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a plottling library for python, based on D3

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README.md

Hello

August 2013

Hello! Maybe you're looking for a nice Python interface to build interactive, javascript based plots that look as nice as all those d3 plots you've been seeing lately? Well, this repository is not a bad place to start looking. The code herein was an experiment to see if this approach was a good idea and, if it was, what the experience of plotting into the browser from Python would feel like.

All the code should work, more or less, and you are welcome to fork it, muck about with it, and generally get a taste for what this sort of plotting feels like.

You probably don't want to stop reading here, though. Instead, you should go check out vincent which is a much nicer take on this idea, created using vega, and is in general a much more gentlemanly way to go about this sort of thing. It's also being properly updated and developed, unlike the code below.

d3py

This is d3py: a plotting library for python based on d3. The aim of d3py is to provide a simple way to plot data from the command line or simple scripts into a browser window.

d3py accomplishes this by building on two excellent packages. The first is d3.js (Mike Bostock), which is a javascript library for creating data driven documents, which allows us to place arbitrary svg into a browser window. The second is the pandas Python module (Wes Mckinney), which blesses Python with (amongst other things) the DataFrame data structure.

The idioms used to plot data are very simple, and borrow from R's ggplot2 (Hadley Wickham) and Python's matplotlib (John Hunter et al).

Install d3py and dependencies:

  1. easy_install https://github.com/mikedewar/d3py/tarball/master
  2. pip install pandas
  3. pip install numpy

Example:

  1. create a PandasFigure object around a DataFrame (or a NetworkXFigure object around a Graph)
  2. add geoms to the figure object to plot specific combinations of columns of the data frame.
  3. show the figure, which serves up the figure in a browser window
  4. muck about with the style of the plot using the browser's developer tools
  5. share FTW!

Each geom takes as parameters an appropriate number of column names of the data frame as arguments. For example the Line geom, which has two dimensions, takes an x-value and a y-value. A Point geom, which makes up a scatter plot, has three dimensions and so takes three parameters: x, y and colour (in the future it could take size, too!).

Each geom is styled using css which you can pass in arbitrarily. So, for example, the Point geom comes with a bunch of default styles, but you can also specify fill=red as a keyword argument which will add a custom css line for that set of points which will turn them red. This also means you can style the plot live in the browser using Firebug in Firefox or Chrome's developer tools.

d3py aims to create really simple javascript source code wherever possible, so you can go in and edit the plots to embed them into your own sites if needs be. The .show() method writes an html file containing the basic markup, a css file with the styles for each geom, a json file with the data from the Figure's DataFrame and a js file with the d3 code in it. The strings that generate the js and css files can always be pulled from the Figure object so you can see how d3py builds up your graph.

An example session could like:

import d3py
import pandas
import numpy as np

# some test data
T = 100
# this is a data frame with three columns (we only use 2)
df = pandas.DataFrame({
    "time" : range(T),
    "pressure": np.random.rand(T),
    "temp" : np.random.rand(T)
})
## build up a figure, ggplot2 style
# instantiate the figure object
fig = d3py.PandasFigure(df, name="basic_example", width=300, height=300) 
# add some red points
fig += d3py.geoms.Point(x="pressure", y="temp", fill="red")
# writes 3 files, starts up a server, then draws some beautiful points in Chrome
fig.show() 

Check out the examples in the folder for more functionality! Assuming everything is working OK, the examples should generate (something akin to) the following plots:

point

point example

line

line example

bar

bar example

area

area example

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