import cv2
import os
import gc
import re
import sys
import torch
import shutil
import math
import numpy as np
import gradio as gr
import os.path
import random
from pprint import pprint
import modules.ui
import modules.scripts as scripts
from PIL import Image, ImageFont, ImageDraw
import modules.shared as shared
from modules import devices, sd_models, images,extra_networks
from modules.shared import opts, state
from modules.processing import process_images, Processed
lxyz = ""
lzyx = ""
prompts = ""
xyelem = ""
princ = False
BLOCKID=["BASE","IN00","IN01","IN02","IN03","IN04","IN05","IN06","IN07","IN08","IN09","IN10","IN11","M00","OUT00","OUT01","OUT02","OUT03","OUT04","OUT05","OUT06","OUT07","OUT08","OUT09","OUT10","OUT11"]
BLOCKS=["encoder",
"diffusion_model_input_blocks_0_",
"diffusion_model_input_blocks_1_",
"diffusion_model_input_blocks_2_",
"diffusion_model_input_blocks_3_",
"diffusion_model_input_blocks_4_",
"diffusion_model_input_blocks_5_",
"diffusion_model_input_blocks_6_",
"diffusion_model_input_blocks_7_",
"diffusion_model_input_blocks_8_",
"diffusion_model_input_blocks_9_",
"diffusion_model_input_blocks_10_",
"diffusion_model_input_blocks_11_",
"diffusion_model_middle_block_",
"diffusion_model_output_blocks_0_",
"diffusion_model_output_blocks_1_",
"diffusion_model_output_blocks_2_",
"diffusion_model_output_blocks_3_",
"diffusion_model_output_blocks_4_",
"diffusion_model_output_blocks_5_",
"diffusion_model_output_blocks_6_",
"diffusion_model_output_blocks_7_",
"diffusion_model_output_blocks_8_",
"diffusion_model_output_blocks_9_",
"diffusion_model_output_blocks_10_",
"diffusion_model_output_blocks_11_"]
loopstopper = True
ATYPES =["none","Block ID","values","seed","Original Weights","elements"]
DEF_WEIGHT_PRESET = "\
NONE:0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0\n\
ALL:1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1\n\
INS:1,1,1,1,0,0,0,0,0,0,0,0,0,0,0,0,0\n\
IND:1,0,0,0,1,1,1,0,0,0,0,0,0,0,0,0,0\n\
INALL:1,1,1,1,1,1,1,0,0,0,0,0,0,0,0,0,0\n\
MIDD:1,0,0,0,1,1,1,1,1,1,1,1,0,0,0,0,0\n\
OUTD:1,0,0,0,0,0,0,0,1,1,1,1,0,0,0,0,0\n\
OUTS:1,0,0,0,0,0,0,0,0,0,0,0,1,1,1,1,1\n\
OUTALL:1,0,0,0,0,0,0,0,1,1,1,1,1,1,1,1,1\n\
ALL0.5:0.5,0.5,0.5,0.5,0.5,0.5,0.5,0.5,0.5,0.5,0.5,0.5,0.5,0.5,0.5,0.5,0.5"
class Script(modules.scripts.Script):
def title(self):
return "LoRA Block Weight"
def show(self, is_img2img):
return modules.scripts.AlwaysVisible
def ui(self, is_img2img):
import lora
LWEIGHTSPRESETS = DEF_WEIGHT_PRESET
runorigin = scripts.scripts_txt2img.run
runorigini = scripts.scripts_img2img.run
path_root = scripts.basedir()
extpath = os.path.join(path_root,"extensions","sd-webui-lora-block-weight","scripts", "lbwpresets.txt")
extpathe = os.path.join(path_root,"extensions","sd-webui-lora-block-weight","scripts", "elempresets.txt")
filepath = os.path.join(path_root,"scripts", "lbwpresets.txt")
filepathe = os.path.join(path_root,"scripts", "elempresets.txt")
if os.path.isfile(filepath) and not os.path.isfile(extpath):
shutil.move(filepath,extpath)
if os.path.isfile(filepathe) and not os.path.isfile(extpathe):
shutil.move(filepathe,extpathe)
lbwpresets=""
try:
with open(extpath,encoding="utf-8") as f:
lbwpresets = f.read()
except OSError as e:
lbwpresets=LWEIGHTSPRESETS
if not os.path.isfile(extpath):
try:
with open(extpath,mode = 'w',encoding="utf-8") as f:
f.write(lbwpresets)
except:
pass
try:
with open(extpathe,encoding="utf-8") as f:
elempresets = f.read()
except OSError as e:
elempresets=ELEMPRESETS
if not os.path.isfile(extpathe):
try:
with open(extpathe,mode = 'w',encoding="utf-8") as f:
f.write(elempresets)
except:
pass
loraratios=lbwpresets.splitlines()
