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# This file is part of stable-diffusion-webui (https://github.com/sd-webui/stable-diffusion-webui/).
# Copyright 2022 sd-webui team.
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Affero General Public License for more details.
# You should have received a copy of the GNU Affero General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
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import argparse , os , sys , glob , re
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import cv2
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from perlin import perlinNoise
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from frontend . frontend import draw_gradio_ui
from frontend . job_manager import JobManager , JobInfo
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
from frontend . image_metadata import ImageMetadata
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from frontend . ui_functions import resize_image
parser = argparse . ArgumentParser ( formatter_class = argparse . ArgumentDefaultsHelpFormatter )
parser . add_argument ( " --ckpt " , type = str , default = " models/ldm/stable-diffusion-v1/model.ckpt " , help = " path to checkpoint of model " , )
parser . add_argument ( " --cli " , type = str , help = " don ' t launch web server, take Python function kwargs from this file. " , default = None )
parser . add_argument ( " --config " , type = str , default = " configs/stable-diffusion/v1-inference.yaml " , help = " path to config which constructs model " , )
parser . add_argument ( " --defaults " , type = str , help = " path to configuration file providing UI defaults, uses same format as cli parameter " , default = ' configs/webui/webui.yaml ' )
parser . add_argument ( " --esrgan-cpu " , action = ' store_true ' , help = " run ESRGAN on cpu " , default = False )
parser . add_argument ( " --esrgan-gpu " , type = int , help = " run ESRGAN on specific gpu (overrides --gpu) " , default = 0 )
parser . add_argument ( " --extra-models-cpu " , action = ' store_true ' , help = " run extra models (GFGPAN/ESRGAN) on cpu " , default = False )
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parser . add_argument ( " --extra-models-gpu " , action = ' store_true ' , help = " run extra models (GFGPAN/ESRGAN) on gpu " , default = False )
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parser . add_argument ( " --gfpgan-cpu " , action = ' store_true ' , help = " run GFPGAN on cpu " , default = False )
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
parser . add_argument ( " --gfpgan-gpu " , type = int , help = " run GFPGAN on specific gpu (overrides --gpu) " , default = 0 )
parser . add_argument ( " --gpu " , type = int , help = " choose which GPU to use if you have multiple " , default = 0 )
parser . add_argument ( " --grid-format " , type = str , help = " png for lossless png files; jpg:quality for lossy jpeg; webp:quality for lossy webp, or webp:-compression for lossless webp " , default = " jpg:95 " )
parser . add_argument ( " --inbrowser " , action = ' store_true ' , help = " automatically launch the interface in a new tab on the default browser " , default = False )
parser . add_argument ( " --ldsr-dir " , type = str , help = " LDSR directory " , default = ( ' ./src/latent-diffusion ' if os . path . exists ( ' ./src/latent-diffusion ' ) else ' ./LDSR ' ) )
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) " , )
parser . add_argument ( " --no-half " , action = ' store_true ' , help = " do not switch the model to 16-bit floats " , default = False )
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) " , default = False )
parser . add_argument ( " --no-verify-input " , action = ' store_true ' , help = " do not verify input to check if it ' s too long " , default = False )
parser . add_argument ( " --optimized-turbo " , action = ' store_true ' , help = " alternative optimization mode that does not save as much VRAM but runs siginificantly faster " )
parser . add_argument ( " --optimized " , action = ' store_true ' , help = " load the model onto the device piecemeal instead of all at once to reduce VRAM usage at the cost of performance " )
parser . add_argument ( " --outdir_img2img " , type = str , nargs = " ? " , help = " dir to write img2img results to (overrides --outdir) " , default = None )
parser . add_argument ( " --outdir_imglab " , type = str , nargs = " ? " , help = " dir to write imglab results to (overrides --outdir) " , default = None )
parser . add_argument ( " --outdir_txt2img " , type = str , nargs = " ? " , help = " dir to write txt2img results to (overrides --outdir) " , default = None )
parser . add_argument ( " --outdir " , type = str , nargs = " ? " , help = " dir to write results to " , default = None )
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parser . add_argument ( " --filename_format " , type = str , nargs = " ? " , help = " filenames format " , default = None )
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parser . add_argument ( " --port " , type = int , help = " choose the port for the gradio webserver to use " , default = 7860 )
parser . add_argument ( " --precision " , type = str , help = " evaluate at this precision " , choices = [ " full " , " autocast " ] , default = " autocast " )
parser . add_argument ( " --realesrgan-dir " , type = str , help = " RealESRGAN directory " , default = ( ' ./src/realesrgan ' if os . path . exists ( ' ./src/realesrgan ' ) else ' ./RealESRGAN ' ) )
parser . add_argument ( " --realesrgan-model " , type = str , help = " Upscaling model for RealESRGAN " , default = ( ' RealESRGAN_x4plus ' ) )
parser . add_argument ( " --save-metadata " , action = ' store_true ' , help = " Store generation parameters in the output png. Drop saved png into Image Lab to read parameters " , default = False )
parser . add_argument ( " --share-password " , type = str , help = " Sharing is open by default, use this to set a password. Username: webui " , default = None )
parser . add_argument ( " --share " , action = ' store_true ' , help = " Should share your server on gradio.app, this allows you to use the UI from your mobile app " , default = False )
parser . add_argument ( " --skip-grid " , action = ' store_true ' , help = " do not save a grid, only individual samples. Helpful when evaluating lots of samples " , default = False )
parser . add_argument ( " --skip-save " , action = ' store_true ' , help = " do not save indiviual samples. For speed measurements. " , default = False )
parser . add_argument ( ' --no-job-manager ' , action = ' store_true ' , help = " Don ' t use the experimental job manager on top of gradio " , default = False )
parser . add_argument ( " --max-jobs " , type = int , help = " Maximum number of concurrent ' generate ' commands " , default = 1 )
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parser . add_argument ( " --tiling " , action = ' store_true ' , help = " Generate tiling images " , default = False )
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opt = parser . parse_args ( )
#Should not be needed anymore
#os.environ["CUDA_DEVICE_ORDER"]="PCI_BUS_ID" # see issue #152
# all selected gpus, can probably be done nicer
#if opt.extra_models_gpu:
# gpus = set([opt.gpu, opt.esrgan_gpu, opt.gfpgan_gpu])
# os.environ["CUDA_VISIBLE_DEVICES"] = ','.join(str(g) for g in set(gpus))
#else:
# os.environ["CUDA_VISIBLE_DEVICES"] = str(opt.gpu)
import gradio as gr
import k_diffusion as K
import math
import mimetypes
import numpy as np
import pynvml
import random
import threading , asyncio
import time
import torch
import torch . nn as nn
import yaml
import glob
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
import copy
from typing import List , Union , Dict , Callable , Any , Optional
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from pathlib import Path
from collections import namedtuple
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from functools import partial
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# tell the user which GPU the code is actually using
if os . getenv ( " SD_WEBUI_DEBUG " , ' False ' ) . lower ( ) in ( ' true ' , ' 1 ' , ' y ' ) :
gpu_in_use = opt . gpu
# prioritize --esrgan-gpu and --gfpgan-gpu over --gpu, as stated in the option info
if opt . esrgan_gpu != opt . gpu :
gpu_in_use = opt . esrgan_gpu
elif opt . gfpgan_gpu != opt . gpu :
gpu_in_use = opt . gfpgan_gpu
print ( " Starting on GPU {selected_gpu_name} " . format ( selected_gpu_name = torch . cuda . get_device_name ( gpu_in_use ) ) )
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from contextlib import contextmanager , nullcontext
from einops import rearrange , repeat
from itertools import islice
from omegaconf import OmegaConf
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from PIL import Image , ImageFont , ImageDraw , ImageFilter , ImageOps , ImageChops
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from io import BytesIO
import base64
import re
from torch import autocast
from ldm . models . diffusion . ddim import DDIMSampler
from ldm . models . diffusion . plms import PLMSSampler
from ldm . util import instantiate_from_config
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# add global options to models
def patch_conv ( * * patch ) :
cls = torch . nn . Conv2d
init = cls . __init__
def __init__ ( self , * args , * * kwargs ) :
return init ( self , * args , * * kwargs , * * patch )
cls . __init__ = __init__
if opt . tiling :
patch_conv ( padding_mode = ' circular ' )
print ( " patched for tiling " )
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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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from diffusers . pipelines . stable_diffusion . safety_checker import StableDiffusionSafetyChecker
from transformers import AutoFeatureExtractor
# load safety model
safety_model_id = " CompVis/stable-diffusion-safety-checker "
safety_feature_extractor = None
safety_checker = None
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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
LANCZOS = ( Image . Resampling . LANCZOS if hasattr ( Image , ' Resampling ' ) else Image . LANCZOS )
invalid_filename_chars = ' <>: " / \ |?* \n '
GFPGAN_dir = opt . gfpgan_dir
RealESRGAN_dir = opt . realesrgan_dir
LDSR_dir = opt . ldsr_dir
if opt . optimized_turbo :
opt . optimized = True
if opt . no_job_manager :
job_manager = None
else :
job_manager = JobManager ( opt . max_jobs )
opt . max_jobs + = 1 # Leave a free job open for button clicks
# should probably be moved to a settings menu in the UI at some point
grid_format = [ s . lower ( ) for s in opt . grid_format . split ( ' : ' ) ]
grid_lossless = False
grid_quality = 100
if grid_format [ 0 ] == ' png ' :
grid_ext = ' png '
grid_format = ' png '
elif grid_format [ 0 ] in [ ' jpg ' , ' jpeg ' ] :
grid_quality = int ( grid_format [ 1 ] ) if len ( grid_format ) > 1 else 100
grid_ext = ' jpg '
grid_format = ' jpeg '
elif grid_format [ 0 ] == ' webp ' :
grid_quality = int ( grid_format [ 1 ] ) if len ( grid_format ) > 1 else 100
grid_ext = ' webp '
grid_format = ' webp '
if grid_quality < 0 : # e.g. webp:-100 for lossless mode
grid_lossless = True
grid_quality = abs ( grid_quality )
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
def load_sd_from_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 " ]
return sd
def crash ( e , s ) :
global model
global device
print ( s , ' \n ' , e )
try :
del model
del device
except :
try :
del device
except :
pass
pass
print ( ' exiting...calling os._exit(0) ' )
t = threading . Timer ( 0.25 , os . _exit , args = [ 0 ] )
t . start ( )
class MemUsageMonitor ( threading . Thread ) :
stop_flag = False
max_usage = 0
total = - 1
def __init__ ( self , name ) :
threading . Thread . __init__ ( self )
self . name = name
def run ( self ) :
try :
pynvml . nvmlInit ( )
except :
print ( f " [ { self . name } ] Unable to initialize NVIDIA management. No memory stats. \n " )
return
print ( f " [ { self . name } ] Recording max memory usage... \n " )
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# check if we're using a scoped-down GPU environment (pynvml does not listen to CUDA_VISIBLE_DEVICES)
# so that we can measure memory on the correct GPU
try :
isinstance ( int ( os . environ [ " CUDA_VISIBLE_DEVICES " ] ) , int )
handle = pynvml . nvmlDeviceGetHandleByIndex ( int ( os . environ [ " CUDA_VISIBLE_DEVICES " ] ) )
except ( KeyError , ValueError ) as pynvmlHandleError :
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if os . getenv ( " SD_WEBUI_DEBUG " , ' False ' ) . lower ( ) in ( ' true ' , ' 1 ' , ' y ' ) :
print ( " [MemMon][WARNING] " , pynvmlHandleError )
print ( " [MemMon][INFO] " , " defaulting to monitoring memory on the default gpu (set via --gpu flag) " )
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handle = pynvml . nvmlDeviceGetHandleByIndex ( opt . gpu )
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self . total = pynvml . nvmlDeviceGetMemoryInfo ( handle ) . total
while not self . stop_flag :
m = pynvml . nvmlDeviceGetMemoryInfo ( handle )
self . max_usage = max ( self . max_usage , m . used )
# print(self.max_usage)
time . sleep ( 0.1 )
print ( f " [ { self . name } ] Stopped recording. \n " )
pynvml . nvmlShutdown ( )
def read ( self ) :
return self . max_usage , self . total
def stop ( self ) :
self . stop_flag = True
def read_and_stop ( self ) :
self . stop_flag = True
return self . max_usage , self . total
class CFGMaskedDenoiser ( nn . Module ) :
def __init__ ( self , model ) :
super ( ) . __init__ ( )
self . inner_model = model
def forward ( self , x , sigma , uncond , cond , cond_scale , mask , x0 , xi ) :
x_in = x
x_in = torch . cat ( [ x_in ] * 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 )
denoised = uncond + ( cond - uncond ) * cond_scale
if mask is not None :
assert x0 is not None
img_orig = x0
mask_inv = 1. - mask
denoised = ( img_orig * mask_inv ) + ( mask * denoised )
return denoised
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
class KDiffusionSampler :
def __init__ ( self , m , sampler ) :
self . model = m
self . model_wrap = K . external . CompVisDenoiser ( m )
self . schedule = sampler
def get_sampler_name ( self ) :
return self . schedule
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def sample ( self , S , conditioning , batch_size , shape , verbose , unconditional_guidance_scale , unconditional_conditioning , eta , x_T , img_callback : Callable = None ) :
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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 . __dict__ [ f ' sample_ { self . schedule } ' ] ( model_wrap_cfg , x , sigmas , extra_args = { ' cond ' : conditioning , ' uncond ' : unconditional_conditioning , ' cond_scale ' : unconditional_guidance_scale } , disable = False , callback = partial ( KDiffusionSampler . img_callback_wrapper , img_callback ) )
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return samples_ddim , None
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@classmethod
def img_callback_wrapper ( cls , callback : Callable , * args ) :
''' Converts a KDiffusion callback to the standard img_callback '''
if callback :
arg_dict = args [ 0 ]
callback ( image_sample = arg_dict [ ' denoised ' ] , iter_num = arg_dict [ ' i ' ] )
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def create_random_tensors ( shape , seeds ) :
xs = [ ]
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.
