\input texinfo @c -*-para-*- @c %**start of header @setfilename configure.info @settitle Cygnus Configure @c %**end of header @synindex ky cp @tex \def\$#1${{#1}} % Kluge: collect RCS revision info without $...$ \xdef\manvers{\$Revision$} % For use in headers, footers too @end tex @setchapternewpage off @ifinfo @format START-INFO-DIR-ENTRY * configure: (configure). Cygnus configure. END-INFO-DIR-ENTRY @end format @end ifinfo @ifinfo This document attempts to describe the Cygnus Support version of @code{configure}. Copyright (C) 1991, 1992 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. @ignore Permission is granted to process this file through TeX and print the results, provided the printed document carries copying permission notice identical to this one except for the removal of this paragraph (this paragraph not being relevant to the printed manual). @end ignore 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. @end ifinfo @titlepage @sp 10 @title{Cygnus Configure} @subtitle @manvers, for Cygnus Configure version 1.84 @author{K. Richard Pixley, @code{rich@@cygnus.com}} @author{Cygnus Support} @page @vskip 0pt plus 1filll Copyright @copyright{} 1991, 1992 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. @end titlepage @ifinfo @node top, What Configure Does, (dir), (dir) @top top This file documents the configuration system used and distributed by Cygnus Support. @menu * What Configure Does:: What Configure Does * Invoking:: Invoking * Using Configure:: Using Configure * Porting:: Porting with Configure * Reference:: Gory details described * Known Bugs:: Known Bugs * Variables Index:: Variable Index * Concept Index:: Concept Index --- The Detailed Node Listing --- Using Configure * Install Locations:: Where to install things once they are built * Build Directories:: Where to build object files * Host:: Telling @code{configure} what will source will be built * Target:: Telling @code{configure} what the source will target * Local Conventions:: Adding information about local conventions Install Locations * 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 Porting with Configure * Programs:: Adding configure to new programs * Hosts and Targets:: Adding hosts and targets * Sites:: Adding site info Gory details described * Makefile Extensions:: Extensions to the @sc{gnu} coding standards * configure.in:: The format of the configure.in file * config.status:: config.status * Makefile Fragments:: Makefile Fragments The format of the @file{configure.in} file * Minimal:: A minimal configure.in * Configure Variables:: Variables available to configure.in * Declarations:: For each invocation * Per-host:: For each host * Per-target:: For each target * Post-target:: After each target * Example:: An example configure.in @end menu @end ifinfo @node What Configure Does, Invoking, top, top @chapter What Configure Does @code{configure} prepares source directories for building working programs. A program cannot be built until its source has been configured. When configure runs, it does the following things. @table @emph @item Create build directories (see @ref{Build Directories}). When you run @code{configure} with the @code{-srcdir=} option, it uses the current directory as build directory, creating under it a directory tree that parallels the directory structure under the source directory. (See @ref{Invoking}). @item Generate makefiles A makefile template from the source directory, usually called @file{Makefile.in}, is copied to an output file in the build directory. The output file is usually named @file{Makefile}. @code{configure} places definitions for a number of standard makefile macros at the beginning of the output file. If @code{-prefix=} or @code{-exec_prefix} were specified on the @code{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. (See @ref{Makefiles, , , make, Makefiles}.) @item Generate @file{.gdbinit} If the source directory contains a @file{.gdbinit} file and the build directory is not the same as the source directory, a @file{.gdbinit} file is created in the build directory. This @file{.gdbinit} file contains @code{dir} commands and a @code{source} command, which will cause the @file{.gdbinit} file from the source directory to be read by GDB, and will allow GDB to find source files in either the source directory or the build directory. (see @ref{Command Files, , , gdb, Command Files}.) @item Make symbolic links Most directories have some symbolic links with generic names built pointing to specific files in the source directory. If the system where @code{configure} runs cannot support symbolic links, hard links are used instead. @item Miscellaneous If the source directory has special needs, they are handled by shell script fragments stored with the source. Usually there are no special needs, but sometimes they involve changes to the output makefile. @item Generate @file{config.status} @code{configure} creates a shell script named @file{config.status} in the build directory. This shell script, when run from the build directory, will reconfigure the build directory (but not its subdirectories). This is most often used to have a @code{Makefile} update itself automatically if a new source directory is available. @item Recursion If the source directory has subdirectories that should also be configured, @code{configure} is called for each. @end table @node Invoking, Using Configure, What Configure Does, top @chapter Invoking The usual way to invoke @code{configure} is as follows: @example configure @var{host} @end example This prepares the source to be compiled in a @var{host} environment with programs and files