Implementing a no-op std::ostream

A swift google came up with this example which may be of use. I offer no guarantees, except that it compiles and runs :-)

#include <streambuf>
#include <ostream>

template <class cT, class traits = std::char_traits<cT> >
class basic_nullbuf: public std::basic_streambuf<cT, traits> {
    typename traits::int_type overflow(typename traits::int_type c)
    {
        return traits::not_eof(c); // indicate success
    }
};

template <class cT, class traits = std::char_traits<cT> >
class basic_onullstream: public std::basic_ostream<cT, traits> {
    public:
        basic_onullstream():
        std::basic_ios<cT, traits>(&m_sbuf),
        std::basic_ostream<cT, traits>(&m_sbuf)
        {
            init(&m_sbuf);
        }

    private:
        basic_nullbuf<cT, traits> m_sbuf;
};

typedef basic_onullstream<char> onullstream;
typedef basic_onullstream<wchar_t> wonullstream;

int main() {
    onullstream os;
    os << 666;
}

all, thanks for sharing the code, I just do a test, then Neil's method will still do the string formating, for example:

#include <streambuf>
#include <ostream>
#include <iostream>
using namespace std;


template <class cT, class traits = std::char_traits<cT> >
class basic_nullbuf: public std::basic_streambuf<cT, traits> {
    typename traits::int_type overflow(typename traits::int_type c)
    {
        return traits::not_eof(c); // indicate success
    }
};

template <class cT, class traits = std::char_traits<cT> >
class basic_onullstream: public std::basic_ostream<cT, traits> {
    public:
        basic_onullstream():
        std::basic_ios<cT, traits>(&m_sbuf),
        std::basic_ostream<cT, traits>(&m_sbuf)
        {
            init(&m_sbuf);
        }

    private:
        basic_nullbuf<cT, traits> m_sbuf;
};

typedef basic_onullstream<char> onullstream;
typedef basic_onullstream<wchar_t> wonullstream;

class MyClass
{
    int a;
    friend ostream& operator<< (ostream&, MyClass const&);
};

ostream& operator<<(ostream& out,MyClass const& b)
{
    std::cout<<"call format function!!";
    out << b.a;
    return out;
}

int main() {
    onullstream os;
    MyClass obj;
    os<<obj;
}

Running this program, you will find that "ostream& operator<<(ostream& out,MyClass const& b)" will be called. So, doing format on the obj will still be called. So, we still can't avoid the overhead of formatting messages.


To prevent the operator<<() invocations from doing formatting, you should know the streamtype at compile-time. This can be done either with macros or with templates.

My template solution follows.

class NullStream {
public:
    void setFile() { /* no-op */ }
    template<typename TPrintable>
    NullStream& operator<<(TPrintable const&)
    { return *this; } /* no-op */
}

template<class TErrorStream> // add TInfoStream etc
class Logger {
public:
    TErrorStream& errorStream() {
        return m_errorStream;
    }

private:
    TErrorStream m_errorStream;
};

//usage
int main() {
    Logger<std::ofstream> normal_logger; // does real output
    normal_logger.errorStream().open("out.txt");
    normal_logger.errorStream() << "My age is " << 19;

    Logger<NullStream> null_logger; // does zero output with zero overhead
    null_logger.errorStream().open("out.txt"); // no-op
    null_logger.errorStream() << "My age is " << 19; // no-op
}

Since you have to do this at compile-time, it is of course quite inflexible.

For example, you cannot decide the logging level at runtime from a configuration file.