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Got this ScopeExit class off code-project but it would not build on GCC 4.5.3. Appreciate any help.

class ScopeExit : private boost::noncopyable
    typedef std::function<void()> func_t;

    ScopeExit(func_t&& f) : func(f) {}
    ~ScopeExit() { func(); }

    // no default ctor

    // Prohibit construction from lvalues.

    // Prohibit new/delete.
    void* operator new(size_t);
    void* operator new[](size_t);
    void operator delete(void *);
    void operator delete[](void *);

    const func_t func;

ScopeExit exit = [&]() { };

gcc 4.5.3 errors:

In member function ‘void test()’:
error: conversion from ‘test()::<lambda()>’ to non-scalar type ‘ScopeExit’ requested


ScopeExit exit([&]() { }); // this works
share|improve this question
Since this is c++11 code: Why use a private constructors/operators to prohibit those? Anything wrong with ScopeExit(func_t&)=delete;? Also note that the compiler generated default constructor is disabled since the type has a user defined constructor and that constructing from an lvalue isn't possible, if the constructor onyl accepts rvalues, so neither of those two constructors needs to be explecitely removed. For the operator new/delete using =delete; should do it. –  Grizzly Sep 18 '12 at 15:41
I didn't write the code. Like I said, it's from code-project. –  Zach Saw Sep 19 '12 at 1:54

2 Answers 2

up vote 3 down vote accepted

It's copy/move initialization. Your copy c-tor is deleted, move c-tor is deleted too.

n3337 12.8/9

If the definition of a class X does not explicitly declare a move constructor, one will be implicitly declared as defaulted if and only if

— X does not have a user-declared copy constructor,

— X does not have a user-declared copy assignment operator,

— X does not have a user-declared move assignment operator,

— X does not have a user-declared destructor, and

— the move constructor would not be implicitly defined as deleted.

Have no ideas why first case doesn't work, but this case works fine

template<typename T>
ScopeExit(T&& f) : func(std::move(f)) {}
ScopeExit(ScopeExit&& rhs) : func(std::move(rhs.func)) { }]


When we use copy-initialization of variable of class-type only standard and elipsis implicit conversions are used. Conversion from lambda to function pointer or from function pointer to std::function is user-defined conversion and not used.

n3337 8.5/16

The semantics of initializers are as follows. The destination type is the type of the object or reference being initialized and the source type is the type of the initializer expression. If the initializer is not a single (possibly parenthesized) expression, the source type is not defined.

If the destination type is a (possibly cv-qualified) class type:

Otherwise (i.e., for the remaining copy-initialization cases), user-defined conversion sequences that can convert from the source type to the destination type or (when a conversion function is used) to a derived class thereof are enumerated as described in, and the best one is chosen through overload resolution (13.3). If the conversion cannot be done or is ambiguous, the initialization is ill-formed.


Under the conditions specified in 8.5, as part of a copy-initialization of an object of class type, a user-defined conversion can be invoked to convert an initializer expression to the type of the object being initialized. Overload resolution is used to select the user-defined conversion to be invoked. Assuming that “cv1 T” is the type of the object being initialized, with T a class type, the candidate functions are selected as follows:

— The converting constructors (12.3.1) of T are candidate functions.

  1. In both cases, the argument list has one argument, which is the initializer expression. [ Note: This argument will be compared against the first parameter of the constructors and against the implicit object parameter of the conversion functions. — end note ]

n3337 13.3.2

1. From the set of candidate functions constructed for a given context (13.3.1), a set of viable functions is chosen, from which the best function will be selected by comparing argument conversion sequences for the best fit (13.3.3). The selection of viable functions considers relationships between arguments and function parameters other than the ranking of conversion sequences.

Second, for F to be a viable function, there shall exist for each argument an implicit conversion se- quence ( that converts that argument to the corresponding parameter of F.


However, when considering the argument of a constructor or user-defined conversion function that is a candidate by when invoked for the copying/moving of the temporary in the second step of a class copy-initialization, by when passing the initializer list as a single argument or when the initializer list has exactly one element and a conversion to some class X or reference to (possibly cv-qualified) X is considered for the first parameter of a constructor of X, or by,, or in all cases, only standard conversion sequences and ellipsis conversion sequences are considered.

share|improve this answer
The first case does not work because of what Matt says in the other answer, no? If no copy constructor is available, copy-initialization won't work. –  jogojapan Sep 18 '12 at 7:37
Strange how the code compiles on MSVC2010. Most likely MC++ compiler bug. –  Zach Saw Sep 18 '12 at 7:37
@jogojapan if there is user-declared move c-tor - code will not work too. With same error. And so, if you use ScopeExit exit = ScopeExit([]() { }); will works fine. –  ForEveR Sep 18 '12 at 7:38
Yes.. you are right. I wonder why the first case doesn't work then. –  jogojapan Sep 18 '12 at 7:51
@jogojapan have no other compilers, but it seems like gcc bug, or something in standard prohibits such usage of lambda to std::function conversion (i.e. lambda to function pointer -> function pointer to std::function). –  ForEveR Sep 18 '12 at 7:59

You've prohibited copy initialization (which is what's happening in the first case) by making the copy constructor private. But your constructor ScopeExit(func_t&& f) : func(f) {} is public, and that's what is getting called in the second (working) declaration. Playing around with the access control specifications of the two ctors should verify this.

Edit: Wrong terminology as ForEver pointed out, effectively--ScopeExit(func_t&& f) : func(f) {} is not a move-constructor. But this is what is getting called in the second case and that is why it works, and the privacy of the copy-ctor is why the first case doesn't.

share|improve this answer
Isn't there a const missing for a copy-ctor? –  ltjax Sep 18 '12 at 7:29
@Itjax good call, I didn't think about that, but see here, either version will work (and disable the default ctor). –  Matt Phillips Sep 18 '12 at 7:31
Its move c-tor is not public. It's not user-defined and we have user-defined copy c-tor, so it cannot be declared as defaulted. C-tor, that receives argument of other type, that class is not move c-tor. –  ForEveR Sep 18 '12 at 7:34
@ForEveR Sorry, what are you talking about? ScopeExit(func_t&& f) : func(f) {} is a move-ctor, and it's public. –  Matt Phillips Sep 18 '12 at 7:36
It's not move c-tor. It's c-tor with one argument of type func_t&&, func_t is not ScopeExit, so it cannot be move c-tor. –  ForEveR Sep 18 '12 at 7:41

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