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.