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LUMIERA.clone/tests/vault/gear/activity-detector-test.cpp
Ichthyostega 2f042ce6c0 Activity-Lang: cover all cases of Gate-behaviour 
TODO: while correct as implemented, the handling of the
notification seems questionable, since re-scheduling the chain immediately
may lead to multiple invocations of the chain, since it might have been "spinned"
and thus re-scheduled already, and we have no way to find out about that
2023-08-22 20:13:13 +02:00

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/*
ActivityDetector(Test) - verify diagnostic setup to watch scheduler activities
Copyright (C) Lumiera.org
2023, Hermann Vosseler <Ichthyostega@web.de>
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 2 of
the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
* *****************************************************/
/** @file activity-detector-test.cpp
** unit test \ref ActivityDetector_test
*/
#include "lib/test/run.hpp"
#include "lib/test/test-helper.hpp"
#include "activity-detector.hpp"
#include "vault/real-clock.hpp"
#include "lib/time/timevalue.hpp"
#include "lib/format-cout.hpp" /////////////////////////////TODO
#include "lib/util.hpp"
//#include <utility>
//using test::Test;
//using lib::time::Time;
//using lib::time::FSecs;
//using std::move;
using util::isSameObject;
using lib::test::randStr;
using lib::test::randTime;
namespace vault{
namespace gear {
namespace test {
// using lib::time::FrameRate;
// using lib::time::Offset;
using lib::time::Time;
using lib::time::FSecs;
/*****************************************************************//**
* @test verify instrumentation setup to watch scheduler Activities.
* @see SchedulerActivity_test
* @see SchedulerUsage_test
*/
class ActivityDetector_test : public Test
{
virtual void
run (Arg)
{
simpleUsage();
verifyMockInvocation();
verifyMockJobFunctor();
verifyFakeExeContext();
watch_activation();
watch_ActivationTap();
insert_ActivationTap();
watch_notification();
watch_gate();
}
/** @test TODO demonstrate a simple usage scenario
* @todo WIP 7/23 🔁 define 🔁 implement
*/
void
simpleUsage()
{
ActivityDetector detector("spectre");
auto trap = detector.buildDiagnosticFun<int(double,Time)>("trap")
.returning(55);
CHECK (55 == trap (1.23, Time{FSecs{3,2}}));
CHECK (detector == "Rec(EventLogHeader| this = ActivityDetector(spectre) ), "
"Rec(call| fun = trap, this = ActivityDetector(spectre), Seq = 0 |{1.23, 0:00:01.500})"_expect);
}
/** @test verify the setup and detection of instrumented invocations
* - a _sequence number_ is embedded into the ActivityDetector
* - this sequence number is recorded into an attribute at each invocation
* - a DSL for verification is provided (based on the EventLog)
* - arguments and sequence numbers can be explicitly checked
*/
void
verifyMockInvocation()
{
ActivityDetector detector;
auto fun = detector.buildDiagnosticFun<void(uint)> ("funny");
uint rnd = rand() % 10000;
detector.incrementSeq();
CHECK (1 == detector.currSeq());
CHECK (detector.ensureNoInvocation ("funny"));
detector.incrementSeq();
CHECK (2 == detector.currSeq());
CHECK (detector.verifySeqIncrement(2));
fun (rnd);
CHECK (detector.verifyInvocation ("funny"));
CHECK (detector.verifyInvocation ("funny").arg(rnd));
CHECK (detector.verifyInvocation ("funny").seq(2));
CHECK (detector.verifyInvocation ("funny").arg(rnd).seq(2));
CHECK (detector.verifyInvocation ("funny").seq(2).arg(rnd));
CHECK (detector.ensureNoInvocation ("bunny")); // wrong name
CHECK (detector.ensureNoInvocation ("funny").arg()); // fails since empty argument list expected
CHECK (detector.ensureNoInvocation ("funny").arg(rnd+5)); // expecting wrong argument
CHECK (detector.ensureNoInvocation ("funny").seq(5)); // expecting wrong sequence number
CHECK (detector.ensureNoInvocation ("funny").arg(rnd).seq(1)); // expecting correct argument, but wrong sequence
detector.incrementSeq();
fun (rnd+1);
CHECK (detector.verifyInvocation ("funny").seq(2)
.beforeSeqIncrement(3)
.beforeInvocation ("funny").seq(3).arg(rnd+1));
CHECK (detector == "Rec(EventLogHeader| this = ActivityDetector )"
", Rec(event| ID = IncSeq |{1})"
", Rec(event| ID = IncSeq |{2})"
", Rec(call| fun = funny, this = ActivityDetector, Seq = 2 |{"+util::toString(rnd)+"})"
