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|
#! /usr/bin/env python
"""\
bundlebuilder.py -- Tools to assemble MacOS X (application) bundles.
This module contains two classes to build so called "bundles" for
MacOS X. BundleBuilder is a general tool, AppBuilder is a subclass
specialized in building application bundles.
[Bundle|App]Builder objects are instantiated with a bunch of keyword
arguments, and have a build() method that will do all the work. See
the class doc strings for a description of the constructor arguments.
The module contains a main program that can be used in two ways:
% python bundlebuilder.py [options] build
% python buildapp.py [options] build
Where "buildapp.py" is a user-supplied setup.py-like script following
this model:
from bundlebuilder import buildapp
buildapp(<lots-of-keyword-args>)
"""
__all__ = ["BundleBuilder", "BundleBuilderError", "AppBuilder", "buildapp"]
import sys
import os, errno, shutil
import imp, marshal
import re
from copy import deepcopy
import getopt
from plistlib import Plist
from types import FunctionType as function
class BundleBuilderError(Exception): pass
class Defaults:
"""Class attributes that don't start with an underscore and are
not functions or classmethods are (deep)copied to self.__dict__.
This allows for mutable default values.
"""
def __init__(self, **kwargs):
defaults = self._getDefaults()
defaults.update(kwargs)
self.__dict__.update(defaults)
def _getDefaults(cls):
defaults = {}
for base in cls.__bases__:
if hasattr(base, "_getDefaults"):
defaults.update(base._getDefaults())
for name, value in cls.__dict__.items():
if name[0] != "_" and not isinstance(value,
(function, classmethod)):
defaults[name] = deepcopy(value)
return defaults
_getDefaults = classmethod(_getDefaults)
class BundleBuilder(Defaults):
"""BundleBuilder is a barebones class for assembling bundles. It
knows nothing about executables or icons, it only copies files
and creates the PkgInfo and Info.plist files.
"""
# (Note that Defaults.__init__ (deep)copies these values to
# instance variables. Mutable defaults are therefore safe.)
# Name of the bundle, with or without extension.
name = None
# The property list ("plist")
plist = Plist(CFBundleDevelopmentRegion = "English",
CFBundleInfoDictionaryVersion = "6.0")
# The type of the bundle.
type = "BNDL"
# The creator code of the bundle.
creator = None
# the CFBundleIdentifier (this is used for the preferences file name)
bundle_id = None
# List of files that have to be copied to <bundle>/Contents/Resources.
resources = []
# List of (src, dest) tuples; dest should be a path relative to the bundle
# (eg. "Contents/Resources/MyStuff/SomeFile.ext).
files = []
# List of shared libraries (dylibs, Frameworks) to bundle with the app
# will be placed in Contents/Frameworks
libs = []
# Directory where the bundle will be assembled.
builddir = "build"
# Make symlinks instead copying files. This is handy during debugging, but
# makes the bundle non-distributable.
symlink = 0
# Verbosity level.
verbosity = 1
# Destination root directory
destroot = ""
def setup(self):
# XXX rethink self.name munging, this is brittle.
self.name, ext = os.path.splitext(self.name)
if not ext:
ext = ".bundle"
bundleextension = ext
# misc (derived) attributes
self.bundlepath = pathjoin(self.builddir, self.name + bundleextension)
plist = self.plist
plist.CFBundleName = self.name
plist.CFBundlePackageType = self.type
if self.creator is None:
if hasattr(plist, "CFBundleSignature"):
self.creator = plist.CFBundleSignature
else:
self.creator = "????"
plist.CFBundleSignature = self.creator
if self.bundle_id:
plist.CFBundleIdentifier = self.bundle_id
elif not hasattr(plist, "CFBundleIdentifier"):
plist.CFBundleIdentifier = self.name
def build(self):
"""Build the bundle."""