lratios={}
for i,l in enumerate(loraratios):
if ":" not in l or not (l.count(",") == 16 or l.count(",") == 25) : continue
lratios[l.split(":")[0]]=l.split(":")[1]
ratiostags = [k for k in lratios.keys()]
ratiostags = ",".join(ratiostags)
with gr.Accordion("LoRA Block Weight",open = False):
with gr.Row():
with gr.Column(min_width = 50, scale=1):
lbw_useblocks = gr.Checkbox(value = True,label="Active",interactive =True,elem_id="lbw_active")
with gr.Column(scale=5):
bw_ratiotags= gr.TextArea(label="",value=ratiostags,visible =True,interactive =True,elem_id="lbw_ratios")
with gr.Accordion("XYZ plot",open = False):
gr.HTML(value='changeable blocks : BASE,IN00,IN01,IN02,IN03,IN04,IN05,IN06,IN07,IN08,IN09,IN10,IN11,M00,OUT00,OUT01,OUT02,OUT03,OUT04,OUT05,OUT06,OUT07,OUT08,OUT09,OUT10,OUT11
')
xyzsetting = gr.Radio(label = "Active",choices = ["Disable","XYZ plot","Effective Block Analyzer"], value ="Disable",type = "index")
with gr.Row(visible = False) as esets:
diffcol = gr.Radio(label = "diff image color",choices = ["black","white"], value ="black",type = "value",interactive =True)
revxy = gr.Checkbox(value = False,label="change X-Y",interactive =True,elem_id="lbw_changexy")
thresh = gr.Textbox(label="difference threshold",lines=1,value="20",interactive =True,elem_id="diff_thr")
xtype = gr.Dropdown(label="X Types ", choices=[x for x in ATYPES], value=ATYPES [2],interactive =True,elem_id="lbw_xtype")
xmen = gr.Textbox(label="X Values ",lines=1,value="0,0.25,0.5,0.75,1",interactive =True,elem_id="lbw_xmen")
ytype = gr.Dropdown(label="Y Types ", choices=[y for y in ATYPES], value=ATYPES [1],interactive =True,elem_id="lbw_ytype")
ymen = gr.Textbox(label="Y Values " ,lines=1,value="IN05-OUT05",interactive =True,elem_id="lbw_ymen")
ztype = gr.Dropdown(label="Z type ", choices=[z for z in ATYPES], value=ATYPES[0],interactive =True,elem_id="lbw_ztype")
zmen = gr.Textbox(label="Z values ",lines=1,value="",interactive =True,elem_id="lbw_zmen")
exmen = gr.Textbox(label="Range",lines=1,value="0.5,1",interactive =True,elem_id="lbw_exmen",visible = False)
eymen = gr.Textbox(label="Blocks" ,lines=1,value="BASE,IN00,IN01,IN02,IN03,IN04,IN05,IN06,IN07,IN08,IN09,IN10,IN11,M00,OUT00,OUT01,OUT02,OUT03,OUT04,OUT05,OUT06,OUT07,OUT08,OUT09,OUT10,OUT11",interactive =True,elem_id="lbw_eymen",visible = False)
ecount = gr.Number(value=1, label="number of seed", interactive=True, visible = True)
with gr.Accordion("Weights setting",open = True):
with gr.Row():
reloadtext = gr.Button(value="Reload Presets",variant='primary',elem_id="lbw_reload")
reloadtags = gr.Button(value="Reload Tags",variant='primary',elem_id="lbw_reload")
savetext = gr.Button(value="Save Presets",variant='primary',elem_id="lbw_savetext")
openeditor = gr.Button(value="Open TextEditor",variant='primary',elem_id="lbw_openeditor")
lbw_loraratios = gr.TextArea(label="",value=lbwpresets,visible =True,interactive = True,elem_id="lbw_ratiospreset")
with gr.Accordion("Elemental",open = False):
with gr.Row():
e_reloadtext = gr.Button(value="Reload Presets",variant='primary',elem_id="lbw_reload")
e_savetext = gr.Button(value="Save Presets",variant='primary',elem_id="lbw_savetext")
e_openeditor = gr.Button(value="Open TextEditor",variant='primary',elem_id="lbw_openeditor")
elemsets = gr.Checkbox(value = False,label="print change",interactive =True,elem_id="lbw_print_change")
elemental = gr.TextArea(label="Identifer:BlockID:Elements:Ratio,...,separated by empty line ",value = elempresets,interactive =True,elem_id="element")
d_true = gr.Checkbox(value = True,visible = False)
d_false = gr.Checkbox(value = False,visible = False)
