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|
import { ColorResult } from 'react-color';
import * as uuid from 'uuid';
//import { Socket } from '../node_modules/socket.io-client';
import * as Color from 'color';
import * as rp from 'request-promise';
import { Socket } from '../node_modules/socket.io/dist/index';
import { DocumentType } from './client/documents/DocumentTypes';
import { Colors } from './client/views/global/globalEnums';
import { Message } from './server/Message';
import { DocumentView } from './client/views/nodes/DocumentView';
export namespace Utils {
export let CLICK_TIME = 300;
export let DRAG_THRESHOLD = 4;
export let SNAP_THRESHOLD = 10;
export function isClick(x: number, y: number, downX: number, downY: number, downTime: number) {
return Date.now() - downTime < Utils.CLICK_TIME && Math.abs(x - downX) < Utils.DRAG_THRESHOLD && Math.abs(y - downY) < Utils.DRAG_THRESHOLD;
}
export function cleanDocumentType(type: DocumentType) {
switch (type) {
case DocumentType.IMG:
return 'Image';
case DocumentType.AUDIO:
return 'Audio';
case DocumentType.COL:
return 'Collection';
case DocumentType.RTF:
return 'Text';
default:
return type.charAt(0).toUpperCase() + type.slice(1);
}
}
export function readUploadedFileAsText(inputFile: File) {
const temporaryFileReader = new FileReader();
return new Promise((resolve, reject) => {
temporaryFileReader.onerror = () => {
temporaryFileReader.abort();
reject(new DOMException('Problem parsing input file.'));
};
temporaryFileReader.onload = () => {
resolve(temporaryFileReader.result);
};
temporaryFileReader.readAsText(inputFile);
});
}
export function GenerateGuid(): string {
return uuid.v4();
}
export function GenerateDeterministicGuid(seed: string): string {
return uuid.v5(seed, uuid.v5.URL);
}
export function GuestID() {
return '__guest__';
}
/**
* Uploads an image buffer to the server and stores with specified filename. by default the image
* is stored at multiple resolutions each retrieved by using the filename appended with _o, _s, _m, _l (indicating original, small, medium, or large)
* @param imageUri the bytes of the image
* @param returnedFilename the base filename to store the image on the server
* @param nosuffix optionally suppress creating multiple resolution images
*/
export async function convertDataUri(imageUri: string, returnedFilename: string, nosuffix = false, replaceRootFilename?: string) {
try {
const posting = Utils.prepend('/uploadURI');
const returnedUri = await rp.post(posting, {
body: {
uri: imageUri,
name: returnedFilename,
nosuffix,
replaceRootFilename,
},
json: true,
});
return returnedUri;
} catch (e) {
console.log('ConvertDataURI :' + e);
}
}
export function GetScreenTransform(ele?: HTMLElement | null): { scale: number; translateX: number; translateY: number } {
if (!ele) {
return { scale: 1, translateX: 1, translateY: 1 };
}
const rect = ele.getBoundingClientRect();
const scale = ele.offsetWidth === 0 && rect.width === 0 ? 1 : rect.width / ele.offsetWidth;
const translateX = rect.left;
const translateY = rect.top;
return { scale, translateX, translateY };
}
export function TraceConsoleLog() {
['log', 'warn'].forEach(function (method) {
const old = (console as any)[method];
(console as any)[method] = function () {
let stack = new Error('').stack?.split(/\n/);
// Chrome includes a single "Error" line, FF doesn't.