builddir = self.builddir
if builddir and not os.path.exists(builddir):
os.mkdir(builddir)
self.message("Building %s" % repr(self.bundlepath), 1)
if os.path.exists(self.bundlepath):
shutil.rmtree(self.bundlepath)
if os.path.exists(self.bundlepath + '~'):
shutil.rmtree(self.bundlepath + '~')
bp = self.bundlepath
# Create the app bundle in a temporary location and then
# rename the completed bundle. This way the Finder will
# never see an incomplete bundle (where it might pick up
# and cache the wrong meta data)
self.bundlepath = bp + '~'
try:
os.mkdir(self.bundlepath)
self.preProcess()
self._copyFiles()
self._addMetaFiles()
self.postProcess()
os.rename(self.bundlepath, bp)
finally:
self.bundlepath = bp
self.message("Done.", 1)
def preProcess(self):
"""Hook for subclasses."""
pass
def postProcess(self):
"""Hook for subclasses."""
pass
def _addMetaFiles(self):
contents = pathjoin(self.bundlepath, "Contents")
makedirs(contents)
#
# Write Contents/PkgInfo
assert len(self.type) == len(self.creator) == 4, \
"type and creator must be 4-byte strings."
pkginfo = pathjoin(contents, "PkgInfo")
f = open(pkginfo, "wb")
f.write(self.type + self.creator)
f.close()
#
# Write Contents/Info.plist
infoplist = pathjoin(contents, "Info.plist")
self.plist.write(infoplist)
def _copyFiles(self):
files = self.files[:]
for path in self.resources:
files.append((path, pathjoin("Contents", "Resources",
os.path.basename(path))))
for path in self.libs:
files.append((path, pathjoin("Contents", "Frameworks",
os.path.basename(path))))
if self.symlink:
self.message("Making symbolic links", 1)
msg = "Making symlink from"
else:
self.message("Copying files", 1)
msg = "Copying"
files.sort()
for src, dst in files:
if os.path.isdir(src):
self.message("%s %s/ to %s/" % (msg, src, dst), 2)
else:
self.message("%s %s to %s" % (msg, src, dst), 2)
dst = pathjoin(self.bundlepath, dst)
if self.symlink:
symlink(src, dst, mkdirs=1)
else:
copy(src, dst, mkdirs=1)
def message(self, msg, level=0):
if level <= self.verbosity:
indent = ""
if level > 1:
indent = (level - 1) * " "
sys.stderr.write(indent + msg + "\n")
def report(self):
# XXX something decent
pass
if __debug__:
PYC_EXT = ".pyc"
else:
PYC_EXT = ".pyo"
MAGIC = imp.get_magic()
USE_ZIPIMPORT = "zipimport" in sys.builtin_module_names
# For standalone apps, we have our own minimal site.py. We don't need
# all the cruft of the real site.py.
SITE_PY = """\
import sys
if not %(semi_standalone)s:
del sys.path[1:] # sys.path[0] is Contents/Resources/
"""
if USE_ZIPIMPORT:
ZIP_ARCHIVE = "Modules.zip"
SITE_PY += "sys.path.append(sys.path[0] + '/%s')\n" % ZIP_ARCHIVE
def getPycData(fullname, code, ispkg):
if ispkg:
fullname += ".__init__"
path = fullname.replace(".", os.sep) + PYC_EXT
return path, MAGIC + '\0\0\0\0' + marshal.dumps(code)
#
# Extension modules can't be in the modules zip archive, so a placeholder
# is added instead, that loads the extension from a specified location.
#
EXT_LOADER = """\
def __load():
import imp, sys, os
for p in sys.path:
path = os.path.join(p, "%(filename)s")
if os.path.exists(path):
break
else:
assert 0, "file not found: %(filename)s"
mod = imp.load_dynamic("%(name)s", path)
__load()
del __load
"""
MAYMISS_MODULES = ['mac', 'os2', 'nt', 'ntpath', 'dos', 'dospath',
'win32api', 'ce', '_winreg', 'nturl2path', 'sitecustomize',
'org.python.core', 'riscos', 'riscosenviron', 'riscospath'
]
STRIP_EXEC = "/usr/bin/strip"
