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I want to overload (hijack?) ostream and basic_ostream<unsigned char> so that it stops attempting to display an octet (unsigned char) as a printable character.

I've been living with cout and friends putting smiley faces on the screen for far too long. And I'm tired of working around with casts: hex << int(0xFF & b) << ....

Is it possible to override the standard behavior? I've tried both template and non-template overrides. They compile, but do not appear to be called.

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6 Answers 6

up vote 5 down vote accepted

The problem is that there already is a

template<class charT, class traits>
operator<<(std::basic_ostream<charT,traits>&, charT);

in namespace std. Since basic_ostream<> is also in this namespace, ADL picks it up when you output an unsigned char. Adding your own overload might make calling the operator ambiguous, or your overload will silently be ignored.

But even if it would work, it would be brittle, because forgetting one include might subtly alter the meaning of the code without any diagnostic from the compiler.
And there's more: Every maintenance programmer looking at such code will assume the standard operator is called (and never think of adding an include when he adds another output statement to the code).
In short, it might be best to add a function doing what you want to do.

A reasonable semantic alternative to that might be to add a stream manipulator that invokes the output format you want. I'm not sure if that's technically possible, though.

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@sbi: in spite of your explanation of how it should not work, overloading works nicely with MSVC, and compiles with Comeau Online, so I just posted it as answer. Cheers, –  Cheers and hth. - Alf Aug 15 '11 at 14:26
@Alf: Nobody doubted that it compiles, the question is which one it calls. And I wouldn't trust VC with that. I could be wrong, though, and VC could be right. –  sbi Aug 15 '11 at 14:29
I took the time to post a complete answer. I started when Als was the only answer to the question, so I can't say I saw the last sentence of this answer (adding a manipulator) before I wrote my answer. Took a good deal of hunting to remember the right way to do it, too. I've written a lot of answers with zero or one vote in the past like this, where I posted after most of the SO community has moved on to other questions. It's just how things are. –  Mike DeSimone Aug 15 '11 at 14:33
@sbi: also works nicely with g++ 4.4.1. so, methinks you're wrong about this. of course, i wouldn't have posted it if i wasn't fairly sure, but this way i can get Someone Else to do the heavy work of looking up the relevant clauses in the standard... <g> –  Cheers and hth. - Alf Aug 15 '11 at 14:34
BTW, @sbi, when I comment on something, and the answerer edits the answer in response, I don't get anything in my StackExchange "inbox", so I might not know that a "please correct this" comment needs to be removed. It's a design flaw in the inbox, with no simple solution, IMHO. –  Mike DeSimone Aug 15 '11 at 14:36

Luc is correct.

A quicker alternative to your current approach — if you don't mind decimal output — is to promote the char to int:

unsigned char c = '!';
os << +c;

I don't see how this would be taxing!

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Could explain how this is parsed ? It does not seem obvious that it even compiles (even though it does: ideone.com/TzV3N). –  Matthieu M. Aug 15 '11 at 14:24
@Matthieu Can you parse int i = -j;? What about int i = +j;? (That's a unary operator+.) –  Luc Danton Aug 15 '11 at 14:25
@Matthieu: Why would it not? That's unary +, and an integral promotion is performed. You may read all about it in [2003: 5.3.1/6]. –  Lightness Races in Orbit Aug 15 '11 at 14:28
@Luc: I know, however I am still convinced that it is far from being obvious. Since the + is redundant, it is rarely (if ever) used apart from DSLs. –  Matthieu M. Aug 15 '11 at 14:29
@Tomalak: why not simply use int(c) ? It is, indeed, 4 more characters, but not having the reader digging into integral promotion rules to understand the code make it so much more accessible! –  Matthieu M. Aug 16 '11 at 7:09

Als is right that what you're asking for isn't going to happen.

The best you can do is to write your own IO manipulator (iomanip) to do the magic for you. In this case, you need a function that takes an unsigned char (though I'd strongly recommend using uint8_t from <stdint.h>).

#include <stdint.h>
#include <ostream>

class asHex
    asHex(uint8_t theByte): value(theByte) {}
    void operator()(std::ostream &out) const 
        { std::ios::fmtflags oldFlags = out.flags; out << std::hex 
              << std::setw(2) << std::setfill('0') << std::uppercase << theByte; 
          out.flags(oldFlags); }
    uint8_t theByte;

std::ostream& operator<<(std::ostream &out, asHex number)
    number(out); return out;

Then you can write:

cout << asHex(myByte);

You can add constructors to asHex or even make it a template class to support 16, 32, and other bit counts.

