2023-01-22 21:00:32 +01:00
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# -*- coding: utf-8 -*-
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"""
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Class definition of YOLO_v3 style detection model on image and video
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"""
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import colorsys
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from timeit import default_timer as timer
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import numpy as np
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from keras import backend as K
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from keras.models import load_model
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from keras.layers import Input
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from PIL import Image, ImageFont, ImageDraw
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import os
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import tensorflow.compat.v1.keras.backend as K
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import tensorflow as tf
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from yolo3.utils import letterbox_image
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from yolo3.model import yolo_eval, yolo_body, tiny_yolo_body
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# from utils import letterbox_image
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# from model import yolo_eval, yolo_body, tiny_yolo_body
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tf.compat.v1.disable_eager_execution()
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class YOLO(object):
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_defaults = {
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2023-02-01 00:25:23 +01:00
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"model_path": 'API/model_data/trained_weights_final.h5',
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"anchors_path": 'API/model_data/yolo_anchors.txt',
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2023-02-01 01:09:19 +01:00
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"classes_path": 'API/model_data/_classes.txt',
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2023-01-22 21:00:32 +01:00
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"score": 0.3,
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"iou": 0.45,
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"model_image_size": (256,256),#(128, 128),
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"gpu_num": 1,
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}
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@classmethod
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def get_defaults(cls, n):
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if n in cls._defaults:
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return cls._defaults[n]
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else:
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return "Unrecognized attribute name '" + n + "'"
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def __init__(self, **kwargs):
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self.__dict__.update(self._defaults) # set up default values
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self.class_names = self._get_class()
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self.anchors = self._get_anchors()
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self.sess = K.get_session()
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self.boxes, self.scores, self.classes = self.generate()
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def _get_class(self):
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classes_path = os.path.expanduser(self.classes_path)
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with open(classes_path) as f:
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class_names = f.readlines()
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class_names = [c.strip() for c in class_names]
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return class_names
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def _get_anchors(self):
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anchors_path = os.path.expanduser(self.anchors_path)
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with open(anchors_path) as f:
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anchors = f.readline()
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anchors = [float(x) for x in anchors.split(',')]
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return np.array(anchors).reshape(-1, 2)
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def generate(self):
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model_path = os.path.expanduser(self.model_path)
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assert model_path.endswith('.h5'), 'Keras model or weights must be a .h5 file.'
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# Load model, or construct model and load weights.
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num_anchors = len(self.anchors)
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num_classes = len(self.class_names)
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is_tiny_version = num_anchors == 6 # default setting
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try:
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self.yolo_model = load_model(model_path, compile=False)
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except:
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self.yolo_model = tiny_yolo_body(Input(shape=(None, None, 3)), num_anchors // 2, num_classes) \
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if is_tiny_version else yolo_body(Input(shape=(None, None, 3)), num_anchors // 3, num_classes)
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self.yolo_model.load_weights(self.model_path) # make sure model, anchors and classes match
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else:
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assert self.yolo_model.layers[-1].output_shape[-1] == \
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num_anchors / len(self.yolo_model.output) * (num_classes + 5), \
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'Mismatch between model and given anchor and class sizes'
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print('{} model, anchors, and classes loaded.'.format(model_path))
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# Generate colors for drawing bounding boxes.
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hsv_tuples = [(x / len(self.class_names), 1., 1.)
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for x in range(len(self.class_names))]
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self.colors = list(map(lambda x: colorsys.hsv_to_rgb(*x), hsv_tuples))
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self.colors = list(
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map(lambda x: (int(x[0] * 255), int(x[1] * 255), int(x[2] * 255)),
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self.colors))
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np.random.seed(10101) # Fixed seed for consistent colors across runs.
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np.random.shuffle(self.colors) # Shuffle colors to decorrelate adjacent classes.
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np.random.seed(None) # Reset seed to default.
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# Generate output tensor targets for filtered bounding boxes.
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self.input_image_shape = K.placeholder(shape=(2,))
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if self.gpu_num >= 2:
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self.yolo_model = tf.multi_gpu_model(self.yolo_model, gpus=self.gpu_num)
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boxes, scores, classes = yolo_eval(self.yolo_model.output, self.anchors,
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len(self.class_names), self.input_image_shape,
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score_threshold=self.score, iou_threshold=self.iou)
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return boxes, scores, classes
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def detect_image(self, image):
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start = timer()
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pred = []
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if self.model_image_size != (None, None):
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assert self.model_image_size[0] % 32 == 0, 'Multiples of 32 required'
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assert self.model_image_size[1] % 32 == 0, 'Multiples of 32 required'
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boxed_image = letterbox_image(image, tuple(reversed(self.model_image_size)))
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else:
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new_image_size = (image.width - (image.width % 32),
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image.height - (image.height % 32))
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boxed_image = letterbox_image(image, new_image_size)
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image_data = np.array(boxed_image, dtype='float32')
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print(image_data.shape)
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image_data /= 255.
