forked from mrq/DL-Art-School
219 lines
8.8 KiB
Python
219 lines
8.8 KiB
Python
import torch.nn
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from models.archs.SPSR_arch import ImageGradientNoPadding
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from data.weight_scheduler import get_scheduler_for_opt
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from utils.util import checkpoint
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import torchvision.utils as utils
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#from models.steps.recursive_gen_injectors import ImageFlowInjector
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from models.steps.losses import extract_params_from_state
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# Injectors are a way to sythesize data within a step that can then be used (and reused) by loss functions.
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def create_injector(opt_inject, env):
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type = opt_inject['type']
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if 'teco_' in type:
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from models.steps.tecogan_losses import create_teco_injector
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return create_teco_injector(opt_inject, env)
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elif type == 'generator':
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return ImageGeneratorInjector(opt_inject, env)
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elif type == 'discriminator':
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return DiscriminatorInjector(opt_inject, env)
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elif type == 'scheduled_scalar':
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return ScheduledScalarInjector(opt_inject, env)
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elif type == 'img_grad':
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return ImageGradientInjector(opt_inject, env)
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elif type == 'add_noise':
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return AddNoiseInjector(opt_inject, env)
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elif type == 'greyscale':
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return GreyInjector(opt_inject, env)
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elif type == 'interpolate':
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return InterpolateInjector(opt_inject, env)
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elif type == 'imageflow':
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return ImageFlowInjector(opt_inject, env)
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elif type == 'image_patch':
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return ImagePatchInjector(opt_inject, env)
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elif type == 'concatenate':
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return ConcatenateInjector(opt_inject, env)
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elif type == 'margin_removal':
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return MarginRemoval(opt_inject, env)
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else:
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raise NotImplementedError
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class Injector(torch.nn.Module):
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def __init__(self, opt, env):
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super(Injector, self).__init__()
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self.opt = opt
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self.env = env
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if 'in' in opt.keys():
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self.input = opt['in']
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self.output = opt['out']
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# This should return a dict of new state variables.
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def forward(self, state):
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raise NotImplementedError
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# Uses a generator to synthesize an image from [in] and injects the results into [out]
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# Note that results are *not* detached.
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class ImageGeneratorInjector(Injector):
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def __init__(self, opt, env):
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super(ImageGeneratorInjector, self).__init__(opt, env)
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def forward(self, state):
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gen = self.env['generators'][self.opt['generator']]
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if isinstance(self.input, list):
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params = extract_params_from_state(self.input, state)
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results = gen(*params)
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else:
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results = gen(state[self.input])
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new_state = {}
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if isinstance(self.output, list):
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# Only dereference tuples or lists, not tensors.
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assert isinstance(results, list) or isinstance(results, tuple)
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for i, k in enumerate(self.output):
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new_state[k] = results[i]
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else:
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new_state[self.output] = results
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return new_state
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# Injects a result from a discriminator network into the state.
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class DiscriminatorInjector(Injector):
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def __init__(self, opt, env):
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super(DiscriminatorInjector, self).__init__(opt, env)
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def forward(self, state):
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d = self.env['discriminators'][self.opt['discriminator']]
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if isinstance(self.input, list):
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params = [state[i] for i in self.input]
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results = d(*params)
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else:
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results = d(state[self.input])
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new_state = {}
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if isinstance(self.output, list):
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# Only dereference tuples or lists, not tensors.
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assert isinstance(results, list) or isinstance(results, tuple)
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for i, k in enumerate(self.output):
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new_state[k] = results[i]
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else:
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new_state[self.output] = results
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return new_state
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# Creates an image gradient from [in] and injects it into [out]
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class ImageGradientInjector(Injector):
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def __init__(self, opt, env):
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super(ImageGradientInjector, self).__init__(opt, env)
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self.img_grad_fn = ImageGradientNoPadding().to(env['device'])
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def forward(self, state):
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return {self.opt['out']: self.img_grad_fn(state[self.opt['in']])}
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# Injects a scalar that is modulated with a specified schedule. Useful for increasing or decreasing the influence
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# of something over time.
