91c8d0dcfc
Fixes X/Y/Z Plot parameters not being restored from images
599 lines
25 KiB
Python
599 lines
25 KiB
Python
from collections import namedtuple
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from copy import copy
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from itertools import permutations, chain
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import random
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import csv
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from io import StringIO
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from PIL import Image
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import numpy as np
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import modules.scripts as scripts
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import gradio as gr
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from modules import images, paths, sd_samplers, processing, sd_models, sd_vae
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from modules.processing import process_images, Processed, StableDiffusionProcessingTxt2Img
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from modules.shared import opts, cmd_opts, state
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import modules.shared as shared
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import modules.sd_samplers
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import modules.sd_models
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import modules.sd_vae
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import glob
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import os
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import re
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from modules.ui_components import ToolButton
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fill_values_symbol = "\U0001f4d2" # 📒
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def apply_field(field):
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def fun(p, x, xs):
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setattr(p, field, x)
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return fun
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def apply_prompt(p, x, xs):
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if xs[0] not in p.prompt and xs[0] not in p.negative_prompt:
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raise RuntimeError(f"Prompt S/R did not find {xs[0]} in prompt or negative prompt.")
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p.prompt = p.prompt.replace(xs[0], x)
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p.negative_prompt = p.negative_prompt.replace(xs[0], x)
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def apply_order(p, x, xs):
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token_order = []
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# Initally grab the tokens from the prompt, so they can be replaced in order of earliest seen
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for token in x:
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token_order.append((p.prompt.find(token), token))
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token_order.sort(key=lambda t: t[0])
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prompt_parts = []
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# Split the prompt up, taking out the tokens
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for _, token in token_order:
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n = p.prompt.find(token)
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prompt_parts.append(p.prompt[0:n])
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p.prompt = p.prompt[n + len(token):]
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# Rebuild the prompt with the tokens in the order we want
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prompt_tmp = ""
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for idx, part in enumerate(prompt_parts):
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prompt_tmp += part
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prompt_tmp += x[idx]
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p.prompt = prompt_tmp + p.prompt
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def apply_sampler(p, x, xs):
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sampler_name = sd_samplers.samplers_map.get(x.lower(), None)
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if sampler_name is None:
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raise RuntimeError(f"Unknown sampler: {x}")
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p.sampler_name = sampler_name
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def confirm_samplers(p, xs):
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for x in xs:
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if x.lower() not in sd_samplers.samplers_map:
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raise RuntimeError(f"Unknown sampler: {x}")
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def apply_checkpoint(p, x, xs):
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info = modules.sd_models.get_closet_checkpoint_match(x)
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if info is None:
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raise RuntimeError(f"Unknown checkpoint: {x}")
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modules.sd_models.reload_model_weights(shared.sd_model, info)
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def confirm_checkpoints(p, xs):
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for x in xs:
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if modules.sd_models.get_closet_checkpoint_match(x) is None:
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raise RuntimeError(f"Unknown checkpoint: {x}")
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def apply_clip_skip(p, x, xs):
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opts.data["CLIP_stop_at_last_layers"] = x
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def apply_upscale_latent_space(p, x, xs):
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if x.lower().strip() != '0':
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opts.data["use_scale_latent_for_hires_fix"] = True
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else:
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opts.data["use_scale_latent_for_hires_fix"] = False
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def find_vae(name: str):
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if name.lower() in ['auto', 'automatic']:
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return modules.sd_vae.unspecified
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if name.lower() == 'none':
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return None
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else:
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choices = [x for x in sorted(modules.sd_vae.vae_dict, key=lambda x: len(x)) if name.lower().strip() in x.lower()]
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if len(choices) == 0:
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print(f"No VAE found for {name}; using automatic")