xs . append ( torch . randn ( shape , device = device ) )
x = torch . stack ( xs )
return x
def torch_gc ( ) :
torch . cuda . empty_cache ( )
torch . cuda . ipc_collect ( )
def load_LDSR ( checking = False ) :
model_name = ' model '
yaml_name = ' project '
model_path = os . path . join ( LDSR_dir , ' experiments/pretrained_models ' , model_name + ' .ckpt ' )
yaml_path = os . path . join ( LDSR_dir , ' experiments/pretrained_models ' , yaml_name + ' .yaml ' )
if not os . path . isfile ( model_path ) :
raise Exception ( " LDSR model not found at path " + model_path )
if not os . path . isfile ( yaml_path ) :
raise Exception ( " LDSR model not found at path " + yaml_path )
if checking == True :
return True
sys . path . append ( os . path . abspath ( LDSR_dir ) )
from LDSR import LDSR
LDSRObject = LDSR ( model_path , yaml_path )
return LDSRObject
def load_GFPGAN ( checking = False ) :
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 )
if checking == True :
return True
sys . path . append ( os . path . abspath ( GFPGAN_dir ) )
from gfpgan import GFPGANer
if opt . gfpgan_cpu or opt . extra_models_cpu :
instance = GFPGANer ( model_path = model_path , upscale = 1 , arch = ' clean ' , channel_multiplier = 2 , bg_upsampler = None , device = torch . device ( ' cpu ' ) )
elif opt . extra_models_gpu :
instance = GFPGANer ( model_path = model_path , upscale = 1 , arch = ' clean ' , channel_multiplier = 2 , bg_upsampler = None , device = torch . device ( f ' cuda: { opt . gfpgan_gpu } ' ) )
else :
instance = GFPGANer ( model_path = model_path , upscale = 1 , arch = ' clean ' , channel_multiplier = 2 , bg_upsampler = None , device = torch . device ( f ' cuda: { opt . gpu } ' ) )
return instance
def load_RealESRGAN ( model_name : str , checking = False ) :
from basicsr . archs . rrdbnet_arch import RRDBNet
RealESRGAN_models = {
' RealESRGAN_x4plus ' : RRDBNet ( num_in_ch = 3 , num_out_ch = 3 , num_feat = 64 , num_block = 23 , num_grow_ch = 32 , scale = 4 ) ,
' RealESRGAN_x4plus_anime_6B ' : RRDBNet ( num_in_ch = 3 , num_out_ch = 3 , num_feat = 64 , num_block = 6 , num_grow_ch = 32 , scale = 4 )
}
model_path = os . path . join ( RealESRGAN_dir , ' experiments/pretrained_models ' , model_name + ' .pth ' )
if not os . path . isfile ( model_path ) :
raise Exception ( model_name + " .pth not found at path " + model_path )
if checking == True :
return True
sys . path . append ( os . path . abspath ( RealESRGAN_dir ) )
from realesrgan import RealESRGANer
if opt . esrgan_cpu or opt . extra_models_cpu :
instance = RealESRGANer ( scale = 2 , model_path = model_path , model = RealESRGAN_models [ model_name ] , pre_pad = 0 , half = False ) # cpu does not support half
instance . device = torch . device ( ' cpu ' )
instance . model . to ( ' cpu ' )
elif opt . extra_models_gpu :
instance = RealESRGANer ( scale = 2 , model_path = model_path , model = RealESRGAN_models [ model_name ] , pre_pad = 0 , half = not opt . no_half , gpu_id = opt . esrgan_gpu )
else :
instance = RealESRGANer ( scale = 2 , model_path = model_path , model = RealESRGAN_models [ model_name ] , pre_pad = 0 , half = not opt . no_half )
instance . model . name = model_name
return instance
GFPGAN = None
if os . path . exists ( GFPGAN_dir ) :
try :
GFPGAN = load_GFPGAN ( checking = True )
print ( " Found GFPGAN " )
except Exception :
import traceback
print ( " Error loading GFPGAN: " , file = sys . stderr )
print ( traceback . format_exc ( ) , file = sys . stderr )
RealESRGAN = None
def try_loading_RealESRGAN ( model_name : str , checking = False ) :
global RealESRGAN
if os . path . exists ( RealESRGAN_dir ) :
try :
RealESRGAN = load_RealESRGAN ( model_name , checking ) # TODO: Should try to load both models before giving up
if checking == True :
print ( " Found RealESRGAN " )
return True
print ( " Loaded RealESRGAN with model " + RealESRGAN . model . name )
except Exception :
import traceback
print ( " Error loading RealESRGAN: " , file = sys . stderr )
print ( traceback . format_exc ( ) , file = sys . stderr )
try_loading_RealESRGAN ( ' RealESRGAN_x4plus ' , checking = True )
LDSR = None
def try_loading_LDSR ( model_name : str , checking = False ) :
global LDSR
if os . path . exists ( LDSR_dir ) :
try :
LDSR = load_LDSR ( checking = True ) # TODO: Should try to load both models before giving up
if checking == True :
print ( " Found LDSR " )
return True
print ( " Latent Diffusion Super Sampling (LDSR) model loaded " )
except Exception :
import traceback
print ( " Error loading LDSR: " , file = sys . stderr )
print ( traceback . format_exc ( ) , file = sys . stderr )
else :
print ( " LDSR not found at path, please make sure you have cloned the LDSR repo to ./src/latent-diffusion/ " )
try_loading_LDSR ( ' model ' , checking = True )
def load_SD_model ( ) :
if opt . optimized :
sd = load_sd_from_config ( opt . ckpt )
li , lo = [ ] , [ ]
for key , v_ in sd . items ( ) :
sp = key . split ( ' . ' )
if ( sp [ 0 ] ) == ' model ' :
if ( ' input_blocks ' in sp ) :
li . append ( key )
elif ( ' middle_block ' in sp ) :
li . append ( key )
elif ( ' time_embed ' in sp ) :
li . append ( key )
else :
lo . append ( key )
for key in li :
sd [ ' model1. ' + key [ 6 : ] ] = sd . pop ( key )
for key in lo :
sd [ ' model2. ' + key [ 6 : ] ] = sd . pop ( key )
config = OmegaConf . load ( " optimizedSD/v1-inference.yaml " )
device = torch . device ( f " cuda: { opt . gpu } " ) if torch . cuda . is_available ( ) else torch . device ( " cpu " )
model = instantiate_from_config ( config . modelUNet )
_ , _ = model . load_state_dict ( sd , strict = False )
model . cuda ( )
model . eval ( )
model . turbo = opt . optimized_turbo
modelCS = instantiate_from_config ( config . modelCondStage )
_ , _ = modelCS . load_state_dict ( sd , strict = False )
modelCS . cond_stage_model . device = device
modelCS . eval ( )
modelFS = instantiate_from_config ( config . modelFirstStage )
_ , _ = modelFS . load_state_dict ( sd , strict = False )
modelFS . eval ( )
del sd
if not opt . no_half :
model = model . half ( )
modelCS = modelCS . half ( )
modelFS = modelFS . half ( )
return model , modelCS , modelFS , device , config
else :
config = OmegaConf . load ( opt . config )
model = load_model_from_config ( config , opt . ckpt )
device = torch . device ( f " cuda: { opt . gpu } " ) if torch . cuda . is_available ( ) else torch . device ( " cpu " )
model = ( model if opt . no_half else model . half ( ) ) . to ( device )
return model , device , config
if opt . optimized :
model , modelCS , modelFS , device , config = load_SD_model ( )
else :
model , device , config = load_SD_model ( )
def load_embeddings ( fp ) :
if fp is not None and hasattr ( model , " embedding_manager " ) :
model . embedding_manager . load ( fp . name )
def get_font ( fontsize ) :
fonts = [ " arial.ttf " , " DejaVuSans.ttf " ]
for font_name in fonts :
try :
return ImageFont . truetype ( font_name , fontsize )
except OSError :
pass
# ImageFont.load_default() is practically unusable as it only supports
# latin1, so raise an exception instead if no usable font was found
raise Exception ( f " No usable font found (tried { ' , ' . join ( fonts ) } ) " )
def image_grid ( imgs , batch_size , force_n_rows = None , captions = None ) :
if force_n_rows is not None :
rows = force_n_rows
elif opt . n_rows > 0 :
rows = opt . n_rows
elif opt . n_rows == 0 :
rows = batch_size
else :
rows = math . sqrt ( len ( imgs ) )
rows = round ( rows )
cols = math . ceil ( len ( imgs ) / rows )
w , h = imgs [ 0 ] . size
grid = Image . new ( ' RGB ' , size = ( cols * w , rows * h ) , color = ' black ' )
fnt = get_font ( 30 )
for i , img in enumerate ( imgs ) :
grid . paste ( img , box = ( i % cols * w , i / / cols * h ) )
if captions and i < len ( captions ) :
d = ImageDraw . Draw ( grid )
size = d . textbbox ( ( 0 , 0 ) , captions [ i ] , font = fnt , stroke_width = 2 , align = " center " )
d . multiline_text ( ( i % cols * w + w / 2 , i / / cols * h + h - size [ 3 ] ) , captions [ i ] , font = fnt , fill = ( 255 , 255 , 255 ) , stroke_width = 2 , stroke_fill = ( 0 , 0 , 0 ) , anchor = " mm " , align = " center " )
return grid
def seed_to_int ( s ) :
if type ( s ) is int :
return s
if s is None or s == ' ' :
return random . randint ( 0 , 2 * * 32 - 1 )
n = abs ( int ( s ) if s . isdigit ( ) else random . Random ( s ) . randint ( 0 , 2 * * 32 - 1 ) )
while n > = 2 * * 32 :
n = n >> 32
return n
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 = get_font ( fontsize )
color_active = ( 0 , 0 , 0 )
color_inactive = ( 153 , 153 , 153 )
pad_top = height / / 4
pad_left = width * 3 / / 4 if len ( all_prompts ) > 2 else 0
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
def check_prompt_length ( prompt , comments ) :
""" this function tests if prompt is too long, and if so, adds a message to comments """
tokenizer = ( model if not opt . optimized else modelCS ) . cond_stage_model . tokenizer
max_length = ( model if not opt . optimized else modelCS ) . cond_stage_model . max_length
info = ( model if not opt . optimized else modelCS ) . 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 " )
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
def save_sample ( image , sample_path_i , filename , jpg_sample , write_info_files , write_sample_info_to_log_file , prompt_matrix , init_img , uses_loopback , uses_random_seed_loopback , skip_save ,
skip_grid , sort_samples , sampler_name , ddim_eta , n_iter , batch_size , i , denoising_strength , resize_mode , skip_metadata = False ) :
''' saves the image according to selected parameters. Expects to find generation parameters on image, set by ImageMetadata.set_on_image() '''
metadata = ImageMetadata . get_from_image ( image )
if not skip_metadata and metadata is None :
print ( " No metadata passed in to save. Set metadata on the image before calling save_sample using the ImageMetadata.set_on_image() function. " )
skip_metadata = True
2022-09-07 01:50:14 +03:00
filename_i = os . path . join ( sample_path_i , filename )
if not jpg_sample :
if opt . save_metadata and not skip_metadata :
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
image . save ( f " { filename_i } .png " , pnginfo = metadata . as_png_info ( ) )
2022-09-07 01:50:14 +03:00
else :
image . save ( f " { filename_i } .png " )
else :
image . save ( f " { filename_i } .jpg " , ' jpeg ' , quality = 100 , optimize = True )
if write_info_files or write_sample_info_to_log_file :
# toggles differ for txt2img vs. img2img:
offset = 0 if init_img is None else 2
toggles = [ ]
if prompt_matrix :
toggles . append ( 0 )
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
if metadata . normalize_prompt_weights :
2022-09-07 01:50:14 +03:00
toggles . append ( 1 )
if init_img is not None :
if uses_loopback :
toggles . append ( 2 )
if uses_random_seed_loopback :
toggles . append ( 3 )
if not skip_save :
toggles . append ( 2 + offset )
if not skip_grid :
toggles . append ( 3 + offset )
if sort_samples :
toggles . append ( 4 + offset )
if write_info_files :
toggles . append ( 5 + offset )
if write_sample_info_to_log_file :
toggles . append ( 6 + offset )
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
if metadata . GFPGAN :
2022-09-07 01:50:14 +03:00
toggles . append ( 7 + offset )
info_dict = dict (
target = " txt2img " if init_img is None else " img2img " ,
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
prompt = metadata . prompt , ddim_steps = metadata . steps , toggles = toggles , sampler_name = sampler_name ,
ddim_eta = ddim_eta , n_iter = n_iter , batch_size = batch_size , cfg_scale = metadata . cfg_scale ,
seed = metadata . seed , width = metadata . width , height = metadata . height
2022-09-07 01:50:14 +03:00
)
if init_img is not None :
# Not yet any use for these, but they bloat up the files:
#info_dict["init_img"] = init_img
#info_dict["init_mask"] = init_mask
info_dict [ " denoising_strength " ] = denoising_strength
info_dict [ " resize_mode " ] = resize_mode
if write_info_files :
with open ( f " { filename_i } .yaml " , " w " , encoding = " utf8 " ) as f :
yaml . dump ( info_dict , f , allow_unicode = True , width = 10000 )
if write_sample_info_to_log_file :
ignore_list = [ " prompt " , " target " , " toggles " , " ddim_eta " , " batch_size " ]
rename_dict = { " ddim_steps " : " steps " , " n_iter " : " number " , " sampler_name " : " sampler " } #changes the name of parameters to match with dynamic parameters
sample_log_path = os . path . join ( sample_path_i , " log.yaml " )
log_dump = info_dict . get ( " prompt " ) # making sure the first item that is listed in the txt is the prompt text
for key , value in info_dict . items ( ) :
if key in ignore_list :
continue
found_key = rename_dict . get ( key )
if key == " cfg_scale " : #adds zeros to to cfg_scale necessary for dynamic params
value = str ( value ) . zfill ( 2 )
if found_key :
key = found_key
log_dump + = f " { key } { value } "
log_dump = log_dump + " \n " #space at the end for dynamic params to accept the last param
with open ( sample_log_path , " a " , encoding = " utf8 " ) as log_file :
log_file . write ( log_dump )
def get_next_sequence_number ( path , prefix = ' ' ) :
"""
Determines and returns the next sequence number to use when saving an
image in the specified directory .
