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398 lines
11 KiB
398 lines
11 KiB
# dialects/postgresql/hstore.py
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# Copyright (C) 2005-2024 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: https://www.opensource.org/licenses/mit-license.php
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# mypy: ignore-errors
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import re
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from .array import ARRAY
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from .operators import CONTAINED_BY
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from .operators import CONTAINS
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from .operators import GETITEM
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from .operators import HAS_ALL
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from .operators import HAS_ANY
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from .operators import HAS_KEY
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from ... import types as sqltypes
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from ...sql import functions as sqlfunc
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__all__ = ("HSTORE", "hstore")
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class HSTORE(sqltypes.Indexable, sqltypes.Concatenable, sqltypes.TypeEngine):
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"""Represent the PostgreSQL HSTORE type.
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The :class:`.HSTORE` type stores dictionaries containing strings, e.g.::
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data_table = Table('data_table', metadata,
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Column('id', Integer, primary_key=True),
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Column('data', HSTORE)
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)
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with engine.connect() as conn:
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conn.execute(
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data_table.insert(),
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data = {"key1": "value1", "key2": "value2"}
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)
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:class:`.HSTORE` provides for a wide range of operations, including:
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* Index operations::
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data_table.c.data['some key'] == 'some value'
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* Containment operations::
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data_table.c.data.has_key('some key')
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data_table.c.data.has_all(['one', 'two', 'three'])
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* Concatenation::
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data_table.c.data + {"k1": "v1"}
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For a full list of special methods see
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:class:`.HSTORE.comparator_factory`.
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.. container:: topic
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**Detecting Changes in HSTORE columns when using the ORM**
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For usage with the SQLAlchemy ORM, it may be desirable to combine the
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usage of :class:`.HSTORE` with :class:`.MutableDict` dictionary now
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part of the :mod:`sqlalchemy.ext.mutable` extension. This extension
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will allow "in-place" changes to the dictionary, e.g. addition of new
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keys or replacement/removal of existing keys to/from the current
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dictionary, to produce events which will be detected by the unit of
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work::
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from sqlalchemy.ext.mutable import MutableDict
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class MyClass(Base):
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__tablename__ = 'data_table'
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id = Column(Integer, primary_key=True)
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data = Column(MutableDict.as_mutable(HSTORE))
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my_object = session.query(MyClass).one()
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# in-place mutation, requires Mutable extension
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# in order for the ORM to detect
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my_object.data['some_key'] = 'some value'
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session.commit()
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When the :mod:`sqlalchemy.ext.mutable` extension is not used, the ORM
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will not be alerted to any changes to the contents of an existing
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dictionary, unless that dictionary value is re-assigned to the
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HSTORE-attribute itself, thus generating a change event.
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.. seealso::
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:class:`.hstore` - render the PostgreSQL ``hstore()`` function.
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"""
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__visit_name__ = "HSTORE"
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hashable = False
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text_type = sqltypes.Text()
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def __init__(self, text_type=None):
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"""Construct a new :class:`.HSTORE`.
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:param text_type: the type that should be used for indexed values.
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Defaults to :class:`_types.Text`.
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"""
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if text_type is not None:
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self.text_type = text_type
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class Comparator(
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sqltypes.Indexable.Comparator, sqltypes.Concatenable.Comparator
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):
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"""Define comparison operations for :class:`.HSTORE`."""
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def has_key(self, other):
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"""Boolean expression. Test for presence of a key. Note that the
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key may be a SQLA expression.
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"""
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return self.operate(HAS_KEY, other, result_type=sqltypes.Boolean)
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def has_all(self, other):
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"""Boolean expression. Test for presence of all keys in jsonb"""
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return self.operate(HAS_ALL, other, result_type=sqltypes.Boolean)
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def has_any(self, other):
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"""Boolean expression. Test for presence of any key in jsonb"""
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return self.operate(HAS_ANY, other, result_type=sqltypes.Boolean)
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def contains(self, other, **kwargs):
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"""Boolean expression. Test if keys (or array) are a superset
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of/contained the keys of the argument jsonb expression.
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kwargs may be ignored by this operator but are required for API
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conformance.
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"""
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return self.operate(CONTAINS, other, result_type=sqltypes.Boolean)
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def contained_by(self, other):
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"""Boolean expression. Test if keys are a proper subset of the
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keys of the argument jsonb expression.
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"""
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return self.operate(
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CONTAINED_BY, other, result_type=sqltypes.Boolean
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)
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def _setup_getitem(self, index):
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return GETITEM, index, self.type.text_type
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def defined(self, key):
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"""Boolean expression. Test for presence of a non-NULL value for
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the key. Note that the key may be a SQLA expression.
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"""
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return _HStoreDefinedFunction(self.expr, key)
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def delete(self, key):
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"""HStore expression. Returns the contents of this hstore with the
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given key deleted. Note that the key may be a SQLA expression.
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"""
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if isinstance(key, dict):
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key = _serialize_hstore(key)
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return _HStoreDeleteFunction(self.expr, key)
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def slice(self, array):
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"""HStore expression. Returns a subset of an hstore defined by
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array of keys.
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"""
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return _HStoreSliceFunction(self.expr, array)
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def keys(self):
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"""Text array expression. Returns array of keys."""
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return _HStoreKeysFunction(self.expr)
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def vals(self):
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"""Text array expression. Returns array of values."""
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return _HStoreValsFunction(self.expr)
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def array(self):
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"""Text array expression. Returns array of alternating keys and
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values.
