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from torch . cuda . amp import autocast
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from models . steps . losses import ConfigurableLoss , GANLoss , extract_params_from_state , get_basic_criterion_for_name
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from models . flownet2 . networks . resample2d_package . resample2d import Resample2d
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from models . steps . injectors import Injector
import torch
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import torch . nn . functional as F
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import os
import os . path as osp
import torchvision
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import torch . distributed as dist
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def create_teco_loss ( opt , env ) :
type = opt [ ' type ' ]
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if type == ' teco_gan ' :
return TecoGanLoss ( opt , env )
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elif type == " teco_pingpong " :
return PingPongLoss ( opt , env )
return None
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def create_teco_injector ( opt , env ) :
type = opt [ ' type ' ]
if type == ' teco_recurrent_generated_sequence_injector ' :
return RecurrentImageGeneratorSequenceInjector ( opt , env )
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elif type == ' teco_flow_adjustment ' :
return FlowAdjustment ( opt , env )
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return None
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def create_teco_discriminator_sextuplet ( input_list , lr_imgs , scale , index , flow_gen , resampler , margin ) :
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# Flow is interpreted from the LR images so that the generator cannot learn to manipulate it.
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with autocast ( enabled = False ) :
triplet = input_list [ : , index : index + 3 ] . float ( )
first_flow = flow_gen ( torch . stack ( [ triplet [ : , 1 ] , triplet [ : , 0 ] ] , dim = 2 ) )
last_flow = flow_gen ( torch . stack ( [ triplet [ : , 1 ] , triplet [ : , 2 ] ] , dim = 2 ) )
flow_triplet = [ resampler ( triplet [ : , 0 ] , first_flow ) ,
triplet [ : , 1 ] ,
resampler ( triplet [ : , 2 ] , last_flow ) ]
flow_triplet = torch . stack ( flow_triplet , dim = 1 )
combined = torch . cat ( [ triplet , flow_triplet ] , dim = 1 )
b , f , c , h , w = combined . shape
combined = combined . view ( b , 3 * 6 , h , w ) # 3*6 is essentially an assertion here.
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# Apply margin
return combined [ : , : , margin : - margin , margin : - margin ]
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def extract_inputs_index ( inputs , i ) :
res = [ ]
for input in inputs :
if isinstance ( input , torch . Tensor ) :
res . append ( input [ : , i ] )
else :
res . append ( input )
return res
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# Uses a generator to synthesize a sequence of images from [in] and injects the results into a list [out]
# Images are fed in sequentially forward and back, resulting in len([out])=2*len([in])-1 (last element is not repeated).
# All computation is done with torch.no_grad().
class RecurrentImageGeneratorSequenceInjector ( Injector ) :
def __init__ ( self , opt , env ) :
super ( RecurrentImageGeneratorSequenceInjector , self ) . __init__ ( opt , env )
self . flow = opt [ ' flow_network ' ]
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self . input_lq_index = opt [ ' input_lq_index ' ] if ' input_lq_index ' in opt . keys ( ) else 0
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self . output_hq_index = opt [ ' output_hq_index ' ] if ' output_hq_index ' in opt . keys ( ) else 0
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self . recurrent_index = opt [ ' recurrent_index ' ]
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self . scale = opt [ ' scale ' ]
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self . resample = Resample2d ( )
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self . first_inputs = opt [ ' first_inputs ' ] if ' first_inputs ' in opt . keys ( ) else opt [ ' in ' ] # Use this to specify inputs that will be used in the first teco iteration, the rest will use 'in'.
self . do_backwards = opt [ ' do_backwards ' ] if ' do_backwards ' in opt . keys ( ) else True
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self . hq_recurrent = opt [ ' hq_recurrent ' ] if ' hq_recurrent ' in opt . keys ( ) else False # When True, recurrent_index is not touched for the first iteration, allowing you to specify what is fed in. When False, zeros are fed into the recurrent index.