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return modules.sd_vae.unspecified
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else:
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return modules.sd_vae.vae_dict[choices[0]]
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def apply_vae(p, x, xs):
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modules.sd_vae.reload_vae_weights(shared.sd_model, vae_file=find_vae(x))
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def apply_styles(p: StableDiffusionProcessingTxt2Img, x: str, _):
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p.styles.extend(x.split(','))
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def format_value_add_label(p, opt, x):
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if type(x) == float:
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x = round(x, 8)
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return f"{opt.label}: {x}"
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def format_value(p, opt, x):
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if type(x) == float:
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x = round(x, 8)
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return x
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def format_value_join_list(p, opt, x):
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return ", ".join(x)
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def do_nothing(p, x, xs):
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pass
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def format_nothing(p, opt, x):
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return ""
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def str_permutations(x):
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"""dummy function for specifying it in AxisOption's type when you want to get a list of permutations"""
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return x
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class AxisOption:
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def __init__(self, label, type, apply, format_value=format_value_add_label, confirm=None, cost=0.0, choices=None):
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self.label = label
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self.type = type
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self.apply = apply
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self.format_value = format_value
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self.confirm = confirm
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self.cost = cost
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self.choices = choices
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class AxisOptionImg2Img(AxisOption):
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def __init__(self, *args, **kwargs):
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super().__init__(*args, **kwargs)
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self.is_img2img = True
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class AxisOptionTxt2Img(AxisOption):
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def __init__(self, *args, **kwargs):
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super().__init__(*args, **kwargs)
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self.is_img2img = False
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axis_options = [
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AxisOption("Nothing", str, do_nothing, format_value=format_nothing),
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AxisOption("Seed", int, apply_field("seed")),
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AxisOption("Var. seed", int, apply_field("subseed")),
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AxisOption("Var. strength", float, apply_field("subseed_strength")),
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AxisOption("Steps", int, apply_field("steps")),
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AxisOptionTxt2Img("Hires steps", int, apply_field("hr_second_pass_steps")),
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AxisOption("CFG Scale", float, apply_field("cfg_scale")),
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AxisOption("Prompt S/R", str, apply_prompt, format_value=format_value),
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AxisOption("Prompt order", str_permutations, apply_order, format_value=format_value_join_list),
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AxisOptionTxt2Img("Sampler", str, apply_sampler, format_value=format_value, confirm=confirm_samplers, choices=lambda: [x.name for x in sd_samplers.samplers]),
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AxisOptionImg2Img("Sampler", str, apply_sampler, format_value=format_value, confirm=confirm_samplers, choices=lambda: [x.name for x in sd_samplers.samplers_for_img2img]),
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AxisOption("Checkpoint name", str, apply_checkpoint, format_value=format_value, confirm=confirm_checkpoints, cost=1.0, choices=lambda: list(sd_models.checkpoints_list)),
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AxisOption("Sigma Churn", float, apply_field("s_churn")),
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AxisOption("Sigma min", float, apply_field("s_tmin")),
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AxisOption("Sigma max", float, apply_field("s_tmax")),
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AxisOption("Sigma noise", float, apply_field("s_noise")),
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AxisOption("Eta", float, apply_field("eta")),
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AxisOption("Clip skip", int, apply_clip_skip),
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AxisOption("Denoising", float, apply_field("denoising_strength")),
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AxisOptionTxt2Img("Hires upscaler", str, apply_field("hr_upscaler"), choices=lambda: [*shared.latent_upscale_modes, *[x.name for x in shared.sd_upscalers]]),
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AxisOptionImg2Img("Cond. Image Mask Weight", float, apply_field("inpainting_mask_weight")),
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AxisOption("VAE", str, apply_vae, cost=0.7, choices=lambda: list(sd_vae.vae_dict)),
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AxisOption("Styles", str, apply_styles, choices=lambda: list(shared.prompt_styles.styles)),
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]
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def draw_xyz_grid(p, xs, ys, zs, x_labels, y_labels, z_labels, cell, draw_legend, include_lone_images, include_sub_grids, first_axes_processed, second_axes_processed):
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hor_texts = [[images.GridAnnotation(x)] for x in x_labels]
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ver_texts = [[images.GridAnnotation(y)] for y in y_labels]
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title_texts = [[images.GridAnnotation(z)] for z in z_labels]
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# Temporary list of all the images that are generated to be populated into the grid.