to be installed in @file{/usr/local}. @code{configure} prepares the source as you specify by selecting and using script and Makefile fragments prepared in advance, and stored with the source. @code{configure}'s command line options also allow you to specify other aspects of the source configuration: @table @code @item -exec_prefix=@var{dir} Configure the source to install host dependent files in @var{dir}. This option sets the @code{configure} variable @code{exec_prefix}. Generated Makefiles will have their @code{exec_prefix} variables set to this value. (See @ref{Install Details}.) @item -gas Configure to use the @sc{GNU} assembler. @item -help Display a quick summary of how to invoke @code{configure}. @item -host=@var{host} FIXME-soon: I don't think this option should be documented. @c Then why does it exist? /Pesch 7jan92 @item -nfp @emph{No floating point} unit available on the target; configure to avoid dependencies on hardware floating point. @item -norecursion Configure only this directory; ignore any subdirectories. This is used by the executable shell script @file{config.status} to reconfigure the current directory. (see @ref{config.status}). @item -prefix=@var{dir} Configure the source to install programs and files under directory @file{@var{dir}}. This option sets the @code{configure} variable @code{prefix}. Generated Makefiles will have their @code{prefix} variables set to this value. (See @ref{Install Details}.) @item -recurring @c Wouldn't it make more sense to call this "-quiet"? (FIXME). This option is used internally by @code{configure} when recurring on subdirectories. Its sole purpose is to suppress status output. You can override this effect with the @code{-verbose} option. @item -rm @emph{Remove} the configuration specified by @var{host} and the other command-line options, rather than creating it. @item -site=@var{site} Generate Makefiles using site specific Makefile fragments for @var{site}. See also @ref{Sites}. @item -srcdir=@var{_dir} Build Makefiles to use the sources located in directory @file{@var{dir}}. The build directory is assumed to be @file{.}. @item -target=@var{target} Requests that the sources be configured to target the @var{target} machine. If no target is specified explicitly, the target is assumed to be the same as the host. @item -tmpdir=@var{tmpdir} Use the directory @var{tmpdir} for @code{configure}'s temporary files. The default is the value of the environment variable TMPDIR, or @file{/tmp} if the environment variable is not set. @item -verbose @itemx -v Print status lines for each directory configured. Normally, only the status lines for the initial working directory are printed. @item -x Use @sc{MIT} style @sc{X11} header files and libraries on the host, even if they are not normally available. @end table @node Using Configure, Porting, Invoking, top @chapter Using Configure The choices and options available at configuration time generally have valid defaults, but the defaults do not cover all cases. The choices available include install locations, build directories, host, target, and local conventions. @menu * Install Locations:: Where to install things once they are built * Build Directories:: Where to build object files * Host:: Telling @code{configure} what will source will be built * Target:: Telling @code{configure} what the source will target * Local Conventions:: Adding information about local conventions @end menu @node Install Locations, Build Directories, Using Configure, Using Configure @section Install Locations @cindex Where to install Using the default configuration, @code{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 @code{prefix}. The default value of @code{prefix} is @file{/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 @end menu @node prefix, exec_prefix, Install Locations, Install Locations @subsection Changing the default install directory @cindex Changing the default install directory @cindex Prefix directory In the default configuration, all files are installed in subdirectories of @file{/usr/local}. The location is determined by the value of the @code{configure} variable @code{prefix}; in turn, this determines the value of the Makefile variable of the same name (@code{prefix}). You can also set the value of the Makefile variable @code{prefix} explicitly each time you invoke @code{make} if you are so inclined; but because many programs have this location compiled in, you must specify the @code{prefix} value consistently on each invocation of @code{make}, or you will end up with a broken installation. To make this easier, the value of the @code{configure} variable @code{prefix} can be set on the command line to @code{configure} using the option @code{-prefix=}. @node exec_prefix, Install Details, prefix, Install Locations @subsection Installing for multiple hosts @cindex Configuring for multiple hosts @cindex Sharing host independent files @cindex The @file{exec_prefix} directory @cindex Installing host independent files By default, host dependent files are installed in subdirectories of @file{@var{exec_prefix}}. The location is determined by the value of the @code{configure} variable @code{exec_prefix}, which determines the value of the Makefile variable @code{exec_prefix}. This makes it simpler to install for a single host, and simplifies changing the default location for the install tree; but the default doesn't allow for multiple hosts to effectively share host independent files. To configure so that multiple hosts can share common files, use something like: @example configure @var{host1} -prefix=/usr/gnu -exec_prefix=/usr/gnu/H-host1 make all