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"""
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return _HStoreArrayFunction(self.expr)
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def matrix(self):
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"""Text array expression. Returns array of [key, value] pairs."""
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return _HStoreMatrixFunction(self.expr)
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comparator_factory = Comparator
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def bind_processor(self, dialect):
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def process(value):
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if isinstance(value, dict):
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return _serialize_hstore(value)
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else:
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return value
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return process
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def result_processor(self, dialect, coltype):
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def process(value):
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if value is not None:
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return _parse_hstore(value)
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else:
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return value
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return process
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class hstore(sqlfunc.GenericFunction):
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"""Construct an hstore value within a SQL expression using the
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PostgreSQL ``hstore()`` function.
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The :class:`.hstore` function accepts one or two arguments as described
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in the PostgreSQL documentation.
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E.g.::
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from sqlalchemy.dialects.postgresql import array, hstore
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select(hstore('key1', 'value1'))
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select(
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hstore(
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array(['key1', 'key2', 'key3']),
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array(['value1', 'value2', 'value3'])
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)
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)
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.. seealso::
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:class:`.HSTORE` - the PostgreSQL ``HSTORE`` datatype.
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"""
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type = HSTORE
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name = "hstore"
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inherit_cache = True
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class _HStoreDefinedFunction(sqlfunc.GenericFunction):
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type = sqltypes.Boolean
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name = "defined"
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inherit_cache = True
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class _HStoreDeleteFunction(sqlfunc.GenericFunction):
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type = HSTORE
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name = "delete"
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inherit_cache = True
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class _HStoreSliceFunction(sqlfunc.GenericFunction):
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type = HSTORE
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name = "slice"
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inherit_cache = True
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class _HStoreKeysFunction(sqlfunc.GenericFunction):
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type = ARRAY(sqltypes.Text)
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name = "akeys"
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inherit_cache = True
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class _HStoreValsFunction(sqlfunc.GenericFunction):
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type = ARRAY(sqltypes.Text)
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name = "avals"
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inherit_cache = True
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class _HStoreArrayFunction(sqlfunc.GenericFunction):
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type = ARRAY(sqltypes.Text)
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name = "hstore_to_array"
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inherit_cache = True
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class _HStoreMatrixFunction(sqlfunc.GenericFunction):
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type = ARRAY(sqltypes.Text)
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name = "hstore_to_matrix"
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inherit_cache = True
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#
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# parsing. note that none of this is used with the psycopg2 backend,
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# which provides its own native extensions.
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#
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# My best guess at the parsing rules of hstore literals, since no formal
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# grammar is given. This is mostly reverse engineered from PG's input parser
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# behavior.
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HSTORE_PAIR_RE = re.compile(
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r"""
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(
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"(?P<key> (\\ . | [^"])* )" # Quoted key
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)
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[ ]* => [ ]* # Pair operator, optional adjoining whitespace
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(
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(?P<value_null> NULL ) # NULL value
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| "(?P<value> (\\ . | [^"])* )" # Quoted value
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)
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""",
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re.VERBOSE,
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)
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HSTORE_DELIMITER_RE = re.compile(
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r"""
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[ ]* , [ ]*
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""",
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re.VERBOSE,
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)
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def _parse_error(hstore_str, pos):
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"""format an unmarshalling error."""
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ctx = 20
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hslen = len(hstore_str)
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parsed_tail = hstore_str[max(pos - ctx - 1, 0) : min(pos, hslen)]
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residual = hstore_str[min(pos, hslen) : min(pos + ctx + 1, hslen)]
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if len(parsed_tail) > ctx:
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parsed_tail = "[...]" + parsed_tail[1:]
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if len(residual) > ctx:
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residual = residual[:-1] + "[...]"
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return "After %r, could not parse residual at position %d: %r" % (
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parsed_tail,
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pos,
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residual,
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)
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def _parse_hstore(hstore_str):
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"""Parse an hstore from its literal string representation.
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Attempts to approximate PG's hstore input parsing rules as closely as
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possible. Although currently this is not strictly necessary, since the
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current implementation of hstore's output syntax is stricter than what it
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accepts as input, the documentation makes no guarantees that will always
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be the case.
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"""
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result = {}
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pos = 0
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pair_match = HSTORE_PAIR_RE.match(hstore_str)
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while pair_match is not None:
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key = pair_match.group("key").replace(r"\"", '"').replace("\\\\", "\\")
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if pair_match.group("value_null"):
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value = None
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else:
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value = (
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pair_match.group("value")
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.replace(r"\"", '"')
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.replace("\\\\", "\\")
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)
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result[key] = value
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pos += pair_match.end()
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delim_match = HSTORE_DELIMITER_RE.match(hstore_str[pos:])
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if delim_match is not None:
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pos += delim_match.end()
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pair_match = HSTORE_PAIR_RE.match(hstore_str[pos:])
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if pos != len(hstore_str):
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raise ValueError(_parse_error(hstore_str, pos))
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return result
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def _serialize_hstore(val):
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"""Serialize a dictionary into an hstore literal. Keys and values must
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both be strings (except None for values).
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"""
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def esc(s, position):
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if position == "value" and s is None:
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return "NULL"
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elif isinstance(s, str):
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return '"%s"' % s.replace("\\", "\\\\").replace('"', r"\"")
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else:
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raise ValueError(
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"%r in %s position is not a string." % (s, position)
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)
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return ", ".join(
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"%s=>%s" % (esc(k, "key"), esc(v, "value")) for k, v in val.items()
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)
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