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\DocumentMetadata{pdfstandard=A-2b, lang=en-GB}
\documentclass[a4paper,12pt]{scrartcl}
\usepackage{mathtools, array, varioref}
\usepackage[british]{babel}
%\usepackage[default,defaultsans]{lato}
\usepackage{fontspec}
\begin{filecontents}{Lato.fontspec}
\defaultfontfeatures[Lato]
{
UprightFont = Lato-Regular.ttf ,
BoldFont = Lato-Bold.ttf ,
ItalicFont = Lato-Italic.ttf ,
BoldItalicFont = Lato-BoldItalic.ttf ,
}
\end{filecontents}
\setmainfont{Lato}
\setsansfont{Lato}
\usepackage{realscripts}
\usepackage{fourier-orns}
\usepackage{lete-sans-math}
\setmonofont{Inconsolatazi4}[Scale=MatchLowercase, StylisticSet={2,3}]
\usepackage{subfig}
\captionsetup[subtable]{position=top}
\usepackage{microtype}
\usepackage{setspace}
\setstretch{1.10}
\usepackage{hyperref}
\hypersetup{pdftitle={Lete Sans Math User’s Guide},
pdfauthor={Chenjing Bu \& Daniel Flipo},
bookmarksopen,
colorlinks
}
\newcommand*{\hlabel}[1]{\phantomsection\label{#1}}
\newcommand*{\LAotf}{Lete~Sans~Math}
\newcommand*{\pkg}[1]{\texttt{#1}}
\newcommand*{\file}[1]{\texttt{#1}}
\newcommand*{\opt}[1]{\texttt{#1}}
\newcommand*{\cmd}[1]{\texttt{\textbackslash #1}}
\newcommand*{\scmd}[1]{\texttt{\small\textbackslash #1}}
\newcommand*{\showtchar}[1]{\cmd{#1}~\csname #1\endcsname}
\newcommand*{\showmchar}[1]{\cmd{#1}~$(\csname #1\endcsname)$}
\newcommand*{\showmchardollar}[1]{\texttt{\$\cmd{#1}\$}~$(\csname #1\endcsname)$}
\renewcommand{\labelitemi}{\lefthand}
\title{\decofourleft\,\LAotf\,\decofourright}
\author{Chenjing Bu --- Daniel Flipo\\
\url{https://github.com/abccsss/LeteSansMath}}
\newcommand*{\version}{0.40}
\setlength{\parindent}{0pt}
\setlength{\parskip}{12pt plus 3pt minus 3pt}
\begin{document}
\maketitle
\section{What is \LAotf{}?}
\LAotf{} is an OpenType maths font
meant to be used with the Lato fonts, or other sans-serif text fonts.
It requires LuaTeX or XeTeX as engine and the \pkg{unicode-math}
package\footnote{Please read the documentation \file{unicode-math.pdf}.}.
Please note that the current version (\version) is \emph{experimental,
do expect metrics and glyphs to change} until version 1.0 is reached.
Comments, suggestions and bug reports are welcome!
Some examples%
\footnote{The second one is borrowed from the LaTeX Companion,
3\textsuperscript{rd} edition.}:
\[
\int_0^1 \frac{1}{x^x} \, \symup{d} x =
\sum_{n=1}^{\infty} \frac{1}{n^n}
\]
\begin{equation*} \begin{split}
\iiiint\limits_{\symbf{Q}} f(w,x,y,z)\,\symup{d}w\,\symup{d}x\,\symup{d}y
\,\symup{d}z
&\leq \oint_{\symbf{\partial Q}} f'
\left( \max \left\lbrace
\frac{\lVert w \rVert}{\lvert w^{2} + x^{2} \rvert} ;
\frac{\lVert z \rVert}{\lvert y^{2} + z^{2} \rvert} ;
\frac{\lVert w \oplus z \rVert}{\lvert x \oplus y \rvert}
\right\rbrace \right) \\
&\precapprox \biguplus_{\mathbb{Q} \Subset \bar{\symbf{Q}}}
\left[ f^{\ast}
\left(
\frac{\left\lmoustache\mathbb{Q}(t)\right\rmoustache}{\sqrt{1 - t^{2}}}
\right)
\right]_{t=\alpha}^{t=\vartheta} - ( \Delta + \nu -v )^{3}
\end{split} \end{equation*}
\section{Usage}
\subsection{Calling \cmd{setmathfont}}
A basic call for \LAotf{} would be:
\begin{verbatim}
\usepackage{unicode-math}
\setmathfont{LeteSansMath.otf} % Call by file name or
\setmathfont{Lete Sans Math} % Call by font name
\end{verbatim}
this loads \LAotf{} as maths font%
\footnote{Both calls work equally well with LuaTeX; with XeTeX a call by font
name will fail unless the font is declared as a \emph{system font}.}
with the default options, see subsections~\vref{ssection-um},
\vref{ssection-cv} and~\vref{ssection-ss} for customisation.
