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infinite-zoom-automatic1111-webui
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Merge pull request #57 from Oncorporation/exit_image_GL 

Refactor Update for GL
exit_image_GL
GeorgLegato 2023-04-23 23:10:32 +02:00 committed by GitHub
parent e24aeb3796 82e80af3ad
commit 8da6fb3a44
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11 changed files with 1072 additions and 1085 deletions
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4
iz_helpers/__init__.py
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@ -1,2 +1,2 @@
from .image import shrink_and_paste_on_blank
from .video import write_video
from .ui import on_ui_tabs
from .settings import on_ui_settings

0
iz_helpers/extra.py Normal file
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125
iz_helpers/helpers.py Normal file
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@ -0,0 +1,125 @@
import math
import os
import json
from jsonschema import validate
import modules.shared as shared
import modules.sd_models
import gradio as gr
from scripts import postprocessing_upscale
from .static_variables import jsonprompt_schemafile
def fix_env_Path_ffprobe():
envpath = os.environ["PATH"]
ffppath = shared.opts.data.get("infzoom_ffprobepath", "")
if ffppath and not ffppath in envpath:
path_sep = ";" if os.name == "nt" else ":"
os.environ["PATH"] = envpath + path_sep + ffppath
def closest_upper_divisible_by_eight(num):
if num % 8 == 0:
return num
else:
return math.ceil(num / 8) * 8
def load_model_from_setting(model_field_name, progress, progress_desc):
# fix typo in Automatic1111 vs Vlad111
if hasattr(modules.sd_models, "checkpoint_alisases"):
checkPList = modules.sd_models.checkpoint_alisases
elif hasattr(modules.sd_models, "checkpoint_aliases"):
checkPList = modules.sd_models.checkpoint_aliases
else:
raise Exception(
"This is not a compatible StableDiffusion Platform, can not access checkpoints"
)
model_name = shared.opts.data.get(model_field_name)
if model_name is not None and model_name != "":
checkinfo = checkPList[model_name]
if not checkinfo:
raise NameError(model_field_name + " Does not exist in your models.")
if progress:
progress(0, desc=progress_desc + checkinfo.name)
modules.sd_models.load_model(checkinfo)
def do_upscaleImg(curImg, upscale_do, upscaler_name, upscale_by):
if not upscale_do:
return curImg
# ensure even width and even height for ffmpeg
# if odd, switch to scale to mode
rwidth = round(curImg.width * upscale_by)
rheight = round(curImg.height * upscale_by)
ups_mode = 2 # upscale_by
if (rwidth % 2) == 1:
ups_mode = 1
rwidth += 1
if (rheight % 2) == 1:
ups_mode = 1
rheight += 1
if 1 == ups_mode:
print(
"Infinite Zoom: aligning output size to even width and height: "
+ str(rwidth)
+ " x "
+ str(rheight),
end="\r",
)
pp = postprocessing_upscale.scripts_postprocessing.PostprocessedImage(curImg)
ups = postprocessing_upscale.ScriptPostprocessingUpscale()
ups.process(
pp,
upscale_mode=ups_mode,
upscale_by=upscale_by,
upscale_to_width=rwidth,
upscale_to_height=rheight,
upscale_crop=False,
upscaler_1_name=upscaler_name,
upscaler_2_name=None,
upscaler_2_visibility=0.0,
)
return pp.image
def validatePromptJson_throws(data):
with open(jsonprompt_schemafile, "r") as s:
schema = json.load(s)
validate(instance=data, schema=schema)
def putPrompts(files):
try:
with open(files.name, "r") as f:
file_contents = f.read()
data = json.loads(file_contents)
validatePromptJson_throws(data)
return [
gr.DataFrame.update(data["prompts"]),
gr.Textbox.update(data["negPrompt"]),
]
except Exception:
gr.Error(
"loading your prompt failed. It seems to be invalid. Your prompt table is preserved."
)
print(
"[InfiniteZoom:] Loading your prompt failed. It seems to be invalid. Your prompt table is preserved."
