def inference():
with tf.Graph().as_default():
img_plac = tf.placeholder(shape=[None, None, 3], dtype=tf.uint8)
img_tensor = tf.cast(img_plac, tf.float32) - tf.constant(
[103.939, 116.779, 123.68])
img_batch = image_preprocess.short_side_resize_for_inference_data(
img_tensor, target_shortside_len=cfgs.SHORT_SIDE_LEN)
# ***********************************************************************************************
# * share net *
# ***********************************************************************************************
_, share_net = get_network_byname(net_name=cfgs.NET_NAME,
inputs=img_batch,
num_classes=None,
is_training=True,
output_stride=None,
global_pool=False,
spatial_squeeze=False)
# ***********************************************************************************************
# * RPN *
# ***********************************************************************************************
rpn = build_rpn.RPN(
net_name=cfgs.NET_NAME,
inputs=img_batch,
gtboxes_and_label=None,
is_training=False,
share_head=False,
share_net=share_net,
stride=cfgs.STRIDE,
anchor_ratios=cfgs.ANCHOR_RATIOS,
anchor_scales=cfgs.ANCHOR_SCALES,
scale_factors=cfgs.SCALE_FACTORS,
base_anchor_size_list=cfgs.
BASE_ANCHOR_SIZE_LIST, # P2, P3, P4, P5, P6
level=cfgs.LEVEL,
top_k_nms=cfgs.RPN_TOP_K_NMS,
rpn_nms_iou_threshold=cfgs.RPN_NMS_IOU_THRESHOLD,
max_proposals_num=cfgs.MAX_PROPOSAL_NUM,
rpn_iou_positive_threshold=cfgs.RPN_IOU_POSITIVE_THRESHOLD,
rpn_iou_negative_threshold=cfgs.RPN_IOU_NEGATIVE_THRESHOLD,
rpn_mini_batch_size=cfgs.RPN_MINIBATCH_SIZE,
rpn_positives_ratio=cfgs.RPN_POSITIVE_RATE,
remove_outside_anchors=False, # whether remove anchors outside
rpn_weight_decay=cfgs.WEIGHT_DECAY[cfgs.NET_NAME])
# rpn predict proposals
rpn_proposals_boxes, rpn_proposals_scores = rpn.rpn_proposals(
) # rpn_score shape: [300, ]
# ***********************************************************************************************
# * Fast RCNN *
# ***********************************************************************************************
fast_rcnn = build_fast_rcnn.FastRCNN(
feature_pyramid=rpn.feature_pyramid,
rpn_proposals_boxes=rpn_proposals_boxes,
rpn_proposals_scores=rpn_proposals_scores,
img_shape=tf.shape(img_batch),
img_batch=img_batch,
roi_size=cfgs.ROI_SIZE,
roi_pool_kernel_size=cfgs.ROI_POOL_KERNEL_SIZE,
scale_factors=cfgs.SCALE_FACTORS,
gtboxes_and_label=None,
gtboxes_and_label_minAreaRectangle=None,
fast_rcnn_nms_iou_threshold=cfgs.FAST_RCNN_NMS_IOU_THRESHOLD,
fast_rcnn_maximum_boxes_per_img=100,
fast_rcnn_nms_max_boxes_per_class=cfgs.
FAST_RCNN_NMS_MAX_BOXES_PER_CLASS,
show_detections_score_threshold=cfgs.FINAL_SCORE_THRESHOLD,
# show detections which score >= 0.6
num_classes=cfgs.CLASS_NUM,
fast_rcnn_minibatch_size=cfgs.FAST_RCNN_MINIBATCH_SIZE,
fast_rcnn_positives_ratio=cfgs.FAST_RCNN_POSITIVE_RATE,
fast_rcnn_positives_iou_threshold=cfgs.
FAST_RCNN_IOU_POSITIVE_THRESHOLD,
# iou>0.5 is positive, iou<0.5 is negative
use_dropout=cfgs.USE_DROPOUT,
weight_decay=cfgs.WEIGHT_DECAY[cfgs.NET_NAME],
is_training=False,
level=cfgs.LEVEL,
head_quadrant=None)
fast_rcnn_decode_boxes, fast_rcnn_score, num_of_objects, detection_category, \
fast_rcnn_decode_boxes_rotate, fast_rcnn_score_rotate, fast_rcnn_head_quadrant, \
num_of_objects_rotate, detection_category_rotate = fast_rcnn.fast_rcnn_predict()
init_op = tf.group(tf.global_variables_initializer(),
tf.local_variables_initializer())
restorer, restore_ckpt = restore_model.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() # 创建一个线程协调器,用来管理之后在Session中启动的所有线程
threads = tf.train.start_queue_runners(
sess,
coord) # 启动入队线程,把文件读入Filename Queue中(一般系统有多少个核,就会启动多少个入队线程)
imgs, img_names = get_imgs()
for i, img in enumerate(imgs):
start = time.time()
_img_batch, _fast_rcnn_decode_boxes, _fast_rcnn_score, _detection_category, \
_fast_rcnn_decode_boxes_rotate, _fast_rcnn_score_rotate, _fast_rcnn_head_quadrant, \
_detection_category_rotate = \
sess.run([img_batch, fast_rcnn_decode_boxes, fast_rcnn_score, detection_category,
fast_rcnn_decode_boxes_rotate, fast_rcnn_score_rotate, fast_rcnn_head_quadrant,
detection_category_rotate],
feed_dict={img_plac: img})
end = time.time()
img_np = np.squeeze(_img_batch, axis=0)
img_horizontal_np = draw_box_cv(img_np,
boxes=_fast_rcnn_decode_boxes,
labels=_detection_category,
scores=_fast_rcnn_score)
img_rotate_np = draw_rotate_box_cv(
img_np,
boxes=_fast_rcnn_decode_boxes_rotate,
labels=_detection_category_rotate,
scores=_fast_rcnn_score_rotate,
head=np.argmax(_fast_rcnn_head_quadrant, axis=1))
mkdir(cfgs.INFERENCE_SAVE_PATH)
cv2.imwrite(
cfgs.INFERENCE_SAVE_PATH +
'/{}_horizontal_fpn.jpg'.format(img_names[i]),
img_horizontal_np)
cv2.imwrite(
cfgs.INFERENCE_SAVE_PATH +
'/{}_rotate_fpn.jpg'.format(img_names[i]), img_rotate_np)
view_bar('{} cost {}s'.format(img_names[i], (end - start)),
i + 1, len(imgs))
coord.request_stop()
coord.join(threads)
def eval_dict_convert(img_num, mode):
with tf.Graph().as_default():
# img = tf.placeholder(shape=[None, None, 3], dtype=tf.uint8)
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.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])
# ***********************************************************************************************
# * share net *
# ***********************************************************************************************
_, share_net = get_network_byname(net_name=cfgs.NET_NAME,
inputs=img_batch,
num_classes=None,
is_training=True,
output_stride=None,
global_pool=False,
spatial_squeeze=False)
# ***********************************************************************************************
# * RPN *
# ***********************************************************************************************
rpn = build_rpn.RPN(
net_name=cfgs.NET_NAME,
inputs=img_batch,
gtboxes_and_label=gtboxes_and_label,
is_training=False,
share_head=cfgs.SHARE_HEAD,
share_net=share_net,
anchor_ratios=cfgs.ANCHOR_RATIOS,
anchor_scales=cfgs.ANCHOR_SCALES,
anchor_angles=cfgs.ANCHOR_ANGLES,
scale_factors=cfgs.SCALE_FACTORS,
base_anchor_size_list=cfgs.
