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detect.py
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detect.py
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import os
# comment out below line to enable tensorflow outputs
os.environ['TF_CPP_MIN_LOG_LEVEL'] = '3'
import tensorflow as tf
physical_devices = tf.config.experimental.list_physical_devices('GPU')
if len(physical_devices) > 0:
tf.config.experimental.set_memory_growth(physical_devices[0], True)
from absl import app, flags, logging
from absl.flags import FLAGS
import core.utils as utils
from core.yolov4 import filter_boxes
from core.functions import *
from tensorflow.python.saved_model import tag_constants
from PIL import Image
import cv2
import numpy as np
from tensorflow.compat.v1 import ConfigProto
from tensorflow.compat.v1 import InteractiveSession
flags.DEFINE_string('framework', 'tf', '(tf, tflite, trt')
flags.DEFINE_string('weights', './checkpoints/yolov4-416',
'path to weights file')
flags.DEFINE_integer('size', 416, 'resize images to')
flags.DEFINE_boolean('tiny', False, 'yolo or yolo-tiny')
flags.DEFINE_string('model', 'yolov4', 'yolov3 or yolov4')
flags.DEFINE_list('images', './data/images/kite.jpg', 'path to input image')
flags.DEFINE_string('output', './detections/', 'path to output folder')
flags.DEFINE_float('iou', 0.45, 'iou threshold')
flags.DEFINE_float('score', 0.50, 'score threshold')
flags.DEFINE_boolean('count', False, 'count objects within images')
flags.DEFINE_boolean('dont_show', False, 'dont show image output')
flags.DEFINE_boolean('info', False, 'print info on detections')
flags.DEFINE_boolean('crop', False, 'crop detections from images')
flags.DEFINE_boolean('ocr', False, 'perform generic OCR on detection regions')
flags.DEFINE_boolean('plate', False, 'perform license plate recognition')
def main(_argv):
config = ConfigProto()
config.gpu_options.allow_growth = True
session = InteractiveSession(config=config)
STRIDES, ANCHORS, NUM_CLASS, XYSCALE = utils.load_config(FLAGS)
input_size = FLAGS.size
images = FLAGS.images
# load model
if FLAGS.framework == 'tflite':
interpreter = tf.lite.Interpreter(model_path=FLAGS.weights)
else:
saved_model_loaded = tf.saved_model.load(FLAGS.weights, tags=[tag_constants.SERVING])
# loop through images in list and run Yolov4 model on each
for count, image_path in enumerate(images, 1):
original_image = cv2.imread(image_path)
original_image = cv2.cvtColor(original_image, cv2.COLOR_BGR2RGB)
image_data = cv2.resize(original_image, (input_size, input_size))
image_data = image_data / 255.
# get image name by using split method
image_name = image_path.split('/')[-1]
image_name = image_name.split('.')[0]
images_data = []
for i in range(1):
images_data.append(image_data)
images_data = np.asarray(images_data).astype(np.float32)
if FLAGS.framework == 'tflite':
interpreter.allocate_tensors()
input_details = interpreter.get_input_details()
output_details = interpreter.get_output_details()
interpreter.set_tensor(input_details[0]['index'], images_data)
interpreter.invoke()
pred = [interpreter.get_tensor(output_details[i]['index']) for i in range(len(output_details))]
if FLAGS.model == 'yolov3' and FLAGS.tiny == True:
boxes, pred_conf = filter_boxes(pred[1], pred[0], score_threshold=0.25, input_shape=tf.constant([input_size, input_size]))
else:
boxes, pred_conf = filter_boxes(pred[0], pred[1], score_threshold=0.25, input_shape=tf.constant([input_size, input_size]))
else:
infer = saved_model_loaded.signatures['serving_default']
batch_data = tf.constant(images_data)
pred_bbox = infer(batch_data)
for key, value in pred_bbox.items():
boxes = value[:, :, 0:4]
pred_conf = value[:, :, 4:]
# run non max suppression on detections
boxes, scores, classes, valid_detections = tf.image.combined_non_max_suppression(
boxes=tf.reshape(boxes, (tf.shape(boxes)[0], -1, 1, 4)),
scores=tf.reshape(
pred_conf, (tf.shape(pred_conf)[0], -1, tf.shape(pred_conf)[-1])),
max_output_size_per_class=50,
max_total_size=50,
iou_threshold=FLAGS.iou,
score_threshold=FLAGS.score
)
# format bounding boxes from normalized ymin, xmin, ymax, xmax ---> xmin, ymin, xmax, ymax
original_h, original_w, _ = original_image.shape
bboxes = utils.format_boxes(boxes.numpy()[0], original_h, original_w)
# hold all detection data in one variable
pred_bbox = [bboxes, scores.numpy()[0], classes.numpy()[0], valid_detections.numpy()[0]]
# read in all class names from config
class_names = utils.read_class_names(cfg.YOLO.CLASSES)
# by default allow all classes in .names file
allowed_classes = list(class_names.values())
# custom allowed classes (uncomment line below to allow detections for only people)
#allowed_classes = ['person']
# if crop flag is enabled, crop each detection and save it as new image
if FLAGS.crop:
crop_path = os.path.join(os.getcwd(), 'detections', 'crop', image_name)
try:
os.mkdir(crop_path)
except FileExistsError:
pass
crop_objects(cv2.cvtColor(original_image, cv2.COLOR_BGR2RGB), pred_bbox, crop_path, allowed_classes)
# if ocr flag is enabled, perform general text extraction using Tesseract OCR on object detection bounding box
if FLAGS.ocr:
ocr(cv2.cvtColor(original_image, cv2.COLOR_BGR2RGB), pred_bbox)
# if count flag is enabled, perform counting of objects
if FLAGS.count:
# count objects found
counted_classes = count_objects(pred_bbox, by_class = False, allowed_classes=allowed_classes)
# loop through dict and print
for key, value in counted_classes.items():
print("Number of {}s: {}".format(key, value))
image = utils.draw_bbox(original_image, pred_bbox, FLAGS.info, counted_classes, allowed_classes=allowed_classes, read_plate = FLAGS.plate)
else:
image = utils.draw_bbox(original_image, pred_bbox, FLAGS.info, allowed_classes=allowed_classes, read_plate = FLAGS.plate)
image = Image.fromarray(image.astype(np.uint8))
if not FLAGS.dont_show:
image.show()
image = cv2.cvtColor(np.array(image), cv2.COLOR_BGR2RGB)
cv2.imwrite(FLAGS.output + 'detection' + str(count) + '.png', image)
if __name__ == '__main__':
try:
app.run(main)
except SystemExit:
pass