132) * \PackageNote: \ClassError and \PackageError and other messages. (line 8132) * \PackageNoteNoLine: \ClassError and \PackageError and other messages. (line 8132) * \PackageWarning: \ClassError and \PackageError and other messages. (line 8132) * \PackageWarningNoLine: \ClassError and \PackageError and other messages. (line 8132) * \pagebreak: \pagebreak & \nopagebreak. (line 6861) * \pagenumbering: \pagenumbering. (line 11681) * \pageref: \pageref. (line 3323) * \pagestyle: \pagestyle. (line 11747) * \paperheight: Page layout parameters. (line 2139) * \paperheight <1>: Page layout parameters. (line 2140) * \paperwidth: Page layout parameters. (line 2144) * \paperwidth <1>: Page layout parameters. (line 2145) * \par: \par. (line 9267) * \paragraph: Sectioning. (line 2514) * \paragraph <1>: \subsubsection & \paragraph & \subparagraph. (line 2889) * \parallel: Math symbols. (line 10045) * \parbox: \parbox. (line 12861) * \parindent: minipage. (line 4743) * \parindent <1>: \indent & \noindent. (line 9356) * \parindent <2>: \parindent & \parskip. (line 9368) * \parsep: list. (line 4410) * \parskip: \parindent & \parskip. (line 9368) * \parskip example: itemize. (line 4247) * \part: Sectioning. (line 2514) * \part <1>: \part. (line 2600) * \partial: Math symbols. (line 10048) * \partopsep: list. (line 4419) * \PassOptionsToClass: \PassOptionsToClass & \PassOptionsToPackage. (line 8363) * \PassOptionsToClass, ignoring: \LoadClass & \LoadClassWithOptions. (line 8324) * \PassOptionsToPackage: \PassOptionsToClass & \PassOptionsToPackage. (line 8363) * \pdfpageheight: Document class options. (line 978) * \pdfpagewidth: Document class options. (line 978) * \perp: Math symbols. (line 10051) * \phantom: \phantom & \vphantom & \hphantom. (line 11286) * \Phi: Math symbols. (line 10055) * \phi: Math symbols. (line 10058) * \Pi: Math symbols. (line 10062) * \pi: Math symbols. (line 10065) * \pm: Math symbols. (line 10069) * \pmod: Math functions. (line 11019) * \poptabs: tabbing commands. (line 5515) * \pounds: Text symbols. (line 14225) * \Pr: Math functions. (line 11022) * \prec: Math symbols. (line 10072) * \preceq: Math symbols. (line 10075) * \prevdepth: \baselineskip & \baselinestretch. (line 2236) * \prime: Math symbols. (line 10079) * \printglossaries: Glossaries. (line 15701) * \printglossaries <1>: Glossaries. (line 15738) * \printindex: \printindex. (line 15686) * \ProcessOptions: \ProcessOptions. (line 8409) * \prod: Math symbols. (line 10088) * \propto: Math symbols. (line 10091) * \protect: \protect. (line 7873) * \protect, and message text: \ClassError and \PackageError and other messages. (line 8149) * \protected@write: \write. (line 16379) * \providecommand: \providecommand. (line 7355) * \providerobustcmd (etoolbox package): \DeclareRobustCommand. (line 8231) * \ProvidesClass: \ProvidesClass & \ProvidesPackage. (line 8453) * \ProvidesFile: \ProvidesFile. (line 8493) * \ProvidesPackage: \ProvidesClass & \ProvidesPackage. (line 8453) * \ProvideTextCommand: \DeclareTextCommand & \ProvideTextCommand. (line 1353) * \ProvideTextCommandDefault: \DeclareTextCommandDefault & \ProvideTextCommandDefault. (line 1402) * \ps: \ps. (line 16074) * \Psi: Math symbols. (line 10094) * \psi: Math symbols. (line 10097) * \pushtabs: tabbing commands. (line 5518) * \put: \put. (line 4930) * \qbezier: \qbezier. (line 4971) * \qquad: Spacing in math mode. (line 11221) * \qquad <1>: \enspace & \quad & \qquad. (line 11891) * \quad: Spacing in math mode. (line 11215) * \quad <1>: \enspace & \quad & \qquad. (line 11891) * \quotedblbase („): Text symbols. (line 14229) * \quotesinglbase (‚): Text symbols. (line 14230) * \r (ring accent): Accents. (line 14471) * \raggedbottom: \raggedbottom. (line 2055) * \raggedleft: \raggedleft. (line 4139) * \raggedright: \raggedright. (line 4087) * \raisebox: \raisebox. (line 12912) * \rangle: Math symbols. (line 10100) * \rbrace: Math symbols. (line 10104) * \rbrack: Math symbols. (line 10107) * \rceil: Math symbols. (line 10111) * \Re: Math symbols. (line 10114) * \read: \read. (line 16206) * \ref: \ref. (line 3347) * \reflectbox: \scalebox. (line 13759) * \refname: thebibliography. (line 6001) * \refstepcounter: \refstepcounter. (line 8726) * \renewcommand: \newcommand & \renewcommand. (line 7178) * \renewenvironment: \newenvironment & \renewenvironment. (line 7595) * \renewrobustcmd (etoolbox package): \DeclareRobustCommand. (line 8231) * \RequirePackage: \RequirePackage & \RequirePackageWithOptions. (line 8513) * \RequirePackage, and texput jobname: Jobname. (line 16796) * \RequirePackageWithOptions: \RequirePackage & \RequirePackageWithOptions. (line 8513) * \resizebox: \resizebox. (line 13790) * \restorecr: \obeycr & \restorecr. (line 6506) * \restriction: Math symbols. (line 10119) * \revemptyset: Math symbols. (line 10124) * \reversemarginpar: Marginal notes. (line 9415) * \rfloor: Math symbols. (line 10129) * \rhd: Math symbols. (line 10133) * \rho: Math symbols. (line 10139) * \right: \left & \right. (line 10630) * \Rightarrow: Math symbols. (line 10143) * \rightarrow: Math symbols. (line 10147) * \rightharpoondown: Math symbols. (line 10151) * \rightharpoonup: Math symbols. (line 10154) * \rightleftharpoons: Math symbols. (line 10157) * \rightmargin: list. (line 4434) * \rm: Font styles. (line 1662) * \rmfamily: Font styles. (line 1609) * \roman{COUNTER}: \alph \Alph \arabic \roman \Roman \fnsymbol. (line 8599) * \Roman{COUNTER}: \alph \Alph \arabic \roman \Roman \fnsymbol. (line 8604) * \rotatebox: \rotatebox. (line 13691) * \rq: Text symbols. (line 14233) * \rule: \rule. (line 14642) * \S: Text symbols. (line 14236) * \samepage: \pagebreak & \nopagebreak. (line 6899) * \savebox: \sbox & \savebox. (line 12958) * \sbox: \sbox & \savebox. (line 12958) * \sc: Font styles. (line 1665) * \scalebox: \scalebox. (line 13759) * \scriptscriptstyle: Math styles. (line 11393) * \scriptsize: Font sizes. (line 1730) * \scriptstyle: Math styles. (line 11393) * \scshape: Font styles. (line 1630) * \searrow: Math symbols. (line 10160) * \sec: Math functions. (line 11025) * \section: Sectioning. (line 2514) * \section <1>: \section. (line 2747) * \seename: \index. (line 15462) * \selectfont: Low-level font commands. (line 1893) * \setcounter: \setcounter. (line 8692) * \setlength: \setlength. (line 8938) * \setminus: Math symbols. (line 10163) * \settodepth: \settodepth. (line 9000) * \settoheight: \settoheight. (line 9025) * \settowidth: \settowidth. (line 9050) * \sf: Font styles. (line 1668) * \sffamily: Font styles. (line 1627) * \sharp: Math symbols. (line 10168) * \ShellEscape: \write18. (line 16568) * \shipout and expansion: \write. (line 16374) * \shortstack: \shortstack. (line 5163) * \Sigma: Math symbols. (line 10171) * \sigma: Math symbols. (line 10174) * \signature: \signature. (line 16091) * \sim: Math symbols. (line 10178) * \simeq: Math symbols. (line 10181) * \sin: Math functions. (line 11028) * \sinh: Math functions. (line 11031) * \sl: Font styles. (line 1671) * \slash: \slash. (line 6603) * \sloppy: \fussy & \sloppy. (line 6637) * \slshape: Font styles. (line 1624) * \small: Font sizes. (line 1730) * \smallbreak: \bigbreak & \medbreak & \smallbreak. (line 12457) * \smallint: Math symbols. (line 10184) * \smallskip: \bigskip & \medskip & \smallskip. (line 12408) * \smallskip <1>: \bigskip & \medskip & \smallskip. (line 12440) * \smallskipamount: \bigskip & \medskip & \smallskip. (line 12441) * \smile: Math symbols. (line 10188) * \: \(SPACE). (line 12165) * \ <1>: \(SPACE). (line 12165) * \space: \include & \includeonly. (line 14865) * \space <1>: \input. (line 14928) * \space <2>: \typeout. (line 16298) * \space, and message text: \ClassError and \PackageError and other messages. (line 8149) * \spacefactor: \spacefactor. (line 12023) * \spadesuit: Math symbols. (line 10191) * \sqcap: Math symbols. (line 