I have a serious problem with rendering tables in Moodle once I upload the Moodle XML file generated by R-exams package to Moodle. I am using exercise files in .Rmd format handed to me from a previous professor's assistant. These .Rmd files contain lots of tables using Latex language. Once I upload the Moodle XML file, all of these tables are simply missing. I have tried to look up a solution, but could not find anything helpful on this.
Interestingly, these tables are rendered properly into PDF when using "exams2pdf" command in R-studio. However, when using "exams2moodle", these tables are simply not shown in Moodle.
I am showing an example of the table in one of these .Rmd files below:
I would appreciate if anyone could provide any guidance, as I got really stuck with this issue.
TL;DR: The problem is that you mix an exercise in Markdown format with LaTeX content. This only works if the rendering goes via LaTeX (see below for details). Instead you could convert your question from R/Markdown (.Rmd) to R/LaTeX (.Rnw) - or convert the formatting of the table from LaTeX to Markdown. Both would be feasible in this case. If you need help with this, please share (a link to) the code for the exercise and not just a screenshot of parts of it.
Hint: If you're using at least version 2.4-0 of exams, exams2moodle() gained an argument table where you can set a class for formatting the table a bit more nicely, e.g., table = "table_shade" or "table_rule" or "table_grid".
Details: You have a question in R/Markdown format which contains a table in LaTeX format. When you use exams2pdf() this works because rendering works in the following steps:
knit R/Markdown to Markdown (preserving the LaTeX table).
Convert Markdown to LaTeX via pandoc (preserving the LaTeX table).
Render LaTeX (including the table) to PDF using texi2pdf or latexmk.
Thus, it is crucial that you do a rendering step from LaTeX to the output format. This is not the case though for exams2moodle() or other engines based on HTML output. The steps are just:
knit R/Markdown to Markdown (preserving the LaTeX table).
Convert Markdown to HTML via pandoc (which does not know how to render the LaTeX table and hence drops it).
Embed HTML in XML for Moodle.
Thus, the problem is that there is no rendering or transformation step from LaTeX in this case. The same would be true if you had R/Markdown exercises with HTML content. These could be rendered with exams2moodle() because the HTML would just need to be preserved - but not with exams2pdf() because the HTML would not be converted to LaTeX.
I'm trying to use lua filters to capture images in my manuscript and list their caption in a special \section at the end of it.
I am working on a rmarkdown document that itself uses a .tex template.
I wasn't able to get anywhere, so I run a very simple filter:
function Header (head) print(pandoc.utils.stringify(head)) end
and noticed that just the headers in the markdown were recognized, not the ones in the ones in the template.
The only way I found to have lua filters recognize the elements in the template was to rerun the produced .tex file with pandoc:
pandoc -f latex -t latex -o test2.tex --lua-filter=my_filters.lua test.tex
but that removed all latex formatting and structure content outside the body, e.g., \documentclass, \usepackage and other custom commands. So it's a no go.
So the question is, is there a way to force lua filter to be applied after the integration of a latex template when knitting a rmarkdown document?
There might be a way, but it most likely won't do what you need.
When pandoc reads a document, it parses it and converts it into it's internal data structure. That internal structure can then be modified with a filter. LaTeX is a very expressive and complex document format, and any conversion from LaTeX into pandoc's internal format will result in a loss of (layout) information. That's good enough in most cases, but would be a problem in your case.
There are two possible ways to do this: one is to post-process the output, which is probably tedious and error-prone. The other is to find a way to generate the desired output, e.g. via a pandoc filter, without adding it to the template first.
I believe your other question is the right way to go.
Ok, so I'm converting Word documents to Latex using Pandoc.
Embedded in my word documents are some latex commands that I've constructed using my reference manager to automatically generate Bibtex citations (i.e. \citep{Author1_Author2_Year}.
This would work perfectly, but I need to get pandoc to skip over these sections of the document as currently it is escaping the characters for latex (i.e. it is converted to \citep{Author1_Author2_Year}.
So, what I want to do is tell pandoc to omit conversion each time it reaches a \citep{*} command. I've read the manual, but there doesn't seem to be a straightforward way of doing this.
Am I missing something obvious here? I'm trying to avoid writing another script to go over the tex document and amend the citations.
If you use the pandoc syntax for citations and run pandoc as follows, it will work:
In your one.docx you write:
I want to cite #knuth1984texbook.
With
pandoc -o two.md one.docx
you prepare your markdown-document. Then you create your latex-document:
pandoc --biblatex -o three.tex two.md
and you get three.tex:
I want to cite \textcite{knuth1984texbook}.