if (stack && stack[0].indexOf('Error') === 0) {
stack = stack.slice(1);
}
const message = (stack?.[1] || 'Stack undefined!').trim();
const args = ([] as any[]).slice.apply(arguments).concat([message]);
return old.apply(console, args);
};
});
}
/**
* A convenience method. Prepends the full path (i.e. http://localhost:<port>) to the
* requested extension
* @param extension the specified sub-path to append to the window origin
*/
export function prepend(extension: string): string {
return window.location.origin + extension;
}
export function fileUrl(filename: string): string {
return prepend(`/files/${filename}`);
}
export function shareUrl(documentId: string): string {
return prepend(`/doc/${documentId}?sharing=true`);
}
export function CorsProxy(url: string): string {
return prepend('/corsProxy/') + encodeURIComponent(url);
}
export function CopyText(text: string) {
navigator.clipboard.writeText(text);
}
export function decimalToHexString(number: number) {
if (number < 0) {
number = 0xffffffff + number + 1;
}
return (number < 16 ? '0' : '') + number.toString(16).toUpperCase();
}
export function colorString(color: ColorResult) {
return color.hex.startsWith('#') && color.hex.length < 8 ? color.hex + (color.rgb.a ? decimalToHexString(Math.round(color.rgb.a * 255)) : 'ff') : color.hex;
}
export function fromRGBAstr(rgba: string) {
const rm = rgba.match(/rgb[a]?\(([ 0-9]+)/);
const r = rm ? Number(rm[1]) : 0;
const gm = rgba.match(/rgb[a]?\([ 0-9]+,([ 0-9]+)/);
const g = gm ? Number(gm[1]) : 0;
const bm = rgba.match(/rgb[a]?\([ 0-9]+,[ 0-9]+,([ 0-9]+)/);
const b = bm ? Number(bm[1]) : 0;
const am = rgba.match(/rgba?\([ 0-9]+,[ 0-9]+,[ 0-9]+,([ .0-9]+)/);
const a = am ? Number(am[1]) : 1;
return { r: r, g: g, b: b, a: a };
}
const isTransparentFunctionHack = 'isTransparent(__value__)';
export const noRecursionHack = '__noRecursion';
// special case filters
export const noDragDocsFilter = 'noDragDocs::any::check';
export const TransparentBackgroundFilter = `backgroundColor::${isTransparentFunctionHack},${noRecursionHack}::check`; // bcz: hack. noRecursion should probably be either another ':' delimited field, or it should be a modifier to the comparision (eg., check, x, etc) field
export const OpaqueBackgroundFilter = `backgroundColor::${isTransparentFunctionHack},${noRecursionHack}::x`; // bcz: hack. noRecursion should probably be either another ':' delimited field, or it should be a modifier to the comparision (eg., check, x, etc) field
export function IsRecursiveFilter(val: string) {
return !val.includes(noRecursionHack);
}
export function HasFunctionFilter(val: string) {
if (val.includes(isTransparentFunctionHack)) return (color: string) => color !== '' && DashColor(color).alpha() !== 1;
// add other function filters here...
return undefined;
}
export function toRGBAstr(col: { r: number; g: number; b: number; a?: number }) {
return 'rgba(' + col.r + ',' + col.g + ',' + col.b + (col.a !== undefined ? ',' + col.a : '') + ')';
}
export function HSLtoRGB(h: number, s: number, l: number) {
// Must be fractions of 1
// s /= 100;
// l /= 100;
const c = (1 - Math.abs(2 * l - 1)) * s,
x = c * (1 - Math.abs(((h / 60) % 2) - 1)),
m = l - c / 2;
let r = 0,
g = 0,
b = 0;
if (0 <= h && h < 60) {
r = c;
g = x;
b = 0;
} else if (60 <= h && h < 120) {
r = x;
g = c;
b = 0;
} else if (120 <= h && h < 180) {
r = 0;
g = c;
b = x;
} else if (180 <= h && h < 240) {
r = 0;
g = x;
b = c;
} else if (240 <= h && h < 300) {
r = x;
g = 0;
b = c;
} else if (300 <= h && h < 360) {
r = c;
g = 0;
b = x;
