Floating point conversion from Fixed point algorithm

I have an application which is using 24 bit fixed point calculation.I am porting it to a hardware which does support floating point, so for speed optimization I need to convert all fixed point based calculation to floating point based calculation.

For this code snippet, It is calculating mantissa

``````for(i=0;i<8207;i++)
{
// Do n^8/7 calculation and store
// it in mantissa and exponent, scaled to
// fixed point precision.

}
``````

So since this calculation, does convert an integer to mantissa and exponent scaled to fixed point precision(23 bit). When I tried converting it to float, by dividing the mantissa part by precision bits and subtracting the exponent part by precision bit, it really does' t work. Please help suggesting a better way of doing it.

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Just calculate a conversion factor and multiply by it. What value represents 1.0 in your fixed point system? Multiply by 1.0/that and you'll have your conversion.

Fixed point generally refers to a fixed number of bits for the integer part, and a fixed number of bits for the fractional part. By your description, I'm going to guess that you have 1 bit of integer and 23 bits of fraction; therefore your representation of 1.0 is 0x80000. The conversion factor is 1.0/0x80000.

``````double conversionFactor = 1.0 / 0x80000;
floating = fixed * conversionFactor;
``````
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Thanks for the reply. Can you please elaborate it with a handy example as it will help a lot. –  Viks Apr 18 '10 at 5:19

If your fixed point numbers have 23 bits of fraction,

``````f = n * (1.0 / 0x800000)
``````
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Should it be applicable for both mantissa and exponent. or only on mantissa. What should I do with exponent part. –  Viks Apr 18 '10 at 5:23
Fixed point has no exponent part. –  Doug Currie Apr 18 '10 at 14:35