import subprocess
def openeditors(b):
path = extpath if b else extpathe
subprocess.Popen(['start', path], shell=True)
def reloadpresets(isweight):
if isweight:
try:
with open(extpath,encoding="utf-8") as f:
return f.read()
except OSError as e:
pass
else:
try:
with open(extpath,encoding="utf-8") as f:
return f.read()
except OSError as e:
pass
def tagdicter(presets):
presets=presets.splitlines()
wdict={}
for l in presets:
if ":" not in l or not (l.count(",") == 16 or l.count(",") == 25) : continue
w=[]
if ":" in l :
key = l.split(":",1)[0]
w = l.split(":",1)[1]
if len([w for w in w.split(",")]) == 17 or len([w for w in w.split(",")]) ==26:
wdict[key.strip()]=w
return ",".join(list(wdict.keys()))
def savepresets(text,isweight):
if isweight:
with open(extpath,mode = 'w',encoding="utf-8") as f:
f.write(text)
else:
with open(extpathe,mode = 'w',encoding="utf-8") as f:
f.write(text)
reloadtext.click(fn=reloadpresets,inputs=[d_true],outputs=[lbw_loraratios])
reloadtags.click(fn=tagdicter,inputs=[lbw_loraratios],outputs=[bw_ratiotags])
savetext.click(fn=savepresets,inputs=[lbw_loraratios,d_true],outputs=[])
openeditor.click(fn=openeditors,inputs=[d_true],outputs=[])
e_reloadtext.click(fn=reloadpresets,inputs=[d_false],outputs=[elemental])
e_savetext.click(fn=savepresets,inputs=[elemental,d_false],outputs=[])
e_openeditor.click(fn=openeditors,inputs=[d_false],outputs=[])
def urawaza(active):
if active > 0:
for obj in scripts.scripts_txt2img.alwayson_scripts:
if "lora_block_weight" in obj.filename:
scripts.scripts_txt2img.selectable_scripts.append(obj)
scripts.scripts_txt2img.titles.append("LoRA Block Weight")
for obj in scripts.scripts_img2img.alwayson_scripts:
if "lora_block_weight" in obj.filename:
scripts.scripts_img2img.selectable_scripts.append(obj)
scripts.scripts_img2img.titles.append("LoRA Block Weight")
scripts.scripts_txt2img.run = newrun
scripts.scripts_img2img.run = newrun
if active == 1:return [*[gr.update(visible = True) for x in range(6)],*[gr.update(visible = False) for x in range(4)]]
else:return [*[gr.update(visible = False) for x in range(6)],*[gr.update(visible = True) for x in range(4)]]
else:
scripts.scripts_txt2img.run = runorigin
scripts.scripts_img2img.run = runorigini
return [*[gr.update(visible = True) for x in range(6)],*[gr.update(visible = False) for x in range(4)]]
xyzsetting.change(fn=urawaza,inputs=[xyzsetting],outputs =[xtype,xmen,ytype,ymen,ztype,zmen,exmen,eymen,ecount,esets])
return lbw_loraratios,lbw_useblocks,xyzsetting,xtype,xmen,ytype,ymen,ztype,zmen,exmen,eymen,ecount,diffcol,thresh,revxy,elemental,elemsets
def process(self, p, loraratios,useblocks,xyzsetting,xtype,xmen,ytype,ymen,ztype,zmen,exmen,eymen,ecount,diffcol,thresh,revxy,elemental,elemsets):
#print("self =",self,"p =",p,"presets =",loraratios,"useblocks =",useblocks,"xyzsettings =",xyzsetting,"xtype =",xtype,"xmen =",xmen,"ytype =",ytype,"ymen =",ymen,"ztype =",ztype,"zmen =",zmen)
#Note that this does not use the default arg syntax because the default args are supposed to be at the end of the function
if(loraratios == None):
loraratios = DEF_WEIGHT_PRESET
if(useblocks == None):
useblocks = True
if useblocks:
loraratios=loraratios.splitlines()
elemental = elemental.split("\n\n") if elemental is not None else []
lratios={}
elementals={}
for l in loraratios:
if ":" not in l or not (l.count(",") == 16 or l.count(",") == 25) : continue
l0=l.split(":",1)[0]
lratios[l0.strip()]=l.split(":",1)[1]
for e in elemental:
e0=e.split(":",1)[0]
elementals[e0.strip()]=e.split(":",1)[1]
if elemsets : print(xyelem)
if xyzsetting and "XYZ" in p.prompt:
lratios["XYZ"] = lxyz
lratios["ZYX"] = lzyx