BASE_ANCHOR_SIZE_LIST, # P2, P3, P4, P5, P6
level=cfgs.LEVEL,
anchor_stride=cfgs.ANCHOR_STRIDE,
pool_stride=cfgs.POOL_STRIDE,
top_k_nms=cfgs.RPN_TOP_K_NMS,
kernel_size=cfgs.KERNEL_SIZE,
use_angles_condition=False,
anchor_angle_threshold=cfgs.RPN_ANCHOR_ANGLES_THRESHOLD,
nms_angle_threshold=cfgs.RPN_NMS_ANGLES_THRESHOLD,
rpn_nms_iou_threshold=cfgs.RPN_NMS_IOU_THRESHOLD,
max_proposals_num=cfgs.MAX_PROPOSAL_NUM,
rpn_iou_positive_threshold=cfgs.RPN_IOU_POSITIVE_THRESHOLD,
rpn_iou_negative_threshold=cfgs.RPN_IOU_NEGATIVE_THRESHOLD,
# iou>=0.7 is positive box, iou< 0.3 is negative
rpn_mini_batch_size=cfgs.RPN_MINIBATCH_SIZE,
rpn_positives_ratio=cfgs.RPN_POSITIVE_RATE,
remove_outside_anchors=cfgs.
IS_FILTER_OUTSIDE_BOXES, # whether remove anchors outside
rpn_weight_decay=cfgs.WEIGHT_DECAY[cfgs.NET_NAME],
scope='')
rpn_proposals_boxes, rpn_proposals_scores = rpn.rpn_proposals(
) # rpn_score shape: [300, ]
_, _, rpn_predict_boxes, rpn_predict_scores = rpn.rpn_losses()
# ***********************************************************************************************
# * Fast RCNN *
# ***********************************************************************************************
fast_rcnn = build_fast_rcnn.FastRCNN(
img_batch=img_batch,
feature_pyramid=rpn.feature_pyramid,
rpn_proposals_boxes=rpn_proposals_boxes,
rpn_proposals_scores=rpn_proposals_scores,
stop_gradient_for_proposals=False,
img_shape=tf.shape(img_batch),
roi_size=cfgs.ROI_SIZE,
roi_pool_kernel_size=cfgs.ROI_POOL_KERNEL_SIZE,
scale_factors=cfgs.SCALE_FACTORS,
gtboxes_and_label=None,
fast_rcnn_nms_iou_threshold=cfgs.FAST_RCNN_NMS_IOU_THRESHOLD,
top_k_nms=cfgs.FAST_RCNN_TOP_K_NMS,
nms_angle_threshold=cfgs.FAST_RCNN_NMS_ANGLES_THRESHOLD,
use_angle_condition=False,
level=cfgs.LEVEL,
fast_rcnn_maximum_boxes_per_img=100,
fast_rcnn_nms_max_boxes_per_class=cfgs.
FAST_RCNN_NMS_MAX_BOXES_PER_CLASS,
show_detections_score_threshold=cfgs.FINAL_SCORE_THRESHOLD,
# show detections which score >= 0.6
num_classes=cfgs.CLASS_NUM,
fast_rcnn_minibatch_size=cfgs.FAST_RCNN_MINIBATCH_SIZE,
fast_rcnn_positives_ratio=cfgs.FAST_RCNN_POSITIVE_RATE,
fast_rcnn_positives_iou_threshold=cfgs.
FAST_RCNN_IOU_POSITIVE_THRESHOLD,
boxes_angle_threshold=cfgs.FAST_RCNN_BOXES_ANGLES_THRESHOLD,
use_dropout=cfgs.USE_DROPOUT,
weight_decay=cfgs.WEIGHT_DECAY[cfgs.NET_NAME],
is_training=False)
fast_rcnn_decode_boxes, fast_rcnn_score, num_of_objects, detection_category = \
fast_rcnn.fast_rcnn_predict()
##############################################################################################
if cfgs.NEED_AUXILIARY:
predict_boxes = tf.concat(
[fast_rcnn_decode_boxes, rpn_predict_boxes], axis=0)
predict_scores = tf.concat(
[fast_rcnn_score, rpn_predict_scores - 0.2], axis=0)
rpn_predict_label = tf.ones([
tf.shape(rpn_predict_scores)[0],
], tf.int64)
labels = tf.concat([detection_category, rpn_predict_label], axis=0)
# valid_indices = nms_rotate.nms_rotate(decode_boxes=predict_boxes,
# scores=predict_scores,
# iou_threshold=0.15,
# max_output_size=30,
# use_angle_condition=False,
# angle_threshold=15,
# use_gpu=True)
valid_indices = tf.py_func(nms_rotate.nms_rotate_cpu,
inp=[
predict_boxes, predict_scores,
tf.constant(0.15, tf.float32),
tf.constant(30, tf.float32)
],
Tout=tf.int64)
fast_rcnn_decode_boxes = tf.gather(predict_boxes, valid_indices)
fast_rcnn_score = tf.gather(predict_scores, valid_indices)
detection_category = tf.gather(labels, valid_indices)
##############################################################################################
if mode == 0:
fast_rcnn_decode_boxes = get_horizen_minAreaRectangle(
fast_rcnn_decode_boxes, False)
# train
init_op = tf.group(tf.global_variables_initializer(),
tf.local_variables_initializer())
restorer, restore_ckpt = restore_model.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_dict = {}
predict_dict = {}
for i in range(img_num):
start = time.time()
_img_name_batch, _img_batch, _gtboxes_and_label, _fast_rcnn_decode_boxes, \
_gtboxes_and_label_minAreaRectangle, _fast_rcnn_score, _detection_category \
= sess.run([img_name_batch, img_batch, gtboxes_and_label, fast_rcnn_decode_boxes,
gtboxes_and_label_minAreaRectangle, fast_rcnn_score, detection_category])
end = time.time()
# gtboxes convert dict
gtboxes_dict[str(_img_name_batch[0])] = []
predict_dict[str(_img_name_batch[0])] = []
# for j, box in enumerate(_gtboxes_and_label):
# bbox_dict = {}
# bbox_dict['bbox'] = np.array(_gtboxes_and_label[j, :-1], np.float64)
# bbox_dict['name'] = LABEl_NAME_MAP[int(_gtboxes_and_label[j, -1])]
# gtbox_dict[str(_img_name_batch[0])].append(bbox_dict)
#
# for label in NAME_LABEL_MAP.keys():
# if label == 'back_ground':
# continue
# else:
# temp_dict = {}
# temp_dict['name'] = label
#
# ind = np.where(_detection_category == NAME_LABEL_MAP[label])[0]
# temp_boxes = _fast_rcnn_decode_boxes[ind]
# temp_score = np.reshape(_fast_rcnn_score[ind], [-1, 1])
# temp_dict['bbox'] = np.array(np.concatenate([temp_boxes, temp_score], axis=1), np.float64)
# predict_dict[str(_img_name_batch[0])].append(temp_dict)
if mode == 0:
gtboxes_list, predict_list = \
make_dict_packle(_gtboxes_and_label_minAreaRectangle, _fast_rcnn_decode_boxes,
_fast_rcnn_score, _detection_category)
else:
gtboxes_list, predict_list = \
make_dict_packle(_gtboxes_and_label, _fast_rcnn_decode_boxes,
_fast_rcnn_score, _detection_category)
gtboxes_dict[str(_img_name_batch[0])].extend(gtboxes_list)
predict_dict[str(_img_name_batch[0])].extend(predict_list)
view_bar(
'{} image cost {}s'.format(str(_img_name_batch[0]),
(end - start)), i + 1, img_num)
fw1 = open('gtboxes_dict.pkl', 'w')
fw2 = open('predict_dict.pkl', 'w')
pickle.dump(gtboxes_dict, fw1)
pickle.dump(predict_dict, fw2)
fw1.close()
fw2.close()
coord.request_stop()
coord.join(threads)
def test(img_num):
with tf.Graph().as_default():
# img = tf.placeholder(shape=[None, None, 3], dtype=tf.uint8)
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.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])
# ***********************************************************************************************
# * share net *
# ***********************************************************************************************
_, share_net = get_network_byname(net_name=cfgs.NET_NAME,
inputs=img_batch,
num_classes=None,
is_training=True,
output_stride=None,
global_pool=False,
spatial_squeeze=False)
# ***********************************************************************************************
# * RPN *
# ***********************************************************************************************
rpn = build_rpn.RPN(
net_name=cfgs.NET_NAME,
inputs=img_batch,
gtboxes_and_label=gtboxes_and_label,
is_training=False,
share_head=cfgs.SHARE_HEAD,
share_net=share_net,
anchor_ratios=cfgs.ANCHOR_RATIOS,
anchor_scales=cfgs.ANCHOR_SCALES,
anchor_angles=cfgs.ANCHOR_ANGLES,
scale_factors=cfgs.SCALE_FACTORS,
base_anchor_size_list=cfgs.
