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136 lines
4.2 KiB
Python
136 lines
4.2 KiB
Python
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# Source : https://computersciencewiki.org/index.php/Max-pooling_/_Pooling
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# Importing the libraries
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import numpy as np
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from PIL import Image
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# Maxpooling Function
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def maxpooling(arr: np.ndarray, size: int, stride: int) -> np.ndarray:
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"""
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This function is used to perform maxpooling on the input array of 2D matrix(image)
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Args:
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arr: numpy array
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size: size of pooling matrix
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stride: the number of pixels shifts over the input matrix
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Returns:
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numpy array of maxpooled matrix
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Sample Input Output:
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>>> maxpooling([[1,2,3,4],[5,6,7,8],[9,10,11,12],[13,14,15,16]], 2, 2)
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array([[ 6., 8.],
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[14., 16.]])
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>>> maxpooling([[147, 180, 122],[241, 76, 32],[126, 13, 157]], 2, 1)
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array([[241., 180.],
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[241., 157.]])
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"""
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arr = np.array(arr)
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if arr.shape[0] != arr.shape[1]:
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raise ValueError("The input array is not a square matrix")
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i = 0
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j = 0
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mat_i = 0
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mat_j = 0
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# compute the shape of the output matrix
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maxpool_shape = (arr.shape[0] - size) // stride + 1
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# initialize the output matrix with zeros of shape maxpool_shape
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updated_arr = np.zeros((maxpool_shape, maxpool_shape))
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while i < arr.shape[0]:
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if i + size > arr.shape[0]:
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# if the end of the matrix is reached, break
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break
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while j < arr.shape[1]:
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# if the end of the matrix is reached, break
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if j + size > arr.shape[1]:
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break
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# compute the maximum of the pooling matrix
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updated_arr[mat_i][mat_j] = np.max(arr[i : i + size, j : j + size])
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# shift the pooling matrix by stride of column pixels
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j += stride
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mat_j += 1
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# shift the pooling matrix by stride of row pixels
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i += stride
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mat_i += 1
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# reset the column index to 0
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j = 0
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mat_j = 0
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return updated_arr
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# Averagepooling Function
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def avgpooling(arr: np.ndarray, size: int, stride: int) -> np.ndarray:
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"""
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This function is used to perform avgpooling on the input array of 2D matrix(image)
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Args:
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arr: numpy array
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size: size of pooling matrix
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stride: the number of pixels shifts over the input matrix
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Returns:
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numpy array of avgpooled matrix
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Sample Input Output:
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>>> avgpooling([[1,2,3,4],[5,6,7,8],[9,10,11,12],[13,14,15,16]], 2, 2)
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array([[ 3., 5.],
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[11., 13.]])
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>>> avgpooling([[147, 180, 122],[241, 76, 32],[126, 13, 157]], 2, 1)
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array([[161., 102.],
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[114., 69.]])
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"""
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arr = np.array(arr)
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if arr.shape[0] != arr.shape[1]:
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raise ValueError("The input array is not a square matrix")
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i = 0
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j = 0
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mat_i = 0
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mat_j = 0
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# compute the shape of the output matrix
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avgpool_shape = (arr.shape[0] - size) // stride + 1
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# initialize the output matrix with zeros of shape avgpool_shape
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updated_arr = np.zeros((avgpool_shape, avgpool_shape))
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while i < arr.shape[0]:
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# if the end of the matrix is reached, break
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if i + size > arr.shape[0]:
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break
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while j < arr.shape[1]:
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# if the end of the matrix is reached, break
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if j + size > arr.shape[1]:
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break
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# compute the average of the pooling matrix
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updated_arr[mat_i][mat_j] = int(np.average(arr[i : i + size, j : j + size]))
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# shift the pooling matrix by stride of column pixels
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j += stride
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mat_j += 1
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# shift the pooling matrix by stride of row pixels
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i += stride
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mat_i += 1
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# reset the column index to 0
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j = 0
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mat_j = 0
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return updated_arr
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# Main Function
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if __name__ == "__main__":
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from doctest import testmod
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testmod(name="avgpooling", verbose=True)
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# Loading the image
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image = Image.open("path_to_image")
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# Converting the image to numpy array and maxpooling, displaying the result
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# Ensure that the image is a square matrix
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Image.fromarray(maxpooling(np.array(image), size=3, stride=2)).show()
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# Converting the image to numpy array and averagepooling, displaying the result
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# Ensure that the image is a square matrix
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Image.fromarray(avgpooling(np.array(image), size=3, stride=2)).show()
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