Obviously the better choice and a perfect fit for our requirements;
while the system-clock may jump and even move backwards on time service
adjustments, the steady clock just counts the ticks since last boot.
In libStdC++ both are implemented as int64_t and use nanoseconds resolution
- Ensure the grooming-token (lock) is reliably dropped
- also explicitly drop it prior to trageted sleeps
- properly signal when not able to acquire the token before dispatch
- amend tests broken by changes since yesterday
Notably the work-function is now completely covered, by adding
this last test, and the detailed investigations yesterday
ultimately unveiled nothing of concern; the times sum up.
Further reflection regarding the overall concept led me
to a surprising solution for the problem with priority classes.
...especially for the case »outgoing to sleep«
- reorganise switch-case to avoid falling through
- properly handle the tendedNext() predicate also in boundrary cases
- structure the decision logic clearer
- cover the new behaviour in test
Remark: when the queue falls empty, the scheduler now sends each
worker once into a targted re-shuffling delay, to ensure the
sleep-cycles are statistically evenly spaced
...there seemed to be an anomaly of 50...100µs
==> conclusion: this is due to the instrumentation code
- it largely caused by the EventLog, which was never meant
to be used in performance-critical code, and does hefty
heap allocations and string processing.
- moreover, there clearly is a cache-effect, adding a Factor 2
whenever some time passed since the last EventLog call
==> can be considered just an artifact of the test setup and
will have no impact on the scheduler
remark: this commit adds a lot of instrumentation code
To cover the visible behaviour of the work-Function,
we have to check an amalgam of timing delays and time differences.
This kind of test tends to be problematic, since timings are always
random and also machine dependent, and thus we need to produce pronounced effects
- organise by principles rather than implementing a mechanism
- keep the first version simple yet flexible
- conduct empiric research under synthetic load
Basic scheme:
- tend for next
- classify free capacity
- scattered targeted wait
The »Scheduler Service« will be assembled
from the components developed during the last months
- Layer-1
- Layer-2
- Activity-Language
- Block-Flow
- Work-Force
