.. include:: ../../header2.txt
============================
LaTeX syntax for mathematics
============================
.. role:: m(math)
.. default-role:: math
.. |latex| replace:: L\ :sup:`A`\ T\ :sub:`E`\ X
:abstract: Docutils supports mathematical content with a `"math"
directive`__ and `role`__. The input format is *LaTeX math
syntax*\ [#math-syntax]_ with support for Unicode symbols.
.. sectnum::
.. contents::
__ https://docutils.sourceforge.io/docs/ref/rst/directives.html#math
__ https://docutils.sourceforge.io/docs/ref/rst/roles.html#math
Inline formulas and displayed equations
=======================================
The **math role** can be used for inline mathematical expressions:
``:math:`\psi(r) = \exp(-2r)``` will produce :m:`\psi(r)=\exp(-2r)`.
Inside the backtics you can write anything you would write between dollar
signs in a LaTeX document. [#math-syntax]_
.. tip::
If you put ``.. default-role:: math`` at the top of your
document, you can write ```x^2``` instead of the longer
version: ``:math:`x^2```. You can also introduce an
abbreviation like this ``.. role:: m(math)``. That will allow
you to write ``:m:`x^2``` or ```x^2`:m:``.
The **math directive** is used for displayed equations. It corresponds to
an ``equation*`` or ``align*`` environment in a LaTeX document. If you
write::
.. math:: \psi(r) = e^{-2r}
you will get:
.. math:: \psi(r) = e^{-2r}
A more complex example is the definition of the `Fourier transform`_::
.. math::
:name: Fourier transform
(\mathcal{F}f)(y)
= \frac{1}{\sqrt{2\pi}^{\ n}}
\int_{\mathbb{R}^n} f(x)\,
e^{-\mathrm{i} y \cdot x} \,\mathrm{d} x.
which is rendered as:
.. math::
:name: Fourier transform
(\mathcal{F}f)(y)
= \frac{1}{\sqrt{2\pi}^{\ n}}
\int_{\mathbb{R}^n} f(x)\,
e^{-\mathrm{i} y \cdot x} \,\mathrm{d} x.
The ``:name:`` option puts a label on the equation that can be
linked to by `hyperlink references`_.
Displayed equations can use ``\\`` and ``&`` for line shifts and alignments::
.. math::
a &= (x + y)^2 & b &= (x - y)^2 \\
&= x^2 + 2xy + y^2 & &= x^2 - 2xy + y^2
LaTeX output will wrap it in an ``align*`` environment.
The result is:
.. math::
a &= (x + y)^2 & b &= (x - y)^2 \\
&= x^2 + 2xy + y^2 & &= x^2 - 2xy + y^2
.. [#math-syntax] The supported LaTeX commands include AMS extensions
(see, e.g., the `Short Math Guide`_). Some of the shown symbols
require the "amssymb" `LaTeX package`_ (or another package providing
the AMS symbol macros) when exported with the "latex" writer.
The support is limited to a subset of *LaTeX math* by the conversion
required for many output formats. For HTML, the `math_output`_
configuration setting (or the corresponding ``--math-output`` command
line option) selects between alternative output formats with different
subsets of supported elements. If a writer does not support math
typesetting, the content is inserted verbatim.
.. _hyperlink references:
../ref/rst/restructuredtext.html#hyperlink-references
.. _Short Math Guide:
https://mirrors.ctan.org/info/short-math-guide/short-math-guide.pdf
.. _math_output:
https://docutils.sourceforge.io/docs/user/config.html#math-output
.. _LaTeX package:
../../user/latex.html#latex-document-classes-and-packages
Mathematical symbols
====================
The following tables are adapted from the first edition of
"The LaTeX Companion" (Goossens, Mittelbach, Samarin) and the
AMS `Short Math Guide`_.
Accents and embellishments
--------------------------
The "narrow" accents are intended for a single-letter base.
.. class:: colwidths-auto
=========== ============= =========== ============= ============== ================
`\acute{x}` ``\acute{x}`` `\dot{t}` ``\dot{t}`` `\hat{x}` ``\hat{x}``
`\bar{v}` ``\bar{v}`` `\ddot{t}` ``\ddot{t}`` `\mathring{x}` ``\mathring{x}``
`\breve{x}` ``\breve{x}`` `\dddot{t}` ``\dddot{t}`` `\tilde{n}` ``\tilde{n}``
`\check{x}` ``\check{x}`` `\grave{x}` ``\grave{x}`` `\vec{x}` ``\vec{x}``
=========== ============= =========== ============= ============== ================
When adding an accent to an i or j in math, dotless variants can be
obtained with ``\imath`` and ``\jmath``: `\hat \imath`, `\vec{\jmath}`.
For embellishments that span multiple symbols, use:
.. class:: colwidths-auto
========================== ============================ =========================== =============================
`\widetilde{gbi}` ``\widetilde{gbi}`` `\widehat{gbi}` ``\widehat{gbi}``
`\overline{gbi}` ``\overline{gbi}`` `\underline{gbi}` ``\underline{gbi}``
`\overbrace{gbi}` ``\overbrace{gbi}`` `\underbrace{gbi}` ``\underbrace{gbi}``
`\overleftarrow{gbi}` ``\overleftarrow{gbi}`` `\underleftarrow{gbi}` ``\underleftarrow{gbi}``
`\overrightarrow{gbi}` ``\overrightarrow{gbi}`` `\underrightarrow{gbi}` ``\underrightarrow{gbi}``
`\overleftrightarrow{gbi}` ``\overleftrightarrow{gbi}`` `\underleftrightarrow{gbi}` ``\underleftrightarrow{gbi}``
========================== ============================ =========================== =============================
Binary operators
----------------
.. class:: colwidths-auto
================== ==================== ================= =================== ================== ====================
`*` ``*`` `\circledast` ``\circledast`` `\ominus` ``\ominus``
`+` ``+`` `\circledcirc` ``\circledcirc`` `\oplus` ``\oplus``
`-` ``-`` `\circleddash` ``\circleddash`` `\oslash` ``\oslash``
`:` ``:`` `\cup` ``\cup`` `\otimes` ``\otimes``
`\Cap` ``\Cap`` `\curlyvee` ``\curlyvee`` `\pm` ``\pm``
`\Cup` ``\Cup`` `\curlywedge` ``\curlywedge`` `\rightthreetimes` ``\rightthreetimes``
`\amalg` ``\amalg`` `\dagger` ``\dagger`` `\rtimes` ``\rtimes``
`\ast` ``\ast`` `\ddagger` ``\ddagger`` `\setminus` ``\setminus``
`\bigcirc` ``\bigcirc`` `\diamond` ``\diamond`` `\smallsetminus` ``\smallsetminus``
`\bigtriangledown` ``\bigtriangledown`` `\div` ``\div`` `\sqcap` ``\sqcap``
`\bigtriangleup` ``\bigtriangleup`` `\divideontimes` ``\divideontimes`` `\sqcup` ``\sqcup``
`\boxdot` ``\boxdot`` `\dotplus` ``\dotplus`` `\star` ``\star``
`\boxminus` ``\boxminus`` `\doublebarwedge` ``\doublebarwedge`` `\times` ``\times``
`\boxplus` ``\boxplus`` `\gtrdot` ``\gtrdot`` `\triangleleft` ``\triangleleft``
`\boxtimes` ``\boxtimes`` `\intercal` ``\intercal`` `\triangleright` ``\triangleright``
`\bullet` ``\bullet`` `\leftthreetimes` ``\leftthreetimes`` `\uplus` ``\uplus``
`\cap` ``\cap`` `\lessdot` ``\lessdot`` `\vee` ``\vee``
`\cdot` ``\cdot`` `\ltimes` ``\ltimes`` `\veebar` ``\veebar``
`\centerdot` ``\centerdot`` `\mp` ``\mp`` `\wedge` ``\wedge``
`\circ` ``\circ`` `\odot` ``\odot`` `\wr` ``\wr``
================== ==================== ================= =================== ================== ====================
Extensible delimiters
---------------------
Unless you indicate otherwise, delimiters in math formulas remain at the
standard size regardless of the height of the enclosed material. To get
adaptable sizes, use ``\left`` and ``\right`` prefixes, for example
`g(A,B,Y) = f \left(A,B,X=h^{[X]}(Y)\right)` or
.. math:: a_n = \left(\frac{1}{2}\right)^n
Use ``.`` for "empty" delimiters:
.. math:: A = \left . \frac{1}{1-n}\, \right |_{n=0}^\infty
See also the commands for fixed `delimiter sizes`_ below.