#
# We're using a stock interpreter to run the app, yet we need
# a way to pass the Python main program to the interpreter. The
# bootstrapping script fires up the interpreter with the right
# arguments. os.execve() is used as OSX doesn't like us to
# start a real new process. Also, the executable name must match
# the CFBundleExecutable value in the Info.plist, so we lie
# deliberately with argv[0]. The actual Python executable is
# passed in an environment variable so we can "repair"
# sys.executable later.
#
BOOTSTRAP_SCRIPT = """\
#!%(hashbang)s
import sys, os
execdir = os.path.dirname(sys.argv[0])
executable = os.path.join(execdir, "%(executable)s")
resdir = os.path.join(os.path.dirname(execdir), "Resources")
libdir = os.path.join(os.path.dirname(execdir), "Frameworks")
mainprogram = os.path.join(resdir, "%(mainprogram)s")
sys.argv.insert(1, mainprogram)
if %(standalone)s or %(semi_standalone)s:
os.environ["PYTHONPATH"] = resdir
if %(standalone)s:
os.environ["PYTHONHOME"] = resdir
else:
pypath = os.getenv("PYTHONPATH", "")
if pypath:
pypath = ":" + pypath
os.environ["PYTHONPATH"] = resdir + pypath
os.environ["PYTHONEXECUTABLE"] = executable
os.environ["DYLD_LIBRARY_PATH"] = libdir
os.environ["DYLD_FRAMEWORK_PATH"] = libdir
os.execve(executable, sys.argv, os.environ)
"""
#
# Optional wrapper that converts "dropped files" into sys.argv values.
#
ARGV_EMULATOR = """\
import argvemulator, os
argvemulator.ArgvCollector().mainloop()
execfile(os.path.join(os.path.split(__file__)[0], "%(realmainprogram)s"))
"""
#
# When building a standalone app with Python.framework, we need to copy
# a subset from Python.framework to the bundle. The following list
# specifies exactly what items we'll copy.
#
PYTHONFRAMEWORKGOODIES = [
"Python", # the Python core library
"Resources/English.lproj",
"Resources/Info.plist",
"Resources/version.plist",
]
def isFramework():
return sys.exec_prefix.find("Python.framework") > 0
LIB = os.path.join(sys.prefix, "lib", "python" + sys.version[:3])
SITE_PACKAGES = os.path.join(LIB, "site-packages")
class AppBuilder(BundleBuilder):
# Override type of the bundle.
type = "APPL"
# platform, name of the subfolder of Contents that contains the executable.
platform = "MacOS"
# A Python main program. If this argument is given, the main
# executable in the bundle will be a small wrapper that invokes
# the main program. (XXX Discuss why.)
mainprogram = None
# The main executable. If a Python main program is specified
# the executable will be copied to Resources and be invoked
# by the wrapper program mentioned above. Otherwise it will
# simply be used as the main executable.
executable = None
# The name of the main nib, for Cocoa apps. *Must* be specified
# when building a Cocoa app.
nibname = None
# The name of the icon file to be copied to Resources and used for
# the Finder icon.
iconfile = None
# Symlink the executable instead of copying it.
symlink_exec = 0
# If True, build standalone app.
standalone = 0
# If True, build semi-standalone app (only includes third-party modules).
semi_standalone = 0
# If set, use this for #! lines in stead of sys.executable
python = None
# If True, add a real main program that emulates sys.argv before calling
# mainprogram
argv_emulation = 0
# The following attributes are only used when building a standalone app.
# Exclude these modules.
excludeModules = []
# Include these modules.
includeModules = []
# Include these packages.
includePackages = []
# Strip binaries from debug info.
strip = 0
# Found Python modules: [(name, codeobject, ispkg), ...]
pymodules = []
# Modules that modulefinder couldn't find:
missingModules = []
maybeMissingModules = []
def setup(self):
if ((self.standalone or self.semi_standalone)
and self.mainprogram is None):
raise BundleBuilderError, ("must specify 'mainprogram' when "
"building a standalone application.")
