It depends on how you would be using it.

If you're happy with only being able to find the value based on the *exact same bit pattern* (or *potentially* an equivalent one, such as +/- 0 and various NaNs) then it might be okay.

In particular, all NaNs would end up being considered equal, but +0 and -0 would be considered different. From the docs for `Double.equals`

:

Note that in most cases, for two
instances of class Double, d1 and d2,
the value of d1.equals(d2) is true if
and only if

d1.doubleValue() ==
d2.doubleValue() also has the value
true. However, there are two
exceptions:

- If d1 and d2 both represent
Double.NaN, then the equals method
returns true, even though
Double.NaN==Double.NaN has the value
false.
- If d1 represents +0.0 while d2
represents -0.0, or vice versa, the
equal test has the value false, even
though +0.0==-0.0 has the value true.

This definition allows hash tables to
operate properly.

Most likely you're interested in "numbers very close to the key" though, which makes it a lot less viable. In particular if you're going to do one set of calculations to get the key once, then a different set of calculations to get the key the second time, you'll have problems.