Sign up ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I am relatively new to C++. Recent assignments have required that I convert a multitude of char buffers (from structures/sockets, etc.) to strings. I have been using variations on the following but they seem awkward. Is there a better way to do this kind of thing?

#include <iostream>
#include <string>

using std::string;
using std::cout;
using std::endl;

char* bufferToCString(char *buff, int buffSize, char *str)
    memset(str, '\0', buffSize + 1);
    return(strncpy(str, buff, buffSize));

string& bufferToString(char* buffer, int bufflen, string& str)
    char temp[bufflen];

    memset(temp, '\0', bufflen + 1);
    strncpy(temp, buffer, bufflen);


int main(int argc, char *argv[])
   char buff[4] = {'a', 'b', 'c', 'd'};

   char str[5];
   string str2;

   cout << bufferToCString(buff, sizeof(buff), str) << endl;

   cout << bufferToString(buff, sizeof(buff), str2) << endl;

share|improve this question

6 Answers 6

up vote 11 down vote accepted

Given your input strings are not null terminated, you shouldn't use str... functions. You also can't use the simple std::string constructors. You can use this constructor, though:

std::string str(buffer, buflen). This takes a char * and a length.

I would avoid the C string version. This would give:

std::string bufferToString(char* buffer, int bufflen)
    std::string ret(buffer, bufflen);

    return ret;

If you really must use the C string version, either drop a 0 at the bufflen position (if you can) or create a buffer of bufflen+1, memcopy the buffer into it, and drop a 0 at the end (bufflen position).

share|improve this answer
For Newton Falls: note that std::string(Ch* p, size_type n) won't stop at null characters if there are any in the buffer; all n characters will be copied to the string. –  outis May 22 '09 at 2:37
Thanks Simon. I completely overlooked that constructor. This or David Dolson's suggestion of the range ctor seems a much better solution than what I was doing. –  Newton Falls May 22 '09 at 3:24
I completely agree about avoiding the C string version if posible. Dealing with raw cstrings will only get you into trouble these days. There are several bugs in your bufferToCString, including overwriting unknown memory by using bufsize + 1, and assuming your output buffer 'str' is bufsize+1 of the input buffer. These bugs will expose themselves in subtle ways and cause you lots of debugging pain. Just use std::string if you can. –  Nick Haddad May 22 '09 at 3:27
Great point Outis. I just tested it out with a null in the middle of the array and it printed everything up to string.length(). I would have guessed it would stop at the null. Thanks for the insight. –  Newton Falls May 22 '09 at 3:28
Thanks Nick. I noticed that too. It's my first post and I was unsure of pasting the code so I typed it by hand and made the mistake. But your point stands and I am trying to stay away from the C level as much as possible. –  Newton Falls May 22 '09 at 3:31

std::string to const char*:


char* to std::string:

  string my_str1 ("test");
  char test[] = "test";
  string my_str2 (test);

or even

  string my_str3 = "test";
share|improve this answer
The problem is that the buffer doesn't have a terminating null. –  Newton Falls May 22 '09 at 2:20
When you initialize an array of char with a constant string, it gets a terminating null. When you use string::c_str(), you also get a terminating null. I don't understand what your complaint is. –  Mark Ransom May 22 '09 at 2:27
The code in the answer is correct but is not the same as the question. "char buff[4] = {'a', 'b', 'c', 'd'};" does not give you a null terminated string. –  markh44 May 22 '09 at 8:02
If it's not zero-terminated, it's not really a string. Are you certain that std::string is the best way to represent your data in this case? –  Dan Olson May 22 '09 at 9:25

If the data buffer may have null ('\0') characters in it, you don't want to use the null-terminated operations.

You can either use the constructor that takes char*, length.

char buff[4] = {'a', 'b', 'c', 'd'};
cout << std::string(&buff[0], 4);

Or you can use the constructor that takes a range:

cout << std::string(&buff[0], &buff[4]); // end is last plus one

Do NOT use the std::string(buff) constructor with the buff[] array above, because it is not null-terminated.

share|improve this answer
Thanks David. This is nice alternative to Simon's answer. –  Newton Falls May 22 '09 at 3:33
std::string buf2str(const char* buffer)
    return std::string(buffer);

Or just

std::string mystring(buffer);
share|improve this answer
I was looking for a cleaner way to add a terminating null so that something like this would work correctly. –  Newton Falls May 22 '09 at 2:21

The method needs to know the size of the string. You have to either:

  1. in case of char* pass the length to method
  2. in case of char* pointing to null terminating array of characters you can use everything up to null character
  3. for char[] you can use templates to figure out the size of the char[]

1) example - for cases where you're passing the bufflen:

std::string bufferToString(char* buffer, int bufflen)
    return std::string(buffer, bufflen);

2) example - for cases where buffer is points to null terminated array of characters:

std::string bufferToString(char* buffer)
    return std::string(buffer);

3) example - for cases where you pass char[]:

template <typename T, size_t N>
std::string tostr(T (&array)[N])
    return std::string(array, N);

char tstr[] = "Test String";
std::string res = tostr(tstr);
std::cout << res << std::endl;

For the first 2 cases you don't actually have to create new method:

 std::string(buffer, bufflen);
share|improve this answer

Use string constructor that takes the size:

string ( const char * s, size_t n );

Content is initialized to a copy of the string formed by the first n characters in the array of characters pointed by s.

cout << std::string(buff, sizeof(buff)) << endl;

Non-null-terminated buffer to C string:

memcpy(str, buff, buffSize);
str[bufSize] = 0; // not buffSize+1, because C indexes are 0-based.
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.