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def forward ( self , state ) :
gen = self . env [ ' generators ' ] [ self . opt [ ' generator ' ] ]
flow = self . env [ ' generators ' ] [ self . flow ]
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first_inputs = extract_params_from_state ( self . first_inputs , state )
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inputs = extract_params_from_state ( self . input , state )
if not isinstance ( inputs , list ) :
inputs = [ inputs ]
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if not isinstance ( self . output , list ) :
self . output = [ self . output ]
results = { }
for out_key in self . output :
results [ out_key ] = [ ]
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# Go forward in the sequence first.
first_step = True
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b , f , c , h , w = inputs [ self . input_lq_index ] . shape
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debug_index = 0
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for i in range ( f ) :
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if first_step :
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input = extract_inputs_index ( first_inputs , i )
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if self . hq_recurrent :
recurrent_input = input [ self . recurrent_index ]
else :
recurrent_input = torch . zeros_like ( input [ self . recurrent_index ] )
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first_step = False
else :
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input = extract_inputs_index ( inputs , i )
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with torch . no_grad ( ) and autocast ( enabled = False ) :
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reduced_recurrent = F . interpolate ( recurrent_input , scale_factor = 1 / self . scale , mode = ' bicubic ' )
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flow_input = torch . stack ( [ input [ self . input_lq_index ] , reduced_recurrent ] , dim = 2 ) . float ( )
flowfield = F . interpolate ( flow ( flow_input ) , scale_factor = self . scale , mode = ' bicubic ' )
recurrent_input = self . resample ( recurrent_input . float ( ) , flowfield )
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input [ self . recurrent_index ] = recurrent_input
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if self . env [ ' step ' ] % 50 == 0 :
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self . produce_teco_visual_debugs ( input [ self . input_lq_index ] , input [ self . recurrent_index ] , debug_index )
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debug_index + = 1
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with autocast ( enabled = self . env [ ' opt ' ] [ ' fp16 ' ] ) :
gen_out = gen ( * input )
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if isinstance ( gen_out , torch . Tensor ) :
gen_out = [ gen_out ]
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for i , out_key in enumerate ( self . output ) :
results [ out_key ] . append ( gen_out [ i ] )
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recurrent_input = gen_out [ self . output_hq_index ]
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# Now go backwards, skipping the last element (it's already stored in recurrent_input)
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if self . do_backwards :
it = reversed ( range ( f - 1 ) )
for i in it :
input = extract_inputs_index ( inputs , i )
with torch . no_grad ( ) :
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with autocast ( enabled = False ) :
reduced_recurrent = F . interpolate ( recurrent_input , scale_factor = 1 / self . scale , mode = ' bicubic ' )
flow_input = torch . stack ( [ input [ self . input_lq_index ] , reduced_recurrent ] , dim = 2 ) . float ( )
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flowfield = F . interpolate ( flow ( flow_input ) , scale_factor = self . scale , mode = ' bicubic ' )
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recurrent_input = self . resample ( recurrent_input . float ( ) , flowfield )
input [ self . recurrent_index ] = recurrent_input
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if self . env [ ' step ' ] % 50 == 0 :
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self . produce_teco_visual_debugs ( input [ self . input_lq_index ] , input [ self . recurrent_index ] , debug_index )
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debug_index + = 1
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with autocast ( enabled = self . env [ ' opt ' ] [ ' fp16 ' ] ) :
gen_out = gen ( * input )
