Spaces:

rinong
/

StyleGAN-NADA

Runtime error

App Files Files Community

StyleGAN-NADA / e4e /models /encoders /psp_encoders.py

rinong

Added e4e code

0d2ed80 about 2 years ago

raw history blame contribute delete

No virus

7.19 kB

	from enum import Enum
	import math
	import numpy as np
	import torch
	from torch import nn
	from torch.nn import Conv2d, BatchNorm2d, PReLU, Sequential, Module

	from e4e.models.encoders.helpers import get_blocks, bottleneck_IR, bottleneck_IR_SE, _upsample_add
	from e4e.models.stylegan2.model import EqualLinear


	class ProgressiveStage(Enum):
	WTraining = 0
	Delta1Training = 1
	Delta2Training = 2
	Delta3Training = 3
	Delta4Training = 4
	Delta5Training = 5
	Delta6Training = 6
	Delta7Training = 7
	Delta8Training = 8
	Delta9Training = 9
	Delta10Training = 10
	Delta11Training = 11
	Delta12Training = 12
	Delta13Training = 13
	Delta14Training = 14
	Delta15Training = 15
	Delta16Training = 16
	Delta17Training = 17
	Inference = 18


	class GradualStyleBlock(Module):
	def __init__(self, in_c, out_c, spatial):
	super(GradualStyleBlock, self).__init__()
	self.out_c = out_c
	self.spatial = spatial
	num_pools = int(np.log2(spatial))
	modules = []
	modules += [Conv2d(in_c, out_c, kernel_size=3, stride=2, padding=1),
	nn.LeakyReLU()]
	for i in range(num_pools - 1):
	modules += [
	Conv2d(out_c, out_c, kernel_size=3, stride=2, padding=1),
	nn.LeakyReLU()
	]
	self.convs = nn.Sequential(*modules)
	self.linear = EqualLinear(out_c, out_c, lr_mul=1)

	def forward(self, x):
	x = self.convs(x)
	x = x.view(-1, self.out_c)
	x = self.linear(x)
	return x


	class GradualStyleEncoder(Module):
	def __init__(self, num_layers, mode='ir', opts=None):
	super(GradualStyleEncoder, self).__init__()
	assert num_layers in [50, 100, 152], 'num_layers should be 50,100, or 152'
	assert mode in ['ir', 'ir_se'], 'mode should be ir or ir_se'
	blocks = get_blocks(num_layers)
	if mode == 'ir':
	unit_module = bottleneck_IR
	elif mode == 'ir_se':
	unit_module = bottleneck_IR_SE
	self.input_layer = Sequential(Conv2d(3, 64, (3, 3), 1, 1, bias=False),
	BatchNorm2d(64),
	PReLU(64))
	modules = []
	for block in blocks:
	for bottleneck in block:
	modules.append(unit_module(bottleneck.in_channel,
	bottleneck.depth,
	bottleneck.stride))
	self.body = Sequential(*modules)

	self.styles = nn.ModuleList()
	log_size = int(math.log(opts.stylegan_size, 2))
	self.style_count = 2 * log_size - 2
	self.coarse_ind = 3
	self.middle_ind = 7
	for i in range(self.style_count):
	if i < self.coarse_ind:
	style = GradualStyleBlock(512, 512, 16)
	elif i < self.middle_ind:
	style = GradualStyleBlock(512, 512, 32)
	else:
	style = GradualStyleBlock(512, 512, 64)
	self.styles.append(style)
	self.latlayer1 = nn.Conv2d(256, 512, kernel_size=1, stride=1, padding=0)
	self.latlayer2 = nn.Conv2d(128, 512, kernel_size=1, stride=1, padding=0)

	def forward(self, x):
	x = self.input_layer(x)

	latents = []
	modulelist = list(self.body._modules.values())
	for i, l in enumerate(modulelist):
	x = l(x)
	if i == 6:
	c1 = x
	elif i == 20:
	c2 = x
	elif i == 23:
	c3 = x

	for j in range(self.coarse_ind):
	latents.append(self.styles[j](c3))

	p2 = _upsample_add(c3, self.latlayer1(c2))
	for j in range(self.coarse_ind, self.middle_ind):
	latents.append(self.styles[j](p2))

	p1 = _upsample_add(p2, self.latlayer2(c1))
	for j in range(self.middle_ind, self.style_count):
	latents.append(self.styles[j](p1))

	out = torch.stack(latents, dim=1)
	return out


	class Encoder4Editing(Module):
	def __init__(self, num_layers, mode='ir', opts=None):
	super(Encoder4Editing, self).__init__()
	assert num_layers in [50, 100, 152], 'num_layers should be 50,100, or 152'
	assert mode in ['ir', 'ir_se'], 'mode should be ir or ir_se'
	blocks = get_blocks(num_layers)
	if mode == 'ir':
	unit_module = bottleneck_IR
	elif mode == 'ir_se':
	unit_module = bottleneck_IR_SE
	self.input_layer = Sequential(Conv2d(3, 64, (3, 3), 1, 1, bias=False),
	BatchNorm2d(64),
	PReLU(64))
	modules = []
	for block in blocks:
	for bottleneck in block:
	modules.append(unit_module(bottleneck.in_channel,
	bottleneck.depth,
	bottleneck.stride))
	self.body = Sequential(*modules)

	self.styles = nn.ModuleList()
	log_size = int(math.log(opts.stylegan_size, 2))
	self.style_count = 2 * log_size - 2
	self.coarse_ind = 3
	self.middle_ind = 7

	for i in range(self.style_count):
	if i < self.coarse_ind:
	style = GradualStyleBlock(512, 512, 16)
	elif i < self.middle_ind:
	style = GradualStyleBlock(512, 512, 32)
	else:
	style = GradualStyleBlock(512, 512, 64)
	self.styles.append(style)

	self.latlayer1 = nn.Conv2d(256, 512, kernel_size=1, stride=1, padding=0)
	self.latlayer2 = nn.Conv2d(128, 512, kernel_size=1, stride=1, padding=0)

	self.progressive_stage = ProgressiveStage.Inference

	def get_deltas_starting_dimensions(self):
	''' Get a list of the initial dimension of every delta from which it is applied '''
	return list(range(self.style_count)) # Each dimension has a delta applied to it

	def set_progressive_stage(self, new_stage: ProgressiveStage):
	self.progressive_stage = new_stage
	print('Changed progressive stage to: ', new_stage)

	def forward(self, x):
	x = self.input_layer(x)

	modulelist = list(self.body._modules.values())
	for i, l in enumerate(modulelist):
	x = l(x)
	if i == 6:
	c1 = x
	elif i == 20:
	c2 = x
	elif i == 23:
	c3 = x

	# Infer main W and duplicate it
	w0 = self.styles[0](c3)
	w = w0.repeat(self.style_count, 1, 1).permute(1, 0, 2)
	stage = self.progressive_stage.value
	features = c3
	for i in range(1, min(stage + 1, self.style_count)): # Infer additional deltas
	if i == self.coarse_ind:
	p2 = _upsample_add(c3, self.latlayer1(c2)) # FPN's middle features
	features = p2
	elif i == self.middle_ind:
	p1 = _upsample_add(p2, self.latlayer2(c1)) # FPN's fine features
	features = p1
	delta_i = self.styles[i](features)
	w[:, i] += delta_i
	return w