numToLez = '''(input_text) => {
const million = 1e6; // 10^6;
const billion = 1e9; // 10^9;
const trillion = 1e12; // 10^12;
const quadrillion = 1e15; // 10^15;
const quintillion = 1e18; // 10^18;
const sextillion = 1e21; // 10^21;
const septillion = 1e24; // 10^24;
const octillion = 1e27; // 10^27;
const nonillion = 1e30; // 10^30;
const atomic = {
0: 'нул',
1: 'сад',
2: 'кьвед',
3: 'пуд',
4: 'кьуд',
5: 'вад',
6: 'ругуд',
7: 'ирид',
8: 'муьжуьд',
9: 'кIуьд',
10: 'цIуд',
20: 'къад',
40: 'яхцIур',
// 10^2
100: 'виш',
// 10^3
1000: 'агъзур',
// 10^6
[million]: 'миллион',
// 10^9
[billion]: 'миллиард',
// 10^12
[trillion]: 'триллион',
// 10^15
[quadrillion]: 'квадриллион',
// 10^18
[quintillion]: 'квинтиллион',
// 10^21
[sextillion]: 'секстиллион',
// 10^24
[septillion]: 'септиллион',
// 10^27
[octillion]: 'октиллион',
// 10^30
[nonillion]: 'нониллион',
};
const MINUS = 'минус';
function separateNumberIntoUnits(n) {
if (n == 0)
return [0];
const arr = [];
let i = 1;
while (n > 0) {
arr.unshift((n % 10) * i);
n = Math.floor(n / 10);
i *= 10;
}
const result = groupNumberUnitsToLezgiRange(arr);
return result;
}
const ranges = [
{ start: nonillion, end: octillion }, // nonillion to octillion
{ start: octillion, end: septillion }, // octillion to septillion
{ start: septillion, end: sextillion }, // septillion to sextillion
{ start: sextillion, end: quintillion }, // sextillion to quintillion
{ start: quadrillion, end: quintillion }, // quadrillion to quintillion
{ start: trillion, end: quadrillion }, // trillion to quadrillion
{ start: billion, end: trillion }, // billion to trillion
{ start: million, end: billion }, // million to billion
{ start: 1000, end: million }, // thousand to million
];
function groupNumberUnitsToLezgiRange(arr) {
let result = [];
for (let range of ranges) {
let sum = arr.reduce((acc, num) => {
if (num >= range.start && num < range.end) {
return acc + num;
}
return acc;
}, 0);
if (sum !== 0) {
result.push(sum);
}
// Filter out the numbers that were added to sum
arr = arr.filter((num) => num < range.start || num >= range.end);
}
// Concatenate the remaining numbers to the result
result = result.concat(arr);
return result;
}
function getTenPlusBase(num) {
if (num < 10 || num >= 20) {
throw new Error('Invalid number');
}
if (num === 10) {
return [atomic[10]];
}
const base10 = atomic[10].slice(0, -2);
if (num === 11 || num === 15 || num === 16) {
return [base10 + 'у'];
}
else if (num < 15) {
return [base10 + 'и'];
}
return [base10 + 'е'];
}
function getTwentyPlusBase(num) {
return num === 20 ? [atomic[20]] : ['къанни'];
}
function getThirtyPlusBase(num) {
return [...getTwentyPlusBase(num), ...getTenPlusBase(num - 20)];
}
function getFourtyPlusBase(num) {
return num === 40 ? [atomic[40]] : [atomic[40], 'ни'];
}
function getFiftyPlusBase(num) {
return [...getFourtyPlusBase(num), ...getTenPlusBase(num - 40)];
}
function getSixtyPlusBase(num) {
return num === 60 ? [atomic[3], atomic[20]] : [atomic[3], ...getTwentyPlusBase(num)];
}
function getSeventyPlusBase(num) {
return [...getSixtyPlusBase(61), ...getTenPlusBase(num - 60)];
}
function getEightyPlusBase(num) {
return num === 80 ? [atomic[4], atomic[20]] : [atomic[4], ...getTwentyPlusBase(num)];
}
function getNinetyPlusBase(num) {
return [...getEightyPlusBase(81), ...getTenPlusBase(num - 80)];
}
function getHundredPlusBase(num) {
return num % 100 === 0 ? [atomic[100]] : [atomic[100], 'ни'];
}
function getHundredPlusNumCount(numCount) {
if (atomic[numCount] !== undefined) {
return numCount === 2 ? [atomic[numCount].slice(0, -1)] : [atomic[numCount]];
}
return undefined;
}
function getBetweenHundredAndThousand(num, followUpNumber) {
const hundredsCount = num % 100 != 0 ? num - (num % 100) : num / 100;
const hundredsCountInLezgi = getHundredPlusNumCount(hundredsCount);
return [...hundredsCountInLezgi, ' ', ...getHundredPlusBase(num + followUpNumber)];
}
function getThousandPlusBase(num) {
return num % 1000 === 0 ? [atomic[1000]] : [atomic[1000], 'ни'];
}
function getBetweenThousandAndMillion(num, followUpNumber) {
var _a;
const thousandsCount = num % 1000 != 0 ? num - (num % 1000) : num / 1000;
const thousandsCountInLezgi = (_a = getHundredPlusNumCount(thousandsCount)) !== null && _a !== void 0 ? _a : getCompound(thousandsCount);
