How to save the float16 (https://en.wikipedia.org/wiki/Half-precision_floating-point_format) max number in float32 (https://en.wikipedia.org/wiki/Single-precision_floating-point_format) format?

I want to have a function which could convert 0x7bff to 65504. 0x7bff is the max value can be represented by floating point half precision:

0 11110 1111111111 -> decimal value: 65504 

I want to have 0x7bff to represent the actual bits in my program.

float fp16_max = bit_cast(0x7bff); 
# want "std::cout << fp16_max" to be 65504

I tried to implement such a function but it didn't seem to work:

float bit_cast (uint32_t fp16_bits) {
    float i;
    memcpy(&i, &fp16_bits, 4);
    return i; 
float test = bit_cast(0x7bff);
# print out test: 4.44814e-41
  • 1
    Don't use memcpy, instead re-assign. The floating point formats are wildly different.
    – tadman
    Jul 11 '19 at 18:11
  • 1
    Possible duplicate of 32-bit to 16-bit Floating Point Conversion
    – Botje
    Jul 11 '19 at 18:13
  • 1
    I'm pretty sure @tadman is spot on. Anything you try to do to circumvent that assignment is likely to slow it down or corrupt it.
    – Ted Lyngmo
    Jul 11 '19 at 18:20
  • 1
    @Lemon I'm not sure but I think you are mixing things up. I do it too so this might not be precise: float a is your lvalue receiving the result of 0x7bff which is an integer. This literal will be translated by the compiler to the best it can (31743 point something), to something that fits your float. floats do not manage to represent every integer. If I take a step back and look at your question and see "save". Do you need this saved data to go anywhere? Does it only need to be interpreted on the same computer on which you saved it? If so, it's sort of simple.
    – Ted Lyngmo
    Jul 11 '19 at 18:57
  • 1
    Sorry for the confusion. It's happening on the same computer without going anywhere.
    – Zack
    Jul 11 '19 at 19:00
#include <cmath>
#include <cstdio>

/*  Decode the IEEE-754 binary16 encoding into a floating-point value.
    Details of NaNs are not handled.
static float InterpretAsBinary16(unsigned Bits)
    //  Extract the fields from the binary16 encoding.
    unsigned SignCode        = Bits >> 15;
    unsigned ExponentCode    = Bits >> 10 & 0x1f;
    unsigned SignificandCode = Bits       & 0x3ff;

    //  Interpret the sign bit.
    float Sign = SignCode ? -1 : +1;

    //  Partition into cases based on exponent code.

    float Significand, Exponent;

    //  An exponent code of all ones denotes infinity or a NaN.
    if (ExponentCode == 0x1f)
        return Sign * (SignificandCode == 0 ? INFINITY : NAN);

    //  An exponent code of all zeros denotes zero or a subnormal.
    else if (ExponentCode == 0)
        /*  Subnormal significands have a leading zero, and the exponent is the
            same as if the exponent code were 1.
        Significand = 0 + SignificandCode * 0x1p-10;
        Exponent    = 1 - 0xf;

    //  Other exponent codes denote normal numbers.
        /*  Normal significands have a leading one, and the exponent is biased
            by 0xf.
        Significand = 1 + SignificandCode * 0x1p-10;
        Exponent    = ExponentCode - 0xf;

    //  Combine the sign, significand, and exponent, and return the result.
    return Sign * std::ldexp(Significand, Exponent);

int main(void)
    unsigned Bits = 0x7bff;
        "Interpreting the bits 0x%x as an IEEE-754 binary16 yields %.99g.\n",

By the very declaration float fp16_max, your value is already a 32-bit float; no need to cast here. I guess you can simply:

float i = fp16_max;

The assumption here is that your "magic" bit_cast function already returned a 32-bit float properly. Since you haven't shown us what bit-cast does or actually returns, I'll assume it does indeed return a proper float value.


How to save the float16 max number in float32 format?


You can simply convert the integer to float:

float half_max = 65504;

If you would like to calculate the value, you can use ldexpf:

float half_max = (2 - ldexpf(1, -10)) * ldexpf(1, 15)

Or generally, for any IEEE float:

// in case of half float
int bits = 16;
int man_bits = 10;

// the calculation
int exp_bits = bits - man_bits - 1;
int exp_max = (1 << (exp_bits - 1)) - 1;
long double max = (2 - ldexp(1, -1 * man_bits)) * ldexp(1, exp_max);

Bit casting 0x7bff does not work, because 0x7bff is the representation in the binary16 format (in some endianness), not in binary32 format. You cannot bit cast conflicting representations.

  • Cool. I really want to keep 0x7bff in my program. Is there anyway to implement the bit_conversion function using ldexpf?
    – Zack
    Jul 11 '19 at 19:07
  • @Lemon you can write a function that converts a half float number to another representation (such as float). Then std::memcpy 0x7bff to the storage used to represent the half float (taking care of endianness). Then use your function to convert to float.
    – eerorika
    Jul 11 '19 at 19:10

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