Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

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

py package has the format:

PY _ 
    |
     _Compat|
    |       |_ __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

init.py:

"""\
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
sys.path.append('C:\\python33\\Lib\\py')
#print (sys.path)

initpkg(__name__,
    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','*'),
})

INITPKG:

"""    
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('.'):
        try: 
            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'),
                        rec=checker(dotfile=0)):
        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():
        sum.update(x.read())
    cache.append(sum.hexdigest())
    return cache[0]

def getzipdata(self):
    """ return string representing a zipfile containing the package. """
    import zipfile
    import py
    try:
        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)
    try:
        for x in self._iterfiles():
            f.write(str(x), x.relto(base))
    finally:
        f.close()
    return outf.getvalue()

def getrev(self):
    import py
    p = py.path.svnwc(self.module.__file__).dirpath()
    try:
        return p.info().rev
    except (KeyboardInterrupt, MemoryError, SystemExit):
        raise
    except:
        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) 
    else: 
        try:
            extpy = self.__map__[name]
        except KeyError:
            __tracebackhide__ = True
            raise AttributeError(name)
        else: 
            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__'):
        try:
            setattr(result, '__module__', self.__name__)
        except (AttributeError, TypeError):
            pass
    if hasattr(result, '__bases__'):
        try:
            setattr(result, '__name__', name)
        except (AttributeError, TypeError):
            pass

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__
    else: 
        fsname = self.__map__['*'][0] 
        dict.update(self.__package__._loadimpl(fsname[:-3]).__dict__)
    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()
    else: 
        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))
    else:
        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!

share|improve this question
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Browse other questions tagged or ask your own question.