Code Quality Rank: L2
Programming language: C++
License: GNU General Public License v3.0 or later
Tags: Logging    

log4cplus alternatives and similar libraries

Based on the "Logging" category.
Alternatively, view log4cplus alternatives based on common mentions on social networks and blogs.

  • spdlog

    Fast C++ logging library.
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  • easyloggingpp

    C++ logging library. It is extremely powerful, extendable, light-weight, fast performing, thread and type safe and consists of many built-in features. It provides ability to write logs in your own customized format. It also provide support for logging your classes, third-party libraries, STL and third-party containers etc.
  • plog

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  • loguru

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  • G3log

    G3log is an asynchronous, "crash safe", logger that is easy to use with default logging sinks or you can add your own. G3log is made with plain C++14 (C++11 support up to release 1.3.2) with no external libraries (except gtest used for unit tests). G3log is made to be cross-platform, currently running on OSX, Windows and several Linux distros. See Readme below for details of usage.
  • quill

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  • reckless

    Reckless logging. Low-latency, high-throughput, asynchronous logging library for C++.
  • Boost.Log

    Boost Logging library
  • Blackhole

    Yet another logging library.
  • mini-async-log

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  • lwlog

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  • Description

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  • logog

    logog is a portable C++ library to facilitate logging of real-time events in performance-oriented applications, such as games. It is especially appropriate for projects that have constrained memory and constrained CPU requirements.
  • uberlog

    Cross platform multi-process C++ logging system
  • xtr

    A Fast and Convenient C++ Logging Library for Low-latency or Real-time Environments
  • Serenity Logger

    Yet another Fast and Efficient logging framework. The goal is to be nanosecond level fast with extensibility (inspired by loggers such as spdlog, nanolog, and fmtlog and heavily influenced by the formatting used in fmtlib and <format>). This uses a built-in formatter that can be swapped out for <format> or fmtlib if desired.
  • templog

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  • Log4cpp

    A library of C++ classes for flexible logging to files, syslog, IDSA and other destinations. [LGPL]

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% log4cplus README

Short Description

log4cplus is a simple to use C++17 logging API providing thread--safe, flexible, and arbitrarily granular control over log management and configuration. It is modeled after the Java log4j API.

Latest Project Information

The latest up-to-date information for this project can be found at log4cplus SourceForge project pages or log4cplus wiki on SourceForge. Please submit bugs, patches, feature requests, etc., there, or on GitHub.

Mission statement

The aim of this project is to develop log4j--like logging framework for use in (primarily) C++. One of the major design goals is to avoid huge dependencies (like Boost) in the core functionality and to use standard C++ facilities instead. Where possible, the project takes inspiration from other logging libraries, beside from log4j (e.g., from log4net, log4cxx, log4cpp).

Platform support

log4cplus version 3.0 and beyond require C++17. log4cplus has been ported to and tested on the following platforms:

  • Linux/AMD64 with GCC version 8.3.0 (Ubuntu 8.3.0-6ubuntu1)
  • Linux/AMD64 with Clang version 8.0.0-3 (tags/RELEASE_800/final)
  • Windows/AMD64 with GCC version 4.8.2 (x86_64-posix-seh-rev3, Built by MinGW-W64 project) using CMake build system
  • Windows/AMD64 with GCC version 4.9.2 (tdm64-1) using CMake build system
  • Windows 7 with MS Visual Studio 2015
  • OpenBSD 5.6/AMD64 with GCC version 4.9.0
  • FreeBSD 10.1/i386 with Clang version 3.4.1 (tags/RELEASE_34/dot1-final 208032)
  • NetBSD 6.1.5/AMD64 with GCC version 4.9.1
  • DragonflyBSD 4.0.1/AMD64 with GCC version 4.9.3 20141126 (prerelease) (FreeBSD Ports Collection)
  • OpenIndiana Hipster 2016.10 with GCC version 4.9.4

The testing on the above listed platforms has been done at some point in time with some version of source. Continuous testing is done only on Linux platform offered by Travis CI service.

The oldest Windows version that is supported by 2.x releases is Windows Vista.

The following platforms were supported by the 1.x series of log4cplus. They either do not have a reasonable C++17 capable compiler or have not been checked with log4cplus 3.x, yet:

  • Minix 3.3.0/i386 with Clang version 3.4 (branches/release_34) with --disable-threads
  • Linux/AMD64 with Intel Parallel Studio XE 2015, ICPC version 15.0.1
  • OpenSolaris with -library=stlport4
  • Solaris with -library=stlport4 and with -library=Cstd.
  • Solaris 5.10/Sparc
  • MacOS X 10.8
  • MacOS X 11.4.2
  • HP-UX (hppa2.0w-hp-hpux11.11)
  • Haiku R1 Alpha 4.1
  • AIX 5.3 with IBM XL C/C++ for AIX

Installation instruction

Generic Autotools installation instructions are in INSTALL file. The following are log4cplus specific instructions.

log4cplus uses Git sub-modules. Always use --recurse-submodules option when doing git clone.