BASE_ANCHOR_SIZE_LIST, # P2, P3, P4, P5, P6
level=cfgs.LEVEL,
anchor_stride=cfgs.ANCHOR_STRIDE,
pool_stride=cfgs.POOL_STRIDE,
top_k_nms=cfgs.RPN_TOP_K_NMS,
kernel_size=cfgs.KERNEL_SIZE,
use_angles_condition=True,
anchor_angle_threshold=cfgs.RPN_ANCHOR_ANGLES_THRESHOLD,
nms_angle_threshold=cfgs.RPN_NMS_ANGLES_THRESHOLD,
rpn_nms_iou_threshold=cfgs.RPN_NMS_IOU_THRESHOLD,
max_proposals_num=cfgs.MAX_PROPOSAL_NUM,
rpn_iou_positive_threshold=cfgs.RPN_IOU_POSITIVE_THRESHOLD,
rpn_iou_negative_threshold=cfgs.RPN_IOU_NEGATIVE_THRESHOLD,
rpn_mini_batch_size=cfgs.RPN_MINIBATCH_SIZE,
rpn_positives_ratio=cfgs.RPN_POSITIVE_RATE,
remove_outside_anchors=False, # whether remove anchors outside
rpn_weight_decay=cfgs.WEIGHT_DECAY[cfgs.NET_NAME],
scope='')
# rpn predict proposals
rpn_proposals_boxes, rpn_proposals_scores = rpn.rpn_proposals(
) # rpn_score shape: [300, ]
_, _, rpn_top_k_boxes, rpn_top_k_scores = rpn.rpn_losses()
# ***********************************************************************************************
# * Fast RCNN *
# ***********************************************************************************************
fast_rcnn = build_fast_rcnn.FastRCNN(
img_batch=img_batch,
feature_pyramid=rpn.feature_pyramid,
rpn_proposals_boxes=rpn_proposals_boxes,
rpn_proposals_scores=rpn_proposals_scores,
stop_gradient_for_proposals=False,
img_shape=tf.shape(img_batch),
roi_size=cfgs.ROI_SIZE,
roi_pool_kernel_size=cfgs.ROI_POOL_KERNEL_SIZE,
scale_factors=cfgs.SCALE_FACTORS,
gtboxes_and_label=None,
fast_rcnn_nms_iou_threshold=cfgs.FAST_RCNN_NMS_IOU_THRESHOLD,
top_k_nms=cfgs.FAST_RCNN_TOP_K_NMS,
nms_angle_threshold=cfgs.FAST_RCNN_NMS_ANGLES_THRESHOLD,
use_angle_condition=False,
level=cfgs.LEVEL,
fast_rcnn_maximum_boxes_per_img=100,
fast_rcnn_nms_max_boxes_per_class=cfgs.
FAST_RCNN_NMS_MAX_BOXES_PER_CLASS,
show_detections_score_threshold=cfgs.FINAL_SCORE_THRESHOLD,
# show detections which score >= 0.6
num_classes=cfgs.CLASS_NUM,
fast_rcnn_minibatch_size=cfgs.FAST_RCNN_MINIBATCH_SIZE,
fast_rcnn_positives_ratio=cfgs.FAST_RCNN_POSITIVE_RATE,
fast_rcnn_positives_iou_threshold=cfgs.
FAST_RCNN_IOU_POSITIVE_THRESHOLD,
boxes_angle_threshold=cfgs.FAST_RCNN_BOXES_ANGLES_THRESHOLD,
use_dropout=cfgs.USE_DROPOUT,
weight_decay=cfgs.WEIGHT_DECAY[cfgs.NET_NAME],
is_training=False)
fast_rcnn_decode_boxes, fast_rcnn_score, num_of_objects, detection_category = \
fast_rcnn.fast_rcnn_predict()
##############################################################################################
if cfgs.NEED_AUXILIARY:
predict_boxes = tf.concat(
[fast_rcnn_decode_boxes, rpn_top_k_boxes], axis=0)
predict_scores = tf.concat(
[fast_rcnn_score, rpn_top_k_scores - 0.2], axis=0)
rpn_top_k_label = tf.ones([
tf.shape(rpn_top_k_scores)[0],
], tf.int64)
labels = tf.concat([detection_category, rpn_top_k_label], axis=0)
# valid_indices = nms_rotate.nms_rotate(decode_boxes=predict_boxes,
# scores=predict_scores,
# iou_threshold=0.15,
# max_output_size=30,
# use_angle_condition=False,
# angle_threshold=15,
# use_gpu=True)
valid_indices = tf.py_func(nms_rotate.nms_rotate_cpu,
inp=[
predict_boxes, predict_scores,
tf.constant(0.15, tf.float32),
tf.constant(30, tf.float32)
],
Tout=tf.int64)
fast_rcnn_decode_boxes = tf.gather(predict_boxes, valid_indices)
fast_rcnn_score = tf.gather(predict_scores, valid_indices)
detection_category = tf.gather(labels, valid_indices)
##############################################################################################
# train
init_op = tf.group(tf.global_variables_initializer(),
tf.local_variables_initializer())
restorer, restore_ckpt = restore_model.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)
for i in range(img_num):
start = time.time()
_img_name_batch, _img_batch, _gtboxes_and_label, _fast_rcnn_decode_boxes, \
_fast_rcnn_score, _detection_category \
= sess.run([img_name_batch, img_batch, gtboxes_and_label, fast_rcnn_decode_boxes,
fast_rcnn_score, detection_category])
end = time.time()
_img_batch = np.squeeze(_img_batch, axis=0)
_img_batch_fpn = help_utils.draw_box_cv(
_img_batch,
boxes=_fast_rcnn_decode_boxes,
labels=_detection_category,
scores=_fast_rcnn_score)
mkdir(cfgs.TEST_SAVE_PATH)
cv2.imwrite(
cfgs.TEST_SAVE_PATH + '/{}_fpn.jpg'.format(
str(_img_name_batch[0]).split('.tif')[0]),
_img_batch_fpn)
# _gtboxes_and_label_batch = np.squeeze(_gtboxes_and_label_batch, axis=0)
temp_label = np.reshape(_gtboxes_and_label[:, -1:], [
-1,
]).astype(np.int64)
_img_batch_gt = help_utils.draw_box_cv(
_img_batch,
boxes=_gtboxes_and_label[:, :-1],
labels=temp_label,
scores=None)
cv2.imwrite(
cfgs.TEST_SAVE_PATH + '/{}_gt.jpg'.format(
str(_img_name_batch[0]).split('.tif')[0]),
_img_batch_gt)
#view_bar('{} image cost {}s'.format(str(_img_name_batch[0]), (end - start)), i+1, img_num)
print('{} image cost {}s'.format(str(_img_name_batch[0]),
(end - start)) + str(i + 1) +
'/' + str(img_num))
coord.request_stop()
coord.join(threads)
def train():
with tf.Graph().as_default():
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, # 'ship', 'spacenet', 'pascal', 'coco'
batch_size=cfgs.BATCH_SIZE,
shortside_len=cfgs.SHORT_SIDE_LEN,
is_training=True)
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])
with tf.name_scope('draw_gtboxes'):
gtboxes_in_img = draw_box_with_color(
img_batch,
tf.reshape(gtboxes_and_label, [-1, 6])[:, :-1],
text=tf.shape(gtboxes_and_label_batch)[1])
# ***********************************************************************************************
# * shared CNN *
# ***********************************************************************************************
_, share_net = get_network_byname(net_name=cfgs.NET_NAME,
inputs=img_batch,
num_classes=None,
is_training=True,
output_stride=None,
global_pool=False,
spatial_squeeze=False)
# ***********************************************************************************************
# * rpn *
# * Note: here the rpn is Feature Pyramid Networks *
# ***********************************************************************************************
rpn = build_rpn.RPN(
net_name=cfgs.NET_NAME,
inputs=img_batch,
gtboxes_and_label=gtboxes_and_label,
is_training=True,
share_head=cfgs.SHARED_HEADS,
share_net=share_net,
anchor_ratios=cfgs.ANCHOR_RATIOS,
anchor_scales=cfgs.ANCHOR_SCALES,
anchor_angles=cfgs.ANCHOR_ANGLES,
scale_factors=cfgs.
