Source code for pytorch_lightning.callbacks.lr_monitor
# 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.
r"""
Learning Rate Monitor
=====================
Monitor and logs learning rate for lr schedulers during training.
"""
import itertools
from collections import defaultdict
from typing import Any, DefaultDict, Dict, List, Optional, Set, Tuple, Type
from torch.optim.optimizer import Optimizer
import pytorch_lightning as pl
from pytorch_lightning.callbacks.base import Callback
from pytorch_lightning.utilities import rank_zero_warn
from pytorch_lightning.utilities.distributed import rank_zero_deprecation
from pytorch_lightning.utilities.exceptions import MisconfigurationException
[docs]class LearningRateMonitor(Callback):
r"""
Automatically monitor and logs learning rate for learning rate schedulers during training.
Args:
logging_interval: set to ``'epoch'`` or ``'step'`` to log ``lr`` of all optimizers
at the same interval, set to ``None`` to log at individual interval
according to the ``interval`` key of each scheduler. Defaults to ``None``.
log_momentum: option to also log the momentum values of the optimizer, if the optimizer
has the ``momentum`` or ``betas`` attribute. Defaults to ``False``.
Raises:
MisconfigurationException:
If ``logging_interval`` is none of ``"step"``, ``"epoch"``, or ``None``.
Example::
>>> from pytorch_lightning import Trainer
>>> from pytorch_lightning.callbacks import LearningRateMonitor
>>> lr_monitor = LearningRateMonitor(logging_interval='step')
>>> trainer = Trainer(callbacks=[lr_monitor])
Logging names are automatically determined based on optimizer class name.
In case of multiple optimizers of same type, they will be named ``Adam``,
``Adam-1`` etc. If a optimizer has multiple parameter groups they will
be named ``Adam/pg1``, ``Adam/pg2`` etc. To control naming, pass in a
``name`` keyword in the construction of the learning rate schedulers.
A ``name`` keyword can also be used for parameter groups in the
construction of the optimizer.
Example::
def configure_optimizer(self):
optimizer = torch.optim.Adam(...)
lr_scheduler = {
'scheduler': torch.optim.lr_scheduler.LambdaLR(optimizer, ...)
'name': 'my_logging_name'
}
return [optimizer], [lr_scheduler]
Example::
def configure_optimizer(self):
optimizer = torch.optim.SGD(
[{
'params': [p for p in self.parameters()],
'name': 'my_parameter_group_name'
}],
lr=0.1
)
lr_scheduler = torch.optim.lr_scheduler.LambdaLR(optimizer, ...)
return [optimizer], [lr_scheduler]
"""
def __init__(self, logging_interval: Optional[str] = None, log_momentum: bool = False):
if logging_interval not in (None, "step", "epoch"):
raise MisconfigurationException("logging_interval should be `step` or `epoch` or `None`.")
self.logging_interval = logging_interval
self.log_momentum = log_momentum
self.lrs: Dict[str, List[float]] = {}
self._lr_sch_names: List[str] = []
[docs] def on_train_start(self, trainer: "pl.Trainer", *args: Any, **kwargs: Any) -> None:
"""Called before training, determines unique names for all lr schedulers in the case of multiple of the
same type or in the case of multiple parameter groups.
Raises:
MisconfigurationException:
If ``Trainer`` has no ``logger``.
"""
if not trainer.logger:
raise MisconfigurationException(
"Cannot use `LearningRateMonitor` callback with `Trainer` that has no logger."