10194) * \sqcup: Math symbols. (line 10198) * \sqrt: \sqrt. (line 11492) * \sqsubset: Math symbols. (line 10202) * \sqsubseteq: Math symbols. (line 10207) * \sqsupset: Math symbols. (line 10211) * \sqsupseteq: Math symbols. (line 10216) * \ss (ß): Additional Latin letters. (line 14583) * \SS (SS): Additional Latin letters. (line 14583) * \stackrel: \stackrel. (line 11509) * \star: Math symbols. (line 10220) * \stepcounter: \stepcounter. (line 8744) * \stop: Recovering from errors. (line 16852) * \stretch: \stretch. (line 9075) * \strut: \strut. (line 12484) * \subitem: Produce the index manually. (line 15399) * \subparagraph: Sectioning. (line 2514) * \subparagraph <1>: \subsubsection & \paragraph & \subparagraph. (line 2889) * \subsection: Sectioning. (line 2514) * \subsection <1>: \subsection. (line 2825) * \subset: Math symbols. (line 10227) * \subseteq: Math symbols. (line 10230) * \subsubitem: Produce the index manually. (line 15399) * \subsubsection: Sectioning. (line 2514) * \subsubsection <1>: \subsubsection & \paragraph & \subparagraph. (line 2889) * \succ: Math symbols. (line 10233) * \succeq: Math symbols. (line 10236) * \sum: Math symbols. (line 10240) * \sup: Math functions. (line 11034) * \suppressfloats: Floats. (line 2371) * \supset: Math symbols. (line 10243) * \supseteq: Math symbols. (line 10246) * \surd: Math symbols. (line 10249) * \swarrow: Math symbols. (line 10254) * \symbf: OpenType bold math. (line 10524) * \symbfit: OpenType bold math. (line 10524) * \symbol: Symbols by font position. (line 14165) * \t (tie-after accent): Accents. (line 14477) * \: \(SPACE). (line 12165) * \tabbingsep: tabbing commands. (line 5523) * \tabcolsep: tabular. (line 5805) * \tableofcontents: Table of contents etc.. (line 14940) * \tableofcontents <1>: \contentsline. (line 15233) * \tan: Math functions. (line 11037) * \tanh: Math functions. (line 11040) * \tau: Math symbols. (line 10257) * \telephone: \telephone. (line 16121) * \TeX: Text symbols. (line 14240) * \textascendercompwordmark: Text symbols. (line 14285) * \textasciicircum: Text symbols. (line 14243) * \textasciitilde: Text symbols. (line 14246) * \textasteriskcentered: Text symbols. (line 14249) * \textbackslash: Printing special characters. (line 14094) * \textbackslash <1>: Text symbols. (line 14252) * \textbar: Text symbols. (line 14260) * \textbardbl: Text symbols. (line 14263) * \textbf: Font styles. (line 1618) * \textbigcircle: Text symbols. (line 14266) * \textbraceleft: Text symbols. (line 14269) * \textbraceright: Text symbols. (line 14273) * \textbullet: Text symbols. (line 14277) * \textcapitalcompwordmark: Text symbols. (line 14284) * \textcircled{LETTER}: Text symbols. (line 14280) * \textcompwordmark: Text symbols. (line 14283) * \textcopyright: Text symbols. (line 14185) * \textdagger: Text symbols. (line 14292) * \textdaggerdbl: Text symbols. (line 14295) * \textdollar (or \$): Text symbols. (line 14298) * \textellipsis: Text symbols. (line 14212) * \textemdash (or ---): Text symbols. (line 14301) * \textendash (or --): Text symbols. (line 14307) * \texteuro: Text symbols. (line 14310) * \textexclamdown (or !`): Text symbols. (line 14318) * \textfiguredash: Text symbols. (line 14321) * \textfloatsep: Floats. (line 2407) * \textfloatsep <1>: Floats. (line 2408) * \textfraction: Floats. (line 2386) * \textfraction <1>: Floats. (line 2387) * \textgreater: Text symbols. (line 14328) * \textheight: Page layout parameters. (line 2149) * \textheight <1>: Page layout parameters. (line 2150) * \texthorizontalbar: Text symbols. (line 14331) * \textit: Font styles. (line 1612) * \textleftarrow: Text symbols. (line 14339) * \textless: Text symbols. (line 14336) * \textmd: Font styles. (line 1615) * \textnonbreakinghyphen: Text symbols. (line 14342) * \textnormal: Font styles. (line 1636) * \textordfeminine: Text symbols. (line 14348) * \textordmasculine: Text symbols. (line 14349) * \textparagraph: Text symbols. (line 14222) * \textperiodcentered: Text symbols. (line 14352) * \textquestiondown (or ?`): Text symbols. (line 14355) * \textquotedblleft (or ``): Text symbols. (line 14358) * \textquotedblright (or ''): Text symbols. (line 14361) * \textquoteleft (or `): Text symbols. (line 14364) * \textquoteright (or '): Text symbols. (line 14367) * \textquotesingle: Text symbols. (line 14370) * \textquotestraightbase: Text symbols. (line 14373) * \textquotestraightdblbase: Text symbols. (line 14374) * \textregistered: Text symbols. (line 14377) * \textrightarrow: Text symbols. (line 14380) * \textrm: Font styles. (line 1609) * \textsc: Font styles. (line 1630) * \textsection: Text symbols. (line 14237) * \textsf: Font styles. (line 1627) * \textsl: Font styles. (line 1624) * \textsterling: Text symbols. (line 14226) * \textstyle: Math styles. (line 11393) * \textthreequartersemdash: Text symbols. (line 14383) * \texttrademark: Text symbols. (line 14386) * \texttt: Font styles. (line 1633) * \texttwelveudash: Text symbols. (line 14389) * \textunderscore: Text symbols. (line 14392) * \textup: Font styles. (line 1621) * \textvisiblespace: Text symbols. (line 14395) * \textwidth: Page layout parameters. (line 2157) * \textwidth <1>: Page layout parameters. (line 2158) * \th (þ): Additional Latin letters. (line 14587) * \TH (Þ): Additional Latin letters. (line 14587) * \thanks{TEXT}: \maketitle. (line 11659) * \thepage: \thepage. (line 11861) * \theta: Math symbols. (line 10260) * \thicklines: \thicklines. (line 5099) * \thickspace: Spacing in math mode. (line 11170) * \thinlines: \thinlines. (line 5091) * \thinspace: Spacing in math mode. (line 11194) * \thinspace <1>: \thinspace & \negthinspace. (line 12285) * \thispagestyle: \thispagestyle. (line 11833) * \tilde: Math accents. (line 11084) * \times: Math symbols. (line 10264) * \tiny: Font sizes. (line 1730) * \title{TEXT}: \maketitle. (line 11666) * \to: Math symbols. (line 10267) * \today: \today. (line 14677) * \top: Math symbols. (line 10271) * \topfraction: Floats. (line 2391) * \topfraction <1>: Floats. (line 2392) * \topmargin: Page layout parameters. (line 2182) * \topsep: list. (line 4439) * \topskip: Page layout parameters. (line 2189) * \topskip <1>: Page layout parameters. (line 2190) * \triangle: Math symbols. (line 10275) * \triangleleft: Math symbols. (line 10278) * \triangleright: Math symbols. (line 10284) * \tt: Font styles. (line 1674) * \ttfamily: Font styles. (line 1633) * \twocolumn: \twocolumn. (line 1926) * \typein: \typein. (line 16237) * \typeout: \typeout. (line 16282) * \u (breve accent): Accents. (line 14483) * \unboldmath: \boldmath & \unboldmath. (line 10465) * \unboldmath <1>: \boldmath & \unboldmath. (line 10473) * \underbar: Accents. (line 14448) * \underbrace{MATH}: Over- or under math. (line 11122) * \underline{MATH}: Over- or under math. (line 11105) * \unitlength: picture. (line 4826) * \unlhd: Math symbols. (line 10290) * \unrhd: Math symbols. (line 10296) * \Uparrow: Math symbols. (line 10302) * \uparrow: Math symbols. (line 10306) * \Updownarrow: Math symbols. (line 10310) * \updownarrow: Math symbols. (line 10315) * \upharpoonright: Math symbols. (line 10320) * \uplus: Math symbols. (line 10325) * \upshape: Font styles. (line 1621) * \Upsilon: Math symbols. (line 10330) * \upsilon: Math symbols. (line 10333) * \usebox: \usebox. (line 13066) * \usecounter: \usecounter. (line 8634) * \usefont: Low-level font commands. (line 1901) * \usepackage: \usepackage. (line 1044) * \UseTextAccent: \UseTextSymbol & \UseTextAccent. (line 1546) * \UseTextSymbol: \UseTextSymbol & \UseTextAccent. (line 1546) * \v (breve accent): Accents. (line 14487) * \value: \value. (line 8660) * \vanothing: Math symbols. (line 10341) * \varepsilon: Math symbols. (line 10336) * \varphi: Math symbols. (line 10346) * \varpi: Math symbols. (line 10350) * \varrho: Math symbols. (line 10354) * \varsigma: