import { factory } from '../../utils/factory.js';
import { createMatAlgo02xDS0 } from '../../type/matrix/utils/matAlgo02xDS0.js';
import { createMatAlgo06xS0S0 } from '../../type/matrix/utils/matAlgo06xS0S0.js';
import { createMatAlgo11xS0s } from '../../type/matrix/utils/matAlgo11xS0s.js';
import { createMatrixAlgorithmSuite } from '../../type/matrix/utils/matrixAlgorithmSuite.js';
import { lcmNumber } from '../../plain/number/index.js';
var name = 'lcm';
var dependencies = ['typed', 'matrix', 'equalScalar', 'concat'];
export var createLcm = /* #__PURE__ */factory(name, dependencies, _ref => {
var {
typed,
matrix,
equalScalar,
concat
} = _ref;
var matAlgo02xDS0 = createMatAlgo02xDS0({
typed,
equalScalar
});
var matAlgo06xS0S0 = createMatAlgo06xS0S0({
typed,
equalScalar
});
var matAlgo11xS0s = createMatAlgo11xS0s({
typed,
equalScalar
});
var matrixAlgorithmSuite = createMatrixAlgorithmSuite({
typed,
matrix,
concat
});
var lcmTypes = 'number | BigNumber | Fraction | Matrix | Array';
var lcmManySignature = {};
lcmManySignature["".concat(lcmTypes, ", ").concat(lcmTypes, ", ...").concat(lcmTypes)] = typed.referToSelf(self => (a, b, args) => {
var res = self(a, b);
for (var i = 0; i < args.length; i++) {
res = self(res, args[i]);
}
return res;
});
/**
* Calculate the least common multiple for two or more values or arrays.
*
* lcm is defined as:
*
* lcm(a, b) = abs(a * b) / gcd(a, b)
*
* For matrices, the function is evaluated element wise.
*
* Syntax:
*
* math.lcm(a, b)
* math.lcm(a, b, c, ...)
*
* Examples:
*
* math.lcm(4, 6) // returns 12
* math.lcm(6, 21) // returns 42
* math.lcm(6, 21, 5) // returns 210
*
* math.lcm([4, 6], [6, 21]) // returns [12, 42]
*
* See also:
*
* gcd, xgcd
*
* @param {... number | BigNumber | Array | Matrix} args Two or more integer numbers
* @return {number | BigNumber | Array | Matrix} The least common multiple
*/
return typed(name, {
'number, number': lcmNumber,
'BigNumber, BigNumber': _lcmBigNumber,
'Fraction, Fraction': (x, y) => x.lcm(y)
}, matrixAlgorithmSuite({
SS: matAlgo06xS0S0,
DS: matAlgo02xDS0,
Ss: matAlgo11xS0s
}), lcmManySignature);
/**
* Calculate lcm for two BigNumbers
* @param {BigNumber} a
* @param {BigNumber} b
* @returns {BigNumber} Returns the least common multiple of a and b
* @private
*/
function _lcmBigNumber(a, b) {
if (!a.isInt() || !b.isInt()) {
throw new Error('Parameters in function lcm must be integer numbers');
}
if (a.isZero()) {
return a;
}
if (b.isZero()) {
return b;
}
// https://en.wikipedia.org/wiki/Euclidean_algorithm
// evaluate lcm here inline to reduce overhead
var prod = a.times(b);
while (!b.isZero()) {
var t = b;
b = a.mod(t);
a = t;
}
return prod.div(a).abs();
}
});