This is the source code distribution for PLT Scheme (MzScheme and/or
MrEd with DrScheme). For license information, please see the file
plt/notes/COPYING.LIB.
Compiled binaries, documentation, and up-to-date information are
available at http://plt-scheme.org/; pre-compiled nightly builds are
available at http://pre.plt-scheme.org/installers/.
The MzScheme and MrEd source code should compile and execute on
Windows, Mac OS X, or any Unix/X platform (including Linux).
Per-platform instructions are below.
Please report bugs via one of the following:
- DrScheme's "submit bug report" menu (preferred)
- http://bugs.plt-scheme.org/
- the mailing list (plt-scheme@list.cs.brown.edu) (last resort)
-PLT
scheme@plt-scheme.org
========================================================================
Compiling for Windows
========================================================================
To compile with Microsoft Visual C, read the instructions in
plt\src\worksp\README.
To compile with Cygwin tools, follow the Unix instructions below, and
be sure to configure with --enable-shared. The result is a Unix-style
build, not a Windows-style build (e.g., MzScheme's `system-type'
procedure returns 'unix, not 'windows, and MrEd uses X11).
========================================================================
Compiling for Mac OS X
========================================================================
First, install the Mac OS X Developer Tools from Apple. Then, follow
the Unix instructions below, but note the following:
* The MzScheme build creates a framework, PLT_MzScheme.framework,
which is installed into plt/lib. This framework is used by the
executable `mzscheme' that goes into plt/bin.
* The MrEd build creates a framework, PLT_MrEd.framework, which is
installed into plt/lib. This framework is used by the executable
bundle MrEd.app that goes into the `plt' directory. Installation
creates a script, plt/bin/mred, that runs the bundle.
* The --enable-shared flag for `configure' must not be used,
because builds create and use frameworks by default. Furthermore,
--disable-shared is not supported. (Unless you use --enable-xonx...)
* To build an X11-based MrEd, run `configure' with the --enable-xonx
flag. Frameworks are not used for such builds, so --enable-shared
is allowed. The --enable-xonx flag also affects the MzScheme build,
so that `system-type' reports 'unix.
* To use --prefix without --enable-xonx, you must also supply
--enable-macprefix. BEWARE! The directory structure for a non-xonx
build does not fit a typical Unix directory structure. For example,
frameworks are written directly to a "lib" subdirectory, and
executables like "MrEd.app" are written directly to the prefix
directory. (Requiring --enable-macprefix with --prefix for a
non-xonx build helps prevent accidental installation of a Mac-style
directory structure on top of an existing Unix-style directory
structure.)
* Under Mac OS X 10.6 and later, `configure' by default selects
32-bit mode for building MzScheme and MrEd. To build MzScheme in
64-bit mode (MrEd is not support in that mode), use the following
arguments to `configure': --enable-mac64, --enable-sgc, and
--disable-mred.
========================================================================
Compiling for supported Unix variants (including Linux) or Cygwin
========================================================================
Quick instructions:
From this directory (where the `README' and `configure' files are),
run the following commands:
mkdir build
cd build
../configure
make
make install
This will create an in-place installation of PLT Scheme and store the
results of C/C++ compilation in a separate `build' subdirectory,
which is useful if you need to update your sources, delete the build,
and start from scratch.
You can also run the typical `./configure && make && make install' if
you don't anticipate updating/rebuilding, but it will be harder to
restart from scratch should you need to.
Detailed instructions:
0. If you have an old PLT installation in the target directory,
remove it (unless you are using Subversion with an "in-place"
build as described below).
Also, make sure that you have libraries and header files for Xft
and Cairo (v1.23 and up) if you would like support for font
smoothing (Xft) and graphics smoothing (Cairo). These libraries
are not distributed with PLT Scheme. The configure process checks
automatically whether these libraries are available.
OpenGL support for MrEd sometimes requires special configuration
(though generally not under Linux). See the note at the end of
this section if OpenGL fails to work.
Finally, the content of the "foreign" subdirectory may require GNU
`make'. If the build fails with another variant of `make', please
try using GNU `make'.
1. Select (or create) a build directory.
It's better to run the build in a directory other than the one
containing `configure', especially if you're getting sources via
Subversion. A common way to start a Subversion-based build is:
cd [here]
mkdir build
cd build
where "[here]" is the directory containing this `README' file and
the `configure' script. The Subversion repository is configured
to support this convention by ignoring `build' in this directory.
A separate build directory is better in case the Makefile
organization changes, or in case the Makefiles lack some
dependencies. In those cases, when using a "build" subdirectory,
you can just delete and re-create "build" without mangling your
source tree.
2. From your build directory, run the script `configure' (which is in
the same directory as this README), with optional command-line
arguments --prefix=TARGETDIR or --enable-shared (or both).
For example, if you want to install into /usr/local/plt using
dynamic libraries, then run:
[here]configure --prefix=/usr/local/plt --enable-shared
Again, "[here]" is the directory path containing the `configure'
script. If you follow the convention of running from a "build"
subdirectory, "[here]" is just "../". If you build from the
current directory, "[here]" is possibly unnecessary, or possibly
just "./", depending on your shell and PATH setting.
