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ultraface_detect_module.py
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ultraface_detect_module.py
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import cv2
import numpy as np
from ultraface.utils import define_img_size, convert_locations_to_boxes, center_form_to_corner_form, predict
class ultraface():
def __init__(self, framework='onnx', input_img_size = 320, threshold=0.7):
if input_img_size == 320:
if framework=='onnx':
self.net = cv2.dnn.readNetFromONNX('ultraface/version-RFB-320_simplified.onnx')
else:
self.net = cv2.dnn.readNetFromCaffe('ultraface/RFB-320.prototxt', 'ultraface/RFB-320.caffemodel')
self.input_size = (320, 240)
else:
self.net = cv2.dnn.readNetFromONNX('ultraface/version-slim-640.onnx')
self.input_size = (640, 480)
self.priors = define_img_size(self.input_size)
self.threshold = threshold
self.center_variance = 0.1
self.size_variance = 0.2
self.image_std = 128.0
def detect(self, srcimg):
# rect = cv2.resize(srcimg, (self.input_size[0], self.input_size[1]))
# rect = cv2.cvtColor(rect, cv2.COLOR_BGR2RGB)
# self.net.setInput(cv2.dnn.blobFromImage(rect, 1 / self.image_std, (self.input_size[0], self.input_size[1]), 127))
# rect = cv2.cvtColor(srcimg, cv2.COLOR_BGR2RGB)
# self.net.setInput(cv2.dnn.blobFromImage(rect, 1 / self.image_std, (self.input_size[0], self.input_size[1]), 127))
rect = cv2.resize(srcimg, (self.input_size[0], self.input_size[1]))
rect = cv2.cvtColor(rect, cv2.COLOR_BGR2RGB)
self.net.setInput(cv2.dnn.blobFromImage(rect, scalefactor=1 / self.image_std, mean=127))
boxes, scores = self.net.forward(["boxes", "scores"])
boxes = np.expand_dims(np.reshape(boxes, (-1, 4)), axis=0)
scores = np.expand_dims(np.reshape(scores, (-1, 2)), axis=0)
boxes = convert_locations_to_boxes(boxes, self.priors, self.center_variance, self.size_variance)
boxes = center_form_to_corner_form(boxes)
boxes, labels, probs = predict(srcimg.shape[1], srcimg.shape[0], scores, boxes, self.threshold)
drawimg, face_rois = srcimg.copy(), []
for i in range(boxes.shape[0]):
box = boxes[i, :]
cv2.rectangle(drawimg, (box[0], box[1]), (box[2], box[3]), (0, 0, 255), thickness=2)
face_rois.append(srcimg[box[1]:box[3], box[0]:box[2]])
return drawimg, face_rois
def get_face(self, srcimg):
# rect = cv2.resize(srcimg, (self.input_size[0], self.input_size[1]))
# rect = cv2.cvtColor(rect, cv2.COLOR_BGR2RGB)
# self.net.setInput(cv2.dnn.blobFromImage(rect, 1 / self.image_std, (self.input_size[0], self.input_size[1]), 127))
# rect = cv2.cvtColor(srcimg, cv2.COLOR_BGR2RGB)
# self.net.setInput(cv2.dnn.blobFromImage(rect, 1 / self.image_std, (self.input_size[0], self.input_size[1]), 127))
rect = cv2.resize(srcimg, (self.input_size[0], self.input_size[1]))
rect = cv2.cvtColor(rect, cv2.COLOR_BGR2RGB)
self.net.setInput(cv2.dnn.blobFromImage(rect, scalefactor=1 / self.image_std, mean=127))
boxes, scores = self.net.forward(["boxes", "scores"])
boxes = np.expand_dims(np.reshape(boxes, (-1, 4)), axis=0)
scores = np.expand_dims(np.reshape(scores, (-1, 2)), axis=0)
boxes = convert_locations_to_boxes(boxes, self.priors, self.center_variance, self.size_variance)
boxes = center_form_to_corner_form(boxes)
boxes, labels, probs = predict(srcimg.shape[1], srcimg.shape[0], scores, boxes, self.threshold)
face_rois = []
for i in range(boxes.shape[0]):
face_rois.append(srcimg[boxes[i, 1]:boxes[i, 3], boxes[i, 0]:boxes[i, 2]])
return boxes.tolist(), face_rois
if __name__ == '__main__':
ultraface_detect = ultraface(framework='onnx', input_img_size=640)
imgpath = 'selfie.jpg'
srcimg = cv2.imread(imgpath)
drawimg, face_rois = ultraface_detect.detect(srcimg)
# _, face_rois = ultraface_detect.get_face(srcimg)
# for i, face in enumerate(face_rois):
# cv2.namedWindow('face' + str(i), cv2.WINDOW_NORMAL)
# cv2.imshow('face' + str(i), face)
cv2.namedWindow('detect', cv2.WINDOW_NORMAL)
cv2.imshow('detect', drawimg)
cv2.waitKey(0)
cv2.destroyAllWindows()