Installation
************

This file documents the installation of the GNUstep Database Library,
`GDL'.  Copyright (C) 1997 Free Software Foundation, Inc.  You may
copy, distribute, and modify this file freely as long as you preserve
this copyright notice and permission notice.

Installing `GDL' version 1.0.0
==============================

   To compile and install `GDL':

  1. Determine what Foundation library you have installed on your
     system.  This package was tested with NeXT's Foundation,
     libFoundation, and the GNUstep Base Library.

     The configure script will try to determine the Foundation libraries
     installed on your system, but if it's unable to determine the
     library or if you have more than one Foundation library installed;
     then you need to specify which Foundation library to use.

     To do this, you should set the FOUNDATION shell variable to the
     Foundation library name; this example selects the NeXT Foundation:
          FOUNDATION=foundation ./configure

     Use `gnustep-base' for the GNUstep Base Library and
     `libFoundation' for the libFoundation library.

  2. Determine if you need the FoundationExtensions library; the
     following scenarios require this library:

        * NEXTSTEP 3.3 and NeXT's Foundation library.

        * GNUstep Base Library on any platform.

  3. Determine which database adaptors to compile.  The header files and
     libraries for your database will be required in order to compile
     the source code for the adaptor.  If these header files and
     libraries are not in the standard include and library paths for
     GCC, then use the `CFLAGS' and `LDFLAGS' make variables to specify
     the directories.

     Pass the parameter `--with-sqlserver' to compile the Microsoft
     SQLServer database adaptor, `--with-postgres95' to compile the
     PostgreSQL database adaptor, and `--with-sybase' to compile the
     Sybase database adaptor.  The following example specifies that the
     PostgreSQL database adaptor be compiled:
          ./configure --with-postgres95

     Type `./configure --help' to list what other parameters
     `configure' accepts, and what other database adaptors can be
     compiled.

  4. 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 less than a minute or two.  While it is
     running, it prints some messages that tell what it is doing.  If
     you don't want to see the messages, run `configure' with its
     standard output redirected to `/dev/null'; for example:
          ./configure >/dev/null

     To compile the package in a different directory from the one
     containing the source code, you must use a version of make that
     supports the VPATH variable, such as GNU make.  `cd' to the
     directory where you want the object files and executables to go
     and run `configure'.  `configure' automatically checks for the
     source code in the directory that `configure' is in and in `..'.
     If for some reason `configure' is not in the source code directory
     that you are configuring, then it will report that it can't find
     the source code.  In that case, run `configure' with the option
     `--srcdir=DIR', where DIR is the directory that contains the
     source code.

     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 giving a value for the `prefix' variable when you run
     `make', e.g.,
          make prefix=/usr/gnu

     You can specify separate installation prefixes for
     architecture-specific files and architecture-independent files.
     If you give `configure' the option `--exec_prefix=PATH' or set the
     `make' variable `exec_prefix' to PATH, the package will use PATH
     as the prefix for installing programs and libraries.  Data files
     and documentation will still use the regular prefix.  Normally,
     all files are installed using the regular prefix.

     You can tell `configure' to figure out the configuration for your
     system, and record it in `config.status', without actually
     configuring the package (creating `Makefile's and perhaps a
     configuration header file).  To do this, give `configure' the
     `--no-create' option.  Later, you can run `./config.status' to
     actually configure the package.  This option is useful mainly in
     `Makefile' rules for updating `config.status' and `Makefile'.  You
     can also give `config.status' the `--recheck' option, which makes
     it re-run `configure' with the same arguments you used before.
     This is useful if you change `configure'.

     `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, `install.sh' otherwise.

     (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 figure out how `configure' could check whether to
     do them, and mail diffs or instructions to the address given in
     the `README' so we can include them in the next release.

  5. Type `make' to compile the package; `GDL' requires that you use
     GNU make.  If you want, you can override the `make' variables
     `CFLAGS' and `LDFLAGS' like this:
          make CFLAGS=-O2 LDFLAGS=-s

  6. Type `make check' to run the tests.  The tests are written for a
     specific database adaptor; read the file `tests/README' regarding
     how to prepare your database.

     All the tests are written using the DejaGnu testing framework, so
     if you don't have it installed then you will need to do so before
     trying out these tests.

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

  8. You can remove the program binaries and object files from the
     source directory by typing `make clean'.  To also remove the
     Makefile(s), 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'.


