# Sweave for python

I've recently started using Sweave* for creating reports of analyses run with R, and am now looking to do the same with my python scripts.

I've found references to embedding python in Sweave docs, but that seems like a bit of a hack. Has anyone worked out a better solution, or is there an equivalent for python I'm not aware of?

* Sweave is a tool that allows to embed the R code for complete data analyses in latex documents

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"the same"? What does "the same" mean? Run Python inside a latex script? –  S.Lott Jan 29 '10 at 11:07

## 8 Answers

I don't believe that there's a direct equivalent, so Romain Francois's suggestion (in your link) is probably the best. You might also want to consider the following:

1. Have a look at PyLit and PyReport which are intended for literate programming with Python.
2. Sphinx is great for documenting with python, and can output LaTex.
3. Here's a list of tools for literate programming. Some of these work with any programming language.
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I have written a Python implementation of Sweave called Pweave that implements basic functionality and some options of Sweave for Python code embedded in reST or Latex document. You can get it here: http://mpastell.com/pweave and see the original blog post here: http://mpastell.com/2010/03/03/pweave-sweave-for-python/

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Very nice! Can't wait to try it. –  Shane Mar 3 '10 at 4:09

Dexy is a very similar product to Sweave. One advantage of Dexy is that it is not exclusive to one single language. You could create a Dexy document that included R code, Python code, or about anything else.

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This is a bit late, but for future reference you might consider my PythonTeX package for LaTeX. PythonTeX allows you enter Python code in a LaTeX document, run it, and bring back the output. But unlike Sweave, the document you actually edit is a valid .tex document (not .Snw or .Rnw), so editing the non-code part of the document is fast and convenient.

PythonTeX provides many features, including the following:

• The document can be compiled without running any Python code; code only needs to be executed when it is modified.
• All Python output is saved or cached.
• Code runs in user-defined sessions. If there are multiple sessions, sessions automatically run in parallel using all available cores.
• Errors and warnings are synchronized with the line numbers of the .tex document, so you know exactly where they came from.
• Code can be executed, typeset, or typeset and executed. Syntax highlighting is provided by Pygments.
• Anything printed by Python is automatically brought into the .tex document.
• You can customize when code is re-executed (modified, errors, warnings, etc.).
• The PythonTeX utilities class is available in all code that is executed. It allows you to automatically track dependencies and specify created files that should be cleaned up. For example, you can set the document to detect when the data it depends on is modified, so that code will be re-executed.

A basic PythonTeX file looks like this:

\documentclass{article}
\usepackage{pythontex}

\begin{document}

\begin{pycode}
#Whatever you want here!
\end{pycode}

\end{document}

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You might consider noweb, which is language independent and is the basis for Sweave. I've used it for Python and it works well.

http://www.cs.tufts.edu/~nr/noweb/

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I've restructured Matti's Pweave a bit, so that it is possible to define arbitrary "chunk-processors" as plugin-modules. This makes it easy to extend for several chunk-based text-preprocessing applications. The restructured version is available at https://bitbucket.org/edgimar/pweave/src. As an example, you could write the following LaTeX-Pweave document (notice the "processor name" in this example is specified with the name 'mplfig'):

\documentclass[a4paper]{article}
\usepackage{graphicx}
\begin{document}
\title{Test document}
\maketitle

Don't miss the great information in Figure \ref{myfig}!

<<p=mplfig, label=myfig, caption = "Figure caption...">>=
import sys
import pylab as pl

pl.plot([1,2,3,4,5],['2,4,6,8,10'], 'b.', markersize=15)
pl.axis('scaled')
pl.axis([-3,3, -3,3]) # [xmin,xmax, ymin,ymax]
@

\end{document}

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You could try SageTeX which implements Sweave-Like functionality for the SAGE mathematics platform. I haven't played around with it as much as I would like to, but SAGE is basically a python shell and evaluates python as it's native language.

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I have also thought about the same thing many times. After reading your questions and looking into your link I made small modifications to the custom python Sweave driver, that you link to. I modified it to also keep the source code and produce the output as well the same way that Sweave does for R.

I posted the modified version and an example here: http://mpastell.com/2010/02/09/python-in-sweave-document/

Granted, it is not optimal but I'm quite happy with the output and I like the ability to include both R and Python in the same document.

Edit about PyLit:

I also like PyLit and contrary to my original answer you can catch ouput with it as well, although it not as elegant as Sweave! Here is a small example how to do it:

import sys

# Catch PyLit output

a = range(3)
sys.stdout = open('output.txt', 'w')
print a
sys.stdout = sys.__stdout__

# .. include:: output.txt

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