Add incremental configuration to SQL resources
Incremental loading is the act of loading only new or changed data and not old records that have already been loaded. For example, a bank loading only the latest transactions or a company updating its database with new or modified user information. In this article, we’ll discuss a few incremental loading strategies.
Processing data incrementally, or in batches, enhances efficiency, reduces costs, lowers latency, improves scalability, and optimizes resource utilization.
Incremental loading strategies
In this guide, we will discuss various incremental loading methods using dlt
, specifically:
S.No. | Strategy | Description |
---|---|---|
1. | Full load (replace) | It completely overwrites the existing data with the new/updated dataset. |
2. | Append new records based on Incremental ID | Appends only new records to the table based on an incremental ID. |
3. | Append new records based on date ("created_at") | Appends only new records to the table based on a date field. |
4. | Merge (Update/Insert) records based on timestamp ("last_modified_at") and ID | Merges records based on a composite ID key and a timestamp field. Updates existing records and inserts new ones as necessary. |
Code examples
1. Full load (replace)
A full load strategy completely overwrites the existing data with the new dataset. This is useful when you want to refresh the entire table with the latest data.
This strategy technically does not load only new data but instead reloads all data: old and new.
Here’s a walkthrough:
The initial table, named "contact", in the SQL source looks like this:
id name created_at 1 Alice 2024-07-01 2 Bob 2024-07-02 The python code illustrates the process of loading data from an SQL source into BigQuery using the
dlt
pipeline. Please note thewrite_disposition = "replace”
used below.def load_full_table_resource() -> None:
"""Load a full table, replacing existing data."""
pipeline = dlt.pipeline(
pipeline_name="mysql_database",
destination='bigquery',
dataset_name="dlt_contacts"
)
# Load the full table "contact"
source = sql_database().with_resources("contact")
# Run the pipeline
info = pipeline.run(source, write_disposition="replace")
# Print the info
print(info)
load_full_table_resource()After running the
dlt
pipeline, the data loaded into the BigQuery "contact" table looks like:Row id name created_at _dlt_load_id _dlt_id 1 1 Alice 2024-07-01 1721878309.021546 tgyMM73iMz0cQg 2 2 Bob 2024-07-02 1721878309.021546 88P0bD796pXo/Q Next, the "contact" table in the SQL source is updated—two new rows are added, and the row with
id = 2
is removed. The updated data source ("contact" table) now presents itself as follows:id name created_at 1 Alice 2024-07-01 3 Charlie 2024-07-03 4 Dave 2024-07-04 The "contact" table created in BigQuery after running the pipeline again:
Row id name created_at _dlt_load_id _dlt_id 1 1 Alice 2024-07-01 1721878309.021546 S5ye6fMhYECZA 2 3 Charlie 2024-07-03 1721878309.021546 eT0zheRx9ONWuQ 3 4 Dave 2024-07-04 1721878309.021546 gtflF8BdL2NO/Q
What happened?
After running the pipeline, the original data in the "contact" table (Alice and Bob) is completely replaced with the new updated table with data “Charlie” and “Dave” added and “Bob” removed. This strategy is useful for scenarios where the entire dataset needs to be refreshed/replaced with the latest information.
2. Append new records based on incremental ID
This strategy appends only new records to the table based on an incremental ID. It is useful for scenarios where each new record has a unique, incrementing identifier.
Here’s a walkthrough:
The initial table, named "contact", in the SQL source looks like this:
id name created_at 1 Alice 2024-07-01 2 Bob 2024-07-02 The python code demonstrates loading data from an SQL source into BigQuery using an incremental variable,
id
. This variable tracks new or updated records in thedlt
pipeline. Please note thewrite_disposition = "append”
used below.def load_incremental_id_table_resource() -> None:
"""Load a table incrementally based on an ID."""
pipeline = dlt.pipeline(
pipeline_name="mysql_database",
destination='bigquery',
dataset_name="dlt_contacts",
)
# Load table "contact" incrementally based on ID
source = sql_database().with_resources("contact")
source.contact.apply_hints(incremental=dlt.sources.incremental("id"))
# Run the pipeline with append write disposition
info = pipeline.run(source, write_disposition="append")
# Print the info
print(info)After running the
dlt
pipeline, the data loaded into BigQuery "contact" table looks like:Row id name created_at _dlt_load_id _dlt_id 1 1 Alice 2024-07-01 1721878309.021546 YQfmAu8xysqWmA 2 2 Bob 2024-07-02 1721878309.021546 Vcb5KKah/RpmQw Next, the "contact" table in the SQL source is updated—two new rows are added, and the row with
id = 2
is removed. The updated data source now presents itself as follows:id name created_at 1 Alice 2024-07-01 3 Charlie 2024-07-03 4 Dave 2024-07-04 The "contact" table created in BigQuery after running the pipeline again:
Row id name created_at _dlt_load_id _dlt_id 1 1 Alice 2024-07-01 1721878309.021546 OW9ZyAzkXg4D4w 2 2 Bob 2024-07-02 1721878309.021546 skVYZ/ppQuztUg 3 3 Charlie 2024-07-03 1721878309.021546 y+T4Q2JDnR33jg 4 4 Dave 2024-07-04 1721878309.021546 MAXrGhNNADXAiQ
What happened?
In this scenario, the pipeline appends new records (Charlie and Dave) to the existing data (Alice and Bob) without affecting the pre-existing entries. This strategy is ideal when only new data needs to be added, preserving the historical data.