info install install-info clean configure @var{host2} -prefix=/usr/gnu -exec_prefix=/usr/gnu/H-host2 make all info install install-info @end example The first line configures the source for @var{host1} to place host specific programs in subdirectories of @file{/usr/gnu/H-@var{host1}}. The second line builds and installs all programs for @var{host1}, including both host independent and host specific files. The third line reconfigures the source for @var{host2} to place host specific programs in subdirectories of @file{/usr/gnu/H-@var{host2}}. The fourth line builds and installs all programs for @var{host2}. Host specific files are installed in new directories, but the host independent files are installed @emph{on top of} the host independent files installed for @var{host1}. This results in a single copy of the host independent files, suitable for use by both hosts. @node Install Details, , exec_prefix, Install Locations @subsection 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 configure time using command line options to @code{configure}. For more information on the standard directories or the Makefile variables, please refer to @cite{standards.text}. Note that @code{configure} does not create the directory @code{srcdir} at any time. @code{srcdir} is not an installation directory. You can override all makefile variables on the command line to @code{make}. (See @ref{Overriding, Overriding Variables, Overriding Variables, make, Make}.) If you do so, you will need to specify the value precisely the same way for each invocation of @code{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 @ref{Sites}. During @code{make install}, a number of standard directories are created and populated. The following Makefile variables define them. Those whose defaults are set by corresponding @code{configure} variables are marked ``Makefile and configure''. @vindex prefix @defvr {Makefile and configure} prefix The root of the installation tree. You can set its Makefile default with the @code{-prefix=} command line option to @code{configure}. (@ref{Invoking}.) The default value for @code{prefix} is @file{/usr/local}. @end defvr @vindex bindir @defvr Makefile bindir A directory for binary programs that users can run. The default value for @code{bindir} depends on @code{prefix}; @code{bindir} is normally changed only indirectly through @code{prefix}. The default value for @code{bindir} is @file{$(prefix)/bin}. @end defvr @vindex exec_prefix @defvr {Makefile and configure} exec_prefix A directory for host dependent files. You can specify the Makefile default value by using the @code{-exec_prefix=} option to @code{configure}. (See also @ref{Invoking}.) The default value for @code{exec_prefix} is @file{$(prefix)}. @end defvr @vindex libdir @defvr Makefile libdir A directory for libraries and support programs. The default value for @code{libdir} depends on @code{prefix}; @code{libdir} is normally changed only indirectly through @code{prefix}. The default value for @code{libdir} is @file{$(prefix)/lib}. @end defvr @vindex mandir @defvr Makefile mandir A directory for @code{man} format documentation (``man pages''). The default value for @code{mandir} depends on @code{prefix}; @code{mandir} is normally changed only indirectly through @code{prefix}. The default value for @code{mandir} is @file{$(prefix)/man}. @end defvr @vindex man@var{N}dir @defvr Makefile man@var{N}dir There are eight variables named @code{man1dir}, @code{man2dir}, etc. They name the specific directories for each man page section. For example, @code{man1dir} holds @file{emacs.1} (the man page for the emacs program), while @code{man5dir} holds @file{rcsfile.5} (the man page describing the @code{rcs} data file format). The default value for any of the @code{man@var{N}dir} variables depends indirectly on @code{prefix}, and is normally changed only through @code{prefix}. The default value for @code{man@var{N}dir} is @file{$(mandir)/man@var{N}}. @end defvr @vindex manext @defvr Makefile manext @emph{Not supported by @code{configure}}. The @sc{gnu} coding standards do not call for @code{man1ext}, @code{man2ext}, so the intended use for @code{manext} is apparently not parallel to @code{mandir}. Its use is not clear. (See also @ref{Makefile Extensions}.) @end defvr @vindex infodir @defvr Makefile infodir A directory for @emph{info} format documentation. The default value for @code{infodir} depends indirectly on @code{prefix}; @code{infodir} is normally changed only through @code{prefix}. The default value for @code{infodir} is @file{$(prefix)/info}. @end defvr @vindex docdir @defvr Makefile docdir A directory for any documentation that is in a format other than those used by @code{info} or @code{man}. The default value for @code{docdir} depends indirectly on @code{prefix}; @code{docdir} is normally changed only through @code{prefix}. The default value for @code{docdir} is @file{$(datadir)/doc}. @emph{This variable is an extension to the @sc{gnu} coding standards}. (See also @ref{Makefile Extensions}.) @end defvr @vindex includedir @defvr Makefile includedir A directory for the header files accompanying the libraries installed in @code{libdir}. The default value for @code{includedir} depends on @code{prefix}; @code{includedir} is normally changed only indirectly through @code{prefix}. The default value for @code{includedir} is @file{$(prefix)/include}. @end defvr @node Build Directories, Host, Install Locations, Using Configure @section Build Directories @cindex Build directories @kindex objdir @cindex Object directories @kindex subdirs @cindex Building for multiple hosts @cindex Building for