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Source code for pytorch_lightning.loops.dataloader.evaluation_loop

# Copyright The PyTorch Lightning team.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#     http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import os
import shutil
import sys
from collections import ChainMap, OrderedDict
from typing import Any, Iterable, List, Optional, Sequence, Tuple, Type, Union

from lightning_utilities.core.apply_func import apply_to_collection
from torch import Tensor
from torch.utils.data.dataloader import DataLoader

import pytorch_lightning as pl
from pytorch_lightning.accelerators import CUDAAccelerator
from pytorch_lightning.callbacks.progress.rich_progress import _RICH_AVAILABLE
from pytorch_lightning.loops.dataloader import DataLoaderLoop
from pytorch_lightning.loops.epoch import EvaluationEpochLoop
from pytorch_lightning.loops.utilities import _set_sampler_epoch
from pytorch_lightning.trainer.connectors.logger_connector.result import _OUT_DICT, _ResultCollection
from pytorch_lightning.trainer.states import TrainerFn
from pytorch_lightning.utilities.exceptions import MisconfigurationException
from pytorch_lightning.utilities.fetching import (
    AbstractDataFetcher,
    DataFetcher,
    DataLoaderIterDataFetcher,
    InterBatchParallelDataFetcher,
)
from pytorch_lightning.utilities.rank_zero import rank_zero_warn
from pytorch_lightning.utilities.signature_utils import is_param_in_hook_signature
from pytorch_lightning.utilities.types import EPOCH_OUTPUT

if _RICH_AVAILABLE:
    from rich import get_console
    from rich.table import Column, Table


