@techmely/utils
Version:
Collection of helpful JavaScript / TypeScript utils
55 lines (47 loc) • 1.65 kB
JavaScript
;
function checkBoundaryPrecision(num) {
{
if (num > Number.MAX_SAFE_INTEGER || num < Number.MIN_SAFE_INTEGER) {
console.warn(
`${num} is beyond boundary when transfer to integer, the results may not be accurate`
);
}
}
}
// src/numberCreateOperationPrecision.ts
function createOperationPrecision(operation) {
return (...nums) => {
const [first, ...others] = nums;
return others.reduce((prev, next) => operation(prev, next), first);
};
}
// src/numberDigitLengthPrecision.ts
function digitLengthPrecision(num) {
const eSplit = num.toString().split(/[eE]/);
const len = (eSplit[0].split(".")[1] || "").length - +(eSplit[1] || 0);
return len > 0 ? len : 0;
}
// src/numberStripPrecision.ts
function stripPrecision(num, precision = 15) {
return +parseFloat(Number(num).toPrecision(precision));
}
// src/numberFloat2FixedPrecision.ts
function float2FixedPrecision(num) {
if (num.toString().indexOf("e") === -1) {
return Number(num.toString().replace(".", ""));
}
const dLen = digitLengthPrecision(num);
const powDLen = 10 ** dLen;
return dLen > 0 ? stripPrecision(Number(num) * powDLen) : Number(num);
}
// src/numberTimesPrecision.ts
var timesPrecision = createOperationPrecision((num1, num2) => {
const num1Changed = float2FixedPrecision(num1);
const num2Changed = float2FixedPrecision(num2);
const baseNum = digitLengthPrecision(num1) + digitLengthPrecision(num2);
const leftValue = num1Changed * num2Changed;
checkBoundaryPrecision(leftValue);
const baseNumPow = 10 ** baseNum;
return leftValue / baseNumPow;
});
exports.timesPrecision = timesPrecision;