Yes, it is thread-safe, although you could rename
TryLock since you are not calling CAS in a loop until it succeeds. Traditionally
Lock operations are supposed to block until the acquire succeeds.
volatile, the docs of
std::atomic specify (about the
Atomically assigns a value t to the atomic variable. Equivalent to store(desired).
void store( T desired, memory_order = std::memory_order_seq_cst );
memory_order = std::memory_order_seq_cst:
- No writes in the writer thread can be reordered after the atomic
- No reads in the reader thread can be reordered before the atomic load.
- The synchronization is established between all atomic operations tagged std::memory_order_seq_cst. All threads using such atomic
operation see the same order of memory accesses.
So no, you don't need
volatile here. Additionally,
volatile has weaker guarantees than the ones above (in fact,
volatile is mostly useless in C++):
Within a thread of execution, accesses (reads and writes) to all
volatile objects are guaranteed to not be reordered relative to each
other, but this order is not guaranteed to be observed by another
thread, since volatile access does not establish inter-thread