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from collections import namedtuple
from copy import copy
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from itertools import permutations , chain
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import random
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import csv
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import os . path
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from io import StringIO
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from PIL import Image
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import numpy as np
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import modules . scripts as scripts
import gradio as gr
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from modules import images , sd_samplers , processing , sd_models , sd_vae , sd_schedulers , errors
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from modules . processing import process_images , Processed , StableDiffusionProcessingTxt2Img
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from modules . shared import opts , state
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import modules . shared as shared
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import modules . sd_samplers
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import modules . sd_models
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import modules . sd_vae
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import re
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from modules . ui_components import ToolButton
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fill_values_symbol = " \U0001f4d2 " # 📒
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AxisInfo = namedtuple ( ' AxisInfo ' , [ ' axis ' , ' values ' ] )
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def apply_field ( field ) :
def fun ( p , x , xs ) :
setattr ( p , field , x )
return fun
def apply_prompt ( p , x , xs ) :
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if xs [ 0 ] not in p . prompt and xs [ 0 ] not in p . negative_prompt :
raise RuntimeError ( f " Prompt S/R did not find { xs [ 0 ] } in prompt or negative prompt. " )
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p . prompt = p . prompt . replace ( xs [ 0 ] , x )
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p . negative_prompt = p . negative_prompt . replace ( xs [ 0 ] , x )
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def apply_order ( p , x , xs ) :
token_order = [ ]
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# Initially grab the tokens from the prompt, so they can be replaced in order of earliest seen
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for token in x :
token_order . append ( ( p . prompt . find ( token ) , token ) )
token_order . sort ( key = lambda t : t [ 0 ] )
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prompt_parts = [ ]
# Split the prompt up, taking out the tokens
for _ , token in token_order :
n = p . prompt . find ( token )
prompt_parts . append ( p . prompt [ 0 : n ] )
p . prompt = p . prompt [ n + len ( token ) : ]
# Rebuild the prompt with the tokens in the order we want
prompt_tmp = " "
for idx , part in enumerate ( prompt_parts ) :
prompt_tmp + = part
prompt_tmp + = x [ idx ]
p . prompt = prompt_tmp + p . prompt
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def confirm_samplers ( p , xs ) :
for x in xs :
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if x . lower ( ) not in sd_samplers . samplers_map :
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raise RuntimeError ( f " Unknown sampler: { x } " )
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def apply_checkpoint ( p , x , xs ) :
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info = modules . sd_models . get_closet_checkpoint_match ( x )
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if info is None :
raise RuntimeError ( f " Unknown checkpoint: { x } " )
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p . override_settings [ ' sd_model_checkpoint ' ] = info . name
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def confirm_checkpoints ( p , xs ) :
for x in xs :
if modules . sd_models . get_closet_checkpoint_match ( x ) is None :
raise RuntimeError ( f " Unknown checkpoint: { x } " )
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def confirm_checkpoints_or_none ( p , xs ) :
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for x in xs :
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if x in ( None , " " , " None " , " none " ) :
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continue
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if modules . sd_models . get_closet_checkpoint_match ( x ) is None :
raise RuntimeError ( f " Unknown checkpoint: { x } " )
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def apply_clip_skip ( p , x , xs ) :
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opts . data [ " CLIP_stop_at_last_layers " ] = x
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def apply_upscale_latent_space ( p , x , xs ) :
if x . lower ( ) . strip ( ) != ' 0 ' :
opts . data [ " use_scale_latent_for_hires_fix " ] = True
else :
opts . data [ " use_scale_latent_for_hires_fix " ] = False
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def apply_size ( p , x : str , xs ) - > None :
try :
width , _ , height = x . partition ( ' x ' )
width = int ( width . strip ( ) )
height = int ( height . strip ( ) )
p . width = width
p . height = height
except ValueError :
print ( f " Invalid size in XYZ plot: { x } " )
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def find_vae ( name : str ) :
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if name . lower ( ) in [ ' auto ' , ' automatic ' ] :
return modules . sd_vae . unspecified
if name . lower ( ) == ' none ' :
return None
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else :
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choices = [ x for x in sorted ( modules . sd_vae . vae_dict , key = lambda x : len ( x ) ) if name . lower ( ) . strip ( ) in x . lower ( ) ]
if len ( choices ) == 0 :
print ( f " No VAE found for { name } ; using automatic " )
return modules . sd_vae . unspecified
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else :
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return modules . sd_vae . vae_dict [ choices [ 0 ] ]
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def apply_vae ( p , x , xs ) :
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modules . sd_vae . reload_vae_weights ( shared . sd_model , vae_file = find_vae ( x ) )
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def apply_styles ( p : StableDiffusionProcessingTxt2Img , x : str , _ ) :
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p . styles . extend ( x . split ( ' , ' ) )
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def apply_uni_pc_order ( p , x , xs ) :
opts . data [ " uni_pc_order " ] = min ( x , p . steps - 1 )
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def apply_face_restore ( p , opt , x ) :
