export function toReadableString(str: string): string { return str.replace(/\_/g, ' ').split(' ').map(s => `${s.slice(0, 1)}${s.slice(1).toLowerCase()}`).join(' '); } export function randomString(length: integer) { const characters = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789'; let result = ''; for (let i = 0; i < length; i++) { const randomIndex = Math.floor(Math.random() * characters.length); result += characters[randomIndex]; } return result; } export function shiftCharCodes(str: string, shiftCount: integer) { if (!shiftCount) shiftCount = 0; let newStr = ''; for (let i = 0; i < str.length; i++) { let charCode = str.charCodeAt(i); let newCharCode = charCode + shiftCount; newStr += String.fromCharCode(newCharCode); } return newStr; } export function clampInt(value: integer, min: integer, max: integer): integer { return Math.min(Math.max(value, min), max); } export function randGauss(value: number): number { let rand = 0; for(var i = value; i > 0; i--) rand += Math.random(); return rand / value; } export function randSeedGauss(value: number): number { let rand = 0; for(var i = value; i > 0; i--) rand += Phaser.Math.RND.realInRange(0, 1); return rand / value; } export function padInt(value: integer, length: integer, padWith?: string): string { if (!padWith) padWith = '0'; let valueStr = value.toString(); while (valueStr.length < length) valueStr = `${padWith}${valueStr}`; return valueStr; } export function randInt(range: integer, min?: integer): integer { if (!min) min = 0; if (range === 1) return min; return Math.floor(Math.random() * range) + min; } export function randSeedInt(range: integer, min?: integer): integer { if (!min) min = 0; if (range === 1) return min; return Phaser.Math.RND.integerInRange(min, (range - 1) + min); } export function randIntRange(min: integer, max: integer): integer { return randInt(max - min, min); } export function getFrameMs(frameCount: integer): integer { return Math.floor((1 / 60) * 1000 * frameCount); } export function binToDec(input: string): integer { let place:integer[] = []; let binary:string[] = []; let decimalNum = 0; for (let i = 0; i < input.length; i++) { binary.push(input[i]); place.push(Math.pow(2, i)); decimalNum += place[i] * parseInt(binary[i]); } return decimalNum; } export function decToBin(input: integer): string { let bin = ''; let intNum = input; while (intNum > 0) { bin = intNum % 2 ? `1${bin}` : `0${bin}`; intNum = Math.floor(intNum * 0.5); } return bin; } export function getEnumKeys(enumType): string[] { return Object.values(enumType).filter(v => isNaN(parseInt(v.toString()))).map(v => v.toString()); } export function getEnumValues(enumType): integer[] { return Object.values(enumType).filter(v => !isNaN(parseInt(v.toString()))).map(v => parseInt(v.toString())); } export class BooleanHolder { public value: boolean; constructor(value: boolean) { this.value = value; } } export class NumberHolder { public value: number; constructor(value: number) { this.value = value; } } export class IntegerHolder { public value: integer; constructor(value: integer) { this.value = value; } } export class FixedInt extends IntegerHolder { constructor(value: integer) { super(value); } } export function fixedInt(value: integer): integer { return new FixedInt(value) as unknown as integer; }