gristlabs_grist-core/app/common/gutil.ts

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import {delay} from 'app/common/delay';
import {BindableValue, DomElementMethod, ISubscribable, Listener, Observable, subscribeElem, UseCB} from 'grainjs';
import {Observable as KoObservable} from 'knockout';
import identity = require('lodash/identity');
// Some definitions have moved to be used by plugin API.
export {arrayRepeat} from 'app/plugin/gutil';
export const UP_TRIANGLE = '\u25B2';
export const DOWN_TRIANGLE = '\u25BC';
const EMAIL_RE = new RegExp("^\\w[\\w%+/='-]*(\\.[\\w%+/='-]+)*@([A-Za-z0-9]([A-Za-z0-9-]*[A-Za-z" +
"0-9])?\\.)+[A-Za-z]{2,6}$", "u");
// Returns whether str starts with prefix. (Note that this implementation avoids creating a new
// string, and only checks a single location.)
export function startsWith(str: string, prefix: string): boolean {
return str.lastIndexOf(prefix, 0) === 0;
}
// Returns whether str ends with suffix.
export function endsWith(str: string, suffix: string): boolean {
return str.indexOf(suffix, str.length - suffix.length) !== -1;
}
// If str starts with prefix, removes it and returns what remains. Otherwise, returns null.
export function removePrefix(str: string, prefix: string): string|null {
return startsWith(str, prefix) ? str.slice(prefix.length) : null;
}
// If str ends with suffix, removes it and returns what remains. Otherwise, returns null.
export function removeSuffix(str: string, suffix: string): string|null {
return endsWith(str, suffix) ? str.slice(0, str.length - suffix.length) : null;
}
export function removeTrailingSlash(str: string): string {
const result = removeSuffix(str, '/');
return result === null ? str : result;
}
// Expose <string>.padStart. The version of node we use has it, but they typings
// need the es2017 typescript target. TODO: replace once typings in place.
export function padStart(str: string, targetLength: number, padString: string) {
return (str as any).padStart(targetLength, padString);
}
// Capitalizes every word in a string.
export function capitalize(str: string): string {
return str.replace(/\b[a-z]/gi, c => c.toUpperCase());
}
// Capitalizes the first word in a string.
export function capitalizeFirstWord(str: string): string {
return str.replace(/\b[a-z]/i, c => c.toUpperCase());
}
// Returns whether the string n represents a valid number.
// http://stackoverflow.com/questions/18082/validate-numbers-in-javascript-isnumeric
export function isNumber(n: string): boolean {
// This wasn't right for a long time: isFinite() is key to failing on strings like "5a".
return !isNaN(parseFloat(n)) && isFinite(n as any);
}
/**
* Returns a value clamped to the given min-max range.
* @param {Number} value - some numeric value.
* @param {Number} min - minimum value allowed.
* @param {Number} max - maximum value allowed. Must have min <= max.
* @returns {Number} - value restricted to the given range.
*/
export function clamp(value: number, min: number, max: number): number {
return Math.max(min, Math.min(max, value));
}
/**
* Checks if ele is contained within the given bounds.
* @param {Number} value
* @param {Number} bound1 - does not have to be less than/eqal to bound2
* @param {Number} bound2
* @returns {Boolean} - True/False
*/
export function between(value: number, bound1: number, bound2: number): boolean {
const lower = Math.min(bound1, bound2);
const upper = Math.max(bound1, bound2);
return lower <= value && value <= upper;
}
/**
* Returns the positive modulo of x by n. (Javascript default allows negatives)
*/
export function mod(x: number, n: number): number {
return ((x % n) + n) % n;
}
/**
* Returns a number that is n rounded down to the next nearest number divisible by m
*/
export function roundDownToMultiple(n: number, m: number): number {
return Math.floor(n / m) * m;
}
/**
* Returns the first argument unless it's undefined, in which case returns the second one.
