alpcentaur
/
basabuuka_prototyp


								#!/usr/bin/env python

								#

								# Author: Mike McKerns (mmckerns @caltech and @uqfoundation)

								# Copyright (c) 2008-2016 California Institute of Technology.

								# Copyright (c) 2016-2018 The Uncertainty Quantification Foundation.

								# License: 3-clause BSD.  The full license text is available at:

								#  - https://github.com/uqfoundation/dill/blob/master/LICENSE

								"""

								Methods for detecting objects leading to pickling failures.

								"""


								import dis

								from inspect import ismethod, isfunction, istraceback, isframe, iscode

								from .pointers import parent, reference, at, parents, children


								from ._dill import _trace as trace

								from ._dill import PY3


								__all__ = ['baditems','badobjects','badtypes','code','errors','freevars',

								           'getmodule','globalvars','nestedcode','nestedglobals','outermost',

								           'referredglobals','referrednested','trace','varnames']


								def getmodule(object, _filename=None, force=False):

								    """get the module of the object"""

								    from inspect import getmodule as getmod

								    module = getmod(object, _filename)

								    if module or not force: return module

								    if PY3: builtins = 'builtins'

								    else: builtins = '__builtin__'

								    builtins = __import__(builtins)

								    from .source import getname

								    name = getname(object, force=True)

								    return builtins if name in vars(builtins).keys() else None


								def outermost(func): # is analogous to getsource(func,enclosing=True)

								    """get outermost enclosing object (i.e. the outer function in a closure)


								    NOTE: this is the object-equivalent of getsource(func, enclosing=True)

								    """

								    if PY3:

								        if ismethod(func):

								            _globals = func.__func__.__globals__ or {}

								        elif isfunction(func):

								            _globals = func.__globals__ or {}

								        else:

								            return #XXX: or raise? no matches

								        _globals = _globals.items()

								    else:

								        if ismethod(func):

								            _globals = func.im_func.func_globals or {}

								        elif isfunction(func):

								            _globals = func.func_globals or {}

								        else:

								            return #XXX: or raise? no matches

								        _globals = _globals.iteritems()

								    # get the enclosing source

								    from .source import getsourcelines

								    try: lines,lnum = getsourcelines(func, enclosing=True)

								    except: #TypeError, IOError

								        lines,lnum = [],None

								    code = ''.join(lines)

								    # get all possible names,objects that are named in the enclosing source

								    _locals = ((name,obj) for (name,obj) in _globals if name in code)

								    # now only save the objects that generate the enclosing block

								    for name,obj in _locals: #XXX: don't really need 'name'

								        try:

								            if getsourcelines(obj) == (lines,lnum): return obj

								        except: #TypeError, IOError

								            pass

								    return #XXX: or raise? no matches


								def nestedcode(func, recurse=True): #XXX: or return dict of {co_name: co} ?

								    """get the code objects for any nested functions (e.g. in a closure)"""

								    func = code(func)

								    if not iscode(func): return [] #XXX: or raise? no matches

								    nested = set()

								    for co in func.co_consts:

								        if co is None: continue

								        co = code(co)

								        if co:

								            nested.add(co)

								            if recurse: nested |= set(nestedcode(co, recurse=True))

								    return list(nested)


								def code(func):

								    '''get the code object for the given function or method


								    NOTE: use dill.source.getsource(CODEOBJ) to get the source code

								    '''

								    if PY3:

								        im_func = '__func__'

								        func_code = '__code__'

								    else:

								        im_func = 'im_func'

								        func_code = 'func_code'

								    if ismethod(func): func = getattr(func, im_func)

								    if isfunction(func): func = getattr(func, func_code)

								    if istraceback(func): func = func.tb_frame

								    if isframe(func): func = func.f_code

								    if iscode(func): return func

								    return


								#XXX: ugly: parse dis.dis for name after "<code object" in line and in globals?

								def referrednested(func, recurse=True): #XXX: return dict of {__name__: obj} ?

