I'm on CentOS 6.6 (gcc 4.4.7) and developing with Boost.Asio (1.41). I'd like io_service to call member function run() in manger object m when it starts. The code I'm trying to compile looks like:

#include <memory>
#include <boost/asio.hpp>
#include <boost/bind.hpp>

boost::asio::io_service io;
std::unique_ptr<manager> m;
m = std::make_unique<manager>;
io.post(boost::bind(&manager::run, &m));

gcc pitches a fit on the boost::bind statement, which includes:

/usr/include/boost/bind/mem_fn_template.hpp:40: error: pointer to
member type ‘void (manager::)()’ incompatible with object type
‘std::unique_ptr<manager, std::default_delete<manager> >’

What do I want to be doing here?

The manager object will only know about timers; a separate object that knows about io_service will get added to its constructor later. But the idea is that manager::run() will create an initial set of timers to bootstrap the system.


My thinking here is that the outer block of code manages the lifetime of m and that the next statement will be io.run(). The outer code will destroy m when io.run() returns. Hence, passing a raw reference for m to io is appropriate. But I'm a modern C++ novice and could be way off base here.

  • You don't pass a reference of any kind to bind -- you pass a regular pointer to a unique pointer. But unique pointers must be unique, and with your code, when the post returns, there are two -- one in the posted bind and one in m. That obviously can't be right. Perhaps you want boost::bind (&manager::run, std::move(m))? – David Schwartz Mar 2 '15 at 22:50
  • boost::bind doesn't know how to unwrap a unique_ptr, you need pass it either a manager * (m.get()) or a manager instance (*m) (the second one makes a copy of the object m points to). And I find it difficult to believe you're using gcc4.4.7; that compiler doesn't even understand -std=c++11, let alone std::make_unique, a C++14 addition. – Praetorian Mar 2 '15 at 23:47
  • gcc 4.4.7 has -std=gnu++0x, and for make_unique I snagged STL's suggestion. – Andreas Yankopolus Mar 3 '15 at 2:25

You'd need C++-14 and generalized lambda capture to make this work -- you'd need to move the unique pointer into the lambda. Instead, just use a shared_ptr, which std::bind understands natively:

std::shared_ptr<manager> m;
m = std::make_shared<manager>();
io.post(std::bind(&manager::run, std::move(m)));

The std::move is optional but ensures that m doesn't keep the manager around when it's not wanted.

  • I feel dirty doing this, at least with my current understanding of the implications of unique vs. shared pointers. io won't be responsible for the lifecycle of m. The way the program is headed, m will get cleaned up after io.run() (which will come shortly after io.post()) returns. Does make_shared() give the reader the wrong idea? – Andreas Yankopolus Mar 3 '15 at 16:04
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    @AndreasYankopolus The m variable will get cleaned up, but the bind will capture the shared pointer by value, keeping the manager around as long as the bind stays around, which it must until its execution completes. – David Schwartz Mar 3 '15 at 19:55
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    Is it Bad and Wrong to keep m as a unique_ptr and change the bind statement to: boost::bind(&manager::run, m.get())? – Andreas Yankopolus Mar 3 '15 at 20:00
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    @AndreasYankopolus Yes, because then the manager can be deleted too soon (as soon as m goes out of scope). You need the bind to keep the manager alive and that requires it to capture something, by value, that keeps the manager around. – David Schwartz Mar 3 '15 at 20:56

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