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Upload LoopbackWaveScriptV1.4.1.py

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  1. LoopbackWaveScriptV1.4.1.py +345 -0
LoopbackWaveScriptV1.4.1.py ADDED
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+ import os
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+ import platform
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+ import numpy as np
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+ from tqdm import trange
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+ import math
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+ import subprocess as sp
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+ import string
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+ import random
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+ from functools import reduce
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+ import re
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+
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+ import modules.scripts as scripts
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+ import gradio as gr
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+
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+ from modules import processing, shared, sd_samplers, images
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+ from modules.processing import Processed
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+ from modules.sd_samplers import samplers
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+ from modules.shared import opts, cmd_opts, state
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+ import subprocess
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+
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+
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+ wave_completed_regex = r'@wave_completed\(([\-]?[0-9]*\.?[0-9]+), ?([\-]?[0-9]*\.?[0-9]+)\)'
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+ wave_remaining_regex = r'@wave_remaining\(([\-]?[0-9]*\.?[0-9]+), ?([\-]?[0-9]*\.?[0-9]+)\)'
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+
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+ def run_cmd(cmd):
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+ cmd = list(map(lambda arg: str(arg), cmd))
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+ print("Executing %s" % " ".join(cmd))
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+ popen_params = {"stdout": sp.DEVNULL, "stderr": sp.PIPE, "stdin": sp.DEVNULL}
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+
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+ if os.name == "nt":
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+ popen_params["creationflags"] = 0x08000000
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+
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+ proc = sp.Popen(cmd, **popen_params)
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+ out, err = proc.communicate() # proc.wait()
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+ proc.stderr.close()
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+
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+ if proc.returncode:
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+ raise IOError(err.decode("utf8"))
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+
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+ del proc
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+
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+ def encode_video(input_pattern, starting_number, output_dir, fps, quality, encoding, create_segments, segment_duration, ffmpeg_path):
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+ two_pass = (encoding == "VP9 (webm)")
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+ alpha_channel = ("webm" in encoding)
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+ suffix = "webm" if "webm" in encoding else "mp4"
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+ output_location = output_dir + f".{suffix}"
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+
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+ encoding_lib = {
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+ "VP9 (webm)": "libvpx-vp9",
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+ "VP8 (webm)": "libvpx",
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+ "H.264 (mp4)": "libx264",
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+ "H.265 (mp4)": "libx265",
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+ }[encoding]
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+
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+ args = [
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+ "-framerate", fps,
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+ "-start_number", int(starting_number),
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+ "-i", input_pattern,
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+ "-c:v", encoding_lib,
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+ "-b:v","0",
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+ "-crf", quality,
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+ ]
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+
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+ if encoding_lib == "libvpx-vp9":
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+ args += ["-pix_fmt", "yuva420p"]
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+
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+ if(ffmpeg_path == ""):
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+ ffmpeg_path = "ffmpeg"
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+ if(platform.system == "Windows"):
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+ ffmpeg_path += ".exe"
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+
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+ print("\n\n")
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+ if two_pass:
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+ first_pass_args = args + [
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+ "-pass", "1",
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+ "-an",
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+ "-f", "null",
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+ os.devnull
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+ ]
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+
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+ second_pass_args = args + [
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+ "-pass", "2",
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+ output_location
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+ ]
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+
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+ print("Running first pass ffmpeg encoding")
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+
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+ run_cmd([ffmpeg_path] + first_pass_args)
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+ print("Running second pass ffmpeg encoding. This could take awhile...")
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+ run_cmd([ffmpeg_path] + second_pass_args)
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+ else:
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+ print("Running ffmpeg encoding. This could take awhile...")
