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demo.py
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demo.py
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import os
import cv2
import numpy as np
import time
from torch.multiprocessing import Pool
from utils.nms_wrapper import nms
from utils.timer import Timer
from configs.CC import Config
import argparse
from layers.functions import Detect, PriorBox
from m2det import build_net
from data import BaseTransform
from utils.core import *
from utils.pycocotools.coco import COCO
parser = argparse.ArgumentParser(description='M2Det Testing')
parser.add_argument('-c', '--config', default='configs/m2det320_vgg.py', type=str)
parser.add_argument('-f', '--directory', default='imgs/', help='the path to demo images')
parser.add_argument('-m', '--trained_model', default=None, type=str, help='Trained state_dict file path to open')
parser.add_argument('--video', default=False, type=bool, help='videofile mode')
parser.add_argument('--cam', default=-1, type=int, help='camera device id')
parser.add_argument('--show', action='store_true', help='Whether to display the images')
args = parser.parse_args()
print_info(' ----------------------------------------------------------------------\n'
'| M2Det Demo Program |\n'
' ----------------------------------------------------------------------', ['yellow','bold'])
global cfg
cfg = Config.fromfile(args.config)
anchor_config = anchors(cfg)
print_info('The Anchor info: \n{}'.format(anchor_config))
priorbox = PriorBox(anchor_config)
net = build_net('test',
size = cfg.model.input_size,
config = cfg.model.m2det_config)
init_net(net, cfg, args.trained_model)
print_info('===> Finished constructing and loading model',['yellow','bold'])
net.eval()
with torch.no_grad():
priors = priorbox.forward()
if cfg.test_cfg.cuda:
net = net.cuda()
priors = priors.cuda()
cudnn.benchmark = True
else:
net = net.cpu()
_preprocess = BaseTransform(cfg.model.input_size, cfg.model.rgb_means, (2, 0, 1))
detector = Detect(cfg.model.m2det_config.num_classes, cfg.loss.bkg_label, anchor_config)
def _to_color(indx, base):
""" return (b, r, g) tuple"""
base2 = base * base
b = 2 - indx / base2
r = 2 - (indx % base2) / base
g = 2 - (indx % base2) % base
return b * 127, r * 127, g * 127
base = int(np.ceil(pow(cfg.model.m2det_config.num_classes, 1. / 3)))
colors = [_to_color(x, base) for x in range(cfg.model.m2det_config.num_classes)]
cats = [_.strip().split(',')[-1] for _ in open('data/coco_labels.txt','r').readlines()]
labels = tuple(['__background__'] + cats)
def draw_detection(im, bboxes, scores, cls_inds, fps, thr=0.2):
imgcv = np.copy(im)
h, w, _ = imgcv.shape
for i, box in enumerate(bboxes):
if scores[i] < thr:
continue
cls_indx = int(cls_inds[i])
box = [int(_) for _ in box]
thick = int((h + w) / 300)
cv2.rectangle(imgcv,
(box[0], box[1]), (box[2], box[3]),
colors[cls_indx], thick)
mess = '%s: %.3f' % (labels[cls_indx], scores[i])
cv2.putText(imgcv, mess, (box[0], box[1] - 7),
0, 1e-3 * h, colors[cls_indx], thick // 3)
if fps >= 0:
cv2.putText(imgcv, '%.2f' % fps + ' fps', (w - 160, h - 15), 0, 2e-3 * h, (255, 255, 255), thick // 2)
return imgcv
im_path = args.directory
cam = args.cam
video = args.video
if cam >= 0:
capture = cv2.VideoCapture(cam)
video_path = './cam'
if video:
while True:
video_path = input('Please enter video path: ')
capture = cv2.VideoCapture(video_path)
if capture.isOpened():
break
else:
print('No file!')
if cam >= 0 or video:
video_name = os.path.splitext(video_path)
fourcc = cv2.VideoWriter_fourcc('m','p','4','v')
out_video = cv2.VideoWriter(video_name[0] + '_m2det.mp4', fourcc, capture.get(cv2.CAP_PROP_FPS), (int(capture.get(cv2.CAP_PROP_FRAME_WIDTH)), int(capture.get(cv2.CAP_PROP_FRAME_HEIGHT))))
im_fnames = sorted((fname for fname in os.listdir(im_path) if os.path.splitext(fname)[-1] == '.jpg'))
im_fnames = (os.path.join(im_path, fname) for fname in im_fnames)
im_iter = iter(im_fnames)
while True:
if cam < 0 and not video:
try:
fname = next(im_iter)
except StopIteration:
break
if 'm2det' in fname: continue # ignore the detected images
image = cv2.imread(fname, cv2.IMREAD_COLOR)
else:
ret, image = capture.read()
if not ret:
cv2.destroyAllWindows()
capture.release()
break
loop_start = time.time()
w,h = image.shape[1],image.shape[0]
img = _preprocess(image).unsqueeze(0)
if cfg.test_cfg.cuda:
img = img.cuda()
scale = torch.Tensor([w,h,w,h])
out = net(img)
boxes, scores = detector.forward(out, priors)
boxes = (boxes[0]*scale).cpu().numpy()
scores = scores[0].cpu().numpy()
allboxes = []
for j in range(1, cfg.model.m2det_config.num_classes):
inds = np.where(scores[:,j] > cfg.test_cfg.score_threshold)[0]
if len(inds) == 0:
continue
c_bboxes = boxes[inds]
c_scores = scores[inds, j]
c_dets = np.hstack((c_bboxes, c_scores[:, np.newaxis])).astype(np.float32, copy=False)
soft_nms = cfg.test_cfg.soft_nms
keep = nms(c_dets, cfg.test_cfg.iou, force_cpu = soft_nms) #min_thresh, device_id=0 if cfg.test_cfg.cuda else None)
keep = keep[:cfg.test_cfg.keep_per_class]
c_dets = c_dets[keep, :]
allboxes.extend([_.tolist()+[j] for _ in c_dets])
loop_time = time.time() - loop_start
allboxes = np.array(allboxes)
boxes = allboxes[:,:4]
scores = allboxes[:,4]
cls_inds = allboxes[:,5]
print('\n'.join(['pos:{}, ids:{}, score:{:.3f}'.format('(%.1f,%.1f,%.1f,%.1f)' % (o[0],o[1],o[2],o[3]) \
,labels[int(oo)],ooo) for o,oo,ooo in zip(boxes,cls_inds,scores)]))
fps = 1.0 / float(loop_time) if cam >= 0 or video else -1
im2show = draw_detection(image, boxes, scores, cls_inds, fps)
# print bbox_pred.shape, iou_pred.shape, prob_pred.shape
if im2show.shape[0] > 1100:
im2show = cv2.resize(im2show,
(int(1000. * float(im2show.shape[1]) / im2show.shape[0]), 1000))
if args.show:
cv2.imshow('test', im2show)
if cam < 0 and not video:
cv2.waitKey(5000)
else:
if cv2.waitKey(1) & 0xFF == ord('q'):
cv2.destroyAllWindows()
out_video.release()
capture.release()
break
if cam < 0 and not video:
cv2.imwrite('{}_m2det.jpg'.format(fname.split('.')[0]), im2show)
else:
out_video.write(im2show)