)
if self.log_momentum:
def _check_no_key(key: str) -> bool:
if trainer.lr_schedulers:
return any(key not in sch["scheduler"].optimizer.defaults for sch in trainer.lr_schedulers)
return any(key not in optimizer.defaults for optimizer in trainer.optimizers)
if _check_no_key("momentum") and _check_no_key("betas"):
rank_zero_warn(
"You have set log_momentum=True, but some optimizers do not"
" have momentum. This will log a value 0 for the momentum.",
RuntimeWarning,
)
# Find names for schedulers
names: List[List[str]] = []
(
sched_hparam_keys,
optimizers_with_scheduler,
optimizers_with_scheduler_types,
) = self._find_names_from_schedulers(trainer.lr_schedulers)
names.extend(sched_hparam_keys)
# Find names for leftover optimizers
optimizer_hparam_keys, _ = self._find_names_from_optimizers(
trainer.optimizers,
seen_optimizers=optimizers_with_scheduler,
seen_optimizer_types=optimizers_with_scheduler_types,
)
names.extend(optimizer_hparam_keys)
# Initialize for storing values
names_flatten = list(itertools.chain.from_iterable(names))
self.lrs = {name: [] for name in names_flatten}
self.last_momentum_values = {name + "-momentum": None for name in names_flatten}
[docs] def on_train_batch_start(self, trainer: "pl.Trainer", *args: Any, **kwargs: Any) -> None:
if not trainer.logger_connector.should_update_logs:
return
if self.logging_interval != "epoch":
interval = "step" if self.logging_interval is None else "any"
latest_stat = self._extract_stats(trainer, interval)
if latest_stat:
trainer.logger.log_metrics(latest_stat, step=trainer.global_step)
[docs] def on_train_epoch_start(self, trainer: "pl.Trainer", *args: Any, **kwargs: Any) -> None:
if self.logging_interval != "step":
interval = "epoch" if self.logging_interval is None else "any"
latest_stat = self._extract_stats(trainer, interval)
if latest_stat:
trainer.logger.log_metrics(latest_stat, step=trainer.global_step)
def _extract_stats(self, trainer: "pl.Trainer", interval: str) -> Dict[str, float]:
latest_stat = {}
(
scheduler_hparam_keys,
optimizers_with_scheduler,
optimizers_with_scheduler_types,
) = self._find_names_from_schedulers(trainer.lr_schedulers, add_lr_sch_names=False)
self._remap_keys(scheduler_hparam_keys)
for name, scheduler in zip(scheduler_hparam_keys, trainer.lr_schedulers):
if interval in [scheduler["interval"], "any"]:
opt = scheduler["scheduler"].optimizer
current_stat = self._get_lr_momentum_stat(opt, name)
latest_stat.update(current_stat)
optimizer_hparam_keys, optimizers_without_scheduler = self._find_names_from_optimizers(
trainer.optimizers,
seen_optimizers=optimizers_with_scheduler,
seen_optimizer_types=optimizers_with_scheduler_types,
add_lr_sch_names=False,
)
self._remap_keys(optimizer_hparam_keys)
for opt, names in zip(optimizers_without_scheduler, optimizer_hparam_keys):
current_stat = self._get_lr_momentum_stat(opt, names)
latest_stat.update(current_stat)
return latest_stat
def _get_lr_momentum_stat(self, optimizer: Optimizer, names: List[str]) -> Dict[str, float]:
lr_momentum_stat = {}
param_groups = optimizer.param_groups
use_betas = "betas" in optimizer.defaults
for pg, name in zip(param_groups, names):
lr = self._extract_lr(pg, name)
lr_momentum_stat.update(lr)
momentum = self._extract_momentum(
param_group=pg, name=name.replace(name, f"{name}-momentum"), use_betas=use_betas
)
lr_momentum_stat.update(momentum)
return lr_momentum_stat
def _extract_lr(self, param_group: Dict[str, Any], name: str) -> Dict[str, Any]:
lr = param_group["lr"]
self.lrs[name].append(lr)
return {name: lr}
def _remap_keys(self, names: List[List[str]], token: str = "/pg1") -> None:
"""This function is used the remap the keys if param groups for a given optimizer increased."""
