from abc import ABCMeta, abstractmethod
from collections.abc import Mapping
from functools import wraps
from numbers import Number
from typing import Any, Callable, Dict, Optional, Sequence, Tuple, TYPE_CHECKING, Union
import torch
import ignite.distributed as idist
from ignite.engine import CallableEventWithFilter, Engine, Events
if TYPE_CHECKING:
from ignite.metrics.metrics_lambda import MetricsLambda
__all__ = ["Metric", "MetricUsage", "EpochWise", "BatchWise", "BatchFiltered"]
[docs]class MetricUsage:
"""
Base class for all usages of metrics.
A usage of metric defines the events when a metric starts to compute, updates and completes.
Valid events are from :class:`~ignite.engine.events.Events`.
Args:
started: event when the metric starts to compute. This event will be associated to
:meth:`~ignite.metrics.metric.Metric.started`.
completed: event when the metric completes. This event will be associated to
:meth:`~ignite.metrics.metric.Metric.completed`.
iteration_completed: event when the metric updates. This event will be associated to
:meth:`~ignite.metrics.metric.Metric.iteration_completed`.
"""
def __init__(self, started: Events, completed: Events, iteration_completed: CallableEventWithFilter) -> None:
self.__started = started
self.__completed = completed
self.__iteration_completed = iteration_completed
@property
def STARTED(self) -> Events:
return self.__started
@property
def COMPLETED(self) -> Events:
return self.__completed
@property
def ITERATION_COMPLETED(self) -> CallableEventWithFilter:
return self.__iteration_completed
[docs]class EpochWise(MetricUsage):
"""
Epoch-wise usage of Metrics. It's the default and most common usage of metrics.
Metric's methods are triggered on the following engine events:
- :meth:`~ignite.metrics.metric.Metric.started` on every ``EPOCH_STARTED``
(See :class:`~ignite.engine.events.Events`).
- :meth:`~ignite.metrics.metric.Metric.iteration_completed` on every ``ITERATION_COMPLETED``.
- :meth:`~ignite.metrics.metric.Metric.completed` on every ``EPOCH_COMPLETED``.
Attributes:
usage_name: usage name string
"""
usage_name: str = "epoch_wise"
def __init__(self) -> None:
super(EpochWise, self).__init__(
started=Events.EPOCH_STARTED,
completed=Events.EPOCH_COMPLETED,
iteration_completed=Events.ITERATION_COMPLETED,
)
[docs]class BatchWise(MetricUsage):
"""
Batch-wise usage of Metrics.
Metric's methods are triggered on the following engine events:
- :meth:`~ignite.metrics.metric.Metric.started` on every ``ITERATION_STARTED``
(See :class:`~ignite.engine.events.Events`).
- :meth:`~ignite.metrics.metric.Metric.iteration_completed` on every ``ITERATION_COMPLETED``.
- :meth:`~ignite.metrics.metric.Metric.completed` on every ``ITERATION_COMPLETED``.
Attributes:
usage_name: usage name string
"""
usage_name: str = "batch_wise"
def __init__(self) -> None:
super(BatchWise, self).__init__(
started=Events.ITERATION_STARTED,
completed=Events.ITERATION_COMPLETED,
iteration_completed=Events.ITERATION_COMPLETED,
)
[docs]class BatchFiltered(MetricUsage):
"""
Batch filtered usage of Metrics. This usage is similar to epoch-wise but update event is filtered.
Metric's methods are triggered on the following engine events:
- :meth:`~ignite.metrics.metric.Metric.started` on every ``EPOCH_STARTED``
(See :class:`~ignite.engine.events.Events`).
- :meth:`~ignite.metrics.metric.Metric.iteration_completed` on filtered ``ITERATION_COMPLETED``.
- :meth:`~ignite.metrics.metric.Metric.completed` on every ``EPOCH_COMPLETED``.
Args:
args: Positional arguments to setup :attr:`~ignite.engine.events.Events.ITERATION_COMPLETED`
kwargs: Keyword arguments to setup :attr:`~ignite.engine.events.Events.ITERATION_COMPLETED`
handled by :meth:`~ignite.metrics.metric.Metric.iteration_completed`.
