lightning/examples/pytorch/domain_templates/generative_adversarial_net.py

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# Copyright The Lightning AI team.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""To run this template just do: python generative_adversarial_net.py.
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After a few epochs, launch TensorBoard to see the images being generated at every batch:
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tensorboard --logdir default
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"""
import math
from argparse import ArgumentParser, Namespace
import torch
import torch.nn as nn
import torch.nn.functional as F
from lightning.pytorch import cli_lightning_logo
from lightning.pytorch.core import LightningModule
from lightning.pytorch.demos.mnist_datamodule import MNISTDataModule
from lightning.pytorch.trainer import Trainer
from lightning.pytorch.utilities.imports import _TORCHVISION_AVAILABLE
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if _TORCHVISION_AVAILABLE:
import torchvision
class Generator(nn.Module):
"""
>>> Generator(img_shape=(1, 8, 8)) # doctest: +ELLIPSIS +NORMALIZE_WHITESPACE
Generator(
(model): Sequential(...)
)
"""
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def __init__(self, latent_dim: int = 100, img_shape: tuple = (1, 28, 28)):
super().__init__()
self.img_shape = img_shape
def block(in_feat, out_feat, normalize=True):
layers = [nn.Linear(in_feat, out_feat)]
if normalize:
layers.append(nn.BatchNorm1d(out_feat, 0.8))
layers.append(nn.LeakyReLU(0.2, inplace=True))
return layers
self.model = nn.Sequential(
*block(latent_dim, 128, normalize=False),
*block(128, 256),
*block(256, 512),
*block(512, 1024),
nn.Linear(1024, int(math.prod(img_shape))),
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nn.Tanh(),
)
def forward(self, z):
img = self.model(z)
return img.view(img.size(0), *self.img_shape)
class Discriminator(nn.Module):
"""
>>> Discriminator(img_shape=(1, 28, 28)) # doctest: +ELLIPSIS +NORMALIZE_WHITESPACE
Discriminator(
(model): Sequential(...)
)
"""
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def __init__(self, img_shape):
super().__init__()
self.model = nn.Sequential(
nn.Linear(int(math.prod(img_shape)), 512),
nn.LeakyReLU(0.2, inplace=True),
nn.Linear(512, 256),
nn.LeakyReLU(0.2, inplace=True),
nn.Linear(256, 1),
)
def forward(self, img):
img_flat = img.view(img.size(0), -1)
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return self.model(img_flat)
resolving documentation warnings (#833) * add more underline * fix LightningMudule import error * remove unneeded blank line * escape asterisk to fix inline emphasis warning * add PULL_REQUEST_TEMPLATE.md * add __init__.py and import imagenet_example * fix duplicate label * add noindex option to fix duplicate object warnings * remove unexpected indent * refer explicit LightningModule * fix minor bug * refer EarlyStopping explicitly * restore exclude patterns * change the way how to refer class * remove unused import * update badges & drop Travis/Appveyor (#826) * drop Travis * drop Appveyor * update badges * fix missing PyPI images & CI badges (#853) * docs - anchor links (#848) * docs - add links * add desc. * add Greeting action (#843) * add Greeting action * Update greetings.yml Co-authored-by: William Falcon <waf2107@columbia.edu> * add pep8speaks (#842) * advanced profiler describe + cleaned up tests (#837) * add py36 compatibility * add test case to capture previous bug * clean up tests * clean up tests * Update lightning_module_template.py * Update lightning.py * respond lint issues * break long line * break more lines * checkout conflicting files from master * shorten url * checkout from upstream/master * remove trailing whitespaces * remove unused import LightningModule * fix sphinx bot warnings * Apply suggestions from code review just to trigger CI * Update .github/workflows/greetings.yml Co-authored-by: Jirka Borovec <Borda@users.noreply.github.com> Co-authored-by: William Falcon <waf2107@columbia.edu> Co-authored-by: Jeremy Jordan <13970565+jeremyjordan@users.noreply.github.com>
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class GAN(LightningModule):
"""
>>> GAN(img_shape=(1, 8, 8)) # doctest: +ELLIPSIS +NORMALIZE_WHITESPACE
GAN(
(generator): Generator(
(model): Sequential(...)