The following symbols extend when used with ``\left`` and ``\right``:
Pairing delimiters
~~~~~~~~~~~~~~~~~~
.. class:: colwidths-auto
=============== ================= ========================= ===========================
`( )` ``( )`` `\langle \rangle` ``\langle \rangle``
`[ ]` ``[ ]`` `\lceil \rceil` ``\lceil \rceil``
`\{ \}` ``\{ \}`` `\lfloor \rfloor` ``\lfloor \rfloor``
`\lvert \rvert` ``\lvert \rvert`` `\lgroup \rgroup` ``\lgroup \rgroup``
`\lVert \rVert` ``\lVert \rVert`` `\lmoustache \rmoustache` ``\lmoustache \rmoustache``
=============== ================= ========================= ===========================
Nonpairing delimiters
~~~~~~~~~~~~~~~~~~~~~
.. class:: colwidths-auto
==== ====== ============ ============== ============ ==============
`|` ``|`` `\vert` ``\vert`` `\arrowvert` ``\arrowvert``
`\|` ``\|`` `\Vert` ``\Vert`` `\Arrowvert` ``\Arrowvert``
`/` ``/`` `\backslash` ``\backslash`` `\bracevert` ``\bracevert``
==== ====== ============ ============== ============ ==============
The use of ``|`` and ``\|`` for pairs of vertical bars may produce
incorrect spacing, e.g., ``|k|=|-k|`` produces `|k| = |−k|` and
``|\sin(x)|`` produces `|\sin(x)|`. The pairing delimiters, e.g.
`\lvert -k\rvert` and `\lvert\sin(x)\rvert`, prevent this problem
(in LaTeX and MathJax).
.. TODO: fix spacing before unary minus (see also cases example below).
Extensible vertical arrows
--------------------------
.. class:: colwidths-auto
=============================== ======================================
`\uparrow` ``\uparrow`` `\Uparrow` ``\Uparrow``
`\downarrow` ``\downarrow`` `\Downarrow` ``\Downarrow``
`\updownarrow` ``\updownarrow`` `\Updownarrow` ``\Updownarrow``
=============================== ======================================
Functions (named operators)
---------------------------
.. class:: colwidths-auto
========= =========== ========= =========== ============= ================
`\arccos` ``\arccos`` `\gcd` ``\gcd`` `\Pr` ``\Pr``
`\arcsin` ``\arcsin`` `\hom` ``\hom`` `\projlim` ``\projlim``
`\arctan` ``\arctan`` `\inf` ``\inf`` `\sec` ``\sec``
`\arg` ``\arg`` `\injlim` ``\injlim`` `\sin` ``\sin``
`\cos` ``\cos`` `\ker` ``\ker`` `\sinh` ``\sinh``
`\cosh` ``\cosh`` `\lg` ``\lg`` `\sup` ``\sup``
`\cot` ``\cot`` `\lim` ``\lim`` `\tan` ``\tan``
`\coth` ``\coth`` `\liminf` ``\liminf`` `\tanh` ``\tanh``
`\csc` ``\csc`` `\limsup` ``\limsup`` `\varlimsup` ``\varlimsup``
`\deg` ``\deg`` `\ln` ``\ln`` `\varliminf` ``\varliminf``
`\det` ``\det`` `\log` ``\log`` `\varprojlim` ``\varprojlim``
`\dim` ``\dim`` `\max` ``\max`` `\varinjlim` ``\varinjlim``
`\exp` ``\exp`` `\min` ``\min``
========= =========== ========= =========== ============= ================
Named operators outside the above list can be typeset with
``\operatorname{name}``, e.g.
.. math:: \operatorname{sgn}(-3) = -1.
.. TODO: \operatorname* for function name with limits.
The ``\DeclareMathOperator`` command can only be used in the
`LaTeX preamble`_.
.. _LaTeX preamble: latex.html#latex-preamble
Greek letters
-------------
Greek letters that have Latin look-alikes are rarely used in math
formulas and not supported by LaTeX.
.. class:: colwidths-auto
========== ============ ========== ============ ========== ============ ============== ===============
`\Gamma` ``\Gamma`` `\alpha` ``\alpha`` `\mu` ``\mu`` `\omega` ``\omega``
`\Delta` ``\Delta`` `\beta` ``\beta`` `\nu` ``\nu`` `\digamma` ``\digamma``
`\Lambda` ``\Lambda`` `\gamma` ``\gamma`` `\xi` ``\xi`` `\varepsilon` ``\varepsilon``
`\Phi` ``\Phi`` `\delta` ``\delta`` `\pi` ``\pi`` `\varkappa` ``\varkappa``
`\Pi` ``\Pi`` `\epsilon` ``\epsilon`` `\rho` ``\rho`` `\varphi` ``\varphi``
`\Psi` ``\Psi`` `\zeta` ``\zeta`` `\sigma` ``\sigma`` `\varpi` ``\varpi``
`\Sigma` ``\Sigma`` `\eta` ``\eta`` `\tau` ``\tau`` `\varrho` ``\varrho``
`\Theta` ``\Theta`` `\theta` ``\theta`` `\upsilon` ``\upsilon`` `\varsigma` ``\varsigma``
`\Upsilon` ``\Upsilon`` `\iota` ``\iota`` `\phi` ``\phi`` `\vartheta` ``\vartheta``
`\Xi` ``\Xi`` `\kappa` ``\kappa`` `\chi` ``\chi``
`\Omega` ``\Omega`` `\lambda` ``\lambda`` `\psi` ``\psi``
========== ============ ========== ============ ========== ============ ============== ===============
In LaTeX, the default font for capital Greek letters is upright/roman.
