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# Copyright (c) Facebook, Inc. and its affiliates. | |
import io | |
import numpy as np | |
import os | |
from dataclasses import dataclass | |
from functools import reduce | |
from operator import mul | |
from typing import BinaryIO, Dict, Optional, Tuple | |
import torch | |
from detectron2.utils.comm import gather, get_rank | |
from detectron2.utils.file_io import PathManager | |
class SizeData: | |
dtype: str | |
shape: Tuple[int] | |
def _calculate_record_field_size_b(data_schema: Dict[str, SizeData], field_name: str) -> int: | |
schema = data_schema[field_name] | |
element_size_b = np.dtype(schema.dtype).itemsize | |
record_field_size_b = reduce(mul, schema.shape) * element_size_b | |
return record_field_size_b | |
def _calculate_record_size_b(data_schema: Dict[str, SizeData]) -> int: | |
record_size_b = 0 | |
for field_name in data_schema: | |
record_field_size_b = _calculate_record_field_size_b(data_schema, field_name) | |
record_size_b += record_field_size_b | |
return record_size_b | |
def _calculate_record_field_sizes_b(data_schema: Dict[str, SizeData]) -> Dict[str, int]: | |
field_sizes_b = {} | |
for field_name in data_schema: | |
field_sizes_b[field_name] = _calculate_record_field_size_b(data_schema, field_name) | |
return field_sizes_b | |
class SingleProcessTensorStorage: | |
""" | |
Compact tensor storage to keep tensor data of predefined size and type. | |
""" | |
def __init__(self, data_schema: Dict[str, SizeData], storage_impl: BinaryIO): | |
""" | |
Construct tensor storage based on information on data shape and size. | |
Internally uses numpy to interpret the type specification. | |
The storage must support operations `seek(offset, whence=os.SEEK_SET)` and | |
`read(size)` to be able to perform the `get` operation. | |
The storage must support operation `write(bytes)` to be able to perform | |
the `put` operation. | |
Args: | |
data_schema (dict: str -> SizeData): dictionary which maps tensor name | |
to its size data (shape and data type), e.g. | |
``` | |
{ | |
"coarse_segm": SizeData(dtype="float32", shape=(112, 112)), | |
"embedding": SizeData(dtype="float32", shape=(16, 112, 112)), | |
} | |
``` | |
storage_impl (BinaryIO): io instance that handles file-like seek, read | |
and write operations, e.g. a file handle or a memory buffer like io.BytesIO | |
""" | |
self.data_schema = data_schema | |
self.record_size_b = _calculate_record_size_b(data_schema) | |
self.record_field_sizes_b = _calculate_record_field_sizes_b(data_schema) | |
self.storage_impl = storage_impl | |
self.next_record_id = 0 | |
def get(self, record_id: int) -> Dict[str, torch.Tensor]: | |
""" | |
Load tensors from the storage by record ID | |
Args: | |
record_id (int): Record ID, for which to load the data | |
Return: | |
dict: str -> tensor: tensor name mapped to tensor data, recorded under the provided ID | |
""" | |
self.storage_impl.seek(record_id * self.record_size_b, os.SEEK_SET) | |
data_bytes = self.storage_impl.read(self.record_size_b) | |
assert len(data_bytes) == self.record_size_b, ( | |
f"Expected data size {self.record_size_b} B could not be read: " | |
f"got {len(data_bytes)} B" | |
) | |
record = {} | |
cur_idx = 0 | |
# it's important to read and write in the same order | |
for field_name in sorted(self.data_schema): | |
schema = self.data_schema[field_name] | |
field_size_b = self.record_field_sizes_b[field_name] | |
chunk = data_bytes[cur_idx : cur_idx + field_size_b] | |
data_np = np.frombuffer( | |
chunk, dtype=schema.dtype, count=reduce(mul, schema.shape) | |
).reshape(schema.shape) | |
record[field_name] = torch.from_numpy(data_np) | |
cur_idx += field_size_b | |
return record | |
def put(self, data: Dict[str, torch.Tensor]) -> int: | |
""" | |
Store tensors in the storage | |
Args: | |
data (dict: str -> tensor): data to store, a dictionary which maps | |
tensor names into tensors; tensor shapes must match those specified | |
in data schema. | |
Return: | |
int: record ID, under which the data is stored | |
""" | |
# it's important to read and write in the same order | |
for field_name in sorted(self.data_schema): | |
assert ( | |
field_name in data | |
), f"Field '{field_name}' not present in data: data keys are {data.keys()}" | |
value = data[field_name] | |
assert value.shape == self.data_schema[field_name].shape, ( | |
f"Mismatched tensor shapes for field '{field_name}': " | |
f"expected {self.data_schema[field_name].shape}, got {value.shape}" | |
