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I normalized a vector and length of it should be 1. But the result of length method is 0.99999982

I don't know it's right or wrong. But if I print it out, the result is 1. Not 0.99999982( printed by cout )

But how std::cout knows it's 1? [This is my first question]

And another question is why the result of comparing function is false.

I have a comparing method like below. And lhs is the length of a vector and the rhs is just 1.

return (fabsf(rhs-lhs) <= FLT_EPSILON) ? true : false;

Result of this method is false.

Is length of the normalized vector is already wrong to be considered normalized? or epsilon is too small?

What did I wrong?

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sigh Floating-point numbers. –  quasiverse Sep 21 '11 at 3:32
I like this answer: stackoverflow.com/questions/17333/… –  R. Martinho Fernandes Sep 21 '11 at 4:05
Note: return (fabsf(rhs-lhs) <= FLT_EPSILON) ? true : false; should be simplified to return (fabsf(rhs-lhs) <= FLT_EPSILON); –  arsenm Sep 21 '11 at 4:34

2 Answers 2

up vote 1 down vote accepted

The IEEE standard requires that the result of addition, subtraction, multiplication and division be exactly rounded. The result must then be rounded to the nearest floating-point number. Floating point error is accumulated in the many operators it takes to normalize a vector. Like the other poster said FLT_EPSILON is too small.

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The epsilon is too small. That's because epsilon is the smallest as it can be. (by definition)

So you will need a larger tolerance.

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Right. FLT_EPSILON is absolutely not useful for a fuzzy equality test. The confusion comes because the symbol epsilon is often used in such formulas, but it's a different epsilon. –  Ben Voigt Sep 21 '11 at 3:35

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