# SPDX-License-Identifier: Apache-2.0
#
# The OpenSearch Contributors require contributions made to
# this file be licensed under the Apache-2.0 license or a
# compatible open source license.
#
# Modifications Copyright OpenSearch Contributors. See
# GitHub history for details.
#
# Licensed to Elasticsearch B.V. under one or more contributor
# license agreements. See the NOTICE file distributed with
# this work for additional information regarding copyright
# ownership. Elasticsearch B.V. licenses this file to you under
# the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing,
# software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
# KIND, either express or implied. See the License for the
# specific language governing permissions and limitations
# under the License.
from __future__ import unicode_literals
try:
import collections.abc as collections_abc # only works on python 3.3+
except ImportError:
import collections as collections_abc
from copy import copy
from six import add_metaclass, iteritems
from six.moves import map
from .exceptions import UnknownDslObject, ValidationException
SKIP_VALUES = ("", None)
EXPAND__TO_DOT = True
DOC_META_FIELDS = frozenset(
(
"id",
"routing",
)
)
META_FIELDS = frozenset(
(
# OpenSearch metadata fields, except 'type'
"index",
"using",
"score",
"version",
"seq_no",
"primary_term",
)
).union(DOC_META_FIELDS)
def _wrap(val, obj_wrapper=None):
if isinstance(val, collections_abc.Mapping):
return AttrDict(val) if obj_wrapper is None else obj_wrapper(val)
if isinstance(val, list):
return AttrList(val)
return val
class AttrList(object):
def __init__(self, l, obj_wrapper=None):
# make iterables into lists
if not isinstance(l, list):
l = list(l)
self._l_ = l
self._obj_wrapper = obj_wrapper
def __repr__(self):
return repr(self._l_)
def __eq__(self, other):
if isinstance(other, AttrList):
return other._l_ == self._l_
# make sure we still equal to a dict with the same data
return other == self._l_
def __ne__(self, other):
return not self == other
def __getitem__(self, k):
l = self._l_[k]
if isinstance(k, slice):
return AttrList(l, obj_wrapper=self._obj_wrapper)
return _wrap(l, self._obj_wrapper)
def __setitem__(self, k, value):
self._l_[k] = value
def __iter__(self):
return map(lambda i: _wrap(i, self._obj_wrapper), self._l_)
def __len__(self):
return len(self._l_)
def __nonzero__(self):
return bool(self._l_)
__bool__ = __nonzero__
def __getattr__(self, name):
return getattr(self._l_, name)
def __getstate__(self):
return self._l_, self._obj_wrapper
def __setstate__(self, state):
self._l_, self._obj_wrapper = state
class AttrDict(object):
"""
Helper class to provide attribute like access (read and write) to
dictionaries. Used to provide a convenient way to access both results and
nested dsl dicts.
"""
def __init__(self, d):
# assign the inner dict manually to prevent __setattr__ from firing
super(AttrDict, self).__setattr__("_d_", d)
def __contains__(self, key):
return key in self._d_
def __nonzero__(self):
return bool(self._d_)
__bool__ = __nonzero__
def __dir__(self):
# introspection for auto-complete in IPython etc
return list(self._d_.keys())
def __eq__(self, other):
if isinstance(other, AttrDict):
return other._d_ == self._d_
# make sure we still equal to a dict with the same data
return other == self._d_
def __ne__(self, other):
return not self == other
def __repr__(self):
r = repr(self._d_)
if len(r) > 60:
r = r[:60] + "...}"
return r
def __getstate__(self):
return (self._d_,)
def __setstate__(self, state):
super(AttrDict, self).__setattr__("_d_", state[0])
def __getattr__(self, attr_name):
try:
return self.__getitem__(attr_name)
except KeyError:
raise AttributeError(
"{!r} object has no attribute {!r}".format(
self.__class__.__name__, attr_name
)
)
def get(self, key, default=None):
try:
return self.__getattr__(key)
except AttributeError:
if default is not None:
return default
raise
def __delattr__(self, attr_name):
try:
del self._d_[attr_name]
except KeyError:
raise AttributeError(
"{!r} object has no attribute {!r}".format(
self.__class__.__name__, attr_name
)
)
def __getitem__(self, key):
return _wrap(self._d_[key])
def __setitem__(self, key, value):
self._d_[key] = value
def __delitem__(self, key):
del self._d_[key]
def __setattr__(self, name, value):
if name in self._d_ or not hasattr(self.__class__, name):
self._d_[name] = value
else:
# there is an attribute on the class (could be property, ..) - don't add it as field
super(AttrDict, self).__setattr__(name, value)
def __iter__(self):
return iter(self._d_)
def to_dict(self):
return self._d_
class DslMeta(type):
"""
Base Metaclass for DslBase subclasses that builds a registry of all classes
for given DslBase subclass (== all the query types for the Query subclass
of DslBase).
It then uses the information from that registry (as well as `name` and
`shortcut` attributes from the base class) to construct any subclass based
on it's name.
For typical use see `QueryMeta` and `Query` in `opensearch_dsl.query`.