) | |
data_bytes = value.cpu().numpy().tobytes() | |
assert len(data_bytes) == self.record_field_sizes_b[field_name], ( | |
f"Expected field {field_name} to be of size " | |
f"{self.record_field_sizes_b[field_name]} B, got {len(data_bytes)} B" | |
) | |
self.storage_impl.write(data_bytes) | |
record_id = self.next_record_id | |
self.next_record_id += 1 | |
return record_id | |
class SingleProcessFileTensorStorage(SingleProcessTensorStorage): | |
""" | |
Implementation of a single process tensor storage which stores data in a file | |
""" | |
def __init__(self, data_schema: Dict[str, SizeData], fpath: str, mode: str): | |
self.fpath = fpath | |
assert "b" in mode, f"Tensor storage should be opened in binary mode, got '{mode}'" | |
if "w" in mode: | |
# pyre-fixme[6]: For 2nd argument expected `Union[typing_extensions.Liter... | |
file_h = PathManager.open(fpath, mode) | |
elif "r" in mode: | |
local_fpath = PathManager.get_local_path(fpath) | |
file_h = open(local_fpath, mode) | |
else: | |
raise ValueError(f"Unsupported file mode {mode}, supported modes: rb, wb") | |
super().__init__(data_schema, file_h) # pyre-ignore[6] | |
class SingleProcessRamTensorStorage(SingleProcessTensorStorage): | |
""" | |
Implementation of a single process tensor storage which stores data in RAM | |
""" | |
def __init__(self, data_schema: Dict[str, SizeData], buf: io.BytesIO): | |
super().__init__(data_schema, buf) | |
class MultiProcessTensorStorage: | |
""" | |
Representation of a set of tensor storages created by individual processes, | |
allows to access those storages from a single owner process. The storages | |
should either be shared or broadcasted to the owner process. | |
The processes are identified by their rank, data is uniquely defined by | |
the rank of the process and the record ID. | |
""" | |
def __init__(self, rank_to_storage: Dict[int, SingleProcessTensorStorage]): | |
self.rank_to_storage = rank_to_storage | |
def get(self, rank: int, record_id: int) -> Dict[str, torch.Tensor]: | |
storage = self.rank_to_storage[rank] | |
return storage.get(record_id) | |
def put(self, rank: int, data: Dict[str, torch.Tensor]) -> int: | |
storage = self.rank_to_storage[rank] | |
return storage.put(data) | |
class MultiProcessFileTensorStorage(MultiProcessTensorStorage): | |
def __init__(self, data_schema: Dict[str, SizeData], rank_to_fpath: Dict[int, str], mode: str): | |
rank_to_storage = { | |
rank: SingleProcessFileTensorStorage(data_schema, fpath, mode) | |
for rank, fpath in rank_to_fpath.items() | |
} | |
super().__init__(rank_to_storage) # pyre-ignore[6] | |
class MultiProcessRamTensorStorage(MultiProcessTensorStorage): | |
def __init__(self, data_schema: Dict[str, SizeData], rank_to_buffer: Dict[int, io.BytesIO]): | |
rank_to_storage = { | |
rank: SingleProcessRamTensorStorage(data_schema, buf) | |
for rank, buf in rank_to_buffer.items() | |
} | |
super().__init__(rank_to_storage) # pyre-ignore[6] | |
def _ram_storage_gather( | |
storage: SingleProcessRamTensorStorage, dst_rank: int = 0 | |
) -> Optional[MultiProcessRamTensorStorage]: | |
storage.storage_impl.seek(0, os.SEEK_SET) | |
# TODO: overhead, pickling a bytes object, can just pass bytes in a tensor directly | |
# see detectron2/utils.comm.py | |
data_list = gather(storage.storage_impl.read(), dst=dst_rank) | |
if get_rank() != dst_rank: | |
return None | |
rank_to_buffer = {i: io.BytesIO(data_list[i]) for i in range(len(data_list))} | |
multiprocess_storage = MultiProcessRamTensorStorage(storage.data_schema, rank_to_buffer) | |
return multiprocess_storage | |
def _file_storage_gather( | |
storage: SingleProcessFileTensorStorage, | |
dst_rank: int = 0, | |
mode: str = "rb", | |
) -> Optional[MultiProcessFileTensorStorage]: | |
storage.storage_impl.close() | |
fpath_list = gather(storage.fpath, dst=dst_rank) | |
if get_rank() != dst_rank: | |
return None | |
rank_to_fpath = {i: fpath_list[i] for i in range(len(fpath_list))} | |
return MultiProcessFileTensorStorage(storage.data_schema, rank_to_fpath, mode) | |
def storage_gather( | |
storage: SingleProcessTensorStorage, dst_rank: int = 0 | |
) -> Optional[MultiProcessTensorStorage]: | |
if isinstance(storage, SingleProcessRamTensorStorage): | |
return _ram_storage_gather(storage, dst_rank) | |
elif isinstance(storage, SingleProcessFileTensorStorage): | |
return _file_storage_gather(storage, dst_rank) | |
raise Exception(f"Unsupported storage for gather operation: {storage}") | |