if self.mainprogram is None and self.executable is None:
raise BundleBuilderError, ("must specify either or both of "
"'executable' and 'mainprogram'")
self.execdir = pathjoin("Contents", self.platform)
if self.name is not None:
pass
elif self.mainprogram is not None:
self.name = os.path.splitext(os.path.basename(self.mainprogram))[0]
elif executable is not None:
self.name = os.path.splitext(os.path.basename(self.executable))[0]
if self.name[-4:] != ".app":
self.name += ".app"
if self.executable is None:
if not self.standalone and not isFramework():
self.symlink_exec = 1
if self.python:
self.executable = self.python
else:
self.executable = sys.executable
if self.nibname:
self.plist.NSMainNibFile = self.nibname
if not hasattr(self.plist, "NSPrincipalClass"):
self.plist.NSPrincipalClass = "NSApplication"
if self.standalone and isFramework():
self.addPythonFramework()
BundleBuilder.setup(self)
self.plist.CFBundleExecutable = self.name
if self.standalone or self.semi_standalone:
self.findDependencies()
def preProcess(self):
resdir = "Contents/Resources"
if self.executable is not None:
if self.mainprogram is None:
execname = self.name
else:
execname = os.path.basename(self.executable)
execpath = pathjoin(self.execdir, execname)
if not self.symlink_exec:
self.files.append((self.destroot + self.executable, execpath))
self.execpath = execpath
if self.mainprogram is not None:
mainprogram = os.path.basename(self.mainprogram)
self.files.append((self.mainprogram, pathjoin(resdir, mainprogram)))
if self.argv_emulation:
# Change the main program, and create the helper main program (which
# does argv collection and then calls the real main).
# Also update the included modules (if we're creating a standalone
# program) and the plist
realmainprogram = mainprogram
mainprogram = '__argvemulator_' + mainprogram
resdirpath = pathjoin(self.bundlepath, resdir)
mainprogrampath = pathjoin(resdirpath, mainprogram)
makedirs(resdirpath)
open(mainprogrampath, "w").write(ARGV_EMULATOR % locals())
if self.standalone or self.semi_standalone:
self.includeModules.append("argvemulator")
self.includeModules.append("os")
if "CFBundleDocumentTypes" not in self.plist:
self.plist["CFBundleDocumentTypes"] = [
{ "CFBundleTypeOSTypes" : [
"****",
"fold",
"disk"],
"CFBundleTypeRole": "Viewer"}]
# Write bootstrap script
executable = os.path.basename(self.executable)
execdir = pathjoin(self.bundlepath, self.execdir)
bootstrappath = pathjoin(execdir, self.name)
makedirs(execdir)
if self.standalone or self.semi_standalone:
# XXX we're screwed when the end user has deleted
# /usr/bin/python
hashbang = "/usr/bin/python"
elif self.python:
hashbang = self.python
else:
hashbang = os.path.realpath(sys.executable)
standalone = self.standalone
semi_standalone = self.semi_standalone
open(bootstrappath, "w").write(BOOTSTRAP_SCRIPT % locals())
os.chmod(bootstrappath, 0775)
if self.iconfile is not None:
iconbase = os.path.basename(self.iconfile)
self.plist.CFBundleIconFile = iconbase
self.files.append((self.iconfile, pathjoin(resdir, iconbase)))
def postProcess(self):
if self.standalone or self.semi_standalone:
self.addPythonModules()
if self.strip and not self.symlink:
self.stripBinaries()
if self.symlink_exec and self.executable:
self.message("Symlinking executable %s to %s" % (self.executable,
self.execpath), 2)
dst = pathjoin(self.bundlepath, self.execpath)
makedirs(os.path.dirname(dst))
os.symlink(os.path.abspath(self.executable), dst)
if self.missingModules or self.maybeMissingModules:
self.reportMissing()
def addPythonFramework(self):
# If we're building a standalone app with Python.framework,
# include a minimal subset of Python.framework, *unless*
# Python.framework was specified manually in self.libs.
for lib in self.libs:
if os.path.basename(lib) == "Python.framework":
# a Python.framework was specified as a library
return
frameworkpath = sys.exec_prefix[:sys.exec_prefix.find(
"Python.framework") + len("Python.framework")]
version = sys.version[:3]
frameworkpath = pathjoin(frameworkpath, "Versions", version)
destbase = pathjoin("Contents", "Frameworks", "Python.framework",
"Versions", version)
for item in PYTHONFRAMEWORKGOODIES:
src = pathjoin(frameworkpath, item)
dst = pathjoin(destbase, item)
self.files.append((src, dst))
def _getSiteCode(self):
return compile(SITE_PY % {"semi_standalone": self.semi_standalone},
"<-bundlebuilder.py->", "exec")
def addPythonModules(self):
self.message("Adding Python modules", 1)
if USE_ZIPIMPORT:
