pandoc-plot
pandoc-plot
turns code blocks present in your documents (Markdown, LaTeX, etc.) into embedded figures, using your plotting toolkit of choice, including Matplotlib, ggplot2, MATLAB, Mathematica, and more.
Table of content
Overview
This program is a Pandoc filter. It can therefore be used in the middle of conversion from input format to output format, replacing code blocks with figures.
The filter recognizes code blocks with classes that match plotting toolkits. For example, using the matplotlib
toolkit:
# My document
This is a paragraph.
```{.matplotlib}
import matplotlib.pyplot as plt
plt.figure()
plt.plot([0,1,2,3,4], [1,2,3,4,5])
plt.title('This is an example figure')
```
Putting the above in input.md
, we can then generate the plot and embed it in an HTML page:
pandoc --filter pandoc-plot input.md --output output.html
Note that pandoc-plot only works with pandoc >= 2.8 because of some breaking changes in pandoc's API.
pandoc-plot
currently supports the following plotting toolkits (installed separately):
To know which toolkits are useable on your machine (and which ones are not available), you can check with the --toolkits/-t
flag:
pandoc-plot --toolkits
Wish your plotting toolkit of choice was available? Please raise an issue!
Features
Captions
You can also specify a caption for your image. This is done using the optional caption
parameter.
Markdown:
```{.matlabplot caption="This is a simple figure with a **Markdown** caption"}
x = 0: .1 : 2*pi;
y1 = cos(x);
y2 = sin(x);
figure
plot(x, y1, 'b', x, y2, 'r-.', 'LineWidth', 2)
```
LaTex:
\begin{minted}[caption=This is a simple figure with a caption]{matlabplot}
x = 0: .1 : 2*pi;
y1 = cos(x);
y2 = sin(x);
figure
plot(x, y1, 'b', x, y2, 'r-.', 'LineWidth', 2)
\end{minted}
Caption formatting unfortunately cannot be determined automatically. To specify a caption format (e.g. "markdown", "LaTeX", etc.), see Configuration.
Link to source code
In case of an output format that supports links (e.g. HTML), the embedded image generated by pandoc-plot
can show a link to the source code which was used to generate the file. Therefore, other people can see what code was used to create your figures.
You can turn this on via the source=true
key:
Markdown:
```{.mathplot source=true}
...
```
LaTex:
\begin{minted}[source=true]{mathplot}
...
\end{minted}
or via a configuration file.
Preamble scripts
If you find yourself always repeating some steps, inclusion of scripts is possible using the preamble
parameter. For example, if you want all Matplotlib plots to have the ggplot
style, you can write a very short preamble style.py
like so:
import matplotlib.pyplot as plt
plt.style.use('ggplot')
and include it in your document as follows:
```{.matplotlib preamble=style.py}
plt.figure()
plt.plot([0,1,2,3,4], [1,2,3,4,5])
plt.title('This is an example figure')
```
Which is equivalent to writing the following markdown:
```{.matplotlib}
import matplotlib.pyplot as plt
plt.style.use('ggplot')
plt.figure()
plt.plot([0,1,2,3,4], [1,2,3,4,5])
plt.title('This is an example figure')
```
The equivalent LaTeX usage is as follows:
\begin{minted}[include=style.py]{matplotlib}
\end{minted}
This preamble
parameter is perfect for longer documents with many plots. Simply define the style you want in a separate script! You can also import packages this way, or define functions you often use.
pandoc-plot
minimizes work, only generating figures if it absolutely must, i.e. if the content has changed. pandoc-plot
will save the hash of the source code used to generate a figure in its filename. Before generating a figure, pandoc-plot
will check it this figure already exists based on the hash of its source! This also means that there is no way to directly name figures.
Moreover, starting with version 0.5.0.0, pandoc-plot
takes advantage of multicore CPUs, rendering figures in parallel.
Therefore, you can confidently run the filter on very large documents containing hundreds of figures, like a book or a thesis.
Compatibility with pandoc-crossref
pandoc-crossref
is a pandoc filter that makes it effortless to cross-reference objects in Markdown documents.
You can use pandoc-crossref
in conjunction with pandoc-plot
for the ultimate figure-making pipeline. You can combine both in a figure like so:
```{#fig:myexample .plotly_python caption="This is a caption"}
# Insert figure script here
```
As you can see in @fig:myexample, ...
If the above source is located in file myfile.md
, you can render the figure and references by applying pandoc-plot
first, and then pandoc-crossref
. For example:
pandoc --filter pandoc-plot --filter pandoc-crossref -i myfile.md -o myfile.html
Configuration
To avoid repetition, pandoc-plot
can be configured using simple YAML files. pandoc-plot
will look for a .pandoc-plot.yml
file in the current working directory. Here are all the possible parameters:
# The following parameters affect all toolkits
directory: plots/
source: false
dpi: 80
format: PNG
caption_format: markdown+tex_math_dollars
# The possible parameters for the Matplotlib toolkit
matplotlib:
preamble: matplotlib.py
tight_bbox: false
transparent: false
executable: python
# The possible parameters for the MATLAB toolkit
matlabplot:
preamble: matlab.m
executable: matlab
# The possible parameters for the Plotly/Python toolkit
plotly_python:
preamble: plotly-python.py
executable: python
# The possible parameters for the Mathematica toolkit
mathplot:
preamble: mathematica.m
executable: math
# The possible parameters for the GNU Octave toolkit
octaveplot:
preamble: octave.m
executable: octave
# The possible parameters for the ggplot2 toolkit
ggplot2:
preamble: ggplot2.r
executable: Rscript
# The possible parameters for the gnuplot toolkit
gnuplot:
preamble: gnuplot.gp
executable: gnuplot
A file like the above sets the default values; you can still override them in documents directly.
