# 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: # # ... [ ...] [ ...] [ ...] # # is anything ending in .o # is anything starting with -I, -D, -U or -C # is anything ending in .a or beginning with -l or -L # is anything else but should be a valid Python # identifier (letters, digits, underscores, beginning with non-digit) # # Lines can also have the form # # = # # which defines a Make variable definition inserted into Makefile.in # 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 # Enable this for SGI systems #ARCHPATH=:$(DESTLIB)/sgi # Enable this for Sun systems #ARCHPATH=:$(DESTLIB)/sun4 # Enable this if stdwin installed #STDWINPATH=:$(DESTLIB)/stdwin PYTHONPATH=.:$(DESTLIB)$(TESTPATH)$(ARCHPATH)$(STDWINPATH) # Modules that should always be present (non UNIX dependent) array arraymodule.o # array objects math mathmodule.o # math library functions, e.g. sin() parser parsermodule.o # raw interface to the Python parser posix posixmodule.o # posix (UNIX) system calls regex regexmodule.o regexpr.o # Regular expressions, GNU Emacs style strop stropmodule.o # fast string operations implemented in C struct structmodule.o # binary structure packing/unpacking time timemodule.o # time operations and variables # Modules with some UNIX dependencies -- on by default. # (If you have a really backward UNIX, select and socket may not be # supported...) fcntl fcntlmodule.o # fcntl(2) and ioctl(2) pwd grp pwdmodule.o # pwd(3) and grp(3) crypt cryptmodule.o # crypt(3) select selectmodule.o # select(2); not on ancient System V socket socketmodule.o # socket(2); not on ancient System V # Some more UNIX dependent modules -- off by default, since these # are not supported by all UNIX systems. #dbm dbmmodule.o # dbm(3) may require -lndbm or similar #nis nismodule.o # Sun yellow pages -- not everywhere # Multimedia modules -- on by default. # These represent audio samples or images as strings audioop audioopmodule.o # Operations on audio samples imageop imageopmodule.o # Operations on images rgbimg rgbimgmodule.o # Read SGI RGB image files (but coded portably) # The stdwin module provides a simple, portable (between X11 and Mac) # windowing interface. You need to ftp the STDWIN library, e.g. from # ftp://ftp.cwi.nl/pub/stdwin. The STDWIN variable must point to the # STDWIN toplevel directory. The ARCH variable must be set to the # architecture identifier used to build STDWIN. NB if you combine this # with the gl module on an SGI machine, you should replace "-lX11" with # "-lX11_s". #STDWIN=/ufs/guido/src/stdwin #ARCH=??? #stdwin stdwinmodule.o -I$(STDWIN)/H $(STDWIN)/Build/$(ARCH)/x11/lib/lib.a -lX11 # 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.o md5c.o # 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). #GMP=/ufs/guido/src/gmp #mpz mpzmodule.o -I$(GMP) $(GMP)/libgmp.a # The rotor module (contributed by Lance Ellinghouse) implements a # rotor-based encryption algorithm. It is self-contained. rotor rotormodule.o # SGI IRIX specific modules -- off by default. # Switch this on if you have an SGI machine. # Note that some required libraries and header files aren't always # installed; you may be better off switching on only 'fm' and 'gl' # (Font Manager and Graphics Library). #al almodule.o -laudio # audio #cd cdmodule.o -lcdaudio -lds # #cl clmodule.o -lcl #fm fmmodule.o -lfm_s -lgl_s #gl glmodule.o -lgl_s -lX11_s #imgfile imgfilemodule.o -limage -lgutil #sgi sgimodule.o #sv svmodule.o yuvconvert.o -lsvideo -lXext -lX11_s # The FORMS library, by Mark Overmars, implements user interface # components such as dialogs and buttons using SGI's GL and FM # libraries. You must ftp the FORMS library separately from # ftp://ftp.cs.ruu.nl/pub/SGI/FORMS. It was tested with FORMS 2.2a. # The FORMS variable must point to the FORMS subdirectory of the forms # toplevel directory. #FORMS=/ufs/guido/src/forms/FORMS #fl flmodule.o -I$(FORMS) $(FORMS)/libforms.a # SunOS specific modules -- off by default # sunaudiodev sunaudiodevmodule.o # 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. # thread threadmodule.o # GNN's timing module # timing timingmodule.o # Example -- included for reference only # xx xxmodule.o