210 lines
6.8 KiB
Python
210 lines
6.8 KiB
Python
from abc import ABC
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from typing import Union, Iterable
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import torch
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from pytorch_lightning.core import memory
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from pytorch_lightning.loggers import TensorBoardLogger, LightningLoggerBase, LoggerCollection
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class TrainerLoggingMixin(ABC):
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# this is just a summary on variables used in this abstract class,
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# the proper values/initialisation should be done in child class
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current_epoch: int
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on_gpu: bool
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log_gpu_memory: ...
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logger: Union[LightningLoggerBase, bool]
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tqdm_metrics: ...
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global_step: int
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proc_rank: int
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use_dp: bool
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use_ddp2: bool
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default_save_path: str
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slurm_job_id: int
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num_gpus: int
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def configure_logger(self, logger):
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if logger is True:
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# default logger
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self.logger = TensorBoardLogger(
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save_dir=self.default_save_path,
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version=self.slurm_job_id,
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name='lightning_logs'
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)
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self.logger.rank = 0
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elif logger is False:
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self.logger = None
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else:
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if isinstance(logger, Iterable):
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self.logger = LoggerCollection(logger)
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else:
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self.logger = logger
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self.logger.rank = 0
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def log_metrics(self, metrics, grad_norm_dic, step=None):
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"""Logs the metric dict passed in.
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If `step` parameter is None and `step` key is presented is metrics,
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uses metrics["step"] as a step
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Args:
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metrics (dict): Metric values
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grad_norm_dic (dict): Gradient norms
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step (int): Step for which metrics should be logged. Default value corresponds to `self.global_step`
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"""
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# add gpu memory
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if self.on_gpu and self.log_gpu_memory:
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mem_map = memory.get_memory_profile(self.log_gpu_memory)
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metrics.update(mem_map)
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# add norms
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metrics.update(grad_norm_dic)
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# turn all tensors to scalars
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scalar_metrics = self.metrics_to_scalars(metrics)
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if "step" in scalar_metrics and step is None:
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step = scalar_metrics.pop("step")
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else:
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# added metrics by Lightning for convenience
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metrics['epoch'] = self.current_epoch
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step = step if step is not None else self.global_step
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# log actual metrics
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if self.proc_rank == 0 and self.logger is not None:
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self.logger.agg_and_log_metrics(scalar_metrics, step=step)
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self.logger.save()
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def add_tqdm_metrics(self, metrics):
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for k, v in metrics.items():
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if isinstance(v, torch.Tensor):
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v = v.item()
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self.tqdm_metrics[k] = v
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def metrics_to_scalars(self, metrics):
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new_metrics = {}
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for k, v in metrics.items():
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if isinstance(v, torch.Tensor):
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v = v.item()
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if isinstance(v, dict):
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v = self.metrics_to_scalars(v)
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new_metrics[k] = v
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return new_metrics
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def process_output(self, output, train=False):
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"""Reduces output according to the training mode.
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Separates loss from logging and tqdm metrics
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"""
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# ---------------
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# EXTRACT CALLBACK KEYS
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# ---------------
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# all keys not progress_bar or log are candidates for callbacks
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callback_metrics = {}
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for k, v in output.items():
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if k not in ['progress_bar', 'log', 'hiddens']:
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callback_metrics[k] = v
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if train and (self.use_dp or self.use_ddp2):
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num_gpus = self.num_gpus
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callback_metrics = self.reduce_distributed_output(callback_metrics, num_gpus)
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for k, v in callback_metrics.items():
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if isinstance(v, torch.Tensor):
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callback_metrics[k] = v.item()
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# ---------------
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# EXTRACT PROGRESS BAR KEYS
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# ---------------
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try:
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progress_output = output['progress_bar']
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# reduce progress metrics for tqdm when using dp
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if train and (self.use_dp or self.use_ddp2):
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num_gpus = self.num_gpus
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progress_output = self.reduce_distributed_output(progress_output, num_gpus)
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progress_bar_metrics = progress_output
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except Exception:
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progress_bar_metrics = {}
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# ---------------
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# EXTRACT LOGGING KEYS
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# ---------------
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# extract metrics to log to experiment
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try:
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log_output = output['log']
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# reduce progress metrics for tqdm when using dp
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if train and (self.use_dp or self.use_ddp2):
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num_gpus = self.num_gpus
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log_output = self.reduce_distributed_output(log_output, num_gpus)
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log_metrics = log_output
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except Exception:
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log_metrics = {}
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# ---------------
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# EXTRACT LOSS
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# ---------------
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# if output dict doesn't have the keyword loss
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# then assume the output=loss if scalar
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loss = None
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if train:
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try:
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loss = output['loss']
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except Exception:
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if isinstance(output, torch.Tensor):
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loss = output
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else:
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raise RuntimeError(
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'No `loss` value in the dictionary returned from `model.training_step()`.'
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)
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# when using dp need to reduce the loss
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if self.use_dp or self.use_ddp2:
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loss = self.reduce_distributed_output(loss, self.num_gpus)
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# ---------------
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# EXTRACT HIDDEN
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# ---------------
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hiddens = output.get('hiddens')
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# use every metric passed in as a candidate for callback
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callback_metrics.update(progress_bar_metrics)
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callback_metrics.update(log_metrics)
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# convert tensors to numpy
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for k, v in callback_metrics.items():
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if isinstance(v, torch.Tensor):
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callback_metrics[k] = v.item()
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return loss, progress_bar_metrics, log_metrics, callback_metrics, hiddens
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def reduce_distributed_output(self, output, num_gpus):
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if num_gpus <= 1:
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return output
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# when using DP, we get one output per gpu
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# average outputs and return
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if isinstance(output, torch.Tensor):
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return output.mean()
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for k, v in output.items():
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# recurse on nested dics
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if isinstance(output[k], dict):
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output[k] = self.reduce_distributed_output(output[k], num_gpus)
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# do nothing when there's a scalar
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elif isinstance(output[k], torch.Tensor) and output[k].dim() == 0:
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pass
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# reduce only metrics that have the same number of gpus
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elif output[k].size(0) == num_gpus:
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reduced = torch.mean(output[k])
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output[k] = reduced
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return output
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