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myInt = int( 5 * myRandom() )

myRandom() is a randomly generated float, which should be 0.2.

So this statement should evaluate to be 1.

My question: is it possible that due to a floating point error it will NOT evaluate to 1?

For example if due to a floating point error something which should be 0.2 could that be LESS than that? IE, for instance consider the following 3 possibilities:

int(5 * 0.2 )                = 1 //case 1 normal
int(5 * 0.2000000000000001 ) = 1 //case 2 slightly larger, its OK
int(5 * 0.1999999999999999 ) = 0 //case 3 negative, is NOT OK, as int() floors it

Is case3 even possible?, with 0.1999999999999999 be a result of a floating point error? I have never actually seen a negative epsilon so far, only case 2, when its a slightly bit larger, and thats OK, as when it is cast to int(), that 'floors' it to the correct result. However with a negative epsilon the 'flooring' effect will make the resulting 0.9999999999999996 evaluate to 0.

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I don't think it's possible, no. The multiplication and rounding down should only pay attention to the maximum number of possible significant digits. –  minitech Jul 5 '12 at 19:15
If it's randomly generated, why "should" it be 0.2? –  Keith Thompson Jul 5 '12 at 19:19
This is C++, not C. You cannot use the constructor syntax in C. –  Jonathan Grynspan Jul 5 '12 at 19:20
Its neither C or C++, its pseudo code. the '0.2' is just an example as well, the actual usage is about Determinism. That is if a Float(nondeterministic) value is cast to an Integer, would that be deterministic? –  Martin K Jul 5 '12 at 20:25

5 Answers 5

up vote 3 down vote accepted

It is impossible for myRandom to return .2 because .2 is not representable as a float or a double, assuming your target system is using the IEEE 754 binary floating-point standard, which is overwhelmingly the default.

If myRandom() returns the representable number nearest .2, then myInt will be 1, because the number nearest .2 representable as a float is slightly greater than .2 (it is 0.20000000298023223876953125), and so is the nearest representable double (0.20000000000000001110223024625156540423631668090820312).

In other cases, this will not be true. E.g., the nearest double to .6 is 0.59999999999999997779553950749686919152736663818359375, so myInt will be 2, not 3.

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I like your answer the best, however it is worrying. The real issue was if I could get a deterministic result by casting a float to an int, however from what you have said about the 0.6, it appears not. I will need to do some custom rounding. –  Martin K Jul 5 '12 at 20:43

Yes, it's possible, at least as far as the C standard is concerned.

The value 0.2 cannot be represented exactly in a binary floating-point format. The value returned by myRandom() will therefore be either slightly below, or slightly above, the mathematical value 0.2. The C standard permits either result.

Now it may well be that IEEE semantics only permit the result to be slightly greater than 0.2 -- but the C standard doesn't require IEEE semantics. And that's assuming that the result is derived as exactly as possible from the value 0.2. If the value is generated from a series of floating-point operations, each of which can introduce a small error, it could easily be either less than or greater than 0.2.

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As an addendum, casting a float to an int rounds down, so if the value is slightly greater than 0.2, you will end up with a product slightly greater than 1, which will round down. –  Wug Jul 5 '12 at 19:21
This just an example, the myRandom() could be anything from 0 to 1, but 0.2 seemed like a good case to illustrate the difference between the outcomes of 0 and 1. The real issue is about Determinism, I was looking to find out if casting a Floatpoint to an int, would that result in a deterministic outcome. It looks like not. –  Martin K Jul 5 '12 at 20:39

It's not a floating point error, it's the way floating point works. Any fraction that isn't 1/(power of 2) can't be exactly represented, and will be rounded either up or down to the nearest representable number.

You can fix your code by multiplying by some small epsilon greater than one before converting to integer.

myInt = int( 5 * myRandom() * 1.000000000000001 )

See What Every Computer Scientist Should Know About Floating-Point Arithmetic.

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It's possible, depending on the number you choose. To check a specific number you can always print them with a lot of precision: printf("%1.50f", 0.2)

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why not multiply your float by 5.0 and then use the round function to properly round it?

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This is an illustration, these arent the actual figures. –  Martin K Jul 5 '12 at 20:38
The idea still works. –  Big Endian Jul 5 '12 at 23:20

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