# Math.fround()

The `Math.fround()` static method returns the nearest 32-bit single precision float representation of a number.

## Syntax

``````Math.fround(doubleFloat)
``````

### Parameters

`doubleFloat`

A number.

### Return value

The nearest 32-bit single precision float representation of `x`.

## Description

JavaScript uses 64-bit double floating-point numbers internally, which offer a very high precision. However, sometimes you may be working with 32-bit floating-point numbers, for example if you are reading values from a `Float32Array`. This can create confusion: checking a 64-bit float and a 32-bit float for equality may fail even though the numbers are seemingly identical.

To solve this, `Math.fround()` can be used to cast the 64-bit float to a 32-bit float. Internally, JavaScript continues to treat the number as a 64-bit float, it just performs a "round to even" on the 23rd bit of the mantissa, and sets all following mantissa bits to `0`. If the number is outside the range of a 32-bit float, `Infinity` or `-Infinity` is returned.

Because `fround()` is a static method of `Math`, you always use it as `Math.fround()`, rather than as a method of a `Math` object you created (`Math` is not a constructor).

## Examples

### Using Math.fround()

The number 1.5 can be precisely represented in the binary numeral system, and is identical in 32-bit and 64-bit:

``````Math.fround(1.5); // 1.5
Math.fround(1.5) === 1.5; // true
``````

However, the number 1.337 cannot be precisely represented in the binary numeral system, so it differs in 32-bit and 64-bit:

``````Math.fround(1.337); // 1.3370000123977661
Math.fround(1.337) === 1.337; // false
``````

$2^150$ is too big for a 32-bit float, so `Infinity` is returned:

``````2 ** 150; // 1.42724769270596e+45
Math.fround(2 ** 150); // Infinity
``````

## Specifications

Specification
ECMAScript Language Specification
# sec-math.fround

## Browser compatibility

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