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Getting Started With Redis OM
Introduction
This tutorial will walk you through installing Redis OM, creating your first model, and using it to save and validate data.
Prerequisites
Redis OM requires Python version 3.9 or above and a Redis instance to connect to.
Python
Make sure you are running Python version 3.9 or higher:
python --version
Python 3.9.0
If you don't have Python installed, you can download it from Python.org, use Pyenv, or install Python with your operating system's package manager.
Redis
Redis OM saves data in Redis, so you will need Redis installed and running to complete this tutorial.
Downloading Redis
The latest version of Redis is available from Redis.io. You can also install Redis with your operating system's package manager.
NOTE: This tutorial will guide you through starting Redis locally, but the instructions will also work if Redis is running on a remote server.
Installing Redis On Windows
Redis doesn't run directly on Windows, but you can use Windows Subsystem for Linux (WSL) to run Redis. See our video on YouTube for a walk-through.
Windows users can also use Docker. See the next section on running Redis with Docker for more information.
Running Redis With Docker
Instead of installing Redis manually or with a package manager, you can run Redis with Docker. The official Redis Docker image is hosted on Docker Hub.
TIP: If you plan on using Docker, we recommend the redismod image because it includes the RediSearch and RedisJSON modules.
Recommended: RediSearch and RedisJSON
Redis OM relies on the RediSearch and RedisJSON Redis modules to support rich queries and embedded models.
You don't need these Redis modules to use Redis OM's data modeling, validation, and persistence features, but we recommend them to get the most out of Redis OM.
The easiest way to run these Redis modules during local development is to use the redismod Docker image.
You can quickly start Redis with the redismod Docker image by running the following command:
docker run -d -p 6379:6379 redislabs/redismod
TIP: The -d
option runs Redis in the background.
For other installation methods, follow the "Quick Start" guides on both modules' home pages for alternative installation methods.
Start Redis
Before you get started with Redis OM, make sure you start Redis.
The command you use to start Redis will depend on how you installed it.
Ubuntu Linux (Including WSL)
If you installed Redis using apt
, start it with the systemctl
command:
sudo systemctl restart redis.service Otherwise, you can start the server manually:
redis-server start
macOS with Homebrew
brew services start redis
Docker
The command to start Redis with Docker depends on the image you've chosen to use.
Docker with the redismod image (recommended)
docker run -d -p 6379:6379 redislabs/redismod
Docker iwth the redis image
docker run -d -p 6379:6379 redis
Installing Redis OM
You can install Redis OM with pip
by running the following command:
pip install redis-om Or, if you're using Poetry, you can install Redis OM with the following command:
poetry install redis-om With Pipenv, the command is:
pipenv install redis-om
Setting the Redis URL Environment Variable
We're almost ready to create a Redis OM model! But first, we need to make sure that Redis OM knows how to connect to Redis.
By default, Redis OM tries to connect to Redis on your localhost at port 6379. Most local install methods will result in Redis running at this location, in which case you don't need to do anything special.
However, if you configured Redis to run on a different port, or if you're using a remote Redis server, you'll need to set the REDIS_URL
environment variable.
The REDIS_URL
environment variable follows the redis-py URL format:
redis://username]:[password@localhost:6379/[database number]
The default connection is eqivalent to the following REDIS_URL
environment variable:
redis://@localhost:6379 TIP: Redis databases are numbered, and the default is 0. You can leave off the database number to use the default database.
Other supported prefixes include "rediss" for SSL connections and "unix" for Unix domain sockets:
rediss://username]:[password@localhost:6379/0 unix://username]:[password@/path/to/socket.sock?db=0 For more details about how to connect to Redis with Redis OM, see the connections documentation.
Redis Cluster Support
Redis OM supports connecting to Redis Cluster, but this preview release does not support doing so with the REDIS_URL
environment variable. However, you can connect by manually creating a connection object.
See the connections documentation for examples of connecting to Redis Cluster.
Support for connecting to Redis Cluster via REDIS_URL
will be added in a future release.