Configure script options


This option is disabled by default. This option mainly affects GCC builds but it also has some limited effect on non-GCC builds. It turns on debugging information generation, undefines NDEBUG symbol and adds -fstack-check (GCC).


This option is enabled by default. It adds platform / compiler dependent warning options to compiler command line.


This option is enabled by default. It enables SO version decoration on resulting library file, e.g., the .2.0.0 in liblog4cplus-1.2.so.2.0.0.


This option is enabled by default. It enables release version decoration on the resulting library file, e.g., the -1.2 in liblog4cplus-1.2.so.2.0.0.


This option is enabled by default. It enables use of compiler and platform specific option for symbols visibility. See also the Visibility page on GCC Wiki.


This option is disabled by default. This option adds profiling information generation compiler option -pg to GCC and Sun CC / Solaris Studio builds.


This option is enabled by default. It turns on detection of necessary compiler and linker flags that enable POSIX threading support.

While this detection usually works well, some platforms still need help with configuration by supplying additional flags to the configure script. One of the know deficiencies is Solaris Studio on Linux. See one of the later note for details.


This option is enabled by default. It enables compilation of test executables.


This option is disabled by default. It enables compilation of unit tests along their units. These unit tests then can be executed through unit_tests test executable that is built during compilation.


This option is enabled by default. It enables implicit initialization of log4cplus. When it is turned off, log4cplus has to be explicitly initialized by calling either log4cplus::initialize() or by instantiating log4cplus::Initializer.


This option is disabled by default. It enables LTO (Link-Time Optimization) builds.


This option is enabled by default. When enabled, additional binaries will be built, marked with U suffix in file name and compiled with -DUNICODE=1 flag. In effect, these binaries assume that log4cplus::tchar is wchar_t.


This is one of three locale and wchar_tโ†”char conversion related options. It is disabled by default.

It is know to work well with GCC on Linux. Other platforms generally have lesser locale support in their implementations of the C++ standard library. It is known not to work well on any BSDs.

See also docs/unicode.txt.


This is second of wchar_tโ†”char conversion related options. It is disabled by default.

It is known to work well on most Unix--like platforms, including recent Cygwin.


This is third of wchar_tโ†”char conversion related options. It is disabled by default.

The conversion using iconv() function always uses "UTF-8" and "WCHAR_T" as source/target encoding. It is known to work well on platforms with GNU iconv. Different implementations of iconv() might not support "WCHAR_T" encoding selector.

Either system provided iconv() or library provided libiconv() are detected and accepted. Also both SUSv3 and GNU iconv() function signatures are accepted.


This option is disabled by default. It enables compilation of a separate shared library (liblog4cplusqt4debugappender) that implements Qt4DebugAppender. It requires Qt4 and pkg-config to be installed.


This option is disabled by default. It enables compilation of a separate shared library (liblog4cplusqt5debugappender) that implements Qt5DebugAppender. It requires Qt5 and pkg-config to be available.



On Unix--like platforms, log4cplus can be compiled using either autotools based build system or using CMake build system. The autotools based build system is considered to be primary for Unix--like platforms.

On Windows, the primary build system is Visual Studio 2015 solution and projects (msvc14/log4cplus.sln).

MinGW is supported by autotools based build system. CMake build system is supported as well and it should be used to compile log4cplus with older versions of Visual Studio or with less common compiler suites (e.g., Embarcadero, Code::Blocks, etc.).


Cygwin 2.5.x has a problem1 linking binaries that use language level thread-local storage and share thread-local variables across translation units. To avoid the issue language level thread-local storage is not used on Cygwin and traditional POSIX thread-local storage is used instead.

MinGW and MSVCRT version

log4cplus can use functions like _vsnprintf_s() (Microsoft's secure version of vsnprintf()). MinGW tool--chains (by default) link to the system MSVCRT.DLL. Unfortunately, older systems, like Windows XP, ship with MSVCRT.DLL that lacks these functions. It is possible to compile log4cplus with MinGW tool--chains but without using Microsoft's secure functions by defining __MSVCRT_VERSION__ to value less than 0x900 and vice versa.

