Exemplo n.º 1
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def eval(num_imgs, eval_dir, annotation_dir, showbox):

    test_imgname_list = [
        item for item in os.listdir(eval_dir)
        if item.endswith(('.jpg', 'jpeg', '.png', '.tif', '.tiff'))
    ]
    if num_imgs == np.inf:
        real_test_imgname_list = test_imgname_list
    else:
        real_test_imgname_list = test_imgname_list[:num_imgs]

    fcos = build_whole_network.DetectionNetwork(
        base_network_name=cfgs.NET_NAME, is_training=False)
    all_boxes = eval_with_plac(det_net=fcos,
                               real_test_imgname_list=real_test_imgname_list,
                               img_root=eval_dir,
                               draw_imgs=showbox)

    # save_dir = os.path.join(cfgs.EVALUATE_DIR, cfgs.VERSION)
    # if not os.path.exists(save_dir):
    #     os.makedirs(save_dir)
    # with open(os.path.join(save_dir, 'detections.pkl')) as f:
    #     all_boxes = pickle.load(f)
    #
    #     print(len(all_boxes))

    voc_eval.voc_evaluate_detections(all_boxes=all_boxes,
                                     test_annotation_path=annotation_dir,
                                     test_imgid_list=real_test_imgname_list)
Exemplo n.º 2
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def eval(num_imgs, eval_dir, annotation_dir, showbox):

    # with open('/home/yjr/DataSet/VOC/VOC_test/VOC2007/ImageSets/Main/aeroplane_test.txt') as f:
    #     all_lines = f.readlines()
    # test_imgname_list = [a_line.split()[0].strip() for a_line in all_lines]

    test_imgname_list = [
        item for item in os.listdir(eval_dir)
        if item.endswith(('.jpg', 'jpeg', '.png', '.tif', '.tiff'))
    ]
    if num_imgs == np.inf:
        real_test_imgname_list = test_imgname_list
    else:
        real_test_imgname_list = test_imgname_list[:num_imgs]

    faster_rcnn = build_whole_network.DetectionNetwork(
        base_network_name=cfgs.NET_NAME, is_training=False)
    eval_with_plac(det_net=faster_rcnn,
                   real_test_imgname_list=real_test_imgname_list,
                   img_root=eval_dir,
                   draw_imgs=showbox)

    save_dir = os.path.join(cfgs.EVALUATE_DIR, cfgs.VERSION)
    if not os.path.exists(save_dir):
        os.makedirs(save_dir)
    with open(os.path.join(save_dir, 'detections.pkl'), 'rb') as f:
        all_boxes = pickle.load(f)

        print(len(all_boxes))

    voc_eval.voc_evaluate_detections(all_boxes=all_boxes,
                                     test_annotation_path=annotation_dir,
                                     test_imgid_list=real_test_imgname_list)
Exemplo n.º 3
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def test(dataset, inference_save_path):

    test_image_index = dataset.image_index
    test_image_list=[dataset.image_path_from_index(index) for index in test_image_index]
    faster_rcnn = build_whole_network.DetectionNetwork(base_network_name=cfgs.NET_NAME,
                                                       is_training=False)
    detect(det_net=faster_rcnn, inference_save_path=inference_save_path, test_imgname_list=test_image_list)
Exemplo n.º 4
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def eval(img_dir, image_ext, test_annotation_path):

    faster_rcnn = build_whole_network.DetectionNetwork(
        base_network_name=cfgs.NET_NAME, is_training=False)
    eval_with_plac(img_dir=img_dir,
                   det_net=faster_rcnn,
                   image_ext=image_ext,
                   draw_imgs=True)

    with open(cfgs.VERSION + '_detections_h.pkl') as f1:
        all_boxes_h = pickle.load(f1)

        print(len(all_boxes_h))

    with open(cfgs.VERSION + '_detections_r.pkl') as f2:
        all_boxes_r = pickle.load(f2)

        print(len(all_boxes_r))

    imgs = os.listdir(img_dir)
    real_test_imgname_list = [i.split(image_ext)[0] for i in imgs]

    print(10 * "**")
    print('horizon eval:')
    # voc_eval.voc_evaluate_detections(all_boxes=all_boxes_h,
    #                                  test_imgid_list=real_test_imgname_list,
    #                                  test_annotation_path=test_annotation_path)
    print(10 * "**")
    print('rotation eval:')
    voc_eval_r.voc_evaluate_detections(
        all_boxes=all_boxes_r,
        test_imgid_list=real_test_imgname_list,
        test_annotation_path=test_annotation_path)
Exemplo n.º 5
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def eval(num_imgs, args):

    if not args.show_box:
        if not os.path.exists('./tmp.txt'):
            fw = open('./tmp.txt', 'w')
            fw.close()

        fr = open('./tmp.txt', 'r')
        img_filter = fr.readlines()
        print('****************************'*3)
        print('Already tested imgs:', img_filter)
        print('****************************'*3)
        fr.close()

        test_imgname_list = [os.path.join(args.test_dir, img_name) for img_name in os.listdir(args.test_dir)
                             if img_name.endswith(('.jpg', '.png', '.jpeg', '.tif', '.tiff')) and
                             (img_name + '\n' not in img_filter)]
    else:
        test_imgname_list = [os.path.join(args.test_dir, img_name) for img_name in os.listdir(args.test_dir)
                             if img_name.endswith(('.jpg', '.png', '.jpeg', '.tif', '.tiff'))]

    assert len(test_imgname_list) != 0, 'test_dir has no imgs there.' \
                                        ' Note that, we only support img format of (.jpg, .png, and .tiff) '

    if num_imgs == np.inf:
        real_test_img_list = test_imgname_list
    else:
        real_test_img_list = test_imgname_list[: num_imgs]

    retinanet = build_whole_network.DetectionNetwork(base_network_name=cfgs.NET_NAME,
                                                     is_training=False)
    test_dota(det_net=retinanet, real_test_img_list=real_test_img_list, args=args)

    if not args.show_box:
        os.remove('./tmp.txt')
Exemplo n.º 6
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def eval(num_imgs):

    # annotation_path = '/home/yjr/DataSet/COCO/2017/test_annotations/image_info_test2017.json'
    annotation_path = '/home/yjr/DataSet/COCO/2017/test_annotations/image_info_test-dev2017.json'
    # annotation_path = '/home/yjr/DataSet/COCO/2017/annotations/instances_train2017.json'
    print("load coco .... it will cost about 17s..")
    coco = COCO(annotation_path)

    imgId_list = coco.getImgIds()

    if num_imgs != np.inf:
        imgId_list = imgId_list[:num_imgs]

    faster_rcnn = build_whole_network.DetectionNetwork(
        base_network_name=cfgs.NET_NAME, is_training=False)
    save_dir = os.path.join(cfgs.EVALUATE_DIR, cfgs.VERSION)
    eval_with_plac(det_net=faster_rcnn,
                   coco=coco,
                   imgId_list=imgId_list,
                   out_json_root=save_dir,
                   draw_imgs=True)
    print("each img over**************")

    final_detections = []
    with open(os.path.join(save_dir, 'coco2017test_results.json'), 'w') as wf:
        for imgid in imgId_list:
            f = open(os.path.join(save_dir, 'each_img', str(imgid) + '.json'))
            tmp_list = json.load(f)
            # print (type(tmp_list))
            final_detections.extend(tmp_list)
            del tmp_list
            f.close()
        json.dump(final_detections, wf)
Exemplo n.º 7
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def eval(num_imgs, img_dir, image_ext, test_annotation_path, draw_imgs):

    retinanet = build_whole_network.DetectionNetwork(
        base_network_name=cfgs.NET_NAME, is_training=False)

    all_boxes_r = eval_with_plac(img_dir=img_dir,
                                 det_net=retinanet,
                                 num_imgs=num_imgs,
                                 image_ext=image_ext,
                                 draw_imgs=draw_imgs)

    # with open(cfgs.VERSION + '_detections_r.pkl', 'rb') as f2:
    #     all_boxes_r = pickle.load(f2)
    #
    #     print(len(all_boxes_r))

    imgs = os.listdir(img_dir)
    real_test_imgname_list = [i.split(image_ext)[0] for i in imgs]

    print(10 * "**")
    print('rotation eval:')
    voc_eval_r.voc_evaluate_detections(
        all_boxes=all_boxes_r,
        test_imgid_list=real_test_imgname_list,
        test_annotation_path=test_annotation_path)
Exemplo n.º 8
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def inference(src_dir, res_dir, draw_imgs):

    faster_rcnn = build_whole_network.DetectionNetwork(
        base_network_name=cfgs.NET_NAME, is_training=False)
    detect(det_net=faster_rcnn,
           src_dir=src_dir,
           res_dir=res_dir,
           draw_imgs=draw_imgs)
Exemplo n.º 9
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def inference(test_dir, inference_save_path):

    test_imgname_list = [os.path.join(test_dir, img_name) for img_name in os.listdir(test_dir)
                                                          if img_name.endswith(('.jpg', '.png', '.jpeg', '.tif', '.tiff'))]
    assert len(test_imgname_list) != 0, 'test_dir has no imgs there.' \
                                        ' Note that, we only support img format of (.jpg, .png, and .tiff) '

    faster_rcnn = build_whole_network.DetectionNetwork(base_network_name=cfgs.NET_NAME,
                                                       is_training=False)
    detect(det_net=faster_rcnn, inference_save_path=inference_save_path, real_test_imgname_list=test_imgname_list)
Exemplo n.º 10
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def eval(num_imgs, img_dir, image_ext, test_annotation_path):

    faster_rcnn = build_whole_network.DetectionNetwork(
        base_network_name=cfgs.NET_NAME, is_training=False)

    eval_with_plac(img_dir=img_dir,
                   det_net=faster_rcnn,
                   num_imgs=num_imgs,
                   image_ext=image_ext,
                   draw_imgs=True,
                   test_annotation_path=test_annotation_path)
Exemplo n.º 11
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def eval(num_imgs, eval_data, json_file, showbox):

    with open(json_file) as f:
        test_img_list = json.load(f)['images']

    if num_imgs == np.inf:
        real_test_img_list = test_img_list
    else:
        real_test_img_list = test_img_list[: num_imgs]

    faster_rcnn = build_whole_network.DetectionNetwork(base_network_name=cfgs.NET_NAME,
                                                       is_training=False)
    test_coco(det_net=faster_rcnn, real_test_img_list=real_test_img_list, eval_data=eval_data, draw_imgs=showbox)
Exemplo n.º 12
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def eval(num_imgs, eval_dir, showbox):

    test_imgname_list = [item for item in os.listdir(eval_dir)
                              if item.endswith(('.jpg', 'jpeg', '.png', '.tif', '.tiff'))]
    if num_imgs == np.inf:
        real_test_imgname_list = test_imgname_list
    else:
        real_test_imgname_list = test_imgname_list[: num_imgs]

    faster_rcnn = build_whole_network.DetectionNetwork(base_network_name=cfgs.NET_NAME,
                                                       is_training=False)
    eval_with_plac(det_net=faster_rcnn, real_test_imgname_list=real_test_imgname_list,
                   img_root=eval_dir,
                   draw_imgs=showbox)
Exemplo n.º 13
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def build_detection_graph():
    # 1. preprocess img
    img_plac = tf.placeholder(dtype=tf.uint8,
                              shape=[None, None, 3],
                              name='input_img')  # is RGB. not GBR
    raw_shape = tf.shape(img_plac)
    raw_h, raw_w = tf.to_float(raw_shape[0]), tf.to_float(raw_shape[1])

    img_batch = tf.cast(img_plac, tf.float32)
    img_batch = short_side_resize_for_inference_data(
        img_tensor=img_batch,
        target_shortside_len=cfgs.IMG_SHORT_SIDE_LEN,
        length_limitation=cfgs.IMG_MAX_LENGTH)
    if cfgs.NET_NAME in ['resnet101_v1d', 'resnet50_v1d']:
        img_batch = (img_batch / 255 - tf.constant(
            cfgs.PIXEL_MEAN_)) / tf.constant(cfgs.PIXEL_STD)
    else:
        img_batch = img_batch - tf.constant(cfgs.PIXEL_MEAN)

    img_batch = tf.expand_dims(img_batch, axis=0)  # [1, None, None, 3]

    det_net = build_whole_network.DetectionNetwork(
        base_network_name=cfgs.NET_NAME, is_training=False)

    detected_boxes, detection_scores, detection_category = det_net.build_whole_detection_network(
        input_img_batch=img_batch, gtboxes_batch=None)

    xmin, ymin, xmax, ymax = detected_boxes[:, 0], detected_boxes[:, 1], \
                             detected_boxes[:, 2], detected_boxes[:, 3]

    resized_shape = tf.shape(img_batch)
    resized_h, resized_w = tf.to_float(resized_shape[1]), tf.to_float(
        resized_shape[2])

    xmin = xmin * raw_w / resized_w
    xmax = xmax * raw_w / resized_w

    ymin = ymin * raw_h / resized_h
    ymax = ymax * raw_h / resized_h

    boxes = tf.transpose(tf.stack([xmin, ymin, xmax, ymax]))
    dets = tf.concat([
        tf.reshape(detection_category, [-1, 1]),
        tf.reshape(detection_scores, [-1, 1]), boxes
    ],
                     axis=1,
                     name='DetResults')

    return dets
Exemplo n.º 14
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def eval(num_imgs, test_dir, gpu_ids, show_box):

    test_imgname_list = [os.path.join(test_dir, img_name) for img_name in os.listdir(test_dir)
                         if img_name.endswith(('.jpg', '.png', '.jpeg', '.tif', '.tiff'))]
    assert len(test_imgname_list) != 0, 'test_dir has no imgs there.' \
                                        ' Note that, we only support img format of (.jpg, .png, and .tiff) '

    if num_imgs == np.inf:
        real_test_img_list = test_imgname_list
    else:
        real_test_img_list = test_imgname_list[: num_imgs]

    retinanet = build_whole_network.DetectionNetwork(base_network_name=cfgs.NET_NAME,
                                                     is_training=False)
    test_icdar2015(det_net=retinanet, real_test_img_list=real_test_img_list, gpu_ids=gpu_ids, show_box=show_box)
Exemplo n.º 15
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def eval(num_imgs, eval_data, eval_gt, gpu_ids):

    with open(eval_data) as f:
        test_img_list = f.readlines()

    if num_imgs == np.inf:
        real_test_img_list = test_img_list
    else:
        real_test_img_list = test_img_list[: num_imgs]

    fcos = build_whole_network.DetectionNetwork(base_network_name=cfgs.NET_NAME,
                                                is_training=False)
    detected_json = eval_coco(det_net=fcos, real_test_img_list=real_test_img_list, gpu_ids=gpu_ids)

    # save_path = os.path.join('./eval_coco', cfgs.VERSION)
    # detected_json = os.path.join(save_path, 'coco_minival.json')
    cocoval(detected_json, eval_gt)
Exemplo n.º 16
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def eval(num_imgs, eval_data, eval_gt, showbox):

    with open(eval_data) as f:
        test_img_list = f.readlines()

    if num_imgs == np.inf:
        real_test_img_list = test_img_list
    else:
        real_test_img_list = test_img_list[:num_imgs]

    faster_rcnn = build_whole_network.DetectionNetwork(
        base_network_name=cfgs.NET_NAME, is_training=False, batch_size=1)
    detected_json = eval_coco(det_net=faster_rcnn,
                              real_test_img_list=real_test_img_list,
                              draw_imgs=showbox)