Defining a Model
In this tutorial, we'll create a Customer
model that validates and saves data. Let's start with a basic definition of the model. We'll add features as we go along.
import datetime
from redis_om.model import HashModel
class Customer(HashModel):
first_name: str
last_name: str
email: str
join_date: datetime.date
age: int
bio: str
There are a few details to note:
- Our
Customer
model extends theHashModel
class. This means that it will be saved to Redis as a hash. The other model class that Redis OM provides isJsonModel
, which we'll discuss later. - We've specified the model's fields using Python type annotations.
Let's dig into these two details a bit more.
The HashModel Class
When you subclass HashModel
, your subclass is both a Redis OM model, with methods for saving data to Redis, and a Pydantic model.
This means that you can use Pydantic field validations with your Redis OM models, which we'll cover later, when we talk about validation. But this also means you can use Redis OM models anywhere you would use a Pydantic model, like in your FastAPI applications. 🤯
Type Annotations
The type annotations you add to your model fields are used for a few purposes:
- Validating data with Pydantic validators
- Serializing data Redis
- Deserializing data from Redis
We'll see examples of these throughout the course of this tutorial.
An important detail about the HashModel
class is that it does not support list
, set
, or mapping (like dict
) types. This is because Redis hashes cannot contain lists, sets, or other hashes.
If you want to model fields with a list, set, or mapping type, or another model, you'll need to use the JsonModel
class, which can support these types, as well as embedded models.
Creating Models
Let's see what creating a model object looks like:
import datetime
from redis_om.model import HashModel
class Customer(HashModel):
first_name: str
last_name: str
email: str
join_date: datetime.date
age: int
bio: str
andrew = Customer(
first_name="Andrew",
last_name="Brookins",
email="andrew.brookins@example.com",
join_date=datetime.date.today(),
age=38,
bio="Python developer, works at Redis, Inc."
)
Optional Fields
What would happen if we left out one of these fields, like bio
?
import datetime
from redis_om.model import HashModel
from pydantic import ValidationError
class Customer(HashModel):
first_name: str
last_name: str
email: str
join_date: datetime.date
age: int
bio: str
# All fields are required because none of the fields
# are marked `Optional`, so we get a validation error:
try:
Customer(
first_name="Andrew",
last_name="Brookins",
email="andrew.brookins@example.com",
join_date=datetime.date.today(),
age=38 # <- We didn't pass in a bio!
)
except ValidationError as e:
print(e)
"""
ValidationError: 1 validation error for Customer
bio
field required (type=value_error.missing)
"""
If we want the bio
field to be optional, we need to change the type annotation to use Optional
.
import datetime
from typing import Optional
from redis_om.model import HashModel
class Customer(HashModel):
first_name: str
last_name: str
email: str
join_date: datetime.date
age: int
bio: Optional[str] # <- Now, bio is an Optional[str]
Now we can create Customer
objects with or without the bio
field.
Default Values
Fields can have default values. You set them by assigning a value to a field.
import datetime
from typing import Optional
from redis_om.model import HashModel
class Customer(HashModel):
first_name: str
last_name: str
email: str
join_date: datetime.date
age: int
bio: Optional[str] = "Super dope" # <- We added a default here
Now, if we create a Customer
object without a bio
field, it will use the default value.
import datetime
from typing import Optional
from redis_om.model import HashModel
class Customer(HashModel):
first_name: str
last_name: str
email: str
join_date: datetime.date
age: int
bio: Optional[str] = "Super dope"
andrew = Customer(
first_name="Andrew",
last_name="Brookins",
email="andrew.brookins@example.com",
join_date=datetime.date.today(),
age=38) # <- Notice, we didn't give a bio!
print(andrew.bio) # <- So we got the default value.
#> 'Super Dope'
The model will then save this default value to Redis the next time you call save()
.
Automatic Primary Keys
Models generate a globally unique primary key automatically without needing to talk to Redis.
import datetime
from typing import Optional
from redis_om.model import HashModel
class Customer(HashModel):
first_name: str
last_name: str
email: str
join_date: datetime.date
age: int
bio: Optional[str] = "Super dope"
andrew = Customer(
first_name="Andrew",
last_name="Brookins",
email="andrew.brookins@example.com",
join_date=datetime.date.today(),
age=38)
print(andrew.pk)
#> '01FJM6PH661HCNNRC884H6K30C'
The ID is available before you save the model.
