I've tried several things already,

std::stringstream m;

both of which don't work.

9 Answers 9


For all the standard library types the member function empty() is a query, not a command, i.e. it means "are you empty?" not "please throw away your contents".

The clear() member function is inherited from ios and is used to clear the error state of the stream, e.g. if a file stream has the error state set to eofbit (end-of-file), then calling clear() will set the error state back to goodbit (no error).

For clearing the contents of a stringstream, using:


is correct, although using:


is technically more efficient, because you avoid invoking the std::string constructor that takes const char*. But any compiler these days should be able to generate the same code in both cases - so I would just go with whatever is more readable.

  • 126
    Here is what happens when you forget the "clear()" part. stackoverflow.com/q/2848087/635549
    – galath
    Jun 17, 2012 at 19:17
  • 8
    @KshitijBanerjee I think in C++ m.str() and m.str("") are two different functions. m.str() invokes a function which didn't expect any parameter whereas m.str("") will invoke the function which accepts a const char* parameter. m.str() might have been implemented as a get function which returns the string whereas m.str("") might have been implemented as a set function. Jul 18, 2012 at 5:41
  • 4
    As galath said it is very important also to add m.clear(); in addition to m.str("");. Otherwise you can get problems if at some point you fill the stringstream with an empty string.
    – Sputnik
    Oct 20, 2015 at 16:45
  • 1
    @anthropod Yes that was last year. I have since gotten it working.
    – James
    Jun 3, 2018 at 19:08
  • 4
    Oh boy is this intuitive. Just like everything else about C++!
    – sunny moon
    Nov 29, 2019 at 15:55

You can clear the error state and empty the stringstream all in one line

std::stringstream().swap(m); // swap m with a default constructed stringstream

This effectively resets m to a default constructed state, meaning that it actually deletes the buffers allocated by the string stream and resets the error state. Here's an experimental proof:

int main ()
    std::string payload(16, 'x');
    std::stringstream *ss = new std::stringstream; // Create a memory leak
    (*ss) << payload;                              // Leak more memory
    // Now choose a way to "clear" a string stream
    //std::stringstream().swap(*ss); // Method 1
    //ss->str(std::string());        // Method 2
    std::cout << "end" << std::endl;


When the demo is compiled with address sanitizer, memory usage is revealed:

==10415==ERROR: LeakSanitizer: detected memory leaks

Direct leak of 392 byte(s) in 1 object(s) allocated from:
    #0 0x510ae8 in operator new(unsigned long) (/tmp/1637178326.0089633/a.out+0x510ae8)
    #1 0x514e80 in main (/tmp/1637178326.0089633/a.out+0x514e80)
    #2 0x7f3079ffb82f in __libc_start_main /build/glibc-Cl5G7W/glibc-2.23/csu/../csu/libc-start.c:291

Indirect leak of 513 byte(s) in 1 object(s) allocated from:
    #0 0x510ae8 in operator new(unsigned long) (/tmp/1637178326.0089633/a.out+0x510ae8)
    #1 0x7f307b03a25c in std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char> >::reserve(unsigned long) (/usr/local/lib64/libstdc++.so.6+0x13725c)
    #2 0x603000000010  (<unknown module>)

SUMMARY: AddressSanitizer: 905 byte(s) leaked in 2 allocation(s).

Pretty steep if you ask me. To hold just 16bytes of payload, we spent 905 bytes ... string streams are no toy. Memory is allocated in two parts:

  • The constructed string stream (392 bytes)
  • The extra buffer needed for the payload (513 bytes). The extraneous size has to do with the allocation strategy chosen by the stream and for payloads <= 8 bytes, blocks inside the initial object can be used.

If you enable method 1 (the one shown in this answer) the extra 513 (payload) bytes are reclaimed, because the stream is actually cleared.

If you enable method2 as suggested in the comments or other answers, you can see that all 905 bytes are in use by the time we exit.

In terms of program semantics, one may only care that the stream "appears" and "behaves" as empty, similar to how a vector::clear may leave the capacity untouched but render the vector empty to the user (of course vector would spend just 16 bytes here). Given the memory allocation that string stream requires, I can imagine this approach being often faster. This answer's primary goal is to actually clear the string stream, given that memory consumption that comes with it is no joke. Depending on your use case (number of streams, data they hold, frequency of clearing) you may choose the best approach.

Finally note that it's rarely useful to clear the stream without clearing the error state and all inherited state. The one liner in this answer does both.