"""
def __init__(self, *args: Any, **kwargs: Any) -> None:
super(BatchFiltered, self).__init__(
started=Events.EPOCH_STARTED,
completed=Events.EPOCH_COMPLETED,
iteration_completed=Events.ITERATION_COMPLETED(*args, **kwargs),
)
[docs]class Metric(metaclass=ABCMeta):
"""
Base class for all Metrics.
Args:
output_transform: a callable that is used to transform the
:class:`~ignite.engine.engine.Engine`'s ``process_function``'s output into the
form expected by the metric. This can be useful if, for example, you have a multi-output model and
you want to compute the metric with respect to one of the outputs.
By default, metrics require the output as ``(y_pred, y)`` or ``{'y_pred': y_pred, 'y': y}``.
device: specifies which device updates are accumulated on. Setting the
metric's device to be the same as your ``update`` arguments ensures the ``update`` method is
non-blocking. By default, CPU.
Attributes:
required_output_keys: dictionary defines required keys to be found in ``engine.state.output`` if the
latter is a dictionary. Default, ``("y_pred", "y")``. This is useful with custom metrics that can require
other arguments than predictions ``y_pred`` and targets ``y``. See an example below.
Examples:
Let's implement a custom metric that requires ``y_pred``, ``y`` and ``x`` as input for ``update`` function.
In the example below we show how to setup standard metric like Accuracy and the custom metric using by an
``evaluator`` created with :meth:`~ignite.engine.create_supervised_evaluator` method.
For more information on how metric works with :class:`~ignite.engine.engine.Engine`, visit :ref:`attach-engine`.
.. code-block:: python
# https://discuss.pytorch.org/t/how-access-inputs-in-custom-ignite-metric/91221/5
import torch
import torch.nn as nn
from ignite.metrics import Metric, Accuracy
from ignite.engine import create_supervised_evaluator
class CustomMetric(Metric):
required_output_keys = ("y_pred", "y", "x")
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
def update(self, output):
y_pred, y, x = output
# ...
def reset(self):
# ...
pass
def compute(self):
# ...
pass
model = ...
metrics = {
"Accuracy": Accuracy(),
"CustomMetric": CustomMetric()
}
evaluator = create_supervised_evaluator(
model,
metrics=metrics,
output_transform=lambda x, y, y_pred: {"x": x, "y": y, "y_pred": y_pred}
)
res = evaluator.run(data)
.. versionchanged:: 0.4.2
``required_output_keys`` became public attribute.
"""
# public class attribute
required_output_keys: Optional[Tuple] = ("y_pred", "y")
# for backward compatibility
_required_output_keys = required_output_keys
def __init__(
self, output_transform: Callable = lambda x: x, device: Union[str, torch.device] = torch.device("cpu")
):
self._output_transform = output_transform
# Some metrics have a large performance regression when run on XLA devices, so for now, we disallow it.
if torch.device(device).type == "xla":
raise ValueError("Cannot create metric on an XLA device. Use device='cpu' instead.")
self._device = torch.device(device)
self._is_reduced = False
self.reset()
[docs] @abstractmethod
def reset(self) -> None:
"""
Resets the metric to it's initial state.
By default, this is called at the start of each epoch.
"""
pass
[docs] @abstractmethod
def update(self, output: Any) -> None:
"""
Updates the metric's state using the passed batch output.
By default, this is called once for each batch.
Args:
output: the is the output from the engine's process function.
"""
pass
[docs] @abstractmethod
def compute(self) -> Any:
"""
Computes the metric based on it's accumulated state.
By default, this is called at the end of each epoch.
Returns:
Any: | the actual quantity of interest. However, if a :class:`~collections.abc.Mapping` is returned,
it will be (shallow) flattened into `engine.state.metrics` when
:func:`~ignite.metrics.metric.Metric.completed` is called.
Raises:
NotComputableError: raised when the metric cannot be computed.
"""
pass
[docs] def started(self, engine: Engine) -> None:
"""Helper method to start data gathering for metric's computation. It is automatically attached to the
`engine` with :meth:`~ignite.metrics.metric.Metric.attach`.
