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I have a function that converts a relative path (e.g. "log\crash.txt") to the full path (e.g. "E:\Program\log\crash.txt"). The function is:

string_t GetAbsPath(string_t relPath)
{
    char abs[1024];

    //Get the working directory
    GetCurrentDirectory(1024, abs);

#pragma warning(disable:4996)
    //Add a slash and content folder
    memcpy(&abs, strcat(abs, "\\content\\"), 1024);
    //Append it to the relative path
    memcpy(&abs, strcat(abs, relPath.c_str()), 1024);
#pragma warning(default:4996)

    return abs;
}

string_t is a class I wrote, its basically a wrapper for a const char*. My problem is, (and I sort of anticipated this...) is that when the function returns, abs goes out of scope, and the string_t that gets the returned value is now empty/junk. In a situation like this, I would normally just use memcpy to copy it into a pointer that won't go out of scope. But the issue there is, that pointer (which would be the const char* in string_t) would need to be delete[]'d. string_t doesn't have a destructor to begin with. I could write one and delete[] it there, but that posses another problem:

If I create a string_t like this:

string_t crash = "New[] isn't called! Ahh!";

When I go to delete[] it in the destructor, the program will crash because new[] was never called.

I could delete[] the const char* in the function that calls GetAbsPath, like this:

void LoadModel(string_t relPath)
{
     string_t fullPath = GetAbsPath(relPath);
     . . .
     delete[] fullPath.c_str();
}

But I know that if I come back to the code later, I'll be like "Why is that delete[] there", or I'll add it when it isn't needed... and well the pointer is, there's a lot of room for error there.

What can I do to keep that char in scope (I'm guessing this can only be done with pointers), and make sure that allocated memory gets cleaned up? There has to be a way, because std::string keeps everything clean, and it has features like concatenation, something my string_t doesn't even have. I appreciate any help here, because I'm at a loss...

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2  
Maybe the string_t isn't the right type to be using as the return type, precisely because it doesn't have the necessary destructor. It looks like a 'one way' type; you can pass it into a function, but you can't get it back reliably if the memory to be passed back must be allocated. If the data to be passed back is itself immutable, then you can use string_t OK. Have the function return a std::string in some shape or form (const std::string &?). –  Jonathan Leffler May 28 '12 at 18:19
1  
Get rid of the memcpys. They're broken (memcpy can't handle overlapping input and output). Also, there's no need to copy the data where it already is. Just call strcat to append onto a string. –  David Schwartz May 28 '12 at 18:25
    
@JonathanLeffler What you said gave me an idea. Would it be a good idea to make the type always use new[], therefor always use delete[]? What I mean is, in the constructor, if you used string_t("Foobar"), it would allocate space for the string (6 chars + terminator)(using new[]) and copy that string ("Foobar") into it. That way, delete[] will always need to be called. –  smoth190 May 28 '12 at 18:28
    
@DavidSchwartz If I try to just use abs = strcat(...) it gets mad at me because I the expression isn't a modifiable lvalue. I didn't think I could assign a char* pointer to a char[] array. –  smoth190 May 28 '12 at 18:32
1  
Just call strcat. Get rid of the abs =. You've already appended onto the string, what more do you want to do? (Think about it, strcat must append in place. Where else could it put its result?) –  David Schwartz May 28 '12 at 18:33

1 Answer 1

up vote 3 down vote accepted

You have three choices:

1) Decide that string_t will always own the string it points to and it will be responsible for deallocating it. Have the constructors allocate/copy.

2) Decide that string_t will never own the string it points to and code calling it will always be responsible for deallocating it if necessary.

3) Decide that string_t will support both models and will need a flag to decide whether to call free[] or not in its destructor. Calling code will have to tell string_t whether to allocate/copy or whether to just stash the pointer.

Make sure to follow the rule of three. Or better yet, just use std::string which consistently takes option 1 and thus you can just use it without worrying.

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I just realized what you said in choice 1, your answer allows me to feel safe with it. Thanks you! –  smoth190 May 28 '12 at 18:30

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