    # save_path = os.path.join('./eval_coco', cfgs.VERSION)
    # detected_json = os.path.join(save_path, 'coco_minival.json')
    cocoval(detected_json, eval_gt)
Exemplo n.º 17
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    def __init__(self, gpu=0):
        self.init_op = None
        self.restorer = None
        self.restore_ckpt = None
        self.config = None
        self.sess = None
        self.gpu = str(gpu)
        self.det_net = build_whole_network.DetectionNetwork(
            base_network_name=cfgs.NET_NAME, is_training=False)

        self.img_plac = None
        self.img_batch = None
        self.det_boxes_h = None
        self.det_scores_h = None
        self.det_category_h = None
        self.det_boxes_r = None
        self.det_scores_r = None
        self.det_category_r = None

        self.init_model()
Exemplo n.º 18
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def train():

    faster_rcnn = build_whole_network.DetectionNetwork(
        base_network_name=cfgs.NET_NAME, is_training=True)

    with tf.name_scope('get_batch'):
        img_name_batch, img_batch, gtboxes_and_label_batch, num_objects_batch = \
            next_batch(dataset_name=cfgs.DATASET_NAME,  # 'pascal', 'coco'
                       batch_size=cfgs.BATCH_SIZE,
                       shortside_len=cfgs.IMG_SHORT_SIDE_LEN,
                       is_training=True)
        gtboxes_and_label = tf.reshape(gtboxes_and_label_batch, [-1, 5])

    biases_regularizer = tf.no_regularizer
    weights_regularizer = tf.contrib.layers.l2_regularizer(cfgs.WEIGHT_DECAY)

    # list as many types of layers as possible, even if they are not used now
    with slim.arg_scope([slim.conv2d, slim.conv2d_in_plane, \
                         slim.conv2d_transpose, slim.separable_conv2d, slim.fully_connected],
                        weights_regularizer=weights_regularizer,
                        biases_regularizer=biases_regularizer,
                        biases_initializer=tf.constant_initializer(0.0)):
        final_bbox, final_scores, final_category, loss_dict = faster_rcnn.build_whole_detection_network(
            input_img_batch=img_batch, gtboxes_batch=gtboxes_and_label)

    # ----------------------------------------------------------------------------------------------------build loss
    weight_decay_loss = tf.add_n(slim.losses.get_regularization_losses())
    rpn_location_loss = loss_dict['rpn_loc_loss']
    rpn_cls_loss = loss_dict['rpn_cls_loss']
    rpn_total_loss = rpn_location_loss + rpn_cls_loss

    fastrcnn_cls_loss = loss_dict['fastrcnn_cls_loss']
    fastrcnn_loc_loss = loss_dict['fastrcnn_loc_loss']
    fastrcnn_total_loss = fastrcnn_cls_loss + fastrcnn_loc_loss

    total_loss = rpn_total_loss + fastrcnn_total_loss + weight_decay_loss
    # ____________________________________________________________________________________________________build loss

    # ---------------------------------------------------------------------------------------------------add summary

    tf.summary.scalar('RPN_LOSS/cls_loss', rpn_cls_loss)
    tf.summary.scalar('RPN_LOSS/location_loss', rpn_location_loss)
    tf.summary.scalar('RPN_LOSS/rpn_total_loss', rpn_total_loss)

    tf.summary.scalar('FAST_LOSS/fastrcnn_cls_loss', fastrcnn_cls_loss)
    tf.summary.scalar('FAST_LOSS/fastrcnn_location_loss', fastrcnn_loc_loss)
    tf.summary.scalar('FAST_LOSS/fastrcnn_total_loss', fastrcnn_total_loss)

    tf.summary.scalar('LOSS/total_loss', total_loss)
    tf.summary.scalar('LOSS/regular_weights', weight_decay_loss)

    gtboxes_in_img = show_box_in_tensor.draw_boxes_with_categories(
        img_batch=img_batch,
        boxes=gtboxes_and_label[:, :-1],
        labels=gtboxes_and_label[:, -1])
    if cfgs.ADD_BOX_IN_TENSORBOARD:
        detections_in_img = show_box_in_tensor.draw_boxes_with_categories_and_scores(
            img_batch=img_batch,
            boxes=final_bbox,
            labels=final_category,
            scores=final_scores)
        tf.summary.image('Compare/final_detection', detections_in_img)
    tf.summary.image('Compare/gtboxes', gtboxes_in_img)

    # ___________________________________________________________________________________________________add summary

    global_step = slim.get_or_create_global_step()
    lr = tf.train.piecewise_constant(
        global_step,
        boundaries=[
            np.int64(cfgs.DECAY_STEP[0]),
            np.int64(cfgs.DECAY_STEP[1])
        ],
        values=[cfgs.LR, cfgs.LR / 10., cfgs.LR / 100.])
    tf.summary.scalar('lr', lr)
    optimizer = tf.train.MomentumOptimizer(lr, momentum=cfgs.MOMENTUM)
    # optimizer = tf.train.AdamOptimizer(lr)

    # ---------------------------------------------------------------------------------------------compute gradients
    gradients = faster_rcnn.get_gradients(optimizer, total_loss)

    # enlarge_gradients for bias
    if cfgs.MUTILPY_BIAS_GRADIENT:
        gradients = faster_rcnn.enlarge_gradients_for_bias(gradients)

    if cfgs.GRADIENT_CLIPPING_BY_NORM:
        with tf.name_scope('clip_gradients_YJR'):
            gradients = slim.learning.clip_gradient_norms(
                gradients, cfgs.GRADIENT_CLIPPING_BY_NORM)
    # _____________________________________________________________________________________________compute gradients

    # train_op
    train_op = optimizer.apply_gradients(grads_and_vars=gradients,
                                         global_step=global_step)
    summary_op = tf.summary.merge_all()
    init_op = tf.group(tf.global_variables_initializer(),
                       tf.local_variables_initializer())

    restorer, restore_ckpt = faster_rcnn.get_restorer()
    saver = tf.train.Saver(max_to_keep=30)

    # Create session
    #allow_soft_placement=True自动将无法放到GPU上的操作放回到CPU
    config = tf.ConfigProto(allow_soft_placement=True)
    #让GPU按需分配,不一定占用某个GPU的全部内存
    config.gpu_options.allow_growth = True

    with tf.Session(config=config) as sess:
        sess.run(init_op)
        if not restorer is None:
            restorer.restore(sess, restore_ckpt)
            print('restore model')
        coord = tf.train.Coordinator()
        threads = tf.train.start_queue_runners(sess, coord)

        #日志保存地址
        summary_path = os.path.join(cfgs.SUMMARY_PATH, cfgs.VERSION)
        tools.mkdir(summary_path)
        summary_writer = tf.summary.FileWriter(summary_path, graph=sess.graph)
        timer = Timer()
        for step in range(cfgs.MAX_ITERATION):
            training_time = time.strftime('%Y-%m-%d %H:%M:%S',
                                          time.localtime(time.time()))

            if step % cfgs.SHOW_TRAIN_INFO_INTE != 0 and step % cfgs.SMRY_ITER != 0:
                _, global_stepnp = sess.run([train_op, global_step])

            else:
                if step % cfgs.SHOW_TRAIN_INFO_INTE == 0 and step % cfgs.SMRY_ITER != 0:

                    start = time.time()
                    _, global_stepnp, img_name, rpnLocLoss, rpnClsLoss, rpnTotalLoss, \
                    fastrcnnLocLoss, fastrcnnClsLoss, fastrcnnTotalLoss, totalLoss = \
                        sess.run(
                            [train_op, global_step, img_name_batch, rpn_location_loss, rpn_cls_loss, rpn_total_loss,
                             fastrcnn_loc_loss, fastrcnn_cls_loss, fastrcnn_total_loss, total_loss])
                    end = time.time()

                    print('{}: step:{}/{}iter'.format(training_time,
                                                      global_stepnp,
                                                      cfgs.MAX_ITERATION))
                    print('>>> rpn_loc_loss:{:.4f}  |  rpn_cla_loss:{:.4f}  |  rpn_total_loss:{:.4f}\n'
                          '>>> fast_rcnn_loc_loss:{:.4f}  |  fast_rcnn_cla_loss:{:.4f}  |  fast_rcnn_total_loss:{:.4f}\n'
                          '>>> single_time:{:.4f}s  |   total_loss:{:.4f} '\
                          .format(rpnLocLoss, rpnClsLoss,rpnTotalLoss, fastrcnnLocLoss, fastrcnnClsLoss,
                          fastrcnnTotalLoss,(end-start), totalLoss))
                    print(
                        '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'
                    )

                else:
                    if step % cfgs.SMRY_ITER == 0:
                        _, global_stepnp, summary_str = sess.run(
                            [train_op, global_step, summary_op])
                        summary_writer.add_summary(summary_str, global_stepnp)
                        summary_writer.flush()

            if (step > 0 and step % cfgs.SAVE_WEIGHTS_INTE
                    == 0) or (step == cfgs.MAX_ITERATION - 1):

                save_dir = os.path.join(cfgs.TRAINED_CKPT, cfgs.VERSION)
                if not os.path.exists(save_dir):
                    os.mkdir(save_dir)

                save_ckpt = os.path.join(
                    save_dir, 'voc_' + str(global_stepnp) + 'model.ckpt')
                saver.save(sess, save_ckpt)
                print(' weights had been saved')

        coord.request_stop()
        coord.join(threads)
Exemplo n.º 19
0
def eval_text(img_num, mode):
    with tf.Graph().as_default():

        faster_rcnn = build_whole_network.DetectionNetwork(
            base_network_name=cfgs.NET_NAME, is_training=False)
        # 通过readtfrecord来读取文件
        img_name_batch, img_batch, gtboxes_and_label_batch, num_objects_batch = \
            next_batch(dataset_name=cfgs.DATASET_NAME,
                       batch_size=cfgs.BATCH_SIZE,
                       shortside_len=cfgs.IMG_SHORT_SIDE_LEN,
                       is_training=False)

        gtboxes_and_label = tf.py_func(
            back_forward_convert,
            inp=[tf.squeeze(gtboxes_and_label_batch, 0)],
            Tout=tf.float32)
        gtboxes_and_label = tf.reshape(gtboxes_and_label, [-1, 6])

        gtboxes_and_label_minAreaRectangle = get_horizen_minAreaRectangle(
            gtboxes_and_label)

        gtboxes_and_label_minAreaRectangle = tf.reshape(
            gtboxes_and_label_minAreaRectangle, [-1, 5])

        final_boxes_h, final_scores_h, final_category_h, \
        final_boxes_r, final_scores_r, final_category_r= faster_rcnn.build_whole_detection_network(
            input_img_batch=img_batch,
            gtboxes_r_batch=gtboxes_and_label,
            gtboxes_h_batch=gtboxes_and_label_minAreaRectangle)

        if mode == 0:
            final_boxes_r = get_horizen_minAreaRectangle(final_boxes_r, False)

        # train
        init_op = tf.group(tf.global_variables_initializer(),
                           tf.local_variables_initializer())

        restorer, restore_ckpt = faster_rcnn.get_restorer()

        config = tf.ConfigProto()
        # config.gpu_options.per_process_gpu_memory_fraction = 0.5
        config.gpu_options.allow_growth = True
        with tf.Session(config=config) as sess:
            sess.run(init_op)
            if not restorer is None:
                restorer.restore(sess, restore_ckpt)
                print('restore model')

            coord = tf.train.Coordinator()
            threads = tf.train.start_queue_runners(sess, coord)

            gtboxes_horizontal_dict = {}
            predict_horizontal_dict = {}
            gtboxes_rotate_dict = {}
            predict_rotate_dict = {}

            for i in range(img_num):

                start = time.time()

                _img_name_batch, _img_batch, _gtboxes_and_label, _gtboxes_and_label_minAreaRectangle, \
                _final_boxes_h, _final_scores_h, _final_category_h, _final_boxes_r, \
                _final_scores_r, _final_category_r \
                    = sess.run([img_name_batch, img_batch, gtboxes_and_label, gtboxes_and_label_minAreaRectangle,
                                final_boxes_h, final_scores_h, final_category_h, final_boxes_r,
                                final_scores_r, final_category_r])
                end = time.time()

                # det_detections_h = draw_box_in_img.draw_box_cv(np.squeeze(_img_batch, 0),
                #                                               boxes=_final_boxes_h,
                #                                               labels=_final_category_h,
                #                                               scores=final_scores_h)
                # det_detections_r = draw_box_in_img.draw_rotate_box_cv(np.squeeze(_img_batch, 0),
                #                                                       boxes=_final_boxes_r,
                #                                                       labels=_final_category_r,
                #                                                       scores= _final_scores_r)
                # save_dir = os.path.join('/home/sws/code/Tfrecord/', cfgs.VERSION)
                # tools.mkdir(save_dir)
                # cv2.imwrite(save_dir + '/' + _img_name_batch[0] + '_h.jpg',
                #             det_detections_h)
                # cv2.imwrite(save_dir + '/' + _img_name_batch[0] + '_r.jpg',
                #             det_detections_r)

                # gtboxes convert dict
                gtboxes_horizontal_dict[str(_img_name_batch[0])] = []
                predict_horizontal_dict[str(_img_name_batch[0])] = []
                gtboxes_rotate_dict[str(_img_name_batch[0])] = []
                predict_rotate_dict[str(_img_name_batch[0])] = []

                gtbox_horizontal_list, predict_horizontal_list = \
                    make_dict_packle(_gtboxes_and_label_minAreaRectangle, _final_boxes_h,
                                     _final_scores_h, _final_category_h)

                # if mode == 0:
                #     gtbox_rotate_list, predict_rotate_list = \
                #         make_dict_packle(_gtboxes_and_label_minAreaRectangle, _fast_rcnn_decode_boxes_rotate,
                #                          _fast_rcnn_score_rotate, _detection_category_rotate)
                if mode == 0:
                    gtbox_rotate_list, predict_rotate_list = \
                        make_dict_packle(_gtboxes_and_label_minAreaRectangle, _final_boxes_r,
                                         _final_scores_r, _final_category_r)
                else:
                    gtbox_rotate_list, predict_rotate_list = \
                        make_dict_packle(_gtboxes_and_label, _final_boxes_r,
                                         _final_scores_r, _final_category_r)

                gtboxes_horizontal_dict[str(
                    _img_name_batch[0])].extend(gtbox_horizontal_list)
                predict_horizontal_dict[str(
                    _img_name_batch[0])].extend(predict_horizontal_list)
                gtboxes_rotate_dict[str(
                    _img_name_batch[0])].extend(gtbox_rotate_list)
                predict_rotate_dict[str(
                    _img_name_batch[0])].extend(predict_rotate_list)

                view_bar(
                    '{} image cost {}s'.format(str(_img_name_batch[0]),
                                               (end - start)), i + 1, img_num)
                print('\n')
            fw1 = open('gtboxes_horizontal_dict.pkl', 'w')
            fw2 = open('predict_horizontal_dict.pkl', 'w')
            fw3 = open('gtboxes_rotate_dict.pkl', 'w')
            fw4 = open('predict_rotate_dict.pkl', 'w')
            pickle.dump(gtboxes_horizontal_dict, fw1)
            pickle.dump(predict_horizontal_dict, fw2)
            pickle.dump(gtboxes_rotate_dict, fw3)
            pickle.dump(predict_rotate_dict, fw4)
            fw1.close()
            fw2.close()
            fw3.close()
            fw4.close()
            coord.request_stop()
            coord.join(threads)
Exemplo n.º 20
0
def train():

    with tf.Graph().as_default(), tf.device('/cpu:0'):

        global_step = slim.get_or_create_global_step()
        lr = tf.train.piecewise_constant(global_step,
                                         boundaries=[np.int64(cfgs.DECAY_STEP[0]), np.int64(cfgs.DECAY_STEP[1]),
                                                     np.int64(cfgs.DECAY_STEP[2])],
                                         values=[cfgs.LR, cfgs.LR / 10., cfgs.LR / 100., cfgs.LR / 1000.])
        tf.summary.scalar('lr', lr)
        optimizer = tf.train.MomentumOptimizer(lr, momentum=cfgs.MOMENTUM)

        faster_rcnn = build_whole_network.DetectionNetwork(base_network_name=cfgs.NET_NAME,
                                                           is_training=True)

        with tf.name_scope('get_batch'):
            num_gpu = len(cfgs.GPU_GROUP.strip().split(','))
            img_name_batch, img_batch, gtboxes_and_label_batch, num_objects_batch, img_h_batch, img_w_batch = \
                next_batch(dataset_name=cfgs.DATASET_NAME,  # 'pascal', 'coco'
                           batch_size=cfgs.BATCH_SIZE * num_gpu,
                           shortside_len=cfgs.IMG_SHORT_SIDE_LEN,
                           is_training=True)
            # gtboxes_and_label = tf.reshape(gtboxes_and_label_batch, [-1, 5])
            # if cfgs.NET_NAME in ['resnet101_v1d', 'resnet50_v1d']:
            #     img_batch = img_batch / tf.constant([cfgs.PIXEL_STD])

