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// Main
onUiLoaded(async () => {
const hotkeysConfig = {
resetZoom: "KeyR",
fitToScreen: "KeyS",
moveKey: "KeyF",
overlap: "KeyO",
};
let isMoving = false;
let mouseX, mouseY;
const elementIDs = {
sketch: "#img2img_sketch",
inpaint: "#img2maskimg",
inpaintSketch: "#inpaint_sketch",
img2imgTabs: "#mode_img2img .tab-nav",
};
async function getElements() {
const elements = await Promise.all(
Object.values(elementIDs).map((id) => document.querySelector(id))
);
return Object.fromEntries(
Object.keys(elementIDs).map((key, index) => [key, elements[index]])
);
}
const elements = await getElements();
function applyZoomAndPan(targetElement, elemId) {
targetElement.style.transformOrigin = "0 0";
let [zoomLevel, panX, panY] = [1, 0, 0];
let fullScreenMode = false;
// Reset the zoom level and pan position of the target element to their initial values
function resetZoom() {
zoomLevel = 1;
panX = 0;
panY = 0;
targetElement.style.transform = `scale(${zoomLevel}) translate(${panX}px, ${panY}px)`;
const canvas = document.querySelector(
`${elemId} canvas[key="interface"]`
);
toggleOverlap("off");
fullScreenMode = false;
if (
canvas &&
parseFloat(canvas.style.width) > 865 &&
parseFloat(targetElement.style.width) > 865
) {
fitToElement();
return;
}
targetElement.style.width = "";
if (canvas) {
targetElement.style.height = canvas.style.height;
}
}
// Toggle the zIndex of the target element between two values, allowing it to overlap or be overlapped by other elements
function toggleOverlap(forced = "") {
const zIndex1 = "0";
const zIndex2 = "998";
targetElement.style.zIndex =
targetElement.style.zIndex !== zIndex2 ? zIndex2 : zIndex1;
if (forced === "off") {
targetElement.style.zIndex = zIndex1;
} else if (forced === "on") {
targetElement.style.zIndex = zIndex2;
}
}
// Adjust the brush size based on the deltaY value from a mouse wheel event
function adjustBrushSize(
elemId,
deltaY,
withoutValue = false,
percentage = 5
) {
const input =
document.querySelector(`${elemId} input[aria-label='Brush radius']`) ||
document.querySelector(`${elemId} button[aria-label="Use brush"]`);
if (input) {
input.click();
if (!withoutValue) {
const maxValue = parseFloat(input.getAttribute("max")) || 100;
const changeAmount = maxValue * (percentage / 100);
const newValue =
parseFloat(input.value) +
(deltaY > 0 ? -changeAmount : changeAmount);
input.value = Math.min(Math.max(newValue, 0), maxValue);
input.dispatchEvent(new Event("change"));
}
}
}
// Reset zoom when uploading a new image
fileInput = document.querySelector(
`${elemId} input[type="file"][accept="image/*"].svelte-116rqfv`
);
fileInput.addEventListener("click", resetZoom);
// Update the zoom level and pan position of the target element based on the values of the zoomLevel, panX and panY variables
function updateZoom(newZoomLevel, mouseX, mouseY) {
newZoomLevel = Math.max(0.5, Math.min(newZoomLevel, 15));
panX += mouseX - (mouseX * newZoomLevel) / zoomLevel;
panY += mouseY - (mouseY * newZoomLevel) / zoomLevel;
targetElement.style.transformOrigin = "0 0";
targetElement.style.transform = `translate(${panX}px, ${panY}px) scale(${newZoomLevel})`;
toggleOverlap("on");
return newZoomLevel;
}
// Change the zoom level based on user interaction
function changeZoomLevel(operation, e) {
if (e.shiftKey) {
e.preventDefault();
let zoomPosX, zoomPosY;
let delta = 0.2;
if (zoomLevel > 7) {
delta = 0.9;
} else if (zoomLevel > 2) {
delta = 0.6;
}
zoomPosX = e.clientX;
zoomPosY = e.clientY;
fullScreenMode = false;
zoomLevel = updateZoom(
zoomLevel + (operation === "+" ? delta : -delta),
zoomPosX - targetElement.getBoundingClientRect().left,
zoomPosY - targetElement.getBoundingClientRect().top
);
}
}
/**
* This function fits the target element to the screen by calculating
* the required scale and offsets. It also updates the global variables
* zoomLevel, panX, and panY to reflect the new state.
*/
function fitToElement() {
//Reset Zoom
targetElement.style.transform = `translate(${0}px, ${0}px) scale(${1})`;
// Get element and screen dimensions
const elementWidth = targetElement.offsetWidth;
const elementHeight = targetElement.offsetHeight;
const parentElement = targetElement.parentElement;
const screenWidth = parentElement.clientWidth;
const screenHeight = parentElement.clientHeight;
// Get element's coordinates relative to the parent element
const elementRect = targetElement.getBoundingClientRect();
const parentRect = parentElement.getBoundingClientRect();
const elementX = elementRect.x - parentRect.x;
// Calculate scale and offsets
const scaleX = screenWidth / elementWidth;
const scaleY = screenHeight / elementHeight;
const scale = Math.min(scaleX, scaleY);
const transformOrigin =
window.getComputedStyle(targetElement).transformOrigin;
const [originX, originY] = transformOrigin.split(" ");
const originXValue = parseFloat(originX);
const originYValue = parseFloat(originY);
const offsetX =
(screenWidth - elementWidth * scale) / 2 - originXValue * (1 - scale);
const offsetY =
(screenHeight - elementHeight * scale) / 2.5 -
originYValue * (1 - scale);
// Apply scale and offsets to the element
targetElement.style.transform = `translate(${offsetX}px, ${offsetY}px) scale(${scale})`;
// Update global variables
zoomLevel = scale;
panX = offsetX;
panY = offsetY;
fullScreenMode = false;
toggleOverlap("off");
}
/**
* This function fits the target element to the screen by calculating
* the required scale and offsets. It also updates the global variables
* zoomLevel, panX, and panY to reflect the new state.
