//TODO FIND OUT WHY I HAVE TO RESIZE A TEXTBOX AND THEN START USING IT TO AVOID THE 1px WHITE LINE ON LEFT EDGES DURING IMG2IMG //...lmao did setting min width 200 on info div fix that accidentally? once the canvas is infinite and the menu bar is hideable it'll probably be a problem again window.onload = startup; var stableDiffusionData = { //includes img2img data but works for txt2img just fine prompt: "", negative_prompt: "", seed: -1, cfg_scale: null, sampler_index: "DDIM", steps: null, denoising_strength: 1, mask_blur: 0, batch_size: null, width: 512, height: 512, n_iter: null, // batch count mask: "", init_images: [], inpaint_full_res: false, inpainting_fill: 2, enable_hr: false, firstphase_width: 0, firstphase_height: 0, // here's some more fields that might be useful // ---txt2img specific: // "enable_hr": false, // hires fix // "denoising_strength": 0, // ok this is in both txt and img2img but txt2img only applies it if enable_hr == true // "firstphase_width": 0, // hires fp w // "firstphase_height": 0, // see above s/w/h/ // ---img2img specific // "init_images": [ // imageS!??!? wtf maybe for batch img2img?? i just dump one base64 in here // "string" // ], // "resize_mode": 0, // "denoising_strength": 0.75, // yeah see // "mask": "string", // string is just a base64 image // "mask_blur": 4, // "inpainting_fill": 0, // 0- fill, 1- orig, 2- latent noise, 3- latent nothing // "inpaint_full_res": true, // "inpaint_full_res_padding": 0, // px // "inpainting_mask_invert": 0, // bool??????? wtf // "include_init_images": false // ?????? } /** * Some Utility Functions */ function sliderChangeHandlerFactory(sliderId, textBoxId, dataKey, defaultV) { const sliderEl = document.getElementById(sliderId); const textBoxEl = document.getElementById(textBoxId); const savedValue = localStorage.getItem(dataKey); if (savedValue) stableDiffusionData[dataKey] = savedValue || defaultV; function changeHandler(evn) { const eventSource = evn && evn.srcElement; const value = eventSource && Number(eventSource.value); if (value) stableDiffusionData[dataKey] = value; if (!eventSource || eventSource.id === textBoxId) sliderEl.value = stableDiffusionData[dataKey]; textBoxEl.value = stableDiffusionData[dataKey] = Number(sliderEl.value); localStorage.setItem(dataKey, stableDiffusionData[dataKey]); } textBoxEl.onchange = changeHandler sliderEl.oninput = changeHandler return changeHandler } // stuff things use var blockNewImages = false; var returnedImages; var imageIndex = 0; var tmpImgXYWH = {}; var host = ""; var url = "/sdapi/v1/"; var endpoint = "txt2img" var frameX = 512; var frameY = 512; var prevMouseX = 0; var prevMouseY = 0; var mouseX = 0; var mouseY = 0; var canvasX = 0; var canvasY = 0; var snapX = 0; var snapY = 0; var drawThis = {}; var clicked = false; const basePixelCount = 64; //64 px - ALWAYS 64 PX var scaleFactor = 8; //x64 px var snapToGrid = true; var paintMode = false; var eraseMode = false; //TODO this is broken, functionality still exists in code but UI element is just naively disabled var backupMaskPaintCanvas; //??? var backupMaskPaintCtx; //...? look i am bad at this var backupMaskChunk = null; var backupMaskX = null; var backupMaskY = null; var totalImagesReturned; // var maskEdgePixels = {}; var overMask = true; var overMaskPx = 10; var drawTargets = []; // is this needed? i only draw the last one anyway... var dropTargets = []; // uhhh yeah similar to the above but for arbitrary dropped images var arbitraryImage; var arbitraryImageData; var arbitraryImageBitmap; var arbitraryImageBase64; // seriously js cmon work with me here var placingArbitraryImage = false; // for when the user has loaded an existing image from their computer // info div, sometimes hidden let mouseXInfo = document.getElementById("mouseX"); let mouseYInfo = document.getElementById("mouseY"); let canvasXInfo = document.getElementById("canvasX"); let canvasYInfo = document.getElementById("canvasY"); let snapXInfo = document.getElementById("snapX"); let snapYInfo = document.getElementById("snapY"); // canvases and related const ovCanvas = document.getElementById("overlayCanvas"); // where mouse cursor renders const ovCtx = ovCanvas.getContext("2d"); const tgtCanvas = document.getElementById("targetCanvas"); // where "box" gets drawn before dream happens const tgtCtx = tgtCanvas.getContext("2d"); const maskPaintCanvas = document.getElementById("maskPaintCanvas"); // where masking brush gets painted const maskPaintCtx = maskPaintCanvas.getContext("2d"); const tempCanvas = document.getElementById("tempCanvas"); // where select/rejects get superimposed temporarily const tempCtx = tempCanvas.getContext("2d"); const imgCanvas = document.getElementById("canvas"); // where dreams go const imgCtx = imgCanvas.getContext("2d"); const bgCanvas = document.getElementById("backgroundCanvas"); // gray bg grid const bgCtx = bgCanvas.getContext("2d"); function startup() { checkIfWebuiIsRunning(); loadSettings(); drawBackground(); changeScaleFactor(); changePaintMode(); changeEraseMode(); changeSampler(); changeSteps(); changeCfgScale(); changeBatchCount(); changeBatchSize(); changeSnapMode(); changeMaskBlur(); changeSeed(); changeOverMask(); changeOverMaskPx(); changeHiResFix(); document.getElementById("overlayCanvas").onmousemove = mouseMove; document.getElementById("overlayCanvas").onmousedown = mouseDown; document.getElementById("overlayCanvas").onmouseup = mouseUp; document.getElementById("scaleFactor").value = scaleFactor; } function drop(imageParams) { const img = new Image(); img.onload = function () { writeArbitraryImage(img, imageParams.x, imageParams.y) } img.src = arbitraryImageBase64; } function writeArbitraryImage(img, x, y) { imgCtx.drawImage(img, x, y); blockNewImages = false; placingArbitraryImage = false; document.getElementById("preloadImage").files = null; } function dream(x, y, prompt) { tmpImgXYWH.x = x; tmpImgXYWH.y = y; tmpImgXYWH.w = prompt.width; tmpImgXYWH.h = prompt.height; console.log("dreaming to " + host + url + endpoint + ":\r\n" + JSON.stringify(prompt)); postData(prompt) .then((data) => { returnedImages = data.images; totalImagesReturned = data.images.length; blockNewImages = true; //console.log(data); // JSON data parsed by `data.json()` call imageAcceptReject(x, y, data); }); } async function postData(promptData) { this.host = document.getElementById("host").value; // Default options are marked with * const response = await fetch(this.host + this.url + this.endpoint, { method: 'POST', // *GET, POST, PUT, DELETE, etc. mode: 'cors', // no-cors, *cors, same-origin cache: 'default', // *default, no-cache, reload, force-cache, only-if-cached credentials: 'same-origin', // include, *same-origin, omit headers: { 'Accept': 'application/json', 'Content-Type': 'application/json' }, redirect: 'follow', // manual, *follow, error referrerPolicy: 'no-referrer', // no-referrer, *no-referrer-when-downgrade, origin, origin-when-cross-origin, same-origin, strict-origin, strict-origin-when-cross-origin, unsafe-url body: JSON.stringify(promptData) // body data type must match "Content-Type" header }); return response.json(); // parses JSON response into native JavaScript objects } function imageAcceptReject(x, y, data) { const img = new Image(); img.onload = function () { tempCtx.drawImage(img, x, y); //imgCtx for actual image, tmp for... holding? var div = document.createElement("div"); div.id = "veryTempDiv"; div.style.position = "absolute"; div.style.left = parseInt(x) + "px"; div.style.top = parseInt(y + data.parameters.height) + "px"; div.style.width = "150px"; div.style.height = "50px"; div.innerHTML = " of " document.getElementById("tempDiv").appendChild(div); document.getElementById("currentImgIndex").innerText = "1"; document.getElementById("totalImgIndex").innerText = totalImagesReturned; } // set the image displayed as the first regardless of batch size/count imageIndex = 0; // load the image data after defining the closure img.src = "data:image/png;base64," + returnedImages[imageIndex]; } function