359 lines
11 KiB
Python
359 lines
11 KiB
Python
# sql/annotation.py
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# Copyright (C) 2005-2021 the SQLAlchemy authors and contributors
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# <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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"""The :class:`.Annotated` class and related routines; creates hash-equivalent
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copies of SQL constructs which contain context-specific markers and
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associations.
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"""
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from . import operators
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from .base import HasCacheKey
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from .traversals import anon_map
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from .visitors import InternalTraversal
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from .. import util
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EMPTY_ANNOTATIONS = util.immutabledict()
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class SupportsAnnotations(object):
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_annotations = EMPTY_ANNOTATIONS
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@util.memoized_property
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def _annotations_cache_key(self):
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anon_map_ = anon_map()
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return (
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"_annotations",
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tuple(
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(
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key,
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value._gen_cache_key(anon_map_, [])
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if isinstance(value, HasCacheKey)
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else value,
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)
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for key, value in [
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(key, self._annotations[key])
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for key in sorted(self._annotations)
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]
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),
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)
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class SupportsCloneAnnotations(SupportsAnnotations):
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_clone_annotations_traverse_internals = [
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("_annotations", InternalTraversal.dp_annotations_key)
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]
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def _annotate(self, values):
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"""return a copy of this ClauseElement with annotations
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updated by the given dictionary.
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"""
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new = self._clone()
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new._annotations = new._annotations.union(values)
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new.__dict__.pop("_annotations_cache_key", None)
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new.__dict__.pop("_generate_cache_key", None)
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return new
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def _with_annotations(self, values):
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"""return a copy of this ClauseElement with annotations
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replaced by the given dictionary.
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"""
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new = self._clone()
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new._annotations = util.immutabledict(values)
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new.__dict__.pop("_annotations_cache_key", None)
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new.__dict__.pop("_generate_cache_key", None)
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return new
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def _deannotate(self, values=None, clone=False):
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"""return a copy of this :class:`_expression.ClauseElement`
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with annotations
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removed.
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:param values: optional tuple of individual values
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to remove.
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"""
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if clone or self._annotations:
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# clone is used when we are also copying
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# the expression for a deep deannotation
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new = self._clone()
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new._annotations = util.immutabledict()
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new.__dict__.pop("_annotations_cache_key", None)
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return new
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else:
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return self
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class SupportsWrappingAnnotations(SupportsAnnotations):
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def _annotate(self, values):
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"""return a copy of this ClauseElement with annotations
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updated by the given dictionary.
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"""
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return Annotated(self, values)
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def _with_annotations(self, values):
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"""return a copy of this ClauseElement with annotations
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replaced by the given dictionary.
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"""
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return Annotated(self, values)
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def _deannotate(self, values=None, clone=False):
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"""return a copy of this :class:`_expression.ClauseElement`
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with annotations
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removed.
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:param values: optional tuple of individual values
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to remove.
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"""
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if clone:
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s = self._clone()
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return s
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else:
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return self
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class Annotated(object):
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"""clones a SupportsAnnotated and applies an 'annotations' dictionary.
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Unlike regular clones, this clone also mimics __hash__() and
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__cmp__() of the original element so that it takes its place
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in hashed collections.
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A reference to the original element is maintained, for the important
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reason of keeping its hash value current. When GC'ed, the
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hash value may be reused, causing conflicts.
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.. note:: The rationale for Annotated producing a brand new class,
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rather than placing the functionality directly within ClauseElement,
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is **performance**. The __hash__() method is absent on plain
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ClauseElement which leads to significantly reduced function call
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overhead, as the use of sets and dictionaries against ClauseElement
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objects is prevalent, but most are not "annotated".
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"""
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_is_column_operators = False
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def __new__(cls, *args):
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if not args:
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# clone constructor
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return object.__new__(cls)
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else:
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element, values = args
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# pull appropriate subclass from registry of annotated
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# classes
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try:
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cls = annotated_classes[element.__class__]
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except KeyError:
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cls = _new_annotation_type(element.__class__, cls)
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return object.__new__(cls)
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def __init__(self, element, values):
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self.__dict__ = element.__dict__.copy()
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self.__dict__.pop("_annotations_cache_key", None)
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self.__dict__.pop("_generate_cache_key", None)
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self.__element = element
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self._annotations = util.immutabledict(values)
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self._hash = hash(element)
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def _annotate(self, values):
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_values = self._annotations.union(values)
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return self._with_annotations(_values)
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def _with_annotations(self, values):
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clone = self.__class__.__new__(self.__class__)
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clone.__dict__ = self.__dict__.copy()
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clone.__dict__.pop("_annotations_cache_key", None)
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clone.__dict__.pop("_generate_cache_key", None)
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clone._annotations = values
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return clone
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def _deannotate(self, values=None, clone=True):
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if values is None:
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return self.__element
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else:
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return self._with_annotations(
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util.immutabledict(
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{
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key: value
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for key, value in self._annotations.items()
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if key not in values
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}
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)
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)
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def _compiler_dispatch(self, visitor, **kw):
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return self.__element.__class__._compiler_dispatch(self, visitor, **kw)
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@property
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def _constructor(self):
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return self.__element._constructor
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def _clone(self, **kw):
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clone = self.__element._clone(**kw)
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if clone is self.__element:
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# detect immutable, don't change anything
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return self
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else:
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# update the clone with any changes that have occurred
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# to this object's __dict__.
