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infer.py
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infer.py
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import argparse
import functools
import os
import time
import cv2
import numpy as np
import paddle
from PIL import ImageDraw, ImageFont, Image
from detection.face_detect import MTCNN
from utils.utils import add_arguments, print_arguments
parser = argparse.ArgumentParser(description=__doc__)
add_arg = functools.partial(add_arguments, argparser=parser)
add_arg('image_path', str, 'dataset/test.jpg', '预测图片路径')
add_arg('face_db_path', str, 'face_db', '人脸库路径')
add_arg('threshold', float, 0.6, '判断相识度的阈值')
add_arg('mobilefacenet_model_path', str, 'models/infer/model', 'MobileFaceNet预测模型的路径')
add_arg('mtcnn_model_path', str, 'models/mtcnn', 'MTCNN预测模型的路径')
args = parser.parse_args()
print_arguments(args)
class Predictor:
def __init__(self, mtcnn_model_path, mobilefacenet_model_path, face_db_path, threshold):
self.threshold = threshold
self.mtcnn = MTCNN(model_path=mtcnn_model_path)
# 加载模型
self.model = paddle.jit.load(mobilefacenet_model_path)
self.model.eval()
self.faces_db = self.load_face_db(face_db_path)
def load_face_db(self, face_db_path):
faces_db = {}
for path in os.listdir(face_db_path):
name = os.path.basename(path).split('.')[0]
image_path = os.path.join(face_db_path, path)
img = cv2.imdecode(np.fromfile(image_path, dtype=np.uint8), -1)
imgs, _ = self.mtcnn.infer_image(img)
imgs = self.process(imgs)
if imgs is None or len(imgs) > 1:
print('人脸库中的 %s 图片包含不是1张人脸,自动跳过该图片' % image_path)
continue
feature = self.infer(imgs[0])
faces_db[name] = feature[0]
return faces_db
@staticmethod
def process(imgs):
imgs1 = []
for img in imgs:
img = img.transpose((2, 0, 1))
img = (img - 127.5) / 127.5
imgs1.append(img)
return imgs1
# 预测图片
def infer(self, img):
assert len(img.shape) == 3 or len(img.shape) == 4
if len(img.shape) == 3:
img = img[np.newaxis, :]
img = paddle.to_tensor(img, dtype='float32')
# 执行预测
feature = self.model(img)
return feature.numpy()
def recognition(self, image_path):
img = cv2.imdecode(np.fromfile(image_path, dtype=np.uint8), -1)
s = time.time()
imgs, boxes = self.mtcnn.infer_image(img)
print('人脸检测时间:%dms' % int((time.time() - s) * 1000))
imgs = self.process(imgs)
if imgs is None:
return None, None
imgs = np.array(imgs, dtype='float32')
s = time.time()
features = self.infer(imgs)
print('人脸识别时间:%dms' % int((time.time() - s) * 1000))
names = []
probs = []
for i in range(len(features)):
feature = features[i]
results_dict = {}
for name in self.faces_db.keys():
feature1 = self.faces_db[name]
prob = np.dot(feature, feature1) / (np.linalg.norm(feature) * np.linalg.norm(feature1))
results_dict[name] = prob
results = sorted(results_dict.items(), key=lambda d: d[1], reverse=True)
print('人脸对比结果:', results)
result = results[0]
prob = float(result[1])
probs.append(prob)
if prob > self.threshold:
name = result[0]
names.append(name)
else:
names.append('unknow')
return boxes, names
@staticmethod
def add_text(img, text, left, top, color=(0, 0, 0), size=20):
if isinstance(img, np.ndarray):
img = Image.fromarray(cv2.cvtColor(img, cv2.COLOR_BGR2RGB))
draw = ImageDraw.Draw(img)
font = ImageFont.truetype('simfang.ttf', size)
draw.text((left, top), text, color, font=font)
return cv2.cvtColor(np.array(img), cv2.COLOR_RGB2BGR)
# 画出人脸框和关键点
def draw_face(self, image_path, boxes_c, names):
img = cv2.imdecode(np.fromfile(image_path, dtype=np.uint8), -1)
if boxes_c is not None:
for i in range(boxes_c.shape[0]):
bbox = boxes_c[i, :4]
name = names[i]
corpbbox = [int(bbox[0]), int(bbox[1]), int(bbox[2]), int(bbox[3])]
# 画人脸框
cv2.rectangle(img, (corpbbox[0], corpbbox[1]),
(corpbbox[2], corpbbox[3]), (255, 0, 0), 1)
# 判别为人脸的名字
img = self.add_text(img, name, corpbbox[0], corpbbox[1] -15, color=(0, 0, 255), size=12)
cv2.imshow("result", img)
cv2.waitKey(0)
if __name__ == '__main__':
predictor = Predictor(mtcnn_model_path=args.mtcnn_model_path,
mobilefacenet_model_path=args.mobilefacenet_model_path,
face_db_path=args.face_db_path,
threshold=args.threshold)
start = time.time()
boxes, names = predictor.recognition(args.image_path)
print('预测的人脸位置:', boxes.astype(np.int_).tolist())
print('识别的人脸名称:', names)
print('总识别时间:%dms' % int((time.time() - start) * 1000))
predictor.draw_face(args.image_path, boxes, names)