If a prefix is given , only consider files whose names start with that
prefix , and strip the prefix from filenames before extracting their
sequence number .
The sequence starts at 0.
"""
result = - 1
for p in Path ( path ) . iterdir ( ) :
if p . name . endswith ( ( ' .png ' , ' .jpg ' ) ) and p . name . startswith ( prefix ) :
tmp = p . name [ len ( prefix ) : ]
try :
result = max ( int ( tmp . split ( ' - ' ) [ 0 ] ) , result )
except ValueError :
pass
return result + 1
def oxlamon_matrix ( prompt , seed , n_iter , batch_size ) :
pattern = re . compile ( r ' (, \ s) { 2,} ' )
class PromptItem :
def __init__ ( self , text , parts , item ) :
self . text = text
self . parts = parts
if item :
self . parts . append ( item )
def clean ( txt ) :
return re . sub ( pattern , ' , ' , txt )
def getrowcount ( txt ) :
for data in re . finditer ( " .*? \\ ((.*?) \\ ).* " , txt ) :
if data :
return len ( data . group ( 1 ) . split ( " | " ) )
break
return None
def repliter ( txt ) :
for data in re . finditer ( " .*? \\ ((.*?) \\ ).* " , txt ) :
if data :
r = data . span ( 1 )
for item in data . group ( 1 ) . split ( " | " ) :
yield ( clean ( txt [ : r [ 0 ] - 1 ] + item . strip ( ) + txt [ r [ 1 ] + 1 : ] ) , item . strip ( ) )
break
def iterlist ( items ) :
outitems = [ ]
for item in items :
for newitem , newpart in repliter ( item . text ) :
outitems . append ( PromptItem ( newitem , item . parts . copy ( ) , newpart ) )
return outitems
def getmatrix ( prompt ) :
dataitems = [ PromptItem ( prompt [ 1 : ] . strip ( ) , [ ] , None ) ]
while True :
newdataitems = iterlist ( dataitems )
if len ( newdataitems ) == 0 :
return dataitems
dataitems = newdataitems
def classToArrays ( items , seed , n_iter ) :
texts = [ ]
parts = [ ]
seeds = [ ]
for item in items :
itemseed = seed
for i in range ( n_iter ) :
texts . append ( item . text )
parts . append ( f " Seed: { itemseed } \n " + " \n " . join ( item . parts ) )
seeds . append ( itemseed )
itemseed + = 1
return seeds , texts , parts
all_seeds , all_prompts , prompt_matrix_parts = classToArrays ( getmatrix ( prompt ) , seed , n_iter )
n_iter = math . ceil ( len ( all_prompts ) / batch_size )
needrows = getrowcount ( prompt )
if needrows :
xrows = math . sqrt ( len ( all_prompts ) )
xrows = round ( xrows )
# if columns is to much
cols = math . ceil ( len ( all_prompts ) / xrows )
if cols > needrows * 4 :
needrows * = 2
return all_seeds , n_iter , prompt_matrix_parts , all_prompts , needrows
2022-09-10 18:37:42 +03:00
def perform_masked_image_restoration ( image , init_img , init_mask , mask_blur_strength , mask_restore , use_RealESRGAN , RealESRGAN ) :
2022-09-11 20:18:17 +03:00
if not mask_restore :
2022-09-10 18:37:42 +03:00
return image
else :
init_mask = init_mask . filter ( ImageFilter . GaussianBlur ( mask_blur_strength ) )
init_mask = init_mask . convert ( ' L ' )
init_img = init_img . convert ( ' RGB ' )
image = image . convert ( ' RGB ' )
if use_RealESRGAN and RealESRGAN is not None :
output , img_mode = RealESRGAN . enhance ( np . array ( init_mask , dtype = np . uint8 ) )
init_mask = Image . fromarray ( output )
init_mask = init_mask . convert ( ' L ' )
2022-09-07 01:50:14 +03:00
2022-09-10 18:37:42 +03:00
output , img_mode = RealESRGAN . enhance ( np . array ( init_img , dtype = np . uint8 ) )
init_img = Image . fromarray ( output )
init_img = init_img . convert ( ' RGB ' )
image = Image . composite ( init_img , image , init_mask )
return image
2022-09-10 00:44:30 +03:00
def perform_color_correction ( img_rgb , correction_target_lab , do_color_correction ) :
try :
from skimage import exposure
except :
print ( " Install scikit-image to perform color correction " )
return img_rgb
2022-09-11 20:18:17 +03:00
2022-09-10 00:44:30 +03:00
if not do_color_correction : return img_rgb
if correction_target_lab is None : return img_rgb
return (
Image . fromarray ( cv2 . cvtColor ( exposure . match_histograms (
cv2 . cvtColor (
np . asarray ( img_rgb ) ,
cv2 . COLOR_RGB2LAB
) ,
correction_target_lab ,
channel_axis = 2
) , cv2 . COLOR_LAB2RGB ) . astype ( " uint8 " )
)
2022-09-11 20:18:17 +03:00
)
2022-09-07 01:50:14 +03:00
def process_images (
outpath , func_init , func_sample , prompt , seed , sampler_name , skip_grid , skip_save , batch_size ,
2022-09-11 12:32:36 +03:00
n_iter , steps , cfg_scale , width , height , prompt_matrix , filter_nsfw , use_GFPGAN , use_RealESRGAN , realesrgan_model_name ,
2022-09-07 01:50:14 +03:00
fp , ddim_eta = 0.0 , do_not_save_grid = False , normalize_prompt_weights = True , init_img = None , init_mask = None ,
2022-09-10 00:07:14 +03:00
keep_mask = False , mask_blur_strength = 3 , mask_restore = False , denoising_strength = 0.75 , resize_mode = None , uses_loopback = False ,
2022-09-07 01:50:14 +03:00
uses_random_seed_loopback = False , sort_samples = True , write_info_files = True , write_sample_info_to_log_file = False , jpg_sample = False ,
2022-09-10 00:44:30 +03:00
variant_amount = 0.0 , variant_seed = None , imgProcessorTask = False , job_info : JobInfo = None , do_color_correction = False , correction_target = None ) :
2022-09-07 01:50:14 +03:00
""" 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 """
2022-09-11 12:32:36 +03:00
def numpy_to_pil ( images ) :
"""
Convert a numpy image or a batch of images to a PIL image .
"""
if images . ndim == 3 :
images = images [ None , . . . ]
images = ( images * 255 ) . round ( ) . astype ( " uint8 " )
pil_images = [ Image . fromarray ( image ) for image in images ]
return pil_images
# load replacement of nsfw content
def load_replacement ( x ) :
try :
hwc = x . shape
y = Image . open ( " images/nsfw.jpeg " ) . convert ( " RGB " ) . resize ( ( hwc [ 1 ] , hwc [ 0 ] ) )
y = ( np . array ( y ) / 255.0 ) . astype ( x . dtype )
assert y . shape == x . shape
return y
except Exception :
return x
# check and replace nsfw content
def check_safety ( x_image ) :
global safety_feature_extractor , safety_checker
if safety_feature_extractor is None :
safety_feature_extractor = AutoFeatureExtractor . from_pretrained ( safety_model_id )
safety_checker = StableDiffusionSafetyChecker . from_pretrained ( safety_model_id )
safety_checker_input = safety_feature_extractor ( numpy_to_pil ( x_image ) , return_tensors = " pt " )
x_checked_image , has_nsfw_concept = safety_checker ( images = x_image , clip_input = safety_checker_input . pixel_values )
for i in range ( len ( has_nsfw_concept ) ) :
if has_nsfw_concept [ i ] :
x_checked_image [ i ] = load_replacement ( x_checked_image [ i ] )
return x_checked_image , has_nsfw_concept
2022-09-07 01:50:14 +03:00
prompt = prompt or ' '
torch_gc ( )
# start time after garbage collection (or before?)
start_time = time . time ( )
mem_mon = MemUsageMonitor ( ' MemMon ' )
mem_mon . start ( )
if hasattr ( model , " embedding_manager " ) :
load_embeddings ( fp )
os . makedirs ( outpath , exist_ok = True )
sample_path = os . path . join ( outpath , " samples " )
os . makedirs ( sample_path , exist_ok = True )
if not ( " | " in prompt ) and prompt . startswith ( " @ " ) :
prompt = prompt [ 1 : ]
2022-09-11 23:39:00 +03:00
negprompt = ' '
if ' ### ' in prompt :
prompt , negprompt = prompt . split ( ' ### ' , 1 )
prompt = prompt . strip ( )
negprompt = negprompt . strip ( )
2022-09-07 01:50:14 +03:00
comments = [ ]
prompt_matrix_parts = [ ]
simple_templating = False
add_original_image = True
if prompt_matrix :
if prompt . startswith ( " @ " ) :
simple_templating = True
add_original_image = not ( use_RealESRGAN or use_GFPGAN )
all_seeds , n_iter , prompt_matrix_parts , all_prompts , frows = oxlamon_matrix ( prompt , seed , n_iter , batch_size )
else :
all_prompts = [ ]
prompt_matrix_parts = prompt . split ( " | " )
combination_count = 2 * * ( len ( prompt_matrix_parts ) - 1 )
for combination_num in range ( combination_count ) :
current = prompt_matrix_parts [ 0 ]
for n , text in enumerate ( prompt_matrix_parts [ 1 : ] ) :
if combination_num & ( 2 * * n ) > 0 :
current + = ( " " if text . strip ( ) . startswith ( " , " ) else " , " ) + text
all_prompts . append ( current )
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 :
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 )
all_prompts = batch_size * n_iter * [ prompt ]
all_seeds = [ seed + x for x in range ( len ( all_prompts ) ) ]
original_seeds = all_seeds . copy ( )
precision_scope = autocast if opt . precision == " autocast " else nullcontext
if job_info :
output_images = job_info . images
else :
output_images = [ ]
grid_captions = [ ]
stats = [ ]
with torch . no_grad ( ) , precision_scope ( " cuda " ) , ( model . ema_scope ( ) if not opt . optimized else nullcontext ( ) ) :
init_data = func_init ( )
tic = time . time ( )
# if variant_amount > 0.0 create noise from base seed
base_x = None
if variant_amount > 0.0 :
target_seed_randomizer = seed_to_int ( ' ' ) # random seed
torch . manual_seed ( seed ) # this has to be the single starting seed (not per-iteration)
base_x = create_random_tensors ( [ opt_C , height / / opt_f , width / / opt_f ] , seeds = [ seed ] )
# we don't want all_seeds to be sequential from starting seed with variants,
# since that makes the same variants each time,
# so we add target_seed_randomizer as a random offset
for si in range ( len ( all_seeds ) ) :
all_seeds [ si ] + = target_seed_randomizer
for n in range ( n_iter ) :
if job_info and job_info . should_stop . is_set ( ) :
print ( " Early exit requested " )
break
print ( f " Iteration: { n + 1 } / { n_iter } " )
prompts = all_prompts [ n * batch_size : ( n + 1 ) * batch_size ]
captions = prompt_matrix_parts [ n * batch_size : ( n + 1 ) * batch_size ]
seeds = all_seeds [ n * batch_size : ( n + 1 ) * batch_size ]
current_seeds = original_seeds [ n * batch_size : ( n + 1 ) * batch_size ]
if job_info :
job_info . job_status = f " Processing Iteration { n + 1 } / { n_iter } . Batch size { batch_size } "
2022-09-14 23:48:56 +03:00
job_info . rec_steps_imgs . clear ( )
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for idx , ( p , s ) in enumerate ( zip ( prompts , seeds ) ) :
job_info . job_status + = f " \n Item { idx } : Seed { s } \n Prompt: { p } "
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print ( f " Current prompt: { p } " )
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if opt . optimized :
modelCS . to ( device )
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uc = ( model if not opt . optimized else modelCS ) . get_learned_conditioning ( len ( prompts ) * [ negprompt ] )
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if isinstance ( prompts , tuple ) :
prompts = list ( prompts )
