INSTALLING SBCL
CONTENTS
1. BINARY DISTRIBUTION
1.1. Quick start
1.2. Finding ancilliary files
1.3. Anatomy of SBCL
2. SOURCE DISTRIBUTION
2.1. Quick start
2.2. Customizing SBCL
2.3. Troubleshooting
2.4. Tracking SBCL sources
2.5. Supported platforms
1. BINARY DISTRIBUTION
1.1. Quick start:
The following command installs SBCL and related documentation under
the "/usr/local" directory:
# INSTALL_ROOT=/usr/local sh install.sh
You can also install SBCL as a user, under your home directory:
$ INSTALL_ROOT=/home/me sh install.sh
In other words, "install.sh" installs SBCL under the directory named
by the environment variable "INSTALL_ROOT".
If you install SBCL from binary distribution in other location then
"/usr/local", see section 1.2, "Finding ancilliary files".
1.2. Finding ancilliary files
The SBCL runtime needs to be able to find the ancillary files
associated with it: the "sbcl.core" file, and the contrib modules.
This can happen in three ways:
1. By default, in a location configured when the system was built.
For binary distributions this is in "/usr/local/lib/sbcl".
2. By environment variable, in the directory named by the
environment variable "SBCL_HOME". Example:
$ export SBCL_HOME=/foo/bar/lib/sbcl
$ sbcl
If your "INSTALL_ROOT" was FOO, then your "SBCL_HOME" is
"FOO/lib/sbcl".
3. By command line option:
$ sbcl --core /foo/bar/sbcl.core
When using this option contrib modules are looked for in the
directory where the designated core resides, and in "SBCL_HOME".
The usual, recommended approach is method #1. Method #2 is useful if
you're installing SBCL on a system in a non-standard location
(e.g. in your user account), instead of installing SBCL on an entire
system. Method #3 is mostly useful for testing or other special
cases.
1.3. Anatomy of SBCL
The two files that SBCL needs to run, at minimum, are:
src/runtime/sbcl
output/sbcl.core
In addition, there are a number of modules that extend the basic
sbcl functionality, in
contrib/
The "src/runtime/sbcl" is a standard executable, built by compiling
and linking an ordinary C program. It provides the runtime
environment for the running Lisp image, but it doesn't know much
about high-level Lisp stuff (like symbols and printing and objects)
so it's pretty useless by itself. The "output/sbcl.core" is a dump
file written in a special SBCL format which only sbcl understands,
and it contains all the high-level Lisp stuff.
The standard installation procedure, outlined in section 1.1 "Quick
start", is to run the "install.sh", which copies all the files to
right places, including documentation and contrib-modules that have
passed their tests. If you need to install by hand, see "install.sh"
for details.
Documentation concists of a man-page, the SBCL Manual (in info, pdf
and html formats), and a few additional text files.
2. SOURCE DISTRIBUTION
2.1. Quick start
To build SBCL you need a working toolchain and a Common Lisp system
(see section 2.5 "Supported platforms"). You also need approximately
128 Mb of free RAM+swap.
To build SBCL using an already installed SBCL:
$ sh make.sh
If you don't already have an SBCL binary installed as "sbcl" on your
system, you'll need to tell make.sh what Lisp to use as the
cross-compilation host. For example, to use CMU CL (assuming has
been installed under its default name "lisp") as the
cross-compilation host:
$ sh make.sh 'lisp -batch'
The build may take a long time, especially on older hardware. A
successful build ends with a message beginning: "The build seems to
have finished successfully...".
To run the regression tests:
$ cd tests && sh run-tests.sh
To build documentation:
$ cd doc/manual && make
This builds the Info, HTML and PDF documentation from the Texinfo
sources. The manual includes documentation string from the build
SBCL, but if SBCL itself has not been yet built, but one if found
installed documentation strings from the installed version are used.
Now you should have the same src/runtime/sbcl and output/sbcl.core
files that come with the binary distribution, and you can install
them as described in the section 1. "BINARY DISTRIBUTION".
2.2. Customizing SBCL
You can tweak the *FEATURES* set for the resulting Lisp system,
enabling or disabling features like documentation strings, threads,
or extra debugging code.
The preferred way to do this is by creating a file
"customize-target-features.lisp", containing a lambda expression
which is applied to the default *FEATURES* set and which returns the
new *FEATURES* set, e.g.
(lambda (features)
(flet ((enable (x)
(pushnew x features))
(disable (x)
(setf features (remove x features))))
;; Threading support, available on x86 Linux only.
(enable :sb-thread)
;; Slightly smaller core
(disable :sb-doc)))
This is the preferred way because it lets local changes interact
cleanly with CVS changes to the main, global source tree.
A catalog of available features and their meaning can be found in
"base-target-features.lisp-expr".
2.3. Troubleshooting
"GNU Make not found"
If the GNU make command is not available under the names "make",
"gmake", or "gnumake", then define the environment variable
GNUMAKE to a name where it can be found.
Segfaults on Fedora
Try disabling exec-shield. The easiest way is to use
setarch: "setarch i386 sbcl".
Build crashes mysteriously, machine becomes unstable, etc
You may be running out of memory. Try increasing swap, or
building SBCL with fewer other programs running simultaneously.
Other
* Check that the host lisp you're building with is known to work
as an SBCL build host, and the your OS is supported.
* Some GCC versions are known to have bugs that affect SBCL
compilation: if the error you're encountering seems related to
files under "src/runtime", down- or upgrading GCC may help.
* Ask for help on the mailing lists referenced from
.
2.4. Tracking SBCL sources
If you want to be on the bleeding edge, you can update your sources
to the latest development snapshot (or any previous development
snapshot, for that matter) by using anonymous CVS to
SourceForge. (This is not recommended if you're just using SBCL as a
tool for other work, but if you're interested in working on SBCL
itself, it's a good idea.) Follow the "CVS Repository" link on
for instructions.
2.5. Supported platforms
Last updated for SBCL 0.8.10.61 (2004-05-28).
All of the following platforms are supported in the sense of "should
work", but some things like loading foreign object files may lag
behind on less-used OS's.
Supported toolchains:
GNU toolchain
Sun toolchain with GCC
Supported build hosts are:
SBCL
CMUCL
OpenMCL
CLISP (recent versions only)
Note that every release isn't tested with every possible host
compiler. You're most likely to get a clean build with SBCL itself
as host, otherwise OpenMCL on a PPC and CMUCL elsewhere.
Supported operating systems and architectures:
x86 PPC Alpha Sparc HPPA MIPS MIPSel
Linux 2.2, 2.4, 2.6 X X X X X X X
FreeBSD X
OpenBSD 3.4, 3.5 X
NetBSD X
Solaris X
Tru64 X
Darwin (Mac OS X) X
Some OS's are more equal then others: most of the development and
testing is done on x86 Linux and *BSD, PPC Linux and Mac OS X.
If an underprivileged platform is important to you, you can help
by eg. testing during the monthly freeze periods, and most
importantly by reporting any problems.
If you need support beyond what is available on the mailing lists,
see "Consultants" in the "SUPPORT" file.