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import argparse , os , sys , glob
import torch
import torch . nn as nn
import numpy as np
import gradio as gr
from omegaconf import OmegaConf
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from PIL import Image , ImageFont , ImageDraw
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from itertools import islice
from einops import rearrange , repeat
from torch import autocast
from contextlib import contextmanager , nullcontext
import mimetypes
import random
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import math
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import k_diffusion as K
from ldm . util import instantiate_from_config
from ldm . models . diffusion . ddim import DDIMSampler
from ldm . models . diffusion . plms import PLMSSampler
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try :
# this silences the annoying "Some weights of the model checkpoint were not used when initializing..." message at start.
from transformers import logging
logging . set_verbosity_error ( )
except :
pass
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# this is a fix for Windows users. Without it, javascript files will be served with text/html content-type and the bowser will not show any UI
mimetypes . init ( )
mimetypes . add_type ( ' application/javascript ' , ' .js ' )
# some of those options should not be changed at all because they would break the model, so I removed them from options.
opt_C = 4
opt_f = 8
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LANCZOS = ( Image . Resampling . LANCZOS if hasattr ( Image , ' Resampling ' ) else Image . LANCZOS )
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invalid_filename_chars = ' <>: " / \ |?* \n '
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parser = argparse . ArgumentParser ( )
parser . add_argument ( " --outdir " , type = str , nargs = " ? " , help = " dir to write results to " , default = None )
parser . add_argument ( " --skip_grid " , action = ' store_true ' , help = " do not save a grid, only individual samples. Helpful when evaluating lots of samples " , )
parser . add_argument ( " --skip_save " , action = ' store_true ' , help = " do not save indiviual samples. For speed measurements. " , )
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parser . add_argument ( " --n_rows " , type = int , default = - 1 , help = " rows in the grid; use -1 for autodetect and 0 for n_rows to be same as batch_size (default: -1) " , )
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parser . add_argument ( " --config " , type = str , default = " configs/stable-diffusion/v1-inference.yaml " , help = " path to config which constructs model " , )
parser . add_argument ( " --ckpt " , type = str , default = " models/ldm/stable-diffusion-v1/model.ckpt " , help = " path to checkpoint of model " , )
parser . add_argument ( " --precision " , type = str , help = " evaluate at this precision " , choices = [ " full " , " autocast " ] , default = " autocast " )
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parser . add_argument ( " --gfpgan-dir " , type = str , help = " GFPGAN directory " , default = ( ' ./src/gfpgan ' if os . path . exists ( ' ./src/gfpgan ' ) else ' ./GFPGAN ' ) ) # i disagree with where you're putting it but since all guidefags are doing it this way, there you go
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parser . add_argument ( " --no-verify-input " , action = ' store_true ' , help = " do not verify input to check if it ' s too long " )
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parser . add_argument ( " --no-half " , action = ' store_true ' , help = " do not switch the model to 16-bit floats " )
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parser . add_argument ( " --no-progressbar-hiding " , action = ' store_true ' , help = " do not hide progressbar in gradio UI (we hide it because it slows down ML if you have hardware accleration in browser) " )
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parser . add_argument ( " --max-batch-count " , type = int , default = 16 , help = " maximum batch count value for the UI " )
parser . add_argument ( " --grid-format " , type = str , default = ' png ' , help = " file format for saved grids; can be png or jpg " )
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parser . add_argument ( " --inversion " , action = ' store_true ' , help = " switch to stable inversion version; allows for uploading embeddings; this option should be used only with textual inversion repo " )