# split the prompt if it has : for weighting
# TODO for speed it might help to have this occur when all_prompts filled??
weighted_subprompts = split_weighted_subprompts ( prompts [ 0 ] , normalize_prompt_weights )
# sub-prompt weighting used if more than 1
if len ( weighted_subprompts ) > 1 :
c = torch . zeros_like ( uc ) # i dont know if this is correct.. but it works
for i in range ( 0 , len ( weighted_subprompts ) ) :
# note if alpha negative, it functions same as torch.sub
c = torch . add ( c , ( model if not opt . optimized else modelCS ) . get_learned_conditioning ( weighted_subprompts [ i ] [ 0 ] ) , alpha = weighted_subprompts [ i ] [ 1 ] )
else : # just behave like usual
c = ( model if not opt . optimized else modelCS ) . get_learned_conditioning ( prompts )
shape = [ opt_C , height / / opt_f , width / / opt_f ]
if opt . optimized :
mem = torch . cuda . memory_allocated ( ) / 1e6
modelCS . to ( " cpu " )
while ( torch . cuda . memory_allocated ( ) / 1e6 > = mem ) :
time . sleep ( 1 )
2022-09-11 20:18:17 +03:00
cur_variant_amount = variant_amount
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if variant_amount == 0.0 :
# we manually generate all input noises because each one should have a specific seed
x = create_random_tensors ( shape , seeds = seeds )
else : # we are making variants
# using variant_seed as sneaky toggle,
# when not None or '' use the variant_seed
# otherwise use seeds
if variant_seed != None and variant_seed != ' ' :
specified_variant_seed = seed_to_int ( variant_seed )
torch . manual_seed ( specified_variant_seed )
target_x = create_random_tensors ( shape , seeds = [ specified_variant_seed ] )
# with a variant seed we would end up with the same variant as the basic seed
# does not change. But we can increase the steps to get an interesting result
# that shows more and more deviation of the original image and let us adjust
# how far we will go (using 10 iterations with variation amount set to 0.02 will
# generate an icreasingly variated image which is very interesting for movies)
cur_variant_amount + = n * variant_amount
else :
target_x = create_random_tensors ( shape , seeds = seeds )
# finally, slerp base_x noise to target_x noise for creating a variant
x = slerp ( device , max ( 0.0 , min ( 1.0 , cur_variant_amount ) ) , base_x , target_x )
2022-09-14 23:48:56 +03:00
# If optimized then use first stage for preview and store it on cpu until needed
if opt . optimized :
step_preview_model = modelFS
step_preview_model . cpu ( )
else :
step_preview_model = model
def sample_iteration_callback ( image_sample : torch . Tensor , iter_num : int ) :
''' Called from the sampler every iteration '''
if job_info :
job_info . active_iteration_cnt = iter_num
record_periodic_image = job_info . rec_steps_enabled and ( 0 == iter_num % job_info . rec_steps_intrvl )
if record_periodic_image or job_info . refresh_active_image_requested . is_set ( ) :
preview_start_time = time . time ( )
if opt . optimized :
step_preview_model . to ( device )
decoded_batch : List [ torch . Tensor ] = [ ]
# Break up batch to save VRAM
for sample in image_sample :
sample = sample [ None , : ] # expands the tensor as if it still had a batch dimension
decoded_sample = step_preview_model . decode_first_stage ( sample ) [ 0 ]
decoded_sample = torch . clamp ( ( decoded_sample + 1.0 ) / 2.0 , min = 0.0 , max = 1.0 )
decoded_sample = decoded_sample . cpu ( )
decoded_batch . append ( decoded_sample )
batch_size = len ( decoded_batch )
if opt . optimized :
step_preview_model . cpu ( )
images : List [ Image . Image ] = [ ]
# Convert tensor to image (copied from code below)
for ddim in decoded_batch :
x_sample = 255. * rearrange ( ddim . numpy ( ) , ' c h w -> h w c ' )
x_sample = x_sample . astype ( np . uint8 )
image = Image . fromarray ( x_sample )
images . append ( image )
caption = f " Iter { iter_num } "
grid = image_grid ( images , len ( images ) , force_n_rows = 1 , captions = [ caption ] * len ( images ) )
# Save the images if recording steps, and append existing saved steps
if job_info . rec_steps_enabled :
gallery_img_size = tuple ( int ( 0.25 * dim ) for dim in images [ 0 ] . size )
job_info . rec_steps_imgs . append ( grid . resize ( gallery_img_size ) )
# Notify the requester that the image is updated
if job_info . refresh_active_image_requested . is_set ( ) :
if job_info . rec_steps_enabled :
grid_rows = None if batch_size == 1 else len ( job_info . rec_steps_imgs )
grid = image_grid ( imgs = job_info . rec_steps_imgs [ : : - 1 ] , batch_size = 1 , force_n_rows = grid_rows )
job_info . active_image = grid
job_info . refresh_active_image_done . set ( )
job_info . refresh_active_image_requested . clear ( )
preview_elapsed_timed = time . time ( ) - preview_start_time
if preview_elapsed_timed / job_info . rec_steps_intrvl > 1 :
print (
f " Warning: Preview generation is slowing image generation. It took { preview_elapsed_timed : .2f } s to generate progress images for batch of { batch_size } images! " )
# Interrupt current iteration?
if job_info . stop_cur_iter . is_set ( ) :
job_info . stop_cur_iter . clear ( )
raise StopIteration ( )
try :
samples_ddim = func_sample ( init_data = init_data , x = x , conditioning = c , unconditional_conditioning = uc , sampler_name = sampler_name , img_callback = sample_iteration_callback )
except StopIteration :
print ( " Skipping iteration " )
job_info . job_status = " Skipping iteration "
continue
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if opt . optimized :
modelFS . to ( device )
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for i in range ( len ( samples_ddim ) ) :
x_samples_ddim = ( model if not opt . optimized else modelFS ) . decode_first_stage ( samples_ddim [ i ] . unsqueeze ( 0 ) )
x_sample = torch . clamp ( ( x_samples_ddim + 1.0 ) / 2.0 , min = 0.0 , max = 1.0 )
2022-09-07 01:50:14 +03:00
2022-09-11 12:32:36 +03:00
if filter_nsfw :
x_samples_ddim_numpy = x_sample . cpu ( ) . permute ( 0 , 2 , 3 , 1 ) . numpy ( )
x_checked_image , has_nsfw_concept = check_safety ( x_samples_ddim_numpy )
x_sample = torch . from_numpy ( x_checked_image ) . permute ( 0 , 3 , 1 , 2 )
2022-09-07 01:50:14 +03:00
sanitized_prompt = prompts [ i ] . replace ( ' ' , ' _ ' ) . translate ( { ord ( x ) : ' ' for x in invalid_filename_chars } )
if variant_seed != None and variant_seed != ' ' :
if variant_amount == 0.0 :
seed_used = f " { current_seeds [ i ] } - { variant_seed } "
else :
seed_used = f " { seed } - { variant_seed } "
else :
seed_used = f " { current_seeds [ i ] } "
if sort_samples :
sanitized_prompt = sanitized_prompt [ : 128 ] #200 is too long
sample_path_i = os . path . join ( sample_path , sanitized_prompt )
os . makedirs ( sample_path_i , exist_ok = True )
base_count = get_next_sequence_number ( sample_path_i )
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filename = opt . filename_format or " [STEPS]_[SAMPLER]_[SEED]_[VARIANT_AMOUNT] "
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else :
sample_path_i = sample_path
base_count = get_next_sequence_number ( sample_path_i )
2022-09-09 22:11:57 +03:00
filename = opt . filename_format or " [STEPS]_[SAMPLER]_[SEED]_[VARIANT_AMOUNT]_[PROMPT] "
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#Add new filenames tags here
filename = f " { base_count : 05 } - " + filename
filename = filename . replace ( " [STEPS] " , str ( steps ) )
filename = filename . replace ( " [CFG] " , str ( cfg_scale ) )
filename = filename . replace ( " [PROMPT] " , sanitized_prompt [ : 128 ] )
filename = filename . replace ( " [PROMPT_SPACES] " , prompts [ i ] . translate ( { ord ( x ) : ' ' for x in invalid_filename_chars } ) [ : 128 ] )
filename = filename . replace ( " [WIDTH] " , str ( width ) )
filename = filename . replace ( " [HEIGHT] " , str ( height ) )
filename = filename . replace ( " [SAMPLER] " , sampler_name )
filename = filename . replace ( " [SEED] " , seed_used )
filename = filename . replace ( " [VARIANT_AMOUNT] " , f " { cur_variant_amount : .2f } " )
2022-09-07 01:50:14 +03:00
2022-09-07 21:00:04 +03:00
x_sample = 255. * rearrange ( x_sample [ 0 ] . cpu ( ) . numpy ( ) , ' c h w -> h w c ' )
2022-09-07 01:50:14 +03:00
x_sample = x_sample . astype ( np . uint8 )
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
metadata = ImageMetadata ( prompt = prompts [ i ] , seed = seeds [ i ] , height = height , width = width , steps = steps ,
cfg_scale = cfg_scale , normalize_prompt_weights = normalize_prompt_weights , denoising_strength = denoising_strength ,
GFPGAN = use_GFPGAN )
2022-09-07 01:50:14 +03:00
image = Image . fromarray ( x_sample )
2022-09-10 00:44:30 +03:00
image = perform_color_correction ( image , correction_target , do_color_correction )
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
ImageMetadata . set_on_image ( image , metadata )
2022-09-07 01:50:14 +03:00
original_sample = x_sample
original_filename = filename
if use_GFPGAN and GFPGAN is not None and not use_RealESRGAN :
skip_save = True # #287 >_>
torch_gc ( )
cropped_faces , restored_faces , restored_img = GFPGAN . enhance ( original_sample [ : , : , : : - 1 ] , has_aligned = False , only_center_face = False , paste_back = True )
gfpgan_sample = restored_img [ : , : , : : - 1 ]
gfpgan_image = Image . fromarray ( gfpgan_sample )
2022-09-10 00:44:30 +03:00
gfpgan_image = perform_color_correction ( gfpgan_image , correction_target , do_color_correction )
2022-09-10 18:37:42 +03:00
gfpgan_image = perform_masked_image_restoration (
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gfpgan_image , init_img , init_mask ,
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mask_blur_strength , mask_restore ,
use_RealESRGAN = False , RealESRGAN = None
2022-09-11 20:18:17 +03:00
)
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
gfpgan_metadata = copy . copy ( metadata )
gfpgan_metadata . GFPGAN = True
ImageMetadata . set_on_image ( gfpgan_image , gfpgan_metadata )
2022-09-07 01:50:14 +03:00
gfpgan_filename = original_filename + ' -gfpgan '
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
save_sample ( gfpgan_image , sample_path_i , gfpgan_filename , jpg_sample , write_info_files , write_sample_info_to_log_file , prompt_matrix , init_img , uses_loopback , uses_random_seed_loopback , skip_save ,
skip_grid , sort_samples , sampler_name , ddim_eta , n_iter , batch_size , i , denoising_strength , resize_mode , skip_metadata = False )
2022-09-07 01:50:14 +03:00
output_images . append ( gfpgan_image ) #287
#if simple_templating:
# grid_captions.append( captions[i] + "\ngfpgan" )
if use_RealESRGAN and RealESRGAN is not None and not use_GFPGAN :
skip_save = True # #287 >_>
torch_gc ( )
output , img_mode = RealESRGAN . enhance ( original_sample [ : , : , : : - 1 ] )
esrgan_filename = original_filename + ' -esrgan4x '
esrgan_sample = output [ : , : , : : - 1 ]
esrgan_image = Image . fromarray ( esrgan_sample )
2022-09-10 00:44:30 +03:00
esrgan_image = perform_color_correction ( esrgan_image , correction_target , do_color_correction )
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esrgan_image = perform_masked_image_restoration (
2022-09-11 20:18:17 +03:00
esrgan_image , init_img , init_mask ,
2022-09-10 18:37:42 +03:00
mask_blur_strength , mask_restore ,
use_RealESRGAN , RealESRGAN
)
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
ImageMetadata . set_on_image ( esrgan_image , metadata )
save_sample ( esrgan_image , sample_path_i , esrgan_filename , jpg_sample , write_info_files , write_sample_info_to_log_file , prompt_matrix , init_img , uses_loopback , uses_random_seed_loopback , skip_save ,
skip_grid , sort_samples , sampler_name , ddim_eta , n_iter , batch_size , i , denoising_strength , resize_mode , skip_metadata = False )
2022-09-07 01:50:14 +03:00
output_images . append ( esrgan_image ) #287
#if simple_templating:
# grid_captions.append( captions[i] + "\nesrgan" )
if use_RealESRGAN and RealESRGAN is not None and use_GFPGAN and GFPGAN is not None :
skip_save = True # #287 >_>
torch_gc ( )
cropped_faces , restored_faces , restored_img = GFPGAN . enhance ( x_sample [ : , : , : : - 1 ] , has_aligned = False , only_center_face = False , paste_back = True )
gfpgan_sample = restored_img [ : , : , : : - 1 ]
output , img_mode = RealESRGAN . enhance ( gfpgan_sample [ : , : , : : - 1 ] )
gfpgan_esrgan_filename = original_filename + ' -gfpgan-esrgan4x '
gfpgan_esrgan_sample = output [ : , : , : : - 1 ]
gfpgan_esrgan_image = Image . fromarray ( gfpgan_esrgan_sample )
2022-09-10 00:44:30 +03:00
gfpgan_esrgan_image = perform_color_correction ( gfpgan_esrgan_image , correction_target , do_color_correction )
2022-09-10 18:37:42 +03:00
gfpgan_esrgan_image = perform_masked_image_restoration (
2022-09-11 20:18:17 +03:00
gfpgan_esrgan_image , init_img , init_mask ,
2022-09-10 18:37:42 +03:00
mask_blur_strength , mask_restore ,
use_RealESRGAN , RealESRGAN
)
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
ImageMetadata . set_on_image ( gfpgan_esrgan_image , metadata )
save_sample ( gfpgan_esrgan_image , sample_path_i , gfpgan_esrgan_filename , jpg_sample , write_info_files , write_sample_info_to_log_file , prompt_matrix , init_img , uses_loopback , uses_random_seed_loopback ,
skip_save , skip_grid , sort_samples , sampler_name , ddim_eta , n_iter , batch_size , i , denoising_strength , resize_mode , skip_metadata = False )
2022-09-07 01:50:14 +03:00
output_images . append ( gfpgan_esrgan_image ) #287
#if simple_templating:
# grid_captions.append( captions[i] + "\ngfpgan_esrgan" )
# this flag is used for imgProcessorTasks like GoBig, will return the image without saving it
if imgProcessorTask == True :
output_images . append ( image )
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image = perform_masked_image_restoration (
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image , init_img , init_mask ,
2022-09-10 18:37:42 +03:00
mask_blur_strength , mask_restore ,
# RealESRGAN image already processed in if-case above.
use_RealESRGAN = False , RealESRGAN = None
)
2022-09-07 01:50:14 +03:00
if not skip_save :
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
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save_sample ( image , sample_path_i , filename , jpg_sample , write_info_files , write_sample_info_to_log_file , prompt_matrix , init_img , uses_loopback , uses_random_seed_loopback , skip_save ,
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skip_grid , sort_samples , sampler_name , ddim_eta , n_iter , batch_size , i , denoising_strength , resize_mode , False )
if add_original_image or not simple_templating :
output_images . append ( image )
if simple_templating :
grid_captions . append ( captions [ i ] )
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# Save the progress images?
