How do I lock my thread so that my output isn't something like this: hello...hello...hheelhllelolo.l..o......

std::size_t const nthreads=5;
std::vector<std::thread> my_threads(nthreads);

for(unsigned i=0;i<nthreads;i++)
    my_threads[i] = std::thread ([] () {std::cout << "hello...";}); 
  • Really? I'm so surprised that cout has a per-character lock and so a literal string output can be so interrupted. That must make cout really slow. Sep 26, 2012 at 16:13
  • @MartinJames: AFAIK it's just pure UB, that output is perfectly valid UB. And in practice, you do get a pseudo-lock-ish behavior (still UB) around integers by the nature of CPUs. (I'd also be surprised if the new standard required locking of some sort on global streams, but haven't looked).
    – GManNickG
    Sep 26, 2012 at 16:42
  • 1
    @AndrewTomazos-Fathomling Undefined Behaviour - which means that anything can happen (e.g.: Your computer might start to burn or your printer suddenly starts to print pizzas) Sep 26, 2012 at 17:24
  • Oh, yeah I know what undefined behaviour is - never seen it as acronym. Sep 26, 2012 at 17:47
  • 2
    @GManNickG : It's not UB if std::cout.sync_with_stdio() returns true – see §27.4.1/4.
    – ildjarn
    Sep 26, 2012 at 19:03

2 Answers 2


The standard says:

Concurrent access to a synchronized ( standard iostream object’s formatted and unformatted input ( and output ( functions or a standard C stream by multiple threads shall not result in a data race (1.10). [Note: Users must still synchronize concurrent use of these objects and streams by multiple threads if they wish to avoid interleaved characters. — end note]
                                                                                        — [iostream.objects.overview] 27.4.1 p4

Notice that the requirement not to produce a data race applies only to the standard iostream objects (cout, cin, cerr, clog, wcout, wcin, wcerr, and wclog) and only when they are synchronized (which they are by default and which can be disabled using the sync_with_stdio member function).

Unfortunately I've noticed two phenomena; implementations either provide stricter guarantees than required (e.g., thread synchronization for all stream objects no matter what, giving poor performance) or fewer (e.g., standard stream objects that are sync_with_stdio produce data races). MSVC seems to lean toward the former while libc++ leans toward the latter.

Anyway, as the note indicates, you have to provide mutual exclusion yourself if you want to avoid interleaved characters. Here's one way to do it:

std::mutex m;

struct lockostream {
    std::lock_guard<std::mutex> l;
    lockostream() : l(m) {}

std::ostream &operator<<(std::ostream &os, lockostream const &l) {
    return os;

std::cout << lockostream() << "Hello, World!\n";

This way a lock guard is created and lives for the duration of the expression using std::cout. You can templatized the lockostream object to work for any basic_*stream, and even on the address of the stream so that you have a seperate mutex for each one.

Of course the standard stream objects are global variables, so you might want to avoid them the same way all global variables should be avoided. They're handy for learning C++ and toy programs, but you might want to arrange something better for real programs.


You have to use the normal locking techniques as you would do with any other resource otherwise you are experiencing UB.

std::mutex m;
std::lock_guard<std::mutex> lock(m);
std::cout << "hello hello";

or alternativly you can use printf which is threadsafe(on posix):

printf("hello hello");

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