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opt = parser . parse_args ( )
GFPGAN_dir = opt . gfpgan_dir
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css_hide_progressbar = """
. wrap . m - 12 svg { display : none ! important ; }
. wrap . m - 12 : : before { content : " Loading... " }
. progress - bar { display : none ! important ; }
. meta - text { display : none ! important ; }
"""
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def chunk ( it , size ) :
it = iter ( it )
return iter ( lambda : tuple ( islice ( it , size ) ) , ( ) )
def load_model_from_config ( config , ckpt , verbose = False ) :
print ( f " Loading model from { ckpt } " )
pl_sd = torch . load ( ckpt , map_location = " cpu " )
if " global_step " in pl_sd :
print ( f " Global Step: { pl_sd [ ' global_step ' ] } " )
sd = pl_sd [ " state_dict " ]
model = instantiate_from_config ( config . model )
m , u = model . load_state_dict ( sd , strict = False )
if len ( m ) > 0 and verbose :
print ( " missing keys: " )
print ( m )
if len ( u ) > 0 and verbose :
print ( " unexpected keys: " )
print ( u )
model . cuda ( )
model . eval ( )
return model
class CFGDenoiser ( nn . Module ) :
def __init__ ( self , model ) :
super ( ) . __init__ ( )
self . inner_model = model
def forward ( self , x , sigma , uncond , cond , cond_scale ) :
x_in = torch . cat ( [ x ] * 2 )
sigma_in = torch . cat ( [ sigma ] * 2 )
cond_in = torch . cat ( [ uncond , cond ] )
uncond , cond = self . inner_model ( x_in , sigma_in , cond = cond_in ) . chunk ( 2 )
return uncond + ( cond - uncond ) * cond_scale
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class KDiffusionSampler :
def __init__ ( self , m ) :
self . model = m
self . model_wrap = K . external . CompVisDenoiser ( m )
def sample ( self , S , conditioning , batch_size , shape , verbose , unconditional_guidance_scale , unconditional_conditioning , eta , x_T ) :
sigmas = self . model_wrap . get_sigmas ( S )
x = x_T * sigmas [ 0 ]
model_wrap_cfg = CFGDenoiser ( self . model_wrap )
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samples_ddim = K . sampling . sample_lms ( model_wrap_cfg , x , sigmas , extra_args = { ' cond ' : conditioning , ' uncond ' : unconditional_conditioning , ' cond_scale ' : unconditional_guidance_scale } , disable = False )
return samples_ddim , None
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def create_random_tensors ( shape , seeds ) :
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xs = [ ]
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for seed in seeds :
torch . manual_seed ( seed )
# randn results depend on device; gpu and cpu get different results for same seed;
# the way I see it, it's better to do this on CPU, so that everyone gets same result;
# but the original script had it like this so i do not dare change it for now because
# it will break everyone's seeds.
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xs . append ( torch . randn ( shape , device = device ) )
x = torch . stack ( xs )
return x
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def load_GFPGAN ( ) :
model_name = ' GFPGANv1.3 '
model_path = os . path . join ( GFPGAN_dir , ' experiments/pretrained_models ' , model_name + ' .pth ' )
if not os . path . isfile ( model_path ) :
raise Exception ( " GFPGAN model not found at path " + model_path )
sys . path . append ( os . path . abspath ( GFPGAN_dir ) )
from gfpgan import GFPGANer
return GFPGANer ( model_path = model_path , upscale = 1 , arch = ' clean ' , channel_multiplier = 2 , bg_upsampler = None )
GFPGAN = None
if os . path . exists ( GFPGAN_dir ) :
try :
GFPGAN = load_GFPGAN ( )
print ( " Loaded GFPGAN " )
except Exception :
import traceback
print ( " Error loading GFPGAN: " , file = sys . stderr )
print ( traceback . format_exc ( ) , file = sys . stderr )
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config = OmegaConf . load ( opt . config )
model = load_model_from_config ( config , opt . ckpt )
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device = torch . device ( " cuda " ) if torch . cuda . is_available ( ) else torch . device ( " cpu " )
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model = ( model if opt . no_half else model . half ( ) ) . to ( device )
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def image_grid ( imgs , batch_size , round_down = False , force_n_rows = None ) :
if force_n_rows is not None :
rows = force_n_rows
elif opt . n_rows > 0 :
