NetBSD/gnu/dist/etc/configure.info-1
1997-09-24 15:39:15 +00:00

1175 lines
49 KiB
Plaintext
Raw Blame History

This file contains invisible Unicode characters

This file contains invisible Unicode characters that are indistinguishable to humans but may be processed differently by a computer. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

This is Info file configure.info, produced by Makeinfo-1.64 from the
input file ./configure.texi.
START-INFO-DIR-ENTRY
* configure: (configure). Cygnus configure.
END-INFO-DIR-ENTRY
This document describes the Cygnus Support version of `configure'.
Copyright (C) 1991, 1992, 1993 Cygnus Support Permission is granted
to make and distribute verbatim copies of this manual provided the
copyright notice and this permission notice are preserved on all copies.
Permission is granted to copy and distribute modified versions of
this manual under the conditions for verbatim copying, provided that
the entire resulting derived work is distributed under the terms of a
permission notice identical to this one.
Permission is granted to copy and distribute translations of this
manual into another language, under the above conditions for modified
versions, except that this permission notice may be stated in a
translation approved by Cygnus Support.

File: configure.info, Node: Top, Next: What configure does, Up: (dir)
Cygnus configure
****************
This file documents the configuration system used and distributed by
Cygnus Support.
* Menu:
* What configure does:: What configure does
* Invoking configure:: Invoking configure--basic usage
* Using configure:: More than you ever wanted to know
* Porting:: How to use configure with new programs
* Variables Index::
* Concept Index::

File: configure.info, Node: What configure does, Next: Invoking configure, Prev: Top, Up: Top
What `configure' does
*********************
This manual documents Cygnus `configure', a program which helps to
automate much of the setup activity associated with building large
suites of programs, such the Cygnus Support Developer's Kit. This
manual is therefore geared toward readers who are likely to face the
problem of configuring software in source form before compiling and
installing it. We assume you are an experienced programmer or system
administrator. For further background on this topic, see *Note
Apologia Configure: (cfg-paper)Some Basic Terms, by K. Richard Pixley.
When `configure' runs, it does the following things:
** creates build directories*
When you run `configure' with the `--srcdir' option, it uses the
current directory as the "build directory", creating under it a
directory tree that parallels the directory structure of the
source directory. If you don't specify a `srcdir', `configure'
first assumes that the source code you wish to configure is in
your current directory; if it finds no `configure.in' input file
there, it searches in the directory `configure' itself lies in.
(For details, see *Note Build directories: Build directories.)
** generates `Makefile'*
A `Makefile' template from the source directory, usually called
`Makefile.in', is copied to an output file in the build directory
which is most often named `Makefile'. `configure' places
definitions for a number of standard `Makefile' macros at the
beginning of the output file. If `--prefix=DIR' or
`--exec_prefix=DIR' are specified on the `configure' command line,
corresponding `Makefile' variables are set accordingly. If host,
target, or site-specific `Makefile' fragments exist, these are
inserted into the output file. (For details, see *Note `Makefile'
generation: Makefile generation.)
** generates `.gdbinit'*
If the source directory contains a `.gdbinit' file and the build
directory is not the same as the source directory, a `.gdbinit'
file is created in the build directory. This `.gdbinit' file
contains commands which allow the source directory to be read when
debugging with the GNU debugger, `gdb'. (*Note Command Files:
(gdb)Command Files.)
** makes symbolic links*
Most build directories require that some symbolic links with
generic names are built pointing to specific files in the source
directory. If the system where `configure' runs cannot support
symbolic links, hard links are used instead. (For details, see
*Note The `configure.in' input file: configure.in.)
** generates `config.status'*
`configure' creates a shell script named `config.status' in the
build directory. This shell script, when run from the build
directory (usually from within a `Makefile'), will reconfigure the
build directory (but not its subdirectories). This is most often
used to have a `Makefile' update itself automatically if a new
source directory is available.
** calls itself recursively*
If the source directory has subdirectories that should also be
configured, `configure' is called for each.

