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* Tighten up psf/black and flake8 * Fix some tests * Fix some E741 * Fix some E741 * updating DIRECTORY.md Co-authored-by: github-actions <${GITHUB_ACTOR}@users.noreply.github.com>
205 lines
6.5 KiB
Python
205 lines
6.5 KiB
Python
"""README, Author - Anurag Kumar(mailto:anuragkumarak95@gmail.com)
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Requirements:
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- sklearn
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- numpy
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- matplotlib
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Python:
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- 3.5
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Inputs:
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- X , a 2D numpy array of features.
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- k , number of clusters to create.
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- initial_centroids , initial centroid values generated by utility function(mentioned
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in usage).
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- maxiter , maximum number of iterations to process.
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- heterogeneity , empty list that will be filled with hetrogeneity values if passed
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to kmeans func.
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Usage:
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1. define 'k' value, 'X' features array and 'hetrogeneity' empty list
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2. create initial_centroids,
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initial_centroids = get_initial_centroids(
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X,
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k,
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seed=0 # seed value for initial centroid generation,
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# None for randomness(default=None)
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)
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3. find centroids and clusters using kmeans function.
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centroids, cluster_assignment = kmeans(
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X,
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k,
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initial_centroids,
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maxiter=400,
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record_heterogeneity=heterogeneity,
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verbose=True # whether to print logs in console or not.(default=False)
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)
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4. Plot the loss function, hetrogeneity values for every iteration saved in
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hetrogeneity list.
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plot_heterogeneity(
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heterogeneity,
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k
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)
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5. Have fun..
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"""
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import numpy as np
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from matplotlib import pyplot as plt
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from sklearn.metrics import pairwise_distances
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TAG = "K-MEANS-CLUST/ "
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def get_initial_centroids(data, k, seed=None):
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"""Randomly choose k data points as initial centroids"""
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if seed is not None: # useful for obtaining consistent results
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np.random.seed(seed)
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n = data.shape[0] # number of data points
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# Pick K indices from range [0, N).
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rand_indices = np.random.randint(0, n, k)
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# Keep centroids as dense format, as many entries will be nonzero due to averaging.
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# As long as at least one document in a cluster contains a word,
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# it will carry a nonzero weight in the TF-IDF vector of the centroid.
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centroids = data[rand_indices, :]
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return centroids
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def centroid_pairwise_dist(X, centroids):
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return pairwise_distances(X, centroids, metric="euclidean")
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def assign_clusters(data, centroids):
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# Compute distances between each data point and the set of centroids:
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# Fill in the blank (RHS only)
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distances_from_centroids = centroid_pairwise_dist(data, centroids)
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# Compute cluster assignments for each data point:
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# Fill in the blank (RHS only)
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cluster_assignment = np.argmin(distances_from_centroids, axis=1)
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return cluster_assignment
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def revise_centroids(data, k, cluster_assignment):
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new_centroids = []
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for i in range(k):
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# Select all data points that belong to cluster i. Fill in the blank (RHS only)
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member_data_points = data[cluster_assignment == i]
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# Compute the mean of the data points. Fill in the blank (RHS only)
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centroid = member_data_points.mean(axis=0)
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new_centroids.append(centroid)
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new_centroids = np.array(new_centroids)
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return new_centroids
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def compute_heterogeneity(data, k, centroids, cluster_assignment):
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heterogeneity = 0.0
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for i in range(k):
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# Select all data points that belong to cluster i. Fill in the blank (RHS only)
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member_data_points = data[cluster_assignment == i, :]
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if member_data_points.shape[0] > 0: # check if i-th cluster is non-empty
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# Compute distances from centroid to data points (RHS only)
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distances = pairwise_distances(
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member_data_points, [centroids[i]], metric="euclidean"
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)
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squared_distances = distances ** 2
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heterogeneity += np.sum(squared_distances)
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return heterogeneity
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def plot_heterogeneity(heterogeneity, k):
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plt.figure(figsize=(7, 4))
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plt.plot(heterogeneity, linewidth=4)
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plt.xlabel("# Iterations")
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plt.ylabel("Heterogeneity")
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plt.title(f"Heterogeneity of clustering over time, K={k:d}")
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plt.rcParams.update({"font.size": 16})
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plt.show()
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def kmeans(
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data, k, initial_centroids, maxiter=500, record_heterogeneity=None, verbose=False
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):
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"""This function runs k-means on given data and initial set of centroids.
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maxiter: maximum number of iterations to run.(default=500)
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record_heterogeneity: (optional) a list, to store the history of heterogeneity
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as function of iterations
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if None, do not store the history.
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verbose: if True, print how many data points changed their cluster labels in
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each iteration"""
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centroids = initial_centroids[:]
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prev_cluster_assignment = None
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for itr in range(maxiter):
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if verbose:
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print(itr, end="")
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# 1. Make cluster assignments using nearest centroids
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cluster_assignment = assign_clusters(data, centroids)
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# 2. Compute a new centroid for each of the k clusters, averaging all data
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# points assigned to that cluster.
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centroids = revise_centroids(data, k, cluster_assignment)
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# Check for convergence: if none of the assignments changed, stop
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if (
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prev_cluster_assignment is not None
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and (prev_cluster_assignment == cluster_assignment).all()
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):
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break
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# Print number of new assignments
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if prev_cluster_assignment is not None:
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num_changed = np.sum(prev_cluster_assignment != cluster_assignment)
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if verbose:
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print(
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" {:5d} elements changed their cluster assignment.".format(
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num_changed
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)
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)
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# Record heterogeneity convergence metric
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if record_heterogeneity is not None:
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# YOUR CODE HERE
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score = compute_heterogeneity(data, k, centroids, cluster_assignment)
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record_heterogeneity.append(score)
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prev_cluster_assignment = cluster_assignment[:]
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return centroids, cluster_assignment
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# Mock test below
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if False: # change to true to run this test case.
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import sklearn.datasets as ds
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dataset = ds.load_iris()
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k = 3
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heterogeneity = []
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initial_centroids = get_initial_centroids(dataset["data"], k, seed=0)
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centroids, cluster_assignment = kmeans(
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dataset["data"],
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k,
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initial_centroids,
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maxiter=400,
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record_heterogeneity=heterogeneity,
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verbose=True,
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)
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plot_heterogeneity(heterogeneity, k)
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