I am using the LogisticRegression() method in scikit-learn on a highly unbalanced data set. I have even turned the class_weight feature to auto.

I know that in Logistic Regression it should be possible to know what is the threshold value for a particular pair of classes.

Is it possible to know what the threshold value is in each of the One-vs-All classes the LogisticRegression() method designs?

I did not find anything in the documentation page.

Does it by default apply the 0.5 value as threshold for all the classes regardless of the parameter values?

  • Well, since LR is a probabilistic classifier, that is, it returns probability of a class, it makes sense to use 0.5 as a threshold. Feb 25, 2015 at 11:15

6 Answers 6


There is a little trick that I use, instead of using model.predict(test_data) use model.predict_proba(test_data). Then use a range of values for thresholds to analyze the effects on the prediction;

pred_proba_df = pd.DataFrame(model.predict_proba(x_test))
threshold_list = [0.05,0.1,0.15,0.2,0.25,0.3,0.35,0.4,0.45,0.5,0.55,0.6,0.65,.7,.75,.8,.85,.9,.95,.99]
for i in threshold_list:
    print ('\n******** For i = {} ******'.format(i))
    Y_test_pred = pred_proba_df.applymap(lambda x: 1 if x>i else 0)
    test_accuracy = metrics.accuracy_score(Y_test.as_matrix().reshape(Y_test.as_matrix().size,1),
    print('Our testing accuracy is {}'.format(test_accuracy))



  • 2
    I like this answer. What I am struggling to understand is how would one tie this into GridSearchCV? When I am running GridSearchCV, I am finding the best model among many. Presumably, the default threshold for Logistic Regression of 0.5 is being used internally and so then how would I override this default threshold when scoring takes place to pick the best model.
    – demongolem
    Sep 8, 2020 at 21:06
  • @demongolem you can use threshold-independent metric like roc_auc to find the best parameters through GridSearch, and then set the threshold manually after having identified the best parameters
    – Charlie
    Apr 21 at 12:52

Logistic regression chooses the class that has the biggest probability. In case of 2 classes, the threshold is 0.5: if P(Y=0) > 0.5 then obviously P(Y=0) > P(Y=1). The same stands for the multiclass setting: again, it chooses the class with the biggest probability (see e.g. Ng's lectures, the bottom lines).

Introducing special thresholds only affects in the proportion of false positives/false negatives (and thus in precision/recall tradeoff), but it is not the parameter of the LR model. See also the similar question.


Yes, Sci-Kit learn is using a threshold of P>=0.5 for binary classifications. I am going to build on some of the answers already posted with two options to check this:

One simple option is to extract the probabilities of each classification using the output from model.predict_proba(test_x) segment of the code below along with class predictions (output from model.predict(test_x) segment of code below). Then, append class predictions and their probabilities to your test dataframe as a check.

As another option, one can graphically view precision vs. recall at various thresholds using the following code.

### Predict test_y values and probabilities based on fitted logistic 
regression model


  # probs_y is a 2-D array of probability of being labeled as 0 (first 
  column of 
  array) vs 1 (2nd column in array)

from sklearn.metrics import precision_recall_curve
precision, recall, thresholds = precision_recall_curve(test_y, probs_y[:, 
   #retrieve probability of being 1(in second column of probs_y)
pr_auc = metrics.auc(recall, precision)

plt.title("Precision-Recall vs Threshold Chart")
plt.plot(thresholds, precision[: -1], "b--", label="Precision")
plt.plot(thresholds, recall[: -1], "r--", label="Recall")
plt.ylabel("Precision, Recall")
plt.legend(loc="lower left")
  • instantiate logistic regression in sklearn, make sure you have a test and train dataset partitioned and labeled as test_x, test_y, run (fit) the logisitc regression model on this data, the rest should follow from here.
    – veg2020
    Mar 2, 2020 at 22:42
  • 2
    You can save a bit of coding by using sklearn.metrics.plot_precision_recall_curve. May 1, 2020 at 18:54
  • 2
    Function plot_precision_recall_curve is deprecated in 1.0 and will be removed in 1.2. Feb 16, 2022 at 10:54

we can use a wrapper as follows:

model = LogisticRegression()
model.fit(X, y)

def custom_predict(X, threshold):
    probs = model.predict_proba(X) 
    return (probs[:, 1] > threshold).astype(int)
new_preds = custom_predict(X=X, threshold=0.4) 

If using @jazib jamil's and @Halee's solution in Pandas version 0.23.0+, replace .as_matrix() with .values (documentation).

pred_proba_df = pd.DataFrame(model.predict_proba(x_test))
threshold_list = [0.05,0.1,0.15,0.2,0.25,0.3,0.35,0.4,0.45,0.5,0.55,0.6,0.65,.7,.75,.8,.85,.9,.95,.99]
for i in threshold_list:
    print ('\n******** For i = {} ******'.format(i))
    Y_test_pred = pred_proba_df.applymap(lambda x: 1 if x>i else 0)
    test_accuracy = metrics.accuracy_score(Y_test.values.reshape(Y_test.values.size,1),
    print('Our testing accuracy is {}'.format(test_accuracy))


For probabilistic classifiers such as logistic regression, the optimal Bayes estimator is

ŷ = argmax_y P(Y = y | X)

that is, the predicted class with the highest probability. For binary classification, this is equivalent to using probability 0.5 as a threshold.

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