)
return [gr.DataFrame.update(), gr.Textbox.update()]
def clearPrompts():
return [
gr.DataFrame.update(value=[[0, "Infinite Zoom. Start over"]]),
gr.Textbox.update(""),
]

5
iz_helpers/interpol_savgol.py
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@ -4,8 +4,9 @@ import matplotlib.pyplot as plt
# Define the values for width, mask_width, and num_interpol_frames
width = 512
mask_width = round(width*0.49)
num_interpol_frames = 90
mask_width = round(width*0.25)
num_interpol_frames = 30
# Create a list to store the values of interpol_width for each frame
interpol_width_values = []

5
scripts/promptschema.json → iz_helpers/promptschema.json
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@ -21,6 +21,9 @@
}
]
},
{
"type": "string"
},
{
"type": "string"
}
@ -36,7 +39,7 @@
"items": {
"type": "string"
},
"minItems": 2
"minItems": 3
}
},
"required": ["data", "headers"]

436
iz_helpers/run.py Normal file
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@ -0,0 +1,436 @@
import math, time, os
import numpy as np
from PIL import Image, ImageDraw, ImageFilter, ImageOps
from modules.ui import plaintext_to_html
import modules.shared as shared
from .helpers import (
fix_env_Path_ffprobe,
closest_upper_divisible_by_eight,
load_model_from_setting,
do_upscaleImg,
)
from .sd_helpers import renderImg2Img, renderTxt2Img
from .image import shrink_and_paste_on_blank
from .video import write_video
def create_zoom(
prompts_array,
negative_prompt,
num_outpainting_steps,
guidance_scale,
num_inference_steps,
custom_init_image,
custom_exit_image,
video_frame_rate,
video_zoom_mode,
video_start_frame_dupe_amount,
video_last_frame_dupe_amount,
inpainting_denoising_strength,
inpainting_mask_blur,
inpainting_fill_mode,
inpainting_full_res,
inpainting_padding,
zoom_speed,
seed,
outputsizeW,
outputsizeH,
batchcount,
sampler,
upscale_do,
upscaler_name,
upscalerinterpol_name,
upscale_by,
exitgamma,
maskwidth_slider,
maskheight_slider,
progress=None,
):
for i in range(batchcount):
print(f"Batch {i+1}/{batchcount}")
result = create_zoom_single(
prompts_array,
negative_prompt,
num_outpainting_steps,
guidance_scale,
num_inference_steps,
custom_init_image,
custom_exit_image,
video_frame_rate,
video_zoom_mode,
video_start_frame_dupe_amount,
video_last_frame_dupe_amount,
inpainting_denoising_strength,
inpainting_mask_blur,
inpainting_fill_mode,
inpainting_full_res,
inpainting_padding,
zoom_speed,
seed,
outputsizeW,
outputsizeH,
sampler,
upscale_do,
upscaler_name,
upscalerinterpol_name,
upscale_by,
exitgamma,
maskwidth_slider,
maskheight_slider,
progress
)
return result
def create_zoom_single(
prompts_array,
negative_prompt,
num_outpainting_steps,
guidance_scale,
num_inference_steps,
custom_init_image,
custom_exit_image,
video_frame_rate,
video_zoom_mode,
video_start_frame_dupe_amount,
video_last_frame_dupe_amount,
inpainting_denoising_strength,
inpainting_mask_blur,
inpainting_fill_mode,
inpainting_full_res,
inpainting_padding,
zoom_speed,
seed,
outputsizeW,
outputsizeH,
sampler,
upscale_do,
upscaler_name,
upscalerinterpol_name,
upscale_by,
exitgamma,
maskwidth_slider,
maskheight_slider,
progress=None,
):
# try:
# if gr.Progress() is not None:
# progress = gr.Progress()
# progress(0, desc="Preparing Initial Image")
# except Exception:
# pass
fix_env_Path_ffprobe()
prompts = {}
prompt_images = {}
for x in prompts_array:
try:
key = int(x[0])
value = str(x[1])
file_loc = str(x[2])
prompts[key] = value
prompt_images[key] = file_loc
except ValueError:
pass
assert len(prompts_array) > 0, "prompts is empty"
print(str(len(prompts)) + " prompts found")