        # data processing
        inputs_list = []
        for i in range(num_gpu):
            # img_name = img_name_batch[i]
            img = tf.expand_dims(img_batch[i], axis=0)

            gtboxes_and_label = tf.cast(tf.reshape(gtboxes_and_label_batch[i], [-1, 9]), tf.float32)

            num_objects = num_objects_batch[i]
            num_objects = tf.cast(tf.reshape(num_objects, [-1, ]), tf.float32)

            img_h = img_h_batch[i]
            img_w = img_w_batch[i]
            # img_h = tf.cast(tf.reshape(img_h, [-1, ]), tf.float32)
            # img_w = tf.cast(tf.reshape(img_w, [-1, ]), tf.float32)

            inputs_list.append([img, gtboxes_and_label, num_objects, img_h, img_w])


        tower_grads = []
        biases_regularizer = tf.no_regularizer
        weights_regularizer = tf.contrib.layers.l2_regularizer(cfgs.WEIGHT_DECAY)

        total_loss_dict = {
            'rpn_cls_loss': tf.constant(0., tf.float32),
            'rpn_loc_loss': tf.constant(0., tf.float32),
            'fastrcnn_cls_loss_h': tf.constant(0., tf.float32),
            'fastrcnn_loc_loss_h': tf.constant(0., tf.float32),
            'fastrcnn_cls_loss_r': tf.constant(0., tf.float32),
            'fastrcnn_loc_loss_r': tf.constant(0., tf.float32),
            'total_losses': tf.constant(0., tf.float32),

        }

        with tf.variable_scope(tf.get_variable_scope()):
            for i in range(num_gpu):
                with tf.device('/gpu:%d' % i):
                    with tf.name_scope('tower_%d' % i):
                        with slim.arg_scope(
                                [slim.model_variable, slim.variable],
                                device='/device:CPU:0'):
                            with slim.arg_scope([slim.conv2d, slim.conv2d_in_plane,
                                                 slim.conv2d_transpose, slim.separable_conv2d, slim.fully_connected],
                                                weights_regularizer=weights_regularizer,
                                                biases_regularizer=biases_regularizer,
                                                biases_initializer=tf.constant_initializer(0.0)):

                                gtboxes_and_label = tf.py_func(get_gtboxes_and_label,
                                                               inp=[inputs_list[i][1], inputs_list[i][2]],
                                                               Tout=tf.float32)
															   
				gtboxes_and_label = tf.py_func(back_forward_convert,
                                			       inp=[gtboxes_and_label],
                                       			       Tout=tf.float32)
                                gtboxes_and_label = tf.reshape(gtboxes_and_label, [-1, 6])

                                gtboxes_and_label_AreaRectangle = get_horizen_minAreaRectangle(gtboxes_and_label)
                                gtboxes_and_label_AreaRectangle = tf.reshape(gtboxes_and_label_AreaRectangle, [-1, 5])


                                img = inputs_list[i][0]
                                img_shape = inputs_list[i][-2:]
                                img = tf.image.crop_to_bounding_box(image=img,
                                                                    offset_height=0,
                                                                    offset_width=0,
                                                                    target_height=tf.cast(img_shape[0], tf.int32),
                                                                    target_width=tf.cast(img_shape[1], tf.int32))

                                final_boxes_h, final_scores_h, final_category_h, \
                                final_boxes_r, final_scores_r, final_category_r, loss_dict  = faster_rcnn.build_whole_detection_network(
                                                                                    input_img_batch=img,
                                                                                    gtboxes_r_batch=gtboxes_and_label,
                                                                                    gtboxes_h_batch=gtboxes_and_label_AreaRectangle)

                                

                                if cfgs.ADD_BOX_IN_TENSORBOARD:
                                    dets_in_img = draw_boxes_with_categories_and_scores(img_batch=img,
                                                        boxes=final_boxes_h,
                                                        labels=final_category_h,
                                                        scores=final_scores_h)
                                    dets_rotate_in_img = draw_boxes_with_categories_and_scores_rotate(img_batch=img,
                                                                      boxes=final_boxes_r,
                                                                      labels=final_category_r,
                                                                      scores=final_scores_r)
                                    tf.summary.image('Compare/final_detection_rotate_gpu:%d' % i, dets_rotate_in_img)


                                total_losses = 0.0
                                for k in loss_dict.keys():
                                    total_losses += loss_dict[k]
                                    total_loss_dict[k] += loss_dict[k] / num_gpu

                                total_losses = total_losses / num_gpu
                                total_loss_dict['total_losses'] += total_losses

                                if i == num_gpu - 1:
                                    regularization_losses = tf.get_collection(
                                        tf.GraphKeys.REGULARIZATION_LOSSES)
                                    # weight_decay_loss = tf.add_n(slim.losses.get_regularization_losses())
                                    total_losses = total_losses + tf.add_n(regularization_losses)

                        tf.get_variable_scope().reuse_variables()
                        grads = optimizer.compute_gradients(total_losses)  # average loss
                        tower_grads.append(grads)

        for k in total_loss_dict.keys():
            tf.summary.scalar('{}/{}'.format(k.split('_')[0], k), total_loss_dict[k])

        if len(tower_grads) > 1:
            grads = sum_gradients(tower_grads)
        else:
            grads = tower_grads[0]


        apply_gradient_op = optimizer.apply_gradients(grads, global_step=global_step)

        variable_averages = tf.train.ExponentialMovingAverage(0.9999, global_step)
        variables_averages_op = variable_averages.apply(tf.trainable_variables())

        train_op = tf.group(apply_gradient_op, variables_averages_op)
        # train_op = optimizer.apply_gradients(final_gvs, global_step=global_step)
        summary_op = tf.summary.merge_all()

        restorer, restore_ckpt = faster_rcnn.get_restorer()
        saver = tf.train.Saver(max_to_keep=10)

        init_op = tf.group(
            tf.global_variables_initializer(),
            tf.local_variables_initializer()
        )

        tfconfig = tf.ConfigProto(
            allow_soft_placement=True, log_device_placement=False)
        #tfconfig.gpu_options.allow_growth = True
        tfconfig.gpu_options.per_process_gpu_memory_fraction = 0.7

        with tf.Session(config=tfconfig) as sess:
            sess.run(init_op)

            if not restorer is None:
                restorer.restore(sess, restore_ckpt)
                print('restore model')

            coord = tf.train.Coordinator()
            threads = tf.train.start_queue_runners(coord=coord, sess=sess)

            summary_path = os.path.join(cfgs.SUMMARY_PATH, cfgs.VERSION)
            tools.mkdir(summary_path)
            summary_writer = tf.summary.FileWriter(summary_path, graph=sess.graph)

            
            for step in range(cfgs.MAX_ITERATION // num_gpu):
                training_time = time.strftime('%Y-%m-%d %H:%M:%S', time.localtime(time.time()))

                if step % cfgs.SHOW_TRAIN_INFO_INTE != 0 and step % cfgs.SMRY_ITER != 0:
                    _, global_stepnp = sess.run([train_op, global_step])

                else:
                    if step % cfgs.SHOW_TRAIN_INFO_INTE == 0 and step % cfgs.SMRY_ITER != 0:
                        start = time.time()

                        _, global_stepnp, total_loss_dict_ = \
                            sess.run([train_op, global_step, total_loss_dict])

                        end = time.time()

                        print('***'*20)
                        print("""%s: global_step:%d  current_step:%d"""
                              % (training_time, (global_stepnp-1)*num_gpu, step*num_gpu))
                        print("""per_cost_time:%.3fs"""
                              % ((end - start) / num_gpu))
                        loss_str = ''
                        for k in total_loss_dict_.keys():
                            loss_str += '%s:%.3f\n' % (k, total_loss_dict_[k])
                        print(loss_str)

                    else:
                        if step % cfgs.SMRY_ITER == 0:
                            _, global_stepnp, summary_str = sess.run([train_op, global_step, summary_op])
                            summary_writer.add_summary(summary_str, (global_stepnp-1)*num_gpu)
                            summary_writer.flush()

                if (step > 0 and step % (cfgs.SAVE_WEIGHTS_INTE // num_gpu) == 0) or (step >= cfgs.MAX_ITERATION // num_gpu - 1):

                    save_dir = os.path.join(cfgs.TRAINED_CKPT, cfgs.VERSION)
                    if not os.path.exists(save_dir):
                        os.mkdir(save_dir)

                    save_ckpt = os.path.join(save_dir, 'coco_' + str((global_stepnp-1)*num_gpu) + 'model.ckpt')
                    saver.save(sess, save_ckpt)
                    print(' weights had been saved')

            coord.request_stop()
            coord.join(threads)
Exemplo n.º 21
0
def train():

    with tf.Graph().as_default(), tf.device('/cpu:0'):

        global_step = slim.get_or_create_global_step()

        lr = warmup_lr(cfgs.LR, global_step, cfgs.WARM_SETP, cfgs.NUM_GPU*cfgs.BATCH_SIZE)
        tf.summary.scalar('lr', lr)

        optimizer = tf.train.MomentumOptimizer(lr, momentum=cfgs.MOMENTUM)
        faster_rcnn = build_whole_network.DetectionNetwork(base_network_name=cfgs.NET_NAME,
                                                           is_training=True,
                                                           batch_size=cfgs.BATCH_SIZE)

        with tf.name_scope('get_batch'):
            img_name_batch, img_batch, gtboxes_and_label_batch, num_objects_batch, img_h_batch, img_w_batch = \
                next_batch(dataset_name=cfgs.DATASET_NAME,  # 'pascal', 'coco'
                           batch_size=cfgs.BATCH_SIZE * cfgs.NUM_GPU,
                           shortside_len=cfgs.IMG_SHORT_SIDE_LEN,
                           is_training=True)

        # data processing
        inputs_list = []
        for i in range(cfgs.NUM_GPU):
            start = i*cfgs.BATCH_SIZE
            end = (i+1)*cfgs.BATCH_SIZE
            img = img_batch[start:end, :, :, :]
            if cfgs.NET_NAME in ['resnet101_v1d', 'resnet50_v1d']:
                img = img / tf.constant([cfgs.PIXEL_STD])

            gtboxes_and_label = tf.cast(tf.reshape(gtboxes_and_label_batch[start:end, :, :],
                                                   [cfgs.BATCH_SIZE, -1, 5]), tf.float32)
            num_objects = num_objects_batch[start:end]
            num_objects = tf.cast(tf.reshape(num_objects, [cfgs.BATCH_SIZE, -1, ]), tf.float32)

            img_h = img_h_batch[start:end]
            img_w = img_w_batch[start:end]
            # img_h = tf.cast(tf.reshape(img_h, [-1, ]), tf.float32)
            # img_w = tf.cast(tf.reshape(img_w, [-1, ]), tf.float32)

            inputs_list.append([img, gtboxes_and_label, num_objects, img_h, img_w])

        # put_op_list = []
        # get_op_list = []
        # for i in range(cfgs.NUM_GPU):
        #     with tf.device("/GPU:%s" % i):
        #         area = tf.contrib.staging.StagingArea(
        #             dtypes=[tf.float32, tf.float32, tf.float32])
        #         put_op_list.append(area.put(inputs_list[i]))
        #         get_op_list.append(area.get())

        tower_grads = []
        biases_regularizer = tf.no_regularizer
        weights_regularizer = tf.contrib.layers.l2_regularizer(cfgs.WEIGHT_DECAY)

        total_loss_dict = {
            'rpn_cls_loss': tf.constant(0., tf.float32),
            'rpn_bbox_loss': tf.constant(0., tf.float32),
            'rpn_ctr_loss': tf.constant(0., tf.float32),
            'total_losses': tf.constant(0., tf.float32),
        }

        with tf.variable_scope(tf.get_variable_scope()):
            for i in range(cfgs.NUM_GPU):
                with tf.device('/gpu:%d' % i):
                    with tf.name_scope('tower_%d' % i):
                        with slim.arg_scope(
                                [slim.model_variable, slim.variable],
                                device='/device:CPU:0'):
                            with slim.arg_scope([slim.conv2d, slim.conv2d_in_plane,
                                                 slim.conv2d_transpose, slim.separable_conv2d, slim.fully_connected],
                                                weights_regularizer=weights_regularizer,
                                                biases_regularizer=biases_regularizer,
                                                biases_initializer=tf.constant_initializer(0.0)):

                                gtboxes_and_label = tf.py_func(get_gtboxes_and_label,
                                                               inp=[inputs_list[i][1], inputs_list[i][2]],
                                                               Tout=tf.float32)
                                gtboxes_and_label = tf.reshape(gtboxes_and_label, [cfgs.BATCH_SIZE, -1, 5])

                                img = inputs_list[i][0]
                                img_shape = inputs_list[i][-2:]
                                h_crop = tf.reduce_max(img_shape[0])
                                w_crop = tf.reduce_max(img_shape[1])
                                img = tf.image.crop_to_bounding_box(image=img,
                                                                    offset_height=0,
                                                                    offset_width=0,
                                                                    target_height=tf.cast(h_crop, tf.int32),
                                                                    target_width=tf.cast(w_crop, tf.int32))

                                outputs = faster_rcnn.build_whole_detection_network(input_img_batch=img,
                                                                                    gtboxes_batch=gtboxes_and_label)
                                gtboxes_in_img = show_box_in_tensor.draw_boxes_with_categories(img_batch=img[0, :, :, :],
                                                                                               boxes=gtboxes_and_label[0, :, :-1],
                                                                                               labels=gtboxes_and_label[0, :, -1])
                                gtboxes_in_img = tf.expand_dims(gtboxes_in_img, 0)
                                tf.summary.image('Compare/gtboxes_gpu:%d' % i, gtboxes_in_img)

                                if cfgs.ADD_BOX_IN_TENSORBOARD:
                                    detections_in_img = show_box_in_tensor.draw_boxes_with_categories_and_scores(
                                        img_batch=img[0, :, :, :],
                                        boxes=outputs[0],
                                        scores=outputs[1],
                                        labels=outputs[2])
                                    detections_in_img = tf.expand_dims(detections_in_img, 0)
                                    tf.summary.image('Compare/final_detection_gpu:%d' % i, detections_in_img)

                                loss_dict = outputs[-1]

                                total_losses = 0.0
                                for k in loss_dict.keys():
                                    total_losses += loss_dict[k]
                                    total_loss_dict[k] += loss_dict[k] / cfgs.NUM_GPU

