'use strict'; var bigArcSin = require('../../util/bignumber').arcsin_arccsc; function factory (type, config, load, typed) { var collection = load(require('../../type/collection')); var complexSqrt = load(require('../arithmetic/sqrt')).signatures['Complex']; var complexLog = load(require('../arithmetic/log')).signatures['Complex']; /** * Calculate the inverse sine of a value. * * For matrices, the function is evaluated element wise. * * Syntax: * * math.asin(x) * * Examples: * * math.asin(0.5); // returns Number 0.5235987755982989 * math.asin(math.sin(1.5)); // returns Number ~1.5 * * math.asin(2); // returns Complex 1.5707963267948966 -1.3169578969248166 i * * See also: * * sin, atan, acos * * @param {Number | BigNumber | Boolean | Complex | Array | Matrix | null} x Function input * @return {Number | BigNumber | Complex | Array | Matrix} The arc sine of x */ var asin = typed('asin', { 'number': function (x) { if (x >= -1 && x <= 1) { return Math.asin(x); } else { return _complexAsin(new type.Complex(x, 0)); } }, 'Complex': _complexAsin, 'BigNumber': function (x) { return bigArcSin(x, type.BigNumber, false); }, 'Array | Matrix': function (x) { // deep map collection, skip zeros since asin(0) = 0 return collection.deepMap(x, asin, true); } }); /** * Calculate asin for a complex value * @param {Complex} x * @returns {Complex} * @private */ function _complexAsin(x) { // asin(z) = -i*log(iz + sqrt(1-z^2)) var re = x.re; var im = x.im; var temp1 = new type.Complex( im * im - re * re + 1.0, -2.0 * re * im ); var temp2 = complexSqrt(temp1); var temp3 = new type.Complex( temp2.re - im, temp2.im + re ); var temp4 = complexLog(temp3); return new type.Complex(temp4.im, -temp4.re); } return asin; } exports.name = 'asin'; exports.factory = factory;