The Math.hypot() function returns the square root of the sum of squares of its arguments, that is:
1, v_2, \dots, v_n)} = \sqrt{\sum{i=1}^n v_i^2} = \sqrt{v_1^2 + v_2^2 + \dots + v_n^2}
Math.hypot()
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Syntax
Math.hypot() Math.hypot(value0) Math.hypot(value0, value1) Math.hypot(value0, value1, ... , valueN)
Parameters
-
value1, value2, ... -
Numbers.
Return value
The square root of the sum of squares of the given arguments. If at least one of the arguments cannot be converted to a number, NaN is returned.
Description
Calculating the hypotenuse of a right triangle, or the magnitude of a complex number, uses the formula Math.sqrt(v1*v1 + v2*v2), where v1 and v2 are the lengths of the triangle's legs, or the complex number's real and complex components. The corresponding distance in 2 or more dimensions can be calculated by adding more squares under the square root: Math.sqrt(v1*v1 + v2*v2 + v3*v3 + v4*v4).
This function makes this calculation easier and faster; you call Math.hypot(v1, v2) , or Math.hypot(v1, v2, v3, v4, ...).
Math.hypot also avoids overflow/underflow problems if the magnitude of your numbers is very large. The largest number you can represent in JS is Number.MAX_VALUE, which is around 10^308. If your numbers are larger than about 10^154, taking the square of them will result in Infinity. For example, Math.sqrt(1e200*1e200 + 1e200*1e200) = Infinity. If you use hypot() instead, you get better answer: Math.hypot(1e200, 1e200) = 1.4142...e+200 . This is also true with very small numbers. Math.sqrt(1e-200*1e-200 + 1e-200*1e-200) = 0, but Math.hypot(1e-200, 1e-200) = 1.4142...e-200.
Because hypot() is a static method of Math, you always use it as Math.hypot(), rather than as a method of a Math object you created (Math is not a constructor).
If no arguments are given, the result is +0. If any of the arguments is ±Infinity, the result is Infinity. If any of the arguments is NaN (unless another argument is ±Infinity), the result is NaN. If at least one of the arguments cannot be converted to a number, the result is NaN.
With one argument, Math.hypot() is equivalent to Math.abs().
Examples
Using Math.hypot()
Math.hypot(3, 4); // 5 Math.hypot(3, 4, 5); // 7.0710678118654755 Math.hypot(); // 0 Math.hypot(NaN); // NaN Math.hypot(NaN, Infinity); // Infinity Math.hypot(3, 4, 'foo'); // NaN, since +'foo' => NaN Math.hypot(3, 4, '5'); // 7.0710678118654755, +'5' => 5 Math.hypot(-3); // 3, the same as Math.abs(-3)
Polyfill
A naive approach that does not handle overflow/underflow issues:
if (!Math.hypot) Math.hypot = function() { var y = 0, i = arguments.length, containsInfinity = false; while (i--) { var arg = arguments[i]; if (arg === Infinity || arg === -Infinity) containsInfinity = true y += arg * arg } return containsInfinity ? Infinity : Math.sqrt(y) }
A polyfill that avoids underflows and overflows:
if (!Math.hypot) Math.hypot = function () { var max = 0; var s = 0; var containsInfinity = false; for (var i = 0; i < arguments.length; ++i) { var arg = Math.abs(Number(arguments[i])); if (arg === Infinity) containsInfinity = true if (arg > max) { s *= (max / arg) * (max / arg); max = arg; } s += arg === 0 && max === 0 ? 0 : (arg / max) * (arg / max); } return containsInfinity ? Infinity : (max === 1 / 0 ? 1 / 0 : max * Math.sqrt(s)); };
Specifications
| Specification |
|---|
| ECMAScript Language Specification # sec-math.hypot |
Browser compatibility
| Desktop | Mobile | Server | ||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Chrome | Edge | Firefox | Internet Explorer | Opera | Safari | WebView Android | Chrome Android | Firefox for Android | Opera Android | Safari on IOS | Samsung Internet | Deno | Node.js | |
hypot |
38
|
12
|
27
|
No
|
25
|
8
|
38
|
38
|
27
|
25
|
8
|
3.0
|
1.0
|
0.12.0
|
See also
© 2005–2022 MDN contributors.
Licensed under the Creative Commons Attribution-ShareAlike License v2.5 or later.
https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Math/hypot