%\enlargethispage*{1.0\baselineskip}
Please note that the text fonts have to be chosen separately, f.i.:
\label{sec:setfont}
\begin{verbatim}
\setsansfont{Lato}[Extension = .ttf,
UprightFont = *-Regular,
BoldFont = *-Bold,
ItalicFont = *-Italic,
BoldItalicFont = *-BoldItalic]
\end{verbatim}
otherwise you would get Latin Modern for text fonts.
\subsection{Calling \pkg{lete-sans-math.sty} (recommended)}
As an alternative to load \LAotf{} you can type:\\[.5\baselineskip]
\verb+\usepackage[ +\textit{options}
\footnote{Possible \textit{options} are \opt{tight}, \opt{Scale=} or
any of the options described in sections~\ref{ssection-um},
\ref{ssection-cv} and \ref{ssection-ss}.}%
\verb+ ]{lete-sans-math}+\\[.5\baselineskip]
it loads \pkg{unicode-math} with the default options, sets \LAotf{}
as maths font and does a bit more:
\begin{enumerate}
\item it checks at \verb+\begin{document}+ if packages \pkg{amssymb} or
\pkg{latexsym} are loaded and issues warnings in case they are;
\item it provides aliases for glyphs named differently in Unicode, so that
all \pkg{latexsym} or AMS commands are also available;
\item it defines specific maths characters like \showmchar{BbbDelta},
\showmchar{parallelslant},
\showmchar{shortparallelslant}, etc.;
\item it provides an option \opt{tight} which reduces spacing
(\cmd{thinmuskip}, \cmd{medmuskip} and \cmd{thickmuskip}) in maths mode.
\end{enumerate}
Please note that the \pkg{lete-sans-math} package does not load any text fonts.
The Lato text fonts can be loaded directly (see section~\ref{sec:setfont}),
or via the \pkg{lato} package%
\footnote{The \pkg{lato} package loads all available weights,
\texttt{Hairline} to \texttt{Black}, hence loading takes significantly
longer…}
---see this package’s documentation, file \file{lato.pdf}, for all the
available options: \\
\verb+\usepackage[default]{lato}+\\
will load the Lato text fonts as main (roman) font while \\
\verb+\usepackage[defaultsans]{lato}+\\
will load the Lato text fonts as sans font (use both options if necessary).
Consider loading \pkg{realscripts.sty} which
redefines \verb+\textsuperscript+ to output the \emph{real} superscripts
available with the Lato fonts: M\textsuperscript{r}, M\textsuperscript{lle},
N\textsuperscript{2} instead of \emph{faked} ones,
M\fakesuperscript{r}, M\fakesuperscript{lle}, N\fakesuperscript{2}.
The \pkg{lete-sans-math} also provides a \opt{Scale=}\textsl{<decimal>} option
meant to be used to load the \LAotf{} font together with text fonts other
than Lato, while keeping the advantages 1. to~4. pointed in the preceding
list, f.i.
\verb+\usepackage[Scale=0.98]{lete-sans-math}+
\section{What is provided?}
\LAotf{} provides all common \pkg{unicode-math} glyphs plus all glyphs
available in the \pkg{amssymb} and \pkg{latexsym} packages. Therefore,
the latter two packages \emph{should not} be loaded as they might override
\LAotf{} glyphs.
A full list of available glyphs is shown in file \file{unimath-lete.pdf} which
also shows the coverage of other sans-serif maths fonts compared to
the serif maths fonts NewComputerModern and Cambria.
\subsection{Upright or slanted?}
\label{ssection-um}
Package \pkg{unicode-math} follows \TeX{} conventions for Latin and Greek
letters: in maths mode, the default option (\opt{math-style=TeX}) prints
Latin letters $a$…$z$ $A$…$Z$ and lowercase Greek letters $\alpha$…$\omega$
slanted (italic) while uppercase Greek letters $\Alpha \Beta \Gamma$…$\Omega$
are printed upright.
