diff options
author | Steve Bennetts <steve@lindenlab.com> | 2009-11-02 10:55:59 -0800 |
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committer | Steve Bennetts <steve@lindenlab.com> | 2009-11-02 10:55:59 -0800 |
commit | b877665551343dc94ca02c84622b06518f9c23d8 (patch) | |
tree | 9ad6a76d0363b56ccb249f105d6ee72207df8864 /indra/llcommon/tests/lleventfilter_test.cpp | |
parent | f732ee6d2e24cd42a06b9cf51c8f6c577f2e476e (diff) | |
parent | 6e018f7143537af7bd9a08f1cc5c87ea4c8382c8 (diff) |
merge
Diffstat (limited to 'indra/llcommon/tests/lleventfilter_test.cpp')
-rw-r--r-- | indra/llcommon/tests/lleventfilter_test.cpp | 276 |
1 files changed, 276 insertions, 0 deletions
diff --git a/indra/llcommon/tests/lleventfilter_test.cpp b/indra/llcommon/tests/lleventfilter_test.cpp new file mode 100644 index 0000000000..28b909298e --- /dev/null +++ b/indra/llcommon/tests/lleventfilter_test.cpp @@ -0,0 +1,276 @@ +/** + * @file lleventfilter_test.cpp + * @author Nat Goodspeed + * @date 2009-03-06 + * @brief Test for lleventfilter. + * + * $LicenseInfo:firstyear=2009&license=viewergpl$ + * Copyright (c) 2009, Linden Research, Inc. + * $/LicenseInfo$ + */ + +// Precompiled header +#include "linden_common.h" +// associated header +#include "lleventfilter.h" +// STL headers +// std headers +// external library headers +// other Linden headers +#include "../test/lltut.h" +#include "stringize.h" +#include "listener.h" +#include "tests/wrapllerrs.h" + +/***************************************************************************** +* Test classes +*****************************************************************************/ +// Strictly speaking, we're testing LLEventTimeoutBase rather than the +// production LLEventTimeout (using LLTimer) because we don't want every test +// run to pause for some number of seconds until we reach a real timeout. But +// as we've carefully put all functionality except actual LLTimer calls into +// LLEventTimeoutBase, that should suffice. We're not not not trying to test +// LLTimer here. +class TestEventTimeout: public LLEventTimeoutBase +{ +public: + TestEventTimeout(): + mElapsed(true) + {} + TestEventTimeout(LLEventPump& source): + LLEventTimeoutBase(source), + mElapsed(true) + {} + + // test hook + void forceTimeout(bool timeout=true) { mElapsed = timeout; } + +protected: + virtual void setCountdown(F32 seconds) { mElapsed = false; } + virtual bool countdownElapsed() const { return mElapsed; } + +private: + bool mElapsed; +}; + +/***************************************************************************** +* TUT +*****************************************************************************/ +namespace tut +{ + struct filter_data + { + // The resemblance between this test data and that in llevents_tut.cpp + // is not coincidental. + filter_data(): + pumps(LLEventPumps::instance()), + mainloop(pumps.obtain("mainloop")), + listener0("first"), + listener1("second") + {} + LLEventPumps& pumps; + LLEventPump& mainloop; + Listener listener0; + Listener listener1; + + void check_listener(const std::string& desc, const Listener& listener, const LLSD& got) + { + ensure_equals(STRINGIZE(listener << ' ' << desc), + listener.getLastEvent(), got); + } + }; + typedef test_group<filter_data> filter_group; + typedef filter_group::object filter_object; + filter_group filtergrp("lleventfilter"); + + template<> template<> + void filter_object::test<1>() + { + set_test_name("LLEventMatching"); + LLEventPump& driver(pumps.obtain("driver")); + listener0.reset(0); + // Listener isn't derived from LLEventTrackable specifically to test + // various connection-management mechanisms. But that means we have a + // couple of transient Listener objects, one of which is listening to + // a persistent LLEventPump. Capture those connections in local + // LLTempBoundListener instances so they'll disconnect + // on destruction. + LLTempBoundListener temp1( + listener0.listenTo(driver)); + // Construct a pattern LLSD: desired Event must have a key "foo" + // containing string "bar" + LLEventMatching filter(driver, LLSD().insert("foo", "bar")); + listener1.reset(0); + LLTempBoundListener temp2( + listener1.listenTo(filter)); + driver.post(1); + check_listener("direct", listener0, LLSD(1)); + check_listener("filtered", listener1, LLSD(0)); + // Okay, construct an LLSD map matching the pattern + LLSD data; + data["foo"] = "bar"; + data["random"] = 17; + driver.post(data); + check_listener("direct", listener0, data); + check_listener("filtered", listener1, data); + } + + template<> template<> + void filter_object::test<2>() + { + set_test_name("LLEventTimeout::actionAfter()"); + LLEventPump& driver(pumps.obtain("driver")); + TestEventTimeout filter(driver); + listener0.reset(0); + LLTempBoundListener temp1( + listener0.listenTo(filter)); + // Use listener1.call() as the Action for actionAfter(), since it + // already provides a way to sense the call + listener1.reset(0); + // driver --> filter --> listener0 + filter.actionAfter(20, + boost::bind(&Listener::call, boost::ref(listener1), LLSD("timeout"))); + // Okay, (fake) timer is ticking. 