File: configure.info, Node: Invoking configure, Next: Using configure, Prev: What configure does, Up: Top
Invoking `configure'
********************
Cygnus `configure' is a shell script which resides in a source tree.
The usual way to invoke `configure' is from the shell, as follows:
eg$ ./configure HOSTTYPE
This prepares the source in the current directory (`.') to be compiled
for a HOSTTYPE environment. It assumes that you wish to build programs
and files in the default "build directory" (also the current directory,
`.'). If you do not specify a value for HOSTTYPE, Cygnus `configure'
will attempt to discover this information by itself (*note Determining
system information: config.guess.). For information on HOSTTYPE
environments, *Note Host: Host.
All GNU software is packaged with one or more `configure' script(s)
(*note How Configuration Should Work: (standards)Configuration.). By
using `configure' you prepare the source for your specific environment
by selecting and using `Makefile' fragments and fragments of shell
scripts, which are prepared in advance and stored with the source.
`configure''s command-line options also allow you to specify other
aspects of the source configuration:
configure HOSTTYPE [--target=TARGET] [--srcdir=DIR] [--rm]
[--site=SITE] [--prefix=DIR] [--exec-prefix=DIR]
[--program-prefix=STRING] [--tmpdir=DIR]
[--with-PACKAGE[=YES/NO]] [--without-PACKAGE]
[--enable-FEATURE[=YES/NO]] [--disable-FEATURE]
[--norecursion] [--nfp] [-s] [-v] [-V | --version] [--help]
`--target=TARGET'
Requests that the sources be configured to target the TARGET
machine. If no target is specified explicitly, the target is
assumed to be the same as the host (i.e., a "native"
configuration). *Note Host: Host, and *Note Target: Target, for
discussions of each.
`--srcdir=DIR'
Direct each generated `Makefile' to use the sources located in
directory DIR. Use this option whenever you wish the object code
to reside in a different place from the source code. The "build
directory" is always assumed to be the directory you call
`configure' from. See *Note Build directories: Build directories,
for an example. If the source directory is not specified,
`configure' assumes that the source is in your current directory.
If `configure' finds no `configure.in' there, it searches in the
same directory that the `configure' script itself lies in.
Pathnames specified (Values for DIR) can be either absolute
relative to the *build* directory.
`--rm'
*Remove* the configuration specified by HOSTTYPE and the other
command-line options, rather than create it.
*Note:* We recommend that you use `make distclean' rather than
use this option; see *Note Invoking `make': (make)Invoking
make, for details on `make distclean'.
`--site=SITE'
Generate the `Makefile' using site-specific `Makefile' fragments
for SITE. *Note Adding information about local conventions:
Makefile fragments.
`--prefix=DIR'
Configure the source to install programs and files under directory
DIR.
This option sets the variable `prefix'. Each generated `Makefile'
will have its `prefix' variables set to this value. (*Note What
`configure' really does: What configure really does.)
`--exec-prefix=DIR'
Configure the source to install "host dependent" files in DIR.
This option sets the variable `exec_prefix'. Each generated
`Makefile' will have its `exec_prefix' variables set to this value.
(*Note What `configure' really does: What configure really does.)
`--program-prefix=STRING'
Configure the source to install certain programs using STRING as a
prefix. This applies to programs which might be used for
cross-compilation, such as the compiler and the binary utilities,
and also to programs which have the same names as common Unix
programs, such as `make'.
This option sets the variable `program_prefix'. Each generated
`Makefile' will have its `program_prefix' variables set to this
value. (*Note What `configure' really does: What configure really
does.)
`--tmpdir=TMPDIR'
Use the directory TMPDIR for `configure''s temporary files. The
default is the value of the environment variable `TMPDIR', or
`/tmp' if the environment variable is not set.
`--with-PACKAGE[=YES/NO]'
`--without-PACKAGE'
Indicate that PACKAGE is present, or not present, depending on
YES/NO. If YES/NO is nonexistent, its value is assumed to be
`yes'. `--without-PACKAGE' is equivalent to `--with-PACKAGE=no'.
For example, if you wish to configure the program `gcc' for a Sun
SPARCstation running SunOS 4.x, and you want `gcc' to use the GNU
linker `ld', you can configure `gcc' using
eg$ configure --with-gnu-ld sun4
*Note What `configure' really does: What configure really does, for
details. See the installation or release notes for your
particular package for details on which other PACKAGE options are
recognized.
`--enable-FEATURE[=YES/NO]'
`--disable-FEATURE'
Include FEATURE, or not, depending on YES/NO. If YES/NO is
nonexistent, its value is assumed to be `yes'.
`--disable-FEATURE' is equivalent to `--enable-FEATURE=no'.
*Note What `configure' really does: What configure really does, for
details. See the installation or release notes for your
particular package for details on which other FEATURE options are
recognized.
`--norecursion'
Configure only this directory; ignore any subdirectories. This is
used by the executable shell script `config.status' to reconfigure
only the current directory; it is most often used
non-interactively, when `make' is invoked. (*Note
`config.status': config.status.)
`--nfp'
Assume that the intended HOSTTYPE has no floating point unit.
`-s'
Suppress status output. This option is used internally by
`configure' when calling itself recursively in subdirectories. You
can override this option with the `--verbose' option.
`-v'
`--verbose'
Print status lines for each directory configured. Normally, only
the status lines for the initial working directory are printed.
`--version'
`-V'
Print the `configure' version number.
`--help'
Print a short summary of how to invoke `configure'.
*Note:* You may introduce options with a single dash, `-', rather
than two dashes, `--'. However, you may not be able to truncate long
option names when using a single dash. When using two dashes, options
may be abbreviated as long as each option can be uniquely identified.
For example,
eg$ configure --s=/u/me/src HOSTTYPE
is ambiguous, as `--s' could refer to either `--site' or `--srcdir'.
However,
eg$ configure --src=/u/me/src HOSTTYPE
is a valid abbreviation.

