Modules/Setup.in - platform/external/python/cpython2 - Gitiles

 # The file Setup is used by the makesetup script to construct the files
 # Makefile and config.c, from Makefile.pre and config.c.in,
 # respectively.  The file Setup itself is initially copied from
 # Setup.in; once it exists it will not be overwritten, so you can edit
 # Setup to your heart's content.  One possibility is to overwrite it
 # with a copy of Setup.sgi or Setup.sunos[45] before you start editing.
 # Note that Makefile.pre is created from Makefile.pre.in by the toplevel
 # configure script.

 # (VPATH notes: Setup and Makefile.pre are in the build directory, as
 # are Makefile and config.c; Setup.in and config.c.in are in the source
 # directory.)

 # Each line in this file describes one or more optional modules.
 # Comment out lines to suppress modules.
 # Lines have the following structure:
 #
 # <module> ... [<sourcefile> ...] [<cpparg> ...] [<library> ...]
 #
 # <sourcefile> is anything ending in .c (.C, .cc, .c++ are C++ files)
 # <cpparg> is anything starting with -I, -D, -U or -C
 # <library> is anything ending in .a or beginning with -l or -L
 # <module> is anything else but should be a valid Python
 # identifier (letters, digits, underscores, beginning with non-digit)
 #
 # Lines can also have the form
 #
 # <name> = <value>
 #
 # which defines a Make variable definition inserted into Makefile.in
 #
 # Finally, if a line has the literal form
 #
 # *noconfig*
 #
 # (that is including the '*' and '*' !) then the following modules will
 # not be included in the config.c file, nor in the list of objects to be
 # added to the library archive, and their linker options won't be added
 # to the linker options, but rules to create their .o files and their
 # shared libraries will still be added to the Makefile

 # NOTE: As a standard policy, as many modules as can be supported by a
 # platform should be present.  The distribution comes with all modules
 # enabled that are supported by most platforms and don't require you
 # to ftp sources from elsewhere.  To make this easier for SGI
 # platforms, you can copy Setup.sgi to Setup (or edit Makefile.in.in
 # to use Setup.sgi instead of Setup).


 # Some special rules to define PYTHONPATH.
 # Edit the definitions below to indicate which options you are using.
 # Don't add any whitespace or comments!

 # Don't edit this (usually)
 DESTLIB=$(prefix)/lib/python

 # Standard enabled (tests are always available)
 TESTPATH=:$(DESTLIB)/test

 # Path for machine- or system-dependent modules (and shared libraries)
 MACHDEPPATH=:$(DESTLIB)/$(MACHDEP)

 COREPYTHONPATH=.:$(DESTLIB)$(TESTPATH)$(MACHDEPPATH)$(STDWINPATH)$(TKPATH)
 PYTHONPATH=$(COREPYTHONPATH)


 # If you want to build most modules as shared libraries, here are
 # a couple of lines to enable.  The modules listed here can't be
 # built as shared libraries for various reasons.
 # IF YOU ENABLE THEM HERE, DISABLE THEM LATER IN THE Setup FILE!

 #posix posixmodule.c		# posix (UNIX) system calls
 #signal signalmodule.c		# signal(2)
 #gl glmodule.c -lgl -lX11	# Graphics Library -- SGI only
 #thread threadmodule.c		# threads -- see below

 # Uncommenting the following line tells makesetup that all following
 # modules are to be built as shared libraries (see above for more detail).

 #*noconfig*


 # Modules that should always be present (non UNIX dependent)
 # NB when using shared libraries, don't make posix a shared library!

 array arraymodule.c	# array objects
 math mathmodule.c -lm	# math library functions, e.g. sin()
 parser parsermodule.c	# raw interface to the Python parser
 posix posixmodule.c	# posix (UNIX) system calls
 regex regexmodule.c regexpr.c	# Regular expressions, GNU Emacs style
 strop stropmodule.c	# fast string operations implemented in C
 struct structmodule.c	# binary structure packing/unpacking
 time timemodule.c	# time operations and variables


 # Modules with some UNIX dependencies -- on by default.
 # (If you have a really backward UNIX, select and socket may not be
 # supported...)
 # NB when using shared libraries, don't make signal a shared library!

 fcntl fcntlmodule.c	# fcntl(2) and ioctl(2)
 pwd pwdmodule.c		# pwd(3)
 grp grpmodule.c		# grp(3)
 crypt cryptmodule.c	# crypt(3)
 select selectmodule.c	# select(2); not on ancient System V
 socket socketmodule.c	# socket(2); not on ancient System V
 signal signalmodule.c	# signal(2)


