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experiment.py
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experiment.py
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import os
import math
import torch
from torch import optim
from models import BaseVAE
from models.types_ import *
from utils import data_loader
import pytorch_lightning as pl
from torchvision import transforms
import torchvision.utils as vutils
from torchvision.datasets import CelebA
from torch.utils.data import DataLoader
class VAEXperiment(pl.LightningModule):
def __init__(self,
vae_model: BaseVAE,
params: dict) -> None:
super(VAEXperiment, self).__init__()
self.model = vae_model
self.params = params
self.curr_device = None
self.hold_graph = False
try:
self.hold_graph = self.params['retain_first_backpass']
except:
pass
def forward(self, input: Tensor, **kwargs) -> Tensor:
return self.model(input, **kwargs)
def training_step(self, batch, batch_idx, optimizer_idx = 0):
real_img, labels = batch
self.curr_device = real_img.device
results = self.forward(real_img, labels = labels)
train_loss = self.model.loss_function(*results,
M_N = self.params['kld_weight'], #al_img.shape[0]/ self.num_train_imgs,
optimizer_idx=optimizer_idx,
batch_idx = batch_idx)
self.log_dict({key: val.item() for key, val in train_loss.items()}, sync_dist=True)
return train_loss['loss']
def validation_step(self, batch, batch_idx, optimizer_idx = 0):
real_img, labels = batch
self.curr_device = real_img.device
results = self.forward(real_img, labels = labels)
val_loss = self.model.loss_function(*results,
M_N = 1.0, #real_img.shape[0]/ self.num_val_imgs,
optimizer_idx = optimizer_idx,
batch_idx = batch_idx)
self.log_dict({f"val_{key}": val.item() for key, val in val_loss.items()}, sync_dist=True)
def on_validation_end(self) -> None:
self.sample_images()
def sample_images(self):
# Get sample reconstruction image
test_input, test_label = next(iter(self.trainer.datamodule.test_dataloader()))
test_input = test_input.to(self.curr_device)
test_label = test_label.to(self.curr_device)
# test_input, test_label = batch
recons = self.model.generate(test_input, labels = test_label)
vutils.save_image(recons.data,
os.path.join(self.logger.log_dir ,
"Reconstructions",
f"recons_{self.logger.name}_Epoch_{self.current_epoch}.png"),
normalize=True,
nrow=12)
try:
samples = self.model.sample(144,
self.curr_device,
labels = test_label)
vutils.save_image(samples.cpu().data,
os.path.join(self.logger.log_dir ,
"Samples",
f"{self.logger.name}_Epoch_{self.current_epoch}.png"),
normalize=True,
nrow=12)
except Warning:
pass
def configure_optimizers(self):
optims = []
scheds = []
optimizer = optim.Adam(self.model.parameters(),
lr=self.params['LR'],
weight_decay=self.params['weight_decay'])
optims.append(optimizer)
# Check if more than 1 optimizer is required (Used for adversarial training)
try:
if self.params['LR_2'] is not None:
optimizer2 = optim.Adam(getattr(self.model,self.params['submodel']).parameters(),
lr=self.params['LR_2'])
optims.append(optimizer2)
except:
pass
try:
if self.params['scheduler_gamma'] is not None:
scheduler = optim.lr_scheduler.ExponentialLR(optims[0],
gamma = self.params['scheduler_gamma'])
scheds.append(scheduler)
# Check if another scheduler is required for the second optimizer
try:
if self.params['scheduler_gamma_2'] is not None:
scheduler2 = optim.lr_scheduler.ExponentialLR(optims[1],
gamma = self.params['scheduler_gamma_2'])
scheds.append(scheduler2)
except:
pass
return optims, scheds
except:
return optims