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|
/**
* @file llevents_tut.cpp
* @author Nat Goodspeed
* @date 2008-09-12
* @brief Test of llevents.h
*
* $LicenseInfo:firstyear=2008&license=viewerlgpl$
* Second Life Viewer Source Code
* Copyright (C) 2010, Linden Research, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation;
* version 2.1 of the License only.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA
* $/LicenseInfo$
*/
#if LL_WINDOWS
#pragma warning (disable : 4675) // "resolved by ADL" -- just as I want!
#endif
// Precompiled header
#include "linden_common.h"
// associated header
// UGLY HACK! We want to verify state internal to the classes without
// providing public accessors.
#define testable public
#include "llevents.h"
#undef testable
#include "lllistenerwrapper.h"
// STL headers
// std headers
#include <iostream>
#include <typeinfo>
// external library headers
#include <boost/bind.hpp>
#include <boost/shared_ptr.hpp>
#include <boost/assign/list_of.hpp>
// other Linden headers
#include "tests/listener.h" // must PRECEDE lltut.h
#include "lltut.h"
#include "catch_and_store_what_in.h"
#include "stringize.h"
using boost::assign::list_of;
template<typename T>
T make(const T& value)
{
return value;
}
/*****************************************************************************
* tut test group
*****************************************************************************/
namespace tut
{
struct events_data
{
events_data() :
pumps(LLEventPumps::instance()),
listener0("first"),
listener1("second")
{
}
LLEventPumps& pumps;
Listener listener0;
Listener listener1;
void check_listener(const std::string& desc, const Listener& listener, LLSD::Integer got)
{
ensure_equals(STRINGIZE(listener << ' ' << desc),
listener.getLastEvent().asInteger(), got);
}
};
typedef test_group<events_data> events_group;
typedef events_group::object events_object;
tut::events_group evgr("events");
template<> template<>
void events_object::test<1>()
{
set_test_name("basic operations");
// Now there's a static constructor in llevents.cpp that registers on
// the "mainloop" pump to call LLEventPumps::flush().
// Actually -- having to modify this to track the statically-
// constructed pumps in other TUT modules in this giant monolithic test
// executable isn't such a hot idea.
// ensure_equals("initial pump", pumps.mPumpMap.size(), 1);
size_t initial_pumps(pumps.mPumpMap.size());
LLEventPump& per_frame(pumps.obtain("per-frame"));
ensure_equals("first explicit pump", pumps.mPumpMap.size(), initial_pumps + 1);
// Verify that per_frame was instantiated as an LLEventStream.
ensure("LLEventStream leaf class", dynamic_cast<LLEventStream*> (&per_frame));
ensure("enabled", per_frame.enabled());
// Trivial test, but posting an event to an EventPump with no
// listeners should not blow up. The test is relevant because defining
// a boost::signal with a non-void return signature, using the default
// combiner, blows up if there are no listeners. This is because the
// default combiner is defined to return the value returned by the
// last listener, which is meaningless if there were no listeners.
per_frame.post(0);
LLBoundListener connection = listener0.listenTo(per_frame);
ensure("connected", connection.connected());
ensure("not blocked", !connection.blocked());
per_frame.post(1);
check_listener("received", listener0, 1);
{ // block the connection
LLEventPump::Blocker block(connection);
ensure("blocked", connection.blocked());
per_frame.post(2);
check_listener("not updated", listener0, 1);
} // unblock
ensure("unblocked", !connection.blocked());
per_frame.post(3);
check_listener("unblocked", listener0, 3);
LLBoundListener sameConnection = per_frame.getListener(listener0.getName());
ensure("still connected", sameConnection.connected());
ensure("still not blocked", !sameConnection.blocked());
{ // block it again
LLEventPump::Blocker block(sameConnection);
ensure("re-blocked", sameConnection.blocked());
per_frame.post(4);
check_listener("re-blocked", listener0, 3);
} // unblock
std::string threw = catch_what<LLEventPump::DupListenerName>(
[&per_frame, this](){
// NOTE: boost::bind() saves its arguments by VALUE! If you pass
// an object instance rather than a pointer, you'll end up binding
// to an internal copy of that instance! Use boost::ref() to
// capture a reference instead.