*/
export function undefDefault<T>(x: T|undefined, y: T): T {
return (x !== void 0) ? x : y;
}
// for typescript 4
// type Undef<T> = T extends [infer A, ...infer B] ? undefined extends A ? NonNullable<A> | Undef<B> : A : unknown;
type Undef1<T> = T extends [infer A] ? A : unknown;
type Undef2<T> = T extends [infer A, infer B] ?
undefined extends A ? NonNullable<A> | Undef1<[B]> : A : Undef1<T>;
type Undef3<T> = T extends [infer A, infer B, infer C] ?
undefined extends A ? NonNullable<A> | Undef2<[B, C]> : A : Undef2<T>;
type Undef<T> = T extends [infer A, infer B, infer C, infer D] ?
undefined extends A ? NonNullable<A> | Undef3<[B, C, D]> : A : Undef3<T>;
/*
Undef<T> can detect correct type that will be returned as a first defined value:
const t1: number = undef(1, 1 as number | undefined);
const t1: number | undefined = undef(2 as number | undefined, 3 as number | undefined);
const t3: number = undef(3 as number | undefined, undefined, 4);
const t4: number = undef(1, '');
const t5: number = undef(1 as number | undefined, 4);
const t6: string = undef('1', 2);
const t7: string | number = undef(undefined, 2 as number | undefined, '3');
const t8: string = undef(undefined, undefined, '3');
const t9: string = undef(undefined, '2' as string | undefined, '3');
const ta: string | number | undefined = undef(undefined, '2' as string | undefined, 3 as number | undefined);
const tb: string | number = undef(undefined, '2' as string | undefined, 3 as number | undefined, 5);
*/
/**
* Returns the first defined value from the list or unknown.
* Use with typed result, so the typescript type checker can provide correct type.
*/
export function undef<T extends Array<any>>(...list: T): Undef<T> {
for(const value of list) {
if (value !== undefined) { return value; }
}
return undefined as any;
}
/**
* Parses json and returns the result, or returns defaultVal if parsing fails.
*/
export function safeJsonParse(json: string, defaultVal: any): any {
try {
return json !== '' && json !== undefined ? JSON.parse(json) : defaultVal;
} catch (e) {
return defaultVal;
}
}
/**
* Just like encodeURIComponent, but does not encode slashes. Slashes don't hurt to be included in
* URL parameters, and look much friendlier not encoded.
*/
export function encodeQueryParam(str: string|number|undefined): string {
return encodeURIComponent(String(str === undefined ? null : str)).replace(/%2F/g, '/');
}
/**
* Encode an object into a querystring ("key=value&key2=value2").
* This is similar to JQuery's $.param, but only works on shallow objects.
*/
export function encodeQueryParams(obj: {[key: string]: string|number|undefined}): string {
return Object.keys(obj).map((k: string) => encodeQueryParam(k) + '=' + encodeQueryParam(obj[k])).join('&');
}
/**
* Return a list of the words in the string, using the given separator string. At most
* maxNumSplits splits are done, so the result will have at most maxNumSplits + 1 elements (this
* is the main difference from how JS built-in string.split() works, and similar to Python split).
* @param {String} str: String to split.
* @param {String} sep: Separator to split on.
* @param {Number} maxNumSplits: Maximum number of splits to do.
* @return {Array[String]} Array of words, of length at most maxNumSplits + 1.
*/
export function maxsplit(str: string, sep: string, maxNumSplits: number): string[] {
const result: string[] = [];
let start = 0, pos;
for (let i = 0; i < maxNumSplits; i++) {
pos = str.indexOf(sep, start);
if (pos === -1) {
break;
}
result.push(str.slice(start, pos));
start = pos + sep.length;
}
result.push(str.slice(start));
return result;
}
// Compare arrays of scalars for equality.
export function arraysEqual(a: any[], b: any[]): boolean {
if (a === b) {
return true;
}
if (!a || !b) {
return false;
}
if (a.length !== b.length) {
return false;
}
for (let i = 0; i < a.length; i++) {
if (a[i] !== b[i]) { return false; }
}
return true;
}
// Gives a set representing the set difference a - b.
export function setDifference<T>(a: Set<T>, b: Set<T>): Set<T> {
const c = new Set<T>();
for (const ai of a) {
if (!b.has(ai)) { c.add(ai); }
}
return c;
}
// Like array.indexOf, but works with array-like objects like HTMLCollection.
export function indexOf<T>(arrayLike: ArrayLike<T>, item: T): number {
return Array.prototype.indexOf.call(arrayLike, item);
}
/**
* Removes a value from the given array. Only the first instance is removed.
* Returns true on success, false if the value was not found.
*/
export function arrayRemove<T>(array: T[], value: T): boolean {
const index = array.indexOf(value);
if (index === -1) {
return false;
}
array.splice(index, 1);
return true;
}
/**
* Inserts value into the array before nextValue, or at the end if nextValue is not found.