$ ../configure CPPFLAGS="-D__MSVCRT_VERSION__=0x700"

Windows and Visual Studio

log4cplus uses C++11 thread and synchronization facilities. The synchronization facilities are implemented in Visual Studio C++ standard library in a way that utilizes global variables. Therefore it is impossible (due to "static initialization order fiasco") to use them outside main(). This issue manifests as a deadlock on exit during destruction of log4cplus' thread pool.

To overcome this limitation,

  • always use log4cplus::Initializer initializer; as the first thing in main();

  • never try to log from static/global objects constructors;

  • never try to log from static/global object destructors.

Defining the log4cplus::Initializer instance as the first thing in main() ensures that log4cplus is initialized. More importantly, it ensures that log4cplus shuts down before the execution leaves the main() function. log4cplus will try to automatically initialize at process startup and/or on DLL load, and will not tear down until all log4cplus:Initializer instances are destroyed.

Windows and rolling file Appenders

On Windows, the standard C++ file streams open files in way that underlying Win32 file HANDLE is not open with FILE_SHARE_DELETE flag. This flag, beside shared delete, allows renaming files that have handles open to them. This issue manifests as error code 13 when the file needs to be rolled over and it is still open by another process.

This is also bug #167 on SourceForge.

Windows and TLS

log4cplus uses thread--local storage (TLS) for NDC, MDC and to optimize use of some temporary objects. On Windows there are two ways to get TLS:

  1. using TlsAlloc(), etc., functions
  2. using __declspec(thread)

While method (2) generates faster code, it has some limitations prior to Windows Vista. If log4cplus.dll is loaded at run time using LoadLibrary() (or as a dependency of such loaded library), then accessing __declspec(thread) variables can cause general protection fault (GPF) errors. This is because Windows prior to Windows Vista do not extend the TLS for libraries loaded at run time using LoadLibrary(). To allow using the best available method, log4cplus enables the method (2) by checking _WIN32_WINNT >= 0x0600 condition, when compiling log4cplus targeted to Windows Vista or later.

Linking on Windows

If you are linking your application with DLL variant of log4cplus, define LOG4CPLUS_BUILD_DLL preprocessor symbol. This changes definition of LOG4CPLUS_EXPORT symbol to __declspec(dllimport).

Android, TLS and CMake

log4cplus uses thread--local storage (TLS, see "Windows and TLS" for details). On the Android platform, when log4cplus is being compiled using the android/android.toolchain.cmake, you might get errors featuring the __emutls symbol:

global-init.cxx:268:46: error: log4cplus::internal::__emutls_t._ZN9log4cplus8internal3ptdE causes a section type conflict with log4cplus::internal::ptd

To work around this issue, invoke CMake with -DANDROID_FUNCTION_LEVEL_LINKING:BOOL=OFF option.

Threads and signals

log4cplus is not safe to be used from asynchronous signals' handlers. This is a property of most threaded programmes in general. If you are going to use log4cplus in threaded application and if you want to use log4cplus from signal handlers then your only option is to block signals in all threads but one that will handle all signals. On POSIX platforms, this is possible using the sigwait() call. log4cplus enables this approach by blocking all signals in any threads created through its threads helpers.

IBM's XL C/C++ compiler

IBM's XL C/C++ compiler executable has many variants. To compile log4cplus with threading support specify one of the compiler variants that support threading using the CXX variable on configure script command line. E.g.:

$ ../configure --enable-threads CXX=xlC_r

AIX reentrancy problem

There appears to be a reentracy problem with AIX 5.3 and xlC 8 which can result into a deadlock condition in some circumstances. It is unknown whether the problem manifests with other versions of either the OS or the compiler, too. The problem was initially reported in a bug report #103.

The core of the problem is that IBM's/xlC's standard C++ IOStreams implementation uses global non recursive lock to protect some of its state. The application in the bug report was trying to do logging using log4cplus from inside overflow() member function of a class derived from std::streambuf class. log4cplus itself uses std::ostringstream. This resulted into an attempt to recursively lock the global non recursive lock and a deadlock.

Solaris / SunOS

Some older version of this operating system might have problems linking log4cplus due to missing __tls_get_addr in their unpatched state.

Solaris Studio

Solaris Studio compilers' default standard C++ library is very non-standard. It seems that it is not conforming enough in, e.g., Sun C++ 5.12 Linux_i386 2011/11/16 (missing std::time_t, etc.), but it works well enough on Solaris with Sun C++ 5.8 2005/10/13. Thus log4cplus adds -library=stlport4 to the CXXFLAGS environment variable, unless a switch matching -library=(stlport4|stdcxx4|Cstd) is already present there. If you want to override the default supplied by log4cplus, just set it into CXXFLAGS on configure script command line.

