# How can draw a line in matplotlib so that the edge (not the center) of the drawn line follows the plotted data?

I'm working on a figure to show traffic levels on a highway map. The idea is that for each highway segment, I would plot two lines - one for direction. The thickness of each line would correspond to the traffic volume in that direction. I need to plot the lines so that the left edge (relative to driving direction) of the drawn line follows the shape of the highway segment. I would like to specify the shape in data coordinates, but I would like to specify the thickness of the line in points.

My data is like this:

``````[[((5,10),(-7,2),(8,9)),(210,320)],
[((8,4),(9,1),(8,1),(11,4)),(2000,1900)],
[((12,14),(17,14)),(550,650)]]
``````

where, for example, ((5,10),(-7,2),(8,9)) is a sequence of x,y values giving the shape of a highway segment, and (210,320) is traffic volumes in the forward and reverse direction, respectively

Looks matter: the result should be pretty.

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What have you tried? –  tcaswell Jan 26 at 2:30

## migrated from stats.stackexchange.comJan 25 at 20:32

This question came from our site for statisticians, data analysts, data miners and data visualization experts.

I figured out a solution using matplotlib.transforms.Transform and shapely.geometry.LineString.parallel_offset.

Note that shapely's `parallel_offset` method can sometimes return a `MultiLineString`, which is not handled by this code. I've changed the second shape so it does not cross over itself to avoid this problem. I think this problem would happen rarely happen in my application.

Another note: the documentation for matplotlib.transforms.Transform seems to imply that the array returned by the `transform` method must be the same shape as the array passed as an argument, but adding additional points to plot in the `transform` method seems to work here.

``````#matplotlib version 1.1.0
#shapely version 1.2.14
#Python 2.7.3

import matplotlib.pyplot as plt
import shapely.geometry
import numpy
import matplotlib.transforms

def get_my_transform(offset_points, fig):
offset_inches = offset_points / 72.0
offset_dots = offset_inches * fig.dpi

class my_transform(matplotlib.transforms.Transform):

input_dims = 2
output_dims = 2
is_separable = False
has_inverse = False

def transform(self, values):
l = shapely.geometry.LineString(values)
l = l.parallel_offset(offset_dots,'right')
return numpy.array(l.xy).T

return my_transform()

def plot_to_right(ax, x,y,linewidth, **args):

t = ax.transData + get_my_transform(linewidth/2.0,ax.figure)

ax.plot(x,y, transform = t,
linewidth = linewidth,
solid_capstyle = 'butt',
**args)

data = [[((5,10),(-7,2),(8,9)),(210,320)],
[((8,4),(9,1),(8,1),(1,4)),(2000,1900)],
[((12,14),(17,16)),(550,650)]]

fig = plt.figure()

for shape, volumes in data:

x,y = zip(*shape)
plot_to_right(ax, x,y, volumes[0]/100., c = 'blue')
plot_to_right(ax, x[-1::-1],y[-1::-1], volumes[1]/100., c = 'green')
ax.plot(x,y, c = 'grey', linewidth = 1)

plt.show()
plt.close()
``````
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