I would like to plot a 2d graph with the x-axis as term and y-axis as TFIDF score (or document id) for my list of sentences. I used scikit learn's fit_transform() to get the scipy matrix but i do not know how to use that matrix to plot the graph. I am trying to get a plot to see how well my sentences can be classified using kmeans.

Here is the output of fit_transform(sentence_list):

(document id, term number) tfidf score

(0, 1023)   0.209291711271
(0, 924)    0.174405532933
(0, 914)    0.174405532933
(0, 821)    0.15579574484
(0, 770)    0.174405532933
(0, 763)    0.159719994016
(0, 689)    0.135518787598

Here is my code:

sentence_list=["Hi how are you", "Good morning" ...]
vectorizer=TfidfVectorizer(min_df=1, stop_words='english', decode_error='ignore')
num_samples, num_features=vectorized.shape
print "num_samples:  %d, num_features: %d" %(num_samples,num_features)
km=KMeans(n_clusters=num_clusters, init='k-means++',n_init=10, verbose=1)
PRINT km.labels_   # Returns a list of clusters ranging 0 to 10 



When you use Bag of Words, each of your sentences gets represented in a high dimensional space of length equal to the vocabulary. If you want to represent this in 2D you need to reduce the dimension, for example using PCA with two components:

from sklearn.datasets import fetch_20newsgroups
from sklearn.feature_extraction.text import CountVectorizer, TfidfTransformer
from sklearn.decomposition import PCA
from sklearn.pipeline import Pipeline
import matplotlib.pyplot as plt

newsgroups_train = fetch_20newsgroups(subset='train', 
                                      categories=['alt.atheism', 'sci.space'])
pipeline = Pipeline([
    ('vect', CountVectorizer()),
    ('tfidf', TfidfTransformer()),
X = pipeline.fit_transform(newsgroups_train.data).todense()

pca = PCA(n_components=2).fit(X)
data2D = pca.transform(X)
plt.scatter(data2D[:,0], data2D[:,1], c=data.target)
plt.show()              #not required if using ipython notebook


Now you can for example calculate and plot the cluster enters on this data:

from sklearn.cluster import KMeans

kmeans = KMeans(n_clusters=2).fit(X)
centers2D = pca.transform(kmeans.cluster_centers_)

plt.scatter(centers2D[:,0], centers2D[:,1], 
            marker='x', s=200, linewidths=3, c='r')
plt.show()              #not required if using ipython notebook

enter image description here

  • can i just use tfidfvectorizer instead of doing countvectorizer then tfidftransformer? Will the code for pipeline look like this: pipeline = Pipeline([('tfidf', TfidfVectorizer())])? – jxn Jan 29 '15 at 20:18
  • 7
    im getting an error for plt.scatter(data2D[:,0], data2D[:,1], c=data.target) specifically c=data.target. If i want the colors of the scatter plots to be tuned to the colors of the clusters discovered by kmeans, what should i use in place of data.target? kmeans.label_? #this returns a list. – jxn Jan 29 '15 at 22:24
  • The Pipeline is used to execute several transformers serially. If you have only one you don't need the Pipeline, just use the transformer directly. – elyase Jan 29 '15 at 23:28
  • @elyase could you please look into this question stackoverflow.com/q/50334915/2508414 – OnePunchMan May 14 '18 at 19:45
  • 2
    Instead of data.target use newsgroups_train.target – mclzc Mar 22 at 20:56

Just assign a variable to the labels and use that to denote color. ex km = Kmeans().fit(X) clusters = km.labels_.tolist() then c=clusters

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