per_frame.listen(listener0.getName(), // note bug, dup name
boost::bind(&Listener::call, boost::ref(listener1), _1));
});
ensure_equals(threw,
std::string("DupListenerName: "
"Attempt to register duplicate listener name '") +
listener0.getName() + "' on " + typeid(per_frame).name() +
" '" + per_frame.getName() + "'");
// do it right this time
listener1.listenTo(per_frame);
per_frame.post(5);
check_listener("got", listener0, 5);
check_listener("got", listener1, 5);
per_frame.enable(false);
per_frame.post(6);
check_listener("didn't get", listener0, 5);
check_listener("didn't get", listener1, 5);
per_frame.enable();
per_frame.post(7);
check_listener("got", listener0, 7);
check_listener("got", listener1, 7);
per_frame.stopListening(listener0.getName());
ensure("disconnected 0", ! connection.connected());
ensure("disconnected 1", ! sameConnection.connected());
per_frame.post(8);
check_listener("disconnected", listener0, 7);
check_listener("still connected", listener1, 8);
per_frame.stopListening(listener1.getName());
per_frame.post(9);
check_listener("disconnected", listener1, 8);
}
template<> template<>
void events_object::test<2>()
{
set_test_name("callstop() returning true");
LLEventPump& per_frame(pumps.obtain("per-frame"));
listener0.reset(0);
listener1.reset(0);
LLBoundListener bound0 = listener0.listenTo(per_frame, &Listener::callstop);
LLBoundListener bound1 = listener1.listenTo(per_frame, &Listener::call,
// after listener0
make<LLEventPump::NameList>(list_of(listener0.getName())));
ensure("enabled", per_frame.enabled());
ensure("connected 0", bound0.connected());
ensure("unblocked 0", !bound0.blocked());
ensure("connected 1", bound1.connected());
ensure("unblocked 1", !bound1.blocked());
per_frame.post(1);
check_listener("got", listener0, 1);
// Because listener0.callstop() returns true, control never reaches listener1.call().
check_listener("got", listener1, 0);
}
bool chainEvents(Listener& someListener, const LLSD& event)
{
// Make this call so we can watch for side effects for test purposes.
someListener.call(event);
// This function represents a recursive event chain -- or some other
// scenario in which an event handler raises additional events.
int value = event.asInteger();
if (value)
{
LLEventPumps::instance().obtain("login").post(value - 1);
}
return false;
}
template<> template<>
void events_object::test<3>()
{
set_test_name("LLEventQueue delayed action");
// This access is NOT legal usage: we can do it only because we're
// hacking private for test purposes. Normally we'd either compile in
// a particular name, or (later) edit a config file.
pumps.mQueueNames.insert("login");
LLEventPump& login(pumps.obtain("login"));
// The "mainloop" pump is special: posting on that implicitly calls
// LLEventPumps::flush(), which in turn should flush our "login"
// LLEventQueue.
LLEventPump& mainloop(pumps.obtain("mainloop"));
ensure("LLEventQueue leaf class", dynamic_cast<LLEventQueue*> (&login));
listener0.listenTo(login);
listener0.reset(0);
login.post(1);
check_listener("waiting for queued event", listener0, 0);
mainloop.post(LLSD());
check_listener("got queued event", listener0, 1);
login.stopListening(listener0.getName());
// Verify that when an event handler posts a new event on the same
// LLEventQueue, it doesn't get processed in the same flush() call --
// it waits until the next flush() call.
