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import streamlit as st |
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import numpy as np |
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import PIL |
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from PIL import Image |
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from streamlit_image_select import image_select |
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from ultralytics import YOLO |
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import cv2 |
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import matplotlib.pyplot as plt |
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import os |
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import pathlib |
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import PIL |
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import PIL.Image |
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import xml.etree.ElementTree as ET |
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import pybboxes as pbx |
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from pybboxes import BoundingBox |
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from pathlib import Path |
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import colorsys |
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import random |
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def generate_label_colors(count): |
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colors = [] |
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for c in range(count): |
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h,s,l = random.random(), 0.5 + random.random()/2.0, 0.4 + random.random()/5.0 |
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r,g,b = [int(256*i) for i in colorsys.hls_to_rgb(h,l,s)] |
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colors.append(tuple([int(r), int(g), int(b)])) |
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return colors |
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def run_inference(model, img_paths): |
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return model.predict(img_paths) |
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def process_inference_result(result, class_colors): |
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label_counts = {'class': [], 'count': []} |
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img = result.orig_img |
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dh, dw, _ = img.shape |
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boxes = result.boxes.xywhn.tolist() |
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labels = [int(label) for label in result.boxes.cls] |
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conf = [float(label) for label in result.boxes.conf] |
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for i, bbox in enumerate(boxes): |
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x = bbox[0] |
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y = bbox[1] |
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w = bbox[2] |
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h = bbox[3] |
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voc_box = pbx.convert_bbox([x, y, w, h], from_type="yolo", to_type="voc", image_size=(dw, dh)) |
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voc_x1 = voc_box[0] |
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voc_y1 = voc_box[1] |
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voc_x2 = voc_box[2] |
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voc_y2 = voc_box[3] |
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class_name = aircraft_lookup[classes[labels[i]]] |
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cv2.rectangle(img, (voc_x1, voc_y1), (voc_x2, voc_y2), class_colors[labels[i]], 2) |
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cv2.putText(img, class_name + ' ' + str(round(conf[i], 2)), (voc_x1, voc_y1-5), cv2.FONT_HERSHEY_SIMPLEX, 1, class_colors[labels[i]], 2) |
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if class_name not in label_counts['class']: |
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label_counts['class'].append(class_name) |
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label_counts['count'].append(1) |
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else: |
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label_counts['count'][label_counts['class'].index(class_name)] += 1 |
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return img, label_counts |
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def get_detection_count_display(classes): |
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class_names = classes["class"] |
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counts = classes["count"] |
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if(len(classes)): |
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disp_str = "[Aircraft detected] " |
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for i, c in enumerate(class_names): |
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disp_str += c + ": " + str(counts[i]) + " " |
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else: |
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disp_str = "[No aircraft detected]" |
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return disp_str |
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def run_process_show(img_path): |
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results = model(img_path) |
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processed_image = process_inference_result(results[0], rand_class_colors) |
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return processed_image |
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model = YOLO("weights/best.pt") |
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classes = ['A6', 'A17', 'A16', 'A15', 'A5', 'A20', 'A14', 'A12', 'A8', 'A2', 'A7', 'A18', 'A13', 'A4', 'A19', 'A1', 'A3', 'A10', 'A11', 'A9'] |
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aircraft_names = ['SU-35', 'C-130', 'C-17', 'C-5', 'F-16', 'TU-160', 'E-3', 'B-52', 'P-3C', 'B-1B', 'E-8', 'TU-22', 'F-15', 'KC-135', 'F-22', 'FA-18', 'TU-95', 'KC-10', 'SU-34', 'SU-24'] |
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aircraft_lookup = {} |
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for i in range(len(classes)): |
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aircraft_lookup['A' + str(i+1)] = aircraft_names[i] |
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rand_class_colors = generate_label_colors(len(classes)) |
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logo = cv2.imread("images/oneeye2.jpg") |
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logo_img = st.image(logo) |
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img = image_select( |
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label="Select an airbase", |
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images=[ |
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cv2.imread("images/edwards.jpg"), |
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cv2.imread("images/edwards2.jpg"), |
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cv2.imread("images/buturlinovka2.jpg"), |
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cv2.imread("images/engels.jpg"), |
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cv2.imread("images/nellis1.jpg"), |
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cv2.imread("images/littlerock.jpg"), |
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cv2.imread("images/hmeimim.jpg"), |
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cv2.imread("images/hill.jpg"), |
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], |
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captions=["Edwards AFB 1", "Edwards AFB 2", "Buturlinovka District", "Engels", "Nellis AFB", "Little Rock AFB", "Hmiemim Syria", "Hill AFB"], |
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) |
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status = st.empty() |
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big_img = st.image(img) |
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status.write("Running OneEye detector...") |
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img2, detection_labels = run_process_show(img) |
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big_img.image(img2) |
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status.write(get_detection_count_display(detection_labels)) |
