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Refactor Rabin-Karp (#110)
* Simplify Rabin-Karp functionality * Created Rabin Fingerprinting module within util directory * Updated Rabin-Karp search to use rolling hash module Incorporate tests from @dubzzz
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@ -1,24 +1,20 @@
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import { rabinKarp, hashWord, reHashWord } from '../rabinKarp';
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import rabinKarp from '../rabinKarp';
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describe('rabinKarp', () => {
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it('should correctly calculates hash and re-hash', () => {
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expect(hashWord('a')).toBe(97);
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expect(hashWord('b')).toBe(98);
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expect(hashWord('abc')).toBe(941094);
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expect(hashWord('bcd')).toBe(950601);
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expect(reHashWord(hashWord('abc'), 'abc', 'bcd')).toBe(950601);
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expect(reHashWord(hashWord('abc'), 'abc', 'bcd')).toBe(hashWord('bcd'));
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});
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it('should find substring in a string', () => {
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expect(rabinKarp('', '')).toBe(0);
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expect(rabinKarp('a', '')).toBe(0);
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expect(rabinKarp('a', 'a')).toBe(0);
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expect(rabinKarp('ab', 'b')).toBe(1);
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expect(rabinKarp('abcbcglx', 'abca')).toBe(-1);
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expect(rabinKarp('abcbcglx', 'bcgl')).toBe(3);
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expect(rabinKarp('abcxabcdabxabcdabcdabcy', 'abcdabcy')).toBe(15);
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expect(rabinKarp('abcxabcdabxabcdabcdabcy', 'abcdabca')).toBe(-1);
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expect(rabinKarp('abcxabcdabxaabcdabcabcdabcdabcy', 'abcdabca')).toBe(12);
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expect(rabinKarp('abcxabcdabxaabaabaaaabcdabcdabcy', 'aabaabaaa')).toBe(11);
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expect(rabinKarp('^ !/\'#\'pp', ' !/\'#\'pp')).toBe(1);
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expect(rabinKarp('a\u{ffff}', '\u{ffff}')).toBe(1);
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expect(rabinKarp('a\u{10000}', '\u{10000}')).toBe(1);
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expect(rabinKarp('\u0000耀\u0000', '耀\u0000')).toBe(1);
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});
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});
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@ -1,88 +1,33 @@
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/**
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* A prime number used to create
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* the hash representation of a word
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*
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* Bigger the prime number,
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* bigger the hash value
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*/
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const PRIME = 97;
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/**
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* Function that creates hash representation of the word.
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*
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* @param {string} word
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* @return {number}
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*/
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export function hashWord(word) {
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let hash = 0;
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for (let charIndex = 0; charIndex < word.length; charIndex += 1) {
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hash += word[charIndex].charCodeAt(0) * (PRIME ** charIndex);
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}
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return hash;
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}
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/**
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* Function that creates hash representation of the word
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* based on previous word (shifted by one character left) hash value.
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*
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* Recalculates the hash representation of a word so that it isn't
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* necessary to traverse the whole word again
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*
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* @param {number} prevHash
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* @param {string} prevWord
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* @param {string} newWord
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* @return {number}
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*/
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export function reHashWord(prevHash, prevWord, newWord) {
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const newWordLastIndex = newWord.length - 1;
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let newHash = prevHash - prevWord[0].charCodeAt(0);
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newHash /= PRIME;
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newHash += newWord[newWordLastIndex].charCodeAt(0) * (PRIME ** newWordLastIndex);
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return newHash;
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}
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import RabinFingerprint from '../../../utils/hash/rolling/Rabin_Fingerprint';
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/**
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* @param {string} text
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* @param {string} word
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* @return {number}
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*/
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export function rabinKarp(text, word) {
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// Calculate word hash that we will use for comparison with other substring hashes.
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const wordHash = hashWord(word);
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export default function rabinKarp(text, word) {
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const toNum = function toNum(character) {
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const surrogate = character.codePointAt(1);
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return ((surrogate === undefined) ? 0 : surrogate) + (character.codePointAt(0) * (2 ** 16));
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};
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const arrEq = (a1, a2) => ((a1.length === a2.length) && a1.every((val, idx) => val === a2[idx]));
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let prevSegment = null;
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let currentSegmentHash = null;
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const wordArr = [...word].map(toNum);
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const textArr = [...text].map(toNum);
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// Go through all substring of the text that may match
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for (let charIndex = 0; charIndex <= text.length - word.length; charIndex += 1) {
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const currentSegment = text.substring(charIndex, charIndex + word.length);
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// The prime generation function could depend on the inputs for collision guarantees.
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const hasher = new RabinFingerprint(() => 229);
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const cmpVal = hasher.init(wordArr);
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// Calculate the hash of current substring.
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if (currentSegmentHash === null) {
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currentSegmentHash = hashWord(currentSegment);
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} else {
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currentSegmentHash = reHashWord(currentSegmentHash, prevSegment, currentSegment);
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}
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let currHash = hasher.init(textArr.slice(0, wordArr.length));
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if ((currHash === cmpVal) && arrEq(wordArr, textArr.slice(0, wordArr.length))) {
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return 0;
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}
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prevSegment = currentSegment;
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// Compare the hash of current substring and seeking string.