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# Will be filled with empty images for any individual step that fails to process properly
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image_cache = [None] * (len(xs) * len(ys) * len(zs))
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processed_result = None
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cell_mode = "P"
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cell_size = (1, 1)
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state.job_count = len(xs) * len(ys) * len(zs) * p.n_iter
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def process_cell(x, y, z, ix, iy, iz):
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nonlocal image_cache, processed_result, cell_mode, cell_size
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def index(ix, iy, iz):
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return ix + iy * len(xs) + iz * len(xs) * len(ys)
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state.job = f"{index(ix, iy, iz) + 1} out of {len(xs) * len(ys) * len(zs)}"
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processed: Processed = cell(x, y, z)
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try:
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# this dereference will throw an exception if the image was not processed
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# (this happens in cases such as if the user stops the process from the UI)
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processed_image = processed.images[0]
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if processed_result is None:
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# Use our first valid processed result as a template container to hold our full results
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processed_result = copy(processed)
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cell_mode = processed_image.mode
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cell_size = processed_image.size
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processed_result.images = [Image.new(cell_mode, cell_size)]
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image_cache[index(ix, iy, iz)] = processed_image
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if include_lone_images:
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processed_result.images.append(processed_image)
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processed_result.all_prompts.append(processed.prompt)
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processed_result.all_seeds.append(processed.seed)
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processed_result.infotexts.append(processed.infotexts[0])
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except:
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image_cache[index(ix, iy, iz)] = Image.new(cell_mode, cell_size)
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if first_axes_processed == 'x':
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for ix, x in enumerate(xs):
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if second_axes_processed == 'y':
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for iy, y in enumerate(ys):
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for iz, z in enumerate(zs):
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process_cell(x, y, z, ix, iy, iz)
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else:
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for iz, z in enumerate(zs):
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for iy, y in enumerate(ys):
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process_cell(x, y, z, ix, iy, iz)
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elif first_axes_processed == 'y':
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for iy, y in enumerate(ys):
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if second_axes_processed == 'x':
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for ix, x in enumerate(xs):
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for iz, z in enumerate(zs):
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process_cell(x, y, z, ix, iy, iz)
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else:
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for iz, z in enumerate(zs):
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for ix, x in enumerate(xs):
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process_cell(x, y, z, ix, iy, iz)
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elif first_axes_processed == 'z':
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for iz, z in enumerate(zs):
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if second_axes_processed == 'x':
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for ix, x in enumerate(xs):
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for iy, y in enumerate(ys):
