const ZSCORE_CRITICAL_THRESHOLD = 1.96; // 95-percentile const ZSCORE_NINETYNINTH = 2.326347875; // 99-percentile const ONE_DIV_SQRT_2PI = 0.3989422804014327; // V8 float of 1/SQRT(2 * PI) const MAX_P_PRECISION = Math.exp(-16); // Rought estimation of V8 precision, -16 is 1.1253517471925912e-7 const MIN_P = -6.44357455534; // v8 float 0.0...0 const MAX_P = 6.44357455534; // v8 float 1.0...0 const getMean = (numArr) => { let total = 0; let length = numArr.length; // store local to reduce potential prop lookups for(let i = 0; i < length; i++) { total += numArr[i]; } return total / length; }; const getStandardDeviation = (numArr, mean) => { return Math.sqrt(numArr.reduce((sq, n) => ( sq + Math.pow(n - mean, 2) ), 0) / (numArr.length - 1)); }; const getInformationFromValues = (numArr) => { let mean = getMean(numArr); return { mean, standardDeviation: getStandardDeviation(numArr, mean), } }; const getZScore = (value, mean, sDeviation) => ( sDeviation !== 0 ? (value - mean) / sDeviation : 0 ); const getFastPValue = (zScore) => { if(zScore <= MIN_P) { return 0; } if(zScore >= MAX_P) { return 1; } let factorialK = 1; let k = 0; let sum = 0; let term = 1; while(Math.abs(term) > MAX_P_PRECISION) { term = ONE_DIV_SQRT_2PI * Math.pow(-1 , k) * Math.pow(zScore , k) / (2 * k + 1) / Math.pow(2 , k) * Math.pow(zScore, k + 1) / factorialK; sum += term; k++; factorialK *= k; } sum += 0.5; return sum; }; const getWeight = (zScore, pValue) => (zScore * pValue); module.exports = { getInformationFromValues, getZScore, getFastPValue, getWeight, };