prototorch_models/prototorch/models/callbacks.py
Alexander Engelsberger 1a17193b35
ci: add github actions (#16)
* chore: update pre-commit versions

* ci: remove old configurations

* ci: copy workflow from prototorch

* ci: run precommit for all files

* ci: add examples CPU test

* ci(test): failing example test

* ci: fix workflow definition

* ci(test): repeat failing example test

* ci: fix workflow definition

* ci(test): repeat failing example test II

* ci: fix test command

* ci: cleanup example test

* ci: remove travis badge
2022-01-11 18:28:50 +01:00

141 lines
5.0 KiB
Python

"""Lightning Callbacks."""
import logging
import pytorch_lightning as pl
import torch
from ..core.components import Components
from ..core.initializers import LiteralCompInitializer
from .extras import ConnectionTopology
class PruneLoserPrototypes(pl.Callback):
def __init__(self,
threshold=0.01,
idle_epochs=10,
prune_quota_per_epoch=-1,
frequency=1,
replace=False,
prototypes_initializer=None,
verbose=False):
self.threshold = threshold # minimum win ratio
self.idle_epochs = idle_epochs # epochs to wait before pruning
self.prune_quota_per_epoch = prune_quota_per_epoch
self.frequency = frequency
self.replace = replace
self.verbose = verbose
self.prototypes_initializer = prototypes_initializer
def on_epoch_end(self, trainer, pl_module):
if (trainer.current_epoch + 1) < self.idle_epochs:
return None
if (trainer.current_epoch + 1) % self.frequency:
return None
ratios = pl_module.prototype_win_ratios.mean(dim=0)
to_prune = torch.arange(len(ratios))[ratios < self.threshold]
to_prune = to_prune.tolist()
prune_labels = pl_module.prototype_labels[to_prune]
if self.prune_quota_per_epoch > 0:
to_prune = to_prune[:self.prune_quota_per_epoch]
prune_labels = prune_labels[:self.prune_quota_per_epoch]
if len(to_prune) > 0:
if self.verbose:
print(f"\nPrototype win ratios: {ratios}")
print(f"Pruning prototypes at: {to_prune}")
print(f"Corresponding labels are: {prune_labels.tolist()}")
cur_num_protos = pl_module.num_prototypes
pl_module.remove_prototypes(indices=to_prune)
if self.replace:
labels, counts = torch.unique(prune_labels,
sorted=True,
return_counts=True)
distribution = dict(zip(labels.tolist(), counts.tolist()))
if self.verbose:
print(f"Re-adding pruned prototypes...")
print(f"distribution={distribution}")
pl_module.add_prototypes(
distribution=distribution,
components_initializer=self.prototypes_initializer)
new_num_protos = pl_module.num_prototypes
if self.verbose:
print(f"`num_prototypes` changed from {cur_num_protos} "
f"to {new_num_protos}.")
return True
class PrototypeConvergence(pl.Callback):
def __init__(self, min_delta=0.01, idle_epochs=10, verbose=False):
self.min_delta = min_delta
self.idle_epochs = idle_epochs # epochs to wait
self.verbose = verbose
def on_epoch_end(self, trainer, pl_module):
if (trainer.current_epoch + 1) < self.idle_epochs:
return None
if self.verbose:
print("Stopping...")
# TODO
return True
class GNGCallback(pl.Callback):
"""GNG Callback.
Applies growing algorithm based on accumulated error and topology.
Based on "A Growing Neural Gas Network Learns Topologies" by Bernd Fritzke.
"""
def __init__(self, reduction=0.1, freq=10):
self.reduction = reduction
self.freq = freq
def on_epoch_end(self, trainer: pl.Trainer, pl_module):
if (trainer.current_epoch + 1) % self.freq == 0:
# Get information
errors = pl_module.errors
topology: ConnectionTopology = pl_module.topology_layer
components: Components = pl_module.proto_layer.components
# Insertion point
worst = torch.argmax(errors)
neighbors = topology.get_neighbors(worst)[0]
if len(neighbors) == 0:
logging.log(level=20, msg="No neighbor-pairs found!")
return
neighbors_errors = errors[neighbors]
worst_neighbor = neighbors[torch.argmax(neighbors_errors)]
# New Prototype
new_component = 0.5 * (components[worst] +
components[worst_neighbor])
# Add component
pl_module.proto_layer.add_components(
None,
initializer=LiteralCompInitializer(new_component.unsqueeze(0)))
# Adjust Topology
topology.add_prototype()
topology.add_connection(worst, -1)
topology.add_connection(worst_neighbor, -1)
topology.remove_connection(worst, worst_neighbor)
# New errors
worst_error = errors[worst].unsqueeze(0)
pl_module.errors = torch.cat([pl_module.errors, worst_error])
pl_module.errors[worst] = errors[worst] * self.reduction
pl_module.errors[
worst_neighbor] = errors[worst_neighbor] * self.reduction
trainer.accelerator.setup_optimizers(trainer)