3. Append new records based on timestamp ("created_at")
This strategy appends only new records to the table based on a date/timestamp field. It is useful for scenarios where records are created with a timestamp, and you want to load only those records created after a certain date.
Here’s a walkthrough:
The initial dataset, named "contact", in the SQL source looks like this:
id name created_at 1 Alice 2024-07-01 00:00:00 2 Bob 2024-07-02 00:00:00 The python code illustrates the process of loading data from an SQL source into BigQuery using the
dlt
pipeline. Please note thewrite_disposition = "append"
, withcreated_at
being used as the incremental parameter.def load_incremental_timestamp_table_resource() -> None:
"""Load a table incrementally based on created_at timestamp."""
pipeline = dlt.pipeline(
pipeline_name="mysql_databasecdc",
destination='bigquery',
dataset_name="dlt_contacts",
)
# Load table "contact", incrementally starting at a given timestamp
source = sql_database().with_resources("contact")
source.contact.apply_hints(incremental=dlt.sources.incremental(
"created_at", initial_value=datetime(2024, 4, 1, 0, 0, 0)))
# Run the pipeline
info = pipeline.run(source, write_disposition="append")
# Print the info
print(info)
load_incremental_timestamp_table_resource()After running the
dlt
pipeline, the data loaded into BigQuery "contact" table looks like:Row id name created_at _dlt_load_id _dlt_id 1 1 Alice 2024-07-01 00:00:00 UTC 1721878309.021546 5H8ca6C89umxHA 2 2 Bob 2024-07-02 00:00:00 UTC 1721878309.021546 M61j4aOSqs4k2w Next, the "contact" table in the SQL source is updated—two new rows are added, and the row with
id = 2
is removed. The updated data source now presents itself as follows:id name created_at 1 Alice 2024-07-01 00:00:00 3 Charlie 2024-07-03 00:00:00 4 Dave 2024-07-04 00:00:00 The "contact" table created in BigQuery after running the pipeline again:
Row id name created_at _dlt_load_id _dlt_id 1 1 Alice 2024-07-01 00:00:00 UTC 1721878309.021546 Petj6R+B/63sWA 2 2 Bob 2024-07-02 00:00:00 UTC 1721878309.021546 3Rr3VmY+av+Amw 3 3 Charlie 2024-07-03 00:00:00 UTC 1721878309.021546 L/MnhG19xeMrvQ 4 4 Dave 2024-07-04 00:00:00 UTC 1721878309.021546 W6ZdfvTzfRXlsA
What happened?
The pipeline adds new records (Charlie and Dave) that have a created_at
timestamp after the specified initial value while
retaining the existing data (Alice and Bob). This approach is useful for loading data incrementally based on when it was created.
4. Merge (Update/Insert) records based on timestamp ("last_modified_at") and ID
This strategy merges records based on a composite key of ID and a timestamp field. It updates existing records and inserts new ones as necessary.
Here’s a walkthrough:
The initial dataset, named ‘contact’, in the SQL source looks like this:
id name last_modified_at 1 Alice 2024-07-01 00:00:00 2 Bob 2024-07-02 00:00:00 The Python code illustrates the process of loading data from an SQL source into BigQuery using the
dlt
pipeline Please note thewrite_disposition = "merge"
, withlast_modified_at
being used as the incremental parameter.def load_merge_table_resource() -> None:
"""Merge (update/insert) records based on last_modified_at timestamp and ID."""
pipeline = dlt.pipeline(
pipeline_name="mysql_database",
destination='bigquery',
dataset_name="dlt_contacts",
)
# Merge records, 'contact' table, based on ID and last_modified_at timestamp
source = sql_database().with_resources("contact")
source.contact.apply_hints(incremental=dlt.sources.incremental(
"last_modified_at", initial_value=datetime(2024, 4, 1, 0, 0, 0)),
primary_key="id")
# Run the pipeline
info = pipeline.run(source, write_disposition="merge")
# Print the info
print(info)
load_merge_table_resource()After running the
dlt
pipeline, the data loaded into BigQuery ‘contact’ table looks like:Row id name last_modified_at _dlt_load_id _dlt_id 1 1 Alice 2024-07-01 00:00:00 UTC 1721878309.021546 ObbVlxcly3VknQ 2 2 Bob 2024-07-02 00:00:00 UTC 1721878309.021546 Vrlkus/haaKlEg Next, the "contact" table in the SQL source is updated— “Alice” is updated to “Alice Updated”, and a new row “Hank” is added:
id name last_modified_at 1 Alice Updated 2024-07-08 00:00:00 3 Hank 2024-07-08 00:00:00 The "contact" table created in BigQuery after running the pipeline again:
Row id name last_modified_at _dlt_load_id _dlt_id 1 2 Bob 2024-07-02 00:00:00 UTC 1721878309.021546 Cm+AcDZLqXSDHQ 2 1 Alice Updated 2024-07-08 00:00:00 UTC 1721878309.021546 OeMLIPw7rwFG7g 3 3 Hank 2024-07-08 00:00:00 UTC 1721878309.021546 Ttp6AI2JxqffpA
What happened?
The pipeline updates the record for Alice with the new data, including the updated last_modified_at
timestamp, and adds a
new record for Hank. This method is beneficial when you need to ensure that records are both updated and inserted based on a
specific timestamp and ID.
The examples provided explain how to use dlt
to achieve different incremental loading scenarios, highlighting the changes
before and after running each pipeline.