[docs]class EvaluationLoop(DataLoaderLoop): """Loops over all dataloaders for evaluation.""" def __init__(self, verbose: bool = True) -> None: super().__init__() self.epoch_loop = EvaluationEpochLoop() self.verbose = verbose self._results = _ResultCollection(training=False) self._outputs: List[EPOCH_OUTPUT] = [] self._logged_outputs: List[_OUT_DICT] = [] self._max_batches: List[Union[int, float]] = [] self._has_run: bool = False self._data_fetcher: Optional[AbstractDataFetcher] = None @property def num_dataloaders(self) -> int: """Returns the total number of dataloaders.""" # case where user does: # return dl1, dl2 dataloaders = self.dataloaders length = len(dataloaders) if length > 0 and isinstance(dataloaders[0], (list, tuple)): length = len(dataloaders[0]) return length @property def dataloaders(self) -> Sequence[DataLoader]: """Returns the validation or test dataloaders.""" dataloaders = self.trainer.test_dataloaders if self.trainer.testing else self.trainer.val_dataloaders if dataloaders is None: return [] return dataloaders @property def prefetch_batches(self) -> int: batches = self.trainer.num_test_batches if self.trainer.testing else self.trainer.num_val_batches is_unsized = batches[self.current_dataloader_idx] == float("inf") inter_batch_parallelism = os.getenv("PL_INTER_BATCH_PARALLELISM", "0") == "1" return 1 if is_unsized or inter_batch_parallelism else 0
[docs] def connect(self, epoch_loop: EvaluationEpochLoop) -> None: # type: ignore[override] """Connect the evaluation epoch loop with this loop.""" self.epoch_loop = epoch_loop
@property def done(self) -> bool: """Returns whether all dataloaders are processed or evaluation should be skipped altogether.""" return super().done or self.skip @property def skip(self) -> bool: """Returns whether the evaluation should be skipped.""" max_batches = self._get_max_batches() return sum(max_batches) == 0
[docs] def reset(self) -> None: """Resets the internal state of the loop.""" self._max_batches = self._get_max_batches() # bookkeeping self._outputs = [] self._logged_outputs = [] if isinstance(self._max_batches, int): self._max_batches = [self._max_batches] * len(self.dataloaders) super().reset() # when restarting, if we are running `validate` or `test` twice, since there's no concept of `max_epochs` we # need to reset the current state when the loop has finished running if self.done and self.trainer.state.fn != TrainerFn.FITTING: self.dataloader_progress.reset_on_run()
[docs] def on_skip(self) -> List: return []
[docs] def on_run_start(self, *args: Any, **kwargs: Any) -> None: """Runs the ``_on_evaluation_model_eval``, ``_on_evaluation_start`` and ``_on_evaluation_epoch_start`` hooks.""" data_fetcher_cls = _select_data_fetcher_type(self.trainer) self._data_fetcher = data_fetcher_cls(prefetch_batches=self.prefetch_batches) # hook self._on_evaluation_model_eval() self.trainer.lightning_module.zero_grad() self._on_evaluation_start() self._on_evaluation_epoch_start()
[docs] def advance(self, *args: Any, **kwargs: Any) -> None: """Performs evaluation on one single dataloader.""" dataloader_idx = self.current_dataloader_idx dataloader = self.current_dataloader def batch_to_device(batch: Any) -> Any: batch = self.trainer.lightning_module._on_before_batch_transfer(batch, dataloader_idx=dataloader_idx) batch = self.trainer._call_strategy_hook("batch_to_device", batch, dataloader_idx=dataloader_idx) return batch assert self._data_fetcher is not None self._data_fetcher.setup(dataloader, batch_to_device=batch_to_device) dl_max_batches = self._max_batches[dataloader_idx] kwargs = OrderedDict() if self.num_dataloaders > 1: kwargs["dataloader_idx"] = dataloader_idx dl_outputs = self.epoch_loop.run(self._data_fetcher, dl_max_batches, kwargs) # store batch level output per dataloader self._outputs.append(dl_outputs) if not self.trainer.sanity_checking: # indicate the loop has run self._has_run = True
[docs] def on_advance_start(self, *args: Any, **kwargs: Any) -> None: if self.current_dataloader is not None: _set_sampler_epoch(self.current_dataloader, self.trainer.fit_loop.epoch_progress.current.processed) super().on_advance_start(*args, **kwargs)
[docs] def on_advance_end(self) -> None: self.trainer._logger_connector.epoch_end_reached() self._logged_outputs.append(self.trainer._logger_connector.update_eval_epoch_metrics()) super().on_advance_end()
[docs] def on_run_end(self) -> List[_OUT_DICT]: """Runs the ``_on_evaluation_epoch_end`` hook.""" # if `done` returned True before any iterations were done, this won't have been called in `on_advance_end` self.trainer._logger_connector.epoch_end_reached() # hook self._evaluation_epoch_end(self._outputs) self._outputs = [] # free memory # hook self._on_evaluation_epoch_end() logged_outputs, self._logged_outputs = self._logged_outputs, [] # free memory # include any logged outputs on epoch_end epoch_end_logged_outputs = self.trainer._logger_connector.update_eval_epoch_metrics() all_logged_outputs = dict(ChainMap(*logged_outputs)) # list[dict] -> dict all_logged_outputs.update(epoch_end_logged_outputs) for dl_outputs in logged_outputs: dl_outputs.update(epoch_end_logged_outputs) # log metrics self.trainer._logger_connector.log_eval_end_metrics(all_logged_outputs) # hook self._on_evaluation_end() # enable train mode again self._on_evaluation_model_train() if self.verbose and self.trainer.is_global_zero: assert self.trainer.state.stage is not None self._print_results(logged_outputs, self.trainer.state.stage) return logged_outputs
[docs] def teardown(self) -> None: if self._data_fetcher is not None: self._data_fetcher.teardown() self._data_fetcher = None self._results.cpu() self.epoch_loop.teardown()