								    """get functions defined inside of func (e.g. inner functions in a closure)


								    NOTE: results may differ if the function has been executed or not.

								    If len(nestedcode(func)) > len(referrednested(func)), try calling func().

								    If possible, python builds code objects, but delays building functions

								    until func() is called.

								    """

								    if PY3:

								        att1 = '__code__'

								        att0 = '__func__'

								    else:

								        att1 = 'func_code' # functions

								        att0 = 'im_func'   # methods


								    import gc

								    funcs = set()

								    # get the code objects, and try to track down by referrence

								    for co in nestedcode(func, recurse):

								        # look for function objects that refer to the code object

								        for obj in gc.get_referrers(co):

								            # get methods

								            _ = getattr(obj, att0, None) # ismethod

								            if getattr(_, att1, None) is co: funcs.add(obj)

								            # get functions

								            elif getattr(obj, att1, None) is co: funcs.add(obj)

								            # get frame objects

								            elif getattr(obj, 'f_code', None) is co: funcs.add(obj)

								            # get code objects

								            elif hasattr(obj, 'co_code') and obj is co: funcs.add(obj)

								#     frameobjs => func.func_code.co_varnames not in func.func_code.co_cellvars

								#     funcobjs => func.func_code.co_cellvars not in func.func_code.co_varnames

								#     frameobjs are not found, however funcobjs are...

								#     (see: test_mixins.quad ... and test_mixins.wtf)

								#     after execution, code objects get compiled, and then may be found by gc

								    return list(funcs)


								def freevars(func):

								    """get objects defined in enclosing code that are referred to by func


								    returns a dict of {name:object}"""

								    if PY3:

								        im_func = '__func__'

								        func_code = '__code__'

								        func_closure = '__closure__'

								    else:

								        im_func = 'im_func'

								        func_code = 'func_code'

								        func_closure = 'func_closure'

								    if ismethod(func): func = getattr(func, im_func)

								    if isfunction(func):

								        closures = getattr(func, func_closure) or ()

								        func = getattr(func, func_code).co_freevars # get freevars

								    else:

								        return {}

								    return dict((name,c.cell_contents) for (name,c) in zip(func,closures))


								# thanks to Davies Liu for recursion of globals

								def nestedglobals(func, recurse=True):

								    """get the names of any globals found within func"""

								    func = code(func)

								    if func is None: return list()

								    from .temp import capture

								    names = set()

								    with capture('stdout') as out:

								        dis.dis(func) #XXX: dis.dis(None) disassembles last traceback

								    for line in out.getvalue().splitlines():

								        if '_GLOBAL' in line:

								            name = line.split('(')[-1].split(')')[0]

								            names.add(name)

								    for co in getattr(func, 'co_consts', tuple()):

								        if co and recurse and iscode(co):

								            names.update(nestedglobals(co, recurse=True))

								    return list(names)


								def referredglobals(func, recurse=True, builtin=False):

								    """get the names of objects in the global scope referred to by func"""

								    return globalvars(func, recurse, builtin).keys()


								def globalvars(func, recurse=True, builtin=False):

								    """get objects defined in global scope that are referred to by func


								    return a dict of {name:object}"""

								    if PY3:

								        im_func = '__func__'

								        func_code = '__code__'

								        func_globals = '__globals__'

								        func_closure = '__closure__'

								    else:

								        im_func = 'im_func'

								        func_code = 'func_code'

								        func_globals = 'func_globals'

								        func_closure = 'func_closure'

								    if ismethod(func): func = getattr(func, im_func)

								    if isfunction(func):

								        globs = vars(getmodule(sum)).copy() if builtin else {}

								        # get references from within closure

								        orig_func, func = func, set()

								        for obj in getattr(orig_func, func_closure) or {}:

								            _vars = globalvars(obj.cell_contents, recurse, builtin) or {}

								            func.update(_vars) #XXX: (above) be wary of infinte recursion?

								            globs.update(_vars)

								        # get globals

								        globs.update(getattr(orig_func, func_globals) or {})

								        # get names of references

								        if not recurse:

								            func.update(getattr(orig_func, func_code).co_names)

								        else:

								            func.update(nestedglobals(getattr(orig_func, func_code)))

								            # find globals for all entries of func

								            for key in func.copy(): #XXX: unnecessary...?