File: configure.info, Node: Using configure, Next: Porting, Prev: Invoking configure, Up: Top
Using `configure'
*****************
`configure' prepares source directories for building programs in
them. "Configuring" is the process of preparing software to compile
correctly on a given "host", for a given "target".
`configure' subsequently writes a configured `Makefile' from a
pre-built template; `configure' uses variables that have been set in the
configuring process to determine the values of some variables in the
`Makefile'. Because of this we will refer to both `configure'
variables and `Makefile' variables. This convention allows us to
determine where the variable should be set initially, in either
`configure.in' or `Makefile.in'.
* Menu:
* What configure really does:: What configure really does
* configure.in:: The configure.in input file
* Install locations:: Where to install things once they are built
* Host:: Telling configure what will source will be built
* Target:: Telling configure what the source will target
* Makefile fragments:: Adding information about local conventions
* Makefile extensions:: Extensions to the GNU coding standards

File: configure.info, Node: What configure really does, Next: configure.in, Up: Using configure
What `configure' really does
============================
Cygnus `configure' is a shell script that sets up an environment in
which your programs will compile correctly for your machine and
operating system, and will install in proper places. `configure'
accomplishes this task by doing the following:
* it generates a `Makefile' from a custom template called
`Makefile.in' in each relevant source directory;
* it customizes the build process to your specifications; you set
certain variables for `configure', either on the command line or
in the file `configure.in', which subsequently sets variables in
each generated `Makefile' to be used by `make' when actually
building the software;
* it creates "build directories", places for your code to be compiled
in before being installed;
* it generates a `.gdbinit' in the build directory, if needed, to
communicate to `gdb' where to find the program's source code;
* it generates a shell script called `config.status' which is used
most often by the `Makefile' to reconfigure itself;
* it recurses in subdirectories, setting up entire trees so that
they build correctly; if `configure' finds another `configure'
script further down in a given source tree, it knows to use this
script and not recur.
For the sake of safety (i.e., in order to prevent broken
installations), the GNU coding standards call for software to be
"configured" in such a way that an end user trying to build a given
package will be able to do so by affecting a finite number of
variables. All GNU software comes with an executable `configure' shell
script which sets up an environment within a build directory which will
correctly compile your new package for your host (or, alternatively,
whatever host you specify to `configure'). For further background on
this topic, see *Note Apologia Configure: (cfg-paper)Some Basic Terms,
by K. Richard Pixley.
Use `configure' to set for the build process:
* correct values for certain variables;
* which type of host you wish to configure a given package for
(*note Host: Host.);
* where you want to install this package (by using `prefix',
`exec-prefix' and `program-prefix'; *note Full descriptions of all
installation directories: Install details.);
* optionally, which type of machine you wish to "target" this
package's output to (*note Target: Target.);
* which other GNU packages are already installed and available to
this particular build (by using the `--with-PACKAGE' option; *note
Invoking `configure': Invoking configure.);
* where to place temporary files (by using the `--tmpdir=DIR'
option; *note Invoking `configure': Invoking configure.);
* whether to recur in subdirectories (changeable through the
`--norecursion' option; *note Invoking `configure': Invoking
configure.).
`configure' uses a few other files to complete its tasks. These are
discussed in detail where noted.
`configure.in'
Input file for `configure'. Shell script fragments reside here.
*Note The `configure.in' input file: configure.in.
`Makefile.in'
Template which `configure' uses to build a file called `Makefile'
in the "build directory". *Note `Makefile' generation: Makefile
generation.
`config.sub'
Shell script used by `configure' to expand referents to the
HOSTTYPE argument into a single specification of the form
CPU-VENDOR-OS. For instance, on the command line you can specify
eg$ ./configure sun4
to configure for a Sun SPARCstation running SunOS 4.x. `configure'
consults `config.sub' to find that the three-part specification
for this is
sparc-sun-sunos4.1.1
which notes the CPU as `sparc', the MANUFACTURER as `sun' (Sun
Microsystems), and the OS (operating system) as `sunos4.1.1', the
SunOS 4.1.1 release. *Note Variables available to `configure':
configure variables.
`config.guess'
If you do not put the HOSTTYPE argument on the command line,
`configure' uses the `config.guess' shell script to make an
analysis of your machine (it assumes that you wish to configure
your software for the type of machine on which you are running).
The output of `config.guess' is a three-part identifier as
described above.
`config.status'
The final step in configuring a directory is to create a shell
script, `config.status'. The main purpose of this file is to
allow the `Makefile' for the current directory to rebuild itself,
if necessary. *Note `config.status': config.status.
`config/*'
`configure' uses three types of `Makefile' "fragments", which
reside in the directory `SRCDIR/config/'. *Note Adding
information about local conventions: Makefile fragments.
* Menu:
* Build variables:: Variable-spaghetti made simple
* Build directories:: Build directories described well
* Makefile generation:: To build a Makefile
* config.guess:: Be vewwy quiet, I'm hunting system information
* config.status:: To rebuild a Makefile

