This template templates turns README files hosted in a GitHub repo into a
formatted manuscript. In practice, this involves converting the README.md
file
into various LaTeX files, an interactive website, and an OpenDocument text file
(for use in Word, or to generate track changes).
The workflow is entirely GitHub-based, so the manuscript file is contained
entirely in the README. There are a few differences with "normal" markdown (or
with GFM, the most commonly used variant). First, because manuscripts require
extensive metadata, the metadata are stored in a JSON file, as opposed to a YAML
front-matter. Second, we use the
pandoc-crossref
filter to
generate references to figures and tables, which are not rendered when looking
at the README on Github. Everything else is standard markdown.
There are two important folders: figures
and appendix
. Both of them will
remain in the repository even if they are empty (they come with a .gitkeep
file). The figures
folder is where figures are stored, and the appendix
folder is where you can put markdown files for the appendices. Note that the
appendices will come with their own bibliography (which draws from the global
references.bib
file at the root of the project).
The actual typesetting is handled by another repository, which is located at
PoisotLab/manuscript-typesetter.
If you don't feel like running foreign code on your repo, you are absolutely
correct. This is why the GitHub action file associated to this template will
specify which release of the typesetter will be downloaded, so that you can
inspect what the typesetting steps are doing. The typesetting versions follow
semantic versioning, so as long the major (as in major.minor.patch
) version
remains the same, you will not need to change your README.md
or
metadata.json
.
In short: they convert the bibliography into a CSL JSON, reformat the metadata
so they are usable with pandoc templates, downloads a whole bunch of binaries to
do the typesetting (as well as the TeX Gyre fonts we use for text, and the
JuliaMono
font we use for code), and then return everything as a compressed
file, which is then deployed using GitHub pages.
All documents will be deployed to gh-pages
only on push events from the
main
branch. All of the artifacts will be built when doing pull requests, so
you can check that merging a branch is not going to cause the compilation of
the documents to fail; indeed, you can download the artifacts produced during
the run, to check the PDF and html files. The website is only updated from the
main
branch. When doing a pull request, you will be notified of the word count
of the manuscript (approximate, and excluding references).
If you want to use the typesetting system locally, you can. We do not
recommend it, but you absolutely can. All you need to do is make sure it is
downloaded in the .typesetter
folder in your repository (which is going to be
ignored by git
by default), and then install Julia
(we know...), and then
run the top-level script. Again, we definitely advise against running things
locally.
The process of deploying this template has been greatly streamlined from
previous versions. Click on the "Use this template" button at the top of the
Github repo, making sure to check the option to import all branches (this will
import gh-pages
and allow deploys to start immediately). An example is given
in @fig:clone.
When this is done, you can open your own repository, edit README.md
with your
own text, commit, and push. This will trigger the website build, which will
become available at http://you.github.io/repo-name/
. You can then edit the
references.bib
file, change the logo.png
file, and update the
metadata.json
file. Every time you push a new commit, everything will be
updated.
The metadata.json
file provided with this template is reasonably complete, but
the full format is explained in the Supp. Mat. on the metadata specification.
From the website, Supp. Mat. can be accessed at the very bottom of the page.
The references are managed by pandoc
. References must be stored in a
references.bib
file, and that it would make sense to order it alphabetically
by key, but this makes no difference.
We use Zotero for references management, and for the lab's manuscripts, we work from folders in a shared library (with a folder for every manuscript).
We recommend the Better BibTeX
plugin for citation key generations, and auto-export of the shared library to
the references.bib
file. We use a citation key format meant to convey
information on the author (first author full name), date (complet year), and
title (first non-stop-word word of the title). It must be set in the Better
BibTeX preferences as (you might need to remove the line changes):
auth.fold.fold + year + title.fold.nopunctordash.skipwords.lower.select(1,1).capitalize()
It is a good idea to configure Better BibTeX to auto-export on change, and to remove a lot of fields that are not strictly speaking required for references. The list of fields we usually ignore is:
abstract,copyright,annotation,file,pmid,month,shorttitle,keywords
The citations are done using the normal markdown syntax, where
@Elton1927AniEco
produces @Elton1927AniEco, and [@Camerano1880EquViv]
produces [@Camerano1880EquViv].
Note that you can wrap the text of legends for both figures and tables. This avoids the issue of having very long lines.
The following equation
is produced using
$$J'(p) = \frac{1}{\text{log}(S)}\times ... $$ {#eq:eq1}
and can be referenced using @eq:eq1
, which will result in @eq:eq1. Note that
because we use pandoc-crossref
, the label "eq." will be generated
automatically.
Table legends go on the line after the table itself. To generate a reference to
the table, use {#tbl:id}
-- then, in the text, you can use {@tbl:id}
to
refer to the table. For example, the table below is @tbl:id. You can remove the
table in front by using !@tbl:id
, or force it to be capitalized with
\*tbl:id
.
Sepal.Length | Sepal.Width | Petal.Length | Petal.Width | Species |
---|---|---|---|---|
5.1 | 3.5 | 1.4 | 0.2 | setosa |
5.0 | 3.6 | 1.4 | 0.2 | setosa |
5.4 | 3.9 | 1.7 | 0.4 | setosa |
Table: This is a table, and its identifier is id
-- we can refer to it using
{@tbl:id}
. Note that even if the table legend is written below the table
itself, it will appear on top in the PDF document. {#tbl:id}
Figures can have a legend -- all figures must be in the figures/
folder of
the project, as it is also used for the website. We recommend to use good
resolution images, rather than PDFs, or at least to have multiple versions
available.
![This is the legend of the figure...](figures/figure.png){#fig:figure}
We can now use @fig:figure
to refer to @fig:figure.
The PDFs are rendered using the excellent
tectonic
engine, and use
fontspec
for better looking fonts. The text is set in TeX Gyre Termes, the
titles are set in TeX Gyre Heros, and the code is set in JuliaMono.
The text can use unicode: for example, this α is written as is in the main text. The code can, similarly, use unicode. For example, we can use the one-liner neural network from the beautiful algorithms repository:
neural_network(x, 𝐕, 𝐰, φ, g) = 𝐰 ⋅ map(𝐯ⱼ -> g(𝐯ⱼ ⋅ φ(x)), 𝐕)
Every character that JuliaMono
supports (which is a lot) can be used in
code.
The supplementary material must be in markdown files stored in appendix
, and must have a front-matter with order
(a number giving the order of the supp. mat. document) and name
(a string giving the name of the supp. mat.).