PyMenuSite/.env/lib/python3.10/site-packages/tinydb/queries.py

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"""
Contains the querying interface.
Starting with :class:`~tinydb.queries.Query` you can construct complex
queries:
>>> ((where('f1') == 5) & (where('f2') != 2)) | where('s').matches(r'^\\w+$')
(('f1' == 5) and ('f2' != 2)) or ('s' ~= ^\\w+$ )
Queries are executed by using the ``__call__``:
>>> q = where('val') == 5
>>> q({'val': 5})
True
>>> q({'val': 1})
False
"""
import re
import sys
from typing import Mapping, Tuple, Callable, Any, Union, List, Optional
from .utils import freeze
if sys.version_info >= (3, 8):
from typing import Protocol
else:
from typing_extensions import Protocol
__all__ = ('Query', 'QueryLike', 'where')
def is_sequence(obj):
return hasattr(obj, '__iter__')
class QueryLike(Protocol):
"""
A typing protocol that acts like a query.
Something that we use as a query must have two properties:
1. It must be callable, accepting a `Mapping` object and returning a
boolean that indicates whether the value matches the query, and
2. it must have a stable hash that will be used for query caching.
In addition, to mark a query as non-cacheable (e.g. if it involves
some remote lookup) it needs to have a method called ``is_cacheable``
that returns ``False``.
This query protocol is used to make MyPy correctly support the query
pattern that TinyDB uses.
See also https://mypy.readthedocs.io/en/stable/protocols.html#simple-user-defined-protocols
"""
def __call__(self, value: Mapping) -> bool: ...
def __hash__(self) -> int: ...
class QueryInstance:
"""
A query instance.
This is the object on which the actual query operations are performed. The
:class:`~tinydb.queries.Query` class acts like a query builder and
generates :class:`~tinydb.queries.QueryInstance` objects which will
evaluate their query against a given document when called.
Query instances can be combined using logical OR and AND and inverted using
logical NOT.
In order to be usable in a query cache, a query needs to have a stable hash
value with the same query always returning the same hash. That way a query
instance can be used as a key in a dictionary.
"""
def __init__(self, test: Callable[[Mapping], bool], hashval: Optional[Tuple]):
self._test = test
self._hash = hashval
def is_cacheable(self) -> bool:
return self._hash is not None
def __call__(self, value: Mapping) -> bool:
"""
Evaluate the query to check if it matches a specified value.
:param value: The value to check.
:return: Whether the value matches this query.
"""
return self._test(value)
def __hash__(self) -> int:
# We calculate the query hash by using the ``hashval`` object which
# describes this query uniquely, so we can calculate a stable hash
# value by simply hashing it
return hash(self._hash)
def __repr__(self):
return 'QueryImpl{}'.format(self._hash)
def __eq__(self, other: object):
if isinstance(other, QueryInstance):
return self._hash == other._hash
return False
# --- Query modifiers -----------------------------------------------------
def __and__(self, other: 'QueryInstance') -> 'QueryInstance':
# We use a frozenset for the hash as the AND operation is commutative
# (a & b == b & a) and the frozenset does not consider the order of
# elements
if self.is_cacheable() and other.is_cacheable():
hashval = ('and', frozenset([self._hash, other._hash]))
else:
hashval = None
return QueryInstance(lambda value: self(value) and other(value), hashval)
def __or__(self, other: 'QueryInstance') -> 'QueryInstance':
# We use a frozenset for the hash as the OR operation is commutative
# (a | b == b | a) and the frozenset does not consider the order of
# elements
if self.is_cacheable() and other.is_cacheable():
hashval = ('or', frozenset([self._hash, other._hash]))
else:
hashval = None
return QueryInstance(lambda value: self(value) or other(value), hashval)
def __invert__(self) -> 'QueryInstance':
hashval = ('not', self._hash) if self.is_cacheable() else None
return QueryInstance(lambda value: not self(value), hashval)
class Query(QueryInstance):
"""
TinyDB Queries.
Allows building queries for TinyDB databases. There are two main ways of
using queries:
1) ORM-like usage:
>>> User = Query()
>>> db.search(User.name == 'John Doe')
>>> db.search(User['logged-in'] == True)
2) Classical usage:
>>> db.search(where('value') == True)
Note that ``where(...)`` is a shorthand for ``Query(...)`` allowing for
a more fluent syntax.