listener0.reset(17);
login.listen("chainEvents", boost::bind(chainEvents, boost::ref(listener0), _1));
login.post(1);
check_listener("chainEvents(1) not yet called", listener0, 17);
mainloop.post(LLSD());
check_listener("chainEvents(1) called", listener0, 1);
mainloop.post(LLSD());
check_listener("chainEvents(0) called", listener0, 0);
mainloop.post(LLSD());
check_listener("chainEvents(-1) not called", listener0, 0);
login.stopListening("chainEvents");
}
template<> template<>
void events_object::test<4>()
{
set_test_name("explicitly-instantiated LLEventStream");
// Explicitly instantiate an LLEventStream, and verify that it
// self-registers with LLEventPumps
size_t registered = pumps.mPumpMap.size();
size_t owned = pumps.mOurPumps.size();
LLEventPump* localInstance;
{
LLEventStream myEventStream("stream");
localInstance = &myEventStream;
LLEventPump& stream(pumps.obtain("stream"));
ensure("found named LLEventStream instance", &stream == localInstance);
ensure_equals("registered new instance", pumps.mPumpMap.size(), registered + 1);
ensure_equals("explicit instance not owned", pumps.mOurPumps.size(), owned);
} // destroy myEventStream -- should unregister
ensure_equals("destroyed instance unregistered", pumps.mPumpMap.size(), registered);
ensure_equals("destroyed instance not owned", pumps.mOurPumps.size(), owned);
LLEventPump& stream(pumps.obtain("stream"));
ensure("new LLEventStream instance", &stream != localInstance);
ensure_equals("obtain()ed instance registered", pumps.mPumpMap.size(), registered + 1);
ensure_equals("obtain()ed instance owned", pumps.mOurPumps.size(), owned + 1);
}
template<> template<>
void events_object::test<5>()
{
set_test_name("stopListening()");
LLEventPump& login(pumps.obtain("login"));
listener0.listenTo(login);
login.stopListening(listener0.getName());
// should not throw because stopListening() should have removed name
listener0.listenTo(login, &Listener::callstop);
LLBoundListener wrong = login.getListener("bogus");
ensure("bogus connection disconnected", !wrong.connected());
ensure("bogus connection blocked", wrong.blocked());
}
template<> template<>
void events_object::test<6>()
{
set_test_name("chaining LLEventPump instances");
LLEventPump& upstream(pumps.obtain("upstream"));
// One potentially-useful construct is to chain LLEventPumps together.
// Among other things, this allows you to turn subsets of listeners on
// and off in groups.
LLEventPump& filter0(pumps.obtain("filter0"));
LLEventPump& filter1(pumps.obtain("filter1"));
upstream.listen(filter0.getName(), boost::bind(&LLEventPump::post, boost::ref(filter0), _1));
upstream.listen(filter1.getName(), boost::bind(&LLEventPump::post, boost::ref(filter1), _1));
listener0.listenTo(filter0);
listener1.listenTo(filter1);
listener0.reset(0);
listener1.reset(0);
upstream.post(1);
check_listener("got unfiltered", listener0, 1);
check_listener("got unfiltered", listener1, 1);
filter0.enable(false);
upstream.post(2);
check_listener("didn't get filtered", listener0, 1);
check_listener("got filtered", listener1, 2);
}
template<> template<>
void events_object::test<7>()
{
set_test_name("listener dependency order");
typedef LLEventPump::NameList NameList;
LLEventPump& button(pumps.obtain("button"));
Collect collector;
button.listen("Mary",
boost::bind(&Collect::add, boost::ref(collector), "Mary", _1),
// state that "Mary" must come after "checked"
make<NameList> (list_of("checked")));
button.listen("checked",
boost::bind(&Collect::add, boost::ref(collector), "checked", _1),
// "checked" must come after "spot"
make<NameList> (list_of("spot")));
button.listen("spot",
boost::bind(&Collect::add, boost::ref(collector), "spot", _1));
button.post(1);
ensure_equals(collector.result, make<StringVec>(list_of("spot")("checked")("Mary")));
collector.clear();
button.stopListening("Mary");
button.listen("Mary",
boost::bind(&Collect::add, boost::ref(collector), "Mary", _1),
LLEventPump::empty, // no after dependencies
// now "Mary" must come before "spot"
make<NameList>(list_of("spot")));
button.post(2);
ensure_equals(collector.result, make<StringVec>(list_of("Mary")("spot")("checked")));
collector.clear();
button.stopListening("spot");
std::string threw = catch_what<LLEventPump::Cycle>(
[&button, &collector](){
button.listen("spot",
boost::bind(&Collect::add, boost::ref(collector), "spot", _1),
// after "Mary" and "checked" -- whoops!
make<NameList>(list_of("Mary")("checked")));
});
// Obviously the specific wording of the exception text can
// change; go ahead and change the test to match.
