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I am using boost::signals2 under Red Hat Enterprise Linux 5.3.

My signal creates an object copy and sends it's pointer to subscribers. This was implemented for thread safety to prevent the worker thread from updating a string property on the object at the same time it is being read ( perhaps I should revisit the use of locks? ).

Anyway, my concern is with multiple subscribers that dereference the pointer to the copied object on their own thread. How can I control object lifetime? How can I know all subscribers are done with the object and it is safe to delete the object?

typedef boost::signals2::signal< void ( Parameter* ) > signalParameterChanged_t;
signalParameterChanged_t    m_signalParameterChanged;

// Worker Thread - Raises the signal
void Parameter::raiseParameterChangedSignal()
      Parameter* pParameterDeepCopied = new Parameter(*this);
// Read-Only Subscriber Thread(s) - GUI (and Event Logging thread ) handles signal
void ClientGui::onDeviceParameterChangedHandler( Parameter* pParameter)
      cout << pParameter->toString() << endl;
      delete pParameter;  // **** This only works for a single subscriber !!!

Thanks in advance for any tips or direction,


share|improve this question
Can you clarify how different threads interact with the signal? – Emile Cormier Jan 13 '10 at 4:14
It would also help if you list the member variables of Parameter. Use fake names if you have to. – Emile Cormier Jan 13 '10 at 4:24
I was passing-by-copy for thread-safety reasons. GUI is a read-only consumer of Parameter objects. GUI could not read a std::string property while worker was writing. An exception was thrown without copying Parameter. With a single receiver, having the GUI delete the Parameter copy works fine. Object lifetime became an issue when passing a Parameter* to multiple reader threads; the GUI, and an Event Logging Thread. Pass-by-value or shared_ptr both solve this problem. Parameter contains an internal stl collection of parameter Rule objects and mixture 6 POD and std::strings properties. – Ed . Jan 14 '10 at 14:53
Parameter Member Variables: const string description, DeviceHealthStatusFlags deviceHealthStatusFlags,bool enabled, long lastQueryResult, const string name, ParameterDataType parameterDataType, DeviceHealthStatusFlags paramStatus, Device * parent, ruleCollection_t & ruleCollection () double scalar,SnmpObjectIdentifier * snmpObject, string typeName, const string units, const boost::any & value () bool visible () – Ed . Jan 14 '10 at 15:01
Thanks for the extra info. If you decide to pass by shared_ptr, and any of your consumer threads can modify Parameter, then you will have a race condition if Parameter doesn't synchronize concurrent access. Consider making Parameter inherit from a read-only interface class (IReadOnlyParameter) with all const pure virtual methods and a virtual destructor. Then send a shared_ptr<IReadOnlyParameter> to your subscribers instead. – Emile Cormier Jan 14 '10 at 21:21
up vote 2 down vote accepted

If you really have to pass Parameter by pointer to your subscribers, then you should use boost::shared_ptr:

typedef boost::shared_ptr<Parameter> SharedParameterPtr;
typedef boost::signals2::signal< void ( SharedParameterPtr ) > signalParameterChanged_t;
signalParameterChanged_t    m_signalParameterChanged;

// The signal source
void Parameter::raiseParameterChangedSignal()
      SharedParameterPtr pParameterDeepCopied = new Parameter(*this);
// The subscriber's handler
void ClientGui::onDeviceParameterChangedHandler( SharedParameterPtr pParameter)
      cout << pParameter->toString() << endl;

The shared parameter object sent to your subscribers will be automatically deleted when its reference count becomes zero (i.e. it goes out of scope in all the handlers).

Is Parameter really so heavyweight that you need to send it to your subscribers via pointer?


Please note that using shared_ptr takes care of lifetime management, but will not relieve you of the responsibility to make concurrent reads/writes to/from the shared parameter object thread-safe. You may well want to pass-by-copy to your subscribers for thread-safety reasons alone. In your question, it's not clear enough to me what goes on thread-wise, so I can't give you more specific recommendations.

Is the thread calling raiseParameterChangedSignal() the same as your GUI thread? Some GUI toolkits don't allow concurrent use of their API by multiple threads.

share|improve this answer
Hi Emile, Thank you very much for your informative reply and clear code samples. The boost::shared_ptr is a solution. In my test case deletion occurs as you described. You made me rethink. I would prefer to pass-by-value rather than pointers. Yet when using pass-by-value I am disturbed by all the copy constructor activity I see in my test case. My debug prints show the signal resulted in 6 unexpected calls to the copy constructor. After the slot handler, 6 calls to the destructor. Do you have any insight into what all the activity is? Thank you very much for your assistance! -Ed – Ed . Jan 12 '10 at 14:35
I can only account for two copy constructions in your own code: 1) Passing your parameter object by copy to signalParameterChanged_t::operator(), 2) signal2 library passing the parameter by copy to the handler. The rest must be from the internal workings of the signals library. I'm not going to attempt to parse the metaprogramming wizardry going on inside signals2, to see where the other copies take place. ;) Try to recompile with optimization turned on (say, -O2) and I bet some of the copy constructions will be optimized away. – Emile Cormier Jan 13 '10 at 2:18
If your Parameter class only has a few built-in types (like int, double, etc.) for member variables, then I say just go ahead and pass Parameter by copy. The nanoseconds spent making 6 copies will be negligible compared to the micro/milliseconds your GUI toolkit will spend rendering scalable fonts on the screen. – Emile Cormier Jan 13 '10 at 2:35
To add to my previous comment, you should really learn about premature optimization if you haven't already:… – Emile Cormier Jan 13 '10 at 3:55
If your signal dispatching code ends up really being speed critical (determined by banchmarking/profiling), then there's another consideration: Depending on how clever your compiler's heap management is, dynamically allocating / deleting a new Parameter object can be orders of magnitude slower than creating a copy on the stack. See… – Emile Cormier Jan 13 '10 at 4:03

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