", Rec(event| ID = IncSeq |{3})"
", Rec(call| fun = funny, this = ActivityDetector, Seq = 3 |{"+util::toString(rnd+1)+"})"_expect);
}
/** @test diagnostic setup to detect a JobFunctor activation
* - the ActivityDetector provides specifically rigged JobFunctor instances
* - these capture all invocations, based on generic invocation logging
* - special match qualifier to verify the job's nominal invocation time parameter
* - event verification can be combined with other verifications to cover
* complex invocation sequences
*/
void
verifyMockJobFunctor()
{
ActivityDetector detector;
InvocationInstanceID invoKey;
Time nominal{FSecs{5,2}};
invoKey.part.a = 55;
Job dummyJob{detector.buildMockJobFunctor ("mockJob")
,invoKey
,nominal};
CHECK (detector.ensureNoInvocation ("mockJob"));
dummyJob.triggerJob();
CHECK (detector.verifyInvocation ("mockJob"));
CHECK (detector.verifyInvocation ("mockJob").arg(nominal, invoKey.part.a));
CHECK (detector.verifyInvocation ("mockJob").timeArg(nominal));
detector.incrementSeq(); // note: sequence number incremented between invocations
dummyJob.parameter.nominalTime += 5 * Time::SCALE; // different job parameter (later nominal time point)
dummyJob.triggerJob();
CHECK (detector.verifyInvocation ("mockJob").timeArg(nominal).seq(0)
.beforeInvocation ("mockJob").timeArg(nominal + Time{FSecs{5}}) // matching first invocation and then second...
.afterSeqIncrement(1) // note: searching backwards from the 2nd invocation
);
// cout << detector.showLog()<<endl; // HINT: use this for investigation...
}
/** @test faked execution context to perform Activity activation
* - wired internally to report each invocation into the EventLog
* - by default response of `post` and `tick` is `PASS`, but can be reconfigured
* - invocation sequence can be verified by the usual scheme
*/
void
verifyFakeExeContext()
{
ActivityDetector detector;
auto& ctx = detector.executionCtx;
// an otherwise opaque object fulfilling the "Concept"
activity::_verify_usable_as_ExecutionContext<decltype(detector.executionCtx)>();
Time t = randTime();
size_t x = rand();
Activity a;
CHECK (detector.ensureNoInvocation(CTX_WORK));
CHECK (detector.ensureNoInvocation(CTX_POST));
CHECK (detector.ensureNoInvocation(CTX_DONE));
CHECK (detector.ensureNoInvocation(CTX_TICK));
ctx.work (t,x);
CHECK (detector.verifyInvocation(CTX_WORK).arg(t,x));
ctx.done (t,x);
CHECK (detector.verifyInvocation(CTX_DONE).arg(t,x));
CHECK (activity::PASS == ctx.post (t, a, ctx));
CHECK (detector.verifyInvocation(CTX_POST).arg(t,a,ctx));
CHECK (activity::PASS == ctx.tick(t));
CHECK (detector.verifyInvocation(CTX_TICK).arg(t));
detector.incrementSeq();
ctx.tick.returning(activity::KILL);
CHECK (activity::KILL == ctx.tick(t));
CHECK (detector.verifyInvocation(CTX_TICK).timeArg(t));
CHECK (detector.verifyInvocation(CTX_WORK).timeArg(t)
.beforeInvocation(CTX_DONE).timeArg(t)
.beforeInvocation(CTX_POST).timeArg(t)
.beforeInvocation(CTX_TICK).timeArg(t).seq(0)
.beforeInvocation(CTX_TICK).timeArg(t).seq(1));
}
/** @test diagnostic setup to detect Activity activation
* @todo WIP 8/23 ✔ define ✔ implement
*/
void
watch_activation()
{
ActivityDetector detector;
auto someID = "trap-" + randStr(4);
Activity& probe = detector.buildActivationProbe (someID);
CHECK (Activity::HOOK == probe.verb_);
Time realTime = RealClock::now();
probe.activate (realTime, detector.executionCtx);
CHECK (detector.verifyInvocation(someID).timeArg(realTime));
}
/** @test diagnostic adaptor to detect and pass-through Activity activation
* @todo WIP 8/23 ✔ define ✔ implement
*/
void
watch_ActivationTap()
{
ActivityDetector detector;
Time nomTime{99,11};
Activity feed{size_t{12},size_t{34}};
Activity feed2{size_t{56},size_t{78}};
feed.next = &feed2;
string jobID = "job-" + randStr(4);
Activity invoke{detector.buildMockJobFunctor(jobID), nomTime, feed};
Time t1{0,1,1};
CHECK (activity::PASS == invoke.activate (t1, detector.executionCtx));
CHECK (detector.verifyInvocation (jobID).arg(nomTime, 12));
// decorate the INVOKE-Activity with an ActivationTap
Activity& tap = detector.buildActivationTap (invoke);
CHECK (tap.next == invoke.next);
detector.incrementSeq();
Time t2{0,2,2};
// now activate through the Tap....