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process_cell(x, y, z, ix, iy, iz)
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else:
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for iy, y in enumerate(ys):
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for ix, x in enumerate(xs):
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process_cell(x, y, z, ix, iy, iz)
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if not processed_result:
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print("Unexpected error: draw_xyz_grid failed to return even a single processed image")
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return Processed(p, [])
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grids = [None] * len(zs)
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for i in range(len(zs)):
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start_index = i * len(xs) * len(ys)
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end_index = start_index + len(xs) * len(ys)
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grid = images.image_grid(image_cache[start_index:end_index], rows=len(ys))
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if draw_legend:
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grid = images.draw_grid_annotations(grid, cell_size[0], cell_size[1], hor_texts, ver_texts)
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grids[i] = grid
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if include_sub_grids and len(zs) > 1:
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processed_result.images.insert(i+1, grid)
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original_grid_size = grids[0].size
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grids = images.image_grid(grids, rows=1)
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processed_result.images[0] = images.draw_grid_annotations(grids, original_grid_size[0], original_grid_size[1], title_texts, [[images.GridAnnotation()]])
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return processed_result
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class SharedSettingsStackHelper(object):
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def __enter__(self):
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self.CLIP_stop_at_last_layers = opts.CLIP_stop_at_last_layers
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self.vae = opts.sd_vae
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def __exit__(self, exc_type, exc_value, tb):
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opts.data["sd_vae"] = self.vae
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modules.sd_models.reload_model_weights()
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modules.sd_vae.reload_vae_weights()
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opts.data["CLIP_stop_at_last_layers"] = self.CLIP_stop_at_last_layers
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re_range = re.compile(r"\s*([+-]?\s*\d+)\s*-\s*([+-]?\s*\d+)(?:\s*\(([+-]\d+)\s*\))?\s*")
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re_range_float = re.compile(r"\s*([+-]?\s*\d+(?:.\d*)?)\s*-\s*([+-]?\s*\d+(?:.\d*)?)(?:\s*\(([+-]\d+(?:.\d*)?)\s*\))?\s*")
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re_range_count = re.compile(r"\s*([+-]?\s*\d+)\s*-\s*([+-]?\s*\d+)(?:\s*\[(\d+)\s*\])?\s*")
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re_range_count_float = re.compile(r"\s*([+-]?\s*\d+(?:.\d*)?)\s*-\s*([+-]?\s*\d+(?:.\d*)?)(?:\s*\[(\d+(?:.\d*)?)\s*\])?\s*")
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class Script(scripts.Script):
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def title(self):
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return "X/Y/Z plot"
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def ui(self, is_img2img):
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self.current_axis_options = [x for x in axis_options if type(x) == AxisOption or x.is_img2img == is_img2img]
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with gr.Row():
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with gr.Column(scale=19):
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with gr.Row():
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x_type = gr.Dropdown(label="X type", choices=[x.label for x in self.current_axis_options], value=self.current_axis_options[1].label, type="index", elem_id=self.elem_id("x_type"))
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x_values = gr.Textbox(label="X values", lines=1, elem_id=self.elem_id("x_values"))
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fill_x_button = ToolButton(value=fill_values_symbol, elem_id="xyz_grid_fill_x_tool_button", visible=False)
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with gr.Row():