SCALE_FACTORS, # this parameter will affect the performance
base_anchor_size_list=cfgs.
BASE_ANCHOR_SIZE_LIST, # P2, P3, P4, P5, P6
level=cfgs.LEVEL,
anchor_stride=cfgs.ANCHOR_STRIDE,
top_k_nms=cfgs.RPN_TOP_K_NMS,
kernel_size=cfgs.KERNEL_SIZE,
use_angles_condition=False,
anchor_angle_threshold=cfgs.RPN_ANCHOR_ANGLES_THRESHOLD,
nms_angle_threshold=cfgs.RPN_NMS_ANGLES_THRESHOLD,
rpn_nms_iou_threshold=cfgs.RPN_NMS_IOU_THRESHOLD,
max_proposals_num=cfgs.MAX_PROPOSAL_NUM,
rpn_iou_positive_threshold=cfgs.RPN_IOU_POSITIVE_THRESHOLD,
rpn_iou_negative_threshold=cfgs.RPN_IOU_NEGATIVE_THRESHOLD,
# iou>=0.7 is positive box, iou< 0.3 is negative
rpn_mini_batch_size=cfgs.RPN_MINIBATCH_SIZE,
rpn_positives_ratio=cfgs.RPN_POSITIVE_RATE,
remove_outside_anchors=cfgs.
IS_FILTER_OUTSIDE_BOXES, # whether remove anchors outside
rpn_weight_decay=cfgs.WEIGHT_DECAY[cfgs.NET_NAME],
scope='')
rpn_proposals_boxes, rpn_proposals_scores = rpn.rpn_proposals(
) # rpn_score shape: [300, ]
rpn_location_loss, rpn_classification_loss, rpn_predict_boxes, rpn_predict_scores = rpn.rpn_losses(
)
rpn_total_loss = rpn_classification_loss + rpn_location_loss
with tf.name_scope('draw_proposals'):
# score > 0.6 is object
rpn_object_boxes_indices = tf.reshape(
tf.where(
tf.greater(rpn_proposals_scores,
cfgs.FINAL_SCORE_THRESHOLD)), [-1])
rpn_object_boxes = tf.gather(rpn_proposals_boxes,
rpn_object_boxes_indices)
rpn_object_soxres = tf.gather(rpn_proposals_scores,
rpn_object_boxes_indices)
rpn_proposals_objcet_boxes_in_img = draw_boxes_with_scores(
img_batch, rpn_object_boxes, scores=rpn_object_soxres)
# rpn_proposals_objcet_boxes_in_img = draw_box_with_color(img_batch, rpn_object_boxes,
# text=tf.shape(rpn_object_boxes)[0])
rpn_proposals_boxes_in_img = draw_box_with_color(
img_batch,
rpn_proposals_boxes,
text=tf.shape(rpn_proposals_boxes)[0])
# ***********************************************************************************************
# * Fast RCNN *
# ***********************************************************************************************
fast_rcnn = build_fast_rcnn.FastRCNN(
img_batch=img_batch,
feature_pyramid=rpn.feature_pyramid,
rpn_proposals_boxes=rpn_proposals_boxes,
rpn_proposals_scores=rpn_proposals_scores,
stop_gradient_for_proposals=False,
img_shape=tf.shape(img_batch),
roi_size=cfgs.ROI_SIZE,
roi_pool_kernel_size=cfgs.ROI_POOL_KERNEL_SIZE,
scale_factors=cfgs.SCALE_FACTORS,
gtboxes_and_label=gtboxes_and_label,
fast_rcnn_nms_iou_threshold=cfgs.FAST_RCNN_NMS_IOU_THRESHOLD,
top_k_nms=cfgs.FAST_RCNN_TOP_K_NMS,
nms_angle_threshold=cfgs.FAST_RCNN_NMS_ANGLES_THRESHOLD,
use_angle_condition=False,
level=cfgs.LEVEL,
fast_rcnn_maximum_boxes_per_img=100,
fast_rcnn_nms_max_boxes_per_class=cfgs.
FAST_RCNN_NMS_MAX_BOXES_PER_CLASS,
show_detections_score_threshold=cfgs.
FINAL_SCORE_THRESHOLD, # show detections which score >= 0.6
num_classes=cfgs.CLASS_NUM,
fast_rcnn_minibatch_size=cfgs.FAST_RCNN_MINIBATCH_SIZE,
fast_rcnn_positives_ratio=cfgs.FAST_RCNN_POSITIVE_RATE,
fast_rcnn_positives_iou_threshold=cfgs.
FAST_RCNN_IOU_POSITIVE_THRESHOLD,
# iou>0.5 is positive, iou<0.5 is negative
boxes_angle_threshold=cfgs.FAST_RCNN_BOXES_ANGLES_THRESHOLD,
use_dropout=cfgs.USE_DROPOUT,
weight_decay=cfgs.WEIGHT_DECAY[cfgs.NET_NAME],
is_training=True)
fast_rcnn_decode_boxes, fast_rcnn_score, num_of_objects, detection_category = \
fast_rcnn.fast_rcnn_predict()
fast_rcnn_location_loss, fast_rcnn_classification_loss = fast_rcnn.fast_rcnn_loss(
)
fast_rcnn_total_loss = fast_rcnn_location_loss + fast_rcnn_classification_loss
with tf.name_scope('draw_boxes_with_categories'):
fast_rcnn_predict_boxes_in_imgs = draw_boxes_with_categories(
img_batch=img_batch,
boxes=fast_rcnn_decode_boxes,
labels=detection_category,
scores=fast_rcnn_score)
# train
total_loss = slim.losses.get_total_loss()
global_step = slim.get_or_create_global_step()
lr = tf.train.piecewise_constant(
global_step,
boundaries=[np.int64(70000), np.int64(120000)],
values=[cfgs.LR, cfgs.LR / 10, cfgs.LR / 100])
# optimizer = tf.train.MomentumOptimizer(lr, momentum=cfgs.MOMENTUM)
optimizer = tf.train.MomentumOptimizer(lr, momentum=cfgs.MOMENTUM)
if cfgs.RPN_TRAIN:
train_op = slim.learning.create_train_op(rpn_total_loss, optimizer,
global_step)
else:
train_op = slim.learning.create_train_op(total_loss, optimizer,
global_step)
# train_op = optimizer.minimize(second_classification_loss, global_step)
# ***********************************************************************************************
# * Summary *
# ***********************************************************************************************
# ground truth and predict
tf.summary.image('img/gtboxes', gtboxes_in_img)
tf.summary.image('img/fast_rcnn_predict',
fast_rcnn_predict_boxes_in_imgs)
# rpn loss and image
tf.summary.scalar('rpn/rpn_location_loss', rpn_location_loss)
tf.summary.scalar('rpn/rpn_classification_loss',
rpn_classification_loss)
tf.summary.scalar('rpn/rpn_total_loss', rpn_total_loss)
tf.summary.scalar('fast_rcnn/fast_rcnn_location_loss',
fast_rcnn_location_loss)
tf.summary.scalar('fast_rcnn/fast_rcnn_classification_loss',
fast_rcnn_classification_loss)
tf.summary.scalar('fast_rcnn/fast_rcnn_total_loss',
fast_rcnn_total_loss)
tf.summary.scalar('loss/total_loss', total_loss)
tf.summary.image('rpn/rpn_all_boxes', rpn_proposals_boxes_in_img)
tf.summary.image('rpn/rpn_object_boxes',
rpn_proposals_objcet_boxes_in_img)
# learning_rate
tf.summary.scalar('learning_rate', lr)
summary_op = tf.summary.merge_all()
init_op = tf.group(tf.global_variables_initializer(),
tf.local_variables_initializer())
restorer, restore_ckpt = restore_model.get_restorer()
saver = tf.train.Saver(max_to_keep=10)
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)
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()))
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_total_loss, _total_loss, _= \
sess.run([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, train_op])
end = time.time()
if step % 10 == 0:
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_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)))
if (step % 50 == 0) and (step % 10000 != 0): # 50
summary_str = sess.run(summary_op)
summary_writer.add_summary(summary_str, _global_step)