opt = opt . lower ( )
if opt == ' codeformer ' :
is_active = True
p . face_restoration_model = ' CodeFormer '
elif opt == ' gfpgan ' :
is_active = True
p . face_restoration_model = ' GFPGAN '
else :
is_active = opt in ( ' true ' , ' yes ' , ' y ' , ' 1 ' )
p . restore_faces = is_active
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def apply_override ( field , boolean : bool = False ) :
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def fun ( p , x , xs ) :
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if boolean :
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x = True if x . lower ( ) == " true " else False
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p . override_settings [ field ] = x
return fun
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def boolean_choice ( reverse : bool = False ) :
def choice ( ) :
return [ " False " , " True " ] if reverse else [ " True " , " False " ]
return choice
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def format_value_add_label ( p , opt , x ) :
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if type ( x ) == float :
x = round ( x , 8 )
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return f " { opt . label } : { x } "
def format_value ( p , opt , x ) :
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if type ( x ) == float :
x = round ( x , 8 )
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return x
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def format_value_join_list ( p , opt , x ) :
return " , " . join ( x )
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def do_nothing ( p , x , xs ) :
pass
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def format_nothing ( p , opt , x ) :
return " "
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def format_remove_path ( p , opt , x ) :
return os . path . basename ( x )
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def str_permutations ( x ) :
""" dummy function for specifying it in AxisOption ' s type when you want to get a list of permutations """
return x
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def list_to_csv_string ( data_list ) :
with StringIO ( ) as o :
csv . writer ( o ) . writerow ( data_list )
return o . getvalue ( ) . strip ( )
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def csv_string_to_list_strip ( data_str ) :
return list ( map ( str . strip , chain . from_iterable ( csv . reader ( StringIO ( data_str ) ) ) ) )
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class AxisOption :
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def __init__ ( self , label , type , apply , format_value = format_value_add_label , confirm = None , cost = 0.0 , choices = None , prepare = None ) :
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self . label = label
self . type = type
self . apply = apply
self . format_value = format_value
self . confirm = confirm
self . cost = cost
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self . prepare = prepare
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self . choices = choices
class AxisOptionImg2Img ( AxisOption ) :
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def __init__ ( self , * args , * * kwargs ) :
super ( ) . __init__ ( * args , * * kwargs )
self . is_img2img = True
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class AxisOptionTxt2Img ( AxisOption ) :
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def __init__ ( self , * args , * * kwargs ) :
super ( ) . __init__ ( * args , * * kwargs )
self . is_img2img = False
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axis_options = [
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AxisOption ( " Nothing " , str , do_nothing , format_value = format_nothing ) ,
AxisOption ( " Seed " , int , apply_field ( " seed " ) ) ,
AxisOption ( " Var. seed " , int , apply_field ( " subseed " ) ) ,
AxisOption ( " Var. strength " , float , apply_field ( " subseed_strength " ) ) ,
AxisOption ( " Steps " , int , apply_field ( " steps " ) ) ,
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AxisOptionTxt2Img ( " Hires steps " , int , apply_field ( " hr_second_pass_steps " ) ) ,
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AxisOption ( " CFG Scale " , float , apply_field ( " cfg_scale " ) ) ,
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AxisOptionImg2Img ( " Image CFG Scale " , float , apply_field ( " image_cfg_scale " ) ) ,
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AxisOption ( " Prompt S/R " , str , apply_prompt , format_value = format_value ) ,
AxisOption ( " Prompt order " , str_permutations , apply_order , format_value = format_value_join_list ) ,
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AxisOptionTxt2Img ( " Sampler " , str , apply_field ( " sampler_name " ) , format_value = format_value , confirm = confirm_samplers , choices = lambda : [ x . name for x in sd_samplers . samplers if x . name not in opts . hide_samplers ] ) ,
AxisOptionTxt2Img ( " Hires sampler " , str , apply_field ( " hr_sampler_name " ) , confirm = confirm_samplers , choices = lambda : [ x . name for x in sd_samplers . samplers_for_img2img if x . name not in opts . hide_samplers ] ) ,
AxisOptionImg2Img ( " Sampler " , str , apply_field ( " sampler_name " ) , format_value = format_value , confirm = confirm_samplers , choices = lambda : [ x . name for x in sd_samplers . samplers_for_img2img if x . name not in opts . hide_samplers ] ) ,
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AxisOption ( " Checkpoint name " , str , apply_checkpoint , format_value = format_remove_path , confirm = confirm_checkpoints , cost = 1.0 , choices = lambda : sorted ( sd_models . checkpoints_list , key = str . casefold ) ) ,
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AxisOption ( " Negative Guidance minimum sigma " , float , apply_field ( " s_min_uncond " ) ) ,
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AxisOption ( " Sigma Churn " , float , apply_field ( " s_churn " ) ) ,
AxisOption ( " Sigma min " , float , apply_field ( " s_tmin " ) ) ,
AxisOption ( " Sigma max " , float , apply_field ( " s_tmax " ) ) ,
AxisOption ( " Sigma noise " , float , apply_field ( " s_noise " ) ) ,
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AxisOption ( " Schedule type " , str , apply_field ( " scheduler " ) , choices = lambda : [ x . label for x in sd_schedulers . schedulers ] ) ,
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AxisOption ( " Schedule min sigma " , float , apply_override ( " sigma_min " ) ) ,
AxisOption ( " Schedule max sigma " , float , apply_override ( " sigma_max " ) ) ,
AxisOption ( " Schedule rho " , float , apply_override ( " rho " ) ) ,
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AxisOption ( " Eta " , float , apply_field ( " eta " ) ) ,
AxisOption ( " Clip skip " , int , apply_clip_skip ) ,
AxisOption ( " Denoising " , float , apply_field ( " denoising_strength " ) ) ,
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AxisOption ( " Initial noise multiplier " , float , apply_field ( " initial_noise_multiplier " ) ) ,