if xyelem != "":
if "XYZ" in elementals.keys():
elementals["XYZ"] = elementals["XYZ"] + ","+ xyelem
else:
elementals["XYZ"] = xyelem
self.lratios = lratios
self.elementals = elementals
global princ
princ = elemsets
return
def before_process_batch(self, p, loraratios,useblocks,xyzsetting,xtype,xmen,ytype,ymen,ztype,zmen,exmen,eymen,ecount,diffcol,thresh,revxy,elemental,elemsets,**kwargs):
if useblocks:
global prompts
prompts = kwargs["prompts"].copy()
def process_batch(self, p, loraratios,useblocks,xyzsetting,xtype,xmen,ytype,ymen,ztype,zmen,exmen,eymen,ecount,diffcol,thresh,revxy,elemental,elemsets,**kwargs):
if useblocks:
o_prompts = [p.prompt]
for prompt in prompts:
if "0:
import lora
loraratios=presets.splitlines()
lratios={}
for l in loraratios:
if ":" not in l or not (l.count(",") == 16 or l.count(",") == 25) : continue
l0=l.split(":",1)[0]
lratios[l0.strip()]=l.split(":",1)[1]
if "XYZ" in p.prompt:
base = lratios["XYZ"] if "XYZ" in lratios.keys() else "1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1"
else: return
if xyzsetting > 1:
xmen,ymen = exmen,eymen
xtype,ytype = "values","ID"
ebase = xmen.split(",")[1]
ebase = [ebase.strip()]*26
base = ",".join(ebase)
ztype = ""
if ecount > 1:
ztype = "seed"
zmen = ",".join([str(random.randrange(4294967294)) for x in range(int(ecount))])
#ATYPES =["none","Block ID","values","seed","Base Weights"]
def dicedealer(am):
for i,a in enumerate(am):
if a =="-1": am[i] = str(random.randrange(4294967294))
print(f"the die was thrown : {am}")
if p.seed == -1: p.seed = str(random.randrange(4294967294))
#print(f"xs:{xmen},ys:{ymen},zs:{zmen}")
def adjuster(a,at):
if "none" in at:a = ""
a = [a.strip() for a in a.split(',')]
if "seed" in at:dicedealer(a)
return a
xs = adjuster(xmen,xtype)
ys = adjuster(ymen,ytype)
zs = adjuster(zmen,ztype)
ids = alpha =seed = ""
p.batch_size = 1
print(f"xs:{xs},ys:{ys},zs:{zs}")
images = []
def weightsdealer(alpha,ids,base):
blockid17=["BASE","IN01","IN02","IN04","IN05","IN07","IN08","M00","OUT03","OUT04","OUT05","OUT06","OUT07","OUT08","OUT09","OUT10","OUT11"]
blockid26=["BASE","IN00","IN01","IN02","IN03","IN04","IN05","IN06","IN07","IN08","IN09","IN10","IN11","M00","OUT00","OUT01","OUT02","OUT03","OUT04","OUT05","OUT06","OUT07","OUT08","OUT09","OUT10","OUT11"]
#print(f"weights from : {base}")
ids = [z.strip() for z in ids.split(' ')]
weights_t = [w.strip() for w in base.split(',')]
blockid = blockid17 if len(weights_t) ==17 else blockid26
if ids[0]!="NOT":
flagger=[False]*len(weights_t)
changer = True
else:
flagger=[True]*len(weights_t)
changer = False
for id in ids:
if id =="NOT":continue
if "-" in id:
it = [it.strip() for it in id.split('-')]
if blockid.index(it[1]) > blockid.index(it[0]):
flagger[blockid.index(it[0]):blockid.index(it[1])+1] = [changer]*(blockid.index(it[1])-blockid.index(it[0])+1)
else:
flagger[blockid.index(it[1]):blockid.index(it[0])+1] = [changer]*(blockid.index(it[0])-blockid.index(it[1])+1)
else:
flagger[blockid.index(id)] =changer
for i,f in enumerate(flagger):
if f:weights_t[i]=alpha
outext = ",".join(weights_t)
#print(f"weights changed: {outext}")
return outext
def xyzdealer(a,at):
nonlocal ids,alpha,p,base,c_base
if "ID" in at:return
if "values" in at:alpha = a
if "seed" in at:
p.seed = int(a)
if "Weights" in at:base =c_base = lratios[a]
if "elements" in at:
global xyelem
xyelem = a
grids = []
images =[]
totalcount = len(xs)*len(ys)*len(zs) if xyzsetting < 2 else len(xs)*len(ys)*len(zs) //2 +1
shared.total_tqdm.updateTotal(totalcount)
xc = yc =zc = 0
state.job_count = totalcount
totalcount = len(xs)*len(ys)*len(zs)
c_base = base
for z in zs:
images = []
yc = 0
