I have a datetime instance with dates (dfDates):

2017-03-01 00:00
2017-03-02 00:00
2017-03-04 00:00

For the last day (here: 2017-03-04) I calculate the previous day/month/year/etc. as follows:

def previous_day(dtToday):
    return dtToday - pd.DateOffset(days=1)

This returns 2017-03-03. However, this business day is not available in my range of dates (dfDates).

I am therefore looking for a robust way to find the date that is the closest to the previous day/month/year/etc.. In this case for the previous day it should return 2017-03-02.

Note, I understand that you can do something like index -1 to get the previous day. It becomes however complicated when taking the previous month (there are not always 30 days in a month) and even the previous year (there are not always 252 working days in a year). Is there therefore a robust method to get the closest available date?


I understand also that you can use timedelta as follows:

from datetime import datetime, timedelta

d = datetime.today() - timedelta(days=days_to_subtract)

However, how does that relate to dtToday and how can I link it with dfDates? dtToday in my case is not always datetime.today(). Sometimes its a random date.

  • 2
    I am not seeing how it works exactly. d = datetime.today() - timedelta(days=days_to_subtract) but where in that is my dtToday and how does it link to dfDates. I am using a specific date dtToday which is not always datetime.today() – JohnAndrews Mar 29 '17 at 12:03

Not the most efficient, but you can try:

# From your function
day_minus_one = previous_day(dtToday)

actual = df.loc[:day_minus_one].index[-1]

This essentially returns you the last index of a copy of your df, up to and including day_minus_one, if any of the dates exist. This should give you the closest date, or the date itself.

You can try:

# Returns LAST element of INDEX of df from DAY_MINUS_ONE_HUNDRED to DAY_MINUS_ONE
actual_better = df.loc[day_minus_one_hundred:day_minus_one].index[-1]

To only look back one_hundred days from minus_one if your dataset is huge, so you don't have to return a huge array just to find one date.


If I understand correctly, you don't want to actually subtract 1 day, you want to get the previous available day from the list of available dates. If that's the case, then consider this :

available_dates = [
  2017-03-01 00:00,
  2017-03-02 00:00,
  2017-03-04 00:00,

def previous_day(dtToday):
    today_index = available_dates.index(dtToday)
    return available_dates[today_index-1]

This assumes, of course, that your available_dates is sorted


If you want to be able to subtract month and years, then something a little bit more complex is needed :

# Sorted
available_dates = [
  2017-03-01 00:00,
  2017-03-02 00:00,
  2017-03-04 00:00,

subtract_from_date(date, day=None, month=None, year=None):
  # check if it's day/month/yeah
  # do the actual subtraction and store it in substracted_date
  # get the closest date
  for index, date in enumerate(available_dates):
     if date > substracted_date:
       return available_dates[index-1]
  • Yes, that works fine for minus 1 day (-1). But what about one month before? A month does not always have 30 days. – JohnAndrews Mar 29 '17 at 12:23
  • 1
    I hope the edit works for you. Not sure it's very efficient though... – Foryah Mar 29 '17 at 13:10

I solved it like this:

  • dtToday = the reference date
  • dtDates = a datetime sequence of the available dates
  • nbOffset = the number of days/months/years we want to go back


def previous_day(dtToday, dtDates, nbOffset):
    prevx   = dtToday - pd.DateOffset(days=nbOffset)
    return test_day_in(prevx, dtDates)

def previous_month(dtToday, dtDates, nbOffset):
    prevx = dtToday - pd.DateOffset(months=nbOffset)
    return test_day_in(prevx, dtDates)

def previous_year(dtToday, dtDates, nbOffset):
    prevx = dtToday - pd.DateOffset(years=nbOffset)
    return test_day_in(prevx, dtDates)

def test_day_in(dtTest, dtDates):
    if dtTest in dtDates:
        return dtTest
        return tryNextDay(dtTest, dtDates)

def tryNextDay(dtTest, dtDates):

    # if not outside the bound
    if (dtTest < dtDates.min()):
        return dtDates.min()

    # check if next day exist
    if (dtTest + pd.DateOffset(days=1) <= dtDates.max()):
        return previous_day(dtTest + pd.DateOffset(days=2), dtDates, 1) # 2-1
        print('warning, tryNextDay triggered')
        # should not be triggered, it should take by default the dtDates.min() if far outside range
        return dtTest

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