def _get_max_batches(self) -> List[Union[int, float]]: """Returns the max number of batches for each dataloader.""" if self.trainer.testing: max_batches = self.trainer.num_test_batches else: if self.trainer.sanity_checking: max_batches = self.trainer.num_sanity_val_batches else: max_batches = self.trainer.num_val_batches return max_batches def _reload_evaluation_dataloaders(self) -> None: """Reloads dataloaders if necessary.""" dataloaders = None if self.trainer.testing: self.trainer.reset_test_dataloader() dataloaders = self.trainer.test_dataloaders elif self.trainer.val_dataloaders is None or self.trainer._data_connector._should_reload_val_dl: self.trainer.reset_val_dataloader() dataloaders = self.trainer.val_dataloaders if dataloaders is not None: self.epoch_loop._reset_dl_batch_idx(len(dataloaders)) def _on_evaluation_start(self, *args: Any, **kwargs: Any) -> None: """Runs ``on_{validation/test}_start`` hooks.""" assert self._results is not None self._results.to(device=self.trainer.lightning_module.device) hook_name = "on_test_start" if self.trainer.testing else "on_validation_start" self.trainer._call_callback_hooks(hook_name, *args, **kwargs) self.trainer._call_lightning_module_hook(hook_name, *args, **kwargs) self.trainer._call_strategy_hook(hook_name, *args, **kwargs) def _on_evaluation_model_eval(self) -> None: """Sets model to eval mode.""" hook_name = "on_test_model_eval" if self.trainer.testing else "on_validation_model_eval" self.trainer._call_lightning_module_hook(hook_name) def _on_evaluation_model_train(self) -> None: """Sets model to train mode.""" hook_name = "on_test_model_train" if self.trainer.testing else "on_validation_model_train" self.trainer._call_lightning_module_hook(hook_name) def _on_evaluation_end(self, *args: Any, **kwargs: Any) -> None: """Runs ``on_{validation/test}_end`` hook.""" hook_name = "on_test_end" if self.trainer.testing else "on_validation_end" self.trainer._call_callback_hooks(hook_name, *args, **kwargs) self.trainer._call_lightning_module_hook(hook_name, *args, **kwargs) self.trainer._call_strategy_hook(hook_name, *args, **kwargs) # reset the logger connector state self.trainer._logger_connector.reset_results() def _on_evaluation_epoch_start(self, *args: Any, **kwargs: Any) -> None: """Runs the ``on_{validation/test}_epoch_start`` hooks.""" self.trainer._logger_connector.on_epoch_start() hook_name = "on_test_epoch_start" if self.trainer.testing else "on_validation_epoch_start" self.trainer._call_callback_hooks(hook_name, *args, **kwargs) self.trainer._call_lightning_module_hook(hook_name, *args, **kwargs) def _evaluation_epoch_end(self, outputs: List[EPOCH_OUTPUT]) -> None: """Runs ``{validation/test}_epoch_end``""" self.trainer._logger_connector._evaluation_epoch_end() # with a single dataloader don't pass a 2D list output_or_outputs: Union[EPOCH_OUTPUT, List[EPOCH_OUTPUT]] = ( outputs[0] if len(outputs) > 0 and self.num_dataloaders == 1 else outputs ) # call the model epoch end hook_name = "test_epoch_end" if self.trainer.testing else "validation_epoch_end" self.trainer._call_lightning_module_hook(hook_name, output_or_outputs) def _on_evaluation_epoch_end(self) -> None: """Runs ``on_{validation/test}_epoch_end`` hook.""" hook_name = "on_test_epoch_end" if self.trainer.testing else "on_validation_epoch_end" self.trainer._call_callback_hooks(hook_name) self.trainer._call_lightning_module_hook(hook_name) self.trainer._logger_connector.on_epoch_end() @staticmethod def _get_keys(data: dict) -> Iterable[Tuple[str, ...]]: for k, v in data.items(): if isinstance(v, dict): for new_key in apply_to_collection(v, dict, EvaluationLoop._get_keys): yield (k, *new_key) # this need to be in parenthesis for older python versions else: yield k, @staticmethod def _find_value(data: dict, target: Iterable[str]) -> Optional[Any]: target_start, *rest = target if target_start not in data: return None result = data[target_start] if not rest: return result return EvaluationLoop._find_value(result, rest) @staticmethod def _print_results(results: List[_OUT_DICT], stage: str) -> None: # remove the dl idx suffix results = [{k.split("/dataloader_idx_")[0]: v for k, v in result.items()} for result in results] metrics_paths = {k for keys in apply_to_collection(results, dict, EvaluationLoop._get_keys) for k in keys} if not metrics_paths: return metrics_strs = [":".join(metric) for metric in metrics_paths] # sort both lists based on metrics_strs metrics_strs, metrics_paths = zip(*sorted(zip(metrics_strs, metrics_paths))) headers = [f"DataLoader {i}" for i in range(len(results))] # fallback is useful for testing of printed output term_size = shutil.get_terminal_size(fallback=(120, 30)).columns or 120 max_length = int(min(max(len(max(metrics_strs, key=len)), len(max(headers, key=len)), 25), term_size / 2)) rows: List[List[Any]] = [[] for _ in metrics_paths] for result in results: for metric, row in zip(metrics_paths, rows): val = EvaluationLoop._find_value(result, metric) if val is not None: if isinstance(val, Tensor): val = val.item() if val.numel() == 1 else val.tolist() row.append(f"{val}") else: row.append(" ") # keep one column with max length for metrics num_cols = int((term_size - max_length) / max_length) for i in range(0, len(headers), num_cols): table_headers = headers[i : (i + num_cols)] table_rows = [row[i : (i + num_cols)] for row in rows] table_headers.insert(0, f"{stage} Metric".capitalize()) if _RICH_AVAILABLE: columns = [Column(h, justify="center", style="magenta", width=max_length) for h in table_headers] columns[0].style = "cyan" table = Table(*columns) for metric, row in zip(metrics_strs, table_rows): row.insert(0, metric) table.add_row(*row) console = get_console() console.print(table) else: row_format = f"{{:^{max_length}}}" * len(table_headers) half_term_size = int(term_size / 2) try: # some terminals do not support this character if sys.stdout.encoding is not None: "─".encode(sys.stdout.encoding) except UnicodeEncodeError: bar_character = "-" else: bar_character = "─" bar = bar_character * term_size lines = [bar, row_format.format(*table_headers).rstrip(), bar] for metric, row in zip(metrics_strs, table_rows): # deal with column overflow if len(metric) > half_term_size: while len(metric) > half_term_size: row_metric = metric[:half_term_size] metric = metric[half_term_size:] lines.append(row_format.format(row_metric, *row).rstrip()) lines.append(row_format.format(metric, " ").rstrip()) else: lines.append(row_format.format(metric, *row).rstrip()) lines.append(bar) print(os.linesep.join(lines))
def _select_data_fetcher_type(trainer: "pl.Trainer") -> Type[AbstractDataFetcher]: lightning_module = trainer.lightning_module step_fx_name = "test_step" if trainer.testing else "validation_step" step_fx = getattr(lightning_module, step_fx_name) if is_param_in_hook_signature(step_fx, "dataloader_iter", explicit=True): rank_zero_warn( f"Found `dataloader_iter` argument in the `{step_fx_name}`. Note that the support for " "this signature is experimental and the behavior is subject to change." ) return DataLoaderIterDataFetcher elif os.getenv("PL_INTER_BATCH_PARALLELISM", "0") == "1": if not isinstance(trainer.accelerator, CUDAAccelerator): raise MisconfigurationException("Inter batch parallelism is available only when using Nvidia GPUs.") return InterBatchParallelDataFetcher return DataFetcher

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