mirror of https://github.com/hpcaitech/ColossalAI
254 lines
9.4 KiB
Python
254 lines
9.4 KiB
Python
from collections import deque
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from typing import Deque, Dict, Iterable, List, Optional, Set, Tuple
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import torch
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import torch.distributed as dist
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from torch.distributed import ProcessGroup
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from colossalai.utils import get_current_device
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from .chunk import Chunk, ChunkFullError, TensorState
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class ChunkManager:
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"""
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A manager class to manipulate the tensors in chunks.
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Args:
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chunk_configuration (Dict[int, Dict]): the configuration dictionary of this chunk manager.
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init_device (torch.device): optional, the device on which the chunk is initialized. The default is None.
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"""
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def __init__(self, chunk_configuration, init_device: Optional[torch.device] = None) -> None:
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self.device = init_device or get_current_device()
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self.dp_degree_chunk_size_dict: Dict[int, int] = dict()
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self.kwargs_config = chunk_configuration
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for k, v in self.kwargs_config.items():
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self.dp_degree_chunk_size_dict[k] = v.pop('chunk_size')
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v['init_device'] = self.device
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self.chunk_groups: Dict[str, Deque[Chunk]] = dict()
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self.tensor_chunk_map: Dict[torch.Tensor, Chunk] = dict()
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self.accessed_chunks: Set[Chunk] = set()
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self.accessed_mem: int = 0
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self.total_mem: Dict[str, int] = {'cpu': 0, 'cuda': 0}
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def register_tensor(self,
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tensor: torch.Tensor,
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group_type: str,
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config_key: int,
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process_group: ProcessGroup,
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cpu_offload: bool = False,
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pin_memory: bool = False) -> None:
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"""
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Register a tensor to the chunk manager.
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Then, the tensor should be accessed by `get_chunks`.
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Args:
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tensor: the tensor appended to the chunk
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group_type: the data type of the group.
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config_key: the key of the group's name, the size of the dp world
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cpu_offload: if True, the chunk will be closed on CPU
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pin_memory: whether the chunk is pinned in the cpu memory
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"""
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assert tensor not in self.tensor_chunk_map
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assert isinstance(tensor, torch.Tensor), "Please feed Tensor to this ChunkManager"
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assert config_key in self.dp_degree_chunk_size_dict
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chunk_size = self.dp_degree_chunk_size_dict[config_key]
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chunk_kwargs = self.kwargs_config[config_key]
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group_name = "{}_{}".format(group_type, config_key)
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chunk_group = self.__get_chunk_group(group_name)
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try:
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# append the tensor to the last chunk
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chunk_group[-1].append_tensor(tensor)
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except (IndexError, ChunkFullError):
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# the except statement will be triggered when there is no chunk or
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# the last chunk in the chunk group is full
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# this will create a new chunk and allocate this chunk to its corresponding process
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if chunk_group:
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# the chunk group is not empty
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# close the last chunk
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self.__close_one_chunk(chunk_group[-1])
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if tensor.numel() > chunk_size:
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chunk_size = tensor.numel()
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dp_size = dist.get_world_size(process_group)
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chunk_size = chunk_size + (-chunk_size % dp_size)
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chunk = Chunk(
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chunk_size=chunk_size,
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process_group=process_group,
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dtype=tensor.dtype,
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cpu_shard_init=cpu_offload,
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pin_memory=pin_memory,
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**chunk_kwargs,
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)
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chunk_group.append(chunk)
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chunk.append_tensor(tensor)
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self.__add_memory_usage(chunk.memory_usage)
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self.tensor_chunk_map[tensor] = chunk_group[-1]
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def close_all_groups(self):
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"""Close all the chunks of all groups.
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"""
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for group_name in self.chunk_groups:
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self.__close_one_chunk(self.chunk_groups[group_name][-1])
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def access_chunk(self, chunk: Chunk) -> None:
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"""Make the chunk can be used for calculation.
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"""
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if chunk in self.accessed_chunks:
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return
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self.__sub_memory_usage(chunk.memory_usage)
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if chunk.device_type == 'cpu':
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chunk.shard_move(get_current_device())
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self.__add_accessed_chunk(chunk)
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self.__add_memory_usage(chunk.memory_usage)
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def release_chunk(self, chunk: Chunk) -> None:
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"""Scatter the chunk in CUDA.
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"""
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if chunk not in self.accessed_chunks:
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return
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if chunk.can_release:
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self.__sub_memory_usage(chunk.memory_usage)
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self.__sub_accessed_chunk(chunk)
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self.__add_memory_usage(chunk.memory_usage)
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def move_chunk(self, chunk: Chunk, device: torch.device, force_copy: bool = False) -> None:
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"""Move the shard of the chunk to the target device.
