
Math support in Sphinx
**********************

New in version 0.5.

Since mathematical notation isn't natively supported by HTML in any
way, Sphinx supports math in documentation with two extensions.

The basic math support that is common to both extensions is contained
in ``sphinx.ext.mathbase``.  Other math support extensions should, if
possible, reuse that support too.

Note: ``mathbase`` is not meant to be added to the ``extensions`` config
  value, instead, use either ``sphinx.ext.pngmath`` or
  ``sphinx.ext.jsmath`` as described below.

The input language for mathematics is LaTeX markup.  This is the de-
facto standard for plain-text math notation and has the added
advantage that no further translation is necessary when building LaTeX
output.

``mathbase`` defines these new markup elements:

:math:

   Role for inline math.  Use like this:

      Since Pythagoras, we know that :math:`a^2 + b^2 = c^2`.

.. math::

   Directive for displayed math (math that takes the whole line for
   itself).

   The directive supports multiple equations, which should be
   separated by a blank line:

      .. math::

         (a + b)^2 = a^2 + 2ab + b^2

         (a - b)^2 = a^2 - 2ab + b^2

   In addition, each single equation is set within a ``split``
   environment, which means that you can have multiple aligned lines
   in an equation, aligned at ``&`` and separated by ``\\``:

      .. math::

         (a + b)^2  &=  (a + b)(a + b) \\
                    &=  a^2 + 2ab + b^2

   For more details, look into the documentation of the AmSMath LaTeX
   package.

   When the math is only one line of text, it can also be given as a
   directive argument:

      .. math:: (a + b)^2 = a^2 + 2ab + b^2

   Normally, equations are not numbered.  If you want your equation to
   get a number, use the ``label`` option.  When given, it selects a
   label for the equation, by which it can be cross-referenced, and
   causes an equation number to be issued.  See ``eqref`` for an
   example.  The numbering style depends on the output format.

   There is also an option ``nowrap`` that prevents any wrapping of
   the given math in a math environment.  When you give this option,
   you must make sure yourself that the math is properly set up.  For
   example:

      .. math::
         :nowrap:

         \begin{eqnarray}
            y    & = & ax^2 + bx + c \\
            f(x) & = & x^2 + 2xy + y^2
         \end{eqnarray}

:eq:

   Role for cross-referencing equations via their label.  This
   currently works only within the same document.  Example:

      .. math:: e^{i\pi} + 1 = 0
         :label: euler

      Euler's identity, equation :eq:`euler`, was elected one of the most
      beautiful mathematical formulas.


``sphinx.ext.pngmath`` -- Render math as PNG images
===================================================

This extension renders math via LaTeX and dvipng into PNG images.
This of course means that the computer where the docs are built must
have both programs available.

There are various config values you can set to influence how the
images are built:

pngmath_latex

   The command name with which to invoke LaTeX.  The default is
   ``'latex'``; you may need to set this to a full path if ``latex``
   is not in the executable search path.

   Since this setting is not portable from system to system, it is
   normally not useful to set it in ``conf.py``; rather, giving it on
   the **sphinx-build** command line via the *-D* option should be
   preferable, like this:

      sphinx-build -b html -D pngmath_latex=C:\tex\latex.exe . _build/html

   Changed in version 0.5.1: This value should only contain the path
   to the latex executable, not further arguments; use
   ``pngmath_latex_args`` for that purpose.

pngmath_dvipng

   The command name with which to invoke ``dvipng``.  The default is
   ``'dvipng'``; you may need to set this to a full path if ``dvipng``
   is not in the executable search path.

pngmath_latex_args

   Additional arguments to give to latex, as a list.  The default is
   an empty list.

   New in version 0.5.1.

pngmath_latex_preamble

   Additional LaTeX code to put into the preamble of the short LaTeX
   files that are used to translate the math snippets.  This is empty
   by default.  Use it e.g. to add more packages whose commands you
   want to use in the math.

pngmath_dvipng_args

   Additional arguments to give to dvipng, as a list.  The default
   value is ``['-gamma 1.5', '-D 110']`` which makes the image a bit
   darker and larger then it is by default.

   An arguments you might want to add here is e.g. ``'-bg
   Transparent'``, which produces PNGs with a transparent background.
   This is not enabled by default because some Internet Explorer
   versions don't like transparent PNGs.

   Note: When you "add" an argument, you need to reproduce the default
     arguments if you want to keep them; that is, like this:

        pngmath_dvipng_args = ['-gamma 1.5', '-D 110', '-bg Transparent']

pngmath_use_preview

   ``dvipng`` has the ability to determine the "depth" of the rendered
   text: for example, when typesetting a fraction inline, the baseline
   of surrounding text should not be flush with the bottom of the
   image, rather the image should extend a bit below the baseline.
   This is what TeX calls "depth".  When this is enabled, the images
   put into the HTML document will get a ``vertical-align`` style that
   correctly aligns the baselines.

   Unfortunately, this only works when the preview-latex package is
   installed.  Therefore, the default for this option is ``False``.


``sphinx.ext.jsmath`` -- Render math via JavaScript
===================================================

This extension puts math as-is into the HTML files.  The JavaScript
package jsMath is then loaded and transforms the LaTeX markup to
readable math live in the browser.

Because jsMath (and the necessary fonts) is very large, it is not
included in Sphinx.  You must install it yourself, and give Sphinx its
path in this config value:

jsmath_path

   The path to the JavaScript file to include in the HTML files in
   order to load JSMath.  There is no default.

   The path can be absolute or relative; if it is relative, it is
   relative to the ``_static`` directory of the built docs.

   For example, if you put JSMath into the static path of the Sphinx
   docs, this value would be ``jsMath/easy/load.js``.  If you host
   more than one Sphinx documentation set on one server, it is
   advisable to install jsMath in a shared location.