print(str(len(prompt_images)) + " prompts Images found")
width = closest_upper_divisible_by_eight(outputsizeW)
height = closest_upper_divisible_by_eight(outputsizeH)
current_image = Image.new(mode="RGBA", size=(width, height))
mask_image = np.array(current_image)[:, :, 3]
mask_image = Image.fromarray(255 - mask_image).convert("RGB")
current_image = current_image.convert("RGB")
current_seed = seed
extra_frames = 0
if custom_init_image:
current_image = custom_init_image.resize(
(width, height), resample=Image.LANCZOS
)
print("using Custom Initial Image")
else:
if prompt_images[min(k for k in prompt_images.keys() if k >= 0)] == "":
load_model_from_setting(
"infzoom_txt2img_model", progress, "Loading Model for txt2img: "
)
processed, current_seed = renderTxt2Img(
prompts[min(k for k in prompts.keys() if k >= 0)],
negative_prompt,
sampler,
num_inference_steps,
guidance_scale,
current_seed,
width,
height,
)
current_image = processed.images[0]
else:
current_image = Image.open(prompt_images[min(k for k in prompt_images.keys() if k >= 0)]).resize(
(width, height), resample=Image.LANCZOS
)
# if custom_exit_image and ((i + 1) == num_outpainting_steps):
# mask_width = 4 # fade out whole interpol
# mask_height =4 #
# mask_width = width*(20//30) # fade out whole interpol
# mask_height = height*(20//30) #
# else:
mask_width = math.trunc(width / 4) # was initially 512px => 128px
mask_height = math.trunc(height / 4) # was initially 512px => 128px
num_interpol_frames = round(video_frame_rate * zoom_speed)
all_frames = []
if upscale_do and progress:
progress(0, desc="upscaling inital image")
all_frames.append(
do_upscaleImg(current_image, upscale_do, upscaler_name, upscale_by)
if upscale_do
else current_image
)
load_model_from_setting("infzoom_inpainting_model", progress, "Loading Model for inpainting/img2img: " )
if custom_exit_image:
extra_frames += 2
# setup filesystem paths
video_file_name = "infinite_zoom_" + str(int(time.time())) + ".mp4"
output_path = shared.opts.data.get(
"infzoom_outpath", shared.opts.data.get("outdir_img2img_samples")
)
save_path = os.path.join(
output_path, shared.opts.data.get("infzoom_outSUBpath", "infinite-zooms")
)
if not os.path.exists(save_path):
os.makedirs(save_path)
out = os.path.join(save_path, video_file_name)
for i in range(num_outpainting_steps + extra_frames):
print_out = (
"Outpaint step: "
+ str(i + 1)
+ " / "
+ str(num_outpainting_steps + extra_frames)
+ " Seed: "
+ str(current_seed)
)
print(print_out)
if progress:
progress(((i + 1) / num_outpainting_steps), desc=print_out)
if custom_exit_image and ((i + 1) == num_outpainting_steps):
mask_width=round(width*maskwidth_slider)
mask_height=round(height*maskheight_slider)
# 30 fps@ maskw 0.25 => 30
# normalize to default speed of 30 fps for 0.25 mask factor
num_interpol_frames = round(num_interpol_frames * (1 + (max(maskheight_slider,maskwidth_slider)/0.5) * exitgamma))
prev_image_fix = current_image
prev_image = shrink_and_paste_on_blank(current_image, mask_width, mask_height)
current_image = prev_image
# create mask (black image with white mask_width width edges)
mask_image = np.array(current_image)[:, :, 3]
mask_image = Image.fromarray(255 - mask_image).convert("RGB")
# inpainting step
current_image = current_image.convert("RGB")
# Custom and specified images work like keyframes
if custom_exit_image and (i + 1) >= (num_outpainting_steps + extra_frames):
current_image = custom_exit_image.resize(
(width, height), resample=Image.LANCZOS
)
print("using Custom Exit Image")
else:
