455 lines
13 KiB
Python
Executable File
455 lines
13 KiB
Python
Executable File
#! /ufs/guido/bin/sgi/python
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# Given a Python script, create a binary that runs the script.
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# The binary is 100% independent of Python libraries and binaries.
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# It will not contain any Python source code -- only "compiled" Python
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# (as initialized static variables containing marshalled code objects).
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# It even does the right thing for dynamically loaded modules!
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# The module search path of the binary is set to the current directory.
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#
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# Some problems remain:
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# - It's highly non-portable, since it knows about paths and libraries
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# (there's a customization section though, and it knows how to
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# distinguish an SGI from a Sun SPARC system -- adding knowledge
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# about more systems is left as an exercise for the reader).
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# - You need to have the Python source tree lying around as well as
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# the "libpython.a" used to generate the Python binary.
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# - For scripts that use many modules it generates absurdly large
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# files (frozen.c and config.o as well as the final binary),
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# and is consequently rather slow.
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#
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# Caveats:
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# - The search for modules sometimes finds modules that are never
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# actually imported since the code importing them is never executed.
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# - If an imported module isn't found, you get a warning but the
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# process of freezing continues. The binary will fail if it
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# actually tries to import one of these modules.
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# - This often happens with the module 'mac', which module 'os' tries
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# to import (to determine whether it is running on a Macintosh).
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# You can ignore the warning about this.
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# - If the program dynamically reads or generates Python code and
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# executes it, this code may reference built-in or library modules
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# that aren't present in the frozen binary, and this will fail.
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# - Your program may be using external data files, e.g. compiled
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# forms definitions (*.fd). These aren't incorporated. Since
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# sys.path in the resulting binary only contains '.', if your
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# program searches its data files along sys.path (as the 'flp'
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# modules does to find its forms definitions), you may need to
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# change the program to extend the search path or instruct its users
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# to set the environment variable PYTHONPATH to point to your data
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# files.
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#
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# Usage hints:
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# - If you have a bunch of scripts that you want to freeze, instead
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# of freezing each of them separately, you might consider writing
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# a tiny main script that looks at sys.argv[0] and then imports
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# the corresponding module. You can then make links to the
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# frozen binary named after the various scripts you support.
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# Pass the additional scripts as arguments after the main script.
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# A minimal script to do this is the following.
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# import sys, posixpath
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# exec('import ' + posixpath.basename(sys.argv[0]) + '\n')
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import os
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import sys
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import regex
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import getopt
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import regsub
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import string
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import marshal
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# Function to join two pathnames with a slash in between
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j = os.path.join
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##################################
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# START OF CONFIGURATION SECTION #
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##################################
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# Attempt to guess machine architecture
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if os.path.exists('/usr/lib/libgl_s'): ARCH = 'sgi'
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else: ARCH = 'sun4'
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# Site parametrizations (change to match your site)
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CC = 'cc' # C compiler
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TOP = '/ufs/guido/src' # Parent of all source trees
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PYTHON = j(TOP, 'python') # Top of the Python source tree
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SRC = j(PYTHON, 'src') # Python source directory
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BLD = j(PYTHON, 'build.' + ARCH) # Python build directory
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#BLD = SRC # Use this if you build in SRC
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# Other packages (change to match your site)
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DL = j(TOP, 'dl') # Top of the dl source tree
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DL_DLD = j(TOP, 'dl-dld') # The dl-dld source directory
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DLD = j(TOP, 'dld-3.2.3') # The dld source directory
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FORMS = j(TOP, 'forms') # Top of the FORMS source tree
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STDWIN = j(TOP, 'stdwin') # Top of the STDWIN source tree
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READLINE = j(TOP, 'readline.' + ARCH) # Top of the GNU Readline source tree
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SUN_X11 = '/usr/local/X11R5/lib/libX11.a'
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# File names (usually no need to change)
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LIBP = j(BLD, 'libpython.a') # Main Python library
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CONFIG = j(SRC, 'config.c') # Configuration source file
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FMAIN = j(SRC, 'frozenmain.c') # Special main source file
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# Libraries needed when linking. First tuple item is built-in module
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# for which it is needed (or '*' for always), rest are ld arguments.
