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# --------------------------------------------------------
# SiamMask
# Licensed under The MIT License
# Written by Qiang Wang (wangqiang2015 at ia.ac.cn)
# --------------------------------------------------------
from __future__ import division
from torch.utils.data import Dataset
import numpy as np
import json
import random
import logging
from os.path import join
from utils.bbox_helper import *
from utils.anchors import Anchors
import math
import sys
pyv = sys.version[0]
import cv2
if pyv[0] == '3':
cv2.ocl.setUseOpenCL(False)
logger = logging.getLogger('global')
sample_random = random.Random()
sample_random.seed(123456)
class SubDataSet(object):
def __init__(self, cfg):
for string in ['root', 'anno']:
if string not in cfg:
raise Exception('SubDataSet need "{}"'.format(string))
with open(cfg['anno']) as fin:
logger.info("loading " + cfg['anno'])
self.labels = self.filter_zero(json.load(fin), cfg)
def isint(x):
try:
int(x)
return True
except:
return False
# add frames args into labels
to_del = []
for video in self.labels:
for track in self.labels[video]:
frames = self.labels[video][track]
frames = list(map(int, filter(lambda x: isint(x), frames.keys())))
frames.sort()
self.labels[video][track]['frames'] = frames
if len(frames) <= 0:
logger.info("warning {}/{} has no frames.".format(video, track))
to_del.append((video, track))
# delete tracks with no frames
for video, track in to_del:
del self.labels[video][track]
# delete videos with no valid track
to_del = []
for video in self.labels:
if len(self.labels[video]) <= 0:
logger.info("warning {} has no tracks".format(video))
to_del.append(video)
for video in to_del:
del self.labels[video]
self.videos = list(self.labels.keys())
logger.info(cfg['anno'] + " loaded.")
# default args
self.root = "/"
self.start = 0
self.num = len(self.labels)
self.num_use = self.num
self.frame_range = 100
self.mark = "vid"
self.path_format = "{}.{}.{}.jpg"
self.pick = []
# input args
self.__dict__.update(cfg)
self.num_use = int(self.num_use)
# shuffle
self.shuffle()
def filter_zero(self, anno, cfg):
name = cfg.get('mark', '')
out = {}
tot = 0
new = 0
zero = 0
for video, tracks in anno.items():
new_tracks = {}
for trk, frames in tracks.items():
new_frames = {}
for frm, bbox in frames.items():
tot += 1
if len(bbox) == 4:
x1, y1, x2, y2 = bbox
w, h = x2 - x1, y2 -y1
else:
w, h= bbox
if w == 0 or h == 0:
logger.info('Error, {name} {video} {trk} {bbox}'.format(**locals()))
zero += 1
continue
new += 1
new_frames[frm] = bbox
if len(new_frames) > 0:
new_tracks[trk] = new_frames
if len(new_tracks) > 0:
out[video] = new_tracks
return out
def log(self):
logger.info('SubDataSet {name} start-index {start} select [{select}/{num}] path {format}'.format(
name=self.mark, start=self.start, select=self.num_use, num=self.num, format=self.path_format
))
def shuffle(self):
lists = list(range(self.start, self.start + self.num))
m = 0
pick = []
while m < self.num_use:
sample_random.shuffle(lists)
pick += lists
m += self.num
self.pick = pick[:self.num_use]
return self.pick
def get_image_anno(self, video, track, frame):
frame = "{:06d}".format(frame)
image_path = join(self.root, video, self.path_format.format(frame, track, 'x'))
image_anno = self.labels[video][track][frame]
return image_path, image_anno
def get_positive_pair(self, index):
video_name = self.videos[index]
video = self.labels[video_name]
track = random.choice(list(video.keys()))
track_info = video[track]
frames = track_info['frames']
if 'hard' not in track_info:
template_frame = random.randint(0, len(frames)-1)
left = max(template_frame - self.frame_range, 0)
right = min(template_frame + self.frame_range, len(frames)-1) + 1