*/
export function arrayInsertBefore<T>(array: T[], value: T, nextValue: T): void {
const index = array.indexOf(nextValue);
if (index === -1) {
array.push(value);
} else {
array.splice(index, 0, value);
}
}
/**
* Extends the first array with the second. Like native push, but adds all values in anotherArray.
*/
export function arrayExtend<T>(array: T[], anotherArray: T[]): void {
for (let i = 0, len = anotherArray.length; i < len; i++) {
array.push(anotherArray[i]);
}
}
/**
* Copies count items from fromArray to toArray, copying in a forward direction (which matters
* when the arrays are the same and source and destination indices overlap).
*
* See test/common/arraySplice.js for alternative implementations with timings, from which this
* one is chosen as consistently among the faster ones.
*/
export function arrayCopyForward<T>(toArray: T[], toStart: number,
fromArray: ArrayLike<T>, fromStart: number, count: number): void {
const end = toStart + count;
for (const xend = end - 7; toStart < xend; fromStart += 8, toStart += 8) {
toArray[toStart] = fromArray[fromStart];
toArray[toStart + 1] = fromArray[fromStart + 1];
toArray[toStart + 2] = fromArray[fromStart + 2];
toArray[toStart + 3] = fromArray[fromStart + 3];
toArray[toStart + 4] = fromArray[fromStart + 4];
toArray[toStart + 5] = fromArray[fromStart + 5];
toArray[toStart + 6] = fromArray[fromStart + 6];
toArray[toStart + 7] = fromArray[fromStart + 7];
}
for (; toStart < end; ++fromStart, ++toStart) {
toArray[toStart] = fromArray[fromStart];
}
}
/**
* Copies count items from fromArray to toArray, copying in a backward direction (which matters
* when the arrays are the same and source and destination indices overlap).
*
* See test/common/arraySplice.js for alternative implementations with timings, from which this
* one is chosen as consistently among the faster ones.
*/
export function arrayCopyBackward<T>(toArray: T[], toStart: number,
fromArray: ArrayLike<T>, fromStart: number, count: number): void {
let i = toStart + count - 1, j = fromStart + count - 1;
for (const xStart = toStart + 7; i >= xStart; i -= 8, j -= 8) {
toArray[i] = fromArray[j];
toArray[i - 1] = fromArray[j - 1];
toArray[i - 2] = fromArray[j - 2];
toArray[i - 3] = fromArray[j - 3];
toArray[i - 4] = fromArray[j - 4];
toArray[i - 5] = fromArray[j - 5];
toArray[i - 6] = fromArray[j - 6];
toArray[i - 7] = fromArray[j - 7];
}
for ( ; i >= toStart; --i, --j) {
toArray[i] = fromArray[j];
}
}
/**
* Appends a slice of fromArray to the end of toArray.
*
* See test/common/arraySplice.js for alternative implementations with timings, from which this
* one is chosen as consistently among the faster ones.
*/
export function arrayAppend<T>(toArray: T[], fromArray: ArrayLike<T>, fromStart: number, count: number): void {
if (count === 1) {
toArray.push(fromArray[fromStart]);
} else {
const len = toArray.length;
toArray.length = len + count;
arrayCopyForward(toArray, len, fromArray, fromStart, count);
}
}
/**
* Splices array arrToInsert into target starting at the given start index.
* This implementation tries to be smart by avoiding allocations, appending to the array
* contiguously, then filling in the gap.
*
* See test/common/arraySplice.js for alternative implementations with timings, from which this
* one is chosen as consistently among the faster ones.
*/
export function arraySplice<T>(target: T[], start: number, arrToInsert: ArrayLike<T>): T[] {
const origLen = target.length;
const tailLen = origLen - start;
const insLen = arrToInsert.length;
target.length = origLen + insLen;
if (insLen > tailLen) {
arrayCopyForward(target, origLen, arrToInsert, tailLen, insLen - tailLen);
arrayCopyForward(target, start + insLen, target, start, tailLen);
arrayCopyForward(target, start, arrToInsert, 0, tailLen);
} else {
arrayCopyForward(target, origLen, target, origLen - insLen, insLen);
arrayCopyBackward(target, start + insLen, target, start, tailLen - insLen);
arrayCopyForward(target, start, arrToInsert, 0, insLen);
}
return target;
}
// Type for a compare func that returns a positive, negative, or zero value, as used for sorting.
export type CompareFunc<T> = (a: T, b: T) => number;
/**
* Returns the index at which the given element can be inserted to keep the array sorted.
