int d = _data; is indeed a read and a write. But the write is to the local, on the stack, variable
d, and is not of interest for the discussion there.
What's of interest is the order of read/writing from the member variable
_data when there are several threads accessing the same object, and therefore accessing the same memory. For the local
d variable, each thread have their own stack, and there's no multithreaded issues regarding accessing
d in these examples.
The article discusses the
_data variable, not the
d variable. Whenever someone reads/writes to
_data, that's the interesting piece, as that's where memory reordering in regards to multi threading is something one must be aware of. That
int d = _data also writes to
d is completely irrelevant.
By the comment
// Read 1, it is implied that we're talking about
_data - and there's no write to
_data on that line of code.