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An MSDN page about smart pointers includes a promoted warning about creating smart pointers in parameter lists:

Always create smart pointers on a separate line of code, never in a parameter list, so that a subtle resource leak won’t occur due to certain parameter list allocation rules.

What are the parameter list allocation rules that it is referring to? Under what circumstances can the resource leak occur?

3 Answers 3

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It's referring to the possibility of evaluating parameters in a different order, e.g.

func(unique_ptr<MyClass>(new MyClass), a(), b());

if the order of evaluation is: a(), MyClass(), b(), then unique_ptr is constructed, it might happen that b() throws and memory will be leaked.

A safeguard (that has been added in C++14 and it's also more efficient) is to use make_unique (assuming MSVC and according to your compiler version, you might have to define one yourself or take a look here). The same applies to shared_ptr.

Take a look at the notes for std::make_shared here, too:

Moreover, code such as f(std::shared_ptr<int>(new int(42)), g()) can cause a memory leak if g throws an exception because g() may be called after new int(42) and before the constructor of shared_ptr<int>. This doesn't occur in f(std::make_shared<int>(42), g()), since two function calls are never interleaved.

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    Since the OP appears to be using VS, I think make_unique is already supported in VS2013.
    – dyp
    Sep 24, 2014 at 14:25
  • Thanks, edited for clarity. VS2012 might be a problem since it doesn't support variadic templates, I provided a fallback link with the issue. (or OP might try CTP, I believe update 2 should work)
    – Marco A.
    Sep 24, 2014 at 14:28
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    Anyway, there are additional reasons to prefer allocate_shared and make_shared to doing that manually: Efficiency. Sep 24, 2014 at 14:31
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    A minor nit-pick: I would be extremely astounded if make_unique was any more or less efficient than calling std::unique_ptrs ctor yourself directly. Sep 24, 2014 at 14:40
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    @Robinson Take a look at 5.2.2.8 and integrate it with herb's Q&A
    – Marco A.
    Sep 16, 2015 at 18:05
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If you do this:

func(shared_ptr<Foo>(new Foo), shared_ptr<Bar>(new Bar));

And the signature is:

void func(shared_ptr<Foo>, shared_ptr<Bar>);

What will happen if one of the constructors throws? It may happen that new has been called once successfully and then the other one fails (you don't know which one will get called first). If that happens, one of the objects could be leaked, because it was never held by a resource manager.

You can read more here: http://www.gotw.ca/gotw/056.htm

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The problem is that if you have function that takes several arguments:

void func( const std::shared_ptr< MyFirstClass >& ptr, const MySecondClass& ref );

and you call this function like this:

func( std::shared_ptr< MyFirstClass >( new MyFirstClass ), MySecondClass() );

the compiler is free to emit code that executes the expressions in the argument list in any order it likes. Some of these orders can be problematic. For instance, imagine that the compiler decides to emit code that first executes

new MyFirstClass

and then

MySecondClass()

and finally the c'tor of std::shared_ptr< MyFirstClass > (passing it the address of the instance of MyFirstClass that was allocated on the free store in the first step).

So far so good. But if the second step throws an exception, then the shared_ptr never gets constructed, and your free store allocated MyFirstClass-instance is forever lost.

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