                                total_losses = total_losses / cfgs.NUM_GPU
                                total_loss_dict['total_losses'] += total_losses

                                if i == cfgs.NUM_GPU - 1:
                                    regularization_losses = tf.get_collection(
                                        tf.GraphKeys.REGULARIZATION_LOSSES)
                                    # weight_decay_loss = tf.add_n(slim.losses.get_regularization_losses())
                                    total_losses = total_losses + tf.add_n(regularization_losses)

                        tf.get_variable_scope().reuse_variables()

                        grads = optimizer.compute_gradients(total_losses)
                        tower_grads.append(grads)

        for k in total_loss_dict.keys():
            tf.summary.scalar('{}/{}'.format(k.split('_')[0], k), total_loss_dict[k])

        if len(tower_grads) > 1:
            grads = sum_gradients(tower_grads)
        else:
            grads = tower_grads[0]

        # final_gvs = []
        # with tf.variable_scope('Gradient_Mult'):
        #     for grad, var in grads:
        #         scale = 1.
        #         # if '/biases:' in var.name:
        #         #    scale *= 2.
        #         if 'conv_new' in var.name:
        #             scale *= 3.
        #         if not np.allclose(scale, 1.0):
        #             grad = tf.multiply(grad, scale)
        #         final_gvs.append((grad, var))

        apply_gradient_op = optimizer.apply_gradients(grads, global_step=global_step)

        variable_averages = tf.train.ExponentialMovingAverage(0.9999, global_step)
        variables_averages_op = variable_averages.apply(tf.trainable_variables())

        train_op = tf.group(apply_gradient_op, variables_averages_op)
        # train_op = optimizer.apply_gradients(final_gvs, global_step=global_step)
        summary_op = tf.summary.merge_all()

        restorer, restore_ckpt = faster_rcnn.get_restorer()
        saver = tf.train.Saver(max_to_keep=10)

        init_op = tf.group(
            tf.global_variables_initializer(),
            tf.local_variables_initializer()
        )

        tfconfig = tf.ConfigProto(
            allow_soft_placement=True, log_device_placement=False)
        tfconfig.gpu_options.allow_growth = True

        num_per_iter = cfgs.NUM_GPU * cfgs.BATCH_SIZE
        with tf.Session(config=tfconfig) as sess:
            sess.run(init_op)

            # sess.run(tf.initialize_all_variables())
            coord = tf.train.Coordinator()
            threads = tf.train.start_queue_runners(coord=coord, sess=sess)

            summary_path = os.path.join(cfgs.SUMMARY_PATH, cfgs.VERSION)
            tools.mkdir(summary_path)
            summary_writer = tf.summary.FileWriter(summary_path, graph=sess.graph)

            if not restorer is None:
                restorer.restore(sess, restore_ckpt)
                print('restore model')

            for step in range(cfgs.MAX_ITERATION // num_per_iter):
                training_time = time.strftime('%Y-%m-%d %H:%M:%S', time.localtime(time.time()))

                if step % cfgs.SHOW_TRAIN_INFO_INTE != 0 and step % cfgs.SMRY_ITER != 0:
                    _, global_stepnp = sess.run([train_op, global_step])

                else:
                    if step % cfgs.SHOW_TRAIN_INFO_INTE == 0 and step % cfgs.SMRY_ITER != 0:
                        start = time.time()

                        _, global_stepnp, total_loss_dict_ = \
                            sess.run([train_op, global_step, total_loss_dict])

                        end = time.time()

                        print('***'*20)
                        print("""%s: global_step:%d  current_step:%d"""
                              % (training_time, (global_stepnp-1)*num_per_iter, step*num_per_iter))
                        print("""per_cost_time:%.3fs"""
                              % ((end - start) / num_per_iter))
                        loss_str = ''
                        for k in total_loss_dict_.keys():
                            loss_str += '%s:%.3f\n' % (k, total_loss_dict_[k])
                        print(loss_str)

                    else:
                        if step % cfgs.SMRY_ITER == 0:
                            _, global_stepnp, summary_str = sess.run([train_op, global_step, summary_op])
                            summary_writer.add_summary(summary_str, (global_stepnp-1)*num_per_iter)
                            summary_writer.flush()

                if (step > 0 and step % (cfgs.SAVE_WEIGHTS_INTE // num_per_iter) == 0) or (step >= cfgs.MAX_ITERATION // cfgs.NUM_GPU - 1):

                    save_dir = os.path.join(cfgs.TRAINED_CKPT, cfgs.VERSION)
                    if not os.path.exists(save_dir):
                        os.mkdir(save_dir)

                    save_ckpt = os.path.join(save_dir, 'coco_' + str((global_stepnp-1)*num_per_iter) + 'model.ckpt')
                    saver.save(sess, save_ckpt)
                    print(' weights had been saved')

            coord.request_stop()
            coord.join(threads)
Exemplo n.º 22
0
def train():

    faster_rcnn = build_whole_network.DetectionNetwork(
        base_network_name=cfgs.NET_NAME, is_training=True)

    with tf.name_scope('get_batch'):
        img_name_batch, img_batch, gtboxes_and_label_batch, num_objects_batch = \
            next_batch(dataset_name=cfgs.DATASET_NAME,  # 'pascal', 'coco'
                       batch_size=cfgs.BATCH_SIZE,
                       shortside_len=cfgs.IMG_SHORT_SIDE_LEN,
                       is_training=True)

        mask_batch = tf.py_func(
            image_preprocess.get_mask,
            [tf.squeeze(img_batch, 0),
             tf.squeeze(gtboxes_and_label_batch, 0)], [tf.float32])

        gtboxes_and_label = tf.py_func(
            back_forward_convert,
            inp=[tf.squeeze(gtboxes_and_label_batch, 0)],
            Tout=tf.float32)
        gtboxes_and_label = tf.reshape(gtboxes_and_label, [-1, 6])

        gtboxes_and_label_AreaRectangle = get_horizen_minAreaRectangle(
            gtboxes_and_label)
        gtboxes_and_label_AreaRectangle = tf.reshape(
            gtboxes_and_label_AreaRectangle, [-1, 5])

    with tf.name_scope('draw_gtboxes'):
        gtboxes_in_img = draw_box_with_color(
            img_batch,
            tf.reshape(gtboxes_and_label_AreaRectangle, [-1, 5])[:, :-1],
            text=tf.shape(gtboxes_and_label_AreaRectangle)[0])

        gtboxes_rotate_in_img = draw_box_with_color_rotate(
            img_batch,
            tf.reshape(gtboxes_and_label, [-1, 6])[:, :-1],
            text=tf.shape(gtboxes_and_label)[0])

    biases_regularizer = tf.no_regularizer
    weights_regularizer = tf.contrib.layers.l2_regularizer(cfgs.WEIGHT_DECAY)

    # list as many types of layers as possible, even if they are not used now
    with slim.arg_scope([
            slim.conv2d, slim.conv2d_in_plane, slim.conv2d_transpose,
            slim.separable_conv2d, slim.fully_connected
    ],
                        weights_regularizer=weights_regularizer,
                        biases_regularizer=biases_regularizer,
                        biases_initializer=tf.constant_initializer(0.0)):
        final_boxes_h, final_scores_h, final_category_h, \
        final_boxes_r, final_scores_r, final_category_r, loss_dict = faster_rcnn.build_whole_detection_network(
            input_img_batch=img_batch,
            gtboxes_r_batch=gtboxes_and_label,
            gtboxes_h_batch=gtboxes_and_label_AreaRectangle,
            mask_batch=mask_batch[0])

    dets_in_img = draw_boxes_with_categories_and_scores(
        img_batch=img_batch,
        boxes=final_boxes_h,
        labels=final_category_h,
        scores=final_scores_h)

    dets_rotate_in_img = draw_boxes_with_categories_and_scores_rotate(
        img_batch=img_batch,
        boxes=final_boxes_r,
        labels=final_category_r,
        scores=final_scores_r)

    # ----------------------------------------------------------------------------------------------------build loss
    weight_decay_loss = tf.add_n(slim.losses.get_regularization_losses())
    rpn_location_loss = loss_dict['rpn_loc_loss']
    rpn_cls_loss = loss_dict['rpn_cls_loss']
    rpn_total_loss = rpn_location_loss + rpn_cls_loss

    fastrcnn_cls_loss_h = loss_dict['fastrcnn_cls_loss_h']
    fastrcnn_loc_loss_h = loss_dict['fastrcnn_loc_loss_h']
    fastrcnn_cls_loss_r = loss_dict['fastrcnn_cls_loss_r']
    fastrcnn_loc_loss_r = loss_dict['fastrcnn_loc_loss_r']
    fastrcnn_total_loss = fastrcnn_cls_loss_h + fastrcnn_loc_loss_h + fastrcnn_cls_loss_r + fastrcnn_loc_loss_r

    if cfgs.ADD_ATTENTION:
        attention_loss = loss_dict['attention_loss']
        total_loss = rpn_total_loss + fastrcnn_total_loss + attention_loss + weight_decay_loss
    else:
        attention_loss = tf.convert_to_tensor(0)
        total_loss = rpn_total_loss + fastrcnn_total_loss + weight_decay_loss

    # ---------------------------------------------------------------------------------------------------add summary
    tf.summary.scalar('RPN_LOSS/cls_loss', rpn_cls_loss)
    tf.summary.scalar('RPN_LOSS/location_loss', rpn_location_loss)
    tf.summary.scalar('RPN_LOSS/rpn_total_loss', rpn_total_loss)

    tf.summary.scalar('FAST_LOSS/fastrcnn_cls_loss_h', fastrcnn_cls_loss_h)
    tf.summary.scalar('FAST_LOSS/fastrcnn_location_loss_h',
                      fastrcnn_loc_loss_h)
    tf.summary.scalar('FAST_LOSS/fastrcnn_cls_loss_r', fastrcnn_cls_loss_r)
    tf.summary.scalar('FAST_LOSS/fastrcnn_location_loss_r',
                      fastrcnn_loc_loss_r)
    tf.summary.scalar('FAST_LOSS/fastrcnn_total_loss', fastrcnn_total_loss)
    if cfgs.ADD_ATTENTION:
        tf.summary.scalar('ATTENTION_LOSS/attention_loss', attention_loss)

    tf.summary.scalar('LOSS/total_loss', total_loss)
    tf.summary.scalar('LOSS/regular_weights', weight_decay_loss)

    tf.summary.image('img/gtboxes', gtboxes_in_img)
    tf.summary.image('img/gtboxes_rotate', gtboxes_rotate_in_img)
    tf.summary.image('img/mask', mask_batch)
    tf.summary.image('img/dets', dets_in_img)
    tf.summary.image('img/dets_rotate', dets_rotate_in_img)

    # ---------------------------------------------------------------------------------------------add summary

    global_step = slim.get_or_create_global_step()
    lr = tf.train.piecewise_constant(
        global_step,
        boundaries=[
            np.int64(cfgs.DECAY_STEP[0]),
            np.int64(cfgs.DECAY_STEP[1])
        ],
        values=[cfgs.LR, cfgs.LR / 10., cfgs.LR / 100.])
    tf.summary.scalar('lr', lr)
    optimizer = tf.train.MomentumOptimizer(lr, momentum=cfgs.MOMENTUM)

    # ---------------------------------------------------------------------------------------------compute gradients
    gradients = faster_rcnn.get_gradients(optimizer, total_loss)

    # enlarge_gradients for bias
    if cfgs.MUTILPY_BIAS_GRADIENT:
        gradients = faster_rcnn.enlarge_gradients_for_bias(gradients)

    if cfgs.GRADIENT_CLIPPING_BY_NORM:
        with tf.name_scope('clip_gradients'):
            gradients = slim.learning.clip_gradient_norms(
                gradients, cfgs.GRADIENT_CLIPPING_BY_NORM)
    # ---------------------------------------------------------------------------------------------compute gradients

    # train_op
    train_op = optimizer.apply_gradients(grads_and_vars=gradients,
                                         global_step=global_step)
    summary_op = tf.summary.merge_all()
    init_op = tf.group(tf.global_variables_initializer(),
                       tf.local_variables_initializer())

    restorer, restore_ckpt = faster_rcnn.get_restorer()
    saver = tf.train.Saver(max_to_keep=10)

    config = tf.ConfigProto()
    config.gpu_options.allow_growth = True
    #
    with tf.Session(config=config) as sess:
        # with tf.Session() as sess:
        sess.run(init_op)
        if not restorer is None:
            restorer.restore(sess, restore_ckpt)
            print('restore model')
        coord = tf.train.Coordinator()
        threads = tf.train.start_queue_runners(sess, coord)

        summary_path = os.path.join(cfgs.SUMMARY_PATH, cfgs.VERSION)
        tools.mkdir(summary_path)
        summary_writer = tf.summary.FileWriter(summary_path, graph=sess.graph)

        for step in range(cfgs.MAX_ITERATION):
            training_time = time.strftime('%Y-%m-%d %H:%M:%S',
                                          time.localtime(time.time()))

            if step % cfgs.SHOW_TRAIN_INFO_INTE != 0 and step % cfgs.SMRY_ITER != 0:
                _, global_stepnp = sess.run([train_op, global_step])

            else:
                if step % cfgs.SHOW_TRAIN_INFO_INTE == 0 and step % cfgs.SMRY_ITER != 0:
                    start = time.time()

                    _global_step, _img_name_batch, _rpn_location_loss, _rpn_classification_loss, \
                    _rpn_total_loss, _fast_rcnn_location_loss, _fast_rcnn_classification_loss, \
                    _fast_rcnn_location_rotate_loss, _fast_rcnn_classification_rotate_loss, \
                    _fast_rcnn_total_loss, _attention_loss, _total_loss, _ = \
                        sess.run([global_step, img_name_batch, rpn_location_loss, rpn_cls_loss,
                                  rpn_total_loss, fastrcnn_loc_loss_h, fastrcnn_cls_loss_h,
                                  fastrcnn_loc_loss_r, fastrcnn_cls_loss_r, fastrcnn_total_loss,
                                  attention_loss, total_loss, train_op])

                    end = time.time()
                    print(""" {}: step{}    image_name:{} |\t
                                                    rpn_loc_loss:{} |\t rpn_cla_loss:{} |\t
                                                    rpn_total_loss:{} |
                                                    fast_rcnn_loc_loss:{} |\t fast_rcnn_cla_loss:{} |\t
                                                    fast_rcnn_loc_rotate_loss:{} |\t fast_rcnn_cla_rotate_loss:{} |\t
                                                    fast_rcnn_total_loss:{} |\t attention_loss:{} |\t
                                                    total_loss:{} |\t pre_cost_time:{}s""" \
                          .format(training_time, _global_step, str(_img_name_batch[0]), _rpn_location_loss,
                                  _rpn_classification_loss, _rpn_total_loss, _fast_rcnn_location_loss,
                                  _fast_rcnn_classification_loss, _fast_rcnn_location_rotate_loss,
                                  _fast_rcnn_classification_rotate_loss, _fast_rcnn_total_loss,
                                  _attention_loss, _total_loss, (end - start)))
                else:
                    if step % cfgs.SMRY_ITER == 0:
                        _, global_stepnp, summary_str = sess.run(
                            [train_op, global_step, summary_op])
                        summary_writer.add_summary(summary_str, global_stepnp)
                        summary_writer.flush()

            if (step > 0 and step % cfgs.SAVE_WEIGHTS_INTE
                    == 0) or (step == cfgs.MAX_ITERATION - 1):

                save_dir = os.path.join(cfgs.TRAINED_CKPT, cfgs.VERSION)
                if not os.path.exists(save_dir):
                    os.makedirs(save_dir)

                save_ckpt = os.path.join(
                    save_dir, 'voc_' + str(global_stepnp) + 'model.ckpt')
                saver.save(sess, save_ckpt)
                print(' weights had been saved')

        coord.request_stop()
        coord.join(threads)
Exemplo n.º 23
0
def train():
    retinanet = build_whole_network.DetectionNetwork(
        base_network_name=cfgs.NET_NAME, is_training=True)

    with tf.name_scope('get_batch'):
        img_name_batch, img_batch, gtboxes_and_label_batch, num_objects_batch = \
            next_batch(dataset_name=cfgs.DATASET_NAME,  # 'pascal', 'coco'
                       batch_size=cfgs.BATCH_SIZE,
                       shortside_len=cfgs.IMG_SHORT_SIDE_LEN,
                       is_training=True)
        gtboxes_and_label = tf.reshape(gtboxes_and_label_batch, [-1, 5])
        if cfgs.NET_NAME in ['resnet152_v1d', 'resnet101_v1d', 'resnet50_v1d']:
            img_batch = img_batch / tf.constant([cfgs.PIXEL_STD])

    final_bbox, final_scores, final_category, loss_dict = retinanet.build_whole_detection_network(
        input_img_batch=img_batch, gtboxes_batch=gtboxes_and_label)