Args:
engine: the engine to which the metric must be attached
"""
self.reset()
[docs] @torch.no_grad()
def iteration_completed(self, engine: Engine) -> None:
"""Helper method to update metric's computation. It is automatically attached to the
`engine` with :meth:`~ignite.metrics.metric.Metric.attach`.
Args:
engine: the engine to which the metric must be attached
Note:
``engine.state.output`` is used to compute metric values.
The majority of implemented metrics accepts the following formats for ``engine.state.output``:
``(y_pred, y)`` or ``{'y_pred': y_pred, 'y': y}``. ``y_pred`` and ``y`` can be torch tensors or
list of tensors/numbers if applicable.
.. versionchanged:: 0.4.5
``y_pred`` and ``y`` can be torch tensors or list of tensors/numbers
"""
output = self._output_transform(engine.state.output)
if isinstance(output, Mapping):
if self.required_output_keys is None:
raise TypeError(
f"Transformed engine output for {self.__class__.__name__} metric should be a tuple/list, "
f"but given {type(output)}"
)
if not all([k in output for k in self.required_output_keys]):
raise ValueError(
"When transformed engine's output is a mapping, "
f"it should contain {self.required_output_keys} keys, but given {list(output.keys())}"
)
output = tuple(output[k] for k in self.required_output_keys)
if isinstance(output, Sequence) and all([_is_list_of_tensors_or_numbers(o) for o in output]):
if not (len(output) == 2 and len(output[0]) == len(output[1])):
raise ValueError(
f"Output should have 2 items of the same length, "
f"got {len(output)} and {len(output[0])}, {len(output[1])}"
)
for o1, o2 in zip(output[0], output[1]):
# o1 and o2 are list of tensors or numbers
tensor_o1 = _to_batched_tensor(o1)
tensor_o2 = _to_batched_tensor(o2, device=tensor_o1.device)
self.update((tensor_o1, tensor_o2))
else:
self.update(output)
[docs] def completed(self, engine: Engine, name: str) -> None:
"""Helper method to compute metric's value and put into the engine. It is automatically attached to the
`engine` with :meth:`~ignite.metrics.metric.Metric.attach`. If metrics' value is torch tensor, it is
explicitly sent to CPU device.
Args:
engine: the engine to which the metric must be attached
name: the name of the metric used as key in dict `engine.state.metrics`
.. versionchanged:: 0.4.3
Added dict in metrics results.
.. versionchanged:: 0.4.5
metric's value is put on CPU if torch tensor.
"""
result = self.compute()
if isinstance(result, Mapping):
if name in result.keys():
raise ValueError(f"Argument name '{name}' is conflicting with mapping keys: {list(result.keys())}")
for key, value in result.items():
engine.state.metrics[key] = value
engine.state.metrics[name] = result
else:
if isinstance(result, torch.Tensor):
if len(result.size()) == 0:
result = result.item()
elif "cpu" not in result.device.type:
result = result.cpu()
engine.state.metrics[name] = result
def _check_usage(self, usage: Union[str, MetricUsage]) -> MetricUsage:
if isinstance(usage, str):
if usage == EpochWise.usage_name:
usage = EpochWise()
elif usage == BatchWise.usage_name:
usage = BatchWise()
else:
raise ValueError(f"usage should be 'EpochWise.usage_name' or 'BatchWise.usage_name', get {usage}")
if not isinstance(usage, MetricUsage):
raise TypeError(f"Unhandled usage type {type(usage)}")
return usage
[docs] def attach(self, engine: Engine, name: str, usage: Union[str, MetricUsage] = EpochWise()) -> None:
"""
Attaches current metric to provided engine. On the end of engine's run, `engine.state.metrics` dictionary will
contain computed metric's value under provided name.
Args:
engine: the engine to which the metric must be attached
name: the name of the metric to attach
usage: the usage of the metric. Valid string values should be
:attr:`ignite.metrics.metric.EpochWise.usage_name` (default) or
:attr:`ignite.metrics.metric.BatchWise.usage_name`.