AxisOption ( " Extra noise " , float , apply_override ( " img2img_extra_noise " ) ) ,
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AxisOptionTxt2Img ( " Hires upscaler " , str , apply_field ( " hr_upscaler " ) , choices = lambda : [ * shared . latent_upscale_modes , * [ x . name for x in shared . sd_upscalers ] ] ) ,
AxisOptionImg2Img ( " Cond. Image Mask Weight " , float , apply_field ( " inpainting_mask_weight " ) ) ,
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AxisOption ( " VAE " , str , apply_vae , cost = 0.7 , choices = lambda : [ ' None ' ] + list ( sd_vae . vae_dict ) ) ,
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AxisOption ( " Styles " , str , apply_styles , choices = lambda : list ( shared . prompt_styles . styles ) ) ,
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AxisOption ( " UniPC Order " , int , apply_uni_pc_order , cost = 0.5 ) ,
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AxisOption ( " Face restore " , str , apply_face_restore , format_value = format_value ) ,
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AxisOption ( " Token merging ratio " , float , apply_override ( ' token_merging_ratio ' ) ) ,
AxisOption ( " Token merging ratio high-res " , float , apply_override ( ' token_merging_ratio_hr ' ) ) ,
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AxisOption ( " Always discard next-to-last sigma " , str , apply_override ( ' always_discard_next_to_last_sigma ' , boolean = True ) , choices = boolean_choice ( reverse = True ) ) ,
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AxisOption ( " SGM noise multiplier " , str , apply_override ( ' sgm_noise_multiplier ' , boolean = True ) , choices = boolean_choice ( reverse = True ) ) ,
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AxisOption ( " Refiner checkpoint " , str , apply_field ( ' refiner_checkpoint ' ) , format_value = format_remove_path , confirm = confirm_checkpoints_or_none , cost = 1.0 , choices = lambda : [ ' None ' ] + sorted ( sd_models . checkpoints_list , key = str . casefold ) ) ,
AxisOption ( " Refiner switch at " , float , apply_field ( ' refiner_switch_at ' ) ) ,
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AxisOption ( " RNG source " , str , apply_override ( " randn_source " ) , choices = lambda : [ " GPU " , " CPU " , " NV " ] ) ,
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AxisOption ( " FP8 mode " , str , apply_override ( " fp8_storage " ) , cost = 0.9 , choices = lambda : [ " Disable " , " Enable for SDXL " , " Enable " ] ) ,
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AxisOption ( " Size " , str , apply_size ) ,
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]
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def draw_xyz_grid ( p , xs , ys , zs , x_labels , y_labels , z_labels , cell , draw_legend , include_lone_images , include_sub_grids , first_axes_processed , second_axes_processed , margin_size ) :
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hor_texts = [ [ images . GridAnnotation ( x ) ] for x in x_labels ]
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ver_texts = [ [ images . GridAnnotation ( y ) ] for y in y_labels ]
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title_texts = [ [ images . GridAnnotation ( z ) ] for z in z_labels ]
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list_size = ( len ( xs ) * len ( ys ) * len ( zs ) )
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processed_result = None
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state . job_count = list_size * p . n_iter
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def process_cell ( x , y , z , ix , iy , iz ) :
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nonlocal processed_result
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def index ( ix , iy , iz ) :
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return ix + iy * len ( xs ) + iz * len ( xs ) * len ( ys )
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state . job = f " { index ( ix , iy , iz ) + 1 } out of { list_size } "
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processed : Processed = cell ( x , y , z , ix , iy , iz )
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if processed_result is None :
# Use our first processed result object as a template container to hold our full results
processed_result = copy ( processed )
processed_result . images = [ None ] * list_size
processed_result . all_prompts = [ None ] * list_size
processed_result . all_seeds = [ None ] * list_size
processed_result . infotexts = [ None ] * list_size
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processed_result . index_of_first_image = 1
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idx = index ( ix , iy , iz )
if processed . images :
# Non-empty list indicates some degree of success.
processed_result . images [ idx ] = processed . images [ 0 ]
processed_result . all_prompts [ idx ] = processed . prompt
processed_result . all_seeds [ idx ] = processed . seed
processed_result . infotexts [ idx ] = processed . infotexts [ 0 ]
else :
cell_mode = " P "
cell_size = ( processed_result . width , processed_result . height )
if processed_result . images [ 0 ] is not None :
cell_mode = processed_result . images [ 0 ] . mode
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# This corrects size in case of batches:
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cell_size = processed_result . images [ 0 ] . size
processed_result . images [ idx ] = Image . new ( cell_mode , cell_size )
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if first_axes_processed == ' x ' :
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for ix , x in enumerate ( xs ) :
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if second_axes_processed == ' y ' :
for iy , y in enumerate ( ys ) :
for iz , z in enumerate ( zs ) :
process_cell ( x , y , z , ix , iy , iz )
else :
for iz , z in enumerate ( zs ) :
for iy , y in enumerate ( ys ) :
process_cell ( x , y , z , ix , iy , iz )
elif first_axes_processed == ' y ' :
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for iy , y in enumerate ( ys ) :
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if second_axes_processed == ' x ' :
for ix , x in enumerate ( xs ) :
for iz , z in enumerate ( zs ) :
process_cell ( x , y , z , ix , iy , iz )
else :
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for iz , z in enumerate ( zs ) :
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for ix , x in enumerate ( xs ) :
process_cell ( x , y , z , ix , iy , iz )
elif first_axes_processed == ' z ' :
for iz , z in enumerate ( zs ) :
if second_axes_processed == ' x ' :
for ix , x in enumerate ( xs ) :
for iy , y in enumerate ( ys ) :
process_cell ( x , y , z , ix , iy , iz )
else :
for iy , y in enumerate ( ys ) :
for ix , x in enumerate ( xs ) :
process_cell ( x , y , z , ix , iy , iz )
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if not processed_result :
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# Should never happen, I've only seen it on one of four open tabs and it needed to refresh.