    # ----------------------------------------------------------------------------------------------------build loss
    weight_decay_loss = tf.add_n(slim.losses.get_regularization_losses())
    cls_loss = loss_dict['cls_loss']
    reg_loss = loss_dict['reg_loss']
    total_loss = cls_loss + reg_loss + weight_decay_loss

    # ---------------------------------------------------------------------------------------------------add summary
    tf.summary.scalar('RETINANET_LOSS/cls_loss', cls_loss)
    tf.summary.scalar('RETINANET_LOSS/reg_loss', reg_loss)

    tf.summary.scalar('LOSS/total_loss', total_loss)
    tf.summary.scalar('LOSS/regular_weights', weight_decay_loss)

    gtboxes_in_img = show_box_in_tensor.draw_boxes_with_categories(
        img_batch=img_batch,
        boxes=gtboxes_and_label[:, :-1],
        labels=gtboxes_and_label[:, -1])
    if cfgs.ADD_BOX_IN_TENSORBOARD:
        detections_in_img = show_box_in_tensor.draw_boxes_with_categories_and_scores(
            img_batch=img_batch,
            boxes=final_bbox,
            labels=final_category,
            scores=final_scores)
        tf.summary.image('Compare/final_detection', detections_in_img)
    tf.summary.image('Compare/gtboxes', gtboxes_in_img)

    global_step = slim.get_or_create_global_step()
    lr = tf.train.piecewise_constant(
        global_step,
        boundaries=[
            np.int64(cfgs.DECAY_STEP[0]),
            np.int64(cfgs.DECAY_STEP[1])
        ],
        values=[cfgs.LR, cfgs.LR / 10., cfgs.LR / 100.])
    tf.summary.scalar('lr', lr)
    optimizer = tf.train.MomentumOptimizer(lr, momentum=cfgs.MOMENTUM)

    # ---------------------------------------------------------------------------------------------compute gradients
    gradients = retinanet.get_gradients(optimizer, total_loss)

    # enlarge_gradients for bias
    if cfgs.MUTILPY_BIAS_GRADIENT:
        gradients = retinanet.enlarge_gradients_for_bias(gradients)

    if cfgs.GRADIENT_CLIPPING_BY_NORM:
        with tf.name_scope('clip_gradients'):
            gradients = slim.learning.clip_gradient_norms(
                gradients, cfgs.GRADIENT_CLIPPING_BY_NORM)

    # train_op
    train_op = optimizer.apply_gradients(grads_and_vars=gradients,
                                         global_step=global_step)
    summary_op = tf.summary.merge_all()
    init_op = tf.group(tf.global_variables_initializer(),
                       tf.local_variables_initializer())

    restorer, restore_ckpt = retinanet.get_restorer()
    saver = tf.train.Saver(max_to_keep=30)

    config = tf.ConfigProto()
    config.gpu_options.allow_growth = True

    with tf.Session(config=config) as sess:
        sess.run(init_op)
        if not restorer is None:
            restorer.restore(sess, restore_ckpt)
            print('restore model')
        coord = tf.train.Coordinator()
        threads = tf.train.start_queue_runners(sess, coord)

        summary_path = os.path.join(cfgs.SUMMARY_PATH, cfgs.VERSION)
        if not os.path.exists(summary_path):
            os.makedirs(summary_path)
        summary_writer = tf.summary.FileWriter(summary_path, graph=sess.graph)

        for step in range(cfgs.MAX_ITERATION):
            training_time = time.strftime('%Y-%m-%d %H:%M:%S',
                                          time.localtime(time.time()))

            if step % cfgs.SHOW_TRAIN_INFO_INTE != 0 and step % cfgs.SMRY_ITER != 0:
                _, global_stepnp = sess.run([train_op, global_step])

            else:
                if step % cfgs.SHOW_TRAIN_INFO_INTE == 0 and step % cfgs.SMRY_ITER != 0:
                    start = time.time()

                    _, global_stepnp, img_name, reg_loss_, cls_loss_, total_loss_ = \
                        sess.run(
                            [train_op, global_step, img_name_batch, reg_loss, cls_loss, total_loss])

                    end = time.time()

                    print(""" {}: step{}    image_name:{} |\t
                              reg_loss:{} |\t cls_loss:{} |\t total_loss:{} |per_cost_time:{}s""" \
                          .format(training_time, global_stepnp, str(img_name[0]), reg_loss_, cls_loss_, total_loss_,
                                  (end - start)))
                else:
                    if step % cfgs.SMRY_ITER == 0:
                        _, global_stepnp, summary_str = sess.run(
                            [train_op, global_step, summary_op])
                        summary_writer.add_summary(summary_str, global_stepnp)
                        summary_writer.flush()

            if (step > 0 and step % cfgs.SAVE_WEIGHTS_INTE
                    == 0) or (step == cfgs.MAX_ITERATION - 1):

                save_dir = os.path.join(cfgs.TRAINED_CKPT, cfgs.VERSION)
                if not os.path.exists(save_dir):
                    os.makedirs(save_dir)

                save_ckpt = os.path.join(
                    save_dir, '{}_'.format(cfgs.DATASET_NAME) +
                    str(global_stepnp) + 'model.ckpt')
                saver.save(sess, save_ckpt)
                print(' weights had been saved')

        coord.request_stop()
        coord.join(threads)
Exemplo n.º 24
0
def train():

    faster_rcnn = build_whole_network.DetectionNetwork(base_network_name=cfgs.NET_NAME,
                                                       is_training=True)

    with tf.name_scope('get_batch'):
        img_plac = tf.placeholder(dtype=tf.uint8, shape=[None, None, 3])
        gtbox_plac = tf.placeholder(dtype=tf.int32, shape=[None, 5])

        img_batch, gtboxes_and_label = preprocess_img(img_plac, gtbox_plac)
        # gtboxes_and_label = tf.reshape(gtboxes_and_label_batch, [-1, 5])

    biases_regularizer = tf.no_regularizer
    weights_regularizer = tf.contrib.layers.l2_regularizer(cfgs.WEIGHT_DECAY)

    # list as many types of layers as possible, even if they are not used now
    with slim.arg_scope([slim.conv2d, slim.conv2d_in_plane, \
                         slim.conv2d_transpose, slim.separable_conv2d, slim.fully_connected],
                        weights_regularizer=weights_regularizer,
                        biases_regularizer=biases_regularizer,
                        biases_initializer=tf.constant_initializer(0.0)):
        final_bbox, final_scores, final_category, loss_dict = faster_rcnn.build_whole_detection_network(
            input_img_batch=img_batch,
            gtboxes_batch=gtboxes_and_label)

    # ----------------------------------------------------------------------------------------------------build loss
    weight_decay_loss = 0 # tf.add_n(slim.losses.get_regularization_losses())
    rpn_location_loss = loss_dict['rpn_loc_loss']
    rpn_cls_loss = loss_dict['rpn_cls_loss']
    rpn_total_loss = rpn_location_loss + rpn_cls_loss

    fastrcnn_cls_loss = loss_dict['fastrcnn_cls_loss']
    fastrcnn_loc_loss = loss_dict['fastrcnn_loc_loss']
    fastrcnn_total_loss = fastrcnn_cls_loss + fastrcnn_loc_loss

    total_loss = rpn_total_loss + fastrcnn_total_loss + weight_decay_loss
    # ____________________________________________________________________________________________________build loss



    # ---------------------------------------------------------------------------------------------------add summary
    tf.summary.scalar('RPN_LOSS/cls_loss', rpn_cls_loss)
    tf.summary.scalar('RPN_LOSS/location_loss', rpn_location_loss)
    tf.summary.scalar('RPN_LOSS/rpn_total_loss', rpn_total_loss)

    tf.summary.scalar('FAST_LOSS/fastrcnn_cls_loss', fastrcnn_cls_loss)
    tf.summary.scalar('FAST_LOSS/fastrcnn_location_loss', fastrcnn_loc_loss)
    tf.summary.scalar('FAST_LOSS/fastrcnn_total_loss', fastrcnn_total_loss)

    tf.summary.scalar('LOSS/total_loss', total_loss)
    tf.summary.scalar('LOSS/regular_weights', weight_decay_loss)

    gtboxes_in_img = show_box_in_tensor.draw_boxes_with_categories(img_batch=img_batch,
                                                                   boxes=gtboxes_and_label[:, :-1],
                                                                   labels=gtboxes_and_label[:, -1])
    if cfgs.ADD_BOX_IN_TENSORBOARD:
        detections_in_img = show_box_in_tensor.draw_boxes_with_categories_and_scores(img_batch=img_batch,
                                                                                     boxes=final_bbox,
                                                                                     labels=final_category,
                                                                                     scores=final_scores)
        tf.summary.image('Compare/final_detection', detections_in_img)
    tf.summary.image('Compare/gtboxes', gtboxes_in_img)

    # ___________________________________________________________________________________________________add summary

    global_step = slim.get_or_create_global_step()
    lr = tf.train.piecewise_constant(global_step,
                                     boundaries=[np.int64(cfgs.DECAY_STEP[0]), np.int64(cfgs.DECAY_STEP[1])],
                                     values=[cfgs.LR, cfgs.LR / 10., cfgs.LR / 100.])
    tf.summary.scalar('lr', lr)
    optimizer = tf.train.MomentumOptimizer(lr, momentum=cfgs.MOMENTUM)

    # ---------------------------------------------------------------------------------------------compute gradients
    gradients = faster_rcnn.get_gradients(optimizer, total_loss)

    # enlarge_gradients for bias
    if cfgs.MUTILPY_BIAS_GRADIENT:
        gradients = faster_rcnn.enlarge_gradients_for_bias(gradients)

    if cfgs.GRADIENT_CLIPPING_BY_NORM:
        with tf.name_scope('clip_gradients_YJR'):
            gradients = slim.learning.clip_gradient_norms(gradients,
                                                          cfgs.GRADIENT_CLIPPING_BY_NORM)
    # _____________________________________________________________________________________________compute gradients



    # train_op
    train_op = optimizer.apply_gradients(grads_and_vars=gradients,
                                         global_step=global_step)
    summary_op = tf.summary.merge_all()
    init_op = tf.group(
        tf.global_variables_initializer(),
        tf.local_variables_initializer()
    )

    restorer, restore_ckpt = faster_rcnn.get_restorer()
    saver = tf.train.Saver(max_to_keep=30)

    config = tf.ConfigProto()
    config.gpu_options.allow_growth = True

    with tf.Session(config=config) as sess:
        sess.run(init_op)
        if not restorer is None:
            restorer.restore(sess, restore_ckpt)
            print('restore model')

        summary_path = os.path.join(cfgs.SUMMARY_PATH, cfgs.VERSION)
        tools.mkdir(summary_path)
        summary_writer = tf.summary.FileWriter(summary_path, graph=sess.graph)

        for step in range(cfgs.MAX_ITERATION):

            img_id, img, gt_info = next_img(step=step)
            training_time = time.strftime('%Y-%m-%d %H:%M:%S', time.localtime(time.time()))

            if step % cfgs.SHOW_TRAIN_INFO_INTE != 0 and step % cfgs.SMRY_ITER != 0:
                _, global_stepnp = sess.run([train_op, global_step],
                                            feed_dict={img_plac: img,
                                                       gtbox_plac: gt_info}
                                            )

            else:
                if step % cfgs.SHOW_TRAIN_INFO_INTE == 0 and step % cfgs.SMRY_ITER != 0:
                    start = time.time()

                    _, global_stepnp, rpnLocLoss, rpnClsLoss, rpnTotalLoss, \
                    fastrcnnLocLoss, fastrcnnClsLoss, fastrcnnTotalLoss, totalLoss = \
                        sess.run(
                            [train_op, global_step, rpn_location_loss, rpn_cls_loss, rpn_total_loss,
                             fastrcnn_loc_loss, fastrcnn_cls_loss, fastrcnn_total_loss, total_loss],
                        feed_dict={img_plac: img,
                                   gtbox_plac: gt_info})
                    end = time.time()
                    print(""" {}: step{}    image_name:{} |\t
                              rpn_loc_loss:{} |\t rpn_cla_loss:{} |\t rpn_total_loss:{} |
                              fast_rcnn_loc_loss:{} |\t fast_rcnn_cla_loss:{} |\t fast_rcnn_total_loss:{} |
                              total_loss:{} |\t per_cost_time:{}s""" \
                          .format(training_time, global_stepnp, str(img_id), rpnLocLoss, rpnClsLoss,
                                  rpnTotalLoss, fastrcnnLocLoss, fastrcnnClsLoss, fastrcnnTotalLoss, totalLoss,
                                  (end - start)))
                else:
                    if step % cfgs.SMRY_ITER == 0:
                        _, global_stepnp, summary_str = sess.run([train_op, global_step, summary_op],
                                                                 feed_dict={img_plac: img,
                                                                            gtbox_plac: gt_info}
                                                                 )
                        summary_writer.add_summary(summary_str, global_stepnp)
                        summary_writer.flush()

            if (step > 0 and step % cfgs.SAVE_WEIGHTS_INTE == 0) or (step == cfgs.MAX_ITERATION - 1):

                save_dir = os.path.join(cfgs.TRAINED_CKPT, cfgs.VERSION)
                if not os.path.exists(save_dir):
                    os.mkdir(save_dir)

                save_ckpt = os.path.join(save_dir, 'voc_' + str(global_stepnp) + 'model.ckpt')
                saver.save(sess, save_ckpt)
                print(' weights had been saved')
Exemplo n.º 25
0
def train():

    with tf.Graph().as_default(), tf.device('/cpu:0'):

        num_gpu = len(cfgs.GPU_GROUP.strip().split(','))
        global_step = slim.get_or_create_global_step()
        lr = warmup_lr(cfgs.LR, global_step, cfgs.WARM_SETP, num_gpu)
        tf.summary.scalar('lr', lr)

        optimizer = tf.train.MomentumOptimizer(lr, momentum=cfgs.MOMENTUM)
        retinanet = build_whole_network.DetectionNetwork(
            base_network_name=cfgs.NET_NAME, is_training=True)

        with tf.name_scope('get_batch'):
            if cfgs.IMAGE_PYRAMID:
                shortside_len_list = tf.constant(cfgs.IMG_SHORT_SIDE_LEN)
                shortside_len = tf.random_shuffle(shortside_len_list)[0]

            else:
                shortside_len = cfgs.IMG_SHORT_SIDE_LEN

            img_name_batch, img_batch, gtboxes_and_label_batch, num_objects_batch, img_h_batch, img_w_batch = \
                next_batch(dataset_name=cfgs.DATASET_NAME,
                           batch_size=cfgs.BATCH_SIZE * num_gpu,
                           shortside_len=shortside_len,
                           is_training=True)