// Establish that it contains:
// - the name and runtime type of the LLEventPump
ensure_contains("LLEventPump type", threw, typeid(button).name());
ensure_contains("LLEventPump name", threw, "'button'");
// - the name of the new listener that caused the problem
ensure_contains("new listener name", threw, "'spot'");
// - a synopsis of the problematic dependencies.
ensure_contains("cyclic dependencies", threw,
"\"Mary\" -> before (\"spot\")");
ensure_contains("cyclic dependencies", threw,
"after (\"spot\") -> \"checked\"");
ensure_contains("cyclic dependencies", threw,
"after (\"Mary\", \"checked\") -> \"spot\"");
button.listen("yellow",
boost::bind(&Collect::add, boost::ref(collector), "yellow", _1),
make<NameList>(list_of("checked")));
button.listen("shoelaces",
boost::bind(&Collect::add, boost::ref(collector), "shoelaces", _1),
make<NameList>(list_of("checked")));
button.post(3);
ensure_equals(collector.result, make<StringVec>(list_of("Mary")("checked")("yellow")("shoelaces")));
collector.clear();
threw = catch_what<LLEventPump::OrderChange>(
[&button, &collector](){
button.listen("of",
boost::bind(&Collect::add, boost::ref(collector), "of", _1),
make<NameList>(list_of("shoelaces")),
make<NameList>(list_of("yellow")));
});
// Same remarks about the specific wording of the exception. Just
// ensure that it contains enough information to clarify the
// problem and what must be done to resolve it.
ensure_contains("LLEventPump type", threw, typeid(button).name());
ensure_contains("LLEventPump name", threw, "'button'");
ensure_contains("new listener name", threw, "'of'");
ensure_contains("prev listener name", threw, "'yellow'");
// std::cout << "Thrown Exception: " << threw << std::endl;
ensure_contains("old order", threw, "was: Mary, checked, yellow, shoelaces");
ensure_contains("new order", threw, "now: Mary, checked, shoelaces, of, yellow");
button.post(4);
ensure_equals(collector.result, make<StringVec>(list_of("Mary")("checked")("yellow")("shoelaces")));
}
template<> template<>
void events_object::test<8>()
{
set_test_name("tweaked and untweaked LLEventPump instance names");
{ // nested scope
// Hand-instantiate an LLEventStream...
LLEventStream bob("bob");
std::string threw = catch_what<LLEventPump::DupPumpName>(
[](){
// then another with a duplicate name.
LLEventStream bob2("bob");
});
ensure("Caught DupPumpName", !threw.empty());
} // delete first 'bob'
LLEventStream bob("bob"); // should work, previous one unregistered
LLEventStream bob1("bob", true);// allowed to tweak name
ensure_equals("tweaked LLEventStream name", bob1.getName(), "bob1");
std::vector<boost::shared_ptr<LLEventStream> > streams;
for (int i = 2; i <= 10; ++i)
{
streams.push_back(boost::shared_ptr<LLEventStream>(new LLEventStream("bob", true)));
}
ensure_equals("last tweaked LLEventStream name", streams.back()->getName(), "bob10");
}
// Define a function that accepts an LLListenerOrPumpName
void eventSource(const LLListenerOrPumpName& listener)
{
// Pretend that some time has elapsed. Call listener immediately.
listener(17);
}
template<> template<>
void events_object::test<9>()
{
set_test_name("LLListenerOrPumpName");
// Passing a boost::bind() expression to LLListenerOrPumpName
listener0.reset(0);
eventSource(boost::bind(&Listener::call, boost::ref(listener0), _1));
check_listener("got by listener", listener0, 17);
// Passing a string LLEventPump name to LLListenerOrPumpName
listener0.reset(0);
LLEventStream random("random");
listener0.listenTo(random);
eventSource("random");
check_listener("got by pump name", listener0, 17);
std::string threw = catch_what<LLListenerOrPumpName::Empty>(
[](){
LLListenerOrPumpName empty;
empty(17);
});
ensure("threw Empty", !threw.empty());
}
class TempListener: public Listener
{
public:
TempListener(const std::string& name, bool& liveFlag) :
Listener(name), mLiveFlag(liveFlag)
{
mLiveFlag = true;
}
virtual ~TempListener()
{
mLiveFlag = false;
}
private:
bool& mLiveFlag;
};
template<> template<>
void events_object::test<10>()
{
set_test_name("listen(boost::bind(...TempListener...))");
// listen() can't do anything about a plain TempListener instance:
// it's not managed with shared_ptr, nor is it an LLEventTrackable subclass
bool live = false;
LLEventPump& heaptest(pumps.obtain("heaptest"));
LLBoundListener connection;
{
TempListener tempListener("temp", live);
ensure("TempListener constructed", live);
connection = heaptest.listen(tempListener.getName(),
boost::bind(&Listener::call,
boost::ref(tempListener),
_1));
heaptest.post(1);
check_listener("received", tempListener, 1);
} // presumably this will make newListener go away?