if prompt_images[max(k for k in prompt_images.keys() if k <= (i + 1))] == "":
processed, current_seed = renderImg2Img(
prompts[max(k for k in prompts.keys() if k <= (i + 1))],
negative_prompt,
sampler,
num_inference_steps,
guidance_scale,
current_seed,
width,
height,
current_image,
mask_image,
inpainting_denoising_strength,
inpainting_mask_blur,
inpainting_fill_mode,
inpainting_full_res,
inpainting_padding,
)
current_image = processed.images[0]
# only paste previous image when generating a new image
current_image.paste(prev_image, mask=prev_image)
else:
current_image = Image.open(prompt_images[max(k for k in prompt_images.keys() if k <= (i + 1))]).resize(
(width, height), resample=Image.LANCZOS
)
# interpolation steps between 2 inpainted images (=sequential zoom and crop)
for j in range(num_interpol_frames - 1):
interpol_image = current_image
interpol_width = round(
(
1
- (1 - 2 * mask_width / width)
** (1 - (j + 1) / num_interpol_frames)
)
* width
/ 2
)
interpol_height = round(
(
1
- (1 - 2 * mask_height / height)
** (1 - (j + 1) / num_interpol_frames)
)
* height
/ 2
)
interpol_image = interpol_image.crop(
(
interpol_width,
interpol_height,
width - interpol_width,
height - interpol_height,
)
)
interpol_image = interpol_image.resize((width, height))
# paste the higher resolution previous image in the middle to avoid drop in quality caused by zooming
interpol_width2 = round(
(1 - (width - 2 * mask_width) / (width - 2 * interpol_width))
/ 2
* width
)
interpol_height2 = round(
(1 - (height - 2 * mask_height) / (height - 2 * interpol_height))
/ 2
* height
)
if custom_exit_image and ((i + 1) == num_outpainting_steps):
opacity = 1 - ((j+1)/num_interpol_frames )
else: opacity = 1
prev_image_fix_crop = shrink_and_paste_on_blank(
prev_image_fix, interpol_width2, interpol_height2,
opacity=opacity
)
interpol_image.paste(prev_image_fix_crop, mask=prev_image_fix_crop)
# exit image: from now we see the last prompt on the exit image
if custom_exit_image and ((i + 1) == num_outpainting_steps):
mask_img = Image.new("L", (width,height), 0)
in_center_x = interpol_image.width/2
in_center_y = interpol_image.height/2
# Draw a circular brush on the mask image with 64px diameter and 8px softness
draw = ImageDraw.Draw(mask_img)
brush_size = 64
brush_softness = 8
brush = Image.new("L", (brush_size, brush_size), 255)
draw_brush = ImageDraw.Draw(brush)
draw_brush.ellipse((brush_softness, brush_softness, brush_size-brush_softness, brush_size-brush_softness), fill=255, outline=None)
brush = brush.filter(ImageFilter.GaussianBlur(radius=brush_softness))
brush_width, brush_height = brush.size
# Draw the rectangular frame on the mask image using the circular brush
frame_width = width-2*interpol_width2
frame_height = height-2*interpol_height2
frame_left = in_center_x - (frame_width // 2)
frame_top = in_center_y - (frame_height // 2)
frame_right = frame_left + frame_width
frame_bottom = frame_top + frame_height
draw.ellipse((frame_left, frame_top, frame_left+brush_width, frame_top+brush_height), fill=255, outline=None)
draw.ellipse((frame_right-brush_width, frame_top, frame_right, frame_top+brush_height), fill=255, outline=None)
draw.ellipse((frame_left, frame_bottom-brush_height, frame_left+brush_width, frame_bottom), fill=255, outline=None)
draw.ellipse((frame_right-brush_width, frame_bottom-brush_height, frame_right, frame_bottom), fill=255, outline=None)
draw.rectangle((max(0,frame_left-brush_size/2), max(0,frame_top+brush_size/2), max(0,frame_right-brush_size/2), max(0,frame_bottom-brush_size/2)), fill=255)