print ( " Unexpected error: Processing could not begin, you may need to refresh the tab or restart the service. " )
return Processed ( p , [ ] )
elif not any ( processed_result . images ) :
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print ( " Unexpected error: draw_xyz_grid failed to return even a single processed image " )
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return Processed ( p , [ ] )
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z_count = len ( zs )
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for i in range ( z_count ) :
start_index = ( i * len ( xs ) * len ( ys ) ) + i
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end_index = start_index + len ( xs ) * len ( ys )
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grid = images . image_grid ( processed_result . images [ start_index : end_index ] , rows = len ( ys ) )
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if draw_legend :
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grid = images . draw_grid_annotations ( grid , processed_result . images [ start_index ] . size [ 0 ] , processed_result . images [ start_index ] . size [ 1 ] , hor_texts , ver_texts , margin_size )
processed_result . images . insert ( i , grid )
processed_result . all_prompts . insert ( i , processed_result . all_prompts [ start_index ] )
processed_result . all_seeds . insert ( i , processed_result . all_seeds [ start_index ] )
processed_result . infotexts . insert ( i , processed_result . infotexts [ start_index ] )
sub_grid_size = processed_result . images [ 0 ] . size
z_grid = images . image_grid ( processed_result . images [ : z_count ] , rows = 1 )
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if draw_legend :
z_grid = images . draw_grid_annotations ( z_grid , sub_grid_size [ 0 ] , sub_grid_size [ 1 ] , title_texts , [ [ images . GridAnnotation ( ) ] ] )
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processed_result . images . insert ( 0 , z_grid )
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# TODO: Deeper aspects of the program rely on grid info being misaligned between metadata arrays, which is not ideal.
# processed_result.all_prompts.insert(0, processed_result.all_prompts[0])
# processed_result.all_seeds.insert(0, processed_result.all_seeds[0])
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processed_result . infotexts . insert ( 0 , processed_result . infotexts [ 0 ] )
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return processed_result
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class SharedSettingsStackHelper ( object ) :
def __enter__ ( self ) :
self . CLIP_stop_at_last_layers = opts . CLIP_stop_at_last_layers
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self . vae = opts . sd_vae
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self . uni_pc_order = opts . uni_pc_order
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def __exit__ ( self , exc_type , exc_value , tb ) :
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opts . data [ " sd_vae " ] = self . vae
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opts . data [ " uni_pc_order " ] = self . uni_pc_order
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modules . sd_models . reload_model_weights ( )
modules . sd_vae . reload_vae_weights ( )
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opts . data [ " CLIP_stop_at_last_layers " ] = self . CLIP_stop_at_last_layers
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re_range = re . compile ( r " \ s*([+-]? \ s* \ d+) \ s*- \ s*([+-]? \ s* \ d+)(?: \ s* \ (([+-] \ d+) \ s* \ ))? \ s* " )
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re_range_float = re . compile ( r " \ s*([+-]? \ s* \ d+(?:. \ d*)?) \ s*- \ s*([+-]? \ s* \ d+(?:. \ d*)?)(?: \ s* \ (([+-] \ d+(?:. \ d*)?) \ s* \ ))? \ s* " )
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re_range_count = re . compile ( r " \ s*([+-]? \ s* \ d+) \ s*- \ s*([+-]? \ s* \ d+)(?: \ s* \ [( \ d+) \ s*])? \ s* " )
re_range_count_float = re . compile ( r " \ s*([+-]? \ s* \ d+(?:. \ d*)?) \ s*- \ s*([+-]? \ s* \ d+(?:. \ d*)?)(?: \ s* \ [( \ d+(?:. \ d*)?) \ s*])? \ s* " )
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class Script ( scripts . Script ) :
def title ( self ) :
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return " X/Y/Z plot "
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def ui ( self , is_img2img ) :
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self . current_axis_options = [ x for x in axis_options if type ( x ) == AxisOption or x . is_img2img == is_img2img ]
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with gr . Row ( ) :
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with gr . Column ( scale = 19 ) :
with gr . Row ( ) :
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x_type = gr . Dropdown ( label = " X type " , choices = [ x . label for x in self . current_axis_options ] , value = self . current_axis_options [ 1 ] . label , type = " index " , elem_id = self . elem_id ( " x_type " ) )
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x_values = gr . Textbox ( label = " X values " , lines = 1 , elem_id = self . elem_id ( " x_values " ) )
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x_values_dropdown = gr . Dropdown ( label = " X values " , visible = False , multiselect = True , interactive = True )
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fill_x_button = ToolButton ( value = fill_values_symbol , elem_id = " xyz_grid_fill_x_tool_button " , visible = False )
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with gr . Row ( ) :
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y_type = gr . Dropdown ( label = " Y type " , choices = [ x . label for x in self . current_axis_options ] , value = self . current_axis_options [ 0 ] . label , type = " index " , elem_id = self . elem_id ( " y_type " ) )
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y_values = gr . Textbox ( label = " Y values " , lines = 1 , elem_id = self . elem_id ( " y_values " ) )
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y_values_dropdown = gr . Dropdown ( label = " Y values " , visible = False , multiselect = True , interactive = True )
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fill_y_button = ToolButton ( value = fill_values_symbol , elem_id = " xyz_grid_fill_y_tool_button " , visible = False )
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with gr . Row ( ) :
