4

I have an application which makes extensive use of boost log 2.0. Now I would like to set some default flags for that application like std::setprecision(std::numeric_limits<double>::digits10 + 1), std::scientific and std::left. But how do I do that? One approach is creating a logger at the very beginning of my main function and creating a dummy log message. This permanently sets the desired flags. But is there no nicer way to do this?

edit in reply to: "OP should show actual code."

I have a global Logging singleton, called L:

class L{
public:
  enum severity_level
  {
      dddebug,
      ddebug,
      debug,
      control,
      iiinfo,
      iinfo,
      info,
      result,
      warning,
      error,
      critical
  };

  typedef boost::log::sources::severity_channel_logger<
      severity_level, // the type of the severity level
      std::string // the type of the channel name
  > logger_t;
  typedef boost::log::sinks::synchronous_sink< boost::log::sinks::text_ostream_backend > text_sink;
  boost::shared_ptr< text_sink > sink_;

  static L& get();
  static boost::shared_ptr<text_sink> sink();
  static double t0();
  static double tElapsed();
private:
  L();
  double t0_p;
  static std::string tElapsedFormat();

  L(const L&) = delete;
  void operator=(const L&) = delete;
};

which provides a logging sink, severity levels and utilizes MPI methods for synchronized timekeeping across MPI nodes. THe implementation of the class members follows here:

#include "log.h"

#include <iomanip>
#include <limits>
#include <fstream>
#include <boost/log/attributes/function.hpp>
#include <boost/smart_ptr/shared_ptr.hpp>
#include <boost/smart_ptr/make_shared_object.hpp>
#include <boost/log/core.hpp>
#include <boost/log/expressions.hpp>
#include <boost/log/sources/severity_channel_logger.hpp>
#include <boost/log/sinks/sync_frontend.hpp>
#include <boost/log/sinks/text_ostream_backend.hpp>
#include <boost/log/utility/setup/common_attributes.hpp>


namespace logging = boost::log;
namespace src = boost::log::sources;
namespace expr = boost::log::expressions;
namespace sinks = boost::log::sinks;
namespace attrs = boost::log::attributes;
namespace keywords = boost::log::keywords;

#include "mpiwrap.h"
#include <mpi.h>

BOOST_LOG_ATTRIBUTE_KEYWORD(t, "Time", std::string)
BOOST_LOG_ATTRIBUTE_KEYWORD(rank, "Rank", int)
BOOST_LOG_ATTRIBUTE_KEYWORD(channel, "Channel", std::string)
BOOST_LOG_ATTRIBUTE_KEYWORD(severity, "Severity", L::severity_level)

L::L():
  sink_(boost::make_shared< text_sink >()),
  t0_p(MPI_Wtime())
{

  sink_->locked_backend()->add_stream(
    boost::make_shared< std::ofstream >("log." + std::to_string(MpiWrap::getRank())));

  sink_->set_formatter
  (
    expr::stream
      << "< "
      << t << " "
      << "[p:" << rank << "] "
      << "[c:" << channel << "] "
      << "[s:" << severity << "] "
      << expr::smessage
  );

  logging::core::get()->add_sink(sink_);

  logging::core::get()->set_filter(

       (channel == "ChannelName1" && severity >= dddebug)
    || (channel == "ChannelName2" && severity >= info)
    || (channel == "ChannelName3" && severity >= result)

  );

  // Add attributes
  logging::core::get()->add_global_attribute("Time", attrs::make_function(&tElapsedFormat));
  logging::core::get()->add_global_attribute("Rank", attrs::constant<int>(MpiWrap::getRank()));
}

L& L::get(){
  static L instance;
  return instance;
}

boost::shared_ptr<L::text_sink> L::sink(){
  return get().sink_;
}

double L::t0(){
  return get().t0_p;
}

double L::tElapsed(){
  return MPI_Wtime() - t0();
}

std::string L::tElapsedFormat(){
  std::stringstream ss;
  const int prec = std::numeric_limits<double>::digits10;
  ss << std::setw(prec + 2 + 6) << std::left << std::setprecision(prec) << tElapsed();
  return ss.str();
}

std::ostream& operator<< (std::ostream& strm, L::severity_level level)
{
    static const char* strings[] =
    {
        "DBG3",
        "DBG2",
        "DBG1",
        "CTRL",
        "INF3",
        "INF2",
        "INF1",
        "RSLT",
        "WARN",
        "ERRR",
        "CRIT"
    };

    if (static_cast< std::size_t >(level) < sizeof(strings) / sizeof(*strings))
        strm << strings[level];
    else
        strm << static_cast< int >(level);

    return strm;
}

Now for the usage: My classes usually have a static logger_t (typedef for boost::log::sources::severity_channel_logger<severity_level, std::string>) member

class A {
public:
    logger_t logger;
    //other stuff here
    void function_which_does_logging();
};

L::logger_t A::logger(boost::log::keywords::channel = "ClassA");

void A::function_which_does_logging(){
    //do non logging related stuff
    BOOST_LOG_SEV(logger, L::result) << "the error is: " << 0.1234567890;
    //do non logging related stuff
}

My current solution to the problem is putting a logging statement in the beginning of my program

int main(){
    L::logger_t logger(boost::log::keywords::channel = "init");
    BOOST_LOG_SEV(logger, L::critical) << "setting up logger" << std::scientific << std::setprecision(std::numeric_limits<double>::digits10 + 1);