accept(evt) { // write image to imgcanvas clearBackupMask(); placeImage(); removeChoiceButtons(); clearTargetMask(); blockNewImages = false; } function reject(evt) { // remove image entirely restoreBackupMask(); clearBackupMask(); clearTargetMask(); removeChoiceButtons(); blockNewImages = false; } function newImage(evt) { clearPaintedMask(); clearBackupMask(); clearTargetMask(); clearImgMask(); } function prevImg(evt) { if (imageIndex == 0) { imageIndex = totalImagesReturned; } changeImg(false); } function nextImg(evt) { if (imageIndex == (totalImagesReturned - 1)) { imageIndex = -1; } changeImg(true); } function changeImg(forward) { const img = new Image(); tempCtx.clearRect(0, 0, tempCtx.width, tempCtx.height); img.onload = function () { tempCtx.drawImage(img, tmpImgXYWH.x, tmpImgXYWH.y); //imgCtx for actual image, tmp for... holding? } var tmpIndex = document.getElementById("currentImgIndex"); if (forward) { imageIndex++; } else { imageIndex--; } tmpIndex.innerText = imageIndex + 1; // load the image data after defining the closure img.src = "data:image/png;base64," + returnedImages[imageIndex]; //TODO need way to dream batches and select from results } function removeChoiceButtons(evt) { const element = document.getElementById("veryTempDiv"); element.remove(); tempCtx.clearRect(0, 0, tempCanvas.width, tempCanvas.height); } function restoreBackupMask() { // reapply mask if exists if (backupMaskChunk != null && backupMaskX != null && backupMaskY != null) { // backup mask data exists var iData = new ImageData(backupMaskChunk.data, backupMaskChunk.height, backupMaskChunk.width); maskPaintCtx.putImageData(iData, backupMaskX, backupMaskY); } } function clearBackupMask() { // clear backupmask backupMaskChunk = null; backupMaskX = null; backupMaskY = null; } function clearTargetMask() { tgtCtx.clearRect(0, 0, tgtCanvas.width, tgtCanvas.height); } function clearImgMask() { imgCtx.clearRect(0, 0, imgCanvas.width, imgCanvas.height); } function clearPaintedMask() { maskPaintCtx.clearRect(0, 0, maskPaintCanvas.width, maskPaintCanvas.height); } function placeImage() { const img = new Image(); img.onload = function () { imgCtx.drawImage(img, tmpImgXYWH.x, tmpImgXYWH.y); tmpImgXYWH = {}; returnedImages = null; } // load the image data after defining the closure img.src = "data:image/png;base64," + returnedImages[imageIndex]; } function sleep(ms) { // what was this even for, anyway? return new Promise(resolve => setTimeout(resolve, ms)); } function snap(i, scaled = true) { // very cheap test proof of concept but it works surprisingly well var scaleOffset = 0; if (scaled) { if (scaleFactor % 2 != 0) { // odd number, snaps to center of cell, oops scaleOffset = (basePixelCount / 2); } } var snapOffset = i % basePixelCount - scaleOffset; if (snapOffset == 0) { return snapOffset; } return -snapOffset; } function mouseMove(evt) { const rect = ovCanvas.getBoundingClientRect() // not-quite pixel offset was driving me insane const canvasOffsetX = rect.left; const canvasOffsetY = rect.top; mouseXInfo.innerText = mouseX = evt.clientX; mouseYInfo.innerText = mouseY = evt.clientY; canvasXInfo.innerText = canvasX = parseInt(evt.clientX - rect.left); canvasYInfo.innerText = canvasY = parseInt(evt.clientY - rect.top); snapXInfo.innerText = canvasX + snap(canvasX); snapYInfo.innerText = canvasY + snap(canvasY); ovCtx.clearRect(0, 0, ovCanvas.width, ovCanvas.height); // clear out the previous mouse cursor if (placingArbitraryImage) { // ugh refactor so this isn't duplicated between arbitrary image and dream reticle modes snapOffsetX = 0; snapOffsetY = 0; if (snapToGrid) { snapOffsetX = snap(canvasX, false); snapOffsetY = snap(canvasY, false); } finalX = snapOffsetX + canvasX; finalY = snapOffsetY + canvasY; ovCtx.drawImage(arbitraryImage, finalX, finalY); } else if (!paintMode) { // draw targeting square reticle thingy cursor ovCtx.strokeStyle = "#00000077"; snapOffsetX = 0; snapOffsetY = 0; if (snapToGrid) { snapOffsetX = snap(canvasX); snapOffsetY = snap(canvasY); } finalX = snapOffsetX + canvasX; finalY = snapOffsetY + canvasY; ovCtx.strokeRect(parseInt(finalX - ((basePixelCount * scaleFactor) / 2)), parseInt(finalY - ((basePixelCount * scaleFactor) / 2)), basePixelCount * scaleFactor, basePixelCount * scaleFactor); //origin is middle of the frame } else { // draw big translucent red blob cursor ovCtx.beginPath(); ovCtx.arc(canvasX, canvasY, 4 * scaleFactor, 0, 2 * Math.PI, true); // for some reason 4x on an arc is === to 8x on a line??? ovCtx.fillStyle = "#FF6A6A50"; ovCtx.fill(); // in case i'm trying to draw mouseX = parseInt(evt.clientX - canvasOffsetX); mouseY = parseInt(evt.clientY - canvasOffsetY); if (clicked) { // i'm trying to draw, please draw :( if (eraseMode) { // THIS IS SOOOO BROKEN AND I DON'T UNDERSTAND WHY BECAUSE I AM THE BIG DUMB maskPaintCtx.globalCompositeOperation = 'destination-out'; // maskPaintCtx.strokeStyle = "#FFFFFF00"; } else { maskPaintCtx.globalCompositeOperation = 'source-over'; maskPaintCtx.strokeStyle = "#FF6A6A10"; } maskPaintCtx.lineWidth = 8 * scaleFactor; maskPaintCtx.beginPath(); maskPaintCtx.moveTo(prevMouseX, prevMouseY); maskPaintCtx.lineTo(mouseX, mouseY); maskPaintCtx.lineJoin = maskPaintCtx.lineCap = 'round'; maskPaintCtx.stroke(); } prevMouseX = mouseX; prevMouseY = mouseY; } } function mouseDown(evt) { const rect = ovCanvas.getBoundingClientRect() var oddOffset = 0; if (scaleFactor % 2 != 0) { oddOffset = basePixelCount / 2; } if (evt.button == 0) { // left click if (placingArbitraryImage) { var nextBox = {}; nextBox.x = evt.offsetX; nextBox.y = evt.offsetY; nextBox.w = arbitraryImageData.width; nextBox.h = arbitraryImageData.height; dropTargets.push(nextBox); } else if (paintMode) { //const rect = ovCanvas.getBoundingClientRect() // not-quite pixel offset was driving me insane const canvasOffsetX = rect.left; const canvasOffsetY = rect.top; prevMouseX = mouseX = evt.clientX - canvasOffsetX; prevMouseY = mouseY = evt.clientY - canvasOffsetY; clicked = true; } else { //const rect = ovCanvas.getBoundingClientRect() var nextBox = {}; nextBox.x = evt.clientX - ((basePixelCount * scaleFactor) / 2) - rect.left + oddOffset; //origin is middle of the frame nextBox.y = evt.clientY - ((basePixelCount * scaleFactor) / 2) - rect.top + oddOffset; //TODO make a way to set the origin to numpad dirs? nextBox.w = basePixelCount * scaleFactor; nextBox.h = basePixelCount * scaleFactor; drawTargets.push(nextBox); } } else if (evt.button == 2 && !paintMode) { // right click, also gotta make sure mask blob isn't being used as it's visually inconsistent with behavior of erased region // erase the canvas underneath the cursor, ctx = imgCanvas.getContext('2d'); if (snapToGrid) { ctx.clearRect(canvasX + snap(canvasX) - ((basePixelCount * scaleFactor) / 2), canvasY + snap(canvasY) - ((basePixelCount * scaleFactor) / 2), basePixelCount * scaleFactor, basePixelCount * scaleFactor); } else { ctx.clearRect(canvasX - ((basePixelCount * scaleFactor) / 2), canvasY - ((basePixelCount * scaleFactor) / 2), basePixelCount * scaleFactor, basePixelCount * scaleFactor); } } } function mouseUp(evt) { if (evt.button == 0) { // left click if (placingArbitraryImage) { // jeez i REALLY need to refactor tons of this to not be duplicated all over, that's definitely my next chore after figuring out that razza frazza overmask fade var target = dropTargets[dropTargets.length - 1]; //get the last one... why am i storing all of them? snapOffsetX = 0; snapOffsetY = 0; if (snapToGrid) { snapOffsetX = snap(target.x, false); snapOffsetY = snap(target.y, false); } finalX = snapOffsetX + target.x; finalY = snapOffsetY + target.y; drawThis.x = finalX; drawThis.y = finalY; drawThis.w = target.w; drawThis.h = target.h; drawIt = drawThis; // i still think this is really stupid and redundant and unnecessary and redundant drop(drawIt); } else if (paintMode) { clicked = false; return; } else { if (!blockNewImages) { //TODO seriously, refactor this blockNewImages = true; clearTargetMask(); tgtCtx.strokeStyle = "#55000077"; var drawIt = {}; //why am i doing this???? var target = drawTargets[drawTargets.length - 1]; //get the last one... why am i storing all of them? var oddOffset = 0; if (scaleFactor % 2 != 0) { oddOffset = basePixelCount / 2; } snapOffsetX = 0; snapOffsetY = 0; if (snapToGrid) { snapOffsetX = snap(target.x); snapOffsetY = snap(target.y); } finalX = snapOffsetX + target.x - oddOffset; finalY = snapOffsetY + target.y - oddOffset; drawThis.x = finalX; drawThis.y = finalY; drawThis.w = target.w; drawThis.h = target.h; tgtCtx.strokeRect(finalX, finalY, target.w, target.h); drawIt = drawThis; //TODO this is WRONG but also explicitly only draws the last image ... i think //check if there's image data already there // console.log(downX + ":" + downY + " :: " + this.isCanvasBlank(downX, downY)); if (!isCanvasBlank(drawIt.x, drawIt.y, drawIt.w, drawIt.h, imgCanvas)) { // img2img var mainCanvasCtx = document.getElementById("canvas").getContext("2d"); const imgChunk = mainCanvasCtx.getImageData(drawIt.x, drawIt.y, drawIt.w, drawIt.h); // imagedata object of the image being outpainted const imgChunkData = imgChunk.data; // imagedata.data object, a big inconvenient uint8clampedarray // these are the 3 mask monitors on the bottom of the page var maskCanvas = document.getElementById("maskCanvasMonitor"); var initImgCanvas = document.getElementById("initImgCanvasMonitor"); var overMaskCanvas = document.getElementById("overMaskCanvasMonitor"); overMaskCanvas.width = initImgCanvas.width = maskCanvas.width = target.w; overMaskCanvas.height = initImgCanvas.height = maskCanvas.height = target.h; var maskCanvasCtx = maskCanvas.getContext("2d"); var initImgCanvasCtx = initImgCanvas.getContext("2d"); var overMaskCanvasCtx = overMaskCanvas.getContext("2d"); // get blank pixels to use as mask const maskImgData = maskCanvasCtx.createImageData(drawIt.w, drawIt.h); const initImgData = mainCanvasCtx.createImageData(drawIt.w, drawIt.h); const overMaskImgData = overMaskCanvasCtx.createImageData(drawIt.w, drawIt.h); // cover entire masks in black before adding masked areas for (let i = 0; i < imgChunkData.length; i += 4) { // l->r, top->bottom, R G B A pixel values in a big ol array // make a simple mask if (imgChunkData[i + 3] == 0) { // rgba pixel values, 4th one is alpha, if it's 0 there's "nothing there" in the image display canvas and its time to outpaint maskImgData.data[i] = 255; // white mask gets painted over maskImgData.data[i + 1] = 255; maskImgData.data[i + 2] = 255; maskImgData.data[i + 3] = 255; overMaskImgData.data[i] = 255; //lets just set this up now overMaskImgData.data[i + 1] = 255; overMaskImgData.data[i + 2] = 255; overMaskImgData.data[i + 3] = 255; initImgData.data[i] = 0; // null area on initial image becomes opaque black pixels initImgData.data[i + 1] = 0; initImgData.data[i + 2] = 0; initImgData.data[i + 3] = 255; } else { // leave these pixels alone maskImgData.data[i] = 0; // black mask gets ignored for in/outpainting maskImgData.data[i + 1] = 0; maskImgData.data[i + 2] = 0; maskImgData.data[i + 3] = 255; // but it still needs an opaque alpha channel overMaskImgData.data[i] = 0; overMaskImgData.data[i + 1] = 0; overMaskImgData.data[i + 2] = 0; overMaskImgData.data[i + 3] = 255; initImgData.data[i] = imgChunkData[i]; // put the original picture back in the painted area initImgData.data[i + 1] = imgChunkData[i + 1]; initImgData.data[i + 2] = imgChunkData[i + 2]; initImgData.data[i + 3] = imgChunkData[i + 3]; //it's still RGBA so we can handily do this in nice chunks'o'4 } } // make a list of all the white pixels to expand so we don't waste time on non-mask pixels let pix = { x: [], y: [], index: [] }; var x, y, index; for (y = 0; y < drawIt.h; y++) { for (x = 0; x < drawIt.w; x++) { index = ((y * drawIt.w + x) * 4); if (overMaskImgData.data[index] > 0) { pix.x.push(x); pix.y.push(y); pix.index.push(index); } } } for (i = 0; i < pix.index.length; i++) { // get the index in the stupid array // why? it's