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y_type = gr.Dropdown(label="Y type", choices=[x.label for x in self.current_axis_options], value=self.current_axis_options[0].label, type="index", elem_id=self.elem_id("y_type"))
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y_values = gr.Textbox(label="Y values", lines=1, elem_id=self.elem_id("y_values"))
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fill_y_button = ToolButton(value=fill_values_symbol, elem_id="xyz_grid_fill_y_tool_button", visible=False)
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with gr.Row():
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z_type = gr.Dropdown(label="Z type", choices=[x.label for x in self.current_axis_options], value=self.current_axis_options[0].label, type="index", elem_id=self.elem_id("z_type"))
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z_values = gr.Textbox(label="Z values", lines=1, elem_id=self.elem_id("z_values"))
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fill_z_button = ToolButton(value=fill_values_symbol, elem_id="xyz_grid_fill_z_tool_button", visible=False)
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with gr.Row(variant="compact", elem_id="axis_options"):
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draw_legend = gr.Checkbox(label='Draw legend', value=True, elem_id=self.elem_id("draw_legend"))
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include_lone_images = gr.Checkbox(label='Include Sub Images', value=False, elem_id=self.elem_id("include_lone_images"))
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include_sub_grids = gr.Checkbox(label='Include Sub Grids', value=False, elem_id=self.elem_id("include_sub_grids"))
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no_fixed_seeds = gr.Checkbox(label='Keep -1 for seeds', value=False, elem_id=self.elem_id("no_fixed_seeds"))
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swap_xy_axes_button = gr.Button(value="Swap X/Y axes", elem_id="xy_grid_swap_axes_button")
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swap_yz_axes_button = gr.Button(value="Swap Y/Z axes", elem_id="yz_grid_swap_axes_button")
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swap_xz_axes_button = gr.Button(value="Swap X/Z axes", elem_id="xz_grid_swap_axes_button")
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def swap_axes(axis1_type, axis1_values, axis2_type, axis2_values):
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return self.current_axis_options[axis2_type].label, axis2_values, self.current_axis_options[axis1_type].label, axis1_values
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xy_swap_args = [x_type, x_values, y_type, y_values]
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swap_xy_axes_button.click(swap_axes, inputs=xy_swap_args, outputs=xy_swap_args)
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yz_swap_args = [y_type, y_values, z_type, z_values]
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swap_yz_axes_button.click(swap_axes, inputs=yz_swap_args, outputs=yz_swap_args)
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xz_swap_args = [x_type, x_values, z_type, z_values]
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swap_xz_axes_button.click(swap_axes, inputs=xz_swap_args, outputs=xz_swap_args)
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def fill(x_type):
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axis = self.current_axis_options[x_type]
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return ", ".join(axis.choices()) if axis.choices else gr.update()
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fill_x_button.click(fn=fill, inputs=[x_type], outputs=[x_values])
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fill_y_button.click(fn=fill, inputs=[y_type], outputs=[y_values])
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fill_z_button.click(fn=fill, inputs=[z_type], outputs=[z_values])
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def select_axis(x_type):
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return gr.Button.update(visible=self.current_axis_options[x_type].choices is not None)
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x_type.change(fn=select_axis, inputs=[x_type], outputs=[fill_x_button])
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y_type.change(fn=select_axis, inputs=[y_type], outputs=[fill_y_button])
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z_type.change(fn=select_axis, inputs=[z_type], outputs=[fill_z_button])
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self.infotext_fields = (
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(x_type, "X Type"),
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(x_values, "X Values"),
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(y_type, "Y Type"),
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(y_values, "Y Values"),
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(z_type, "Z Type"),