This can be changed by option \opt{math-style} as shown in
table~\vref{math-style}.
\begin{table}[ht]
\centering
\caption{Effects of the \opt{math-style} package option.}
\hlabel{math-style}
\begin{tabular}{@{}>{\ttfamily}lcc@{}}
\hline
\rmfamily Package option & Latin & Greek \\
\hline
math-style=ISO & $(a,z,B,X)$ & $\symit{(\alpha,\beta,\Gamma,\Xi)}$ \\
math-style=TeX & $(a,z,B,X)$ & $(\symit\alpha,\symit\beta,\symup\Gamma,\symup\Xi)$ \\
math-style=french & $(a,z,\symup B,\symup X)$ & $(\symup\alpha,\symup\beta,\symup\Gamma,\symup\Xi)$ \\
math-style=upright & $(\symup a,\symup z,\symup B,\symup X)$ & $(\symup\alpha,\symup\beta,\symup\Gamma,\symup\Xi)$ \\
\hline
\end{tabular}
\end{table}
Bold letters are printed upright except lowercase Greek letters
which are slanted (the default option is \opt{bold-style=TeX}). This can be
changed by option \opt{bold-style} as shown in table~\vref{bold-style}.
\begin{table}[ht]
\centering
\caption{Effects of the \opt{bold-style} package option.}
\hlabel{bold-style}
\begin{tabular}{@{}>{\ttfamily}lcc@{}}
\hline
\rmfamily Package option & Latin & Greek \\
\hline
bold-style=ISO & $(\symbfit a, \symbfit z, \symbfit B, \symbfit X)$ & $(\symbfit\alpha, \symbfit\beta, \symbfit\Gamma, \symbfit\Xi)$ \\
bold-style=TeX & $(\symbfup a,\symbfup z,\symbfup B,\symbfup X)$ & $(\symbfit\alpha, \symbfit\beta,\symbfup \Gamma,\symbfup \Xi)$ \\
bold-style=upright & $(\symbfup a,\symbfup z,\symbfup B,\symbfup X)$ & $(\symbfup \alpha,\symbfup \beta,\symbfup \Gamma,\symbfup \Xi)$ \\
\hline
\end{tabular}
\end{table}
Other possible customisation: $\nabla$ is printed upright and $\partial$ is
printed slanted by default, but \opt{nabla=italic} and
\opt{partial=upright} can change this.
All these options are offered by the \pkg{unicode-math} package, they can
be added to the \cmd{setmathfont} call as well%
\footnote{IMHO it is easier to add \emph{all options} to the \cmd{setmathfont}
command.}, for example:
\verb+\setmathfont{LeteSansMath.otf}[math-style=french,partial=upright]+
will print for the code
\verb|\[ \frac{\partial f}{\partial x} = \alpha \symbf{V} + a\nabla\Gamma|\\
\verb| + \symbf{\beta}\symbf{M} \]|
\setmathfont{LeteSansMath.otf}[math-style=french,partial=upright]
\[\frac{\partial f}{\partial x} = \alpha \symbf{V} + a\nabla\Gamma +
\symbf{\beta}\symbf{M} \]
while the default settings would print
\setmathfont{LeteSansMath.otf}[math-style=TeX,partial=italic]
\[\frac{\partial f}{\partial x} = \alpha \symbf{V} + a\nabla\Gamma +
\symbf{\beta}\symbf{M} \]
Both shapes remain available anytime: \verb+$\uppi,\itpi$+
prints $\uppi, \itpi$.
If your text editor is able to handle Greek letters or maths symbols, they can
be entered in the code instead control sequences (i.e.
$\symup{α}$, $\symup{β}$, $\symup{Γ}$,… for \cmd{alpha}, \cmd{beta},
\cmd{Gamma},…).
\subsection{Character variants}
\label{ssection-cv}
\LAotf{} provides nine ``Character Variants'' options, listed on
table~\vref{cv}, to choose between different glyphs for Greek characters
and some others.