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rows = opt . n_rows
elif opt . n_rows == 0 :
rows = batch_size
else :
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rows = math . sqrt ( len ( imgs ) )
rows = int ( rows ) if round_down else round ( rows )
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cols = math . ceil ( len ( imgs ) / rows )
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w , h = imgs [ 0 ] . size
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grid = Image . new ( ' RGB ' , size = ( cols * w , rows * h ) , color = ' black ' )
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for i , img in enumerate ( imgs ) :
grid . paste ( img , box = ( i % cols * w , i / / cols * h ) )
return grid
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def draw_prompt_matrix ( im , width , height , all_prompts ) :
def wrap ( text , d , font , line_length ) :
lines = [ ' ' ]
for word in text . split ( ) :
line = f ' { lines [ - 1 ] } { word } ' . strip ( )
if d . textlength ( line , font = font ) < = line_length :
lines [ - 1 ] = line
else :
lines . append ( word )
return ' \n ' . join ( lines )
def draw_texts ( pos , x , y , texts , sizes ) :
for i , ( text , size ) in enumerate ( zip ( texts , sizes ) ) :
active = pos & ( 1 << i ) != 0
if not active :
text = ' \u0336 ' . join ( text ) + ' \u0336 '
d . multiline_text ( ( x , y + size [ 1 ] / 2 ) , text , font = fnt , fill = color_active if active else color_inactive , anchor = " mm " , align = " center " )
y + = size [ 1 ] + line_spacing
fontsize = ( width + height ) / / 25
line_spacing = fontsize / / 2
fnt = ImageFont . truetype ( " arial.ttf " , fontsize )
color_active = ( 0 , 0 , 0 )
color_inactive = ( 153 , 153 , 153 )
pad_top = height / / 4
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pad_left = width * 3 / / 4 if len ( all_prompts ) > 2 else 0
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cols = im . width / / width
rows = im . height / / height
prompts = all_prompts [ 1 : ]
result = Image . new ( " RGB " , ( im . width + pad_left , im . height + pad_top ) , " white " )
result . paste ( im , ( pad_left , pad_top ) )
d = ImageDraw . Draw ( result )
boundary = math . ceil ( len ( prompts ) / 2 )
prompts_horiz = [ wrap ( x , d , fnt , width ) for x in prompts [ : boundary ] ]
prompts_vert = [ wrap ( x , d , fnt , pad_left ) for x in prompts [ boundary : ] ]
sizes_hor = [ ( x [ 2 ] - x [ 0 ] , x [ 3 ] - x [ 1 ] ) for x in [ d . multiline_textbbox ( ( 0 , 0 ) , x , font = fnt ) for x in prompts_horiz ] ]
sizes_ver = [ ( x [ 2 ] - x [ 0 ] , x [ 3 ] - x [ 1 ] ) for x in [ d . multiline_textbbox ( ( 0 , 0 ) , x , font = fnt ) for x in prompts_vert ] ]
hor_text_height = sum ( [ x [ 1 ] + line_spacing for x in sizes_hor ] ) - line_spacing
ver_text_height = sum ( [ x [ 1 ] + line_spacing for x in sizes_ver ] ) - line_spacing
for col in range ( cols ) :
x = pad_left + width * col + width / 2
y = pad_top / 2 - hor_text_height / 2
draw_texts ( col , x , y , prompts_horiz , sizes_hor )
for row in range ( rows ) :
x = pad_left / 2
y = pad_top + height * row + height / 2 - ver_text_height / 2
draw_texts ( row , x , y , prompts_vert , sizes_ver )
return result
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def resize_image ( resize_mode , im , width , height ) :
if resize_mode == 0 :
res = im . resize ( ( width , height ) , resample = LANCZOS )
elif resize_mode == 1 :
ratio = width / height
src_ratio = im . width / im . height
src_w = width if ratio > src_ratio else im . width * height / / im . height
src_h = height if ratio < = src_ratio else im . height * width / / im . width
resized = im . resize ( ( src_w , src_h ) , resample = LANCZOS )
res = Image . new ( " RGB " , ( width , height ) )
res . paste ( resized , box = ( width / / 2 - src_w / / 2 , height / / 2 - src_h / / 2 ) )
else :
ratio = width / height
src_ratio = im . width / im . height
src_w = width if ratio < src_ratio else im . width * height / / im . height
src_h = height if ratio > = src_ratio else im . height * width / / im . width
resized = im . resize ( ( src_w , src_h ) , resample = LANCZOS )
res = Image . new ( " RGB " , ( width , height ) )
res . paste ( resized , box = ( width / / 2 - src_w / / 2 , height / / 2 - src_h / / 2 ) )
if ratio < src_ratio :
fill_height = height / / 2 - src_h / / 2
res . paste ( resized . resize ( ( width , fill_height ) , box = ( 0 , 0 , width , 0 ) ) , box = ( 0 , 0 ) )
res . paste ( resized . resize ( ( width , fill_height ) , box = ( 0 , resized . height , width , resized . height ) ) , box = ( 0 , fill_height + src_h ) )
