ESORM is an ElasticSearch Object Relational Mapper or Object Document Mapper (ODM) if you like, for Python based on Pydantic. It is a high-level library for managing ElasticSearch documents in Python. It is fully async and uses annotations and type hints for type checking and IDE autocompletion.
- 💾 Installation
- 🚀 Features
- 📖 Usage
- 🔬 Advanced usage
- 🧪 Testing
- 🛡 License
- 📃 Citation
pip install pyesorm
- Pydantic model representation of ElasticSearch documents
- Automatic mapping and index creation
- CRUD operations
- Full async support (no sync version at all)
- Mapping to and from ElasticSearch types
- Support for nested documents
- Automatic optimistic concurrency control
- Custom id field
- Context for bulk operations
- Supported IDE autocompletion and type checking (PyCharm tested)
- Everything in the source code is documented and annotated
TypedDict
s for ElasticSearch queries and aggregations- Docstring support for fields
- Shard routing support
- Lazy properties
- Support >= Python 3.8 (tested with 3.8 through 3.12)
- Support for ElasticSearch 8.x and 7.x
- Watcher support (You may need ElasticSearch subscription license for this)
- Pagination and sorting
- FastAPI integration
Not all ElasticSearch features are supported yet, pull requests are welcome.
It is tested with ElasticSearch 7.x and 8.x.
Tested with Python 3.8 through 3.12.
You can use all Pydantic model features, because ESModel
is a subclass of pydantic.BaseModel
.
(Actually it is a subclass of ESBaseModel
, see more below...)
ESModel
extends pydantic BaseModel
with ElasticSearch specific features. It serializes and deserializes
documents to and from ElasticSearch types and handle ElasticSearch operations in the background.
from esorm import ESModel
class User(ESModel):
name: str
age: int
This is how the python types are converted to ES types:
Python type | ES type | Comment |
---|---|---|
str |
text |
|
int |
long |
|
float |
double |
|
bool |
boolean |
|
datetime.datetime |
date |
|
datetime.date |
date |
|
datetime.time |
date |
Stored as 1970-01-01 + time |
typing.Literal |
keyword |
|
UUID |
keyword |
|
Path |
keyword |
|
IntEnum |
integer |
|
Enum |
keyword |
also StrEnum |
Some special pydanctic types are also supported:
Pydantic type | ES type | Comment |
---|---|---|
URL |
keyword |
|
IPvAddressAny |
ip |
You can specify ElasticSearch special fields using esorm.fields
module.
from esorm import ESModel
from esorm.fields import keyword, text, byte, geo_point
class User(ESModel):
name: text
email: keyword
age: byte
location: geo_point
...
The supported fields are:
Field name | ES type |
---|---|
keyword |
keyword |
text |
text |
binary |
binary |
byte |
byte |
short |
short |
integer or int32 |
integer |
long or int64 |
long |
unsigned_long or uint64 |
unsigned_long |
float16 or half_float |
half_float |
float32 |
float |
double |
double |
boolean |
boolean |
geo_point |
geo_point |
The binary
field accepts base64 encoded strings. However, if you provide bytes
to it, they
will be automatically converted to a base64 string during serialization. When you retrieve the
field, it will always be a base64 encoded string. You can easily convert it back to bytes using
the bytes()
method: binary_field.bytes()
.
You can also use Annotated
types to specify the ES type, like Pydantic PositiveInt
and
NegativeInt
and similar.
You can use geo_point field type for location data:
from esorm import ESModel
from esorm.fields import geo_point
class Place(ESModel):
name: str
location: geo_point
def create_place():
place = Place(name='Budapest', location=geo_point(lat=47.4979, long=19.0402))
place.save()
from esorm import ESModel
from esorm.fields import keyword, text, byte
class User(ESModel):
name: text
email: keyword
age: byte = 18
class Post(ESModel):
title: text
content: text
writer: User # User is a nested document
You can use list of primitive fields:
from typing import List
from esorm import ESModel
class User(ESModel):
emails: List[str]
favorite_ids: List[int]
...