*Italic* capital Greek letters can be obtained by loading a `package
providing the "ISO" math style`__. They are used by default in MathML.
Individual Greek italic capitals can also be achieved preceding the
letter name with ``var`` like ``\varPhi``:
`\varGamma\ \varDelta\ \varLambda\ \varPhi\ \varPi\ \varPsi\ \varSigma\
\varTheta\ \varUpsilon\ \varXi\ \varOmega`
__ https://mirrors.ctan.org/macros/latex/contrib/isomath/isomath.html#table-2
Letterlike symbols
------------------
.. class:: colwidths-auto
============= =============== ========== ============ ========== ============ =========== =============
`\forall` ``\forall`` `\aleph` ``\aleph`` `\hbar` ``\hbar`` `\ell` ``\ell``
`\complement` ``\complement`` `\beth` ``\beth`` `\hslash` ``\hslash`` `\wp` ``\wp``
`\exists` ``\exists`` `\gimel` ``\gimel`` `\Im` ``\Im`` `\Re` ``\Re``
`\Finv` ``\Finv`` `\daleth` ``\daleth`` `\imath` ``\imath`` `\circledR` ``\circledR``
`\Game` ``\Game`` `\partial` ``\partial`` `\jmath` ``\jmath`` `\circledS` ``\circledS``
`\mho` ``\mho`` `\eth` ``\eth`` `\Bbbk` ``\Bbbk``
============= =============== ========== ============ ========== ============ =========== =============
Mathematical Alphabets
----------------------
Mathematical alphabets select a combination of font attributes (shape,
weight, family) [#]_. They are intended for mathematical variables where
style variations are important semantically.
.. class:: colwidths-auto
=============== ============================ ==========================
command example result
=============== ============================ ==========================
``\mathbf`` ``\mathbf{r}^2=x^2+y^2+z^2`` `\mathbf{r}^2=x^2+y^2+z^2`
``\mathbb`` ``\mathbb{R \subset C}`` `\mathbb{R \subset C}`
``\mathcal`` ``\mathcal{F}f(x)`` `\mathcal{F}f(x)`
``\mathfrak`` ``\mathfrak{a}`` `\mathfrak{a}`
``\mathit`` ``\mathit{\Gamma}`` `\mathit{\Gamma}`
``\mathrm`` ``s_\mathrm{out}`` `s_\mathrm{out}`
``\mathsf`` ``\mathsf x`` `\mathsf x`
``\mathtt`` ``\mathtt{0.12}`` `\mathtt{0.12}`
=============== ============================ ==========================
.. [#] TeX’s *math alphabets* correspond to the `mathematical
alphanumeric symbols`__ block in Unicode and the "mathvariant" `style
attribute`__ in MathML.
__ https://en.wikipedia.org/wiki/Mathematical_Alphanumeric_Symbols
__ https://developer.mozilla.org/en-US/docs/Web/MathML/Attribute
Additional alphabets are defined in LaTeX packages, e.g.
.. class:: colwidths-auto
=========== ============= ======================
TeX command LaTeX package MathML "mathvariant"
=========== ============= ======================
mathbfit isomath_ bold-italic
mathsfit isomath_ sans-serif-italic
mathsfbfit isomath_ sans-serif-bold-italic
mathscr mathrsfs_ script
=========== ============= ======================
.. _isomath: https://www.ctan.org/pkg/isomath
.. _mathrsfs: https://www.ctan.org/pkg/mathrsfs
This can be used to typeset vector symbols in bold italic
in line with the International Standard [ISO-80000-2].
.. ``\mathbfit{r}^2=x^2+y^2+z^2`` becomes
.. math:: \mathbfit{r}^2=x^2+y^2+z^2.
The package mathrsfs_ (and some drop-in replacements) define the ``\mathscr``
macro that selects a differently shaped "script" alphabet.
Compare `\mathscr{A, B, …, Z, a, b, …, z}`
with `\mathcal{A, B, …, Z, a, b, …, z}`.
In contrast to the math alphabet selectors, ``\boldsymbol`` only changes
the *font weight*. In LaTeX, it can be used to get a bold version of any
mathematical symbol (for other output formats, results are mixed):
.. math::
\boldsymbol{\cos(x)\pm\alpha \approx 3\Gamma \quad \forall x\in\mathbb{R}}
Miscellaneous symbols
---------------------
.. class:: colwidths-auto
==================== ====================== ================ ================== ================= ===================
`\#` ``\#`` `\clubsuit` ``\clubsuit`` `\neg` ``\neg``
`\&` ``\&`` `\diamondsuit` ``\diamondsuit`` `\nexists` ``\nexists``
`\angle` ``\angle`` `\emptyset` ``\emptyset`` `\prime` ``\prime``
`\backprime` ``\backprime`` `\exists` ``\exists`` `\sharp` ``\sharp``
`\bigstar` ``\bigstar`` `\flat` ``\flat`` `\spadesuit` ``\spadesuit``
`\blacklozenge` ``\blacklozenge`` `\forall` ``\forall`` `\sphericalangle` ``\sphericalangle``
`\blacksquare` ``\blacksquare`` `\heartsuit` ``\heartsuit`` `\square` ``\square``
`\blacktriangle` ``\blacktriangle`` `\infty` ``\infty`` `\surd` ``\surd``
`\blacktriangledown` ``\blacktriangledown`` `\lozenge` ``\lozenge`` `\top` ``\top``
`\bot` ``\bot`` `\measuredangle` ``\measuredangle`` `\triangle` ``\triangle``
`\diagdown` ``\diagdown`` `\nabla` ``\nabla`` `\triangledown` ``\triangledown``
`\diagup` ``\diagup`` `\natural` ``\natural`` `\varnothing` ``\varnothing``
==================== ====================== ================ ================== ================= ===================
Punctuation
-----------
.. class:: colwidths-auto
=== ===== ======== =============== ======== ==========
`.` ``.`` `!` ``!`` `\vdots` ``\vdots``
`/` ``/`` `?` ``?`` `\dotsb` ``\dotsb``
`|` ``|`` `\colon` ``\colon`` [#]_ `\dotsc` ``\dotsc``
`'` ``'`` `\cdots` ``\cdots`` `\dotsi` ``\dotsi``
`;` ``;`` `\ddots` ``\ddots`` `\dotsm` ``\dotsm``
`:` ``:`` `\ldots` ``\ldots`` `\dotso` ``\dotso``
=== ===== ======== =============== ======== ==========
.. [#] Punctuation (not ratio):
Compare spacing in `a\colon b\to c` to `a:b = c`.
