With float a = ...; and float inva = 1/a; is x / a the same as x * inva?

And what is with this case:

unsigned i = ...;
float v1 = static_cast<float>(i) / 4294967295.0f;
float scl = 1.0f / 4294967295.0f;
float v2 = static_cast<float>(i) * scl;

Is v1 equal to v2 for all unsigned integers?

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    The first answer here might provide some info for you: stackoverflow.com/questions/22621241/… – C.B. Mar 26 '14 at 14:37
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    @devnull: that site is dead. – Violet Giraffe Mar 26 '14 at 14:42
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    Not the point here, but 4294967295.0f is not even representable as a float. – yzt Mar 26 '14 at 14:48
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    @MatthieuM. That's for one float. Two floats, as in x / y == x * (1 / y), make just fewer than 2^64 possibilities in general, unless you can argue that most exponents need not be studied, in which case you may end up with a barely practical set of 2^46 possibilities. – Pascal Cuoq Mar 26 '14 at 15:11
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    @Michael Walz I too am unable to a failing case for a 32-bit unsigned. Even tried unsigned as a 64-bit - so far no failures. (this is with OP's 2nd case) – chux Mar 26 '14 at 15:13

is v1 equal to v2 for all unsigned integers?

Yes, because 4294967295.0f is a power of two. Division and multiplication by the reciprocal are equivalent when the divisor is a power of two (assuming the computation of the reciprocal does not overflow or underflow to zero).

Division and multiplication by the reciprocal are not equivalent in general, only in the particular case of powers of two. The reason is that for (almost all) powers of two y, the computation of 1 / y is exact, so that x * (1 / y) only rounds once, just like x / y only rounds once.

  • Would I have to use 4294967296.0 then? Because 4294967295 is not a power of 2... – Danvil Mar 26 '14 at 15:26
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    @Danvil The funny thing is that 4294967295 is not a power of two, but 4294967295.0f, on most compilation platforms, is the single-precision IEEE 754 number nearest 4294967295, that is, 4294967296, and is in effect a power of two. – Pascal Cuoq Mar 26 '14 at 15:30
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    Note that 4294967295.0f may in fact be considered == to 4294967296.0f, since there are loss-of-precision issues trying to represent 2^32-1 as a float... So, while it isn't truly a power of 2 (no odd number can be, by definition, except for 2^0 = 1), it may appear to be... – twalberg Mar 26 '14 at 15:32

No, the result will not always be the same. The way you group the operands in floating point multiplication, or division in this case, has an effect on the numerical accuracy of the answer. Thus, the product a*(1/b) might differ from a/b. Check the wikipedia article http://en.wikipedia.org/wiki/Floating_point#Accuracy_problems.

  • I thought so, but in the case with the integers, I could not found a counter example... – Danvil Mar 26 '14 at 15:31

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