z_type = gr . Dropdown ( label = " Z type " , choices = [ x . label for x in self . current_axis_options ] , value = self . current_axis_options [ 0 ] . label , type = " index " , elem_id = self . elem_id ( " z_type " ) )
z_values = gr . Textbox ( label = " Z values " , lines = 1 , elem_id = self . elem_id ( " z_values " ) )
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z_values_dropdown = gr . Dropdown ( label = " Z values " , visible = False , multiselect = True , interactive = True )
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fill_z_button = ToolButton ( value = fill_values_symbol , elem_id = " xyz_grid_fill_z_tool_button " , visible = False )
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with gr . Row ( variant = " compact " , elem_id = " axis_options " ) :
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with gr . Column ( ) :
draw_legend = gr . Checkbox ( label = ' Draw legend ' , value = True , elem_id = self . elem_id ( " draw_legend " ) )
no_fixed_seeds = gr . Checkbox ( label = ' Keep -1 for seeds ' , value = False , elem_id = self . elem_id ( " no_fixed_seeds " ) )
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with gr . Row ( ) :
vary_seeds_x = gr . Checkbox ( label = ' Vary seeds for X ' , value = False , min_width = 80 , elem_id = self . elem_id ( " vary_seeds_x " ) , tooltip = " Use different seeds for images along X axis. " )
vary_seeds_y = gr . Checkbox ( label = ' Vary seeds for Y ' , value = False , min_width = 80 , elem_id = self . elem_id ( " vary_seeds_y " ) , tooltip = " Use different seeds for images along Y axis. " )
vary_seeds_z = gr . Checkbox ( label = ' Vary seeds for Z ' , value = False , min_width = 80 , elem_id = self . elem_id ( " vary_seeds_z " ) , tooltip = " Use different seeds for images along Z axis. " )
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with gr . Column ( ) :
include_lone_images = gr . Checkbox ( label = ' Include Sub Images ' , value = False , elem_id = self . elem_id ( " include_lone_images " ) )
include_sub_grids = gr . Checkbox ( label = ' Include Sub Grids ' , value = False , elem_id = self . elem_id ( " include_sub_grids " ) )
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csv_mode = gr . Checkbox ( label = ' Use text inputs instead of dropdowns ' , value = False , elem_id = self . elem_id ( " csv_mode " ) )
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with gr . Column ( ) :
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margin_size = gr . Slider ( label = " Grid margins (px) " , minimum = 0 , maximum = 500 , value = 0 , step = 2 , elem_id = self . elem_id ( " margin_size " ) )
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with gr . Row ( variant = " compact " , elem_id = " swap_axes " ) :
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swap_xy_axes_button = gr . Button ( value = " Swap X/Y axes " , elem_id = " xy_grid_swap_axes_button " )
swap_yz_axes_button = gr . Button ( value = " Swap Y/Z axes " , elem_id = " yz_grid_swap_axes_button " )
swap_xz_axes_button = gr . Button ( value = " Swap X/Z axes " , elem_id = " xz_grid_swap_axes_button " )
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def swap_axes ( axis1_type , axis1_values , axis1_values_dropdown , axis2_type , axis2_values , axis2_values_dropdown ) :
return self . current_axis_options [ axis2_type ] . label , axis2_values , axis2_values_dropdown , self . current_axis_options [ axis1_type ] . label , axis1_values , axis1_values_dropdown
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xy_swap_args = [ x_type , x_values , x_values_dropdown , y_type , y_values , y_values_dropdown ]
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swap_xy_axes_button . click ( swap_axes , inputs = xy_swap_args , outputs = xy_swap_args )
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yz_swap_args = [ y_type , y_values , y_values_dropdown , z_type , z_values , z_values_dropdown ]
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swap_yz_axes_button . click ( swap_axes , inputs = yz_swap_args , outputs = yz_swap_args )
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xz_swap_args = [ x_type , x_values , x_values_dropdown , z_type , z_values , z_values_dropdown ]
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swap_xz_axes_button . click ( swap_axes , inputs = xz_swap_args , outputs = xz_swap_args )
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def fill ( axis_type , csv_mode ) :
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axis = self . current_axis_options [ axis_type ]
if axis . choices :
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if csv_mode :
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return list_to_csv_string ( axis . choices ( ) ) , gr . update ( )
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else :
return gr . update ( ) , axis . choices ( )
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else :
return gr . update ( ) , gr . update ( )
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fill_x_button . click ( fn = fill , inputs = [ x_type , csv_mode ] , outputs = [ x_values , x_values_dropdown ] )
fill_y_button . click ( fn = fill , inputs = [ y_type , csv_mode ] , outputs = [ y_values , y_values_dropdown ] )
fill_z_button . click ( fn = fill , inputs = [ z_type , csv_mode ] , outputs = [ z_values , z_values_dropdown ] )
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def select_axis ( axis_type , axis_values , axis_values_dropdown , csv_mode ) :
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axis_type = axis_type or 0 # if axle type is None set to 0
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choices = self . current_axis_options [ axis_type ] . choices
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has_choices = choices is not None
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if has_choices :
choices = choices ( )
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if csv_mode :
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if axis_values_dropdown :
axis_values = list_to_csv_string ( list ( filter ( lambda x : x in choices , axis_values_dropdown ) ) )
axis_values_dropdown = [ ]
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else :
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if axis_values :
axis_values_dropdown = list ( filter ( lambda x : x in choices , csv_string_to_list_strip ( axis_values ) ) )
axis_values = " "
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return ( gr . Button . update ( visible = has_choices ) , gr . Textbox . update ( visible = not has_choices or csv_mode , value = axis_values ) ,
