Source code for mindspore.train.dataset_helper

# Copyright 2020 Huawei Technologies Co., Ltd
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"""Dataset help for minddata dataset"""
from mindspore._checkparam import check_bool
from .. import context
from .parallel_utils import ParallelMode
from ._utils import _exec_datagraph, _get_types_and_shapes, _to_tensor, \
    _construct_tensor_list, _to_full_shapes, _to_full_tensor
from ..nn.wrap import GetNextSingleOp
from ..parallel._utils import _get_device_num, _get_global_rank, _get_parallel_mode


[docs]class DatasetHelper: """ Help function to use the Minddata dataset. According to different context, change the iter of dataset, to use the same for loop in different context. Note: The iter of DatasetHelper will give one epoch data. Args: dataset (DataSet): The dataset. dataset_sink_mode (bool): If true use GetNext to fetch the data, or else feed the data from host. Default: True. Examples: >>> dataset_helper = DatasetHelper(dataset) >>> for inputs in dataset_helper: >>> outputs = network(*inputs) """ def __init__(self, dataset, dataset_sink_mode=True): check_bool(dataset_sink_mode) iterclass = _DatasetIterGE if not dataset_sink_mode: iterclass = _DatasetIterFeed elif not context.get_context("enable_ge"): if context.get_context("enable_loop_sink"): iterclass = _DatasetIterMSLoopSink else: iterclass = _DatasetIterMS self.iter = iterclass(dataset) def __iter__(self): return self.iter.__iter__() # A temp solution for loop sink. Delete later
[docs] def types_shapes(self): """Get the types and shapes from dataset on current config.""" return self.iter.types_shapes()
[docs] def loop_size(self): """Get loop_size for every iteration.""" return self.iter.loop_size
class _DatasetIter: """Base iter for dataset help""" def __init__(self, dataset): self.loop_size = 1 if not hasattr(dataset, '__ME_INITED__'): if not hasattr(dataset, '__loop_size__'): self.loop_size = dataset.get_dataset_size() else: self.loop_size = dataset.__loop_size__ dataset.__ME_INITED__ = _exec_datagraph(dataset, self.loop_size).queue_name self.ind = 0 self.dataset = dataset dataset_types, dataset_shapes = _get_types_and_shapes(dataset) self.dataset_types, self.dataset_shapes = dataset_types, dataset_shapes # for self._parallel_mode equal to semi_auto_parallel or auto_parallel, use a complete tensor to # compile, and slice tensor to run. The batch dimension of tensors for compile is device_number # times the batch dimension of tensors for run if _get_parallel_mode() in (ParallelMode.SEMI_AUTO_PARALLEL, ParallelMode.AUTO_PARALLEL): device_num = _get_device_num() dataset_shapes = _to_full_shapes(dataset_shapes, device_num) def __iter__(self): self.ind = 0 return self def __next__(self): if self.ind >= self.loop_count: raise StopIteration() self.ind += 1 return self.op() def types_shapes(self): return self.dataset_types, self.dataset_shapes def get_loop_count(self, dataset): loop_count = 1 if hasattr(dataset, '__loop_size__'): loop_size = dataset.__loop_size__ if dataset.get_dataset_size() % loop_size != 0: raise ValueError(f'Dataset size {dataset.get_dataset_size()} and ' f'loop_size {loop_size} are not matched.') loop_count = int(dataset.get_dataset_size()/loop_size) return loop_count class _DatasetIterMSLoopSink(_DatasetIter): """Iter for context (enable_loop_sink=True)""" def __init__(self, dataset): super(_DatasetIterMSLoopSink, self).__init__(dataset) self.loop_count = self.get_loop_count(dataset) def op(): return tuple() self.op = op def types_shapes(self): parallel_mode = _get_parallel_mode() if parallel_mode in (ParallelMode.SEMI_AUTO_PARALLEL, ParallelMode.AUTO_PARALLEL): batch_expand_num = _get_device_num() self.dataset_shapes = _to_full_shapes(self.dataset_shapes, batch_expand_num) return self.dataset_types, self.dataset_shapes class _DatasetIterMS(_DatasetIter): """Iter for context (enable_loop_sink=False)""" def __init__(self, dataset): super(_DatasetIterMS, self).__init__(dataset) self.loop_count = dataset.get_dataset_size() self.loop_size = 1 queue_name = dataset.__ME_INITED__ self.op = GetNextSingleOp(self.dataset_types, self.dataset_shapes, queue_name) class _DatasetIterGE(_DatasetIter): """Iter for ge""" def __init__(self, dataset): super(_DatasetIterGE, self).__init__(dataset) self.loop_count = self.get_loop_count(dataset) parallel_mode = _get_parallel_mode() self.need_to_full = parallel_mode in (ParallelMode.SEMI_AUTO_PARALLEL, ParallelMode.AUTO_PARALLEL) batch_expand_num = 1 if self.need_to_full: batch_expand_num = _get_device_num() tensor_list_run = _construct_tensor_list(self.dataset_types, self.dataset_shapes, batch_expand_num) def op(): return tensor_list_run self.op = op class _DatasetIterFeed: """Iter for feed data""" def __init__(self, dataset): self.dataset = dataset self.device_num = _get_device_num() self.global_rank = _get_global_rank() self.repeat_count = dataset.get_repeat_count() self.repeat_ind = 0 self.loop_count = dataset.get_dataset_size() self.ind = 0 parallel_mode = context.get_auto_parallel_context("parallel_mode") self.need_to_full = parallel_mode in (ParallelMode.SEMI_AUTO_PARALLEL, ParallelMode.AUTO_PARALLEL) def __iter__(self): if self.repeat_ind % self.repeat_count == 0: self.iter = self.dataset.__iter__() self.repeat_ind += 1 self.ind = 0 return self def __next__(self): if self.ind >= self.loop_count: raise StopIteration() self.ind += 1 data = self.iter.__next__() if self.need_to_full: return _to_full_tensor(data, self.device_num, self.global_rank) return _to_tensor(data)