 # Some more UNIX dependent modules -- off by default, since these
 # are not supported by all UNIX systems.

 #dbm dbmmodule.c 	# dbm(3) may require -lndbm or similar
 #nis nismodule.c 	# Sun yellow pages -- not everywhere
 #termios termios.c	# Steen Lumholt's termios module


 # Multimedia modules -- on by default.
 # These represent audio samples or images as strings

 audioop audioop.c	# Operations on audio samples
 imageop imageop.c	# Operations on images
 rgbimg rgbimgmodule.c   # Read SGI RGB image files (but coded portably)


 # The stdwin module provides a simple, portable (between X11 and Mac)
 # windowing interface.  You need to ftp the STDWIN library, e.g. from
 # ftp://ftp.cwi.nl/pub/stdwin.  The STDWIN variable must point to the
 # STDWIN toplevel directory.  The ARCH variable must be set to the
 # architecture identifier used to build STDWIN.  NB if you combine this
 # with the gl module on an SGI IRIX 4 machine, you should replace
 # "-lX11" with "-lX11_s".

 #STDWIN=/ufs/guido/src/stdwin
 #ARCH=???
 #stdwin stdwinmodule.c -I$(STDWIN)/H $(STDWIN)/Build/$(ARCH)/x11/lib/lib.a -lX11
 #STDWINPATH=:$(DESTLIB)/stdwin

 # For STDWIN 0.9.9 or higher, it's a bit different:

 #STDWIN=/ufs/guido/src/stdwin
 #LIBTEXTEDIT=$(STDWIN)/$(MACHDEP)/Packs/textedit/libtextedit.a
 #LIBX11STDWIN=$(STDWIN)/$(MACHDEP)/Ports/x11/libstdwin.a
 #LIBALFASTDWIN=$(STDWIN)/$(MACHDEP)/Ports/alfa/libstdwin.a
 #stdwin stdwinmodule.c -I$(STDWIN)/H $(LIBTEXTEDIT) $(LIBX11STDWIN) -lX11

 # Or use the following for the alphanumeric version:

 #stdwin stdwinmodule.c -I$(STDWIN)/H $(LIBTEXTEDIT) $(LIBALFASTDWIN) -ltermcap


 # The md5 module implements the RSA Data Security, Inc. MD5
 # Message-Digest Algorithm, described in RFC 1321.  The necessary files
 # md5c.c and md5.h are included here.

 md5 md5module.c md5c.c


 # The mpz module interfaces to the GNU Multiple Precision library.
 # You need to ftp the GNU MP library.
 # The GMP variable must point to the GMP source directory.
 # This was originally written and tested against GMP 1.2.  I have
 # compiled it against GMP 1.3.2 (the latest I believe) and it seems to
 # work OK, but I haven't tested it thoroughly (lacking knowledge about
 # it).

 # A compatible MP library unencombered by the GPL also exists.  It was
 # posted to comp.sources.misc in volume 40 and is widely available from
 # FTP archive sites. One URL for it is:
 # ftp://gatekeeper.dec.com/.b/usenet/comp.sources.misc/volume40/fgmp/part01.Z

 #GMP=/ufs/guido/src/gmp
 #mpz mpzmodule.c -I$(GMP) $(GMP)/libgmp.a


 # SGI IRIX specific modules -- off by default.

 # These module work on any SGI machine.
 # NB when using shared libraries, don't make gl a shared library!

 #fm fmmodule.c -lfm -lgl		# Font Manager
 #gl glmodule.c -lgl -lX11		# Graphics Library
 #sgi sgimodule.c			# sgi.nap() and a few more

 # This module requires the header file
 # /usr/people/4Dgifts/iristools/include/izoom.h

 #imgfile imgfile.c -limage -lgutil -lm	# Image Processing Utilities


 # These modules require the Multimedia Development Option (I think).
 # Note that -lmediad and -lawareaudio are only present on IRIX 5 and
 # should be taken out for IRIX 4.

 #al almodule.c -laudio			# Audio Library
 #cd cdmodule.c -lcdaudio -lds -lmediad	# CD Audio Library
 #cl clmodule.c -lcl -lawareaudio	# Compression Library
 #sv svmodule.c yuvconvert.c -lsvideo -lXext -lX11	# Starter Video


 # The FORMS library, by Mark Overmars, implements user interface
 # components such as dialogs and buttons using SGI's GL and FM
 # libraries.  You must ftp the FORMS library separately from
 # ftp://ftp.cs.ruu.nl/pub/SGI/FORMS.  It was tested with FORMS 2.2a.
 # The FORMS variable must point to the FORMS subdirectory of the forms
 # toplevel directory.

