38

My current implementation, simplified:

#include <string>
#include <memory>

class Log
{
  public:
    ~Log() {
      // closing file-descriptors, etc...
    }
    static void LogMsg( const std::string& msg )
    {
      static std::unique_ptr<Log> g_singleton;
      if ( !g_singleton.get() )
        g_singleton.reset( new Log );
      g_singleton->logMsg( msg );
    }
  private:
    Log() { }
    void logMsg( const std::string& msg ) {
      // do work
    }
};

In general, I am satisfied with this implementation because:

  • lazy instantiation means I don't pay unless I use it
  • use of unique_ptr means automatic cleanup so valgrind is happy
  • relatively simple, easy-to-understand implementation

However, the negatives are:

  • singletons aren't conducive to unit-testing
  • dissonance in the back of my mind for introducing a pseudo-global (a bit of a code smell)

So here are my questions directed towards those developers who are successful in exorcising all singletons from their C++ code:

  • What kind of non-Singleton implementation do you use for application-wide logging?
  • Is the interface as simple and accessible as a Log::LogMsg() call above?

I want to avoid passing a Log instance all over my code, if at all possible - note: I am asking because, I, too, want to exorcise all Singletons from my code if there is a good, reasonable alternative.

  • 7
    You just need a regular global, not a singleton. – GManNickG Dec 1 '11 at 6:37
  • 8
    +1 for trying to avoid a singleton. – sbi Dec 1 '11 at 7:05
  • 5
    @JeremyFriesner: why you would you want to log everything through the same object ? Why cannot you have different objects depending on the kind of the log, the formatting requirements, the destination (rotated file, UDP stream, console, ...) ? Granted, logging is usually implemented with globals because it is simpler, it does not make it necessary or efficient though. – Matthieu M. Dec 1 '11 at 7:40
  • 13
    @JeremyFriesner: no, I'm sorry to hear that you have been brainwashed so by the design patterns mafia, but the purpose of a singleton is not to "make something available to all of your code". That is what a global is for. – jalf Dec 1 '11 at 8:11
  • 4
    @jalf +1 for design patterns mafia. I lol'd – Gunther Piez Oct 11 '12 at 10:05
41

First: the use of std::unique_ptr is unnecessary:

void Log::LogMsg(std::string const& s) {
  static Log L;
  L.log(s);
}

Produces exactly the same lazy initialization and cleanup semantics without introducing all the syntax noise (and redundant test).

Now that is out of the way...

Your class is extremely simple. You might want to build a slightly more complicated version, typical requirements for log messages are:

  • timestamp
  • level
  • file
  • line
  • function
  • process name / thread id (if relevant)

on top of the message itself.

As such, it is perfectly conceivable to have several objects with different parameters:

// LogSink is a backend consuming preformatted messages
// there can be several different instances depending on where
// to send the data
class Logger {
public:
  Logger(Level l, LogSink& ls);

  void operator()(std::string const& message,
                  char const* function,
                  char const* file,
                  int line);

private:
  Level _level;
  LogSink& _sink;
};

And you usually wrap the access inside a macro for convenience:

#define LOG(Logger_, Message_)                  \
  Logger_(                                      \
    static_cast<std::ostringstream&>(           \
      std::ostringstream().flush() << Message_  \
    ).str(),                                    \
    __FUNCTION__,                               \
    __FILE__,                                   \
    __LINE__                                    \
  );

Now, we can create a simple verbose logger:

Logger& Debug() {
  static Logger logger(Level::Debug, Console);
  return logger;
}

#ifdef NDEBUG
#  define LOG_DEBUG(_) do {} while(0)
#else
#  define LOG_DEBUG(Message_) LOG(Debug(), Message_)
#endif

And use it conveniently:

int foo(int a, int b) {
  int result = a + b;

  LOG_DEBUG("a = " << a << ", b = " << b << " --> result = " << result)
  return result;
}

The purpose of this rant ? Not all that is a global need be unique. The uniqueness of Singletons is generally useless.

Note: if the bit of magic involving std::ostringstream scares you, this is normal, see this question

  • 1
    +1 for noticing that a unique_ptr<> is not needed here. The chunk in the OP was transcribed from my real code where the actual logger could be a subclass of Logger: in that case, having an unique_ptr<> is useful for cleanup. – kfmfe04 Dec 1 '11 at 8:09
  • @kfmfe04: indeed, if you need polymorphism, you could need a pointer... – Matthieu M. Dec 1 '11 at 8:13
  • @kfmfe04 the static variable used here is destructed as well at the end of the program. – David Feurle Dec 1 '11 at 8:14
  • 3
    @MatthieuM.: Just picking at silly stuff now, but I would think it's more common to leave the semicolon out of the macro, so the use of the LOG_DEBUG macro looks like a statement in client code (and not inferred to be). – GManNickG Dec 1 '11 at 9:03
  • 1
    @JavaRunner: Level would be an enum such as enum class Level: uint8_t { Fatal, Critical, Error, Warning, Notification, Information, Debug } and the LogSink would be some kind of interface with a write method. – Matthieu M. Apr 12 '16 at 6:08
12

I'd go with the simple, pragmatic solution:

you want a solution that is globally accessible. For the most part, I try to avoid globals, but for loggers, let's face it, it's usually impractical.

So, we do need something to be globally accessible.

But, we don't want the additional "there can be only one" restriction that a singleton confers. Some of your unit tests might want to instantiate their own private logger. Others might want to replace the global logger, perhaps.

So make it a global. A plain old simple global variable.

This still doesn't fully solve the problem with unit testing, admittedly, but we can't always have everything we want. ;)

As pointed out in the comment, you need to consider the initialization order for globals, which, in C++, is partly undefined.

