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If I directly (not getting it as a result of a calculation), explicitly assign 0.0001 to a variable of a Double type, is it guaranteed to be exactly equal to 0.0001 wherever it goes?

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up vote 2 down vote accepted

No... because it's simply impossible to represent 0.0001 as a (finite) binary fraction - you'll get a rounding error when the literal is compiled or interpreted.

However, integer numbers can be stored without rounding - up to the limit of precision, which is of course lower than for an integer type of the same size. And when the limit is reached, instead of an overflow, you start to lose precision, so at some point d == d+1

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But isn't 0.0001 stored as a pair of a significand (1) and an exponent (-4)? – Ivan Dec 4 '11 at 17:17
@Ivan: 1 * 2^-4 == 0.0625 - it's a binary fraction. – Michael Borgwardt Dec 4 '11 at 17:38
Then does precision-definite equality check made like Abs(x-y)<=0.0001 make sense? If not, then what could a better way be? – Ivan Dec 5 '11 at 15:09
@Ivan: in that case, the exact value of the constant does not matter at all. But take a look at the site I linked to; it has a page about comparison and discusses some other problems that can arise. – Michael Borgwardt Dec 5 '11 at 16:13

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