* This is equivalent to underscore's sortedIndex and python's bisect_left.
* @param {Array} array - sorted array of elements based on the given compareFunc
* @param {object} elem - object to be inserted in the given array
* @param {function} compareFunc - compares 2 elements. Returns a pos value if the 1st element is
* larger, 0 if they're equal, a neg value if the 2nd is larger.
*/
export function sortedIndex<T>(array: ArrayLike<T>, elem: T, compareFunc: CompareFunc<T>): number {
let lo = 0, mid;
let hi = array.length;
if (array.length === 0) { return 0; }
while (lo < hi) {
mid = Math.floor((lo + hi) / 2);
if (compareFunc(array[mid], elem) < 0) { // mid < elem
lo = mid + 1;
} else {
hi = mid;
}
}
return lo;
}
/**
* Returns true if an array contains duplicate values.
* Values are considered equal if their toString() representations are equal.
*/
export function hasDuplicates(array: any[]): boolean {
const prevVals = Object.create(null);
for (const value of array) {
if (value in prevVals) {
return true;
}
prevVals[value] = true;
}
return false;
}
/**
* Counts the number of items in array which satisfy the callback.
*/
export function countIf<T>(array: ReadonlyArray<T>, callback: (item: T) => boolean): number {
let count = 0;
array.forEach(item => {
if (callback(item)) { count++; }
});
return count;
}
/**
* For two parallel arrays, calls mapFunc(a[i], b[i]) for each pair of corresponding elements, and
* returns an array of the results.
*/
export function map2<T, U, V>(array1: ArrayLike<T>, array2: ArrayLike<U>, mapFunc: (a: T, b: U) => V): V[] {
const len = array1.length;
const result: V[] = new Array(len);
for (let i = 0; i < len; i++) {
result[i] = mapFunc(array1[i], array2[i]);
}
return result;
}
/**
* Takes a 2d array returns a new matrix with r rows and c columns
* @param [Array] dataMatrix: a 2d array
* @param [Number] r: final row length
* @param [Number] c: final column length
*/
export function growMatrix<T>(dataMatrix: T[][], r: number, c: number): T[][] {
const colArr = dataMatrix.map(colVals =>
Array.from({length: c}, (_v, k) => colVals[k % colVals.length])
);
return Array.from({length: r}, (_v, k) => colArr[k % colArr.length]);
}
/**
* Returns a function that compares two elements based on multiple sort keys and the
* given compare functions.
* Elements are compared using the sort key functions with index 0 having the greatest priority.
* Subsequent sort key functions are used as tie breakers.
* @param {function Array} sortKeyFuncs - a list of sort key functions.
* @param {function Array} compareKeyFuncs - a list of comparison functions parallel to sortKeyFuncs
* Each compare function must satisfy the comparison invariant:
* If compare(a, b) > 0 then a > b,
* If compare(a, b) < 0 then a < b,
* If compare(a, b) == 0 then a == b,
* @param {Array of 1/-1's} optAscending - Comparison on sortKeyFuncs[i] is inverted if optAscending[i] == -1
*/
export function multiCompareFunc<T, U>(sortKeyFuncs: ReadonlyArray<(a: T) => U>,
compareFuncs: ArrayLike<CompareFunc<U>>,
optAscending?: number[]): CompareFunc<T> {
if (sortKeyFuncs.length !== compareFuncs.length) {
throw new Error('Number of sort key funcs must be the same as the number of compare funcs');
}
const ascending = optAscending || sortKeyFuncs.map(() => 1);
return function(a: T, b: T): number {
let compareOutcome, keyA, keyB;
for (let i = 0; i < compareFuncs.length; i++) {
keyA = sortKeyFuncs[i](a);
keyB = sortKeyFuncs[i](b);
compareOutcome = compareFuncs[i](keyA, keyB);
if (compareOutcome !== 0) { return ascending[i] * compareOutcome; }
}
return 0;
};
}
export function nativeCompare<T>(a: T, b: T): number {
return (a < b ? -1 : (a > b ? 1 : 0));
}
/**
* Creates a function that compares objects by a property value.