Examples:
.. code-block:: python
metric = ...
metric.attach(engine, "mymetric")
assert "mymetric" in engine.run(data).metrics
assert metric.is_attached(engine)
Example with usage:
.. code-block:: python
metric = ...
metric.attach(engine, "mymetric", usage=BatchWise.usage_name)
assert "mymetric" in engine.run(data).metrics
assert metric.is_attached(engine, usage=BatchWise.usage_name)
"""
usage = self._check_usage(usage)
if not engine.has_event_handler(self.started, usage.STARTED):
engine.add_event_handler(usage.STARTED, self.started)
if not engine.has_event_handler(self.iteration_completed, usage.ITERATION_COMPLETED):
engine.add_event_handler(usage.ITERATION_COMPLETED, self.iteration_completed)
engine.add_event_handler(usage.COMPLETED, self.completed, name)
[docs] def detach(self, engine: Engine, usage: Union[str, MetricUsage] = EpochWise()) -> None:
"""
Detaches current metric from the engine and no metric's computation is done during the run.
This method in conjunction with :meth:`~ignite.metrics.metric.Metric.attach` can be useful if several
metrics need to be computed with different periods. For example, one metric is computed every training epoch
and another metric (e.g. more expensive one) is done every n-th training epoch.
Args:
engine: the engine from which the metric must be detached
usage: the usage of the metric. Valid string values should be
'epoch_wise' (default) or 'batch_wise'.
Examples:
.. code-block:: python
metric = ...
engine = ...
metric.detach(engine)
assert "mymetric" not in engine.run(data).metrics
assert not metric.is_attached(engine)
Example with usage:
.. code-block:: python
metric = ...
engine = ...
metric.detach(engine, usage="batch_wise")
assert "mymetric" not in engine.run(data).metrics
assert not metric.is_attached(engine, usage="batch_wise")
"""
usage = self._check_usage(usage)
if engine.has_event_handler(self.completed, usage.COMPLETED):
engine.remove_event_handler(self.completed, usage.COMPLETED)
if engine.has_event_handler(self.started, usage.STARTED):
engine.remove_event_handler(self.started, usage.STARTED)
if engine.has_event_handler(self.iteration_completed, usage.ITERATION_COMPLETED):
engine.remove_event_handler(self.iteration_completed, usage.ITERATION_COMPLETED)
[docs] def is_attached(self, engine: Engine, usage: Union[str, MetricUsage] = EpochWise()) -> bool:
"""
Checks if current metric is attached to provided engine. If attached, metric's computed
value is written to `engine.state.metrics` dictionary.
Args:
engine: the engine checked from which the metric should be attached
usage: the usage of the metric. Valid string values should be
'epoch_wise' (default) or 'batch_wise'.
"""
usage = self._check_usage(usage)
return engine.has_event_handler(self.completed, usage.COMPLETED)
def __add__(self, other: Any) -> "MetricsLambda":
from ignite.metrics.metrics_lambda import MetricsLambda
return MetricsLambda(lambda x, y: x + y, self, other)
def __radd__(self, other: Any) -> "MetricsLambda":
from ignite.metrics.metrics_lambda import MetricsLambda
return MetricsLambda(lambda x, y: x + y, other, self)
def __sub__(self, other: Any) -> "MetricsLambda":
from ignite.metrics.metrics_lambda import MetricsLambda
return MetricsLambda(lambda x, y: x - y, self, other)
def __rsub__(self, other: Any) -> "MetricsLambda":
from ignite.metrics.metrics_lambda import MetricsLambda
return MetricsLambda(lambda x, y: x - y, other, self)
def __mul__(self, other: Any) -> "MetricsLambda":
from ignite.metrics.metrics_lambda import MetricsLambda
return MetricsLambda(lambda x, y: x * y, self, other)
def __rmul__(self, other: Any) -> "MetricsLambda":
from ignite.metrics.metrics_lambda import MetricsLambda