multiple targets Normally, @code{configure} builds a @file{Makefile} and symbolic links in the same directory as the source files. This is the typical @sc{un*x} way to build programs, but it has limitations. For instance, using this approach, you can only build for one host at a time. We refer to the directories where @code{configure} builds a Makefile as the @emph{build directories} or sometimes as @emph{objdir} because these are the directories in which @code{make} will build object files, among other things. The default build directory is the same as the source directory. You can use a different build directory with a sequence like the following: @example mkdir @var{builddir} cd @var{builddir} configure @var{host} -srcdir=@var{sourcedirectory} @end example @noindent where @var{builddir} is the directory where you wish to build, @var{host} is the host for which you want to build, and @var{sourcedirectory} is the directory containing the source files. If you were to do this twice with different values for @var{builddir} and @var{host}, then you could @code{make} for both at the same time. @node Host, Target, Build Directories, Using Configure @section Host The arguments to @code{configure} are @emph{hosts}. By @emph{host} 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 running an operating system other than @sc{un*x} had the @sc{gnu} @sc{posix} emulation libraries available, it would be possible to configure most @sc{gnu} source for a @sc{posix} system and build it on the obscure host. For more on this topic, see @ref{Host Environments, , Host Environments, cfg-paper, On Configuring Development Tools}. @node Target, Local Conventions, Host, Using Configure @section Target For building native development tools, or most of the other @sc{gnu} tools, you need not worry about the target. The @emph{target} of a configuration defaults to the same as the @emph{host}. For building cross development tools, please see @ref{Building Development Environments, , Building Development Environments, cfg-paper, On Configuring Development Tools}. @node Local Conventions, , Target, Using Configure @section Local Conventions If you find that a tool does not get configured to your liking, or if @code{configure}'s conventions differ from your local conventions, you should probably consider site specific Makefile fragments. See also @ref{Sites}. These are probably not the right choice for options that can be set from the @code{configure} command line or for differences that are host or target dependent. @node Porting, Reference, Using Configure, top @chapter Porting with Configure @cindex Porting This section explains how to add programs, host and target configuration names, and site-specific information to Cygnus configure. @menu * Programs:: Adding configure to new programs * Hosts and Targets:: Adding hosts and targets * Sites:: Adding site info @end menu @node Programs, Hosts and Targets, Porting, Porting @section Adding Configure To New Programs If you are writing a new program, you probably shouldn't worry about porting issues or configure until it is running reasonably on some host. Then refer back to this section. If the program in question currently has a configure script that meets the criteria set out by @cite{standards.text}, please do not add Cygnus configure. It should be possible to add this program without change to a Cygnus configure style source tree. If the program is not target dependent, please consider using @code{autoconf} instead of Cygnus configure. @code{autoconf} will be available soon from the @sc{fsf}. To add Cygnus configure to an existing program, do the following: @table @asis @item Make sure the Makefile conforms to @sc{gnu} standard The coding standard for @sc{gnu} Makefiles is described in @cite{standards.text}. @item Add Cygnus extensions to the Makefile These are described in @ref{Makefile Extensions}. @item Move host support from Makefile to fragments This usually involves finding sections of the Makefile that say things like ``uncomment these lines for host foo'' and moving them to a new file called @file{./config/mh-foo}. For more information, see @ref{Hosts and Targets}. @item Choose defaults If the program has compile time options that determine the way the program should behave, chose reasonable defaults and make these Makefile variables. Be sure the variables are assigned their default values before the @code{####} line so that site specific Makefile fragments can override them (@pxref{Makefile Extensions,,Extensions to the @sc{gnu} coding standards}). @item Locate configuration files If there is configuration information in header files or source files, separate it in such a way that the files have a generic name. Then move the specific instances of those files into the @file{./config} directory. @item Separate host and target information Some programs already have this information separated. If yours does not, you will need to separate these two kinds of configuration information. @dfn{Host specific} information is the information needed to compile the program. @dfn{Target specific} information is information on the format of data files that the program will read or write. This information should live in separate files in the @file{./config} directory with names that reflect the configuration for which they are intended. At this point you might skip this step and simply move on. If you do, you should end up with a program that can be configured only to build native tools, that is, tools for which the host system is also the target system. Later, you could attempt to build a cross tool and separate out the