openOutpaint/js/lib/ui.js

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/**
* This is a function that makes an HTMLElement draggable.
*
* The element must contain at least one child element with the class
* 'draggable', which will make it the handle for dragging the element
*
* @param {HTMLElement} element Element to make Draggable
*/
function makeDraggable(element) {
let dragging = false;
let offset = {x: 0, y: 0};
const margin = 10;
// Keeps the draggable element inside the window
const fixPos = () => {
const dbb = element.getBoundingClientRect();
if (dbb.left < margin) element.style.left = margin + "px";
else if (dbb.right > window.innerWidth - margin)
element.style.left =
dbb.left + (window.innerWidth - margin - dbb.right) + "px";
if (dbb.top < margin) element.style.top = margin + "px";
else if (dbb.bottom > window.innerHeight - margin)
element.style.top =
dbb.top + (window.innerHeight - margin - dbb.bottom) + "px";
};
// Detects the start of the mouse dragging event
mouse.listen.window.btn.left.onpaintstart.on((evn) => {
if (
element.contains(evn.target) &&
evn.target.classList.contains("draggable")
) {
const bb = element.getBoundingClientRect();
offset.x = evn.x - bb.x;
offset.y = evn.y - bb.y;
dragging = true;
}
});
// Runs when mouse moves
mouse.listen.window.btn.left.onpaint.on((evn) => {
if (dragging) {
element.style.right = null;
element.style.bottom = null;
element.style.top = evn.y - offset.y + "px";
element.style.left = evn.x - offset.x + "px";
fixPos();
}
});
// Stops dragging the element
mouse.listen.window.btn.left.onpaintend.on((evn) => {
dragging = false;
});
// Redraw after window resize
window.addEventListener("resize", () => {
fixPos();
});
}
/**
* Creates a custom slider element from a given div element
*
* @param {string} name The display name of the sliders
* @param {HTMLElement} wrapper The element to transform into a slider
* @param {object} options Extra options
* @param {number} options.min The minimum value of the slider
* @param {number} options.max The maximum value of the slider
* @param {number} options.step The step size for the slider
* @param {number} option.defaultValue The default value of the slider
* @param {number} [options.textStep=step] The step size for the slider text and setvalue \
* (usually finer, and an integer divisor of step size)
* @returns {{value: number, onchange: Observer<{value: number}>}} A reference to the value of the slider
*/
function createSlider(name, wrapper, options = {}) {
defaultOpt(options, {
valuecb: null,
min: 0,
max: 1,
step: 0.1,
defaultValue: 0.7,
textStep: null,
});
let value = options.defaultValue;
// Use phantom range element for rounding
const phantomRange = document.createElement("input");
phantomRange.type = "range";
phantomRange.min = options.min;
phantomRange.max = options.max;
phantomRange.step = options.step;
let phantomTextRange = phantomRange;
if (options.textStep) {
phantomTextRange = document.createElement("input");
phantomTextRange.type = "range";
phantomTextRange.min = options.min;
phantomTextRange.max = options.max;
phantomTextRange.step = options.textStep;
}
// Build slider element
const underEl = document.createElement("div");
underEl.classList.add("under");
const textEl = document.createElement("input");
textEl.type = "text";
textEl.classList.add("text");
const overEl = document.createElement("div");
overEl.classList.add("over");
wrapper.classList.add("slider-wrapper");
wrapper.appendChild(underEl);
wrapper.appendChild(textEl);
wrapper.appendChild(overEl);
const bar = document.createElement("div");
bar.classList.add("slider-bar");
underEl.appendChild(bar);
underEl.appendChild(document.createElement("div"));
// Change observer
/** @type {Observer<{value: number}>} */
const onchange = new Observer();
// Set value
const setValue = (val) => {
phantomTextRange.value = val;
value = parseFloat(phantomTextRange.value);
bar.style.width = `${
100 * ((value - options.min) / (options.max - options.min))
}%`;
textEl.value = `${name}: ${value}`;
options.valuecb && options.valuecb(value);
onchange.emit({value: val});
};
setValue(options.defaultValue);
// Events
textEl.addEventListener("blur", () => {
overEl.style.pointerEvents = "auto";
textEl.value = `${name}: ${value}`;
});
textEl.addEventListener("focus", () => {
overEl.style.pointerEvents = "none";
textEl.value = value;
});
textEl.addEventListener("change", () => {
try {
if (Number.isNaN(parseFloat(textEl.value))) setValue(value);
else setValue(parseFloat(textEl.value));
} catch (e) {}
});
keyboard.listen.onkeyclick.on((evn) => {
if (evn.target === textEl && evn.code === "Enter") {
textEl.blur();
}
});
mouse.listen.window.btn.left.onclick.on((evn) => {
if (evn.target === overEl) {
textEl.select();
}
});
mouse.listen.window.btn.left.ondrag.on((evn) => {
if (evn.initialTarget === overEl) {
const newv = Math.max(
options.min,
Math.min(
options.max,
((evn.evn.clientX - evn.initialTarget.getBoundingClientRect().left) /
wrapper.offsetWidth) *
(options.max - options.min) +