"""
_types = {}
def __init__(cls, name, bases, attrs):
super(DslMeta, cls).__init__(name, bases, attrs)
# skip for DslBase
if not hasattr(cls, "_type_shortcut"):
return
if cls.name is None:
# abstract base class, register it's shortcut
cls._types[cls._type_name] = cls._type_shortcut
# and create a registry for subclasses
if not hasattr(cls, "_classes"):
cls._classes = {}
elif cls.name not in cls._classes:
# normal class, register it
cls._classes[cls.name] = cls
@classmethod
def get_dsl_type(cls, name):
try:
return cls._types[name]
except KeyError:
raise UnknownDslObject("DSL type %s does not exist." % name)
@add_metaclass(DslMeta)
class DslBase(object):
"""
Base class for all DSL objects - queries, filters, aggregations etc. Wraps
a dictionary representing the object's json.
Provides several feature:
- attribute access to the wrapped dictionary (.field instead of ['field'])
- _clone method returning a copy of self
- to_dict method to serialize into dict (to be sent via opensearch-py)
- basic logical operators (&, | and ~) using a Bool(Filter|Query) TODO:
move into a class specific for Query/Filter
- respects the definition of the class and (de)serializes it's
attributes based on the `_param_defs` definition (for example turning
all values in the `must` attribute into Query objects)
"""
_param_defs = {}
@classmethod
def get_dsl_class(cls, name, default=None):
try:
return cls._classes[name]
except KeyError:
if default is not None:
return cls._classes[default]
raise UnknownDslObject(
"DSL class `{}` does not exist in {}.".format(name, cls._type_name)
)
def __init__(self, _expand__to_dot=EXPAND__TO_DOT, **params):
self._params = {}
for pname, pvalue in iteritems(params):
if "__" in pname and _expand__to_dot:
pname = pname.replace("__", ".")
self._setattr(pname, pvalue)
def _repr_params(self):
"""Produce a repr of all our parameters to be used in __repr__."""
return ", ".join(
"{}={!r}".format(n.replace(".", "__"), v)
for (n, v) in sorted(iteritems(self._params))
# make sure we don't include empty typed params
if "type" not in self._param_defs.get(n, {}) or v
)
def __repr__(self):
return "{}({})".format(self.__class__.__name__, self._repr_params())
def __eq__(self, other):
return isinstance(other, self.__class__) and other.to_dict() == self.to_dict()
def __ne__(self, other):
return not self == other
def __setattr__(self, name, value):
if name.startswith("_"):
return super(DslBase, self).__setattr__(name, value)
return self._setattr(name, value)
def _setattr(self, name, value):
# if this attribute has special type assigned to it...
if name in self._param_defs:
pinfo = self._param_defs[name]
if "type" in pinfo:
# get the shortcut used to construct this type (query.Q, aggs.A, etc)
shortcut = self.__class__.get_dsl_type(pinfo["type"])
# list of dict(name -> DslBase)
if pinfo.get("multi") and pinfo.get("hash"):
if not isinstance(value, (tuple, list)):
value = (value,)
value = list(
{k: shortcut(v) for (k, v) in iteritems(obj)} for obj in value
)
elif pinfo.get("multi"):
if not isinstance(value, (tuple, list)):
value = (value,)
value = list(map(shortcut, value))
# dict(name -> DslBase), make sure we pickup all the objs
elif pinfo.get("hash"):
value = {k: shortcut(v) for (k, v) in iteritems(value)}
# single value object, just convert
else:
value = shortcut(value)
self._params[name] = value
def __getattr__(self, name):
if name.startswith("_"):
raise AttributeError(
"{!r} object has no attribute {!r}".format(
self.__class__.__name__, name
)
)
value = None
try:
value = self._params[name]
except KeyError:
# compound types should never throw AttributeError and return empty
# container instead
if name in self._param_defs:
pinfo = self._param_defs[name]
if pinfo.get("multi"):
value = self._params.setdefault(name, [])
elif pinfo.get("hash"):
value = self._params.setdefault(name, {})
if value is None:
raise AttributeError(
"{!r} object has no attribute {!r}".format(
self.__class__.__name__, name
)
)
# wrap nested dicts in AttrDict for convenient access
if isinstance(value, collections_abc.Mapping):
return AttrDict(value)
return value
def to_dict(self):
"""
Serialize the DSL object to plain dict
"""
d = {}
for pname, value in iteritems(self._params):
pinfo = self._param_defs.get(pname)
# typed param
if pinfo and "type" in pinfo:
# don't serialize empty lists and dicts for typed fields
if value in ({}, []):
continue
# list of dict(name -> DslBase)
if pinfo.get("multi") and pinfo.get("hash"):
value = list(
{k: v.to_dict() for k, v in iteritems(obj)} for obj in value
)
# multi-values are serialized as list of dicts
elif pinfo.get("multi"):
value = list(map(lambda x: x.to_dict(), value))
# squash all the hash values into one dict
elif pinfo.get("hash"):
value = {k: v.to_dict() for k, v in iteritems(value)}
# serialize single values
else:
value = value.to_dict()
# serialize anything with to_dict method
elif hasattr(value, "to_dict"):
value = value.to_dict()
d[pname] = value
return {self.name: d}
def _clone(self):
c = self.__class__()
for attr in self._params:
c._params[attr] = copy(self._params[attr])
return c
class HitMeta(AttrDict):
def __init__(self, document, exclude=("_source", "_fields")):
d = {
k[1:] if k.startswith("_") else k: v
for (k, v) in iteritems(document)
if k not in exclude
}
if "type" in d:
# make sure we are consistent everywhere in python
d["doc_type"] = d.pop("type")
super(HitMeta, self).__init__(d)
class ObjectBase(AttrDict):
def __init__(self, meta=None, **kwargs):
meta = meta or {}
for k in list(kwargs):
if k.startswith("_") and k[1:] in META_FIELDS:
meta[k] = kwargs.pop(k)
super(AttrDict, self).__setattr__("meta", HitMeta(meta))
super(ObjectBase, self).__init__(kwargs)
@classmethod
def __list_fields(cls):
"""
Get all the fields defined for our class, if we have an Index, try
looking at the index mappings as well, mark the fields from Index as
optional.
