123 lines
3.0 KiB
Markdown
123 lines
3.0 KiB
Markdown
---
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id: 5900f38f1000cf542c50fea2
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challengeType: 5
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title: 'Problem 35: Circular primes'
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---
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## Description
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<section id='description'>
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The number, 197, is called a circular prime because all rotations of the digits: 197, 971, and 719, are themselves prime.
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There are thirteen such primes below 100: 2, 3, 5, 7, 11, 13, 17, 31, 37, 71, 73, 79, and 97.
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How many circular primes are there below n, whereas 100 <= n <= 1000000?
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<br><strong>Note:</strong><br>
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Circular primes individual rotation can exceeed `n`.
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</section>
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## Instructions
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<section id='instructions'>
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</section>
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## Tests
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<section id='tests'>
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```yml
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tests:
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- text: <code>circularPrimes(100)</code> should return 13.
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testString: assert(circularPrimes(100) == 13, '<code>circularPrimes(100)</code> should return 13.');
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- text: <code>circularPrimes(100000)</code> should return 43.
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testString: assert(circularPrimes(100000) == 43, '<code>circularPrimes(100000)</code> should return 43.');
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- text: <code>circularPrimes(250000)</code> should return 45.
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testString: assert(circularPrimes(250000) == 45, '<code>circularPrimes(250000)</code> should return 45.');
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- text: <code>circularPrimes(500000)</code> should return 49.
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testString: assert(circularPrimes(500000) == 49, '<code>circularPrimes(500000)</code> should return 49.');
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- text: <code>circularPrimes(750000)</code> should return 49.
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testString: assert(circularPrimes(750000) == 49, '<code>circularPrimes(750000)</code> should return 49.');
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- text: <code>circularPrimes(1000000)</code> should return 55.
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testString: assert(circularPrimes(1000000) == 55, '<code>circularPrimes(1000000)</code> should return 55.');
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```
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</section>
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## Challenge Seed
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<section id='challengeSeed'>
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<div id='js-seed'>
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```js
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function circularPrimes(n) {
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// Good luck!
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return n;
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}
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circularPrimes(1000000);
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```
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</div>
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</section>
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## Solution
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<section id='solution'>
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```js
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function rotate(n) {
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if (n.length == 1) return n;
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return n.slice(1) + n[0];
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}
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function circularPrimes(n) {
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// Nearest n < 10^k
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const bound = 10 ** Math.ceil(Math.log10(n));
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const primes = [0, 0, 2];
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let count = 0;
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// Making primes array
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for (let i = 4; i <= bound; i += 2) {
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primes.push(i - 1);
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primes.push(0);
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}
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// Getting upperbound
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const upperBound = Math.ceil(Math.sqrt(bound));
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// Setting other non-prime numbers to 0
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for (let i = 3; i < upperBound; i += 2) {
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if (primes[i]) {
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for (let j = i * i; j < bound; j += i) {
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primes[j] = 0;
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}
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}
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}
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// Iterating through the array
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for (let i = 2; i < n; i++) {
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if (primes[i]) {
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let curr = String(primes[i]);
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let tmp = 1; // tmp variable to hold the no of rotations
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for (let x = rotate(curr); x != curr; x = rotate(x)) {
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if (x > n && primes[x]) {
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continue;
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}
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else if (!primes[x]) {
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// If the rotated value is 0 then its not a ciruclar prime, break the loop
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tmp = 0;
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break;
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}
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tmp++;
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primes[x] = 0;
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}
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count += tmp;
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}
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}
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return count;
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}
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```
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</section>
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