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..) ?


  • 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
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    @BillyONeal: No, using manipulators has the same effect as changing the format flags manually. :-P – Chris Jester-Young Feb 16 '10 at 15:55
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    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 '16 at 21:11
  • I did something similar - see my question on Code Review: Use a standard stream, and restore its settings afterwards. – Toby Speight Aug 29 '18 at 14:50
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    This question is a perfect example of why iostream is not better than stdio. Just found two nasty bugs because of not-/semi-/fully-/what-not persistent iomanip. – fuujuhi Dec 16 '19 at 9:02

you need to #include <iostream> or #include <ios> then when required:

std::ios_base::fmtflags f( cout.flags() );

//Your code here...

cout.flags( f );

You can put these at the beginning and end of your function, or check out this answer on how to use this with RAII.

  • 14
    Googling gave me this – joctee Sep 14 '13 at 17:54
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    @ChrisJester-Young, actually good C++ is RAII, especially in a case like this one! – Alexis Wilke Feb 16 '15 at 2:45
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    @Alexis I 100% agree. See my answer (Boost IO Stream State Saver). :-) – Chris Jester-Young Feb 16 '15 at 5:48
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    THis is not exception-safe. – einpoklum Feb 28 '16 at 13:29
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    You can avoid the problem by not pushing formats onto streams. Push the format and data into a temporary stringstream variable, then print – Mark Sherred Feb 2 '18 at 2:47

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;
  • 1
    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 '16 at 13:10
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    @einpoklum But it is exception-safe, unlike the other answer. ;-) – Chris Jester-Young Feb 28 '16 at 14:46
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    There's more to the stream state besides the flags. – jww Mar 18 '17 at 11:58
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    @jww The IO Stream State Saver library has multiple classes, for saving different parts of the stream state, of which ios_flags_saver is just one. – Chris Jester-Young Mar 19 '17 at 4:58
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    If you think it's worth reimplementing and maintaining every little thing by yourself, instead of using a reviewed, well tested library ... – jupp0r Feb 5 '18 at 21:29

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
  • Although my original question has been answered a few years back, this answer is a great addition. :-) – UltraInstinct Jun 22 '15 at 7:49
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    @UltraInstinct It appears to be a better solution, in which case, you can and probably should make it the accepted answer instead. – underscore_d Sep 29 '18 at 23:30
  • This for some reasons throws exception if exceptions are enabled for the stream. coliru.stacked-crooked.com/a/2a4ce6f5d3d8925b – anton_rh Dec 29 '18 at 13:10
  • It seems that std::ios is always in bad state because it has NULL rdbuf. So setting a state with exceptions enabled causes exception throwing because of bad state. Solutions: 1) Use some class (for example std::stringstream) with rdbuf set instead of std::ios. 2) Save exceptions state separately to local variable and disable them before state.copyfmt, then restore exception from the variable (and do this again after restoring state from oldState which has exceptions disabled). 3) Set rdbuf to std::ios like this: struct : std::streambuf {} sbuf; std::ios oldState(&sbuf); – anton_rh Jan 9 '19 at 10:35

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;
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    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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    There's more to the stream state besides the flags. – jww Mar 18 '17 at 11:59
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    I really wish C++ allowed try/finally. This is an excellent example where RAII works, but finally would have been simpler. – Trade-Ideas Philip Apr 18 '17 at 17:28
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    If your project is at least a bit sane, you have Boost and that comes with state savers for this purpose. – Jan Hudec Jun 13 '19 at 8:23

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

void printHex(std::ostream& x) {
   ios::fmtflags f(x.flags());
   x << std::hex << 123 << "\n";

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..

You can create another wrapper around the stdout buffer:

#include <iostream>
#include <iomanip>
int main() {
    int x = 76;
    std::ostream hexcout (std::cout.rdbuf());
    hexcout << std::hex;
    std::cout << x << "\n"; // still "76"
    hexcout << x << "\n";   // "4c"

In a function:

void print(std::ostream& os) {
    std::ostream copy (os.rdbuf());
    copy << std::hex;
    copy << 123;

Of course if performance is an issue this is a bit more expensive because it's copying the entire ios object (but not the buffer) including some stuff that you're paying for but unlikely to use such as the locale.

Otherwise I feel like if you're going to use .flags() it's better to be consistent and use .setf() as well rather than the << syntax (pure question of style).

void print(std::ostream& os) {
    std::ios::fmtflags os_flags (os.flags());
    os << 123;

As others have said you can put the above (and .precision() and .fill(), but typically not the locale and words-related stuff that is usually not going to be modified and is heavier) in a class for convenience and to make it exception-safe; the constructor should accept std::ios&.

  • Good point[+], but it of course remembers to using std::stringstream for the formatting part as Mark Sherred pointed out. – Wolf Sep 17 '19 at 9:45
  • @Wolf I'm not sure I get your point. An std::stringstream is an std:ostream, except using one introduces an extra intermediate buffer. – n.caillou Sep 17 '19 at 16:51
  • Of course both are valid approaches to formatting output, both introduce a stream object, the one you describe is new to me. I've to think about pros and cons now. However, an inspiring question with enlightening answers ... (I mean the stream copy variant) – Wolf Sep 18 '19 at 7:48
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    You can't copy a stream, because copying buffers often doesn't make sense (e.g. stdout). However, you can have several stream objects for the same buffer, which is what this answer proposes to do. Whereas an std:stringstream will create its own independent std:stringbuf (an std::streambuf derivate), which then needs to be poured into std::cout.rdbuf() – n.caillou Sep 20 '19 at 17:02
  • Thanks for the clarification. – Wolf Sep 22 '19 at 17:13

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