n0obcoder
/ kMeans___1___importing_libraries.py
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June 20, 2019 20:02
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| import numpy as np | |
| import cv2 | |
| import os, sys | |
| from matplotlib import pyplot as plt |
n0obcoder
/ kMeans___2___gen_data.py
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June 20, 2019 20:01
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| def gen_data(data_points,loc): | |
| x_center = loc[0] | |
| y_center = loc[1] | |
| x = np.random.normal(size= data_points, loc= x_center)*100 | |
| y = np.random.normal(size= data_points, loc= y_center)*100 | |
| data= np.vstack((x,y)) | |
| data = data.astype(np.int32) | |
| x,y = data | |
| return x, y |
n0obcoder
/ kMeans___3___make_fake_data_points.py
Created
June 20, 2019 20:06
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| results_dir= 'results' | |
| if not os.path.exists(results_dir): | |
| os.mkdir(results_dir) | |
| x_data = np.array((),dtype=np.int32) | |
| y_data = np.array((),dtype=np.int32) | |
| #................................... | |
| x, y = gen_data(100,[5,5]) # generating 100 data points around the center [5,5] | |
| plt.scatter(x, y) | |
| x_data = np.hstack((x_data, x)) |
n0obcoder
/ kMeans___4___random_initialization_of_cluster_centers.py
Created
June 20, 2019 20:13
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| # finding the extremes of the data points so that this information | |
| # could be used to initialize the k cluster centers within these extremes. | |
| x_min= np.min(x_data) | |
| x_max= np.max(x_data) | |
| y_min= np.min(y_data) | |
| y_max= np.max(y_data) | |
| # we define a list of colors which could be used to represent data points assigned to different clusters. | |
| color_list = ['Blue', 'Green', 'Yellow', 'Pink', 'Purple'] |
n0obcoder
/ kMeans___5___display_kcenters.py
Created
June 20, 2019 20:17
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| def display_kcenters(kcenters): | |
| for i in range(len(kcenters)): | |
| plt.scatter(kcenters[i][0], kcenters[i][1], color='Red') | |
| #plt.show() |
n0obcoder
/ kMeans___6___plot_data_points_and_cluster_centers.py
Created
June 20, 2019 20:21
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| # setting the color of all the data points to 'Gray' at the beginning | |
| initial_data_point_color = 'Gray' | |
| display_kcenters(kcenters) | |
| plt.scatter(x_data, y_data, color = initial_data_point_color) | |
| plt.title('before kMeans Clustering') | |
| plt.xlabel('Some Feature x') | |
| plt.ylabel('Some Feature y') | |
| plt.grid() |
n0obcoder
/ kMeans___7___color_info_list.py
Created
June 20, 2019 20:22
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| color_info_list = [initial_data_point_color]*len(x_data) |
n0obcoder
/ kMeans___9___get_mean_shit_value.py
Created
June 20, 2019 20:27
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| def get_mean_shit_value(old_point, new_point): | |
| mean_shift_value = np.sqrt( np.square(old_point[0] - new_point[0]) + np.square(old_point[1] - new_point[1]) ) | |
| return mean_shift_value |
n0obcoder
/ kMeans___10___running_the_iterations.py
Last active
June 20, 2019 20:34
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| iterations = 100 | |
| stop=[False]*k | |
| for n in range(iterations): | |
| # iterate over the data points and assign them to one of the k clusters | |
| print('iteration number {}'.format(n)) | |
| for i, (x, y) in enumerate(zip(x_data, y_data)): | |
| cluster_index= assign_cluster(x, y, kcenters) | |
| # updating the color_list for all the data points on the basis of the newly assigned clusters to them. |
n0obcoder
/ understanding_pytorch___01___defining_model.py
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August 13, 2019 17:05
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| class NeuralNet(nn.Module): | |
| def __init__(self): | |
| super(NeuralNet, self).__init__() | |
| self.sequential = nn.Sequential(nn.Conv2d(1, 32, 5), | |
| nn.Conv2d(32, 64, 5), | |
| nn.Dropout(0.3)) | |
| self.layer1 = nn.Conv2d(64, 128, 5) | |
| self.layer2 = nn.Conv2d(128, 256, 5) | |
| self.fc = nn.Linear(256*34*34, 128) |
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