Besides the methods documented here you can combine queries using the
binary AND and OR operators:
>>> # Binary AND:
>>> db.search((where('field1').exists()) & (where('field2') == 5))
>>> # Binary OR:
>>> db.search((where('field1').exists()) | (where('field2') == 5))
Queries are executed by calling the resulting object. They expect to get
the document to test as the first argument and return ``True`` or
``False`` depending on whether the documents match the query or not.
"""
def __init__(self) -> None:
# The current path of fields to access when evaluating the object
self._path: Tuple[Union[str, Callable], ...] = ()
# Prevent empty queries to be evaluated
def notest(_):
raise RuntimeError('Empty query was evaluated')
super().__init__(
test=notest,
hashval=(None,)
)
def __repr__(self):
return '{}()'.format(type(self).__name__)
def __hash__(self):
return super().__hash__()
def __getattr__(self, item: str):
# Generate a new query object with the new query path
# We use type(self) to get the class of the current query in case
# someone uses a subclass of ``Query``
query = type(self)()
# Now we add the accessed item to the query path ...
query._path = self._path + (item,)
# ... and update the query hash
query._hash = ('path', query._path) if self.is_cacheable() else None
return query
def __getitem__(self, item: str):
# A different syntax for ``__getattr__``
# We cannot call ``getattr(item)`` here as it would try to resolve
# the name as a method name first, only then call our ``__getattr__``
# method. By calling ``__getattr__`` directly, we make sure that
# calling e.g. ``Query()['test']`` will always generate a query for a
# document's ``test`` field instead of returning a reference to the
# ``Query.test`` method
return self.__getattr__(item)
def _generate_test(
self,
test: Callable[[Any], bool],
hashval: Tuple,
allow_empty_path: bool = False
) -> QueryInstance:
"""
Generate a query based on a test function that first resolves the query
path.
:param test: The test the query executes.
:param hashval: The hash of the query.
:return: A :class:`~tinydb.queries.QueryInstance` object
"""
if not self._path and not allow_empty_path:
raise ValueError('Query has no path')
def runner(value):
try:
# Resolve the path
for part in self._path:
if isinstance(part, str):
value = value[part]
else:
value = part(value)
except (KeyError, TypeError):
return False
else:
# Perform the specified test
return test(value)
return QueryInstance(
lambda value: runner(value),
(hashval if self.is_cacheable() else None)
)
def __eq__(self, rhs: Any):
"""
Test a dict value for equality.
>>> Query().f1 == 42
:param rhs: The value to compare against
"""
return self._generate_test(
lambda value: value == rhs,
('==', self._path, freeze(rhs))
)
def __ne__(self, rhs: Any):
"""
Test a dict value for inequality.
>>> Query().f1 != 42
:param rhs: The value to compare against
"""
return self._generate_test(
lambda value: value != rhs,
('!=', self._path, freeze(rhs))
)
def __lt__(self, rhs: Any) -> QueryInstance:
"""
Test a dict value for being lower than another value.
>>> Query().f1 < 42
:param rhs: The value to compare against
"""
return self._generate_test(
lambda value: value < rhs,
('<', self._path, rhs)
)
def __le__(self, rhs: Any) -> QueryInstance:
"""
Test a dict value for being lower than or equal to another value.
>>> where('f1') <= 42
:param rhs: The value to compare against
"""
return self._generate_test(
lambda value: value <= rhs,
('<=', self._path, rhs)
)
def __gt__(self, rhs: Any) -> QueryInstance:
"""
Test a dict value for being greater than another value.
>>> Query().f1 > 42
:param rhs: The value to compare against
"""
return self._generate_test(
lambda value: value > rhs,
('>', self._path, rhs)
)
def __ge__(self, rhs: Any) -> QueryInstance:
"""
Test a dict value for being greater than or equal to another value.
>>> Query().f1 >= 42
:param rhs: The value to compare against
"""
return self._generate_test(
lambda value: value >= rhs,
('>=', self._path, rhs)
)
def exists(self) -> QueryInstance:
"""
Test for a dict where a provided key exists.
>>> Query().f1.exists()
"""
return self._generate_test(
lambda _: True,
('exists', self._path)
)
def matches(self, regex: str, flags: int = 0) -> QueryInstance:
"""
Run a regex test against a dict value (whole string has to match).