For instance, to get \cmd{epsilon} and \cmd{phi} typeset as $\varepsilon$
and $\varphi$ instead of $\epsilon$ and $\phi$, you can add option
\verb+CharacterVariant={3,6}+ to the \cmd{setmathfont} call:
\verb+\setmathfont{LeteSansMath.otf}[CharacterVariant={3,6}]+
\begin{table}[ht]
\centering \caption{Character variants.}
\hlabel{cv}
\begin{tabular}{@{}>{\ttfamily}lccl@{}}
\hline
& Default & Variant & Name\\
\hline
cv01 & $\hslash$ & $\mithbar$ & \cmd{hslash} \\
cv02 & $\emptyset$ & $\varemptyset$ & \cmd{emptyset} \\
cv03 & $\epsilon$ & $\varepsilon$ & \cmd{epsilon} \\
cv04 & $\kappa$ & $\varkappa$ & \cmd{kappa} \\
cv05 & $\pi$ & $\varpi$ & \cmd{pi} \\
cv06 & $\phi$ & $\varphi$ & \cmd{phi} \\
cv07 & $\rho$ & $\varrho$ & \cmd{rho} \\
cv08 & $\sigma$ & $\varsigma$ & \cmd{sigma} \\
cv09 & $\theta$ & $\vartheta$ & \cmd{theta} \\
cv10 & $\Theta$ & $\varTheta$ & \cmd{Theta}\\
\hline
\end{tabular}
\end{table}
This works for all shapes and weights of these characters: f.i.\ %
\verb+$\symbf{\epsilon}$+, \verb+$\symbf{\phi}$+ are output as
\setmathfont{LeteSansMath.otf}[CharacterVariant={3,6}]$\symbf{\epsilon}$,
$\symbf{\phi}$ instead of
\setmathfont{LeteSansMath.otf}$\symbf{\epsilon}$, $\symbf{\phi}$.
If \opt{math-style=french} has been chosen, \verb+\epsilon+ and \verb+\phi+
are output as $\symup{\varepsilon}$ and $\symup{\varphi}$ (upright).
Please note that curly braces are mandatory whenever more than one
``Character Variant'' is selected.
Note about \cmd{hbar}: \pkg{amsmath} provides two different glyphs
(italic $h$ with horizontal or diagonal stroke) while \pkg{unicode-math}
defines \cmd{hbar} as \cmd{hslash} (U+210F).
\pkg{lete-sans-math} follows \pkg{unicode-math}; the italic $h$ with horizontal
stroke can be printed using \cmd{hslash} or \cmd{hbar} together with character
variant \texttt{cv01} or with \cmd{mithbar} (replacement for AMS’ command
\cmd{hbar}).
\subsection{Stylistic sets}
\label{ssection-ss}
\LAotf{} provides five ``Stylistic Sets'' options to choose between different
glyphs for families of maths symbols.
\verb+StylisticSet=4+, alias%
\footnote{These \texttt{Style} aliases are provided by
\file{lete-sans-math.sty}.}
\verb+Style=leqslant+, converts inequalities into their slanted variants, see
table~\vref{ss04}.
\verb+StylisticSet=5+, alias \verb+Style=smaller+, converts some symbols into
their smaller variants, see table~\vref{ss05}.
\begin{table}[ht]
\centering
\caption{Stylistic Sets 4 and 5}
\subfloat[\texttt{Style=leqslant\quad (+ss04)}]{\hlabel{ss04}%
\begin{tabular}[t]{@{}lcc@{}}
\hline
Command & Default & Variant \\
\hline
\cmd{leq} & $\leq$ & $\leqslant$ \\
\cmd{geq} & $\geq$ & $\geqslant$ \\
\cmd{nleq} & $\nleq$ & $\nleqslant$ \\
\cmd{ngeq} & $\ngeq$ & $\ngeqslant$ \\
\cmd{leqq} & $\leqq$ & $\leqqslant$ \\
\cmd{geqq} & $\geqq$ & $\geqqslant$ \\
\cmd{nleqq} & $\nleqq$ & $\nleqqslant$ \\
\cmd{ngeqq} & $\ngeqq$ & $\ngeqqslant$ \\
\cmd{eqless} & $\eqless$ & $\eqslantless$ \\
\cmd{eqgtr} & $\eqgtr$ & $\eqslantgtr$ \\
\cmd{lesseqgtr} & $\lesseqgtr$ & $\lesseqslantgtr$ \\
\cmd{gtreqless} & $\gtreqless$ & $\gtreqslantless$ \\
\cmd{lesseqqgtr} & $\lesseqqgtr$ & $\lesseqqslantgtr$ \\
\cmd{gtreqqless} & $\gtreqqless$ & $\gtreqqslantless$ \\
\hline
\end{tabular}
}\hspace{10mm} % eof subfloat
\subfloat[\texttt{Style=smaller\quad (+ss05)}]{\hlabel{ss05}%
\begin{tabular}[t]{@{}lcc@{}}
\hline
Command & Default & Variant \\
\hline
\cmd{in} & $\in$ & $\smallin$ \\
\cmd{ni} & $\ni$ & $\smallni$ \\
\cmd{mid} & $\mid$ & $\shortmid$ \\
\cmd{nmid} & $\nmid$ & $\nshortmid$ \\
\cmd{parallel} & $\parallel$ & $\shortparallel$ \\
\cmd{nparallel} & $\nparallel$ & $\nshortparallel$ \\
\cmd{parallelslant} & $\parallelslant$ & $\shortparallelslant$ \\
\cmd{nparallelslant} & $\nparallelslant$ & $\nshortparallelslant$ \\
\hline
\end{tabular}
}% eof subfloat
\end{table}
%\pagebreak[4]
\verb+StylisticSet=6+, alias \verb+Style=subsetneq+, converts some inclusion
symbols, as shown in table~\vref{ss06}.