# Create a zip file containing all modules as pyc.
import zipfile
relpath = pathjoin("Contents", "Resources", ZIP_ARCHIVE)
abspath = pathjoin(self.bundlepath, relpath)
zf = zipfile.ZipFile(abspath, "w", zipfile.ZIP_DEFLATED)
for name, code, ispkg in self.pymodules:
self.message("Adding Python module %s" % name, 2)
path, pyc = getPycData(name, code, ispkg)
zf.writestr(path, pyc)
zf.close()
# add site.pyc
sitepath = pathjoin(self.bundlepath, "Contents", "Resources",
"site" + PYC_EXT)
writePyc(self._getSiteCode(), sitepath)
else:
# Create individual .pyc files.
for name, code, ispkg in self.pymodules:
if ispkg:
name += ".__init__"
path = name.split(".")
path = pathjoin("Contents", "Resources", *path) + PYC_EXT
if ispkg:
self.message("Adding Python package %s" % path, 2)
else:
self.message("Adding Python module %s" % path, 2)
abspath = pathjoin(self.bundlepath, path)
makedirs(os.path.dirname(abspath))
writePyc(code, abspath)
def stripBinaries(self):
if not os.path.exists(STRIP_EXEC):
self.message("Error: can't strip binaries: no strip program at "
"%s" % STRIP_EXEC, 0)
else:
import stat
self.message("Stripping binaries", 1)
def walk(top):
for name in os.listdir(top):
path = pathjoin(top, name)
if os.path.islink(path):
continue
if os.path.isdir(path):
walk(path)
else:
mod = os.stat(path)[stat.ST_MODE]
if not (mod & 0100):
continue
relpath = path[len(self.bundlepath):]
self.message("Stripping %s" % relpath, 2)
inf, outf = os.popen4("%s -S \"%s\"" %
(STRIP_EXEC, path))
output = outf.read().strip()
if output:
# usually not a real problem, like when we're
# trying to strip a script
self.message("Problem stripping %s:" % relpath, 3)
self.message(output, 3)
walk(self.bundlepath)
def findDependencies(self):
self.message("Finding module dependencies", 1)
import modulefinder
mf = modulefinder.ModuleFinder(excludes=self.excludeModules)
if USE_ZIPIMPORT:
# zipimport imports zlib, must add it manually
mf.import_hook("zlib")
# manually add our own site.py
site = mf.add_module("site")
site.__code__ = self._getSiteCode()
mf.scan_code(site.__code__, site)
# warnings.py gets imported implicitly from C
mf.import_hook("warnings")
includeModules = self.includeModules[:]
for name in self.includePackages:
includeModules.extend(findPackageContents(name).keys())
for name in includeModules:
try:
mf.import_hook(name)
except ImportError:
self.missingModules.append(name)
mf.run_script(self.mainprogram)
modules = mf.modules.items()
modules.sort()
for name, mod in modules:
path = mod.__file__
if path and self.semi_standalone:
# skip the standard library
if path.startswith(LIB) and not path.startswith(SITE_PACKAGES):
continue
if path and mod.__code__ is None:
# C extension
filename = os.path.basename(path)
pathitems = name.split(".")[:-1] + [filename]
dstpath = pathjoin(*pathitems)
if USE_ZIPIMPORT:
if name != "zlib":
# neatly pack all extension modules in a subdirectory,
# except zlib, since it's neccesary for bootstrapping.
dstpath = pathjoin("ExtensionModules", dstpath)
# Python modules are stored in a Zip archive, but put
# extensions in Contents/Resources/. Add a tiny "loader"
# program in the Zip archive. Due to Thomas Heller.
source = EXT_LOADER % {"name": name, "filename": dstpath}
code = compile(source, "<dynloader for %s>" % name, "exec")
mod.__code__ = code
self.files.append((path, pathjoin("Contents", "Resources", dstpath)))
if mod.__code__ is not None:
ispkg = mod.__path__ is not None
if not USE_ZIPIMPORT or name != "site":