)
(discriminator): Discriminator(
(model): Sequential(...)
)
)
"""
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def __init__(
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self,
img_shape: tuple = (1, 28, 28),
lr: float = 0.0002,
b1: float = 0.5,
b2: float = 0.999,
latent_dim: int = 100,
):
super().__init__()
self.save_hyperparameters()
self.automatic_optimization = False
# networks
self.generator = Generator(latent_dim=self.hparams.latent_dim, img_shape=img_shape)
self.discriminator = Discriminator(img_shape=img_shape)
self.validation_z = torch.randn(8, self.hparams.latent_dim)
self.example_input_array = torch.zeros(2, self.hparams.latent_dim)
def forward(self, z):
return self.generator(z)
@staticmethod
def adversarial_loss(y_hat, y):
return F.binary_cross_entropy_with_logits(y_hat, y)
def training_step(self, batch):
imgs, _ = batch
opt_g, opt_d = self.optimizers()
# sample noise
z = torch.randn(imgs.shape[0], self.hparams.latent_dim)
z = z.type_as(imgs)
# Train generator
# ground truth result (ie: all fake)
# put on GPU because we created this tensor inside training_loop
valid = torch.ones(imgs.size(0), 1)
valid = valid.type_as(imgs)
self.toggle_optimizer(opt_g)
# adversarial loss is binary cross-entropy
g_loss = self.adversarial_loss(self.discriminator(self(z)), valid)
opt_g.zero_grad()
self.manual_backward(g_loss)
opt_g.step()
self.untoggle_optimizer(opt_g)
# Train discriminator
# Measure discriminator's ability to classify real from generated samples
# how well can it label as real?
valid = torch.ones(imgs.size(0), 1)
valid = valid.type_as(imgs)
self.toggle_optimizer(opt_d)
real_loss = self.adversarial_loss(self.discriminator(imgs), valid)
# how well can it label as fake?
fake = torch.zeros(imgs.size(0), 1)
fake = fake.type_as(imgs)
fake_loss = self.adversarial_loss(self.discriminator(self(z).detach()), fake)
# discriminator loss is the average of these
d_loss = (real_loss + fake_loss) / 2
opt_d.zero_grad()
self.manual_backward(d_loss)
opt_d.step()
self.untoggle_optimizer(opt_d)
self.log_dict({"d_loss": d_loss, "g_loss": g_loss})
def configure_optimizers(self):
lr = self.hparams.lr
b1 = self.hparams.b1
b2 = self.hparams.b2
opt_g = torch.optim.Adam(self.generator.parameters(), lr=lr, betas=(b1, b2))
opt_d = torch.optim.Adam(self.discriminator.parameters(), lr=lr, betas=(b1, b2))
return opt_g, opt_d
def on_train_epoch_end(self):
z = self.validation_z.type_as(self.generator.model[0].weight)
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# log sampled images
sample_imgs = self(z)
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grid = torchvision.utils.make_grid(sample_imgs)
for logger in self.loggers:
logger.experiment.add_image("generated_images", grid, self.current_epoch)
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def main(args: Namespace) -> None:
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# ------------------------
# 1 INIT LIGHTNING MODEL
# ------------------------
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model = GAN(lr=args.lr, b1=args.b1, b2=args.b2, latent_dim=args.latent_dim)
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# ------------------------
# 2 INIT TRAINER
# ------------------------
# If use distributed training PyTorch recommends to use DistributedDataParallel.
# See: https://pytorch.org/docs/stable/nn.html#torch.nn.DataParallel
dm = MNISTDataModule()
trainer = Trainer(accelerator="gpu", devices=1)
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# ------------------------
# 3 START TRAINING
# ------------------------
trainer.fit(model, dm)
if __name__ == "__main__":
cli_lightning_logo()
parser = ArgumentParser()
# Hyperparameters
parser.add_argument("--lr", type=float, default=0.0002, help="adam: learning rate")
parser.add_argument("--b1", type=float, default=0.5, help="adam: decay of first order momentum of gradient")
parser.add_argument("--b2", type=float, default=0.999, help="adam: decay of second order momentum of gradient")
parser.add_argument("--latent_dim", type=int, default=100, help="dimensionality of the latent space")
args = parser.parse_args()
main(args)