xyzdealer(z,ztype)
for y in ys:
xc = 0
xyzdealer(y,ytype)
for x in xs:
xyzdealer(x,xtype)
if "ID" in xtype:
if "values" in ytype:c_base = weightsdealer(y,x,base)
if "values" in ztype:c_base = weightsdealer(z,x,base)
if "ID" in ytype:
if "values" in xtype:c_base = weightsdealer(x,y,base)
if "values" in ztype:c_base = weightsdealer(z,y,base)
if "ID" in ztype:
if "values" in xtype:c_base = weightsdealer(x,z,base)
if "values" in ytype:c_base = weightsdealer(y,z,base)
print(f"X:{xtype}, {x},Y: {ytype},{y}, Z:{ztype},{z}, base:{c_base} ({len(xs)*len(ys)*zc + yc*len(xs) +xc +1}/{totalcount})")
global lxyz,lzyx
lxyz = c_base
cr_base = c_base.split(",")
cr_base_t=[]
for x in cr_base:
if not identifier(x):
cr_base_t.append(str(1-float(x)))
else:
cr_base_t.append(x)
lzyx = ",".join(cr_base_t)
if not(xc == 1 and not (yc ==0 ) and xyzsetting >1):
lora.loaded_loras.clear()
processed:Processed = process_images(p)
images.append(processed.images[0])
xc += 1
yc += 1
zc += 1
origin = loranames(processed.all_prompts) + ", "+ znamer(ztype,z,base)
images,xst,yst = effectivechecker(images,xs.copy(),ys.copy(),diffcol,thresh,revxy) if xyzsetting >1 else (images,xs.copy(),ys.copy())
grids.append(smakegrid(images,xst,yst,origin,p))
processed.images= grids
lora.loaded_loras.clear()
return processed
def identifier(char):
return char[0] in ["R", "U", "X"]
def znamer(at,a,base):
if "ID" in at:return f"Block : {a}"
if "values" in at:return f"value : {a}"
if "seed" in at:return f"seed : {a}"
if "Weights" in at:return f"original weights :\n {base}"
else: return ""
def loranames(all_prompts):
_, extra_network_data = extra_networks.parse_prompts(all_prompts[0:1])
calledloras = extra_network_data["lora"] if "lyco" not in extra_network_data.keys() else extra_network_data["lyco"]
names = ""
for called in calledloras:
if len(called.items) <3:continue
names += called.items[0]
return names
def lycodealer(called):
for item in called.items[1:]:
if "lbw" in item:
called.items[2] = item.split("=")[1]
return called
def loradealer(prompts,lratios,elementals):
_, extra_network_data = extra_networks.parse_prompts(prompts)
moduletypes = extra_network_data.keys()
for ltype in moduletypes:
lorans = []
lorars = []
multipliers = []
elements = []
if not (ltype == "lora" or ltype == "lyco") : continue
for called in extra_network_data[ltype]:
if ltype == "lyco":
called = lycodealer(called)
multiple = float(called.items[1])
multipliers.append(multiple)
if len(called.items) <3:
continue
lorans.append(called.items[0])
if called.items[2] in lratios or called.items[2].count(",") ==16 or called.items[2].count(",") ==25:
wei = lratios[called.items[2]] if called.items[2] in lratios else called.items[2]
ratios = [w.strip() for w in wei.split(",")]
for i,r in enumerate(ratios):
if r =="R":
ratios[i] = round(random.random(),3)
elif r == "U":
ratios[i] = round(random.uniform(-0.5,1.5),3)
elif r[0] == "X":
base = called.items[3] if len(called.items) >= 4 else 1
ratios[i] = getinheritedweight(base, r)
else:
ratios[i] = float(r)
print(f"LoRA Block weight ({ltype}): {called.items[0]}: {multiple} x {[x for x in ratios]}")
if len(ratios)==17:
ratios = [ratios[0]] + [1] + ratios[1:3]+ [1] + ratios[3:5]+[1] + ratios[5:7]+[1,1,1] + [ratios[7]] + [1,1,1] + ratios[8:]
lorars.append(ratios)
if len(called.items) > 3:
if called.items[3] in elementals:
elements.append(elementals[called.items[3]])
else:
elements.append(called.items[3])
else:
elements.append("")
if len(lorars) > 0: load_loras_blocks(lorans,lorars,multipliers,elements,ltype)
def isfloat(t):
try:
float(t)
return True
except:
return False
re_inherited_weight = re.compile(r"X([+-])?([\d.]+)?")
