I am doing multiple linear regression with statsmodels.formula.api (ver 0.9.0) on Windows 10. After fitting the model and getting the summary with following lines i get summary in summary object format.

X_opt  = X[:, [0,1,2,3]]
regressor_OLS = sm.OLS(endog= y, exog= X_opt).fit()

                          OLS Regression Results                            
Dep. Variable:                      y   R-squared:                       0.951
Model:                            OLS   Adj. R-squared:                  0.948
Method:                 Least Squares   F-statistic:                     296.0
Date:                Wed, 08 Aug 2018   Prob (F-statistic):           4.53e-30
Time:                        00:46:48   Log-Likelihood:                -525.39
No. Observations:                  50   AIC:                             1059.
Df Residuals:                      46   BIC:                             1066.
Df Model:                           3                                         
Covariance Type:            nonrobust                                         
                 coef    std err          t      P>|t|      [0.025      0.975]
const       5.012e+04   6572.353      7.626      0.000    3.69e+04    6.34e+04
x1             0.8057      0.045     17.846      0.000       0.715       0.897
x2            -0.0268      0.051     -0.526      0.602      -0.130       0.076
x3             0.0272      0.016      1.655      0.105      -0.006       0.060
Omnibus:                       14.838   Durbin-Watson:                   1.282
Prob(Omnibus):                  0.001   Jarque-Bera (JB):               21.442
Skew:                          -0.949   Prob(JB):                     2.21e-05
Kurtosis:                       5.586   Cond. No.                     1.40e+06

I want to do backward elimination for P values for significance level 0.05. For this i need to remove the predictor with highest P values and run the code again.

I wanted to know if there is a way to extract the P values from the summary object, so that i can run a loop with conditional statement and find the significant variables without repeating the steps manually.

Thank you.

  • 2
    The accepted answer shows how to convert the summary table to pandas DataFrame. However, for the use case of selection on p-values it is better to directly use the attribute results.pvalues, which is also used in the second answer.
    – Josef
    Oct 10, 2019 at 12:55

8 Answers 8


The answer from @Michael B works well, but requires "recreating" the table. The table itself is actually directly available from the summary().tables attribute. Each table in this attribute (which is a list of tables) is a SimpleTable, which has methods for outputting different formats. We can then read any of those formats back as a pd.DataFrame:

import statsmodels.api as sm

model = sm.OLS(y,x)
results = model.fit()
results_summary = results.summary()

# Note that tables is a list. The table at index 1 is the "core" table. Additionally, read_html puts dfs in a list, so we want index 0
results_as_html = results_summary.tables[1].as_html()
pd.read_html(results_as_html, header=0, index_col=0)[0]
  • 2
    This doesn't work for when using formula API. AttributeError: 'OLSResults' object has no attribute 'tables' Oct 29, 2018 at 9:04
  • 1
    What version are you on? I'm on python 3.6.5 and using the latest version of statsmodels, but didn't test older versions.
    – ZaxR
    Oct 30, 2018 at 14:04
  • Python 3.6.5, statsmodels 0.9.0 Oct 30, 2018 at 15:23
  • 1
    Woops - forgot the summary method! Thanks for pointing that out. Answer is updated.
    – ZaxR
    Oct 30, 2018 at 16:21
  • 3
    Why didn't I think of that? Borderline hacky but very neat. Here's an alternative using the csv methods, in case it comes in handy: pd.read_csv(pd.compat.StringIO(table.as_csv()), index_col=0)
    – Denziloe
    Jun 25, 2019 at 12:28

Store your model fit as a variable results, like so:

import statsmodels.api as sm
model = sm.OLS(y,x)
results = model.fit()

Then create a a function like below:

def results_summary_to_dataframe(results):
    '''take the result of an statsmodel results table and transforms it into a dataframe'''
    pvals = results.pvalues
    coeff = results.params
    conf_lower = results.conf_int()[0]
    conf_higher = results.conf_int()[1]

    results_df = pd.DataFrame({"pvals":pvals,

    results_df = results_df[["coeff","pvals","conf_lower","conf_higher"]]
    return results_df

You can further explore all the attributes of the results object by using dir() to print, then add them to the function and df accordingly.

