The toString()
method of Number values returns a string representing this number value.
Syntax
toString()
toString(radix)
Parameters
radix
- : An integer in the range
2
through36
specifying the base to use for representing the number value. Defaults to 10.
- : An integer in the range
Return value
A string representing the specified number value.
Exceptions
- RangeError
- : Thrown if
radix
is less than 2 or greater than 36.
- : Thrown if
Description
The Number object overrides the toString
method of Object; it does not inherit
Object.prototype.toString. For Number
values, the toString
method returns a string representation of the value in the specified radix.
For radixes above 10, the letters of the alphabet indicate digits greater than 9. For example, for hexadecimal numbers (base 16) a
through f
are used.
If the specified number value is negative, the sign is preserved. This is the case even if the radix is 2; the string returned is the positive binary representation of the number value preceded by a -
sign, not the two's complement of the number value.
Both 0
and -0
have "0"
as their string representation. Infinity returns "Infinity"
and NaN returns "NaN"
.
If the number is not a whole number, the decimal point .
is used to separate the decimal places. Scientific notation is used if the radix is 10 and the number's magnitude (ignoring sign) is greater than or equal to 1021 or less than 10-6. In this case, the returned string always explicitly specifies the sign of the exponent.
console.log((10 ** 21.5).toString()); // "3.1622776601683794e+21"
console.log((10 ** 21.5).toString(8)); // "526665530627250154000000"
The toString()
method requires its this
value to be a Number
primitive or wrapper object. It throws a TypeError for other this
values without attempting to coerce them to number values.
Because Number
doesn't have a [@@toPrimitive]()
method, JavaScript calls the toString()
method automatically when a Number
object is used in a context expecting a string, such as in a template literal. However, Number primitive values do not consult the toString()
method to be coerced to strings — rather, they are directly converted using the same algorithm as the initial toString()
implementation.
Number.prototype.toString = () => "Overridden";
console.log(`${1}`); // "1"
console.log(`${new Number(1)}`); // "Overridden"
Examples
Using toString()
const count = 10;
console.log(count.toString()); // "10"
console.log((17).toString()); // "17"
console.log((17.2).toString()); // "17.2"
const x = 6;
console.log(x.toString(2)); // "110"
console.log((254).toString(16)); // "fe"
console.log((-10).toString(2)); // "-1010"
console.log((-0xff).toString(2)); // "-11111111"
Converting radix of number strings
If you have a string representing a number in a non-decimal radix, you can use parseInt()
and toString()
to convert it to a different radix.
const hex = "CAFEBABE";
const bin = parseInt(hex, 16).toString(2); // "11001010111111101011101010111110"
Beware of loss of precision: if the original number string is too large (larger than Number.MAX_SAFE_INTEGER
, for example), you should use a BigInt
instead. However, the BigInt
constructor only has support for strings representing number literals (i.e. strings starting with 0b
, 0o
, 0x
). In case your original radix is not one of binary, octal, decimal, or hexadecimal, you may need to hand-write your radix converter, or use a library.