    //do stuff
}
11
  • Formatting is very seldom needed for logging. If formatting is needed, then you could use std::ostringstream for the formatting, and just log the pre-formatted string. Apr 15, 2014 at 15:04
  • 1
    @JoachimPileborg for my work it is essential to use `std::scientific. Any double logged without it enabled gives me no information, so I would like to make this a global standard
    – niklasfi
    Apr 15, 2014 at 15:13
  • What does your logging look like now? Do you have a globally accessible logger? Are you using the BOOST_LOG macros? Apr 22, 2014 at 17:21
  • @WilliamKunkel I have a static logger member in each of my classes to set a default for the channel name. To log I use BOOST_LOG_SEV. The thing is that doing BOOST_LOG_SEV(…) << std::scientific once is enough to set it for all following messages to all loggers (sources)
    – niklasfi
    Apr 22, 2014 at 19:01
  • 1
    Peeps. Boost Log has a lot of options to achieve this (I did in a few ways), but the question really lacks any detail to decide what is appropriate here. How will the numbers be logged? Are they attributes? Are they just streamed using the streaming operations? What logger instances are used? In other words, OP should show actual code. /cc @JoachimPileborg
    – sehe
    Apr 23, 2014 at 17:45

2 Answers 2

5
+200

@rhashimoto makes a good point about how your current solution will break down with multiple threads/concurrent logging operations. I feel the best solution is to define your own logging macros to replace BOOST_LOG_SEV which have the stream modifiers included, like this:

#define LOG_SCIENTIFIC(logger, sev) (BOOST_LOG_SEV(logger, sev) << std::scientific)

Which can just be used as a drop-in replacement for BOOST_LOG_SEV which formats numbers as scientific. However, it's probably a pain to go through your code and replace every logging operation with a new custom macro. Instead of defining your own macro, you can also redefine BOOST_LOG_SEV to behave how you want. boost/log/sources/severity_feature.hpp defines BOOST_LOG_SEV as follows:

//! An equivalent to BOOST_LOG_STREAM_SEV(logger, lvl)
#define BOOST_LOG_SEV(logger, lvl) BOOST_LOG_STREAM_SEV(logger, lvl)

Because BOOST_LOG_STREAM_SEV is still a part of the public boost API, you ought to be able to safely redefine BOOST_LOG_SEV like this:

#define BOOST_LOG_SEV(logger, lvl) (BOOST_LOG_STREAM_SEV(logger, lvl) << std::scientific)

So long as this is defined after you have included the boost log headers, it should do what you want. However, I would recommend using a macro with a custom name, so that it is clear to others what your code is doing.

4

I don't believe that your current method will work in all cases, especially if your code is threaded. It made me nervous when you said that a single logged format flag worked to fix multiple loggers, so I looked at the code (record_ostream.hpp and record_ostream.cpp).

Boost Log uses the Object pool design pattern to provide stream formatters to loggers with the auxiliary struct stream_provider. The implementation of stream_provider uses thread-local storage (when threading is supported) to use a separate pool of ostream instances for each thread. Within a pool, ostream instances are created as needed - if only one formatter is needed at a time, only one will ever be created. So I think your current workaround will work for the current Boost Log implementation if you log from a single thread and if you never log something in the middle of logging something else.

How this fails with threading should be pretty obvious. Here's a simple example of how this can fail in a single thread:

static double f(double x) {
   BOOST_LOG(my_logger::get()) << "called f with " << x;
   return x;
}

int main() {
   BOOST_LOG(my_logger::get()) << std::scientific << "format flag";
   BOOST_LOG(my_logger::get()) << "top level " << f(0.01);
   return 0;
}

which produces:

[2014-04-27 14:16:39.832008] [0x000007fff7a1c631] [info]    format flag
[2014-04-27 14:16:39.832616] [0x000007fff7a1c631] [info]    called f with 0.01
[2014-04-27 14:16:39.832630] [0x000007fff7a1c631] [info]    top level 1.000000e-02

Note that the top level log entry (on the third line) is formatted properly while the function log entry (on the second line) is not. This is because the configured stream was in use when the function was called so a separate stream was created and used.

I think @WilliamKunkel's suggestion to define your own logging macro(s) is the best way I've seen to handle this. If you really want to use the Boost macros, however, this hack worked for me on Boost 1.55:

#include <iomanip>

#define BOOST_LOG_DYN_LINK
#include <boost/log/sources/global_logger_storage.hpp>
#include <boost/log/sources/logger.hpp>
#include <boost/log/sources/record_ostream.hpp>

typedef boost::log::sources::logger logger_t;
BOOST_LOG_INLINE_GLOBAL_LOGGER_DEFAULT(my_logger, logger_t)

namespace boost {
   namespace log {
      namespace aux {
         template<>
         BOOST_FORCEINLINE record_pump<logger_t> make_record_pump(logger_t& lg, record& rec)
         {
            auto rp = record_pump<logger_t>(lg, rec);
            rp.stream() << std::scientific;
            return rp;
         }
      }
   }
}

int main() {
   BOOST_LOG(my_logger::get()) << "Logging number " << 0.01;
   return 0;
}

The basic idea is to specialize the template function that supplies the stream to the macro. When it is specialized to the actual logger class you are using, the specialized implementation passing the std::scientific flag will be preferred to the generic implementation.

This is a hack because it depends on implementation details of Boost Log and is not guaranteed to work from release to release. Defining your own macro seems to me like a much better way to go.

I had hoped that something could be done with boost::log::basic_formatting_stream because its header says:

Although basic_formatting_ostream does not derive from std::basic_ostream, users are not required to add special overloads of operator<< for it since the stream will by default reuse the operators for std::basic_ostream. However, one can define special overloads of operator<< for basic_formatting_ostream if a certain type needs special formatting when output to log.

Unfortunately, it looks like this only applies to class types and not primitive types as there are member function implementations of operator<< for all primitive types.

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