@bardiir uses a similiar method to check if a value is numeric or not. However this method is much simpler.

```
/*
I just realized that +n === parseInt(n) won't filter strings. Hence I modified it. At least now it doesn't require any extra function calls.
*/
function isInt(n) {
return +n === n && !(n % 1);
}
```

`+n`

coerces `n`

to a number. Then we use strict equality (`===`

) to check if it's an integer. Simple and efficient.

**Edit:** It seems like a lot of people need to check for numeric types, so I'll share a list of functions I regularly use for that purpose:

```
/*
-9007199254740990 to 9007199254740990
*/
function isInt(n) {
return +n === n && !(n % 1);
}
/*
-128 to 127
*/
function isInt8(n) {
return +n === n && !(n % 1) && n < 0x80 && n >= -0x80;
}
/*
-32768 to 32767
*/
function isInt16(n) {
return +n === n && !(n % 1) && n < 0x8000 && n >= -0x8000;
}
/*
-2147483648 to 2147483647
*/
function isInt32(n) {
return +n === n && !(n % 1) && n < 0x80000000 && n >= -0x80000000;
}
/*
0 to 9007199254740990
*/
function isUint(n) {
return +n === n && !(n % 1) && n >= 0;
}
/*
0 to 255
*/
function isUint8(n) {
return +n === n && !(n % 1) && n < 0x100 && n >= 0;
}
/*
0 to 65535
*/
function isUint16(n) {
return +n === n && !(n % 1) && n < 0x10000 && n >= 0;
}
/*
0 to 4294967295
*/
function isUint32(n) {
return +n === n && !(n % 1) && n < 0x100000000 && n >= 0;
}
/*
Any number including Infinity and -Infinity but not NaN
*/
function isFloat(n) {
return +n === n;
}
/*
Any number from -3.4028234e+38 to 3.4028234e+38 (Single-precision floating-point format)
*/
function isFloat32(n) {
return +n === n && Math.abs(n) <= 3.4028234e+38;
}
/*
Any number excluding Infinity and -Infinity and NaN (Number.MAX_VALUE = 1.7976931348623157e+308)
*/
function isFloat64(n) {
return +n === n && Math.abs(n) <= 1.7976931348623157e+308;
}
```

Hope this is useful for someone.

numericvalue, not if it's anintegral numericvalue. Subtly different. – user166390 Apr 22 '12 at 18:23