gr . update ( choices = choices if has_choices else None , visible = has_choices and not csv_mode , value = axis_values_dropdown ) )
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x_type . change ( fn = select_axis , inputs = [ x_type , x_values , x_values_dropdown , csv_mode ] , outputs = [ fill_x_button , x_values , x_values_dropdown ] )
y_type . change ( fn = select_axis , inputs = [ y_type , y_values , y_values_dropdown , csv_mode ] , outputs = [ fill_y_button , y_values , y_values_dropdown ] )
z_type . change ( fn = select_axis , inputs = [ z_type , z_values , z_values_dropdown , csv_mode ] , outputs = [ fill_z_button , z_values , z_values_dropdown ] )
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def change_choice_mode ( csv_mode , x_type , x_values , x_values_dropdown , y_type , y_values , y_values_dropdown , z_type , z_values , z_values_dropdown ) :
_fill_x_button , _x_values , _x_values_dropdown = select_axis ( x_type , x_values , x_values_dropdown , csv_mode )
_fill_y_button , _y_values , _y_values_dropdown = select_axis ( y_type , y_values , y_values_dropdown , csv_mode )
_fill_z_button , _z_values , _z_values_dropdown = select_axis ( z_type , z_values , z_values_dropdown , csv_mode )
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return _fill_x_button , _x_values , _x_values_dropdown , _fill_y_button , _y_values , _y_values_dropdown , _fill_z_button , _z_values , _z_values_dropdown
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csv_mode . change ( fn = change_choice_mode , inputs = [ csv_mode , x_type , x_values , x_values_dropdown , y_type , y_values , y_values_dropdown , z_type , z_values , z_values_dropdown ] , outputs = [ fill_x_button , x_values , x_values_dropdown , fill_y_button , y_values , y_values_dropdown , fill_z_button , z_values , z_values_dropdown ] )
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def get_dropdown_update_from_params ( axis , params ) :
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val_key = f " { axis } Values "
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vals = params . get ( val_key , " " )
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valslist = csv_string_to_list_strip ( vals )
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return gr . update ( value = valslist )
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self . infotext_fields = (
( x_type , " X Type " ) ,
( x_values , " X Values " ) ,
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( x_values_dropdown , lambda params : get_dropdown_update_from_params ( " X " , params ) ) ,
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( y_type , " Y Type " ) ,
( y_values , " Y Values " ) ,
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( y_values_dropdown , lambda params : get_dropdown_update_from_params ( " Y " , params ) ) ,
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( z_type , " Z Type " ) ,
( z_values , " Z Values " ) ,
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( z_values_dropdown , lambda params : get_dropdown_update_from_params ( " Z " , params ) ) ,
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)
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return [ x_type , x_values , x_values_dropdown , y_type , y_values , y_values_dropdown , z_type , z_values , z_values_dropdown , draw_legend , include_lone_images , include_sub_grids , no_fixed_seeds , vary_seeds_x , vary_seeds_y , vary_seeds_z , margin_size , csv_mode ]
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def run ( self , p , x_type , x_values , x_values_dropdown , y_type , y_values , y_values_dropdown , z_type , z_values , z_values_dropdown , draw_legend , include_lone_images , include_sub_grids , no_fixed_seeds , vary_seeds_x , vary_seeds_y , vary_seeds_z , margin_size , csv_mode ) :
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x_type , y_type , z_type = x_type or 0 , y_type or 0 , z_type or 0 # if axle type is None set to 0
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if not no_fixed_seeds :
modules . processing . fix_seed ( p )
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if not opts . return_grid :
p . batch_size = 1
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def process_axis ( opt , vals , vals_dropdown ) :
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if opt . label == ' Nothing ' :
return [ 0 ]
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if opt . choices is not None and not csv_mode :
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valslist = vals_dropdown
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elif opt . prepare is not None :
valslist = opt . prepare ( vals )
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else :
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valslist = csv_string_to_list_strip ( vals )
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if opt . type == int :
valslist_ext = [ ]
for val in valslist :
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if val . strip ( ) == ' ' :
continue
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m = re_range . fullmatch ( val )
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mc = re_range_count . fullmatch ( val )
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if m is not None :
start = int ( m . group ( 1 ) )
end = int ( m . group ( 2 ) ) + 1
step = int ( m . group ( 3 ) ) if m . group ( 3 ) is not None else 1
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valslist_ext + = list ( range ( start , end , step ) )
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elif mc is not None :
start = int ( mc . group ( 1 ) )
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end = int ( mc . group ( 2 ) )
num = int ( mc . group ( 3 ) ) if mc . group ( 3 ) is not None else 1
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valslist_ext + = [ int ( x ) for x in np . linspace ( start = start , stop = end , num = num ) . tolist ( ) ]
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else :
valslist_ext . append ( val )
valslist = valslist_ext
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elif opt . type == float :
valslist_ext = [ ]
for val in valslist :
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if val . strip ( ) == ' ' :
continue
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m = re_range_float . fullmatch ( val )
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mc = re_range_count_float . fullmatch ( val )
