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MaskTextSpotterV3-OCR / maskrcnn_benchmark /data /build.py

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	# Copyright (c) Facebook, Inc. and its affiliates. All Rights Reserved.
	import bisect
	import logging

	import torch.utils.data
	from maskrcnn_benchmark.utils.comm import get_world_size
	from maskrcnn_benchmark.utils.imports import import_file

	from . import datasets as D
	from . import samplers

	from .collate_batch import BatchCollator
	from .transforms import build_transforms


	def build_dataset(cfg, dataset_list, transforms, dataset_catalog, is_train=True):
	"""
	Arguments:
	dataset_list (list[str]): Contains the names of the datasets, i.e.,
	coco_2014_trian, coco_2014_val, etc
	transforms (callable): transforms to apply to each (image, target) sample
	dataset_catalog (DatasetCatalog): contains the information on how to
	construct a dataset.
	is_train (bool): whether to setup the dataset for training or testing
	"""
	if not isinstance(dataset_list, (list, tuple)):
	raise RuntimeError(
	"dataset_list should be a list of strings, got {}".format(dataset_list))
	datasets = []
	for dataset_name in dataset_list:
	data = dataset_catalog.get(dataset_name)
	factory = getattr(D, data["factory"])
	args = data["args"]
	# for COCODataset, we want to remove images without annotations
	# during training
	if data["factory"] == "COCODataset":
	args["remove_images_without_annotations"] = is_train
	args["transforms"] = transforms
	args["ignore_difficult"] = cfg.DATASETS.IGNORE_DIFFICULT
	# make dataset from factory
	dataset = factory(**args)
	datasets.append(dataset)

	# for testing, return a list of datasets
	if not is_train:
	return datasets

	# for training, concatenate all datasets into a single one
	dataset = datasets[0]
	if len(datasets) > 1:
	dataset = D.MixDataset(datasets, cfg.DATASETS.RATIOS)
	# dataset = D.ConcatDataset(datasets)

	return [dataset]


	def make_data_sampler(dataset, shuffle, distributed):
	if distributed:
	return samplers.DistributedSampler(dataset, shuffle=shuffle)
	if shuffle:
	sampler = torch.utils.data.sampler.RandomSampler(dataset)
	else:
	sampler = torch.utils.data.sampler.SequentialSampler(dataset)
	return sampler


	def _quantize(x, bins):
	bins = sorted(bins.copy())
	quantized = list(map(lambda y: bisect.bisect_right(bins, y), x))
	return quantized


	def _compute_aspect_ratios(dataset):
	aspect_ratios = []
	for i in range(len(dataset)):
	img_info = dataset.get_img_info(i)
	aspect_ratio = float(img_info["height"]) / float(img_info["width"])
	aspect_ratios.append(aspect_ratio)
	return aspect_ratios


	def make_batch_data_sampler(
	dataset, sampler, aspect_grouping, images_per_batch, num_iters=None, start_iter=0
	):
	if aspect_grouping:
	if not isinstance(aspect_grouping, (list, tuple)):
	aspect_grouping = [aspect_grouping]
	aspect_ratios = _compute_aspect_ratios(dataset)
	group_ids = _quantize(aspect_ratios, aspect_grouping)
	batch_sampler = samplers.GroupedBatchSampler(
	sampler, group_ids, images_per_batch, drop_uneven=False
	)
	else:
	batch_sampler = torch.utils.data.sampler.BatchSampler(
	sampler, images_per_batch, drop_last=False
	)
	if num_iters is not None:
	batch_sampler = samplers.IterationBasedBatchSampler(batch_sampler, num_iters, start_iter)
	return batch_sampler


	def make_data_loader(cfg, is_train=True, is_distributed=False, start_iter=0):
	num_gpus = get_world_size()
	if is_train:
	images_per_batch = cfg.SOLVER.IMS_PER_BATCH
	assert (
	images_per_batch % num_gpus == 0
	), "SOLVER.IMS_PER_BATCH ({}) must be divisible by the number "
	"of GPUs ({}) used.".format(images_per_batch, num_gpus)
	images_per_gpu = images_per_batch // num_gpus
	shuffle = True
	num_iters = cfg.SOLVER.MAX_ITER
	else:
	images_per_batch = cfg.TEST.IMS_PER_BATCH
	assert (
	images_per_batch % num_gpus == 0
	), "TEST.IMS_PER_BATCH ({}) must be divisible by the number "
	"of GPUs ({}) used.".format(images_per_batch, num_gpus)
	images_per_gpu = images_per_batch // num_gpus
	shuffle = False if not is_distributed else True
	num_iters = None
	start_iter = 0

	if images_per_gpu > 1:
	logger = logging.getLogger(__name__)
	logger.warning(
	"When using more than one image per GPU you may encounter "
	"an out-of-memory (OOM) error if your GPU does not have "
	"sufficient memory. If this happens, you can reduce "
	"SOLVER.IMS_PER_BATCH (for training) or "
	"TEST.IMS_PER_BATCH (for inference). For training, you must "
	"also adjust the learning rate and schedule length according "
	"to the linear scaling rule. See for example: "
	"https://github.com/facebookresearch/Detectron/blob/master/configs/getting_started/tutorial_1gpu_e2e_faster_rcnn_R-50-FPN.yaml#L14"
	)

	# group images which have similar aspect ratio. In this case, we only
	# group in two cases: those with width / height > 1, and the other way around,
	# but the code supports more general grouping strategy
	aspect_grouping = [1] if cfg.DATALOADER.ASPECT_RATIO_GROUPING else []

	paths_catalog = import_file(
	"maskrcnn_benchmark.config.paths_catalog", cfg.PATHS_CATALOG, True
	)
	DatasetCatalog = paths_catalog.DatasetCatalog
	dataset_list = cfg.DATASETS.TRAIN if is_train else cfg.DATASETS.TEST

	transforms = build_transforms(cfg, is_train)
	datasets = build_dataset(cfg,dataset_list, transforms, DatasetCatalog, is_train)

	data_loaders = []
	for dataset in datasets:
	'''
	for i in range(20):
	a=dataset[i]
	ipdb.set_trace()
	'''
	sampler = make_data_sampler(dataset, shuffle, is_distributed)
	batch_sampler = make_batch_data_sampler(
	dataset, sampler, aspect_grouping, images_per_gpu, num_iters, start_iter
	)
	collator = BatchCollator(cfg.DATALOADER.SIZE_DIVISIBILITY)
	num_workers = cfg.DATALOADER.NUM_WORKERS
	data_loader = torch.utils.data.DataLoader(
	dataset,
	num_workers=num_workers,
	batch_sampler=batch_sampler,
	collate_fn=collator,
	)
	data_loaders.append(data_loader)
	if is_train:
	# during training, a single (possibly concatenated) data_loader is returned
	assert len(data_loaders) == 1
	return data_loaders[0]
	return data_loaders