In my code, that is generally not a problem, because I rarely have more than one global (my logger), and I stick rigidly to a rule of never allowing globals to depend on each others.

But it's something you have to consider, at least.

  • 1
    I would still recommend a local static even for a global variable. Initialization Order Fiasco and all... after all loggers can be used during the globals instantiation. – Matthieu M. Dec 1 '11 at 8:18
  • @MatthieuM. true enough. Appended a note to my answer dealing with that bit. – jalf Dec 1 '11 at 8:30
11

I really like the following interface since it uses streaming. Of course you can add channels, time and thread information to it. Another possible extension is to use the __FILE__ and __LINE__ macros and add it as parameters to the constructor. You could even add a variadic template function if you do not like the stream syntax. If you want to store some configuration you could add them to some static variables.

#include <iostream>
#include <sstream>

class LogLine {
public:
    LogLine(std::ostream& out = std::cout) : m_Out(out) {}
    ~LogLine() {
        m_Stream << "\n";
        m_Out << m_Stream.rdbuf();
        m_Out.flush();
    }
    template <class T>
    LogLine& operator<<(const T& thing) { m_Stream << thing; return *this; }
private:
    std::stringstream m_Stream;
    std::ostream& m_Out;
    //static LogFilter...
};

int main(int argc, char *argv[])
{
    LogLine() << "LogLine " << 4 << " the win....";
    return 0;
}
  • +1 for nice use of template function in conjunction with streaming – kfmfe04 Dec 1 '11 at 7:33
  • 2
    If you want to use __FILE__ and __LINE__ you need to use macros, or pass them explicitly. Putting that in the constructor definition will always give you the file and line where the constructor is. Also beware that the output in this example is not thread-safe: another thread could push their output before this one pushes std::endl, and you'd end up with two merged lines. But +1 anyway for making use of the destructor for the output. That's a neat technique. – R. Martinho Fernandes Dec 1 '11 at 7:37
  • Thats what I tried to say with add the macros to the constructor. We use it like this: LogLine(LOG_DEBUG) - while LOG_DEBUG is a macro that evaluates to FILE LINE and the log channel. – David Feurle Dec 1 '11 at 7:45
  • @R.MartinhoFernandes: The output could be made thread safe by first putting \n in m_Stream and then pushing the stream into std::cout. My only gripes with the stringstream solutions (that I use on pet projects for their convenience) is the double punition you take: it would be so much better if str could return by reference and not by copy :( – Matthieu M. Dec 1 '11 at 8:00
  • @MatthieuM. thanks for pointing the copy issue out. I changed the example to use rdbuf - should avoid the copy. – David Feurle Dec 1 '11 at 8:06
0
// file ILoggerImpl.h 

struct ILoggerImpl
{
    virtual ~ILoggerImpl() {}
    virtual void Info(std::string s) = 0;
    virtual void Warning(std::string s) = 0;
    virtual void Error(std::string s) = 0;
};


// file logger.h //
#include "ILoggerImpl.h"

class CLogger: public ILoggerImpl
{
public:
    CLogger():log(NULL) {  }

    //interface
    void Info(std::string s)  {if (NULL==log) return; log->Info(s); }
    void Warning(std::string s) {if (NULL==log) return; log->Warning(s); }
    void Error(std::string s) {if (NULL==log) return; log->Error(s); }


    //
    void BindImplementation(ILoggerImpl &ilog) { log = &ilog; }
    void UnbindImplementation(){ log = NULL; }


private:
    ILoggerImpl *log;
};


// file: loggers.h //

#include "logger.h"
extern CLogger Log1;
extern CLogger Log2;
extern CLogger Log3;
extern CLogger Log4;
extern CLogger LogB;



/// file: A.h //
#include "loggers.h"  

class A
{

public:
    void foo()
    {
        Log1.Info("asdhoj");
        Log2.Info("asdhoj");
        Log3.Info("asdhoj");

    }
private:

};


/// file: B.h //
#include "loggers.h"

class B
{

public:
    void bar()
    {
        Log1.Info("asdhoj");
        Log2.Info("asdhoj");
        LogB.Info("asdhoj");
        a.foo();
    }



private:

    A a;
};



////// file: main.cpp  ////////////////


#include "loggers.h"
#include "A.h"
#include "B.h"
#include "fileloger.h"
#include "xmllogger.h"

CLogger Log1;
CLogger Log2;
CLogger Log3;
CLogger Log4;
CLogger LogB;

// client code

int main()
{
    std::unique_ptr<ILoggerImpl> filelog1(new CFileLogger("C:\\log1.txt"));
    Log1.BindImplementation(*filelog1.get());

    std::unique_ptr<ILoggerImpl> xmllogger2(new CXmlLogger("C:\\log2.xml"));
    Log2.BindImplementation(*xmllogger2.get());

    std::unique_ptr<ILoggerImpl> xmllogger3(new CXmlLogger("C:\\logB.xml"));
    LogB.BindImplementation(*xmllogger3.get());


    B b;
    b.bar();



    return 0;
};



// testing code
///////file: test.cpp /////////////////////////////////

#include "loggers.h"
CLogger Log1;
CLogger Log2;
CLogger Log3;
CLogger Log4;

int main()
{
    run_all_tests();
}



///////file: test_a.cpp /////////////////////////////////

#include "A.h"

TEST(test1)
{
    A a;
}

TEST(test2, A_logs_to_Log1_when_foo_is_called())
{
    A a;
    std::unique_ptr<ILoggerImpl> filelog1Mock(new CFileLoggerMock("C:\\log1.txt"));
    Log1.BindImplementation(*filelog1.get());
    EXPECT_CALL(filelog1Mock  Info...);

    a.foo();
    Log1.UnbindImplementation();
}

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.