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elif ratio > src_ratio :
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fill_width = width / / 2 - src_w / / 2
res . paste ( resized . resize ( ( fill_width , height ) , box = ( 0 , 0 , 0 , height ) ) , box = ( 0 , 0 ) )
res . paste ( resized . resize ( ( fill_width , height ) , box = ( resized . width , 0 , resized . width , height ) ) , box = ( fill_width + src_w , 0 ) )
return res
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def check_prompt_length ( prompt , comments ) :
""" this function tests if prompt is too long, and if so, adds a message to comments """
tokenizer = model . cond_stage_model . tokenizer
max_length = model . cond_stage_model . max_length
info = model . cond_stage_model . tokenizer ( [ prompt ] , truncation = True , max_length = max_length , return_overflowing_tokens = True , padding = " max_length " , return_tensors = " pt " )
ovf = info [ ' overflowing_tokens ' ] [ 0 ]
overflowing_count = ovf . shape [ 0 ]
if overflowing_count == 0 :
return
vocab = { v : k for k , v in tokenizer . get_vocab ( ) . items ( ) }
overflowing_words = [ vocab . get ( int ( x ) , " " ) for x in ovf ]
overflowing_text = tokenizer . convert_tokens_to_string ( ' ' . join ( overflowing_words ) )
comments . append ( f " Warning: too many input tokens; some ( { len ( overflowing_words ) } ) have been truncated: \n { overflowing_text } \n " )
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def process_images ( outpath , func_init , func_sample , prompt , seed , sampler_name , batch_size , n_iter , steps , cfg_scale , width , height , prompt_matrix , use_GFPGAN , do_not_save_grid = False ) :
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""" this is the main loop that both txt2img and img2img use; it calls func_init once inside all the scopes and func_sample once per batch """
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assert prompt is not None
torch . cuda . empty_cache ( )
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if seed == - 1 :
seed = random . randrange ( 4294967294 )
seed = int ( seed )
os . makedirs ( outpath , exist_ok = True )
sample_path = os . path . join ( outpath , " samples " )
os . makedirs ( sample_path , exist_ok = True )
base_count = len ( os . listdir ( sample_path ) )
grid_count = len ( os . listdir ( outpath ) ) - 1
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comments = [ ]
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prompt_matrix_parts = [ ]
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if prompt_matrix :
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all_prompts = [ ]
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prompt_matrix_parts = prompt . split ( " | " )
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combination_count = 2 * * ( len ( prompt_matrix_parts ) - 1 )
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for combination_num in range ( combination_count ) :
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current = prompt_matrix_parts [ 0 ]
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for n , text in enumerate ( prompt_matrix_parts [ 1 : ] ) :
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if combination_num & ( 2 * * n ) > 0 :
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current + = ( " " if text . strip ( ) . startswith ( " , " ) else " , " ) + text
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all_prompts . append ( current )
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n_iter = math . ceil ( len ( all_prompts ) / batch_size )
all_seeds = len ( all_prompts ) * [ seed ]
print ( f " Prompt matrix will create { len ( all_prompts ) } images using a total of { n_iter } batches. " )
else :
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if not opt . no_verify_input :
try :
check_prompt_length ( prompt , comments )
except :
import traceback
print ( " Error verifying input: " , file = sys . stderr )
print ( traceback . format_exc ( ) , file = sys . stderr )
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all_prompts = batch_size * n_iter * [ prompt ]
all_seeds = [ seed + x for x in range ( len ( all_prompts ) ) ]
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precision_scope = autocast if opt . precision == " autocast " else nullcontext
output_images = [ ]
with torch . no_grad ( ) , precision_scope ( " cuda " ) , model . ema_scope ( ) :