ESBaseModel
is the base of ESModel
.
from esorm import ESModel, ESBaseModel
from esorm.fields import keyword, text, byte
# This way `User` model won't be in the index
class BaseUser(ESBaseModel): # <---------------
# This config will be inherited by User
class ESConfig:
id_field = 'email'
name: text
email: keyword
# This will be in the index because it is a subclass of ESModel
class UserExtended(BaseUser, ESModel):
age: byte = 18
async def create_user():
user = UserExtended(
name='John Doe',
email="[email protected]",
age=25
)
await user.save()
It is useful to use it for nested documents, because by using it will not be included in the ElasticSearch index.
from esorm import ESModel, ESBaseModel
from esorm.fields import keyword, text, byte
# This way `User` model won't be in the index
class User(ESBaseModel): # <---------------
name: text
email: keyword
age: byte = 18
class Post(ESModel):
title: text
content: text
writer: User # User is a nested document
You can specify id field in model settings:
from esorm import ESModel
from esorm.fields import keyword, text, byte
class User(ESModel):
class ESConfig:
id_field = 'email'
name: text
email: keyword
age: byte = 18
This way the field specified in id_field
will be removed from the document and used as the document _id
in the
index.
If you specify a field named id
in your model, it will be used as the document _id
in the index
(it will automatically override the id_field
setting):
from esorm import ESModel
class User(ESModel):
id: int # This will be used as the document _id in the index
name: str
You can also create an __id__
property in your model to return a custom id:
from esorm import ESModel
from esorm.fields import keyword, text, byte
class User(ESModel):
name: text
email: keyword
age: byte = 18
@property
def __id__(self) -> str:
return self.email
NOTE: annotation of __id__
method is important, and it must be declared as a property.
You can specify model settings using ESConfig
child class.
from typing import Optional, List, Dict, Any
from esorm import ESModel
class User(ESModel):
class ESConfig:
""" ESModel Config """
# The index name
index: Optional[str] = None
# The name of the 'id' field
id_field: Optional[str] = None
# Default sort
default_sort: Optional[List[Dict[str, Dict[str, str]]]] = None
# ElasticSearch index settings (https://www.elastic.co/guide/en/elasticsearch/reference/current/index-modules.html)
settings: Optional[Dict[str, Any]] = None
# Maximum recursion depth of lazy properties
lazy_property_max_recursion_depth: int = 1
You can use ESModelTimestamp
class to add created_at
and updated_at
fields to your model:
from esorm import ESModelTimestamp
class User(ESModelTimestamp):
name: str
age: int
These fields will be automatically updated to the actual datetime
when you create or update a document.
The created_at
field will be set only when you create a document. The updated_at
field will be set
when you create or update a document.
You can use the usual Pydantic
field description, but you can also use docstrings like this:
from esorm import ESModel
from esorm.fields import TextField
class User(ESModel):
name: str = 'John Doe'
""" The name of the user """
age: int = 18
""" The age of the user """
# This is the usual Pydantic way, but I think docstrings are more intuitive and readable
address: str = TextField(description="The address of the user")
The documentation is usseful if you create an API and you want to generate documentation from the model. It can be used in FastAPI for example.
You can specify aliases for fields:
from esorm import ESModel
from esorm.fields import keyword, Field
class User(ESModel):
full_name: keyword = Field(alias='fullName') # In ES `fullName` will be the field name
This is good for renaming fields in the model without changing the ElasticSearch field name.
You can connect with a simple connection string:
from esorm import connect
async def es_init():
await connect('localhost:9200')
Also you can connect to multiple hosts if you have a cluster:
from esorm import connect
async def es_init():
await connect(['localhost:9200', 'localhost:9201'])
You can wait for node or cluster to be ready (recommended):
from esorm import connect
async def es_init():
await connect('localhost:9200', wait=True)
This will ping the node in 2 seconds intervals until it is ready. It can be a long time.