*/
export function propertyCompare<T>(property: keyof T) {
return function(a: T, b: T) {
return nativeCompare(a[property], b[property]);
};
}
// TODO: In the future, locale should be a value associated with the document or the user.
export const defaultLocale = 'en-US';
export const defaultCollator = new Intl.Collator(defaultLocale);
export const localeCompare = defaultCollator.compare;
/**
* A copy of python`s `setdefault` function.
* Sets key in mapInst to value, if key is not already set.
* @param {Map} mapInst: Instance of Map.
* @param {Object} key: Key into the map.
* @param {Object} value: Value to insert, possibly.
*/
export function setDefault<K, V>(mapInst: Map<K, V>, key: K, val: V): V {
if (!mapInst.has(key)) { mapInst.set(key, val); }
return mapInst.get(key)!;
}
/**
* Similar to Python's `setdefault`: returns the key `key` from `mapInst`, or if it's not there, sets
* it to the result buildValue().
*/
export function getSetMapValue<K, V>(mapInst: Map<K, V>, key: K, buildValue: () => V): V {
if (!mapInst.has(key)) { mapInst.set(key, buildValue()); }
return mapInst.get(key)!;
}
/**
* If key is in mapInst, remove it and return its value, else return `undefined`.
* @param {Map} mapInst: Instance of Map.
* @param {Object} key: Key into the map to remove.
*/
export function popFromMap<K, V>(mapInst: Map<K, V>, key: K): V|undefined {
const value = mapInst.get(key);
mapInst.delete(key);
return value;
}
/**
* For each encountered value in `values`, increment the corresponding counter in `valueCounts`.
*/
export function addCountsToMap<T>(valueCounts: Map<T, number>, values: Iterable<T>,
mapFunc: (v: any) => any = identity) {
for (const v of values) {
const mappedValue = mapFunc(v);
valueCounts.set(mappedValue, (valueCounts.get(mappedValue) || 0) + 1);
}
}
/**
* Returns whether one Set is a subset of another.
*/
export function isSubset(smaller: Set<any>, larger: Set<any>): boolean {
for (const value of smaller) {
if (!larger.has(value)) {
return false;
}
}
return true;
}
/**
* Merges the contents of two or more objects together into the first object, recursing into
* nested objects and arrays (like jquery.extend(true, ...)).
* @param {Object} target - The object to modify. Use {} to create a new merged object.
* @param {Object} ... - Additional objects from which to copy properties into target.
* @returns {Object} The first argument, target, modified.
*/
export function deepExtend(target: any, _varArgObjects: any): any {
for (let i = 1; i < arguments.length; i++) {
const object = arguments[i];
// Extend the base object
for (const name in object) {
if (!object.hasOwnProperty(name)) { continue; }
let src = object[name];
if (src === target || src === undefined) {
// Prevent one kind of infinite loop, as JQuery's extend does, and skip undefined values.
continue;
}
if (src) {
// Recurse if we're merging plain objects or arrays
const tgt = target[name];
if (Array.isArray(src)) {
src = deepExtend(tgt && Array.isArray(tgt) ? tgt : [], src);
} else if (typeof src === 'object') {
src = deepExtend(tgt && typeof tgt === 'object' ? tgt : {}, src);
}
}
target[name] = src;
}
}
// Return the modified object
return target;
}
/**
* Returns a human-readable string containing a number of bytes, KB, or MB.
* @param {Number} bytes. Number of bytes.
* @returns {String} A description such as "4.1KB".
*/
export function byteString(bytes: number): string {
if (bytes < 1024) {
return bytes + 'B';
} else if (bytes < 1024 * 1024) {
return (bytes / 1024).toFixed(1) + 'KB';
} else {
return (bytes / 1024 / 1024).toFixed(1) + 'MB';
}
}
/**
* Creates a new object mapping each key in keysArray to the value returned by callback.
* @param {Array} keysArray - Array of strings to use as the properties of the returned object.
* @param {Function} callback - Function that produces the value for each key. Called in the same
* way as array.map() calls its callbacks.
* @param {Object} optThisArg - Value to use as `this` when executing callback.
* @returns {Object} - object mapping keys from `keysArray` to values returned by `callback`.
