A tiny framework for testing reusable code inside of dbt models
Project description
dbt-unit-test (dut)
A tiny framework for testing reusable code inside of dbt models
DBT (Data Buld Tool) is a great way to maintain reusable sql code. With macros, we can build parametrizable code blocks which can be used in many places while maintaining DRYness. DBT even allows us to package macros as modules to be maintained independently and even shared with the world as open-source code like the dbt-utils project.
While reusable code has big advantages, it introduces a single point of failure, which requires careful testing.
dbt-unit-test
makes it easy to write test cases for any code that might be reused in DBT models.
Installation
$ pip install dbt-unit-test
or for the very latest version:
$ pip install git+https://github.com/AgeOfLearning/dbt-unit-test.git
Setup
From the root of your dbt project run:
$ dut init
This will set up a dbt_unit_test.yml
file right next to your dbt_project.yml
.
Now, you will need to create a dbt profile called unit_test
. This profile should use a database/schema on the system where the code to be tested is run. Ideally, at least the schema should be different than any schema that contains "real" DBT models.
Quick Start
$ dut run
This runs all the tests. You can select which tests to run with --tests
.
Anatomy of a Test
The init command installs an example unit test here (the one you just ran if you did the last session).:
your_dbt_project_root/
dbt_project.yml
...
dbt_unit_test.yml
unit_tests/
example_test/
expect.csv
input.csv
model.sql
This example_test
is the basic setup of a unit test: A directory with 3 files: input.csv
, model.sql
and expect.csv
. The files are always named like this. The directory distinguishes one test from another. Test directories can be organized within other directories, but must have unique names.
The input.csv
and expect.csv
files are both DBT seeds. They represent data referenced by the dbt model in model.sql
and the data that this model is expected to produce.
The model.sql
file is just a dbt model. It should contain code that is used elsewhere like a DBT macro or a UDF.
These files are co-located in a single directory so that each test represents a discret unit of code an all of its components are easy to find. The dut run
command will place these files in the appropriate locations (models/
, data/
) so that the they can be run by DBT.
After the unit test models are run, dut
will validate that the DBT model produced by model.sql
is identical to the dataset in expect.csv
.
Inside model.sql
The example_test/model.sql
looks like this:
{{
config(
materialized='view'
)
}}
with base as (
select
grp,
sum(metric) as metric,
max(batch) as batch
from {{ ref('example_test_input') }} a
group by grp
)
select * from base
Any model/seed in the test can be referenced with {{ ref('<test_name>_<file_name>') }}
. So this test uses this rubric with {{ ref('example_test_input') }}
.
Incremental Models
Incremental models are often some of the trickiest to get right. This is because they rely on the state created by the previous runs to form their current run output. dut
has a test pattern for this important use-case.
The input.csv
file can have a column called batch
, like this:
batch, grp, metric
1, 0, 10
1, 0, 10
1, 1, 10
1, 1, 10
2, 1, 10
2, 2, 10
2, 2, 10
3, 3, 10
dut run
will automatically create and additional model called <test_name>_batch
that will be available within model.sql
. dut run
runs the test models N (default 2) times configurable with --batches
.
On the first dbt run in our example_test
, the model referenced by {{ ref('example_test_batch') }}
will only have this data:
batch, grp, metric
1, 0, 10
1, 0, 10
1, 1, 10
1, 1, 10
It only contains rows where batch <= 1
. Subsequent dbt runs will filter less of the data where batch <= n
, n
being the ordinal number of the dbt run (the batch). On the final dbt run (the 2nd by default), {{ ref('example_test_batch') }}
will always be equivalent to {{ ref('example_test_input') }}
.
Tutorial: Convert example_test
into an incremental model.
If we change the model configuration to:
{{
config(
materialized='incremental',
unique_key='grp'
)
}}
with base as (
select
grp,
sum(metric) as metric,
max(batch) as batch
from {{ ref('example_test_batch') }} a
group by grp
)
select * from base
Our test passes, but the model is not really incremental because the entire table is replaced on the last dbt run of the dut run
. We want our model to consume only the new data on each run, as well as the previous state of the model.
Let's change our model to this:
{{
config(
materialized='incremental',
unique_key='grp'
)
}}
with base as (
select grp, sum(metric) as metric, max(batch) as batch
from {{ ref('example_test_batch') }} a
{% if is_incremental() %}
where batch > (
-- only pull new data on incremental runs
select batch from {{ this }} order by batch desc limit 1
)
{% endif %}
group by grp
)
{% if is_incremental() %}
select
grp,
sum(metric) as metric, -- sum of sums
max(batch) as batch -- update the most recent batch of the grp
from (
-- find any grp sums that should be updated by data in the most recent batch
select grp, metric, batch
from {{ this }}
where grp in (select distinct grp from base)
union all
-- add on the new batch data
select grp, metric, batch
from base
) as a
group by grp
{% else %}
-- on a full refresh, just run the old query
select * from base
{% endif %}
Great! Now we have an incremental model that only requires the newest raw data, and the test passes.
Wait, what are we testing?
We have just proven that this incremental model operates the way we expect, but we need to be able to reuse this code. Let's package this as a macro:
macros/incremental_sum.sql
{% macro incremental_sum(
reference,
metric_field,
group_field,
load_time_field
) %}
with base as (
select
{{ group_field }},
sum({{ metric_field }}) as {{ metric_field }},
max({{ load_time_field }}) as {{ load_time_field }}
from {{ reference }} a
{% if is_incremental() %}
where {{ load_time_field }} > (
-- only pull new data on incremental runs
select {{ load_time_field }} from {{ this }} order by {{ load_time_field }} desc limit 1
)
{% endif %}
group by {{ group_field }}
)
{% if is_incremental() %}
select
{{ group_field }},
sum({{ metric_field }}) as {{ metric_field }}, -- sum of sums
max({{ load_time_field }}) as {{ load_time_field }} -- update the most recent {{ load_time_field }} of the {{ group_field }}
from (
-- find any {{ group_field }} sums that should be updated by data in the most recent {{ load_time_field }}
select {{ group_field }}, {{ metric_field }}, {{ load_time_field }}
from {{ this }}
where {{ group_field }} in (select distinct {{ group_field }} from base)
union all
-- add on the new {{ load_time_field }} data
select {{ group_field }}, {{ metric_field }}, {{ load_time_field }}
from base
) as a
group by {{ group_field }}
{% else %}
-- on a full refresh, just run the old query
select * from base
{% endif %}
{% endmacro %}
The generic version of this code is not so easy on the eyes, but what is important is that the interface is nice and clean:
example_test/model.sql
{{
config(
materialized='incremental',
unique_key='grp'
)
}}
{{
incremental_sum(
reference = ref('example_test_batch'),
metric_field = 'metric',
group_field = 'grp',
load_time_field = 'batch'
)
}}
Now we can write many tests for this reusable code, and use it with confidence because we have tested it thoroughly!
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