# Our site.py is doing the bootstrapping, so we must
# include a real .pyc file if USE_ZIPIMPORT is True.
self.pymodules.append((name, mod.__code__, ispkg))
if hasattr(mf, "any_missing_maybe"):
missing, maybe = mf.any_missing_maybe()
else:
missing = mf.any_missing()
maybe = []
self.missingModules.extend(missing)
self.maybeMissingModules.extend(maybe)
def reportMissing(self):
missing = [name for name in self.missingModules
if name not in MAYMISS_MODULES]
if self.maybeMissingModules:
maybe = self.maybeMissingModules
else:
maybe = [name for name in missing if "." in name]
missing = [name for name in missing if "." not in name]
missing.sort()
maybe.sort()
if maybe:
self.message("Warning: couldn't find the following submodules:", 1)
self.message(" (Note that these could be false alarms -- "
"it's not always", 1)
self.message(" possible to distinguish between \"from package "
"import submodule\" ", 1)
self.message(" and \"from package import name\")", 1)
for name in maybe:
self.message(" ? " + name, 1)
if missing:
self.message("Warning: couldn't find the following modules:", 1)
for name in missing:
self.message(" ? " + name, 1)
def report(self):
# XXX something decent
import pprint
pprint.pprint(self.__dict__)
if self.standalone or self.semi_standalone:
self.reportMissing()
#
# Utilities.
#
SUFFIXES = [_suf for _suf, _mode, _tp in imp.get_suffixes()]
identifierRE = re.compile(r"[_a-zA-z][_a-zA-Z0-9]*$")
def findPackageContents(name, searchpath=None):
head = name.split(".")[-1]
if identifierRE.match(head) is None:
return {}
try:
fp, path, (ext, mode, tp) = imp.find_module(head, searchpath)
except ImportError:
return {}
modules = {name: None}
if tp == imp.PKG_DIRECTORY and path:
files = os.listdir(path)
for sub in files:
sub, ext = os.path.splitext(sub)
fullname = name + "." + sub
if sub != "__init__" and fullname not in modules:
modules.update(findPackageContents(fullname, [path]))
return modules
def writePyc(code, path):
f = open(path, "wb")
f.write(MAGIC)
f.write("\0" * 4) # don't bother about a time stamp
marshal.dump(code, f)
f.close()
def copy(src, dst, mkdirs=0):
"""Copy a file or a directory."""
if mkdirs:
makedirs(os.path.dirname(dst))
if os.path.isdir(src):
shutil.copytree(src, dst, symlinks=1)
else:
shutil.copy2(src, dst)
def copytodir(src, dstdir):
"""Copy a file or a directory to an existing directory."""
dst = pathjoin(dstdir, os.path.basename(src))
copy(src, dst)
def makedirs(dir):
"""Make all directories leading up to 'dir' including the leaf
directory. Don't moan if any path element already exists."""
try:
os.makedirs(dir)
except OSError, why:
if why.errno != errno.EEXIST:
raise
def symlink(src, dst, mkdirs=0):
"""Copy a file or a directory."""
if not os.path.exists(src):
raise IOError, "No such file or directory: '%s'" % src
if mkdirs:
makedirs(os.path.dirname(dst))
os.symlink(os.path.abspath(src), dst)
def pathjoin(*args):
"""Safe wrapper for os.path.join: asserts that all but the first
argument are relative paths."""
for seg in args[1:]:
assert seg[0] != "/"
return os.path.join(*args)
cmdline_doc = """\
Usage:
python bundlebuilder.py [options] command
python mybuildscript.py [options] command
Commands:
build build the application
report print a report
Options:
-b, --builddir=DIR the build directory; defaults to "build"
-n, --name=NAME application name
-r, --resource=FILE extra file or folder to be copied to Resources
-f, --file=SRC:DST extra file or folder to be copied into the bundle;
DST must be a path relative to the bundle root
-e, --executable=FILE the executable to be used
-m, --mainprogram=FILE the Python main program
-a, --argv add a wrapper main program to create sys.argv
-p, --plist=FILE .plist file (default: generate one)
--nib=NAME main nib name
-c, --creator=CCCC 4-char creator code (default: '????')
