Is it possible to use GridSearchCV without cross validation? I am trying to optimize the number of clusters in KMeans clustering via grid search, and thus I don't need or want cross validation.

The documentation is also confusing me because under the fit() method, it has an option for unsupervised learning (says to use None for unsupervised learning). But if you want to do unsupervised learning, you need to do it without cross validation and there appears to be no option to get rid of cross validation.

  • How are you determining what would be the optimal number of clusters with your KMeans? – Scratch'N'Purr Jun 19 '17 at 18:08
  • I am using silhouette score for now, and I plan to move on to other scoring methods later. – DataMan Jun 19 '17 at 18:57
  • Ok, in this case, you should avoid using GridSearchCV since as the name suggests, it'll use CV. What I would recommend is wrapping your KMeans around a for loop and then evaluating the silhouette metric through each iteration. Not sure if you saw this example but it should help you. :) – Scratch'N'Purr Jun 19 '17 at 19:21
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    You can implement a custom cv which will put all data into training and test. – Vivek Kumar Jun 20 '17 at 4:53
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    @Eddy You can still run a parameter sweep in parallel with a for loop. You can read about it in my blog post – Scratch'N'Purr Jun 20 '17 at 11:47

After much searching, I was able to find this thread. It appears that you can get rid of cross validation in GridSearchCV if you use:

cv=[(slice(None), slice(None))]

I have tested this against my own coded version of grid search without cross validation and I get the same results from both methods. I am posting this answer to my own question in case others have the same issue.

Edit: to answer jjrr's question in the comments, here is an example use case:

from sklearn.metrics import silhouette_score as sc

def cv_silhouette_scorer(estimator, X):
    cluster_labels = estimator.labels_
    num_labels = len(set(cluster_labels))
    num_samples = len(X.index)
    if num_labels == 1 or num_labels == num_samples:
        return -1
        return sc(X, cluster_labels)

cv = [(slice(None), slice(None))]
gs = GridSearchCV(estimator=sklearn.cluster.MeanShift(), param_grid=param_dict, 
                  scoring=cv_silhouette_scorer, cv=cv, n_jobs=-1)
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    Really interesting and hackey type of solution! – Scratch'N'Purr Jun 22 '17 at 11:05
  • hmm... maybe something got changed in the source code? I haven't tried this since a few months ago. – DataMan Feb 20 '18 at 21:45
  • thanks @DataMan, nice idea – I have a more basic question: how do you pass the estimator in this case? (silhouette) – thanks – jjrr May 15 '18 at 14:13
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    I get the error: AttributeError: 'slice' object has no attribute 'flags'. Python 3.6, sklearn 0.20.3 – Kirill Dolmatov Jun 14 '19 at 15:21
  • AttributeError: 'slice' object has no attribute 'flags' – Tobbey Nov 14 '19 at 16:39

I'm going to answer your question since it seems like it has been unanswered still. Using the parallelism method with the for loop, you can use the multiprocessing module.

from multiprocessing.dummy import Pool
from sklearn.cluster import KMeans
import functools

kmeans = KMeans()

# define your custom function for passing into each thread
def find_cluster(n_clusters, kmeans, X):
    from sklearn.metrics import silhouette_score  # you want to import in the scorer in your function

    kmeans.set_params(n_clusters=n_clusters)  # set n_cluster
    labels = kmeans.fit_predict(X)  # fit & predict
    score = silhouette_score(X, labels)  # get the score

    return score

# Now's the parallel implementation
clusters = [3, 4, 5]
pool = Pool()
results = pool.map(functools.partial(find_cluster, kmeans=kmeans, X=X), clusters)

# print the results
print(results)  # will print a list of scores that corresponds to the clusters list
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    Thanks for the DIY solution. I think I may have found a way to use GridSearchCV without cross validation as well, I will post my answer soon. – DataMan Jun 21 '17 at 16:47
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    Awesome! Please share! – Scratch'N'Purr Jun 21 '17 at 17:03
  • Just shared, let me know if you have any feedback. – DataMan Jun 21 '17 at 17:17

I think that using cv=ShuffleSplit(test_size=0.20, n_splits=1) with n_splits=1 is a better solution like this post suggested


I recently came out with the following custom cross-validator, based on this answer. I passed it to GridSearchCV and it properly disabled the cross-validation for me:

import numpy as np

class DisabledCV:
    def __init__(self):
        self.n_splits = 1

    def split(self, X, y, groups=None):
        yield (np.arange(len(X)), np.arange(len(y)))

    def get_n_splits(self, X, y, groups=None):
        return self.n_splits

I hope it can help.

  • I test your solution, I got this error: "return self.n_splits AttributeError: 'numpy.ndarray' object has no attribute 'n_splits' ". Do you know how to fix it? – curiosus Jun 16 '20 at 11:00

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