Relation symbols
----------------
Arrows
~~~~~~
.. class:: colwidths-auto
====================== ======================== ===================== =======================
`\circlearrowleft` ``\circlearrowleft`` `\circlearrowright` ``\circlearrowright``
`\curvearrowleft` ``\curvearrowleft`` `\curvearrowright` ``\curvearrowright``
`\hookleftarrow` ``\hookleftarrow`` `\hookrightarrow` ``\hookrightarrow``
`\leftarrow` ``\leftarrow`` `\rightarrow` ``\rightarrow``
`\Leftarrow` ``\Leftarrow`` `\Rightarrow` ``\Rightarrow``
`\leftarrowtail` ``\leftarrowtail`` `\rightarrowtail` ``\rightarrowtail``
`\leftharpoondown` ``\leftharpoondown`` `\rightharpoondown` ``\rightharpoondown``
`\leftharpoonup` ``\leftharpoonup`` `\rightharpoonup` ``\rightharpoonup``
`\leftleftarrows` ``\leftleftarrows`` `\rightrightarrows` ``\rightrightarrows``
`\leftrightarrow` ``\leftrightarrow`` `\Leftrightarrow` ``\Leftrightarrow``
`\leftrightarrows` ``\leftrightarrows`` `\rightleftarrows` ``\rightleftarrows``
`\leftrightharpoons` ``\leftrightharpoons`` `\rightleftharpoons` ``\rightleftharpoons``
`\leftrightsquigarrow` ``\leftrightsquigarrow`` `\rightsquigarrow` ``\rightsquigarrow``
`\Lleftarrow` ``\Lleftarrow`` `\Rrightarrow` ``\Rrightarrow``
`\longleftarrow` ``\longleftarrow`` `\longrightarrow` ``\longrightarrow``
`\Longleftarrow` ``\Longleftarrow`` `\Longrightarrow` ``\Longrightarrow``
`\longleftrightarrow` ``\longleftrightarrow`` `\Longleftrightarrow` ``\Longleftrightarrow``
`\looparrowleft` ``\looparrowleft`` `\looparrowright` ``\looparrowright``
`\Lsh` ``\Lsh`` `\Rsh` ``\Rsh``
`\mapsto` ``\mapsto`` `\longmapsto` ``\longmapsto``
`\multimap` ``\multimap``
`\nleftarrow` ``\nleftarrow`` `\nrightarrow` ``\nrightarrow``
`\nLeftarrow` ``\nLeftarrow`` `\nRightarrow` ``\nRightarrow``
`\nleftrightarrow` ``\nleftrightarrow`` `\nLeftrightarrow` ``\nLeftrightarrow``
`\nwarrow` ``\nwarrow`` `\nearrow` ``\nearrow``
`\swarrow` ``\swarrow`` `\searrow` ``\searrow``
`\twoheadleftarrow` ``\twoheadleftarrow`` `\twoheadrightarrow` ``\twoheadrightarrow``
`\upharpoonleft` ``\upharpoonleft`` `\upharpoonright` ``\upharpoonright``
`\downharpoonleft` ``\downharpoonleft`` `\downharpoonright` ``\downharpoonright``
`\upuparrows` ``\upuparrows`` `\downdownarrows` ``\downdownarrows``
====================== ======================== ===================== =======================
Synonyms: `\gets` ``\gets``, `\to` ``\to``, `\restriction` ``\restriction``.
Comparison
~~~~~~~~~~
.. class:: colwidths-auto
================ ================== ============= =============== ============= =============== =============== =================
`<` ``<`` `\geq` ``\geq`` `\ll` ``\ll`` `\prec` ``\prec``
`=` ``=`` `\geqq` ``\geqq`` `\lll` ``\lll`` `\precapprox` ``\precapprox``
`>` ``>`` `\geqslant` ``\geqslant`` `\lnapprox` ``\lnapprox`` `\preccurlyeq` ``\preccurlyeq``
`\approx` ``\approx`` `\gg` ``\gg`` `\lneq` ``\lneq`` `\preceq` ``\preceq``
`\approxeq` ``\approxeq`` `\ggg` ``\ggg`` `\lneqq` ``\lneqq`` `\precnapprox` ``\precnapprox``
`\asymp` ``\asymp`` `\gnapprox` ``\gnapprox`` `\lnsim` ``\lnsim`` `\precneqq` ``\precneqq``
`\backsim` ``\backsim`` `\gneq` ``\gneq`` `\ncong` ``\ncong`` `\precnsim` ``\precnsim``
`\backsimeq` ``\backsimeq`` `\gneqq` ``\gneqq`` `\neq` ``\neq`` `\precsim` ``\precsim``
`\bumpeq` ``\bumpeq`` `\gnsim` ``\gnsim`` `\ngeq` ``\ngeq`` `\risingdotseq` ``\risingdotseq``
`\Bumpeq` ``\Bumpeq`` `\gtrapprox` ``\gtrapprox`` `\ngeqq` ``\ngeqq`` `\sim` ``\sim``
`\circeq` ``\circeq`` `\gtreqless` ``\gtreqless`` `\ngeqslant` ``\ngeqslant`` `\simeq` ``\simeq``
`\cong` ``\cong`` `\gtreqqless` ``\gtreqqless`` `\ngtr` ``\ngtr`` `\succ` ``\succ``
`\curlyeqprec` ``\curlyeqprec`` `\gtrless` ``\gtrless`` `\nleq` ``\nleq`` `\succapprox` ``\succapprox``
`\curlyeqsucc` ``\curlyeqsucc`` `\gtrsim` ``\gtrsim`` `\nleqq` ``\nleqq`` `\succcurlyeq` ``\succcurlyeq``
`\doteq` ``\doteq`` `\leq` ``\leq`` `\nleqslant` ``\nleqslant`` `\succeq` ``\succeq``
`\doteqdot` ``\doteqdot`` `\leqq` ``\leqq`` `\nless` ``\nless`` `\succnapprox` ``\succnapprox``
`\eqcirc` ``\eqcirc`` `\leqslant` ``\leqslant`` `\nprec` ``\nprec`` `\succneqq` ``\succneqq``
`\eqsim` ``\eqsim`` `\lessapprox` ``\lessapprox`` `\npreceq` ``\npreceq`` `\succnsim` ``\succnsim``
`\eqslantgtr` ``\eqslantgtr`` `\lesseqgtr` ``\lesseqgtr`` `\nsim` ``\nsim`` `\succsim` ``\succsim``
`\eqslantless` ``\eqslantless`` `\lesseqqgtr` ``\lesseqqgtr`` `\nsucc` ``\nsucc`` `\thickapprox` ``\thickapprox``
`\equiv` ``\equiv`` `\lessgtr` ``\lessgtr`` `\nsucceq` ``\nsucceq`` `\thicksim` ``\thicksim``
`\fallingdotseq` ``\fallingdotseq`` `\lesssim` ``\lesssim`` `\triangleq` ``\triangleq``
================ ================== ============= =============== ============= =============== =============== =================
The commands ``\lvertneqq`` and ``\gvertneqq`` are not supported by
LateX2MathML, as there is no corresponding Unicode character.
