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I have some data I want to plot with mathplotlib. I have measurements of, say, a benchmark that I want to compare to a reference value. I calculate a "slowdown factor" to indicate how much slower one, say, browser is compared to the other.

So far, it look almost like this:

preliminary picture

The code to the plot is:

#!/usr/bin/env python
import numpy as np
# Import Standard error of the mean
from scipy import mean
from scipy.stats import sem


Y_LABEL = "Slowdown factor"
X_LABEL = "Browser"


import matplotlib as mpl

import matplotlib.pyplot as plt



fig = plt.figure()
ax = fig.add_subplot(111)


sampledata={}
for browser in ('firefox',
    'chrome',
    'internet-explorer'
    ):
    sampledata[browser] = {}
    for benchmark in  ('data1', 'data2', 'data3'):
        sampledata[browser][benchmark] = {}

sampledata['firefox']['data1'] = [10,5,20,10,15]
sampledata['chrome']['data1'] = [5,7,9,10,11]
sampledata['internet-explorer']['data1'] = [20,30,40,20,30]


sampledata['firefox']['data2'] = [10,50,20,10,14]
sampledata['chrome']['data2'] = [50,70,90,100,80]
sampledata['internet-explorer']['data2'] = [200,300,400,300,300]


sampledata['firefox']['data3'] = [90,50,100,100,140]
sampledata['chrome']['data3'] = [50,170,90,100,80]
sampledata['internet-explorer']['data3'] = [200,200,100,100,300]


data = {}
for browser in ('firefox',
    'internet-explorer'
    ):
    data[browser] = {}
    for benchmark in  ('data1', 'data2', 'data3',):
        data[browser][benchmark] = sampledata[browser][benchmark]

baselinedata = sampledata['chrome']

## the data
chrome_vanillas = [results_for_benchmark
             for results_for_benchmark in baselinedata.itervalues()]
chrome_vanilla_means = [mean(v) for v in chrome_vanillas]
chrome_vanilla_errors = [sem(v) for v in chrome_vanillas]

baseline_values = chrome_vanillas
baseline_means = chrome_vanilla_means

firefoxes = [results_for_benchmark
             for results_for_benchmark in data['firefox'].itervalues()]
firefoxes = [[float(v)/bl 
            for (v, bl) in zip(v_l, bl_l)]
            for (v_l, bl_l) in zip(firefoxes, baseline_values)]
firefox_means = [mean(v) for v in firefoxes]
firefox_errors = [sem(v) for v in firefoxes]



internet_explorers = [results_for_benchmark
             for results_for_benchmark in data['internet-explorer'].itervalues()]
internet_explorers = [[float(v)/bl
            for (v, bl) in zip(v_l, bl_l)]
            for (v_l, bl_l) in zip(internet_explorers, baseline_values)]
internet_explorer_means = [mean(v) for v in internet_explorers]
internet_explorer_errors = [sem(v) for v in internet_explorers]


N = min(len(browser) for browser in data.itervalues())
ind = np.arange(N)                # the x locations for the groups
width = 0.25                      # the width of the bars



# axes and labels
#ax.set_xlim(-width,len(ind)+width)
#ax.set_ylim(-45,45)
ax.set_ylabel(Y_LABEL)
ax.set_title(X_LABEL)
## the bars
firefox_rects = ax.bar(ind, firefox_means, width,
                color='green',
                yerr=firefox_errors,
                error_kw=dict(elinewidth=2,ecolor='black'))

internet_explorer_rects = ax.bar(ind+width, internet_explorer_means, width,
                    color='blue',
                    yerr=internet_explorer_errors,
                    error_kw=dict(elinewidth=2,ecolor='black'))

xTickMarks = [key
              for key in data.itervalues().next().keys()]
ax.set_xticks(ind+width)
xtickNames = ax.set_xticklabels(xTickMarks)
plt.setp(xtickNames, rotation=45, fontsize=10)

## add a legend
ax.legend( (firefox_rects[0], internet_explorer_rects[0]),
           ('Firefox', 'Internet Explorer') )

plt.savefig('figure.png')

plt.show()

Now, I want to set the baseline to 1.0 and let the bars grow down if the value is less than 1. I've seen the bottom parameter to the bar function, but it just seems to add 1 to every value I have instead of considering 1 to be the base to draw the bars from.

Matlab seems to be able to do it easily, using something like set(hBars(1),'BaseValue',2);: enter image description here

So the question ultimately is: How to create a plot that has the baseline at 1.0 and lets the bars grow down?

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1 Answer 1

up vote 2 down vote accepted

You can use a combination of a formatter (for the ticks) and subtracting 1 to your data.

Example:

import matplotlib.pyplot as plt
import matplotlib.ticker as mtick

baseline = 1
data = [1.1,2.0,1.4,0.9,1.6,0.7,0.1]
plt.bar(range(len(data)),[x-baseline for x in data])
plt.gca().yaxis.set_major_formatter(mtick.FuncFormatter(lambda x,_: x+baseline))

plt.show()
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