If the --prefix flag is omitted, the binaries are built for an
in-place installation (i.e., the parent of the directory
containing this README will be used directly). Unless
--enable-shared is used, the plt directory can be moved later;
most system administrators would recommend that you use
--enable-shared, but the PLT Scheme developers distribute binaries
built without --enable-shared.
The `configure' script generates the makefiles for building
MzScheme and/or MrEd. The current directory at the time
`configure' is run will be used as working space for building the
executables (independent of --prefix). This build directory does
not have to be in the source tree, even for an "in-place"
build. It's ok to run `configure' from its own directory (as in
the first example above), but it's better to pick a separate build
directory that is otherwise empty (as in the second example).
The `configure' script accepts many other flags that adjust the
build process. Run `configure --help' for more information. In
addition, a specific compiler can be selected through environment
variables. For example, to select the SGI compilers for Irix
instead of gcc, run configure as
env CC=cc CXX=CC [here]configure
For cross compilation, set the compiler variables to a compiler
for the target platform compiler, but also set CC_FOR_BUILD to a
compiler for the host platform (for building binaries to execute
during the build process). If the target machine's stack grows up,
you'll have to supply --enable-stackup; if the target machine is
big-endian, you may have to supply --enable-bigendian.
If you re-run `configure' after running `make', then products of
the `make' may be incorrect due to changes in the compiler command
line. To be safe, run `make clean' each time after running
`configure'. To be even safer, run `configure' in a fresh build
directory every time.
When building for multiple platforms or configurations out of the
same source directory, beware of cached `configure' information in
`config.cache'. Avoid this problem entirely by using a separate
build directory (but the same source) for each platform or
configuration.
3. Run `make'. [As noted in step 0, this must be GNU `make'.]
With Cygwin, you may need to use `make --unix'.
Binaries and libraries are placed in subdirectories of the build
directory. For example, the `mzscheme' binary appears in the
`mzscheme' directory.
4. Run `make install'.
This step copies binaries and libraries into place within the
target installation. For example, the `mzscheme' binary is copied
into the "bin" directory for an in-place build, or into the
executable directory for a --prefix build.
For a --prefix build, this step also creates a "config.ss" module
in a "config" collection, so that various PLT tools and libraries
can find the installation directories. At this stage, in case you
are packaging an installation instead of installing directly, you
can redirect the installation by setting the "DESTDIR" environment
variable. For example, `make DESTDIR=/tmp/plt-build install'
places the installation into "/tmp/plt-build" instead of the
location originally specified with --prefix. The resulting
installation will not work, however, until it is moved to the
location originally specified with --prefix.
Finally, the `make install' step compiles ".zo" bytecode files for
installed Scheme source, and generates launcher programs like
"DrScheme". Use `make plain-install' to install without compiling
".zo" files or creating launchers.
If the installation fails because the target directory cannot be
created, or because the target directory is not the one you
want, then you can try repeating step 4 after running `configure'
again with a new --prefix value. That is, sometimes it is not
necessary to repeat step 3 (so try it and find out). On other
platforms and configurations, it is necessary to start with a
clean build directory when changing the --prefix value, because
the path gets wired into shared objects.
If you build frequently from the Subversion-based sources, beware
that you may accumulate user- and version-specific information in
your "add-ons" directory, which you can most easily find by
evaluating
(find-system-path 'addon-dir)
in MzScheme. In addition, if you configure with --enabled-shared,
you may accumlate many unused versions of the dynamic libraries in
your installation target.
After an "in-place" install without Subversion, the plt/src directory
is no longer needed, and it can be safely deleted. Build information
is recorded in a "buildinfo" file in the installation.
For a build without --prefix (or with --enable-origtree) and without
--enable-shared, you can safely move the install tree, because all
file references within the installation are relative.
OpenGL, Unix, and pthreads
--------------------------
On some Unix systems, programs that use the OpenGL library must also
link to pthreads. To use MrEd's OpenGL support on these systems, MrEd
must be configured with the --enable-pthread option. Unfortunately,
MzScheme's normal stack handling and use of signals (for its own
thread scheduling) do not interact well with pthreads. Thus, when
pthreads are enabled, MzScheme and MrEd cannot use interupt timers,
and the stack is limited to 1MB. These restrictions can degrade
performance and thread-responsiveness.
If `configure' detects that OpenGL requires -lpthread for linking,
and if --enable-pthread is not specified, `configure' prints a warning
and disables GL support. On some systems, including at least FreeBSD
with the MESA GL implementation (but not the NVIDIA implementation,
which does not need pthreads), `configure' cannot detect the need for
pthreads. On these platforms, GL support will be included in MrEd,
but it will not work properly unless --enable-pthread is specified.
========================================================================
CGC versus 3m
========================================================================
MzScheme and MrEd have two variants: CGC and 3m. The CGC variant is
older, and it cooperates more easily with extensions written in C.
The 3m variant is the default, and it usually provides better overall
performance.
