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Const-correctness in C++ is still giving me headaches. In working with some old C code, I find myself needing to assign turn a C++ string object into a C string and assign it to a variable. However, the variable is a char * and c_str() returns a const char []. Is there a good way to get around this without having to roll my own function to do it?

edit: I am also trying to avoid calling new. I will gladly trade slightly more complicated code for less memory leaks.

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11 Answers 11

up vote 11 down vote accepted

I guess there is always strcpy.

Or use char* strings in the parts of your C++ code that must interface with the old stuff.

Or refactor the existing code to compile with the C++ compiler and then to use std:string.

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Refactoring the existing code is a little out of the question right now. It is around 10k lines of hardcore, scientific C implementing a fairly complicated algorithm. However, I am pleased there is a simple answer I didn't think of. – Jergason Dec 17 '09 at 5:39
If you are avoiding new (as you say in another comment), you should probably consider using strncpy to avoid over running your stack or static allocated buffer...but then you'll have to deal with the std::string too long for buffer case another way. – dmckee Dec 17 '09 at 5:45
No need for strncpy. If you're copying from a std::string you know how long that is. Good advice doesn't hold everywhere. – Alex Budovski Dec 17 '09 at 6:23

There is an important distinction you need to make here: is the char* to which you wish to assign this "morally constant"? That is, is casting away const-ness just a technicality, and you really will still treat the string as a const? In that case, you can use a cast - either C-style or a C++-style const_cast. As long as you (and anyone else who ever maintains this code) have the discipline to treat that char* as a const char*, you'll be fine, but the compiler will no longer be watching your back, so if you ever treat it as a non-const you may be modifying a buffer that something else in your code relies upon.

If your char* is going to be treated as non-const, and you intend to modify what it points to, you must copy the returned string, not cast away its const-ness.

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I think this is the key point. – Daniel Daranas Dec 17 '09 at 14:39
Thanks, Daniel. – Joe Mabel Dec 17 '09 at 21:36
I'm in favour in preserving the const correctness of code, and avoid placing a manual management burden on programmers to "get it right". So it's safer to make a copy, and pass that pointer to the legacy code. Or, fix the const usage in the legacy code if at all possible. – Craig McQueen Sep 13 '13 at 6:06
Wow. A downvote for correctly answering the question, because you don't like doing what the questioner wanted to do? – Joe Mabel Sep 14 '13 at 16:52

Since for to me inexplicable reasons nobody answered this the way I do now, and since other questions are now being closed pointing to this one, I'll add this here, even though coming a year too late will mean that it hangs at the very bottom of the pile...

With C++03, std::string isn't guaranteed to store its characters in a contiguous piece of memory, and the result of c_str() doesn't need to point to the string's internal buffer, so the only way guaranteed to work is this:

std::vector<char> buffer(s.begin(), s.end());
foo(&buffer[0], buffer.size());
s.assign(buffer.begin(), buffer.end());

Since there were no known implementations that actually used non-contiguous memory, and since std::string was used by many as if this was guaranteed, the rules will be changed for the upcoming standard, now guaranteeing contiguous memory for its characters. So in C++1x, this should work:

foo(&s[0], s.size());

However this needs a note of caution: The result of &s[0] (as the result of s.c_str(), BTW) is only guaranteed to be valid until any member function is invoked that might change the string. So you should not store the result of these operations anywhere. The safest is to be done with them at the end of the full expression, as my examples do.

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+1 even though I'm quite partial to my answer here :)… – John Dibling Nov 30 '10 at 21:02

You can use the copy method:

len = myStr.copy(cStr, myStr.length());
cStr[len] = '\0';

Where myStr is your C++ string and cStr a char * with at least myStr.length()+1 size. Also, len is of type size_t and is needed, because copy doesn't null-terminate cStr.

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If you can afford extra allocation, instead of a recommended strcpy I would consider using std::vector<char> like this:

// suppose you have your string:
std::string some_string("hello world");
// you can make a vector from it like this:
std::vector<char> some_buffer(some_string.begin(), some_string.end());
// suppose your C function is declared like this:
// some_c_function(char *buffer);
// you can just pass this vector to it like this:
// if that function wants a buffer size as well,
// just give it some_buffer.size()

To me this is a bit more of a C++ way than strcpy. Take a look at Meyers' Effective STL Item 16 for a much nicer explanation than I could ever provide.

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There's always const_cast...

std::string s("hello world");
char *p = const_cast<char *>(s.c_str());

Of course, that's basically subverting the type system, but sometimes it's necessary when integrating with older code.