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init_data = func_init ( )
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for n in range ( n_iter ) :
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prompts = all_prompts [ n * batch_size : ( n + 1 ) * batch_size ]
seeds = all_seeds [ n * batch_size : ( n + 1 ) * batch_size ]
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uc = None
if cfg_scale != 1.0 :
uc = model . get_learned_conditioning ( len ( prompts ) * [ " " ] )
if isinstance ( prompts , tuple ) :
prompts = list ( prompts )
c = model . get_learned_conditioning ( prompts )
# we manually generate all input noises because each one should have a specific seed
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x = create_random_tensors ( [ opt_C , height / / opt_f , width / / opt_f ] , seeds = seeds )
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samples_ddim = func_sample ( init_data = init_data , x = x , conditioning = c , unconditional_conditioning = uc )
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x_samples_ddim = model . decode_first_stage ( samples_ddim )
x_samples_ddim = torch . clamp ( ( x_samples_ddim + 1.0 ) / 2.0 , min = 0.0 , max = 1.0 )
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if prompt_matrix or not opt . skip_save or not opt . skip_grid :
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for i , x_sample in enumerate ( x_samples_ddim ) :
x_sample = 255. * rearrange ( x_sample . cpu ( ) . numpy ( ) , ' c h w -> h w c ' )
x_sample = x_sample . astype ( np . uint8 )
if use_GFPGAN and GFPGAN is not None :
cropped_faces , restored_faces , restored_img = GFPGAN . enhance ( x_sample , has_aligned = False , only_center_face = False , paste_back = True )
x_sample = restored_img
image = Image . fromarray ( x_sample )
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filename = f " { base_count : 05 } - { seeds [ i ] } _ { prompts [ i ] . replace ( ' ' , ' _ ' ) . translate ( { ord ( x ) : ' ' for x in invalid_filename_chars } ) [ : 128 ] } .png "
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image . save ( os . path . join ( sample_path , filename ) )
output_images . append ( image )
base_count + = 1
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if ( prompt_matrix or not opt . skip_grid ) and not do_not_save_grid :
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grid = image_grid ( output_images , batch_size , round_down = prompt_matrix )
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if prompt_matrix :
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try :
grid = draw_prompt_matrix ( grid , width , height , prompt_matrix_parts )
except Exception :
import traceback
print ( " Error creating prompt_matrix text: " , file = sys . stderr )
print ( traceback . format_exc ( ) , file = sys . stderr )
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output_images . insert ( 0 , grid )
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grid . save ( os . path . join ( outpath , f ' grid- { grid_count : 04 } . { opt . grid_format } ' ) )
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grid_count + = 1
info = f """
{ prompt }
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Steps : { steps } , Sampler : { sampler_name } , CFG scale : { cfg_scale } , Seed : { seed } { ' , GFPGAN ' if use_GFPGAN and GFPGAN is not None else ' ' }
""" .strip()
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for comment in comments :
info + = " \n \n " + comment
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return output_images , seed , info
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def load_embeddings ( fp ) :
# load the file
model . embedding_manager . load ( fp . name )
def txt2img ( prompt : str , ddim_steps : int , sampler_name : str , use_GFPGAN : bool , prompt_matrix : bool , ddim_eta : float , n_iter : int , batch_size : int , cfg_scale : float , seed : int , height : int , width : int , embeddings_fp ) :
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outpath = opt . outdir or " outputs/txt2img-samples "
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load_embeddings ( embeddings_fp )
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if sampler_name == ' PLMS ' :
sampler = PLMSSampler ( model )
elif sampler_name == ' DDIM ' :
sampler = DDIMSampler ( model )
elif sampler_name == ' k-diffusion ' :
sampler = KDiffusionSampler ( model )
else :
raise Exception ( " Unknown sampler: " + sampler_name )
def init ( ) :
pass
def sample ( init_data , x , conditioning , unconditional_conditioning ) :