if job_info :
if job_info . rec_steps_enabled and ( job_info . rec_steps_to_file or job_info . rec_steps_to_gallery ) :
steps_grid = image_grid ( job_info . rec_steps_imgs , 1 )
if job_info . rec_steps_to_gallery :
gallery_img_size = tuple ( 2 * dim for dim in image . size )
output_images . append ( steps_grid . resize ( gallery_img_size ) )
if job_info . rec_steps_to_file :
steps_grid_filename = f " { original_filename } _step_grid "
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save_sample ( steps_grid , sample_path_i , steps_grid_filename , jpg_sample , write_info_files , write_sample_info_to_log_file , prompt_matrix , init_img , uses_loopback , uses_random_seed_loopback , skip_save ,
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skip_grid , sort_samples , sampler_name , ddim_eta , n_iter , batch_size , i , denoising_strength , resize_mode , False )
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if opt . optimized :
mem = torch . cuda . memory_allocated ( ) / 1e6
modelFS . to ( " cpu " )
while ( torch . cuda . memory_allocated ( ) / 1e6 > = mem ) :
time . sleep ( 1 )
if ( prompt_matrix or not skip_grid ) and not do_not_save_grid :
grid = None
if prompt_matrix :
if simple_templating :
grid = image_grid ( output_images , batch_size , force_n_rows = frows , captions = grid_captions )
else :
grid = image_grid ( output_images , batch_size , force_n_rows = 1 << ( ( len ( prompt_matrix_parts ) - 1 ) / / 2 ) )
try :
grid = draw_prompt_matrix ( grid , width , height , prompt_matrix_parts )
except :
import traceback
print ( " Error creating prompt_matrix text: " , file = sys . stderr )
print ( traceback . format_exc ( ) , file = sys . stderr )
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elif len ( output_images ) > 0 and ( batch_size > 1 or n_iter > 1 ) :
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grid = image_grid ( output_images , batch_size )
if grid is not None :
grid_count = get_next_sequence_number ( outpath , ' grid- ' )
grid_file = f " grid- { grid_count : 05 } - { seed } _ { prompts [ i ] . replace ( ' ' , ' _ ' ) . translate ( { ord ( x ) : ' ' for x in invalid_filename_chars } ) [ : 128 ] } . { grid_ext } "
grid . save ( os . path . join ( outpath , grid_file ) , grid_format , quality = grid_quality , lossless = grid_lossless , optimize = True )
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if prompt_matrix :
output_images . append ( grid )
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toc = time . time ( )
mem_max_used , mem_total = mem_mon . read_and_stop ( )
time_diff = time . time ( ) - start_time
args_and_names = {
" seed " : seed ,
" width " : width ,
" height " : height ,
" steps " : steps ,
" cfg_scale " : cfg_scale ,
" sampler " : sampler_name ,
}
full_string = f " { prompt } \n " + " " . join ( [ f " { k } : " for k , v in args_and_names . items ( ) ] )
info = {
' text ' : full_string ,
' entities ' : [ { ' entity ' : str ( v ) , ' start ' : full_string . find ( f " { k } : " ) , ' end ' : full_string . find ( f " { k } : " ) + len ( f " { k } " ) } for k , v in args_and_names . items ( ) ]
}
# info = f"""
# {prompt} --seed {seed} --W {width} --H {height} -s {steps} -C {cfg_scale} --sampler {sampler_name} {', Denoising strength: '+str(denoising_strength) if init_img is not None else ''}{', GFPGAN' if use_GFPGAN and GFPGAN is not None else ''}{', '+realesrgan_model_name if use_RealESRGAN and RealESRGAN is not None else ''}{', Prompt Matrix Mode.' if prompt_matrix else ''}""".strip()
stats = f '''
Took { round ( time_diff , 2 ) } s total ( { round ( time_diff / ( len ( all_prompts ) ) , 2 ) } s per image )
Peak memory usage : { - ( mem_max_used / / - 1_048_576 ) } MiB / { - ( mem_total / / - 1_048_576 ) } MiB / { round ( mem_max_used / mem_total * 100 , 3 ) } % '''
for comment in comments :
info [ ' text ' ] + = " \n \n " + comment
#mem_mon.stop()
#del mem_mon
torch_gc ( )
return output_images , seed , info , stats
def txt2img ( prompt : str , ddim_steps : int , sampler_name : str , toggles : List [ int ] , realesrgan_model_name : str ,
ddim_eta : float , n_iter : int , batch_size : int , cfg_scale : float , seed : Union [ int , str , None ] ,
height : int , width : int , fp , variant_amount : float = None , variant_seed : int = None , job_info : JobInfo = None ) :
outpath = opt . outdir_txt2img or opt . outdir or " outputs/txt2img-samples "
err = False
seed = seed_to_int ( seed )
prompt_matrix = 0 in toggles
normalize_prompt_weights = 1 in toggles
skip_save = 2 not in toggles
skip_grid = 3 not in toggles
sort_samples = 4 in toggles
write_info_files = 5 in toggles
write_to_one_file = 6 in toggles
jpg_sample = 7 in toggles
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filter_nsfw = 8 in toggles
use_GFPGAN = 9 in toggles
use_RealESRGAN = 10 in toggles
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do_color_correction = False
correction_target = None
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ModelLoader ( [ ' model ' ] , True , False )
if use_GFPGAN and not use_RealESRGAN :
ModelLoader ( [ ' GFPGAN ' ] , True , False )
ModelLoader ( [ ' RealESRGAN ' ] , False , True )
if use_RealESRGAN and not use_GFPGAN :
ModelLoader ( [ ' GFPGAN ' ] , False , True )
ModelLoader ( [ ' RealESRGAN ' ] , True , False , realesrgan_model_name )
if use_RealESRGAN and use_GFPGAN :
ModelLoader ( [ ' GFPGAN ' , ' RealESRGAN ' ] , True , False , realesrgan_model_name )
if sampler_name == ' PLMS ' :
sampler = PLMSSampler ( model )
elif sampler_name == ' DDIM ' :
sampler = DDIMSampler ( model )
elif sampler_name == ' k_dpm_2_a ' :
sampler = KDiffusionSampler ( model , ' dpm_2_ancestral ' )
elif sampler_name == ' k_dpm_2 ' :
sampler = KDiffusionSampler ( model , ' dpm_2 ' )
elif sampler_name == ' k_euler_a ' :
sampler = KDiffusionSampler ( model , ' euler_ancestral ' )
elif sampler_name == ' k_euler ' :
sampler = KDiffusionSampler ( model , ' euler ' )
elif sampler_name == ' k_heun ' :
sampler = KDiffusionSampler ( model , ' heun ' )
elif sampler_name == ' k_lms ' :
sampler = KDiffusionSampler ( model , ' lms ' )
else :
raise Exception ( " Unknown sampler: " + sampler_name )
def init ( ) :
pass
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def sample ( init_data , x , conditioning , unconditional_conditioning , sampler_name , img_callback : Callable = None ) :
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 , img_callback = img_callback )
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return samples_ddim
try :
output_images , seed , info , stats = process_images (
outpath = outpath ,
func_init = init ,
func_sample = sample ,
prompt = prompt ,
seed = seed ,
sampler_name = sampler_name ,
skip_save = skip_save ,
skip_grid = skip_grid ,
batch_size = batch_size ,
n_iter = n_iter ,
steps = ddim_steps ,
cfg_scale = cfg_scale ,
width = width ,
height = height ,
prompt_matrix = prompt_matrix ,
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filter_nsfw = filter_nsfw ,
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use_GFPGAN = use_GFPGAN ,
use_RealESRGAN = use_RealESRGAN ,
realesrgan_model_name = realesrgan_model_name ,
fp = fp ,
ddim_eta = ddim_eta ,
normalize_prompt_weights = normalize_prompt_weights ,
sort_samples = sort_samples ,
write_info_files = write_info_files ,
write_sample_info_to_log_file = write_to_one_file ,
jpg_sample = jpg_sample ,
variant_amount = variant_amount ,
variant_seed = variant_seed ,
job_info = job_info ,
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do_color_correction = do_color_correction ,
correction_target = correction_target
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)
del sampler
return output_images , seed , info , stats
except RuntimeError as e :
err = e
err_msg = f ' CRASHED:<br><textarea rows= " 5 " style= " color:white;background: black;width: -webkit-fill-available;font-family: monospace;font-size: small;font-weight: bold; " > { str ( e ) } </textarea><br><br>Please wait while the program restarts. '
stats = err_msg
return [ ] , seed , ' err ' , stats
finally :
if err :
crash ( err , ' !!Runtime error (txt2img)!! ' )
class Flagging ( gr . FlaggingCallback ) :
def setup ( self , components , flagging_dir : str ) :
pass
def flag ( self , flag_data , flag_option = None , flag_index = None , username = None ) :
import csv
os . makedirs ( " log/images " , exist_ok = True )
# those must match the "txt2img" function !! + images, seed, comment, stats !! NOTE: changes to UI output must be reflected here too
prompt , ddim_steps , sampler_name , toggles , ddim_eta , n_iter , batch_size , cfg_scale , seed , height , width , fp , variant_amount , variant_seed , images , seed , comment , stats = 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 ( [ " sep=, " ] )
writer . writerow ( [ " prompt " , " seed " , " width " , " height " , " sampler " , " toggles " , " n_iter " , " n_samples " , " cfg_scale " , " 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 , sampler_name , toggles , n_iter , batch_size , cfg_scale , ddim_steps , filenames [ 0 ] ] )
print ( " Logged: " , filenames [ 0 ] )
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def blurArr ( a , r = 8 ) :
im1 = Image . fromarray ( ( a * 255 ) . astype ( np . int8 ) , " L " )
im2 = im1 . filter ( ImageFilter . GaussianBlur ( radius = r ) )
out = np . array ( im2 ) / 255
return out
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def img2img ( prompt : str , image_editor_mode : str , mask_mode : str , mask_blur_strength : int , mask_restore : bool , ddim_steps : int , sampler_name : str ,
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toggles : List [ int ] , realesrgan_model_name : str , n_iter : int , cfg_scale : float , denoising_strength : float ,
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seed : int , height : int , width : int , resize_mode : int , init_info : any = None , init_info_mask : any = None , fp = None , job_info : JobInfo = None ) :
# print([prompt, image_editor_mode, init_info, init_info_mask, mask_mode,
# mask_blur_strength, ddim_steps, sampler_name, toggles,
# realesrgan_model_name, n_iter, cfg_scale,
# denoising_strength, seed, height, width, resize_mode,
# fp])
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outpath = opt . outdir_img2img or opt . outdir or " outputs/img2img-samples "
err = False
seed = seed_to_int ( seed )
batch_size = 1
prompt_matrix = 0 in toggles
normalize_prompt_weights = 1 in toggles
loopback = 2 in toggles
random_seed_loopback = 3 in toggles
skip_save = 4 not in toggles
skip_grid = 5 not in toggles
sort_samples = 6 in toggles
write_info_files = 7 in toggles
write_sample_info_to_log_file = 8 in toggles
jpg_sample = 9 in toggles
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do_color_correction = 10 in toggles
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filter_nsfw = 11 in toggles
use_GFPGAN = 12 in toggles
use_RealESRGAN = 13 in toggles
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ModelLoader ( [ ' model ' ] , True , False )
if use_GFPGAN and not use_RealESRGAN :
ModelLoader ( [ ' GFPGAN ' ] , True , False )
ModelLoader ( [ ' RealESRGAN ' ] , False , True )
if use_RealESRGAN and not use_GFPGAN :
ModelLoader ( [ ' GFPGAN ' ] , False , True )
ModelLoader ( [ ' RealESRGAN ' ] , True , False , realesrgan_model_name )
if use_RealESRGAN and use_GFPGAN :
ModelLoader ( [ ' GFPGAN ' , ' RealESRGAN ' ] , True , False , realesrgan_model_name )
if sampler_name == ' DDIM ' :
sampler = DDIMSampler ( model )
elif sampler_name == ' k_dpm_2_a ' :
sampler = KDiffusionSampler ( model , ' dpm_2_ancestral ' )
elif sampler_name == ' k_dpm_2 ' :
sampler = KDiffusionSampler ( model , ' dpm_2 ' )
elif sampler_name == ' k_euler_a ' :
sampler = KDiffusionSampler ( model , ' euler_ancestral ' )
elif sampler_name == ' k_euler ' :
sampler = KDiffusionSampler ( model , ' euler ' )
elif sampler_name == ' k_heun ' :
sampler = KDiffusionSampler ( model , ' heun ' )
elif sampler_name == ' k_lms ' :
sampler = KDiffusionSampler ( model , ' lms ' )
else :
raise Exception ( " Unknown sampler: " + sampler_name )
if image_editor_mode == ' Mask ' :
init_img = init_info_mask [ " image " ]
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init_img_transparency = ImageOps . invert ( init_img . split ( ) [ - 1 ] ) . convert ( ' L ' ) . point ( lambda x : 255 if x > 0 else 0 , mode = ' 1 ' )
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init_img = init_img . convert ( " RGB " )
init_img = resize_image ( resize_mode , init_img , width , height )
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init_img = init_img . convert ( " RGB " )
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init_mask = init_info_mask [ " mask " ]
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init_mask = ImageChops . lighter ( init_img_transparency , init_mask . convert ( ' L ' ) ) . convert ( ' RGBA ' )
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init_mask = init_mask . convert ( " RGB " )
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init_mask = resize_image ( resize_mode , init_mask , width , height )
init_mask = init_mask . convert ( " RGB " )
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keep_mask = mask_mode == 0
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init_mask = init_mask if keep_mask else ImageOps . invert ( init_mask )
else :
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init_img = init_info
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init_mask = None
keep_mask = False
assert 0. < = denoising_strength < = 1. , ' can only work with strength in [0.0, 1.0] '
t_enc = int ( denoising_strength * ddim_steps )
def init ( ) :
image = init_img . convert ( " RGB " )
image = resize_image ( resize_mode , image , width , height )
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#image = image.convert("RGB")
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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 )
mask_channel = None
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if image_editor_mode == " Mask " :
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alpha = init_mask . convert ( " RGBA " )
alpha = resize_image ( resize_mode , alpha , width / / 8 , height / / 8 )
mask_channel = alpha . split ( ) [ 1 ]
mask = None
if mask_channel is not None :
mask = np . array ( mask_channel ) . astype ( np . float32 ) / 255.0
mask = ( 1 - mask )
mask = np . tile ( mask , ( 4 , 1 , 1 ) )
mask = mask [ None ] . transpose ( 0 , 1 , 2 , 3 )
mask = torch . from_numpy ( mask ) . to ( device )
if opt . optimized :
modelFS . to ( device )
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#let's try and find where init_image is 0's
#shape is probably (3,width,height)?
