mathjs
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Math.js is an extensive math library for JavaScript and Node.js. It features a flexible expression parser and offers an integrated solution to work with numbers, big numbers, complex numbers, units, and matrices.
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JavaScript
/**
* Test whether value is a Number
* @param {*} value
* @return {Boolean} isNumber
*/
exports.isNumber = function isNumber(value) {
return (value instanceof Number) || (typeof value == 'number');
};
/**
* Check if a number is integer
* @param {Number | Boolean} value
* @return {Boolean} isInteger
*/
exports.isInteger = function isInteger(value) {
return (value == Math.round(value));
// Note: we use ==, not ===, as we can have Booleans as well
};
/**
* Calculate the sign of a number
* @param {Number} x
* @returns {*}
*/
exports.sign = function sign (x) {
if (x > 0) {
return 1;
}
else if (x < 0) {
return -1;
}
else {
return 0;
}
};
/**
* Convert a number to a formatted string representation.
*
* Syntax:
*
* format(value)
* format(value, options)
* format(value, precision)
* format(value, fn)
*
* Where:
*
* {Number} value The value to be formatted
* {Object} options An object with formatting options. Available options:
* {String} notation
* Number notation. Choose from:
* 'fixed' Always use regular number notation.
* For example '123.40' and '14000000'
* 'exponential' Always use exponential notation.
* For example '1.234e+2' and '1.4e+7'
* 'auto' (default) Regular number notation for numbers
* having an absolute value between
* `lower` and `upper` bounds, and uses
* exponential notation elsewhere.
* Lower bound is included, upper bound
* is excluded.
* For example '123.4' and '1.4e7'.
* {Number} precision A number between 0 and 16 to round
* the digits of the number.
* In case of notations 'exponential' and
* 'auto', `precision` defines the total
* number of significant digits returned
* and is undefined by default.
* In case of notation 'fixed',
* `precision` defines the number of
* significant digits after the decimal
* point, and is 0 by default.
* {Object} exponential An object containing two parameters,
* {Number} lower and {Number} upper,
* used by notation 'auto' to determine
* when to return exponential notation.
* Default values are `lower=1e-3` and
* `upper=1e5`.
* Only applicable for notation `auto`.
* {Function} fn A custom formatting function. Can be used to override the
* built-in notations. Function `fn` is called with `value` as
* parameter and must return a string. Is useful for example to
* format all values inside a matrix in a particular way.
*
* Examples:
*
* format(6.4); // '6.4'
* format(1240000); // '1.24e6'
* format(1/3); // '0.3333333333333333'
* format(1/3, 3); // '0.333'
* format(21385, 2); // '21000'
* format(12.071, {notation: 'fixed'}); // '12'
* format(2.3, {notation: 'fixed', precision: 2}); // '2.30'
* format(52.8, {notation: 'exponential'}); // '5.28e+1'
*
* @param {Number} value
* @param {Object | Function | Number} [options]
* @return {String} str The formatted value
*/
exports.format = function format(value, options) {
if (typeof options === 'function') {
// handle format(value, fn)
return options(value);
}
// handle special cases
if (value === Infinity) {
return 'Infinity';
}
else if (value === -Infinity) {
return '-Infinity';
}
else if (isNaN(value)) {
return 'NaN';
}
// default values for options
var notation = 'auto';
var precision = undefined;
if (options !== undefined) {
// determine notation from options
if (options.notation) {
notation = options.notation;
}
// determine precision from options
if (exports.isNumber(options)) {
precision = options;
}
else if (options.precision) {
precision = options.precision;
}
}
// handle the various notations
switch (notation) {
case 'fixed':
return exports.toFixed(value, precision);
case 'exponential':
return exports.toExponential(value, precision);
case 'auto':
// determine lower and upper bound for exponential notation.
// TODO: implement support for upper and lower to be BigNumbers themselves
var lower = 1e-3;
var upper = 1e5;
if (options && options.exponential) {
if (options.exponential.lower !== undefined) {
lower = options.exponential.lower;
}
if (options.exponential.upper !== undefined) {
upper = options.exponential.upper;
}
}
// handle special case zero
if (value === 0) return '0';
// determine whether or not to output exponential notation
var str;
var abs = Math.abs(value);
if (abs >= lower && abs < upper) {
// normal number notation
// Note: IE7 does not allow value.toPrecision(undefined)
var valueStr = precision ?
value.toPrecision(Math.min(precision, 21)) :
value.toPrecision();
str = parseFloat(valueStr) + '';
}
else {
// exponential notation
str = exports.toExponential(value, precision);
}
// remove trailing zeros after the decimal point
return str.replace(/((\.\d*?)(0+))($|e)/, function () {
var digits = arguments[2];
var e = arguments[4];
return (digits !== '.') ? digits + e : e;
});
default:
throw new Error('Unknown notation "' + notation + '". ' +
'Choose "auto", "exponential", or "fixed".');
}
};
/**
* Format a number in exponential notation. Like '1.23e+5', '2.3e+0', '3.500e-3'
* @param {Number} value
* @param {Number} [precision] Number of digits in formatted output.
* If not provided, the maximum available digits
* is used.
* @returns {string} str
*/
exports.toExponential = function toExponential (value, precision) {
if (precision !== undefined) {
return value.toExponential(Math.min(precision - 1, 20));
}
else {
return value.toExponential();
}
};
/**
* Format a number with fixed notation.
* @param {Number} value
* @param {Number} [precision=0] Optional number of decimals after the
* decimal point. Zero by default.
*/
exports.toFixed = function toFixed (value, precision) {
return value.toFixed(Math.min(precision, 20));
};
/**
* Count the number of significant digits of a number.
*
* For example:
* 2.34 returns 3
* 0.0034 returns 2
* 120.5e+30 returns 4
*
* @param {Number} value
* @return {Number} digits Number of significant digits
*/
exports.digits = function digits (value) {
return value
.toExponential()
.replace(/e.*$/, '') // remove exponential notation
.replace( /^0\.?0*|\./, '') // remove decimal point and leading zeros
.length
};
/**
* Minimum number added to one that makes the result different than one
*/
exports.DBL_EPSILON = Number.EPSILON || 2.2204460492503130808472633361816E-16;
/**
* Compares two floating point numbers.
* @param {Number} x First value to compare
* @param {Number} y Second value to compare
* @param {Number} [epsilon] The maximum relative difference between x and y
* If epsilon is undefined or null, the function will
* test whether x and y are exactly equal.
* @return {boolean} whether the two numbers are equal
*/
exports.nearlyEqual = function(x, y, epsilon) {
// if epsilon is null or undefined, test whether x and y are exactly equal
if (epsilon == null) return x == y;
// use "==" operator, handles infinities
if (x == y) return true;
// NaN
if (isNaN(x) || isNaN(y)) return false;
// at this point x and y should be finite
if(isFinite(x) && isFinite(y)) {
// check numbers are very close, needed when comparing numbers near zero
var diff = Math.abs(x - y);
if (diff < exports.DBL_EPSILON) {
return true;
}
else {
// use relative error
return diff <= Math.max(Math.abs(x), Math.abs(y)) * epsilon;
}
}
// Infinite and Number or negative Infinite and positive Infinite cases
return false;
};