Nodejs Number Prime Number Check primeFactors()

Here you can find the source of primeFactors()

  1. HOME
  2. Nodejs
  3. N
  4. Number Prime Number Check
  5. primeFactors()

Method Source Code

"use strict";//from  w w  w. ja v  a  2s.  c o  m

Number.prototype.primeFactors = function() {
  var v, i;

  v = null;

  for (i = 2; i < this - 1; i += 1) {
    if (this % i === 0) {
      v = i;

      break;
    }
  }

  if (v) {
    return [v].concat(Math.floor(this / v).primeFactors());
  } else {
    return [this];
  }
};

console.log(Math.max.apply(null, (600851475143).primeFactors()));

Related

  1. primeFactorization()
    Number.prototype.primeFactorization = function(){
  var ans = [];
  var temp = this;
  var primes = [];
  for(let i = 2;i<=this/2;i++){
    if(i.divisors().length == 2){
      primes.push(i);
      if(temp==1){
        break;
...
  2. primeFactorization()
    Number.prototype.primeFactorization = function () {
    var ans = [];
    var primes = [];
    var temp = this;
    for (let i = 2; i <= temp / 2; i++) {
        if (i.divisors().length == 2) {
            primes.push(i);
    for (let i = 0; i < primes.length; i++) {
        while (i.isDivisor(temp)) {
            ans.push(primes[i]);
            temp = temp / primes[i];
    return ans;
  3. primeFactorization()
    Number.prototype.primeFactorization = function () {
    var ans = [];
    var primes = [];
    var temp = this;
    for (let i = 2; i <= temp / 2; i++) {
        if (i.divisors().length == 2) {
            primes.push(i);
    for (let i = 0; i < primes.length; i++) {
        while (temp.isDevisor(primes[i])) {
            ans.push(primes[i]);
            temp = temp / primes[i];
    return ans;
  4. primeFactorization()
    Number.prototype.primeFactorization = function (){
    console.log("prime aangekomen");
    var ans = [];
    var primes = [];
    var temp = this;
    for(let i = 2; i<temp/2; i++){
        if(i.divisors().length == 2){
            primes.push(i);
    for (let i =0; i<primes.length; i++){
            while(temp.isDivisor(primes[i])){
                ans.push(primes[i]);
                temp = temp/primes[i];
    return ans;
};
  5. primeFactorization()
    Number.prototype.primeFactorization = function () {
    "use strict";
    var ans = [];
    var primes = [];
    var temp = this;
    for (let i = 2; i <= this / 2; i += 1) {
        if (i.divisors().length == 2) {
            primes.push(i);
    for (let i = 0; i < primes.length; i += 1) {
        while (temp.isDivisor(primes[i])) {
            ans.push(primes[i]);
            temp = temp / primes[i];
    return ans;
};
  6. primeFactors()
    "use strict";
var i, j, triangleNumber;
Number.prototype.primeFactors = function() {
  var v, i;
  v = null;
  for (i = 2; i < this - 1; i += 1) {
    if (this % i === 0) {
      v = i;
      break;
...
  7. primeFactors()
    Number.prototype.primeFactors = function() {
  var number = this.valueOf();
  var primeFactors = [];
  isPrime = function(primeCandidate) {
    var p = 2;
    var top = Math.floor(Math.sqrt(primeCandidate));
    while(p<=top){
      if(primeCandidate%p === 0){ return false; }
      p++;
...
  8. primeFactors()
    "use strict";
var i, primeFactorLists;
Number.prototype.primeFactors = function() {
  var v, i;
  v = null;
  for (i = 2; i < this - 1; i += 1) {
    if (this % i === 0) {
      v = i;
      break;
...
  9. sumPrimes(num)
    function sumPrimes(num) {
  var primes = [];
  for (var i = 2; i <= num; i++) {
    var notPrime = false;
    for (var current = 2; current <= (i - 1); current++) {
        if (i % current === 0) {
          notPrime = true;
    if (notPrime === false) 
      primes.push(i);
  var sum = primes.reduce(function(pv, cv) { 
              return pv + cv;
            });
  return sum;
sumPrimes(10);