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# There is a separate list per architecture.
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libdeps_sgi = [ \
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('stdwin', j(STDWIN, 'Build/' + ARCH + '/x11/lib/lib.a')), \
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('fl', j(FORMS, 'FORMS/libforms.a'), '-lfm_s'), \
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('*', j(READLINE, 'libreadline.a'), '-ltermcap'), \
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('al', '-laudio'), \
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('sv', '-lsvideo', '-lXext'), \
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('cd', '-lcdaudio', '-lds'), \
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('cl', '-lcl'), \
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('imgfile', '-limage', '-lgutil', '-lm'), \
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('mpz', '/ufs/jh/src/gmp-1.2/libgmp.a'), \
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('md5', '/ufs/jh/src/md5/md5.o'), \
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('*', '-lsun'), \
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('*', j(DL, 'libdl.a'), '-lmld'), \
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('*', '-lmpc'), \
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('fm', '-lfm_s'), \
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('gl', '-lgl_s', '-lX11_s'), \
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('stdwin', '-lX11_s'), \
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('*', '-lm'), \
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('*', '-lc_s'), \
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]
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libdeps_sun4 = [ \
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('*', '-Bstatic'), \
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('stdwin', j(STDWIN, 'Build/' + ARCH + '/x11/lib/lib.a')), \
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('*', j(READLINE, 'libreadline.a')), \
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('*', '-lm'), \
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('*', j(DL_DLD,'libdl.a'), j(DLD,'libdld.a')), \
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('*', SUN_X11), \
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('*', '-ltermcap'), \
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('*', '-lc'), \
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]
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libdeps = eval('libdeps_' + ARCH)
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################################
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# END OF CONFIGURATION SECTION #
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################################
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# Exception used when scanfile fails
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NoSuchFile = 'NoSuchFile'
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# Global options
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quiet = 0 # -q
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verbose = 0 # -v
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noexec = 0 # -n
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nowrite = 0 # -N
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ofile = 'a.out' # -o file
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# Main program -- argument parsing etc.
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def main():
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global quiet, verbose, noexec, nowrite, ofile
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try:
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opts, args = getopt.getopt(sys.argv[1:], 'nNo:qv')
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except getopt.error, msg:
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usage(str(msg))
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sys.exit(2)
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for o, a in opts:
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if o == '-n': noexec = 1
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if o == '-N': nowrite = 1
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if o == '-o': ofile = a
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if o == '-q': verbose = 0; quiet = 1
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if o == '-v': verbose = verbose + 1; quiet = 0
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if len(args) < 1:
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usage('please pass at least one file argument')
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sys.exit(2)
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process(args[0], args[1:])
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# Print usage message to stderr
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def usage(*msgs):
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sys.stdout = sys.stderr
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for msg in msgs: print msg
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print 'Usage: freeze [options] scriptfile [modulefile ...]'
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print '-n : generate the files but don\'t compile and link'
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print '-N : don\'t write frozen.c (do compile unless -n given)'
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print '-o file : binary output file (default a.out)'
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print '-q : quiet (no messages at all except errors)'
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print '-v : verbose (lots of extra messages)'
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# Process the script file
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def process(filename, addmodules):
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global noexec
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#
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if not quiet: print 'Computing needed modules ...'
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todo = {}
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todo['__main__'] = filename
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for name in addmodules:
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mod = os.path.basename(name)
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if mod[-3:] == '.py': mod = mod[:-3]
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todo[mod] = name
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try:
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dict = closure(todo)
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except NoSuchFile, filename:
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sys.stderr.write('Can\'t open file %s\n' % filename)
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sys.exit(1)
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#
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mods = dict.keys()
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mods.sort()
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#
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if verbose:
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print '%-15s %s' % ('Module', 'Filename')
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for mod in mods:
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print '%-15s %s' % (`mod`, dict[mod])
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#
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if not quiet: print 'Looking for dynamically linked modules ...'
