218 lines
6.3 KiB
C++
218 lines
6.3 KiB
C++
/*
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DiagnosticContext(Test) - verify thread local stack for collecting diagnostics
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Copyright (C)
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2011, Hermann Vosseler <Ichthyostega@web.de>
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**Lumiera** is free software; you can redistribute it and/or modify it
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under the terms of the GNU General Public License as published by the
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Free Software Foundation; either version 2 of the License, or (at your
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option) any later version. See the file COPYING for further details.
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* *****************************************************************/
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/** @file diagnostic-context-test.cpp
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** unit test \ref DiagnosticContext_test
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*/
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#include "lib/test/run.hpp"
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#include "lib/test/test-helper.hpp"
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#include "lib/diagnostic-context.hpp"
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#include "lib/iter-explorer.hpp"
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#include "lib/thread.hpp"
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#include <vector>
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#include <chrono>
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#include <array>
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using std::this_thread::sleep_for;
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using std::chrono_literals::operator ""us;
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namespace lib {
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namespace test{
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namespace error = lumiera::error;
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namespace { // private test setup...
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/* WARNING: memory hungry */
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const uint NUM_THREADS = 75;
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const uint MAX_RAND = 100*1000;
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auto isOdd = [](auto val) { return bool (val % 2); };
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} // (End) test setup....
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using lib::ThreadJoinable;
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using LERR_(LOGIC);
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using std::rand;
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/**
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* Subject of this test:
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* a thread-local stack of int values
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*/
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typedef DiagnosticContext<uint> Marker;
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typedef std::vector<uint> VecI;
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/******************************************************************************//**
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* @test verify a diagnostic facility to collect and access contextual information.
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* DiagnosticContext frames are placed into automatic storage (as local
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* variable within some function scope). Based on thread-local storage,
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* the next reachable frame can be accessed from anywhere within
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* the callstack. This feature is useful for collecting
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* information regarding features cross-cutting
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* the usual dependency hierarchy.
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* @see lib::DiagnosticContext
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* @see lib::ThreadJoinable
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*/
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class DiagnosticContext_test : public Test
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{
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virtual void
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run (Arg)
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{
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verify_simpleAccess();
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verify_heavilyParallelUsage();
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}
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/** @test create nested scopes and place a
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* DiagnosticContext frame into each.
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* Access the next reachable frame.
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*/
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void
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verify_simpleAccess()
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{
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VERIFY_ERROR (LOGIC, Marker::access());
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VecI loggedValues;
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Marker zero(0);
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CHECK (0 == zero);
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CHECK (0 == Marker::access());
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{ // nested scope
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CHECK (0 == Marker::access());
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Marker one(1);
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CHECK (1 == Marker::access());
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CHECK (1 == one);
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CHECK (0 == zero);
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{ // nested scope
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CHECK (1 == Marker::access());
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Marker two(2);
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CHECK (2 == Marker::access());
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CHECK (2 == two);
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CHECK (1 == one);
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CHECK (0 == zero);
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loggedValues = Marker::extractStack();
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}
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CHECK (1 == Marker::access());
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}
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CHECK (0 == Marker::access());
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CHECK (3 == loggedValues.size());
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CHECK (2 == loggedValues[0]);
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CHECK (1 == loggedValues[1]);
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CHECK (0 == loggedValues[2]);
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}
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/** @test verify the thread local property of ContextStack.
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* Create several threads, each of which processes a sequence
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* of numbers starting from a random initial value down to one.
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* Whenever a simple division by two leads to an odd value, this
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* value is placed onto the ContextStack. At recursion end, we
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* take a snapshot of the full ContextStack and then unwind.
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* Thus the captured numbers must from a decreasing sequence
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* of odd values.
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* @warning this test case seems to cause memory pressure.
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* When running the test suite with VSize limit 500MB,
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* we frequently got aborts even with 40 threads.
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* This is surprising, since all of the lists
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* generated in the individual threads are
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* of size below 20 elements.
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*/
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void
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verify_heavilyParallelUsage()
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{
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seedRand();
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auto verifyResult = [](VecI sequence)
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{
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uint prev = 0;
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for (uint val : sequence)
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{
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CHECK (isOdd(val) and val > prev);
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prev = val;
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}
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};
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std::array<TestThread, NUM_THREADS> testcases;
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auto results = lib::explore(testcases)
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.transform([](TestThread& t){ return t.join(); })
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.effuse();
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for (auto& res : results)
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verifyResult (res);
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}
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/**
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* Build a call stack within separate thread and capture diagnostics.
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* The actual test operation produces a descending number sequence,
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* and only odd values will be captured into the diagnostic stack-
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*/
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struct TestThread
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: ThreadJoinable<VecI>
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{
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TestThread()
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: ThreadJoinable{"test context stack"
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,[seed = 1+rani(MAX_RAND)]
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{ return descend (seed); }}
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{ }
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};
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static VecI
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descend (uint current)
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{
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if (current < 2)
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return Marker::extractStack();
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sleep_for (500us);
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if (isOdd (current))
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{
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Marker remember(current);
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return descend (current+1);
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}
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else
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return descend (current/2);
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}
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};
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/** Register this test class... */
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LAUNCHER (DiagnosticContext_test, "function common");
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}} // namespace vault::test
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