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if image_editor_mode == " Uncrop " :
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_image = image . numpy ( ) [ 0 ]
_mask = np . ones ( ( _image . shape [ 1 ] , _image . shape [ 2 ] ) )
#compute bounding box
cmax = np . max ( _image , axis = 0 )
rowmax = np . max ( cmax , axis = 0 )
colmax = np . max ( cmax , axis = 1 )
rowwhere = np . where ( rowmax > 0 ) [ 0 ]
colwhere = np . where ( colmax > 0 ) [ 0 ]
rowstart = rowwhere [ 0 ]
rowend = rowwhere [ - 1 ] + 1
colstart = colwhere [ 0 ]
colend = colwhere [ - 1 ] + 1
print ( ' bounding box: ' , rowstart , rowend , colstart , colend )
#this is where noise will get added
PAD_IMG = 16
boundingbox = np . zeros ( shape = ( height , width ) )
boundingbox [ colstart + PAD_IMG : colend - PAD_IMG , rowstart + PAD_IMG : rowend - PAD_IMG ] = 1
boundingbox = blurArr ( boundingbox , 4 )
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#this is the mask for outpainting
PAD_MASK = 24
boundingbox2 = np . zeros ( shape = ( height , width ) )
boundingbox2 [ colstart + PAD_MASK : colend - PAD_MASK , rowstart + PAD_MASK : rowend - PAD_MASK ] = 1
boundingbox2 = blurArr ( boundingbox2 , 4 )
#noise=np.random.randn(*_image.shape)
noise = np . array ( [ perlinNoise ( height , width , height / 64 , width / 64 ) for i in range ( 3 ) ] )
_mask * = 1 - boundingbox2
#convert 0,1 to -1,1
_image = 2. * _image - 1.
#add noise
boundingbox = np . tile ( boundingbox , ( 3 , 1 , 1 ) )
_image = _image * boundingbox + noise * ( 1 - boundingbox )
#resize mask
_mask = np . array ( resize_image ( resize_mode , Image . fromarray ( _mask * 255 ) , width / / 8 , height / / 8 ) ) / 255
#convert back to torch tensor
init_image = torch . from_numpy ( np . expand_dims ( _image , axis = 0 ) . astype ( np . float32 ) ) . to ( device )
mask = torch . from_numpy ( _mask . astype ( np . float32 ) ) . to ( device )
else :
init_image = 2. * image - 1.
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init_image = init_image . to ( device )
init_image = repeat ( init_image , ' 1 ... -> b ... ' , b = batch_size )
init_latent = ( model if not opt . optimized else modelFS ) . get_first_stage_encoding ( ( model if not opt . optimized else modelFS ) . encode_first_stage ( init_image ) ) # move to latent space
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if opt . optimized :
mem = torch . cuda . memory_allocated ( ) / 1e6
modelFS . to ( " cpu " )
while ( torch . cuda . memory_allocated ( ) / 1e6 > = mem ) :
time . sleep ( 1 )
return init_latent , mask ,
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def sample ( init_data , x , conditioning , unconditional_conditioning , sampler_name , img_callback : Callable = None ) :
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t_enc_steps = t_enc
obliterate = False
if ddim_steps == t_enc_steps :
t_enc_steps = t_enc_steps - 1
obliterate = True
if sampler_name != ' DDIM ' :
x0 , z_mask = init_data
sigmas = sampler . model_wrap . get_sigmas ( ddim_steps )
noise = x * sigmas [ ddim_steps - t_enc_steps - 1 ]
xi = x0 + noise
# Obliterate masked image
if z_mask is not None and obliterate :
random = torch . randn ( z_mask . shape , device = xi . device )
xi = ( z_mask * noise ) + ( ( 1 - z_mask ) * xi )
sigma_sched = sigmas [ ddim_steps - t_enc_steps - 1 : ]
model_wrap_cfg = CFGMaskedDenoiser ( sampler . model_wrap )
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samples_ddim = K . sampling . __dict__ [ f ' sample_ { sampler . get_sampler_name ( ) } ' ] ( model_wrap_cfg , xi , sigma_sched , extra_args = { ' cond ' : conditioning , ' uncond ' : unconditional_conditioning , ' cond_scale ' : cfg_scale , ' mask ' : z_mask , ' x0 ' : x0 , ' xi ' : xi } , disable = False , callback = partial ( KDiffusionSampler . img_callback_wrapper , img_callback ) )
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else :
x0 , z_mask = init_data
sampler . make_schedule ( ddim_num_steps = ddim_steps , ddim_eta = 0.0 , verbose = False )
z_enc = sampler . stochastic_encode ( x0 , torch . tensor ( [ t_enc_steps ] * batch_size ) . to ( device ) )
# Obliterate masked image
if z_mask is not None and obliterate :
random = torch . randn ( z_mask . shape , device = z_enc . device )
z_enc = ( z_mask * random ) + ( ( 1 - z_mask ) * z_enc )
# decode it
samples_ddim = sampler . decode ( z_enc , conditioning , t_enc_steps ,
unconditional_guidance_scale = cfg_scale ,
unconditional_conditioning = unconditional_conditioning ,
z_mask = z_mask , x0 = x0 )
return samples_ddim
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correction_target = None
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if loopback :
output_images , info = None , None
history = [ ]
initial_seed = None
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# turn on color correction for loopback to prevent known issue of color drift
do_color_correction = True
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for i in range ( n_iter ) :
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if do_color_correction and i == 0 :
correction_target = cv2 . cvtColor ( np . asarray ( init_img . copy ( ) ) , cv2 . COLOR_RGB2LAB )
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output_images , seed , info , stats = process_images (
outpath = outpath ,
func_init = init ,
func_sample = sample ,
prompt = prompt ,
seed = seed ,
sampler_name = sampler_name ,
skip_save = skip_save ,
skip_grid = skip_grid ,
batch_size = 1 ,
n_iter = 1 ,
steps = ddim_steps ,
cfg_scale = cfg_scale ,
width = width ,
height = height ,
prompt_matrix = prompt_matrix ,
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filter_nsfw = filter_nsfw ,
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use_GFPGAN = use_GFPGAN ,
use_RealESRGAN = False , # Forcefully disable upscaling when using loopback
realesrgan_model_name = realesrgan_model_name ,
fp = fp ,
do_not_save_grid = True ,
normalize_prompt_weights = normalize_prompt_weights ,
init_img = init_img ,
init_mask = init_mask ,
keep_mask = keep_mask ,
mask_blur_strength = mask_blur_strength ,
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mask_restore = mask_restore ,
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denoising_strength = denoising_strength ,
resize_mode = resize_mode ,
uses_loopback = loopback ,
uses_random_seed_loopback = random_seed_loopback ,
sort_samples = sort_samples ,
write_info_files = write_info_files ,
write_sample_info_to_log_file = write_sample_info_to_log_file ,
jpg_sample = jpg_sample ,
2022-09-11 20:18:17 +03:00
job_info = job_info ,
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do_color_correction = do_color_correction ,
2022-09-11 20:18:17 +03:00
correction_target = correction_target
2022-09-07 01:50:14 +03:00
)
if initial_seed is None :
initial_seed = seed
init_img = output_images [ 0 ]
2022-09-07 22:19:00 +03:00
2022-09-07 01:50:14 +03:00
if not random_seed_loopback :
seed = seed + 1
else :
seed = seed_to_int ( None )
denoising_strength = max ( denoising_strength * 0.95 , 0.1 )
history . append ( init_img )
if not skip_grid :
grid_count = get_next_sequence_number ( outpath , ' grid- ' )
grid = image_grid ( history , batch_size , force_n_rows = 1 )
grid_file = f " grid- { grid_count : 05 } - { seed } _ { prompt . replace ( ' ' , ' _ ' ) . translate ( { ord ( x ) : ' ' for x in invalid_filename_chars } ) [ : 128 ] } . { grid_ext } "
grid . save ( os . path . join ( outpath , grid_file ) , grid_format , quality = grid_quality , lossless = grid_lossless , optimize = True )
output_images = history
seed = initial_seed
else :
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if do_color_correction :
correction_target = cv2 . cvtColor ( np . asarray ( init_img . copy ( ) ) , cv2 . COLOR_RGB2LAB )
2022-09-07 01:50:14 +03:00
output_images , seed , info , stats = process_images (
outpath = outpath ,
func_init = init ,
func_sample = sample ,
prompt = prompt ,
seed = seed ,
sampler_name = sampler_name ,
skip_save = skip_save ,
skip_grid = skip_grid ,
batch_size = batch_size ,
n_iter = n_iter ,
steps = ddim_steps ,
cfg_scale = cfg_scale ,
width = width ,
height = height ,
prompt_matrix = prompt_matrix ,
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filter_nsfw = filter_nsfw ,
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use_GFPGAN = use_GFPGAN ,
use_RealESRGAN = use_RealESRGAN ,
realesrgan_model_name = realesrgan_model_name ,
fp = fp ,
normalize_prompt_weights = normalize_prompt_weights ,
init_img = init_img ,
init_mask = init_mask ,
keep_mask = keep_mask ,
mask_blur_strength = mask_blur_strength ,
denoising_strength = denoising_strength ,
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mask_restore = mask_restore ,
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resize_mode = resize_mode ,
uses_loopback = loopback ,
sort_samples = sort_samples ,
write_info_files = write_info_files ,
write_sample_info_to_log_file = write_sample_info_to_log_file ,
jpg_sample = jpg_sample ,
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job_info = job_info ,
do_color_correction = do_color_correction ,
correction_target = correction_target
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)
del sampler
return output_images , seed , info , stats
prompt_parser = re . compile ( """
( ? P < prompt > # capture group for 'prompt'
( ? : \\\: | [ ^ : ] ) + # match one or more non ':' characters or escaped colons '\:'
) # end 'prompt'
( ? : # non-capture group
: + # match one or more ':' characters
( ? P < weight > # capture group for 'weight'
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- ? \d * \. { 0 , 1 } \d + # match positive or negative integer or decimal number
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) ? # end weight capture group, make optional
\s * # strip spaces after weight
| # OR
$ # else, if no ':' then match end of line
) # end non-capture group
""" , re.VERBOSE)
# grabs all text up to the first occurrence of ':' as sub-prompt
# takes the value following ':' as weight
# if ':' has no value defined, defaults to 1.0
# repeats until no text remaining
def split_weighted_subprompts ( input_string , normalize = True ) :
parsed_prompts = [ ( match . group ( " prompt " ) . replace ( " \\ : " , " : " ) , float ( match . group ( " weight " ) or 1 ) ) for match in re . finditer ( prompt_parser , input_string ) ]
if not normalize :
return parsed_prompts
weight_sum = sum ( map ( lambda x : x [ 1 ] , parsed_prompts ) )
if weight_sum == 0 :
print ( " Warning: Subprompt weights add up to zero. Discarding and using even weights instead. " )
equal_weight = 1 / ( len ( parsed_prompts ) or 1 )
return [ ( x [ 0 ] , equal_weight ) for x in parsed_prompts ]
return [ ( x [ 0 ] , x [ 1 ] / weight_sum ) for x in parsed_prompts ]
def slerp ( device , t , v0 : torch . Tensor , v1 : torch . Tensor , DOT_THRESHOLD = 0.9995 ) :
v0 = v0 . detach ( ) . cpu ( ) . numpy ( )
v1 = v1 . detach ( ) . cpu ( ) . numpy ( )
dot = np . sum ( v0 * v1 / ( np . linalg . norm ( v0 ) * np . linalg . norm ( v1 ) ) )
if np . abs ( dot ) > DOT_THRESHOLD :
v2 = ( 1 - t ) * v0 + t * v1
else :
theta_0 = np . arccos ( dot )
sin_theta_0 = np . sin ( theta_0 )
theta_t = theta_0 * t
sin_theta_t = np . sin ( theta_t )
s0 = np . sin ( theta_0 - theta_t ) / sin_theta_0
s1 = sin_theta_t / sin_theta_0
v2 = s0 * v0 + s1 * v1
v2 = torch . from_numpy ( v2 ) . to ( device )
return v2
def imgproc ( image , image_batch , imgproc_prompt , imgproc_toggles , imgproc_upscale_toggles , imgproc_realesrgan_model_name , imgproc_sampling ,
imgproc_steps , imgproc_height , imgproc_width , imgproc_cfg , imgproc_denoising , imgproc_seed , imgproc_gfpgan_strength , imgproc_ldsr_steps , imgproc_ldsr_pre_downSample , imgproc_ldsr_post_downSample ) :
outpath = opt . outdir_imglab or opt . outdir or " outputs/imglab-samples "
output = [ ]
images = [ ]
def processGFPGAN ( image , strength ) :
image = image . convert ( " RGB " )
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
metadata = ImageMetadata . get_from_image ( image )
2022-09-07 01:50:14 +03:00
cropped_faces , restored_faces , restored_img = GFPGAN . enhance ( np . array ( image , dtype = np . uint8 ) , has_aligned = False , only_center_face = False , paste_back = True )
result = Image . fromarray ( restored_img )
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
if metadata :
metadata . GFPGAN = True
ImageMetadata . set_on_image ( image , metadata )
2022-09-07 01:50:14 +03:00
if strength < 1.0 :
result = Image . blend ( image , result , strength )
return result
def processRealESRGAN ( image ) :
if ' x2 ' in imgproc_realesrgan_model_name :
# downscale to 1/2 size
modelMode = imgproc_realesrgan_model_name . replace ( ' x2 ' , ' x4 ' )
else :
modelMode = imgproc_realesrgan_model_name
image = image . convert ( " RGB " )
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
metadata = ImageMetadata . get_from_image ( image )
2022-09-07 01:50:14 +03:00
RealESRGAN = load_RealESRGAN ( modelMode )
result , res = RealESRGAN . enhance ( np . array ( image , dtype = np . uint8 ) )
result = Image . fromarray ( result )
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
ImageMetadata . set_on_image ( result , metadata )
2022-09-07 01:50:14 +03:00
if ' x2 ' in imgproc_realesrgan_model_name :
# downscale to 1/2 size
result = result . resize ( ( result . width / / 2 , result . height / / 2 ) , LANCZOS )
return result
def processGoBig ( image ) :
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
metadata = ImageMetadata . get_from_image ( image )
2022-09-07 01:50:14 +03:00
result = processRealESRGAN ( image , )
if ' x4 ' in imgproc_realesrgan_model_name :
#downscale to 1/2 size
result = result . resize ( ( result . width / / 2 , result . height / / 2 ) , LANCZOS )
#make sense of parameters
n_iter = 1
batch_size = 1
seed = seed_to_int ( imgproc_seed )
ddim_steps = int ( imgproc_steps )
resize_mode = 0 #need to add resize mode to form, or infer correct resolution from file name
width = int ( imgproc_width )
height = int ( imgproc_height )
cfg_scale = float ( imgproc_cfg )
denoising_strength = float ( imgproc_denoising )
skip_save = True
skip_grid = True
prompt = imgproc_prompt
t_enc = int ( denoising_strength * ddim_steps )
sampler_name = imgproc_sampling
if sampler_name == ' DDIM ' :
sampler = DDIMSampler ( model )
elif sampler_name == ' k_dpm_2_a ' :
sampler = KDiffusionSampler ( model , ' dpm_2_ancestral ' )
elif sampler_name == ' k_dpm_2 ' :
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sampler = KDiffusionSampler ( model , ' dpm_2 ' )
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elif sampler_name == ' k_euler_a ' :
sampler = KDiffusionSampler ( model , ' euler_ancestral ' )
elif sampler_name == ' k_euler ' :
sampler = KDiffusionSampler ( model , ' euler ' )
elif sampler_name == ' k_heun ' :
sampler = KDiffusionSampler ( model , ' heun ' )
elif sampler_name == ' k_lms ' :
sampler = KDiffusionSampler ( model , ' lms ' )
else :
raise Exception ( " Unknown sampler: " + sampler_name )
pass
init_img = result
init_mask = None
keep_mask = False
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mask_restore = False
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assert 0. < = denoising_strength < = 1. , ' can only work with strength in [0.0, 1.0] '
def init ( ) :
image = init_img . convert ( " RGB " )
image = resize_image ( resize_mode , image , width , height )
image = np . array ( image ) . astype ( np . float32 ) / 255.0
image = image [ None ] . transpose ( 0 , 3 , 1 , 2 )
image = torch . from_numpy ( image )
if opt . optimized :
modelFS . to ( device )
init_image = 2. * image - 1.