options.min
)
);
phantomRange.value = newv;
setValue(parseFloat(phantomRange.value));
}
});
return {
onchange,
set value(val) {
setValue(val);
},
get value() {
return value;
},
};
}
/**
* A function to transform a div into a autocompletable select element
*
* @param {string} name Name of the AutoComplete Select Element
* @param {HTMLDivElement} wrapper The div element that will wrap the input elements
* @param {object} options Extra options
* @param {boolean} options.multiple Whether multiple options can be selected
* @param {{name: string, value: string, optionelcb: (el: HTMLOptionElement) => void}[]} options.options Options to add to the selector
* @returns {AutoCompleteElement}
*/
function createAutoComplete(name, wrapper, options = {}) {
defaultOpt(options, {
multiple: false,
options: [],
});
wrapper.classList.add("autocomplete");
const inputEl = document.createElement("input");
inputEl.type = "text";
inputEl.classList.add("autocomplete-text");
const autocompleteEl = document.createElement("div");
autocompleteEl.classList.add("autocomplete-list", "display-none");
let timeout = null;
let ontext = false;
let onlist = false;
wrapper.appendChild(inputEl);
wrapper.appendChild(autocompleteEl);
const acobj = {
name,
wrapper,
_selectedOptions: new Set(),
_options: [],
/** @type {Observer<{name:string, value: string}>} */
onchange: new Observer(),
get value() {
const v = Array.from(this._selectedOptions).map((opt) => opt.value);
return options.multiple ? v : v[0];
},
set value(values) {
this._selectedOptions.clear();
for (const val of options.multiple ? values : [values]) {
const opt = this.options.find((option) => option.value === val);
if (!opt) continue; // Ignore invalid options
this._selectedOptions.add(opt);
}
this._sync();
},
_sync() {
const val = Array.from(this._selectedOptions).map((opt) => opt.value);
const name = Array.from(this._selectedOptions).map((opt) => opt.name);
for (const opt of this._options) {
if (acobj._selectedOptions.has(opt))
opt.optionElement.classList.add("selected");
else opt.optionElement.classList.remove("selected");
}
updateInputField();
this.onchange.emit({
name: options.multiple ? name : name[0],
value: options.multiple ? val : val[0],
});
},
get options() {
return this._options;
},
set options(val) {
this._options = [];
while (autocompleteEl.lastChild) {
autocompleteEl.removeChild(autocompleteEl.lastChild);
}
// Add options
val.forEach((opt) => {
const {name, value, title} = opt;
const optionEl = document.createElement("option");
optionEl.classList.add("autocomplete-option");
optionEl.title = title || name;
if (opt.optionelcb) opt.optionelcb(optionEl);
const option = {name, value, optionElement: optionEl};
this._options.push(option);
optionEl.addEventListener("click", () => select(option));
autocompleteEl.appendChild(optionEl);
});
updateOptions();
},
};
function updateInputField() {
inputEl.value = Array.from(acobj._selectedOptions)
.map((o) => o.name)
.join(", ");
inputEl.title = Array.from(acobj._selectedOptions)
.map((o) => o.name)
.join(", ");
}
function updateOptions() {
const text = inputEl.value.toLowerCase().trim();
acobj._options.forEach((opt) => {
const textLocation = opt.name.toLowerCase().indexOf(text);
while (opt.optionElement.lastChild) {
opt.optionElement.removeChild(opt.optionElement.lastChild);
}
opt.optionElement.append(
document.createTextNode(opt.name.substring(0, textLocation))
);
const span = document.createElement("span");
span.style.fontWeight = "bold";
span.textContent = opt.name.substring(
textLocation,
textLocation + text.length
);
opt.optionElement.appendChild(span);
opt.optionElement.appendChild(
document.createTextNode(
opt.name.substring(textLocation + text.length, opt.name.length)
)
);
if (textLocation !== -1) {
opt.optionElement.classList.remove("display-none");
} else opt.optionElement.classList.add("display-none");
});
}
function select(opt) {
ontext = false;
if (!options.multiple) {
onlist = false;
acobj._selectedOptions.clear();
autocompleteEl.classList.add("display-none");
for (const child of autocompleteEl.children) {
child.classList.remove("selected");
}
}
if (options.multiple && acobj._selectedOptions.has(opt)) {
acobj._selectedOptions.delete(opt);
opt.optionElement.classList.remove("selected");
} else {
acobj._selectedOptions.add(opt);
opt.optionElement.classList.add("selected");
}
acobj._sync();
}
inputEl.addEventListener("focus", () => {
ontext = true;
autocompleteEl.classList.remove("display-none");
inputEl.select();
});
inputEl.addEventListener("blur", () => {
ontext = false;
if (!onlist && !ontext) {
updateInputField();
autocompleteEl.classList.add("display-none");
}
});
autocompleteEl.addEventListener("mouseenter", () => {
onlist = true;
});
autocompleteEl.addEventListener("mouseleave", () => {
onlist = false;
if (!onlist && !ontext) {
updateInputField();
autocompleteEl.classList.add("display-none");
}
});
// Filter
inputEl.addEventListener("input", () => {
updateOptions();
});
acobj.options = options.options;
return acobj;
}