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315 lines
9.7 KiB
Python
315 lines
9.7 KiB
Python
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# sql/visitors.py
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# Copyright (C) 2005-2014 the SQLAlchemy authors and contributors <see AUTHORS file>
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#
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# This module is part of SQLAlchemy and is released under
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# the MIT License: http://www.opensource.org/licenses/mit-license.php
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"""Visitor/traversal interface and library functions.
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SQLAlchemy schema and expression constructs rely on a Python-centric
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version of the classic "visitor" pattern as the primary way in which
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they apply functionality. The most common use of this pattern
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is statement compilation, where individual expression classes match
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up to rendering methods that produce a string result. Beyond this,
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the visitor system is also used to inspect expressions for various
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information and patterns, as well as for usage in
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some kinds of expression transformation. Other kinds of transformation
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use a non-visitor traversal system.
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For many examples of how the visit system is used, see the
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sqlalchemy.sql.util and the sqlalchemy.sql.compiler modules.
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For an introduction to clause adaption, see
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http://techspot.zzzeek.org/2008/01/23/expression-transformations/
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"""
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from collections import deque
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from .. import util
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import operator
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from .. import exc
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__all__ = ['VisitableType', 'Visitable', 'ClauseVisitor',
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'CloningVisitor', 'ReplacingCloningVisitor', 'iterate',
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'iterate_depthfirst', 'traverse_using', 'traverse',
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'traverse_depthfirst',
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'cloned_traverse', 'replacement_traverse']
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class VisitableType(type):
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"""Metaclass which assigns a `_compiler_dispatch` method to classes
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having a `__visit_name__` attribute.
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The _compiler_dispatch attribute becomes an instance method which
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looks approximately like the following::
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def _compiler_dispatch (self, visitor, **kw):
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'''Look for an attribute named "visit_" + self.__visit_name__
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on the visitor, and call it with the same kw params.'''
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visit_attr = 'visit_%s' % self.__visit_name__
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return getattr(visitor, visit_attr)(self, **kw)
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Classes having no __visit_name__ attribute will remain unaffected.
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"""
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def __init__(cls, clsname, bases, clsdict):
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if clsname != 'Visitable' and \
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hasattr(cls, '__visit_name__'):
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_generate_dispatch(cls)
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super(VisitableType, cls).__init__(clsname, bases, clsdict)
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def _generate_dispatch(cls):
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"""Return an optimized visit dispatch function for the cls
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for use by the compiler.
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"""
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if '__visit_name__' in cls.__dict__:
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visit_name = cls.__visit_name__
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if isinstance(visit_name, str):
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# There is an optimization opportunity here because the
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# the string name of the class's __visit_name__ is known at
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# this early stage (import time) so it can be pre-constructed.
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getter = operator.attrgetter("visit_%s" % visit_name)
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def _compiler_dispatch(self, visitor, **kw):
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try:
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meth = getter(visitor)
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except AttributeError:
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raise exc.UnsupportedCompilationError(visitor, cls)
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else:
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return meth(self, **kw)
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else:
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# The optimization opportunity is lost for this case because the
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# __visit_name__ is not yet a string. As a result, the visit
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# string has to be recalculated with each compilation.
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def _compiler_dispatch(self, visitor, **kw):
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visit_attr = 'visit_%s' % self.__visit_name__
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try:
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meth = getattr(visitor, visit_attr)
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except AttributeError:
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raise exc.UnsupportedCompilationError(visitor, cls)
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else:
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return meth(self, **kw)
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_compiler_dispatch.__doc__ = \
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"""Look for an attribute named "visit_" + self.__visit_name__
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on the visitor, and call it with the same kw params.
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"""
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cls._compiler_dispatch = _compiler_dispatch
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class Visitable(util.with_metaclass(VisitableType, object)):
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"""Base class for visitable objects, applies the
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``VisitableType`` metaclass.
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"""
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class ClauseVisitor(object):
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"""Base class for visitor objects which can traverse using
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the traverse() function.
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"""
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__traverse_options__ = {}
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def traverse_single(self, obj, **kw):
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for v in self._visitor_iterator:
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meth = getattr(v, "visit_%s" % obj.__visit_name__, None)
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if meth:
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return meth(obj, **kw)
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def iterate(self, obj):
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"""traverse the given expression structure, returning an iterator
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of all elements.
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"""
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return iterate(obj, self.__traverse_options__)
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def traverse(self, obj):
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"""traverse and visit the given expression structure."""