search_range = frames[left:right]
template_frame = frames[template_frame]
search_frame = random.choice(search_range)
else:
search_frame = random.choice(track_info['hard'])
left = max(search_frame - self.frame_range, 0)
right = min(search_frame + self.frame_range, len(frames)-1) + 1 # python [left:right+1) = [left:right]
template_range = frames[left:right]
template_frame = random.choice(template_range)
search_frame = frames[search_frame]
return self.get_image_anno(video_name, track, template_frame), \
self.get_image_anno(video_name, track, search_frame)
def get_random_target(self, index=-1):
if index == -1:
index = random.randint(0, self.num-1)
video_name = self.videos[index]
video = self.labels[video_name]
track = random.choice(list(video.keys()))
track_info = video[track]
frames = track_info['frames']
frame = random.choice(frames)
return self.get_image_anno(video_name, track, frame)
def crop_hwc(image, bbox, out_sz, padding=(0, 0, 0)):
bbox = [float(x) for x in bbox]
a = (out_sz-1) / (bbox[2]-bbox[0])
b = (out_sz-1) / (bbox[3]-bbox[1])
c = -a * bbox[0]
d = -b * bbox[1]
mapping = np.array([[a, 0, c],
[0, b, d]]).astype(np.float)
crop = cv2.warpAffine(image, mapping, (out_sz, out_sz), borderMode=cv2.BORDER_CONSTANT, borderValue=padding)
return crop
class Augmentation:
def __init__(self, cfg):
# default args
self.shift = 0
self.scale = 0
self.blur = 0 #False
self.resize = False
self.rgbVar = np.array([[-0.55919361, 0.98062831, - 0.41940627],
[1.72091413, 0.19879334, - 1.82968581],
[4.64467907, 4.73710203, 4.88324118]], dtype=np.float32)
self.flip = 0
self.eig_vec = np.array([
[0.4009, 0.7192, -0.5675],
[-0.8140, -0.0045, -0.5808],
[0.4203, -0.6948, -0.5836],
], dtype=np.float32)
self.eig_val = np.array([[0.2175, 0.0188, 0.0045]], np.float32)
self.__dict__.update(cfg)
@staticmethod
def random():
return random.random() * 2 - 1.0
def blur_image(self, image):
def rand_kernel():
size = np.random.randn(1)
size = int(np.round(size)) * 2 + 1
if size < 0: return None
if random.random() < 0.5: return None
size = min(size, 45)
kernel = np.zeros((size, size))
c = int(size/2)
wx = random.random()
kernel[:, c] += 1. / size * wx
kernel[c, :] += 1. / size * (1-wx)
return kernel
kernel = rand_kernel()
if kernel is not None:
image = cv2.filter2D(image, -1, kernel)
return image
def __call__(self, image, bbox, size, gray=False):
if gray:
grayed = cv2.cvtColor(image, cv2.COLOR_BGR2GRAY)
image = np.zeros((grayed.shape[0], grayed.shape[1], 3), np.uint8)
image[:, :, 0] = image[:, :, 1] = image[:, :, 2] = grayed
shape = image.shape
crop_bbox = center2corner((shape[0]//2, shape[1]//2, size-1, size-1))
param = {}
if self.shift:
param['shift'] = (Augmentation.random() * self.shift, Augmentation.random() * self.shift)
if self.scale:
param['scale'] = ((1.0 + Augmentation.random() * self.scale), (1.0 + Augmentation.random() * self.scale))
crop_bbox, _ = aug_apply(Corner(*crop_bbox), param, shape)
x1 = crop_bbox.x1
y1 = crop_bbox.y1
bbox = BBox(bbox.x1 - x1, bbox.y1 - y1,
bbox.x2 - x1, bbox.y2 - y1)
if self.scale:
scale_x, scale_y = param['scale']
bbox = Corner(bbox.x1 / scale_x, bbox.y1 / scale_y, bbox.x2 / scale_x, bbox.y2 / scale_y)
image = crop_hwc(image, crop_bbox, size)
offset = np.dot(self.rgbVar, np.random.randn(3, 1))
offset = offset[::-1] # bgr 2 rgb
offset = offset.reshape(3)
image = image - offset
if self.blur > random.random():
image = self.blur_image(image)
if self.resize:
imageSize = image.shape[:2]
ratio = max(math.pow(random.random(), 0.5), 0.2) # 25 ~ 255
rand_size = (int(round(ratio*imageSize[0])), int(round(ratio*imageSize[1])))
image = cv2.resize(image, rand_size)
image = cv2.resize(image, tuple(imageSize))
if self.flip and self.flip > Augmentation.random():