The default ID generation function creates ULIDs, though you can change the function that generates the primary key for models if you'd like to use a different kind of primary key.
Validating Data
Redis OM uses [Pydantic][pydantic-url] to validate data based on the type annotations you assign to fields in a model class.
This validation ensures that fields like first_name
, which the Customer
model marked as a str
, are always strings. But every Redis OM model is also a Pydantic model, so you can use Pydantic validators like EmailStr
, Pattern
, and many more for complex validations!
For example, we defined the join_date
for our Customer
model earlier as a datetime.date
. So, if we try to create a model with a join_date
that isn't a date, we'll get a validation error.
Let's try it now:
import datetime
from typing import Optional
from redis_om.model import HashModel
from pydantic import ValidationError
class Customer(HashModel):
first_name: str
last_name: str
email: str
join_date: datetime.date
age: int
bio: Optional[str] = "Super dope"
try:
Customer(
first_name="Andrew",
last_name="Brookins",
email="a@example.com",
join_date="not a date!", # <- The problem line!
age=38
)
except ValidationError as e:
print(e)
"""
pydantic.error_wrappers.ValidationError: 1 validation error for Customer
join_date
invalid date format (type=value_error.date)
"""
Models Coerce Values By Default
You might wonder what qualifies as a "date" in our last validation example. By default, Redis OM will try to coerce input values to the correct type. That means we can pass a date string for join_date
instead of a date
object:
import datetime
from typing import Optional
from redis_om.model import HashModel
class Customer(HashModel):
first_name: str
last_name: str
email: str
join_date: datetime.date
age: int
andrew = Customer(
first_name="Andrew",
last_name="Brookins",
email="a@example.com",
join_date="2020-01-02", # <- We're passing a YYYY-MM-DD date string now
age=38
)
print(andrew.join_date)
#> 2021-11-02
type(andrew.join_date)
#> datetime.date # The model parsed the string automatically!
This ability to combine parsing (in this case, a YYYY-MM-DD date string) with validation can save you a lot of work.
However, you can turn off coercion -- check the next section on using strict validation.
Strict Validation
You can turn on strict validation to reject values for a field unless they match the exact type of the model's type annotations.
You do this by changing a field's type annotation to use one of the "strict" types provided by Pydantic.
Redis OM supports all of Pydantic's strict types: StrictStr
, StrictBytes
, StrictInt
, StrictFloat
, and StrictBool
.
If we wanted to make sure that the age
field only accepts integers and doesn't try to parse a string containing an integer, like "1", we'd use the StrictInt
class.
import datetime
from typing import Optional
from pydantic import StrictInt, ValidationError
from redis_om.model import HashModel
class Customer(HashModel):
first_name: str
last_name: str
email: str
join_date: datetime.date
age: StrictInt # <- Instead of int, we use StrictInt
bio: Optional[str]
# Now if we use a string instead of an integer for `age`,
# we get a validation error:
try:
Customer(
first_name="Andrew",
last_name="Brookins",
email="a@example.com",
join_date="2020-01-02", # <- A date as a string shouldn't work now!
age="38"
)
except ValidationError as e:
print(e)
"""
pydantic.error_wrappers.ValidationError: 1 validation error for Customer
join_date
Value must be a datetime.date object (type=value_error)
"""
Pydantic doesn't include a StrictDate
class, but we can create our own. In this example, we create a StrictDate
type that we'll use to validate that join_date
is a datetime.date
object.
import datetime
from typing import Optional
from pydantic import ValidationError
from redis_om.model import HashModel
class StrictDate(datetime.date):
@classmethod
def __get_validators__(cls) -> 'CallableGenerator':
yield cls.validate
@classmethod
def validate(cls, value: datetime.date, **kwargs) -> datetime.date:
if not isinstance(value, datetime.date):
raise ValueError("Value must be a datetime.date object")
return value
class Customer(HashModel):
first_name: str
last_name: str
email: str
join_date: StrictDate
age: int
bio: Optional[str]
# Now if we use a string instead of a date object for `join_date`,
# we get a validation error:
try:
Customer(
first_name="Andrew",
last_name="Brookins",
email="a@example.com",
join_date="2020-01-02", # <- A string shouldn't work now!