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if m is not None :
start = float ( m . group ( 1 ) )
end = float ( m . group ( 2 ) )
step = float ( m . group ( 3 ) ) if m . group ( 3 ) is not None else 1
valslist_ext + = np . arange ( start , end + step , step ) . tolist ( )
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elif mc is not None :
start = float ( mc . group ( 1 ) )
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end = float ( mc . group ( 2 ) )
num = int ( mc . group ( 3 ) ) if mc . group ( 3 ) is not None else 1
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valslist_ext + = np . linspace ( start = start , stop = end , num = num ) . tolist ( )
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else :
valslist_ext . append ( val )
valslist = valslist_ext
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elif opt . type == str_permutations :
valslist = list ( permutations ( valslist ) )
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valslist = [ opt . type ( x ) for x in valslist ]
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# Confirm options are valid before starting
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if opt . confirm :
opt . confirm ( p , valslist )
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return valslist
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x_opt = self . current_axis_options [ x_type ]
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if x_opt . choices is not None and not csv_mode :
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x_values = list_to_csv_string ( x_values_dropdown )
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xs = process_axis ( x_opt , x_values , x_values_dropdown )
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y_opt = self . current_axis_options [ y_type ]
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if y_opt . choices is not None and not csv_mode :
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y_values = list_to_csv_string ( y_values_dropdown )
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ys = process_axis ( y_opt , y_values , y_values_dropdown )
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z_opt = self . current_axis_options [ z_type ]
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if z_opt . choices is not None and not csv_mode :
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z_values = list_to_csv_string ( z_values_dropdown )
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zs = process_axis ( z_opt , z_values , z_values_dropdown )
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# this could be moved to common code, but unlikely to be ever triggered anywhere else
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Image . MAX_IMAGE_PIXELS = None # disable check in Pillow and rely on check below to allow large custom image sizes
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grid_mp = round ( len ( xs ) * len ( ys ) * len ( zs ) * p . width * p . height / 1000000 )
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assert grid_mp < opts . img_max_size_mp , f ' Error: Resulting grid would be too large ( { grid_mp } MPixels) (max configured size is { opts . img_max_size_mp } MPixels) '
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def fix_axis_seeds ( axis_opt , axis_list ) :
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if axis_opt . label in [ ' Seed ' , ' Var. seed ' ] :
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return [ int ( random . randrange ( 4294967294 ) ) if val is None or val == ' ' or val == - 1 else val for val in axis_list ]
else :
return axis_list
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if not no_fixed_seeds :
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xs = fix_axis_seeds ( x_opt , xs )
ys = fix_axis_seeds ( y_opt , ys )
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zs = fix_axis_seeds ( z_opt , zs )
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if x_opt . label == ' Steps ' :
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total_steps = sum ( xs ) * len ( ys ) * len ( zs )
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elif y_opt . label == ' Steps ' :
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total_steps = sum ( ys ) * len ( xs ) * len ( zs )
elif z_opt . label == ' Steps ' :
total_steps = sum ( zs ) * len ( xs ) * len ( ys )
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else :
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total_steps = p . steps * len ( xs ) * len ( ys ) * len ( zs )
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if isinstance ( p , StableDiffusionProcessingTxt2Img ) and p . enable_hr :
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if x_opt . label == " Hires steps " :
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total_steps + = sum ( xs ) * len ( ys ) * len ( zs )
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elif y_opt . label == " Hires steps " :
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total_steps + = sum ( ys ) * len ( xs ) * len ( zs )
elif z_opt . label == " Hires steps " :
total_steps + = sum ( zs ) * len ( xs ) * len ( ys )
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elif p . hr_second_pass_steps :
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total_steps + = p . hr_second_pass_steps * len ( xs ) * len ( ys ) * len ( zs )
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else :
total_steps * = 2
total_steps * = p . n_iter
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image_cell_count = p . n_iter * p . batch_size
cell_console_text = f " ; { image_cell_count } images per cell " if image_cell_count > 1 else " "
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plural_s = ' s ' if len ( zs ) > 1 else ' '
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print ( f " X/Y/Z plot will create { len ( xs ) * len ( ys ) * len ( zs ) * image_cell_count } images on { len ( zs ) } { len ( xs ) } x { len ( ys ) } grid { plural_s } { cell_console_text } . (Total steps to process: { total_steps } ) " )
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shared . total_tqdm . updateTotal ( total_steps )
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state . xyz_plot_x = AxisInfo ( x_opt , xs )
state . xyz_plot_y = AxisInfo ( y_opt , ys )
state . xyz_plot_z = AxisInfo ( z_opt , zs )
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# If one of the axes is very slow to change between (like SD model