def getinheritedweight(weight, offset):
match = re_inherited_weight.search(offset)
if match.group(1) == "+":
return float(weight) + float(match.group(2))
elif match.group(1) == "-":
return float(weight) - float(match.group(2))
else:
return float(weight)
def load_loras_blocks(names, lwei,multipliers,elements = [],ltype = "lora"):
if "lora" == ltype:
print(names,lwei,elements)
import lora
for l, loaded in enumerate(lora.loaded_loras):
for n, name in enumerate(names):
if name == loaded.name:
lbw(lora.loaded_loras[l],lwei[n],elements[n])
lora.loaded_loras[l].name = lora.loaded_loras[l].name +"added_by_lora_block_weight"+ str(random.random())
elif "lyco" == ltype:
import lycoris as lycomo
for l, loaded in enumerate(lycomo.loaded_lycos):
for n, name in enumerate(names):
if name == loaded.name:
lbw(lycomo.loaded_lycos[l],lwei[n],elements[n])
lycomo.loaded_lycos[l].name = lycomo.loaded_lycos[l].name +"added_by_lora_block_weight"+ str(random.random())
def smakegrid(imgs,xs,ys,currentmodel,p):
ver_texts = [[images.GridAnnotation(y)] for y in ys]
hor_texts = [[images.GridAnnotation(x)] for x in xs]
w, h = imgs[0].size
grid = Image.new('RGB', size=(len(xs) * w, len(ys) * h), color='black')
for i, img in enumerate(imgs):
grid.paste(img, box=(i % len(xs) * w, i // len(xs) * h))
grid = images.draw_grid_annotations(grid,w, h, hor_texts, ver_texts)
grid = draw_origin(grid, currentmodel,w*len(xs),h*len(ys),w)
if opts.grid_save:
images.save_image(grid, opts.outdir_txt2img_grids, "xy_grid", extension=opts.grid_format, prompt=p.prompt, seed=p.seed, grid=True, p=p)
return grid
def get_font(fontsize):
path_root = scripts.basedir()
fontpath = os.path.join(path_root,"extensions","sd-webui-lora-block-weight","scripts", "Roboto-Regular.ttf")
try:
return ImageFont.truetype(opts.font or fontpath, fontsize)
except Exception:
return ImageFont.truetype(fontpath, fontsize)
def draw_origin(grid, text,width,height,width_one):
grid_d= Image.new("RGB", (grid.width,grid.height), "white")
grid_d.paste(grid,(0,0))
d= ImageDraw.Draw(grid_d)
color_active = (0, 0, 0)
fontsize = (width+height)//25
fnt = get_font(fontsize)
if grid.width != width_one:
while d.multiline_textsize(text, font=fnt)[0] > width_one*0.75 and fontsize > 0:
fontsize -=1
fnt = get_font(fontsize)
d.multiline_text((0,0), text, font=fnt, fill=color_active,align="center")
return grid_d
def newrun(p, *args):
script_index = args[0]
if args[0] ==0:
script = None
for obj in scripts.scripts_txt2img.alwayson_scripts:
if "lora_block_weight" in obj.filename:
script = obj
script_args = args[script.args_from:script.args_to]
else:
script = scripts.scripts_txt2img.selectable_scripts[script_index-1]
if script is None:
return None
script_args = args[script.args_from:script.args_to]
processed = script.run(p, *script_args)
shared.total_tqdm.clear()
return processed
def effectivechecker(imgs,ss,ls,diffcol,thresh,revxy):
diffs = []
outnum =[]