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+ run_cmd([ffmpeg_path] + args + [output_location])
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+
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+ if(create_segments):
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+ print("Segmenting video")
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+ run_cmd([ffmpeg_path] + [
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+ "-i", output_location,
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+ "-f", "segment",
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+ "-segment_time", segment_duration,
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+ "-vcodec", "copy",
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+ "-acodec", "copy",
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+ f"{output_dir}.%d.{suffix}"
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+ ])
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+
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+ def set_weights(match_obj, wave_progress):
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+ weight_0 = 0
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+ weight_1 = 0
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+ if match_obj.group(1) is not None:
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+ weight_0 = float(match_obj.group(1))
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+ if match_obj.group(2) is not None:
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+ weight_1 = float(match_obj.group(2))
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+
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+ max_weight = max(weight_0, weight_1)
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+ min_weight = min(weight_0, weight_1)
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+
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+ weight_range = max_weight - min_weight
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+ weight = min_weight + weight_range * wave_progress
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+ return str(weight)
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+
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+
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+ class Script(scripts.Script):
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+ def title(self):
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+ return "Loopback Wave V1.4.1"
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+
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+ def show(self, is_img2img):
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+ return is_img2img
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+
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+ def ui(self, is_img2img):
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+ frames = gr.Slider(minimum=1, maximum=2048, step=1, label='Frames', value=100)
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+ frames_per_wave = gr.Slider(minimum=0, maximum=120, step=1, label='Frames Per Wave', value=20)
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+ denoising_strength_change_amplitude = gr.Slider(minimum=0, maximum=1, step=0.01, label='Max additional denoise', value=0.6)
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+ denoising_strength_change_offset = gr.Number(minimum=0, maximum=180, step=1, label='Wave offset (ignore this if you don\'t know what it means)', value=0)
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+ initial_image_number = gr.Number(minimum=0, label='Initial generated image number', value=0)
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+
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+ save_prompts = gr.Checkbox(label='Save prompts as text file', value=True)
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+ prompts = gr.Textbox(label="Prompt Changes", lines=5, value="")
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+
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+ save_video = gr.Checkbox(label='Save results as video', value=True)
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+ output_dir = gr.Textbox(label="Video Name", lines=1, value="")
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+ video_fps = gr.Slider(minimum=1, maximum=120, step=1, label='Frames per second', value=10)
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+ video_quality = gr.Slider(minimum=0, maximum=60, step=1, label='Video Quality (crf)', value=40)
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+ video_encoding = gr.Dropdown(label='Video encoding', value="VP9 (webm)", choices=["VP9 (webm)", "VP8 (webm)", "H.265 (mp4)", "H.264 (mp4)"])
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+ ffmpeg_path = gr.Textbox(label="ffmpeg binary. Only set this if it fails otherwise.", lines=1, value="")
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+
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+ segment_video = gr.Checkbox(label='Cut video in to segments', value=True)
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+ video_segment_duration = gr.Slider(minimum=10, maximum=60, step=1, label='Video Segment Duration (seconds)', value=20)
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+
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+
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+ return [frames, denoising_strength_change_amplitude, frames_per_wave, denoising_strength_change_offset,initial_image_number, prompts, save_prompts, save_video, output_dir, video_fps, video_quality, video_encoding, ffmpeg_path, segment_video, video_segment_duration]
151
+
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+ def run(self, p, frames, denoising_strength_change_amplitude, frames_per_wave, denoising_strength_change_offset, initial_image_number, prompts: str,save_prompts, save_video, output_dir, video_fps, video_quality, video_encoding, ffmpeg_path, segment_video, video_segment_duration):
153
+ processing.fix_seed(p)
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+ batch_count = p.n_iter
155
+ p.extra_generation_params = {
156
+ "Max Additional Denoise": denoising_strength_change_amplitude,
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+ "Frames per wave": frames_per_wave,
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+ "Wave Offset": denoising_strength_change_offset,
159
+ }
160
+
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+ # We save them ourselves for the sake of ffmpeg
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+ p.do_not_save_samples = True
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+
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+ changes_dict = {}
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+
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+
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+ p.batch_size = 1
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+ p.n_iter = 1
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+
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+ output_images, info = None, None
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+ initial_seed = None
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+ initial_info = None
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+
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+ grids = []
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+ all_images = []
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+ original_init_image = p.init_images
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+ state.job_count = frames * batch_count