# checkpoint), then make sure it is in the outer iteration of the nested
# `for` loop.
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first_axes_processed = ' z '
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second_axes_processed = ' y '
if x_opt . cost > y_opt . cost and x_opt . cost > z_opt . cost :
first_axes_processed = ' x '
if y_opt . cost > z_opt . cost :
second_axes_processed = ' y '
else :
second_axes_processed = ' z '
elif y_opt . cost > x_opt . cost and y_opt . cost > z_opt . cost :
first_axes_processed = ' y '
if x_opt . cost > z_opt . cost :
second_axes_processed = ' x '
else :
second_axes_processed = ' z '
elif z_opt . cost > x_opt . cost and z_opt . cost > y_opt . cost :
first_axes_processed = ' z '
if x_opt . cost > y_opt . cost :
second_axes_processed = ' x '
else :
second_axes_processed = ' y '
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grid_infotext = [ None ] * ( 1 + len ( zs ) )
def cell ( x , y , z , ix , iy , iz ) :
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if shared . state . interrupted or state . stopping_generation :
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return Processed ( p , [ ] , p . seed , " " )
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pc = copy ( p )
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pc . styles = pc . styles [ : ]
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x_opt . apply ( pc , x , xs )
y_opt . apply ( pc , y , ys )
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z_opt . apply ( pc , z , zs )
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xdim = len ( xs ) if vary_seeds_x else 1
ydim = len ( ys ) if vary_seeds_y else 1
if vary_seeds_x :
pc . seed + = ix
if vary_seeds_y :
pc . seed + = iy * xdim
if vary_seeds_z :
pc . seed + = iz * xdim * ydim
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try :
res = process_images ( pc )
except Exception as e :
errors . display ( e , " generating image for xyz plot " )
res = Processed ( p , [ ] , p . seed , " " )
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# Sets subgrid infotexts
subgrid_index = 1 + iz
if grid_infotext [ subgrid_index ] is None and ix == 0 and iy == 0 :
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pc . extra_generation_params = copy ( pc . extra_generation_params )
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pc . extra_generation_params [ ' Script ' ] = self . title ( )
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if x_opt . label != ' Nothing ' :
pc . extra_generation_params [ " X Type " ] = x_opt . label
pc . extra_generation_params [ " X Values " ] = x_values
if x_opt . label in [ " Seed " , " Var. seed " ] and not no_fixed_seeds :
pc . extra_generation_params [ " Fixed X Values " ] = " , " . join ( [ str ( x ) for x in xs ] )
if y_opt . label != ' Nothing ' :
pc . extra_generation_params [ " Y Type " ] = y_opt . label
pc . extra_generation_params [ " Y Values " ] = y_values
if y_opt . label in [ " Seed " , " Var. seed " ] and not no_fixed_seeds :
pc . extra_generation_params [ " Fixed Y Values " ] = " , " . join ( [ str ( y ) for y in ys ] )
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grid_infotext [ subgrid_index ] = processing . create_infotext ( pc , pc . all_prompts , pc . all_seeds , pc . all_subseeds )
# Sets main grid infotext
if grid_infotext [ 0 ] is None and ix == 0 and iy == 0 and iz == 0 :
pc . extra_generation_params = copy ( pc . extra_generation_params )
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if z_opt . label != ' Nothing ' :
pc . extra_generation_params [ " Z Type " ] = z_opt . label
pc . extra_generation_params [ " Z Values " ] = z_values
if z_opt . label in [ " Seed " , " Var. seed " ] and not no_fixed_seeds :
pc . extra_generation_params [ " Fixed Z Values " ] = " , " . join ( [ str ( z ) for z in zs ] )
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grid_infotext [ 0 ] = processing . create_infotext ( pc , pc . all_prompts , pc . all_seeds , pc . all_subseeds )
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return res
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with SharedSettingsStackHelper ( ) :
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processed = draw_xyz_grid (
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p ,
xs = xs ,
ys = ys ,
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zs = zs ,
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x_labels = [ x_opt . format_value ( p , x_opt , x ) for x in xs ] ,
y_labels = [ y_opt . format_value ( p , y_opt , y ) for y in ys ] ,
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z_labels = [ z_opt . format_value ( p , z_opt , z ) for z in zs ] ,
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cell = cell ,
draw_legend = draw_legend ,
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include_lone_images = include_lone_images ,
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include_sub_grids = include_sub_grids ,
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first_axes_processed = first_axes_processed ,
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second_axes_processed = second_axes_processed ,
margin_size = margin_size
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)
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if not processed . images :
# It broke, no further handling needed.
return processed
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z_count = len ( zs )
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# Set the grid infotexts to the real ones with extra_generation_params (1 main grid + z_count sub-grids)
processed . infotexts [ : 1 + z_count ] = grid_infotext [ : 1 + z_count ]
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if not include_lone_images :
# Don't need sub-images anymore, drop from list:
processed . images = processed . images [ : z_count + 1 ]
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if opts . grid_save :
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# Auto-save main and sub-grids:
grid_count = z_count + 1 if z_count > 1 else 1
for g in range ( grid_count ) :
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# TODO: See previous comment about intentional data misalignment.
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adj_g = g - 1 if g > 0 else g
images . save_image ( processed . images [ g ] , p . outpath_grids , " xyz_grid " , info = processed . infotexts [ g ] , extension = opts . grid_format , prompt = processed . all_prompts [ adj_g ] , seed = processed . all_seeds [ adj_g ] , grid = True , p = processed )
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if not include_sub_grids : # if not include_sub_grids then skip saving after the first grid
break
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if not include_sub_grids :
# Done with sub-grids, drop all related information:
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for _ in range ( z_count ) :
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del processed . images [ 1 ]
del processed . all_prompts [ 1 ]
del processed . all_seeds [ 1 ]
del processed . infotexts [ 1 ]
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return processed