118 lines
4.7 KiB
Python
118 lines
4.7 KiB
Python
import torch
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from torch import nn as nn
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from models.archs.srflow import flow, thops, FlowAffineCouplingsAblation, FlowActNorms, Permutations
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def getConditional(rrdbResults, position):
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img_ft = rrdbResults if isinstance(rrdbResults, torch.Tensor) else rrdbResults[position]
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return img_ft
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class FlowStep(nn.Module):
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FlowPermutation = {
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"reverse": lambda obj, z, logdet, rev: (obj.reverse(z, rev), logdet),
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"shuffle": lambda obj, z, logdet, rev: (obj.shuffle(z, rev), logdet),
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"invconv": lambda obj, z, logdet, rev: obj.invconv(z, logdet, rev),
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"squeeze_invconv": lambda obj, z, logdet, rev: obj.invconv(z, logdet, rev),
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"resqueeze_invconv_alternating_2_3": lambda obj, z, logdet, rev: obj.invconv(z, logdet, rev),
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"resqueeze_invconv_3": lambda obj, z, logdet, rev: obj.invconv(z, logdet, rev),
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"InvertibleConv1x1GridAlign": lambda obj, z, logdet, rev: obj.invconv(z, logdet, rev),
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"InvertibleConv1x1SubblocksShuf": lambda obj, z, logdet, rev: obj.invconv(z, logdet, rev),
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"InvertibleConv1x1GridAlignIndepBorder": lambda obj, z, logdet, rev: obj.invconv(z, logdet, rev),
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"InvertibleConv1x1GridAlignIndepBorder4": lambda obj, z, logdet, rev: obj.invconv(z, logdet, rev),
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}
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def __init__(self, in_channels, hidden_channels,
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actnorm_scale=1.0, flow_permutation="invconv", flow_coupling="additive",
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LU_decomposed=False, image_injector=None, idx=None, acOpt=None, normOpt=None, in_shape=None,
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position=None):
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# check configures
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assert flow_permutation in FlowStep.FlowPermutation, \
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"float_permutation should be in `{}`".format(
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FlowStep.FlowPermutation.keys())
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super().__init__()
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self.flow_permutation = flow_permutation
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self.flow_coupling = flow_coupling
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self.image_injector = image_injector
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self.norm_type = normOpt['type'] if normOpt else 'ActNorm2d'
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self.position = normOpt['position'] if normOpt else None
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self.in_shape = in_shape
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self.position = position
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self.acOpt = acOpt
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# 1. actnorm
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self.actnorm = FlowActNorms.ActNorm2d(in_channels, actnorm_scale)
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# 2. permute
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if flow_permutation == "invconv":
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self.invconv = Permutations.InvertibleConv1x1(
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in_channels, LU_decomposed=LU_decomposed)
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# 3. coupling
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if flow_coupling == "CondAffineSeparatedAndCond":
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self.affine = FlowAffineCouplingsAblation.CondAffineSeparatedAndCond(in_channels=in_channels)
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elif flow_coupling == "noCoupling":
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pass
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else:
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raise RuntimeError("coupling not Found:", flow_coupling)
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def forward(self, input, logdet=None, reverse=False, rrdbResults=None):
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if not reverse:
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return self.normal_flow(input, logdet, rrdbResults)
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else:
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return self.reverse_flow(input, logdet, rrdbResults)
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def normal_flow(self, z, logdet, rrdbResults=None):
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if self.flow_coupling == "bentIdentityPreAct":
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z, logdet = self.bentIdentPar(z, logdet, reverse=False)
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# 1. actnorm
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if self.norm_type == "ConditionalActNormImageInjector":
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img_ft = getConditional(rrdbResults, self.position)
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z, logdet = self.actnorm(z, img_ft=img_ft, logdet=logdet, reverse=False)
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elif self.norm_type == "noNorm":
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pass
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else:
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z, logdet = self.actnorm(z, logdet=logdet, reverse=False)
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# 2. permute
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z, logdet = FlowStep.FlowPermutation[self.flow_permutation](
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self, z, logdet, False)
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need_features = self.affine_need_features()
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# 3. coupling
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if need_features or self.flow_coupling in ["condAffine", "condFtAffine", "condNormAffine"]:
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img_ft = getConditional(rrdbResults, self.position)
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z, logdet = self.affine(input=z, logdet=logdet, reverse=False, ft=img_ft)
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return z, logdet
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def reverse_flow(self, z, logdet, rrdbResults=None):
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need_features = self.affine_need_features()
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# 1.coupling
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if need_features or self.flow_coupling in ["condAffine", "condFtAffine", "condNormAffine"]:
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img_ft = getConditional(rrdbResults, self.position)
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z, logdet = self.affine(input=z, logdet=logdet, reverse=True, ft=img_ft)
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# 2. permute
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z, logdet = FlowStep.FlowPermutation[self.flow_permutation](
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self, z, logdet, True)
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# 3. actnorm
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z, logdet = self.actnorm(z, logdet=logdet, reverse=True)
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return z, logdet
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def affine_need_features(self):
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need_features = False
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try:
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need_features = self.affine.need_features
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except:
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pass
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return need_features
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