Brief Installation Instructions ===========================================

To build GOOPS on unix, there are two (three) basic steps:

	0. If you don't have a Guile version between 1.3.2 and 1.4,
           inclusively, installed on your system, you need to do that
           first.  (See README under "Obtaining GOOPS").

	1. Type "./configure", to configure the package for your system.

	2. Type "make", to build the package.

Generic instructions for configuring and compiling GNU distributions
are included below.


What You Get ==============================================================

The `configure' script examines your system, and adapts GOOPS to
compile and run on it.

The `make' command builds several things:
- An executable file `guile-oops' which is the basic Guile interpreter
  linked with GOOPS.
- An object library `.libs/libgoopscore.a', containing the low-level
  part of GOOPS, ready to be linked into your programs.

To install GOOPS, type `make install'.  This installs the executable
and libraries mentioned above, as well as GOOPS's header files and
Scheme libraries.

Make also builds shared libraries, on systems that support them.
Because of the nature of shared libraries, before linking against
them, you should probably install them; `make install' takes care of
this.


Flags Accepted by Configure ===============================================

If you run the configure script with no arguments, it should examine
your system and set things up appropriately.  However, there are a few
switches specific to GOOPS you may find useful in some circumstances.

--enable-maintainer-mode --- If you have automake, autoconf, and
libtool installed on your system, this switch causes configure to
generate Makefiles which know how to automatically regenerate
configure scripts, makefiles, and headers, when they are out of date. 
The README file says which versions of those tools you will need.

--disable-shared --- Do not build shared libraries.  Normally, Guile
will build shared libraries if your system supports them.  Guile
always builds static libraries.

--enable-fdi-example --- Compile and link the file fdi.c into
guile-oops.  This is a demonstration of a primitive foreign data
interface which makes it possible to treat application specific data
structures as GOOPS objects.


Building a Statically Linked GOOPS ===================================

Sometimes it's useful to build a statically-linked version of the
guile-oops executable.  It's helpful in debugging, and for producing
stand-alone executables for distribution to machines you don't
control.

To do this, set the LDFLAGS environment variable to `-static' before
you configure, or before you run the `make' command to build the
executable.


Generic Instructions for Building Auto-Configured Packages ================

To compile this package:

1.  Configure the package for your system.  In the directory that this
file is in, type `./configure'.  If you're using `csh' on an old
version of System V, you might need to type `sh configure' instead to
prevent `csh' from trying to execute `configure' itself.

The `configure' shell script attempts to guess correct values for
various system-dependent variables used during compilation, and
creates the Makefile(s) (one in each subdirectory of the source
directory).  In some packages it creates a C header file containing
system-dependent definitions.  It also creates a file `config.status'
that you can run in the future to recreate the current configuration.
Running `configure' takes a minute or two.

To compile the package in a different directory from the one
containing the source code, you must use GNU make.  `cd' to the
directory where you want the object files and executables to go and
run `configure' with the option `--srcdir=DIR', where DIR is the
directory that contains the source code.  Using this option is
actually unnecessary if the source code is in the parent directory of
the one in which you are compiling; `configure' automatically checks
for the source code in `..' if it does not find it in the current
directory.

By default, `make install' will install the package's files in
/usr/local/bin, /usr/local/lib, /usr/local/man, etc.  You can specify
an installation prefix other than /usr/local by giving `configure' the
option `--prefix=PATH'.  Alternately, you can do so by changing the
`prefix' variable in the Makefile that `configure' creates (the
Makefile in the top-level directory, if the package contains
subdirectories).

You can specify separate installation prefixes for machine-specific
files and machine-independent files.  If you give `configure' the
option `--exec_prefix=PATH', the package will use PATH as the prefix
for installing programs and libraries.  Normally, all files are
installed using the same prefix.

`configure' ignores any other arguments that you give it.

If your system requires unusual options for compilation or linking
that `configure' doesn't know about, you can give `configure' initial
values for some variables by setting them in the environment.  In
Bourne-compatible shells, you can do that on the command line like
this:
	CC='gcc -traditional' DEFS=-D_POSIX_SOURCE ./configure

The `make' variables that you might want to override with environment
variables when running `configure' are:

(For these variables, any value given in the environment overrides the
value that `configure' would choose:)
CC		C compiler program.
		Default is `cc', or `gcc' if `gcc' is in your PATH.
INSTALL		Program to use to install files.
		Default is `install' if you have it, `cp' otherwise.
INCLUDEDIR	Directory for `configure' to search for include files.
		Default is /usr/include.

(For these variables, any value given in the environment is added to
the value that `configure' chooses:)
DEFS		Configuration options, in the form '-Dfoo -Dbar ...'
LIBS		Libraries to link with, in the form '-lfoo -lbar ...'

If you need to do unusual things to compile the package, we encourage
you to teach `configure' how to do them and mail the diffs to the
address given in the README so we can include them in the next
release.

2.  Type `make' to compile the package.

3.  Type `make install' to install programs, data files, and
documentation.

4.  You can remove the program binaries and object files from the
source directory by typing `make clean'.  To also remove the
Makefile(s), the header file containing system-dependent definitions
(if the package uses one), and `config.status' (all the files that
`configure' created), type `make distclean'.

The file `configure.in' is used as a template to create `configure' by
a program called `autoconf'.  You will only need it if you want to
regenerate `configure' using a newer version of `autoconf'.