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I've got a rather basic C++ question, consider a function that takes some input parameters and creates a std::string that from those parameters like the one below:

std::string constructString( int some_parameter ) {

    std::stringstream ss;

    // Construct a string (arbitrarily complex)
    ss << "Some parameter is " << some_parameter << " right now";

    return ss.str();    //Am I not returning a temporary object here?

I understand that the stringstream-object will go out of scope when the function returns, but doesn't that invalidate the constructed string as well?

What would happen if I changed the return type to const char * and returned ss.str().c_str() instead?

Code like the above seems to work, but I suspect that's just because the memory containing the 'temporary' object has not yet been overwritten with something else when I use it?

I have to admit, I'm rather confused in such situations in general, I'd appreciate it if someone could explain this whole "temporary objects"-thing to me (or just point me in the right direction).

thx in advance

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up vote 9 down vote accepted

You are returning a temporary object, but because you return it by value, the copy is created. If you return pointer or reference to temporary object, that would be a mistake.

If you change the return type to const char * and return ss.str().c_str() you would return pointer to some buffer of temporary std::string returned by ss.str() and that would be bad.

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As you see Stringstream::str() returns std::string object. You returns std::string without reference that means that without RVO(NRVO) optimization copy constructor will call and create valid std::string object. With optimization std::string will be moved without copy constructor. But if will return std::string& it will crash because this object will be destroyed after function return. Same effect will be with const char * because after destroying this pointer will point on bad memory and this is dangerous situation.

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Will be destructor called after this copy will not be picked up by function calling constructString? As it is temporary object, I assume pointer to it is held on stack as a return value. What happens after it is returned? Is it destroyed if there is no new object owner? How compiler knows that object have to be destroyed or not after it is returned? – pro_metedor Oct 18 '12 at 10:36

Assume this: T val = some_function(), when you return a value from some_function C++ copy value of returned value into val using specified copy constructor or built-in operator. So if you return an int or std::string there is no problem at all, but if you return a pointer to a memory that will be freed at end of the function, oops!! your pointer will be pointed to an invalid memory. For example consider this:

const char* some_function() {
    std::string res( ... );
    return res.c_str();

You are returning pointer to data that will be freed as soon as function return(since res will be destroyed and it will free its internal data) so you will get the address, but that address does not point to what you possibly expect!

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"C++ copy value of returned value into val" - Even more than that, it already copies the value returned by ss.str() into the function's return value, because he returns by-value. So it would even work with const T &val = some_function(), given some_function returns by-value. – Christian Rau Oct 18 '12 at 10:35
const T& val = some_function() actually work perfectly, since C++ copy every thing by value and const T& is actually const T* with some different semantic, the problem here is const T& point to a location that will be invalidated after the function call complete! – BigBoss Oct 18 '12 at 11:34
No, it won't, because binding a const reference to a temporary extends the lifetime of the temporary. That's why void foo(const std::string&); foo("test"); works perfectly fine. It won't work for a pointer (or a non-const reference), though. This is one of the small differences, that make references indeed something else than syntactic sugar for pointers. – Christian Rau Oct 18 '12 at 11:38
I told you that's a pointer with different semantic, when you call foo("test"); it will create a std::string and then pass its pointer as a reference to the function, but we don't have a thing such as extending life time of object in C++, this is not C# that life time is managed using references. For example if you have const std::string& foo() {std::string tmp; return tmp;}, reference never add life time of tmp and it will be destroyed at end of function! but if you have int& foo() {int n = 5; return n;} syntax is invalid but it work perfectly, since n is still in memory!! – BigBoss Oct 18 '12 at 12:51
Ok, the example was badly chosen, since the temporary std::string lifes until the end of the function call expression anyway. I also know that this is not C# and references/pointers don't usually extend any lifetime. But still this is how binding to a const reference works. I'll be right back once I have dug up the standard proof. – Christian Rau Oct 18 '12 at 12:57

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