tap.activate(t2, detector.executionCtx);
CHECK (detector.verifySeqIncrement(1) // ==> the ActivationTap "tap-INVOKE" reports and passes activation
.beforeInvocation("tap-INVOKE").seq(1).arg("JobFun-ActivityDetector."+jobID)
.beforeInvocation(jobID).seq(1).arg(nomTime,12));
// WARNING: can still activate the watched subject directly...
detector.incrementSeq();
Time t3{0,3,3};
invoke.activate (t3, detector.executionCtx);
CHECK (detector.verifyInvocation(jobID).seq(2)); // subject invoked
CHECK (detector.ensureNoInvocation("tap-INVOKE").seq(2) // but invocation not detected by ActivationTap
.beforeInvocation(jobID).seq(2));
}
/** @test inject (prepend) an ActivationTap into existing wiring
* @todo WIP 8/23 ✔ define ✔ implement
*/
void
insert_ActivationTap()
{
ActivityDetector detector;
Activity subject;
Activity followUp{size_t(1), size_t(2)};
subject.next = &followUp;
Activity* wiring = &subject;
CHECK (isSameObject (*wiring, subject));
CHECK (wiring->verb_ == Activity::TICK);
detector.insertActivationTap (wiring);
CHECK (not isSameObject (*wiring, subject));
CHECK (wiring->verb_ == Activity::HOOK);
CHECK (wiring->data_.callback.arg == size_t(&subject));
CHECK (wiring->next == subject.next);
Time tt{1,1,1};
// now activate through the wiring....
wiring->activate(tt, detector.executionCtx);
CHECK (detector.verifyInvocation("tap-TICK").arg("⧐ Act(TICK")
.beforeInvocation("CTX-tick").timeArg(tt));
}
/** @test diagnostic setup to detect passing a notification
* - setup a chain-Activity (here: a `TICK`) protected by a `GATE`
* - configure the `GATE` to require one notification
* - connect a `NOTIFY`-Activity to trigger the `GATE`
* - inject a diagnostics Tap into the notification-connection
* - dispatch of the notification can be verified
* - notification has been passed through the Tap to the `GATE`
* - `GATE` has been decremented to zero and triggers chain
* - finally the chained `TICK`-Activity calls into the `executionCtx`
* @todo WIP 8/23 ✔ define 🔁 implement
*/
void
watch_notification()
{
ActivityDetector detector;
Activity chain;
Activity gate{1};
gate.next = &chain;
Activity notification{&gate};
CHECK (gate.data_.condition.rest == 1);
detector.insertActivationTap (notification.data_.notification.target);
Time tt{11,11};
notification.dispatch (tt, detector.executionCtx);
CHECK (detector.verifyInvocation("tap-GATE").arg("11.011 --notify-↯> Act(GATE")
.beforeInvocation("CTX-post").arg("11.011", "Act(TICK", "≺test::CTX≻"));
CHECK (gate.data_.condition.rest == 0);
}
/** @test diagnostic setup to watch Activity::GATE activation
* - when applied, Tap will be inserted before and after the
* instrumented GATE-Activity
* - it can thus be traced when the Gate is activated,
* but also when the Gate condition is met and the `next`
* Activity after the Gate is activated
* - for this unit-test, a Gate and a follow-up Activity
* is invoked directly, to verify the generated log entries
* @todo WIP 7/23 ✔ define ✔ implement
*/
void
watch_gate()
{
ActivityDetector detector;
Activity gate{0};
Activity followUp;
gate.next = &followUp;
Activity* wiring = &gate;
detector.watchGate (wiring);
Time tt{5,5};
wiring->activate(tt, detector.executionCtx);
detector.incrementSeq();
wiring->next->activate(tt, detector.executionCtx);
CHECK (detector.verifyInvocation("tap-GATE").seq(0).timeArg(tt)
.beforeSeqIncrement(1)
.beforeInvocation("afterGATE").seq(1).timeArg(tt)
.beforeInvocation("CTX-tick").seq(1).timeArg(tt));
}
};
/** Register this test class... */
LAUNCHER (ActivityDetector_test, "unit engine");
}}} // namespace vault::gear::test
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