Typesafe Callback Framework for C++
libsigc++ (a.k.a. libsigcplusplus) implements a typesafe callback system for standard C++. It allows you to define signals and to connect those signals to any callback function, either global or a member function, regardless of whether it is static or virtual.
libsigc++ is used by gtkmm to wrap the GTK signal system. It does not depend on GTK or gtkmm.
sigc++-2.0 and sigc++-3.0 are different parallel-installable ABIs. This file describes sigc++-3.0.
Distribution of library and components is under the LGPL as listed in the file COPYING. Examples and tests are Public Domain.
Compatible compilers must support C++17, such as the decltype(auto) specifier (from C++14) and std::invoke().
Web site
Download location
- https://download.gnome.org/sources/libsigc++/
- https://github.com/libsigcplusplus/libsigcplusplus/releases/
Reference documentation
Tarballs contain reference documentation. In tarballs generated with Meson, see the untracked/docs/docs/reference/html directory.
Discussion on GNOME's discourse forum
Git repository
Bugs can be reported to
Patches can be submitted to
Whenever possible, you should use the official binary packages approved by the supplier of your operating system, such as your Linux distribution. For instance, Ubuntu Linux, Debian Linux and Fedora Linux have official libsigc++ packages.
The reference documentaion is built with Doxygen.
The manual is a DocBook 5.0 document. These packages are recommended when building the manual (can have other names in other distros):
- docbook5-xml (Ubuntu and Debian) or docbook5-schemas (Fedora)
- docbook-xsl (Ubuntu and Debian) or docbook-style-xsl (Fedora)
It may be possible to build without these packages, but it will be slow and error prone.
The xmllint
command is told to read files from http://docbook.org.
The xsltproc
command is told to read files from http://docbook.sourceforge.net.
The commands first search for local copies of those files. If local copies exist
and are installed at expected locations, the commands make no network accesses.
Building from a release tarball is easier than building from git.
It's easiest to build with Meson, if the tarball was made with Meson, and to build with Autotools, if the tarball was made with Autotools. Then you don't have to use maintainer-mode.
How do you know how the tarball was made? If it was made with Meson, it contains files in untracked/build_scripts/, untracked/docs/ and possibly other subdirectories of untracked/.
Don't call the builddir 'build'. There is a directory called 'build' with files used by Autotools.
For instance:
# If the tarball was made with Autotools, and you want to rebuild the reference
# documentation, you must enable maintainer-mode:
$ meson setup --prefix=/some_directory --libdir=lib -Dmaintainer-mode=true your_builddir .
# If the tarball was made with Meson, or you don't want to rebuild the docs:
$ meson setup --prefix=/some_directory --libdir=lib your_builddir .
# then:
$ cd your_builddir
$ ninja
$ ninja install
# You can run the tests like so:
$ ninja test
For instance:
# If the tarball was made with Autotools:
$ ./configure --prefix=/some_directory
# If the tarball was made with Meson, you must enable maintainer-mode:
$ ./autogen.sh --prefix=/some_directory
# then:
$ make
$ make install
# You can build the examples and tests, and run the tests, like so:
$ make check
Building from git can be difficult so you should prefer building from a release tarball unless you need to work on the libsigc++ code itself.
jhbuild can be a good help. See the jhbuild repo, the jhbuild wiki and the jhbuild manual.
You must have Meson properly installed (meson, ninja, etc) and you will also need mm-common version 1.0.0 or higher.
Maintainer-mode is enabled by default when you build from a git clone.
Don't call the builddir 'build'. There is a directory called 'build' with files used by Autotools.
$ meson setup --prefix=/some_directory --libdir=lib your_builddir .
$ cd your_builddir
$ ninja
$ ninja install
# You can run the tests like so:
$ ninja test
# You can create a tarball like so:
$ ninja dist
You must have Autotools properly installed (autoconf, automake, etc) and you will also need mm-common.
$ ./autogen.sh --prefix=/some_directory
$ make
$ make install
# You can build the examples and tests, and run the tests, like so:
$ make check
# You can create a tarball like so:
$ make distcheck
# or
$ make dist
The CMake build is not used very often by the libsigc++ developers, but it should work, and we would welcome improvements.
For instance:
$ mkdir libsigcplusplus_build
$ cd libsigcplusplus_build
$ cmake path/to/libsigcplusplus
$ make
See MSVC-Builds.md