I have to format std::string with sprintf and send it into file stream. How can I do this?

  • long story short use boost::format (as kennytm's solution uses here ). boost::format already supports C++ stream operators too! example: cout << format("helloworld. a=%s, b=%s, c=%s") % 123 % 123.123 % "this is a test" << endl;. boost::format has the least lines of code... is peer-reviewed and integrates nicely with C++ streams. – Trevor Boyd Smith Apr 25 at 17:07
  • @Ockonal — For the sake of the community (I couldn't care less about my rep) I suggest you change your selection. The one currently selected, in the first snippet, presents a bug waiting to happen in its use of an arbitrary max length. The second snippet completely ignores your stated desire to use vargs like sprintf. I suggest you select the ONLY answer here that is clean, safe, relies only on C++ standards, tested, and well commented. That it is mine is not relevant. It is objectively true. See stackoverflow.com/questions/2342162/…. – Douglas Daseeco Sep 21 at 21:31

34 Answers 34

All the answers so far here seems to have one or more of these problems: (1) it may not work on VC++ (2) it requires additional dependencies like boost or fmt (3) its too complicated custom implementation and probably not tested well.

Below code addresses all of above issues.

#include <string>
#include <cstdarg>
#include <memory>

std::string stringf(const char* format, ...)
    va_list args;
    va_start(args, format);
    #ifndef _MSC_VER

        //GCC generates warning for valid use of snprintf to get
        //size of result string. We suppress warning with below macro.
        #ifdef __GNUC__
        #pragma GCC diagnostic push
        #pragma GCC diagnostic ignored "-Wformat-nonliteral"

        size_t size = std::snprintf(nullptr, 0, format, args) + 1; // Extra space for '\0'

        #ifdef __GNUC__
        # pragma GCC diagnostic pop

        std::unique_ptr<char[]> buf(new char[ size ] ); 
        std::vsnprintf(buf.get(), size, format, args);
        return std::string(buf.get(), buf.get() + size - 1 ); // We don't want the '\0' inside
        int size = _vscprintf(format, args);
        std::string result(++size, 0);
        vsnprintf_s((char*)result.data(), size, _TRUNCATE, format, args);
        return result;

int main() {
    float f = 3.f;
    int i = 5;
    std::string s = "hello!";
    auto rs = stringf("i=%d, f=%f, s=%s", i, f, s.c_str());
    printf("%s", rs.c_str());
    return 0;


  1. Separate VC++ code branch is necessary because VC++ has decided to deprecate snprintf which will generate compiler warnings for other highly voted answers above. As I always run in "warnings as errors" mode, its no go for me.
  2. The function accepts char * instead of std::string. This because most of the time this function would be called with literal string which is indeed char *, not std::string. In case you do have std::string as format parameter, then just call .c_str().
  3. Name of the function is stringf instead of things like string_format to keepup with printf, scanf etc.
  4. It doesn't address safety issue (i.e. bad parameters can potentially cause seg fault instead of exception). If you need this then you are better off with boost or fmt libraries. My preference here would be fmt because it is just one header and source file to drop in the project while having less weird formatting syntax than boost. However both are non-compatible with printf format strings so below is still useful in that case.
  5. The stringf code passes through GCC strict mode compilation. This requires extra #pragma macros to suppress false positives in GCC warnings.

Above code was tested on,

Here my (simple solution):

std::string Format(const char* lpszFormat, ...)
    // Warning : "vsnprintf" crashes with an access violation
    // exception if lpszFormat is not a "const char*" (for example, const string&)

    size_t  nSize     = 1024;
    char    *lpBuffer = (char*)malloc(nSize);

    va_list lpParams;

    while (true)
        va_start(lpParams, lpszFormat);

        int nResult = vsnprintf(


        if ((nResult >= 0) && (nResult < (int)nSize) )
            // Success

            lpBuffer[nResult] = '\0';
            std::string sResult(lpBuffer);

            free (lpBuffer);

            return sResult;
            // Increase buffer

            nSize =
                  (nResult < 0)
                ? nSize *= 2
                : (nResult + 1)

            lpBuffer = (char *)realloc(lpBuffer, nSize);

For Visual C:

std::wstring stringFormat(const wchar_t* fmt, ...)
    if (!fmt) {
        return L"";

    std::vector<wchar_t> buff;
    size_t size = wcslen(fmt) * 2;
    va_list ap;
    va_start(ap, fmt);
    while (true) {
        int ret = _vsnwprintf_s(buff.data(), size, _TRUNCATE, fmt, ap);
        if (ret != -1)
        else {
            size *= 2;
    return std::wstring(buff.data());

I realize this has been answered many times, but this is more concise:

std::string format(const std::string fmt_str, ...)
    va_list ap;
    char *fp = NULL;
    va_start(ap, fmt_str);
    vasprintf(&fp, fmt_str.c_str(), ap);
    std::unique_ptr<char[]> formatted(fp);
    return std::string(formatted.get());


#include <iostream>
#include <random>

int main()
    std::random_device r;
    std::cout << format("Hello %d!\n", r());

See also http://rextester.com/NJB14150

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