        # data processing
        inputs_list = []
        for i in range(num_gpu):
            img = tf.expand_dims(img_batch[i], axis=0)
            if cfgs.NET_NAME in [
                    'resnet152_v1d', 'resnet101_v1d', 'resnet50_v1d'
            ]:
                img = img / tf.constant([cfgs.PIXEL_STD])

            gtboxes_and_label_r = tf.py_func(backward_convert,
                                             inp=[gtboxes_and_label_batch[i]],
                                             Tout=tf.float32)
            gtboxes_and_label_r = tf.reshape(gtboxes_and_label_r, [-1, 6])

            gtboxes_and_label_h = get_horizen_minAreaRectangle(
                gtboxes_and_label_batch[i])
            gtboxes_and_label_h = tf.reshape(gtboxes_and_label_h, [-1, 5])

            num_objects = num_objects_batch[i]
            num_objects = tf.cast(tf.reshape(num_objects, [
                -1,
            ]), tf.float32)

            img_h = img_h_batch[i]
            img_w = img_w_batch[i]

            inputs_list.append([
                img, gtboxes_and_label_h, gtboxes_and_label_r, num_objects,
                img_h, img_w
            ])

        tower_grads = []
        biases_regularizer = tf.no_regularizer
        weights_regularizer = tf.contrib.layers.l2_regularizer(
            cfgs.WEIGHT_DECAY)

        total_loss_dict = {
            'cls_loss': tf.constant(0., tf.float32),
            'reg_loss': tf.constant(0., tf.float32),
            'total_losses': tf.constant(0., tf.float32),
        }

        with tf.variable_scope(tf.get_variable_scope()):
            for i in range(num_gpu):
                with tf.device('/gpu:%d' % i):
                    with tf.name_scope('tower_%d' % i):
                        with slim.arg_scope(
                            [slim.model_variable, slim.variable],
                                device='/device:CPU:0'):
                            with slim.arg_scope(
                                [
                                    slim.conv2d, slim.conv2d_in_plane,
                                    slim.conv2d_transpose,
                                    slim.separable_conv2d, slim.fully_connected
                                ],
                                    weights_regularizer=weights_regularizer,
                                    biases_regularizer=biases_regularizer,
                                    biases_initializer=tf.constant_initializer(
                                        0.0)):

                                gtboxes_and_label_h, gtboxes_and_label_r = tf.py_func(
                                    get_gtboxes_and_label,
                                    inp=[
                                        inputs_list[i][1], inputs_list[i][2],
                                        inputs_list[i][3]
                                    ],
                                    Tout=[tf.float32, tf.float32])
                                gtboxes_and_label_h = tf.reshape(
                                    gtboxes_and_label_h, [-1, 5])
                                gtboxes_and_label_r = tf.reshape(
                                    gtboxes_and_label_r, [-1, 6])

                                img = inputs_list[i][0]
                                img_shape = inputs_list[i][-2:]
                                img = tf.image.crop_to_bounding_box(
                                    image=img,
                                    offset_height=0,
                                    offset_width=0,
                                    target_height=tf.cast(
                                        img_shape[0], tf.int32),
                                    target_width=tf.cast(
                                        img_shape[1], tf.int32))

                                outputs = retinanet.build_whole_detection_network(
                                    input_img_batch=img,
                                    gtboxes_batch_h=gtboxes_and_label_h,
                                    gtboxes_batch_r=gtboxes_and_label_r,
                                    gpu_id=i)
                                gtboxes_in_img_h = draw_boxes_with_categories(
                                    img_batch=img,
                                    boxes=gtboxes_and_label_h[:, :-1],
                                    labels=gtboxes_and_label_h[:, -1],
                                    method=0)
                                gtboxes_in_img_r = draw_boxes_with_categories(
                                    img_batch=img,
                                    boxes=gtboxes_and_label_r[:, :-1],
                                    labels=gtboxes_and_label_r[:, -1],
                                    method=1)
                                tf.summary.image(
                                    'Compare/gtboxes_h_gpu:%d' % i,
                                    gtboxes_in_img_h)
                                tf.summary.image(
                                    'Compare/gtboxes_r_gpu:%d' % i,
                                    gtboxes_in_img_r)

                                if cfgs.ADD_BOX_IN_TENSORBOARD:
                                    detections_in_img = draw_boxes_with_categories_and_scores(
                                        img_batch=img,
                                        boxes=outputs[0],
                                        scores=outputs[1],
                                        labels=outputs[2],
                                        method=1)
                                    tf.summary.image(
                                        'Compare/final_detection_gpu:%d' % i,
                                        detections_in_img)

                                loss_dict = outputs[-1]

                                total_losses = 0.0
                                for k in loss_dict.keys():
                                    total_losses += loss_dict[k]
                                    total_loss_dict[
                                        k] += loss_dict[k] / num_gpu

                                total_losses /= num_gpu
                                total_loss_dict['total_losses'] += total_losses

                                if i == num_gpu - 1:
                                    regularization_losses = tf.get_collection(
                                        tf.GraphKeys.REGULARIZATION_LOSSES)
                                    # weight_decay_loss = tf.add_n(slim.losses.get_regularization_losses())
                                    total_losses = total_losses + tf.add_n(
                                        regularization_losses)

                        tf.get_variable_scope().reuse_variables()
                        grads = optimizer.compute_gradients(total_losses)
                        if cfgs.GRADIENT_CLIPPING_BY_NORM is not None:
                            grads = slim.learning.clip_gradient_norms(
                                grads, cfgs.GRADIENT_CLIPPING_BY_NORM)
                        tower_grads.append(grads)

        for k in total_loss_dict.keys():
            tf.summary.scalar('{}/{}'.format(k.split('_')[0], k),
                              total_loss_dict[k])

        if len(tower_grads) > 1:
            grads = sum_gradients(tower_grads)
        else:
            grads = tower_grads[0]

        if cfgs.MUTILPY_BIAS_GRADIENT is not None:
            final_gvs = []
            with tf.variable_scope('Gradient_Mult'):
                for grad, var in grads:
                    scale = 1.
                    if '/biases:' in var.name:
                        scale *= cfgs.MUTILPY_BIAS_GRADIENT
                    if 'conv_new' in var.name:
                        scale *= 3.
                    if not np.allclose(scale, 1.0):
                        grad = tf.multiply(grad, scale)

                    final_gvs.append((grad, var))
            apply_gradient_op = optimizer.apply_gradients(
                final_gvs, global_step=global_step)
        else:
            apply_gradient_op = optimizer.apply_gradients(
                grads, global_step=global_step)

        variable_averages = tf.train.ExponentialMovingAverage(
            0.9999, global_step)
        variables_averages_op = variable_averages.apply(
            tf.trainable_variables())

        train_op = tf.group(apply_gradient_op, variables_averages_op)
        # train_op = optimizer.apply_gradients(final_gvs, global_step=global_step)
        summary_op = tf.summary.merge_all()

        restorer, restore_ckpt = retinanet.get_restorer()
        saver = tf.train.Saver(max_to_keep=5)

        init_op = tf.group(tf.global_variables_initializer(),
                           tf.local_variables_initializer())

        tfconfig = tf.ConfigProto(allow_soft_placement=True,
                                  log_device_placement=False)
        tfconfig.gpu_options.allow_growth = True
        with tf.Session(config=tfconfig) as sess:
            sess.run(init_op)

            # sess.run(tf.initialize_all_variables())
            coord = tf.train.Coordinator()
            threads = tf.train.start_queue_runners(coord=coord, sess=sess)

            summary_path = os.path.join(cfgs.SUMMARY_PATH, cfgs.VERSION)
            tools.mkdir(summary_path)
            summary_writer = tf.summary.FileWriter(summary_path,
                                                   graph=sess.graph)

            if not restorer is None:
                restorer.restore(sess, restore_ckpt)
                print('restore model')

            for step in range(cfgs.MAX_ITERATION // num_gpu):
                training_time = time.strftime('%Y-%m-%d %H:%M:%S',
                                              time.localtime(time.time()))

                if step % cfgs.SHOW_TRAIN_INFO_INTE != 0 and step % cfgs.SMRY_ITER != 0:
                    _, global_stepnp = sess.run([train_op, global_step])

                else:
                    if step % cfgs.SHOW_TRAIN_INFO_INTE == 0 and step % cfgs.SMRY_ITER != 0:
                        start = time.time()

                        _, global_stepnp, total_loss_dict_ = \
                            sess.run([train_op, global_step, total_loss_dict])

                        end = time.time()

                        print('***' * 20)
                        print("""%s: global_step:%d  current_step:%d""" %
                              (training_time,
                               (global_stepnp - 1) * num_gpu, step * num_gpu))
                        print("""per_cost_time:%.3fs""" %
                              ((end - start) / num_gpu))
                        loss_str = ''
                        for k in total_loss_dict_.keys():
                            loss_str += '%s:%.3f\n' % (k, total_loss_dict_[k])
                        print(loss_str)

                        if np.isnan(total_loss_dict_['total_losses']):
                            sys.exit(0)

                    else:
                        if step % cfgs.SMRY_ITER == 0:
                            _, global_stepnp, summary_str = sess.run(
                                [train_op, global_step, summary_op])
                            summary_writer.add_summary(
                                summary_str, (global_stepnp - 1) * num_gpu)
                            summary_writer.flush()

                if (step > 0 and step % (cfgs.SAVE_WEIGHTS_INTE // num_gpu)
                        == 0) or (step >= cfgs.MAX_ITERATION // num_gpu - 1):

                    save_dir = os.path.join(cfgs.TRAINED_CKPT, cfgs.VERSION)
                    if not os.path.exists(save_dir):
                        os.mkdir(save_dir)

                    save_ckpt = os.path.join(
                        save_dir, '{}_'.format(cfgs.DATASET_NAME) + str(
                            (global_stepnp - 1) * num_gpu) + 'model.ckpt')
                    saver.save(sess, save_ckpt)
                    print(' weights had been saved')

            coord.request_stop()
            coord.join(threads)
Exemplo n.º 26
0
def train():

    # get Network Class
    faster_rcnn = build_whole_network.DetectionNetwork(
        base_network_name=cfgs.NET_NAME, is_training=True)
    # get batch
    with tf.name_scope('get_batch'):
        img_name_batch, img_batch, gtboxes_and_label_batch, num_objects_batch = \
            next_batch(dataset_name=cfgs.DATASET_NAME,  # 'pascal', 'coco'
                       batch_size=cfgs.BATCH_SIZE,
                       shortside_len=cfgs.IMG_SHORT_SIDE_LEN,
                       is_training=True)

        # convert gtboxes_and_labels
        gtboxes_and_label = tf.py_func(
            back_forward_convert,
            inp=[tf.squeeze(gtboxes_and_label_batch, 0)],
            Tout=tf.float32)
        gtboxes_and_label = tf.reshape(gtboxes_and_label, [-1, 6])

    # draw ground-truth
    with tf.name_scope('draw_gtboxes'):
        gtboxes_in_img = draw_box_with_color_rotate(
            img_batch,
            tf.reshape(gtboxes_and_label, [-1, 6])[:, :-1],
            text=tf.shape(gtboxes_and_label)[0])

    # default regularizers
    biases_regularizer = tf.no_regularizer
    weights_regularizer = tf.contrib.layers.l2_regularizer(cfgs.WEIGHT_DECAY)

    # list as many types of layers as possible, even if they are not used now
    with slim.arg_scope([
            slim.conv2d, slim.conv2d_in_plane, slim.conv2d_transpose,
            slim.separable_conv2d, slim.fully_connected
    ],
                        weights_regularizer=weights_regularizer,
                        biases_regularizer=biases_regularizer,
                        biases_initializer=tf.constant_initializer(0.0)):

        # build network
        final_boxes, final_scores, final_category, loss_dict = \
            faster_rcnn.build_whole_detection_network(input_img_batch=img_batch,
                                                      gtboxes_batch=gtboxes_and_label)

    # draw detections
    dets_in_img = draw_boxes_with_categories_and_scores_rotate(
        img_batch=img_batch,
        boxes=final_boxes,
        labels=final_category,
        scores=final_scores)

    # ----------------------------------------------------------------------------------------------------build loss
    # weight decay loss
    weight_decay_loss = tf.add_n(slim.losses.get_regularization_losses())

    # rpn losses
    rpn_location_loss = loss_dict['rpn_loc_loss']
    rpn_cls_loss = loss_dict['rpn_cls_loss']
    rpn_total_loss = rpn_location_loss + rpn_cls_loss

    # fastrcnn losses
    fastrcnn_cls_loss = loss_dict['fastrcnn_cls_loss']
    fastrcnn_loc_loss = loss_dict['fastrcnn_loc_loss']
    fastrcnn_total_loss = fastrcnn_cls_loss + fastrcnn_loc_loss

    # total loss
    total_loss = rpn_total_loss + fastrcnn_total_loss + weight_decay_loss
    # ____________________________________________________________________________________________________build loss

    # ---------------------------------------------------------------------------------------------------add summary
    tf.summary.scalar('RPN_LOSS/cls_loss', rpn_cls_loss)
    tf.summary.scalar('RPN_LOSS/location_loss', rpn_location_loss)
    tf.summary.scalar('RPN_LOSS/rpn_total_loss', rpn_total_loss)

    tf.summary.scalar('FAST_LOSS/fastrcnn_cls_loss', fastrcnn_cls_loss)
    tf.summary.scalar('FAST_LOSS/fastrcnn_location_loss', fastrcnn_loc_loss)
    tf.summary.scalar('FAST_LOSS/fastrcnn_total_loss', fastrcnn_total_loss)

    tf.summary.scalar('LOSS/total_loss', total_loss)
    tf.summary.scalar('LOSS/regular_weights', weight_decay_loss)

    tf.summary.image('img/gtboxes', gtboxes_in_img)
    tf.summary.image('img/dets', dets_in_img)

    # ___________________________________________________________________________________________________add summary
    # create global step
    global_step = slim.get_or_create_global_step()

    # learning rate setting
    lr = tf.train.piecewise_constant(
        global_step,
        boundaries=[
            np.int64(cfgs.DECAY_STEP[0]),
            np.int64(cfgs.DECAY_STEP[1])
        ],
        values=[cfgs.LR, cfgs.LR / 10., cfgs.LR / 100.])
    tf.summary.scalar('lr', lr)

    # optimizer with lr
    optimizer = tf.train.MomentumOptimizer(lr, momentum=cfgs.MOMENTUM)

    # ---------------------------------------------------------------------------------------------compute gradients
    # compute gradients
    gradients = faster_rcnn.get_gradients(optimizer, total_loss)

    # enlarge gradients for bias
    if cfgs.MUTILPY_BIAS_GRADIENT:
        gradients = faster_rcnn.enlarge_gradients_for_bias(gradients)

    # clipping gradients
    if cfgs.GRADIENT_CLIPPING_BY_NORM:
        with tf.name_scope('clip_gradients'):
            gradients = slim.learning.clip_gradient_norms(
                gradients, cfgs.GRADIENT_CLIPPING_BY_NORM)
    # _____________________________________________________________________________________________compute gradients

    # train_op, ie. apply gradients
    train_op = optimizer.apply_gradients(grads_and_vars=gradients,
                                         global_step=global_step)