target specific information by figuring out what went wrong. This is often simpler than combing through all of the source code. @item Write @code{configure.in} Usually this involves writing shell script fragments to map from canonical configuration names into the names of the configuration files. These files will then be linked at configure time from the specific instances of those files in @file{./config} to file in the build directory with more generic names. (see also @ref{Build Directories}). The format of configure.in is described in @ref{configure.in}. @item Rename @file{Makefile} to @file{Makefile.in} @end table At this point you should have a program that can be configured using Cygnus @code{configure}. @node Hosts and Targets, Sites, Programs, Porting @section Adding hosts and targets To add a host or target to a program that already uses Cygnus configure, do the following. @itemize @bullet @item Make sure the new configuration name is represented in @file{config.sub}. If not, add it. For more details, see the comments in the shell script @file{config.sub}. @item If you are adding a host configuration, look in @file{configure.in}, in the per-host section. Make sure that your configuration name is represented in the mapping from host configuration names to configuration files. If not, add it. Also see @ref{configure.in}. @item If you are adding a target configuration, look in @file{configure.in}, in the per-target section. Make sure that your configuration name is represented in the mapping from target configuration names to configuration files. If not, add it. Also see @ref{configure.in}. @item Look in @file{configure.in} for the variables @samp{files}, @samp{links}, @samp{host_makefile_frag}, and @samp{target_makefile_frag}. The values assigned to these variables are the names of the configuration files, relative to @code{srcdir} that the program uses. Make sure that copies of the files exist for your host. If not, create them. See also @ref{Configure Variables}. @end itemize This should be enough to configure for a new host or target configuration name. Getting the program to compile and run properly remains the hard work of the port. @node Sites, , Hosts and Targets, Porting @section Adding site info If some of the Makefile defaults are not right for your site, you can build site specific Makefile fragments. To do this, do the following. @itemize @bullet @item Choose a name for your site. It must be less than eleven characters for now. @item If the program source does not have a @file{./config} directory, create it. @item Create a file called @file{./config/ms-@var{site}} where @var{site} is the name of your site. In it, set whatever Makefile variables you need to override to match your site's conventions. @item Configure the program with: @example configure @dots{} +site=@var{site} @end example @end itemize @node Reference, Known Bugs, Porting, top @chapter Gory details described @cindex Backends Here we describe the backend support. @menu * Makefile Extensions:: Extensions to the @sc{gnu} coding standards * configure.in:: The format of the configure.in file * config.status:: config.status * Makefile Fragments:: Makefile Fragments @end menu @node Makefile Extensions, configure.in, Reference, Reference @section Extensions to the @sc{gnu} coding standards @cindex Makefile extensions @cindex Cygnus extensions The following additions to the @sc{gnu} coding standards are required for Cygnus configure to work properly. @itemize @bullet @item The Makefile must contain exactly one line starting with @code{####}. This line should follow any default macro definitions but precede any rules. Host, target, and site specific Makefile fragments will be inserted immediately after this line. If the line is missing, the fragments will not be inserted. @end itemize Cygnus adds the following targets to our Makefiles. Their existence is not required for Cygnus configure, but they are documented here for completeness. @table @code @kindex info @item info Build all info files from texinfo source. @kindex install-info @item install-info Install all info files. @kindex clean-info @item clean-info Remove all info files and any intermediate files that can be generated from texinfo source. @kindex stage1 @item stage1 @kindex stage2 @itemx stage2 @kindex stage3 @itemx stage3 @kindex stage4 @itemx stage4 @kindex de-stage1 @itemx de-stage1 @kindex de-stage2 @itemx de-stage2 @kindex de-stage3 @itemx de-stage3 @kindex de-stage4 @itemx de-stage4 @kindex bootstrap @itemx bootstrap @kindex comparison @itemx comparison @kindex Makefile @itemx Makefile These targets are in transition and may be removed shortly. @end table In addition, the following Makefile targets have revised semantics: @table @code @kindex install @item install Should @emph{not} depend on the target @code{all}. If the program is not already built, @code{make install} should fail. This allows you to install programs even when @code{make} would otherwise determine them to be out of date. This can happen when the result of a @code{make all} is transported via tape to another machine for installation as well as in a number of other cases. @kindex clean @item clean Should remove any file that can be regenerated by the Makefile, excepting only the Makefile itself, and any links created by configure. That is, @code{make all clean} should return all directories to their original condition. If this is not done, then: @example configure @var{host1} ; make all clean ; configure @var{host2} ; make all @end example @noindent will fail because of intermediate files intended for @var{host1}. @end table