imgs[0],imgs[1] = imgs[1],imgs[0]
im1 = np.array(imgs[0])
for i in range(len(imgs)-1):
im2 = np.array(imgs[i+1])
abs_diff = cv2.absdiff(im2 , im1)
abs_diff_t = cv2.threshold(abs_diff, int(thresh), 255, cv2.THRESH_BINARY)[1]
res = abs_diff_t.astype(np.uint8)
percentage = (np.count_nonzero(res) * 100)/ res.size
if "white" in diffcol: abs_diff = cv2.bitwise_not(abs_diff)
outnum.append(percentage)
abs_diff = Image.fromarray(abs_diff)
diffs.append(abs_diff)
outs = []
for i in range(len(ls)):
ls[i] = ls[i] + "\n Diff : " + str(round(outnum[i],3)) + "%"
if not revxy:
for diff,img in zip(diffs,imgs[1:]):
outs.append(diff)
outs.append(img)
outs.append(imgs[0])
ss = ["diff",ss[0],"source"]
return outs,ss,ls
else:
outs = [imgs[0]]*len(diffs) + imgs[1:]+ diffs
ss = ["source",ss[0],"diff"]
return outs,ls,ss
def lbw(lora,lwei,elemental):
elemental = elemental.split(",")
for key in lora.modules.keys():
ratio = 1
picked = False
errormodules = []
for i,block in enumerate(BLOCKS):
if block in key:
ratio = lwei[i]
picked = True
currentblock = i
if not picked:
errormodules.append(key)
if len(elemental) > 0:
skey = key + BLOCKID[currentblock]
for d in elemental:
if d.count(":") != 2 :continue
dbs,dws,dr = (hyphener(d.split(":")[0]),d.split(":")[1],d.split(":")[2])
dbs,dws = (dbs.split(" "), dws.split(" "))
dbn,dbs = (True,dbs[1:]) if dbs[0] == "NOT" else (False,dbs)
dwn,dws = (True,dws[1:]) if dws[0] == "NOT" else (False,dws)
flag = dbn
for db in dbs:
if db in skey:
flag = not dbn
if flag:flag = dwn
else:continue
for dw in dws:
if dw in skey:
flag = not dwn
if flag:
dr = float(dr)
if princ :print(dbs,dws,key,dr)
ratio = dr
ltype = type(lora.modules[key]).__name__
set = False
if ltype in LORAANDSOON.keys():
setattr(lora.modules[key],LORAANDSOON[ltype],torch.nn.Parameter(getattr(lora.modules[key],LORAANDSOON[ltype]) * ratio))
#print(ltype)
set = True
else:
if hasattr(lora.modules[key],"up_model"):
lora.modules[key].up_model.weight= torch.nn.Parameter(lora.modules[key].up_model.weight *ratio)
#print("LoRA using LoCON")
set = True
else:
lora.modules[key].up.weight= torch.nn.Parameter(lora.modules[key].up.weight *ratio)
#print("LoRA")
set = True
if not set :
print("unkwon LoRA")
lora.name = lora.name +"added_by_lora_block_weight"+ str(random.random())
if len(errormodules) > 0:
print(errormodules)
return lora
LORAANDSOON = {
"LoraHadaModule" : "w1a",
"LycoHadaModule" : "w1a",
"FullModule" : "weight",
"IA3Module" : "w",
"LoraKronModule" : "w1",
"LycoKronModule" : "w1",
}
def hyphener(t):
t = t.split(" ")
for i,e in enumerate(t):
if "-" in e:
e = e.split("-")
if BLOCKID.index(e[1]) > BLOCKID.index(e[0]):
t[i] = " ".join(BLOCKID[BLOCKID.index(e[0]):BLOCKID.index(e[1])+1])
else:
t[i] = " ".join(BLOCKID[BLOCKID.index(e[1]):BLOCKID.index(e[0])+1])
return " ".join(t)
ELEMPRESETS="\
ATTNDEEPON:IN05-OUT05:attn:1\n\n\
ATTNDEEPOFF:IN05-OUT05:attn:0\n\n\
PROJDEEPOFF:IN05-OUT05:proj:0\n\n\
XYZ:::1"