32

I've got a dataset:

    Open     High      Low    Close        
0  132.960  133.340  132.940  133.105
1  133.110  133.255  132.710  132.755
2  132.755  132.985  132.640  132.735 
3  132.730  132.790  132.575  132.685
4  132.685  132.785  132.625  132.755

I try to use rolling.apply function for all rows, like this:

df['new_col']= df[['Open']].rolling(2).apply(AccumulativeSwingIndex(df['High'],df['Low'],df['Close']))
  • shows error

or

df['new_col']=  df[['Open', 'High', 'Low', 'Close']].rolling(2).apply(AccumulativeSwingIndex)
  • pass only parameter from column 'Open'

Can anybody help me?

2
  • I don't know where AccumulativeSwingIndex comes from. See if my answer is helpful.
    – piRSquared
    Aug 10, 2016 at 16:37
  • did you ever get a solution for this question?
    – tsando
    Oct 10, 2017 at 15:23

6 Answers 6

23

Define your own roll

We can create a function that takes a window size argument w and any other keyword arguments. We use this to build a new DataFrame in which we will call groupby on while passing on the keyword arguments via kwargs.

Note: I didn't have to use stride_tricks.as_strided but it is succinct and in my opinion appropriate.
from numpy.lib.stride_tricks import as_strided as stride
import pandas as pd

def roll(df, w, **kwargs):
    v = df.values
    d0, d1 = v.shape
    s0, s1 = v.strides

    a = stride(v, (d0 - (w - 1), w, d1), (s0, s0, s1))

    rolled_df = pd.concat({
        row: pd.DataFrame(values, columns=df.columns)
        for row, values in zip(df.index, a)
    })

    return rolled_df.groupby(level=0, **kwargs)

roll(df, 2).mean()

       Open      High       Low    Close
0  133.0350  133.2975  132.8250  132.930
1  132.9325  133.1200  132.6750  132.745
2  132.7425  132.8875  132.6075  132.710
3  132.7075  132.7875  132.6000  132.720

We can also use the pandas.DataFrame.pipe method to the same effect:

df.pipe(roll, w=2).mean()


OLD ANSWER

Panel has been deprecated. See above for updated answer.

see https://stackoverflow.com/a/37491779/2336654

define our own roll

def roll(df, w, **kwargs):
    roll_array = np.dstack([df.values[i:i+w, :] for i in range(len(df.index) - w + 1)]).T
    panel = pd.Panel(roll_array, 
                     items=df.index[w-1:],
                     major_axis=df.columns,
                     minor_axis=pd.Index(range(w), name='roll'))
    return panel.to_frame().unstack().T.groupby(level=0, **kwargs)

you should be able to:

roll(df, 2).apply(your_function)

Using mean

roll(df, 2).mean()

major      Open      High       Low    Close
1      133.0350  133.2975  132.8250  132.930
2      132.9325  133.1200  132.6750  132.745
3      132.7425  132.8875  132.6075  132.710
4      132.7075  132.7875  132.6000  132.720

f = lambda df: df.sum(1)

roll(df, 2, group_keys=False).apply(f)

   roll
1  0       532.345
   1       531.830
2  0       531.830
   1       531.115
3  0       531.115
   1       530.780
4  0       530.780
   1       530.850
dtype: float64
9
  • I got MemoryError with this.
    – xgdgsc
    Nov 2, 2016 at 15:34
  • 2
    @AndyHayden Updated.
    – piRSquared
    Apr 24, 2019 at 17:08
  • @piRSquared thanks! It's a little surprising there isn't a vanilla pandas way to do this. Feels quite a natural thing to want to do. Apr 24, 2019 at 18:14
  • 3
    It's a very useful function, which I was missing in the Pandas API. How would you approach the same task if you would want to use a window as a datetime frequency (for example win="3D")? May 19, 2019 at 10:58
  • 1
    @MaxU that’s a good question. I’ll give it some thought when I have a chance.
    – piRSquared
    May 19, 2019 at 12:22
4

As your rolling window is not too large, I think you can also put them in the same dataframe then use the apply function to reduce.

For example, with the dataset df as following

            Open    High        Low     Close
Date                
2017-11-07  258.97  259.3500    258.09  258.67
2017-11-08  258.47  259.2200    258.15  259.11
2017-11-09  257.73  258.3900    256.36  258.17
2017-11-10  257.73  258.2926    257.37  258.09
2017-11-13  257.31  258.5900    257.27  258.33

You can just add the rolling data to this dataframe with

window = 2
df1 = pd.DataFrame(index=df.index)
for i in range(window):
    df_shifted = df.shift(i).copy()
    df_shifted.columns = ["{}-{}".format(s, i) for s in df.columns]
    df1 = df1.join(df_shifted)
df1

           Open-0   High-0      Low-0   Close-0 Open-1  High-1      Low-1   Close-1
Date                                
2017-11-07  258.97  259.3500    258.09  258.67  NaN     NaN         NaN     NaN
2017-11-08  258.47  259.2200    258.15  259.11  258.97  259.3500    258.09  258.67
2017-11-09  257.73  258.3900    256.36  258.17  258.47  259.2200    258.15  259.11
2017-11-10  257.73  258.2926    257.37  258.09  257.73  258.3900    256.36  258.17
2017-11-13  257.31  258.5900    257.27  258.33  257.73  258.2926    257.37  258.09

Then you can make an apply on it easily with all the rolling data you want with

df1.apply(AccumulativeSwingIndex, axis=1)
2

Here's a workaround I came up with:

df['new_col'] = list(map(fn, df.rolling(2)))
0

I also encountered some problems alike. the following lines may help you out. this might be the simplest solution for retrieving the data(matrices) within dataframe.rolling(), after which we can do almost anything with it. As comparison, d.rolling().apply() only allows aggregation functions.

size = 20
matrices = [x.values for x in d.rolling(size)][size-1:]
len(matrices)
[do_anything(i) for i in matrices]
-4

If you're trying to apply the function to all rows of all columns:

df.rolling(size_of_your_window).apply(your_function_here)
-5

Try this for passing multiple columns to apply

df['new_column'] = df.apply(lambda x: your_function(x['High'],x['Low'],x['Close']), axis=1)
2
  • 1
    how do we pass the window size?
    – RaduS
    Jan 28, 2017 at 8:53
  • 1
    this does not address how to pass a window size, which is what the question asked
    – tsando
    Oct 10, 2017 at 15:15

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