summary_writer.flush()
if (step > 0
and step % 10000 == 0) or (step
== cfgs.MAX_ITERATION - 1):
summary_str = sess.run(summary_op)
summary_writer.add_summary(summary_str, _global_step)
summary_writer.flush()
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_step) + 'model.ckpt')
saver.save(sess, save_ckpt)
print(' weights had been saved')
coord.request_stop()
coord.join(threads)
def eval_with_plac(num_imgs, eval_dir, img_root, showbox, annotation_dir):
# 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]
img_plac = tf.placeholder(dtype=tf.float32, shape=[None, None, 3])
img = img_plac - tf.constant([103.939, 116.779, 123.68])
img_batch = short_side_resize_for_inference_data(img, cfgs.SHORT_SIDE_LEN)
h, w = img.shape[0], img.shape[1]
gt_boxes_label = tf.placeholder(dtype=tf.float32, shape=[None, 5])
gt_boxes_label_batch = tf.expand_dims(gt_boxes_label, axis=0)
image_height, image_width = tf.shape(img_batch)[1], tf.shape(img_batch)[2]
_, share_net = get_network_byname(net_name=cfgs.NET_NAME,
inputs=img_batch,
num_classes=None,
is_training=False,
output_stride=None,
global_pool=False,
spatial_squeeze=False)
feature_pyramid = build_fpn.build_feature_pyramid(share_net)
rpn = build_rpn.RPN(feature_pyramid=feature_pyramid,
image_height=image_height,
image_width=image_width,
gtboxes_and_label=gt_boxes_label_batch,
is_training=False)
rpn_proposals_boxes, rpn_proposals_scores = rpn.rpn_proposals(
is_training=False)
fast_rcnn = build_fast_rcnn.FAST_RCNN(
feature_pyramid=feature_pyramid,
rpn_proposals_boxes=rpn_proposals_boxes,
gtboxes_and_label=gt_boxes_label_batch,
origin_image=img_batch,
is_training=True,
image_height=image_height,
image_width=image_width)
detections = fast_rcnn.head_detection()
detection_boxes, detection_category,detection_scores = tf.squeeze(detections[:,:,:4],axis=0),\
tf.squeeze(detections[:,:,4],axis=0),\
tf.squeeze(detections[:,:,5],axis=0)
indices = tf.reshape(
tf.where(tf.greater_equal(detection_scores,
cfgs.FINAL_SCORE_THRESHOLD)), [-1])
detection_boxes = tf.gather(detection_boxes, indices)
detection_scores = tf.gather(detection_scores, indices)
detection_category = tf.gather(detection_category, indices)
init_op = tf.group(tf.global_variables_initializer(),
tf.local_variables_initializer())
restorer, restore_ckpt = restore_model.get_restorer(
test=True, checkpoint_path=cfgs.chekpoint_path)
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')
all_boxes = []
for i, a_img_name in enumerate(real_test_imgname_list):
raw_img = cv2.imread(os.path.join(img_root, a_img_name))
raw_h, raw_w = raw_img.shape[0], raw_img.shape[1]
start = time.time()
resized_img, detected_boxes, detected_scores, detected_categories = \
sess.run(
[img, detection_boxes, detection_scores, detection_category],
feed_dict={img_plac: raw_img} # cv is BGR. But need RGB
)
print(a_img_name, detected_boxes, detected_scores,
detected_categories)
end = time.time()
ymin, xmin, ymax, xmax = detected_boxes[:, 0], detected_boxes[:, 1], \
detected_boxes[:, 2], detected_boxes[:, 3]
resized_h, resized_w = resized_img.shape[1], resized_img.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 = np.transpose(np.stack([xmin, ymin, xmax, ymax]))
dets = np.hstack((detected_categories.reshape(-1, 1),
detected_scores.reshape(-1, 1), boxes))
all_boxes.append(dets)
view_bar('{} image cost {}s'.format(a_img_name, (end - start)),
i + 1, len(real_test_imgname_list))
voc_evaluate_detections(all_boxes=all_boxes,
test_annotation_path=annotation_dir,
test_imgid_list=real_test_imgname_list)
def detect_img(file_paths,
des_folder,
det_th,
h_len,
w_len,
h_overlap,
w_overlap,
show_res=False):
with tf.Graph().as_default():
img_plac = tf.placeholder(shape=[None, None, 3], dtype=tf.uint8)
img_tensor = tf.cast(img_plac, tf.float32) - tf.constant(
[103.939, 116.779, 123.68])
img_batch = image_preprocess.short_side_resize_for_inference_data(
img_tensor, target_shortside_len=cfgs.SHORT_SIDE_LEN)
# ***********************************************************************************************
# * share net *
# ***********************************************************************************************
_, share_net = get_network_byname(net_name=cfgs.NET_NAME,
inputs=img_batch,
num_classes=None,
is_training=True,
output_stride=None,
global_pool=False,
spatial_squeeze=False)
# ***********************************************************************************************
# * RPN *
# ***********************************************************************************************
rpn = build_rpn.RPN(
net_name=cfgs.NET_NAME,
inputs=img_batch,
gtboxes_and_label=None,
is_training=False,
share_head=cfgs.SHARE_HEAD,
share_net=share_net,
stride=cfgs.STRIDE,
anchor_ratios=cfgs.ANCHOR_RATIOS,
anchor_scales=cfgs.ANCHOR_SCALES,
scale_factors=cfgs.SCALE_FACTORS,
base_anchor_size_list=cfgs.
BASE_ANCHOR_SIZE_LIST, # P2, P3, P4, P5, P6
level=cfgs.LEVEL,
top_k_nms=cfgs.RPN_TOP_K_NMS,
rpn_nms_iou_threshold=cfgs.RPN_NMS_IOU_THRESHOLD,
max_proposals_num=cfgs.MAX_PROPOSAL_NUM,
rpn_iou_positive_threshold=cfgs.RPN_IOU_POSITIVE_THRESHOLD,
rpn_iou_negative_threshold=cfgs.RPN_IOU_NEGATIVE_THRESHOLD,
rpn_mini_batch_size=cfgs.RPN_MINIBATCH_SIZE,
rpn_positives_ratio=cfgs.RPN_POSITIVE_RATE,
remove_outside_anchors=False, # whether remove anchors outside
rpn_weight_decay=cfgs.WEIGHT_DECAY[cfgs.NET_NAME])
# rpn predict proposals
rpn_proposals_boxes, rpn_proposals_scores = rpn.rpn_proposals(
) # rpn_score shape: [300, ]
# ***********************************************************************************************
# * Fast RCNN *
# ***********************************************************************************************
fast_rcnn = build_fast_rcnn.FastRCNN(
feature_pyramid=rpn.feature_pyramid,
rpn_proposals_boxes=rpn_proposals_boxes,
rpn_proposals_scores=rpn_proposals_scores,
img_shape=tf.shape(img_batch),
img_batch=img_batch,
roi_size=cfgs.ROI_SIZE,
roi_pool_kernel_size=cfgs.ROI_POOL_KERNEL_SIZE,
scale_factors=cfgs.SCALE_FACTORS,
gtboxes_and_label=None,
gtboxes_and_label_minAreaRectangle=None,
fast_rcnn_nms_iou_threshold=cfgs.FAST_RCNN_NMS_IOU_THRESHOLD,
fast_rcnn_maximum_boxes_per_img=100,
fast_rcnn_nms_max_boxes_per_class=cfgs.