'filter' can only sense the timer + // when we pump mainloop. Do that right now to take the logic path + // before either the anticipated event arrives or the timer expires. + mainloop.post(17); + check_listener("no timeout 1", listener1, LLSD(0)); + // Expected event arrives... + driver.post(1); + check_listener("event passed thru", listener0, LLSD(1)); + // Should have canceled the timer. Verify that by asserting that the + // time has expired, then pumping mainloop again. + filter.forceTimeout(); + mainloop.post(17); + check_listener("no timeout 2", listener1, LLSD(0)); + // Verify chained actionAfter() calls, that is, that a second + // actionAfter() resets the timer established by the first + // actionAfter(). + filter.actionAfter(20, + boost::bind(&Listener::call, boost::ref(listener1), LLSD("timeout"))); + // Since our TestEventTimeout class isn't actually manipulating time + // (quantities of seconds), only a bool "elapsed" flag, sense that by + // forcing the flag between actionAfter() calls. + filter.forceTimeout(); + // Pumping mainloop here would result in a timeout (as we'll verify + // below). This state simulates a ticking timer that has not yet timed + // out. But now, before a mainloop event lets 'filter' recognize + // timeout on the previous actionAfter() call, pretend we're pushing + // that timeout farther into the future. + filter.actionAfter(20, + boost::bind(&Listener::call, boost::ref(listener1), LLSD("timeout"))); + // Look ma, no timeout! + mainloop.post(17); + check_listener("no timeout 3", listener1, LLSD(0)); + // Now let the updated actionAfter() timer expire. + filter.forceTimeout(); + // Notice the timeout. + mainloop.post(17); + check_listener("timeout", listener1, LLSD("timeout")); + // Timing out cancels the timer. Verify that. + listener1.reset(0); + filter.forceTimeout(); + mainloop.post(17); + check_listener("no timeout 4", listener1, LLSD(0)); + // Reset the timer and then cancel() it. + filter.actionAfter(20, + boost::bind(&Listener::call, boost::ref(listener1), LLSD("timeout"))); + // neither expired nor satisified + mainloop.post(17); + check_listener("no timeout 5", listener1, LLSD(0)); + // cancel + filter.cancel(); + // timeout! + filter.forceTimeout(); + mainloop.post(17); + check_listener("no timeout 6", listener1, LLSD(0)); + } + + template<> template<> + void filter_object::test<3>() + { + set_test_name("LLEventTimeout::eventAfter()"); + LLEventPump& driver(pumps.obtain("driver")); + TestEventTimeout filter(driver); + listener0.reset(0); + LLTempBoundListener temp1( + listener0.listenTo(filter)); + filter.eventAfter(20, LLSD("timeout")); + // Okay, (fake) timer is ticking. 'filter' can only sense the timer + // when we pump mainloop. Do that right now to take the logic path + // before either the anticipated event arrives or the timer expires. + mainloop.post(17); + check_listener("no timeout 1", listener0, LLSD(0)); + // Expected event arrives... + driver.post(1); + check_listener("event passed thru", listener0, LLSD(1)); + // Should have canceled the timer. Verify that by asserting that the + // time has expired, then pumping mainloop again. + filter.forceTimeout(); + mainloop.post(17); + check_listener("no timeout 2", listener0, LLSD(1)); + // Set timer again. + filter.eventAfter(20, LLSD("timeout")); + // Now let the timer expire. + filter.forceTimeout(); + // Notice the timeout. + mainloop.post(17); + check_listener("timeout", listener0, LLSD("timeout")); + // Timing out cancels the timer. Verify that. + listener0.reset(0); + filter.forceTimeout(); + mainloop.post(17); + check_listener("no timeout 3", listener0, LLSD(0)); + } + + template<> template<> + void filter_object::test<4>() + { + set_test_name("LLEventTimeout::errorAfter()"); + WrapLL_ERRS capture; + LLEventPump& driver(pumps.obtain("driver")); + TestEventTimeout filter(driver); + listener0.reset(0); + LLTempBoundListener temp1( + listener0.listenTo(filter)); + filter.errorAfter(20, "timeout"); + // Okay, (fake) timer is ticking. 'filter' can only sense the timer + // when we pump mainloop. Do that right now to take the logic path + // before either the anticipated event arrives or the timer expires. + mainloop.post(17); + check_listener("no timeout 1", listener0, LLSD(0)); + // Expected event arrives... + driver.post(1); + check_listener("event passed thru", listener0, LLSD(1)); + // Should have canceled the timer. Verify that by asserting that the + // time has expired, then pumping mainloop again. + filter.forceTimeout(); + mainloop.post(17); + check_listener("no timeout 2", listener0, LLSD(1)); + // Set timer again. + filter.errorAfter(20, "timeout"); + // Now let the timer expire. + filter.forceTimeout(); + // Notice the timeout. + std::string threw; + try + { + mainloop.post(17); + } + catch (const WrapLL_ERRS::FatalException& e) + { + threw = e.what(); + } + ensure_contains("errorAfter() timeout exception", threw, "timeout"); + // Timing out cancels the timer. Verify that. + listener0.reset(0); + filter.forceTimeout(); + mainloop.post(17); + check_listener("no timeout 3", listener0, LLSD(0)); + } +} // namespace tut + +/***************************************************************************** +* Link dependencies +*****************************************************************************/ +#include "llsdutil.cpp" |