// verify that
ensure("TempListener destroyed", !live);
// This is the case against which we can't defend. Don't even try to
// post to heaptest -- that would engage Undefined Behavior.
// Cautiously inspect connection...
ensure("misleadingly connected", connection.connected());
// then disconnect by hand.
heaptest.stopListening("temp");
}
template<> template<>
void events_object::test<11>()
{
set_test_name("listen(boost::bind(...weak_ptr...))");
// listen() detecting weak_ptr<TempListener> in boost::bind() object
bool live = false;
LLEventPump& heaptest(pumps.obtain("heaptest"));
LLBoundListener connection;
ensure("default state", !connection.connected());
{
boost::shared_ptr<TempListener> newListener(new TempListener("heap", live));
newListener->reset();
ensure("TempListener constructed", live);
connection = heaptest.listen(newListener->getName(),
boost::bind(&Listener::call,
weaken(newListener),
_1));
ensure("new connection", connection.connected());
heaptest.post(1);
check_listener("received", *newListener, 1);
} // presumably this will make newListener go away?
// verify that
ensure("TempListener destroyed", !live);
ensure("implicit disconnect", !connection.connected());
// now just make sure we don't blow up trying to access a freed object!
heaptest.post(2);
}
template<> template<>
void events_object::test<12>()
{
set_test_name("listen(boost::bind(...shared_ptr...))");
/*==========================================================================*|
// DISABLED because I've made this case produce a compile error.
// Following the error leads the disappointed dev to a comment
// instructing her to use the weaken() function to bind a weak_ptr<T>
// instead of binding a shared_ptr<T>, and explaining why. I know of
// no way to use TUT to code a repeatable test in which the expected
// outcome is a compile error. The interested reader is invited to
// uncomment this block and build to see for herself.
// listen() detecting shared_ptr<TempListener> in boost::bind() object
bool live = false;
LLEventPump& heaptest(pumps.obtain("heaptest"));
LLBoundListener connection;
std::string listenerName("heap");
ensure("default state", !connection.connected());
{
boost::shared_ptr<TempListener> newListener(new TempListener(listenerName, live));
ensure_equals("use_count", newListener.use_count(), 1);
newListener->reset();
ensure("TempListener constructed", live);
connection = heaptest.listen(newListener->getName(),
boost::bind(&Listener::call, newListener, _1));
ensure("new connection", connection.connected());
ensure_equals("use_count", newListener.use_count(), 2);
heaptest.post(1);
check_listener("received", *newListener, 1);
} // this should make newListener go away...
// Unfortunately, the fact that we've bound a shared_ptr by value into
// our LLEventPump means that copy will keep the referenced object alive.
ensure("TempListener still alive", live);
ensure("still connected", connection.connected());
// disconnecting explicitly should delete the TempListener...
heaptest.stopListening(listenerName);
#if 0 // however, in my experience, it does not. I don't know why not.
// Ah: on 2009-02-19, Frank Mori Hess, author of the Boost.Signals2
// library, stated on the boost-users mailing list:
// http://www.nabble.com/Re%3A--signals2--review--The-review-of-the-signals2-library-(formerly-thread_safe_signals)-begins-today%2C-Nov-1st-p22102367.html
// "It will get destroyed eventually. The signal cleans up its slot
// list little by little during connect/invoke. It doesn't immediately
// remove disconnected slots from the slot list since other threads
// might be using the same slot list concurrently. It might be
// possible to make it immediately reset the shared_ptr owning the
// slot though, leaving an empty shared_ptr in the slot list, since
// that wouldn't invalidate any iterators."
ensure("TempListener destroyed", ! live);
ensure("implicit disconnect", ! connection.connected());
#endif // 0
// now just make sure we don't blow up trying to access a freed object!
heaptest.post(2);
|*==========================================================================*/
}
class TempTrackableListener: public TempListener, public LLEventTrackable
{
public:
TempTrackableListener(const std::string& name, bool& liveFlag):
TempListener(name, liveFlag)
{}
};
template<> template<>
void events_object::test<13>()
{
set_test_name("listen(boost::bind(...TempTrackableListener ref...))");
bool live = false;
LLEventPump& heaptest(pumps.obtain("heaptest"));
LLBoundListener connection;
{
TempTrackableListener tempListener("temp", live);
ensure("TempTrackableListener constructed", live);
connection = heaptest.listen(tempListener.getName(),
boost::bind(&TempTrackableListener::call,
boost::ref(tempListener), _1));
heaptest.post(1);
check_listener("received", tempListener, 1);
} // presumably this will make tempListener go away?