# inner rect, now we have a bordermask
draw.rectangle((max(0,frame_left+brush_size/2), max(0,frame_top-brush_size/2), max(0,frame_right+brush_size/2), max(0,frame_bottom+brush_size/2)), fill=0)
# Blur the mask image to soften the edges
#mask_img = mask_img.filter(ImageFilter.GaussianBlur(radius=8))
#mask_img = ImageOps.invert(mask_img)
#mask_img.save(output_path+os.pathsep+"Mask"+str(int(time.time()))+".png")
"""processed, newseed = renderImg2Img(
prompts[max(k for k in prompts.keys() if k <= i)],
negative_prompt,
sampler,
num_inference_steps,
guidance_scale,
current_seed,
width,
height,
interpol_image,
mask_img,
inpainting_denoising_strength,
inpainting_mask_blur,
inpainting_fill_mode,
inpainting_full_res,
inpainting_padding,
)
#interpol_image = processed.images[0]
"""
if upscale_do and progress:
progress(((i + 1) / num_outpainting_steps), desc="upscaling interpol")
all_frames.append(
do_upscaleImg(interpol_image, upscale_do, upscalerinterpol_name, upscale_by)
if upscale_do
else interpol_image
)
if upscale_do and progress:
progress(((i + 1) / num_outpainting_steps), desc="upscaling current")
all_frames.append(
do_upscaleImg(current_image, upscale_do, upscaler_name, upscale_by)
if upscale_do
else current_image
)
write_video(
out,
all_frames,
video_frame_rate,
video_zoom_mode,
int(video_start_frame_dupe_amount),
int(video_last_frame_dupe_amount),
)
return (
out,
processed.images,
processed.js(),
plaintext_to_html(processed.info),
plaintext_to_html(""),
)

76
iz_helpers/sd_helpers.py Normal file
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@ -0,0 +1,76 @@
from modules.processing import (
process_images,
StableDiffusionProcessingTxt2Img,
StableDiffusionProcessingImg2Img,
)
import modules.shared as shared
def renderTxt2Img(
prompt, negative_prompt, sampler, steps, cfg_scale, seed, width, height
):
processed = None
p = StableDiffusionProcessingTxt2Img(
sd_model=shared.sd_model,
outpath_samples=shared.opts.outdir_txt2img_samples,
outpath_grids=shared.opts.outdir_txt2img_grids,
prompt=prompt,
negative_prompt=negative_prompt,
seed=seed,
sampler_name=sampler,
n_iter=1,
steps=steps,
cfg_scale=cfg_scale,
width=width,
height=height,
)
processed = process_images(p)
newseed = p.seed
return processed, newseed
def renderImg2Img(
prompt,
negative_prompt,
sampler,
steps,
cfg_scale,
seed,
width,
height,
init_image,
mask_image,
inpainting_denoising_strength,
inpainting_mask_blur,
inpainting_fill_mode,
inpainting_full_res,
inpainting_padding,
):
processed = None
p = StableDiffusionProcessingImg2Img(
sd_model=shared.sd_model,
outpath_samples=shared.opts.outdir_img2img_samples,
outpath_grids=shared.opts.outdir_img2img_grids,
prompt=prompt,
negative_prompt=negative_prompt,
seed=seed,
sampler_name=sampler,
n_iter=1,
steps=steps,
cfg_scale=cfg_scale,
width=width,
height=height,
init_images=[init_image],
denoising_strength=inpainting_denoising_strength,
mask_blur=inpainting_mask_blur,
inpainting_fill=inpainting_fill_mode,
inpaint_full_res=inpainting_full_res,
inpaint_full_res_padding=inpainting_padding,
mask=mask_image,
)
# p.latent_mask = Image.new("RGB", (p.width, p.height), "white")
processed = process_images(p)
newseed = p.seed
return processed, newseed

96
iz_helpers/settings.py Normal file
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@ -0,0 +1,96 @@
import modules.shared as shared
from .static_variables import default_prompt
import gradio as gr
def on_ui_settings():
section = ("infinite-zoom", "Infinite Zoom")
shared.opts.add_option(
"outputs"
"infzoom_outpath",
shared.OptionInfo(
"",
"Path where to store your infinite video. Default is Outputs",
