This library provides an integration with the Snowflake data warehouse and Pandas data processing library.
To use this library, you should first ensure that you have an appropriate Snowflake user configured to access your data warehouse.
Related Guides:
Name of the database to use.
Your Snowflake account name. For more details, see the Snowflake documentation.
User login name.
Name of the schema to use.
Default Value: None
User password.
Default Value: None
Name of the warehouse to use.
Default Value: None
Name of the role to use.
Default Value: None
Raw private key to use. See the Snowflake documentation for details. To avoid issues with newlines in the keys, you can base64 encode the key. You can retrieve the base64 encoded key with this shell command: cat rsa_key.p8 | base64
Default Value: None
Path to the private key. See the Snowflake documentation for details.
Default Value: None
The password of the private key. See the Snowflake documentation for details. Required for both private_key and private_key_path if the private key is encrypted. For unencrypted keys, this config can be omitted or set to None.
Default Value: None
If using Pandas DataFrames, whether to convert time data to strings. If True, time data will be converted to strings when storing the DataFrame and converted back to time data when loading the DataFrame. If False, time data without a timezone will be set to UTC timezone to avoid a Snowflake bug. Defaults to False.
Default Value: False
Optional parameter to specify the authentication mechanism to use.
Default Value: None
An I/O manager definition that reads inputs from and writes Pandas DataFrames to Snowflake. When using the SnowflakePandasIOManager, any inputs and outputs without type annotations will be loaded as Pandas DataFrames.
IOManagerDefinition
Examples
from dagster_snowflake_pandas import SnowflakePandasIOManager
from dagster import asset, Definitions, EnvVar
@asset(
key_prefix=["my_schema"] # will be used as the schema in snowflake
)
def my_table() -> pd.DataFrame: # the name of the asset will be the table name
...
defs = Definitions(
assets=[my_table],
resources={
"io_manager": SnowflakePandasIOManager(database="MY_DATABASE", account=EnvVar("SNOWFLAKE_ACCOUNT"), ...)
}
)
You can set a default schema to store the assets using the schema
configuration value of the Snowflake I/O
Manager. This schema will be used if no other schema is specified directly on an asset or op.
defs = Definitions(
assets=[my_table]
resources={
"io_manager" SnowflakePandasIOManager(database="my_database", schema="my_schema", ...)
}
)
On individual assets, you an also specify the schema where they should be stored using metadata or
by adding a key_prefix
to the asset key. If both key_prefix
and metadata are defined, the metadata will
take precedence.
@asset(
key_prefix=["my_schema"] # will be used as the schema in snowflake
)
def my_table() -> pd.DataFrame:
...
@asset(
metadata={"schema": "my_schema"} # will be used as the schema in snowflake
)
def my_other_table() -> pd.DataFrame:
...
For ops, the schema can be specified by including a “schema” entry in output metadata.
@op(
out={"my_table": Out(metadata={"schema": "my_schema"})}
)
def make_my_table() -> pd.DataFrame:
...
If none of these is provided, the schema will default to “public”.
To only use specific columns of a table as input to a downstream op or asset, add the metadata “columns” to the In or AssetIn.
@asset(
ins={"my_table": AssetIn("my_table", metadata={"columns": ["a"]})}
)
def my_table_a(my_table: pd.DataFrame) -> pd.DataFrame:
# my_table will just contain the data from column "a"
...
Plugin for the Snowflake I/O Manager that can store and load Pandas DataFrames as Snowflake tables.
Examples
from dagster_snowflake import SnowflakeIOManager
from dagster_snowflake_pandas import SnowflakePandasTypeHandler
from dagster_snowflake_pyspark import SnowflakePySparkTypeHandler
from dagster import Definitions, EnvVar
class MySnowflakeIOManager(SnowflakeIOManager):
@staticmethod
def type_handlers() -> Sequence[DbTypeHandler]:
return [SnowflakePandasTypeHandler(), SnowflakePySparkTypeHandler()]
@asset(
key_prefix=["my_schema"] # will be used as the schema in snowflake
)
def my_table() -> pd.DataFrame: # the name of the asset will be the table name
...
defs = Definitions(
assets=[my_table],
resources={
"io_manager": MySnowflakeIOManager(database="MY_DATABASE", account=EnvVar("SNOWFLAKE_ACCOUNT"), ...)
}
)
Name of the database to use.
Your Snowflake account name. For more details, see the Snowflake documentation.
User login name.
Name of the schema to use.
Default Value: None
User password.
Default Value: None
Name of the warehouse to use.
Default Value: None
Name of the role to use.
Default Value: None
Raw private key to use. See the Snowflake documentation for details. To avoid issues with newlines in the keys, you can base64 encode the key. You can retrieve the base64 encoded key with this shell command: cat rsa_key.p8 | base64
Default Value: None
Path to the private key. See the Snowflake documentation for details.
Default Value: None
The password of the private key. See the Snowflake documentation for details. Required for both private_key and private_key_path if the private key is encrypted. For unencrypted keys, this config can be omitted or set to None.
Default Value: None
If using Pandas DataFrames, whether to convert time data to strings. If True, time data will be converted to strings when storing the DataFrame and converted back to time data when loading the DataFrame. If False, time data without a timezone will be set to UTC timezone to avoid a Snowflake bug. Defaults to False.
Default Value: False
Optional parameter to specify the authentication mechanism to use.
Default Value: None
An I/O manager definition that reads inputs from and writes Pandas DataFrames to Snowflake. When using the snowflake_pandas_io_manager, any inputs and outputs without type annotations will be loaded as Pandas DataFrames.
IOManagerDefinition
Examples
from dagster_snowflake_pandas import snowflake_pandas_io_manager
from dagster import asset, Definitions
@asset(
key_prefix=["my_schema"] # will be used as the schema in snowflake
)
def my_table() -> pd.DataFrame: # the name of the asset will be the table name
...
defs = Definitions(
assets=[my_table],
resources={
"io_manager": snowflake_pandas_io_manager.configured({
"database": "my_database",
"account" : {"env": "SNOWFLAKE_ACCOUNT"}
...
})
}
)
You can set a default schema to store the assets using the schema
configuration value of the Snowflake I/O
Manager. This schema will be used if no other schema is specified directly on an asset or op.
defs = Definitions(
assets=[my_table]
resources={"io_manager" snowflake_pandas_io_manager.configured(
{"database": "my_database", "schema": "my_schema", ...} # will be used as the schema
)}
)
On individual assets, you an also specify the schema where they should be stored using metadata or
by adding a key_prefix
to the asset key. If both key_prefix
and metadata are defined, the metadata will
take precedence.
@asset(
key_prefix=["my_schema"] # will be used as the schema in snowflake
)
def my_table() -> pd.DataFrame:
...
@asset(
metadata={"schema": "my_schema"} # will be used as the schema in snowflake
)
def my_other_table() -> pd.DataFrame:
...
For ops, the schema can be specified by including a “schema” entry in output metadata.
@op(
out={"my_table": Out(metadata={"schema": "my_schema"})}
)
def make_my_table() -> pd.DataFrame:
...
If none of these is provided, the schema will default to “public”.
To only use specific columns of a table as input to a downstream op or asset, add the metadata “columns” to the In or AssetIn.
@asset(
ins={"my_table": AssetIn("my_table", metadata={"columns": ["a"]})}
)
def my_table_a(my_table: pd.DataFrame) -> pd.DataFrame:
# my_table will just contain the data from column "a"
...