samples_ddim , _ = sampler . sample ( S = ddim_steps , conditioning = conditioning , batch_size = int ( x . shape [ 0 ] ) , shape = x [ 0 ] . shape , verbose = False , unconditional_guidance_scale = cfg_scale , unconditional_conditioning = unconditional_conditioning , eta = ddim_eta , x_T = x )
return samples_ddim
output_images , seed , info = process_images (
outpath = outpath ,
func_init = init ,
func_sample = sample ,
prompt = prompt ,
seed = seed ,
sampler_name = sampler_name ,
batch_size = batch_size ,
n_iter = n_iter ,
steps = ddim_steps ,
cfg_scale = cfg_scale ,
width = width ,
height = height ,
prompt_matrix = prompt_matrix ,
use_GFPGAN = use_GFPGAN
)
del sampler
return output_images , seed , info
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class Flagging ( gr . FlaggingCallback ) :
def setup ( self , components , flagging_dir : str ) :
pass
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def flag ( self , flag_data , flag_option = None , flag_index = None , username = None ) :
import csv
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os . makedirs ( " log/images " , exist_ok = True )
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# those must match the "txt2img" function
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prompt , ddim_steps , sampler_name , use_GFPGAN , prompt_matrix , ddim_eta , n_iter , n_samples , cfg_scale , request_seed , height , width , images , seed , comment = flag_data
filenames = [ ]
with open ( " log/log.csv " , " a " , encoding = " utf8 " , newline = ' ' ) as file :
import time
import base64
at_start = file . tell ( ) == 0
writer = csv . writer ( file )
if at_start :
writer . writerow ( [ " prompt " , " seed " , " width " , " height " , " cfgs " , " steps " , " filename " ] )
filename_base = str ( int ( time . time ( ) * 1000 ) )
for i , filedata in enumerate ( images ) :
filename = " log/images/ " + filename_base + ( " " if len ( images ) == 1 else " - " + str ( i + 1 ) ) + " .png "
if filedata . startswith ( " data:image/png;base64, " ) :
filedata = filedata [ len ( " data:image/png;base64, " ) : ]
with open ( filename , " wb " ) as imgfile :
imgfile . write ( base64 . decodebytes ( filedata . encode ( ' utf-8 ' ) ) )
filenames . append ( filename )
writer . writerow ( [ prompt , seed , width , height , cfg_scale , ddim_steps , filenames [ 0 ] ] )
print ( " Logged: " , filenames [ 0 ] )
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txt2img_interface = gr . Interface (
txt2img ,
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inputs = [
gr . Textbox ( label = " Prompt " , placeholder = " A corgi wearing a top hat as an oil painting. " , lines = 1 ) ,
gr . Slider ( minimum = 1 , maximum = 150 , step = 1 , label = " Sampling Steps " , value = 50 ) ,
gr . Radio ( label = ' Sampling method ' , choices = [ " DDIM " , " PLMS " , " k-diffusion " ] , value = " k-diffusion " ) ,
gr . Checkbox ( label = ' Fix faces using GFPGAN ' , value = False , visible = GFPGAN is not None ) ,
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gr . Checkbox ( label = ' Create prompt matrix (separate multiple prompts using |, and get all combinations of them) ' , value = False ) ,
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gr . Slider ( minimum = 0.0 , maximum = 1.0 , step = 0.01 , label = " DDIM ETA " , value = 0.0 , visible = False ) ,
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gr . Slider ( minimum = 1 , maximum = opt . max_batch_count , step = 1 , label = ' Batch count (how many batches of images to generate) ' , value = 1 ) ,
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gr . Slider ( minimum = 1 , maximum = 8 , step = 1 , label = ' Batch size (how many images are in a batch; memory-hungry) ' , value = 1 ) ,
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gr . Slider ( minimum = 1.0 , maximum = 15.0 , step = 0.5 , label = ' Classifier Free Guidance Scale (how strongly the image should follow the prompt) ' , value = 7.0 ) ,
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gr . Number ( label = ' Seed ' , value = - 1 ) ,
gr . Slider ( minimum = 64 , maximum = 2048 , step = 64 , label = " Height " , value = 512 ) ,
gr . Slider ( minimum = 64 , maximum = 2048 , step = 64 , label = " Width " , value = 512 ) ,
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gr . File ( label = " Embeddings file for textual inversion " , visible = opt . inversion )
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] ,
outputs = [