return [...thousandsCountInLezgi, ' ', ...getThousandPlusBase(num + followUpNumber)];
}
function getMillionPlusBase(num) {
return num % million === 0 ? [atomic[million]] : [atomic[million], 'ни'];
}
function getBetweenMillionAndBillion(num, followUpNumber) {
var _a;
const millionsCount = num % million != 0 ? num - (num % million) : num / million;
const millionsCountInLezgi = (_a = getHundredPlusNumCount(millionsCount)) !== null && _a !== void 0 ? _a : getCompound(millionsCount);
return [...millionsCountInLezgi, ' ', ...getMillionPlusBase(num + followUpNumber)];
}
function getBillionPlusBase(num) {
return num % billion === 0 ? [atomic[billion]] : [atomic[billion], 'ни'];
}
function getBetweenBillionAndTrillion(num, followUpNumber) {
var _a;
const billionsCount = num % billion != 0 ? num - (num % billion) : num / billion;
const billionsCountInLezgi = (_a = getHundredPlusNumCount(billionsCount)) !== null && _a !== void 0 ? _a : getCompound(billionsCount);
return [...billionsCountInLezgi, ' ', ...getBillionPlusBase(num + followUpNumber)];
}
function getTrillionPlusBase(num) {
return num % trillion === 0 ? [atomic[trillion]] : [atomic[trillion], 'ни'];
}
function getBetweenTrillionAndQuadrillion(num, followUpNumber) {
var _a;
const trillionsCount = num % trillion != 0 ? num - (num % trillion) : num / trillion;
const trillionsCountInLezgi = (_a = getHundredPlusNumCount(trillionsCount)) !== null && _a !== void 0 ? _a : getCompound(trillionsCount);
return [...trillionsCountInLezgi, ' ', ...getTrillionPlusBase(num + followUpNumber)];
}
function getQuadrillionPlusBase(num) {
return num % quadrillion === 0 ? [atomic[quadrillion]] : [atomic[quadrillion], 'ни'];
}
function getBetweenQuadrillionAndQuintillion(num, followUpNumber) {
var _a;
const quadrillionsCount = num % quadrillion != 0 ? num - (num % quadrillion) : num / quadrillion;
const quadrillionsCountInLezgi = (_a = getHundredPlusNumCount(quadrillionsCount)) !== null && _a !== void 0 ? _a : getCompound(quadrillionsCount);
return [...quadrillionsCountInLezgi, ' ', ...getQuadrillionPlusBase(num + followUpNumber)];
}
function getQuintillionPlusBase(num) {
return num % quintillion === 0 ? [atomic[quintillion]] : [atomic[quintillion], 'ни'];
}
function getBetweenQuintillionAndSextillion(num, followUpNumber) {
var _a;
const quintillionsCount = num % quintillion != 0 ? num - (num % quintillion) : num / quintillion;
const quintillionsCountInLezgi = (_a = getHundredPlusNumCount(quintillionsCount)) !== null && _a !== void 0 ? _a : getCompound(quintillionsCount);
return [...quintillionsCountInLezgi, ' ', ...getQuintillionPlusBase(num + followUpNumber)];
}
function getSextillionPlusBase(num) {
return num % sextillion === 0 ? [atomic[sextillion]] : [atomic[sextillion], 'ни'];
}
function getBetweenSextillionAndSeptillion(num, followUpNumber) {
var _a;
const sextillionsCount = num % sextillion != 0 ? num - (num % sextillion) : num / sextillion;
const sextillionsCountInLezgi = (_a = getHundredPlusNumCount(sextillionsCount)) !== null && _a !== void 0 ? _a : getCompound(sextillionsCount);
return [...sextillionsCountInLezgi, ' ', ...getSextillionPlusBase(num + followUpNumber)];
}
function getSeptillionPlusBase(num) {
return num % septillion === 0 ? [atomic[septillion]] : [atomic[septillion], 'ни'];
}
function getBetweenSeptillionAndOctillion(num, followUpNumber) {
var _a;
const septillionsCount = num % septillion != 0 ? num - (num % septillion) : num / septillion;
const septillionsCountInLezgi = (_a = getHundredPlusNumCount(septillionsCount)) !== null && _a !== void 0 ? _a : getCompound(septillionsCount);
return [...septillionsCountInLezgi, ' ', ...getSeptillionPlusBase(num + followUpNumber)];
}
function getOctillionPlusBase(num) {
return num % octillion === 0 ? [atomic[octillion]] : [atomic[octillion], 'ни'];
}
function getBetweenOctillionAndNonillion(num, followUpNumber) {
var _a;
const octillionsCount = num % octillion != 0 ? num - (num % octillion) : num / octillion;
const octillionsCountInLezgi = (_a = getHundredPlusNumCount(octillionsCount)) !== null && _a !== void 0 ? _a : getCompound(octillionsCount);
return [...octillionsCountInLezgi, ' ', ...getOctillionPlusBase(num + followUpNumber)];
