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I have data as x and y variables in python stored as a list. How can i import this to python to run through statsmodels.

from __future__ import print_function
import statsmodels.api as sm
import statsmodels.formula.api as smf
import pandas as pd

x = [1,1,2,3]
y=[1,0,0,0]
data  = pd.DataFrame(x,y) #to merge the two side by side

star98 = sm.datasets.star98.load_pandas().data

formula = 'x ~ y'


pd.options.mode.chained_assignment = None  # default='warn'


mod1 = smf.glm(formula=formula, data=data, family=sm.families.Binomial()).fit()

x = mod1.summary()

ValueError: The first guess on the deviance function returned a nan. This could be a boundary problem and should be reported

5

You had a couple of minor problems. First, the way you were building your data, y was actually interpreted as the index of the dataframe:

In [3]:
    x = [1,1,2,3]
    y=[1,0,0,0]
    data  = pd.DataFrame(x,y) #to merge the two side by side
    data
Out[3]:
    0
1   1
0   1
0   2
0   3

Instead, you have to pass both as columns and make sure that they get column names; the easier is probably with a dictionary:

In [13]:
    x = [1,1,2,3]
    y = [1,0,0,0]
    data = pd.DataFrame({'x' : x, 'y' : y}) #to merge the two side by side
    data
Out[13]:
    x   y
0   1   1
1   1   0
2   2   0
3   3   0

Secondly, your formula was wrong (since I guess you are trying to classify y from the data in x), it should be,

formula = 'y ~ x'

If you fit it that way with the rest of your code, you'll get some better results.

In [21]:
    x
Out[21]:
Generalized Linear Model Regression Results
Dep. Variable:  y   No. Observations:   4
Model:  GLM Df Residuals:   2
Model Family:   Binomial    Df Model:   1
Link Function:  logit   Scale:  1.0
Method: IRLS    Log-Likelihood: -1.3863
Date:   Mon, 28 Mar 2016    Deviance:   2.7726
Time:   15:34:32    Pearson chi2:   2.00
No. Iterations: 22      
coef    std err z   P>|z|   [95.0% Conf. Int.]
Intercept   22.1423 3.9e+04 0.001   1.000   -7.64e+04 7.64e+04
x   -22.1423    3.9e+04 -0.001  1.000   -7.64e+04 7.64e+04

Hope it helps.

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