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"""
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if not chunk.can_move or chunk.device_type == device.type:
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return
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self.__sub_memory_usage(chunk.memory_usage)
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chunk.shard_move(device, force_copy)
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self.__add_memory_usage(chunk.memory_usage)
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def trans_tensor_state(self, tensor: torch.Tensor, state: TensorState) -> None:
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"""Transit tensor state according to pre-defined state machine.
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"""
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chunk = self.tensor_chunk_map[tensor]
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chunk.tensor_trans_state(tensor, state)
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def reduce_chunk(self, chunk: Chunk) -> bool:
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"""Reduce or all reduce the chunk.
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"""
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if not chunk.can_reduce:
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return False
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self.__sub_memory_usage(chunk.memory_usage)
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chunk.reduce()
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self.__sub_accessed_chunk(chunk)
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self.__add_memory_usage(chunk.memory_usage)
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return True
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def fake_release_chunk(self, chunk: Chunk) -> None:
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"""Release gathered chunk in a fake mode.
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This function is used for keep-gathered chunk in the inference mode.
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"""
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assert chunk.keep_gathered
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assert chunk.tensor_state_cnter[TensorState.HOLD] == chunk.num_tensors
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self.__sub_accessed_chunk(chunk)
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def copy_tensor_to_chunk_slice(self, tensor: torch.Tensor, data: torch.Tensor) -> None:
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"""
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Copy data to the chunk.
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Args:
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tensor (torch.Tensor): the tensor used to retrieve meta information
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data (torch.Tensor): the tensor to be copied to the chunk
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"""
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chunk = self.tensor_chunk_map[tensor]
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chunk.copy_tensor_to_chunk_slice(tensor, data)
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def get_chunk(self, tensor: torch.Tensor) -> Chunk:
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"""
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Return the chunk owning the tensor.
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Args:
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tensor (torch.Tensor): a torch tensor object
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"""
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return self.tensor_chunk_map[tensor]
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def get_cuda_movable_chunks(self) -> List[Chunk]:
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"""
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Get all chunks that can be moved.
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"""
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chunk_list = []
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for chunk in self.accessed_chunks:
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if chunk.can_release:
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chunk_list.append(chunk)
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chunk_list.sort(key=lambda x: x.count_id)
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return chunk_list
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def get_chunks(self, tensors: Iterable[torch.Tensor]) -> Tuple[Chunk, ...]:
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"""
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Get all chunks owning the input tensors.
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Args:
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tensors (Iterable[torch.Tensor]): the tensors used to look for chunks
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"""
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chunks = []
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for tensor in tensors:
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chunk = self.get_chunk(tensor)
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if chunk not in chunks:
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chunks.append(chunk)
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return tuple(chunks)
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def add_extern_static_tensor(self, tensor: torch.Tensor) -> None:
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"""Add extern static tensor to chunk manager.
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Those tensors won't be managed by chunk manager, but we want to monitor memory usage of them.
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They are "static", which means their shape, dtype, device never change.
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Thus, their memory usage never changes.
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Args:
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tensor (torch.Tensor): An extern static tensor. E.g. optimizer state.
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"""
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assert tensor not in self.tensor_chunk_map
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self.total_mem[tensor.device.type] += tensor.numel() * tensor.element_size()
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def __repr__(self) -> str:
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msg = [
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'Chunk Manager Information:\n',
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'Total memory: ' + ', '.join([f'{k}={v}B' for k, v in self.total_mem.items()]) + '\n'
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]
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for group_name, group in self.chunk_groups.items():
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msg.append(f'Group {group_name}:\n')
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for i, chunk in enumerate(group):
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msg.append(f'[{i}] {chunk}\n')
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return ''.join(msg)
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def __get_chunk_group(self, group_name: str) -> Deque[Chunk]:
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"""Register a chunk group.
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"""
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if group_name not in self.chunk_groups:
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self.chunk_groups[group_name] = deque()
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return self.chunk_groups[group_name]
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def __close_one_chunk(self, chunk: Chunk):
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self.__sub_memory_usage(chunk.memory_usage)
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chunk.close_chunk()
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self.__add_memory_usage(chunk.memory_usage)
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def __sub_memory_usage(self, usage: Dict[str, int]):
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for k, v in usage.items():
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self.total_mem[k] -= v
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def __add_memory_usage(self, usage: Dict[str, int]):
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for k, v in usage.items():
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self.total_mem[k] += v
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def __add_accessed_chunk(self, chunk: Chunk):
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chunk.access_chunk()
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self.accessed_chunks.add(chunk)
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self.accessed_mem += chunk.chunk_mem
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def __sub_accessed_chunk(self, chunk: Chunk):
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chunk.release_chunk()
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self.accessed_chunks.remove(chunk)
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self.accessed_mem -= chunk.chunk_mem
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