# Center origin in matplotlib

I need help customizing my plots. I want the canvas to look approximately like the default 2D-graph template from MacOS's Grapher (see screenshot).

To clarify - I need

• a centered axis
• a grid (preferably with an additional darker grid every 1 unit)
• axislines with arrows
• only one zero at the origo (when I tried my best, I got one zero from the x-axis and a second one from the y-axis.), slightly moved to the left so it's not behind the y-axis

-
Surely possible with matplotlib, but could be a hassle. TeX with TikZ may be able to do this more easily, if that is an option. Certainly the centered axes and grid is easy in TikZ, at least. –  Steve Tjoa Jan 14 '11 at 18:54

This definitely falls under the category of more trouble than it's worth with matplotlib, but here you go. It's far from perfect, but it's reasonably flexible:

``````import matplotlib.pyplot as plt
import matplotlib as mpl
import matplotlib.patheffects
import numpy as np

def center_spines(ax=None, centerx=0, centery=0):
"""Centers the axis spines at <centerx, centery> on the axis "ax", and
places arrows at the end of the axis spines."""
if ax is None:
ax = plt.gca()

# Set the axis's spines to be centered at the given point
# (Setting all 4 spines so that the tick marks go in both directions)
ax.spines['left'].set_position(('data', centerx))
ax.spines['bottom'].set_position(('data', centery))
ax.spines['right'].set_position(('data', centerx - 1))
ax.spines['top'].set_position(('data', centery - 1))

# Draw an arrow at the end of the spines
ax.spines['left'].set_path_effects([EndArrow()])
ax.spines['bottom'].set_path_effects([EndArrow()])

# Hide the line (but not ticks) for "extra" spines
for side in ['right', 'top']:
ax.spines[side].set_color('none')

# On both the x and y axes...
for axis, center in zip([ax.xaxis, ax.yaxis], [centerx, centery]):
# Turn on minor and major gridlines and ticks
axis.set_ticks_position('both')
axis.grid(True, 'major', ls='solid', lw=0.5, color='gray')
axis.grid(True, 'minor', ls='solid', lw=0.1, color='gray')
axis.set_minor_locator(mpl.ticker.AutoMinorLocator())

# Hide the ticklabels at <centerx, centery>
formatter = CenteredFormatter()
formatter.center = center
axis.set_major_formatter(formatter)

# Add offset ticklabels at <centerx, centery> using annotation
# (Should probably make these update when the plot is redrawn...)
xlabel, ylabel = map(formatter.format_data, [centerx, centery])
ax.annotate('(%s, %s)' % (xlabel, ylabel), (centerx, centery),
xytext=(-4, -4), textcoords='offset points',
ha='right', va='top')

# Note: I'm implementing the arrows as a path effect rather than a custom
#       Spines class. In the long run, a custom Spines class would be a better
#       way to go. One of the side effects of this is that the arrows aren't
#       reversed when the axes are reversed!

class EndArrow(mpl.patheffects._Base):
"""A matplotlib patheffect to add arrows at the end of a path."""
super(mpl.patheffects._Base, self).__init__()
self._gc_args = kwargs
self.facecolor = facecolor

self.trans = mpl.transforms.Affine2D()

self.arrowpath = mpl.path.Path(
np.array([[-0.5, -0.2], [0.0, 0.0], [0.5, -0.2],
[0.0, 1.0], [-0.5, -0.2]]),
np.array([1, 2, 2, 2, 79]))

def draw_path(self, renderer, gc, tpath, affine, rgbFace):
scalex = renderer.points_to_pixels(self.width)
scaley = renderer.points_to_pixels(self.height)

x0, y0 = tpath.vertices[-1]
dx, dy = tpath.vertices[-1] - tpath.vertices[-2]
azi =  np.arctan2(dy, dx) - np.pi / 2.0
trans = affine + self.trans.clear(
).scale(scalex, scaley
).rotate(azi
).translate(x0, y0)

gc0 = renderer.new_gc()
gc0.copy_properties(gc)
self._update_gc(gc0, self._gc_args)

if self.facecolor is None:
color = rgbFace
else:
color = self.facecolor

renderer.draw_path(gc0, self.arrowpath, trans, color)
renderer.draw_path(gc, tpath, affine, rgbFace)
gc0.restore()

class CenteredFormatter(mpl.ticker.ScalarFormatter):
"""Acts exactly like the default Scalar Formatter, but yields an empty
label for ticks at "center"."""
center = 0
def __call__(self, value, pos=None):
if value == self.center:
return ''
else:
return mpl.ticker.ScalarFormatter.__call__(self, value, pos)
``````

I deliberately didn't set the x and y major tick intervals to 1, but that's easy to do. `ax.xaxis.set_major_locator(MultipleLocator(1))`

Now you can just call `center_spines` to do something like this:

``````x = np.arange(-5, 5)
y = x

line, = plt.plot(x, y)
center_spines()
plt.axis('equal')
plt.show()
``````

-
Well done! Does look like a lot of work; I'm glad I gave up early. :-) –  Steve Tjoa Jan 17 '11 at 22:15
Wow, does look heavy indeed. Thanks! What would you recommend instead of matplotlib? –  0sh Jan 18 '11 at 18:17
@Steve - Thanks! @mewoshh - It might be a bit easier in gnuplot. However, I don't know offhand how to make arrows on the axis lines in gnuplot (that update when the plot is rescaled). The rest (centered axis spines) is easier in gnuplot, but isn't that difficult in matplotlib, either. –  Joe Kington Jan 18 '11 at 19:16
+1 what an answer! –  Cheers and hth. - Alf Jan 8 at 16:42
This really ought to be built into matplotlib. It may not be as useful for scientific plots but it's damn useful for educational purposes and homework. –  Iguananaut Mar 8 at 0:54
show 1 more comment

Centered axes, see an example here (look for "zeroed spines"): http://matplotlib.sourceforge.net/examples/pylab_examples/spine_placement_demo.html

grid: ax.grid(True)

Get rid of the zero at the origin: see set_ticks(...) here: http://matplotlib.sourceforge.net/api/axis_api.html

What else did you look for?

-