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I looks like I may need to embark on some cross-platform project and part of it will have to be done in C or C++ (not decided yet hence the question is about them both). I will be dealing mostly with the text-based stuff and strings in general.

That C/C++ will have an API callable from the higher-level platform-dependent code.

My question is: what type(s) is it advisable to use to work with strings, in particular when declaring public interfaces? Are there any recommended standard techniques? Are there things to avoid?

I have little experience of writing C or C++ code, and even that was on Windows, so nothing like cross-platform here at all. So what I'm really looking for is for something to get me on the right way and avoid doing stupid things which are bound to cause a lot of pain.


Edit 1: To give a bit more context about the intended use. The API will be consumed by:

  • Objective C on iPhone/iPad/Mac via NSString and friends. The API can be statically linked, so no need to worry about .so .dll issues here.

  • Java via JNI on Android and other Java platforms

  • .NET via p/invoke from the managed C# code or natively statically linked if using C++/CLI.

  • There are some thoughts about using lua somehow/somewhere in this context. Don't know if this has any bearing on anything though.

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I would recommend writing the functionality you need in the style you are most comfortable with. I personally think that seeing std::string in interfaces saves my life every day, but I can't say that for you. After you solve that problem, solve the separate problem of writing adapters for each of your bindings. They are separate problems. –  Tom Kerr Jul 26 '11 at 17:42

4 Answers 4

up vote 13 down vote accepted

Rules

  • Use UTF formats to store strings, not "code pages" or whatnot (UTF-16 is probably easier edit: I totally forgot about byte order issues; UTF-8 is probably the way to go).

  • Use null-terminated strings instead of counted strings, as these are the easiest to access from most languages. But be careful about buffer overflows.

  • Do not even try to use classes like std::string to pass around strings to/from the user. Even your own program can break after upgrading your compiler/libraries (since their implementation detail is just that: an implementation detail), let alone the fact that non-C++ programs will have trouble with it.

  • Avoid allocating strings for the user unless it's truly painful for the user otherwise. Instead, take in a buffer and fill it up with data. That way you don't have to force the user to use a particular function to free the data. (This is also often a performance advantage as well, since it lets the user allocate small buffers on the stack. But if you do do that, provide your own function to free the data. You can't assume that your malloc or new can be freed with their free or delete -- they often can't be.)

Note:

Just to clarify, "let the user allocate the buffer" and "use NULL-terminated strings" do not run against each other. You still need to get the buffer length from the user, but you include the NULL when you terminate the string. My point was not that you should make a function similar to scanf("%s"), which is obviously unusably dangerous -- you still need the buffer length from the user. i.e. Do pretty much what Windows does in this regard.

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7  
Depending on what he's doing, UTF-8 might be the easiest. –  James Kanze Jul 26 '11 at 15:10
1  
+1 for UTF-8 here. –  nielsj Jul 26 '11 at 15:11
3  
@James: I was actually going to mention that, but I was afraid that someone reading this would likely incorrectly start using UTF-8 with the ___A version of the Windows API functions (instead of properly converting them to UTF-16, which is a little annoying), so I said UTF-16 instead. But yeah, if you don't care too much about this potential accident, then UTF-8 is indeed probably the easiest. –  Mehrdad Jul 26 '11 at 15:13
1  
@STATUS_ACCESS_DENIED: The point here is interoperability, not safety. There's only one way to do null-termination, but there are multiple ways to do length counting (e.g. BSTR, an array structure with a pointer and a length, etc.). –  Mehrdad Jul 26 '11 at 15:46
4  
In some platforms wchar_t is 16-bit (Windows), elsewhere it's 32-bit (Linux, Mac OS X), so be careful with the memory layout. For file names Windows uses UTF-16, Linux and Mac use UTF-8, but it's easy to convert between the two. UTF-8 is easy, because there're typically no byte order problems. In UTF-16 you may have to describe the byte order. And wchar_t could theoretically be UTF-16 or UTF-32, MSB or LSB. That's why UTF-8 is easier in a protocol. –  Tamas Demjen Jul 26 '11 at 17:31

That C/C++ will have an API callable from the higher-level platform-dependent code.

If by this you mean that you intend this library to be a DLL which may be called from other languages, for example, .NET languages, then I strongly recommend having all public API as extern "C" functions that have only POD types as parameters and return values. That is, prefer /*const*/ char* over std::string. Remember, C++, unlike plain C, has no standard ABI.

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If you want a ten ton hammer to deal with strings in C/C++, then IBM's ICU project is for you. http://site.icu-project.org/

ICU has all the tools for working with strings with really good unicode support. It is an impressive and well-maintained open source product with a favorable license for commercial projects.

If you want to release your code as a .dll/.so for others to call, then you probably want to minimize your external dependencies. You may want to stick to standard libraries or a more lightweight project in that case.

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This is the most excellent link, thanks for that. And it's probably something that I will use. –  Komrade P. Jul 28 '11 at 8:57
    
@komrade-p Onward to ultimate victory!! –  DWoldrich Aug 26 '11 at 21:58

A very common way to return a string to a caller is to accept a string buffer pointer and a character count of the buffer size. A useful convention is to return the number of characters copied into the buffer as the return value; this is especially valuable if you treat a buffer size of 0 as a special case and return the number of characters that are required (including the null terminator).

int GetString(char * buffer, int buffersize);

In C++ it is convenient to work with std::string instead, but this presents a problem: you can't rely on the implementation of std::string to be compatible between differently compiled parts of the program, i.e. between your main program and the library. By providing an inline function in a header file, you can ensure that the std::string is created in the same context as the caller and bypass this problem.

inline std::string GetString()
{
    std::string result(GetString(NULL, 0), 0);
    GetString(&result[0], result.size());
    result.erase(result.size() - 1);
    return result;
}
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result.pop_back();? –  Dennis Zickefoose Jul 26 '11 at 16:50
    
@Dennis, it removes the terminating null which should not be part of the string. It's provided by Microsoft's implementation, but I can't find it at cplusplus.com/reference/string/string so it must be an enhancement. I'll fix the code. –  Mark Ransom Jul 26 '11 at 16:53
    
No, it is part of the official interface, I just didn't understand why you were doing it. That does make sense though. –  Dennis Zickefoose Jul 26 '11 at 17:01
    
Apparently, it is only part of the official interface in 0x. –  Dennis Zickefoose Jul 26 '11 at 17:09

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