RFR 8158039 VarHandle float/double field/array access should support CAS/set/add atomics

Thu Jun 16 03:54:40 UTC 2016

Hi Joe, Andrew,

> On 14 Jun 2016, at 02:05, Andrew Haley <aph at redhat.com> wrote:
> 
> On 14/06/16 05:09, joe darcy wrote:
>> I suggest also pointing out that a bitwise comparison distinguishes -0.0
>> from +0.0; they compare as == under the built-in operation.
> 
> Indeed so, yes.  This is particularly likely to bite people who have
> a zero created by, say, an algorithm which converges on zero with
> successive terms which alternate sign.  Eww.
> 

In a previously unpublished incarnation i did talk about -0.0/+0.0, then i dropped it...

Here is an updated revision of the note:

1226          * @apiNote
1227          * Bitwise comparison of {@code float} values or {@code double} values,
1228          * as performed by the numeric and atomic update access modes, differ
1229          * from the primitive {@code ==} operator and the {@link Float#equals}
1230          * and {@link Double#equals} methods, specifically with respect to
1231          * comparing NaN values or comparing {@code -0.0} with {@code +0.0}.
1232          * Care should be taken when performing a compare and set or a compare
1233          * and exchange operation with such values since the operation may
1234          * unexpectedly fail.
1235          * There are many possible NaN values that are considered to be
1236          * {@code NaN} in Java, although no IEEE 754 floating-point operation
1237          * provided by Java can distinguish between them.  Operation failure can
1238          * occur if the expected or witness value is a NaN value and it is
1239          * transformed (perhaps in a platform specific manner) into another NaN
1240          * value, and thus has a different bitwise representation (see
1241          * {@link Float#intBitsToFloat} or {@link Double#longBitsToDouble} for more
1242          * details).
1243          * The values {@code -0.0} and {@code +0.0} have different bitwise
1244          * representations but are considered equal when using the primitive
1245          * {@code ==} operator.  Operation failure can occur if, for example, a
1246          * numeric algorithm computes an expected value to be say {@code -0.0}
1247          * and previously computed the witness value to be say {@code +0.0}.

Paul.