Testing Koheesio Tasks#
Testing is a crucial part of any software development process. Koheesio provides a structured way to define and execute data processing tasks, which makes it easier to build, test, and maintain complex data workflows. This guide will walk you through the process of testing Koheesio tasks.
Unit Testing#
Unit testing involves testing individual components of the software in isolation. In the context of Koheesio, this means testing individual tasks or steps.
Here's an example of how to unit test a Koheesio task:
from koheesio.tasks.etl_task import EtlTask
from koheesio.steps.readers import DummyReader
from koheesio.steps.writers.dummy import DummyWriter
from koheesio.steps.transformations import Transform
from pyspark.sql import SparkSession, DataFrame
from pyspark.sql.functions import col
def filter_age(df: DataFrame) -> DataFrame:
return df.filter(col("Age") > 18)
def test_etl_task():
# Initialize SparkSession
spark = SparkSession.builder.getOrCreate()
# Create a DataFrame for testing
data = [("John", 19), ("Anna", 20), ("Tom", 18)]
df = spark.createDataFrame(data, ["Name", "Age"])
# Define the task
task = EtlTask(
source=DummyReader(df=df),
target=DummyWriter(),
transformations=[
Transform(filter_age)
]
)
# Execute the task
task.execute()
# Assert the result
result_df = task.output.df
assert result_df.count() == 2
assert result_df.filter("Name == 'Tom'").count() == 0
In this example, we're testing an EtlTask that reads data from a DataFrame, applies a filter transformation, and writes the result to another DataFrame. The test asserts that the task correctly filters out rows where the age is less than or equal to 18.
Integration Testing#
Integration testing involves testing the interactions between different components of the software. In the context of Koheesio, this means testing the entirety of data flowing through one or more tasks.
We'll create a simple test for a hypothetical EtlTask that uses DeltaReader and DeltaWriter. We'll use pytest and unittest.mock to mock the responses of the reader and writer. First, let's assume that you have an EtlTask defined in a module named my_module. This task reads data from a Delta table, applies some transformations, and writes the result to another Delta table.
Here's an example of how to write an integration test for this task:
# my_module.py
from koheesio.tasks.etl_task import EtlTask
from koheesio.spark.readers.delta import DeltaReader
from koheesio.steps.writers.delta import DeltaWriter
from koheesio.steps.transformations import Transform
from koheesio.context import Context
from pyspark.sql.functions import col
def filter_age(df):
return df.filter(col("Age") > 18)
context = Context({
"reader_options": {
"table": "input_table"
},
"writer_options": {
"table": "output_table"
}
})
task = EtlTask(
source=DeltaReader(**context.reader_options),
target=DeltaWriter(**context.writer_options),
transformations=[
Transform(filter_age)
]
)
Now, let's create a test for this task. We'll use pytest and unittest.mock to mock the responses of the reader and writer. We'll also use a pytest fixture to create a test context and a test DataFrame.
# test_my_module.py
import pytest
from unittest.mock import MagicMock, patch
from pyspark.sql import SparkSession
from koheesio.context import Context
from koheesio.steps.readers import Reader
from koheesio.steps.writers import Writer
from my_module import task
@pytest.fixture(scope="module")
def spark():
return SparkSession.builder.getOrCreate()
@pytest.fixture(scope="module")
def test_context():
return Context({
"reader_options": {
"table": "test_input_table"
},
"writer_options": {
"table": "test_output_table"
}
})
@pytest.fixture(scope="module")
def test_df(spark):
data = [("John", 19), ("Anna", 20), ("Tom", 18)]
return spark.createDataFrame(data, ["Name", "Age"])
def test_etl_task(spark, test_context, test_df):
# Mock the read method of the Reader class
with patch.object(Reader, "read", return_value=test_df):
# Mock the write method of the Writer class
with patch.object(Writer, "write") as mock_write:
# Execute the task
task.execute()
# Assert the result
result_df = task.output.df
assert result_df.count() == 2
assert result_df.filter("Name == 'Tom'").count() == 0
# Assert that the reader and writer were called with the correct arguments
Reader.read.assert_called_once_with(**test_context.reader_options)
mock_write.assert_called_once_with(**test_context.writer_options)
In this test, we're mocking the DeltaReader and DeltaWriter to return a test DataFrame and check that they're called with the correct arguments. We're also asserting that the task correctly filters out rows where the age is less than or equal to 18.