  • 4
    This is the most efficient and most elegant way to do it compared to all other answers here. However, std::stringstream::swap is a c++11 feature and this solution doesn't work for prior c++11 compilers.
    – 101010
    Nov 3, 2014 at 9:48
  • 5
    Feature still missing in GNU g++ v4.8, see stackoverflow.com/questions/24429441/…
    – Joachim W
    Nov 11, 2014 at 16:11
  • 9
    @101010: How is swapping better than move-assignment? Dec 2, 2015 at 19:27
  • 3
    @AsetD: Even if it is noexcept, did you forget the default-constructed temporary? Jun 30, 2017 at 14:00
  • 5
    This is low effecient. When I want to re use original ss. It swaps an empty for me.
    – Zhang
    Dec 11, 2018 at 5:23

This should be the most reliable way regardless of the compiler:

  • 2
    This is better in my opinion because m.str(""); caused my stringstream to be stuck with that empty value whatever I tried. But using this I don't have that problem
    – gelatine1
    May 25, 2014 at 6:59
  • 3
    I ran into the same problem, for me mm.clear(); mm.str(""); did the trick. (no C++11, else swap would be better).
    – hochl
    Aug 27, 2015 at 11:42
  • 1
    @hochl: Why would swap be better than move-assignment? Dec 2, 2015 at 19:26
  • 4
    It's not good for all situation. This would re-allocate the buffer every time while mm.str("") would not. Dec 24, 2016 at 1:29
  • 3
    My primary use-case for flushing a stringstream object is keeping a threadlocal stringstream object around to prevent unecessary instantiation of the stringstream -- instantiating a new stringstream object copies the global locale object -- theoretically this is quick and only involved incrementing an atomic, but at the level of concurrency I deal with it's often crippling.
    – Spacemoose
    Nov 17, 2017 at 13:39

seems to work.

  • 3
    That would be cleared by .clear() which is specified in the OP.
    – Dave Lugg
    May 13, 2014 at 19:56

I am always scoping it:

    std::stringstream ss;
    ss << "what";

    std::stringstream ss;
    ss << "the";

    std::stringstream ss;
    ss << "heck";
  • 1
    Is this better than clearing the stringstream?
    – Robur_131
    May 25, 2020 at 10:06

my 2 cents:

this seemed to work for me in xcode and dev-c++, I had a program in the form of a menu that if executed iteratively as per the request of a user will fill up a stringstream variable which would work ok the first time the code would run but would not clear the stringstream the next time the user will run the same code. but the two lines of code below finally cleared up the stringstream variable everytime before filling up the string variable. (2 hours of trial and error and google searches), btw, using each line on their own would not do the trick.

//clear the stringstream variable


//fill up the streamstream variable
sstm << "crap" << "morecrap";

There are many other answers that "work", but they often do unnecessary copies or reallocate memory.

  1. Swapping streams means that you need to discard one of them, wasting the memory allocation. Same goes for assigning a default-constructed stream,

  2. Assigning to the string in the string buffer (via stringstream::str or stringbuf::str) may lose the buffer already allocated by the string.

The canonical way to clear the string stream would be:

void clear(std::stringstream &stream)
   if (stream.rdbuf()) stream.rdbuf()->pubseekpos(0);

The canonical way to get the size of the data in the stream's buffer is:

std::size_t availSize() (const std::stringstream& stream)
   if (stream.rdbuf())
      return std::size_t(
         stream.rdbuf()->pubseekoff(0, std::ios_base::cur, std::ios_base::out));
      return 0;

The canonical way to copy the data from the stream to some other preallocated buffer and then clear it would then be:

std::size_t readAndClear(std::stringstream &stream, void* outBuf, std::size_t outSize)
   auto const copySize = std::min(availSize(stream), outSize);
   if (!copySize) return 0; // takes care of null stream.rdbuf()

   stream.rdbuf()->sgetn(outBuf, copySize);
   stream.rdbuf()->pubseekpos(0); // clear the buffer

   return copySize;

I intend this to be a canonical answer. Language lawyers, feel free to pitch in.


It's a conceptual problem.

Stringstream is a stream, so its iterators are forward, cannot return. In an output stringstream, you need a flush() to reinitialize it, as in any other output stream.


These do not discard the data in the stringstream in gnu c++

    m.str() = "";

The following does empty the stringstream for me:

  • 7
    I'm not so sure this would work, because of the same reasons bernhardrusch's wouldn't work. The .str() function returns a copy, and clearing the copy wouldn't do anything.
    – Verdagon
    Mar 29, 2013 at 21:22
  • 1
    This solution does NOT work for Microsoft Visual C++.
    – Zak
    Feb 21, 2014 at 18:15
  • Incorrect. Clear would be operating on the string returned from the stream, not the stream itself. Apr 30, 2016 at 15:47

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