1

I need to create a chart, that has a grid like in the following picture. Grid for chart The key factors being:

  1. The x-axis is time with each tick marking 30 seconds
  2. y-axes labels in the chart repeat at a variable interval
  3. Chart must grow with the amount of data (i.e. for 30 minutes of data, it should be 60 boxes wide)

I have been looking into matplotlib for a bit, and it seems promising. I also managed to fill the chart with data. See my result for 40 Minutes of data.My progress so far

But before I invest more time into research, I must know if this goal is even possible. If not I'll have to look into other charts. Thanks for your help!

Here is the source for the above image (my_data is actually read from a csv, but filled with random junk here):

from matplotlib import dates
import matplotlib.pyplot as plt
import numpy as np
import time
from datetime import datetime

my_data = list()
for i in range(3000):
    my_data.append((datetime.fromtimestamp(i + time.time()), np.random.randint(50, 200), np.random.randint(10, 100)))

hfmt = dates.DateFormatter('%H:%M:%S')
fig = plt.figure()

actg = fig.add_subplot(2, 1, 1)  # two rows, one column, first plot
plt.ylim(50, 210)

atoco = fig.add_subplot(2, 1, 2)  # second plot
plt.ylim(0, 100)

actg.xaxis.set_minor_locator(dates.MinuteLocator())
actg.xaxis.set_major_formatter(hfmt)

atoco.xaxis.set_minor_locator(dates.MinuteLocator())
atoco.xaxis.set_major_formatter(hfmt)
plt.xticks(rotation=45)
times = []
fhr1 = []
toco = []
for key in my_data:
    times.append(key[0])
    fhr1.append(key[1])
    toco.append(key[2])
actg.plot_date(times, fhr1, '-')
atoco.plot_date(times, toco, '-')

for ax in fig.axes:
    ax.grid(True)
plt.tight_layout()
plt.show()
2
  • Can you share your code as a MCVE please?
    – tmdavison
    Feb 22, 2016 at 14:27
  • @tom: Just did that, thanks for your patience.
    – Sherlock70
    Feb 23, 2016 at 8:10

1 Answer 1

1

OK, here's something close to what you are after, I think.

I've used dates.SecondLocator(bysecond=[0,30]) to set the grid every 30 seconds (also need to make sure the grid is set on the minor ticks, with ax.xaxis.grid(True,which='both')

To repeat the yticklabels, I create a twinx of the axes for every major tick on the xaxis, and move the spine to that tick's location. I then set the spine color to none, so it doesn't show up, and turn of the actual ticks, but not the tick labels.

from matplotlib import dates
import matplotlib.pyplot as plt
import numpy as np
import time
from datetime import datetime

# how often to show xticklabels and repeat yticklabels:
xtickinterval = 10

# Make random data
my_data = list()
for i in range(3000):
    my_data.append((datetime.fromtimestamp(i + time.time()), np.random.randint(120, 160), np.random.randint(10, 100)))

hfmt = dates.DateFormatter('%H:%M:%S')
fig = plt.figure()

actg = fig.add_subplot(2, 1, 1)  # two rows, one column, first plot
actg.set_ylim(50, 210)

atoco = fig.add_subplot(2, 1, 2,sharex=actg)  # second plot, share the xaxis with actg
atoco.set_ylim(-5, 105)

# Set the major ticks to the intervals specified above. 
actg.xaxis.set_major_locator(dates.MinuteLocator(byminute=np.arange(0,60,xtickinterval)))
# Set the minor ticks to every 30 seconds
minloc = dates.SecondLocator(bysecond=[0,30])
minloc.MAXTICKS = 3000
actg.xaxis.set_minor_locator(minloc)
# Use the formatter specified above
actg.xaxis.set_major_formatter(hfmt)

times = []
fhr1 = []
toco = []

for key in my_data:
    times.append(key[0])
    fhr1.append(key[1])
    toco.append(key[2])

print times[-1]-times[0]

# Make your plot
actg.plot_date(times, fhr1, '-')
atoco.plot_date(times, toco, '-')

for ax in [actg,atoco]:
    # Turn off the yticklabels on the right hand side
    ax.set_yticklabels([])

    # Set the grids
    ax.xaxis.grid(True,which='both',color='r')
    ax.yaxis.grid(True,which='major',color='r')

    # Create new yticklabels every major tick on the xaxis
    for tick in ax.get_xticks():
        tx = ax.twinx()
        tx.set_ylim(ax.get_ylim())
        tx.spines['right'].set_position(('data',tick))
        tx.spines['right'].set_color('None')
        for tic in tx.yaxis.get_major_ticks():
            tic.tick1On = tic.tick2On = False


plt.tight_layout()
plt.show()

enter image description here

3
  • Wow, that looks really good! So close to what I need, I'm blown away. :D Now I'll really dig into matplotlib, I'll have to color the grid (green or red, users choice) and other stuff. But this was the major obstacle I saw. Thanks tons!
    – Sherlock70
    Feb 23, 2016 at 13:23
  • Ah, sorry. Quick follow-up on this. With 300 seconds of data this works fine. But I normally would encounter more... like ten times more at least. With a bit over 3000 seconds I get following run time error: RRuleLocator estimated to generate 3049 ticks from 2016-02-23 15:21:41.581725+00:00 to 2016-02-23 16:12:31.099945+00:00: exceeds Locator.MAXTICKS * 2 (2000) --- Any thoughts or advice on that?
    – Sherlock70
    Feb 23, 2016 at 14:23
  • 1
    you can set the minor tick locator's MAXTICKS parameter. It's 1000 be default. I found by setting it to 1500 what seems to work for 3000 seconds. In my edited example above, I set it to 3000 to give you some wiggle room. (I also changed the grid to red for you)
    – tmdavison
    Feb 23, 2016 at 15:04

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