Synonyms: `\ne` ``\ne``, `\le` ``\le``, `\ge` ``\ge``,
`\Doteq` ``\Doteq``, `\llless` ``\llless``, `\gggtr` ``\gggtr``.
Symbols can be negated prepending ``\not``, e.g.
`\not=` ``\not=``, `\not\equiv` ``\not\equiv``,
`\not\gtrless` ``\not\gtrless``, `\not\lessgtr` ``\not\lessgtr``.
Miscellaneous relations
~~~~~~~~~~~~~~~~~~~~~~~
.. class:: colwidths-auto
===================== ======================= =================== ===================== =================== =====================
`\backepsilon` ``\backepsilon`` `\ntrianglelefteq` ``\ntrianglelefteq`` `\subseteq` ``\subseteq``
`\because` ``\because`` `\ntriangleright` ``\ntriangleright`` `\subseteqq` ``\subseteqq``
`\between` ``\between`` `\ntrianglerighteq` ``\ntrianglerighteq`` `\subsetneq` ``\subsetneq``
`\blacktriangleleft` ``\blacktriangleleft`` `\nvdash` ``\nvdash`` `\subsetneqq` ``\subsetneqq``
`\blacktriangleright` ``\blacktriangleright`` `\nVdash` ``\nVdash`` `\supset` ``\supset``
`\bowtie` ``\bowtie`` `\nvDash` ``\nvDash`` `\Supset` ``\Supset``
`\dashv` ``\dashv`` `\nVDash` ``\nVDash`` `\supseteq` ``\supseteq``
`\frown` ``\frown`` `\parallel` ``\parallel`` `\supseteqq` ``\supseteqq``
`\in` ``\in`` `\perp` ``\perp`` `\supsetneq` ``\supsetneq``
`\mid` ``\mid`` `\pitchfork` ``\pitchfork`` `\supsetneqq` ``\supsetneqq``
`\models` ``\models`` `\propto` ``\propto`` `\therefore` ``\therefore``
`\ni` ``\ni`` `\shortmid` ``\shortmid`` `\trianglelefteq` ``\trianglelefteq``
`\nmid` ``\nmid`` `\shortparallel` ``\shortparallel`` `\trianglerighteq` ``\trianglerighteq``
`\notin` ``\notin`` `\smallfrown` ``\smallfrown`` `\varpropto` ``\varpropto``
`\nparallel` ``\nparallel`` `\smallsmile` ``\smallsmile`` `\vartriangle` ``\vartriangle``
`\nshortmid` ``\nshortmid`` `\smile` ``\smile`` `\vartriangleleft` ``\vartriangleleft``
`\nshortparallel` ``\nshortparallel`` `\sqsubset` ``\sqsubset`` `\vartriangleright` ``\vartriangleright``
`\nsubseteq` ``\nsubseteq`` `\sqsubseteq` ``\sqsubseteq`` `\vdash` ``\vdash``
`\nsubseteqq` ``\nsubseteqq`` `\sqsupset` ``\sqsupset`` `\Vdash` ``\Vdash``
`\nsupseteq` ``\nsupseteq`` `\sqsupseteq` ``\sqsupseteq`` `\vDash` ``\vDash``
`\nsupseteqq` ``\nsupseteqq`` `\subset` ``\subset`` `\Vvdash` ``\Vvdash``
`\ntriangleleft` ``\ntriangleleft`` `\Subset` ``\Subset``
===================== ======================= =================== ===================== =================== =====================
Synonyms: `\owns` ``\owns``.
Symbols can be negated prepending ``\not``, e.g.
`\not\in` ``\not\in``, `\not\ni` ``\not\ni``.
The commands ``\varsubsetneq``, ``\varsubsetneqq``, ``\varsupsetneq``,
and ``\varsupsetneqq`` are not supported by LateX2MathML, as there is no
corresponding Unicode character.
Variable-sized operators
------------------------
.. class:: colwidths-auto
========================= ========================= ========================= ===========================
`\sum` ``\sum`` `\prod` ``\prod`` `\bigcap` ``\bigcap`` `\bigodot` ``\bigodot``
`\int` ``\int`` `\coprod` ``\coprod`` `\bigcup` ``\bigcup`` `\bigoplus` ``\bigoplus``
`\oint` ``\oint`` `\bigwedge` ``\bigwedge`` `\biguplus` ``\biguplus`` `\bigotimes` ``\bigotimes``
`\smallint` ``\smallint`` `\bigvee` ``\bigvee`` `\bigsqcup` ``\bigsqcup``
========================= ========================= ========================= ===========================
Larger symbols are used in displayed formulas, sum-like symbols have
indices above/below the symbol (see also `scripts and limits`_):
.. math:: \sum_{n=1}^N a_n \qquad
\int_0^1f(x)\,dx \qquad
\prod_{i=1}^{10} b_i \ldots
Notations
=========
Top and bottom embellishments
-----------------------------
See `Accents and embellishments`_.
Extensible arrows
-----------------
\xleftarrow and \xrightarrow produce arrows that extend automatically to
accommodate unusually wide subscripts or superscripts. These commands
take one optional argument (the subscript) and one mandatory argument
(the superscript, possibly empty)::
A \xleftarrow{n+\mu-1} B \xrightarrow[T]{n\pm i-1} C
results in
.. math:: A \xleftarrow{n+\mu-1} B \xrightarrow[T]{n\pm i-1} C
Affixing symbols to other symbols
---------------------------------
In addition to the standard `accents and embellishments`_, other symbols
can be placed above or below a base symbol with the ``\overset`` and
``\underset`` commands. The symbol is set in "scriptstyle" (smaller font
size). For example, writing ``\overset{*}{X}`` becomes `\overset{*}{X}`
and ``\underset{+}{M}`` becomes `\underset{+}{M}`.
Matrices
--------
The ``matrix`` and ``cases`` environments can also contain ``\\`` and
``&``::
.. math::
\left ( \begin{matrix} a & b \\ c & d \end{matrix}\right)
Result:
.. math::
\left ( \begin{matrix} a & b \\ c & d \end{matrix} \right)
The environments ``pmatrix``, ``bmatrix``, ``Bmatrix``, ``vmatrix``, and
``Vmatrix`` have (respectively) ( ), [ ], { }, \| \|, and `\Vert\ \Vert`
delimiters built in, e.g.
.. math:: \begin{pmatrix} a & b \\ c & d \end{pmatrix} \qquad
\begin{bmatrix} a & b \\ c & d \end{bmatrix} \qquad
\begin{Vmatrix} a & b \\ c & d \end{Vmatrix}
To produce a small matrix suitable for use in text, there is a
``smallmatrix`` environment
`\bigl(\begin{smallmatrix} a & b \\ c & d \end{smallmatrix}\bigr)`
that comes closer to fitting within a single text line than a normal
matrix.
