Latex preprocessor — apply macro definitions, remove comments, and more
Project description
Latex preprocessor — apply macro definitions, remove comments, and more
Disclaimer: latexpp is still at an experimental development stage.
Installation
You can install latexpp using pip directly from latexpp’s github repo:
> pip install git+https://github.com/phfaist/latexpp.git
How it works
The latex preprocessor latexpp reads your main latex document and copies it to an output directory while applying a series of “fixes” that you can configure. For instance, you can remove comments, you can include files that you input with \input macros, or you can replace custom macros by their LaTeX expansion.
You run latexpp in a folder with a lppconfig.yml file that specifies the necessary information such as the main LaTeX document, the output directory, and which fixes to apply.
Sample lppconfig.yml:
# latexpp config for MyDocument.tex
#
# This is YAML syntax -- google "YAML tutorial" to get a quick intro. Be
# careful with spaces since indentation is important.
# the master LaTeX document -- this file will not be modified, all output will
# be produced in the output_dir
fname: 'MyDocument.tex'
# output file(s) will be created in this directory, originals will not be
# modified
output_dir: 'latexpp_output'
# main document file name in the output directory
output_fname: 'paper.tex'
# specify list of fixes to apply, in the given order
fixes:
# replace \input{...} directives by the contents of the included file
- 'latexpp.fixes.input.EvalInput'
# remove all comments
- 'latexpp.fixes.comments.RemoveComments'
# copy any style files (.sty) that are used in the document and that
# are present in the current directory to the output directory
- 'latexpp.fixes.usepackage.CopyLocalPkgs'
# copy figure files to the output directory and rename them fig-1.xxx,
# fig-2.xxx, etc.
- 'latexpp.fixes.figures.CopyAndRenameFigs'
# Replace \bibliography{...} by \input{xxx.bbl} and copy the bbl file to the
# output directory. Make sure you run (pdf)latex on the main docuemnt
# before running latexpp
- 'latexpp.fixes.bib.CopyAndInputBbl'
# Expand some macros. Latexpp doesn't parse \newcommand's, so you need to
# specify here the LaTeX code that the macro should be expanded to. If the
# macro has arguments, specify the nature of the arguments here in the
# 'argspec:' key (a '*' is an optional * character, a '[' one optional
# square-bracket-delimited argument, and a '{' is a mandatory argument). The
# argument values are available via the placeholders %(1)s, %(2)s, etc. Make
# sure to use single quotes for strings that contain \ backslashes.
- name: 'latexpp.fixes.macro_subst.Subst'
config:
macros:
# \tr --> \operatorname{tr}
tr: '\operatorname{tr}'
# \ket{\psi} --> \lvert{\psi}\rangle
ket:
argspec: '{'
repl: '\lvert{%(1)s}\rangle'
# \braket{\psi}{\phi} --> \langle{\psi}\vert{\phi}\rangle
braket:
argspec: '{{'
repl: '\langle{%(1)s}\vert{%(2)s}\rangle'
The config file follows standard YAML syntax (if you’re in doubt, google a YAML tutorial).
Documentation is available at latexpp.readthedocs.io. You can also explore the latexpp/fixes/ directory for the list of possible fixes. The documentation is still a little sparse at the moment (I wrote this preprocessor in the matter of a few days, and I won’t have tons of time to devote to it). But the python source is fairly short and should be relatively decipherable.
Each fix is specified by a qualified python class name. For instance, latexpp.fixes.comments.RemoveComments invokes class RemoveComments from the python module latexpp.fixes.comments. You can specify custom arguments to the class constructor by using the syntax with the ‘name:’ and ‘config:’ keys as shown above. The keys in each ‘config:’ section are directly passed on to the class constructor as corresponding keyword arguments.
The fixes in the latexpp/fixes/pkg/ directory are those fixes that are supposed to apply all definitions of the corresponding package in order to remove a dependency on that package.
It’s also straightforward to write your own fix classes to do more complicated stuff. Create a python package (a new folder mypackage with an empty __init__.py file) and create a python module (e.g. myfixmodule.py) in that package that defines your fix class (e.g. MyFix). You can get inspiration from one of the simple examples in the latexpp/fixes/ folder. Set up your $PYTHONPATH so that your python package is exposed to python. Then simply specify the pacakge/module your fix is located in in the YAML file, e.g., mypackage.myfixmodule.MyFix instead of latexpp.fixes.xxxxx.YYYY.
How it actually works
The latexpp preprocessor relies on pylatexenc 2.0 to parse the latex document into an internal node structure. For instance, the chunk of latex code:
Hello, \textit{world}! % show a greeting
will be parsed into a list of four nodes, a ‘normal characters node’ "Hello, ", a ‘macro node’ \textit with argument a ‘group node’ {world} which itself contains a ‘normal characters node’ world, a ‘normal characters node’ "! ", and a ‘latex comment node’ % show a greeting. The structure is recursive, with e.g. macro arguments and environment contents themselves represented as nodes which can contain further macros and environments. See pylatexenc.latexwalker for more information. The pylatexenc library has a list of some known macros and environments, and knows how to parse their arguments. Some fixes in latexpp add their own macro and environment definitions.
Once the latex document is parsed into the node structure, the document is processed by the given list of fixes. Each fix is called in turn. Each fix traverses the document node structure and applies any relevant changes.
License
(C) 2019 Philippe Faist, philippe dot faist <at@at> bluewin dot ch
MIT Licence, see License.txt
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