 #FORMS=/ufs/guido/src/forms/FORMS
 #fl flmodule.c -I$(FORMS) $(FORMS)/libforms.a -lfm -lgl


 # SunOS specific modules -- off by default

 #sunaudiodev sunaudiodev.c


 # Thread module -- works on SGI IRIX and on SunOS 5.x (SOLARIS) only.
 # Note that you must have configured (and built!) Python with the
 # --with-thread option passed to the configure script for this to work.
 # NB when using shared libraries, don't make thread a shared library!

 #thread threadmodule.c


 # GNN's timing module

 #timing timingmodule.c


 # Steen Lumholt's tkinter module.
 #
 # For use with plain Tk, use the first line.
 #
 # For use with extended Tk (i.e. if you have added extra widgets to
 # the Tk library, such as the common "studButton" and "triButton"
 # extensions), edit tkappinit.c, add appropriate -DWITH_... and
 # libraries/objects to the second line, and use that.
 #
 # In all cases also enable the last line (TKPATH).

 # *** Use ONE of the following two lines, see previous comments ***
 #tkinter tkintermodule.c -I/usr/local/include -L/usr/local/lib -ltk -ltcl -lX11
 #tkinter tkintermodule.c tkappinit.c -DWITH_APPINIT -I/usr/local/include -L/usr/local/lib -ltk -ltcl -lX11

 # *** ALWAYS use this line as well ***
 #TKPATH=:$(DESTLIB)/tkinter


 # Lance Ellinghouse's modules

 rotor rotormodule.c		# enigma-inspired encryption
 #syslog syslogmodule.c		# syslog daemon interface
 #curses cursesmodule.c -lcurses -ltermcap	# guess what?


 # Tommy Burnette's 'new' module (creates new empty objects of certain kinds)

 #new newmodule.c


 # John Redford's sybase module

 #sybase sybasemodule.c


 # Generic (SunOS / SVR4) dynamic loading module

 #dl dlmodule.c


 # Anthony Baxter's gdbm module (derived from Jack's dbm module)
 # GNU dbm(3) will require -lgdbm

 #gdbm gdbmmodule.c -I/usr/local/include -L/usr/local/lib -lgdbm


 # Example -- included for reference only
 # xx xxmodule.c
	# The file Setup is used by the makesetup script to construct the files
	# Makefile and config.c, from Makefile.pre and config.c.in,
	# respectively. The file Setup itself is initially copied from
	# Setup.in; once it exists it will not be overwritten, so you can edit
	# Setup to your heart's content. One possibility is to overwrite it
	# with a copy of Setup.sgi or Setup.sunos[45] before you start editing.
	# Note that Makefile.pre is created from Makefile.pre.in by the toplevel
	# configure script.

	# (VPATH notes: Setup and Makefile.pre are in the build directory, as
	# are Makefile and config.c; Setup.in and config.c.in are in the source
	# directory.)

	# Each line in this file describes one or more optional modules.
	# Comment out lines to suppress modules.
	# Lines have the following structure:
	#
	# <module> ... [<sourcefile> ...] [<cpparg> ...] [<library> ...]
	#
	# <sourcefile> is anything ending in .c (.C, .cc, .c++ are C++ files)
	# <cpparg> is anything starting with -I, -D, -U or -C
	# <library> is anything ending in .a or beginning with -l or -L
	# <module> is anything else but should be a valid Python
	# identifier (letters, digits, underscores, beginning with non-digit)
	#
	# Lines can also have the form
	#
	# <name> = <value>
	#
	# which defines a Make variable definition inserted into Makefile.in
	#
	# Finally, if a line has the literal form
	#
	# noconfig
	#
	# (that is including the '' and '' !) then the following modules will
	# not be included in the config.c file, nor in the list of objects to be
	# added to the library archive, and their linker options won't be added
	# to the linker options, but rules to create their .o files and their
	# shared libraries will still be added to the Makefile

	# NOTE: As a standard policy, as many modules as can be supported by a
	# platform should be present. The distribution comes with all modules
	# enabled that are supported by most platforms and don't require you
	# to ftp sources from elsewhere. To make this easier for SGI
	# platforms, you can copy Setup.sgi to Setup (or edit Makefile.in.in
	# to use Setup.sgi instead of Setup).


	# Some special rules to define PYTHONPATH.
	# Edit the definitions below to indicate which options you are using.
	# Don't add any whitespace or comments!