image = cv2.flip(image, 1)
width = image.shape[1]
bbox = Corner(width - 1 - bbox.x2, bbox.y1, width - 1 - bbox.x1, bbox.y2)
return image, bbox
class AnchorTargetLayer:
def __init__(self, cfg):
self.thr_high = 0.6
self.thr_low = 0.3
self.negative = 16
self.rpn_batch = 64
self.positive = 16
self.__dict__.update(cfg)
def __call__(self, anchor, target, size, neg=False, need_iou=False):
anchor_num = anchor.anchors.shape[0]
cls = np.zeros((anchor_num, size, size), dtype=np.int64)
cls[...] = -1 # -1 ignore 0 negative 1 positive
delta = np.zeros((4, anchor_num, size, size), dtype=np.float32)
delta_weight = np.zeros((anchor_num, size, size), dtype=np.float32)
def select(position, keep_num=16):
num = position[0].shape[0]
if num <= keep_num:
return position, num
slt = np.arange(num)
np.random.shuffle(slt)
slt = slt[:keep_num]
return tuple(p[slt] for p in position), keep_num
if neg:
l = size // 2 - 3
r = size // 2 + 3 + 1
cls[:, l:r, l:r] = 0
neg, neg_num = select(np.where(cls == 0), self.negative)
cls[:] = -1
cls[neg] = 0
if not need_iou:
return cls, delta, delta_weight
else:
overlap = np.zeros((anchor_num, size, size), dtype=np.float32)
return cls, delta, delta_weight, overlap
tcx, tcy, tw, th = corner2center(target)
anchor_box = anchor.all_anchors[0]
anchor_center = anchor.all_anchors[1]
x1, y1, x2, y2 = anchor_box[0], anchor_box[1], anchor_box[2], anchor_box[3]
cx, cy, w, h = anchor_center[0], anchor_center[1], anchor_center[2], anchor_center[3]
# delta
delta[0] = (tcx - cx) / w
delta[1] = (tcy - cy) / h
delta[2] = np.log(tw / w)
delta[3] = np.log(th / h)
# IoU
overlap = IoU([x1, y1, x2, y2], target)
pos = np.where(overlap > self.thr_high)
neg = np.where(overlap < self.thr_low)
pos, pos_num = select(pos, self.positive)
neg, neg_num = select(neg, self.rpn_batch - pos_num)
cls[pos] = 1
delta_weight[pos] = 1. / (pos_num + 1e-6)
cls[neg] = 0
if not need_iou:
return cls, delta, delta_weight
else:
return cls, delta, delta_weight, overlap
class DataSets(Dataset):
def __init__(self, cfg, anchor_cfg, num_epoch=1):
super(DataSets, self).__init__()
global logger
logger = logging.getLogger('global')
# anchors
self.anchors = Anchors(anchor_cfg)
# size
self.template_size = 127
self.origin_size = 127
self.search_size = 255
self.size = 17
self.base_size = 0
self.crop_size = 0
if 'template_size' in cfg:
self.template_size = cfg['template_size']
if 'origin_size' in cfg:
self.origin_size = cfg['origin_size']
if 'search_size' in cfg:
self.search_size = cfg['search_size']
if 'base_size' in cfg:
self.base_size = cfg['base_size']
if 'size' in cfg:
self.size = cfg['size']
if (self.search_size - self.template_size) / self.anchors.stride + 1 + self.base_size != self.size:
raise Exception("size not match!") # TODO: calculate size online
if 'crop_size' in cfg:
self.crop_size = cfg['crop_size']
self.template_small = False
if 'template_small' in cfg and cfg['template_small']:
self.template_small = True
self.anchors.generate_all_anchors(im_c=self.search_size//2, size=self.size)
if 'anchor_target' not in cfg:
cfg['anchor_target'] = {}
self.anchor_target = AnchorTargetLayer(cfg['anchor_target'])
# data sets
if 'datasets' not in cfg:
raise(Exception('DataSet need "{}"'.format('datasets')))
self.all_data = []
start = 0
self.num = 0
for name in cfg['datasets']:
dataset = cfg['datasets'][name]
dataset['mark'] = name
dataset['start'] = start
dataset = SubDataSet(dataset)
dataset.log()
self.all_data.append(dataset)
start += dataset.num # real video number
self.num += dataset.num_use # the number used for subset shuffle
# data augmentation
aug_cfg = cfg['augmentation']
self.template_aug = Augmentation(aug_cfg['template'])
self.search_aug = Augmentation(aug_cfg['search'])
self.gray = aug_cfg['gray']