for group_new_names in names:
for new_name in group_new_names:
old_name = new_name.replace(token, "")
if token in new_name and old_name in self.lrs:
self.lrs[new_name] = self.lrs.pop(old_name)
elif new_name not in self.lrs:
self.lrs[new_name] = []
def _extract_momentum(self, param_group: Dict[str, List], name: str, use_betas: bool) -> Dict[str, float]:
if not self.log_momentum:
return {}
momentum = param_group["betas"][0] if use_betas else param_group.get("momentum", 0)
self.last_momentum_values[name] = momentum
return {name: momentum}
def _add_prefix(
self, name: str, optimizer_cls: Type[Optimizer], seen_optimizer_types: DefaultDict[Type[Optimizer], int]
) -> str:
if optimizer_cls not in seen_optimizer_types:
return name
count = seen_optimizer_types[optimizer_cls]
return name + f"-{count - 1}" if count > 1 else name
def _add_suffix(self, name: str, param_groups: List[Dict], param_group_index: int, use_names: bool = True) -> str:
if len(param_groups) > 1:
if not use_names:
return f"{name}/pg{param_group_index+1}"
pg_name = param_groups[param_group_index].get("name", f"pg{param_group_index+1}")
return f"{name}/{pg_name}"
elif use_names:
pg_name = param_groups[param_group_index].get("name")
return f"{name}/{pg_name}" if pg_name else name
return name
def _duplicate_param_group_names(self, param_groups: List[Dict]) -> Set[str]:
names = [pg.get("name", f"pg{i}") for i, pg in enumerate(param_groups, start=1)]
unique = set(names)
if len(names) == len(unique):
return set()
return {n for n in names if names.count(n) > 1}
def _find_names_from_schedulers(
self, lr_schedulers: List, add_lr_sch_names: bool = True
) -> Tuple[List[List[str]], List[Optimizer], DefaultDict[Type[Optimizer], int]]:
# Create unique names in the case we have multiple of the same learning
# rate scheduler + multiple parameter groups
names = []
seen_optimizers: List[Optimizer] = []
seen_optimizer_types: DefaultDict[Type[Optimizer], int] = defaultdict(int)
for scheduler in lr_schedulers:
sch = scheduler["scheduler"]
if scheduler["name"] is not None:
name = scheduler["name"]
else:
name = "lr-" + sch.optimizer.__class__.__name__
updated_names = self._check_duplicates_and_update_name(
sch.optimizer, name, seen_optimizers, seen_optimizer_types, scheduler, add_lr_sch_names
)
names.append(updated_names)
return names, seen_optimizers, seen_optimizer_types
def _find_names_from_optimizers(
self,
optimizers: List[Any],
seen_optimizers: List[Optimizer],
seen_optimizer_types: DefaultDict[Type[Optimizer], int],
add_lr_sch_names: bool = True,
) -> Tuple[List[List[str]], List[Optimizer]]:
names = []
optimizers_without_scheduler = []
for optimizer in optimizers:
# Deepspeed optimizer wraps the native optimizer
optimizer = optimizer.optimizer if hasattr(optimizer, "optimizer") else optimizer
if optimizer in seen_optimizers:
continue
name = "lr-" + optimizer.__class__.__name__
updated_names = self._check_duplicates_and_update_name(
optimizer, name, seen_optimizers, seen_optimizer_types, None, add_lr_sch_names
)
names.append(updated_names)
optimizers_without_scheduler.append(optimizer)
return names, optimizers_without_scheduler
def _check_duplicates_and_update_name(
self,
optimizer: Optimizer,
name: str,
seen_optimizers: List[Optimizer],
seen_optimizer_types: DefaultDict[Type[Optimizer], int],
scheduler: Dict[str, Any] = None,
add_lr_sch_names: bool = True,
) -> List[str]:
seen_optimizers.append(optimizer)
optimizer_cls = type(optimizer)
if scheduler is not None and scheduler["name"] is None:
seen_optimizer_types[optimizer_cls] += 1
elif scheduler is None:
seen_optimizer_types[optimizer_cls] += 1
# Multiple param groups for the same optimizer
param_groups = optimizer.param_groups
duplicates = self._duplicate_param_group_names(param_groups)
if duplicates:
raise MisconfigurationException(
"A single `Optimizer` cannot have multiple parameter groups with identical "
f"`name` values. {name} has duplicated parameter group names {duplicates}"
)
name = self._add_prefix(name, optimizer_cls, seen_optimizer_types)
name_list = [self._add_suffix(name, param_groups, i) for i in range(len(param_groups))]
if add_lr_sch_names:
self._lr_sch_names.append(name)
return name_list
@property
def lr_sch_names(self) -> List[str]:
# TODO remove `lr_sch_names` and `add_lr_sch_names` argument in v1.7.0
rank_zero_deprecation(
"`LearningRateMonitor.lr_sch_names` has been deprecated in v1.5 and will be removed in 1.7."
" Consider accessing them using `LearningRateMonitor.lrs.keys()` which will return"
" the names of all the optimizers, even those without a scheduler."
)
return self._lr_sch_names
