def test_weights_scalar_handler_wrong_setup():
with pytest.raises(
TypeError,
match="Argument model should be of type torch.nn.Module"):
WeightsScalarHandler(None)
model = MagicMock(spec=torch.nn.Module)
with pytest.raises(TypeError,
match="Argument reduction should be callable"):
WeightsScalarHandler(model, reduction=123)
with pytest.raises(
TypeError,
match="Output of the reduction function should be a scalar"):
WeightsScalarHandler(model, reduction=lambda x: x)
wrapper = WeightsScalarHandler(model)
mock_logger = MagicMock()
mock_engine = MagicMock()
with pytest.raises(
RuntimeError,
match="Handler 'WeightsScalarHandler' works only with VisdomLogger"
):
wrapper(mock_engine, mock_logger, Events.ITERATION_STARTED)
def _test(tag=None):
wrapper = WeightsScalarHandler(model, tag=tag)
mock_logger = MagicMock(spec=VisdomLogger)
mock_logger.vis = MagicMock()
mock_logger.executor = _DummyExecutor()
mock_engine = MagicMock()
mock_engine.state = State()
mock_engine.state.epoch = 5
wrapper(mock_engine, mock_logger, Events.EPOCH_STARTED)
tag_prefix = f"{tag}/" if tag else ""
assert mock_logger.vis.line.call_count == 4
mock_logger.vis.line.assert_has_calls(
[
call(
X=[5],
Y=[0.0],
env=mock_logger.vis.env,
win=None,
update=None,
opts=wrapper.windows[tag_prefix +
"weights_norm/fc1/weight"]["opts"],
name=tag_prefix + "weights_norm/fc1/weight",
),
call(
X=[5],
Y=[0.0],
env=mock_logger.vis.env,
win=None,
update=None,
opts=wrapper.windows[tag_prefix +
"weights_norm/fc1/bias"]["opts"],
name=tag_prefix + "weights_norm/fc1/bias",
),
call(
X=[5],
Y=[12.0],
env=mock_logger.vis.env,
win=None,
update=None,
opts=wrapper.windows[tag_prefix +
"weights_norm/fc2/weight"]["opts"],
name=tag_prefix + "weights_norm/fc2/weight",
),
call(
X=[5],
Y=ANY,
env=mock_logger.vis.env,
win=None,
update=None,
opts=wrapper.windows[tag_prefix +
"weights_norm/fc2/bias"]["opts"],
name=tag_prefix + "weights_norm/fc2/bias",
),
],
any_order=True,
)
def test_weights_scalar_handler_custom_reduction():
class DummyModel(torch.nn.Module):
def __init__(self):
super(DummyModel, self).__init__()
self.fc1 = torch.nn.Linear(10, 10)
self.fc2 = torch.nn.Linear(12, 12)
self.fc1.weight.data.zero_()
self.fc1.bias.data.zero_()
self.fc2.weight.data.fill_(1.0)
self.fc2.bias.data.fill_(1.0)
model = DummyModel()
def norm(x):
return 12.34
wrapper = WeightsScalarHandler(model, reduction=norm, show_legend=True)
mock_logger = MagicMock(spec=VisdomLogger)
mock_logger.vis = MagicMock()
mock_logger.executor = _DummyExecutor()
mock_engine = MagicMock()
mock_engine.state = State()
mock_engine.state.epoch = 5
wrapper(mock_engine, mock_logger, Events.EPOCH_STARTED)
assert mock_logger.vis.line.call_count == 4
mock_logger.vis.line.assert_has_calls(
[
call(
X=[
5,
],
Y=[
12.34,
],
env=mock_logger.vis.env,
win=None,
update=None,
opts=wrapper.windows["weights_norm/fc1/weight"]["opts"],
name="weights_norm/fc1/weight",
),
call(
X=[
5,
],
Y=[
12.34,
],
env=mock_logger.vis.env,
win=None,
update=None,
opts=wrapper.windows["weights_norm/fc1/bias"]["opts"],
name="weights_norm/fc1/bias",
),
call(
X=[
5,
],
Y=[
12.34,
],
env=mock_logger.vis.env,
win=None,
update=None,
opts=wrapper.windows["weights_norm/fc2/weight"]["opts"],
name="weights_norm/fc2/weight",
),
call(
X=[
5,
],
Y=[
12.34,
],
env=mock_logger.vis.env,
win=None,
update=None,
opts=wrapper.windows["weights_norm/fc2/bias"]["opts"],
name="weights_norm/fc2/bias",
),
],
any_order=True,
)
def run(train_batch_size, val_batch_size, epochs, lr, momentum, log_dir):
train_loader, val_loader = get_data_loaders(train_batch_size,
val_batch_size)
model = Net()
device = "cpu"
if torch.cuda.is_available():
device = "cuda"
model.to(device) # Move model before creating optimizer
optimizer = SGD(model.parameters(), lr=lr, momentum=momentum)
criterion = nn.CrossEntropyLoss()
trainer = create_supervised_trainer(model,
optimizer,
criterion,
device=device)
trainer.logger = setup_logger("Trainer")
metrics = {"accuracy": Accuracy(), "loss": Loss(criterion)}
train_evaluator = create_supervised_evaluator(model,
metrics=metrics,
device=device)
train_evaluator.logger = setup_logger("Train Evaluator")
validation_evaluator = create_supervised_evaluator(model,
metrics=metrics,
device=device)
validation_evaluator.logger = setup_logger("Val Evaluator")
@trainer.on(Events.EPOCH_COMPLETED)
def compute_metrics(engine):
train_evaluator.run(train_loader)
validation_evaluator.run(val_loader)
vd_logger = VisdomLogger(env="mnist_training")
vd_logger.attach_output_handler(
trainer,
event_name=Events.ITERATION_COMPLETED(every=100),
tag="training",
output_transform=lambda loss: {"batchloss": loss},
)
for tag, evaluator in [("training", train_evaluator),
("validation", validation_evaluator)]:
vd_logger.attach_output_handler(
evaluator,
event_name=Events.EPOCH_COMPLETED,
tag=tag,
metric_names=["loss", "accuracy"],
global_step_transform=global_step_from_engine(trainer),
)
vd_logger.attach_opt_params_handler(
trainer,
event_name=Events.ITERATION_COMPLETED(every=100),
optimizer=optimizer)
vd_logger.attach(trainer,
log_handler=WeightsScalarHandler(model),
event_name=Events.ITERATION_COMPLETED(every=100))
vd_logger.attach(trainer,
log_handler=GradsScalarHandler(model),
event_name=Events.ITERATION_COMPLETED(every=100))
def score_function(engine):
return engine.state.metrics["accuracy"]
model_checkpoint = ModelCheckpoint(
log_dir,
n_saved=2,
filename_prefix="best",
score_function=score_function,
score_name="validation_accuracy",
global_step_transform=global_step_from_engine(trainer),
)
validation_evaluator.add_event_handler(Events.COMPLETED, model_checkpoint,
{"model": model})
# kick everything off
trainer.run(train_loader, max_epochs=epochs)
vd_logger.close()