*/
export function mapToObject<T>(keysArray: string[], callback: (key: string) => T,
optThisArg: any): {[key: string]: T} {
const values: T[] = keysArray.map(callback, optThisArg);
const map: {[key: string]: T} = {};
for (let i = 0; i < keysArray.length; i++) {
map[keysArray[i]] = values[i];
}
return map;
}
/**
* Remove the specified elements from the array, with the elements specified by
* their index. The array arr is modified in-place. The indexes must be provided
* in order, sorted lowest to highest, with no duplicates, or out-of-bound indices,
* etc (this method does no error checking; it is used in place of lodash-pullAt
* for performance reasons).
*/
export function pruneArray<T>(arr: T[], indexes: number[]) {
if (indexes.length === 0) { return; }
if (indexes.length === 1) {
arr.splice(indexes[0], 1);
return;
}
const len = arr.length;
let arrAt = 0;
let indexesAt = 0;
for (let i = 0; i < len; i++) {
if (i === indexes[indexesAt]) {
indexesAt++;
continue;
}
if (i !== arrAt) {
arr[arrAt] = arr[i];
}
arrAt++;
}
arr.length = arrAt;
}
/**
* A List of python identifiers; the result of running keywords.kwlist in Python 2.7.6,
* plus additional illegal identifiers None, False, True
* Using [] instead of new Array causes a "comprehension error" for some reason
*/
const _kwlist = ['and', 'as', 'assert', 'break', 'class', 'continue', 'def',
'del', 'elif', 'else', 'except', 'exec', 'finally', 'for', 'from', 'global',
'if', 'import', 'in', 'is', 'lambda', 'not', 'or', 'pass', 'print', 'raise',
'return', 'try', 'while', 'with', 'yield', 'None', 'False', 'True'];
/**
* Given an arbitrary string, makes substitutions to make it a valid SQL/Python identifier.
* Corresponds to sandbox/grist/gencode.sanitize_ident
*/
export function sanitizeIdent(ident: string, prefix?: string) {
prefix = prefix || 'c';
// Remove non-alphanumeric non-_ chars
ident = ident.replace(/[^a-zA-Z0-9_]+/g, '_');
// Remove leading and trailing _
ident = ident.replace(/^_+|_+$/g, '');
// Place prefix at front if the beginning isn't a number
ident = ident.replace(/^(?=[0-9])/g, prefix);
// Append prefix until it is not python keyword
while (_kwlist.includes(ident)) {
ident = prefix + ident;
}
return ident;
}
/**
* Clone a function, returning a function object that represents a brand new function with the
* same code. If the same function is used with different argument types, it would prevent JS V8
* engine optimizations (or cause it to deoptimize it). If different clones are called with
* different argument types, they can be optimized independently.
*
* As with all micro-optimizations, only do this when the optimization matters.
*/
export function cloneFunc(fn: Function): Function { // tslint:disable-line:ban-types
/* jshint evil:true */ // suppress eval warning.
return eval('(' + fn.toString() + ')'); // tslint:disable-line:no-eval
}
/**
* Generates a random id using a sequence of uppercase alphanumeric characters
* preceeded by an optional prefix.
*/
export function genRandomId(len: number, optPrefix?: string): string {
const chars = '0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ';
let ret = optPrefix || '';
for (let i = 0; i < len; i++) {
ret += chars[Math.floor(Math.random() * chars.length)];
}
return ret;
}
/**
* Scans through two sorted arrays, calling a function on each item or pair of items
* for every present key in order.
* @param {Array} arrA - First array to scan. NOTE: Should be sorted by the key value.
* @param {Array} arrB - Second array to scan. NOTE: Should be sorted by the key value.
* @param {Function} callback - Called with an item from arrA as the first argument and an
* item from arrB as the second. Called for every unique key in order, either with one of the
* arguments null if the key is present only in one array, or both non-null if the key is
* present in both arrays. NOTE: Key values should not be null.
* @param {Function} optKeyFunc - Optional function to map each array value to a sort key.
* Defaults to the identity function.
*/
export function sortedScan<T, U>(arrA: ArrayLike<T>, arrB: ArrayLike<U>,
callback: (a: T|null, B: U|null) => void,
optKeyFunc?: (item: T|U) => any) {
const keyFunc = optKeyFunc || identity;
let i = 0, j = 0;
while (i < arrA.length || j < arrB.length) {
const a = arrA[i], b = arrB[j];
const keyA = i < arrA.length ? keyFunc(a) : null;
const keyB = j < arrB.length ? keyFunc(b) : null;
if (keyA !== null && (keyB === null || keyA < keyB)) {
callback(a, null);
i++;
} else if (keyA === null || keyA > keyB) {
callback(null, b);
j++;
} else {
callback(a, b);
i++;
j++;
}
}
}
/**
* Returns the time in ms to wait until attempting another connection.