// verify that
ensure("TempTrackableListener destroyed", ! live);
ensure("implicit disconnect", ! connection.connected());
// now just make sure we don't blow up trying to access a freed object!
heaptest.post(2);
}
template<> template<>
void events_object::test<14>()
{
set_test_name("listen(boost::bind(...TempTrackableListener pointer...))");
bool live = false;
LLEventPump& heaptest(pumps.obtain("heaptest"));
LLBoundListener connection;
{
TempTrackableListener* newListener(new TempTrackableListener("temp", live));
ensure("TempTrackableListener constructed", live);
connection = heaptest.listen(newListener->getName(),
boost::bind(&TempTrackableListener::call,
newListener, _1));
heaptest.post(1);
check_listener("received", *newListener, 1);
// explicitly destroy newListener
delete newListener;
}
// verify that
ensure("TempTrackableListener destroyed", ! live);
ensure("implicit disconnect", ! connection.connected());
// now just make sure we don't blow up trying to access a freed object!
heaptest.post(2);
}
template<> template<>
void events_object::test<15>()
{
// This test ensures that using an LLListenerWrapper subclass doesn't
// block Boost.Signals2 from recognizing a bound LLEventTrackable
// subclass.
set_test_name("listen(llwrap<LLLogListener>(boost::bind(...TempTrackableListener ref...)))");
bool live = false;
LLEventPump& heaptest(pumps.obtain("heaptest"));
LLBoundListener connection;
{
TempTrackableListener tempListener("temp", live);
ensure("TempTrackableListener constructed", live);
connection = heaptest.listen(tempListener.getName(),
llwrap<LLLogListener>(
boost::bind(&TempTrackableListener::call,
boost::ref(tempListener), _1)));
heaptest.post(1);
check_listener("received", tempListener, 1);
} // presumably this will make tempListener go away?
// verify that
ensure("TempTrackableListener destroyed", ! live);
ensure("implicit disconnect", ! connection.connected());
// now just make sure we don't blow up trying to access a freed object!
heaptest.post(2);
}
class TempSharedListener: public TempListener,
public boost::enable_shared_from_this<TempSharedListener>
{
public:
TempSharedListener(const std::string& name, bool& liveFlag):
TempListener(name, liveFlag)
{}
};
template<> template<>
void events_object::test<16>()
{
set_test_name("listen(boost::bind(...TempSharedListener ref...))");
#if 0
bool live = false;
LLEventPump& heaptest(pumps.obtain("heaptest"));
LLBoundListener connection;
{
// We MUST have at least one shared_ptr to an
// enable_shared_from_this subclass object before
// shared_from_this() can work.
boost::shared_ptr<TempSharedListener>
tempListener(new TempSharedListener("temp", live));
ensure("TempSharedListener constructed", live);
// However, we're not passing either the shared_ptr or its
// corresponding weak_ptr -- instead, we're passing a reference to
// the TempSharedListener.
/*==========================================================================*|
std::cout << "Capturing const ref" << std::endl;
const boost::enable_shared_from_this<TempSharedListener>& cref(*tempListener);
std::cout << "Capturing const ptr" << std::endl;
const boost::enable_shared_from_this<TempSharedListener>* cp(&cref);
std::cout << "Capturing non-const ptr" << std::endl;
boost::enable_shared_from_this<TempSharedListener>* p(const_cast<boost::enable_shared_from_this<TempSharedListener>*>(cp));
std::cout << "Capturing shared_from_this()" << std::endl;
boost::shared_ptr<TempSharedListener> sp(p->shared_from_this());
std::cout << "Capturing weak_ptr" << std::endl;
boost::weak_ptr<TempSharedListener> wp(weaken(sp));
std::cout << "Binding weak_ptr" << std::endl;
|*==========================================================================*/
connection = heaptest.listen(tempListener->getName(),
boost::bind(&TempSharedListener::call, *tempListener, _1));
heaptest.post(1);
check_listener("received", *tempListener, 1);
} // presumably this will make tempListener go away?
// verify that
ensure("TempSharedListener destroyed", ! live);
ensure("implicit disconnect", ! connection.connected());
// now just make sure we don't blow up trying to access a freed object!
heaptest.post(2);
#endif // 0
}
} // namespace tut
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