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I have to modify a test framework which use an oldest py.test to work with python 3.

py package has the format:

PY _ 
    |       |_ __init__.py
    |       |_ doctest.py
    |       |_ optparse.py
    |       |_ textwrap.py
    |_ __init__.py
    |_ initpkg.py          

I imported py package on another python script and when I run that script the error was raised:

Traceback (most recent call last):
  File "py.test", line 3, in <module>
    from _findpy import py
  File "C:\Python33\Lib\py\bin\_findpy.py", line 34, in <module>
    import py
  File "C:\Python33\Lib\py\__init__.py", line 68, in <module>
    'compat.optparse'        : ('./_compat/optparse.py', '*'),
  TypeError: 'module' object is not callable


the py lib is a development support library featuring
py.test, an interactive testing tool which supports
unit-testing with practically no boilerplate.
import sys
from py import initpkg
#print (sys.path)

    description = "py.test and the py lib",
    revision = int('$LastChangedRevision: 17207 $'.split(':')[1][:-1]),
    lastchangedate = '$LastChangedDate: 2005-09-04 19:18:23 +0200 (So, 04 Sep 2005) $',
    version = "0.8.0-alpha2",
    url = "http://codespeak.net/py",
    download_url = "http://codespeak.net/download/py/py-0.8.0-alpha2.tar.gz",
    license = "MIT license",
    platforms = ['unix', 'linux', 'cygwin'],
    author = "holger krekel & others",
    author_email = "hpk@merlinux.de",
    long_description = globals()['__doc__'],

    exportdefs = {
    '_dist.setup'            : ('./misc/_dist.py', 'setup'),

    # compatibility modules (taken from 2.4.1) 
   'compat.doctest'         : ('./compat.doctest.py', '*'),
   'compat.optparse'        : ('./compat/optparse.py', '*'),
   'compat.textwrap'        :('./compat/textwrap.py','*'),


package initialization.

You use the functionality of this package by putting

from py.initpkg import initpkg
initpkg(__name__, exportdefs={
    'name1.name2' : ('./path/to/file.py', 'name')

into your package's __init__.py file.  This will
lead your package to only expose the names of all
your implementation files that you explicitely
specify.  In the above example 'name1' will
become a Module instance where 'name2' is
bound in its namespace to the 'name' object
in the relative './path/to/file.py' python module.
Note that you can also use a '.c' file in which
case it will be compiled via distutils-facilities
on the fly.

from __future__ import generators
import sys
import os
assert sys.version_info >= (2,2,0), "py lib requires python 2.2 or higher"
from types import ModuleType

# ---------------------------------------------------
 # Package Object
# ---------------------------------------------------

class Package(object):
   def __init__(self, name, exportdefs):
    print ("package")
    pkgmodule = sys.modules[name]
    assert pkgmodule.__name__ == name
    self.name = name
    self.exportdefs = exportdefs
    self.module = pkgmodule
    print (pkgmodule)
    assert not hasattr(pkgmodule, '__package__'), \
               "unsupported reinitialization of %r" % pkgmodule
    pkgmodule.__package__ = self

    # make available pkgname.__
    implname = name + '.' + '__'
    self.implmodule = ModuleType(implname)
    self.implmodule.__name__ = implname
    self.implmodule.__file__ = pkgmodule.__file__
    self.implmodule.__path__ = [os.path.abspath(p)
                                for p in pkgmodule.__path__]
    pkgmodule.__ = self.implmodule
    setmodule(implname, self.implmodule)
    # inhibit further direct filesystem imports through the package module
    del pkgmodule.__path__

def _resolve(self, extpyish):
    """ resolve a combined filesystem/python extpy-ish path. """
    fspath, modpath = extpyish
    if not fspath.endswith('.py'):
        import py
        e = py.path.local(self.implmodule.__file__)
        e = e.dirpath(fspath, abs=True)
        e = py.path.extpy(e, modpath)
        return e.resolve()
    assert fspath.startswith('./'), \
           "%r is not an implementation path (XXX)" % (extpyish,)
    implmodule = self._loadimpl(fspath[:-3])
    if not isinstance(modpath, str): # export the entire module
        return implmodule

    current = implmodule
    for x in modpath.split('.'):
            current = getattr(current, x)
        except AttributeError: 
            raise AttributeError("resolving %r failed: %s" %(
                                 extpyish, x))

    return current

def getimportname(self, path): 
    if not path.ext.startswith('.py'): 
        return None 
    import py
    base = py.path.local(self.implmodule.__file__).dirpath()
    if not path.relto(base): 
        return None 
    names = path.new(ext='').relto(base).split(path.sep) 
    dottedname = ".".join([self.implmodule.__name__] + names)
    return dottedname 