	# Don't edit this (usually)
	DESTLIB=$(prefix)/lib/python

	# Standard enabled (tests are always available)
	TESTPATH=:$(DESTLIB)/test

	# Path for machine- or system-dependent modules (and shared libraries)
	MACHDEPPATH=:$(DESTLIB)/$(MACHDEP)

	COREPYTHONPATH=.:$(DESTLIB)$(TESTPATH)$(MACHDEPPATH)$(STDWINPATH)$(TKPATH)
	PYTHONPATH=$(COREPYTHONPATH)


	# If you want to build most modules as shared libraries, here are
	# a couple of lines to enable. The modules listed here can't be
	# built as shared libraries for various reasons.
	# IF YOU ENABLE THEM HERE, DISABLE THEM LATER IN THE Setup FILE!

	#posix posixmodule.c # posix (UNIX) system calls
	#signal signalmodule.c # signal(2)
	#gl glmodule.c -lgl -lX11 # Graphics Library -- SGI only
	#thread threadmodule.c # threads -- see below

	# Uncommenting the following line tells makesetup that all following
	# modules are to be built as shared libraries (see above for more detail).

	#noconfig


	# Modules that should always be present (non UNIX dependent)
	# NB when using shared libraries, don't make posix a shared library!

	array arraymodule.c # array objects
	math mathmodule.c -lm # math library functions, e.g. sin()
	parser parsermodule.c # raw interface to the Python parser
	posix posixmodule.c # posix (UNIX) system calls
	regex regexmodule.c regexpr.c # Regular expressions, GNU Emacs style
	strop stropmodule.c # fast string operations implemented in C
	struct structmodule.c # binary structure packing/unpacking
	time timemodule.c # time operations and variables


	# Modules with some UNIX dependencies -- on by default.
	# (If you have a really backward UNIX, select and socket may not be
	# supported...)
	# NB when using shared libraries, don't make signal a shared library!

	fcntl fcntlmodule.c # fcntl(2) and ioctl(2)
	pwd pwdmodule.c # pwd(3)
	grp grpmodule.c # grp(3)
	crypt cryptmodule.c # crypt(3)
	select selectmodule.c # select(2); not on ancient System V
	socket socketmodule.c # socket(2); not on ancient System V
	signal signalmodule.c # signal(2)


	# Some more UNIX dependent modules -- off by default, since these
	# are not supported by all UNIX systems.

	#dbm dbmmodule.c # dbm(3) may require -lndbm or similar
	#nis nismodule.c # Sun yellow pages -- not everywhere
	#termios termios.c # Steen Lumholt's termios module


	# Multimedia modules -- on by default.
	# These represent audio samples or images as strings

	audioop audioop.c # Operations on audio samples
	imageop imageop.c # Operations on images
	rgbimg rgbimgmodule.c # Read SGI RGB image files (but coded portably)


	# The stdwin module provides a simple, portable (between X11 and Mac)
	# windowing interface. You need to ftp the STDWIN library, e.g. from
	# ftp://ftp.cwi.nl/pub/stdwin. The STDWIN variable must point to the
	# STDWIN toplevel directory. The ARCH variable must be set to the
	# architecture identifier used to build STDWIN. NB if you combine this
	# with the gl module on an SGI IRIX 4 machine, you should replace
	# "-lX11" with "-lX11_s".

	#STDWIN=/ufs/guido/src/stdwin
	#ARCH=???
	#stdwin stdwinmodule.c -I$(STDWIN)/H $(STDWIN)/Build/$(ARCH)/x11/lib/lib.a -lX11
	#STDWINPATH=:$(DESTLIB)/stdwin

	# For STDWIN 0.9.9 or higher, it's a bit different:

	#STDWIN=/ufs/guido/src/stdwin
	#LIBTEXTEDIT=$(STDWIN)/$(MACHDEP)/Packs/textedit/libtextedit.a
	#LIBX11STDWIN=$(STDWIN)/$(MACHDEP)/Ports/x11/libstdwin.a
	#LIBALFASTDWIN=$(STDWIN)/$(MACHDEP)/Ports/alfa/libstdwin.a
	#stdwin stdwinmodule.c -I$(STDWIN)/H $(LIBTEXTEDIT) $(LIBX11STDWIN) -lX11

	# Or use the following for the alphanumeric version:

	#stdwin stdwinmodule.c -I$(STDWIN)/H $(LIBTEXTEDIT) $(LIBALFASTDWIN) -ltermcap


	# The md5 module implements the RSA Data Security, Inc. MD5
	# Message-Digest Algorithm, described in RFC 1321. The necessary files
	# md5c.c and md5.h are included here.

	md5 md5module.c md5c.c


	# The mpz module interfaces to the GNU Multiple Precision library.
	# You need to ftp the GNU MP library.
	# The GMP variable must point to the GMP source directory.
	# This was originally written and tested against GMP 1.2. I have
	# compiled it against GMP 1.3.2 (the latest I believe) and it seems to
	# work OK, but I haven't tested it thoroughly (lacking knowledge about
	# it).

