Asphalt-Pavement-Distresses-Detector_v2

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Asphalt-Pavement-Distresses-Detector_v2 / app.py

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	import gradio as gr
	import cv2
	import requests
	import os
	import random

	from ultralytics import YOLO

	file_urls = [
	'https://www.dropbox.com/scl/fi/5pavu4vvkprrtkwktvei7/DSC02373.JPG?rlkey=fpj636qtkf3vrqfxy45n2d9ii&dl=1',
	'https://www.dropbox.com/scl/fi/56pbn4r3ohk85rchcvwdj/DSC02813.JPG?rlkey=jnbsidqtthk6p4ysld6o6kc4t&dl=1',
	'https://www.dropbox.com/scl/fi/av9g5zbmrrzg9064zivat/image_2.jpg?rlkey=ldocvzz5lq98zffqf1lmhbhv1&dl=1',
	'https://www.dropbox.com/scl/fi/izo2eqqnqzcsaxis1qrbx/IMG_7612.JPG?rlkey=6wfjaux44khtlx454ex0ng0hp&dl=1',
	'https://www.dropbox.com/scl/fi/e6vgy1et6vjr61uypk5yu/VID-20230809-WA0021.mp4?rlkey=khv8rw074vezzlg8ob38bpmbx&dl=1'
	]

	def download_file(url, save_name):
	url = url
	if not os.path.exists(save_name):
	file = requests.get(url)
	open(save_name, 'wb').write(file.content)

	for i, url in enumerate(file_urls):
	if 'mp4' in file_urls[i]:
	download_file(
	file_urls[i],
	f"video.mp4"
	)
	else:
	download_file(
	file_urls[i],
	f"image_{i}.jpg"
	)


	model = YOLO('best.pt')
	path = [['image_0.jpg'], ['image_1.jpg'], ['image_2.jpg'], ['image_3.jpg']]

	# path = [['IMG_7612.JPG'], ['IMG_7678.JPG'], ['all_33.jpg'], ['all_80.jpg'],
	# ['DSC02813.JPG'], ['DSC02373.JPG']]


	# path = [['sc_1_0 (1) (1).JPG'], ['sc_1_0 (16) (1).JPG'],
	# ['sc_1_0 (18) (1).JPG'], ['sc_1_0 (18).JPG']]

	video_path = [['video.mp4']]

	classes = ['alligator_cracking', 'longitudinal_cracking', 'potholes', 'ravelling']

	def show_preds_image(image_path):
	image = cv2.imread(image_path)
	outputs = model.predict(source=image_path, agnostic_nms=True, conf=0.25, iou=0.4, imgsz=640)
	results = outputs[0].cpu().numpy()

	re_boxes = results.boxes.data.tolist()

	class_colors = {1 : (95, 255, 54), 2: (242, 210, 100), 3: (96, 7, 70), 4:(221, 59, 41)}
	random.seed(42)
	# class_colors = [(random.randint(0, 255), random.randint(0, 255), random.randint(0, 255)) for _ in range(4)]

	for i, det in enumerate(results.boxes.xyxy):
	x1, y1, x2, y2 = int(det[0]), int(det[1]), int(det[2]), int(det[3])

	class_label = int(re_boxes[i][-1])
	rectangle_color = class_colors.get(class_label)
	# rectangle_color = class_colors[class_label]
	text_color = rectangle_color
	cv2.rectangle(
	image,
	(int(det[0]), int(det[1])),
	(int(det[2]), int(det[3])),
	color=rectangle_color,
	thickness=3,
	lineType=cv2.LINE_AA
	)

	text_position = (x1, y1+100)
	conf = re_boxes[i][-2]
	class_name = classes[class_label]
	# class_label = class_name.split('_')[0] + '\n' + class_name.split('_')[1] if '_' in class_name else class_name
	cv2.putText(image, classes[class_label] + f' = {round(conf, 2)}',
	text_position, cv2.FONT_HERSHEY_SIMPLEX, 1.5, text_color, 3)


	# print(class_ids)
	return cv2.cvtColor(image, cv2.COLOR_BGR2RGB)

	inputs_image = [
	gr.components.Image(type="filepath", label="Input Image"),
	]
	outputs_image = [
	gr.components.Image(type="numpy", label="Output Image"),
	]
	interface_image = gr.Interface(
	fn=show_preds_image,
	inputs=inputs_image,
	outputs=outputs_image,
	title="Asphalt Road Pavement Distresses Detector",
	examples=path,
	cache_examples=False,
	description= 'This is a demo app that takes in images or videos of Asphalt pavement surfaces and \
	\n detects the following pavement distresses: \
	\n \
	\n Alligator cracking \
	\n Longitudinal cracking \
	\n Potholes \
	\n Ravelling \
	\n \
	\n This is specifically for Inference and educational purpose.\
	\n \
	\n The model might ocassionaly give false outputs'
	)

	def show_preds_video(video_path):
	cap = cv2.VideoCapture(video_path)
	while(cap.isOpened()):
	ret, frame = cap.read()
	if ret:
	frame_copy = frame.copy()
	outputs = model.predict(source=frame, agnostic_nms=True, conf=0.25, iou=0.4, imgsz=640)
	results = outputs[0].cpu().numpy()
	re_boxes = results.boxes.data.tolist()

	class_colors = {1 : (95, 255, 54), 2: (242, 210, 100), 3: (96, 7, 70), 4:(221, 59, 41)}
	random.seed(42)
	# class_colors = [(random.randint(0, 255), random.randint(0, 255), random.randint(0, 255)) for _ in range(4)]

	for i, det in enumerate(results.boxes.xyxy):
	x1, y1, x2, y2 = int(det[0]), int(det[1]), int(det[2]), int(det[3])

	class_label = int(re_boxes[i][-1])
	rectangle_color = class_colors.get(class_label)
	# rectangle_color = class_colors[class_label]
	text_color = rectangle_color

	cv2.rectangle(
	frame_copy,
	(int(det[0]), int(det[1])),
	(int(det[2]), int(det[3])),
	color=rectangle_color,
	thickness=2,
	lineType=cv2.LINE_AA
	)


	text_position = (x1, y1+100)
	conf = re_boxes[i][-2]
	class_name = classes[class_label]
	# class_label = class_name.split('_')[0] + '\n' + class_name.split('_')[1] if '_' in class_name else class_name
	cv2.putText(frame_copy, classes[class_label] + f' = {round(conf, 2)}',
	text_position, cv2.FONT_HERSHEY_SIMPLEX, 1.5, text_color, 3)

	yield cv2.cvtColor(frame_copy, cv2.COLOR_BGR2RGB)

	inputs_video = [
	gr.components.Video(type="filepath", label="Input Video"),

	]
	outputs_video = [
	gr.components.Image(type="numpy", label="Output Video"),
	]
	interface_video = gr.Interface(
	fn=show_preds_video,
	inputs=inputs_video,
	outputs=outputs_video,
	title="Asphalt Road Pavement Distresses Detector",
	examples=video_path,
	cache_examples=False,
	# live=True
	)
	gr.TabbedInterface(
	[interface_image, interface_video],
	tab_names=['Image inference', 'Video inference'],
	).queue().launch()