Preamble and Postamble are missing. So with
pandoc --standalone --biblatex -o three.tex two.md
you get a complete latex-file, that you can compile with latex.
What is the best way to take care of citations in Ipython Notebook? Ideally, I would like to have a bibtex file, and then, as in latex, have a list of shorthands in Ipython markdown cells, with the full references at the end of the notebook.
The relevant material I found is this: http://nbviewer.ipython.org/github/ipython/nbconvert-examples/blob/master/citations/Tutorial.ipynb
But I couldn't follow the documentation very well. Can anyone explain it? Thanks so much!!
Summary
This solution is largely based on Sylvain Deville's excellent blog post. It allows you to simply write [#citation_key] in markdown cells. The references will be formatted after document conversion. The only requirements are LaTeX and pandoc, which are both widely supported. While there is never a guarantee, this approach should therefore still work in many years time.
Step-by-Step Guide
In addition to a working installation of jupyter you need:
LaTeX (installation guide).
Pandoc (installation guide).
A citation style language. Download a citation style, e.g., APA. Save the .csl file (e.g., apa.csl) into the same folder as your jupyter notebook (or specify the path to the .csl file later).
A .bib file with your references. I am using a sample bib file list.bib. Save to the same folder as your jupyter notebook (or specify the path to the .bib file later).
Once you completed these steps, the rest is easy:
Use markdown syntax for references in markdown cells in your jupyter notebook. E.g., [#Sh:1] where the syntax works like this: ([#citationkey_in_bib_file]). I much prefer this syntax over other solutions because it is so fast to type [#something].
At the end of your ipython notebook, create a code cell with the following syntax to automatically convert your document (note that this is R code, use an equivalent command to system() for python):
#automatic document conversion to markdown and then to word
#first convert the ipython notebook paper.ipynb to markdown
system("jupyter nbconvert --to markdown paper.ipynb")
#next convert markdown to ms word
conversion <- paste0("pandoc -s paper.md -t docx -o paper.docx",
" --filter pandoc-citeproc",
" --bibliography="listb.bib",
" --csl="apa.csl")
system(conversion)
Run this cell (or simply run all cells). Note that the 2nd system call is simply pandoc -s paper.md -t docx -o paper.docx --filter pandoc-citeproc --bibliography=listb.bib --csl=apa.csl. I merely used paste0() to be able to spread this over multiple lines and make it nicer to read.
The output is a word document. If you prefer another document, check out this guide for alternative syntax.
#Extras
If you do not like that your converted document includes the syntax for the document conversion, insert a markdown cell above and below the code cell with the syntax for the conversion. In the cell above, enter <!-- and in the cell below enter -->. This is a regular HTML command for a comment, so the syntax will in between these two cells will be evaluated but not printed.
You can also include a yaml header in your first cell. E.g.,
---
title: This is a great title.
author: Author Name
abstract: This is a great abstract
---
You can use the Document Tools of the Calico suite, which can be installed separately with:
sudo ipython install-nbextension https://bitbucket.org/ipre/calico/downloads/calico-document-tools-1.0.zip
Read the tutorial and watch the YouTube video for more details.
Warning: only the cited references are processed. Therefore, if you fail to cite an article, it won't appear in the References section. As a little working example, copy the following in a Markdown cell and press the "book" icon.
<!--bibtex
#Article{PER-GRA:2007,
Author = {P\'erez, Fernando and Granger, Brian E.},
Title = {{IP}ython: a System for Interactive Scientific Computing},
Journal = {Computing in Science and Engineering},
Volume = {9},
Number = {3},
Pages = {21--29},
month = may,
year = 2007,
url = "http://ipython.org",
ISSN = "1521-9615",
doi = {10.1109/MCSE.2007.53},
publisher = {IEEE Computer Society},
}
#article{Papa2007,
author = {Papa, David A. and Markov, Igor L.},
journal = {Approximation algorithms and metaheuristics},
pages = {1--38},
title = {{Hypergraph partitioning and clustering}},
url = {http://www.podload.org/pubs/book/part\_survey.pdf},
year = {2007}
}
-->
Examples of citations: [CITE](#cite-PER-GRA:2007) or [CITE](#cite-Papa2007).
This should result in the following added Markdown cell:
References
^ PĂ©rez, Fernando and Granger, Brian E.. 2007. IPython: a System for Interactive Scientific Computing. URL
^ Papa, David A. and Markov, Igor L.. 2007. Hypergraph partitioning and clustering. URL
I was able to run it with the following approach:
Insert the html citation as in the tutorial you mentioned.