Cygnus adds the following macros to all @file{Makefile.in} files, but you are not required to use them to run Cygnus configure. @table @code @kindex docdir @item docdir The directory in which to install any documentation that is not either a man page or an info file. For man pages, see mandir, for info, see infodir. @kindex includedir @item includedir The directory in which to install any headers files that should be made available to users. This is distinct from the @code{gcc} include directory which is intended for @code{gcc} only. Files in @code{includedir} may be used by @code{cc} as well. @end table In addition, the following macros have revised semantics. Most of them describe installation directories; see also @ref{Install Details,,Full description of all installation subdirectories}. @table @code @kindex manext @item manext is not used. The intended usage is not clear. For example, if you have a @file{foo.man} and a @file{bar.man}, and @file{foo.man} is destined for @file{/usr/local/lib/man/man1/foo.1} while @file{bar.man} is destined for @file{/usr/local/lib/man/man5/bar.5}, then what is the desired value of @code{manext}? @kindex datadir @item datadir is used for host independent data files. @kindex mandir @item mandir The default path for @code{mandir} depends on @code{prefix}. @kindex infodir @item infodir The default path for @code{infodir} depends on @code{prefix}. @kindex BISON @item BISON is assumed to have a @code{yacc} calling convention. To use @code{bison}, use @code{BISON=bison -y}. @end table Cygnus Makefiles also conform to one additional restriction: @itemize @bullet @item When libraries are installed, the line containing the call to @code{INSTALL_DATA} should always be followed by a line containing a call to @code{RANLIB} on the installed library. This is to accomodate systems that use @code{ranlib}. Systems that do not use @code{ranlib} can set @code{RANLIB} to @code{echo} in a host specific Makefile fragment. @end itemize @node configure.in, config.status, Makefile Extensions, Reference @section The format of the @file{configure.in} file @kindex configure.in A @file{configure.in} file for Cygnus configure consists of a @dfn{per-invocation} section, followed by a @dfn{per-host} section, followed by a @dfn{per-target} section, optionally followed by a @dfn{post-target} section. Each section is a shell script fragment, which is sourced 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 (sourced) 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 @code{srcdir} to the desired file name. @cindex Per-invocation section The beginning of the @file{configure.in} file begins the per-invocation section. @cindex Per-host section A line beginning with @code{# Per-host:} begins the per-host section. @cindex Per-target section A line beginning with @code{# Per-target:} begins the per-target section. @cindex Post-target section If it exists, the post-target section begins with @code{# Per-target:}. @menu * Minimal:: A minimal configure.in * Configure Variables:: Variables available to configure.in * Declarations:: For each invocation * Per-host:: For each host * Per-target:: For each target * Post-target:: After each target * Example:: An example configure.in @end menu @node Minimal, Configure Variables, configure.in, configure.in @subsection A minimal @file{configure.in} @cindex Minimal @file{configure.in} example A minimal @file{configure.in} consists of four lines. @example srctrigger=foo.c srcname="source for the foo program" # Per-host: # Per-target: @end example The @samp{Per-host} and @samp{Per-target} lines divide the file into the three required sections. The @samp{srctrigger} line names a file. @code{configure} checks to see that this file exists in the source directory before configuring. If the @samp{srctrigger} file does not exist, @code{configure} uses the value of @samp{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. @node Configure Variables, Declarations, Minimal, configure.in @subsection Variables available to configure.in @cindex @file{configure.in} interface The following variables pass information between the standard parts of @code{configure} and the shell-script fragments in @file{configure.in}: @defvar{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 @file{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. @end defvar @defvar{srcname} Contains the name of the source collection contained in the source directory. You must usually set this in the per-invocation section of @file{configure.in}. If the file named in @code{srctrigger} does not exist, configure uses the value of this variable when it prints the error message. @end defvar @defvar{configdirs} Contains the names of any subdirectories where @code{configure} should recur. You must usually set this in the per-invocation section of @file{configure.in}. If @file{Makefile.in} contains a line starting with @code{SUBDIRS =}, then it will be replaced with an assignment to @code{SUBDIRS} using the value of @code{configdirs} (if @code{subdirs} is empty). This can be used to determine which directories to configure and build depending on the host and target configurations. @c Most other matching makefile/config vars use the same name. Why not @c this? (FIXME). @c Can we get rid of SUBDIRS-substitution? It doesn't work well with subdirs. Use @code{configdirs} (instead of the @code{subdirs} variable described below) if you want to be able to partition the sub-directories, or use independent Makefile fragments. Each sub-directory can be independent, and independently re-configured. @end defvar @defvar{subdirs} Contains the names of any