\verb+StylisticSet=7+, alias \verb+Style=parallelslant+, converts
``parallel'' symbols into their slanted variants, see table~\vref{ss07}.
\begin{table}[ht]
\centering
\caption{Stylistic Sets 6 and 7}
\subfloat[\texttt{Style=subsetneq\quad (+ss06)}]{\hlabel{ss06}%
\begin{tabular}[t]{@{}lcc@{}}
\hline
Command & Default & Variant \\
\hline
\cmd{subsetneq} & $\subsetneq$ & $\varsubsetneq$ \\
\cmd{supsetneq} & $\supsetneq$ & $\varsupsetneq$ \\
\cmd{subsetneqq} & $\subsetneqq$ & $\varsubsetneqq$ \\
\cmd{supsetneqq} & $\supsetneqq$ & $\varsupsetneqq$ \\
\hline
\end{tabular}
}\hspace{10mm} % eof subfloat
\subfloat[\texttt{Style=parallelslant\quad (+ss07)}]{\hlabel{ss07}%
\begin{tabular}[t]{@{}lcc@{}}
\hline
Command & Default & Variant \\
\hline
\cmd{parallel} & $\parallel$ & $\parallelslant$ \\
\cmd{nparallel} & $\nparallel$ & $\nparallelslant$ \\
\cmd{shortparallel} & $\shortparallel$ & $\shortparallelslant$ \\
\cmd{nshortparallel} & $\nshortparallel$ & $\nshortparallelslant$ \\
\hline
\end{tabular}
} % eof subfloat
\end{table}
To enable Stylistic Sets 4 and 8 for \LAotf{}, you should enter
\verb+\setmathfont{LeteSansMath.otf}[StylisticSet={4,8}] or+\\
\verb+\usepackage[Style={leqslant,upint}]{lete-sans-math}+
then, \verb+\[x\leq y \quad \int_{a}^{b} f(x) \;\symup{d}x\]+
will print as
\setmathfont{LeteSansMath.otf}[StylisticSet={4,8}]
\[x\leq y \quad \int_{a}^{b} f(x) \;\symup{d}x\]
instead of
\setmathfont{LeteSansMath.otf}
\[x\leq y \quad \int_{a}^{b} f(x) \;\symup{d}x\]
%\pagebreak[4]
\verb+StylisticSet=8+, alias%
\footnote{These \texttt{Style} aliases are provided by
\file{lete-sans-math.sty}.}
\verb+Style=upint+, converts integrals signs into their upright
variants, see table~\vref{ss08}.
\begin{table}[ht]
\let\DS\displaystyle
\centering
\caption{Style=upint\quad (+ss08)}\hlabel{ss08}
\begin{tabular}[t]{@{}l*{8}c@{}}
\hline
Command &\cmd{int} &\cmd{iint} &\cmd{iiint} &\cmd{iiiint}
&\cmd{oint} &\cmd{oiint} &\cmd{oiiint} \\
\hline
Default\rule[-15pt]{0pt}{35pt} &$\DS\int$ &$\DS\iint$ &$\DS\iiint$ &$\DS\iiiint$
&$\DS\oint$ &$\DS\oiint$ &$\DS\oiiint$
\\[\baselineskip]
\setmathfont{LeteSansMath.otf}[Style=upint]
Upright\rule[-15pt]{0pt}{30pt} &$\DS\int$ &$\DS\iint$ &$\DS\iiint$ &$\DS\iiiint$
&$\DS\oint$ &$\DS\oiint$ &$\DS\oiiint$ \\
\hline
\end{tabular}\\[\baselineskip]
\setmathfont{LeteSansMath.otf}
\begin{tabular}[t]{@{}l*{4}c@{}}
\hline
Command &\scmd{intclockwise} &\scmd{awint}
&\scmd{varointclockwise} &\scmd{ointctrclockwise} \\
\hline
Default\rule[-15pt]{0pt}{35pt} &$\DS\intclockwise$ &$\DS\awint$
&$\DS\varointclockwise$ &$\DS\ointctrclockwise$ \\
\setmathfont{LeteSansMath.otf}[Style=upint]
Upright\rule[-15pt]{0pt}{30pt} &$\DS\intclockwise$ &$\DS\awint$
&$\DS\varointclockwise$ &$\DS\ointctrclockwise$ \\
\hline
\end{tabular}
\end{table}
\setmathfont{LeteSansMath.otf}
\subsection{Other font features}
\label{ssec-other-features}
To get oldstyle numbers in maths, the feature \texttt{+onum} is available:
\verb+\setmathfont{LeteSansMath.otf}[Numbers=OldStyle] or+\\
\verb+\usepackage[Style=fulloldstyle]{lete-sans-math}+
\setmathfont{LeteSansMath.otf}[Numbers=OldStyle]
$0123456789, \symbf{0123456789}$
\setmathfont{LeteSansMath.otf}
\subsection{Standard LaTeX maths commands}
\label{ssec-math-commands}
All standard LaTeX maths commands, all \pkg{amssymb} commands and all
\pkg{latexsym} commands are supported, for some of them loading
\pkg{lete-sans-math.sty} is required.