File: configure.info, Node: Build variables, Next: Build directories, Up: What configure really does
Build variables
---------------
There are several variables in the build process which you can
control through build programs such as `make'. These include machine
definitions, local conventions, installation locations, locations for
temporary files, etc. This data is accessible through certain
variables which are configurable in the build process; we refer to them
as "build variables".
For lists of build variables which you can affect by using
`configure', see *Note Variables available to `configure.in': configure
variables, and *Note Full descriptions of all installation directories:
Install details.
Generally, build variables, which are used by the `Makefile' to
determine various aspects of the build and installation processes, are
changeable with command-line options to `configure'. In most large
suites of programs, like the Cygnus Support Developer's Kit, the
individual programs reside in several subdirectories of a single source
code "tree". All of these subdirectories need to be configured with
information relative to the "build directory", which is not known until
`configure' is run. Unless specified otherwise, `configure'
recursively configures every subdirectory in the source tree.
Build variables are passed from `configure' directly into the
`Makefile', and use the same names (except that dashes are transformed
into underbars; for example, when you specify the option
`--exec-prefix' on the command line, the `Makefile' variable
`exec_prefix' is set). In other words, if you specify
eg$ ./configure --prefix=/usr/gnu/local ... HOSTTYPE
on the command line, `configure' sets an variable called `prefix' to
`/usr/gnu/local', and passes this into the `Makefile' in the same
manner. After this command, each `Makefile' generated by `configure'
will contain a line that reads:
prefix = /usr/gnu/local
For a list of the `Makefile' variables `configure' can change, and
instructions on how to change them, see *Note Variables available to
`configure.in': configure variables, and *Note Invoking `configure':
Invoking configure.

File: configure.info, Node: Build directories, Next: Makefile generation, Prev: Build variables, Up: What configure really does
Build directories
-----------------
By default, `configure' builds a `Makefile' and symbolic links in the
same directory as the source files. This default works for many cases,
but it has limitations. For instance, using this approach, you can
only build object code for one host at a time.
We refer to each directory where `configure' builds a `Makefile' as
a "build directory".
The build directory for any given build is always the directory from
which you call `configure', or `.' relative to your prompt. The default
"source directory", the place `configure' looks to find source code, is
also `.'. For instance, if we have a directory `/gnu-stuff/src/' that
is the top branch of a tree of GNU source code we wish to configure,
then the program we will use to configure this code is
`/gnu-stuff/src/configure', as follows. (Assume for the sake of
argument that our machine is a sun4.)
eg$ cd /gnu-stuff/src
eg$ ./configure sun4
Created "Makefile" in /gnu-stuff/src
eg$
We just configured the code in `/gnu-stuff/src' to run on a Sun
SPARCstation using SunOS 4.x by creating a `Makefile' in
`/gnu-stuff/src'. By default, we also specified that when this code is
built, the object code should reside in the same directory,
`/gnu-stuff/src'.
However, if we wanted to build this code for more than one host, we
would be in trouble, because the new configuration would write over the
old one, destroying it in the process. What we can do is to make a new
"build directory" and configure from there. Running `configure' from
the new directory will place a correct `Makefile' and a `config.status'
in this new file. That is all `configure' does; we must run `make' to
generate any object code.
The new `Makefile' in `/gnu-stuff/sun4-obj', created from the
template file `/gnu-stuff/src/Makefile.in', contains all the information
needed to build the program.
eg$ mkdir /gnu-stuff/sun4-obj
eg$ cd /gnu-stuff/sun4-obj
eg$ ../src/configure --srcdir=../src sun4
Created "Makefile" in /gnu-stuff/sun4-obj
eg$ ls
Makefile config.status
eg$ make all info install install-info clean
COMPILATION MESSAGES...
eg$ mkdir /gnu-stuff/solaris2
eg$ cd /gnu-stuff/solaris2
eg$ ../src/configure --srcdir=../src sol2
Created "Makefile" in /gnu-stuff/solaris2
eg$ ls
Makefile config.status
eg$ make all info install install-info clean
COMPILATION MESSAGES...
We can repeat this for other configurations of the same software
simply by making a new build directory and reconfiguring from inside
it. If you do not specify the HOSTTYPE argument, `configure' will
attempt to figure out what kind of machine and operating system you
happen to be using. *Note Determining system information:
config.guess. Of course, this may not always be the configuration you
wish to build.
*Caution:* If you build more than one configuration for a single
program, remember that you must also specify a different `--prefix' for
each configuration at configure-time. Otherwise, both configurations
will be installed in the same default location (`/usr/local'); the
configuration to be installed last would overwrite previously installed
configurations.