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dlmodules = []
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objs = []
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libs = []
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for mod in mods:
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if dict[mod][-2:] == '.o':
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if verbose: print 'Found', mod, dict[mod]
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dlmodules.append(mod)
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objs.append(dict[mod])
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libsname = dict[mod][:-2] + '.libs'
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try:
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f = open(libsname, 'r')
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except IOError:
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f = None
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if f:
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libtext = f.read()
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f.close()
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for lib in string.split(libtext):
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if lib in libs: libs.remove(lib)
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libs.append(lib)
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#
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if not nowrite:
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if not quiet: print 'Writing frozen.c ...'
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writefrozen('frozen.c', dict)
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else:
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if not quiet: print 'NOT writing frozen.c ...'
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#
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if not dlmodules:
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config = CONFIG
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if not quiet: print 'Using existing', config, '...'
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else:
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config = 'tmpconfig.c'
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if nowrite:
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if not quiet: print 'NOT writing config.c ...'
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else:
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if not quiet:
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print 'Writing config.c with dl modules ...'
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f = open(CONFIG, 'r')
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g = open(config, 'w')
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m1 = regex.compile('-- ADDMODULE MARKER 1 --')
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m2 = regex.compile('-- ADDMODULE MARKER 2 --')
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while 1:
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line = f.readline()
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if not line: break
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g.write(line)
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if m1.search(line) >= 0:
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if verbose: print 'Marker 1 ...'
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for mod in dlmodules:
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g.write('extern void init' + \
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mod + '();\n')
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if m2.search(line) >= 0:
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if verbose: print 'Marker 2 ...'
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for mod in dlmodules:
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g.write('{"' + mod + \
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'", init' + mod + '},\n')
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g.close()
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#
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if not quiet:
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if noexec: print 'Generating compilation commands ...'
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else: print 'Starting compilation ...'
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defs = ['-DUSE_FROZEN', '-DPYTHONPATH=\'"."\'']
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for mod in dict.keys():
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if dict[mod] == '<builtin>' and mod <> 'sys':
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defs.append('-DUSE_' + string.upper(mod))
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#
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incs = ['-I.', '-I' + SRC]
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if dict.has_key('stdwin'):
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incs.append('-I' + j(STDWIN, 'H'))
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#
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srcs = [config, FMAIN]
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#
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libs.append(LIBP)
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for item in libdeps:
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m = item[0]
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if m == '*' or dict.has_key(m):
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for l in item[1:]:
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if l in libs: libs.remove(l)
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libs.append(l)
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#
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sts = 0
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#
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cmd = CC + ' -c'
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cmd = cmd + ' ' + string.join(defs)
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cmd = cmd + ' ' + string.join(incs)
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cmd = cmd + ' ' + string.join(srcs)
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print cmd
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#
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if not noexec:
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sts = os.system(cmd)
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if sts:
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print 'Exit status', sts, '-- turning on -n'
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noexec = 1
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#
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for s in srcs:
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s = os.path.basename(s)
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if s[-2:] == '.c': s = s[:-2]
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o = s + '.o'
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objs.insert(0, o)
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#
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cmd = CC
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cmd = cmd + ' ' + string.join(objs)
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cmd = cmd + ' ' + string.join(libs)
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cmd = cmd + ' -o ' + ofile
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print cmd
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#
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if not noexec:
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sts = os.system(cmd)
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if sts:
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print 'Exit status', sts
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else:
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print 'Done.'
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#
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if not quiet and not noexec and sts == 0:
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print 'Note: consider this:'; print '\tstrip', ofile
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#
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sys.exit(sts)
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# Generate code for a given module
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def makecode(filename):
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if filename[-2:] == '.o':
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return None
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try:
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f = open(filename, 'r')
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except IOError:
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return None
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if verbose: print 'Making code from', filename, '...'
