Source code for ray.train.checkpoint

import heapq
import logging
import numbers
import os
from dataclasses import dataclass
from pathlib import Path
from typing import List, Optional, Dict, Union, Callable

from ray import cloudpickle
from ray.train.constants import TIMESTAMP, TUNE_INSTALLED, \
from ray.train.constants import TUNE_CHECKPOINT_FILE_NAME, \
from ray.train.session import TrainingResult
from ray.train.utils import construct_path
from ray.util import PublicAPI

    from ray import tune
    tune = None

MAX = "max"
MIN = "min"

logger = logging.getLogger(__name__)

[docs]@PublicAPI(stability="beta") @dataclass class CheckpointStrategy: """Configurable parameters for defining the Train checkpointing strategy. Default behavior is to persist all checkpoints to disk. If ``num_to_keep`` is set, the default retention policy is to keep the checkpoints with maximum timestamp, i.e. the most recent checkpoints. Args: num_to_keep (Optional[int]): The number of checkpoints to keep on disk for this run. If a checkpoint is persisted to disk after there are already this many checkpoints, then an existing checkpoint will be deleted. If this is ``None`` then checkpoints will not be deleted. If this is ``0`` then no checkpoints will be persisted to disk. checkpoint_score_attribute (str): The attribute that will be used to score checkpoints to determine which checkpoints should be kept on disk when there are greater than ``num_to_keep`` checkpoints. This attribute must be a key from the checkpoint dictionary which has a numerical value. checkpoint_score_order (str). Either "max" or "min". If "max", then checkpoints with highest values of ``checkpoint_score_attribute`` will be kept. If "min", then checkpoints with lowest values of ``checkpoint_score_attribute`` will be kept. """ num_to_keep: Optional[int] = None checkpoint_score_attribute: str = TIMESTAMP checkpoint_score_order: str = MAX def __post_init__(self): if self.num_to_keep is not None and self.num_to_keep < 0: raise ValueError(f"Received invalidate num_to_keep: " f"{self.num_to_keep}. " f"Must be None or non-negative integer.") if self.checkpoint_score_order not in (MAX, MIN): raise ValueError(f"checkpoint_score_order must be either " f"\"{MAX}\" or \"{MIN}\".")
class PersistedCheckpoint: def __init__(self, path, priority): self.path = path self.priority = priority def __lt__(self, other): return self.priority < other.priority def __repr__(self): return f"PersistedCheckpoint({repr(self.path)})" class CheckpointManager: """Manages checkpoint processing, writing, and loading. - A ``checkpoints`` directory is created in the ``run_dir`` and contains all the checkpoint files. The full default path will be: ~/ray_results/train_<datestring>/run_<run_id>/checkpoints/ checkpoint_<checkpoint_id> Attributes: latest_checkpoint_dir (Optional[Path]): Path to the file directory for the checkpoints from the latest run. Configured through ``start_training``. latest_checkpoint_filename (Optional[str]): Filename for the latest checkpoint. next_checkpoint_path (Optional[Path]): Path to the next checkpoint to persist from the latest run. best_checkpoint_path (Optional[Path]): Path to the best persisted checkpoint from the latest run. latest_checkpoint_id (Optional[int]): The id of the most recently saved checkpoint. latest_checkpoint (Optional[Dict]): The latest saved checkpoint. This checkpoint may not be saved to disk. """ def on_init(self): """Checkpoint code executed during BackendExecutor init.""" self.latest_checkpoint = None # Incremental unique checkpoint ID of this run. self._latest_checkpoint_id = 0 # Used for keeping top K checkpoints. self._top_persisted_checkpoints = [] # Best checkpoint altogether. # Used for exposing best_checkpoint_path. self._best_persisted_checkpoint = None def on_start_training( self, checkpoint_strategy: Optional[CheckpointStrategy], run_dir: Path, latest_checkpoint_id: Optional[int] = None, ): """Checkpoint code executed during BackendExecutor start_training.""" # Restart checkpointing. self._latest_checkpoint_id = latest_checkpoint_id if \ latest_checkpoint_id else 0 self._checkpoint_strategy = CheckpointStrategy() if \ checkpoint_strategy is None else checkpoint_strategy self.run_dir = run_dir def _process_checkpoint( self, checkpoint_results: List[TrainingResult], decode_checkpoint_fn: Callable, ) -> None: """Perform all processing for a checkpoint. """ # Get checkpoint from first worker. checkpoint = checkpoint_results[0].data # Decode checkpoint. checkpoint = decode_checkpoint_fn(checkpoint) # Store checkpoint in memory. self.latest_checkpoint = checkpoint # Write checkpoint to disk. self.write_checkpoint(checkpoint) # Increment checkpoint id. self._latest_checkpoint_id += 1 def _load_checkpoint(self, checkpoint_to_load: Optional[Union[Dict, str, Path]] ) -> Optional[Dict]: """Load the checkpoint dictionary from the input dict or path.""" if checkpoint_to_load is None: return None if isinstance(checkpoint_to_load, Dict): return checkpoint_to_load else: # Load checkpoint from path. checkpoint_path = Path(checkpoint_to_load).expanduser() if not checkpoint_path.exists(): raise ValueError(f"Checkpoint path {checkpoint_path} " f"does not exist.") with"rb") as