File: configure.info, Node: Makefile generation, Next: config.guess, Prev: Build directories, Up: What configure really does
`Makefile' generation
---------------------
Cygnus `configure' creates a file called `Makefile' in the build
directory which can be used with `make' to automatically build a given
program or package. `configure' also builds a `Makefile' for each
relevant subdirectory for a given program or package (irrelevant
subdirectories would be those which contain no code which needs
configuring, and which therefore have no `configure' input file
`configure.in' and no `Makefile' template `Makefile.in'). *Note `make'
Invocation: (make)Running, for details on using `make' to compile your
source code.
Each `Makefile' contains variables which have been configured for a
specific build. These build variables are determined when `configure'
is run. All build variables have defaults. By default, `configure'
generates a `Makefile' which specifies:
* a "native" build, which is to occur
* in the current directory, and which will be installed
* in the default installation directory (`/usr/local') when the code
is compiled with `make'.
Variables are changeable through command-line options to `configure'
(*note Invoking `configure': Invoking configure.).
If you are porting a new program and intend to use `configure', see
*Note Porting with `configure': Porting, as well as *Note Writing
Makefiles: (make)Makefiles, and *Note Makefile Conventions:
(standards)Makefiles.

File: configure.info, Node: config.guess, Next: config.status, Prev: Makefile generation, Up: What configure really does
Determining system information
------------------------------
The shell script `config.guess' is called when you do not specify a
HOSTTYPE on the command line to `configure'. `config.guess' acquires
available system information from your local machine through the shell
command `uname'. It compares this information to a database and
attempts to determine a usable three-part system identifier (known as a
"triple") to use as your HOSTTYPE. *Note What `configure' really does:
What configure really does, to see how this information is used.
*Note:* If you do not specify a HOSTTYPE on the command line,
`configure' will attempt to configure your software to run on the
machine you happen to be using. This may not be the configuration you
desire.

File: configure.info, Node: config.status, Prev: config.guess, Up: What configure really does
`config.status'
---------------
The final step in configuring a directory is to create an executable
shell script, `config.status'. The main purpose of this file is to
allow the `Makefile' for the current directory to rebuild itself, if
necessary. It is usually run from within the `Makefile'. *Note
Extensions to the GNU coding standards: Makefile extensions.
`config.status' also contains a record of the `configure' session
which created it.

File: configure.info, Node: configure.in, Next: Install locations, Prev: What configure really does, Up: Using configure
The `configure.in' input file
=============================
A `configure.in' file for Cygnus `configure' consists of a
"per-invocation" section, followed by a "per-host" section, followed by
a "per-target" section, optionally followed by a "post-target" section.
Each section is a shell script fragment, which is executed by the
`configure' shell script at an appropriate time. Values are passed
among `configure' and the shell fragments through a set of shell
variables. When each section is being interpreted by the shell, the
shell's current directory is the build directory, and any files created
by the section (or referred to by the section) will be relative to the
build directory. To reference files in other places (such as the
source directory), prepend a shell variable such as `$(srcdir)/' to the
desired file name.
The beginning of the `configure.in' file begins the "per-invocation"
section.
A line beginning with `# per-host:' begins the "per-host" section.
A line beginning with `# per-target:' begins the "per-target"
section.
If it exists, the "post-target" section begins with `# post-target:'.
* Menu:
* configure variables:: Variables available to configure.in
* Minimal:: A minimal configure.in
* Declarations:: For each invocation
* per-host:: Host-specific instructions
* per-target:: Target-specific instructions
* post-target:: Instructions to be executed after target info
* Example:: An example configure.in