return MetricsLambda(lambda x, y: x * y, other, self)
def __pow__(self, other: Any) -> "MetricsLambda":
from ignite.metrics.metrics_lambda import MetricsLambda
return MetricsLambda(lambda x, y: x ** y, self, other)
def __rpow__(self, other: Any) -> "MetricsLambda":
from ignite.metrics.metrics_lambda import MetricsLambda
return MetricsLambda(lambda x, y: x ** y, other, self)
def __mod__(self, other: Any) -> "MetricsLambda":
from ignite.metrics.metrics_lambda import MetricsLambda
return MetricsLambda(lambda x, y: x % y, self, other)
def __truediv__(self, other: Any) -> "MetricsLambda":
from ignite.metrics.metrics_lambda import MetricsLambda
return MetricsLambda(lambda x, y: x.__truediv__(y), self, other)
def __rtruediv__(self, other: Any) -> "MetricsLambda":
from ignite.metrics.metrics_lambda import MetricsLambda
return MetricsLambda(lambda x, y: x.__truediv__(y), other, self)
def __floordiv__(self, other: Any) -> "MetricsLambda":
from ignite.metrics.metrics_lambda import MetricsLambda
return MetricsLambda(lambda x, y: x // y, self, other)
def __getattr__(self, attr: str) -> Callable:
from ignite.metrics.metrics_lambda import MetricsLambda
def fn(x: Metric, *args: Any, **kwargs: Any) -> Any:
return getattr(x, attr)(*args, **kwargs)
def wrapper(*args: Any, **kwargs: Any) -> "MetricsLambda":
return MetricsLambda(fn, self, *args, **kwargs)
return wrapper
def __getitem__(self, index: Any) -> "MetricsLambda":
from ignite.metrics.metrics_lambda import MetricsLambda
return MetricsLambda(lambda x: x[index], self)
def __getstate__(self) -> Dict:
return self.__dict__
def __setstate__(self, d: Dict) -> None:
self.__dict__.update(d)
[docs]def sync_all_reduce(*attrs: Any) -> Callable:
"""Helper decorator for distributed configuration to collect instance attribute value
across all participating processes and apply the specified reduction operation.
See :doc:`metrics` on how to use it.
Args:
attrs: attribute names of decorated class
.. versionchanged:: 0.4.5
- Ability to handle different reduction operations (SUM, MAX, MIN, PRODUCT).
"""
def wrapper(func: Callable) -> Callable:
@wraps(func)
def another_wrapper(self: Metric, *args: Any, **kwargs: Any) -> Callable:
if not isinstance(self, Metric):
raise RuntimeError(
"Decorator sync_all_reduce should be used on ignite.metric.Metric class methods only"
)
ws = idist.get_world_size()
if len(attrs) > 0 and not self._is_reduced:
if ws > 1:
for attr in attrs:
op_kwargs = {}
if ":" in attr:
attr, op = attr.split(":")
valid_ops = ["MIN", "MAX", "SUM", "PRODUCT"]
if op not in valid_ops:
raise ValueError(f"Reduction operation is not valid (expected : {valid_ops}, got: {op}")
op_kwargs["op"] = op
t = getattr(self, attr, None)
if t is not None:
t = idist.all_reduce(t, **op_kwargs)
self._is_reduced = True
setattr(self, attr, t)
else:
self._is_reduced = True
return func(self, *args, **kwargs)
return another_wrapper
setattr(wrapper, "_decorated", True)
return wrapper
[docs]def reinit__is_reduced(func: Callable) -> Callable:
"""Helper decorator for distributed configuration.
See :doc:`metrics` on how to use it.
Args:
func: A callable to reinit.
"""
@wraps(func)
def wrapper(self: Metric, *args: Any, **kwargs: Any) -> None:
func(self, *args, **kwargs)
self._is_reduced = False
setattr(wrapper, "_decorated", True)
return wrapper
def _is_list_of_tensors_or_numbers(x: Sequence[Union[torch.Tensor, float]]) -> bool:
return isinstance(x, Sequence) and all([isinstance(t, (torch.Tensor, Number)) for t in x])
def _to_batched_tensor(x: Union[torch.Tensor, float], device: Optional[torch.device] = None) -> torch.Tensor:
if isinstance(x, torch.Tensor):
return x.unsqueeze(dim=0)
return torch.tensor([x], device=device)