init_image = init_image . to ( device )
init_image = repeat ( init_image , ' 1 ... -> b ... ' , b = batch_size )
init_latent = ( model if not opt . optimized else modelFS ) . get_first_stage_encoding ( ( model if not opt . optimized else modelFS ) . encode_first_stage ( init_image ) ) # move to latent space
if opt . optimized :
mem = torch . cuda . memory_allocated ( ) / 1e6
modelFS . to ( " cpu " )
while ( torch . cuda . memory_allocated ( ) / 1e6 > = mem ) :
time . sleep ( 1 )
return init_latent ,
2022-09-16 22:40:30 +03:00
def sample ( init_data , x , conditioning , unconditional_conditioning , sampler_name , img_callback : Callable = None ) :
2022-09-07 01:50:14 +03:00
if sampler_name != ' DDIM ' :
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 )
2022-09-16 22:40:30 +03:00
samples_ddim = K . sampling . __dict__ [ f ' sample_ { sampler . get_sampler_name ( ) } ' ] ( model_wrap_cfg , xi , sigma_sched , extra_args = { ' cond ' : conditioning , ' uncond ' : unconditional_conditioning , ' cond_scale ' : cfg_scale } , disable = False , callback = partial ( KDiffusionSampler . img_callback_wrapper , img_callback ) )
2022-09-07 01:50:14 +03:00
else :
x0 , = init_data
sampler . make_schedule ( ddim_num_steps = ddim_steps , ddim_eta = 0.0 , verbose = False )
z_enc = sampler . stochastic_encode ( x0 , torch . tensor ( [ t_enc ] * batch_size ) . to ( device ) )
# decode it
samples_ddim = sampler . decode ( z_enc , conditioning , t_enc ,
unconditional_guidance_scale = cfg_scale ,
unconditional_conditioning = unconditional_conditioning , )
return samples_ddim
def split_grid ( image , tile_w = 512 , tile_h = 512 , overlap = 64 ) :
Grid = namedtuple ( " Grid " , [ " tiles " , " tile_w " , " tile_h " , " image_w " , " image_h " , " overlap " ] )
w = image . width
h = image . height
now = tile_w - overlap # non-overlap width
noh = tile_h - overlap
cols = math . ceil ( ( w - overlap ) / now )
rows = math . ceil ( ( h - overlap ) / noh )
grid = Grid ( [ ] , tile_w , tile_h , w , h , overlap )
for row in range ( rows ) :
row_images = [ ]
y = row * noh
if y + tile_h > = h :
y = h - tile_h
for col in range ( cols ) :
x = col * now
if x + tile_w > = w :
x = w - tile_w
tile = image . crop ( ( x , y , x + tile_w , y + tile_h ) )
row_images . append ( [ x , tile_w , tile ] )
grid . tiles . append ( [ y , tile_h , row_images ] )
return grid
def combine_grid ( grid ) :
def make_mask_image ( r ) :
r = r * 255 / grid . overlap
r = r . astype ( np . uint8 )
return Image . fromarray ( r , ' L ' )
mask_w = make_mask_image ( np . arange ( grid . overlap , dtype = np . float ) . reshape ( ( 1 , grid . overlap ) ) . repeat ( grid . tile_h , axis = 0 ) )
mask_h = make_mask_image ( np . arange ( grid . overlap , dtype = np . float ) . reshape ( ( grid . overlap , 1 ) ) . repeat ( grid . image_w , axis = 1 ) )
combined_image = Image . new ( " RGB " , ( grid . image_w , grid . image_h ) )
for y , h , row in grid . tiles :
combined_row = Image . new ( " RGB " , ( grid . image_w , h ) )
for x , w , tile in row :
if x == 0 :
combined_row . paste ( tile , ( 0 , 0 ) )
continue
combined_row . paste ( tile . crop ( ( 0 , 0 , grid . overlap , h ) ) , ( x , 0 ) , mask = mask_w )
combined_row . paste ( tile . crop ( ( grid . overlap , 0 , w , h ) ) , ( x + grid . overlap , 0 ) )
if y == 0 :
combined_image . paste ( combined_row , ( 0 , 0 ) )
continue
combined_image . paste ( combined_row . crop ( ( 0 , 0 , combined_row . width , grid . overlap ) ) , ( 0 , y ) , mask = mask_h )
combined_image . paste ( combined_row . crop ( ( 0 , grid . overlap , combined_row . width , h ) ) , ( 0 , y + grid . overlap ) )
return combined_image
grid = split_grid ( result , tile_w = width , tile_h = height , overlap = 64 )
work = [ ]
work_results = [ ]
for y , h , row in grid . tiles :
for tiledata in row :
work . append ( tiledata [ 2 ] )
batch_count = math . ceil ( len ( work ) / batch_size )
print ( f " GoBig upscaling will process a total of { len ( work ) } images tiled as { len ( grid . tiles [ 0 ] [ 2 ] ) } x { len ( grid . tiles ) } in a total of { batch_count } batches. " )
for i in range ( batch_count ) :
init_img = work [ i * batch_size : ( i + 1 ) * batch_size ] [ 0 ]
output_images , seed , info , stats = process_images (
outpath = outpath ,
func_init = init ,
func_sample = sample ,
prompt = prompt ,
seed = seed ,
sampler_name = sampler_name ,
skip_save = skip_save ,
skip_grid = skip_grid ,
batch_size = batch_size ,
n_iter = n_iter ,
steps = ddim_steps ,
cfg_scale = cfg_scale ,
width = width ,
height = height ,
prompt_matrix = None ,
2022-09-11 12:32:36 +03:00
filter_nsfw = False ,
2022-09-07 01:50:14 +03:00
use_GFPGAN = None ,
use_RealESRGAN = None ,
realesrgan_model_name = None ,
fp = None ,
normalize_prompt_weights = False ,
init_img = init_img ,
init_mask = None ,
keep_mask = False ,
mask_blur_strength = None ,
denoising_strength = denoising_strength ,
2022-09-10 00:07:14 +03:00
mask_restore = mask_restore ,
2022-09-07 01:50:14 +03:00
resize_mode = resize_mode ,
uses_loopback = False ,
sort_samples = True ,
write_info_files = True ,
write_sample_info_to_log_file = False ,
jpg_sample = False ,
imgProcessorTask = True
)
#if initial_seed is None:
# initial_seed = seed
#seed = seed + 1
work_results . append ( output_images [ 0 ] )
image_index = 0
for y , h , row in grid . tiles :
for tiledata in row :
tiledata [ 2 ] = work_results [ image_index ]
image_index + = 1
combined_image = combine_grid ( grid )
grid_count = len ( os . listdir ( outpath ) ) - 1
del sampler
torch . cuda . empty_cache ( )
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
ImageMetadata . set_on_image ( combined_image , metadata )
2022-09-07 01:50:14 +03:00
return combined_image
def processLDSR ( image ) :
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
metadata = ImageMetadata . get_from_image ( image )
2022-09-07 01:50:14 +03:00
result = LDSR . superResolution ( image , int ( imgproc_ldsr_steps ) , str ( imgproc_ldsr_pre_downSample ) , str ( imgproc_ldsr_post_downSample ) )
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
ImageMetadata . set_on_image ( result , metadata )
return result
2022-09-07 01:50:14 +03:00
if image_batch != None :
if image != None :
print ( " Batch detected and single image detected, please only use one of the two. Aborting. " )
return None
#convert file to pillow image
for img in image_batch :
image = Image . fromarray ( np . array ( Image . open ( img ) ) )
images . append ( image )
elif image != None :
if image_batch != None :
print ( " Batch detected and single image detected, please only use one of the two. Aborting. " )
return None
else :
images . append ( image )
if len ( images ) > 0 :
print ( " Processing images... " )
#pre load models not in loop
if 0 in imgproc_toggles :
ModelLoader ( [ ' RealESGAN ' , ' LDSR ' ] , False , True ) # Unload unused models
ModelLoader ( [ ' GFPGAN ' ] , True , False ) # Load used models
if 1 in imgproc_toggles :
if imgproc_upscale_toggles == 0 :
ModelLoader ( [ ' GFPGAN ' , ' LDSR ' ] , False , True ) # Unload unused models
2022-09-11 20:18:17 +03:00
ModelLoader ( [ ' RealESGAN ' ] , True , False , imgproc_realesrgan_model_name ) # Load used models
2022-09-07 01:50:14 +03:00
elif imgproc_upscale_toggles == 1 :
ModelLoader ( [ ' GFPGAN ' , ' LDSR ' ] , False , True ) # Unload unused models
ModelLoader ( [ ' RealESGAN ' , ' model ' ] , True , False ) # Load used models
elif imgproc_upscale_toggles == 2 :
ModelLoader ( [ ' model ' , ' GFPGAN ' , ' RealESGAN ' ] , False , True ) # Unload unused models
ModelLoader ( [ ' LDSR ' ] , True , False ) # Load used models
elif imgproc_upscale_toggles == 3 :
ModelLoader ( [ ' GFPGAN ' , ' LDSR ' ] , False , True ) # Unload unused models
ModelLoader ( [ ' RealESGAN ' , ' model ' ] , True , False , imgproc_realesrgan_model_name ) # Load used models
for image in images :
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
metadata = ImageMetadata . get_from_image ( image )
2022-09-07 01:50:14 +03:00
if 0 in imgproc_toggles :
#recheck if GFPGAN is loaded since it's the only model that can be loaded in the loop as well
ModelLoader ( [ ' GFPGAN ' ] , True , False ) # Load used models
image = processGFPGAN ( image , imgproc_gfpgan_strength )
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
if metadata :
metadata . GFPGAN = True
ImageMetadata . set_on_image ( image , metadata )
2022-09-07 01:50:14 +03:00
outpathDir = os . path . join ( outpath , ' GFPGAN ' )
os . makedirs ( outpathDir , exist_ok = True )
batchNumber = get_next_sequence_number ( outpathDir )
outFilename = str ( batchNumber ) + ' - ' + ' result '
if 1 not in imgproc_toggles :
output . append ( image )
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
save_sample ( image , outpathDir , outFilename , False , None , None , None , None , None , False , None , None , None , None , None , None , None , None , None , False )
2022-09-07 01:50:14 +03:00
if 1 in imgproc_toggles :
if imgproc_upscale_toggles == 0 :
image = processRealESRGAN ( image )
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
ImageMetadata . set_on_image ( image , metadata )
2022-09-07 01:50:14 +03:00
outpathDir = os . path . join ( outpath , ' RealESRGAN ' )
os . makedirs ( outpathDir , exist_ok = True )
batchNumber = get_next_sequence_number ( outpathDir )
outFilename = str ( batchNumber ) + ' - ' + ' result '
output . append ( image )
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
save_sample ( image , outpathDir , outFilename , False , None , None , None , None , None , False , None , None , None , None , None , None , None , None , None , False )
2022-09-07 01:50:14 +03:00
elif imgproc_upscale_toggles == 1 :
image = processGoBig ( image )
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
ImageMetadata . set_on_image ( image , metadata )
2022-09-07 01:50:14 +03:00
outpathDir = os . path . join ( outpath , ' GoBig ' )
os . makedirs ( outpathDir , exist_ok = True )
batchNumber = get_next_sequence_number ( outpathDir )
outFilename = str ( batchNumber ) + ' - ' + ' result '
output . append ( image )
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
save_sample ( image , outpathDir , outFilename , False , None , None , None , None , None , False , None , None , None , None , None , None , None , None , None , False )
2022-09-07 01:50:14 +03:00
elif imgproc_upscale_toggles == 2 :
image = processLDSR ( image )
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
ImageMetadata . set_on_image ( image , metadata )
2022-09-07 01:50:14 +03:00
outpathDir = os . path . join ( outpath , ' LDSR ' )
os . makedirs ( outpathDir , exist_ok = True )
batchNumber = get_next_sequence_number ( outpathDir )
outFilename = str ( batchNumber ) + ' - ' + ' result '
output . append ( image )
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
save_sample ( image , outpathDir , outFilename , False , None , None , None , None , None , False , None , None , None , None , None , None , None , None , None , False )
2022-09-07 01:50:14 +03:00
elif imgproc_upscale_toggles == 3 :
image = processGoBig ( image )
ModelLoader ( [ ' model ' , ' GFPGAN ' , ' RealESGAN ' ] , False , True ) # Unload unused models
ModelLoader ( [ ' LDSR ' ] , True , False ) # Load used models
image = processLDSR ( image )
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
ImageMetadata . set_on_image ( image , metadata )
2022-09-07 01:50:14 +03:00
outpathDir = os . path . join ( outpath , ' GoLatent ' )
os . makedirs ( outpathDir , exist_ok = True )
batchNumber = get_next_sequence_number ( outpathDir )
outFilename = str ( batchNumber ) + ' - ' + ' result '
output . append ( image )
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
save_sample ( image , outpathDir , outFilename , None , None , None , None , None , None , False , None , None , None , None , None , None , None , None , None , False )
2022-09-07 01:50:14 +03:00
#LDSR is always unloaded to avoid memory issues
#ModelLoader(['LDSR'],False,True)
#print("Reloading default models...")
