'use strict'; module.exports = function (math) { var util = require('../../util/index'), BigNumber = math.type.BigNumber, Complex = require('../../type/Complex'), Unit = require('../../type/Unit'), collection = math.collection, isNumber = util.number.isNumber, isBoolean = util['boolean'].isBoolean, isComplex = Complex.isComplex, isUnit = Unit.isUnit, isCollection = collection.isCollection, bigSech = util.bignumber.cosh_sinh_csch_sech; /** * Calculate the hyperbolic secant of a value, * defined as `sech(x) = 1 / cosh(x)`. * * For matrices, the function is evaluated element wise. * * Syntax: * * math.sech(x) * * Examples: * * // sech(x) = 1/ cosh(x) * math.sech(0.5); // returns 0.886818883970074 * 1 / math.cosh(0.5); // returns 0.886818883970074 * * See also: * * cosh, csch, coth * * @param {Number | Boolean | Complex | Unit | Array | Matrix | null} x Function input * @return {Number | Complex | Array | Matrix} Hyperbolic secant of x */ math.sech = function sech(x) { if (arguments.length != 1) { throw new math.error.ArgumentsError('sech', arguments.length, 1); } if (isNumber(x)) { return 2 / (Math.exp(x) + Math.exp(-x)); } if (isComplex(x)) { var ep = Math.exp(x.re); var en = Math.exp(-x.re); var re = Math.cos(x.im) * (ep + en); var im = Math.sin(x.im) * (ep - en); var den = re * re + im * im; return new Complex(2 * re / den, -2 * im / den); } if (isUnit(x)) { if (!x.hasBase(Unit.BASE_UNITS.ANGLE)) { throw new TypeError ('Unit in function sech is no angle'); } return sech(x.value); } if (isCollection(x)) { return collection.deepMap(x, sech); } if (isBoolean(x) || x === null) { return sech(x ? 1 : 0); } if (x instanceof BigNumber) { return bigSech(x, BigNumber, false, true); } throw new math.error.UnsupportedTypeError('sech', math['typeof'](x)); }; };