Version 11 (modified by Scartill, 6 years ago) (diff) |
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# Render Latex formula to image

## Description

Render a latex formula to an image using Latex, dvips, and ImageMagick.

The images are named based on a sha1 hash of the formula and parameters, so that images don't have to be regenerated every time they are viewed.

In order to create the image from the formula text, the following is performed:

- create .tex file in temporary directory
- run latex on .tex file to produce .dvi file
- run dvips on .dvi file to produce .eps file
- run convert on .eps file to produce .jpg file

## Requirements

- latex
- dvips
- convert (from the ImageMagic package)
- ghostscript

## Bugs/Feature Requests

**2006-04-20 update**: This was originally created for a project which was using Trac 0.8. However, that project went away and so I haven't been using Trac. I haven't done anything with the latex hack since then, but other people have provided some patches for newer versions of Trac & other features. I've imported patch #132, but if someone wants to take over this page and continue development, please do.

Known tickets / patches: #65 #132 #168 #237 #248 #315

Existing bugs and feature requests for LatexFormulaMacro are here.

If you have any issues, create a new ticket.

## Download

LatexFormulaMacro for 0.9 or 0.10.

LatexFormulaMacro for 0.11 in attachment.

## Source

You can check out the source for LatexFormulaMacro from Subversion at http://trac-hacks.org/svn/latexformulamacro.

## Example

By default, the latex code is rendered in math mode. This allows for quick math expressions. There is also a built-in macro called "mat" which is used for formatting matricies, like this:

[[formula(\mat{R'\\G'\\B'} = \mathbf{A} \mat{R\\G\\B} + \mathbf{x})]]

For more complicated usage, use the {{{ ... }}} format and the "nomode" command to disable the display-math mode:

{{{ #!formula #nomode A more complicated equation should be typeset in {\em displayed math\/} mode, like this: \[ z \left( 1 \ +\ \sqrt{\omega_{i+1} + \zeta -\frac{x+1}{\Theta +1} y + 1} \ \right) \ \ \ =\ \ \ 1 \] }}}

## Author/Contributors

**Author:** vgough

**Contributors:**