Various wide accents and extensible arrows are also supported:
\begin{itemize}
\item \cmd{wideoverbar} and \cmd{mathunderbar}%
\footnote{\cmd{overline} and \cmd{underline} are not font related,
they are based on \cmd{rule}.}
\[\wideoverbar{x}\quad \wideoverbar{xy}\quad \wideoverbar{xyz}\quad
\wideoverbar{A\cup B}\quad \wideoverbar{A\cup (B\cap C)\cup D}\quad
\mathunderbar{m+n+p}\]
\item \cmd{widehat} and \cmd{widetilde}
\[\widehat{x}\; \widehat{xx} \;\widehat{xxx} \;\widehat{xxxx}\;
\widehat{xxxxx} \;\widehat{xxxxxx} \;\widetilde{x}\; \widetilde{xx}\;
\widetilde{xxx} \;\widetilde{xxxx} \;\widetilde{xxxxx}\;
\widetilde{xxxxxx}\]
\item \cmd{widecheck} and \cmd{widebreve}
\[\widecheck{x}\quad \widecheck{xxxx}\quad \widecheck{xxxxxx}\quad
\widebreve{x}\quad \widebreve{xxxx}\quad \widebreve{xxxxxx}\]
\item \cmd{overparen} and \cmd{underparen}
\[\overparen{x}\quad \overparen{xy}\quad \overparen{xyz}\quad
\mathring{\overparen{A\cup B}}\quad
\overparen{A\cup (B\cap C)\cup D}^{\smwhtcircle}\quad
\overparen{x+y}^{2}\quad \overparen{a+b+...+z}^{26}\]
\[\underparen{x}\quad \underparen{xz} \quad \underparen{xyz}
\quad \underparen{x+z}_{2}\quad \underparen{a+b+...+z}_{26}\]
\item \cmd{overbrace} and \cmd{underbrace}
\[\overbrace{a}\quad \overbrace{ab}\quad \overbrace{abc}\quad
\overbrace{abcd}\quad \overbrace{abcde}\quad
\overbrace{a+b+c}^{3}\quad \overbrace{ a+b+. . . +z }^{26}\]
\[\underbrace{a}\quad\underbrace{ab}\quad\underbrace{abc}\quad
\underbrace{abcd}\quad \underbrace{abcde}\quad
\underbrace{a+b+c}_{3} \quad \underbrace{ a+b+...+z }_{26}\]
\item \cmd{overbracket} and \cmd{underbracket}
\[\overbracket{a}\quad \overbracket{ab}\quad \overbracket{abc}\quad
\overbracket{abcd}\quad \overbracket{abcde}\quad
\overbracket{a+b+c}^{3}\quad \overbracket{ a+b+. . . +z }^{26}\]
\[\underbracket{a}\quad\underbracket{ab}\quad\underbracket{abc}\quad
\underbracket{abcd}\quad \underbracket{abcde}\quad
\underbracket{a+b+c}_{3} \quad \underbracket{ a+b+...+z }_{26}\]
\item \cmd{overrightarrow} and \cmd{overleftarrow}
\[\overrightarrow{v}\quad \overrightarrow{M}\quad \overrightarrow{vv}
\quad \overrightarrow{AB}\quad \overrightarrow{ABC}
\quad \overrightarrow{ABCD} \quad \overrightarrow{ABCDEFGH}.
