How to connect to a SQLite database

This guide will help you connect to data in a SQLite database. This will allow you to ValidateThe act of applying an Expectation Suite to a Batch. and explore your data.

Prerequisites: This how-to guide assumes you have:

• Completed the Getting Started Tutorial
• Have a working installation of Great Expectations
• Have access to data in a SQLite database

Steps

1. Choose how to run the code in this guide

Get an environment to run the code in this guide. Please choose an option below.

• CLI + filesystem
• No CLI + filesystem
• No CLI + no filesystem

If you use the Great Expectations CLICommand Line Interface, run this command to automatically generate a pre-configured Jupyter Notebook. Then you can follow along in the YAML-based workflow below:

great_expectations datasource new

If you use Great Expectations in an environment that has filesystem access, and prefer not to use the CLICommand Line Interface, run the code in this guide in a notebook or other Python script.

If you use Great Expectations in an environment that has no filesystem (such as Databricks or AWS EMR), run the code in this guide in that system's preferred way.

2. Install required dependencies

First, install the necessary dependencies for Great Expectations to connect to your SQLite database by running the following in your terminal:

pip install sqlalchemy

3. Configure the URL for your SQLite database

Since SQLite connects to file-based databases, the URL format is slightly different from other DBs. For this guide we will use a connection_string that looks like this:

sqlite:///<PATH_TO_DB_FILE>

For more details on different ways to specify database files and information on how to connect to an in-memory SQLite database, please refer to the documentation on SQLAlchemy.

4. Instantiate your project's DataContext

Import these necessary packages and modules.

from ruamel import yaml

import great_expectations as ge
from great_expectations.core.batch import BatchRequest, RuntimeBatchRequest

Load your DataContext into memory using the get_context() method.

context = ge.get_context()

5. Configure your Datasource

• YAML
• Python

Put your connection string in this template:

datasource_yaml = f"""
name: my_sqlite_datasource
class_name: Datasource
execution_engine:
  class_name: SqlAlchemyExecutionEngine
  connection_string: sqlite://<PATH_TO_DB_FILE>
data_connectors:
   default_runtime_data_connector_name:
       class_name: RuntimeDataConnector
       batch_identifiers:
           - default_identifier_name
   default_inferred_data_connector_name:
       class_name: InferredAssetSqlDataConnector
       include_schema_name: true
"""

Run this code to test your configuration.

context.test_yaml_config(datasource_yaml)

Put your connection string in this template:

datasource_config = {
    "name": "my_sqlite_datasource",
    "class_name": "Datasource",
    "execution_engine": {
        "class_name": "SqlAlchemyExecutionEngine",
        "connection_string": "sqlite://<PATH_TO_DB_FILE>",
    },
    "data_connectors": {
        "default_runtime_data_connector_name": {
            "class_name": "RuntimeDataConnector",
            "batch_identifiers": ["default_identifier_name"],
        },
        "default_inferred_data_connector_name": {
            "class_name": "InferredAssetSqlDataConnector",
            "include_schema_name": True,
        },
    },
}

Run this code to test your configuration.

context.test_yaml_config(yaml.dump(datasource_config))

You will see your database tables listed as Available data_asset_names in the output of test_yaml_config().

Feel free to adjust your configuration and re-run test_yaml_config as needed.

6. Save the Datasource configuration to your DataContext

Save the configuration into your DataContext by using the add_datasource() function.

• YAML
• Python

context.add_datasource(**yaml.load(datasource_yaml))

context.add_datasource(**datasource_config)

7. Test your new Datasource

Verify your new DatasourceProvides a standard API for accessing and interacting with data from a wide variety of source systems. by loading data from it into a ValidatorUsed to run an Expectation Suite against data. using a BatchRequest.

• Using a SQL query
• Using a table name

Here is an example of loading data by specifying a SQL query.

batch_request = RuntimeBatchRequest(
    datasource_name="my_sqlite_datasource",
    data_connector_name="default_runtime_data_connector_name",
    data_asset_name="default_name",  # this can be anything that identifies this data
    runtime_parameters={
        "query": "SELECT * from main.yellow_tripdata_sample_2019_01 LIMIT 10"
    },
    batch_identifiers={"default_identifier_name": "default_identifier"},
)
context.create_expectation_suite(
    expectation_suite_name="test_suite", overwrite_existing=True
)
validator = context.get_validator(
    batch_request=batch_request, expectation_suite_name="test_suite"

Here is an example of loading data by specifying an existing table name.

# Here is a BatchRequest naming a table
batch_request = BatchRequest(
    datasource_name="my_sqlite_datasource",
    data_connector_name="default_inferred_data_connector_name",
    data_asset_name="main.yellow_tripdata_sample_2019_01",  # this is the name of the table you want to retrieve
)
context.create_expectation_suite(
    expectation_suite_name="test_suite", overwrite_existing=True
)
validator = context.get_validator(
    batch_request=batch_request, expectation_suite_name="test_suite"

🚀🚀 Congratulations! 🚀🚀 You successfully connected Great Expectations with your data.

Additional Notes

To view the full scripts used in this page, see them on GitHub:

• sqlite_yaml_example.py
• sqlite_python_example.py

Next Steps

Now that you've connected to your data, you'll want to work on these core skills:

• How to create a Batch of data from an in-memory Spark or Pandas dataframe
• How to create and edit Expectations with instant feedback from a sample Batch of data
• How to create and edit Expectations based on domain knowledge, without inspecting data directly