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	import torch
	import torch.distributed as dist

	import os
	import os.path as osp
	import numpy as np
	import cv2
	import copy
	import json

	from ..log_service import print_log

	def singleton(class_):
	instances = {}
	def getinstance(args, *kwargs):
	if class_ not in instances:
	instances[class_] = class_(args, *kwargs)
	return instances[class_]
	return getinstance

	@singleton
	class get_evaluator(object):
	def __init__(self):
	self.evaluator = {}

	def register(self, evaf, name):
	self.evaluator[name] = evaf

	def __call__(self, pipeline_cfg=None):
	if pipeline_cfg is None:
	from . import eva_null
	return self.evaluator['null']()

	if not isinstance(pipeline_cfg, list):
	t = pipeline_cfg.type
	if t == 'miou':
	from . import eva_miou
	if t == 'psnr':
	from . import eva_psnr
	if t == 'ssim':
	from . import eva_ssim
	if t == 'lpips':
	from . import eva_lpips
	if t == 'fid':
	from . import eva_fid
	return self.evaluator[t](**pipeline_cfg.args)

	evaluator = []
	for ci in pipeline_cfg:
	t = ci.type
	if t == 'miou':
	from . import eva_miou
	if t == 'psnr':
	from . import eva_psnr
	if t == 'ssim':
	from . import eva_ssim
	if t == 'lpips':
	from . import eva_lpips
	if t == 'fid':
	from . import eva_fid
	evaluator.append(
	self.evaluator[t](**ci.args))
	if len(evaluator) == 0:
	return None
	else:
	return compose(evaluator)

	def register(name):
	def wrapper(class_):
	get_evaluator().register(class_, name)
	return class_
	return wrapper

	class base_evaluator(object):
	def __init__(self,
	**args):
	'''
	Args:
	sample_n, int,
	the total number of sample. used in
	distributed sync
	'''
	if not dist.is_available():
	raise ValueError
	self.world_size = dist.get_world_size()
	self.rank = dist.get_rank()
	self.sample_n = None
	self.final = {}

	def sync(self, data):
	"""
	Args:
	data: any,
	the data needs to be broadcasted
	"""
	if data is None:
	return None

	if isinstance(data, tuple):
	data = list(data)

	if isinstance(data, list):
	data_list = []
	for datai in data:
	data_list.append(self.sync(datai))
	data = [[i] for i in zip(data_list)]
	return data

	data = [
	self.sync_(data, ranki)
	for ranki in range(self.world_size)
	]
	return data

	def sync_(self, data, rank):

	t = type(data)
	is_broadcast = rank == self.rank

	if t is np.ndarray:
	dtrans = data
	dt = data.dtype
	if dt in [
	int,
	np.bool,
	np.uint8,
	np.int8,
	np.int16,
	np.int32,
	np.int64,]:
	dtt = torch.int64
	elif dt in [
	float,
	np.float16,
	np.float32,
	np.float64,]:
	dtt = torch.float64

	elif t is str:
	dtrans = np.array(
	[ord(c) for c in data],
	dtype = np.int64
	)
	dt = np.int64
	dtt = torch.int64
	else:
	raise ValueError

	if is_broadcast:
	n = len(dtrans.shape)
	n = torch.tensor(n).long()

	n = n.to(self.rank)
	dist.broadcast(n, src=rank)

	n = list(dtrans.shape)
	n = torch.tensor(n).long()
	n = n.to(self.rank)
	dist.broadcast(n, src=rank)

	n = torch.tensor(dtrans, dtype=dtt)
	n = n.to(self.rank)
	dist.broadcast(n, src=rank)
	return data

	n = torch.tensor(0).long()
	n = n.to(self.rank)
	dist.broadcast(n, src=rank)
	n = n.item()

	n = torch.zeros(n).long()
	n = n.to(self.rank)
	dist.broadcast(n, src=rank)
	n = list(n.to('cpu').numpy())

	n = torch.zeros(n, dtype=dtt)
	n = n.to(self.rank)
	dist.broadcast(n, src=rank)
	n = n.to('cpu').numpy().astype(dt)

	if t is np.ndarray:
	return n
	elif t is str:
	n = ''.join([chr(c) for c in n])
	return n

	def zipzap_arrange(self, data):
	'''
	Order the data so it range like this:
	input [[0, 2, 4, 6], [1, 3, 5, 7]] -> output [0, 1, 2, 3, 4, 5, ...]
	'''
	if isinstance(data[0], list):
	data_new = []
	maxlen = max([len(i) for i in data])
	totlen = sum([len(i) for i in data])
	cnt = 0
	for idx in range(maxlen):
	for datai in data:
	data_new += [datai[idx]]
	cnt += 1
	if cnt >= totlen:
	break
	return data_new

	elif isinstance(data[0], np.ndarray):
	maxlen = max([i.shape[0] for i in data])
	totlen = sum([i.shape[0] for i in data])
	datai_shape = data[0].shape[1:]
	data = [
	np.concatenate(datai, np.zeros(maxlen-datai.shape[0], *datai_shape), axis=0)
	if datai.shape[0] < maxlen else datai
	for datai in data
	] # even the array
	data = np.stack(data, axis=1).reshape(-1, *datai_shape)
	data = data[:totlen]
	return data

	else:
	raise NotImplementedError

	def add_batch(self, **args):
	raise NotImplementedError

	def set_sample_n(self, sample_n):
	self.sample_n = sample_n

	def compute(self):
	raise NotImplementedError

	# Function needed in training to judge which
	# evaluated number is better
	def isbetter(self, old, new):
	return new>old

	def one_line_summary(self):
	print_log('Evaluator display')

	def save(self, path):
	if not osp.exists(path):
	os.makedirs(path)
	ofile = osp.join(path, 'result.json')
	with open(ofile, 'w') as f:
	json.dump(self.final, f, indent=4)

	def clear_data(self):
	raise NotImplementedError

	class compose(object):
	def __init__(self, pipeline):
	self.pipeline = pipeline
	self.sample_n = None
	self.final = {}

	def add_batch(self, args, *kwargs):
	for pi in self.pipeline:
	pi.add_batch(args, *kwargs)

	def set_sample_n(self, sample_n):
	self.sample_n = sample_n
	for pi in self.pipeline:
	pi.set_sample_n(sample_n)

	def compute(self):
	rv = {}
	for pi in self.pipeline:
	rv[pi.symbol] = pi.compute()
	self.final[pi.symbol] = pi.final
	return rv

	def isbetter(self, old, new):
	check = 0
	for pi in self.pipeline:
	if pi.isbetter(old, new):
	check+=1
	if check/len(self.pipeline)>0.5:
	return True
	else:
	return False

	def one_line_summary(self):
	for pi in self.pipeline:
	pi.one_line_summary()

	def save(self, path):
	if not osp.exists(path):
	os.makedirs(path)
	ofile = osp.join(path, 'result.json')
	with open(ofile, 'w') as f:
	json.dump(self.final, f, indent=4)

	def clear_data(self):
	for pi in self.pipeline:
	pi.clear_data()