gr.Textbox,
{"interactive": True},
section=section,
),
)
shared.opts.add_option(
"infzoom_outSUBpath",
shared.OptionInfo(
"infinite-zooms",
"Which subfolder name to be created in the outpath. Default is 'infinite-zooms'",
gr.Textbox,
{"interactive": True},
section=section,
),
)
shared.opts.add_option(
"infzoom_outsizeW",
shared.OptionInfo(
512,
"Default width of your video",
gr.Slider,
{"minimum": 16, "maximum": 2048, "step": 16},
section=section,
),
)
shared.opts.add_option(
"infzoom_outsizeH",
shared.OptionInfo(
512,
"Default height your video",
gr.Slider,
{"minimum": 16, "maximum": 2048, "step": 16},
section=section,
),
)
shared.opts.add_option(
"infzoom_ffprobepath",
shared.OptionInfo(
"",
"Writing videos has dependency to an existing FFPROBE executable on your machine. D/L here (https://github.com/BtbN/FFmpeg-Builds/releases) your OS variant and point to your installation path",
gr.Textbox,
{"interactive": True},
section=section,
),
)
shared.opts.add_option(
"infzoom_txt2img_model",
shared.OptionInfo(
None,
"Name of your desired model to render keyframes (txt2img)",
gr.Dropdown,
lambda: {"choices": shared.list_checkpoint_tiles()},
section=section,
),
)
shared.opts.add_option(
"infzoom_inpainting_model",
shared.OptionInfo(
None,
"Name of your desired inpaint model (img2img-inpaint). Default is vanilla sd-v1-5-inpainting.ckpt ",
gr.Dropdown,
lambda: {"choices": shared.list_checkpoint_tiles()},
section=section,
),
)
shared.opts.add_option(
"infzoom_defPrompt",
shared.OptionInfo(
default_prompt,
"Default prompt-setup to start with'",
gr.Code,
{"interactive": True, "language": "json"},
section=section,
),
)

39
iz_helpers/static_variables.py Normal file
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@ -0,0 +1,39 @@
import os
from modules import scripts
import modules.sd_samplers
default_prompt = """
{
"prompts":{
"headers":["outpaint steps","prompt","image location"],
"data":[
[0,"Huge spectacular Waterfall in a dense tropical forest,epic perspective,(vegetation overgrowth:1.3)(intricate, ornamentation:1.1),(baroque:1.1), fantasy, (realistic:1) digital painting , (magical,mystical:1.2) , (wide angle shot:1.4), (landscape composed:1.2)(medieval:1.1), divine,cinematic,(tropical forest:1.4),(river:1.3)mythology,india, volumetric lighting, Hindu ,epic, Alex Horley Wenjun Lin greg rutkowski Ruan Jia (Wayne Barlowe:1.2) <lora:epiNoiseoffset_v2:0.6> ","C:\\path\\to\\image.png"]
]
},
"negPrompt":"frames, borderline, text, character, duplicate, error, out of frame, watermark, low quality, ugly, deformed, blur bad-artist"
}
"""
available_samplers = [
s.name for s in modules.sd_samplers.samplers if "UniPc" not in s.name
]
empty_prompt = (
'{"prompts":{"data":[],"headers":["outpaint steps","prompt","image location"]},"negPrompt":""}'
)
invalid_prompt = {
"prompts": {
"data": [[0, "Your prompt-json is invalid, please check Settings",""]],
"headers": ["outpaint steps", "prompt","image location"],
},
"negPrompt": "Invalid prompt-json",
}
current_script_dir = scripts.basedir().split(os.sep)[
-2:
] # contains install and our extension foldername
jsonprompt_schemafile = (
current_script_dir[0]
+ "/"
+ current_script_dir[1]
+ "/iz_helpers/promptschema.json"
)

289
iz_helpers/ui.py Normal file
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import json
import gradio as gr
from .run import create_zoom
import modules.shared as shared
from webui import wrap_gradio_gpu_call
from modules.ui import create_output_panel
from .static_variables import (
default_prompt,
empty_prompt,
invalid_prompt,
