What is it?

Introduction

Making figures for presentations, websites or publications usually take a lot of time. However, the process is usually the same (compile, convert and export). Thus, automation must be used to focus on the content and not on managing files. Based on this observation, I conceived a workflow and I wrote a software that automate this task.

The source code is available here: https://github.com/sciunto-org/scifig

Choices

Languages and softwares for figures

We need to choose a technology to make figures. I like to write code, I’m efficient that way, so I choose LaTeX because I already use it for my documents and my presentations. To draw figures, pstricks or Tikz can be used. I tried both and Tikz looked to me more efficient (for loops for instance). To make plots, I’m familiar with gnuplot for almost a decade now. Gnuplot has a tikz terminal and this is lucky. It will be very easy to combine drawings and plots. For rare other needs (chemical formulae), LaTeX usually have what we need.

Ktikz and gummi are really helpful to prepare drawings. They refresh the output while you edit the code. It’s almost a live mode.

Output formats

  • tex (standalone file)
  • eps
  • pdf
  • svg

Workflow

Now, we need to find a strategy to make our figures.

Drawings

  • tikz file: the code you write with Ktiz for instance, between \begin and \end{tikzpicture}
  • tex file: we decorate the tikz file with some packages and a document class (standalone) to have a croped image
  • pdf file: the tex file compiled with pdflatex
  • eps file: pdf to eps
  • svg file: pdf to svg

Plots with gnuplot

  • plt file: this is the standard gnuplot script to make a figure, with tikz terminal
  • tikz file: code generated by gnuplot
  • plttikz files: optional, inject tikz code before or after the code generated by gnuplot. It allows to draw in plots!
  • tex file: we decorate the plttikz file with some packages and a document class (standalone) to have a cropped image
  • pdf file: the tex file compiled with pdflatex
  • eps file: pdf to eps
  • svg file: pdf to svg

 Others

Any other chain for another tool can be implemented, such as matplotlib in python, which has a tikz terminal too.

Implementation

My first implementation (around 2007) was based on shell scripts and makefile. Quickly coded, but not easy to maintain and the code tend to become hard to read very rapidly.

The second implementation (around 2011) used waf, a build to in python. The idea was to reuse something existing rather than writing from scratch a workflow. However, in practice, waf is not full adapted for the workflow I need. I made a working version I used for almost 4-5 years, I found interesting features (colored output, src and build separated, export function) but the addition of new workflow would require a lot of energy.

Then, I arrived to write a third version, from scratch since I know perfectly what I need:

  • a database to record what must be recompiled based on modifications
  • a detector to guess the right rule to apply (based on file formats)
  • a set of rules to build the figure
  • a nice output