I'm analyzing a time series and therefore want to create multiple columns of the last n peaks (n should be variable).

I know a simple calculation of the last peak can be done like this:

df['min'] = df.data[(df.data.shift(1) > df.data) & (df.data.shift(-1) > df.data)]
df['max'] = df.data[(df.data.shift(1) < df.data) & (df.data.shift(-1) < df.data)]

This code is taken from this question: Pandas finding local max and min and was created from the user "fuglede"

But I don't just want the last peak, but the last n peaks. For example if n=3 my columns would look like this: df.columns = ['data', 'min_0', 'min_1', 'min_2', 'max_0', 'max_1', 'max_2']

Calcuating all peaks (for min_0 and max_0) and shifting them later is no option, because I need unique peaks. Shifting them would lead to a result in which min_0 is equal to min_1 and min_2 if no new peak was reached in between.

The only idea I came up for this problem is the following:

n = 3
# Store all peaks in a series
min_vals = df.data[(df.data.shift(1) > df.data) & (df.data.shift(-1) > df.data)]
max_vals = df.data[(df.data.shift(1) < df.data) & (df.data.shift(-1) < df.data)]

# Iterate over all values in my dataframe
for idx, row in df.iterrows():

    # get all peaks that appeared before the current row (avoid look ahead)
    tmp_min = min_vals.loc[(idx >= min_vals.index)]
    tmp_max = max_vals.loc[(idx >= max_vals.index)]

    # Test if at least n mins and max peaks already appeared
    if len(tmp_min) >= n and len(tmp_max) >= n:

         #create counter for min values (needed to create column name)
         min_ctr = 0

         # iterate over last n entries in tmp_min by using tail function
         for x in tmp_min.tail(n):
             df.loc[idx, 'min_' + str(min_ctr)] = row.data
             min_ctr += 1

         max_ctr = 0
         for x in tmp_min.tail(n):
             df.loc[idx, 'max_' + str(max_ctr)] = row.data
             max_ctr += 1

This method works, but isn't very performant and it's also bad practice to use pandas this way. That's why I'm looking for a performant way to calculate this.

I hope I explained this problem good enough, let me know if I didn't and I will try to improve my question. Thanks

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