available_samplers,
)
from .helpers import validatePromptJson_throws, putPrompts, clearPrompts
def on_ui_tabs():
with gr.Blocks(analytics_enabled=False) as infinite_zoom_interface:
gr.HTML(
"""
<p style="text-align: center;">
<a target="_blank" href="https://github.com/v8hid/infinite-zoom-automatic1111-webui"><img src="https://img.shields.io/static/v1?label=github&message=repository&color=blue&style=flat&logo=github&logoColor=white" style="display: inline;" alt="GitHub Repo"/></a>
<a href="https://discord.gg/v2nHqSrWdW"><img src="https://img.shields.io/discord/1095469311830806630?color=blue&label=discord&logo=discord&logoColor=white" style="display: inline;" alt="Discord server"></a>
</p>
"""
)
with gr.Row():
generate_btn = gr.Button(value="Generate video", variant="primary")
interrupt = gr.Button(value="Interrupt", elem_id="interrupt_training")
with gr.Row():
with gr.Column(scale=1, variant="panel"):
with gr.Tab("Main"):
main_outpaint_steps = gr.Slider(
minimum=1,
maximum=100,
step=1,
value=8,
label="Total Outpaint Steps",
info="The more it is, the longer your videos will be",
)
# safe reading json prompt
pr = shared.opts.data.get("infzoom_defPrompt", default_prompt)
if not pr:
pr = empty_prompt
try:
jpr = json.loads(pr)
validatePromptJson_throws(jpr)
except Exception:
jpr = invalid_prompt
main_prompts = gr.Dataframe(
type="array",
headers=["outpaint step", "prompt", "image location"],
datatype=["number", "str", "str"],
row_count=1,
col_count=(3, "fixed"),
value=jpr["prompts"],
wrap=True,
)
main_negative_prompt = gr.Textbox(
value=jpr["negPrompt"], label="Negative Prompt"
)
# these button will be moved using JS unde the dataframe view as small ones
exportPrompts_button = gr.Button(
value="Export prompts",
variant="secondary",
elem_classes="sm infzoom_tab_butt",
elem_id="infzoom_exP_butt",
)
importPrompts_button = gr.UploadButton(
label="Import prompts",
variant="secondary",
elem_classes="sm infzoom_tab_butt",
elem_id="infzoom_imP_butt",
)
exportPrompts_button.click(
None,
_js="exportPrompts",
inputs=[main_prompts, main_negative_prompt],
outputs=None,
)
importPrompts_button.upload(
fn=putPrompts,
outputs=[main_prompts, main_negative_prompt],
inputs=[importPrompts_button],
)
clearPrompts_button = gr.Button(
value="Clear prompts",
variant="secondary",
elem_classes="sm infzoom_tab_butt",
elem_id="infzoom_clP_butt",
)
clearPrompts_button.click(
fn=clearPrompts,
inputs=[],
outputs=[main_prompts, main_negative_prompt],
)
with gr.Row():
seed = gr.Number(
label="Seed", value=-1, precision=0, interactive=True
)
main_sampler = gr.Dropdown(
label="Sampler",
choices=available_samplers,
value="Euler a",
type="value",
)
with gr.Row():
main_width = gr.Slider(
minimum=16,
maximum=2048,
value=shared.opts.data.get("infzoom_outsizeW", 512),
step=16,
label="Output Width",
)
main_height = gr.Slider(
minimum=16,
maximum=2048,
value=shared.opts.data.get("infzoom_outsizeH", 512),
step=16,
label="Output Height",
)
with gr.Row():
main_guidance_scale = gr.Slider(
minimum=0.1,
maximum=15,
step=0.1,
value=7,
label="Guidance Scale",
)
sampling_step = gr.Slider(
minimum=1,
maximum=100,
step=1,
value=50,
label="Sampling Steps for each outpaint",
)
with gr.Row():
init_image = gr.Image(type="pil", label="custom initial image")
exit_image = gr.Image(type="pil", label="custom exit image")
with gr.Row():
batchcount_slider = gr.Slider(
minimum=1,
maximum=25,
value=shared.opts.data.get("infzoom_batchcount", 1),
step=1,
label="Batch Count",
)
with gr.Accordion("I know what I am doing!", open=False):