FAST_RCNN_NMS_MAX_BOXES_PER_CLASS,
show_detections_score_threshold=det_th,
# show detections which score >= 0.6
num_classes=cfgs.CLASS_NUM,
fast_rcnn_minibatch_size=cfgs.FAST_RCNN_MINIBATCH_SIZE,
fast_rcnn_positives_ratio=cfgs.FAST_RCNN_POSITIVE_RATE,
fast_rcnn_positives_iou_threshold=cfgs.
FAST_RCNN_IOU_POSITIVE_THRESHOLD,
# iou>0.5 is positive, iou<0.5 is negative
use_dropout=cfgs.USE_DROPOUT,
weight_decay=cfgs.WEIGHT_DECAY[cfgs.NET_NAME],
is_training=False,
level=cfgs.LEVEL,
head_quadrant=None)
fast_rcnn_decode_boxes, fast_rcnn_score, num_of_objects, detection_category, \
fast_rcnn_decode_boxes_rotate, fast_rcnn_score_rotate, fast_rcnn_head_quadrant, \
num_of_objects_rotate, detection_category_rotate = fast_rcnn.fast_rcnn_predict()
init_op = tf.group(tf.global_variables_initializer(),
tf.local_variables_initializer())
restorer, restore_ckpt = restore_model.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)
for img_path in file_paths:
start = timer()
# gdal.AllRegister()
# ds = gdal.Open(img_path, gdalconst.GA_ReadOnly)
# if ds is None:
# print("Image %s open failed!" % img_path)
# sys.exit()
img = cv2.imread(img_path)
box_res = []
label_res = []
score_res = []
box_res_rotate = []
label_res_rotate = []
score_res_rotate = []
head_rotate = []
# imgH = ds.RasterYSize
# imgW = ds.RasterXSize
imgH = img.shape[0]
imgW = img.shape[1]
for hh in range(0, imgH, h_len):
h_size = min(h_len, imgH - hh - h_overlap)
if h_size < 10:
break
for ww in range(0, imgW, w_len):
w_size = min(w_len, imgW - ww - w_overlap)
if w_size < 10:
break
# src_img = ds.ReadAsArray(ww, hh, w_size, h_size)
src_img = img[hh:(hh + h_size), ww:(ww + w_size), :]
# if len(src_img.shape) == 2:
# src_img = cv2.cvtColor(src_img, cv2.COLOR_GRAY2RGB)
# else:
# src_img = chw2hwc(src_img)
boxes, labels, scores = sess.run(
[
fast_rcnn_decode_boxes, detection_category,
fast_rcnn_score
],
feed_dict={img_plac: src_img})
boxes_rotate, labels_rotate, scores_rotate, _fast_rcnn_head_quadrant = \
sess.run([fast_rcnn_decode_boxes_rotate, detection_category_rotate,
fast_rcnn_score_rotate,
fast_rcnn_head_quadrant],
feed_dict={img_plac: src_img})
if show_res:
visualize_detection(src_img, boxes, scores)
if len(boxes) > 0:
for ii in range(len(boxes)):
box = boxes[ii]
box[0] = box[0] + hh
box[1] = box[1] + ww
box[2] = box[2] + hh
box[3] = box[3] + ww
box_res.append(box)
label_res.append(labels[ii])
score_res.append(scores[ii])
if len(boxes_rotate) > 0:
for ii in range(len(boxes_rotate)):
box_rotate = boxes_rotate[ii]
box_rotate[0] = box_rotate[0] + hh
box_rotate[1] = box_rotate[1] + ww
box_res_rotate.append(box_rotate)
label_res_rotate.append(labels_rotate[ii])
score_res_rotate.append(scores_rotate[ii])
head_rotate.append(
_fast_rcnn_head_quadrant[ii])
inx = nms_rotate.nms_rotate_cpu(
boxes=np.array(box_res_rotate),
scores=np.array(score_res_rotate),
iou_threshold=0.5,
max_output_size=100)
box_res_rotate = np.array(box_res_rotate)[inx]
score_res_rotate = np.array(score_res_rotate)[inx]
label_res_rotate = np.array(label_res_rotate)[inx]
head_rotate = np.array(head_rotate)[inx]
# ds = None
time_elapsed = timer() - start
print("{} detection time : {:.4f} sec".format(
img_path.split('/')[-1].split('.')[0], time_elapsed))
# if target_name == 'aircraft':
# img = cv2.imread(img_path)
# if len(img.shape) == 2:
# img = cv2.cvtColor(img, cv2.COLOR_GRAY2RGB)
# elif len(img.shape) == 3:
# img_gray = cv2.cvtColor(img, cv2.COLOR_RGB2GRAY)
# img[:, :, 0] = img[:, :, 1] = img[:, :, 2] = img_gray
mkdir(des_folder)
img_np = draw_box_cv(np.array(img, np.float32) -
np.array([103.939, 116.779, 123.68]),
boxes=np.array(box_res),
labels=np.array(label_res),
scores=np.array(score_res))
img_np_rotate = draw_rotate_box_cv(
np.array(img, np.float32) -
np.array([103.939, 116.779, 123.68]),
boxes=np.array(box_res_rotate),
labels=np.array(label_res_rotate),
scores=np.array(score_res_rotate),
head=np.argmax(head_rotate, axis=1))
cv2.imwrite(
des_folder + '/{}_horizontal_fpn.jpg'.format(
img_path.split('/')[-1].split('.')[0]), img_np)
cv2.imwrite(
des_folder + '/{}_rotate_fpn.jpg'.format(
img_path.split('/')[-1].split('.')[0]), img_np_rotate)
# clip_obj_imgs(src_img, box_res, label_res, score_res, des_folder)
# print(img_path)
# det_xml_path =img_path.replace(".tif", ".det.xml")
# obj_to_det_xml(img_path, box_res, label_res, score_res, det_xml_path)
coord.request_stop()
coord.join(threads)
def eval_ship(img_num):
with tf.Graph().as_default():
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.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])
# ***********************************************************************************************
# * share net *
# ***********************************************************************************************
_, share_net = get_network_byname(net_name=cfgs.NET_NAME,
inputs=img_batch,
num_classes=None,
is_training=True,
output_stride=None,
global_pool=False,
spatial_squeeze=False)
# ***********************************************************************************************
# * RPN *
# ***********************************************************************************************
rpn = build_rpn.RPN(
net_name=cfgs.NET_NAME,
inputs=img_batch,
gtboxes_and_label=None,
is_training=False,
share_head=cfgs.SHARE_HEAD,
share_net=share_net,
stride=cfgs.STRIDE,
anchor_ratios=cfgs.ANCHOR_RATIOS,
anchor_scales=cfgs.ANCHOR_SCALES,
scale_factors=cfgs.SCALE_FACTORS,
base_anchor_size_list=cfgs.
