import functools import logging from collections import OrderedDict import munch import torch import torchvision from munch import munchify import models.stylegan.stylegan2_lucidrains as stylegan2 import models.fixup_resnet.DiscriminatorResnet_arch as DiscriminatorResnet_arch import models.RRDBNet_arch as RRDBNet_arch import models.SwitchedResidualGenerator_arch as SwitchedGen_arch import models.discriminator_vgg_arch as SRGAN_arch import models.feature_arch as feature_arch from models import srg2_classic from models.stylegan.Discriminator_StyleGAN import StyleGanDiscriminator from models.tecogan.teco_resgen import TecoGen from utils.util import opt_get logger = logging.getLogger('base') # Generator def define_G(opt, opt_net, scale=None): if scale is None: scale = opt['scale'] which_model = opt_net['which_model_G'] if 'RRDBNet' in which_model: if which_model == 'RRDBNetBypass': block = RRDBNet_arch.RRDBWithBypass elif which_model == 'RRDBNetLambda': from models.lambda_rrdb import LambdaRRDB block = LambdaRRDB else: block = RRDBNet_arch.RRDB additive_mode = opt_net['additive_mode'] if 'additive_mode' in opt_net.keys() else 'not' output_mode = opt_net['output_mode'] if 'output_mode' in opt_net.keys() else 'hq_only' gc = opt_net['gc'] if 'gc' in opt_net.keys() else 32 initial_stride = opt_net['initial_stride'] if 'initial_stride' in opt_net.keys() else 1 netG = RRDBNet_arch.RRDBNet(in_channels=opt_net['in_nc'], out_channels=opt_net['out_nc'], mid_channels=opt_net['nf'], num_blocks=opt_net['nb'], additive_mode=additive_mode, output_mode=output_mode, body_block=block, scale=opt_net['scale'], growth_channels=gc, initial_stride=initial_stride) elif which_model == "ConfigurableSwitchedResidualGenerator2": netG = SwitchedGen_arch.ConfigurableSwitchedResidualGenerator2(switch_depth=opt_net['switch_depth'], switch_filters=opt_net['switch_filters'], switch_reductions=opt_net['switch_reductions'], switch_processing_layers=opt_net['switch_processing_layers'], trans_counts=opt_net['trans_counts'], trans_kernel_sizes=opt_net['trans_kernel_sizes'], trans_layers=opt_net['trans_layers'], transformation_filters=opt_net['transformation_filters'], attention_norm=opt_net['attention_norm'], initial_temp=opt_net['temperature'], final_temperature_step=opt_net['temperature_final_step'], heightened_temp_min=opt_net['heightened_temp_min'], heightened_final_step=opt_net['heightened_final_step'], upsample_factor=scale, add_scalable_noise_to_transforms=opt_net['add_noise'], for_video=opt_net['for_video']) elif which_model == "srg2classic": netG = srg2_classic.ConfigurableSwitchedResidualGenerator2(switch_depth=opt_net['switch_depth'], switch_filters=opt_net['switch_filters'], switch_reductions=opt_net['switch_reductions'], switch_processing_layers=opt_net['switch_processing_layers'], trans_counts=opt_net['trans_counts'], trans_kernel_sizes=opt_net['trans_kernel_sizes'], trans_layers=opt_net['trans_layers'], transformation_filters=opt_net['transformation_filters'], initial_temp=opt_net['temperature'], final_temperature_step=opt_net['temperature_final_step'], heightened_temp_min=opt_net['heightened_temp_min'], heightened_final_step=opt_net['heightened_final_step'], upsample_factor=scale, add_scalable_noise_to_transforms=opt_net['add_noise']) elif which_model == "flownet2": from models.flownet2 import FlowNet2 ld = 'load_path' in opt_net.keys() args = munch.Munch({'fp16': False, 'rgb_max': 1.0, 'checkpoint': not ld}) netG = FlowNet2(args) if ld: sd = torch.load(opt_net['load_path']) netG.load_state_dict(sd['state_dict']) elif which_model == "backbone_encoder": netG = SwitchedGen_arch.BackboneEncoder(pretrained_backbone=opt_net['pretrained_spinenet']) elif which_model == "backbone_encoder_no_ref": netG = SwitchedGen_arch.BackboneEncoderNoRef(pretrained_backbone=opt_net['pretrained_spinenet']) elif which_model == "backbone_encoder_no_head": netG = SwitchedGen_arch.BackboneSpinenetNoHead() elif which_model == "backbone_resnet": netG = SwitchedGen_arch.BackboneResnet() elif which_model == "tecogen": netG = TecoGen(opt_net['nf'], opt_net['scale']) elif which_model == 'stylegan2': is_structured = opt_net['structured'] if 'structured' in opt_net.keys() else False attn = opt_net['attn_layers'] if 'attn_layers' in opt_net.keys() else [] netG = stylegan2.StyleGan2GeneratorWithLatent(image_size=opt_net['image_size'], latent_dim=opt_net['latent_dim'], style_depth=opt_net['style_depth'], structure_input=is_structured, attn_layers=attn) elif which_model == 'srflow': from models.srflow import SRFlowNet_arch netG = SRFlowNet_arch.SRFlowNet(in_nc=3, out_nc=3, nf=opt_net['nf'], nb=opt_net['nb'], scale=opt_net['scale'], K=opt_net['K'], opt=opt) elif which_model == 'rrdb_latent_wrapper': from models.srflow.RRDBNet_arch import RRDBLatentWrapper netG = RRDBLatentWrapper(in_nc=opt_net['in_nc'], out_nc=opt_net['out_nc'], nf=opt_net['nf'], nb=opt_net['nb'], with_bypass=opt_net['with_bypass'], blocks=opt_net['blocks_for_latent'], scale=opt_net['scale'], pretrain_rrdb_path=opt_net['pretrain_path']) elif which_model == 'rrdb_centipede': output_mode = opt_net['output_mode'] if 'output_mode' in opt_net.keys() else 'hq_only' netG = RRDBNet_arch.RRDBNet(in_channels=opt_net['in_nc'], out_channels=opt_net['out_nc'], mid_channels=opt_net['nf'], num_blocks=opt_net['nb'], scale=opt_net['scale'], headless=True, output_mode=output_mode) elif which_model == 'rrdb_srflow': from models.srflow.RRDBNet_arch import RRDBNet netG = RRDBNet(in_nc=opt_net['in_nc'], out_nc=opt_net['out_nc'], nf=opt_net['nf'], nb=opt_net['nb'], scale=opt_net['scale'], initial_conv_stride=opt_net['initial_stride']) elif which_model == 'igpt2': from models.transformers.igpt.gpt2 import iGPT2 netG = iGPT2(opt_net['embed_dim'], opt_net['num_heads'], opt_net['num_layers'], opt_net['num_pixels'] ** 2, opt_net['num_vocab'], centroids_file=opt_net['centroids_file']) elif which_model == 'byol': from models.byol.byol_model_wrapper import BYOL subnet = define_G(opt, opt_net['subnet']) netG = BYOL(subnet, opt_net['image_size'], opt_net['hidden_layer'], structural_mlp=opt_get(opt_net, ['use_structural_mlp'], False), do_augmentation=opt_get(opt_net, ['gpu_augmentation'], False)) elif which_model == 'structural_byol': from models.byol.byol_structural import StructuralBYOL subnet = define_G(opt, opt_net['subnet']) netG = StructuralBYOL(subnet, opt_net['image_size'], opt_net['hidden_layer'], pretrained_state_dict=opt_get(opt_net, ["pretrained_path"]), freeze_until=opt_get(opt_net, ['freeze_until'], 0)) elif which_model == 'spinenet': from models.spinenet_arch import SpineNet netG = SpineNet(str(opt_net['arch']), in_channels=3, use_input_norm=opt_net['use_input_norm']) elif which_model == 'spinenet_with_logits': from models.spinenet_arch import SpinenetWithLogits netG = SpinenetWithLogits(str(opt_net['arch']), opt_net['output_to_attach'], opt_net['num_labels'], in_channels=3, use_input_norm=opt_net['use_input_norm']) elif which_model == 'resnet52': from models.resnet_with_checkpointing import resnet50 netG = resnet50(pretrained=opt_net['pretrained']) elif which_model == 'glean': from models.glean.glean import GleanGenerator netG = GleanGenerator(opt_net['nf'], opt_net['pretrained_stylegan']) else: raise NotImplementedError('Generator model [{:s}] not recognized'.format(which_model)) return netG class GradDiscWrapper(torch.nn.Module): def __init__(self, m): super(GradDiscWrapper, self).__init__() logger.info("Wrapping a discriminator..") self.m = m def forward(self, x): return self.m(x) def define_D_net(opt_net, img_sz=None, wrap=False): which_model = opt_net['which_model_D'] if 'image_size' in opt_net.keys(): img_sz = opt_net['image_size'] if which_model == 'discriminator_vgg_128': netD = SRGAN_arch.Discriminator_VGG_128(in_nc=opt_net['in_nc'], nf=opt_net['nf'], input_img_factor=img_sz / 128, extra_conv=opt_net['extra_conv']) elif which_model == 'discriminator_vgg_128_gn': extra_conv = opt_net['extra_conv'] if 'extra_conv' in opt_net.keys() else False netD = SRGAN_arch.Discriminator_VGG_128_GN(in_nc=opt_net['in_nc'], nf=opt_net['nf'], input_img_factor=img_sz / 128, extra_conv=extra_conv) if wrap: netD = GradDiscWrapper(netD) elif which_model == 'discriminator_vgg_128_gn_checkpointed': netD = SRGAN_arch.Discriminator_VGG_128_GN(in_nc=opt_net['in_nc'], nf=opt_net['nf'], input_img_factor=img_sz / 128, do_checkpointing=True) elif which_model == 'stylegan_vgg': netD = StyleGanDiscriminator(128) elif which_model == 'discriminator_resnet': netD = DiscriminatorResnet_arch.fixup_resnet34(num_filters=opt_net['nf'], num_classes=1, input_img_size=img_sz) elif