  • Thank you Michael B for the help. Aug 8, 2018 at 21:12
  • No problem, if it worked please mark the answer as correct! Happy coding/data sci-ing!!
    – Michael B
    Aug 11, 2018 at 1:07
  • 1
    Super useful function!
    – veg2020
    Sep 21, 2021 at 0:02

An easy solution is just one line of code:

LRresult = (result.summary2().tables[1])

As ZaxR mentioned in the following comment, Summary2 is not yet considered stable, while it works well with Summary too. So this could be correct answer:

LRresult = (result.summary().tables[1])

This will give you a dataframe object:



To get the significant variables and run the test again:

newlist = list(LRresult[LRresult['P>|z|']<=0.05].index)[1:]
myform1 = 'binary_Target' + ' ~ ' + ' + '.join(newlist)

M1_test2 = smf.logit(formula=myform1,data=myM1_1)

result2 = M1_test2.fit(maxiter=200)
LRresult2 = (result2.summary2().tables[1])
  • Summary2 is not yet considered stable, though looks close. See this discussion.
    – ZaxR
    Dec 19, 2018 at 5:58
  • 2
    Also works for summary(). This should be the accepted answer Jun 6, 2020 at 1:02

You may write as below.It will be a easy fix and work almost appropriate every time.


The code below puts all the metrics into a dictionary accessible by key. The intermediate result is actually a DataFrame you can use, I did not make the coefficients into a dictionary, but you can apply a similar method but then two levels deep dict[var][metric].

In order to make the keys easy to type, I converted some of the metric names into more easily typed versions. E.g. "Prob(Omnibus):" becomes prob_omnibus such that you can access the value by res_dict['prob_omnibus'].

import pandas as pd

res = sm.OLS(y, X).fit()
model_results_df = []
coefficient_df = None
for i, tab in enumerate(res.summary().tables):
    header, index_col = None, None
    if i == 1:
        coefficient_df = pd.read_html(tab.as_html(), header=0, index_col=0)[0]
        df = pd.read_html(tab.as_html())[0]
        model_results_df += [df.iloc[:,0:2], df.iloc[:,2:4]]

model_results_df = pd.DataFrame(np.concatenate(model_results_df), columns=['metric', 'value'])
model_results_df.dropna(inplace=True, axis=0)
model_results_df.metric = model_results_df.metric.apply(lambda x : x.lower().replace(' (', '_')
                                                        .replace('.', '').replace('(', '_')
                                                        .replace(')', '').replace('-', '_')
                                                       .replace(':', '').replace(' ', '_'))

res_dict = dict(zip(model_results_df.metric.values, model_results_df.value.values))

I still don't think there is a clean answer that captures the query in its totality. Here is one way to capture everything in two dataframes (one for the middle table, one for the metrics on the top and bottom).

def reform_df(dft):
    # quick and dirty stacking of cols 2,3 on 0,1
    dfl = dft[[0,1]]
    dfr = dft[[2,3]]
    dfr.columns = 0,1
    dfout = pd.concat([dfl,dfr])
    return dfout

def model_summary_to_dataframe(model):
    # first the middle table      
    results_df = pd.DataFrame(model.summary().tables[1])
    results_df = results_df.set_index(0)
    results_df.columns = results_df.iloc[0]
    results_df = results_df.iloc[1:]

    # now for the surrounding information
    metrics_top = reform_df(pd.DataFrame(model.summary().tables[0]))
    metrics_bot = reform_df(pd.DataFrame(model.summary().tables[2]))
    metrics_df = pd.concat([metrics_top,metrics_bot])

    return pd.DataFrame(results_df),metrics_df

If you want the surrounding information, try the following:

import pandas as pd
dfs = {}
fs = fa_model.summary()
for item in fs.tables[0].data:
    dfs[item[0].strip()] = item[1].strip()
    dfs[item[2].strip()] = item[3].strip()
for item in fs.tables[2].data:
    dfs[item[0].strip()] = item[1].strip()
    dfs[item[2].strip()] = item[3].strip()
dfs = pd.Series(dfs)

It works but I found a small bug in item[3] This is the fix:

import pandas as pd
dfs = {}
fs = stepwise_fit.summary()
for item in fs.tables[0].data:
    #print("item " + str(item))
    dfs[item[0].strip()] = item[1].strip()
    dfs[item[2].strip()] = str(item[3]).strip()
for item in fs.tables[2].data:
    dfs[item[0].strip()] = item[1].strip()
    dfs[item[2].strip()] = str(item[3]).strip()
dfs = pd.Series(dfs)

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