f: return cloudpickle.load(f) def write_checkpoint(self, checkpoint: Dict): """Writes checkpoint to disk.""" num_to_keep = self._checkpoint_strategy.num_to_keep if num_to_keep == 0: # Checkpoints should not be persisted to disk. return checkpoint_score_attribute = \ self._checkpoint_strategy.checkpoint_score_attribute checkpoint_score_order = \ self._checkpoint_strategy.checkpoint_score_order if checkpoint_score_attribute not in checkpoint: raise ValueError(f"Unable to persist checkpoint for " f"checkpoint_score_attribute: " f"{checkpoint_score_attribute}. " f"Include this attribute in the call to " f"train.save_checkpoint.") checkpoint_score = checkpoint[checkpoint_score_attribute] if not isinstance(checkpoint_score, numbers.Number): raise ValueError(f"Unable to persist checkpoint for " f"checkpoint_score_attribute: " f"{checkpoint_score_attribute} with value " f"{checkpoint_score}. " f"This attribute must be numerical.") def priority(checkpoint_score_order, checkpoint_score): if checkpoint_score_order == MAX: return checkpoint_score else: return -checkpoint_score checkpoint_priority = priority(checkpoint_score_order, checkpoint_score) persisted_checkpoint = PersistedCheckpoint(self.next_checkpoint_path, checkpoint_priority) def write_to_disk(path: Path): # Get or create checkpoint dir. path.parent.mkdir(parents=True, exist_ok=True) # Write checkpoint to disk. with"wb") as f: cloudpickle.dump(checkpoint, f) logger.debug(f"Checkpoint successfully written to: " f"{path}") def remove_from_disk(path: Path): os.remove(path) if num_to_keep is None: # Keep all checkpoints. write_to_disk(self.next_checkpoint_path) elif len(self._top_persisted_checkpoints) < num_to_keep: # Keep first num_to_keep checkpoints. write_to_disk(self.next_checkpoint_path) heapq.heappush(self._top_persisted_checkpoints, persisted_checkpoint) elif (persisted_checkpoint.priority > self._top_persisted_checkpoints[0].priority): # Keep top num_to_keep checkpoints. write_to_disk(self.next_checkpoint_path) worst_checkpoint = heapq.heappushpop( self._top_persisted_checkpoints, persisted_checkpoint) worst_checkpoint_path = worst_checkpoint.path remove_from_disk(worst_checkpoint_path) logger.debug(f"Removed worst checkpoint from " f"{worst_checkpoint_path}.") else: # If the latest checkpoint has the same or lower priority, skip it. logger.debug(f"Skipping checkpoint due to low score:" f"{self.next_checkpoint_path}.") # Update single best checkpoint. if (self._best_persisted_checkpoint is None or persisted_checkpoint.priority > self._best_persisted_checkpoint.priority): # If the latest checkpoint has the same or lower priority, skip it. self._best_persisted_checkpoint = persisted_checkpoint @property def latest_checkpoint_dir(self) -> Optional[Path]: """Path to the latest checkpoint directory.""" checkpoint_dir = Path(TRAIN_CHECKPOINT_SUBDIR) return construct_path(checkpoint_dir, self.run_dir) @property def latest_checkpoint_file_name(self) -> Optional[str]: """Filename to use for the latest checkpoint.""" if self._latest_checkpoint_id > 0: return construct_checkpoint_file_name(self._latest_checkpoint_id) else: return None @property def next_checkpoint_path(self) -> Optional[Path]: """Path to the next checkpoint to persist.""" checkpoint_file = construct_checkpoint_file_name( self._latest_checkpoint_id + 1) return self.latest_checkpoint_dir.joinpath(checkpoint_file) @property def best_checkpoint_path(self) -> Optional[Path]: """Path to the best persisted checkpoint.""" if self._best_persisted_checkpoint: return self._best_persisted_checkpoint.path else: return None @property def latest_checkpoint_id(self) -> Optional[int]: """The checkpoint id of most recently saved checkpoint. If no checkpoint has been saved yet, then return None. """ checkpoint_id = self._latest_checkpoint_id if checkpoint_id == 0: return None else: return checkpoint_id class TuneCheckpointManager(CheckpointManager): def create_logdir(self, log_dir: Optional[Union[str, Path]]): # Don't create logdir when using with Tune. pass def create_run_dir(self): # Don't create run_dir when using with Tune. pass def _load_checkpoint(self, checkpoint_to_load: Optional[Union[Dict, str, Path]] ) -> Optional[Dict]: loaded_checkpoint = super()._load_checkpoint(checkpoint_to_load) if loaded_checkpoint is not None: # If the Tune trial is restarted, a new Trainer is instantiated. # However, we want the checkpoint_id to continue incrementing # from the previous run. self._latest_checkpoint_id = loaded_checkpoint[TUNE_CHECKPOINT_ID] return loaded_checkpoint def write_checkpoint(self, checkpoint: Dict): # Store the checkpoint_id in the file so that the Tune trial can be # resumed after failure or cancellation. checkpoint[TUNE_CHECKPOINT_ID] = self._latest_checkpoint_id # If inside a Tune Trainable, then checkpoint with Tune. with tune.checkpoint_dir( step=self._latest_checkpoint_id) as checkpoint_dir: path = Path(checkpoint_dir) # Use a standard file name so that we know which file to load # the checkpoint from. file_path = path.joinpath(TUNE_CHECKPOINT_FILE_NAME) with"wb") as f: cloudpickle.dump(checkpoint, f) def construct_checkpoint_file_name(checkpoint_id: int) -> str: return f"checkpoint_{checkpoint_id:06d}"