You can pass any arguments that AsyncElasticsearch
supports:
from esorm import connect
async def es_init():
await connect('localhost:9200', wait=True, sniff_on_start=True, sniff_on_connection_fail=True)
The connect
function is a wrapper for the AsyncElasticsearch
constructor. It creates and stores
a global instance of a proxy to an AsyncElasticsearch
instance. The model operations will use this
instance to communicate with ElasticSearch. You can retrieve the proxy client instance and you can
use the same way as AsyncElasticsearch
instance:
from esorm import es
async def es_init():
await es.ping()
You can create index templates easily:
from esorm import model as esorm_model
# Create index template
async def prepare_es():
await esorm_model.create_index_template('default_template',
prefix_name='esorm_',
shards=3,
auto_expand_replicas='1-5')
Here this will be applied all esorm_
prefixed (default) indices.
All indices created by ESORM have a prefix, which you can modify globally if you want:
from esorm.model import set_default_index_prefix
set_default_index_prefix('custom_prefix_')
The default prefix is esorm_
.
You can create indices and mappings automatically from your models:
from esorm import setup_mappings
# Create indices and mappings
async def prepare_es():
import models # Import your models
# Here models argument is not needed, but you can pass it to prevent unused import warning
await setup_mappings(models)
First you must create (import) all model classes. Model classes will be registered into a global registry.
Then you can call setup_mappings
function to create indices and mappings for all registered models.
IMPORTANT: This method will ignore mapping errors if you already have an index with the same name. It can update the indices by new fields, but cannot modify or delete fields! For that you need to reindex your ES database. It is an ElasticSearch limitation.
When you get a model instance from elasticsearch by search
or get
methods, you will get the following private
attributes filled automatically:
Attribute | Description |
---|---|
_id |
The ES id of the document |
_routing |
The routing value of the document |
_version |
Version of the document |
_primary_term |
The primary term of the document |
_seq_no |
The sequence number of the document |
from esorm import ESModel
# Here the model have automatically generated id
class User(ESModel):
name: str
age: int
async def create_user():
# Create a new user
user = User(name='John Doe', age=25)
# Save the user to ElasticSearch
new_user_id = await user.save()
print(new_user_id)
from esorm import ESModel
# Here the model have automatically generated id
class User(ESModel):
name: str
age: int
async def get_user(user_id: str):
user = await User.get(user_id)
print(user.name)
On update race conditions are checked automatically (with the help of _primary_term and _seq_no fields). This way an optimistic locking mechanism is implemented.
from esorm import ESModel
# Here the model have automatically generated id
class User(ESModel):
name: str
age: int
async def update_user(user_id: str):
user = await User.get(user_id)
user.name = 'Jane Doe'
await user.save()
from esorm import ESModel
# Here the model have automatically generated id
class User(ESModel):
name: str
age: int
async def delete_user(user_id: str):
user = await User.get(user_id)
await user.delete()
Bulk operations could be much faster than single operations, if you have lot of documents to create, update or delete.
You can use context for bulk operations:
from typing import List
from esorm import ESModel, ESBulk
# Here the model have automatically generated id
class User(ESModel):
name: str
age: int
async def bulk_create_users():
async with ESBulk() as bulk:
# Creating or modifiying models
for i in range(10):
user = User(name=f'User {i}', age=i)
await bulk.save(user)
async def bulk_delete_users(users: List[User]):
async with ESBulk(wait_for=True) as bulk: # Here we wait for the bulk operation to finish
# Deleting models
for user in users:
await bulk.delete(user)
The wait_for
argument is optional. If it is True
, the context will wait for the bulk operation to finish.
You can search for documents using search
method, where an ES query can be specified as a dictionary.
You can use res_dict=True
argument to get the result as a dictionary instead of a list. The key will be the
id
of the document: await User.search(query, res_dict=True)
.
