# Matplotlib - Stepped histogram with already binned data

I am trying to get a histogram with already binned data. I have been trying to use `bar()` for this, but I can't seem to figure out how to make it a stepped histogram like this one from the examples, instead of a filled histogram.

-

You could cheat, by offsetting your data and using `plot` instead:

``````from matplotlib import pyplot
import numpy as np

#sample data:
x = np.arange(30)
y = np.cumsum(np.arange(30))
#offset the x for horizontal, repeat the y for vertical:
x = np.ravel(zip(x,x+1))
y = np.ravel(zip(y,y))

pyplot.plot(x,y)
pyplot.savefig('plt.png')
``````

the plot:

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I figured out a second way. Just set `ls = "steps"` for `plot()`. Thanks for the answer though! –  madtowneast Jul 3 '12 at 19:56
@madtowneast, you deserve more upvotes for that comment. That is such a hidden feature. matplotlib.org/api/… –  kratsg May 7 at 15:26

From the accompanying source at http://matplotlib.sourceforge.net/examples/pylab_examples/histogram_demo_extended.html

here is how they drew that graph:

[snip]

and the bit you want appears to be

``````pylab.hist(x, bins=bins, histtype='step')
^
right here
``````

Edit: if you want to know how hist() works, look at the source - it's defined in matplotlib/axes.py starting at line 7407.

Looking at line 7724,

``````x = np.zeros( 2*len(bins), np.float )
y = np.zeros( 2*len(bins), np.float )
``````

for N bars, bins is an numpy.ndarray of N+1 values, being the edges for each bar. They twin the values for each bar (this is what fraxel is doing with np.ravel below) and shift the datapoints half a bar left to center them

``````x[0::2], x[1::2] = bins, bins
x -= 0.5*(bins[1]-bins[0])
``````

set the height of each bar, twinned but offset by one (relative to the x values) to produce the step effect

``````# n is an array of arrays containing the number of items per bar
patches = []    # from line 7676
for m, c in zip(n, color):
y[1:-1:2], y[2::2] = m, m
patches.append(self.fill(x, y, closed=False, edgecolor=c, fill=False))
``````

and the `self.fill` bit is what actually draws the lines.

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As far as I understand the example the data isnt binned already. I already have binned data, so `hist()` does not help –  madtowneast Jul 2 '12 at 16:24
-1, does not apply to question –  Jonas Wielicki Jul 2 '12 at 16:31
@Jonas Wielicki: the code given results in the image he asked about. How is this not applicable? –  Hugh Bothwell Jul 2 '12 at 19:36
@HughBothwell He does have the data in bins, not unbinned. With your edit, it seems usable for me though. –  Jonas Wielicki Jul 3 '12 at 14:55

The simplest solution is to convert your binned dataset to an un-binned, weighted dataset (with number of elements == number of bins). The unbinned dataset would consist of data values equal to the bin centres and weights equal to the values in each bin. For example let's say that your binned data is,

``````binedges = [0.0, 1.0, 2.0, 3.0]
ybinned = [11., 22., 33.]
``````

The corresponding weighted dataset would be,

``````y =       [0.5, 1.5, 2.5]
weights = [11., 22., 33.]
``````

Note that the choice to use the bin centre is arbitrary, you could use any point within a bin. Once you have generated the un-binned dataset then you can use the normal matplotlib histogram plotting (i.e. Axes.hist).

An example implementation in python follows:

``````def plot_binned_data(axes, binedges, data,
*args, **kwargs):
#The dataset values are the bin centres
x = (binedges[1:] + binedges[:-1]) / 2.0
#The weights are the y-values of the input binned data
weights = data
return axes.hist(x, bins=binedges, weights=weights,
*args, **kwargs)
``````

You can now have full access to all of the Axes.Histogram plotting options, including `histtype="step"` to create the stepped histogram that you wanted.

An example using this function would be,

``````import numpy
import matplotlib.pyplot as plt

#Create a dataset
dataset = numpy.random.normal(size=100)
#Bin the dataset
binedges = numpy.linspace(-5.0, 5.0, num=10)
y, binedges = numpy.histogram(dataset, binedges)

#Plot the dataset
fig = plt.figure()