Create ipython.bib in the "standard" bibtex format. It goes into the same file as your *.ipynb notebook file.
Create the template file as in the tutorial, also in the same directory or else in the (distribution dependent) directory with the other templates. On my system, that's /usr/local/lib/python2.7/dist-packages/IPython/nbconvert/templates/latex.
The tutorial has the template extend latex_article.tplx. On my distribution, it's article.tplx (without latex_).
Run nbconvert with --to latex; that generates an .aux file among other things. Latex will complain about missing references.
Run bibtex yournotebook.aux; this generates yournotebook.bbl. You only need to re-run this if you change references.
Re-run nbconvert either with --to latex or with --to pdf. This generates a .tex file, or else runs all the way to a .pdf.
If you want html output, you can use pandoc to assemble the references into a tidy citation page. This may require some hand-editing to make an html page you can reference from your main document.
If you know that you will be converting your notebook to latex anyway, consider simply adding a "Raw" cell (Ctrl+M R) to the end of the document, containing the bibliography just as you would put it in pure LaTeX.
For example, when I need to reference a couple of external links, I would not even care to do a proper BibTeX thing and simply have a "Raw" cell at the end of the notebook like that:
\begin{thebibliography}{1}
\bibitem{post1}
Holography in Simple Terms. K.Tretyakov (blog post), 2015.\\
\url{http://fouryears.eu/2015/07/24/holography-in-simple-terms/}
\bibtem{book1}
The Importance of Citations. J. Smith. 2010.
\end{thebibliography}
The items can be cited in other Markdown cells using the usual <cite data-cite="post1">(KT, 2015)</cite>
Of course, you can also use proper BibTeX as well. Just add the corresponding Raw cell, e.g:
\bibliographystyle{unsrt}
\bibliography{papers}
This way you do not have to bother editing a separate template file (at the price of cluttering the notebook's HTML export with raw Latex, though).
You should have a look at the latex_envs extension in https://github.com/ipython-contrib/IPython-notebook-extensions (install from this repo, it is the most recent version). This extension contains a way to integrate bibliography using bibtex files and standard latex notation, and generates a bibliography section at the end of the notebook. Style of citations can be (to some extent) customized. Some documentation here https://rawgit.com/jfbercher/latex_envs/master/doc/latex_env_doc.html
I have a "project book" which uses LaTeX's \documentclass{report} ("report" is like a more compact version of \documentclass{book}). I would like to include into this book an appendix with the Doxygen-generated API documentation for the software in the project.
I have achieved this by setting Doxygen's config options LATEX_HEADER and LATEX_FOOTER to an empty file. This makes the resulting latex/refman.tex have top level commands like: \section{\-Namespace \-Index}, at which point I can wrap this with a top level document like:
\documentclass{report}
\usepackage{doxygen.sty}
% the "import" package helps to find Doxygen files in the latex/ subdirectory
\usepackage{import}
% [...] title page and the rest of the book
\appendix
\chapter{API reference (generated by Doxygen)
subimport{latex/}{refman.tex}
% [...] final stuff
\end{document}
This works reasonably well and I get doxygen.sty with this special doxygen invocation:
doxygen -w latex /dev/null /dev/null doxygen.sty
One problem is that this puts an "autogenerated" header on the entire document (not just on the doxygen appendix). I can get rid of this by editing doxygen.sty (I also rename it for my inclusion, actually) and commenting out the block that starts with % Setup fancy headings.
At this point I have something I can live with, but I would like to go one step further: the "doxygen" style modifies a lot of other aspects of the LaTeX document style, and I like it less.
So my question is (in two levels of excellence):
What would be a minimal set of LaTeX commands to put in a doxygen.sty file that would nicely render the doxygen appendix but not interfere with the rest of the LaTeX document?
Even better, has someone come up with a way of doing
\usepackage{doxygen_standalone}
% [... until you need doxygen]
\begin{doxygen}
% the stuff you need to insert your auto-generated doxygen API docs,
% for example the \subimport{latex/}{refman.tex} that I showed above
\end{doxygen}
This last approach is one I would consider very clean.
I'm hoping there is a really simple answer, such as "this already exists in doxygen.sty as an option, and you missed it!"
rename doxygen.sty to mydoxygen.sty, then modify it by inserting
\newenvironment{doxygen}{... most of doxygen.sty goes here ...}{}