# How to convert packed integer (16.16) fixed-point to float?

How to convert a "32-bit signed fixed-point number (16.16)" to a float?

Is `(fixed >> 16) + (fixed & 0xffff) / 65536.0` ok? What about -2.5? And -0.5?

Or is `fixed / 65536.0` the right way?

(PS: How does signed fixed-point "-0.5" looks like in memory anyway?)

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Which language? – Francis Upton Dec 26 '11 at 20:07

I assume two's complement 32 bit integers and operators working as in C#.

## How to do the conversion?

``````fixed / 65536.0
``````

is correct and easy to understand.

``````(fixed >> 16) + (fixed & 0xffff) / 65536.0
``````

Is equivalent to the above for positive integers, but slower, and harder to read. You're basically using the distributive law to separate a single division into two divisions, and write the first one using a bitshift.

For negative integers `fixed & 0xffff` doesn't give you the fractional bits, so it's not correct for negative numbers.

Look at the raw integer `-1` which should map to `-1/65536`. This code returns `65535/65536` instead.

Depending on your compiler it might be faster to do:

``````fixed * (1/65536.0)
``````

But I assume most modern compilers already do that optimization.

## How does signed fixed-point "-0.5" looks like in memory anyway?

Inverting the conversion gives us:

``````RoundToInt(float*65536)
``````

Setting `float=-0.5` gives us: `-32768`.

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``````class FixedPointUtils {
public static final int ONE = 0x10000;

/**
* Convert an array of floats to 16.16 fixed-point
* @param arr The array
* @return A newly allocated array of fixed-point values.
*/
public static int[] toFixed(float[] arr) {
int[] res = new int[arr.length];
toFixed(arr, res);
return res;
}

/**
* Convert a float to  16.16 fixed-point representation
* @param val The value to convert
* @return The resulting fixed-point representation
*/
public static int toFixed(float val) {
return (int)(val * 65536F);
}

/**
* Convert an array of floats to 16.16 fixed-point
* @param arr The array of floats
* @param storage The location to store the fixed-point values.
*/
public static void toFixed(float[] arr, int[] storage)
{
for (int i=0;i<storage.length;i++) {
storage[i] = toFixed(arr[i]);
}
}

/**
* Convert a 16.16 fixed-point value to floating point
* @param val The fixed-point value
* @return The equivalent floating-point value.
*/
public static float toFloat(int val) {
return ((float)val)/65536.0f;
}

/**
* Convert an array of 16.16 fixed-point values to floating point
* @param arr The array to convert
* @return A newly allocated array of floats.
*/
public static float[] toFloat(int[] arr) {
float[] res = new float[arr.length];
toFloat(arr, res);
return res;
}

/**
* Convert an array of 16.16 fixed-point values to floating point
* @param arr The array to convert
* @param storage Pre-allocated storage for the result.
*/
public static void toFloat(int[] arr, float[] storage)
{
for (int i=0;i<storage.length;i++) {
storage[i] = toFloat(arr[i]);
}
}

}
``````
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