\]
\[\overleftarrow{v}\quad \overleftarrow{M}\quad \overleftarrow{vv}
\quad \overleftarrow{AB}\quad \overleftarrow{ABC}
\quad \overleftarrow{ABCD} \quad \overleftarrow{ABCDEFGH}\]
\item \cmd{overrightharpoon} and \cmd{overleftharpoon}
\[\overrightharpoon{v}\quad \overrightharpoon{M}\quad \overrightharpoon{vv}
\quad \overrightharpoon{AB}\quad \overrightharpoon{ABC}
\quad \overrightharpoon{ABCD} \quad \overrightharpoon{ABCDEFGH}.
\]
\[\overleftharpoon{v}\quad \overleftharpoon{M}\quad \overleftharpoon{vv}
\quad \overleftharpoon{AB}\quad \overleftharpoon{ABC}
\quad \overleftharpoon{ABCD} \quad \overleftharpoon{ABCDEFGH}\]
\item \cmd{underrightarrow} and \cmd{underleftarrow}
\[\underrightarrow{v}\quad \underrightarrow{M}\quad \underrightarrow{vv}
\quad \underrightarrow{AB}\quad \underrightarrow{ABC}
\quad \underrightarrow{ABCD} \quad \underrightarrow{ABCDEFGH}.
\]
\[\underleftarrow{v}\quad \underleftarrow{M}\quad \underleftarrow{vv}
\quad \underleftarrow{AB}\quad \underleftarrow{ABC}
\quad \underleftarrow{ABCD} \quad \underleftarrow{ABCDEFGH}\]
\item \cmd{underrightharpoon} and \cmd{underleftharpoondown}
\[\underrightharpoondown{v}\quad \underrightharpoondown{M}\quad
\underrightharpoondown{vv}\quad \underrightharpoondown{AB}\quad
\underrightharpoondown{ABC}\quad \underrightharpoondown{ABCD}\quad
\underrightharpoondown{ABCDEFGH}.
\]
\[\underleftharpoondown{v}\quad \underleftharpoondown{M}\quad
\underleftharpoondown{vv}\quad \underleftharpoondown{AB}\quad
\underleftharpoondown{ABC}\quad \underleftharpoondown{ABCD}
\quad \underleftharpoondown{ABCDEFGH}.
\]
\end{itemize}
All the extensible arrows provided by the \pkg{mathtools} package are
available in the \LAotf{} font (loading \pkg{lete-sans-math.sty} is required),
f.i.:
\[X \xLeftrightarrow{\text{above}} Y \xhookrightarrow[\text{under}]{}
Z\xmapsto{\text{above}} W\]
A wide range of extensible vertical delimiters is provided:
\[ \left/
\begin{pmatrix} a_{1} \\ a_{2} \\ a_{3} \end{pmatrix}
\begin{bmatrix} a_{1} \\ a_{2} \\ a_{3} \end{bmatrix}
\begin{Bmatrix} a_{1} \\ a_{2} \\ a_{3} \end{Bmatrix}
\begin{vmatrix} a_{1} \\ a_{2} \\ a_{3} \end{vmatrix}
\begin{Vmatrix} a_{1} \\ a_{2} \\ a_{3} \end{Vmatrix}
\left\lVvert\begin{array}{c} a_{1} \\ a_{2} \\ a_{3} \end{array}\right\Vvert
\left\lceil \begin{array}{c} a_{1} \\ a_{2} \\ a_{3} \end{array}\right\rceil
\left\lfloor\begin{array}{c} a_{1} \\ a_{2} \\ a_{3} \end{array}\right\rfloor
\left\lBrack\begin{array}{c} a_{1} \\ a_{2} \\ a_{3} \end{array}\right\rBrack
\left\langle\begin{array}{c} a_{1} \\ a_{2} \\ a_{3} \end{array}\right\rangle
\left\lAngle\begin{array}{c} a_{1} \\ a_{2} \\ a_{3} \end{array}\right\rAngle
\right\backslash \]
\subsection{Mathematical alphabets}
\label{ssec-math-alphabets}
\begin{itemize}
\item All Latin and Greek characters are available in italic, upright, bold
and bold italic via the \verb+\symit{}+, \verb+\symup{}+, \verb+\symbf{}+
and \verb+\symbfit{}+ commands.