}
r = Math.round((r + m) * 255);
g = Math.round((g + m) * 255);
b = Math.round((b + m) * 255);
return { r: r, g: g, b: b };
}
export function RGBToHSL(r: number, g: number, b: number) {
// Make r, g, and b fractions of 1
r /= 255;
g /= 255;
b /= 255;
// Find greatest and smallest channel values
const cmin = Math.min(r, g, b),
cmax = Math.max(r, g, b),
delta = cmax - cmin;
let h = 0,
s = 0,
l = 0;
// Calculate hue
// No difference
if (delta === 0) h = 0;
// Red is max
else if (cmax === r) h = ((g - b) / delta) % 6;
// Green is max
else if (cmax === g) h = (b - r) / delta + 2;
// Blue is max
else h = (r - g) / delta + 4;
h = Math.round(h * 60);
// Make negative hues positive behind 360°
if (h < 0) h += 360; // Calculate lightness
l = (cmax + cmin) / 2;
// Calculate saturation
s = delta === 0 ? 0 : delta / (1 - Math.abs(2 * l - 1));
// Multiply l and s by 100
// s = +(s * 100).toFixed(1);
// l = +(l * 100).toFixed(1);
return { h: h, s: s, l: l };
}
export function scrollIntoView(targetY: number, targetHgt: number, scrollTop: number, contextHgt: number, minSpacing: number, scrollHeight: number) {
if (!targetHgt) return targetY; // if there's no height, then assume that
if (scrollTop + contextHgt < Math.min(scrollHeight, targetY + minSpacing + targetHgt)) {
return Math.ceil(targetY + minSpacing + targetHgt - contextHgt);
}
if (scrollTop >= Math.max(0, targetY - minSpacing)) {
return Math.max(0, Math.floor(targetY - minSpacing));
}
}
export function clamp(n: number, lower: number, upper: number) {
return Math.max(lower, Math.min(upper, n));
}
export function distanceBetweenHorizontalLines(xs: number, xe: number, y: number, xs2: number, xe2: number, y2: number): [number, number[]] {
if ((xs2 <= xs && xe2 >= xs) || (xs2 <= xe && xe2 >= xe) || (xs2 >= xs && xe2 <= xe)) return [Math.abs(y - y2), [Math.max(xs, xs2), y, Math.min(xe, xe2), y]];
if (xe2 <= xs) return [Math.sqrt((xe2 - xs) * (xe2 - xs) + (y2 - y) * (y2 - y)), [xs, y, xs, y]];
//if (xs2 > xe)
return [Math.sqrt((xs2 - xe) * (xs2 - xe) + (y2 - y) * (y2 - y)), [xe, y, xe, y]];
}
export function distanceBetweenVerticalLines(x: number, ys: number, ye: number, x2: number, ys2: number, ye2: number): [number, number[]] {
if ((ys2 <= ys && ye2 >= ys) || (ys2 <= ye && ye2 >= ye) || (ys2 >= ys && ye2 <= ye)) return [Math.abs(x - x2), [x, Math.max(ys, ys2), x, Math.min(ye, ye2)]];
if (ye2 <= ys) return [Math.sqrt((ye2 - ys) * (ye2 - ys) + (x2 - x) * (x2 - x)), [x, ys, x, ys]];
//if (ys2 > ye)
return [Math.sqrt((ys2 - ye) * (ys2 - ye) + (x2 - x) * (x2 - x)), [x, ye, x, ye]];
}
export function rotPt(x: number, y: number, radAng: number) {
return { x: x * Math.cos(radAng) - y * Math.sin(radAng), y: x * Math.sin(radAng) + y * Math.cos(radAng) };
}
function project(px: number, py: number, ax: number, ay: number, bx: number, by: number) {
if (ax === bx && ay === by) return { point: { x: ax, y: ay }, left: false, dot: 0, t: 0 };
const atob = { x: bx - ax, y: by - ay };
const atop = { x: px - ax, y: py - ay };
const len = atob.x * atob.x + atob.y * atob.y;
var dot = atop.x * atob.x + atop.y * atob.y;
const t = Math.min(1, Math.max(0, dot / len));
dot = (bx - ax) * (py - ay) - (by - ay) * (px - ax);
return {
point: {
x: ax + atob.x * t,
y: ay + atob.y * t,
},
left: dot < 1,
dot: dot,
t: t,
};
}
export function closestPtBetweenRectangles(l: number, t: number, w: number, h: number, l1: number, t1: number, w1: number, h1: number, x: number, y: number) {
const r = l + w,
b = t + h;
const r1 = l1 + w1,
b1 = t1 + h1;
const hsegs = [