age="38"
)
except ValidationError as e:
print(e)
"""
pydantic.error_wrappers.ValidationError: 1 validation error for Customer
join_date
Value must be a datetime.date object (type=value_error)
"""
Saving Models
We can save the model to Redis by calling save()
:
import datetime
from redis_om.model import HashModel
class Customer(HashModel):
first_name: str
last_name: str
email: str
join_date: datetime.date
age: int
andrew = Customer(
first_name="Andrew",
last_name="Brookins",
email="andrew.brookins@example.com",
join_date=datetime.date.today(),
age=38)
andrew.save()
Examining Your Data In Redis
You can view the data stored in Redis for any Redis OM model.
First, get the key of a model instance you want to inspect. The key()
method will give you the exact Redis key used to store the model.
NOTE: The naming of this method may be confusing. This is not the primary key, but is instead the Redis key for this model. For this reason, the method name may change.
In this example, we're looking at the key created for the Customer
model we've been building:
import datetime
from typing import Optional
from redis_om.model import HashModel
class Customer(HashModel):
first_name: str
last_name: str
email: str
join_date: datetime.date
age: int
bio: Optional[str] = "Super dope"
andrew = Customer(
first_name="Andrew",
last_name="Brookins",
email="andrew.brookins@example.com",
join_date=datetime.date.today(),
age=38)
andrew.save()
andrew.key()
#> 'mymodel.Customer:01FKGX1DFEV9Z2XKF59WQ6DC9T'
With the model's Redis key, you can start redis-cli
and inspect the data stored under that key. Here, we run JSON.GET
command with redis-cli
using the running "redis" container that this project's Docker Compose file defines:
$ docker-compose exec -T redis redis-cli HGETALL mymodel.Customer:01FKGX1DFEV9Z2XKF59WQ6DC9r
1) "pk"
2) "01FKGX1DFEV9Z2XKF59WQ6DC9T"
3) "first_name"
4) "Andrew"
5) "last_name"
6) "Brookins"
7) "email"
8) "andrew.brookins@example.com"
9) "join_date"
10) "2021-11-02"
11) "age"
12) "38"
13) "bio"
14) "Super dope"
Getting a Model
If you have the primary key of a model, you can call the get()
method on the model class to get the model's data.
import datetime
from typing import Optional
from redis_om.model import HashModel
class Customer(HashModel):
first_name: str
last_name: str
email: str
join_date: datetime.date
age: int
bio: Optional[str] = "Super dope"
andrew = Customer(
first_name="Andrew",
last_name="Brookins",
email="andrew.brookins@example.com",
join_date=datetime.date.today(),
age=38)
andrew.save()
assert Customer.get(andrew.pk) == andrew
Querying for Models With Expressions
Redis OM comes with a rich query language that allows you to query Redis with Python expressions.
To show how this works, we'll make a small change to the Customer
model we defined earlier. We'll add Field(index=True)
to tell Redis OM that we want to index the last_name
and age
fields:
import datetime
from typing import Optional
from pydantic import EmailStr
from redis_om.model import (
Field,
HashModel,
Migrator
)
class Customer(HashModel):
first_name: str
last_name: str = Field(index=True)
email: EmailStr
join_date: datetime.date
age: int = Field(index=True)
bio: Optional[str]
# Now, if we use this model with a Redis deployment that has the
# RediSearch module installed, we can run queries like the following.
# Before running queries, we need to run migrations to set up the
# indexes that Redis OM will use. You can also use the `migrate`
# CLI tool for this!
Migrator().run()
# Find all customers with the last name "Brookins"
Customer.find(Customer.last_name == "Brookins").all()
# Find all customers that do NOT have the last name "Brookins"
Customer.find(Customer.last_name != "Brookins").all()
# Find all customers whose last name is "Brookins" OR whose age is
# 100 AND whose last name is "Smith"
Customer.find((Customer.last_name == "Brookins") | (
Customer.age == 100
) & (Customer.last_name == "Smith")).all()
Many more types of queries are possible. learn more about querying with Redis OM, see the documentation on querying.
Next Steps
Now that you know the basics of working with Redis OM, continue on for all the nitty-gritty details about models and fields.