File: configure.info, Node: configure variables, Next: Minimal, Up: configure.in
Variables available to `configure.in'
-------------------------------------
The following variables pass information between the standard parts
of `configure' and the shell-script fragments in `configure.in':
`srctrigger'
Contains the name of a source file that is expected to live in the
source directory. You must usually set this in the
"per-invocation" section of `configure.in'. `configure' tests to
see that this file exists. If the file does not exist,
`configure' prints an error message. This is used as a sanity
check that `configure.in' matches the source directory.
`srcname'
Contains the name of the source collection contained in the source
directory. You must usually set this in the "per-invocation"
section of `configure.in'. If the file named in `srctrigger' does
not exist, `configure' uses the value of `srcname' when it prints
the error message.
`configdirs'
Contains the names of any subdirectories in which `configure'
should recurse. You must usually set this in the "per-invocation"
section of `configure.in'. If `Makefile.in' contains a line
starting with `SUBDIRS =', then it will be replaced with an
assignment to `SUBDIRS' using the value of `configdirs' (if
`subdirs' is empty). This can be used to determine which
directories to configure and build depending on the host and
target configurations. Use `configdirs' (instead of the `subdirs'
variable described below) if you want to be able to partition the
subdirectories, or use independent `Makefile' fragments. Each
subdirectory can be independent, and independently reconfigured.
`subdirs'
Contains the names of any subdirectories where `configure' should
create a `Makefile' (in addition to the current directory),
*without* recursively running `configure'. Use `subdirs' (instead
of the `configdirs' variable described above) if you want to
configure all of the directories as a unit. Since there is a
single invocation of `configure' that configures many directories,
all the directories can use the same `Makefile' fragments, and the
same `configure.in'.
`host'
Contains the full configuration name for the host (generated by
the script `config.sub' from the name that you entered). This is
a three-part name (commonly referred to as a "triple") of the form
CPU-VENDOR-OS.
There are separate variables `host_cpu', `host_vendor', and
`host_os' that you can use to test each of the three parts; this
variable is useful, however, for error messages, and for testing
combinations of the three components.
`host_cpu'
Contains the first element of the canonical triple representing
the host as returned by `config.sub'. This is occasionally used to
distinguish between minor variations of a particular vendor's
operating system and sometimes to determine variations in binary
format between the host and the target.
`host_vendor'
Contains the second element of the canonical triple representing
the host as returned by `config.sub'. This is usually used to
distinguish among the numerous variations of *common* operating
systems.
`host_os'
Contains the the third element of the canonical triple
representing the host as returned by `config.sub'.
`target'
Contains the full configuration name (generated by the script
`config.sub' from the name that you entered) for the target. Like
the host, this is a three-part name of the form CPU-VENDOR-OS.
There are separate variables `target_cpu', `target_vendor', and
`target_os' that you can use to test each of the three parts; this
variable is useful, however, for error messages, and for testing
combinations of the three components.
`target_cpu'
Contains the first element of the canonical triple representing
the target as returned by `config.sub'. This variable is used
heavily by programs which are involved in building other programs,
like the compiler, assembler, linker, etc. Most programs will not
need the `target' variables at all, but this one could conceivably
be used to build a program, for instance, that operated on binary
data files whose byte order or alignment differ from the system
where the program is running.
`target_vendor'
Contains the second element of the canonical triple representing
the target as returned by `config.sub'. This is usually used to
distinguish among the numerous variations of *common* operating
systems or object file formats. It is sometimes used to switch
between different flavors of user interfaces.
`target_os'
Contains the the third element of the canonical triple
representing the target as returned by `config.sub'. This
variable is used by development tools to distinguish between
subtle variations in object file formats that some vendors use
across operating system releases. It might also be use to decide
which libraries to build or what user interface the tool should
provide.
`floating_point'
Set to `no' if you invoked `configure' with the `--nfp'
command-line option, otherwise it is empty. This is a request to
target machines with "no floating point" unit, even if the targets
ordinarily have floating point units available.
`gas'
Set to `true' if you invoked `configure' with the `--with-gnu-as'
command line option, otherwise it is empty. This is a request to
assume that the specified HOSTTYPE machine has GNU `as' available
even if it ordinarily does not.
`srcdir'
Set to the name of the directory containing the source for this
program. This will be different from `.' if you have specified the
`--srcdir=DIR' option. `srcdir' can indicate either an absolute
path or a path relative to the build directory.
`package_makefile_frag'
If set in `configure.in', this variable should be the name a file
relative to `srcdir' to be included in the resulting `Makefile'.
If the named file does not exist, `configure' will print a warning
message. This variable is not set by `configure'.
`host_makefile_frag'
If set in `configure.in', this variable should be the name a file
relative to `srcdir' to be included in the resulting `Makefile'.
If the named file does not exist, `configure' will print a warning
message. This variable is not set by `configure'.
`target_makefile_frag'
If set in `configure.in', this variable should be the name of a
file, relative to `srcdir', to be included in the resulting
`Makefile'. If the named file does not exist, `configure' will
print a warning message. This variable is not set by `configure'.
`site_makefile_frag'
Set to a file name representing to the default `Makefile' fragment
for this host. It may be set in `configure.in' to override this
default. Normally `site_makefile_frag' is empty, but will have a
value if you specify `--site=SITE' on the command line.
`Makefile'
Set to the name of the generated `Makefile'. Normally this value
is precisely `Makefile', but some programs may want something else.
`removing'
Normally empty but will be set to some non-null value if you
specified `--rm' on the command line. That is, if `removing' is
not empty, then `configure' is *removing* a configuration rather
than creating one.
`files'
If this variable is not empty following the "per-target" section,
then each word in its value will be the target of a symbolic link
named in the corresponding word from the `links' variable.
`links'
If the `files' variable is not empty following the "per-target"
section, then `configure' creates symbolic links with the first
word of `links' pointing to the first word of `files', the second
word of `links' pointing to the second word of `files', and so on.

File: configure.info, Node: Minimal, Next: Declarations, Prev: configure variables, Up: configure.in
A minimal `configure.in'
------------------------
A minimal `configure.in' consists of four lines.
srctrigger=foo.c
srcname="source for the foo program"
# per-host:
# per-target:
The `# per-host:' and `# per-target:' lines divide the file into the
three required sections. The `srctrigger' line names a file.
`configure' checks to see that this file exists in the source directory
before configuring. If the `srctrigger' file does not exist,
`configure' uses the value of `srcname' to print an error message about
not finding the source.
This particular example uses no links, and only the default host,
target, and site-specific `Makefile' fragments if they exist.

File: configure.info, Node: Declarations, Next: per-host, Prev: Minimal, Up: configure.in
For each invocation
-------------------
`configure' invokes the entire shell script fragment from the start
of `configure.in' up to a line beginning with `# per-host:' immediately
after parsing command line arguments. The variables `srctrigger' and
`srcname' *must* be set here.
You might also want to set the variables `configdirs' and
`package_makefile_frag' here.