								                nested_func = globs.get(key)

								                if nested_func == orig_func:

								                   #func.remove(key) if key in func else None

								                    continue  #XXX: globalvars(func, False)?

								                func.update(globalvars(nested_func, True, builtin))

								    elif iscode(func):

								        globs = vars(getmodule(sum)).copy() if builtin else {}

								       #globs.update(globals())

								        if not recurse:

								            func = func.co_names # get names

								        else:

								            orig_func = func.co_name # to stop infinite recursion

								            func = set(nestedglobals(func))

								            # find globals for all entries of func

								            for key in func.copy(): #XXX: unnecessary...?

								                if key == orig_func:

								                   #func.remove(key) if key in func else None

								                    continue  #XXX: globalvars(func, False)?

								                nested_func = globs.get(key)

								                func.update(globalvars(nested_func, True, builtin))

								    else:

								        return {}

								    #NOTE: if name not in func_globals, then we skip it...

								    return dict((name,globs[name]) for name in func if name in globs)


								def varnames(func):

								    """get names of variables defined by func


								    returns a tuple (local vars, local vars referrenced by nested functions)"""

								    func = code(func)

								    if not iscode(func):

								        return () #XXX: better ((),())? or None?

								    return func.co_varnames, func.co_cellvars


								def baditems(obj, exact=False, safe=False): #XXX: obj=globals() ?

								    """get items in object that fail to pickle"""

								    if not hasattr(obj,'__iter__'): # is not iterable

								        return [j for j in (badobjects(obj,0,exact,safe),) if j is not None]

								    obj = obj.values() if getattr(obj,'values',None) else obj

								    _obj = [] # can't use a set, as items may be unhashable

								    [_obj.append(badobjects(i,0,exact,safe)) for i in obj if i not in _obj]

								    return [j for j in _obj if j is not None]


								def badobjects(obj, depth=0, exact=False, safe=False):

								    """get objects that fail to pickle"""

								    from dill import pickles

								    if not depth:

								        if pickles(obj,exact,safe): return None

								        return obj

								    return dict(((attr, badobjects(getattr(obj,attr),depth-1,exact,safe)) \

								           for attr in dir(obj) if not pickles(getattr(obj,attr),exact,safe)))


								def badtypes(obj, depth=0, exact=False, safe=False):

								    """get types for objects that fail to pickle"""

								    from dill import pickles

								    if not depth:

								        if pickles(obj,exact,safe): return None

								        return type(obj)

								    return dict(((attr, badtypes(getattr(obj,attr),depth-1,exact,safe)) \

								           for attr in dir(obj) if not pickles(getattr(obj,attr),exact,safe)))


								def errors(obj, depth=0, exact=False, safe=False):

								    """get errors for objects that fail to pickle"""

								    from dill import pickles, copy

								    if not depth:

								        try:

								            pik = copy(obj)

								            if exact:

								                assert pik == obj, \

								                    "Unpickling produces %s instead of %s" % (pik,obj)

								            assert type(pik) == type(obj), \

								                "Unpickling produces %s instead of %s" % (type(pik),type(obj))

								            return None

								        except Exception:

								            import sys

								            return sys.exc_info()[1]

								    _dict = {}

								    for attr in dir(obj):

								        try:

								            _attr = getattr(obj,attr)

								        except Exception:

								            import sys

								            _dict[attr] = sys.exc_info()[1]

								            continue

								        if not pickles(_attr,exact,safe):

								            _dict[attr] = errors(_attr,depth-1,exact,safe)

								    return _dict


								# EOF