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(z_values, "Z Values"),
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)
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return [x_type, x_values, y_type, y_values, z_type, z_values, draw_legend, include_lone_images, include_sub_grids, no_fixed_seeds]
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def run(self, p, x_type, x_values, y_type, y_values, z_type, z_values, draw_legend, include_lone_images, include_sub_grids, no_fixed_seeds):
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if not no_fixed_seeds:
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modules.processing.fix_seed(p)
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if not opts.return_grid:
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p.batch_size = 1
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def process_axis(opt, vals):
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if opt.label == 'Nothing':
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return [0]
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valslist = [x.strip() for x in chain.from_iterable(csv.reader(StringIO(vals)))]
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if opt.type == int:
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valslist_ext = []
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for val in valslist:
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m = re_range.fullmatch(val)
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mc = re_range_count.fullmatch(val)
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if m is not None:
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start = int(m.group(1))
|
|
end = int(m.group(2))+1
|
|
step = int(m.group(3)) if m.group(3) is not None else 1
|
|
|
|
valslist_ext += list(range(start, end, step))
|
|
elif mc is not None:
|
|
start = int(mc.group(1))
|
|
end = int(mc.group(2))
|
|
num = int(mc.group(3)) if mc.group(3) is not None else 1
|
|
|
|
valslist_ext += [int(x) for x in np.linspace(start=start, stop=end, num=num).tolist()]
|
|
else:
|
|
valslist_ext.append(val)
|
|
|
|
valslist = valslist_ext
|
|
elif opt.type == float:
|
|
valslist_ext = []
|
|
|
|
for val in valslist:
|
|
m = re_range_float.fullmatch(val)
|
|
mc = re_range_count_float.fullmatch(val)
|
|
if m is not None:
|
|
start = float(m.group(1))
|
|
end = float(m.group(2))
|
|
step = float(m.group(3)) if m.group(3) is not None else 1
|
|
|
|
valslist_ext += np.arange(start, end + step, step).tolist()
|
|
elif mc is not None:
|
|
start = float(mc.group(1))
|
|
end = float(mc.group(2))
|
|
num = int(mc.group(3)) if mc.group(3) is not None else 1
|
|
|
|
valslist_ext += np.linspace(start=start, stop=end, num=num).tolist()
|
|
else:
|
|
valslist_ext.append(val)
|
|
|
|
valslist = valslist_ext
|
|
elif opt.type == str_permutations:
|
|
valslist = list(permutations(valslist))
|
|
|
|
valslist = [opt.type(x) for x in valslist]
|
|
|
|
# Confirm options are valid before starting
|
|
if opt.confirm:
|
|
opt.confirm(p, valslist)
|
|
|
|
return valslist
|
|
|
|
x_opt = self.current_axis_options[x_type]
|
|
xs = process_axis(x_opt, x_values)
|
|
|
|
y_opt = self.current_axis_options[y_type]
|
|
ys = process_axis(y_opt, y_values)
|
|
|
|
z_opt = self.current_axis_options[z_type]
|
|
zs = process_axis(z_opt, z_values)
|
|
|
|
def fix_axis_seeds(axis_opt, axis_list):
|
|
if axis_opt.label in ['Seed', 'Var. seed']:
|
|
return [int(random.randrange(4294967294)) if val is None or val == '' or val == -1 else val for val in axis_list]
|
|
else:
|
|
return axis_list
|
|
|
|
if not no_fixed_seeds:
|
|
xs = fix_axis_seeds(x_opt, xs)
|
|
ys = fix_axis_seeds(y_opt, ys)
|
|
zs = fix_axis_seeds(z_opt, zs)
|
|
|
|
if x_opt.label == 'Steps':
|
|
total_steps = sum(xs) * len(ys) * len(zs)
|
|
elif y_opt.label == 'Steps':
|
|
total_steps = sum(ys) * len(xs) * len(zs)
|
|
elif z_opt.label == 'Steps':
|
|
total_steps = sum(zs) * len(xs) * len(ys)
|
|
else:
|
|
total_steps = p.steps * len(xs) * len(ys) * len(zs)
|
|
|
|
if isinstance(p, StableDiffusionProcessingTxt2Img) and p.enable_hr:
|
|
if x_opt.label == "Hires steps":
|
|
total_steps += sum(xs) * len(ys) * len(zs)
|
|
elif y_opt.label == "Hires steps":
|
|
total_steps += sum(ys) * len(xs) * len(zs)
|
|
elif z_opt.label == "Hires steps":
|
|
total_steps += sum(zs) * len(xs) * len(ys)
|
|
elif p.hr_second_pass_steps:
|
|
total_steps += p.hr_second_pass_steps * len(xs) * len(ys) * len(zs)
|
|
else:
|
|
total_steps *= 2
|
|
|
|
total_steps *= p.n_iter
|
|
|
|
image_cell_count = p.n_iter * p.batch_size
|
|
cell_console_text = f"; {image_cell_count} images per cell" if image_cell_count > 1 else ""
|
|
plural_s = 's' if len(zs) > 1 else ''
|
|
print(f"X/Y/Z plot will create {len(xs) * len(ys) * len(zs) * image_cell_count} images on {len(zs)} {len(xs)}x{len(ys)} grid{plural_s}{cell_console_text}. (Total steps to process: {total_steps})")
|
|
shared.total_tqdm.updateTotal(total_steps)
|
|
|
|
grid_infotext = [None]