Solaris Studio supports the __func__ symbol which can be used by log4cplus to record function name in logged events. To enable this feature, add -features=extensions switch to CXXFLAGS for configure script. Subsequently, you will have to add this switch to your application's build flags as well.

Solaris Studio on GNU/Linux

The autotools and our configure.ac combo does not handle Solaris Studio compiler on Linux well enough and needs a little help with configuration of POSIX threads:

$ COMMON_FLAGS="-L/lib/x86_64-linux-gnu/ \
-L/usr/lib/x86_64-linux-gnu/ -mt=yes -O"

$ ../configure --enable-threads=yes \
CC=/opt/solarisstudio12.3/bin/cc \
CXX=/opt/solarisstudio12.3/bin/CC \

HP-UX with aCC

It is necessary to turn on C++98 mode of aCC by providing the -AA flag:

$ ../configure --enable-threads=yes CXXFLAGS="-AA"

HP-UX with aCC on IA64

There is a problem on IA64 HP-UX with aCC (HP C/aC++ B3910B A.06.20). The problem manifests as unsatisfied symbols during linking of loggingserver:

ld: Unsatisfied symbol "virtual table of loggingserver::ClientThread" in file loggingserver.o

The problem appears to be a deficiency in aCC and its support of __declspec(dllexport). To work around this issue, add --disable-symbols-visibility-options to configure script command line:

$ ../configure --disable-symbols-visibility-options \
--enable-threads=yes CXXFLAGS="-AA"


Haiku is supported with GCC 4+. The default GCC version in Haiku is set to version 2 (based on GCC 2.95.x). To change the default GCC version to version 4, please run setgcc gcc4 command. This is to avoid linking errors like this:

main.cpp:(.text.startup+0x54a): undefined reference to `_Unwind_Resume'

Running the command switches the current GCC version to version 4. This change is permanent and global. See also Haiku ticket #8368.

Qt4 / Win32 / MSVC

In order to use log4cplus in Qt4 programs it is necessary to set following option: Treat WChar_t As Built in Type: No (/Zc:wchar_t-)

Set this option for log4cplus project and Qt4DebugAppender project in MS Visual Studio. Remember to use Unicode versions of log4cplus libraries with Qt. It is also necessary to make clear distinction between debug and release builds of Qt project and log4cplus. Do not use log4cplus release library with debug version of Qt program and vice versa.

For registering Qt4DebugAppender library at runtime, call this function: log4cplus::Qt4DebugAppender::registerAppender()

Add these lines to qmake project file for using log4cplus and Qt4DebugAppender:

INCLUDEPATH += C:\log4cplus\include
win32 {
    CONFIG(debug, debug|release) {
        LIBS += -LC:\log4cplus\msvc14\Win32\bin.Debug_Unicode -llog4cplusUD
        LIBS += -LC:\log4cplus\msvc14\Win32\bin.Debug_Unicode -llog4cplus-Qt4DebugAppender
    } else {
        LIBS += -LC:\log4cplus\msvc14\Win32\bin.Release_Unicode -llog4cplusU
        LIBS += -LC:\log4cplus\msvc14\Win32\bin.Release_Unicode -llog4cplus-Qt4DebugAppender

Qt / GCC

You might encounter the following error during compilation with --with-qt option:

qglobal.h:943: error: ISO C++ does not support 'long long'

This is caused by -pedantic option that log4cplus adds to CXXFLAGS when compiling with GCC. To work around this issue, add -Wno-long-long GCC option to CXXFLAGS.


OpenBSD 5.2 and earlier have a bug in wcsftime() function in handling of %% and %N where N is not a supported formatter. This is fixed in OpenBSD 5.3 and later. This shows as failing timeformat_test when log4cplus is compiled with -DUNICODE in CXXFLAGS.

iOS support

iOS support is based on CMake build. Use the scripts in iOS directory. The iOS.cmake toolchain file was originally taken from ios-cmake project.

To build the library for iOS, being in current folder, perform the steps below. For ARMv7 architecture:

$ ./scripts/cmake_ios_armv7.sh
$ cmake --build ./build_armv7 --config "Release"
$ cmake --build ./build_armv7 --config "Debug"

For i386 architecture:

$ ./scripts/cmake_ios_i386.sh
$ cmake --build ./build_i386 --config "Release"
$ cmake --build ./build_i386 --config "Debug"

Some versions of the iOS and/or its SDK have problems with thread-local storage (TLS) and getting through CMake's environment detection phase. To work around these issues, make these changes:

Edit the iOS.cmake file and add these two lines.