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return traverse(obj, self.__traverse_options__, self._visitor_dict)
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@util.memoized_property
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def _visitor_dict(self):
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visitors = {}
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for name in dir(self):
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if name.startswith('visit_'):
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visitors[name[6:]] = getattr(self, name)
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return visitors
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@property
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def _visitor_iterator(self):
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"""iterate through this visitor and each 'chained' visitor."""
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v = self
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while v:
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yield v
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v = getattr(v, '_next', None)
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def chain(self, visitor):
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"""'chain' an additional ClauseVisitor onto this ClauseVisitor.
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the chained visitor will receive all visit events after this one.
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"""
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tail = list(self._visitor_iterator)[-1]
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tail._next = visitor
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return self
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class CloningVisitor(ClauseVisitor):
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"""Base class for visitor objects which can traverse using
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the cloned_traverse() function.
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"""
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def copy_and_process(self, list_):
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"""Apply cloned traversal to the given list of elements, and return
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the new list.
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"""
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return [self.traverse(x) for x in list_]
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def traverse(self, obj):
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"""traverse and visit the given expression structure."""
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return cloned_traverse(
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obj, self.__traverse_options__, self._visitor_dict)
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class ReplacingCloningVisitor(CloningVisitor):
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"""Base class for visitor objects which can traverse using
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the replacement_traverse() function.
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"""
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def replace(self, elem):
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"""receive pre-copied elements during a cloning traversal.
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If the method returns a new element, the element is used
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instead of creating a simple copy of the element. Traversal
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will halt on the newly returned element if it is re-encountered.
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"""
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return None
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def traverse(self, obj):
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"""traverse and visit the given expression structure."""
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def replace(elem):
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for v in self._visitor_iterator:
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e = v.replace(elem)
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if e is not None:
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return e
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return replacement_traverse(obj, self.__traverse_options__, replace)
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def iterate(obj, opts):
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"""traverse the given expression structure, returning an iterator.
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traversal is configured to be breadth-first.
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"""
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stack = deque([obj])
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while stack:
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t = stack.popleft()
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yield t
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for c in t.get_children(**opts):
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stack.append(c)
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def iterate_depthfirst(obj, opts):
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"""traverse the given expression structure, returning an iterator.
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traversal is configured to be depth-first.
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"""
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stack = deque([obj])
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traversal = deque()
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while stack:
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t = stack.pop()
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traversal.appendleft(t)
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for c in t.get_children(**opts):
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stack.append(c)
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return iter(traversal)
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def traverse_using(iterator, obj, visitors):
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"""visit the given expression structure using the given iterator of
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objects.
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"""
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for target in iterator:
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meth = visitors.get(target.__visit_name__, None)
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if meth:
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meth(target)
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return obj
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def traverse(obj, opts, visitors):
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"""traverse and visit the given expression structure using the default
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iterator.
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"""
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return traverse_using(iterate(obj, opts), obj, visitors)
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def traverse_depthfirst(obj, opts, visitors):
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"""traverse and visit the given expression structure using the
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depth-first iterator.
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"""
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return traverse_using(iterate_depthfirst(obj, opts), obj, visitors)
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def cloned_traverse(obj, opts, visitors):
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"""clone the given expression structure, allowing
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modifications by visitors."""
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cloned = {}
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stop_on = set(opts.get('stop_on', []))
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def clone(elem):
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if elem in stop_on:
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return elem
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else:
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if id(elem) not in cloned:
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cloned[id(elem)] = newelem = elem._clone()
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newelem._copy_internals(clone=clone)
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meth = visitors.get(newelem.__visit_name__, None)
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if meth:
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meth(newelem)
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return cloned[id(elem)]
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if obj is not None:
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obj = clone(obj)
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return obj
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def replacement_traverse(obj, opts, replace):
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"""clone the given expression structure, allowing element
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replacement by a given replacement function."""
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cloned = {}
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stop_on = set([id(x) for x in opts.get('stop_on', [])])
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def clone(elem, **kw):
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if id(elem) in stop_on or \
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'no_replacement_traverse' in elem._annotations:
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return elem
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else:
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newelem = replace(elem)
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if newelem is not None:
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stop_on.add(id(newelem))
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return newelem
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else:
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if elem not in cloned:
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cloned[elem] = newelem = elem._clone()
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newelem._copy_internals(clone=clone, **kw)
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return cloned[elem]
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if obj is not None:
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obj = clone(obj, **opts)
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return obj
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