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Segmenting_greek_coins_using_Segmental_Clustering / app.py

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	import gradio as gr
	import time
	import numpy as np
	from scipy.ndimage import gaussian_filter
	import matplotlib.pyplot as plt
	from skimage.data import coins
	from skimage.transform import rescale
	from sklearn.feature_extraction import image
	from sklearn.cluster import spectral_clustering
	import gradio as gr


	def getClusteringPlot(algorithm):
	# load the coins as a numpy array
	orig_coins = coins()

	# Pre-processing the image
	smoothened_coins = gaussian_filter(orig_coins, sigma=2)
	rescaled_coins = rescale(smoothened_coins, 0.2, mode="reflect", anti_aliasing=False)

	# Convert the image into a graph
	graph = image.img_to_graph(rescaled_coins)

	beta = 10
	eps = 1e-6
	graph.data = np.exp(-beta * graph.data / graph.data.std()) + eps

	# The number of segmented regions to display needs to be chosen manually
	n_regions = 26

	# The spectral clustering quality may also benetif from requesting
	# extra regions for segmentation.
	n_regions_plus = 3

	t0 = time.time()
	labels = spectral_clustering(
	graph,
	n_clusters=(n_regions + n_regions_plus),
	eigen_tol=1e-7,
	assign_labels=algorithm,
	random_state=42,
	)

	t1 = time.time()
	labels = labels.reshape(rescaled_coins.shape)
	plt.figure(figsize=(5, 5))
	plt.imshow(rescaled_coins, cmap=plt.cm.gray)

	plt.xticks(())
	plt.yticks(())
	title = "Spectral clustering: %s, %.2fs" % (algorithm, (t1 - t0))
	print(title)
	plt.title(title)
	for l in range(n_regions):
	colors = [plt.cm.nipy_spectral((l + 4) / float(n_regions + 4))]
	plt.contour(labels == l, colors=colors)
	# To view individual segments as appear comment in plt.pause(0.5)
	return (plt, "%.3fs" % (t1 - t0))

	with gr.Blocks() as demo:
	gr.Markdown("## Segmenting the picture of Greek coins in regions 🪙")
	gr.Markdown("This demo is based on this [scikit-learn example](https://scikit-learn.org/stable/auto_examples/cluster/plot_coin_segmentation.html#sphx-glr-auto-examples-cluster-plot-coin-segmentation-py).")
	gr.Markdown("In this demo, we compare three strategies for performing segmentation-clustering and breaking the below image of Greek coins into multiple partly-homogeneous regions.")
	gr.Image(coins(), label="An image of 24 Greek coins")
	gr.Markdown("The image is retrieved from scikit-image's data [gallery](https://scikit-image.org/docs/stable/auto_examples/).")
	inp = gr.Radio(["kmeans", "discretize", "cluster_qr"], label="Solver", info="Choose a clustering algorithm", value="kmeans")
	with gr.Row():
	plot = gr.Plot(label="Plot")
	num = gr.Textbox(label="Running Time")
	inp.change(getClusteringPlot, inputs=[inp], outputs=[plot, num])
	demo.load(getClusteringPlot, inputs=[inp], outputs=[plot, num])

	demo.launch()