fractions floating point number

What is the most efficient way to determine the significant places in a IEEE-754 64-bit floating-point number?

For example:

56.7899 --> 4 0.005 --> 3 -56.1 --> 1 768.0 --> 0 56.56000 --> 2

My current solution is to convert the float to string representation an determine the strlen of the remainder but that seems very inefficient.

EDIT: I applied a round() to six places on float64 instances to get rid of corner cases like 45.00000000000096

And I am only interested in the remainder part.

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IEEE754 is in base 2, but your examples are in base 10. They don't fit nicely (for instance, `1.0/10` i.e. `0.1` does not have a finite exact representation in base 2), so your question does not even has a well defined meaning. –  Basile Starynkevitch Jan 23 '13 at 6:58
> so your question does not even has a well defined meaning How so? –  JohnDoe Jan 23 '13 at 7:59
Basile has the right of it: you can't do this because the values stored aren't decimal. I suggest you switch to using a representation akin to Java's `BigDecimal`. –  Jack Aidley Jan 23 '13 at 8:07
I understand that perfectly. I also know that certain numbers in base 10 have no exact representation in IEEE-754. For an algorithm it is required to determine the number of places after the comma and currently I am doing it by converting to string which certainly is horribly inefficient. If I could get the remainder as integer or sthg. would already help. –  JohnDoe Jan 23 '13 at 8:17
I am not sure that converting to string is horribly inefficient. I don't claim it is efficient neither, but it might be good enough for your ill defined purposes. –  Basile Starynkevitch Jan 23 '13 at 8:37