unused // var currentMaskPixelIndex = pix.index[i]; // for any horizontal expansion, we need to ensure that the target pixel is in the same Y row // horizontal left (west) is index-4 per pixel // horizontal right (east) is index+4 per pixel var currentMaskPixelY = pix.y[i]; // for any vertical expansion, we need to ensure that the target pixel is in the same X column // vertical up (north) is index-(imagedata.width) per pixel // vertical down (south) is index+(imagedata.width) per pixel var currentMaskPixelX = pix.x[i]; // i hate uint8clampedarray and math // primarily math // actually just my brain // ok so now lets check neighbors to see if they're in the same row/column for (j = overMaskPx; j > 0; j--) { // set a variable to the extreme end of the overmask size and work our way back inwards // i hate uint8clampedarray and math // this is so inefficient but i warned you all i'm bad at this //TODO refactor like all of this, it's horrible and shameful // BUT IT WORKS // but it is crushingly inefficient i'm sure // BUT IT WORKS and i came up with it all by myself because i'm a big boy // ... sigh it doesn't work _well_ // just moves the seam //TODO find a way to fade/gradient the edge without making weird artifacts or literally crashing the browser with inefficient data storage // west var potentialPixelIndex = ((currentMaskPixelY * drawIt.w + currentMaskPixelX) * 4) - (j * 4); var potentialPixelX = (potentialPixelIndex / 4) % drawIt.w; var potentialPixelY = Math.floor((potentialPixelIndex / 4) / drawIt.w); // west/east: ENSURE SAME ROW using the y axis unintuitively if (potentialPixelY == currentMaskPixelY) { // ok then // ensure it's not already a mask pixel if (overMaskImgData.data[potentialPixelIndex] != 255) { // welp fingers crossed overMaskImgData.data[potentialPixelIndex] = 255; overMaskImgData.data[potentialPixelIndex + 1] = 255; overMaskImgData.data[potentialPixelIndex + 2] = 255; overMaskImgData.data[potentialPixelIndex + 3] = 255; } } // east var potentialPixelIndex = ((currentMaskPixelY * drawIt.w + currentMaskPixelX) * 4) + (j * 4); var potentialPixelX = (potentialPixelIndex / 4) % drawIt.w; var potentialPixelY = Math.floor((potentialPixelIndex / 4) / drawIt.w); if (potentialPixelY == currentMaskPixelY) { if (overMaskImgData.data[potentialPixelIndex] != 255) { overMaskImgData.data[potentialPixelIndex] = 255; overMaskImgData.data[potentialPixelIndex + 1] = 255; overMaskImgData.data[potentialPixelIndex + 2] = 255; overMaskImgData.data[potentialPixelIndex + 3] = 255; } } // north var potentialPixelIndex = ((currentMaskPixelY * drawIt.w + currentMaskPixelX) * 4) - ((j * drawIt.w) * 4); var potentialPixelX = (potentialPixelIndex / 4) % drawIt.w; var potentialPixelY = Math.floor((potentialPixelIndex / 4) / drawIt.w); // north/south: ENSURE SAME COLUMN using the x axis unintuitively if (potentialPixelX == currentMaskPixelX) { if (overMaskImgData.data[potentialPixelIndex] != 255) { overMaskImgData.data[potentialPixelIndex] = 255; overMaskImgData.data[potentialPixelIndex + 1] = 255; overMaskImgData.data[potentialPixelIndex + 2] = 255; overMaskImgData.data[potentialPixelIndex + 3] = 255; } } // south var potentialPixelIndex = ((currentMaskPixelY * drawIt.w + currentMaskPixelX) * 4) + ((j * drawIt.w) * 4); var potentialPixelX = (potentialPixelIndex / 4) % drawIt.w; var potentialPixelY = Math.floor((potentialPixelIndex / 4) / drawIt.w); if (potentialPixelX == currentMaskPixelX) { if (overMaskImgData.data[potentialPixelIndex] != 255) { overMaskImgData.data[potentialPixelIndex] = 255; overMaskImgData.data[potentialPixelIndex + 1] = 255; overMaskImgData.data[potentialPixelIndex + 2] = 255; overMaskImgData.data[potentialPixelIndex + 3] = 255; } } } } // also check for painted masks in region, add them as white pixels to mask canvas const maskChunk = maskPaintCtx.getImageData(drawIt.x, drawIt.y, drawIt.w, drawIt.h); const maskChunkData = maskChunk.data; for (let i = 0; i < maskChunkData.length; i += 4) { if (maskChunkData[i + 3] != 