\item Calligraphic alphabet (\cmd{symscr} or \cmd{symcal} or
\cmd{mathcal} command), uppercase:
$\symscr{ABCDEFGHIJKLMNOPQRSTUVWXYZ}$
also in boldface (\cmd{symbfscr},\cmd{symbfcal} or \cmd{mathbfcal} command):
$\symbfscr{ABCDEFGHIJKLMNOPQRSTUVWXYZ}$
\item Blackboard-bold alphabet (\cmd{symbb} or \cmd{mathbb} command):
$\symbb{ABCDEFGHIJKLMNOPQRSTUVWXYZ}$\\
$\symbb{abcdefghijklmnopqrstuvwxyz\quad 0123456789}$
\item Fraktur alphabet is borrowed from Latin Modern, medium and bold
(\cmd{symfrak}, or \cmd{symbffrak} commands):
$\symfrak{ABCDEFGHIJKLMNOPQRSTUVWXYZ\; abcdefghijklmnopqrstuvwxyz}$\\
$\symbffrak{ABCDEFGHIJKLMNOPQRSTUVWXYZ}$\\
\hphantom{$\symfrak{ABCDEFGHIJKLMNOPQRSTUVWXYZ\;}$}%
$\symbffrak{abcdefghijklmnopqrstuvwxyz}$
but this can overwritten, i.e.
\verb+\setmathfont{Asana-Math.otf}[range=frak,Scale=MatchUppercase]+\\
\verb+$\symfrak{ABCDEFGHIJKL...XYZ abcdefghijkl...xyz}$+
%\verb+\setmathfont{Asana-Math.otf}[range=frak,Scale=MatchUppercase]+\\
%\verb+$\symfrak{ABCDEFGHIJKLMNOPQRSTUVWXYZ abcdefghijklmnopqrstuvwxyz}$+
\item Typewriter alphabet is sans-serif: $\symtt{0123456789}$
$\symtt{ABCDEFGHIJKLMNOPQRSTUVWXYZ abcdefghijklmnopqrstuvwxyz}$
but it can be borrowed from another maths font.
%\verb+\setmathfont{STIXTwoMath-Regular.otf}[range=tt,+\\
%\verb+ Scale=MatchUppercase]+\\
%\verb+$\symtt{ABCDE...XYZ abcde...xyz}$+
%\verb+\setmathfont{STIXTwoMath-Regular.otf}[range=tt,Scale=MatchUppercase]+\\
%\verb+$\symtt{ABCDEFGHIJKLMNOPQRSTUVWXYZ abcdefghijklmnopqrstuvwxyz}$+
\end{itemize}
Like Latin Modern, \pkg{lete-sans-math} provides only four lowercase Latin
letters in script (or calligraphic) shape: $\mscre$, $\mscrg$, $\ell$,
$\mscro$ (\verb+\mscre+, \verb+\mscrg+, \verb+\ell+, \verb+\mscro+).
All others (range \verb+"1D4B6+ to \verb+"1D4CF+) have to be borrowed
from another maths font if needed, i.e.
\verb+\setmathfont{LibertinusMath-Regular.otf}%+\\
\verb+ [range="1D4B6-"1D4CF, Scale=MatchLowercase]+
\subsection{Bold variant}
\setmathfont{LeteSansMath.otf}[BoldFont=LeteSansMath-Bold.otf]
In case short maths formulas have to be printed in section titles,
a \emph{limited} bold variant is provided. Example of usage:\quad
\textbf{\boldmath Einstein’s equation $E=mc^2$}
\verb+\setmathfont{LeteSansMath-Bold.otf}[version=bold, +\textit{options}\verb+]+\\
\verb+\section{\mathversion{bold} Einstein’s equation $E=mc^2$}+
It is also possible to use the \verb+\boldmath+ command%
\footnote{The \cmd{boldmath} command works out of the box when
\pkg{lete-sans-math.sty} is loaded.}:
\verb+\setmathfont{LeteSansMath.otf}[BoldFont=LeteSansMath-Bold.otf]+\\
\verb+\section{\boldmath Einstein’s equation $E=mc^2$}+
\subsection{Missing symbols}
\LAotf{} is fairly complete (see file \file{unimath-lete.pdf}),
if you happen to need some of the few missing glyphs you can borrow them from
a more complete font, say \file{New Computer Modern}. For instance if you need
Italic Blackboard Bold (U+2145 to U+2149) you could try:
\verb+\setmathfont{NewCMMath-Book.otf}[range={"2145-"2149},Scale=1.05]+
Let’s mention \pkg{albatross}, a useful tool to find out the list of fonts
providing a given glyph: f.i. type in a terminal ``\texttt{albatross U+2145}'',
see the manpage or \file{albatross-manual.pdf}.
\section{Acknowledgements}
Many thanks to \href{https:www.typoland.com}{Łukasz Dziedzic} for providing
the Lato text fonts in OpenType format.
We are grateful to George Williams and his co-workers for providing and
maintaining FontForge and to Ulrik Vieth for his illuminating paper published
in TUGboat~2009 Volume~30 about OpenType Maths.
\bigskip
\begin{center}\Huge
\decotwo
\end{center}
\end{document}
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