File: configure.info, Node: per-host, Next: per-target, Prev: Declarations, Up: configure.in
Host-specific instructions
--------------------------
The "per-host" section of `configure.in' starts with the line that
begins with `# per-host:' and ends before a line beginning with
`# per-target:'. `configure' invokes the commands in the "per-host"
section when determining host-specific information.
This section usually contains a big `case' statement using the
variable `host' to determine appropriate values for
`host_makefile_frag' and `files', although `files' is not usually set
here. Usually, it is set at the end of the "per-target" section after
determining the names of the target specific configuration files.

File: configure.info, Node: per-target, Next: post-target, Prev: per-host, Up: configure.in
Target-specific instructions
----------------------------
The "per-target" section of `configure.in' starts with the line that
begins with `# per-target:' and ends before the line that begins with
`# post-target:', if there is such a line. Otherwise the "per-target"
section extends to the end of the file. `configure' invokes the
commands in the "per-target" section when determining target-specific
information, and before building any files, directories, or links.
This section usually contains a big `case' statement using the
variable `target' to determine appropriate values for
`target_makefile_frag' and `files'. The last lines in the "per-target"
section normally set the variables `files' and `links'.

File: configure.info, Node: post-target, Next: Example, Prev: per-target, Up: configure.in
Instructions to be executed after target info
---------------------------------------------
The "post-target" section is optional. If it exists, the
`post-target' section starts with a line beginning with
`# Post-target:' and extends to the end of the file. If it exists,
`configure' invokes this section once for each target after building
all files, directories, or links.
This section is seldom needed, but you can use it to edit the
`Makefile' generated by `configure'.

File: configure.info, Node: Example, Prev: post-target, Up: configure.in
An example `configure.in'
-------------------------
Here is a small example of a `configure.in' file.
# This file is a collection of shell script fragments
# used to tailor a template configure script as
# appropriate for this directory. For more information,
# see configure.texi.
configdirs=
srctrigger=warshall.c
srcname="bison"
# per-host:
case "${host}" in
m88k-motorola-*)
host_makefile_frag=config/mh-delta88
;;
esac
# per-target:
files="bison_in.hairy"
links="bison.hairy"
# post-target:

File: configure.info, Node: Install locations, Next: Host, Prev: configure.in, Up: Using configure
Install locations
=================
Using the default configuration, `make install' creates a single
tree of files, some of which are programs. The location of this tree
is determined by the value of the variable `prefix'. The default value
of `prefix' is `/usr/local'. This is often correct for native tools
installed on only one host.
* Menu:
* prefix:: Changing the default install directory
* exec_prefix:: How to separate host independent files
from host dependent files when
installing for multiple hosts
* Install details:: Full descriptions of all installation subdirectories

File: configure.info, Node: prefix, Next: exec_prefix, Up: Install locations
Changing the default install directory
--------------------------------------
In the default configuration, all files are installed in
subdirectories of `/usr/local'. The location is determined by the
value of the `configure' variable `prefix'; in turn, this determines the
value of the `Makefile' variable of the same name (`prefix').
You can also set the value of the `Makefile' variable `prefix'
explicitly each time you invoke `make' if you are so inclined. However,
because many programs have this location compiled in, you must specify
the `prefix' value consistently on each invocation of `make', or you
will end up with a broken installation.
To make this easier, the value of the `configure' variable `prefix'
can be set on the command line to `configure' using the option
`--prefix='.

File: configure.info, Node: exec_prefix, Next: Install details, Prev: prefix, Up: Install locations
Installing for multiple hosts
-----------------------------
By default, host dependent files are installed in subdirectories of
`$(exec_prefix)'. The location is determined by the value of the
`configure' variable `exec_prefix', which determines the value of the
`Makefile' variable `exec_prefix'. This makes it easier to install for
a single host, and simplifies changing the default location for the
install tree. The default doesn't allow for multiple hosts to
effectively share host independent files, however.
To configure so that multiple hosts can share common files, use
something like:
configure HOST1 -prefix=/usr/gnu -exec_prefix=/usr/gnu/H-host1
make all info install install-info clean
configure HOST2 -prefix=/usr/gnu -exec_prefix=/usr/gnu/H-host2
make all info install install-info
The first line configures the source for HOST1 to place host-specific
programs in subdirectories of `/usr/gnu/H-HOST1'.
The second line builds and installs all programs for HOST1,
including both host-independent and host-specific files, as well as
removing the host-specific object files from of the build directory.
The third line reconfigures the source for HOST2 to place host
specific programs in subdirectories of `/usr/gnu/H-HOST2'.
The fourth line builds and installs all programs for HOST2. Host
specific files are installed in new directories, but the host
independent files are installed *on top of* the host independent files
installed for HOST1. This results in a single copy of the host
independent files, suitable for use by both hosts.
*Note Extensions to the GNU coding standards: Makefile extensions,
for more information.