gr . Gallery ( label = " Images " ) ,
gr . Number ( label = ' Seed ' ) ,
gr . Textbox ( label = " Copy-paste generation parameters " ) ,
] ,
title = " Stable Diffusion Text-to-Image K " ,
description = " Generate images from text with Stable Diffusion (using K-LMS) " ,
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flagging_callback = Flagging ( )
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)
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def img2img ( prompt : str , init_img , ddim_steps : int , use_GFPGAN : bool , prompt_matrix , loopback : bool , n_iter : int , batch_size : int , cfg_scale : float , denoising_strength : float , seed : int , height : int , width : int , resize_mode : int , embeddings_fp ) :
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outpath = opt . outdir or " outputs/img2img-samples "
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load_embeddings ( embeddings_fp )
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sampler = KDiffusionSampler ( model )
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assert 0. < = denoising_strength < = 1. , ' can only work with strength in [0.0, 1.0] '
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def init ( ) :
image = init_img . convert ( " RGB " )
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image = resize_image ( resize_mode , image , width , height )
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image = np . array ( image ) . astype ( np . float32 ) / 255.0
image = image [ None ] . transpose ( 0 , 3 , 1 , 2 )
image = torch . from_numpy ( image )
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init_image = 2. * image - 1.
init_image = init_image . to ( device )
init_image = repeat ( init_image , ' 1 ... -> b ... ' , b = batch_size )
init_latent = model . get_first_stage_encoding ( model . encode_first_stage ( init_image ) ) # move to latent space
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return init_latent ,
def sample ( init_data , x , conditioning , unconditional_conditioning ) :
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t_enc = int ( denoising_strength * ddim_steps )
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x0 , = init_data
sigmas = sampler . model_wrap . get_sigmas ( ddim_steps )
noise = x * sigmas [ ddim_steps - t_enc - 1 ]
xi = x0 + noise
sigma_sched = sigmas [ ddim_steps - t_enc - 1 : ]
model_wrap_cfg = CFGDenoiser ( sampler . model_wrap )
samples_ddim = K . sampling . sample_lms ( model_wrap_cfg , xi , sigma_sched , extra_args = { ' cond ' : conditioning , ' uncond ' : unconditional_conditioning , ' cond_scale ' : cfg_scale } , disable = False )
return samples_ddim
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if loopback :
output_images , info = None , None
history = [ ]
initial_seed = None
for i in range ( n_iter ) :
output_images , seed , info = process_images (
outpath = outpath ,
func_init = init ,
func_sample = sample ,
prompt = prompt ,
seed = seed ,
sampler_name = ' k-diffusion ' ,
batch_size = 1 ,
n_iter = 1 ,
steps = ddim_steps ,
cfg_scale = cfg_scale ,
width = width ,
height = height ,
prompt_matrix = prompt_matrix ,
use_GFPGAN = use_GFPGAN ,
do_not_save_grid = True
)
if initial_seed is None :
initial_seed = seed
init_img = output_images [ 0 ]
seed = seed + 1
denoising_strength = max ( denoising_strength * 0.95 , 0.1 )
history . append ( init_img )
grid_count = len ( os . listdir ( outpath ) ) - 1
grid = image_grid ( history , batch_size , force_n_rows = 1 )
grid . save ( os . path . join ( outpath , f ' grid- { grid_count : 04 } . { opt . grid_format } ' ) )
output_images = history
seed = initial_seed
else :
output_images , seed , info = process_images (
outpath = outpath ,
func_init = init ,
func_sample = sample ,
prompt = prompt ,
seed = seed ,
sampler_name = ' k-diffusion ' ,
batch_size = batch_size ,
n_iter = n_iter ,
steps = ddim_steps ,
cfg_scale = cfg_scale ,
width = width ,
height = height ,
prompt_matrix = prompt_matrix ,
use_GFPGAN = use_GFPGAN
)
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del sampler
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return output_images , seed , info
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sample_img2img = " assets/stable-samples/img2img/sketch-mountains-input.jpg "
sample_img2img = sample_img2img if os . path . exists ( sample_img2img ) else None
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img2img_interface = gr . Interface (
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img2img ,