"""
for name in cls._doc_type.mapping:
field = cls._doc_type.mapping[name]
yield name, field, False
if hasattr(cls.__class__, "_index"):
if not cls._index._mapping:
return
for name in cls._index._mapping:
# don't return fields that are in _doc_type
if name in cls._doc_type.mapping:
continue
field = cls._index._mapping[name]
yield name, field, True
@classmethod
def __get_field(cls, name):
try:
return cls._doc_type.mapping[name]
except KeyError:
# fallback to fields on the Index
if hasattr(cls, "_index") and cls._index._mapping:
try:
return cls._index._mapping[name]
except KeyError:
pass
@classmethod
def from_opensearch(cls, hit):
meta = hit.copy()
data = meta.pop("_source", {})
doc = cls(meta=meta)
doc._from_dict(data)
return doc
def _from_dict(self, data):
for k, v in iteritems(data):
f = self.__get_field(k)
if f and f._coerce:
v = f.deserialize(v)
setattr(self, k, v)
def __getstate__(self):
return self.to_dict(), self.meta._d_
def __setstate__(self, state):
data, meta = state
super(AttrDict, self).__setattr__("_d_", {})
super(AttrDict, self).__setattr__("meta", HitMeta(meta))
self._from_dict(data)
def __getattr__(self, name):
try:
return super(ObjectBase, self).__getattr__(name)
except AttributeError:
f = self.__get_field(name)
if hasattr(f, "empty"):
value = f.empty()
if value not in SKIP_VALUES:
setattr(self, name, value)
value = getattr(self, name)
return value
raise
def to_dict(self, skip_empty=True):
out = {}
for k, v in iteritems(self._d_):
# if this is a mapped field,
f = self.__get_field(k)
if f and f._coerce:
v = f.serialize(v)
# if someone assigned AttrList, unwrap it
if isinstance(v, AttrList):
v = v._l_
if skip_empty:
# don't serialize empty values
# careful not to include numeric zeros
if v in ([], {}, None):
continue
out[k] = v
return out
def clean_fields(self):
errors = {}
for name, field, optional in self.__list_fields():
data = self._d_.get(name, None)
if data is None and optional:
continue
try:
# save the cleaned value
data = field.clean(data)
except ValidationException as e:
errors.setdefault(name, []).append(e)
if name in self._d_ or data not in ([], {}, None):
self._d_[name] = data
if errors:
raise ValidationException(errors)
def clean(self):
pass
def full_clean(self):
self.clean_fields()
self.clean()
def merge(data, new_data, raise_on_conflict=False):
if not (
isinstance(data, (AttrDict, collections_abc.Mapping))
and isinstance(new_data, (AttrDict, collections_abc.Mapping))
):
raise ValueError(
"You can only merge two dicts! Got {!r} and {!r} instead.".format(
data, new_data
)
)
for key, value in iteritems(new_data):
if (
key in data
and isinstance(data[key], (AttrDict, collections_abc.Mapping))
and isinstance(value, (AttrDict, collections_abc.Mapping))
):
merge(data[key], value, raise_on_conflict)
elif key in data and data[key] != value and raise_on_conflict:
raise ValueError("Incompatible data for key %r, cannot be merged." % key)
else:
data[key] = value
def recursive_to_dict(data):
"""Recursively transform objects that potentially have .to_dict()
into dictionary literals by traversing AttrList, AttrDict, list,
tuple, and Mapping types.
"""
if isinstance(data, AttrList):
data = list(data._l_)
elif hasattr(data, "to_dict"):
data = data.to_dict()
if isinstance(data, (list, tuple)):
return type(data)(recursive_to_dict(inner) for inner in data)
elif isinstance(data, collections_abc.Mapping):
return {key: recursive_to_dict(val) for key, val in data.items()}
return data