Thanks everyone for the very useful help! In particular, the rules for rounding were especially helpful!

I am pleased to say that, with the help of this question's responses, and all you glorious people, I successfully implemented the function. My final function is:

```
unsigned float_i2f(int x) {
/* Apply a complex series of operations to make the cast. Rounding was achieved with the help of my post http://stackoverflow.com/questions/9288241/rules-for-explicit-int32-float32-casting. */
int sign, exponent, y;
int shift, shift_is_pos, shifted_x, deshifted_x, dropped;
int mantissa;
if (x==0) return 0;
sign = x<0 ? 0x80000000 : 0; //extract sign
x = sign ? -x : x; //absolute value, sorta
//Check how big the exponent needs to be to offset the necessary shift to the mantissa.
exponent = 0;
y = x;
while (y/=2) {
++exponent;
}
shift = exponent - 23; shift_is_pos = shift >= 0; //How much to shift x to get the mantissa, and whether that shift is left or right.
shifted_x = (shift_is_pos ? (x>>shift) : (x<<-shift)); //Shift x
deshifted_x = (shift_is_pos ? (shifted_x<<shift) : (shifted_x>>-shift)); //Unshift it (fills right with zeros)
dropped = x - deshifted_x; //Subtract the difference. This gives the rounding error.
mantissa = 0x007FFFFF & shifted_x; //Remove leading MSB (it is represented implicitly)
//It is only possible for bits to have been dropped if the shift was positive (right).
if (shift_is_pos) {
//We dropped some bits. Rounding may be necessary.
if ((0x01<<(shift-1))&dropped ) {
//The MSB of the dropped bits is 1. Rounding may be necessary.
//Kill the MSB of the dropped bits (taking into account hardware ignoring 32 bit shifts).
if (shift==1) dropped = 0;
else dropped <<= 33-shift;
if (dropped) {
//The remaining dropped bits have one or more bits set.
goto INC_MANTISSA;
}
//The remaining dropped bits are all 0
else if (mantissa&0x01) {
//LSB is 1
goto INC_MANTISSA;
}
}
}
//No rounding is necessary
goto CONTINUE;
//For incrementing the mantissa. Handles overflow by incrementing the exponent and setting the mantissa to 0.
INC_MANTISSA:
++mantissa;
if (mantissa&(0x00800000)) {
mantissa = 0;
++exponent;
}
//Resuming normal program flow.
CONTINUE:
exponent += 127; //Bias the exponent
return sign | (exponent<<23) | mantissa; //Or it all together and return.
}
```

It solves all test cases correctly, although I'm certain it does not handle *everything* correctly (for example, if x is 0x80000000, then the "absolute value" section will return 0x80000000, because of overflow).

Once again, I want to thank all of you greatly for your help!

Thanks,
Ian

`float x = y;`

wouldn't satisfy the actual requirement, though it converts an`int`

to a`float`

without a cast. You'll find the language definition of integer-to-float conversion in section 6.3.1.4 of the C99 standard. – Keith Thompson Feb 15 '12 at 6:30