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I'm a little confused about C strings and wide C strings. For the sake of this question, assume that I using Microsoft Visual Studio 2010 Professional. Please let me know if any of my information is incorrect.

I have a struct with a const wchar_t* member which is used to store a name.

struct A
    const wchar_t* name;

When I assign object 'a' a name as so:

int main()
    A a;

    const wchar_t* w_name = L"Tom";
    a.name = w_name;

    return 0;

That is just copying the memory address that w_name points to into a.name. Now w_name and a.name are both wide character pointers which point to the same address in memory.

If I am correct, then I am wondering what to do about a situation like this. I am reading in a C string from an XML attribute using tinyxml2.

tinyxml2::XMLElement* pElement;
// ...
const char* name = pElement->Attribute("name");

After I have my C string, I am converting it to a wide character string as follows:

size_t newsize = strlen(name) + 1;
wchar_t * wcName = new wchar_t[newsize];
size_t convertedChars = 0;
mbstowcs_s(&convertedChars, wcName, newsize, name, _TRUNCATE);

a.name = wcName;

delete[] wcName;

If I am correct so far, then the line:

 a.name = wcName;

is just copying the memory address of the first character of array wcName into a.name. However, I am deleting wcName directly after assigning this pointer which would make it point to garbage.

How can I convert my C string into a wide character C string and then assign it to a.name?

share|improve this question
Why are you deleting wcName? If the point is to convert to wchar_t, then why are you deleting the newly-allocated memory holding the result of your conversion? – atkretsch Nov 15 '12 at 20:04
The code as posted is problematic. There doesn't seem to be an ideal place to delete it. I thought about adding an ~A() destructor to delete it, but that seems really ugly to me for some reason. – user974967 Nov 15 '12 at 20:08
@user974967 That (the destructor) is precisely where you would delete it (or anytime you need to reassign it, but then I would advise trying to reuse the buffer if the new assignment still fits. – WhozCraig Nov 15 '12 at 20:09
up vote 3 down vote accepted

The easiest approach is probably to task you name variable with the management of the memory. This, in turn, is easily done by declaring it as

std::wstring name;

These guys don't have a concept of independent content and object mutation, i.e., you can't really make the individual characters const and making the entire object const would prevent it from being assigned to.

share|improve this answer
But how is this going to get his conversion done? Granted it would save him from having to manage the out-of-scope deletion of his conversion buffer, which is currently deleted incorrectly after saving the address. Or did the std lib add a char* to std::wstring up-conversion and I missed it (wouldn't be the first time I was sleeping at the wheel). – WhozCraig Nov 15 '12 at 20:12
It seems he is already doing the conversion using mbstowc() (well the "safe" abomination mbstowcs_s() which a certain vendor tries to impose). Whether this deals correctly with whatever encoding is in the XML file, I don't know, but it seems that the question wasn't about the conversion. – Dietmar Kühl Nov 15 '12 at 20:26
@WhozCraig - using a wstring will make a.name = wcName; work correctly, and the temp buffer can be deleted afterwards without problems. – Bo Persson Nov 15 '12 at 21:09
@BoPersson or use the std::wstring as the buffer itself. (see answer) – WhozCraig Nov 15 '12 at 21:11

You can do this while using a std::wstring without relying on the additional temporary conversion buffer allocation and destruction. Not tremendously important unless you're overtly concerned about heap fragmentation or on a limited system (aka Windows Phone). It just takes a little setup on the front side. Let the standard library manage the memory for you (with a little nudge).

class A
   std::wstring a;

// Convert the string (I'm assuming it is UTF8) to wide char
int wlen = MultiByteToWideChar(CP_UTF8, 0, name, -1, NULL, NULL);
if (wlen > 0)
    // reserve space. std::wstring gives us the terminator slot
    // for free, so don't include that. MB2WC above returns the
    // length *including* the terminator.
    MultiByteToWideChar(CP_UTF8, 0, name, -1, &a[0], wlen);
{   // no conversion available/possible.

On a complete side-note, you can build TinyXML to use the standard library and std::string rather than char *, which doesn't really help you much here, but may save you a ton of future strlen() calls later on.

share|improve this answer

As you correctly mentioned a.name is just a pointer which doesn't suppose any allocated string storage. You must manage it manually using new or static/scoped array.

To get rid of these boring things just use one of available string classes: CStringW from ATL (easy to use but MS-specific) or std::wstring from STL (C++ standard, but not so easy to convert from char*):

#include <atlstr.h>

// Conversion ANSI -> Wide is automatic
const CStringW name(pElement->Attribute("name"));    

Unfortunately, std::wstring usage with char* is not so easy. See conversion functon here: How to convert std::string to LPCWSTR in C++ (Unicode)

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