# JS generate random boolean

Simple question, but I'm interested in the nuances here.

I'm generating random booleans using the following method I came up with myself:

const rand = Boolean(Math.round(Math.random()));

Whenever random() shows up, it seems there's always a pitfall - it's not truly random, it's compromised by something or other, etc. So, I'd like to know:

a) Is the above the best-practice way to do it?

b) Am I overthinking things?

c) Am I underthinking things?

d) Is there a better/faster/elegant-er way I don't know of?

(Also somewhat interested if B and C are mutually exclusive.)

Update

If it makes a difference, I'm using this for movement of an AI character.

• const rand = Math.random() < 0.5 is equivalent and simpler. Apr 20 '16 at 22:32
• Nothing is actually random, the goal is to get as close to random as possible. Apr 20 '16 at 22:34
• And if you have a 50/50 chance,math.random should be plenty. Just use milliseconds for your seed. Apr 20 '16 at 22:37
• I think it's pretty random the time one visits a website :D so I had this idea... Boolean(+Date.now()%2) Apr 20 '16 at 22:38
• With lodash - !!_.random(1) Nov 6 '16 at 15:17

## 7 Answers

You can compare Math.random() to 0.5 directly, as the range of Math.random() is [0, 1) (this means 'in the range 0 to 1 including 0, but not 1'). You can divide the range into [0, 0.5) and [0.5, 1).

var random_boolean = Math.random() < 0.5;

// Example
console.log(Math.random() < 0.1); //10% probability of getting true
console.log(Math.random() < 0.4); //40% probability of getting true
console.log(Math.random() < 0.5); //50% probability of getting true
console.log(Math.random() < 0.8); //80% probability of getting true
console.log(Math.random() < 0.9); //90% probability of getting true

• I like this one solution, as it allows you to tweak the probability of true/false Jan 14 '19 at 23:10
• Why not use just < instead of >=? Math.random() < 0.5 is exclusive of 0.5 for the low half and exclusive of 1 for the high half- so it's still exactly a 50% chance. Plus, it's shorter. And in my opinion, Math.random() < 0.1 is more intuitive to read as "10% chance of true" than Math.random() >= 0.9. I guess that's being pretty picky though. Nice answer. Aug 4 '20 at 5:07
• I modified the answer to use the <= operator instead of >= to make the answer more intuitive. Nov 9 '20 at 5:45
• Isn't the answer now semantically wrong? As @Aaron Plocharczyk described, shouldn't the 0.5 belong to the probability of the upper half? 0.0 belongs to the lower half and 1.0 is not in the [0,1) range of Math-random(). So please change the <= to <. Nov 25 '20 at 19:51
• @bjrne You are correct; the last person that edited this answer made that mistake. I went ahead and updated the answer to reflect your suggestion and veer away from >= in favor of <. Nov 25 '20 at 20:37

If your project has lodash then you can:

_.sample([true, false])

Alternatively you can use your own sample function (source):

const sample = arr => arr[Math.floor(Math.random() * arr.length)];

For a more cryptographically secure value, you can use crypto.getRandomValues in modern browsers.

### Sample:

var randomBool = (function() {
var a = new Uint8Array(1);
return function() {
crypto.getRandomValues(a);
return a[0] > 127;
};
})();

var trues = 0;
var falses = 0;
for (var i = 0; i < 255; i++) {
if (randomBool()) {
trues++;
}
else {
falses++;
}
}
document.body.innerText = 'true: ' + trues + ', false: ' + falses;

Note that the crypto object is a DOM API, so it's not available in Node, but there is a similar API for Node.

• Math.random() is notoriously un-random in many ways, great alternate suggestion Aug 16 '16 at 19:38
• I'm just gonna add a small correction here, as I discovered after 50 000 000 runs that it generated on average 0.78% or so more zeroes: return a[0] <= 127; (Else 127 is never included) Jun 5 '17 at 8:33
• @AmundMidtskog Good call. I should have typed: a[0] > 127 Jun 5 '17 at 8:39
• By the way, you may usually want to generate a much larger number of samples than just 255. Rather, in order to reduce the noise in the data, something like 100,000 – or even tens of millions, as suggested in the other comment, if you want to see errors as small as 0.78%.
– caw
Nov 11 '17 at 6:24
!Math.round(Math.random());

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• Please format this more helpfully (stackoverflow.com/editing-help) and add some explanation. Code-only answers are not very much appreciated. Adding an explanation would help fighting the misconception that StackOverflow is a free code-writing service. Sep 14 '19 at 10:54

Impressed a lot by Kelvin's answer I would like to suggest a fairly similar but slightly enhanced solution.

var randomBoolean = Math.random() < 0.5;

This solution is a bit more obvious to read, because the number on the right-hand side of < tells you the probability of getting true rather than of getting false, which is more natural to comprehend. Also < is one symbol shorter than >=;

# Potentialy faster solutions...

Bitwise operator approach i just thought of Math.random() + .5 >> 0 or ~~(Math.random() + .5). Here is a performance test to judge for yourself.

let randomBoolean = Math.random() + .5 >> 0;                 //chance of true
const randomBoolean = chance => Math.random() + chance >> 0; //chance of true

The bitwise operators is in this case essentially just the same as using Math.trunc() or Math.floor(), therefore this is also posible Math.trunc(Math.random() + .5).

let randomBoolean = Math.trunc(Math.random() + .5);
const randomBoolean = chance => Math.trunc(Math.random() + chance);

## Other more common solutions

The more common way to get random boolean is probably a comparative approach like Math.random() >= .5 from Kelvin's answer or Math.random() < .5; from Arthur Khazbs's answer, they actualy output true & false, and not 1 & 0.

let randomBoolean = Math.random() >= .5;                 //chance of false
const randomBoolean = chance => Math.random() >= chance; //chance of false

let randomBoolean = Math.random()  < .5;                 //chance of true
const randomBoolean = chance => Math.random() < chance;  //chance of true

The only reason to use the Math.round(Math.random()) approach is simplicity and laziness.

• I'm not sure if this is worth pointing out, but (.49999999999999997 >= .5) != (.49999999999999997+ .5 >> 0) Aug 4 '20 at 5:26

How about this one?

return Math.round((Math.random() * 1) + 0) === 0;
• OP states that he already uses similar methods, no need to post this. Jul 29 '18 at 2:34