Math symbols. (line 10358) * \vartheta: Math symbols. (line 10362) * \vbox (plain TeX): minipage. (line 4697) * \vdash: Math symbols. (line 10366) * \vdots: Dots. (line 10853) * \vec: Math accents. (line 11087) * \vector: \vector. (line 5209) * \vee: Math symbols. (line 10370) * \verb: \verb. (line 6343) * \verb, as fragile command: \protect. (line 7906) * \Vert: Math symbols. (line 10374) * \vert: Math symbols. (line 10378) * \vfill: \vfill. (line 12620) * \vline: \vline. (line 5898) * \vphantom: \phantom & \vphantom & \hphantom. (line 11286) * \vspace: \vspace. (line 12569) * \vtop plain TeX: minipage. (line 4693) * \wedge: Math symbols. (line 10384) * \widehat: Math accents. (line 11090) * \widetilde: Math accents. (line 11093) * \wlog: \wlog. (line 16485) * \wp: Math symbols. (line 10388) * \wr: Math symbols. (line 10391) * \write: \write. (line 16315) * \write and security: \write and security. (line 16416) * \write streams 16, 17, 18: \write. (line 16395) * \write18: \write18. (line 16503) * \write18, enabling: Command line options. (line 16678) * \XeTeXdefaultencoding: inputenc package. (line 14624) * \XeTeXinputencoding: inputenc package. (line 14624) * \Xi: Math symbols. (line 10394) * \xi: Math symbols. (line 10397) * \xspace: xspace package. (line 8006) * \year: \day & \month & \year. (line 8759) * \zeta: Math symbols. (line 10400) * & (for table cells): tabular. (line 5665) * & character, meaning of: Special characters. (line 755) * # character, meaning of: Special characters. (line 765) * % character, meaning of: Special characters. (line 748) * ^ character, meaning of: Special characters. (line 759) * ^ superscript: Subscripts & superscripts. (line 9515) * ^^J, in \write: \write. (line 16403) * ~: ~. (line 12218) * ~ character, meaning of: Special characters. (line 769) * $ character, meaning of: Special characters. (line 752) * $ inline math: math. (line 4640) * $$...$$ plain TeX display math: displaymath. (line 3743) * 10pt option: Document class options. (line 952) * 11pt option: Document class options. (line 952) * 12pt option: Document class options. (line 952) * a4paper option: Document class options. (line 957) * a5paper option: Document class options. (line 957) * abstract environment: abstract. (line 3447) * abstract package: abstract. (line 3468) * abstracts: abstract. (line 3447) * accents: Accents. (line 14401) * accents, defining: \DeclareFontEncoding. (line 1269) * accents, defining <1>: \DeclareTextAccent. (line 1302) * accents, defining <2>: \DeclareTextAccentDefault. (line 1325) * accents, defining <3>: \DeclareTextComposite. (line 1434) * accents, defining <4>: \DeclareTextCompositeCommand. (line 1458) * accents, defining <5>: \DeclareTextSymbolDefault. (line 1503) * accents, mathematical: Math accents. (line 11054) * accessibility: \DocumentMetadata. (line 851) * accessing any character of a font: Symbols by font position. (line 14165) * acronyms, list of: Glossaries. (line 15701) * acute accent: Accents. (line 14424) * acute accent, math: Math accents. (line 11058) * additional packages, loading: \usepackage. (line 1044) * adjustbox package: Boxes. (line 12699) * ae ligature: Additional Latin letters. (line 14547) * algorithm2e package: tabbing complex examples. (line 5573) * align environment, from amsmath: eqnarray. (line 3864) * aligning equations: eqnarray. (line 3864) * alignment via tabbing: tabbing. (line 5394) * alphabetic presentation forms Unicode block: Ligatures. (line 724) * ampersand character, meaning of: Special characters. (line 755) * amscd package: Arrows. (line 10459) * amsfonts package: Math formulas. (line 9504) * amsfonts package <1>: Arrows. (line 10424) * amsmath package: array. (line 3542) * amsmath package <1>: array. (line 3550) * amsmath package <2>: displaymath. (line 3730) * amsmath package <3>: equation. (line 3932) * amsmath package <4>: theorem. (line 6252) * amsmath package <5>: Math formulas. (line 9504) * amsmath package <6>: \left & \right. (line 10654) * amsmath package <7>: \bigl & \bigr etc.. (line 10799) * amsmath package <8>: Dots. (line 10856) * amsmath package <9>: Math functions. (line 11043) * amsmath package <10>: Spacing in math mode. (line 11170) * amsmath package <11>: \phantom & \vphantom & \hphantom. (line 11335) * amsmath package <12>: Colon character & \colon. (line 11453) * amsmath package <13>: Colon character & \colon. (line 11457) * amsmath package <14>: \thinspace & \negthinspace. (line 12305) * amsmath package, replacing eqnarray: eqnarray. (line 3864) * amsthm package: theorem. (line 6252) * amsthm package <1>: \rule. (line 14654) * answers package: \write. (line 16408) * appendices: \appendix. (line 2954) * appendix: \appendix. (line 2954) * appendix package: \appendix. (line 2978) * arguments, optional, defining and using: \newcommand & \renewcommand. (line 7222) * aring: Additional Latin letters. (line 14543) * array environment: array. (line 3493) * array package: array. (line 3561) * arrays, math: array. (line 3493) * arrow, left, in text: Text symbols. (line 14340) * arrow, right, in text: Text symbols. (line 14381) * arrows: Arrows. (line 10424) * article class: Document classes. (line 911) * ascender height: Text symbols. (line 14286) * ASCII circumflex, in text: Text symbols. (line 14244) * ASCII tilde, in text: Text symbols. (line 14247) * asterisk, centered, in text: Text symbols. (line 14250) * Asymptote package: \line. (line 5064) * Asymptote package <1>: \strut. (line 12540) * Asymptote package <2>: \mbox & \makebox. (line 12772) * Asymptote package <3>: \write18. (line 16510) * at clause, in font definitions: \newfont. (line 7854) * at-sign: \@. (line 12082) * atenddvi package: \AtBeginDvi & \AtEndDvi. (line 8073) * author, for titlepage: \maketitle. (line 11646) * auxiliary file: Output files. (line 520) * b5paper option: Document class options. (line 957) * babel package: \chapter. (line 2719) * babel package <1>: thebibliography. (line 6010) * babel package <2>: Accents. (line 14401) * babel package <3>: \today. (line 14684) * babel package <4>: Table of contents etc.. (line 15055) * babel package <5>: \index. (line 15462) * back matter of a book: \frontmatter & \mainmatter & \backmatter. (line 2988) * background, colored: Colored pages. (line 14054) * backslash, in text: Text symbols. (line 14253) * backslash, meaning of: Special characters. (line 740) * badness: Page breaking. (line 6735) * bar-over accent: Accents. (line 14431) * bar-over accent, math: Math accents. (line 11061) * bar-under accent: Accents. (line 14446) * bar, double vertical, in text: Text symbols. (line 14264) * bar, vertical, in text: Text symbols. (line 14261) * basics of LaTeX: Overview. (line 432) * batchmode: Command line options. (line 16644) * beamer package: beamer template. (line 16880) * beamer template and class: beamer template. (line 16880) * beginning of document hook: \AtBeginDocument. (line 3767) * bibliography format, open: Document class options. (line 1005) * bibliography, creating (automatically): Using BibTeX. (line 6141) * bibliography, creating (manually): thebibliography. (line 5963) * BibTeX error messages: BibTeX error messages. (line 6203) * bibTeX, using: Using BibTeX. (line 6141) * big circle symbols, in text: Text symbols. (line 14267) * big point: Units of length. (line 8892) * bigfoot package: Footnotes of footnotes. (line 7157) * black boxes, omitting: Document class options. (line 991) * blackboard bold: Blackboard bold. (line 10536) * blank page, before chapters: Document class options. (line 1034) * blanks, after control sequences: \newcommand & \renewcommand. (line 7260) * block quotes: quotation & quote. (line 5345) * bm package: bm. (line 10495) * bold font: Font styles. (line 1654) * bold math: Font styles. (line 1709) * bold typewriter, avoiding: description. (line 3689) * boldface mathematics: \boldmath & \unboldmath. (line 10465) * book class: Document classes. (line 911) * book, back matter: \frontmatter & \mainmatter & \backmatter. (line 2988) * book, end matter: \frontmatter & \mainmatter & \backmatter. (line 2988) * book, front matter: \frontmatter & \mainmatter & \backmatter. (line 2988) * book, main matter: \frontmatter & \mainmatter & \backmatter. (line 2988) * bottomnumber: Floats. (line 2414) * bottomnumber <1>: Floats. (line 2415) * bounding box: \includegraphics. (line 13491) * box: \mbox & \makebox. (line 12705) * box, allocating new: \newsavebox. (line 7567) * box, bounding: \includegraphics. (line 13491) * box, colored: Colored boxes. (line 14017) * box, save: \sbox & \savebox. (line 12958) * box, use saved box: \usebox. (line 13066) * boxes: Boxes. (line 12696) * bp: Units of length. (line 8891) * brace, left, in text: Text symbols. (line 14270) * brace, right, in text: Text symbols. (line 14274) * braces: Delimiters. (line 10580) * braces, meaning of: Special characters. (line 744) * brackets: Delimiters. (line 10580) * breaking lines: Line breaking. (line 6427) * breaking pages: Page breaking. (line 6730) * breaks, multiplication discretionary: \*. (line 11464) * breqn package: displaymath. (line 3730) * breve accent: Accents. (line 14483) * breve accent, math: Math accents. (line 11064) * bug reporting: About this document. (line 408) * bullet lists: itemize. (line 4165) * bullet symbol: Math symbols. (line 9680) * bullet, in text: Text symbols. (line 14278) * bulleted lists: itemize. (line 4165) * calligraphic fonts: Calligraphic. (line 10563) * calligraphic letters for math: Font styles. (line 1657) * cap height: Text symbols. (line 14286) * caption package: \caption. (line 2506) * captions: \caption. (line 2440) * caret character, meaning of: Special characters. (line 759) * caron accent: Accents. (line 14487) * catcode: \makeatletter & \makeatother. (line 7396) * category code, character: \makeatletter & \makeatother. (line 7396) * cc: Units of length. (line 8904) * cc list, in letters: \cc. (line 15941) * cedilla accent: Accents. (line 14455) * center environment: center. (line 3569) * centered asterisk, in text: Text symbols. (line 14250) * centered equations: Document class options. (line 995) * centered period, in text: Text symbols. (line 14353) * centering text, declaration for: \centering. (line 3617) * centering text, environment for: center. (line 3569) * centimeter: Units of length. (line 8899) * changing case of characters: Upper and lower case. (line 14112) * chapter: Sectioning. (line 2514) * chapter <1>: \chapter. (line 2654) * chapter counter: Counters. (line 8560) * character category code: \makeatletter & \makeatother. (line 7396) * character encoding: Input encodings. (line 639) * character, invisible: \phantom & \vphantom & \hphantom. (line 11286) * character, invisible <1>: \mathstrut. (line 11348) * characters, accented: Accents. (line 14401) * characters, case of: Upper and lower case. (line 14112) * characters, non-English: Additional Latin letters. (line 14537) * check accent: Accents. (line 14487) * check accent, math: Math accents. (line 11067) * cicero: Units of length. (line 8905) * circle symbol, big, in text: Text symbols. (line 14267) * circled letter, in text: Text symbols. (line 14281) * circumflex accent: Accents. (line 14435) * circumflex accent, math: Math accents. (line 11079) * circumflex, ASCII, in text: Text symbols. (line 14244) * citation key: \bibitem. (line 6027) * class and package commands: Class and package commands. (line 8058) * class and package difference: Class and package creation. (line 1075) * class and package structure: Class and package structure. (line 1096) * class file example: Class and package structure. (line 1121) * class file layout: Class and package structure. (line 1096) * Class Guide, document: Class and package structure. (line 1135) * class options: Document class options. (line 941) * class options <1>: Class and package structure. (line 1096) * class options <2>: \DeclareOption. (line 8166) * class writing tutorial document: Class and package structure. (line 1135) * classes of documents: Document classes. (line 906) * cleveref package: Cross references. (line 3257) * cleveref package <1>: \ref. (line 3370) * cleveref package <2>: \footnotemark. (line 7028) * CLI: Command line interface. (line 16579) * clock option to slides class: Document class options. (line 1038) * closing letters: \closing. (line 15957) * closing quote: Text symbols. (line 14234) * clsguide document: Class and package structure. (line 1135) * cm: Units of length. (line 8898) * cm-super package: fontenc package. (line 1213) * cmd.exe, used by \write18: \write18. (line 16557) * code, typesetting: verbatim. (line 6299) * colon character: Colon character & \colon. (line 11444) * color: Color. (line 13819) * color <1>: Define colors. (line 13924) * color <2>: Colored text. (line 13946) * color <3>: Colored boxes. (line 14017) * color <4>: Colored pages. (line 14054) * color models: Color models. (line 13872) * color package commands: Commands for color. (line 13919) * color package options: Color package options. (line 13834) * color, define: Define colors. (line 13924) * colored boxes: Colored boxes. (line 14017) * colored page: Colored pages. (line 14054) * colored text: Colored text. (line 13946) * command line interface: Command line interface. (line 16579) * command syntax: LaTeX command syntax. (line 777) * commands, class and package: Class and package commands. (line 8058) * commands, defining new ones: \newcommand & \renewcommand. (line 7178) * commands, defining new ones <1>: \providecommand. (line 7355) * commands, document class: Class and package creation. (line 1070) * commands, graphics package: Commands for graphics. (line 13370) * commands, ignore spaces: \ignorespaces & \ignorespacesafterend. (line 7931) * commands, ignore spaces <1>: xspace package. (line 8006) * commands, redefining: \newcommand & \renewcommand. (line 7178) * commands, run from LaTeX: \write18. (line 16503) * commands, star-variants: \@ifstar. (line 7430) * composite word mark, in text: Text symbols. (line 14286) * comprehensive package: Math symbols. (line 9578) * computer programs, typesetting: verbatim. (line 6299) * configuration, graphics package: Graphics package configuration. (line 13180) * conflict between package options: \PassOptionsToClass & \PassOptionsToPackage. (line 8372) * contents file: Output files. (line 530) * control sequences: Control sequences. (line 7321) * control symbol, defined: Control sequences. (line 7332) * control word, defined: Control sequences. (line 7328) * copyright symbol: Text symbols. (line 14186) * Cork encoding: fontenc package. (line 1234) * counters, a list of: Counters. (line 8551) * counters, defining new: \newcounter. (line 7502) * counters, getting value of: \value. (line 8660) * counters, printing: \alph \Alph \arabic \roman \Roman \fnsymbol. (line 8578) * counters, setting: \setcounter. (line 8692) * cprotect package: verbatim. (line 6318) * cprotect package <1>: \verb. (line 6379) * cprotect package <2>: \protect. (line 7918) * creating pictures: picture. (line 4804) * creating tables: table. (line 5582) * credit footnote: \maketitle. (line 11660) * cross references: Cross references. (line 3225) * cross references, resolving: Output files. (line 520) * cross referencing with page number: \pageref. (line 3323) * cross referencing, across documents: xr package. (line 3376) * cross referencing, symbolic: \ref. (line 3347) * cross-references, page numbers in: \thepage. (line 11866) * csquotes package: quotation & quote. (line 5387) * CTAN: CTAN. (line 878) * curly braces: Delimiters. (line 10580) * curly braces, meaning of: Special characters. (line 744) * currency, dollar: Text symbols. (line 14299) * currency, euro: Text