gamma_slider = gr.Slider(value=0.0,minimum=0.0,maximum=10,label="Exit Image speed - Gamma")
maskwidth_slider = gr.Slider(value=0.25,minimum=0.1,maximum=0.49,label="MaskWidth ratio ")
maskheight_slider = gr.Slider(value=0.25,minimum=0.1,maximum=0.49,label="MaskHeight ratio")
with gr.Tab("Video"):
video_frame_rate = gr.Slider(
label="Frames per second",
value=30,
minimum=1,
maximum=60,
)
video_zoom_mode = gr.Radio(
label="Zoom mode",
choices=["Zoom-out", "Zoom-in"],
value="Zoom-out",
type="index",
)
video_start_frame_dupe_amount = gr.Slider(
label="number of start frame dupe",
info="Frames to freeze at the start of the video",
value=0,
minimum=1,
maximum=60,
)
video_last_frame_dupe_amount = gr.Slider(
label="number of last frame dupe",
info="Frames to freeze at the end of the video",
value=0,
minimum=1,
maximum=60,
)
video_zoom_speed = gr.Slider(
label="Zoom Speed",
value=1.0,
minimum=0.1,
maximum=20.0,
step=0.1,
info="Zoom speed in seconds (higher values create slower zoom)",
)
with gr.Tab("Outpaint"):
inpainting_denoising_strength = gr.Slider(
label="Denoising Strength", minimum=0.75, maximum=1, value=1
)
inpainting_mask_blur = gr.Slider(
label="Mask Blur", minimum=0, maximum=64, value=0
)
inpainting_fill_mode = gr.Radio(
label="Masked content",
choices=["fill", "original", "latent noise", "latent nothing"],
value="latent noise",
type="index",
)
inpainting_full_res = gr.Checkbox(label="Inpaint Full Resolution")
inpainting_padding = gr.Slider(
label="masked padding", minimum=0, maximum=256, value=0
)
with gr.Tab("Post proccess"):
upscale_do = gr.Checkbox(False, label="Enable Upscale")
with gr.Row():
upscaler_name = gr.Dropdown(
label="Upscaler for keyframes (txt2img;inpaint)",
elem_id="infZ_upscaler",
choices=[x.name for x in shared.sd_upscalers],
value=shared.sd_upscalers[0].name,
)
upscalerinterpol_name = gr.Dropdown(
label="Upscaler for interpolation",
elem_id="infZ_upscaler_interpol",
choices=[x.name for x in shared.sd_upscalers],
value=shared.sd_upscalers[0].name,
)
upscale_by = gr.Slider(
label="Upscale by factor", minimum=1, maximum=8, value=1
)
with gr.Accordion("Help", open=False):
gr.Markdown(
"""# Performance critical
Depending on amount of frames and which upscaler you choose it might took a long time to render.
Our best experience and trade-off is the R-ESRGAN 4x upscaler.
"""
)
with gr.Column(scale=1, variant="compact"):
output_video = gr.Video(label="Output").style(width=512, height=512)
(
out_image,
generation_info,
html_info,
html_log,
) = create_output_panel(
"infinite-zoom", shared.opts.outdir_img2img_samples
)
generate_btn.click(
fn=wrap_gradio_gpu_call(create_zoom, extra_outputs=[None, "", ""]),
inputs=[
main_prompts,
main_negative_prompt,
main_outpaint_steps,
main_guidance_scale,
sampling_step,
init_image,
exit_image,
video_frame_rate,
video_zoom_mode,
video_start_frame_dupe_amount,
video_last_frame_dupe_amount,
inpainting_denoising_strength,
inpainting_mask_blur,
inpainting_fill_mode,
inpainting_full_res,
inpainting_padding,
video_zoom_speed,
seed,
main_width,
main_height,
batchcount_slider,
main_sampler,
upscale_do,
upscaler_name,
upscalerinterpol_name,
upscale_by,
gamma_slider,
maskwidth_slider,
maskheight_slider,
],
outputs=[output_video, out_image, generation_info, html_info, html_log],
)
interrupt.click(fn=lambda: shared.state.interrupt(), inputs=[], outputs=[])
infinite_zoom_interface.queue()
return [(infinite_zoom_interface, "Infinite Zoom", "iz_interface")]

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scripts/infinite-zoom.py
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