*/
// Fullscreen mode
function fitToScreen() {
const canvas = document.querySelector(
`${elemId} canvas[key="interface"]`
);
if (!canvas) return;
if (canvas.offsetWidth > 862) {
targetElement.style.width = canvas.offsetWidth + "px";
}
if (fullScreenMode) {
resetZoom();
fullScreenMode = false;
return;
}
//Reset Zoom
targetElement.style.transform = `translate(${0}px, ${0}px) scale(${1})`;
// Get element and screen dimensions
const elementWidth = targetElement.offsetWidth;
const elementHeight = targetElement.offsetHeight;
const screenWidth = window.innerWidth;
const screenHeight = window.innerHeight;
// Get element's coordinates relative to the page
const elementRect = targetElement.getBoundingClientRect();
const elementY = elementRect.y;
const elementX = elementRect.x;
// Calculate scale and offsets
const scaleX = screenWidth / elementWidth;
const scaleY = screenHeight / elementHeight;
const scale = Math.min(scaleX, scaleY);
// Get the current transformOrigin
const computedStyle = window.getComputedStyle(targetElement);
const transformOrigin = computedStyle.transformOrigin;
const [originX, originY] = transformOrigin.split(" ");
const originXValue = parseFloat(originX);
const originYValue = parseFloat(originY);
// Calculate offsets with respect to the transformOrigin
const offsetX =
(screenWidth - elementWidth * scale) / 2 -
elementX -
originXValue * (1 - scale);
const offsetY =
(screenHeight - elementHeight * scale) / 2 -
elementY -
originYValue * (1 - scale);
// Apply scale and offsets to the element
targetElement.style.transform = `translate(${offsetX}px, ${offsetY}px) scale(${scale})`;
// Update global variables
zoomLevel = scale;
panX = offsetX;
panY = offsetY;
fullScreenMode = true;
toggleOverlap("on");
}
// Handle keydown events
function handleKeyDown(event) {
const hotkeyActions = {
[hotkeysConfig.resetZoom]: resetZoom,
[hotkeysConfig.overlap]: toggleOverlap,
[hotkeysConfig.fitToScreen]: fitToScreen,
// [hotkeysConfig.moveKey] : moveCanvas,
};
const action = hotkeyActions[event.code];
if (action) {
event.preventDefault();
action(event);
}
}
// Get Mouse position
function getMousePosition(e) {
mouseX = e.offsetX;
mouseY = e.offsetY;
}
targetElement.addEventListener("mousemove", getMousePosition);
// Handle events only inside the targetElement
let isKeyDownHandlerAttached = false;
function handleMouseMove() {
if (!isKeyDownHandlerAttached) {
document.addEventListener("keydown", handleKeyDown);
isKeyDownHandlerAttached = true;
}
}
function handleMouseLeave() {
if (isKeyDownHandlerAttached) {
document.removeEventListener("keydown", handleKeyDown);
isKeyDownHandlerAttached = false;
}
}
// Add mouse event handlers
targetElement.addEventListener("mousemove", handleMouseMove);
targetElement.addEventListener("mouseleave", handleMouseLeave);
// Reset zoom when click on another tab
elements.img2imgTabs.addEventListener("click", resetZoom);
elements.img2imgTabs.addEventListener("click", () => {
targetElement.style.width = "";
});
targetElement.addEventListener("wheel", (e) => {
// change zoom level
const operation = e.deltaY > 0 ? "-" : "+";
changeZoomLevel(operation, e);
// Handle brush size adjustment with ctrl key pressed
if (e.ctrlKey || e.metaKey) {
e.preventDefault();
// Increase or decrease brush size based on scroll direction
adjustBrushSize(elemId, e.deltaY);
}
});
/**
* Handle the move event for pan functionality. Updates the panX and panY variables and applies the new transform to the target element.
* @param {MouseEvent} e - The mouse event.
*/
function handleMoveKeyDown(e) {
if (e.code === hotkeysConfig.moveKey) {
if (!e.ctrlKey && !e.metaKey) {
isMoving = true;
}
}
}
function handleMoveKeyUp(e) {
if (e.code === hotkeysConfig.moveKey) {
isMoving = false;
}
}
document.addEventListener("keydown", handleMoveKeyDown);
document.addEventListener("keyup", handleMoveKeyUp);
// Detect zoom level and update the pan speed.
function updatePanPosition(movementX, movementY) {
let panSpeed = 1.5;
if (zoomLevel > 8) {
panSpeed = 2.5;
}
panX = panX + movementX * panSpeed;
panY = panY + movementY * panSpeed;
targetElement.style.transform = `translate(${panX}px, ${panY}px) scale(${zoomLevel})`;
toggleOverlap("on");
}
function handleMoveByKey(e) {
if (isMoving) {
updatePanPosition(e.movementX, e.movementY);
targetElement.style.pointerEvents = "none";
} else {
targetElement.style.pointerEvents = "auto";
}
}
document.addEventListener("mousemove", handleMoveByKey);
}
applyZoomAndPan(elements.sketch, elementIDs.sketch);
applyZoomAndPan(elements.inpaint, elementIDs.inpaint);
applyZoomAndPan(elements.inpaintSketch, elementIDs.inpaintSketch);
});
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