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if isinstance ( gen_out , torch . Tensor ) :
gen_out = [ gen_out ]
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for i , out_key in enumerate ( self . output ) :
results [ out_key ] . append ( gen_out [ i ] )
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recurrent_input = gen_out [ self . output_hq_index ]
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for k , v in results . items ( ) :
results [ k ] = torch . stack ( v , dim = 1 )
return results
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def produce_teco_visual_debugs ( self , gen_input , gen_recurrent , it ) :
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if self . env [ ' rank ' ] > 0 :
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return
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base_path = osp . join ( self . env [ ' base_path ' ] , " .. " , " visual_dbg " , " teco_geninput " , str ( self . env [ ' step ' ] ) )
os . makedirs ( base_path , exist_ok = True )
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torchvision . utils . save_image ( gen_input . float ( ) , osp . join ( base_path , " %s _img.png " % ( it , ) ) )
torchvision . utils . save_image ( gen_recurrent . float ( ) , osp . join ( base_path , " %s _recurrent.png " % ( it , ) ) )
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class FlowAdjustment ( Injector ) :
def __init__ ( self , opt , env ) :
super ( FlowAdjustment , self ) . __init__ ( opt , env )
self . resample = Resample2d ( )
self . flow = opt [ ' flow_network ' ]
self . flow_target = opt [ ' flow_target ' ]
self . flowed = opt [ ' flowed ' ]
def forward ( self , state ) :
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with autocast ( enabled = False ) :
flow = self . env [ ' generators ' ] [ self . flow ]
flow_target = state [ self . flow_target ]
flowed = F . interpolate ( state [ self . flowed ] , size = flow_target . shape [ 2 : ] , mode = ' bicubic ' )
flow_input = torch . stack ( [ flow_target , flowed ] , dim = 2 ) . float ( )
flowfield = F . interpolate ( flow ( flow_input ) , size = state [ self . flowed ] . shape [ 2 : ] , mode = ' bicubic ' )
return { self . output : self . resample ( state [ self . flowed ] , flowfield ) }
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# This is the temporal discriminator loss from TecoGAN.
#
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# It has a strict contract for 'real' and 'fake' inputs:
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# 'real' - Must be a list of arbitrary images (len>3) drawn from the dataset
# 'fake' - The output of the RecurrentImageGeneratorSequenceInjector for the same set of images.
#
# This loss does the following:
# 1) Picks an image triplet, starting with the first '3' elements in 'real' and 'fake'.
# 2) Uses the image flow generator (specified with 'image_flow_generator') to create detached flow fields for the first and last images in the above sequence.
# 3) Warps the first and last images according to the flow field.
# 4) Composes the three base image and the 2 warped images and middle image into a tensor concatenated at the filter dimension for both real and fake, resulting in a bx18xhxw shape tensor.
# 5) Feeds the catted real and fake image sets into the discriminator, computes a loss, and backward().
# 6) Repeat from (1) until all triplets from the real sequence have been exhausted.
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class TecoGanLoss ( ConfigurableLoss ) :
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def __init__ ( self , opt , env ) :
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super ( TecoGanLoss , self ) . __init__ ( opt , env )
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self . criterion = GANLoss ( opt [ ' gan_type ' ] , 1.0 , 0.0 ) . to ( env [ ' device ' ] )
# TecoGAN parameters
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self . scale = opt [ ' scale ' ]
self . lr_inputs = opt [ ' lr_inputs ' ]
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self . image_flow_generator = opt [ ' image_flow_generator ' ]
self . resampler = Resample2d ( )
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self . for_generator = opt [ ' for_generator ' ]
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self . min_loss = opt [ ' min_loss ' ] if ' min_loss ' in opt . keys ( ) else 0
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self . margin = opt [ ' margin ' ] # Per the tecogan paper, the GAN loss only pays attention to an inner part of the image with the margin removed, to get rid of artifacts resulting from flow errors.