symbols. (line 14311) * current tab stop pattern: tabbing commands. (line 5445) * dagger, double, in text: Text symbols. (line 14296) * dagger, in text: Text symbols. (line 14189) * dagger, in text <1>: Text symbols. (line 14293) * DANTE e.V.: CTAN. (line 892) * datatool package: \read. (line 16231) * date of format, requiring: \NeedsTeXFormat. (line 8333) * date, for titlepage: \maketitle. (line 11654) * date, today's: \today. (line 14677) * datetime package: \today. (line 14698) * dbltopnumber: Floats. (line 2418) * dbltopnumber <1>: Floats. (line 2419) * dcolumn package: array. (line 3561) * dd: Units of length. (line 8901) * declaration form of font size commands: Font sizes. (line 1743) * declaration form of font style commands: Font styles. (line 1586) * default option processing: \DeclareOption. (line 8178) * define color: Define colors. (line 13924) * defining a new command: \newcommand & \renewcommand. (line 7178) * defining a new command <1>: \providecommand. (line 7355) * defining new environments: \newenvironment & \renewenvironment. (line 7595) * defining new fonts: \newfont. (line 7841) * defining new theorems: \newtheorem. (line 7729) * definitions: Definitions. (line 7173) * delayed \write: \write. (line 16374) * delim_0: makeindex. (line 15630) * delim_1: makeindex. (line 15634) * delim_2: makeindex. (line 15638) * delim_n: makeindex. (line 15642) * delim_r: makeindex. (line 15646) * delimiters: Delimiters. (line 10580) * delimiters, paired: \left & \right. (line 10630) * description: \newglossaryentry. (line 15789) * description environment: description. (line 3659) * description lists, creating: description. (line 3659) * design size, in font definitions: \newfont. (line 7854) * didot point: Units of length. (line 8902) * dieresis accent: Accents. (line 14420) * difference between class and package: Class and package creation. (line 1075) * dimen plain TeX: Lengths. (line 8784) * directory listings, from system: \write18. (line 16562) * discretionary breaks, multiplication: \*. (line 11464) * discretionary hyphenation: \discretionary. (line 6614) * display math mode: Modes. (line 11544) * display style: Math styles. (line 11382) * displaymath environment: displaymath. (line 3714) * displaymath environment <1>: Math formulas. (line 9449) * document class commands: Class and package creation. (line 1070) * document class options: Document class options. (line 941) * document class, defined: Starting and ending. (line 472) * document classes: Document classes. (line 906) * document environment: document. (line 3761) * document root name: Jobname. (line 16771) * document templates: Document templates. (line 16873) * documentmetadata-support-doc document: \DocumentMetadata. (line 861) * dollar sign: Text symbols. (line 14299) * dollar sign character, meaning of: Special characters. (line 752) * dot accent: Accents. (line 14427) * dot over accent, math: Math accents. (line 11073) * dot-over accent: Accents. (line 14427) * dot-under accent: Accents. (line 14459) * dotless i: Accents. (line 14414) * dotless i, math: Math symbols. (line 9827) * dotless j: Accents. (line 14414) * dotless j, math: Math symbols. (line 9847) * dots: Dots. (line 10824) * double angle quotation marks: Text symbols. (line 14206) * double dagger, in text: Text symbols. (line 14192) * double dagger, in text <1>: Text symbols. (line 14296) * double dot accent, math: Math accents. (line 11070) * double guillemets: Text symbols. (line 14206) * double left quote: Text symbols. (line 14359) * double low-9 quotation mark: Text symbols. (line 14231) * double quotation marks, as ligatures: Ligatures. (line 684) * double quote, straight base: Text symbols. (line 14375) * double right quote: Text symbols. (line 14362) * double spacing: \baselineskip & \baselinestretch. (line 2197) * double vertical bar, in text: Text symbols. (line 14264) * doublestruck: Blackboard bold. (line 10536) * draft option: Document class options. (line 987) * dvilualatex-dev: TeX engines. (line 603) * dvipdfmx command: Output files. (line 497) * dvips command: Output files. (line 497) * dvitype command: Output files. (line 497) * e-dash: Text symbols. (line 14308) * e-TeX: TeX engines. (line 549) * e-TeX, and robust commands: \DeclareRobustCommand. (line 8231) * ellipses: Dots. (line 10824) * ellipsis: Text symbols. (line 14214) * ellipsis, in Unicode (U+2026): Dots. (line 10884) * ellipsis, traditional (three periods): Dots. (line 10884) * em: Units of length. (line 8917) * em <1>: Units of length. (line 8918) * em-dash: Text symbols. (line 14302) * em-dash, as ligature: Ligatures. (line 684) * em-dash, three-quarters: Text symbols. (line 14384) * em-dash, two-thirds: Text symbols. (line 14390) * emphasis: Font styles. (line 1638) * en-dash, as ligature: Ligatures. (line 684) * enclosure list: \encl. (line 15970) * encoding, font: \DeclareFontEncoding. (line 1269) * encodings, input: Input encodings. (line 639) * end matter of a book: \frontmatter & \mainmatter & \backmatter. (line 2988) * end of document hook: \AtEndDocument. (line 3783) * ending and starting: Starting and ending. (line 461) * engines, TeX: TeX engines. (line 539) * enlarge current page: \enlargethispage. (line 6836) * enumerate environment: enumerate. (line 3799) * enumi counter: Counters. (line 8560) * enumii counter: Counters. (line 8560) * enumiii counter: Counters. (line 8560) * enumitem package: itemize. (line 4233) * enumitem package <1>: list. (line 4534) * enumiv counter: Counters. (line 8560) * environment: Starting and ending. (line 480) * environment form of font size commands: Font sizes. (line 1766) * environment, abstract: abstract. (line 3447) * environment, array: array. (line 3493) * environment, center: center. (line 3569) * environment, description: description. (line 3659) * environment, displaymath: displaymath. (line 3714) * environment, displaymath <1>: Math formulas. (line 9449) * environment, document: document. (line 3761) * environment, enumerate: enumerate. (line 3799) * environment, eqnarray: eqnarray. (line 3864) * environment, equation: equation. (line 3918) * environment, equation <1>: Math formulas. (line 9449) * environment, equation*: displaymath. (line 3730) * environment, figure: figure. (line 3938) * environment, filecontents: filecontents. (line 3994) * environment, filecontents*: filecontents. (line 3994) * environment, flushleft: flushleft. (line 4059) * environment, flushright: flushright. (line 4120) * environment, itemize: itemize. (line 4165) * environment, letter: letter. (line 4264) * environment, list: list. (line 4269) * environment, math: math. (line 4634) * environment, math <1>: Math formulas. (line 9449) * environment, minipage: minipage. (line 4646) * environment, picture: picture. (line 4804) * environment, quotation: quotation & quote. (line 5345) * environment, quote: quotation & quote. (line 5345) * environment, sloppypar: sloppypar. (line 6651) * environment, tabbing: tabbing. (line 5394) * environment, table: table. (line 5582) * environment, tabular: tabular. (line 5639) * environment, thebibliography: thebibliography. (line 5963) * environment, theindex: Produce the index manually. (line 15386) * environment, theorem: theorem. (line 6230) * environment, theorem-like: \newtheorem. (line 7729) * environment, titlepage: titlepage. (line 6260) * environment, verbatim: verbatim. (line 6299) * environment, verse: verse. (line 6391) * environments: Environments. (line 3430) * environments, defining: \newenvironment & \renewenvironment. (line 7595) * envlab package: \makelabels. (line 16044) * EPS files: \includegraphics. (line 13376) * eqnarray environment: eqnarray. (line 3864) * equation counter: Counters. (line 8560) * equation environment: equation. (line 3918) * equation environment <1>: Math formulas. (line 9449) * equation number, cross referencing: \ref. (line 3347) * equation numbers, left vs. right: Document class options. (line 1001) * equation numbers, omitting: eqnarray. (line 3897) * equation* environment: displaymath. (line 3730) * equations, aligning: eqnarray. (line 3864) * equations, environment for: equation. (line 3918) * equations, flush left vs. centered: Document class options. (line 995) * error messages, from BibTeX: BibTeX error messages. (line 6203) * errorstopmode: Command line options. (line 16644) * es-zet German letter: Additional Latin letters. (line 14583) * escaping special characters: Printing special characters. (line 14081) * etex command: TeX engines. (line 549) * eth, Icelandic letter: Additional Latin letters. (line 14551) * etoolbox package: \DeclareRobustCommand. (line 8231) * euro symbol: Text symbols. (line 14311) * eurosym package: Text symbols. (line 14311) * eurosym package <1>: Text symbols. (line 14312) * ex: Units of length. (line 8913) * ex <1>: Units of length. (line 8914) * exclamation point, upside-down: Text symbols. (line 14319) * exclamation points, ending a sentence: \@. (line 12115) * executivepaper option: Document class options. (line 957) * expl3 package: LaTeX command syntax. 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(line 3938) * file, closing: \openin & \openout. (line 16142) * file, opening: \openin & \openout. (line 16142) * file, reading: \read. (line 16206) * file, root: Splitting the input. (line 14712) * file, root <1>: Jobname. (line 16771) * filecontents environment: filecontents. (line 3994) * filecontents* environment: filecontents. (line 3994) * filename for current job: Command line options. (line 16660) * final option: Document class options. (line 987) * first-latex-doc document: About this document. (line 421) * fixed-width font: Font styles. (line 1675) * flafter package: Floats. (line 2366) * fleqn option: Document class options. (line 987) * float package: Floats. (line 2336) * float page: Floats. (line 2342) * flush left equations: Document class options. (line 995) * flushing floats and starting a page: \clearpage & \cleardoublepage. (line 6761) * flushleft environment: flushleft. (line 4059) * flushright environment: flushright. 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(line 3347) * footnote parameters: \footnote. (line 6955) * footnote, in a table: Footnotes in a table. (line 7087) * footnote, in section headings: Footnotes in section headings. (line 7068) * footnote, of a footnote: Footnotes of footnotes. (line 7157) * footnotes in figures: minipage. (line 4747) * footnotes, creating: Footnotes. (line 6907) * footnotes, in a minipage: \footnote. (line 6987) * footnotes, symbols instead of numbers: \footnote. (line 6945) * force option for filecontents: filecontents. (line 4019) * format files, TeX: TeX engines. (line 539) * format, requiring: \NeedsTeXFormat. (line 8333) * formulas, environment for: equation. (line 3918) * formulas, math: Math formulas. (line 9449) * forward reference: Cross references. (line 3246) * forward references, resolving: Output files. (line 520) * fraction: \frac. (line 11480) * fragile commands: \protect. (line 7873) * frame rule width: \fbox & \framebox. (line 12826) * frame, line width: \fbox & \framebox. (line 12826) * frame, separation from contents: \fbox & \framebox. (line 12831) * French quotation marks: Text symbols. (line 14206) * front matter of a book: \frontmatter & \mainmatter & \backmatter. (line 2988) * functions, math: Math functions. (line 10938) * geometry package: Document class options. (line 978) * global options: Document class options. (line 941) * global options <1>: \usepackage. (line 1063) * global options <2>: \ProcessOptions. (line 8418) * glossaries: Glossaries. (line 15701) * glossary: Glossaries. (line 15701) * glossary, entries: \newglossaryentry. (line 15749) * glossary, entry reference: \gls. (line 15808) * glue plain TeX: Lengths. (line 8784) * glue register, plain TeX: \newlength. (line 7543) * graphics: Graphics. (line 13079) * graphics <1>: Graphics package configuration. (line 13180) * graphics <2>: \includegraphics. (line 13376) * graphics package: Graphics. (line 13079) * graphics package <1>: Graphics package configuration. (line 13180) * graphics package <2>: \includegraphics. (line 13376) * graphics package commands: Commands for graphics. (line 13370) * graphics package options: Graphics package options. (line 13116) * graphics packages: \line. (line 5064) * graphics, resizing: \scalebox. (line 13759) * graphics, resizing <1>: \resizebox. (line 13790) * graphics, scaling: \scalebox. (line 13759) * graphics, scaling <1>: \resizebox. (line 13790) * graphpap package: \graphpaper. (line 5016) * grave accent: Accents. (line 14439) * grave accent, math: Math accents. (line 11076) * greater than symbol, in text: Text symbols. (line 14329) * greek letters: Math symbols. (line 9578) * Greek letters: Greek letters. (line 10895) * grfext package: \DeclareGraphicsExtensions. (line 13288) * group_skip: makeindex. (line 15579) * group, and environments: Environments. (line 3442) * guillemots, birds: Text symbols. (line 14206) * hacek accent: Accents. (line 14487) * háček accent, math: Math accents. (line 11067) * Halmos symbol: \rule. (line 14649) * hard space: ~. (line 12218) * hash character (#), meaning of: Special characters. (line 765) * hat accent: Accents. (line 14435) * hat accent, math: Math accents. (line 11079) * hat character, meaning of: Special characters. (line 759) * header style: \pagestyle. (line 11747) * header, parameters for: Page layout parameters. (line 2066) * hello, world: Starting and ending. (line 461) * here, putting floats: Floats. (line 2336) * hilatex: TeX engines. (line 588) * HINT format: TeX engines. (line 589) * HiTeX: TeX engines. (line 589) * home page for manual: About this document. (line 390) * horizontal bar character: Text symbols. (line 14332) * horizontal paragraph indentation: \parindent & \parskip. (line 9368) * horizontal space: \hss. (line 11997) * horizontal space, stretchable: \hss. (line 11997) * horizontal spacing: \phantom & \vphantom & \hphantom. (line 11286) * hungarian umlaut accent: Accents. 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(line 8889) * including graphics: \includegraphics. (line 13376) * indent_length: makeindex. (line 15658) * indent_space: makeindex. (line 15654) * indent, forcing: \indent & \noindent. (line 9319) * indentation of paragraphs, in minipage: minipage. (line 4743) * indentfirst package: \part. (line 2644) * indentfirst package <1>: \chapter. (line 2706) * indentfirst package <2>: \section. (line 2801) * indentfirst package <3>: \subsection. (line 2867) * indentfirst package <4>: \subsubsection & \paragraph & \subparagraph. (line 2942) * indentfirst package <5>: \indent & \noindent. (line 9361) * index entries, 'see' and 'see also': \index. (line 15462) * index entries, subentries: \index. (line 15430) * index entry: \index. (line 15410) * index package: \index. (line 15507) * index, multiple: Indexes. (line 15373) * index, page range: \index. (line 15446) * index, printing: \printindex. (line 15686) * index, processing: makeindex. 