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text = f.read()
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code = compile(text, filename, 'exec')
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f.close()
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return marshal.dumps(code)
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# Write the C source file containing the frozen Python code
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def writefrozen(filename, dict):
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f = open(filename, 'w')
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codelist = []
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for mod in dict.keys():
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codestring = makecode(dict[mod])
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if codestring is not None:
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codelist.append((mod, codestring))
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write = sys.stdout.write
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save_stdout = sys.stdout
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try:
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sys.stdout = f
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for mod, codestring in codelist:
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if verbose:
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write('Writing initializer for %s\n'%mod)
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print 'static char M_' + mod + '[' + \
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str(len(codestring)) + '+1] = {'
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for i in range(0, len(codestring), 16):
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for c in codestring[i:i+16]:
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print str(ord(c)) + ',',
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print
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print '};'
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print 'struct frozen {'
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print ' char *name;'
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print ' char *code;'
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print ' int size;'
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print '} frozen_modules[] = {'
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for mod, codestring in codelist:
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print ' {"' + mod + '",',
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print 'M_' + mod + ',',
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print str(len(codestring)) + '},'
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print ' {0, 0, 0} /* sentinel */'
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print '};'
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finally:
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sys.stdout = save_stdout
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f.close()
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# Determine the names and filenames of the modules imported by the
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# script, recursively. This is done by scanning for lines containing
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# import statements. (The scanning has only superficial knowledge of
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# Python syntax and no knowledge of semantics, so in theory the result
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# may be incorrect -- however this is quite unlikely if you don't
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# intentionally obscure your Python code.)
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# Compute the closure of scanfile() -- special first file because of script
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def closure(todo):
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done = {}
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while todo:
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newtodo = {}
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for modname in todo.keys():
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if not done.has_key(modname):
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filename = todo[modname]
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if filename is None:
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filename = findmodule(modname)
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done[modname] = filename
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if filename in ('<builtin>', '<unknown>'):
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continue
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modules = scanfile(filename)
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for m in modules:
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if not done.has_key(m):
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newtodo[m] = None
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todo = newtodo
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return done
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# Scan a file looking for import statements
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importstr = '\(^\|:\)[ \t]*import[ \t]+\([a-zA-Z0-9_, \t]+\)'
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fromstr = '\(^\|:\)[ \t]*from[ \t]+\([a-zA-Z0-9_]+\)[ \t]+import[ \t]+'
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isimport = regex.compile(importstr)
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isfrom = regex.compile(fromstr)
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def scanfile(filename):
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allmodules = {}
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try:
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f = open(filename, 'r')
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except IOError, msg:
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raise NoSuchFile, filename
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while 1:
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line = f.readline()
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if not line: break # EOF
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while line[-2:] == '\\\n': # Continuation line
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line = line[:-2] + ' '
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line = line + f.readline()
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if isimport.search(line) >= 0:
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rawmodules = isimport.group(2)
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modules = string.splitfields(rawmodules, ',')
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for i in range(len(modules)):
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modules[i] = string.strip(modules[i])
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elif isfrom.search(line) >= 0:
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modules = [isfrom.group(2)]
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else:
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continue
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for mod in modules:
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allmodules[mod] = None
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f.close()
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return allmodules.keys()
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# Find the file containing a module, given its name; None if not found
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builtins = sys.builtin_module_names + ['sys']
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def findmodule(modname):
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if modname in builtins: return '<builtin>'
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for dirname in sys.path:
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dlfullname = os.path.join(dirname, modname + 'module.o')
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try:
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f = open(dlfullname, 'r')
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except IOError:
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f = None
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if f:
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f.close()
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return dlfullname
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fullname = os.path.join(dirname, modname + '.py')
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try:
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f = open(fullname, 'r')
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except IOError:
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continue
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f.close()
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return fullname
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if not quiet:
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sys.stderr.write('Warning: module %s not found\n' % modname)
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return '<unknown>'
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# Call the main program
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main()
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