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Suppose I have a code like this:

void printHex(std::ostream& x){
int main(){
    std::cout<<100; // prints 100 base 10
    printHex(std::cout); //prints 123 in hex
    std::cout<<73; //problem! prints 73 in hex..

My question is if there is any way to 'restore' the state of cout to its original one after returning from the function? (Somewhat like std::boolalpha and std::noboolalpha..) ?

Thanks, Iyer

share|improve this question
I believe hex only lasts for the next shift out operation. The change is only persistent if you change the format flags manually instead of using manipulators. – Billy ONeal Feb 16 '10 at 15:39
@BillyONeal: No, using manipulators has the same effect as changing the format flags manually. :-P – Chris Jester-Young Feb 16 '10 at 15:55
If you are here due to a Covertiy finding Not restoring ostream format (STREAM_FORMAT_STATE), then see Coverity finding: Not restoring ostream format (STREAM_FORMAT_STATE). – jww Jan 25 at 21:11
up vote 38 down vote accepted

Googling gave me this:

  ios::fmtflags f( cout.flags() );

  //Your code here...

  cout.flags( f );

You'd probably want to put that at the head and end of your function.

share|improve this answer
Yuck, whoever wrote that doesn't know C++ style, which is that one should aim to initialise variables straight away---ios::fmtflags f(cout.flags())---instead of the two-step "initialisation" as shown above. – Chris Jester-Young Feb 16 '10 at 13:59
I'm criticising whoever wrote it, not you. :-D – Chris Jester-Young Feb 16 '10 at 14:12
Googling gave me this – joctee Sep 14 '13 at 17:54
@ChrisJester-Young, actually good C++ is RAII, especially in a case like this one! – Alexis Wilke Feb 16 '15 at 2:45
@Alexis I 100% agree. See my answer (Boost IO Stream State Saver). :-) – Chris Jester-Young Feb 16 '15 at 5:48

The Boost IO Stream State Saver seems exactly what you need. :-)

Example based on your code snippet:

void printHex(std::ostream& x) {
    boost::io::ios_flags_saver ifs(x);
    x << std::hex << 123;
share|improve this answer
Note that there's no magic here, that ios_flags_saver basically just saves and sets the flags like in @StefanKendall's answer. – einpoklum Feb 28 at 13:10
@einpoklum But it is exception-safe, unlike the other answer. ;-) – Chris Jester-Young Feb 28 at 14:46
Yes, that's right, and that's important. – einpoklum Feb 28 at 14:52

Note that the answers presented here won't restore the full state of std::cout. For example, std::setfill will "stick" even after calling .flags(). A better solution is to use .copyfmt:

std::ios oldState(nullptr);

    << std::hex
    << std::setw(8)
    << std::setfill('0')
    << 0xDECEA5ED
    << std::endl;


    << std::setw(15)
    << std::left
    << "case closed"
    << std::endl;

Will print:

case closed

rather than:

case closed0000
share|improve this answer
Although my original question has been answered a few years back, this answer is a great addition. :-) – Thrustmaster Jun 22 '15 at 7:49

With a little bit of modification to make the output more readable :

 void printHex(std::ostream& x){
     ios::fmtflags f(x.flags());

 int main(){
      std::cout<<100<<"\n"; // prints 100 base 10
      printHex(std::cout); //prints 123 in hex
      std::cout<<73<<"\n"; //problem! prints 73 in hex..
share|improve this answer
Using (void) for nullary functions is not usual C++ style; unlike C, in C++ () is always nullary. But yes, I acknowledge a strict reading of the C++ standard does require writing int main(void) and that int main() is non-conforming. Oh well. :-P – Chris Jester-Young Feb 16 '10 at 14:13
@Chris Jester-Young : Thanks :) – whacko__Cracko Feb 16 '10 at 14:14
@ChrisJester-Young: I've just checked the 1998, 2003, and 2011 editions of the ISO C standard. All specify int main(), with no void keyword, as one of the permitted forms. – Keith Thompson Nov 4 '13 at 16:25
@Keith Thank goodness! (I'll keep the other comment for reference, but thanks for the correction.) – Chris Jester-Young Nov 4 '13 at 16:30

I've created an RAII class using the example code from this answer. The big advantage to this technique comes if you have multiple return paths from a function that sets flags on an iostream. Whichever return path is used, the destructor will always be called and the flags will always get reset. There is no chance of forgetting to restore the flags when the function returns.

class IosFlagSaver {
    explicit IosFlagSaver(std::ostream& _ios):
        f(_ios.flags()) {
    ~IosFlagSaver() {

    IosFlagSaver(const IosFlagSaver &rhs) = delete;
    IosFlagSaver& operator= (const IosFlagSaver& rhs) = delete;

    std::ostream& ios;
    std::ios::fmtflags f;

You would then use it by creating a local instance of IosFlagSaver whenever you wanted to save the current flag state. When this instance goes out of scope, the flag state will be restored.

void f(int i) {
    IosFlagSaver iosfs(std::cout);

    std::cout << i << " " << std::hex << i << " ";
    if (i < 100) {
        std::cout << std::endl;
    std::cout << std::oct << i << std::endl;
share|improve this answer
Excellent, if someone throws, you still got the correct flags in your stream. – Alexis Wilke Feb 16 '15 at 4:32

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