	# A compatible MP library unencombered by the GPL also exists. It was
	# posted to comp.sources.misc in volume 40 and is widely available from
	# FTP archive sites. One URL for it is:
	# ftp://gatekeeper.dec.com/.b/usenet/comp.sources.misc/volume40/fgmp/part01.Z

	#GMP=/ufs/guido/src/gmp
	#mpz mpzmodule.c -I$(GMP) $(GMP)/libgmp.a


	# SGI IRIX specific modules -- off by default.

	# These module work on any SGI machine.
	# NB when using shared libraries, don't make gl a shared library!

	#fm fmmodule.c -lfm -lgl # Font Manager
	#gl glmodule.c -lgl -lX11 # Graphics Library
	#sgi sgimodule.c # sgi.nap() and a few more

	# This module requires the header file
	# /usr/people/4Dgifts/iristools/include/izoom.h

	#imgfile imgfile.c -limage -lgutil -lm # Image Processing Utilities


	# These modules require the Multimedia Development Option (I think).
	# Note that -lmediad and -lawareaudio are only present on IRIX 5 and
	# should be taken out for IRIX 4.

	#al almodule.c -laudio # Audio Library
	#cd cdmodule.c -lcdaudio -lds -lmediad # CD Audio Library
	#cl clmodule.c -lcl -lawareaudio # Compression Library
	#sv svmodule.c yuvconvert.c -lsvideo -lXext -lX11 # Starter Video


	# The FORMS library, by Mark Overmars, implements user interface
	# components such as dialogs and buttons using SGI's GL and FM
	# libraries. You must ftp the FORMS library separately from
	# ftp://ftp.cs.ruu.nl/pub/SGI/FORMS. It was tested with FORMS 2.2a.
	# The FORMS variable must point to the FORMS subdirectory of the forms
	# toplevel directory.

	#FORMS=/ufs/guido/src/forms/FORMS
	#fl flmodule.c -I$(FORMS) $(FORMS)/libforms.a -lfm -lgl


	# SunOS specific modules -- off by default

	#sunaudiodev sunaudiodev.c


	# Thread module -- works on SGI IRIX and on SunOS 5.x (SOLARIS) only.
	# Note that you must have configured (and built!) Python with the
	# --with-thread option passed to the configure script for this to work.
	# NB when using shared libraries, don't make thread a shared library!

	#thread threadmodule.c


	# GNN's timing module

	#timing timingmodule.c


	# Steen Lumholt's tkinter module.
	#
	# For use with plain Tk, use the first line.
	#
	# For use with extended Tk (i.e. if you have added extra widgets to
	# the Tk library, such as the common "studButton" and "triButton"
	# extensions), edit tkappinit.c, add appropriate -DWITH_... and
	# libraries/objects to the second line, and use that.
	#
	# In all cases also enable the last line (TKPATH).

	# * Use ONE of the following two lines, see previous comments *
	#tkinter tkintermodule.c -I/usr/local/include -L/usr/local/lib -ltk -ltcl -lX11
	#tkinter tkintermodule.c tkappinit.c -DWITH_APPINIT -I/usr/local/include -L/usr/local/lib -ltk -ltcl -lX11

	# * ALWAYS use this line as well *
	#TKPATH=:$(DESTLIB)/tkinter


	# Lance Ellinghouse's modules

	rotor rotormodule.c # enigma-inspired encryption
	#syslog syslogmodule.c # syslog daemon interface
	#curses cursesmodule.c -lcurses -ltermcap # guess what?



	# Tommy Burnette's 'new' module (creates new empty objects of certain kinds)

	#new newmodule.c


	# John Redford's sybase module

	#sybase sybasemodule.c


	# Generic (SunOS / SVR4) dynamic loading module

	#dl dlmodule.c


	# Anthony Baxter's gdbm module (derived from Jack's dbm module)
	# GNU dbm(3) will require -lgdbm

	#gdbm gdbmmodule.c -I/usr/local/include -L/usr/local/lib -lgdbm


	# Example -- included for reference only
	# xx xxmodule.c