    # summary_op
    summary_op = tf.summary.merge_all()

    # init_op
    init_op = tf.group(tf.global_variables_initializer(),
                       tf.local_variables_initializer())

    # restorer and Saver
    restorer, restore_ckpt = faster_rcnn.get_restorer()
    saver = tf.train.Saver(max_to_keep=10)

    # GPU Config
    config = tf.ConfigProto()
    config.gpu_options.allow_growth = True

    # start a session
    with tf.Session(config=config) as sess:

        # init
        sess.run(init_op)

        # restore
        if not restorer is None:
            restorer.restore(sess, restore_ckpt)
            print('restore model')

        # Session对象是支持多线程的, 可以在同一个会话(Session)中创建多个线程,并行执行;
        # 创建线程协调器(管理器), 并启动(Tensor/训练数据)入队线程,
        # 入队具体使用多少个线程在read_tfrecord.py->next_batch->tf.train.batch中定义;
        coord = tf.train.Coordinator()
        threads = tf.train.start_queue_runners(sess, coord)

        # construct summary writer
        summary_path = os.path.join(cfgs.SUMMARY_PATH, cfgs.VERSION)
        tools.mkdir(summary_path)
        summary_writer = tf.summary.FileWriter(summary_path, graph=sess.graph)

        # train MAX_ITERATION steps
        for step in range(cfgs.MAX_ITERATION):

            # time of this step
            training_time = time.strftime('%Y-%m-%d %H:%M:%S',
                                          time.localtime(time.time()))

            # no show & no summary
            if step % cfgs.SHOW_TRAIN_INFO_INTE != 0 and step % cfgs.SMRY_ITER != 0:

                # global_step is added to run, global_stepnp will be used in Save
                _, global_stepnp = sess.run([train_op, global_step])

            else:
                # show
                if step % cfgs.SHOW_TRAIN_INFO_INTE == 0 and step % cfgs.SMRY_ITER != 0:

                    start = time.time()

                    # middle infos are added to run, losses and img_name_batch
                    _global_step, _img_name_batch, _rpn_location_loss, _rpn_classification_loss, \
                    _rpn_total_loss, _fast_rcnn_location_loss, _fast_rcnn_classification_loss, \
                    _fast_rcnn_total_loss, _total_loss, _ = \
                        sess.run([global_step, img_name_batch, rpn_location_loss, rpn_cls_loss,
                                  rpn_total_loss, fastrcnn_loc_loss, fastrcnn_cls_loss,
                                  fastrcnn_total_loss, total_loss, train_op])

                    # # show boxes, scores, category infos
                    # final_boxes_r, _final_scores_r, _final_category_r = sess.run([final_boxes_r, final_scores_r, final_category_r])
                    # print('*'*100)
                    # print(_final_boxes_r)
                    # print(_final_scores_r)
                    # print(_final_category_r)

                    end = time.time()

                    # print
                    print(""" {}: step {}: image_name:{} |\t
                                                    rpn_loc_loss:{} |\t rpn_cla_loss:{} |\t
                                                    rpn_total_loss:{} |
                                                    fast_rcnn_loc_loss:{} |\t fast_rcnn_cla_loss:{} |\t
                                                    fast_rcnn_total_loss:{} |\t
                                                    total_loss:{} |\t pre_cost_time:{}s""" \
                          .format(training_time, _global_step, str(_img_name_batch[0]),
                                _rpn_location_loss, _rpn_classification_loss, _rpn_total_loss,
                                _fast_rcnn_location_loss, _fast_rcnn_classification_loss, _fast_rcnn_total_loss,
                                _total_loss, (end - start)))

                # summary
                else:
                    if step % cfgs.SMRY_ITER == 0:
                        # summary_op is added to run
                        _, global_stepnp, summary_str = sess.run(
                            [train_op, global_step, summary_op])

                        # add summary
                        summary_writer.add_summary(summary_str, global_stepnp)
                        summary_writer.flush()

            # save
            if (step > 0 and step % cfgs.SAVE_WEIGHTS_INTE
                    == 0) or (step == cfgs.MAX_ITERATION - 1):

                # mkdir
                save_dir = os.path.join(cfgs.TRAINED_CKPT, cfgs.VERSION)
                if not os.path.exists(save_dir):
                    os.makedirs(save_dir)

                # save checkpoint
                save_ckpt = os.path.join(
                    save_dir, 'voc_' + str(global_stepnp) + 'model.ckpt')
                saver.save(sess, save_ckpt)
                print(' weights had been saved')

        # 协调器发出终止所有线程的命令
        coord.request_stop()
        # 把开启的线程加入主线程,等待threads结束
        coord.join(threads)
Exemplo n.º 27
0
def train():

    # Step 1:
    # clw note:传递网络名称如resnet_v1,是否训练is_training,以及每个位置含有anchor box的个数,
    #           构建基本的网络
    faster_rcnn = build_whole_network.DetectionNetwork(
        base_network_name=cfgs.NET_NAME, is_training=True)
    with tf.name_scope(
            'get_batch'
    ):  # clw note:tf.name_scope 主要结合 tf.Variable() 来使用,方便参数命名管理。
        # clw note:从文件队列、内存队列中读取、组合,得到该batch的内容
        #           主要包括每个批次(目前仅支持批次数目即batch_size=1,也就是这里每次只读出1张图片)
        #           对应的变量包括:图片名称、图片矩阵、ground truth坐标及对应的label,图片中包含的目标数
        #           这些变量的组成结构均为 [批次数目,相应批次中每一幅图片的相关信息]
        img_name_batch, img_batch, gtboxes_and_label_batch, num_objects_batch = \
            next_batch(dataset_name=cfgs.DATASET_NAME,  # 'pascal', 'coco'
                       batch_size=cfgs.BATCH_SIZE,
                       shortside_len=cfgs.IMG_SHORT_SIDE_LEN,
                       is_training=True)
        gtboxes_and_label = tf.reshape(gtboxes_and_label_batch, [-1, 5])
        # clw note:样本个数m不知道,但是对单个样本都有gtboxes的4个坐标,加上1个label共5个值;使用-1来自动计算样本个数

    biases_regularizer = tf.no_regularizer
    weights_regularizer = tf.contrib.layers.l2_regularizer(cfgs.WEIGHT_DECAY)

    # Step 2:
    # clw note:Faster R-CNN网络的搭建!

    # 先看一下下面这个函数arg_scope的声明
    # @tf_contextlib.contextmanager
    # def arg_scope(list_ops_or_scope, **kwargs): 功能是给list_ops中的内容设置默认值,即list中所有元素都用**kargs的参数设置。
    # 有函数修饰符@tf_contextlib.contextmanager修饰arg_scope函数:@之后一般接一个可调用对象为其执行一系列辅助操作,
    # 我们来看一个demo:
    #########################################
    # import time
    # def my_time(func):
    #     print(time.ctime())
    #     return func()
    #
    # @my_time  # 从这里可以看出@time 等价于 time(xxx()),但是这种写法你得考虑python代码的执行顺序
    # def xxx():
    #     print('Hello world!')
    #
    # 运行结果:
    # Wed Jul 26 23:01:21 2017
    # Hello world!
    ##########################################
    # 在这个例子中,xxx函数实现我们的主要功能,打印Hello world,但我们想给xxx函数添加一些辅助操作,让它同时打印出时间,于是我们用
    # 函数修饰符 @ my_time完成这个目标。整个例子的执行流程为调用my_time可调用对象,它接受xxx函数作为参数,先打印时间,再执行xxx函数
    # 详见:https://www.cnblogs.com/zzy-tf/p/9356883.html

    # 来看另一个demo:
    ##########################################
    # with slim.arg_scope(
    #                 [slim.conv2d, slim.max_pool2d, slim.avg_pool2d],stride = 1, padding = 'VALID'):
    #             net = slim.conv2d(inputs, 32, [3, 3], stride = 2, scope = 'Conv2d_1a_3x3')
    #             net = slim.conv2d(net, 32, [3, 3], scope = 'Conv2d_2a_3x3')
    #             net = slim.conv2d(net, 64, [3, 3], padding = 'SAME', scope = 'Conv2d_2b_3x3')
    # 所以,在使用过程中可以直接slim.conv2d( )等函数设置默认参数。例如在下面的代码中,不做单独声明的情况下,
    # slim.conv2d, slim.max_pool2d, slim.avg_pool2d三个函数默认的步长都设为1,padding模式都是'VALID'的。
    # 当然也可以在调用时进行单独声明,只不过一个一个写很麻烦,不如统一给个默认值。
    # 这种参数设置方式在构建网络模型时,尤其是较深的网络时,可以节省时间。
    with slim.arg_scope([
            slim.conv2d, slim.conv2d_in_plane, slim.conv2d_transpose,
            slim.separable_conv2d, slim.fully_connected
    ],
                        weights_regularizer=weights_regularizer,
                        biases_regularizer=biases_regularizer,
                        biases_initializer=tf.constant_initializer(
                            0.0)):  # list as many types of layers as possible,
        # even if they are not used now

        # build_whole_detection_network功能:构建整体网络架构,包含backbone,RPN网络,Pooling层,以及后续网络。
        # return:网络的最后的预测框,预测的类别信息,预测的概率,以及整体网络和RPN网络的损失,所有的损失被写入到一个字典中。
        final_bbox, final_scores, final_category, loss_dict = faster_rcnn.build_whole_detection_network(
            input_img_batch=img_batch, gtboxes_batch=gtboxes_and_label)

    # ----------------------------------------------------------------------------------------------------build loss
    # weight_decay_loss = tf.add_n(slim.losses.get_regularization_losses())
    # weight_decay_loss = tf.add_n(tf.losses.get_regularization_losses())
    rpn_location_loss = loss_dict['rpn_loc_loss']
    rpn_cls_loss = loss_dict['rpn_cls_loss']
    rpn_total_loss = rpn_location_loss + rpn_cls_loss

    fastrcnn_cls_loss = loss_dict['fastrcnn_cls_loss']
    fastrcnn_loc_loss = loss_dict['fastrcnn_loc_loss']
    fastrcnn_total_loss = fastrcnn_cls_loss + fastrcnn_loc_loss

    # clw note:根据论文的公式,最后将RPN网络的(分类,回归)误差与Fast-RCNN的(分类,回归)误差相加后作为总的误差进行训练即可。
    total_loss = rpn_total_loss + fastrcnn_total_loss
    # ____________________________________________________________________________________________________build loss

    # ---------------------------------------------------------------------------------------------------add summary
    tf.summary.scalar('RPN_LOSS/cls_loss', rpn_cls_loss)
    tf.summary.scalar('RPN_LOSS/location_loss', rpn_location_loss)
    tf.summary.scalar('RPN_LOSS/rpn_total_loss', rpn_total_loss)

    tf.summary.scalar('FAST_LOSS/fastrcnn_cls_loss', fastrcnn_cls_loss)
    tf.summary.scalar('FAST_LOSS/fastrcnn_location_loss', fastrcnn_loc_loss)
    tf.summary.scalar('FAST_LOSS/fastrcnn_total_loss', fastrcnn_total_loss)

    tf.summary.scalar('LOSS/total_loss', total_loss)
    # tf.summary.scalar('LOSS/regular_weights', weight_decay_loss)

    gtboxes_in_img = show_box_in_tensor.draw_boxes_with_categories(
        img_batch=img_batch,
        boxes=gtboxes_and_label[:, :-1],
        labels=gtboxes_and_label[:, -1])
    if cfgs.ADD_BOX_IN_TENSORBOARD:
        detections_in_img = show_box_in_tensor.draw_boxes_with_categories_and_scores(
            img_batch=img_batch,
            boxes=final_bbox,
            labels=final_category,
            scores=final_scores)
        tf.summary.image('Compare/final_detection', detections_in_img)
    tf.summary.image('Compare/gtboxes', gtboxes_in_img)

    # ___________________________________________________________________________________________________add summary

    global_step = slim.get_or_create_global_step()
    lr = tf.train.piecewise_constant(
        global_step,
        boundaries=[
            np.int64(cfgs.DECAY_STEP[0]),
            np.int64(cfgs.DECAY_STEP[1])
        ],
        values=[cfgs.LR, cfgs.LR / 10., cfgs.LR / 100.])
    tf.summary.scalar('lr', lr)
    optimizer = tf.train.MomentumOptimizer(
        lr, momentum=cfgs.MOMENTUM)  # clw note:选择优化器,可以尝试其他选择,
    # 也可以尝试tf.train.AdamOptimizer(1e-4).minimize(total_loss)

    # ---------------------------------------------------------------------------------------------compute gradients

    # clw note:对于上面优化器没有使用minimize()的几点说明,
    # 使用minimize()操作,该操作不仅可以计算出梯度,而且还可以将梯度作用在变量上。
    # 如果想按照自己的方式处理梯度,可以按照以下步骤:
    # 1、使用compute_gradients()计算梯度,其实下面的get_gradients()方法就是optimizer.compute_gradients(loss)
    # 2、使用自己的方式进一步处理梯度
    # 3、使用apply_gradients()应用处理过后的梯度;

    gradients = faster_rcnn.get_gradients(optimizer, total_loss)

    # enlarge_gradients for bias
    if cfgs.MUTILPY_BIAS_GRADIENT:
        gradients = faster_rcnn.enlarge_gradients_for_bias(gradients)

    if cfgs.GRADIENT_CLIPPING_BY_NORM:  # clw note:clip_by_norm是指对梯度进行裁剪,通过控制梯度的最大范式,防止梯度爆炸的问题,是一种比较常用的梯度规约的方式
        with tf.name_scope('clip_gradients_YJR'):
            gradients = slim.learning.clip_gradient_norms(
                gradients, cfgs.GRADIENT_CLIPPING_BY_NORM)
    # _____________________________________________________________________________________________compute gradients

    # train_op
    train_op = optimizer.apply_gradients(grads_and_vars=gradients,
                                         global_step=global_step)
    summary_op = tf.summary.merge_all()
    init_op = tf.group(tf.global_variables_initializer(),
                       tf.local_variables_initializer())

    restorer, restore_ckpt = faster_rcnn.get_restorer()
    saver = tf.train.Saver(max_to_keep=30)

    config = tf.ConfigProto()
    config.gpu_options.allow_growth = True

    with tf.Session(config=config) as sess:
        sess.run(init_op)
        if not restorer is None:
            restorer.restore(sess, restore_ckpt)
            print('restore model')
        coord = tf.train.Coordinator()
        threads = tf.train.start_queue_runners(sess, coord)

        summary_path = os.path.join(cfgs.SUMMARY_PATH, cfgs.VERSION)
        # tools.mkdir(summary_path)
        if not os.path.exists(summary_path):
            os.makedirs(summary_path)
        summary_writer = tf.summary.FileWriter(summary_path, graph=sess.graph)

        for step in range(cfgs.MAX_ITERATION):
            training_time = time.strftime('%Y-%m-%d %H:%M:%S',
                                          time.localtime(time.time()))

            if step % cfgs.SHOW_TRAIN_INFO_INTE != 0 and step % cfgs.SMRY_ITER != 0:
                _, global_stepnp = sess.run([train_op, global_step])

            else:
                if step % cfgs.SHOW_TRAIN_INFO_INTE == 0 and step % cfgs.SMRY_ITER != 0:
                    start = time.time()