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if (wordHash === currentSegmentHash) {
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// In case if hashes match let's check substring char by char.
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let numberOfMatches = 0;
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for (let deepCharIndex = 0; deepCharIndex < word.length; deepCharIndex += 1) {
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if (word[deepCharIndex] === text[charIndex + deepCharIndex]) {
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numberOfMatches += 1;
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}
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}
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if (numberOfMatches === word.length) {
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return charIndex;
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}
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for (let i = 0; i < (textArr.length - wordArr.length); i += 1) {
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currHash = hasher.roll(textArr[i], textArr[i + wordArr.length]);
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if ((currHash === cmpVal) && arrEq(wordArr, textArr.slice(i + 1, i + wordArr.length + 1))) {
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return i + 1;
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}
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}
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51
src/utils/hash/rolling/Rabin_Fingerprint.js
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51
src/utils/hash/rolling/Rabin_Fingerprint.js
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/**
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* Generates fingerprints using Rabin scheme with x = 2 (for potential compiler optimizations).
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* Guaranteed not to over or underflow if function assumptions are met.
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*/
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export default class RabinFingerprint {
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/**
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* @param { function() : number } [primeGenerator]
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* @assumes Output from any function call is prime less than Number.MAX_SAFE_INTEGER / 2.
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*/
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constructor(primeGenerator) {
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this.prime = primeGenerator();
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}
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/**
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* @param { array[number] } [values]
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* @returns {number} - The hash value after digesting input.
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* @assumes All array elements are non-negative.
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* @note First element in array is considered to be oldest value.
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*/
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init(values) {
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this.val = 0;
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this.len = values.length;
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for (let i = 0; i < values.length; i += 1) {
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this.val = (((this.val * 2) % this.prime) + (values[i] % this.prime)) % this.prime;
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}
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return this.val;
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}
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/*
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* @param {number} [oldValue]
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* @param {number} [newValue]
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* @returns {number} - The hash value after removing the oldest value & inserting the newest.
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* @assumes Instance has already been initialized.
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* @assumes oldValue is the oldest value still processed by the hash.
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* @assumes newValue is non-negative.
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*/
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roll(oldValue, newValue) {
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let oldVal = oldValue % this.prime;
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for (let i = 1; i < this.len; i += 1) {
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oldVal = (oldVal * 2) % this.prime;
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}
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this.val = (this.val + this.prime - (oldVal % this.prime)) % this.prime;
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const newVal = newValue % this.prime;
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this.val = (((this.val * 2) % this.prime) + (newVal % this.prime)) % this.prime;
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return this.val;
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}
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}
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src/utils/hash/rolling/__test__/Rabin_Fingerprint.test.js
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59
src/utils/hash/rolling/__test__/Rabin_Fingerprint.test.js
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import RabinFingerprint from '../Rabin_Fingerprint';
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describe('Rabin fingerprint Hash Family', () => {
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it('should hash deterministically', () => {
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const primeVals = [3, 5, 19, 53, 97, 401, 7039, 193939];
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for (let primeIdx = 0; primeIdx < primeVals.length; primeIdx += 1) {
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const primeVal = primeVals[primeIdx];
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const hasher = new RabinFingerprint(() => primeVal);
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// Test basic values
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expect(hasher.init([])).toEqual(0);
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expect(hasher.init([1])).toEqual(1);
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// Test overflow
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const largeVal = Number.MAX_SAFE_INTEGER;
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expect(hasher.init([primeVal])).toEqual(0);
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expect(hasher.init([largeVal])).toEqual(largeVal % primeVal);
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const numLargeVal = 2; // 2 ^ numLargeVal fits in javascript number
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const largeValues = new Array(numLargeVal).fill(largeVal);
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const expVal = ((largeVal % primeVal) * ((2 ** numLargeVal) - 1)) % primeVal;
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expect(hasher.init(largeValues)).toEqual(expVal);
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// Test using Fermat's little theorem
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const fermatValues = new Array(primeVal).fill(primeVal);
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const numFermatTests = 100;
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for (let i = 0; i < numFermatTests; i += 1) {
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const randomValue = Math.floor(Math.random() * largeVal);
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fermatValues[0] = randomValue;
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expect(hasher.init(fermatValues)).toEqual(randomValue % primeVal);
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}
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}
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});
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it('should roll appropriately', () => {
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const primeVals = [3, 5, 19, 53, 97, 401, 7039, 193939];
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for (let primeIdx = 0; primeIdx < primeVals.length; primeIdx += 1) {
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const primeVal = primeVals[primeIdx];
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const hasher = new RabinFingerprint(() => primeVal);
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// Test basic values
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const largeVal = Number.MAX_SAFE_INTEGER;
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expect(hasher.init([0])).toEqual(0);
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expect(hasher.roll(0, 1)).toEqual(1);
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expect(hasher.roll(1, primeVal)).toEqual(0);
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expect(hasher.roll(primeVal, largeVal)).toEqual(largeVal % primeVal);
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const numRollTest = 100;
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let previousValue = largeVal;
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for (let i = 0; i < numRollTest; i += 1) {
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const randomVal = Math.floor(Math.random() * largeVal);
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expect(hasher.roll(previousValue, randomVal)).toEqual(randomVal % primeVal);
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previousValue = randomVal;
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}
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}
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});
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});
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