* @param {Number} attemptNumber - Reconnect attempt number starting at 0.
* @param {Array} intervals - Array of reconnect intervals in ms.
* @returns {Number}
*/
export function getReconnectTimeout(attemptNumber: number, intervals: ArrayLike<number>): number {
if (attemptNumber >= intervals.length) {
// Add an additional wait time if already at max attempts.
const timeout = intervals[intervals.length - 1];
return timeout + Math.random() * timeout;
} else {
return intervals[attemptNumber];
}
}
/**
* Returns whether the given email is a valid formatted email string.
* @param {String} email - Email to test.
* @returns {Boolean}
*/
export function isEmail(email: string): boolean {
return EMAIL_RE.test(email.toLowerCase());
}
/*
* Takes an observable and returns a promise for when the observable's value matches the given
* predicate. It then unsubscribes from the observable, and returns its value.
* If a predicate is not given, resolves to the observable values as soon as it's truthy.
*/
export function waitObs<T>(observable: KoObservable<T>, predicate: (value: T) => boolean = Boolean): Promise<T> {
return new Promise((resolve, _reject) => {
const value = observable.peek();
if (predicate(value)) { return resolve(value); }
const sub = observable.subscribe((val: T) => {
if (predicate(val)) {
sub.dispose();
resolve(val);
}
});
});
}
/**
* Same as waitObs but for grainjs observables.
*/
export async function waitGrainObs<T>(observable: Observable<T>): Promise<NonNullable<T>>;
export async function waitGrainObs<T>(observable: Observable<T>, predicate?: (value: T) => boolean): Promise<T>;
export async function waitGrainObs<T>(observable: Observable<T>,
predicate: (value: T) => boolean = Boolean): Promise<T> {
let sub: Listener|undefined;
const res: T = await new Promise((resolve, _reject) => {
const value = observable.get();
if (predicate(value)) { return resolve(value); }
sub = observable.addListener((val: T) => {
if (predicate(val)) {
resolve(val);
}
});
});
if (sub) { sub.dispose(); }
return res;
}
// `dom.style` does not work here because custom css property (ie: `--foo`) needs to be set using
// `style.setProperty` (credit: https://vanseodesign.com/css/custom-properties-and-javascript/).
// TODO: consider making PR to fix `dom.style` in grainjs.
export function inlineStyle(property: string, valueObs: BindableValue<string>): DomElementMethod {
return (elem) => subscribeElem(elem, valueObs, (val) => {
elem.style.setProperty(property, val);
});
}
/**
* Class to maintain a chain of promise-returning callbacks. All scheduled callbacks will be
* called in order as long as the previous one is successful. If a callback fails is rejected,
* already-scheduled callbacks will be skipped, but newly-scheduled ones will be run.
*/
export class PromiseChain<T> {
private _last: Promise<T|void> = Promise.resolve();
// Adds a callback to the chain. If the callback runs, the return value is the return value of
// the callback. If it's skipped due to a failure earlier in the chain, the return value is the
// rejection with the message "Skipped due to an earlier error".
public add(nextCB: () => Promise<T>): Promise<T> {
const next = this._last.catch(() => { throw new Error("Skipped due to an earlier error"); }).then(nextCB);
// If any callback fails, all queued ones will be skipped. Here we reset the chain, so that
// callbacks added later do get run.
next.catch(() => { this._last = Promise.resolve(); });
this._last = next;
return next;
}
}
/**
* Indicates if a hex color value, e.g. '#000000', is darker than the given value.
* Darkness is measured from 0..255, where 0 is the darkest and 255 is the lightest.
*
* Taken from: https://stackoverflow.com/questions/12043187/how-to-check-if-hex-color-is-too-black
*/
export function isColorDark(hexColor: string, isDarkBelow: number = 220): boolean {
const c = hexColor.substring(1); // strip #
const rgb = parseInt(c, 16); // convert rrggbb to decimal
// Extract RGB components
const r = (rgb >> 16) & 0xff; // tslint:disable-line:no-bitwise
const g = (rgb >> 8) & 0xff; // tslint:disable-line:no-bitwise
const b = (rgb >> 0) & 0xff; // tslint:disable-line:no-bitwise
const luma = 0.2126 * r + 0.7152 * g + 0.0722 * b; // per ITU-R BT.709
return luma < isDarkBelow;
}
/**
* Returns true if val is a valid hex color value. For instance: #aabbaa is valid, #aabba is not. Do
* not accept neither short notation nor hex with transparency, ie: #aab, #aabb and #aabbaabb are
* invalid.