}
function getNonillionPlusBase(num) {
return num % nonillion === 0 ? [atomic[nonillion]] : [atomic[nonillion], 'ни'];
}
function getCompound(num) {
const units = separateNumberIntoUnits(num);
const result = units.map((unit, i) => {
if (i > 0 &&
unit === 7 &&
(units[i - 1] === 10 ||
units[i - 1] === 30 ||
units[i - 1] === 50 ||
units[i - 1] === 70 ||
units[i - 1] === 90)) {
return [atomic[7].slice(1)];
}
const followUpNumber = units.slice(i + 1).reduce((acc, num) => acc + num, 0);
if (unit === 10) {
return getTenPlusBase(unit + followUpNumber);
}
if (unit === 20) {
return getTwentyPlusBase(unit + followUpNumber);
}
if (unit === 30) {
return getThirtyPlusBase(unit + followUpNumber);
}
if (unit === 40) {
return getFourtyPlusBase(unit + followUpNumber);
}
if (unit === 50) {
return getFiftyPlusBase(unit + followUpNumber);
}
if (unit === 60) {
return getSixtyPlusBase(unit + followUpNumber);
}
if (unit === 70) {
return getSeventyPlusBase(unit + followUpNumber);
}
if (unit === 80) {
return getEightyPlusBase(unit + followUpNumber);
}
if (unit === 90) {
return getNinetyPlusBase(unit + followUpNumber);
}
if (unit === 100) {
return getHundredPlusBase(unit + followUpNumber);
}
if (unit > 100 && unit < 1000) {
return getBetweenHundredAndThousand(unit, followUpNumber);
}
if (unit === 1000) {
return getThousandPlusBase(unit + followUpNumber);
}
if (unit > 1000 && unit < million) {
return getBetweenThousandAndMillion(unit, followUpNumber);
}
if (unit === million) {
return getMillionPlusBase(unit + followUpNumber);
}
if (unit > million && unit < billion) {
return getBetweenMillionAndBillion(unit, followUpNumber);
}
if (unit === billion) {
return getBillionPlusBase(unit + followUpNumber);
}
if (unit > billion && unit < trillion) {
return getBetweenBillionAndTrillion(unit, followUpNumber);
}
if (unit === trillion) {
return getTrillionPlusBase(unit + followUpNumber);
}
if (unit > trillion && unit < quadrillion) {
return getBetweenTrillionAndQuadrillion(unit, followUpNumber);
}
if (unit === quadrillion) {
return getQuadrillionPlusBase(unit + followUpNumber);
}
if (unit > quadrillion && unit < quintillion) {
return getBetweenQuadrillionAndQuintillion(unit, followUpNumber);
}
if (unit === quintillion) {
return getQuintillionPlusBase(unit + followUpNumber);
}
if (unit > quintillion && unit < sextillion) {
return getBetweenQuintillionAndSextillion(unit, followUpNumber);
}
if (unit === sextillion) {
return getSextillionPlusBase(unit + followUpNumber);
}
if (unit > sextillion && unit < septillion) {
return getBetweenSextillionAndSeptillion(unit, followUpNumber);
}
if (unit === septillion) {
return getSeptillionPlusBase(unit + followUpNumber);
}
if (unit > septillion && unit < octillion) {
return getBetweenSeptillionAndOctillion(unit, followUpNumber);
}
if (unit === octillion) {
return getOctillionPlusBase(unit + followUpNumber);
}
if (unit > octillion && unit < nonillion) {
return getBetweenOctillionAndNonillion(unit, followUpNumber);
}
if (unit === nonillion) {
return getNonillionPlusBase(unit + followUpNumber);
}
return units.length > 1 && unit === 0 ? [''] : [atomic[unit] || unit.toString()];
});
return result.flat(); //.join('').replaceAll(' ', ' ').trim();
}
function getAtomicOrCompound(num) {
if (atomic[num]) {
return [atomic[num]];
}
else {
return getCompound(num);
}
}
function numToLezgiArray(num) {
if (isNaN(num)) {
throw new Error('Provided value is not a number');
}
if (!Number.isInteger(num)) {
throw new Error('Provided number is not an integer. Currently only integers are supported!');
}
const isNegative = num < 0;
num = Math.abs(num);
const result = getAtomicOrCompound(num)
.filter((word) => word !== '')
.map((word) => (word.endsWith('ни') ? [word, ' '] : word))
.flat();
return isNegative ? [MINUS, ' ', ...result] : result;
}
function numToLezgi(num) {
const resultArray = numToLezgiArray(num);
return (resultArray
// .map((word) => (word.endsWith('ни') || word === MINUS ? word + ' ' : word))
.join('')
.replaceAll(' ', ' ')
.trim());
}
function replaceNumbersWithWords(inputString) {
return inputString.replaceAll(/\d+/g, (num) => numToLezgi(parseInt(num, 10)));
}
console.log(replaceNumbersWithWords(input_text))
return replaceNumbersWithWords(input_text)
}'''