subdirectories where @code{configure} should create a @code{Makefile} (in addition to the current directory), @emph{without} recursively running @code{configure}. Use @code{subdirs} (instead of the @code{configdirs} variable described above) if you want to configure all of the directories as a unit. Since there is a single invocation of @code{configure} that configures many directories, all the directories can use the same Makefile fragments, and the same @code{configure.in}. @end defvar @defvar{host} Contains the name that the user entered for the host. Since many things that the user could enter would map to the same output from @code{config.sub}, this variable is innappropriate to use for picking available configurations. For that, use @code{host_cpu}, @code{host_vendor}, and/or @code{host_os}. This variable is useful, however, for error messages. @end defvar @defvar{host_cpu} Contains the first element of the canonical triple representing the host as returned by @file{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. @end defvar @defvar{host_vendor} Contains the second element of the canonical triple representing the host as returned by @file{config.sub}. This is usually used to distinguish betwen the numerous variations between @emph{common} operating systems. @c "@emph{common} OS" doesn't convey much to me. Is this meant to cover @c cases like Unix, widespread but with many variations? @end defvar @defvar{host_os} Contains the the third element of the canonical triple representing the host as returned by @file{config.sub}. @end defvar @defvar{target} Contains the name that the user entered for the target. Since many things that the user could enter would map to the same canonical triple, this variable is innappropriate to use for picking available configurations. For that, use @code{target_cpu}, @code{target_vendor}, and/or @code{target_os}. This variable is useful, however, for error messages. @end defvar @defvar{target_cpu} Contains the first element of the canonical triple representing the target as returned by @file{config.sub}. This is used heavily by programs involved in building programs, like the compiler, assembler, linker, etc. Most programs will not need the @code{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. @end defvar @defvar{target_vendor} Contains the second element of the canonical triple representing the target as returned by @file{config.sub}. This is usually used to distinguish betwen the numerous variations between @emph{common} operating systems or object file formats. Sometimes it is used to switch between different flavors of user interfaces. @c above query re "@emph{common} OS" applies here too @end defvar @defvar{target_os} Contains the the third element of the canonical triple representing the target as returned by @file{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. @end defvar @defvar{floating_point} Is set to @code{no} if the user invoked configure with the @code{-nfp} command line option, otherwise it is empty. This is a request to target machines with @emph{no floating point} unit, even if the targets ordinarily have floating point units available. This option has no negation. @end defvar @defvar{gas} Is set to @code{true} if the user invoked configure with the @code{-gas} command line option, otherwise it is empty. This is a request to assume that all target machines have @sc{gas} available even if they ordinarily do not. The converse option @samp{-no-gas} is not available. @end defvar @defvar{x} Is set to @code{true} if the user invoked configure with the @code{-x} command line option, otherwise it is empty. This is a request to assume that @sc{mit x11} compatible headers files and libraries are available on all hosts, regardless of what is normally available on them. @end defvar @defvar{srcdir} Is set to the name of the directory containing the source for this program. This will be different from @file{.} if the user has specified the @code{-srcdir=} option. Note that @code{srcdir} is not necessarily an absolute path. @end defvar @defvar{host_makefile_frag} If set by @file{configure.in}, this variable should be the name a file, relative to @code{srcdir} to be included in the resulting Makefile. If the named file does not exist, @code{configure} will print a warning message. This variable is not set by @code{configure}. @end defvar @defvar{target_makefile_frag} If set by @file{configure.in}, this variable should be the name of a file, relative to @code{srcdir}, to be included in the resulting Makefile. If the named file does not exist, @code{configure} will print a warning message. This variable is not set by @code{configure}. @end defvar @defvar{site_makefile_frag} Is set to a file name representing to the default Makefile fragment for this host. It may be set in @file{configure.in} to override this default. Normally @code{site_makefile_frag} is empty, but will have a value if the user specified @code{-site=} on the command line. It is probably not a good idea to override this variable from @file{configure.in}, since that may defeat the @code{configure} user's intentions. @end defvar @defvar{Makefile} Is set to the name of the generated @file{Makefile}. Normally this value is precisely @file{Makefile} but some programs may want something else. @end defvar @defvar{removing} Is normally empty but will be set to some non-empty value if the user specified @code{-rm} on the command line. That is, if @code{removing} is non-empty, then configure is @emph{removing} a configuration rather than creating one. @end defvar @defvar{files} If this variable is non-empty following the @code{per-target:} section, then each word in its value will be the target of a symbolic link named in the corresponding word from the @code{links} variable. @end defvar @defvar{links} If the @code{files} variable is non-empty following the @code{per-target:} section, then @code{configure} creates symbolic links with the first word of @code{links} pointing to the first word of @code{files}, the second word of @code{links} pointing to the second word of @code{files}, and so on. @end defvar @node Declarations, Per-host, Configure Variables, configure.in @subsection For each invocation @cindex Declarations section @code{configure} sources the entire shell script fragment from the start of @file{configure.in} up to a line beginning with @samp{# Per-host:} immediately after parsing command line arguments. The variables @code{srctrigger} and @code{srcname} @emph{must} be set here. You might also want to set the variable @code{configdirs} here. @node Per-host, Per-target, Declarations, configure.in @subsection For each host @cindex per-host section @cindex host shell-script fragment The per-host section of @file{configure.in} starts with the line that begins with @samp{# Per-host:} and ends before a line beginning with @samp{# Per-target:}. @code{configure} sources the per-host section once for each host. This section usually contains a big case statement using the variables @samp{host_cpu}, @samp{host_vendor}, and @samp{host_os} to determine appropriate values for @samp{host_makefile_frag} and @samp{files}, although @samp{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. @node Per-target, Post-target, Per-host, configure.in @subsection For each target @cindex per-target section @cindex target shell-script fragment The per-target section of @file{configure.in} starts with the line that begins with @samp{# Per-target:} and ends before the line that begins with @samp{# Post-target:}, if there is such a line. Otherwise the per-target section extends to the end of the file. @code{configure} sources the per-target section once for each target before building any files, directories, or links. This section usually contains a big case statement using the variables called @samp{target_cpu}, @samp{target_vendor}, and @samp{target_os} to determine appropriate values for @samp{target_makefile_frag} and @samp{files}. The last lines in the per-target section normally set the variables @code{files} and @code{links}. @node Post-target, Example, Per-target, configure.in @subsection After each target The post-target section is optional. If it exists, the post-target section starts with a line beginning with @code{# Post-target:} and extends to the end of the file. If it exists, @code{configure} sources 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 @code{configure}. @node Example, , Post-target, configure.in @subsection An example @file{configure.in} @cindex example @file{configure.in} @cindex sample @file{configure.in} @cindex Bison @file{configure.in} Here is a small example of a @file{configure.in} file. @example # 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_os@}" in m88kbcs) host_makefile_frag=config/mh-delta88 ;; esac # per-target: files="bison_in.hairy" links="bison.hairy" # post-target: @end example @node config.status, Makefile Fragments, configure.in, Reference @section @code{config.status} @kindex config.status The final step in configuring a directory is to create an executable shell script, @file{config.status}. The main purpose of this file is to allow the Makefile for the current directory to rebuild itself, if necessary. For this reason, @file{config.status} uses the @samp{-norecursion} option to @code{configure}, and is therefore probably inappropriate for reconfiguring a tree of source code. @node Makefile Fragments, , config.status, Reference @section Makefile Fragments @cindex Makefile fragments Cygnus @code{configure} uses three types of Makefile fragments. In a generated Makefile they appear in the order target fragment, host fragment, and site fragment. This allows host fragments to override target fragments, and site fragments to override both. Host specific Makefile fragments conventionally reside in the @file{./config} directory with names of the form @file{mh-@var{host}}. They are used for hosts that require odd options to the standard compiler and for compile time options based on the host configuration. Target specific Makefile fragments conventionally reside in the @file{./config} directory with names of the form @file{mt-@var{target}}. They are used for target dependent compile time options. Site specific Makefile fragments conventionally reside in the @file{./config} directory with names of the form @file{ms-@var{site}}. They are used to override host and target independent compile time options. Note that you can also override these options on the @code{make} invocation line. @node Known Bugs, Variables Index, Reference, top @chapter Known Bugs @cindex bugs We know of the following bugs: @itemize @bullet @item There is no way to query about known hosts, known targets, or the porting or testing status of any configuration. @item The negations to the options @code{-gas}, @code{-x}, and @code{-nfp} are not available. @end itemize @page @node Variables Index, Concept Index, Known Bugs, top @appendix Variable Index @printindex vr @page @node Concept Index, , Variables Index, top @appendix Concept Index @printindex cp @contents @bye @c Local Variables: @c fill-column: 79 @c outline-regexp: "@chap" @c End: @c (setq outline-regexp "@chapt\\\|@unnum\\\|@setf\\\|@conte\\\|@sectio\\\|@subsect\\\|@itemize\\\|@defvar{")