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inputs = [
gr . Textbox ( placeholder = " A fantasy landscape, trending on artstation. " , lines = 1 ) ,
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gr . Image ( value = sample_img2img , source = " upload " , interactive = True , type = " pil " ) ,
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gr . Slider ( minimum = 1 , maximum = 150 , step = 1 , label = " Sampling Steps " , value = 50 ) ,
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gr . Checkbox ( label = ' Fix faces using GFPGAN ' , value = False , visible = GFPGAN is not None ) ,
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gr . Checkbox ( label = ' Create prompt matrix (separate multiple prompts using |, and get all combinations of them) ' , value = False ) ,
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gr . Checkbox ( label = ' Loopback (use images from previous batch when creating next batch) ' , value = False ) ,
gr . Slider ( minimum = 1 , maximum = opt . max_batch_count , step = 1 , label = ' Batch count (how many batches of images to generate) ' , value = 1 ) ,
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gr . Slider ( minimum = 1 , maximum = 8 , step = 1 , label = ' Batch size (how many images are in a batch; memory-hungry) ' , value = 1 ) ,
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gr . Slider ( minimum = 1.0 , maximum = 15.0 , step = 0.5 , label = ' Classifier Free Guidance Scale (how strongly the image should follow the prompt) ' , value = 7.0 ) ,
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gr . Slider ( minimum = 0.0 , maximum = 1.0 , step = 0.01 , label = ' Denoising Strength ' , value = 0.75 ) ,
gr . Number ( label = ' Seed ' , value = - 1 ) ,
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gr . Slider ( minimum = 64 , maximum = 2048 , step = 64 , label = " Height " , value = 512 ) ,
gr . Slider ( minimum = 64 , maximum = 2048 , step = 64 , label = " Width " , value = 512 ) ,
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gr . Radio ( label = " Resize mode " , choices = [ " Just resize " , " Crop and resize " , " Resize and fill " ] , type = " index " , value = " Just resize " ) ,
gr . File ( label = " Embeddings file for textual inversion " , visible = opt . inversion )
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] ,
outputs = [
gr . Gallery ( ) ,
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gr . Number ( label = ' Seed ' ) ,
gr . Textbox ( label = " Copy-paste generation parameters " ) ,
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] ,
title = " Stable Diffusion Image-to-Image " ,
description = " Generate images from images with Stable Diffusion " ,
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allow_flagging = " never " ,
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)
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interfaces = [
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( txt2img_interface , " txt2img " ) ,
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( img2img_interface , " img2img " )
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]
def run_GFPGAN ( image , strength ) :
image = image . convert ( " RGB " )
cropped_faces , restored_faces , restored_img = GFPGAN . enhance ( np . array ( image , dtype = np . uint8 ) , has_aligned = False , only_center_face = False , paste_back = True )
res = Image . fromarray ( restored_img )
if strength < 1.0 :
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res = Image . blend ( image , res , strength )
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return res
if GFPGAN is not None :
interfaces . append ( ( gr . Interface (
run_GFPGAN ,
inputs = [
gr . Image ( label = " Source " , source = " upload " , interactive = True , type = " pil " ) ,
gr . Slider ( minimum = 0.0 , maximum = 1.0 , step = 0.001 , label = " Effect strength " , value = 100 ) ,
] ,
outputs = [
gr . Image ( label = " Result " ) ,
] ,
title = " GFPGAN " ,
description = " Fix faces on images " ,
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allow_flagging = " never " ,
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) , " GFPGAN " ) )
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demo = gr . TabbedInterface (
interface_list = [ x [ 0 ] for x in interfaces ] ,
tab_names = [ x [ 1 ] for x in interfaces ] ,
css = ( " " if opt . no_progressbar_hiding else css_hide_progressbar )
)
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demo . launch ( )