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class ScheduledScalarInjector(Injector):
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def __init__(self, opt, env):
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super(ScheduledScalarInjector, self).__init__(opt, env)
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self.scheduler = get_scheduler_for_opt(opt['scheduler'])
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def forward(self, state):
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return {self.opt['out']: self.scheduler.get_weight_for_step(self.env['step'])}
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# Adds gaussian noise to [in], scales it to [0,[scale]] and injects into [out]
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class AddNoiseInjector(Injector):
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def __init__(self, opt, env):
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super(AddNoiseInjector, self).__init__(opt, env)
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def forward(self, state):
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# Scale can be a fixed float, or a state key (e.g. from ScheduledScalarInjector).
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if isinstance(self.opt['scale'], str):
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scale = state[self.opt['scale']]
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else:
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scale = self.opt['scale']
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noise = torch.randn_like(state[self.opt['in']], device=self.env['device']) * scale
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return {self.opt['out']: state[self.opt['in']] + noise}
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# Averages the channel dimension (1) of [in] and saves to [out]. Dimensions are
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# kept the same, the average is simply repeated.
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class GreyInjector(Injector):
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def __init__(self, opt, env):
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super(GreyInjector, self).__init__(opt, env)
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def forward(self, state):
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mean = torch.mean(state[self.opt['in']], dim=1, keepdim=True)
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mean = mean.repeat(1, 3, 1, 1)
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return {self.opt['out']: mean}
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class InterpolateInjector(Injector):
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def __init__(self, opt, env):
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super(InterpolateInjector, self).__init__(opt, env)
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if 'scale_factor' in opt.keys():
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self.scale_factor = opt['scale_factor']
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self.size = None
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else:
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self.scale_factor = None
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self.size = (opt['size'], opt['size'])
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def forward(self, state):
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scaled = torch.nn.functional.interpolate(state[self.opt['in']], scale_factor=self.opt['scale_factor'],
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size=self.opt['size'], mode=self.opt['mode'])
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return {self.opt['out']: scaled}
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# Extracts four patches from the input image, each a square of 'patch_size'. The input images are taken from each
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# of the four corners of the image. The intent of this loss is that each patch shares some part of the input, which
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# can then be used in the translation invariance loss.
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#
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# This injector is unique in that it does not only produce the specified output label into state. Instead it produces five
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# outputs for the specified label, one for each corner of the input as well as the specified output, which is the top left
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# corner. See the code below to find out how this works.
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#
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# Another note: this injector operates differently in eval mode (e.g. when env['training']=False) - in this case, it
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# simply sets all the output state variables to the input. This is so that you can feed the output of this injector
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# directly into your generator in training without affecting test performance.
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class ImagePatchInjector(Injector):
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def __init__(self, opt, env):
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super(ImagePatchInjector, self).__init__(opt, env)
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self.patch_size = opt['patch_size']
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def forward(self, state):
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im = state[self.opt['in']]
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if self.env['training']:
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return { self.opt['out']: im[:, :3, :self.patch_size, :self.patch_size],
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'%s_top_left' % (self.opt['out'],): im[:, :, :self.patch_size, :self.patch_size],
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'%s_top_right' % (self.opt['out'],): im[:, :, :self.patch_size, -self.patch_size:],
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'%s_bottom_left' % (self.opt['out'],): im[:, :, -self.patch_size:, :self.patch_size],
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'%s_bottom_right' % (self.opt['out'],): im[:, :, -self.patch_size:, -self.patch_size:] }
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else:
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return { self.opt['out']: im,
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'%s_top_left' % (self.opt['out'],): im,
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'%s_top_right' % (self.opt['out'],): im,
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'%s_bottom_left' % (self.opt['out'],): im,
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'%s_bottom_right' % (self.opt['out'],): im }
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# Concatenates a list of tensors on the specified dimension.
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class ConcatenateInjector(Injector):
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def __init__(self, opt, env):
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super(ConcatenateInjector, self).__init__(opt, env)
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self.dim = opt['dim']
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def forward(self, state):
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input = [state[i] for i in self.input]
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return {self.opt['out']: torch.cat(input, dim=self.dim)}
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# Removes margins from an image.
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class MarginRemoval(Injector):
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def __init__(self, opt, env):
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super(MarginRemoval, self).__init__(opt, env)
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self.margin = opt['margin']
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def forward(self, state):
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input = state[self.input]
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return {self.opt['out']: input[:, :, self.margin:-self.margin, self.margin:-self.margin]} |