Spaces:
Running
on
CPU Upgrade
Running
on
CPU Upgrade
Use kornia io module to load the image
Browse files
app.py
CHANGED
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@@ -1,61 +1,55 @@
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import gradio as gr
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import cv2
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import numpy as np
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import torch
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import kornia as K
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from kornia.core import Tensor
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def edge_detection(filepath, detector):
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x_bgr: torch.Tensor = K.utils.image_to_tensor(img_bgr)
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x_bgr = x_bgr[None,...].float() / 255.
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x_rgb:
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x_gray = K.color.rgb_to_grayscale(x_rgb)
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if detector == '1st order derivates in x':
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grads:
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grads_x = grads[:, :, 0]
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grads_y = grads[:, :, 1]
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output = K.utils.tensor_to_image(1. - grads_x.clamp(0., 1.))
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elif detector == '1st order derivates in y':
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grads:
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grads_x = grads[:, :, 0]
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grads_y = grads[:, :, 1]
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output = K.utils.tensor_to_image(1. - grads_y.clamp(0., 1.))
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elif detector == '2nd order derivatives in x':
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grads:
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grads_x = grads[:, :, 0]
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grads_y = grads[:, :, 1]
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output = K.utils.tensor_to_image(1. - grads_x.clamp(0., 1.))
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elif detector == '2nd order derivatives in y':
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grads:
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grads_x = grads[:, :, 0]
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grads_y = grads[:, :, 1]
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output = K.utils.tensor_to_image(1. - grads_y.clamp(0., 1.))
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elif detector == 'Sobel':
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x_sobel:
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output = K.utils.tensor_to_image(1. - x_sobel)
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elif detector == 'Laplacian':
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x_laplacian:
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output = K.utils.tensor_to_image(1. - x_laplacian.clamp(0., 1.))
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else:
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x_canny:
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output = K.utils.tensor_to_image(1. - x_canny.clamp(0., 1.0))
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return output
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import gradio as gr
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import kornia as K
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from kornia.core import Tensor
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def edge_detection(filepath, detector):
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img: Tensor = K.io.load_image(filepath, K.io.ImageLoadType.RGB32)
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img = img[None]
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x_rgb: Tensor = K.color.bgr_to_rgb(img)
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x_gray = K.color.rgb_to_grayscale(x_rgb)
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if detector == '1st order derivates in x':
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grads: Tensor = K.filters.spatial_gradient(x_gray, order=1)
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grads_x = grads[:, :, 0]
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grads_y = grads[:, :, 1]
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output = K.utils.tensor_to_image(1. - grads_x.clamp(0., 1.))
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elif detector == '1st order derivates in y':
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grads: Tensor = K.filters.spatial_gradient(x_gray, order=1)
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grads_x = grads[:, :, 0]
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grads_y = grads[:, :, 1]
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output = K.utils.tensor_to_image(1. - grads_y.clamp(0., 1.))
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elif detector == '2nd order derivatives in x':
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grads: Tensor = K.filters.spatial_gradient(x_gray, order=2)
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grads_x = grads[:, :, 0]
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grads_y = grads[:, :, 1]
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output = K.utils.tensor_to_image(1. - grads_x.clamp(0., 1.))
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elif detector == '2nd order derivatives in y':
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grads: Tensor = K.filters.spatial_gradient(x_gray, order=2)
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grads_x = grads[:, :, 0]
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grads_y = grads[:, :, 1]
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output = K.utils.tensor_to_image(1. - grads_y.clamp(0., 1.))
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elif detector == 'Sobel':
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x_sobel: Tensor = K.filters.sobel(x_gray)
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output = K.utils.tensor_to_image(1. - x_sobel)
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elif detector == 'Laplacian':
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x_laplacian: Tensor = K.filters.laplacian(x_gray, kernel_size=5)
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output = K.utils.tensor_to_image(1. - x_laplacian.clamp(0., 1.))
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else:
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x_canny: Tensor = K.filters.canny(x_gray)[0]
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output = K.utils.tensor_to_image(1. - x_canny.clamp(0., 1.0))
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return output
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