7

Hello I have the following code:

bool PinManager::insertPin(const std::string& p_pinNumber, const std::string& p_mode)
{
    boost::shared_ptr<GPIOPin> pin(new GPIOPin(p_pinNumber, p_mode));
    if (pin)
    {
        m_pinsInUse.insert(std::make_pair<std::string, boost::shared_ptr<GPIOPin> >(p_pinNumber, pin));
        return true;
    }
    return false;
}

This code has always compiled, but when I added the -std=c++0x flag this code fails to compile with the message:

[ 42%] Building CXX object gpioaccess/CMakeFiles/gpioaccess.dir/pinmanager/pinmanager.cpp.o
/home/pi/robot_2.0/trunk/gpioaccess/pinmanager/pinmanager.cpp: In member function 'bool gpioaccess::PinManager::insertPin(const string&, const string&)':
/home/pi/robot_2.0/trunk/gpioaccess/pinmanager/pinmanager.cpp:39:101: error: no matching function for call to 'make_pair(const string&, boost::shared_ptr<gpioaccess::GPIOPin>&)'
/home/pi/robot_2.0/trunk/gpioaccess/pinmanager/pinmanager.cpp:39:101: note: candidate is:
/usr/include/c++/4.6/bits/stl_pair.h:262:5: note: template<class _T1, class _T2> std::pair<typename std::__decay_and_strip<_T1>::__type, typename std::__decay_and_strip<_T2>::__type> std::make_pair(_T1&&, _T2&&)
gpioaccess/CMakeFiles/gpioaccess.dir/build.make:77: recipe for target 'gpioaccess/CMakeFiles/gpioaccess.dir/pinmanager/pinmanager.cpp.o' failed
make[2]: *** [gpioaccess/CMakeFiles/gpioaccess.dir/pinmanager/pinmanager.cpp.o] Error 1
CMakeFiles/Makefile2:75: recipe for target 'gpioaccess/CMakeFiles/gpioaccess.dir/all' failed
make[1]: *** [gpioaccess/CMakeFiles/gpioaccess.dir/all] Error 2
Makefile:75: recipe for target 'all' failed
make: *** [all] Error 2

After doing a little digging I found that the fact this compiled before was probably a bug; however, I am still unsure how to fix this. Does anyone have any points in the correct direction?

gcc --version is gcc (Debian 4.6.3-14+rpi1) 4.6.3

5
  • 4
    make_pair should be able to deduce the argument types, try removing your explicit template arguments: std::make_pair(p_pinNumber, pin) – melak47 Sep 7 '15 at 16:58
  • 2
    Side note: if (pin) is always true or has no effect if an exception is thrown – user2249683 Sep 7 '15 at 17:01
  • @melak47 That was the problem removing the arguments allowed the code to compile. Thank you! – joshu Sep 7 '15 at 17:04
  • 3
    Please don't post line numbers with your code. It makes it all too hard to copy & paste it into an editor or an online-compiler form. – Christian Hackl Sep 7 '15 at 17:04
  • @DieterLücking Good catch thanks for pointing that out. – joshu Sep 7 '15 at 17:04
25

std::make_pair has changed between and .

In , it accepts parameters by forwarding-references rather than by value. This means that by specifying its type template arguments explicitly you end up with the following instantiation:

std::make_pair<std::string , boost::shared_ptr<GPIOPin> >
             (std::string&&, boost::shared_ptr<GPIOPin>&&);

expecting rvalue references, which cannot bind to lvalues.

You should not specify type template arguments of std::make_pair explicitly. Instead, you should let the compiler deduce them on its own:

std::make_pair(p_pinNumber, pin)

Additionally, since , when using std::map, you can construct the pair in-place:

m_pinsInUse.emplace(p_pinNumber, pin);

In you can utilize class template argument deduction, and construct std::pair without specifying class template arguments:

std::pair(p_pinNumber, pin)
4
  • Thanks, nice to know. The C++14 definition has an additional change. – user2249683 Sep 7 '15 at 17:07
  • 2
    One should stress the point that this is indeed a breaking change in C++11. – Christian Hackl Sep 7 '15 at 17:10
  • 4
    In practice it's only a breaking change for dumb code that misuses make_pair – Jonathan Wakely Sep 7 '15 at 17:24
  • 1
    Upvoted for answering clearly, concisely and without sounding condescending or needlessly critical. – user2428400 Sep 7 '15 at 22:50
9

The whole point of std::make_pair is to simplify creating a std::pair so you don't need to specify the template arguments, letting the compiler deduce them.

If you call std::make_pair<T, U>(t, u) with explicit template arguments then you are defeating the entire purpose of the function, because you are preventing deduction, and you're wasting time typing extra characters and potentially creating unnecessary copies of objects, when you could just do std::pair<T, U>(t, u) instead (saving yourself from typing five extra, useless characters).

If you use std::make_pair the way it's intended to be used then you won't even notice that it changed in C++11. If you misuse it by pointlessly providing template arguments then it might not work in C++11, so don't do that.

I wrote a more complete explanation at http://advogato.org/person/redi/diary/239.html

6

Note that in c++11 std::make_pair can often be dropped in favour of the initializer constructor

m_pinsInUse.insert({p_pinNumber, pin});
1

In addition to the answer @NexusSquared provided: you could just use the new emplace function of std::map:

m_pinsInUse.emplace(p_pinNumber, pin);

which is even shorter and constructs the std::pair inplace instead of constructing it followed by copying the contents of the newly constructed pair to the memory of the map.

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