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(line 453) * Lamport, Leslie: Overview. (line 432) * landscape option: Document class options. (line 987) * landscape orientation: Document class options. (line 998) * latex: TeX engines. (line 547) * latex command: Output files. (line 497) * LaTeX format (.fmt) files: TeX engines. (line 539) * LaTeX logo: Text symbols. (line 14195) * LaTeX overview: Overview. (line 432) * LaTeX Project team: About this document. (line 404) * LaTeX vs. LaTeX2e: About this document. (line 400) * latex-dev: TeX engines. (line 604) * latex-doc-ptr document: About this document. (line 418) * latex-lab package: \DocumentMetadata. (line 861) * LaTeX2e logo: Text symbols. (line 14198) * LaTeX3 syntax: LaTeX command syntax. (line 807) * email address: About this document. (line 404) * latexsym package: Arrows. (line 10424) * Latin letters, additional: Additional Latin letters. (line 14537) * layout commands: Layout. (line 1910) * layout, page parameters for: Page layout parameters. (line 2066) * leaders, dots in table of contents: \@dottedtocline. (line 15082) * leading: \baselineskip & \baselinestretch. (line 2197) * left angle quotation marks: Text symbols. (line 14206) * left arrow, in text: Text symbols. (line 14340) * left brace, in text: Text symbols. (line 14270) * left brace, meaning of: Special characters. (line 744) * left quote: Text symbols. (line 14219) * left quote, double: Text symbols. (line 14359) * left quote, single: Text symbols. (line 14365) * left-hand equation numbers: Document class options. (line 1001) * left-justifying text: \raggedright. (line 4087) * left-justifying text, environment for: flushleft. (line 4059) * left-to-right mode: Modes. (line 11531) * legalpaper option: Document class options. (line 957) * lengths, adding to: \addtolength. (line 8966) * lengths, allocating new: \newlength. (line 7543) * lengths, defining and using: Lengths. (line 8781) * lengths, setting: \setlength. (line 8938) * leqno option: Document class options. (line 987) * less than symbol, in text: Text symbols. (line 14337) * lethead_flag: makeindex. (line 15586) * lethead_prefix: makeindex. (line 15595) * lethead_suffix: makeindex. (line 15599) * letter class: Document classes. (line 911) * letter environment: letter. (line 4264) * letterpaper option: Document class options. (line 957) * letters, accented: Accents. (line 14401) * letters, additional Latin: Additional Latin letters. (line 14537) * letters, ending: \closing. (line 15957) * letters, starting: \opening. (line 16062) * letters, writing: Letters. (line 15838) * ligatures: Ligatures. (line 668) * line break, forcing: \\. (line 6444) * line breaking: Line breaking. (line 6427) * line breaks, changing: \fussy & \sloppy. (line 6637) * line breaks, forcing: \linebreak & \nolinebreak. (line 6698) * line breaks, multiplication discretionary: \*. (line 11464) * line breaks, preventing: \linebreak & \nolinebreak. (line 6698) * line_max: makeindex. (line 15650) * lines in tables: tabular. (line 5639) * lining numerals: Font styles. (line 1713) * lining text up in tables: tabular. (line 5639) * lining text up using tab stops: tabbing. (line 5394) * list environment: list. (line 4269) * list items, specifying counter: \usecounter. (line 8634) * list of figures file: Output files. (line 530) * list of tables file: Output files. (line 530) * listings package: tabbing complex examples. (line 5573) * listings package <1>: verbatim. (line 6327) * lists of items: itemize. (line 4165) * lists of items, generic: list. (line 4269) * lists of items, numbered: enumerate. (line 3799) * lmodern package: fontenc package. (line 1213) * loading additional packages: \usepackage. (line 1044) * local options: \ProcessOptions. (line 8418) * locale information, from system: \write18. (line 16562) * log file: Output files. (line 515) * log file, writing to: \write. (line 16339) * logo, LaTeX: Text symbols. (line 14195) * logo, LaTeX2e: Text symbols. (line 14198) * logo, TeX: Text symbols. (line 14241) * long command: \CheckCommand. (line 8096) * low-9 quotation marks, single and double: Text symbols. (line 14231) * low-level font commands: Low-level font commands. (line 1782) * lowercase: Upper and lower case. (line 14112) * LR box: picture. (line 4890) * LR mode: Modes. (line 11531) * lrbox: lrbox. (line 13037) * lshort document: About this document. (line 424) * luainputenc package: inputenc package. (line 14624) * lualatex: TeX engines. (line 566) * lualatex-dev: TeX engines. (line 605) * LuaTeX: TeX engines. (line 567) * LuaTeX, 256 output streams in: \write. (line 16351) * m-width: Units of length. (line 8918) * macron accent: Accents. (line 14431) * macron accent, math: Math accents. (line 11061) * macros2e package: \makeatletter & \makeatother. (line 7416) * Madsen, Lars: eqnarray. (line 3864) * mail merges: \read. 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(line 9449) * math mode, spacing: Spacing in math mode. (line 11153) * math mode, spacing <1>: \phantom & \vphantom & \hphantom. (line 11286) * math mode, spacing <2>: \mathstrut. (line 11348) * math mode, vertical space: \smash. (line 11227) * math styles: Math styles. (line 11370) * math symbols: Math symbols. (line 9578) * math, arrows: Arrows. (line 10424) * math, bold: Font styles. (line 1709) * mathematics, boldface: \boldmath & \unboldmath. (line 10465) * mathtools package: Math formulas. (line 9504) * mathtools package <1>: Delimiters. (line 10615) * mathtools package <2>: \left & \right. (line 10654) * mathtools package <3>: Over- or under math. (line 11147) * mathtools package <4>: \smash. (line 11280) * mathtools package <5>: \phantom & \vphantom & \hphantom. (line 11328) * meaning of special characters: Special characters. (line 735) * metadata, adding: \DocumentMetadata. (line 851) * MetaPost package: \line. (line 5064) * mfirstuc package: Upper and lower case. 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(line 15786) * name of document root: Jobname. (line 16771) * NBSP: ~. (line 12218) * nested \include, not allowed: \include & \includeonly. (line 14883) * new class commands: Class and package creation. (line 1070) * new command, checking definition of: \CheckCommand. (line 8096) * new command, definition: \DeclareRobustCommand. (line 8205) * new commands, defining: \newcommand & \renewcommand. (line 7178) * new commands, defining <1>: \providecommand. (line 7355) * new line, output as input: \obeycr & \restorecr. (line 6506) * new line, starting: \\. (line 6444) * new line, starting (paragraph mode): \newline. (line 6546) * new page, starting: \newpage. (line 6803) * newline, in \write: \write. (line 16403) * no-break space, Unicode U+00A0: ~. (line 12222) * noheader option for filecontents: filecontents. (line 4022) * non-breaking hyphen character: Text symbols. (line 14343) * non-English characters: Additional Latin letters. (line 14537) * non-sentence-ending punctuation: \@. (line 12082) * nonstopmode: Command line options. (line 16644) * nosearch option for filecontents: filecontents. (line 4025) * notes in the margin: Marginal notes. (line 9399) * notitlepage option: Document class options. (line 987) * null delimiter: \left & \right. (line 10630) * number sign character (#), meaning of: Special characters. (line 765) * numbered items, specifying counter: \usecounter. (line 8634) * numerals, old-style: Font styles. (line 1713) * oblique font: Font styles. (line 1672) * oe ligature: Additional Latin letters. (line 14579) * ogonek: Accents. (line 14467) * old-style numerals: Font styles. (line 1713) * one-column output: \onecolumn. (line 1915) * onecolumn option: Document class options. (line 1016) * oneside option: Document class options. (line 1016) * open a file: \openin & \openout. (line 16142) * openany option: Document class options. (line 1016) * openbib option: Document class options. (line 987) * opening quote: Text symbols. (line 14219) * openright option: Document class options. (line 1016) * OpenType fonts: TeX engines. (line 539) * operating system information: \write18. (line 16562) * option clash: \PassOptionsToClass & \PassOptionsToPackage. (line 8372) * option processing by default: \DeclareOption. (line 8178) * option, currently being processed: \CurrentOption. (line 8159) * optional arguments, defining and using: \newcommand & \renewcommand. (line 7222) * options, class: \DeclareOption. (line 8166) * options, color package: Color package options. (line 13834) * options, command line: Command line options. (line 16623) * options, document