[l, r, t, l1, r1, t1],
[l, r, b, l1, r1, t1],
[l, r, t, l1, r1, b1],
[l, r, b, l1, r1, b1],
];
const vsegs = [
[l, t, b, l1, t1, b1],
[r, t, b, l1, t1, b1],
[l, t, b, r1, t1, b1],
[r, t, b, r1, t1, b1],
];
const res = hsegs.reduce(
(closest, seg) => {
const res = distanceBetweenHorizontalLines(seg[0], seg[1], seg[2], seg[3], seg[4], seg[5]);
return res[0] < closest[0] ? res : closest;
},
[Number.MAX_VALUE, []] as [number, number[]]
);
const fres = vsegs.reduce((closest, seg) => {
const res = distanceBetweenVerticalLines(seg[0], seg[1], seg[2], seg[3], seg[4], seg[5]);
return res[0] < closest[0] ? res : closest;
}, res);
const near = project(x, y, fres[1][0], fres[1][1], fres[1][2], fres[1][3]);
return project(near.point.x, near.point.y, fres[1][0], fres[1][1], fres[1][2], fres[1][3]);
}
export function getNearestPointInPerimeter(l: number, t: number, w: number, h: number, x: number, y: number) {
const r = l + w,
b = t + h;
(x = clamp(x, l, r)), (y = clamp(y, t, b));
const dl = Math.abs(x - l),
dr = Math.abs(x - r),
dt = Math.abs(y - t),
db = Math.abs(y - b);
const m = Math.min(dl, dr, dt, db);
return m === dt ? [x, t] : m === db ? [x, b] : m === dl ? [l, y] : [r, y];
}
export function GetClipboardText(): string {
const textArea = document.createElement('textarea');
document.body.appendChild(textArea);
textArea.focus();
textArea.select();
try {
document.execCommand('paste');
} catch (err) {}
const val = textArea.value;
document.body.removeChild(textArea);
return val;
}
export const loggingEnabled: Boolean = false;
export const logFilter: number | undefined = undefined;
function log(prefix: string, messageName: string, message: any, receiving: boolean) {
if (!loggingEnabled) {
return;
}
message = message || {};
if (logFilter !== undefined && logFilter !== message.type) {
return;
}
const idString = (message.id || '').padStart(36, ' ');
prefix = prefix.padEnd(16, ' ');
console.log(`${prefix}: ${idString}, ${receiving ? 'receiving' : 'sending'} ${messageName} with data ${JSON.stringify(message)} `);
}
function loggingCallback(prefix: string, func: (args: any) => any, messageName: string) {
return (args: any) => {
log(prefix, messageName, args, true);
func(args);
};
}
export function Emit<T>(socket: Socket, message: Message<T>, args: T) {
log('Emit', message.Name, args, false);
socket.emit(message.Message, args);
}
export function EmitCallback<T>(socket: Socket, message: Message<T>, args: T): Promise<any>;
export function EmitCallback<T>(socket: Socket, message: Message<T>, args: T, fn: (args: any) => any): void;
export function EmitCallback<T>(socket: Socket, message: Message<T>, args: T, fn?: (args: any) => any): void | Promise<any> {
log('Emit', message.Name, args, false);
if (fn) {
socket.emit(message.Message, args, loggingCallback('Receiving', fn, message.Name));
} else {
return new Promise<any>(res => socket.emit(message.Message, args, loggingCallback('Receiving', res, message.Name)));
}
}
export function AddServerHandler<T>(socket: Socket, message: Message<T>, handler: (args: T) => any) {
socket.on(message.Message, loggingCallback('Incoming', handler, message.Name));
}
export function AddServerHandlerCallback<T>(socket: Socket, message: Message<T>, handler: (args: [T, (res: any) => any]) => any) {
socket.on(message.Message, (arg: T, fn: (res: any) => any) => {
log('S receiving', message.Name, arg, true);
handler([arg, loggingCallback('S sending', fn, message.Name)]);
});
}
export type RoomHandler = (socket: Socket, room: string) => any;
export type UsedSockets = Socket;
