fal allows you to run python scripts directly from your dbt project.
Project description
fal: do more with dbt
fal allows you to run Python scripts directly from your dbt project.
- Sign up for the private beta of fal Cloud
With fal, you can:
- Send Slack notifications upon dbt model success or failure.
- Download dbt models into a Python context with a familiar syntax:
ref('my_dbt_model')
- Use Python libraries such as
sklearn
orprophet
to build more complex pipelines downstream of and in between (new!)dbt
models.
and more...
Check out our Getting Started guide to get a quickstart, head to our documentation site for a deeper dive or play with in-depth examples to see how fal can help you get more done with dbt.
Getting Started
1. Install fal
$ pip install fal
2. Go to your dbt directory
$ cd ~/src/my_dbt_project
3. Create a Python script: send_slack_message.py
import os
from slack_sdk import WebClient
from slack_sdk.errors import SlackApiError
CHANNEL_ID = os.getenv("SLACK_BOT_CHANNEL")
SLACK_TOKEN = os.getenv("SLACK_BOT_TOKEN")
client = WebClient(token=SLACK_TOKEN)
message_text = f"Model: {context.current_model.name}. Status: {context.current_model.status}."
try:
response = client.chat_postMessage(
channel=CHANNEL_ID,
text=message_text
)
except SlackApiError as e:
assert e.response["error"]
4. Add a meta
section in your schema.yml
models:
- name: historical_ozone_levels
description: Ozone levels
config:
materialized: table
columns:
- name: ozone_level
description: Ozone level
- name: ds
description: Date
meta:
fal:
scripts:
- send_slack_message.py
5. (New!) Run fal flow run
$ fal flow run
# both your dbt models and fal scripts are run
6. Alternatively run dbt
and fal
consecutively
$ dbt run
# Your dbt models are run
$ fal run
# Your python scripts are run
Examples
To explore what is possible with fal, take a look at the in-depth examples below. We will be adding more examples here over time:
- Example 1: Send Slack notifications
- Example 2: Metric forecasting
- Example 3: Sentiment analysis on support tickets
- Example 4: Send event to Datadog
- Example 5: Incorporate fal in CI/CD workflow
- Example 6: Send data to Firestore
- Example 7: Write dbt artifacts to GCS
- Example 8: Write dbt artifacts to AWS S3
- Example 9: Use dbt from a Jupyter Notebook
- Example 10: Read and parse dbt metadata
- Example 11: Anomaly Detection
Check out the examples directory for more
How it works?
fal
is a command line tool that can read the state of your dbt
project and help you run Python scripts after your dbt run
s by leveraging the meta
config.
models:
- name: historical_ozone_levels
...
meta:
fal:
scripts:
- send_slack_message.py
- another_python_script.py # will be run after the first script
fal
also provides useful helpers within the Python context to seamlessly interact with dbt models: ref("my_dbt_model_name")
will pull a dbt model into your Python script as a pandas.DataFrame
.
Running scripts before dbt runs
The --before
flag let's users run scripts before their dbt runs.
Given the following schema.yml:
models:
- name: boston
description: Ozone levels
config:
materialized: table
meta:
owner: "@meder"
fal:
scripts:
before:
- fal_scripts/postgres.py
after:
- fal_scripts/slack.py
fal run --before
will run fal_scripts/postgres.py
script regardless if dbt has calculated the boston model or not. fal run
without the --before
flag, will run fal_scripts/slack.py
, but only if boston model is already calculated by dbt.
A typical workflow involves running dbt run
after invoking fal run --before
.
$ fal run --before --select boston
$ dbt run --select boston
Concepts
profile.yml and Credentials
fal
integrates with dbt
's profile.yml
file to access and read data from the data warehouse. Once you setup credentials in your profile.yml
file for your existing dbt
workflows anytime you use ref
or source
to create a dataframe fal
authenticates using the credentials specified in the profile.yml
file.
meta
Syntax
models:
- name: historical_ozone_levels
...
meta:
owner: "@me"
fal:
scripts:
- send_slack_message.py
- another_python_script.py # will be run sequentially
Use the fal
and scripts
keys underneath the meta
config to let fal
CLI know where to look for the Python scripts. You can pass a list of scripts as shown above to run one or more scripts as a post-hook operation after a dbt run
.