class: Document class options. (line 941) * options, document class <1>: Class and package structure. (line 1096) * options, global: \usepackage. (line 1063) * options, global and local: \ProcessOptions. (line 8418) * options, graphics package: Graphics package options. (line 13116) * options, list of unused: \OptionNotUsed. (line 8356) * options, package: Class and package structure. (line 1096) * options, package <1>: \DeclareOption. (line 8166) * options, processing: \ProcessOptions. (line 8409) * ordinals, feminine and masculine: Text symbols. (line 14350) * oslash: Additional Latin letters. (line 14575) * OT1: fontenc package. (line 1183) * OT1 encoding: fontenc package. (line 1227) * outer paragraph mode: Modes. (line 11564) * output directory for all external files: Command line options. (line 16665) * overbar accent: Accents. (line 14431) * overdot accent, math: Math accents. (line 11073) * overlining: Over- or under math. (line 11102) * overview of LaTeX: Overview. (line 432) * overwrite option for filecontents: filecontents. (line 4019) * package and class commands: Class and package commands. (line 8058) * package file layout: Class and package structure. (line 1096) * package options: Class and package structure. (line 1096) * package options <1>: \DeclareOption. 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(line 7157) * package, bm: bm. (line 10495) * package, breqn: displaymath. (line 3730) * package, caption: \caption. (line 2506) * package, cleveref: Cross references. (line 3257) * package, cleveref <1>: \ref. (line 3370) * package, cleveref <2>: \footnotemark. (line 7028) * package, cm-super: fontenc package. (line 1213) * package, comprehensive: Math symbols. (line 9578) * package, cprotect: verbatim. (line 6318) * package, cprotect <1>: \verb. (line 6379) * package, cprotect <2>: \protect. (line 7918) * package, csquotes: quotation & quote. (line 5387) * package, datatool: \read. (line 16231) * package, datetime: \today. (line 14698) * package, dcolumn: array. (line 3561) * package, enumitem: itemize. (line 4233) * package, enumitem <1>: list. (line 4534) * package, envlab: \makelabels. (line 16044) * package, etoolbox: \DeclareRobustCommand. (line 8231) * package, eurosym: Text symbols. (line 14311) * package, eurosym <1>: Text symbols. 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(line 14587) * three-quarters em-dash: Text symbols. (line 14384) * tie: ~. (line 12218) * tie-after accent: Accents. (line 14477) * TikZ package: \line. (line 5064) * TikZ package <1>: \strut. (line 12540) * TikZ package <2>: \mbox & \makebox. (line 12772) * tikz-cd package: Arrows. (line 10459) * tilde accent: Accents. (line 14443) * tilde accent, math: Math accents. (line 11085) * tilde character, meaning of: Special characters. (line 769) * tilde, ASCII, in text: Text symbols. (line 14247) * title page, separate or run-in: Document class options. (line 1009) * title pages, creating: titlepage. (line 6260) * title, for titlepage: \maketitle. (line 11667) * titlepage environment: titlepage. (line 6260) * titlepage option: Document class options. (line 987) * titles, making: \maketitle. (line 11609) * titlesec package: Sectioning. (line 2567) * titlesec package <1>: \part. (line 2648) * titlesec package <2>: \chapter. (line 2727) * titlesec package <3>: \section. (line 2805) * titlesec package <4>: \subsection. (line 2871) * titlesec package <5>: \subsubsection & \paragraph & \subparagraph. (line 2946) * tocbibbind package: Table of contents etc.. (line 15042) * tocdepth: Sectioning. (line 2588) * tocdepth counter: Sectioning. (line 2589) * tocloft package: Table of contents etc.. (line 15042) * tocloft package <1>: \contentsline. (line 15261) * today's date: \today. (line 14677) * tombstone: \rule. (line 14649) * topmargin: Page layout parameters. (line 2183) * topnumber: Floats. (line 2422) * topnumber <1>: Floats. (line 2423) * totalnumber: Floats. (line 2426) * totalnumber <1>: Floats. (line 2427) * trademark symbol: Text symbols. (line 14387) * transcript file: Output files. (line 515) * TrueType fonts: TeX engines. (line 539) * TS1 (text companion) encoding: fontenc package. (line 1240) * TS1 encoding: Text symbols. (line 14177) * two-column output: \twocolumn. (line 1926) * two-thirds em-dash: Text symbols. (line 14390) * twocolumn option: Document class options. (line 1016) * twoside option: Document class options. (line 1016) * type styles: Font styles. (line 1584) * typed text, simulating: verbatim. (line 6299) * typeface sizes: Font sizes. (line 1725) * typefaces: Fonts. (line 1146) * typewriter font: Font styles. (line 1675) * typewriter labels in lists: description. (line 3689) * ulem package: Over- or under math. (line 11113) * umlaut accent: Accents. (line 14420) * unbreakable space: ~. (line 12218) * underbar: Accents. (line 14448) * underlining: Over- or under math. (line 11102) * underscore character, meaning of: Special characters. (line 759) * underscore, in text: Text symbols. (line 14393) * Unicode: Input encodings. (line 645) * Unicode input, native: TeX engines. (line 539) * unicode-math package: OpenType bold math. (line 10524) * unicode-math package <1>: Dots. (line 10877) * unicode-math package <2>: Greek letters. (line 10926) * units, of length: Units of length. (line 8878) * unofficial nature of this manual: About this document. (line 404) * unordered lists: itemize. (line 4165) * Unused global option warning, handling: \DeclareOption. (line 8178) * unused options, adding to list: \OptionNotUsed. (line 8356) * uplatex: TeX engines. (line 595) * uplatex-dev: TeX engines. (line 608) * uppercase: Upper and lower case. (line 14112) * url package: \verb. (line 6376) * using BibTeX: Using BibTeX. (line 6141) * UTF-8, default LaTeX input encoding: Overview. (line 438) * UTF-8, engine support for: TeX engines. (line 539) * UTF-8, font support for: fontenc package. (line 1183) * variables, a list of: Counters. (line 8551) * vector symbol, math: Math accents. (line 11088) * verbatim environment: verbatim. (line 6299) * verbatim text: verbatim. (line 6299) * verbatim text, inline: \verb. (line 6343) * verbatimbox package: verbatim. (line 6333) * verse environment: verse. (line 6391) * version of format, requiring: \NeedsTeXFormat. (line 8333) * vertical bar, double, in text: Text symbols. (line 14264) * vertical bar, in text: Text symbols. (line 14261) * vertical mode: Modes. (line 11549) * vertical space: \vspace. (line 12569) * vertical space <1>: \addvspace. (line 12648) * vertical space before paragraphs: \parindent & \parskip. (line 9368) * vertical spacing: \phantom & \vphantom & \hphantom. (line 11286) * vertical spacing <1>: \mathstrut. (line 11348) * vertical spacing, math mode: \smash. (line 11227) * visible space: \verb. (line 6368) * visible space symbol, in text: Text symbols. (line 14396) * weights, of fonts: Low-level font commands. (line 1834) * whatsit item: \write. (line 16374) * white space: Spaces. (line 11884) * wide hat accent, math: Math accents. (line 11091) * wide tilde accent, math: Math accents. (line 11094) * widths, of fonts: Low-level font commands. (line 1846) * Wright, Joseph: Upper and lower case. (line 14154) * writing external files: filecontents. (line 3994) * writing letters: Letters. (line 15838) * x-height: Units of length. (line 8914) * xdvi command: Output files. (line 497) * xdvipdfmx: TeX engines. (line 576) * xelatex: TeX engines. (line 575) * xelatex-dev: TeX engines. (line 609) * XeTeX: TeX engines. (line 576) * xindex program: makeindex. (line 15680) * xindy program: makeindex. (line 15673) * xparse package: LaTeX command syntax. (line 807) * xparse package <1>: \@ifstar. (line 7488) * xr package: xr package. (line 3376) * xr-hyper package: xr package. (line 3376) * xspace package: xspace package. (line 8006) * xstring package: Jobname. (line 16817)