self.neg = aug_cfg['neg']
self.inner_neg = 0 if 'inner_neg' not in aug_cfg else aug_cfg['inner_neg']
self.pick = None # list to save id for each img
if 'num' in cfg: # number used in training for all dataset
self.num = int(cfg['num'])
self.num *= num_epoch
self.shuffle()
self.infos = {
'template': self.template_size,
'search': self.search_size,
'template_small': self.template_small,
'gray': self.gray,
'neg': self.neg,
'inner_neg': self.inner_neg,
'crop_size': self.crop_size,
'anchor_target': self.anchor_target.__dict__,
'num': self.num // num_epoch
}
logger.info('dataset informations: \n{}'.format(json.dumps(self.infos, indent=4)))
def imread(self, path):
img = cv2.imread(path)
if self.origin_size == self.template_size:
return img, 1.0
def map_size(exe, size):
return int(round(((exe + 1) / (self.origin_size + 1) * (size+1) - 1)))
nsize = map_size(self.template_size, img.shape[1])
img = cv2.resize(img, (nsize, nsize))
return img, nsize / img.shape[1]
def shuffle(self):
pick = []
m = 0
while m < self.num:
p = []
for subset in self.all_data:
sub_p = subset.shuffle()
p += sub_p
sample_random.shuffle(p)
pick += p
m = len(pick)
self.pick = pick
logger.info("shuffle done!")
logger.info("dataset length {}".format(self.num))
def __len__(self):
return self.num
def find_dataset(self, index):
for dataset in self.all_data:
if dataset.start + dataset.num > index:
return dataset, index - dataset.start
def __getitem__(self, index, debug=False):
index = self.pick[index]
dataset, index = self.find_dataset(index)
gray = self.gray and self.gray > random.random()
neg = self.neg and self.neg > random.random()
if neg:
template = dataset.get_random_target(index)
if self.inner_neg and self.inner_neg > random.random():
search = dataset.get_random_target()
else:
search = random.choice(self.all_data).get_random_target()
else:
template, search = dataset.get_positive_pair(index)
def center_crop(img, size):
shape = img.shape[1]
if shape == size: return img
c = shape // 2
l = c - size // 2
r = c + size // 2 + 1
return img[l:r, l:r]
template_image, scale_z = self.imread(template[0])
if self.template_small:
template_image = center_crop(template_image, self.template_size)
search_image, scale_x = self.imread(search[0])
if self.crop_size > 0:
search_image = center_crop(search_image, self.crop_size)
def toBBox(image, shape):
imh, imw = image.shape[:2]
if len(shape) == 4:
w, h = shape[2]-shape[0], shape[3]-shape[1]
else:
w, h = shape
context_amount = 0.5
exemplar_size = self.template_size # 127
wc_z = w + context_amount * (w+h)
hc_z = h + context_amount * (w+h)
s_z = np.sqrt(wc_z * hc_z)
scale_z = exemplar_size / s_z
w = w*scale_z
h = h*scale_z
cx, cy = imw//2, imh//2
bbox = center2corner(Center(cx, cy, w, h))
return bbox
template_box = toBBox(template_image, template[1])
search_box = toBBox(search_image, search[1])
template, _ = self.template_aug(template_image, template_box, self.template_size, gray=gray)
search, bbox = self.search_aug(search_image, search_box, self.search_size, gray=gray)
def draw(image, box, name):
image = image.copy()
x1, y1, x2, y2 = map(lambda x: int(round(x)), box)
cv2.rectangle(image, (x1, y1), (x2, y2), (0, 255, 0))
cv2.imwrite(name, image)
if debug:
draw(template_image, template_box, "debug/{:06d}_ot.jpg".format(index))
draw(search_image, search_box, "debug/{:06d}_os.jpg".format(index))
draw(template, _, "debug/{:06d}_t.jpg".format(index))
draw(search, bbox, "debug/{:06d}_s.jpg".format(index))
cls, delta, delta_weight = self.anchor_target(self.anchors, bbox, self.size, neg)
template, search = map(lambda x: np.transpose(x, (2, 0, 1)).astype(np.float32), [template, search])
return template, search, cls, delta, delta_weight, np.array(bbox, np.float32)