For piecewise function definitions there is a ``cases`` environment:
.. math:: \mathrm{sgn}(x) = \begin{cases}
-1 & x<0\\
\phantom{-}1 & x>0
\end{cases}
Spacing commands
----------------
Horizontal spacing of elements can be controlled with the following
commands:
.. class:: colwidths-auto
====================== ======== ===================== ==================
:m:`3\qquad 4` ``3\qquad 4`` = 2em
:m:`3\quad 4` ``3\quad 4`` = 1em
:m:`3~4` ``3~4`` ``3\nobreakspace 4``
:m:`3\ 4` ``3\ 4`` escaped space
:m:`3\;4` ``3\;4`` ``3\thickspace 4``
:m:`3\:4` ``3\:4`` ``3\medspace 4``
:m:`3\,4` ``3\,4`` ``3\thinspace 4``
:m:`3 4` ``3 4`` regular space [#]_
:m:`3\!4` ``3\!4`` ``3\negthinspace 4``
:m:`3\negmedspace 4` ``3\negmedspace 4``
:m:`3\negthickspace 4` ``3\negthickspace 4``
`3\hspace{1ex}4` ``3\hspace{1ex}4`` custom length
`3\mspace{20mu}4` ``3\mspace{20mu}4`` custom length [#]_
====================== ======== ===================== ==================
.. [#] Whitespace characters are ignored in LaTeX math mode.
.. [#] Unit must be 'mu' (1 mu = 1/18em).
Negative spacing does not work with MathML (in Firefox 78).
There are also three commands that leave a space equal to the height and
width of its argument. For example ``\phantom{XXX}`` results in space as
wide and high as three X’s:
.. math:: \frac{\phantom{XXX}+1}{XXX-1}
The commands ``\hphantom`` and ``\vphantom`` insert space with the
width or height of the argument. They are not supported with `math_output`_
MathML.
Roots
-----
.. class:: colwidths-auto
========= ==================== ==================
command example result
========= ==================== ==================
``\sqrt`` ``\sqrt{x^2-1}`` `\sqrt{x^2-1}`
.. ``\sqrt[3n]{x^2-1}`` `\sqrt[3n]{x^2-1}`
.. ``\sqrt\frac{1}{2}`` `\sqrt\frac{1}{2}`
========= ==================== ==================
Boxed formulas
--------------
The command ``\boxed`` puts a box around its argument:
.. math:: \boxed{\eta \leq C(\delta(\eta) +\Lambda_M(0,\delta))}
Fractions and related constructions
===================================
The ``\frac`` command takes two ar guments, numerator and denominator,
and typesets them in normal fraction form. For example, ``U = \frac{R}{I}``
produces `U = \frac{R}{I}`. Use ``\dfrac`` or ``\tfrac`` to
force text style and display style respectively.
.. math:: \frac{x+1}{x-1} \quad
\dfrac{x+1}{x-1} \quad
\tfrac{x+1}{x-1}
and in text: `\frac{x+1}{x-1}`, `\dfrac{x+1}{x-1}`, `\tfrac{x+1}{x-1}`.
For binomial expressions such as `\binom{n}{k}`,
there are ``\binom``, ``\dbinom`` and ``\tbinom`` commands::
2^k-\binom{k}{1}2^{k-1}+\binom{k}{2}2^{k-2}
prints
.. math:: 2^k-\binom{k}{1}2^{k-1}+\binom{k}{2}2^{k-2}
The ``\cfrac`` command for continued fractions uses displaystyle and
padding for sub-fractions:
.. math:: \frac{\pi}{4} = 1 + \cfrac{1^2}{
2 + \cfrac{3^2}{
2 + \cfrac{5^2}{
2 + \cfrac{7^2}{2 + \cdots}
}}}
\qquad \text{vs.}\qquad
\frac{\pi}{4} = 1 + \frac{1^2}{
2 + \frac{3^2}{
2 + \frac{5^2}{
2 + \frac{7^2}{2 + \cdots}
}}}
It supports the optional argument ``[l]`` or ``[r]`` for
left or right placement of the numerator:
.. math:: \cfrac[l]{x}{x-1} \quad
\cfrac{x}{x-1} \quad
\cfrac[r]{x}{x-1}
Delimiter sizes
===============
Besides the automatic scaling of `extensible delimiters`_ with ``\left``
and ``\right``, there are four commands to manually select delimiters of
fixed size:
.. class:: colwidths-auto
========= ============== ============== ============== ============== =============== ===============
Sizing no ``\left`` ``\bigl`` ``\Bigl`` ``\biggl`` ``\Biggl``
command ``\right`` ``\bigr`` ``\Bigr`` ``\biggr`` ``\Biggr``
--------- -------------- -------------- -------------- -------------- --------------- ---------------
Result `\displaystyle `\displaystyle `\displaystyle `\displaystyle `\displaystyle `\displaystyle
(b) \left(b\right) \bigl(b\bigr) \Bigl(b\Bigr) \biggl(b\biggr) \Biggl(b\Biggr)
(\frac{c}{d})` \left(\frac{c} \bigl(\frac{c} \Bigl(\frac{c} \biggl(\frac{c} \Biggl(\frac{c}
{d}\right)` {d}\bigr)` {d}\Bigr)` {d}\biggr)` {d}\Biggr)`
========= ============== ============== ============== ============== =============== ===============
There are two or three situations where the delimiter size is commonly
adjusted using these commands:
The first kind of adjustment is done for cumulative operators with
limits, such as summation signs. With ``\left`` and ``\right`` the
delimiters usually turn out larger than necessary, and using the ``Big``
or ``bigg`` sizes instead gives better results:
.. math::
\left[\sum_i a_i\left\lvert\sum_j x_{ij}\right\rvert^p\right]^{1/p}
\text{ versus }
\biggl[\sum_i a_i\Bigl\lvert\sum_j x_{ij}\Bigr\rvert^p\biggr]^{1/p}
The second kind of situation is clustered pairs of delimiters, where
\left and \right make them all the same size (because that is adequate to
cover the encompassed material), but what you really want is to make some
of the delimiters slightly larger to make the nesting easier to see.
.. math:: \left((a_1 b_1) - (a_2 b_2)\right)
\left((a_2 b_1) + (a_1 b_2)\right)
\quad\text{versus}\quad
\bigl((a_1 b_1) - (a_2 b_2)\bigr)
\bigl((a_2 b_1) + (a_1 b_2)\bigr)
The third kind of situation is a slightly oversize object in running
text, such as `\left|\frac{b'}{d'}\right|` where the delimiters produced
by ``\left`` and ``\right`` cause too much line spreading. [#]_ In that case
``\bigl`` and ``\bigr`` can be used to produce delimiters that are larger
than the base size but still able to fit within the normal line spacing:
`\bigl|\frac{b'}{d'}\bigr|`.