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+
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+ initial_color_corrections = [processing.setup_color_correction(p.init_images[0])]
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+ initial_denoising_strength = p.denoising_strength
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+
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+ if(output_dir==""):
183
+ output_dir = str(p.seed)
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+ else:
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+ output_dir = output_dir + "-" + str(p.seed)
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+
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+ loopback_wave_path = os.path.join(p.outpath_samples, "loopback-wave")
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+ loopback_wave_images_path = os.path.join(loopback_wave_path, output_dir)
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+
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+ os.makedirs(loopback_wave_images_path, exist_ok=True)
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+
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+ p.outpath_samples = loopback_wave_images_path
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+
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+ prompts = prompts.strip()
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+
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+ if save_prompts:
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+ with open(loopback_wave_images_path + "-prompts.txt", "w") as f:
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+ generation_settings = [
199
+ "Generation Settings",
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+ f"Total Frames: {frames}",
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+ f"Frames Per Wave: {frames_per_wave}",
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+ f"Wave Offset: {denoising_strength_change_offset}",
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+ f"Base Denoising Strength: {initial_denoising_strength}",
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+ f"Max Additional Denoise: {denoising_strength_change_amplitude}",
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+ f"Initial Image Number: {initial_image_number}",
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+ "",
207
+ "Video Encoding Settings",
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+ f"Save Video: {save_video}"
209
+ ]
210
+
211
+ if save_video:
212
+ generation_settings = generation_settings + [
213
+ f"Framerate: {video_fps}",
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+ f"Quality: {video_quality}",
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+ f"Encoding: {video_encoding}",
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+ f"Create Segmented Video: {segment_video}"
217
+ ]
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+
219
+ if segment_video:
220
+ generation_settings = generation_settings + [f"Segment Duration: {video_segment_duration}"]
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+
222
+ generation_settings = generation_settings + [
223
+ "",
224
+ "Prompt Details",
225
+ "Initial Prompt:" + p.prompt,
226
+ "",
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+ "Negative Prompt:" + p.negative_prompt,
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+ "",
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+ "Frame change prompts:",
230
+ prompts
231
+ ]
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+
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+
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+
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+ f.write('\n'.join(generation_settings))
236
+
237
+ if prompts:
238
+ lines = prompts.split("\n")
239
+ for prompt_line in lines:
240
+ params = prompt_line.split("::")
241
+ if len(params) == 2:
242
+ changes_dict[params[0]] = { "prompt": params[1] }
243
+ elif len(params) == 3:
244
+ changes_dict[params[0]] = { "seed": params[1], "prompt": params[2] }
245
+ else:
246
+ raise IOError(f"Invalid input in prompt line: {prompt_line}")
247
+
248
+ raw_prompt = p.prompt
249
+
250
+ for n in range(batch_count):
251
+ history = []
252
+
253
+ # Reset to original init image at the start of each batch
254
+ p.init_images = original_init_image
255
+
256
+ seed_state = "adding"
257
+ current_seed = p.seed
258
+
259
+ for i in range(frames):
260
+ current_seed = p.seed
261
+ state.job = ""
262
+
263
+ if str(i) in changes_dict:
264
+ raw_prompt = changes_dict[str(i)]["prompt"]
265
+ state.job = "New prompt: %s\n" % raw_prompt
266
+
267
+ if "seed" in changes_dict[str(i)]:
268
+ current_seed = changes_dict[str(i)]["seed"]
269
+
270
+ if current_seed.startswith("+"):
271
+ seed_state = "adding"
272
+ current_seed = current_seed.strip("+")
273
+ elif current_seed.startswith("-"):
274
+ seed_state = "subtracting"
275
+ current_seed = current_seed.strip("-")
276
+ else:
277
+ seed_state = "constant"
278
+
279
+ current_seed = int(current_seed)
280
+ p.seed = current_seed
281
+
282
+
283
+
284
+ p.n_iter = 1
285
+ p.batch_size = 1
286
+ p.do_not_save_grid = True
287
+
288
+ if opts.img2img_color_correction:
289
+ p.color_corrections = initial_color_corrections
290
+
291
+
292
+ wave_progress = float(1)/(float(frames_per_wave - 1))*float(((float(i)%float(frames_per_wave)) + ((float(1)/float(180))*denoising_strength_change_offset)))
293
+ print(wave_progress)
294
+ new_prompt = re.sub(wave_completed_regex, lambda x: set_weights(x, wave_progress), raw_prompt)
295
+ new_prompt = re.sub(wave_remaining_regex, lambda x: set_weights(x, 1 - wave_progress), new_prompt)
296
+ p.prompt = new_prompt
297
+
298
+ print(new_prompt)
299
+
300
+ denoising_strength_change_rate = 180/frames_per_wave
301
+
302
+ cos = abs(math.cos(math.radians(i*denoising_strength_change_rate + denoising_strength_change_offset)))
303
+ p.denoising_strength = initial_denoising_strength + denoising_strength_change_amplitude - (cos * denoising_strength_change_amplitude)
304
+
305
+ state.job += f"Iteration {i + 1}/{frames}, batch {n + 1}/{batch_count}. Denoising Strength: {p.denoising_strength}"
306
+
307
+ processed = processing.process_images(p)
308
+
309
+ if initial_seed is None:
310
+ initial_seed = processed.seed
311
+ initial_info = processed.info
312
+
313
+ init_img = processed.images[0]
314
+
315
+ p.init_images = [init_img]
316
+
317
+ if seed_state == "adding":
318
+ p.seed = processed.seed + 1
319
+ elif seed_state == "subtracting":
320
+ p.seed = processed.seed - 1
321
+
322
+ image_number = int(initial_image_number + i)
323
+ images.save_image(init_img, p.outpath_samples, "", processed.seed, processed.prompt, forced_filename=str(image_number))
324
+
325
+ history.append(init_img)
326
+
327
+ grid = images.image_grid(history, rows=1)
328
+ if opts.grid_save:
329
+ images.save_image(grid, p.outpath_grids, "grid", initial_seed, p.prompt, opts.grid_format, info=info, short_filename=not opts.grid_extended_filename, grid=True, p=p)
330
+
331
+ grids.append(grid)
332
+ all_images += history
333
+
334
+ if opts.return_grid:
335
+ all_images = grids + all_images
336
+
337
+ if save_video:
338
+ input_pattern = os.path.join(loopback_wave_images_path, "%d.png")
339
+ encode_video(input_pattern, initial_image_number, loopback_wave_images_path, video_fps, video_quality, video_encoding, segment_video, video_segment_duration, ffmpeg_path)
340
+
341
+ processed = Processed(p, all_images, initial_seed, initial_info)
342
+
343
+ return processed
344
+
345
+