The default build mode creates 3m binaries only. To create CGC
binaries in addition, run `make cgc' in addition to `make', or run
`make both'. To install both variants, use `make install-both' instead
of just `make install'. Alternately, use just `make cgc' and `make
install-cgc' to build and install just the CGC variants.
CGC variants are installed with a "cgc" suffix. To swap the default
build and install mode, supply --enable-cgcdefault to `configure'. In
that case, CGC variants are built by default, `make 3m' creates 3m
binaries, and `make install-both' installs CGC variants without a
suffix and 3m variants with a "3m" suffix.
========================================================================
Embedded Paths in the Executables
========================================================================
On all platforms, the MzScheme and MrEd binaries embed a path to the
main "collects" directory of library collections. This path can be
relative to the executable. Multiple paths can be provided, in which
case the first path is the main "collects" path, and additional paths
are placed before the main path (but after a user-specific "collects"
path) in the default collection path list.
The paths are embedded in the binary immediately after a special
"coLLECTs dIRECTORy:" tag. Each path must be NUL terminated, the
entire list of paths must end with an additional NUL terminator, and
the overall list must be less than 1024 bytes long.
As an alternative to editing an exeuctable directly, the
`create-embedding-executable' procedure from `compiler/embed' can be
used to change the embedded path. For example, the following program
clones the MzScheme executable to "/tmp/mz" and changes the embedded
path in the clone to "/tmp/collects":
(require compiler/embed)
(create-embedding-executable "/tmp/mz" #:collects-path "/tmp/collects")
Similarly, `mzc' in `--exe' or `--gui-exe' mode accepts a `--collects'
flag to set the collection path in the generated executable.
Under Windows, executables also embed a path to DLLs. For more
information, see worksp\README.
Paths to all other installation directories are found through the
"config.ss" library of the "config" collection. Search the
documentation for "config search paths" for more information.
========================================================================
Compiling the OSKit-based Kernel
========================================================================
To build the OSKit-based MzScheme kernel, run the configure script
with the --enable-oskit or --enable-smalloskit flag. The result of
compiling will be `mzscheme.multiboot' in the `mzscheme' build
directory. It is a kernel in multiboot format.
Before building the MzScheme kernel, you must first install OSKit,
which is available from the Flux Research Group at Utah:
http://www.cs.utah.edu/projects/flux/oskit/
By default, configure assumes that OSKit is installed in
/usr/local. To specify a different location for OSKit, define the
OSKHOME environment variable.
For simplicity, the MzScheme kernel uses SGC rather than Boehm's
conservative garbage collector.
The --enable-smalloskit configuration produces a kernel without
networking or filesystem support. The kernel created by
--enable--oskit accepts filesystem and networking configuration
information on its multiboot command line via the --fs and --net
flags:
--fs <drive> <partition> : mounts the given partition as the root
directory. For example, to mount the seventh parition on main disk,
supply: --fs hda f. Many filesystem formats are supported,
including EXT2, MSDOS, and VFAT (all of the ones supported by
Linux; see OSKit for details). The standard kernel can only mount
one filesystem per run; hack main.c to get more.
--net <address> <netmask> <gateway> : initializes ethernet support
for MzScheme's TCP primitives. Example: --net 128.42.6.101
255.255.255.0 128.42.6.254. Many types of ethernet cards are
supported (the ones supported by FreeBSD; see OSKit for details).
Each of --fs and --net should be used once at most. The --fs and --net
flags must appear before any other command-line arguments, which are
handled by MzScheme in the usual way.
To access a filesystem or the network from non-multiboot kernels
(e.g., a LILO-compatible kernel), you must hardwire filesystem and
networking parameters in oskglue.inc when compiling the kernel; see
oskglue.inc for details (grep for `hardwire').
========================================================================
Porting to New Platforms
========================================================================
At a mininum, to port MzScheme to a new platform, edit
mzscheme/sconfig.h to provide a platform-specific compilation
information. As dsitributed, mzscheme/sconfig.h contains
configurations for the following platforms:
Windows
Mac OS X
Linux (x86, PPC, 68k, Alpha)
Cygwin
Solaris (x86, Sparc)
SunOS4 (Sparc)
IBM AIX (RS6000)
SGI IRIX (Mips)
DEC Ultrix
HP/UX
FreeBSD
OpenBSD
NetBSD
OSF1 (Alpha)
SCO Unix (x86)
If your platfrom is not supported by the Boehm garbage collector
(distributed with PLT source), provide the `--enable-sgc' flag to
`configure'.
========================================================================
Additional Compilation Notes
========================================================================
Garbage Collector
-----------------
The conservative garbage collector distributed with MzScheme (in the
gc directory) has been modified slightly from Boehm's standard
distribution. Mostly, the change modify the way that object
finalization is handled.
Configuration Options
---------------------
By default, MzScheme is compiled without support for single-precision
floating point numbers. This and other options can be modified by
setting flags in mzscheme/sconfig.h.
Modifying MzScheme
------------------
If you modify MzScheme and change any primitive syntax or the
collection of built-in identifers, be sure to turn off
USE_COMPILED_MACROS in schminc.h. Otherwise, MzScheme won't start.
See schminc.h for details.