.. [#] With MathML, an example would be parentheses
around a ``smallmatrix`` environment
`\left(\begin{smallmatrix} a & b \\ c & d \end{smallmatrix}\right)`
vs. `\Bigl(\begin{smallmatrix} a & b \\ c & d \end{smallmatrix}\Bigr)`.
Text
====
The main use of the command ``\text`` is for words or phrases in a
display. It is similar to ``\mbox`` in its effects but, unlike ``\mbox``,
automatically produces subscript-size text if used in a subscript,
``k_{\text{B}}T`` becomes `k_{\text{B}}T`.
Whitespace is kept inside the argument:
.. Math:: f_{[x_{i-1},x_i]} \text{ is monotonic for } i = 1,\,…,\,c+1
The text may contain math commands wrapped in ``$`` signs, e.g.
.. math:: (-1)^{n_i} = \begin{cases} -1 \quad \text{if $n_i$ is odd,} \\
+1 \quad \text{if $n_i$ is even.}
\end{cases}
.. TODO ignore {}, handle text-mode commands
.. TODO: ``\mod`` and its relatives
--------------------------
Commands ``\mod``, ``\bmod``, ``\pmod``, ``\pod`` deal with the special
spacing conventions of “mod” notation. ``\mod`` and ``\pod`` are
variants of ``\pmod`` preferred by some authors; ``\mod`` omits the
parentheses, whereas ``\pod`` omits the “mod” and retains the
parentheses.
\gcd(n,m\bmod n) ;\quad x\equiv y\pmod b
;\quad x\equiv y\mod c ;\quad x\equiv y\pod d
Integrals and sums
==================
The limits on integrals, sums, and similar symbols are placed either to
the side of or above and below the base symbol, depending on convention
and context. In inline formulas and fractions, the limits on sums, and
similar symbols like
.. math:: \lim_{n\to\infty} \sum_1^n \frac{1}{n}
move to index positions: `\lim_{n\to\infty} \sum_1^n \frac{1}{n}`.
Altering the placement of limits
--------------------------------
The commands ``\intop`` and ``\ointop`` produce integral signs with
limits as in sums and similar: `\intop_0^1`, `\ointop_c` and
.. math:: \intop_0^1 \quad \ointop_c
\quad \text{vs.} \quad
\int^1_0 \quad \oint_c
The commands ``\limits`` and ``\nolimits`` override the default placement
of the limits for any operator; ``\displaylimits`` forces standard
positioning as for the \sum command. They should follow immediately after
the operator to which they apply.
Compare the same term with default positions, ``\limits``, and
``\nolimits`` in inline and display mode: `\lim_{x\to0}f(x)`,
`\lim\limits_{x\to0}f(x)`, `\lim\nolimits_{x\to0}f(x)`, vs.
.. math:: \lim_{x\to0}f(x), \quad
\lim\limits_{x\to0}f(x) \quad
\lim\nolimits_{x\to0}f(x).
.. TODO: \substack
.. TODO: \sideset
Changing the size of elements in a formula
==========================================
The declarations [#]_ ``\displaystyle``, ``\textstyle``,
``\scriptstyle``, and ``\scriptscriptstyle``, select a symbol size and
spacing that would be applied in (respectively) display math, inline
math, first-order subscript, or second-order subscript, even when the
current context would normally yield some other size.
For example ``:math:`\displaystyle \sum_{n=0}^\infty
\frac{1}{n}``` is printed as `\displaystyle \sum_{n=0}^\infty \frac{1}{n}`
rather than `\sum_{n=0}^\infty \frac{1}{n}` and ::
\frac{\scriptstyle\sum_{n > 0} z^n}
{\displaystyle\prod_{1\leq k\leq n} (1-q^k)}
yields
.. math::
\frac{\scriptstyle\sum_{n > 0} z^n}
{\displaystyle\prod_{1\leq k\leq n} (1-q^k)}
\text{ instead of the default }
\frac{\sum_{n > 0} z^n}
{\prod_{1\leq k\leq n} (1-q^k)}.
.. [#] "Declarations" are commands that affect processing of the current
"group". In particular, notice where the braces fall that delimit the
effect of the command: Right: ``{\displaystyle ...}`` Wrong:
``\displaystyle{...}``.
With math_output_ MathML, the declaration must be the first element
after the opening bracket.
Appendix
========
Tests
-----
Font changes
~~~~~~~~~~~~
Math alphabet macros change the default alphabet ("mathvariant" in
MathML), leaving some symbols unchanged:
:normal: `abs(x) \pm \alpha \approx 3 \Gamma \quad \forall x \in R`
:mathrm: `\mathrm{abs(x) \pm \alpha \approx 3 \Gamma \quad \forall x \in R}`
:mathit: `\mathit{abs(x) \pm \alpha \approx 3 \Gamma \quad \forall x \in R}`
:mathsf: `\mathsf{abs(x) \pm \alpha \approx 3 \Gamma \quad \forall x \in R}`
:mathbb: `\mathbb{abs(x) \pm \alpha \approx 3 \Gamma \quad \forall x \in R}`
:mathbf: `\mathbf{abs(x) \pm \alpha \approx 3 \Gamma \quad \forall x \in R}`
:mathcal: `\mathcal{abs(x) \pm \alpha \approx 3 \Gamma \quad \forall x \in R}`
:mathscr: `\mathscr{abs(x) \pm \alpha \approx 3 \Gamma \quad \forall x \in R}`
Unicode supports the following blackboard-bold characters:
`\mathbb{a \ldots z A \ldots Z 0 \ldots 9
\mathbb\Gamma \mathbb{\Pi} \mathbb {\Sigma} \mathbb\gamma \mathbb\pi}`.
Inferred <mrow>s in MathML
~~~~~~~~~~~~~~~~~~~~~~~~~~
The elements <msqrt>, <mstyle>, <merror>, <mpadded>, <mphantom>, <menclose>,
<mtd>, <mscarry>, and <math> treat their contents as a single inferred mrow
formed from all their children.
.. math:: a = \sqrt 2 + x,\quad
b = \sqrt{1+x^2},\quad
c = \sqrt\frac{\sin(x)}{23},
inline: :math:`a = \sqrt 2 + x, b = \sqrt{1+x^2}, c = \sqrt\frac{\sin(x)}{23}`.
Scripts and Limits
~~~~~~~~~~~~~~~~~~
Accents should be nearer to the base (in MathML Firefox 78, it's vice versa!):
`\bar a \overline a, \bar l \overline l, \bar i \overline i`,
`\vec{r}` `\overrightarrow{r}`.
Sub- and superscript may be given in any order:
`x_i^j = x^j_i` and `\int_0^1 = \int^1_0`.
Double exponent: `x^{10^4}`, `r_{T_\mathrm{in}}` and `x_i^{n^2}`.
