Create and use own naming convention
info
The source code for this example can be found in our repository at: https://github.com/dlt-hub/dlt/tree/devel/docs/examples/custom_naming
About this Example
This example shows how to add and use custom naming convention. Naming conventions translate identifiers found in source data into identifiers in destination, where rules for a valid identifier are constrained.
Custom naming conventions are classes that derive from NamingConvention
that you can import from dlt.common.normalizers.naming
. We recommend the following module layout:
- Each naming convention resides in a separate Python module (file)
- The class is always named
NamingConvention
There are two naming conventions in this example:
- A variant of
sql_ci
that generates identifier collisions with a low (user defined) probability by appending a deterministic tag to each name. - A variant of
sql_cs
that allows for LATIN (ie. umlaut) characters
With this example you will learn to:
- Create a naming convention module with a recommended layout
- Use naming convention by explicitly passing it to
duckdb
destination factory - Use naming convention by configuring it config.toml
- Changing the declared case sensitivity by overriding
is_case_sensitive
property - Providing custom normalization logic by overriding
normalize_identifier
method
Full source code
import dlt
if __name__ == "__main__":
# sql_cs_latin2 module
import sql_cs_latin2 # type: ignore[import-not-found]
# create postgres destination with a custom naming convention. pass sql_cs_latin2 as module
# NOTE: ql_cs_latin2 is case sensitive and postgres accepts UNICODE letters in identifiers
dest_ = dlt.destinations.postgres(
"postgresql://loader:loader@localhost:5432/dlt_data", naming_convention=sql_cs_latin2
)
# run a pipeline
pipeline = dlt.pipeline(
pipeline_name="sql_cs_latin2_pipeline",
destination=dest_,
dataset_name="example_data",
dev_mode=True,
)
# Extract, normalize, and load the data
load_info = pipeline.run([{"StückId": 1}], table_name="Ausrüstung")
print(load_info)
with pipeline.sql_client() as client:
# NOTE: we quote case sensitive identifers
with client.execute_query('SELECT "StückId" FROM "Ausrüstung"') as cur:
print(cur.description)
print(cur.fetchone())
# sql_ci_no_collision (configured in config toml)
# NOTE: pipeline with name `sql_ci_no_collision` will create default schema with the same name
# so we are free to use it in config.toml to just affect this pipeline and leave the postgres pipeline as it is
pipeline = dlt.pipeline(
pipeline_name="sql_ci_no_collision",
destination="duckdb",
dataset_name="example_data",
dev_mode=True,
)
# duckdb is case insensitive so tables and columns below would clash but sql_ci_no_collision prevents that
data_1 = {"ItemID": 1, "itemid": "collides"}
load_info = pipeline.run([data_1], table_name="BigData")
data_2 = {"1Data": 1, "_1data": "collides"}
# use colliding table
load_info = pipeline.run([data_2], table_name="bigdata")
with pipeline.sql_client() as client:
from duckdb import DuckDBPyConnection
conn: DuckDBPyConnection = client.native_connection
# tags are deterministic so we can just use the naming convention to get table names to select
first_table = pipeline.default_schema.naming.normalize_table_identifier("BigData")
sql = f"DESCRIBE TABLE {first_table}"
print(sql)
print(conn.sql(sql))
second_table = pipeline.default_schema.naming.normalize_table_identifier("bigdata")
sql = f"DESCRIBE TABLE {second_table}"
print(sql)
print(conn.sql(sql))
# print(pipeline.default_schema.to_pretty_yaml())