I already answered this question here, but below is a quick function on how to do this with rpy2. This enables you to use R's robust statistical decomposition with loess, but in python!

```
import pandas as pd
from rpy2.robjects import r, pandas2ri
import numpy as np
from rpy2.robjects.packages import importr
def decompose(series, frequency, s_window = 'periodic', log = False, **kwargs):
'''
Decompose a time series into seasonal, trend and irregular components using loess,
acronym STL.
https://www.rdocumentation.org/packages/stats/versions/3.4.3/topics/stl
params:
series: a time series
frequency: the number of observations per “cycle”
(normally a year, but sometimes a week, a day or an hour)
https://robjhyndman.com/hyndsight/seasonal-periods/
s_window: either the character string "periodic" or the span
(in lags) of the loess window for seasonal extraction,
which should be odd and at least 7, according to Cleveland
et al.
log: boolean. take log of series
**kwargs: See other params for stl at
https://www.rdocumentation.org/packages/stats/versions/3.4.3/topics/stl
'''
df = pd.DataFrame()
df['date'] = series.index
if log: series = series.pipe(np.log)
s = [x for x in series.values]
length = len(series)
s = r.ts(s, frequency=frequency)
decomposed = [x for x in r.stl(s, s_window).rx2('time.series')]
df['observed'] = series.values
df['trend'] = decomposed[length:2*length]
df['seasonal'] = decomposed[0:length]
df['residuals'] = decomposed[2*length:3*length]
return df
```

The above function assumes that your series has a datetime index. It returns a dataframe with the individual components that you can then graph with your favorite graphing library.

You can pass the parameters for stl seen here, but change any period to underscore, for example the positional argument in the above function is s_window, but in the above link it is s.window. Also, I found some of the above code on this repository.

# Example data

Hopefully the below works, honestly haven't tried it since this is a request long after I answered the question.

```
import pandas as pd
import numpy as np
obs_per_cycle = 52
observations = obs_per_cycle * 3
data = [v+2*i for i,v in enumerate(np.random.normal(5, 1, observations))]
tidx = pd.date_range('2016-07-01', periods=observations, freq='w')
ts = pd.Series(data=data, index=tidx)
df = decompose(ts, frequency=obs_per_cycle, s_window = 'periodic')
```