def _loadimpl(self, relfile):
    """ load implementation for the given relfile. """
    parts = [x.strip() for x in relfile.split('/') if x and x!= '.']
    modpath = ".".join([self.implmodule.__name__] + parts)
    #print "trying import", modpath
    return __import__(modpath, None, None, ['__doc__'])

def exportitems(self):
    return self.exportdefs.items()

def getpath(self):
    from py.path import local
    base = local(self.implmodule.__file__).dirpath()
    assert base.check()
    return base

def _iterfiles(self):
    from py.path import checker
    base = self.getpath()
    for x in base.visit(checker(file=1, notext='.pyc'),
        yield x

def shahexdigest(self, cache=[]):
    """ return sha hexdigest for files contained in package. """
    if cache:
        return cache[0]
    from sha import sha
    sum = sha()
    for x in self._iterfiles():
    return cache[0]

def getzipdata(self):
    """ return string representing a zipfile containing the package. """
    import zipfile
    import py
        from cStringIO import StringIO
    except ImportError:
        from StringIO import StringIO
    base = py.__package__.getpath().dirpath()
    outf = StringIO()
    f = zipfile.ZipFile(outf, 'w', compression=zipfile.ZIP_DEFLATED)
        for x in self._iterfiles():
            f.write(str(x), x.relto(base))
    return outf.getvalue()

def getrev(self):
    import py
    p = py.path.svnwc(self.module.__file__).dirpath()
        return p.info().rev
    except (KeyboardInterrupt, MemoryError, SystemExit):
        return 'unknown'

def setmodule(modpath, module):
    #print "sys.modules[%r] = %r" % (modpath, module)
    sys.modules[modpath] = module

# ---------------------------------------------------
# Virtual Module Object
# ---------------------------------------------------

class Module(ModuleType):
def __init__(self, pkg, name):
    self.__package__ = pkg
    self.__name__ = name
    self.__map__ = {}

def __getattr__(self, name):
    if '*' in self.__map__: 
        extpy = self.__map__['*'][0], name 
        result = self.__package__._resolve(extpy) 
            extpy = self.__map__[name]
        except KeyError:
            __tracebackhide__ = True
            raise AttributeError(name)
            result = self.__package__._resolve(extpy) 
            del self.__map__[name]
    setattr(self, name, result)
    self._fixinspection(result, name) 
    return result

def _fixinspection(self, result, name): 
    # modify some attrs to make a class appear at export level 
    if hasattr(result, '__module__'):
            setattr(result, '__module__', self.__name__)
        except (AttributeError, TypeError):
    if hasattr(result, '__bases__'):
            setattr(result, '__name__', name)
        except (AttributeError, TypeError):

def __repr__(self):
    return '<Module %r>' % (self.__name__, )

def getdict(self):
    # force all the content of the module to be loaded when __dict__ is read
    dictdescr = ModuleType.__dict__['__dict__']
    dict = dictdescr.__get__(self)
    if '*' not in self.__map__: 
        for name in self.__map__.keys():
            hasattr(self, name)   # force attribute to be loaded, ignore errors
        assert not self.__map__, "%r not empty" % self.__map__
        fsname = self.__map__['*'][0] 
    return dict

    __dict__ = property(getdict)
    del getdict

# ---------------------------------------------------
# Bootstrap Virtual Module Hierarchy
# ---------------------------------------------------

def initpkg(pkgname, exportdefs, **kw):
#print "initializing package", pkgname
# bootstrap Package object
pkg = Package(pkgname, exportdefs)
print ("initpkg")
for name, value in kw.items(): 
    setattr(pkg, name, value) 
seen = { pkgname : pkg.module }
deferred_imports = []

for pypath, extpy in pkg.exportitems():
    pyparts = pypath.split('.')
    modparts = pyparts[:]
    if extpy[1] != '*': 
        lastmodpart = modparts.pop()
        lastmodpart = '*'
    current = pkgname

    # ensure modules
    for name in modparts:
        previous = current
        current += '.' + name
        if current not in seen:
            seen[current] = mod = Module(pkg, current)
            setattr(seen[previous], name, mod)
            setmodule(current, mod)

    mod = seen[current]
    if not hasattr(mod, '__map__'):
        assert mod is pkg.module, \
               "only root modules are allowed to be non-lazy. "
        deferred_imports.append((mod, pyparts[-1], extpy))
        mod.__map__[lastmodpart] = extpy 

for mod, pypart, extpy in deferred_imports: 
    setattr(mod, pypart, pkg._resolve(extpy))

Can anyone help me with this ?

Thank you!

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