Variables and functions
Inside a Python script, you get access to some useful variables and functions
Variables
A context
object with information relevant to the model through which the script was run. For the meta
Syntax example, we would get the following:
context.current_model.name
#= historical_ozone_levels
context.current_model.meta
#= {'owner': '@me'}
context.current_model.meta.get("owner")
#= '@me'
context.current_model.status
# Could be one of
#= 'success'
#= 'error'
#= 'skipped'
context
object also has access to test information related to the current model. If the previous dbt command was either test
or build
, the context.current_model.test
property is populated with a list of tests:
context.current_model.tests
#= [CurrentTest(name='not_null', modelname='historical_ozone_levels, column='ds', status='Pass')]
ref
and source
functions
There are also available some familiar functions from dbt
# Refer to dbt models or sources by name and returns it as `pandas.DataFrame`
ref('model_name')
source('source_name', 'table_name')
# You can use it to get the running model data
ref(context.current_model.name)
write_to_source
function
It is also possible to send data back to your datawarehouse. This makes it easy to get the data, process it and upload it back into dbt territory.
All you have to do is define the target source in your schema and use it in fal. This operation appends to the existing source by default and should only be used targetting tables, not views.
# Upload a `pandas.DataFrame` back to the datawarehouse
write_to_source(df, 'source_name', 'table_name2')
write_to_source
also accepts an optional dtype
argument, which lets you specify datatypes of columns. It works the same way as dtype
argument for DataFrame.to_sql
function.
from sqlalchemy.types import Integer
# Upload but specifically create the `value` column with type `integer`
# Can be useful if data has `None` values
write_to_source(df, 'source', 'table', dtype={'value': Integer()})
Importing fal
as a Python package
You may be interested in accessing dbt models and sources easily from a Jupyter Notebook or another Python script.
For that, just import the fal
package and intantiate a FalDbt project:
from fal import FalDbt
faldbt = FalDbt(profiles_dir="~/.dbt", project_dir="../my_project")
faldbt.list_sources()
# [
# DbtSource(name='results' ...),
# DbtSource(name='ticket_data_sentiment_analysis' ...)
# ...
# ]
faldbt.list_models()
# [
# DbtModel(name='zendesk_ticket_data' ...),
# DbtModel(name='agent_wait_time' ...)
# ...
# ]
sentiments = faldbt.source('results', 'ticket_data_sentiment_analysis')
# pandas.DataFrame
tickets = faldbt.ref('stg_zendesk_ticket_data')
# pandas.DataFrame
Supported dbt
versions
Any extra configuration to work with different dbt
versions is not needed, latest fal
version currently supports:
- 0.20.*
- 0.21.*
- 1.0.*
If you need another version, open an issue and we will take a look!
Contributing / Development
We use Poetry for dependency management and easy development testing.
Use Poetry shell to trying your changes right away:
~ $ cd fal
~/fal $ poetry install
~/fal $ poetry shell
Spawning shell within [...]/fal-eFX98vrn-py3.8
~/fal fal-eFX98vrn-py3.8 $ cd ../dbt_project
~/dbt_project fal-eFX98vrn-py3.8 $ fal flow run
19:27:30 Found 5 models, 0 tests, 0 snapshots, 0 analyses, 165 macros, 0 operations, 0 seed files, 1 source, 0 exposures, 0 metrics
19:27:30 | Starting fal run for following models and scripts:
[...]
Running tests
Tests rely on a Postgres database to be present, this can be achieved with docker-compose:
~/fal $ docker-compose -f tests/docker-compose.yml up -d
Creating network "tests_default" with the default driver
Creating fal_db ... done
# Necessary for the import test
~/fal $ dbt run --profiles-dir tests/mock/mockProfile --project-dir tests/mock
Running with dbt=1.0.1
[...]
Completed successfully
Done. PASS=5 WARN=0 ERROR=0 SKIP=0 TOTAL=5
~/fal $ pytest -s
Why are we building this?
We think dbt
is great because it empowers data people to get more done with the tools that they are already familiar with.
dbt
's SQL only design is powerful, but if you ever want to get out of SQL-land and connect to external services or get into Python-land for any reason, you will have a hard time. We built fal
to enable Python workloads (sending alerts to Slack, building predictive models, pushing data to non-data warehose destinations and more) right within dbt
.
This library will form the basis of our attempt to more comprehensively enable data science workloads downstream of dbt. And because having reliable data pipelines is the most important ingredient in building predictive analytics, we are building a library that integrates well with dbt.
Have feedback or need help?
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