#ModelLoader(['model','RealESGAN','GFPGAN'],True,False) # load back models
print ( " Done. " )
return output
def ModelLoader ( models , load = False , unload = False , imgproc_realesrgan_model_name = ' RealESRGAN_x4plus ' ) :
#get global variables
global_vars = globals ( )
#check if m is in globals
if unload :
for m in models :
if m in global_vars :
#if it is, delete it
del global_vars [ m ]
if opt . optimized :
if m == ' model ' :
del global_vars [ m + ' FS ' ]
del global_vars [ m + ' CS ' ]
if m == ' model ' :
m = ' Stable Diffusion '
print ( ' Unloaded ' + m )
if load :
for m in models :
if m not in global_vars or m in global_vars and type ( global_vars [ m ] ) == bool :
#if it isn't, load it
if m == ' GFPGAN ' :
global_vars [ m ] = load_GFPGAN ( )
elif m == ' model ' :
sdLoader = load_SD_model ( )
global_vars [ m ] = sdLoader [ 0 ]
if opt . optimized :
global_vars [ m + ' CS ' ] = sdLoader [ 1 ]
global_vars [ m + ' FS ' ] = sdLoader [ 2 ]
elif m == ' RealESRGAN ' :
global_vars [ m ] = load_RealESRGAN ( imgproc_realesrgan_model_name )
elif m == ' LDSR ' :
global_vars [ m ] = load_LDSR ( )
if m == ' model ' :
m = ' Stable Diffusion '
print ( ' Loaded ' + m )
torch_gc ( )
def run_GFPGAN ( image , strength ) :
ModelLoader ( [ ' LDSR ' , ' RealESRGAN ' ] , False , True )
ModelLoader ( [ ' GFPGAN ' ] , True , False )
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
metadata = ImageMetadata . get_from_image ( image )
2022-09-07 01:50:14 +03:00
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 )
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
metadata . GFPGAN = True
ImageMetadata . set_on_image ( res , metadata )
2022-09-07 01:50:14 +03:00
if strength < 1.0 :
res = Image . blend ( image , res , strength )
return res
def run_RealESRGAN ( image , model_name : str ) :
ModelLoader ( [ ' GFPGAN ' , ' LDSR ' ] , False , True )
ModelLoader ( [ ' RealESRGAN ' ] , True , False )
if RealESRGAN . model . name != model_name :
try_loading_RealESRGAN ( model_name )
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
metadata = ImageMetadata . get_from_image ( image )
2022-09-07 01:50:14 +03:00
image = image . convert ( " RGB " )
output , img_mode = RealESRGAN . enhance ( np . array ( image , dtype = np . uint8 ) )
res = Image . fromarray ( output )
Metadata cleanup - Maintain metadata within UI (#845)
* Metadata cleanup - Maintain metadata within UI
This commit, when combined with Gradio 3.2.1b1+, maintains image
metadata as an image is passed throughout the UI. For example,
if you generate an image, send it to Image Lab, upscale it, fix faces,
and then drag the resulting image back in to Image Lab, it will still
remember the image generation parameters.
When the image is saved, the metadata will be stripped from it if
save-metadata is not enabled. If the image is saved by *dragging*
out of the UI on to the filesystem it may maintain its metadata.
Note: I have ran into UI responsiveness issues with upgrading Gradio.
Seems there may be some Gradio queue management issues. *Without* the
gradio update this commit will maintain current functionality, but
will not keep meetadata when dragging an image between UI components.
* Move ImageMetadata into its own file
Cleans up webui, enables webui_streamlit et al to use it as well.
* Fix typo
2022-09-09 19:27:21 +03:00
ImageMetadata . set_on_image ( res , metadata )
2022-09-07 01:50:14 +03:00
return res
if opt . defaults is not None and os . path . isfile ( opt . defaults ) :
try :
with open ( opt . defaults , " r " , encoding = " utf8 " ) as f :
user_defaults = yaml . safe_load ( f )
except ( OSError , yaml . YAMLError ) as e :
print ( f " Error loading defaults file { opt . defaults } : " , e , file = sys . stderr )
print ( " Falling back to program defaults. " , file = sys . stderr )
user_defaults = { }
else :
user_defaults = { }
# make sure these indicies line up at the top of txt2img()
txt2img_toggles = [
' Create prompt matrix (separate multiple prompts using |, and get all combinations of them) ' ,
' Normalize Prompt Weights (ensure sum of weights add up to 1.0) ' ,
' Save individual images ' ,
' Save grid ' ,
' Sort samples by prompt ' ,
' Write sample info files ' ,
' write sample info to log file ' ,
' jpg samples ' ,
2022-09-11 12:32:36 +03:00
' Filter NSFW content ' ,
2022-09-07 01:50:14 +03:00
]
if GFPGAN is not None :
txt2img_toggles . append ( ' Fix faces using GFPGAN ' )
if RealESRGAN is not None :
txt2img_toggles . append ( ' Upscale images using RealESRGAN ' )
txt2img_defaults = {
' prompt ' : ' ' ,
' ddim_steps ' : 50 ,
' toggles ' : [ 1 , 2 , 3 ] ,
' sampler_name ' : ' k_lms ' ,
' ddim_eta ' : 0.0 ,
' n_iter ' : 1 ,
' batch_size ' : 1 ,
' cfg_scale ' : 7.5 ,
' seed ' : ' ' ,
' height ' : 512 ,
' width ' : 512 ,
' fp ' : None ,
' variant_amount ' : 0.0 ,
' variant_seed ' : ' ' ,
' submit_on_enter ' : ' Yes ' ,
}
if ' txt2img ' in user_defaults :
txt2img_defaults . update ( user_defaults [ ' txt2img ' ] )
txt2img_toggle_defaults = [ txt2img_toggles [ i ] for i in txt2img_defaults [ ' toggles ' ] ]
imgproc_defaults = {
' prompt ' : ' ' ,
' ddim_steps ' : 50 ,
' sampler_name ' : ' k_lms ' ,
' cfg_scale ' : 7.5 ,
' seed ' : ' ' ,
' height ' : 512 ,
' width ' : 512 ,
' denoising_strength ' : 0.30
}
imgproc_mode_toggles = [
' Fix Faces ' ,
' Upscale '
]
2022-09-07 22:19:00 +03:00
#sample_img2img = "assets/stable-samples/img2img/sketch-mountains-input.jpg"
#sample_img2img = sample_img2img if os.path.exists(sample_img2img) else None
sample_img2img = None
2022-09-07 01:50:14 +03:00
# make sure these indicies line up at the top of img2img()
img2img_toggles = [
' Create prompt matrix (separate multiple prompts using |, and get all combinations of them) ' ,
' Normalize Prompt Weights (ensure sum of weights add up to 1.0) ' ,
' Loopback (use images from previous batch when creating next batch) ' ,
' Random loopback seed ' ,
' Save individual images ' ,
' Save grid ' ,
' Sort samples by prompt ' ,
' Write sample info files ' ,
' Write sample info to one file ' ,
' jpg samples ' ,
2022-09-11 20:18:17 +03:00
' Color correction (always enabled on loopback mode) ' ,
2022-09-11 12:32:36 +03:00
' Filter NSFW content ' ,
2022-09-07 01:50:14 +03:00
]
# removed for now becuase of Image Lab implementation
if GFPGAN is not None :
img2img_toggles . append ( ' Fix faces using GFPGAN ' )
if RealESRGAN is not None :
img2img_toggles . append ( ' Upscale images using RealESRGAN ' )
img2img_mask_modes = [
" Keep masked area " ,
" Regenerate only masked area " ,
]
img2img_resize_modes = [
" Just resize " ,
" Crop and resize " ,
" Resize and fill " ,
]
img2img_defaults = {
' prompt ' : ' ' ,
' ddim_steps ' : 50 ,
' toggles ' : [ 1 , 4 , 5 ] ,
' sampler_name ' : ' k_lms ' ,
' ddim_eta ' : 0.0 ,
' n_iter ' : 1 ,
' batch_size ' : 1 ,
' cfg_scale ' : 5.0 ,
' denoising_strength ' : 0.75 ,
' mask_mode ' : 0 ,
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' mask_restore ' : False ,
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' resize_mode ' : 0 ,
' seed ' : ' ' ,
' height ' : 512 ,
' width ' : 512 ,
' fp ' : None ,
}
if ' img2img ' in user_defaults :
img2img_defaults . update ( user_defaults [ ' img2img ' ] )
img2img_toggle_defaults = [ img2img_toggles [ i ] for i in img2img_defaults [ ' toggles ' ] ]
img2img_image_mode = ' sketch '
help_text = """
## Mask/Crop
* The masking / cropping is very temperamental .
* It may take some time for the image to show when switching from Crop to Mask .
* If the image doesn ' t appear after switching to Mask, switch back to Crop and then back again to Mask
* If the mask appears distorted ( the brush is weirdly shaped instead of round ) , switch back to Crop and then back again to Mask .
## Advanced Editor
* For now the button needs to be clicked twice the first time .
* Once you have edited your image , you _need_ to click the save button for the next step to work .
* Clear the image from the crop editor ( click the x )
* Click " Get Image from Advanced Editor " to get the image you saved . If it doesn ' t work, try opening the editor and saving again.
If it keeps not working , try switching modes again , switch tabs , clear the image or reload .
"""
def show_help ( ) :
return [ gr . update ( visible = False ) , gr . update ( visible = True ) , gr . update ( value = help_text ) ]
def hide_help ( ) :
return [ gr . update ( visible = True ) , gr . update ( visible = False ) , gr . update ( value = " " ) ]
demo = draw_gradio_ui ( opt ,
user_defaults = user_defaults ,
txt2img = txt2img ,
img2img = img2img ,
imgproc = imgproc ,
txt2img_defaults = txt2img_defaults ,
txt2img_toggles = txt2img_toggles ,
txt2img_toggle_defaults = txt2img_toggle_defaults ,
show_embeddings = hasattr ( model , " embedding_manager " ) ,
img2img_defaults = img2img_defaults ,
img2img_toggles = img2img_toggles ,
img2img_toggle_defaults = img2img_toggle_defaults ,
img2img_mask_modes = img2img_mask_modes ,
img2img_resize_modes = img2img_resize_modes ,
sample_img2img = sample_img2img ,
imgproc_defaults = imgproc_defaults ,
imgproc_mode_toggles = imgproc_mode_toggles ,
RealESRGAN = RealESRGAN ,
GFPGAN = GFPGAN ,
LDSR = LDSR ,
run_GFPGAN = run_GFPGAN ,
run_RealESRGAN = run_RealESRGAN ,
job_manager = job_manager
)
class ServerLauncher ( threading . Thread ) :
def __init__ ( self , demo ) :
threading . Thread . __init__ ( self )
self . name = ' Gradio Server Thread '
self . demo = demo
def run ( self ) :
loop = asyncio . new_event_loop ( )
asyncio . set_event_loop ( loop )
gradio_params = {
' inbrowser ' : opt . inbrowser ,
' server_name ' : ' 0.0.0.0 ' ,
' server_port ' : opt . port ,
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' share ' : opt . share ,
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' show_error ' : True
}
if not opt . share :
demo . queue ( concurrency_count = opt . max_jobs )
if opt . share and opt . share_password :
gradio_params [ ' auth ' ] = ( ' webui ' , opt . share_password )
# Check to see if Port 7860 is open
port_status = 1
while port_status != 0 :
try :
self . demo . launch ( * * gradio_params )
except ( OSError ) as e :
print ( f ' Error: Port: { opt . port } is not open yet. Please wait, this may take upwards of 60 seconds... ' )
time . sleep ( 10 )
else :
port_status = 0
def stop ( self ) :
self . demo . close ( ) # this tends to hang
def launch_server ( ) :
server_thread = ServerLauncher ( demo )
server_thread . start ( )
try :
while server_thread . is_alive ( ) :
time . sleep ( 60 )
except ( KeyboardInterrupt , OSError ) as e :
crash ( e , ' Shutting down... ' )
def run_headless ( ) :
with open ( opt . cli , ' r ' , encoding = ' utf8 ' ) as f :
kwargs = yaml . safe_load ( f )
target = kwargs . pop ( ' target ' )
if target == ' txt2img ' :
target_func = txt2img
elif target == ' img2img ' :
target_func = img2img
raise NotImplementedError ( )
else :
raise ValueError ( f ' Unknown target: { target } ' )
prompts = kwargs . pop ( " prompt " )
prompts = prompts if type ( prompts ) is list else [ prompts ]
for i , prompt_i in enumerate ( prompts ) :
print ( f " ===== Prompt { i + 1 } / { len ( prompts ) } : { prompt_i } ===== " )
output_images , seed , info , stats = target_func ( prompt = prompt_i , * * kwargs )
print ( f ' Seed: { seed } ' )
print ( info )
print ( stats )
print ( )
if __name__ == ' __main__ ' :
if opt . cli is None :
launch_server ( )
else :
run_headless ( )