*/
export function isValidHex(val: string): boolean {
return /^#([0-9A-F]{6})$/i.test(val);
}
/**
* Returns a promise that resolves to true if promise takes longer than timeoutMsec to resolve. If not
* or if promise throws returns false.
*/
export async function isLongerThan(promise: Promise<any>, timeoutMsec: number): Promise<boolean> {
let isPending = true;
const done = () => { isPending = false; };
await Promise.race([
promise.then(done, done),
delay(timeoutMsec)
]);
return isPending;
}
/**
* Returns true if the parameter, when rendered as a string, matches
* 1, on, or true (case insensitively). Useful for processing query
* parameters that may have been manually set.
*/
export function isAffirmative(parameter: any): boolean {
return ['1', 'on', 'true', 'yes'].includes(String(parameter).toLowerCase());
}
/**
* Returns whether a value is neither null nor undefined, with a type guard for the return type.
*
* This is particularly useful for filtering, e.g. if `array` includes values of type
* T|null|undefined, then TypeScript can tell that `array.filter(isObject)` has the type T[].
*/
export function isObject<T>(value: T | null | undefined): value is T {
return value !== null && value !== undefined;
}
/**
* Returns the value of both grainjs and knockout observable without creating a dependency.
*/
export const unwrap: UseCB = (obs: ISubscribable) => {
if ('_getDepItem' in obs) {
return obs.get();
}
return (obs as ko.Observable).peek();
};
(core) Guess date format during type conversion Summary: - Adds a dependency moment-guess (https://github.com/apoorv-mishra/moment-guess) to guess date formats from strings. However the npm package is missing source maps which leads to an ugly warning, so currently using a fork until https://github.com/apoorv-mishra/moment-guess/pull/22 is resolved. - Adds guessDateFormat using moment-guess to determine the best candidate date format. The logic may be refined for e.g. lossless imports where the stakes are higher, but for now we're just trying to make type conversions smoother. - Uses guessDateFormat to guess widget options when changing column type to date or datetime. - Uses the date format of the original column when possible instead of guessing. - Fixes a bug where choices were guessed based on the display column instead of the visible column, which made the guessed choices influenced by which values were referenced as well as completely broken when converting from reflist. - @dsagal @georgegevoian This builds on https://phab.getgrist.com/D3265, currently unmerged. That diff was created first to alert to the change. Without it there would still be similar test failures/changes here as the date format would often be concretely guessed and saved as YYYY-MM-DD instead of being left as the default `undefined` which is shows as YYYY-MM-DD in the dropdown. Test Plan: Added a unit test to `parseDate.ts`. Updated several browser tests which show the guessing in action during type conversion quite nicely. Reviewers: georgegevoian Reviewed By: georgegevoian Subscribers: dsagal, georgegevoian Differential Revision: https://phab.getgrist.com/D3264
2022-02-21 14:45:17 +00:00
/**
* Get a set of up to `count` distinct values of `values`.
*/
export function getDistinctValues<T>(values: readonly T[], count: number = Infinity): Set<T> {
const distinct = new Set<T>();
// Add values to the set until it reaches the desired size, or until there are no more values.
for (let i = 0; i < values.length && distinct.size < count; i++) {
distinct.add(values[i]);
}
return distinct;
}
/**
* Asserts that variable `name` has a non-nullish `value`.
*/
export function assertIsDefined<T>(name: string, value: T): asserts value is NonNullable<T> {
if (value === undefined || value === null) {
throw new Error(`Expected '${name}' to be defined, but received ${value}`);
}
}
/**
* Calls function `fn`, passes any thrown errors to function `recover`, and finally calls `fn`
* once more if `recover` doesn't throw.
*/
export async function retryOnce<T>(fn: () => Promise<T>, recover: (e: unknown) => Promise<void>): Promise<T> {
try {
return await fn();
} catch (e) {
await recover(e);
return await fn();
}
}