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##############################################################################
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#
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# Copyright (c) 2003 Zope Foundation and Contributors.
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# All Rights Reserved.
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#
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# This software is subject to the provisions of the Zope Public License,
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# Version 2.1 (ZPL). A copy of the ZPL should accompany this distribution.
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# THIS SOFTWARE IS PROVIDED "AS IS" AND ANY AND ALL EXPRESS OR IMPLIED
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# WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
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# WARRANTIES OF TITLE, MERCHANTABILITY, AGAINST INFRINGEMENT, AND FITNESS
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# FOR A PARTICULAR PURPOSE.
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#
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##############################################################################
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"""Class advice.
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This module was adapted from 'protocols.advice', part of the Python
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Enterprise Application Kit (PEAK). Please notify the PEAK authors
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(pje@telecommunity.com and tsarna@sarna.org) if bugs are found or
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Zope-specific changes are required, so that the PEAK version of this module
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can be kept in sync.
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PEAK is a Python application framework that interoperates with (but does
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not require) Zope 3 and Twisted. It provides tools for manipulating UML
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models, object-relational persistence, aspect-oriented programming, and more.
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Visit the PEAK home page at http://peak.telecommunity.com for more information.
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"""
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from __future__ import absolute_import
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from types import FunctionType
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try:
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from types import ClassType
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except ImportError:
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__python3 = True
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else:
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__python3 = False
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import sys
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def getFrameInfo(frame):
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"""Return (kind,module,locals,globals) for a frame
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'kind' is one of "exec", "module", "class", "function call", or "unknown".
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"""
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f_locals = frame.f_locals
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f_globals = frame.f_globals
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sameNamespace = f_locals is f_globals
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hasModule = '__module__' in f_locals
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hasName = '__name__' in f_globals
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sameName = hasModule and hasName
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sameName = sameName and f_globals['__name__']==f_locals['__module__']
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module = hasName and sys.modules.get(f_globals['__name__']) or None
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namespaceIsModule = module and module.__dict__ is f_globals
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if not namespaceIsModule:
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# some kind of funky exec
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kind = "exec"
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elif sameNamespace and not hasModule:
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kind = "module"
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elif sameName and not sameNamespace:
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kind = "class"
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elif not sameNamespace:
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kind = "function call"
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else: # pragma: no cover
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# How can you have f_locals is f_globals, and have '__module__' set?
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# This is probably module-level code, but with a '__module__' variable.
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kind = "unknown"
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return kind, module, f_locals, f_globals
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def addClassAdvisor(callback, depth=2):
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"""Set up 'callback' to be passed the containing class upon creation
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This function is designed to be called by an "advising" function executed
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in a class suite. The "advising" function supplies a callback that it
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wishes to have executed when the containing class is created. The
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callback will be given one argument: the newly created containing class.
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The return value of the callback will be used in place of the class, so
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the callback should return the input if it does not wish to replace the
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class.
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The optional 'depth' argument to this function determines the number of
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frames between this function and the targeted class suite. 'depth'
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defaults to 2, since this skips this function's frame and one calling
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function frame. If you use this function from a function called directly
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in the class suite, the default will be correct, otherwise you will need
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to determine the correct depth yourself.
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This function works by installing a special class factory function in
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place of the '__metaclass__' of the containing class. Therefore, only
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callbacks *after* the last '__metaclass__' assignment in the containing
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class will be executed. Be sure that classes using "advising" functions
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declare any '__metaclass__' *first*, to ensure all callbacks are run."""
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# This entire approach is invalid under Py3K. Don't even try to fix
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# the coverage for this block there. :(
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if __python3: # pragma: no cover
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raise TypeError('Class advice impossible in Python3')
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frame = sys._getframe(depth)
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kind, module, caller_locals, caller_globals = getFrameInfo(frame)
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# This causes a problem when zope interfaces are used from doctest.
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# In these cases, kind == "exec".
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#
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#if kind != "class":
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# raise SyntaxError(
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# "Advice must be in the body of a class statement"
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# )
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previousMetaclass = caller_locals.get('__metaclass__')
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if __python3: # pragma: no cover
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defaultMetaclass = caller_globals.get('__metaclass__', type)
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else:
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defaultMetaclass = caller_globals.get('__metaclass__', ClassType)
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def advise(name, bases, cdict):
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if '__metaclass__' in cdict:
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del cdict['__metaclass__']
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if previousMetaclass is None:
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if bases:
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# find best metaclass or use global __metaclass__ if no bases
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meta = determineMetaclass(bases)
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else:
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meta = defaultMetaclass
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elif isClassAdvisor(previousMetaclass):
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# special case: we can't compute the "true" metaclass here,
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# so we need to invoke the previous metaclass and let it
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# figure it out for us (and apply its own advice in the process)
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meta = previousMetaclass
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else:
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meta = determineMetaclass(bases, previousMetaclass)
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newClass = meta(name,bases,cdict)
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# this lets the callback replace the class completely, if it wants to
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return callback(newClass)
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# introspection data only, not used by inner function
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advise.previousMetaclass = previousMetaclass
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advise.callback = callback
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# install the advisor
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caller_locals['__metaclass__'] = advise
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def isClassAdvisor(ob):
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"""True if 'ob' is a class advisor function"""
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return isinstance(ob,FunctionType) and hasattr(ob,'previousMetaclass')
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def determineMetaclass(bases, explicit_mc=None):
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"""Determine metaclass from 1+ bases and optional explicit __metaclass__"""
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meta = [getattr(b,'__class__',type(b)) for b in bases]
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if explicit_mc is not None:
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# The explicit metaclass needs to be verified for compatibility
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# as well, and allowed to resolve the incompatible bases, if any
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meta.append(explicit_mc)
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if len(meta)==1:
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# easy case
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return meta[0]
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candidates = minimalBases(meta) # minimal set of metaclasses
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if not candidates: # pragma: no cover
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# they're all "classic" classes
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assert(not __python3) # This should not happen under Python 3
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return ClassType
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elif len(candidates)>1:
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# We could auto-combine, but for now we won't...
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raise TypeError("Incompatible metatypes",bases)
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# Just one, return it
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return candidates[0]
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def minimalBases(classes):
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"""Reduce a list of base classes to its ordered minimum equivalent"""
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if not __python3: # pragma: no cover
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classes = [c for c in classes if c is not ClassType]
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candidates = []
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for m in classes:
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for n in classes:
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if issubclass(n,m) and m is not n:
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break
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else:
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# m has no subclasses in 'classes'
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if m in candidates:
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candidates.remove(m) # ensure that we're later in the list
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candidates.append(m)
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return candidates
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