export type RoomMessage = 'create or join' | 'created' | 'joined';
export function AddRoomHandler(socket: Socket, message: RoomMessage, handler: RoomHandler) {
socket.on(message, (room: any) => handler(socket, room));
}
}
export function OmitKeys(obj: any, keys: string[], pattern?: string, addKeyFunc?: (dup: any) => void): { omit: any; extract: any } {
const omit: any = { ...obj };
const extract: any = {};
keys.forEach(key => {
extract[key] = omit[key];
delete omit[key];
});
pattern &&
Array.from(Object.keys(omit))
.filter(key => key.match(pattern))
.forEach(key => {
extract[key] = omit[key];
delete omit[key];
});
addKeyFunc?.(omit);
return { omit, extract };
}
export function WithKeys(obj: any, keys: string[], addKeyFunc?: (dup: any) => void) {
const dup: any = {};
keys.forEach(key => (dup[key] = obj[key]));
addKeyFunc && addKeyFunc(dup);
return dup;
}
export function timenow() {
const now = new Date();
let ampm = 'am';
let h = now.getHours();
let m: any = now.getMinutes();
const s: any = now.getSeconds();
if (h >= 12) {
if (h > 12) h -= 12;
ampm = 'pm';
}
if (m < 10) m = '0' + m;
return now.toLocaleDateString() + ' ' + h + ':' + m + ' ' + ampm;
}
export function incrementTitleCopy(title: string) {
const numstr = title.match(/.*(\{([0-9]*)\})+/);
const copyNumStr = `{${1 + (numstr ? +numstr[2] : 0)}}`;
return (numstr ? title.replace(numstr[1], '') : title) + copyNumStr;
}
export function formatTime(time: number) {
time = Math.round(time);
const hours = Math.floor(time / 60 / 60);
const minutes = Math.floor(time / 60) - hours * 60;
const seconds = time % 60;
return (hours ? hours.toString() + ':' : '') + minutes.toString().padStart(2, '0') + ':' + seconds.toString().padStart(2, '0');
}
// x is furthest left, y is furthest top, r is furthest right, b is furthest bottom
export function aggregateBounds(boundsList: { x: number; y: number; width?: number; height?: number }[], xpad: number, ypad: number) {
const bounds = boundsList
.map(b => ({ x: b.x, y: b.y, r: b.x + (b.width || 0), b: b.y + (b.height || 0) }))
.reduce(
(bounds, b) => ({
x: Math.min(b.x, bounds.x),
y: Math.min(b.y, bounds.y),
r: Math.max(b.r, bounds.r),
b: Math.max(b.b, bounds.b),
}),
{ x: Number.MAX_VALUE, y: Number.MAX_VALUE, r: -Number.MAX_VALUE, b: -Number.MAX_VALUE }
);
return {
x: bounds.x !== Number.MAX_VALUE ? bounds.x - xpad : bounds.x,
y: bounds.y !== Number.MAX_VALUE ? bounds.y - ypad : bounds.y,
r: bounds.r !== -Number.MAX_VALUE ? bounds.r + xpad : bounds.r,
b: bounds.b !== -Number.MAX_VALUE ? bounds.b + ypad : bounds.b,
};
}
export function intersectRect(r1: { left: number; top: number; width: number; height: number }, r2: { left: number; top: number; width: number; height: number }) {
return !(r2.left > r1.left + r1.width || r2.left + r2.width < r1.left || r2.top > r1.top + r1.height || r2.top + r2.height < r1.top);
}
export function percent2frac(percent: string) {
return Number(percent.substr(0, percent.length - 1)) / 100;
}
export function numberRange(num: number) {
return num > 0 && num < 1000 ? Array.from(Array(num)).map((v, i) => i) : [];
}
export function returnTransparent() {
return 'transparent';
}
export function returnTrue() {
return true;
}
export function returnIgnore(): 'ignore' {
return 'ignore';
}
export function returnAlways(): 'always' {
return 'always';
}
export function returnNever(): 'never' {
return 'never';
}
export function returnDefault(): 'default' {
return 'default';
}
export function return18() {
return 18;
}
export function returnFalse() {
return false;
}
