103 lines
4.7 KiB
JavaScript
103 lines
4.7 KiB
JavaScript
titles = {
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"Sampling steps": "How many times to imptove the generated image itratively; higher values take longer; very low values can produce bad results",
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"Sampling method": "Which algorithm to use to produce the image",
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"GFPGAN": "Restore low quality faces using GFPGAN neural network",
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"Euler a": "Euler Ancestral - very creative, each can get acompletely different pictures depending on step count, setting seps tohigher than 30-40 does not help",
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"DDIM": "Denoising Diffusion Implicit Models - best at inpainting",
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"Batch count": "How many batches of images to create",
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"Batch size": "How many image to create in a single batch",
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"CFG Scale": "Classifier Free Guidance Scale - how strongly the image should conform to prompt - lower values produce more creative results",
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"Seed": "A value that determines the output of random number generator - if you create an image with same parameters and seed as another image, you'll get the same result",
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"Inpaint a part of image": "Draw a mask over an image, and the script will regenerate the masked area with content according to prompt",
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"Loopback": "Process an image, use it as an input, repeat. Batch count determings number of iterations.",
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"SD upscale": "Upscale image normally, split result into tiles, improve each tile using img2img, merge whole image back",
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"Just resize": "Resize image to target resolution. Unless height and width match, you will get incorrect aspect ratio.",
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"Crop and resize": "Resize the image so that entirety of target resolution is filled with the image. Crop parts that stick out.",
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"Resize and fill": "Resize the image so that entirety of image is inside target resolution. Fill empty space with image's colors.",
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"Mask blur": "How much to blur the mask before processing, in pixels.",
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"Masked content": "What to put inside the masked area before processing it with Stable Diffusion.",
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"fill": "fill it with colors of the image",
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"original": "keep whatever was there originally",
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"latent noise": "fill it with latent space noise",
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"latent nothing": "fill it with latent space zeroes",
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"Inpaint at full resolution": "Upscale masked region to target resolution, do inpainting, downscale back and paste into original image",
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"Denoising Strength": "Determines how little respect the algorithm should have for image's content. At 0, nothing will change, and at 1 you'll get an unrelated image.",
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"Interrupt": "Stop processing images and return any results accumulated so far.",
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"Save": "Write image to a directory (default - log/images) and generation parameters into csv file.",
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"X values": "Separate values for X axis using commas.",
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"Y values": "Separate values for Y axis using commas.",
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"None": "Do not do anything special",
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"Prompt matrix": "Separate prompts into parts using vertical pipe character (|) and the script will create a picture for every combination of them (except for the first part, which will be present in all combinations)",
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"X/Y plot": "Create a grid where images will have different parameters. Use inputs below to specify which parameterswill be shared by columns and rows",
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"Custom code": "Run python code. Advanced user only. Must run program with --allow-code for this to work",
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"Prompt S/R": "Separate a list of words with commas, and the first word will be used as a keyword: script will search for this word in the prompt, and replace it with others",
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}
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function gradioApp(){
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return document.getElementsByTagName('gradio-app')[0].shadowRoot;
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}
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function addTitles(root){
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root.querySelectorAll('span, button, select').forEach(function(span){
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tooltip = titles[span.textContent];
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if(!tooltip){
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tooltip = titles[span.value];
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}
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if(tooltip){
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span.title = tooltip;
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}
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})
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root.querySelectorAll('select').forEach(function(select){
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if (select.onchange != null) return;
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select.onchange = function(){
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select.title = titles[select.value] || "";
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}
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})
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}
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document.addEventListener("DOMContentLoaded", function() {
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var mutationObserver = new MutationObserver(function(m){
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addTitles(gradioApp());
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});
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mutationObserver.observe( gradioApp(), { childList:true, subtree:true })
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});
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function selected_gallery_index(){
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var gr = gradioApp()
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var buttons = gradioApp().querySelectorAll(".gallery-item")
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var button = gr.querySelector(".gallery-item.\\!ring-2")
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var result = -1
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buttons.forEach(function(v, i){ if(v==button) { result = i } })
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return result
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}
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function extract_image_from_gallery(gallery){
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if(gallery.length == 1){
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return gallery[0]
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}
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index = selected_gallery_index()
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if (index < 0 || index >= gallery.length){
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return []
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}
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return gallery[index];
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}
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