It looks ugly as sin, but this nets about a 20% drop in user CPU time,
and close to 15% increase in throughput.
The average log call is around 10 opcodes, prefixing with '_v and' costs
an extra 2, but both are simple operations, and the remaining 10 are
skipped entirely when _v or _vv are False.
Turns out it is far too easy to burn through available file descriptors,
so try something else: self-pipes are per thread, and only temporarily
associated with a Lack that wishes to sleep.
Reduce pointless locking by giving Latch its own queue, and removing
Queue.Queue() use in some places.
Temporarily undo merging of of Waker and Latch, let's do this one step
at a time.
On Python 2.x, operations on pthread objects with a timeout set actually
cause internal polling. When polling fails to yield a positive result,
it quickly backs off to a 50ms loop, which results in a huge amount of
latency throughout.
Instead, give up using Queue.Queue.get(timeout=...) and replace it with
the UNIX self-pipe trick. Knocks another 45% off my.yml in the Ansible
examples directory against a local VM.
This has the potential to burn a *lot* of file descriptors, but hell,
it's not the 1940s any more, RAM is all but infinite. I can live with
that.
This gets things down to around 75ms per playbook step, still hunting
for additional sources of latency.
Fix a MyPy warning by only passing lists to select.select(). At least on
Python 2.x, select.select() was internally converting the sets to lists
anyway.
By the time lists become inefficient here, it is likely that
select.select() itself will also be inefficient, and need replaced with
.poll() or similar.
No discernible performance different when transferring django.db.models
to a local VM.
* Children should never generate a request for a module that has already
been sent, however there are a variety of edge cases where, e.g.
asynchronous calls are made into unloaded modules in a set of
children, causing those children to request modules (and deps) in a
different order, which might break deduplication. So add a warning to
catch when this happens, so we can figure out how to handle it.
Meanwhile it's only a warning since in the worst case, this just adds
needless latency.
* Don't bother treating sent packages separately, there doesn't seem to
be any need for this (after docs are updated to match how preloading
actually works now).