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I don't think the standard currently requires contiguous storage, so make sure your implementation uses it. (It likely does). The next standard will require it, AFAIK. – GManNickG Dec 17 '09 at 5:39
You have to be careful, very careful, not to go off the end of the memory allocated for the string. If you modify the contents of the resulting pointer, you are modifying the internal buffer of the std::string. If you attempt to use the pointer after the std::string object goes out of scope, there will be trouble. It's only something to be used in a very limited scope when you absolutely have to (i.e. within say 10 lines of the const_cast). Don't take the resulting char* and pass it to other functions, return it, store it as a member variable, etc. Make a copy if you have to do that. – mch Dec 17 '09 at 5:40
-1. You will get undefined behavior here when you will try to modify const object. – Kirill V. Lyadvinsky Dec 17 '09 at 8:57
+1: just check whether the string won't be changed. – stefaanv Dec 17 '09 at 9:06
Modifying the characters pointed to by p is undefined behavior - if the reason the cast is needed is because the function being called just neglected to mark its parameter const, that might be fair enough. If the reason a non-const pointer is needed is because the function being called modifies the string, then it isn't fair enough. – Steve Jessop Dec 17 '09 at 12:06

If you know that the std::string is not going to change, a C-style cast will work.

std::string s("hello");
char *p = (char *)s.c_str();

Of course, p is pointing to some buffer managed by the std::string. If the std::string goes out of scope or the buffer is changed (i.e., written to), p will probably be invalid.

The safest thing to do would be to copy the string if refactoring the code is out of the question.

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That's what const_cast is for, though. Slightly smaller sledgehammer. – Timo Geusch Dec 17 '09 at 7:34
Thing is, is you ever want to clean that up, it's a whole lot easier to look for const cast in the code than char *. – David Thornley Dec 17 '09 at 18:30

If c_str() is returning to you a copy of the string object internal buffer, you can just use const_cast<>.

However, if c_str() is giving you direct access tot he string object internal buffer, make an explicit copy, instead of removing the const.

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Since c_str() gives you direct const access to the data structure, you probably shouldn't cast it. The simplest way to do it without having to preallocate a buffer is to just use strdup.

char* tmpptr;
tmpptr = strdup(myStringVar.c_str();
free tmpptr;

It's quick, easy, and correct.

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Nonstandard, also, but anybody competent in C can whip up a version pretty fast. (Just remember to malloc the extra byte for the null terminator.) – David Thornley Dec 17 '09 at 18:31
std::string vString;
vString.resize(256); // allocate some space, up to you
char* vStringPtr(&vString.front());
// assign the value to the string (by using a function that copies the value).
// don't exceed vString.size() here!
// now make sure you erase the extra capacity after the first encountered \0.
vString.erase(std::find(vString.begin(), vString.end(), 0), vString.end());
// and here you have the C++ string with the proper value and bounds.

This is how you turn a C++ string to a C string. But make sure you know what you're doing, as it's really easy to step out of bounds using raw string functions. There are moments when this is necessary.

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Is it really that difficult to do yourself?

#include <string>
#include <cstring>

char *convert(std::string str)
    size_t len = str.length();
    char *buf = new char[len + 1];
    memcpy(buf,, len);
    buf[len] = '\0';
    return buf;

char *convert(std::string str, char *buf, size_t len)
    memcpy(buf,, len - 1);
    buf[len - 1] = '\0';
    return buf;

// A crazy template solution to avoid passing in the array length
// but loses the ability to pass in a dynamically allocated buffer
template <size_t len>
char *convert(std::string str, char (&buf)[len])
    memcpy(buf,, len - 1);
    buf[len - 1] = '\0';
    return buf;


std::string str = "Hello";
// Use buffer we've allocated
char buf[10];
convert(str, buf);
// Use buffer allocated for us
char *buf = convert(str);
delete [] buf;
// Use dynamic buffer of known length
buf = new char[10];
convert(str, buf, 10);
delete [] buf;
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Use a std::vector. – GManNickG Dec 17 '09 at 5:40
I'm trying to avoid calling new. Edited the original question to make that more clear. – Jergason Dec 17 '09 at 5:41
@Jergason - I did provide you with a way to pass in your own (stack allocated) buffer, thus completely avoiding the call to new. And @GMan - Why would I use a std::vector when the question calls for a char * ? – Chris Lutz Dec 17 '09 at 5:43
You should pass a size parameter into convert if you are passing in a stack allocated buffer (or any buffer for that matter). Then use strncpy to avoid going off the end of the destination buffer. – mch Dec 17 '09 at 5:47
@Chris: So you don't have to worry about memory management and exceptions? A vector<char> works just as well. &v[0] is your pointer, and the code ends up being cleaner without explicit memory management. – GManNickG Dec 17 '09 at 5:51

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