>>> Query().f1.matches(r'^\\w+$')
:param regex: The regular expression to use for matching
:param flags: regex flags to pass to ``re.match``
"""
def test(value):
if not isinstance(value, str):
return False
return re.match(regex, value, flags) is not None
return self._generate_test(test, ('matches', self._path, regex))
def search(self, regex: str, flags: int = 0) -> QueryInstance:
"""
Run a regex test against a dict value (only substring string has to
match).
>>> Query().f1.search(r'^\\w+$')
:param regex: The regular expression to use for matching
:param flags: regex flags to pass to ``re.match``
"""
def test(value):
if not isinstance(value, str):
return False
return re.search(regex, value, flags) is not None
return self._generate_test(test, ('search', self._path, regex))
def test(self, func: Callable[[Mapping], bool], *args) -> QueryInstance:
"""
Run a user-defined test function against a dict value.
>>> def test_func(val):
... return val == 42
...
>>> Query().f1.test(test_func)
.. warning::
The test function provided needs to be deterministic (returning the
same value when provided with the same arguments), otherwise this
may mess up the query cache that :class:`~tinydb.table.Table`
implements.
:param func: The function to call, passing the dict as the first
argument
:param args: Additional arguments to pass to the test function
"""
return self._generate_test(
lambda value: func(value, *args),
('test', self._path, func, args)
)
def any(self, cond: Union[QueryInstance, List[Any]]) -> QueryInstance:
"""
Check if a condition is met by any document in a list,
where a condition can also be a sequence (e.g. list).
>>> Query().f1.any(Query().f2 == 1)
Matches::
{'f1': [{'f2': 1}, {'f2': 0}]}
>>> Query().f1.any([1, 2, 3])
Matches::
{'f1': [1, 2]}
{'f1': [3, 4, 5]}
:param cond: Either a query that at least one document has to match or
a list of which at least one document has to be contained
in the tested document.
"""
if callable(cond):
def test(value):
return is_sequence(value) and any(cond(e) for e in value)
else:
def test(value):
return is_sequence(value) and any(e in cond for e in value)
return self._generate_test(
lambda value: test(value),
('any', self._path, freeze(cond))
)
def all(self, cond: Union['QueryInstance', List[Any]]) -> QueryInstance:
"""
Check if a condition is met by all documents in a list,
where a condition can also be a sequence (e.g. list).
>>> Query().f1.all(Query().f2 == 1)
Matches::
{'f1': [{'f2': 1}, {'f2': 1}]}
>>> Query().f1.all([1, 2, 3])
Matches::
{'f1': [1, 2, 3, 4, 5]}
:param cond: Either a query that all documents have to match or a list
which has to be contained in the tested document.
"""
if callable(cond):
def test(value):
return is_sequence(value) and all(cond(e) for e in value)
else:
def test(value):
return is_sequence(value) and all(e in value for e in cond)
return self._generate_test(
lambda value: test(value),
('all', self._path, freeze(cond))
)
def one_of(self, items: List[Any]) -> QueryInstance:
"""
Check if the value is contained in a list or generator.
>>> Query().f1.one_of(['value 1', 'value 2'])
:param items: The list of items to check with
"""
return self._generate_test(
lambda value: value in items,
('one_of', self._path, freeze(items))
)
def fragment(self, document: Mapping) -> QueryInstance:
def test(value):
for key in document:
if key not in value or value[key] != document[key]:
return False
return True
return self._generate_test(
lambda value: test(value),
('fragment', freeze(document)),
allow_empty_path=True
)
def noop(self) -> QueryInstance:
"""
Always evaluate to ``True``.
Useful for having a base value when composing queries dynamically.
"""
return QueryInstance(
lambda value: True,
()
)
def map(self, fn: Callable[[Any], Any]) -> 'Query':
"""
Add a function to the query path. Similar to __getattr__ but for
arbitrary functions.
"""
query = type(self)()
# Now we add the callable to the query path ...
query._path = self._path + (fn,)
# ... and kill the hash - callable objects can be mutable, so it's
# harmful to cache their results.
query._hash = None
return query
def where(key: str) -> Query:
"""
A shorthand for ``Query()[key]``
"""
return Query()[key]