(Yes, I know <stdint.h> is not an official C++ header, but I'd rather have its definitions in the global namespace instead of std:: without having to do a using namespace std; which dumps everything in the global namespace.)

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If you do that, you don't need the whole manipulator machinery, messing around with the original stream. Just make a function std::string asHex(unsigned char) and be done. Much easier. –  sbi Aug 15 '11 at 14:31
That turns into a question of "Which is better, creating a temporary std::string or a temporary object which does not touch the heap?" which I can't answer without usage context. I still prefer the class-based approach in my answer since it doesn't involve heap allocation and has a better chance of getting optimized by the compiler. –  Mike DeSimone Aug 15 '11 at 14:41
We're talking output here, usually to a terminal or into a file. I doubt that the allocation of a std::string is relevant for the common use case of this. Anyhow, if it is, just return a struct foo { char[2] string; }; instead and overload << for it. That doesn't change what I wrote a bit. Your method, OTOH, has the disadvantage that it manipulates the mode of the stream. I can never remember which of these manipulators are permanent, but I believe at least some of them are. That's bad, because users of your manipulator need to remember to reset stream modes they didn't set themselves. –  sbi Aug 15 '11 at 21:32
So the oldFlags = out.flags; ... out.flags(oldFlags); doesn't sufficiently save and restore stream state? Didn't know that. That's been one of my pet peeves with iostream: it's really hard to modularize output and not botch things up. I still think formatting and I/O should have been split from each other: one set of APIs to make a formatted std::string and another to send that string somewhere. Like Python's str.format(). –  Mike DeSimone Aug 16 '11 at 0:02
To my utmost embarrassment I simply overlooked that part of your code. OTOH, I really don't know whether this is sufficient. It might well be, or it might not, and absent of J. Kanze, D. Kühl, or a thorough study of Langer/Kreft, I don't know whom to trust in their opinion on the matter. (Who really knows about pword/iword stuff?) I also think the iostreams lib isn't as good as a language's single, general input/output library ought to be, and the missing ability to safe a stream's whole state is but one problem. –  sbi Aug 16 '11 at 8:38
#include <iostream>
#include <string>       // std::char_traits

typedef unsigned char       UChar;
typedef UChar               Byte;

typedef std::char_traits<char>      CharTraits;
typedef std::char_traits<wchar_t>   WCharTraits;

typedef std::basic_ostream< char, CharTraits >      CharOStream;
typedef std::basic_ostream< wchar_t, WCharTraits >  WCharOStream;

CharOStream& operator<<( CharOStream& stream, UChar v )
    return stream << v+0;

int main()
    char const      c   = 'c';
    UChar const     u   = 'u';

    std::cout << c << '\n' << u << std::endl;

This works nicely with MSVC 10.0 and MinGW g++ 4.4.1, and it compiles cleanly with Comeau Online, so I believe it's formally OK.

Cheers & hth.,

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Why do you drag std::char_traits in there, @Alf? Wouldn't std::basic_ostream<char> work just as well? –  sbi Aug 16 '11 at 12:23
Also, while this might work syntactically, it does have the semantic disadvantages I mentioned in my answer. –  sbi Aug 16 '11 at 12:23

Due to ADL the standard operator<< will be called. Try to explicitly qualify your call:

::operator<<(os, 42);
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How does that solve OP's problem? –  Jan Hudec Aug 15 '11 at 14:10
@Jan Now he can call his operator. –  Luc Danton Aug 15 '11 at 14:12
Lol, yes. It's a solution. Of course, it's not a very good one, but it is one. –  Lightness Races in Orbit Aug 15 '11 at 14:21

You cannot override the behavior of std::cout directly. It would be too error-prone if any dev code can change the behavior of the standard library used by other code.

You can create your own class that emulates the behavior of std::cout and use that object instead.

class SpecialCout
    template <typename T>
    friend SpecialCout& operator<< ( SpecialCout const& scout, T const &t )
        // Do any adjustments to t here, or decide to return early.

        std::cout << t;
        return *this;


extern SpecialCout scout;
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Why restrict yourself to std::cout? –  Lightness Races in Orbit Aug 15 '11 at 14:09

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