I want to be able to set the major and minor xticks and their labels for a time series graph plotted from a Pandas time series object.

The Pandas 0.9 "what's new" page says:

"you can either use to_pydatetime or register a converter for the Timestamp type"

but I can't work out how to do that so that I can use the matplotlib ax.xaxis.set_major_locator and ax.xaxis.set_major_formatter (and minor) commands.

If I use them without converting the pandas times, the x-axis ticks and labels end up wrong.

By using the 'xticks' parameter, I can pass the major ticks to pandas' .plot, and then set the major tick labels. I can't work out how to do the minor ticks using this approach (I can set the labels on the default minor ticks set by pandas' .plot).

Here is my test code:

Graph with strange dates on xaxis
import pandas as pd
import matplotlib.dates as mdates
import numpy as np

dateIndex = pd.date_range(start='2011-05-01', end='2011-07-01', freq='D')
testSeries = pd.Series(data=np.random.randn(len(dateIndex)), index=dateIndex)    

ax = plt.figure(figsize=(7,4), dpi=300).add_subplot(111)
testSeries.plot(ax=ax, style='v-', label='first line')    

# using MatPlotLib date time locators and formatters doesn't work with new
# pandas datetime index
ax.xaxis.grid(True, which="minor")
ax.xaxis.grid(False, which="major")

Graph with strange dates on xaxis

Graph with correct dates (without minor ticks)
# set the major xticks and labels through pandas
ax2 = plt.figure(figsize=(7,4), dpi=300).add_subplot(111)
xticks = pd.date_range(start='2011-05-01', end='2011-07-01', freq='W-Tue')
testSeries.plot(ax=ax2, style='-v', label='second line', xticks=xticks.to_pydatetime())
ax2.set_xticklabels([x.strftime('%a\n%d\n%h\n%Y') for x in xticks]);
# remove the minor xtick labels set by pandas.plot 
ax2.set_xticklabels([], minor=True)
# turn the minor ticks created by pandas.plot off 

Graph with correct dates

Update: I've been able to get closer to the layout I wanted by using a loop to build the major xtick labels:

# only show month for first label in month
month = dStart.month - 1
xticklabels = []
for x in xticks:
    if  month != x.month :
        month = x.month

However, this is a bit like doing the x-axis using ax.annotate: possible but not ideal.

How do I set the major and minor ticks when plotting pandas time-series data?

  • 1
    I know this doesn't really answer the question, but as a general approach when I really care about how a plot looks, I generally just try to get a vector version of it and make it look nice in Illustrator or Inkscape. I've found most other people I know seem to do the same. Oct 30, 2012 at 6:40
  • 2
    Can you just totally ignore the arguments to the pandas plot function and set all the ticks after plotting, by using matplotlib methods of the returned ax object (e.g., ax.set_xticks)?
    – BrenBarn
    Nov 28, 2012 at 6:35
  • @BrenBarn I couldn't figure out how to get the date as a python date instead of a pandas datetime for the matplotlib methods. The answer by bmu fixes that by converting the dates before plotting.
    – brenda
    Dec 3, 2012 at 4:38
  • 2
    You can actually plot with pandas and still use matplotlib.dates without any date conversion needed, thanks to this argument: testSeries.plot(x_compat=True). This was added to pandas just a few weeks after you posted this question. Jan 11, 2021 at 22:25

3 Answers 3


Both pandas and matplotlib.dates use matplotlib.units for locating the ticks.

But while matplotlib.dates has convenient ways to set the ticks manually, pandas seems to have the focus on auto formatting so far (you can have a look at the code for date conversion and formatting in pandas).

So for the moment it seems more reasonable to use matplotlib.dates (as mentioned by @BrenBarn in his comment).

import numpy as np
import pandas as pd
import matplotlib.pyplot as plt 
import matplotlib.dates as dates

idx = pd.date_range('2011-05-01', '2011-07-01')
s = pd.Series(np.random.randn(len(idx)), index=idx)

fig, ax = plt.subplots()
ax.plot_date(idx.to_pydatetime(), s, 'v-')
ax.xaxis.grid(True, which="minor")


(my locale is German, so that Tuesday [Tue] becomes Dienstag [Di])


To turn off Pandas Datetime tick adjustment, you have to add the argument x_compat=True



See more examples in the Pandas documentation: Suppressing tick resolution adjustment

  • nice hint, hard to find in the docs (at least that for df.plot)! Jan 7, 2022 at 11:31

In matplotlib's plot(), the default time-series unit is 1 day but in pandas' plot(), 1 unit is equal to the frequency of the time-series, so if the frequency is 1 day, 1 unit is 1 day; if it is 1 hour, then it is 1 hour etc. This makes the plot() calls of matplotlib and pandas different when it comes to time-series data.

If the frequency of the time-series is 1-day, then matplotlib.dates.WeekdayLocator, matplotlib.dates.MonthLocator etc. can "locate" tick positions1 because 1 day is used as the base unit to make xtick positions by pandas plot() (coincides with matplotlib's default).

Since pandas' plot() call returns an Axes object, the tick labels of that Axes object may be modified using matplotlib.dates.

import pandas as pd
import numpy as np
import matplotlib.pyplot as plt
import matplotlib.dates as mdates

idx = pd.date_range('2011-05-01', '2011-07-01', freq='D')
s1 = pd.Series(np.random.randn(len(idx)), index=idx)

ax = s1.plot(style='v-')
    minor_locator=mdates.WeekdayLocator(),               # make minor ticks on each Tuesday
    minor_formatter=mdates.DateFormatter('%d\n%a'),      # format minor ticks
    major_locator=mdates.MonthLocator(),                 # make major ticks on first day of each month
    major_formatter=mdates.DateFormatter('\n\n\n%b\n%Y') # format major ticks

first image

However, if the frequency is not 1-day but, say, 1-week, then matplotlib.dates won't be able to locate the positions because, as mentioned previously, pandas' plot() sets the unit to be the same as the time-series frequency (1-week), which "confuses" matplotlib.dates. So if we try to use the same code used to set tick labels of s1 to set the tick labels of s2, then we would get very wrong ticklabels.

To "solve" the problem, one way is to remove pandas' automatic tick resolution adjustment by passing x_compat=True. Then major/minor tick labels may be set using matplotlib's resolution; in other words, it may be set in the same way as above.

idx = pd.date_range('2011-05-01', '2011-07-01', freq='W')
s2 = pd.Series(np.random.randn(len(idx)), index=idx)

ax = s2.plot(style='v-', x_compat=True, rot=0)
    minor_locator=mdates.WeekdayLocator(),              # make minor ticks on each Tuesday
    minor_formatter=mdates.DateFormatter('%d'),         # format minor ticks
    major_locator=mdates.MonthLocator(),                # make major ticks on first day of each month
    major_formatter=mdates.DateFormatter('\n\n%b\n%Y')  # format major ticks

second image

Another way to get around the issue is to use matplotlib's plot() instead (as suggested by @bmu). Because the unit is fixed in matplotlib, we can set the tick labels as above without issue.

plt.plot(s2.index, s2, 'v-')                            # use matplotlib instead
    minor_locator=mdates.WeekdayLocator(byweekday=0),   # make minor ticks on each Monday
    minor_formatter=mdates.DateFormatter('%d'),         # format minor ticks
    major_locator=mdates.MonthLocator(),                # make major ticks on first day of each month
    major_formatter=mdates.DateFormatter('\n\n%b\n%Y')  # format major ticks

1 matplotlib.dates.num2timedelta(1) == datetime.timedelta(days=1) is True.

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