|
|
|
|
# If one of the axes is very slow to change between (like SD model
|
|
# checkpoint), then make sure it is in the outer iteration of the nested
|
|
# `for` loop.
|
|
first_axes_processed = 'x'
|
|
second_axes_processed = 'y'
|
|
if x_opt.cost > y_opt.cost and x_opt.cost > z_opt.cost:
|
|
first_axes_processed = 'x'
|
|
if y_opt.cost > z_opt.cost:
|
|
second_axes_processed = 'y'
|
|
else:
|
|
second_axes_processed = 'z'
|
|
elif y_opt.cost > x_opt.cost and y_opt.cost > z_opt.cost:
|
|
first_axes_processed = 'y'
|
|
if x_opt.cost > z_opt.cost:
|
|
second_axes_processed = 'x'
|
|
else:
|
|
second_axes_processed = 'z'
|
|
elif z_opt.cost > x_opt.cost and z_opt.cost > y_opt.cost:
|
|
first_axes_processed = 'z'
|
|
if x_opt.cost > y_opt.cost:
|
|
second_axes_processed = 'x'
|
|
else:
|
|
second_axes_processed = 'y'
|
|
|
|
def cell(x, y, z):
|
|
if shared.state.interrupted:
|
|
return Processed(p, [], p.seed, "")
|
|
|
|
pc = copy(p)
|
|
pc.styles = pc.styles[:]
|
|
x_opt.apply(pc, x, xs)
|
|
y_opt.apply(pc, y, ys)
|
|
z_opt.apply(pc, z, zs)
|
|
|
|
res = process_images(pc)
|
|
|
|
if grid_infotext[0] is None:
|
|
pc.extra_generation_params = copy(pc.extra_generation_params)
|
|
pc.extra_generation_params['Script'] = self.title()
|
|
|
|
if x_opt.label != 'Nothing':
|
|
pc.extra_generation_params["X Type"] = x_opt.label
|
|
pc.extra_generation_params["X Values"] = x_values
|
|
if x_opt.label in ["Seed", "Var. seed"] and not no_fixed_seeds:
|
|
pc.extra_generation_params["Fixed X Values"] = ", ".join([str(x) for x in xs])
|
|
|
|
if y_opt.label != 'Nothing':
|
|
pc.extra_generation_params["Y Type"] = y_opt.label
|
|
pc.extra_generation_params["Y Values"] = y_values
|
|
if y_opt.label in ["Seed", "Var. seed"] and not no_fixed_seeds:
|
|
pc.extra_generation_params["Fixed Y Values"] = ", ".join([str(y) for y in ys])
|
|
|
|
if z_opt.label != 'Nothing':
|
|
pc.extra_generation_params["Z Type"] = z_opt.label
|
|
pc.extra_generation_params["Z Values"] = z_values
|
|
if z_opt.label in ["Seed", "Var. seed"] and not no_fixed_seeds:
|
|
pc.extra_generation_params["Fixed Z Values"] = ", ".join([str(z) for z in zs])
|
|
|
|
grid_infotext[0] = processing.create_infotext(pc, pc.all_prompts, pc.all_seeds, pc.all_subseeds)
|
|
|
|
return res
|
|
|
|
with SharedSettingsStackHelper():
|
|
processed = draw_xyz_grid(
|
|
p,
|
|
xs=xs,
|
|
ys=ys,
|
|
zs=zs,
|
|
x_labels=[x_opt.format_value(p, x_opt, x) for x in xs],
|
|
y_labels=[y_opt.format_value(p, y_opt, y) for y in ys],
|
|
z_labels=[z_opt.format_value(p, z_opt, z) for z in zs],
|
|
cell=cell,
|
|
draw_legend=draw_legend,
|
|
include_lone_images=include_lone_images,
|
|
include_sub_grids=include_sub_grids,
|
|
first_axes_processed=first_axes_processed,
|
|
second_axes_processed=second_axes_processed
|
|
)
|
|
|
|
if opts.grid_save:
|
|
images.save_image(processed.images[0], p.outpath_grids, "xyz_grid", info=grid_infotext[0], extension=opts.grid_format, prompt=p.prompt, seed=processed.seed, grid=True, p=p)
|
|
|
|
return processed
|