0) { maskImgData.data[i] = 255; maskImgData.data[i + 1] = 255; maskImgData.data[i + 2] = 255; maskImgData.data[i + 3] = 255; overMaskImgData.data[i] = 255; overMaskImgData.data[i + 1] = 255; overMaskImgData.data[i + 2] = 255; overMaskImgData.data[i + 3] = 255; } } // backup any painted masks ingested then them, replacable if user doesn't like resultant image var clearArea = maskPaintCtx.createImageData(drawIt.w, drawIt.h); backupMaskChunk = maskChunk; backupMaskX = drawIt.x; backupMaskY = drawIt.y; var clearD = clearArea.data; for (let i = 0; i < clearD.length; i++) { clearD[i] = 0; // just null it all out } maskPaintCtx.putImageData(clearArea, drawIt.x, drawIt.y); // mask monitors maskCanvasCtx.putImageData(maskImgData, 0, 0); var maskBase64 = maskCanvas.toDataURL(); overMaskCanvasCtx.putImageData(overMaskImgData, 0, 0); // :pray: var overMaskBase64 = overMaskCanvas.toDataURL(); initImgCanvasCtx.putImageData(initImgData, 0, 0); var initImgBase64 = initImgCanvas.toDataURL(); // img2img endpoint = "img2img"; var selectedMask = overMask ? overMaskBase64 : maskBase64; stableDiffusionData.mask = selectedMask; // stableDiffusionData.mask = maskBase64; stableDiffusionData.init_images = [initImgBase64]; // slightly more involved than txt2img } else { // txt2img endpoint = "txt2img"; // easy enough } stableDiffusionData.prompt = document.getElementById("prompt").value; stableDiffusionData.negative_prompt = document.getElementById("negPrompt").value; stableDiffusionData.width = drawIt.w; stableDiffusionData.height = drawIt.h; stableDiffusionData.firstphase_height = (drawIt.h / 2); stableDiffusionData.firstphase_width = (drawIt.w / 2); dream(drawIt.x, drawIt.y, stableDiffusionData); } } } } const changeScaleFactor = sliderChangeHandlerFactory("scaleFactor", "scaleFactorTxt", "scaleFactor", 8); const changeSteps = sliderChangeHandlerFactory("steps", "stepsTxt", "steps", 30); function changePaintMode() { paintMode = document.getElementById("cbxPaint").checked; clearTargetMask(); ovCtx.clearRect(0, 0, ovCanvas.width, ovCanvas.height); } function changeEraseMode() { eraseMode = document.getElementById("cbxErase").checked; clearTargetMask(); ovCtx.clearRect(0, 0, ovCanvas.width, ovCanvas.height); } function changeSampler() { stableDiffusionData.sampler_index = document.getElementById("samplerSelect").value; localStorage.setItem("sampler", stableDiffusionData.sampler_index); } const changeCfgScale = sliderChangeHandlerFactory("cfgScale", "cfgScaleTxt", "cfg_scale", 7.0); const changeBatchSize = sliderChangeHandlerFactory("batchSize", "batchSizeText", "batch_size", 2); const changeBatchCount = sliderChangeHandlerFactory("batchCount", "batchCountText", "n_iter", 2); function changeSnapMode() { snapToGrid = document.getElementById("cbxSnap").checked; } function changeMaskBlur() { stableDiffusionData.mask_blur = document.getElementById("maskBlur").value; localStorage.setItem("mask_blur", stableDiffusionData.mask_blur); } function changeSeed() { stableDiffusionData.seed = document.getElementById("seed").value; localStorage.setItem("seed", stableDiffusionData.seed); } function changeOverMask() { overMask = document.getElementById("cbxOverMask").checked; } function changeOverMaskPx() { overMaskPx = document.getElementById("overMaskPx").value; } function changeHiResFix() { stableDiffusionData.enable_hr = Boolean(document.getElementById("cbxHRFix").checked); localStorage.setItem("enable_hr", stableDiffusionData.enable_hr); } function isCanvasBlank(x, y, w, h, specifiedCanvas) { var canvas = document.getElementById(specifiedCanvas.id); return !canvas.getContext('2d') .getImageData(x, y, w, h).data .some(channel => channel !