import argparse import os import os.path as osp import cv2 import numpy as np from utils.humanseg_postprocess import postprocess, threshold_mask import models import transforms def parse_args(): parser = argparse.ArgumentParser(description='HumanSeg inference for video') parser.add_argument( '--model_dir', dest='model_dir', help='Model path for inference', type=str) parser.add_argument( '--video_path', dest='video_path', help= 'Video path for inference, camera will be used if the path not existing', type=str, default=None) parser.add_argument( '--save_dir', dest='save_dir', help='The directory for saving the inference results', type=str, default='./output') return parser.parse_args() def predict(img, model, test_transforms): model.arrange_transform(transforms=test_transforms, mode='test') img, im_info = test_transforms(img) img = np.expand_dims(img, axis=0) result = model.exe.run( model.test_prog, feed={'image': img}, fetch_list=list(model.test_outputs.values())) score_map = result[1] score_map = np.squeeze(score_map, axis=0) score_map = np.transpose(score_map, (1, 2, 0)) return score_map, im_info def recover(img, im_info): keys = list(im_info.keys()) for k in keys[::-1]: if k == 'shape_before_resize': h, w = im_info[k][0], im_info[k][1] img = cv2.resize(img, (w, h), cv2.INTER_LINEAR) elif k == 'shape_before_padding': h, w = im_info[k][0], im_info[k][1] img = img[0:h, 0:w] return img def video_infer(args): resize_h = 192 resize_w = 192 test_transforms = transforms.Compose( [transforms.Resize((resize_w, resize_h)), transforms.Normalize()]) model = models.load_model(args.model_dir) if not args.video_path: cap = cv2.VideoCapture(0) else: cap = cv2.VideoCapture(args.video_path) if not cap.isOpened(): raise IOError("Error opening video stream or file, " "--video_path whether existing: {}" " or camera whether working".format(args.video_path)) return width = int(cap.get(cv2.CAP_PROP_FRAME_WIDTH)) height = int(cap.get(cv2.CAP_PROP_FRAME_HEIGHT)) disflow = cv2.DISOpticalFlow_create(cv2.DISOPTICAL_FLOW_PRESET_ULTRAFAST) prev_gray = np.zeros((resize_h, resize_w), np.uint8) prev_cfd = np.zeros((resize_h, resize_w), np.float32) is_init = True fps = cap.get(cv2.CAP_PROP_FPS) if args.video_path: # 用于保存预测结果视频 if not osp.exists(args.save_dir): os.makedirs(args.save_dir) out = cv2.VideoWriter( osp.join(args.save_dir, 'result.avi'), cv2.VideoWriter_fourcc('M', 'J', 'P', 'G'), fps, (width, height)) # 开始获取视频帧 while cap.isOpened(): ret, frame = cap.read() if ret: score_map, im_info = predict(frame, model, test_transforms) cur_gray = cv2.cvtColor(frame, cv2.COLOR_BGR2GRAY) cur_gray = cv2.resize(cur_gray, (resize_w, resize_h)) scoremap = 255 * score_map[:, :, 1] optflow_map = postprocess(cur_gray, scoremap, prev_gray, prev_cfd, \ disflow, is_init) prev_gray = cur_gray.copy() prev_cfd = optflow_map.copy() is_init = False optflow_map = cv2.GaussianBlur(optflow_map, (3, 3), 0) optflow_map = threshold_mask( optflow_map, thresh_bg=0.2, thresh_fg=0.8) img_mat = np.repeat(optflow_map[:, :, np.newaxis], 3, axis=2) img_mat = recover(img_mat, im_info) bg_im = np.ones_like(img_mat) * 255 comb = (img_mat * frame + (1 - img_mat) * bg_im).astype( np.uint8) out.write(comb) else: break cap.release() out.release() else: while cap.isOpened(): ret, frame = cap.read() if ret: score_map, im_info = predict(frame, model, test_transforms) cur_gray = cv2.cvtColor(frame, cv2.COLOR_BGR2GRAY) cur_gray = cv2.resize(cur_gray, (resize_w, resize_h)) scoremap = 255 * score_map[:, :, 1] optflow_map = postprocess(cur_gray, scoremap, prev_gray, prev_cfd, \ disflow, is_init) prev_gray = cur_gray.copy() prev_cfd = optflow_map.copy() is_init = False # optflow_map = optflow_map/255.0 optflow_map = cv2.GaussianBlur(optflow_map, (3, 3), 0) optflow_map = threshold_mask( optflow_map, thresh_bg=0.2, thresh_fg=0.8) img_mat = np.repeat(optflow_map[:, :, np.newaxis], 3, axis=2) img_mat = recover(img_mat, im_info) bg_im = np.ones_like(img_mat) * 255 comb = (img_mat * frame + (1 - img_mat) * bg_im).astype( np.uint8) cv2.imshow('HumanSegmentation', comb) if cv2.waitKey(1) & 0xFF == ord('q'): break else: break cap.release() if __name__ == "__main__": args = parse_args() video_infer(args)