export function returnAll(): 'all' {
return 'all';
}
export function returnNone(): 'none' {
return 'none';
}
export function returnVal(val1?: number, val2?: number) {
return val1 ? val1 : val2 !== undefined ? val2 : 0;
}
export function returnOne() {
return 1;
}
export function returnZero() {
return 0;
}
export function returnEmptyString() {
return '';
}
export function returnEmptyFilter() {
return [] as string[];
}
export function returnEmptyDoclist() {
return [] as any[];
}
export let emptyPath: DocumentView[] = [];
export function emptyFunction() {
return undefined;
}
export function unimplementedFunction() {
throw new Error('This function is not implemented, but should be.');
}
export type Without<T, K extends keyof T> = Pick<T, Exclude<keyof T, K>>;
export type Predicate<K, V> = (entry: [K, V]) => boolean;
export function DeepCopy<K, V>(source: Map<K, V>, predicate?: Predicate<K, V>) {
const deepCopy = new Map<K, V>();
const entries = source.entries();
let next = entries.next();
while (!next.done) {
const entry = next.value;
if (!predicate || predicate(entry)) {
deepCopy.set(entry[0], entry[1]);
}
next = entries.next();
}
return deepCopy;
}
export namespace JSONUtils {
export function tryParse(source: string) {
let results: any;
try {
results = JSON.parse(source);
} catch (e) {
results = source;
}
return results;
}
}
const easeFunc = (transition: 'ease' | 'linear' | undefined, currentTime: number, start: number, change: number, duration: number) => {
if (transition === 'linear') {
let newCurrentTime = currentTime / duration; // currentTime / (duration / 2);
return start + newCurrentTime * change;
}
let newCurrentTime = currentTime / (duration / 2);
if (newCurrentTime < 1) {
return (change / 2) * newCurrentTime * newCurrentTime + start;
}
newCurrentTime -= 1;
return (-change / 2) * (newCurrentTime * (newCurrentTime - 2) - 1) + start;
};
export function smoothScroll(duration: number, element: HTMLElement | HTMLElement[], to: number, transition: 'ease' | 'linear' | undefined, stopper?: () => void) {
stopper?.();
const elements = element instanceof HTMLElement ? [element] : element;
const starts = elements.map(element => element.scrollTop);
const startDate = new Date().getTime();
let _stop = false;
const stop = () => (_stop = true);
const animateScroll = () => {
const currentDate = new Date().getTime();
const currentTime = currentDate - startDate;
elements.map((element, i) => (element.scrollTop = easeFunc(transition, currentTime, starts[i], to - starts[i], duration)));
if (!_stop) {
if (currentTime < duration) {
requestAnimationFrame(animateScroll);
} else {
elements.forEach(element => (element.scrollTop = to));
}
}
};
animateScroll();
return stop;
}
export function smoothScrollHorizontal(duration: number, element: HTMLElement | HTMLElement[], to: number) {
const elements = element instanceof HTMLElement ? [element] : element;
const starts = elements.map(element => element.scrollLeft);
const startDate = new Date().getTime();
const animateScroll = () => {
const currentDate = new Date().getTime();
const currentTime = currentDate - startDate;
elements.map((element, i) => (element.scrollLeft = easeFunc('ease', currentTime, starts[i], to - starts[i], duration)));
if (currentTime < duration) {
requestAnimationFrame(animateScroll);
} else {
elements.forEach(element => (element.scrollLeft = to));
}
};
animateScroll();
}
export function addStyleSheet(styleType: string = 'text/css') {
const style = document.createElement('style');
style.type = styleType;