Nested groups
~~~~~~~~~~~~~
tex-token returns "{" for nested groups:
.. math:: \text{das ist ein {toller} text (unescaped \{ and \} is
ignored by LaTeX)}
Big delimiters and symbols
~~~~~~~~~~~~~~~~~~~~~~~~~~
Compare automatic sizing with fixed sizes:
.. math: \left( \frac{\frac1x}{\frac{1}{n}}\right) &= \Biggl(\text{Bigg}\Biggr)\\
.. math::
\left( 3 \right)
\left( f(x) \right)
\left( \bar x \right)
\left( \overline x \right)
\left( n_i \right) &= () \\
\left( \underline x \right) &= \bigl(\text{big}\bigr)\\
\left( 3^2 \right)
\left( \sqrt{3} \right)
\left( \sqrt{3^2} \right)
\left( \sum \right)
\left( \bigotimes \right)
\left( \prod \right) &= \Bigl(\text{Big}\Bigr)\\
\left( \frac{3 }{2} \right)
\left( \frac{3^2}{2^4} \right)
\binom{3 }{2}
\begin{pmatrix} a & b \\ c & d \end{pmatrix}
\left( \frac{1}{\sqrt 2} \right)
\left( \int \right)
\left( \int_0 \right)
\left( \int^1 \right)
\left( \int_0^1 \right) &= \biggl(\text{bigg}\biggr)\\
\left( \frac{\sqrt 2}{2} \right)
\left( \sum_0 \right)
\left( \sum^1 \right)
\left( \sum_0^1 \right)
\left( \frac{\frac1x}{\frac{1}{n}}\right) &= \Biggl(\text{Bigg}\Biggr)\\
\left( \intop_0 \right)
\left( \intop^1 \right)
\left( \intop_0^1 \right)
And in text:
:`()`: `\left(3 \right)
\left( f(x) \right)
\left( \bar x \right)
\left( \overline x \right)
\left( n_i \right)
\left( \sum \right)
\left( \sum_0 \right)
\left( \prod \right)`
:`\bigl(\text{big}\bigr)`: `\left(\underline x \right)
\left( 3^2 \right)
\binom{3}{2}
\left(\begin{smallmatrix} a & b \\
c & d \end{smallmatrix} \right)
\left( \bigotimes \right)`
:`\Bigl(\text{Big}\Bigr)`: `\left(\sqrt{3} \right)
\left( \sqrt{3^2} \right)
\left( \frac{3}{2} \right)
\left( \frac{3^2}{2^4} \right)
\left( \frac{\sqrt 2}{2} \right)
\left( \int \right)
\left( \int_0 \right)
\left( \int^1 \right)
\left( \int_0^1 \right)
\left( \sum^1 \right)
\left( \sum_0^1 \right)
\left( \frac{\frac1x}{\frac{1}{n}}\right)`
Test ``\left``, ``\right``, and the \bigl/\bigr, … size commands
with all extensible delimiters.
.. math::
\left.(b\right)\ \bigl(b\Bigr)\ \biggl(b\Biggr)
\quad
\left.[b\right]\ \bigl[b\Bigr]\ \biggl[b\Biggr]
\quad
\left.\{b\right \} \ \bigl\{b\Bigr \} \ \biggl\{b\Biggr \}
\quad
\left.\langle b\right\rangle\ \bigl\langle b\Bigr\rangle\ \biggl\langle b\Biggr\rangle
\left.\lceil b\right\rceil\ \bigl\lceil b\Bigr\rceil\ \biggl\lceil b\Biggr\rceil
\quad
\left.\lfloor b\right\rfloor\ \bigl\lfloor b\Bigr\rfloor\ \biggl\lfloor b\Biggr\rfloor
\quad
\left.\lvert b\right\rvert\ \bigl\lvert b\Bigr\rvert\
\biggl\lvert b\Biggr\rvert
\quad
\left.\lVert b\right\rVert\ \bigl\lVert b\Bigr\rVert\
\biggl\lVert b\Biggr\rVert
\left.\lgroup b\right\rgroup\ \bigl\lgroup b\Bigr\rgroup\ \biggl\lgroup b\Biggr\rgroup
\quad
\left.\lmoustache b\right\rmoustache\ \bigl\lmoustache b\Bigr\rmoustache\ \biggl\lmoustache b\Biggr\rmoustache
\quad
\left./b\right\backslash\ \bigl/b\Bigr\backslash\ \biggl/b\Biggr\backslash
\left.|b\right\|\ \bigl|b\Bigr\|\ \biggl|b\Biggr\|
\quad
\left.\vert b\right\Vert\ \bigl\vert b\Bigr\Vert\ \biggl\vert b\Biggr\Vert
\quad
\left.\arrowvert b\right\Arrowvert\ \bigl\arrowvert b\Bigr\Arrowvert\ \biggl\arrowvert b\Biggr\Arrowvert
\quad
\left.\bracevert b\right\bracevert\ \bigl\bracevert b\Bigr\bracevert\ \biggl\bracevert b\Biggr\bracevert
\quad
\left.\vert b\right\Vert\ \bigl\vert b\Bigr\Vert\ \biggl\vert b\Biggr\Vert
Variable-sized operators:
Inline: `\int\ \iint\ \iiint\ \iiiint\ \idotsint \oint\ \smallint\
\sum\ \prod\ \coprod\ \bigwedge\ \bigvee\ \bigcap\ \bigcup\ \biguplus\
\bigsqcup\ \bigodot\ \bigoplus\ \bigotimes` and Display:
.. math:: \int\ \iint\ \iiint\ \iiiint\ \idotsint\ \oint\ \smallint\
\sum\ \prod\ \coprod\ \bigwedge\ \bigvee\ \bigcap\ \bigcup\
\biguplus\ \bigsqcup\ \bigodot\ \bigoplus\ \bigotimes
.. math:: \int_1 f\ \intop_1 f\ \iint_1 f\ \smallint_1 f\ \sum_1\
\prod_1\ \bigwedge_1\ \bigcap_1\ \biguplus_1\ \bigodot_1\ \int^N\
\intop^N\ \iiiint^N\ \oint^N\ \smallint^N\ \sum^N\ \coprod^N\
\bigvee^N\ \bigcup^N\ \bigsqcup^N\ \bigotimes^N
.. math:: \int_1^N\ \intop_1^N\ \iint_1^N\ \iiint_1^N\ \iiiint_1^N\
\idotsint_1^N\ \oint_1^N\ \smallint_1^N\ \sum_1^N\ \prod_1^N\
\coprod_1^N\ \bigwedge_1^N\ \bigvee_1^N\ \bigcap_1^N\ \bigcup_1^N
\ \biguplus_1^N\ \bigsqcup_1^N\ \bigodot_1^N\ \bigoplus_1^N\
\bigotimes_1^N
Text
~~~~
The text may contain non-ASCII characters: `n_\text{Stoß}`.
Some text-mode LaTeX commands are supported with math_output_ "html".
In other output formats, use literal Unicode: `\text{ç é è ë ê ñ ů ž ©}`
to get the result of the accent macros
`\text{\c{c} \'e \`e \"e \^e \~n \r{u} \v{z} \textcircled{c}}`.
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