                    _, global_stepnp, img_name, rpnLocLoss, rpnClsLoss, rpnTotalLoss, \
                    fastrcnnLocLoss, fastrcnnClsLoss, fastrcnnTotalLoss, totalLoss = \
                        sess.run(
                            [train_op, global_step, img_name_batch, rpn_location_loss, rpn_cls_loss, rpn_total_loss,
                             fastrcnn_loc_loss, fastrcnn_cls_loss, fastrcnn_total_loss, total_loss])

                    end = time.time()
                    print(""" {}: step{}    image_name:{} |\t
                              rpn_loc_loss:{} |\t rpn_cla_loss:{} |\t rpn_total_loss:{} |
                              fast_rcnn_loc_loss:{} |\t fast_rcnn_cla_loss:{} |\t fast_rcnn_total_loss:{} |
                              total_loss:{} |\t per_cost_time:{}s""" \
                          .format(training_time, global_stepnp, str(img_name[0]), rpnLocLoss, rpnClsLoss,
                                  rpnTotalLoss, fastrcnnLocLoss, fastrcnnClsLoss, fastrcnnTotalLoss, totalLoss,
                                  (end - start)))
                else:
                    if step % cfgs.SMRY_ITER == 0:
                        _, global_stepnp, summary_str = sess.run(
                            [train_op, global_step, summary_op])
                        summary_writer.add_summary(summary_str, global_stepnp)
                        summary_writer.flush()

            if (step > 0 and step % cfgs.SAVE_WEIGHTS_INTE
                    == 0) or (step == cfgs.MAX_ITERATION - 1):

                save_dir = os.path.join(cfgs.TRAINED_CKPT, cfgs.VERSION)
                if not os.path.exists(save_dir):
                    os.makedirs(save_dir)

                save_ckpt = os.path.join(
                    save_dir, 'voc_' + str(global_stepnp) + 'model.ckpt')
                saver.save(sess, save_ckpt)
                print(' weights had been saved')

        coord.request_stop()
        coord.join(threads)
Exemplo n.º 28
0
def tower_loss(scope):
    with tf.name_scope(scope):
        faster_rcnn = build_whole_network.DetectionNetwork(
            base_network_name=cfgs.NET_NAME, is_training=True)

        with tf.name_scope('get_batch'):
            img_name_batch, img_batch, gtboxes_and_label_batch, num_objects_batch = \
                next_batch(dataset_name=cfgs.DATASET_NAME,  # 'pascal', 'coco'
                           batch_size=cfgs.BATCH_SIZE,
                           shortside_len=cfgs.IMG_SHORT_SIDE_LEN,
                           is_training=True)
            gtboxes_and_label = tf.reshape(gtboxes_and_label_batch, [-1, 5])

        biases_regularizer = tf.no_regularizer
        weights_regularizer = tf.contrib.layers.l2_regularizer(
            cfgs.WEIGHT_DECAY)

        # list as many types of layers as possible, even if they are not used now
        with slim.arg_scope([
                slim.conv2d, slim.conv2d_in_plane, slim.conv2d_transpose,
                slim.separable_conv2d, slim.fully_connected
        ],
                            weights_regularizer=weights_regularizer,
                            biases_regularizer=biases_regularizer,
                            biases_initializer=tf.constant_initializer(0.0)):
            final_bbox, final_scores, final_category, loss_dict = faster_rcnn.build_whole_detection_network(
                input_img_batch=img_batch, gtboxes_batch=gtboxes_and_label)

        # ----------------------------------------------------------------------------------------------------build loss
        weight_decay_loss = tf.add_n(slim.losses.get_regularization_losses())
        rpn_location_loss = loss_dict['rpn_loc_loss']
        rpn_cls_loss = loss_dict['rpn_cls_loss']
        rpn_total_loss = rpn_location_loss + rpn_cls_loss

        fastrcnn_cls_loss = loss_dict['fastrcnn_cls_loss']
        fastrcnn_loc_loss = loss_dict['fastrcnn_loc_loss']
        fastrcnn_total_loss = fastrcnn_cls_loss + fastrcnn_loc_loss

        total_loss = rpn_total_loss + fastrcnn_total_loss + weight_decay_loss
        # ____________________________________________________________________________________________________build loss

        # ---------------------------------------------------------------------------------------------------add summary
        tf.summary.scalar('RPN_LOSS/cls_loss', rpn_cls_loss)
        tf.summary.scalar('RPN_LOSS/location_loss', rpn_location_loss)
        tf.summary.scalar('RPN_LOSS/rpn_total_loss', rpn_total_loss)

        tf.summary.scalar('FAST_LOSS/fastrcnn_cls_loss', fastrcnn_cls_loss)
        tf.summary.scalar('FAST_LOSS/fastrcnn_location_loss',
                          fastrcnn_loc_loss)
        tf.summary.scalar('FAST_LOSS/fastrcnn_total_loss', fastrcnn_total_loss)

        tf.summary.scalar('LOSS/total_loss', total_loss)
        tf.summary.scalar('LOSS/regular_weights', weight_decay_loss)

        gtboxes_in_img = show_box_in_tensor.draw_boxes_with_categories(
            img_batch=img_batch,
            boxes=gtboxes_and_label[:, :-1],
            labels=gtboxes_and_label[:, -1])
        if cfgs.ADD_BOX_IN_TENSORBOARD:
            detections_in_img = show_box_in_tensor.draw_boxes_with_categories_and_scores(
                img_batch=img_batch,
                boxes=final_bbox,
                labels=final_category,
                scores=final_scores)
            tf.summary.image('Compare/final_detection', detections_in_img)
        tf.summary.image('Compare/gtboxes', gtboxes_in_img)

        return total_loss, faster_rcnn, img_name_batch, rpn_location_loss, rpn_cls_loss, rpn_total_loss,\
               fastrcnn_loc_loss, fastrcnn_cls_loss, fastrcnn_total_loss
Exemplo n.º 29
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    parser.add_argument('--data_dir',
                        dest='data_dir',
                        help='data path',
                        default='/root/userfolder/yx/ch4_test_images',
                        type=str)
    parser.add_argument('--res_dir',
                        dest='res_dir',
                        help='results path',
                        default='./txt_output',
                        type=str)

    if len(sys.argv) == 1:
        parser.print_help()
        sys.exit(1)

    args = parser.parse_args()
    return args


if __name__ == '__main__':
    args = parse_args()
    print('Called with args:')
    print(args)
    det_net = build_whole_network.DetectionNetwork(
        base_network_name=cfgs.NET_NAME, is_training=False)

    inference(det_net,
              data_dir=args.data_dir,
              res_dir=args.res_dir,
              save_res=False)
Exemplo n.º 30
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def train():

    faster_rcnn = build_whole_network.DetectionNetwork(
        base_network_name=cfgs.NET_NAME, is_training=True)

    with tf.name_scope('get_batch'):
        img_name_batch, img_batch, gtboxes_and_label_batch, num_objects_batch = \
            next_batch(dataset_name=cfgs.DATASET_NAME,  # 'pascal', 'coco'
                       batch_size=cfgs.BATCH_SIZE,
                       shortside_len=cfgs.IMG_SHORT_SIDE_LEN,
                       is_training=True)
        gtboxes_and_label = tf.reshape(gtboxes_and_label_batch, [-1, 5])

    biases_regularizer = tf.no_regularizer
    weights_regularizer = tf.contrib.layers.l2_regularizer(cfgs.WEIGHT_DECAY)

    # list as many types of layers as possible, even if they are not used now
    with slim.arg_scope([
            slim.conv2d, slim.conv2d_in_plane, slim.conv2d_transpose,
            slim.separable_conv2d, slim.fully_connected
    ],
                        weights_regularizer=weights_regularizer,
                        biases_regularizer=biases_regularizer,
                        biases_initializer=tf.constant_initializer(0.0)):
        # result_dict, losses_dict = faster_rcnn.build_whole_detection_network(input_img_batch=img_batch,
        #                                                                      gtboxes_batch=gtboxes_and_label)
        result_dict, losses_dict = faster_rcnn.build_whole_detection_network(
            input_img_batch=img_batch, gtboxes_batch=gtboxes_and_label)
    # ----------------------------------------------------------------------------------------------------build loss
    weight_decay_loss = tf.add_n(slim.losses.get_regularization_losses())
    # weight_decay_loss = tf.add_n(tf.losses.get_regularization_losses())

    bbox_loss_m1 = losses_dict['bbox_loss_m1']
    cls_loss_m1 = losses_dict['cls_loss_m1']
    total_loss_m1 = bbox_loss_m1 + cls_loss_m1

    bbox_loss_m2 = losses_dict['bbox_loss_m2']
    cls_loss_m2 = losses_dict['cls_loss_m2']
    total_loss_m2 = bbox_loss_m2 + cls_loss_m2

    bbox_loss_m3 = losses_dict['bbox_loss_m3']
    cls_loss_m3 = losses_dict['cls_loss_m3']
    total_loss_m3 = bbox_loss_m3 + cls_loss_m3

    total_loss = total_loss_m1 + total_loss_m2 + total_loss_m3 + weight_decay_loss

    # ---------------------------------------------------------------------------------------------------add summary
    tf.summary.scalar('SSH_M1_LOSS/cls_loss_m1', cls_loss_m1)
    tf.summary.scalar('SSH_M1_LOSS/bbox_loss_m1', bbox_loss_m1)
    tf.summary.scalar('SSH_M1_LOSS/total_loss_m1', total_loss_m1)

    tf.summary.scalar('SSH_M2_LOSS/cls_loss_m2', cls_loss_m2)
    tf.summary.scalar('SSH_M2_LOSS/bbox_loss_m2', bbox_loss_m2)
    tf.summary.scalar('SSH_M2_LOSS/total_loss_m2', total_loss_m2)

    tf.summary.scalar('SSH_M3_LOSS/cls_loss_m3', cls_loss_m3)
    tf.summary.scalar('SSH_M3_LOSS/bbox_loss_m3', bbox_loss_m3)
    tf.summary.scalar('SSH_M3_LOSS/total_loss_m3', total_loss_m3)

    tf.summary.scalar('LOSS/total_loss', total_loss)
    tf.summary.scalar('LOSS/regular_weights', weight_decay_loss)

    gtboxes_in_img = show_box_in_tensor.draw_boxes_with_categories(
        img_batch=img_batch,
        boxes=gtboxes_and_label[:, :-1],
        labels=gtboxes_and_label[:, -1])
    if cfgs.ADD_BOX_IN_TENSORBOARD:

        detections_in_img_m1 = \
            show_box_in_tensor.draw_boxes_with_categories_and_scores(img_batch=img_batch,
                                                                     boxes=result_dict['final_bbox_m1'],
                                                                     labels=result_dict['final_category_m1'],
                                                                     scores=result_dict['final_scores_m1'])
        tf.summary.image('Compare/final_detection_m1', detections_in_img_m1)

        detections_in_img_m2 = \
            show_box_in_tensor.draw_boxes_with_categories_and_scores(img_batch=img_batch,
                                                                     boxes=result_dict['final_bbox_m2'],
                                                                     labels=result_dict['final_category_m2'],
                                                                     scores=result_dict['final_scores_m2'])
        tf.summary.image('Compare/final_detection_m2', detections_in_img_m2)

        detections_in_img_m3 = \
            show_box_in_tensor.draw_boxes_with_categories_and_scores(img_batch=img_batch,
                                                                     boxes=result_dict['final_bbox_m3'],
                                                                     labels=result_dict['final_category_m3'],
                                                                     scores=result_dict['final_scores_m3'])
        tf.summary.image('Compare/final_detection_m3', detections_in_img_m3)

    tf.summary.image('Compare/gtboxes', gtboxes_in_img)

    global_step = slim.get_or_create_global_step()
    lr = tf.train.piecewise_constant(
        global_step,
        boundaries=[
            np.int64(cfgs.DECAY_STEP[0]),
            np.int64(cfgs.DECAY_STEP[1])
        ],
        values=[cfgs.LR, cfgs.LR / 10., cfgs.LR / 100.])
    tf.summary.scalar('lr', lr)
    optimizer = tf.train.MomentumOptimizer(lr, momentum=cfgs.MOMENTUM)

    # ---------------------------------------------------------------------------------------------compute gradients
    gradients = faster_rcnn.get_gradients(optimizer, total_loss)

    # enlarge_gradients for bias
    if cfgs.MUTILPY_BIAS_GRADIENT:
        gradients = faster_rcnn.enlarge_gradients_for_bias(gradients)

    if cfgs.GRADIENT_CLIPPING_BY_NORM:
        with tf.name_scope('clip_gradients'):
            gradients = slim.learning.clip_gradient_norms(
                gradients, cfgs.GRADIENT_CLIPPING_BY_NORM)

    # train_op
    train_op = optimizer.apply_gradients(grads_and_vars=gradients,
                                         global_step=global_step)
    summary_op = tf.summary.merge_all()
    init_op = tf.group(tf.global_variables_initializer(),
                       tf.local_variables_initializer())

    restorer, restore_ckpt = faster_rcnn.get_restorer()
    saver = tf.train.Saver(max_to_keep=30)

    config = tf.ConfigProto()
    # config.gpu_options.allow_growth = True

    with tf.Session(config=config) as sess:
        sess.run(init_op)
        if not restorer is None:
            restorer.restore(sess, restore_ckpt)
            print('restore model')
        coord = tf.train.Coordinator()
        threads = tf.train.start_queue_runners(sess, coord)

        summary_path = os.path.join(cfgs.SUMMARY_PATH, cfgs.VERSION)

        if not os.path.exists(summary_path):
            os.makedirs(summary_path)
        summary_writer = tf.summary.FileWriter(summary_path, graph=sess.graph)

        for step in range(cfgs.MAX_ITERATION):

            training_time = time.strftime('%Y-%m-%d %H:%M:%S',
                                          time.localtime(time.time()))

            # start = time.time()
            # _, global_stepnp, img_name, totalLoss, summary_str = \
            #     sess.run(
            #         [train_op, global_step, img_name_batch, total_loss, summary_op])
            #
            # end = time.time()
            #
            # print(""" {}: step{}    image_name:{} |\t total_loss:{} |\t per_cost_time:{}s""" \
            #       .format(training_time, global_stepnp, str(img_name[0]), totalLoss,
            #               (end - start)))
            # summary_writer.add_summary(summary_str, global_stepnp)
            # summary_writer.flush()

            if step % cfgs.SHOW_TRAIN_INFO_INTE != 0 and step % cfgs.SMRY_ITER != 0:
                _, global_stepnp = sess.run([train_op, global_step])

            else:
                if step % cfgs.SHOW_TRAIN_INFO_INTE == 0 and step % cfgs.SMRY_ITER != 0:
                    start = time.time()

                    _, global_stepnp, img_name, totalLoss = \
                        sess.run(
                            [train_op, global_step, img_name_batch, total_loss])

                    end = time.time()
                    print(""" {}: step{}    image_name:{} |\t total_loss:{} |\t per_cost_time:{}s""" \
                          .format(training_time, global_stepnp, str(img_name[0]), totalLoss,
                                  (end - start)))
                else:
                    if step % cfgs.SMRY_ITER == 0:
                        _, global_stepnp, summary_str = sess.run(
                            [train_op, global_step, summary_op])
                        summary_writer.add_summary(summary_str, global_stepnp)
                        summary_writer.flush()

            if (step > 0 and step % cfgs.SAVE_WEIGHTS_INTE
                    == 0) or (step == cfgs.MAX_ITERATION - 1):

                save_dir = os.path.join(cfgs.TRAINED_CKPT, cfgs.VERSION)
                if not os.path.exists(save_dir):
                    os.makedirs(save_dir)

                save_ckpt = os.path.join(
                    save_dir, 'voc_' + str(global_stepnp) + 'model.ckpt')
                saver.save(sess, save_ckpt)
                print(' weights had been saved')

        coord.request_stop()
        coord.join(threads)