Using pandoc-plot write-example-config
will write the default configuration to a file which you can then customize.
Executables
The executable
parameter for all toolkits can be either the executable name (if it is present on the PATH), or the full path to the executable.
Examples:
matplotlib:
executable: python3
matlabplot:
executable: "C:\Program Files\Matlab\R2019b\bin\matlab.exe"
Matplotlib
tight_bbox
is a boolean that determines whether to use bbox_inches="tight"
or not when saving Matplotlib figures. For example, tight_bbox: true
. See here for details.
transparent
is a boolean that determines whether to make Matplotlib figure background transparent or not. This is useful, for example, for displaying a plot on top of a colored background on a web page. High-resolution figures are not affected. For example, transparent: true
.
Detailed usage
pandoc-plot
is a command line executable with a few functions. You can take a look at the help using the -h
/--help
flag:
$ pandoc-plot --help
pandoc-plot - generate figures directly in documents using your plotting toolkit
of choice.
Usage: pandoc-plot.exe ([-v|--version] | [--full-version] | [-m|--manual] |
[-t|--toolkits]) [COMMAND] [AST]
This pandoc filter generates plots from code blocks using a multitude of
possible renderers. This allows to keep documentation and figures in perfect
synchronicity.
Available options:
-v,--version Show version number and exit.
--full-version Show full version information and exit.
-m,--manual Open the manual page in the default web browser and
exit.
-t,--toolkits Show information on toolkits and exit. Executables
from the configuration file will be used, if a
'.pandoc-plot.yml' file is in the current directory.
-h,--help Show this help text
Available commands:
clean Clean output directories where figures from FILE
might be stored. WARNING: All files in those
directories will be deleted.
write-example-config Write example configuration to a file.
More information can be found via the manual (pandoc-plot --manual) or the repository README, located at
https://github.com/LaurentRDC/pandoc-plot
As a filter
The most common use for pandoc-plot
is as a pandoc filter, in which case it should be called without arguments. For example:
pandoc --filter pandoc-plot -i input.md -o output.html
If pandoc-plot
fails to render a code block into a figure, the filtering will not stop. Your code blocks will stay unchanged.
You can chain other filters with it (e.g., pandoc-crossref
) like so:
pandoc --filter pandoc-plot --filter pandoc-crossref -i input.md -o output.html
Cleaning output
Figures produced by pandoc-plot
can be placed in a few different locations. You can set a default location in the Configuration, but you can also re-direct specific figures in other directories if you use the directory=...
argument in code blocks. These figures will build up over time. You can use the clean
command to scan documents and delete the associated pandoc-plot
output files. For example, to delete the figures generated from the input.md
file:
pandoc-plot clean input.md
This sill remove all directories where a figure could have been placed. WARNING: all files will be removed.
Configuration template
Because pandoc-plot
supports a few toolkits, there are a lot of configuration options. Don't start from scratch! The write-example-config
command will create a file for you, which you can then modify:
pandoc-plot write-example-config
You will need to re-name the file to .pandoc-ploy.yml
to be able to use it, so don't worry about overwriting your own configuration.
As a Haskell library
To include the functionality of pandoc-plot
in a Haskell package, you can use the makePlot
function (for single blocks) or plotTransform
function (for entire documents). Take a look at the documentation on Hackage.
Usage with Hakyll
In case you want to use the filter with your own Hakyll setup, you can use a transform function that works on entire documents:
import Text.Pandoc.Filter.Plot (plotTransform)
import Data.Default (def) -- From data-default package, for default configuration
import Hakyll
-- Unsafe compiler is required because of the interaction
-- in IO (i.e. running an external script).
makePlotPandocCompiler :: Compiler (Item String)
makePlotPandocCompiler =
pandocCompilerWithTransformM
defaultHakyllReaderOptions
defaultHakyllWriterOptions
(unsafeCompiler . plotTransform def) -- default configuration
Installation
Binaries and Installers
Windows, Linux, and Mac OS binaries are available on the GitHub release page. There are also Windows installers.
conda
Like pandoc
, pandoc-plot
is available as a package installable with conda
. Click here to see the package page.
To install in the current environment:
conda install -c conda-forge pandoc-plot
From Hackage/Stackage
pandoc-plot
is available on Hackage and Stackage. Using the cabal-install
tool:
cabal update
cabal install pandoc-plot
or
stack update
stack install pandoc-plot
From source
Building from source can be done using stack
or cabal
:
git clone https://github.com/LaurentRDC/pandoc-plot
cd pandoc-plot
stack install # Alternatively, `cabal install`
Warning
Do not run this filter on unknown documents. There is nothing in pandoc-plot
that can stop a script from performing evil actions.