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Table Of Contents

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New in matplotlib 1.1

Note

matplotlib 1.1 supports Python 2.4 to 2.7

Sankey Diagrams

Kevin Davies has extended Yannick Copin’s original Sankey example into a module (sankey) and provided new examples (The Sankey class, Long chain of connections using Sankey, Rankine power cycle).

../../_images/sphx_glr_sankey_rankine_0011.png

Sankey Rankine

Animation

Ryan May has written a backend-independent framework for creating animated figures. The animation module is intended to replace the backend-specific examples formerly in the Gallery listings. Examples using the new framework are in Animation; see the entrancing double pendulum <gallery/animation/double_pendulum_sgskip.py> which uses matplotlib.animation.Animation.save() to create the movie below.

This should be considered as a beta release of the framework; please try it and provide feedback.

Tight Layout

A frequent issue raised by users of matplotlib is the lack of a layout engine to nicely space out elements of the plots. While matplotlib still adheres to the philosophy of giving users complete control over the placement of plot elements, Jae-Joon Lee created the tight_layout module and introduced a new command tight_layout() to address the most common layout issues.

(Source code, png, pdf)

../../_images/whats_new_1-1-1_00_00.png

(png, pdf)

../../_images/whats_new_1-1-1_01_00.png

The usage of this functionality can be as simple as

plt.tight_layout()

and it will adjust the spacing between subplots so that the axis labels do not overlap with neighboring subplots. A Tight Layout guide has been created to show how to use this new tool.

PyQT4, PySide, and IPython

Gerald Storer made the Qt4 backend compatible with PySide as well as PyQT4. At present, however, PySide does not support the PyOS_InputHook mechanism for handling gui events while waiting for text input, so it cannot be used with the new version 0.11 of IPython. Until this feature appears in PySide, IPython users should use the PyQT4 wrapper for QT4, which remains the matplotlib default.

An rcParam entry, “backend.qt4”, has been added to allow users to select PyQt4, PyQt4v2, or PySide. The latter two use the Version 2 Qt API. In most cases, users can ignore this rcParam variable; it is available to aid in testing, and to provide control for users who are embedding matplotlib in a PyQt4 or PySide app.

Legend

Jae-Joon Lee has improved plot legends. First, legends for complex plots such as stem() plots will now display correctly. Second, the ‘best’ placement of a legend has been improved in the presence of NANs.

See the Legend guide for more detailed explanation and examples.

../../_images/sphx_glr_legend_demo_0041.png

Legend Demo4

mplot3d

In continuing the efforts to make 3D plotting in matplotlib just as easy as 2D plotting, Ben Root has made several improvements to the mplot3d module.

  • Axes3D has been improved to bring the class towards feature-parity with regular Axes objects
  • Documentation for Getting started was significantly expanded
  • Axis labels and orientation improved
  • Most 3D plotting functions now support empty inputs
  • Ticker offset display added:
../../_images/sphx_glr_offset_0011.png

Offset

  • contourf() gains zdir and offset kwargs. You can now do this:
../../_images/sphx_glr_contourf3d_2_0012.png

Contourf3d 2

Numerix support removed

After more than two years of deprecation warnings, Numerix support has now been completely removed from matplotlib.

Markers

The list of available markers for plot() and scatter() has now been merged. While they were mostly similar, some markers existed for one function, but not the other. This merge did result in a conflict for the ‘d’ diamond marker. Now, ‘d’ will be interpreted to always mean “thin” diamond while ‘D’ will mean “regular” diamond.

Thanks to Michael Droettboom for this effort.

Other improvements

  • Unit support for polar axes and arrow()
  • PolarAxes gains getters and setters for “theta_direction”, and “theta_offset” to allow for theta to go in either the clock-wise or counter-clockwise direction and to specify where zero degrees should be placed. set_theta_zero_location() is an added convenience function.
  • Fixed error in argument handling for tri-functions such as tripcolor()
  • axes.labelweight parameter added to rcParams.
  • For imshow(), interpolation=’nearest’ will now always perform an interpolation. A “none” option has been added to indicate no interpolation at all.
  • An error in the Hammer projection has been fixed.
  • clabel for contour() now accepts a callable. Thanks to Daniel Hyams for the original patch.
  • Jae-Joon Lee added the HBox and VBox classes.
  • Christoph Gohlke reduced memory usage in imshow().
  • scatter() now accepts empty inputs.
  • The behavior for ‘symlog’ scale has been fixed, but this may result in some minor changes to existing plots. This work was refined by ssyr.
  • Peter Butterworth added named figure support to figure().
  • Michiel de Hoon has modified the MacOSX backend to make its interactive behavior consistent with the other backends.
  • Pim Schellart added a new colormap called “cubehelix”. Sameer Grover also added a colormap called “coolwarm”. See it and all other colormaps here.
  • Many bug fixes and documentation improvements.