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def forward ( self , _ , state ) :
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fp16 = self . env [ ' opt ' ] [ ' fp16 ' ]
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net = self . env [ ' discriminators ' ] [ self . opt [ ' discriminator ' ] ]
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flow_gen = self . env [ ' generators ' ] [ self . image_flow_generator ]
real = state [ self . opt [ ' real ' ] ]
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fake = state [ self . opt [ ' fake ' ] ]
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sequence_len = real . shape [ 1 ]
lr = state [ self . opt [ ' lr_inputs ' ] ]
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l_total = 0
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for i in range ( sequence_len - 2 ) :
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real_sext = create_teco_discriminator_sextuplet ( real , lr , self . scale , i , flow_gen , self . resampler , self . margin )
fake_sext = create_teco_discriminator_sextuplet ( fake , lr , self . scale , i , flow_gen , self . resampler , self . margin )
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with autocast ( enabled = fp16 ) :
d_fake = net ( fake_sext )
d_real = net ( real_sext )
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self . metrics . append ( ( " d_fake " , torch . mean ( d_fake ) ) )
self . metrics . append ( ( " d_real " , torch . mean ( d_real ) ) )
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if self . for_generator and self . env [ ' step ' ] % 50 == 0 :
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self . produce_teco_visual_debugs ( fake_sext , ' fake ' , i )
self . produce_teco_visual_debugs ( real_sext , ' real ' , i )
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if self . opt [ ' gan_type ' ] in [ ' gan ' , ' pixgan ' ] :
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l_fake = self . criterion ( d_fake , self . for_generator )
if not self . for_generator :
l_real = self . criterion ( d_real , True )
else :
l_real = 0
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l_step = l_fake + l_real
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elif self . opt [ ' gan_type ' ] == ' ragan ' :
d_fake_diff = d_fake - torch . mean ( d_real )
self . metrics . append ( ( " d_fake_diff " , torch . mean ( d_fake_diff ) ) )
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l_step = ( self . criterion ( d_real - torch . mean ( d_fake ) , not self . for_generator ) +
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self . criterion ( d_fake_diff , self . for_generator ) )
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else :
raise NotImplementedError
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if l_step > self . min_loss :
l_total + = l_step
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return l_total
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def produce_teco_visual_debugs ( self , sext , lbl , it ) :
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if self . env [ ' rank ' ] > 0 :
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return
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base_path = osp . join ( self . env [ ' base_path ' ] , " .. " , " visual_dbg " , " teco_sext " , str ( self . env [ ' step ' ] ) , lbl )
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os . makedirs ( base_path , exist_ok = True )
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lbls = [ ' img_a ' , ' img_b ' , ' img_c ' , ' flow_a ' , ' flow_b ' , ' flow_c ' ]
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for i in range ( 6 ) :
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torchvision . utils . save_image ( sext [ : , i * 3 : ( i + 1 ) * 3 , : , : ] . float ( ) , osp . join ( base_path , " %s _ %s .png " % ( it , lbls [ i ] ) ) )
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# This loss doesn't have a real entry - only fakes are used.
class PingPongLoss ( ConfigurableLoss ) :
def __init__ ( self , opt , env ) :
super ( PingPongLoss , self ) . __init__ ( opt , env )
self . opt = opt
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self . criterion = get_basic_criterion_for_name ( opt [ ' criterion ' ] , env [ ' device ' ] )
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def forward ( self , _ , state ) :
fake = state [ self . opt [ ' fake ' ] ]
l_total = 0
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img_count = fake . shape [ 1 ]
for i in range ( ( img_count - 1 ) / / 2 ) :
early = fake [ : , i ]
late = fake [ : , - i ]
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l_total + = self . criterion ( early , late )
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if self . env [ ' step ' ] % 50 == 0 :
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self . produce_teco_visual_debugs ( fake )
return l_total
def produce_teco_visual_debugs ( self , imglist ) :
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if self . env [ ' rank ' ] > 0 :
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return
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base_path = osp . join ( self . env [ ' base_path ' ] , " .. " , " visual_dbg " , " teco_pingpong " , str ( self . env [ ' step ' ] ) )
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os . makedirs ( base_path , exist_ok = True )
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cnt = imglist . shape [ 1 ]
for i in range ( cnt ) :
img = imglist [ : , i ]
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torchvision . utils . save_image ( img . float ( ) , osp . join ( base_path , " %s .png " % ( i , ) ) )
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