BASE_ANCHOR_SIZE_LIST, # P2, P3, P4, P5, P6
level=cfgs.LEVEL,
top_k_nms=cfgs.RPN_TOP_K_NMS,
rpn_nms_iou_threshold=cfgs.RPN_NMS_IOU_THRESHOLD,
max_proposals_num=cfgs.MAX_PROPOSAL_NUM,
rpn_iou_positive_threshold=cfgs.RPN_IOU_POSITIVE_THRESHOLD,
rpn_iou_negative_threshold=cfgs.RPN_IOU_NEGATIVE_THRESHOLD,
rpn_mini_batch_size=cfgs.RPN_MINIBATCH_SIZE,
rpn_positives_ratio=cfgs.RPN_POSITIVE_RATE,
remove_outside_anchors=False, # whether remove anchors outside
rpn_weight_decay=cfgs.WEIGHT_DECAY[cfgs.NET_NAME])
# rpn predict proposals
rpn_proposals_boxes, rpn_proposals_scores = rpn.rpn_proposals(
) # rpn_score shape: [300, ]
# ***********************************************************************************************
# * Fast RCNN *
# ***********************************************************************************************
fast_rcnn = build_fast_rcnn.FastRCNN(
feature_pyramid=rpn.feature_pyramid,
rpn_proposals_boxes=rpn_proposals_boxes,
rpn_proposals_scores=rpn_proposals_scores,
img_shape=tf.shape(img_batch),
roi_size=cfgs.ROI_SIZE,
roi_pool_kernel_size=cfgs.ROI_POOL_KERNEL_SIZE,
scale_factors=cfgs.SCALE_FACTORS,
gtboxes_and_label=None,
gtboxes_and_label_minAreaRectangle=
gtboxes_and_label_minAreaRectangle,
fast_rcnn_nms_iou_threshold=cfgs.FAST_RCNN_NMS_IOU_THRESHOLD,
fast_rcnn_maximum_boxes_per_img=100,
fast_rcnn_nms_max_boxes_per_class=cfgs.
FAST_RCNN_NMS_MAX_BOXES_PER_CLASS,
show_detections_score_threshold=cfgs.FINAL_SCORE_THRESHOLD,
# show detections which score >= 0.6
num_classes=cfgs.CLASS_NUM,
fast_rcnn_minibatch_size=cfgs.FAST_RCNN_MINIBATCH_SIZE,
fast_rcnn_positives_ratio=cfgs.FAST_RCNN_POSITIVE_RATE,
fast_rcnn_positives_iou_threshold=cfgs.
FAST_RCNN_IOU_POSITIVE_THRESHOLD,
# iou>0.5 is positive, iou<0.5 is negative
use_dropout=cfgs.USE_DROPOUT,
weight_decay=cfgs.WEIGHT_DECAY[cfgs.NET_NAME],
is_training=False,
level=cfgs.LEVEL)
fast_rcnn_decode_boxes, fast_rcnn_score, num_of_objects, detection_category = fast_rcnn.fast_rcnn_predict(
)
# train
init_op = tf.group(tf.global_variables_initializer(),
tf.local_variables_initializer())
restorer, restore_ckpt = restore_model.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 = {}
for i in range(img_num):
start = time.time()
_img_name_batch, _img_batch, _gtboxes_and_label, _gtboxes_and_label_minAreaRectangle, \
_fast_rcnn_decode_boxes, _fast_rcnn_score, _detection_category \
= sess.run([img_name_batch, img_batch, gtboxes_and_label, gtboxes_and_label_minAreaRectangle,
fast_rcnn_decode_boxes, fast_rcnn_score, detection_category])
end = time.time()
# gtboxes convert dict
gtboxes_horizontal_dict[str(_img_name_batch[0])] = []
predict_horizontal_dict[str(_img_name_batch[0])] = []
gtbox_horizontal_list, predict_horizontal_list = \
make_dict_packle(_gtboxes_and_label_minAreaRectangle, _fast_rcnn_decode_boxes,
_fast_rcnn_score, _detection_category)
gtboxes_horizontal_dict[str(
_img_name_batch[0])].extend(gtbox_horizontal_list)
predict_horizontal_dict[str(
_img_name_batch[0])].extend(predict_horizontal_list)
view_bar(
'{} image cost {}s'.format(str(_img_name_batch[0]),
(end - start)), i + 1, img_num)
fw1 = open('gtboxes_horizontal_dict.pkl', 'w')
fw2 = open('predict_horizontal_dict.pkl', 'w')
pickle.dump(gtboxes_horizontal_dict, fw1)
pickle.dump(predict_horizontal_dict, fw2)
fw1.close()
fw2.close()
coord.request_stop()
coord.join(threads)
def inference():
with tf.Graph().as_default():
img_plac = tf.placeholder(shape=[None, None, 3], dtype=tf.uint8)
img_tensor = tf.cast(img_plac, tf.float32) - tf.constant(
[103.939, 116.779, 123.68])
img_batch = image_preprocess.short_side_resize_for_inference_data(
img_tensor, target_shortside_len=cfgs.SHORT_SIDE_LEN)
# ***********************************************************************************************
# * share net *
# ***********************************************************************************************
_, share_net = get_network_byname(net_name=cfgs.NET_NAME,
inputs=img_batch,
num_classes=None,
is_training=True,
output_stride=None,
global_pool=False,
spatial_squeeze=False)
# ***********************************************************************************************
# * RPN *
# ***********************************************************************************************
rpn = build_rpn.RPN(
net_name=cfgs.NET_NAME,
inputs=img_batch,
gtboxes_and_label=None,
is_training=False,
share_head=False,
share_net=share_net,
anchor_ratios=cfgs.ANCHOR_RATIOS,
anchor_scales=cfgs.ANCHOR_SCALES,
anchor_angles=cfgs.ANCHOR_ANGLES,
scale_factors=cfgs.SCALE_FACTORS,
base_anchor_size_list=cfgs.
BASE_ANCHOR_SIZE_LIST, # P2, P3, P4, P5, P6
level=cfgs.LEVEL,
anchor_stride=cfgs.ANCHOR_STRIDE,
top_k_nms=cfgs.RPN_TOP_K_NMS,
kernel_size=cfgs.KERNEL_SIZE,
use_angles_condition=True,
anchor_angle_threshold=cfgs.RPN_ANCHOR_ANGLES_THRESHOLD,
nms_angle_threshold=cfgs.RPN_NMS_ANGLES_THRESHOLD,
rpn_nms_iou_threshold=cfgs.RPN_NMS_IOU_THRESHOLD,
max_proposals_num=cfgs.MAX_PROPOSAL_NUM,
rpn_iou_positive_threshold=cfgs.RPN_IOU_POSITIVE_THRESHOLD,
rpn_iou_negative_threshold=cfgs.RPN_IOU_NEGATIVE_THRESHOLD,
rpn_mini_batch_size=cfgs.RPN_MINIBATCH_SIZE,
rpn_positives_ratio=cfgs.RPN_POSITIVE_RATE,
remove_outside_anchors=False, # whether remove anchors outside
rpn_weight_decay=cfgs.WEIGHT_DECAY[cfgs.NET_NAME],
scope='')
# rpn predict proposals
rpn_proposals_boxes, rpn_proposals_scores = rpn.rpn_proposals(
) # rpn_score shape: [300, ]
# ***********************************************************************************************
# * Fast RCNN *
# ***********************************************************************************************
fast_rcnn = build_fast_rcnn.FastRCNN(
img_batch=img_batch,
feature_pyramid=rpn.feature_pyramid,
rpn_proposals_boxes=rpn_proposals_boxes,
rpn_proposals_scores=rpn_proposals_scores,
stop_gradient_for_proposals=False,
img_shape=tf.shape(img_batch),
roi_size=cfgs.ROI_SIZE,
roi_pool_kernel_size=cfgs.ROI_POOL_KERNEL_SIZE,
scale_factors=cfgs.SCALE_FACTORS,
gtboxes_and_label=None,
fast_rcnn_nms_iou_threshold=cfgs.FAST_RCNN_NMS_IOU_THRESHOLD,
top_k_nms=cfgs.FAST_RCNN_TOP_K_NMS,
nms_angle_threshold=cfgs.FAST_RCNN_NMS_ANGLES_THRESHOLD,
use_angle_condition=False,
level=cfgs.LEVEL,
fast_rcnn_maximum_boxes_per_img=100,
fast_rcnn_nms_max_boxes_per_class=cfgs.
