53

What's the best way to delete an std::string from memory allocated on the heap when I'm done using it? Thanks!

14
  • 1
    @Ryan Mitchell: 1) this question can be easily answered by reading the first two chapters of most C++ books, and 2) there are thousands of exact duplicates, 3) poorly phrased, it is unclear what the OP wants to ask.
    – Lie Ryan
    Feb 12 '11 at 18:15
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    First of all - Yes, I am fairly new to C++, and no I am not using a C++ book. I am learning C++ by referencing the MSDN library, and was unable to find anything specific to freeing strings allocated on the heap, and I was unsure if it was a good idea to use the DELETE function, or if I should have used free(&str) or some other function. I can see why it may have received downvotes, but I had tried Google and MSDN before, and was unable to find a good answer, so I decided to post here, and I got the answer I was looking for.
    – bbosak
    Feb 12 '11 at 18:23
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    @IDWMaster: C++ is not a language that you learn from reading the reference documentation here and there, I strongly recommend you to get a C++ book and study it. Feb 12 '11 at 18:26
  • 1
    @IDWMaster: C++ is similar to C and C# in the syntax, but not in the idioms. Feb 12 '11 at 18:33
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    @IDWMaster: Get a book. You'd laugh if I said "I can fly this plane, I know how to drive a car after all! They both have wheels." Your knowledge of C# or C to C++ is about as applicable. You don't learn a language by pretending they have a 1-1 mapping of functionality, they're different for a reason. Act like you don't know anything and learn that way. As a beginner, you're the last person be have the authority to assert you know what you're doing; you don't. Take our advice.
    – GManNickG
    Feb 12 '11 at 21:01
80

std::string is just a normal class1, so the usual rules apply.

If you allocate std::string objects on the stack, as globals, as class members, ... you don't need to do anything special, when they go out of scope their destructor is called, and it takes care of freeing the memory used for the string automatically.

int MyUselessFunction()
{
    std::string mystring="Just a string.";
    // ...
    return 42;
    // no need to do anything, mystring goes out of scope and everything is cleaned up automatically
}

The only case where you have to do something is when you allocate an std::string on the heap using the new operator; in that case, as with any object allocated with new, you have to call delete to free it.

int MyUselessFunction()
{
    // for some reason you feel the need to allocate that string on the heap
    std::string * mystring= new std::string("Just a string.");
    // ...
    // deallocate it - notice that in the real world you'd use a smart pointer
    delete mystring;
    return 42;
}

As implied in the example, in general it's pointless to allocate a std::string on the heap, and, when you need that, still you should encapsulate such pointer in a smart pointer to avoid even risking memory leaks (in case of exceptions, multiple return paths, ...).


  1. Actually std::string is defined as

    namespace std
    {
        typedef std::basic_string<char> string;
    };
    

    so it's a synonym for the instantiation of the basic_string template class for characters of type char (this doesn't change anything in the answer, but on SO you must be pedantic even on newbie questions).

6
  • and here I was thinking std::string was a typedef for the template class std::basic_string with a char element type, rather than being a normal class. Not that being a typedef for a template class (or being a struct or being a primitive type) makes any difference to destruction and deallocation of auto and dynamic objects. Feb 12 '11 at 18:19
  • @Matteo, it's still wrong. It's not a specialization, it's an instantiation. And it's especially important to be pedantic on newbie questions because otherwise newbies would easily pick up wrong terms. I couldn't care less about whether it's a specialization or instantiation, but a newbie might think "specialization == typedef" which looks reasonable, but is plain wrong. Feb 12 '11 at 18:45
  • 1
    @Sergey Tachenov: std::basic_string<char> is a specialization, the typedef makes a synonym for it; since he said he knows C I supposed that the role of the typedef would have been obvious; still, fixed again, next time feel free to perform the edit yourself. Feb 12 '11 at 19:40
  • @Matteo, looks like I am a kind of newbie here too. I always though that "specialization" refers to only explicit specializations using template<> syntax or to partial explicit specializations. Turns out this is not the case, sorry for misleading comment. Feb 13 '11 at 9:16
  • @Sergey: strictly speaking it's template instantiation, but I've seen both terms used for it (in that case, explicit instantiation is used for what you are saying). Feb 13 '11 at 10:44
10
std::string foo("since it's on the stack, it will auto delete out of scope");

or:

std::string* foo = new std::string("allocated on the heap needs explicit destruction")
delete foo;
4

Use delete if it's on the heap, and nothing at all if it's on the stack.

1
void foo() {
    string* myString = new string("heap-allocated objects are deleted on 'delete myString;'");
    cout << *myString << endl;
    delete myString;
}

or better yet, avoid pointers when possible and use automatic variables:

void foo() {
    string myString("stack-allocated string is automatically deleted when myString goes out of scope");
    cout << myString << endl;
}
0

just treat std::string as any basic type.

std::string *str = new std::string("whatever");
///code
delete str;
-1

You can treat std::string like any other class. Use new for allocation, and delete once you're done with it. With C++11, I do not recommend usage of new and delete in most cases. If you need to allocate the string on heap, use std::shared_ptr to wrap it:

std::shared_ptr<std::string> my_string = std::make_shared<std::string>(std::string("My string"));

As soon as all the copies of my_string go out of scope, the associated memory is going to be deleted automatically.

1
  • std::shared_ptr exists to provide elegant proxy over shared ownership semantics and automated reference counting, not to make heap allocation easier. std::unique_ptr is a completely different story, though. It could be wise to mention implications of using both before suggesting either... Sep 30 '21 at 19:55

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