File: configure.info, Node: Install details, Prev: exec_prefix, Up: Install locations
Full descriptions of all installation subdirectories
----------------------------------------------------
During any install, a number of standard directories are created.
Their names are determined by `Makefile' variables. Some of the
defaults for `Makefile' variables can be changed at configuration time
using command line options to `configure'. For more information on the
standard directories or the `Makefile' variables, please refer to *Note
Makefile Conventions: (standards)Makefiles. See also *Note Extensions
to the GNU coding standards: Makefile extensions.
Note that `configure' does not create the directory indicated by the
variable `srcdir' at any time. `$(srcdir)' is not an installation
directory.
You can override all `Makefile' variables on the command line to
`make'. (*Note Overriding Variables: (make)Overriding.) If you do so,
you will need to specify the value precisely the same way for each
invocation of `make', or you risk ending up with a broken installation.
This is because many programs have the locations of other programs or
files compiled into them. If you find yourself overriding any of the
variables frequently, you should consider site dependent `Makefile'
fragments. See also *Note Adding site info: Sites.
During `make install', a number of standard directories are created
and populated. The following `Makefile' variables define them. Those
whose defaults are set by corresponding `configure' variables are marked
"`Makefile' and `configure'".
`prefix (`Makefile' and `configure')'
The root of the installation tree. You can set its `Makefile'
default with the `--prefix=' command line option to `configure'
(*note Invoking `configure': Invoking configure.). The default
value for `prefix' is `/usr/local'.
`bindir'
A directory for binary programs that users can run. The default
value for `bindir' depends on `prefix'; `bindir' is normally
changed only indirectly through `prefix'. The default value for
`bindir' is `$(prefix)/bin'.
`exec_prefix (`Makefile' and `configure')'
A directory for host dependent files. You can specify the
`Makefile' default value by using the `--exec_prefix=' option to
`configure'. (*Note Invoking `configure': Invoking configure.)
The default value for `exec_prefix' is `$(prefix)'.
`libdir'
A directory for libraries and support programs. The default value
for `libdir' depends on `prefix'; `libdir' is normally changed only
indirectly through `prefix'. The default value for `libdir' is
`$(prefix)/lib'.
`mandir'
A directory for `man' format documentation ("man pages"). The
default value for `mandir' depends on `prefix'; `mandir' is
normally changed only indirectly through `prefix'. The default
value for `mandir' is `$(prefix)/man'.
`manNdir'
These are eight variables named `man1dir', `man2dir', etc. They
name the specific directories for each man page section. For
example, `man1dir' by default holds the filename `$(mandir)/man1';
this directory contains `emacs.1' (the man page for GNU Emacs).
Similarly, `man5dir' contains the value `$(mandir)/man5',
indicating the directory which holds `rcsfile.5' (the man page
describing the `rcs' data file format). The default value for any
of the `manNdir' variables depends indirectly on `prefix', and is
normally changed only through `prefix'. The default value for
`manNdir' is `$(mandir)/manN'.
`manNext'
*Not supported by Cygnus `configure'*. The `GNU Coding Standards'
do not call for `man1ext', `man2ext', so the intended use for
`manext' is apparently not parallel to `mandir'. Its use is not
clear. (See also *Note Extensions to the GNU coding standards:
Makefile extensions.)
`infodir'
A directory for `info' format documentation. The default value for
`infodir' depends indirectly on `prefix'; `infodir' is normally
changed only through `prefix'. The default value for `infodir' is
`$(prefix)/info'.
`docdir'
A directory for any documentation that is in a format other than
those used by `info' or `man'. The default value for `docdir'
depends indirectly on `prefix'; `docdir' is normally changed only
through `prefix'. The default value for `docdir' is
`$(datadir)/doc'. *This variable is an extension to the GNU
coding standards*. (See also *Note Extensions to the GNU coding
standards: Makefile extensions.)
`includedir'
A directory for the header files accompanying the libraries
installed in `libdir'. The default value for `includedir' depends
on `prefix'; `includedir' is normally changed only indirectly
through `prefix'. The default value for `includedir' is
`$(prefix)/include'.

File: configure.info, Node: Host, Next: Target, Prev: Install locations, Up: Using configure
Host
====
The arguments to `configure' are "hosttypes". By "hosttype" we mean
the "environment" in which the source will be compiled. This need not
necessarily be the same as the physical machine involved, although it
usually is.
For example, if some obscure machine had the GNU `POSIX' emulation
libraries available, it would be possible to configure most GNU source
for a `POSIX' system and build it on the obscure host.
For more on this topic, see *Note On Configuring Development Tools:
(cfg-paper)Host Environments.

File: configure.info, Node: Target, Next: Makefile fragments, Prev: Host, Up: Using configure
Target
======
For building native development tools, or most of the other GNU
tools, you need not worry about the target. The "target" of a
configuration defaults to the same as the "host".
For building cross development tools, please see *Note On
Configuring Development Tools: (cfg-paper)Building Development
Environments.