Add these lines. Customize them accordingly:


If you have issues with TLS, also comment out these lines:



Beware, the %s specifier does not work the same way on Unix--like platforms as it does on Windows with Visual Studio. With Visual Studio the %s specifier changes its meaning conveniently by printing wchar_t string when used with wprintf() and char strings when used with printf(). On the other hand, Unix--like platforms keeps the meaning of printing char strings when used with both wprintf() and printf(). It is necessary to use %ls (C99) specifier or %S (SUSv2) specifier to print wchar_t strings on Unix--like platforms.

The common ground for both platforms appears to be use of %ls and wchar_t string to print strings with unmodified formatting string argument on both Unix--like platforms and Windows. The conversion of wchar_t back to char then depends on C locale.

Unsupported compilers and platforms

log4cplus does not support too old or broken C++ compilers. Since log4cplus version 3.0.0, it means it does not support any platform or compiler without decent C++17 support.

  • Visual Studio prior to 2015
  • GCC prior to 4.8

Bug reporting instructions

For successful resolution of reported bugs, it is necessary to provide enough information:

  • log4cplus

    • What is the exact release version or Git branch and revision?
    • What is the build system that you are building log4cplus with (Autotools, Visual Studio solution and its version, CMake).
    • Autotools -- Provide configure script parameters and environment variables, attach generated config.log and defines.hxx files.
    • CMake -- Provide build configuration (Release, Debug, RelWithDebInfo) and non--default CMAKE_* variables values.
    • Visual Studio -- Provide project configuration (Release, Release_Unicode, Debug, Debug_Unicode) and Visual Studio version.
    • Provide target OS and CPU. In case of MinGW, provide its exact compiler distribution -- TDM? Nuwen? Other?
  • log4cplus client application

    • Are you using shared library log4cplus or as static library log4cplus?
    • Is log4cplus linked into an executable or into a shared library (DLL or SO)?
    • If log4cplus is linked into a shared library, is this library loaded dynamically or not?
    • What library file you are linking your application with -- log4cplus.lib, log4cplusUSD.lib, liblog4cplus.dll.a, etc., on Windows?
    • Is your application is using Unicode/wchar_t or not?
    • Provide any error messages.
    • Provide stack trace.
    • Provide log4cplus properties/configuration files.
    • Provide a self--contained test case, if possible.


This library is licensed under the Apache Public License 2.0 and two clause BSD license. Please read the included LICENSE file for details.


[log4cplus] (bug tracker, files, wiki) is hosted on SourceForge, except for log4cplus source, which is hosted on GitHub. This allows the project to integrate with Travis CI service offered by GitHub.


Anybody can contribute to log4cplus development. If you are contributing a source code change, use a reasonable form: a merge request of a Git branch or a patch file attached to a ticket in Bugs tracker or sent to log4cplus-devel mailing list. Unless it is obvious, always state what branch or release tarball is your patch based upon.


Please use common sense. Follow the style of surrounding code. You can use the following Emacs style that is based on Microsoft's style as a guide line:

;; Custom MS like indentation style.
(c-add-style "microsoft"
                (innamespace . -)
                (inline-open . 0)
                (inher-cont . c-lineup-multi-inher)
                (arglist-cont-nonempty . +)
                (template-args-cont . +))))


Build system

log4cplus supports multiple build systems (GNU Autoconf/Automake/Libtool aka Autotools, CMake and Visual Studio solution and project files).

Autotools is considered the primary build system on Unix--like platforms. However, CMake should still be usable on Unix--like platforms as well.

On Windows, it depends on compiler and tool-chain that you want to use. When using Visual Studio, use Visual Studio solution and project files. However, CMake build system should still work and produce useful results. When using some form of MinGW64 tool-chain, the CMake build system is considered primary and the Autotools based build system is unsupported. Use the MinGW Makefiles option and build with mingw-make (or similar). The MSYS Makefiles option is untested and unsupported.


The Makefile.am files for this build systems are hand written. Some of them, however, are generated from Makefile.am.tpl and Makefile.am.def by GNU Autogen. This is to make adding new files to the source easier.

To regenerate Makefile.am files, configure script, testsuite script or any other part of the Autotools build system, use the scripts/doautoreconf.sh script from source root directory. It will invoke all the necessary tools in the correct order.

log4cplus closely follows Autoconf's, Automake's and Libtool's development and its master branch files are always generated using the latest available version of the tools.

*Note that all licence references and agreements mentioned in the log4cplus README section above are relevant to that project's source code only.