const sheets = document.head.appendChild(style);
return (sheets as any).sheet;
}
export function addStyleSheetRule(sheet: any, selector: any, css: any, selectorPrefix = '.') {
const propText =
typeof css === 'string'
? css
: Object.keys(css)
.map(p => p + ':' + (p === 'content' ? "'" + css[p] + "'" : css[p]))
.join(';');
return sheet.insertRule(selectorPrefix + selector + '{' + propText + '}', sheet.cssRules.length);
}
export function removeStyleSheetRule(sheet: any, rule: number) {
if (sheet.rules.length) {
sheet.removeRule(rule);
return true;
}
return false;
}
export function clearStyleSheetRules(sheet: any) {
if (sheet.rules.length) {
numberRange(sheet.rules.length).map(n => sheet.removeRule(0));
return true;
}
return false;
}
export function simulateMouseClick(element: Element | null | undefined, x: number, y: number, sx: number, sy: number, rightClick = true) {
if (!element) return;
['pointerdown', 'pointerup'].map(event => {
const me = new PointerEvent(event, {
view: window,
bubbles: true,
cancelable: true,
button: 2,
pointerType: 'mouse',
clientX: x,
clientY: y,
screenX: sx,
screenY: sy,
});
(me as any).dash = true;
element.dispatchEvent(me);
});
if (rightClick) {
const me = new MouseEvent('contextmenu', {
view: window,
bubbles: true,
cancelable: true,
button: 2,
clientX: x,
clientY: y,
movementX: 0,
movementY: 0,
screenX: sx,
screenY: sy,
});
(me as any).dash = true;
element.dispatchEvent(me);
}
}
export function DashColor(color: string) {
try {
return color ? Color(color.toLowerCase()) : Color('transparent');
} catch (e) {
if (color.includes('gradient')) console.log("using color 'white' in place of :" + color);
else console.log('COLOR error:', e);
return Color('white');
}
}
export function lightOrDark(color: any) {
if (color === 'transparent' || !color) return Colors.BLACK;
if (color.startsWith?.('linear')) return Colors.BLACK;
if (DashColor(color).isLight()) return Colors.BLACK;
return Colors.WHITE;
}
export function getWordAtPoint(elem: any, x: number, y: number): string | undefined {
if (elem.tagName === 'INPUT') return 'input';
if (elem.tagName === 'TEXTAREA') return 'textarea';
if (elem.nodeType === elem.TEXT_NODE) {
const range = elem.ownerDocument.createRange();
range.selectNodeContents(elem);
var currentPos = 0;
const endPos = range.endOffset;
while (currentPos + 1 <= endPos) {
range.setStart(elem, currentPos);
range.setEnd(elem, currentPos + 1);
const rangeRect = range.getBoundingClientRect();
if (rangeRect.left <= x && rangeRect.right >= x && rangeRect.top <= y && rangeRect.bottom >= y) {
range.expand?.('word'); // doesn't exist in firefox
const ret = range.toString();
range.detach();
return ret;
}
currentPos += 1;
}
} else {
for (const childNode of elem.childNodes) {
const range = childNode.ownerDocument.createRange();
range.selectNodeContents(childNode);
const rangeRect = range.getBoundingClientRect();
if (rangeRect.left <= x && rangeRect.right >= x && rangeRect.top <= y && rangeRect.bottom >= y) {
range.detach();
const word = getWordAtPoint(childNode, x, y);
if (word) return word;
} else {
range.detach();
}
}
}
return undefined;
}
export function isTargetChildOf(ele: HTMLDivElement | null, target: Element | null) {
let entered = false;
for (let child = target; !entered && child; child = child.parentElement) {
entered = child === ele;
}
return entered;
}
export function StopEvent(e: React.PointerEvent | React.MouseEvent) {
e.stopPropagation();
e.preventDefault();
}
/**
* Helper method for converting pixel string eg. '32px' into number eg. 32
* @param value: string with 'px' ending