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clone.__dict__.update(self.__dict__)
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return self.__class__(clone, self._annotations)
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def __reduce__(self):
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return self.__class__, (self.__element, self._annotations)
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def __hash__(self):
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return self._hash
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def __eq__(self, other):
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if self._is_column_operators:
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return self.__element.__class__.__eq__(self, other)
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else:
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return hash(other) == hash(self)
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@property
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def entity_namespace(self):
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if "entity_namespace" in self._annotations:
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return self._annotations["entity_namespace"].entity_namespace
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else:
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return self.__element.entity_namespace
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# hard-generate Annotated subclasses. this technique
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# is used instead of on-the-fly types (i.e. type.__new__())
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# so that the resulting objects are pickleable; additionally, other
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# decisions can be made up front about the type of object being annotated
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# just once per class rather than per-instance.
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annotated_classes = {}
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def _deep_annotate(element, annotations, exclude=None):
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"""Deep copy the given ClauseElement, annotating each element
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with the given annotations dictionary.
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Elements within the exclude collection will be cloned but not annotated.
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"""
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# annotated objects hack the __hash__() method so if we want to
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# uniquely process them we have to use id()
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cloned_ids = {}
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def clone(elem, **kw):
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id_ = id(elem)
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if id_ in cloned_ids:
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return cloned_ids[id_]
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if (
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exclude
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and hasattr(elem, "proxy_set")
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and elem.proxy_set.intersection(exclude)
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):
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newelem = elem._clone(**kw)
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elif annotations != elem._annotations:
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newelem = elem._annotate(annotations)
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else:
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newelem = elem
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newelem._copy_internals(clone=clone)
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cloned_ids[id_] = newelem
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return newelem
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if element is not None:
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element = clone(element)
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clone = None # remove gc cycles
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return element
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def _deep_deannotate(element, values=None):
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"""Deep copy the given element, removing annotations."""
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cloned = {}
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def clone(elem, **kw):
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if values:
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key = id(elem)
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else:
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key = elem
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if key not in cloned:
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newelem = elem._deannotate(values=values, clone=True)
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newelem._copy_internals(clone=clone)
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cloned[key] = newelem
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return newelem
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else:
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return cloned[key]
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if element is not None:
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element = clone(element)
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clone = None # remove gc cycles
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return element
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def _shallow_annotate(element, annotations):
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"""Annotate the given ClauseElement and copy its internals so that
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internal objects refer to the new annotated object.
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Basically used to apply a "don't traverse" annotation to a
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selectable, without digging throughout the whole
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structure wasting time.
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"""
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element = element._annotate(annotations)
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element._copy_internals()
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return element
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def _new_annotation_type(cls, base_cls):
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if issubclass(cls, Annotated):
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return cls
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elif cls in annotated_classes:
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return annotated_classes[cls]
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for super_ in cls.__mro__:
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# check if an Annotated subclass more specific than
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# the given base_cls is already registered, such
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# as AnnotatedColumnElement.
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if super_ in annotated_classes:
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base_cls = annotated_classes[super_]
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break
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annotated_classes[cls] = anno_cls = type(
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"Annotated%s" % cls.__name__, (base_cls, cls), {}
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)
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globals()["Annotated%s" % cls.__name__] = anno_cls
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if "_traverse_internals" in cls.__dict__:
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anno_cls._traverse_internals = list(cls._traverse_internals) + [
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("_annotations", InternalTraversal.dp_annotations_key)
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]
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elif cls.__dict__.get("inherit_cache", False):
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anno_cls._traverse_internals = list(cls._traverse_internals) + [
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("_annotations", InternalTraversal.dp_annotations_key)
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]
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# some classes include this even if they have traverse_internals
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# e.g. BindParameter, add it if present.
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if cls.__dict__.get("inherit_cache", False):
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anno_cls.inherit_cache = True
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anno_cls._is_column_operators = issubclass(cls, operators.ColumnOperators)
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return anno_cls
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def _prepare_annotations(target_hierarchy, base_cls):
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for cls in util.walk_subclasses(target_hierarchy):
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_new_annotation_type(cls, base_cls)
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