prototorch_models/prototorch/models/cbc.py

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import pytorch_lightning as pl
import torch
import torchmetrics
from prototorch.components.components import Components
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from prototorch.functions.distances import euclidean_distance
from prototorch.functions.similarities import cosine_similarity
def rescaled_cosine_similarity(x, y):
"""Cosine Similarity rescaled to [0, 1]."""
similarities = cosine_similarity(x, y)
return (similarities + 1.0) / 2.0
def shift_activation(x):
return (x + 1.0) / 2.0
def euclidean_similarity(x, y):
d = euclidean_distance(x, y)
return torch.exp(-d * 3)
class CosineSimilarity(torch.nn.Module):
def __init__(self, activation=shift_activation):
super().__init__()
self.activation = activation
def forward(self, x, y):
epsilon = torch.finfo(x.dtype).eps
normed_x = (x / x.pow(2).sum(dim=tuple(range(
1, x.ndim)), keepdim=True).clamp(min=epsilon).sqrt()).flatten(
start_dim=1)
normed_y = (y / y.pow(2).sum(dim=tuple(range(
1, y.ndim)), keepdim=True).clamp(min=epsilon).sqrt()).flatten(
start_dim=1)
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# normed_x = (x / torch.linalg.norm(x, dim=1))
diss = torch.inner(normed_x, normed_y)
return self.activation(diss)
class MarginLoss(torch.nn.modules.loss._Loss):
def __init__(self,
margin=0.3,
size_average=None,
reduce=None,
reduction="mean"):
super().__init__(size_average, reduce, reduction)
self.margin = margin
def forward(self, input_, target):
dp = torch.sum(target * input_, dim=-1)
dm = torch.max(input_ - target, dim=-1).values
return torch.nn.functional.relu(dm - dp + self.margin)
class ReasoningLayer(torch.nn.Module):
def __init__(self, n_components, n_classes, n_replicas=1):
super().__init__()
self.n_replicas = n_replicas
self.n_classes = n_classes
probabilities_init = torch.zeros(2, 1, n_components, self.n_classes)
probabilities_init.uniform_(0.4, 0.6)
self.reasoning_probabilities = torch.nn.Parameter(probabilities_init)
@property
def reasonings(self):
pk = self.reasoning_probabilities[0]
nk = (1 - pk) * self.reasoning_probabilities[1]
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ik = 1 - pk - nk
img = torch.cat([pk, nk, ik], dim=0).permute(1, 0, 2)
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return img.unsqueeze(1)
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def forward(self, detections):
pk = self.reasoning_probabilities[0].clamp(0, 1)
nk = (1 - pk) * self.reasoning_probabilities[1].clamp(0, 1)
epsilon = torch.finfo(pk.dtype).eps
numerator = (detections @ (pk - nk)) + nk.sum(1)
probs = numerator / (pk + nk).sum(1)
probs = probs.squeeze(0)
return probs
class CBC(pl.LightningModule):
"""Classification-By-Components."""
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def __init__(self,
hparams,
margin=0.1,
backbone_class=torch.nn.Identity,
similarity=euclidean_similarity,
**kwargs):
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super().__init__()
self.save_hyperparameters(hparams)
self.margin = margin
self.component_layer = Components(self.hparams.num_components,
self.hparams.component_initializer)
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# self.similarity = CosineSimilarity()
self.similarity = similarity
self.backbone = backbone_class()
self.backbone_dependent = backbone_class().requires_grad_(False)
n_components = self.components.shape[0]
self.reasoning_layer = ReasoningLayer(n_components=n_components,
n_classes=self.hparams.nclasses)
self.train_acc = torchmetrics.Accuracy()
@property
def components(self):
return self.component_layer.components.detach().cpu()
@property
def reasonings(self):
return self.reasoning_layer.reasonings.cpu()
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def configure_optimizers(self):
optimizer = torch.optim.Adam(self.parameters(), lr=self.hparams.lr)
return optimizer
def sync_backbones(self):
master_state = self.backbone.state_dict()
self.backbone_dependent.load_state_dict(master_state, strict=True)
def forward(self, x):
self.sync_backbones()
protos = self.component_layer()
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latent_x = self.backbone(x)
latent_protos = self.backbone_dependent(protos)
detections = self.similarity(latent_x, latent_protos)
probs = self.reasoning_layer(detections)
return probs
def training_step(self, train_batch, batch_idx):
x, y = train_batch
x = x.view(x.size(0), -1)
y_pred = self(x)
nclasses = self.reasoning_layer.n_classes
y_true = torch.nn.functional.one_hot(y.long(), num_classes=nclasses)
loss = MarginLoss(self.margin)(y_pred, y_true).mean(dim=0)
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self.log("train_loss", loss)
self.train_acc(y_pred, y_true)
self.log(
"acc",
self.train_acc,
on_step=False,
on_epoch=True,
prog_bar=True,
logger=True,
)
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return loss
def predict(self, x):
with torch.no_grad():
y_pred = self(x)
y_pred = torch.argmax(y_pred, dim=1)
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return y_pred
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class ImageCBC(CBC):
"""CBC model that constrains the components to the range [0, 1] by
clamping after updates.
"""
def on_train_batch_end(self, outputs, batch, batch_idx, dataloader_idx):
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# super().on_train_batch_end(outputs, batch, batch_idx, dataloader_idx)
self.component_layer.prototypes.data.clamp_(0.0, 1.0)