which_model == 'discriminator_resnet_50': netD = DiscriminatorResnet_arch.fixup_resnet50(num_filters=opt_net['nf'], num_classes=1, input_img_size=img_sz) elif which_model == 'resnext': netD = torchvision.models.resnext50_32x4d(norm_layer=functools.partial(torch.nn.GroupNorm, 8)) #state_dict = torch.hub.load_state_dict_from_url('https://download.pytorch.org/models/resnext50_32x4d-7cdf4587.pth', progress=True) #netD.load_state_dict(state_dict, strict=False) netD.fc = torch.nn.Linear(512 * 4, 1) elif which_model == 'discriminator_pix': netD = SRGAN_arch.Discriminator_VGG_PixLoss(in_nc=opt_net['in_nc'], nf=opt_net['nf']) elif which_model == "discriminator_unet": netD = SRGAN_arch.Discriminator_UNet(in_nc=opt_net['in_nc'], nf=opt_net['nf']) elif which_model == "discriminator_unet_fea": netD = SRGAN_arch.Discriminator_UNet_FeaOut(in_nc=opt_net['in_nc'], nf=opt_net['nf'], feature_mode=opt_net['feature_mode']) elif which_model == "discriminator_switched": netD = SRGAN_arch.Discriminator_switched(in_nc=opt_net['in_nc'], nf=opt_net['nf'], initial_temp=opt_net['initial_temp'], final_temperature_step=opt_net['final_temperature_step']) elif which_model == "cross_compare_vgg128": netD = SRGAN_arch.CrossCompareDiscriminator(in_nc=opt_net['in_nc'], ref_channels=opt_net['ref_channels'] if 'ref_channels' in opt_net.keys() else 3, nf=opt_net['nf'], scale=opt_net['scale']) elif which_model == "discriminator_refvgg": netD = SRGAN_arch.RefDiscriminatorVgg128(in_nc=opt_net['in_nc'], nf=opt_net['nf'], input_img_factor=img_sz / 128) elif which_model == "psnr_approximator": netD = SRGAN_arch.PsnrApproximator(nf=opt_net['nf'], input_img_factor=img_sz / 128) elif which_model == "stylegan2_discriminator": attn = opt_net['attn_layers'] if 'attn_layers' in opt_net.keys() else [] disc = stylegan2.StyleGan2Discriminator(image_size=opt_net['image_size'], input_filters=opt_net['in_nc'], attn_layers=attn) netD = stylegan2.StyleGan2Augmentor(disc, opt_net['image_size'], types=opt_net['augmentation_types'], prob=opt_net['augmentation_probability']) elif which_model == "rrdb_disc": netD = RRDBNet_arch.RRDBDiscriminator(opt_net['in_nc'], opt_net['nf'], opt_net['nb'], blocks_per_checkpoint=3) else: raise NotImplementedError('Discriminator model [{:s}] not recognized'.format(which_model)) return netD # Discriminator def define_D(opt, wrap=False): img_sz = opt['datasets']['train']['target_size'] opt_net = opt['network_D'] return define_D_net(opt_net, img_sz, wrap=wrap) def define_fixed_D(opt): # Note that this will not work with "old" VGG-style discriminators with dense blocks until the img_size parameter is added. net = define_D_net(opt) # Load the model parameters: load_net = torch.load(opt['pretrained_path']) load_net_clean = OrderedDict() # remove unnecessary 'module.' for k, v in load_net.items(): if k.startswith('module.'): load_net_clean[k[7:]] = v else: load_net_clean[k] = v net.load_state_dict(load_net_clean) # Put into eval mode, freeze the parameters and set the 'weight' field. net.eval() for k, v in net.named_parameters(): v.requires_grad = False net.fdisc_weight = opt['weight'] return net # Define network used for perceptual loss def define_F(which_model='vgg', use_bn=False, for_training=False, load_path=None, feature_layers=None): if which_model == 'vgg': # PyTorch pretrained VGG19-54, before ReLU. if feature_layers is None: if use_bn: feature_layers = [49] else: feature_layers = [34] if for_training: netF = feature_arch.TrainableVGGFeatureExtractor(feature_layers=feature_layers, use_bn=use_bn, use_input_norm=True) else: netF = feature_arch.VGGFeatureExtractor(feature_layers=feature_layers, use_bn=use_bn, use_input_norm=True) elif which_model == 'wide_resnet': netF = feature_arch.WideResnetFeatureExtractor(use_input_norm=True) else: raise NotImplementedError if load_path: # Load the model parameters: load_net = torch.load(load_path) load_net_clean = OrderedDict() # remove unnecessary 'module.' for k, v in load_net.items(): if k.startswith('module.'): load_net_clean[k[7:]] = v else: load_net_clean[k] = v netF.load_state_dict(load_net_clean) if not for_training: # Put into eval mode, freeze the parameters and set the 'weight' field. netF.eval() for k, v in netF.named_parameters(): v.requires_grad = False return netF