FAST_RCNN_NMS_MAX_BOXES_PER_CLASS,
show_detections_score_threshold=cfgs.FINAL_SCORE_THRESHOLD,
# show detections which score >= 0.6
num_classes=cfgs.CLASS_NUM,
fast_rcnn_minibatch_size=cfgs.FAST_RCNN_MINIBATCH_SIZE,
fast_rcnn_positives_ratio=cfgs.FAST_RCNN_POSITIVE_RATE,
fast_rcnn_positives_iou_threshold=cfgs.
FAST_RCNN_IOU_POSITIVE_THRESHOLD,
boxes_angle_threshold=cfgs.FAST_RCNN_BOXES_ANGLES_THRESHOLD,
use_dropout=cfgs.USE_DROPOUT,
weight_decay=cfgs.WEIGHT_DECAY[cfgs.NET_NAME],
is_training=False)
fast_rcnn_decode_boxes, fast_rcnn_score, num_of_objects, detection_category = \
fast_rcnn.fast_rcnn_predict()
# test
init_op = tf.group(tf.global_variables_initializer(),
tf.local_variables_initializer())
restorer, restore_ckpt = restore_model.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)
for img_name, a_img in get_imgs():
start = time.time()
_fast_rcnn_decode_boxes, _fast_rcnn_score, _detection_category \
= sess.run([fast_rcnn_decode_boxes, fast_rcnn_score, detection_category],
feed_dict={img_plac: a_img})
end = time.time()
print("{} cost time : {} ".format(img_name, end - start))
final_detections = help_utils.draw_box_cv(
np.array(a_img, dtype=np.float32) -
np.array([103.939, 116.779, 123.68]),
boxes=_fast_rcnn_decode_boxes,
labels=_detection_category,
scores=_fast_rcnn_score)
cv2.imwrite(cfgs.INFERENCE_SAVE_PATH + '/' + img_name,
final_detections)
coord.request_stop()
coord.join(threads)
def eval_dict_convert(args):
with tf.Graph().as_default():
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.SHORT_SIDE_LEN,
is_training=False)
# ***********************************************************************************************
# * share net *
# ***********************************************************************************************
_, share_net = get_network_byname(net_name=cfgs.NET_NAME,
inputs=img_batch,
num_classes=None,
is_training=True,
output_stride=None,
global_pool=False,
spatial_squeeze=False)
# ***********************************************************************************************
# * RPN *
# ***********************************************************************************************
rpn = build_rpn.RPN(
net_name=cfgs.NET_NAME,
inputs=img_batch,
gtboxes_and_label=None,
is_training=False,
share_head=True,
share_net=share_net,
stride=cfgs.STRIDE,
anchor_ratios=cfgs.ANCHOR_RATIOS,
anchor_scales=cfgs.ANCHOR_SCALES,
scale_factors=cfgs.SCALE_FACTORS,
base_anchor_size_list=cfgs.
BASE_ANCHOR_SIZE_LIST, # P2, P3, P4, P5, P6
level=cfgs.LEVEL,
top_k_nms=cfgs.RPN_TOP_K_NMS,
rpn_nms_iou_threshold=cfgs.RPN_NMS_IOU_THRESHOLD,
max_proposals_num=cfgs.MAX_PROPOSAL_NUM,
rpn_iou_positive_threshold=cfgs.RPN_IOU_POSITIVE_THRESHOLD,
rpn_iou_negative_threshold=cfgs.RPN_IOU_NEGATIVE_THRESHOLD,
rpn_mini_batch_size=cfgs.RPN_MINIBATCH_SIZE,
rpn_positives_ratio=cfgs.RPN_POSITIVE_RATE,
remove_outside_anchors=False, # whether remove anchors outside
rpn_weight_decay=cfgs.WEIGHT_DECAY[cfgs.NET_NAME])
# rpn predict proposals
rpn_proposals_boxes, rpn_proposals_scores = rpn.rpn_proposals(
) # rpn_score shape: [300, ]
# ***********************************************************************************************
# * Fast RCNN *
# ***********************************************************************************************
fast_rcnn = build_fast_rcnn.FastRCNN(
img_batch=img_batch,
feature_pyramid=rpn.feature_pyramid,
rpn_proposals_boxes=rpn_proposals_boxes,
rpn_proposals_scores=rpn_proposals_scores,
img_shape=tf.shape(img_batch),
roi_size=cfgs.ROI_SIZE,
scale_factors=cfgs.SCALE_FACTORS,
roi_pool_kernel_size=cfgs.ROI_POOL_KERNEL_SIZE,
gtboxes_and_label=None,
fast_rcnn_nms_iou_threshold=cfgs.FAST_RCNN_NMS_IOU_THRESHOLD,
fast_rcnn_maximum_boxes_per_img=100,
fast_rcnn_nms_max_boxes_per_class=cfgs.
FAST_RCNN_NMS_MAX_BOXES_PER_CLASS,
show_detections_score_threshold=cfgs.
FINAL_SCORE_THRESHOLD, # show detections which score >= 0.6
num_classes=cfgs.CLASS_NUM,
fast_rcnn_minibatch_size=cfgs.FAST_RCNN_MINIBATCH_SIZE,
fast_rcnn_positives_ratio=cfgs.FAST_RCNN_POSITIVE_RATE,
fast_rcnn_positives_iou_threshold=cfgs.
FAST_RCNN_IOU_POSITIVE_THRESHOLD,
use_dropout=False,
weight_decay=cfgs.WEIGHT_DECAY[cfgs.NET_NAME],
is_training=False,
level=cfgs.LEVEL)
fast_rcnn_decode_boxes, fast_rcnn_score, num_of_objects, detection_category = \
fast_rcnn.fast_rcnn_predict()
# train
init_op = tf.group(tf.global_variables_initializer(),
tf.local_variables_initializer())
restorer, restore_ckpt = restore_model.get_restorer(
checkpoint_path=args.weights)
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)
gtbox_dict = {}
predict_dict = {}
for i in range(args.img_num):
start = time.time()
_img_name_batch, _img_batch, _gtboxes_and_label_batch, _fast_rcnn_decode_boxes, \
_fast_rcnn_score, _detection_category \
= sess.run([img_name_batch, img_batch, gtboxes_and_label_batch, fast_rcnn_decode_boxes,
fast_rcnn_score, detection_category])
end = time.time()
# gtboxes convert dict
gtbox_dict[str(_img_name_batch[0])] = []
predict_dict[str(_img_name_batch[0])] = []
for j, box in enumerate(_gtboxes_and_label_batch[0]):
bbox_dict = {}
bbox_dict['bbox'] = np.array(
_gtboxes_and_label_batch[0][j, :-1], np.float64)
bbox_dict['name'] = LABEl_NAME_MAP[int(
_gtboxes_and_label_batch[0][j, -1])]
gtbox_dict[str(_img_name_batch[0])].append(bbox_dict)
for label in NAME_LABEL_MAP.keys():
if label == 'back_ground':
continue
else:
temp_dict = {}
temp_dict['name'] = label
ind = np.where(
_detection_category == NAME_LABEL_MAP[label])[0]
temp_boxes = _fast_rcnn_decode_boxes[ind]
temp_score = np.reshape(_fast_rcnn_score[ind], [-1, 1])
temp_dict['bbox'] = np.array(
np.concatenate([temp_boxes, temp_score], axis=1),
np.float64)
predict_dict[str(_img_name_batch[0])].append(temp_dict)
view_bar(
'{} image cost {}s'.format(str(_img_name_batch[0]),
(end - start)), i + 1,
args.img_num)
fw1 = open('gtboxes_dict.pkl', 'w')
fw2 = open('predict_dict.pkl', 'w')
pickle.dump(gtbox_dict, fw1)
pickle.dump(predict_dict, fw2)
fw1.close()
fw2.close()
coord.request_stop()
coord.join(threads)