If you only need one result, you can use search_one
method.
from esorm import ESModel
# Here the model have automatically generated id
class User(ESModel):
name: str
age: int
async def search_users():
# Search for users at least 18 years old
users = await User.search(
query={
'bool': {
'must': [{
'range': {
'age': {
'gte': 18
}
}
}]
}
}
)
for user in users:
print(user.name)
async def search_one_user():
# Search a user named John Doe
user = await User.search_one(
query={
'bool': {
'must': [{
'match': {
'name': {
'query': 'John Doe'
}
}
}]
}
}
)
print(user.name)
Queries are type checked, because they are annotated as TypedDict
s. You can use IDE autocompletion and type checking.
You can search for documents using search_by_fields
method, where you can specify a field and a value.
It also has a res_dict
argument and search_one_by_fields
variant.
from esorm import ESModel
# Here the model have automatically generated id
class User(ESModel):
name: str
age: int
async def search_users():
# Search users age is 18
users = await User.search_by_fields({'age': 18})
for user in users:
print(user.name)
You can use aggregate
method to get aggregations.
You can specify an ES aggregation query as a dictionary. It also accepts normal ES queries,
to be able to fiter which documents you want to aggregate.
Both the aggs parameter and the query parameter are type checked, because they are annotated as TypedDict
s.
You can use IDE autocompletion and type checking.
from esorm import ESModel
# Here the model have automatically generated id
class User(ESModel):
name: str
age: int
country: str
async def aggregate_avg():
# Get average age of users
aggs_def = {
'avg_age': {
'avg': {
'field': 'age'
}
}
}
aggs = await User.aggregate(aggs_def)
print(aggs['avg_age']['value'])
async def aggregate_avg_by_country(country = 'Hungary'):
# Get average age of users by country
aggs_def = {
'avg_age': {
'avg': {
'field': 'age'
}
}
}
query = {
'bool': {
'must': [{
'match': {
'country': {
'query': country
}
}
}]
}
}
aggs = await User.aggregate(aggs_def, query)
print(aggs['avg_age']['value'])
async def aggregate_terms():
# Get number of users by country
aggs_def = {
'countries': {
'terms': {
'field': 'country'
}
}
}
aggs = await User.aggregate(aggs_def)
for bucket in aggs['countries']['buckets']:
print(bucket['key'], bucket['doc_count'])
You can use Pagination
and Sort
classes to decorate your models. They simply wrap your models
and add pagination and sorting functionality to them.
You can add a callback parameter to the Pagination
class which will be invoked after the search with
the total number of documents found.
from esorm.model import ESModel, Pagination
class User(ESModel):
id: int # This will be used as the document _id in the index
name: str
age: int
def get_users(page = 1, page_size = 10):
def pagination_callback(total: int):
# You may set a header value or something else here
print(f'Total users: {total}')
# 1st create the decorator itself
pagination = Pagination(page=page, page_size=page_size)
# Then decorate your model
res = pagination(User).search_by_fields(age=18)
# Here the result has maximum 10 items
return res
It is similar to pagination:
from esorm.model import ESModel, Sort
class User(ESModel):
id: int # This will be used as the document _id in the index
name: str
age: int
def get_users():
# 1st create the decorator itself
sort = Sort(sort=[
{'age': {'order': 'desc'}},
{'name': {'order': 'asc'}}
])
# Then decorate your model
res = sort(User).search_by_fields(age=18)
# Here the result is sorted by age ascending
return res
def get_user_sorted_by_name():
# You can also use this simplified syntax
sort = Sort(sort='name')
# Then decorate your model
res = sort(User).all()
# Here the result is sorted by age descending
return res
For testing you can use the test.sh
in the root directory. It is a script to running
tests on multiple python interpreters in virtual environments. At the top of the file you can specify
which python interpreters you want to test. The ES versions are specified in tests/docker-compose.yml
file.
If you already have a virtual environment, simply use pytest
to run the tests.
This project is licensed under the terms of the Mozilla Public License 2.0 ( MPL 2.0) license.
If you use this project in your research, please cite it using the following BibTeX entry:
@misc{esorm,
author = {Adam Wallner},
title = {ESORM: ElasticSearch Object Relational Mapper},
year = {2023},
publisher = {GitHub},
journal = {GitHub repository},
howpublished = {\url{https://github.com/wallneradam/esorm}},
}