I'm not an expert on this, but looking at the implementation of
ConcurrentHashMap I see that the
count appears to be used to ensure proper visibility between threads. All read operations have to read the
count field and all write operations have to write to it. From comments in the class:
Read operations can thus proceed without locking, but rely
on selected uses of volatiles to ensure that completed
write operations performed by other threads are
noticed. For most purposes, the "count" field, tracking the
number of elements, serves as that volatile variable
ensuring visibility. This is convenient because this field
needs to be read in many read operations anyway:
- All (unsynchronized) read operations must first read the
"count" field, and should not look at table entries if
it is 0.
- All (synchronized) write operations should write to
the "count" field after structurally changing any bin.
The operations must not take any action that could even
momentarily cause a concurrent read operation to see
inconsistent data. This is made easier by the nature of
the read operations in Map. For example, no operation
can reveal that the table has grown but the threshold
has not yet been updated, so there are no atomicity
requirements for this with respect to reads.