== 0); } function drawBackground() { bgCtx.lineWidth = 1; bgCtx.strokeStyle = '#999'; var gridbox = bgCanvas.getBoundingClientRect(); for (var i = 0; i < gridbox.width; i += 64) { bgCtx.moveTo(i, 0); bgCtx.lineTo(i, bgCanvas.height); bgCtx.stroke(); } for (var i = 0; i < gridbox.height; i += 64) { bgCtx.moveTo(0, i); bgCtx.lineTo(gridbox.width, i); bgCtx.stroke(); } } function preloadImage() { // gonna legit scream document.getElementById("overlayCanvas").onmousemove = null; document.getElementById("overlayCanvas").onmousedown = null; document.getElementById("overlayCanvas").onmouseup = null; var file = document.getElementById("preloadImage").files[0]; var reader = new FileReader(); reader.onload = function (evt) { var imgCanvas = document.createElement("canvas"); var imgCtx = imgCanvas.getContext("2d"); arbitraryImage = new Image(); arbitraryImage.onload = function () { blockNewImages = true; // now put it into imagedata for canvas fun imgCanvas.width = arbitraryImage.width; imgCanvas.height = arbitraryImage.height; imgCtx.drawImage(arbitraryImage, 0, 0); arbitraryImageData = imgCtx.getImageData(0, 0, arbitraryImage.width, arbitraryImage.height); // can't use that to drawImage on a canvas... arbitraryImageBitmap = createImageBitmap(arbitraryImageData); // apparently that either... maybe just the raw image? arbitraryImageBase64 = imgCanvas.toDataURL(); placingArbitraryImage = true; document.getElementById("overlayCanvas").onmousemove = mouseMove; document.getElementById("overlayCanvas").onmousedown = mouseDown; document.getElementById("overlayCanvas").onmouseup = mouseUp; } arbitraryImage.src = evt.target.result; } reader.readAsDataURL(file); } function downloadCanvas() { var link = document.createElement('a'); link.download = new Date().toISOString().slice(0, 19).replace('T', ' ').replace(':', ' ') + ' openOutpaint image.png'; var croppedCanvas = cropCanvas(imgCanvas); if (croppedCanvas != null) { link.href = croppedCanvas.toDataURL('image/png'); link.click(); } } function cropCanvas(sourceCanvas) { var w = sourceCanvas.width; var h = sourceCanvas.height; var pix = { x: [], y: [] }; var imageData = sourceCanvas.getContext('2d').getImageData(0, 0, w, h); var x, y, index; for (y = 0; y < h; y++) { for (x = 0; x < w; x++) { // lol i need to learn what this part does index = (y * w + x) * 4; // OHHH OK this is setting the imagedata.data uint8clampeddataarray index for the specified x/y coords //this part i get, this is checking that 4th RGBA byte for opacity if (imageData.data[index + 3] > 0) { pix.x.push(x); pix.y.push(y); } } } // ...need to learn what this part does too :badpokerface: // is this just determining the boundaries of non-transparent pixel data? pix.x.sort(function (a, b) { return a - b }); pix.y.sort(function (a, b) { return a - b }); var n = pix.x.length - 1; w = pix.x[n] - pix.x[0]; h = pix.y[n] - pix.y[0]; // yup sure looks like it try { var cut = sourceCanvas.getContext('2d').getImageData(pix.x[0], pix.y[0], w, h); var cutCanvas = document.createElement('canvas'); cutCanvas.width = w; cutCanvas.height = h; cutCanvas.getContext('2d').putImageData(cut, 0, 0); } catch (ex) { // probably empty image //TODO confirm edge cases? cutCanvas = null; } return cutCanvas; } function checkIfWebuiIsRunning() { var url = document.getElementById("host").value + "/startup-events" fetch(url).then(response => { if (response.status == 200) { console.log("webui is running"); } }).catch(error => { alert("WebUI doesnt seem to be running, please start it and try again\nCheck console for additional info\n" + error); }); } function loadSettings() { // set default values if not set DEFAULTS var _sampler = localStorage.getItem("sampler") == null ? "DDIM" : localStorage.getItem("sampler"); var _mask_blur = localStorage.getItem("mask_blur") == null ? 0 : localStorage.getItem("mask_blur"); var _seed = localStorage.getItem("seed") == null ? -1 : localStorage.getItem("seed"); var _enable_hr = Boolean(localStorage.getItem("enable_hr") == (null || "false") ? false : localStorage.getItem("enable_hr")); // set the values into the UI document.getElementById("samplerSelect").value = String(_sampler); document.getElementById("maskBlur").value = Number(_mask_blur); document.getElementById("seed").value = Number(_seed); document.getElementById("cbxHRFix").checked = Boolean(_enable_hr); }