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image_data = np.expand_dims(image_data, 0) # Add batch dimension.
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out_boxes, out_scores, out_classes = self.sess.run(
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[self.boxes, self.scores, self.classes],
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feed_dict={
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self.yolo_model.input: image_data,
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self.input_image_shape: [image.size[1], image.size[0]],
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K.learning_phase(): 0
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})
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print('Found {} boxes for {}'.format(len(out_boxes), 'img'))
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2023-02-01 00:25:23 +01:00
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font = ImageFont.truetype(font='API/font/FiraMono-Medium.otf',
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2023-01-22 21:00:32 +01:00
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size=np.floor(3e-2 * image.size[1] + 0.5).astype('int32'))
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thickness = (image.size[0] + image.size[1]) // 300
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for i, c in reversed(list(enumerate(out_classes))):
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predicted_class = self.class_names[c]
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box = out_boxes[i]
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score = out_scores[i]
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# score > 0.7
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if score > 0.5:
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label = '{} {:.2f}'.format(predicted_class, score)
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draw = ImageDraw.Draw(image)
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label_size = draw.textsize(label, font)
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top, left, bottom, right = box
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top = max(0, np.floor(top + 0.5).astype('int32'))# - 10
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left = max(0, np.floor(left + 0.5).astype('int32'))# - 10
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bottom = min(image.size[1], np.floor(bottom + 0.5).astype('int32'))# + 10
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right = min(image.size[0], np.floor(right + 0.5).astype('int32'))# + 10
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# print('=' * 10)
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# print(label, (left, top), (right, bottom))
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pred.append([label, (left, top), (right, bottom)])
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# print('=' * 10)
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if top - label_size[1] >= 0:
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text_origin = np.array([left, top - label_size[1]])
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else:
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text_origin = np.array([left, top + 1])
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# My kingdom for a good redistributable image drawing library.
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for i in range(thickness):
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draw.rectangle(
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[left + i, top + i, right - i, bottom - i],
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outline=self.colors[c])
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draw.rectangle(
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[tuple(text_origin), tuple(text_origin + label_size)],
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fill=self.colors[c])
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draw.text(text_origin, label, fill=(0, 0, 0), font=font)
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del draw
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end = timer()
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print(end - start)
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return image, pred
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def close_session(self):
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self.sess.close()
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def detect_video(yolo, video_path, output_path=""):
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import cv2
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vid = cv2.VideoCapture(video_path)
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if not vid.isOpened():
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raise IOError("Couldn't open webcam or video")
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video_FourCC = int(vid.get(cv2.CAP_PROP_FOURCC))
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video_fps = vid.get(cv2.CAP_PROP_FPS)
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video_size = (int(vid.get(cv2.CAP_PROP_FRAME_WIDTH)),
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int(vid.get(cv2.CAP_PROP_FRAME_HEIGHT)))
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isOutput = True if output_path != "" else False
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if isOutput:
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print("!!! TYPE:", type(output_path), type(video_FourCC), type(video_fps), type(video_size))
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out = cv2.VideoWriter(output_path, video_FourCC, video_fps, video_size)
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accum_time = 0
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curr_fps = 0
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fps = "FPS: ??"
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prev_time = timer()
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while True:
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return_value, frame = vid.read()
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image = Image.fromarray(frame)
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image = yolo.detect_image(image)
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result = np.asarray(image)
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curr_time = timer()
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exec_time = curr_time - prev_time
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prev_time = curr_time
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accum_time = accum_time + exec_time
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curr_fps = curr_fps + 1
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if accum_time > 1:
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accum_time = accum_time - 1
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fps = "FPS: " + str(curr_fps)
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curr_fps = 0
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cv2.putText(result, text=fps, org=(3, 15), fontFace=cv2.FONT_HERSHEY_SIMPLEX,
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fontScale=0.50, color=(255, 0, 0), thickness=2)
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cv2.namedWindow("result", cv2.WINDOW_NORMAL)
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cv2.imshow("result", result)
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if isOutput:
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out.write(result)
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if cv2.waitKey(1) & 0xFF == ord('q'):
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break
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yolo.close_session()
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