* @returns value: number
*
* Example:
* '32px' -> 32
*/
export function numberValue(value: string | undefined): number {
if (value == undefined) return 0;
return parseInt(value);
}
export function numbersAlmostEqual(num1: number, num2: number) {
return Math.abs(num1 - num2) < 0.2;
}
export function setupMoveUpEvents(
target: object,
e: React.PointerEvent,
moveEvent: (e: PointerEvent, down: number[], delta: number[]) => boolean,
upEvent: (e: PointerEvent, movement: number[], isClick: boolean) => any,
clickEvent: (e: PointerEvent, doubleTap?: boolean) => any,
stopPropagation: boolean = true,
stopMovePropagation: boolean = true,
noDoubleTapTimeout?: () => void
) {
const doubleTapTimeout = 300;
(target as any)._doubleTap = Date.now() - (target as any)._lastTap < doubleTapTimeout;
(target as any)._lastTap = Date.now();
(target as any)._downX = (target as any)._lastX = e.clientX;
(target as any)._downY = (target as any)._lastY = e.clientY;
(target as any)._noClick = false;
const _moveEvent = (e: PointerEvent): void => {
if (Math.abs(e.clientX - (target as any)._downX) > Utils.DRAG_THRESHOLD || Math.abs(e.clientY - (target as any)._downY) > Utils.DRAG_THRESHOLD) {
if ((target as any)._doubleTime) {
clearTimeout((target as any)._doubleTime);
(target as any)._doubleTime = undefined;
}
if (moveEvent(e, [(target as any)._downX, (target as any)._downY], [e.clientX - (target as any)._lastX, e.clientY - (target as any)._lastY])) {
document.removeEventListener('pointermove', _moveEvent);
document.removeEventListener('pointerup', _upEvent);
}
}
(target as any)._lastX = e.clientX;
(target as any)._lastY = e.clientY;
stopMovePropagation && e.stopPropagation();
};
const _upEvent = (e: PointerEvent): void => {
const isClick = Math.abs(e.clientX - (target as any)._downX) < 4 && Math.abs(e.clientY - (target as any)._downY) < 4;
upEvent(e, [e.clientX - (target as any)._downX, e.clientY - (target as any)._downY], isClick);
if (isClick) {
if (!(target as any)._doubleTime && noDoubleTapTimeout) {
(target as any)._doubleTime = setTimeout(() => {
noDoubleTapTimeout?.();
(target as any)._doubleTime = undefined;
}, doubleTapTimeout);
}
if ((target as any)._doubleTime && (target as any)._doubleTap) {
clearTimeout((target as any)._doubleTime);
(target as any)._doubleTime = undefined;
}
(target as any)._noClick = clickEvent(e, (target as any)._doubleTap);
}
document.removeEventListener('pointermove', _moveEvent);
document.removeEventListener('pointerup', _upEvent, true);
};
const _clickEvent = (e: MouseEvent): void => {
if ((target as any)._noClick) e.stopPropagation();
document.removeEventListener('click', _clickEvent, true);
};
if (stopPropagation) {
e.stopPropagation();
e.preventDefault();
}
document.addEventListener('pointermove', _moveEvent);
document.addEventListener('pointerup', _upEvent, true);
document.addEventListener('click', _clickEvent, true);
}
export function dateRangeStrToDates(dateStr: string) {
// dateStr in yyyy-mm-dd format
const dateRangeParts = dateStr.split('|'); // splits into from and to date
const fromParts = dateRangeParts[0].split('-');
const toParts = dateRangeParts[1].split('-');
const fromYear = parseInt(fromParts[0]);
const fromMonth = parseInt(fromParts[1]) - 1;
const fromDay = parseInt(fromParts[2]);
const toYear = parseInt(toParts[0]);
const toMonth = parseInt(toParts[1]) - 1;
const toDay = parseInt(toParts[2]);
return [new Date(fromYear, fromMonth, fromDay), new Date(toYear, toMonth, toDay)];
}
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