--iconfile=FILE filename of the icon (an .icns file) to be used
as the Finder icon
--bundle-id=ID the CFBundleIdentifier, in reverse-dns format
(eg. org.python.BuildApplet; this is used for
the preferences file name)
-l, --link symlink files/folder instead of copying them
--link-exec symlink the executable instead of copying it
--standalone build a standalone application, which is fully
independent of a Python installation
--semi-standalone build a standalone application, which depends on
an installed Python, yet includes all third-party
modules.
--python=FILE Python to use in #! line in stead of current Python
--lib=FILE shared library or framework to be copied into
the bundle
-x, --exclude=MODULE exclude module (with --(semi-)standalone)
-i, --include=MODULE include module (with --(semi-)standalone)
--package=PACKAGE include a whole package (with --(semi-)standalone)
--strip strip binaries (remove debug info)
-v, --verbose increase verbosity level
-q, --quiet decrease verbosity level
-h, --help print this message
"""
def usage(msg=None):
if msg:
print msg
print cmdline_doc
sys.exit(1)
def main(builder=None):
if builder is None:
builder = AppBuilder(verbosity=1)
shortopts = "b:n:r:f:e:m:c:p:lx:i:hvqa"
longopts = ("builddir=", "name=", "resource=", "file=", "executable=",
"mainprogram=", "creator=", "nib=", "plist=", "link",
"link-exec", "help", "verbose", "quiet", "argv", "standalone",
"exclude=", "include=", "package=", "strip", "iconfile=",
"lib=", "python=", "semi-standalone", "bundle-id=", "destroot=")
try:
options, args = getopt.getopt(sys.argv[1:], shortopts, longopts)
except getopt.error:
usage()
for opt, arg in options:
if opt in ('-b', '--builddir'):
builder.builddir = arg
elif opt in ('-n', '--name'):
builder.name = arg
elif opt in ('-r', '--resource'):
builder.resources.append(os.path.normpath(arg))
elif opt in ('-f', '--file'):
srcdst = arg.split(':')
if len(srcdst) != 2:
usage("-f or --file argument must be two paths, "
"separated by a colon")
builder.files.append(srcdst)
elif opt in ('-e', '--executable'):
builder.executable = arg
elif opt in ('-m', '--mainprogram'):
builder.mainprogram = arg
elif opt in ('-a', '--argv'):
builder.argv_emulation = 1
elif opt in ('-c', '--creator'):
builder.creator = arg
elif opt == '--bundle-id':
builder.bundle_id = arg
elif opt == '--iconfile':
builder.iconfile = arg
elif opt == "--lib":
builder.libs.append(os.path.normpath(arg))
elif opt == "--nib":
builder.nibname = arg
elif opt in ('-p', '--plist'):
builder.plist = Plist.fromFile(arg)
elif opt in ('-l', '--link'):
builder.symlink = 1
elif opt == '--link-exec':
builder.symlink_exec = 1
elif opt in ('-h', '--help'):
usage()
elif opt in ('-v', '--verbose'):
builder.verbosity += 1
elif opt in ('-q', '--quiet'):
builder.verbosity -= 1
elif opt == '--standalone':
builder.standalone = 1
elif opt == '--semi-standalone':
builder.semi_standalone = 1
elif opt == '--python':
builder.python = arg
elif opt in ('-x', '--exclude'):
builder.excludeModules.append(arg)
elif opt in ('-i', '--include'):
builder.includeModules.append(arg)
elif opt == '--package':
builder.includePackages.append(arg)
elif opt == '--strip':
builder.strip = 1
elif opt == '--destroot':
builder.destroot = arg
if len(args) != 1:
usage("Must specify one command ('build', 'report' or 'help')")
command = args[0]
if command == "build":
builder.setup()
builder.build()
elif command == "report":
builder.setup()
builder.report()
elif command == "help":
usage()
else:
usage("Unknown command '%s'" % command)
def buildapp(**kwargs):
builder = AppBuilder(**kwargs)
main(builder)
if __name__ == "__main__":
main()
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