This is an advanced topic that assumes that the reader has a solid knowledge of LookML and persistent derived tables (PDTs). To start learning about LookML, see the Get ready for development documentation page. To learn more about PDTs, see the Derived tables in Looker documentation page.
Usage
view: my_view { derived_table: { publish_as_db_view: yes ... } }
Hierarchy
publish_as_db_view |
Default Value
no
Accepts
A Boolean (yes or no )
Special Rules
|
Definition
The
publish_as_db_view
parameter is supported only for PDTs that use datagroup orsql_trigger_value
caching. PDTs usingpersist_for
aren't supported.In addition, the account that Looker uses to connect to your database must have
CREATE VIEW
permissions for the temporary schema on your database. See the The database connection must haveCREATE VIEW
permissions section on this page for more information.
The publish_as_db_view
parameter lets you flag a PDT for querying outside of Looker. For PDTs with publish_as_db_view
set to yes
, Looker creates a stable database view on the database for the PDT. The stable database view is created on the database itself, so that it can be queried outside of Looker. The concept of a stable database view is different from a LookML view, since LookML views exist on your Looker instance and not in your database itself.
The stable database view will be published (created) on the next cycle of the Looker regenerator after the PDT's LookML is deployed to production with publish_as_db_view: yes
.
Once Looker creates the stable database view on the database, the PDT must be built before you can query the stable database view on the database.
Example
Create the e_flights_pdt
PDT for which a stable database view is created on the database:
view: e_flights_pdt {
derived_table: {
publish_as_db_view: yes
datagroup_trigger: e_flights_default_datagroup
explore_source: ontime {
timezone: "America/Los_Angeles"
column: flight_num {}
column: carrier {}
column: arr_date {}
}
}
dimension: flight_num {}
dimension: carrier {}
dimension: arr_date {
type: date
}
}
The stable database view for e_flights_pdt
will be published on the next cycle of the Looker regenerator after the PDT's LookML is deployed to production. Once Looker builds the PDT, you can then query the stable database view on the database.
Accessing the PDT stable database view
When the stable database view is published, you can query it directly once you get the stable name. There are two ways to get the stable view name for the PDT:
PDT details modal
Admins or users with the see_pdts
permission can get the stable database view name from the PDT Details modal on the Persistent Derived Tables page in the Admin section of Looker.
To query this table directly, add the scratch schema name before the table name. For example, if the scratch schema name is tmp
, you can query the stable database view with a command like this:
SELECT * from tmp.CL_e_redlook_e_redlook_inc_pdt
SQL tab of an Explore
If you don't have access to the Persistent Derived Tables admin page, you can use information given on the SQL tab of an Explore to determine the stable view name. The stable view name uses this format:
[scratch schema name].[connection registration key]_[model_name]_[view_name]
For example, if you have a PDT in the model named faa
and a view named e_flights_pdt
, you only need the scratch schema name and the connection registration key. You can find both from the SQL tab in the Data section of a query on the PDT. In the CREATE TABLE
or FROM
statement in the SQL tab:
- The connection registration key is two characters; depending on your database dialect, it will follow either a dollar sign or the first underscore in the PDT's table name.
- The scratch schema name is the beginning of the string following
CREATE TABLE
orFROM
, before the ".
"
In all the following example queries, the connection registration key is LB
, and the scratch schema name is tmp
.
Here is an example Looker-generated SQL query with a CREATE TABLE
statement for a dialect that uses a dollar sign before the connection registration key. The view name is e_flights_pdt
, and the generated derived table name is tmp.LR$LBC5Q1576702903774_e_flights_pdt
.
generate derived table e_flights_pdt
Building e_flight::e_flights_pdt in dev mode on instance b6ff28049851f1954156526c66ca9912
CREATE TABLE tmp.LR$LBC5Q1576702903774_e_flights_pdt (INDEX(flight_num)) SELECT
ontime.flight_num AS `flight_num`
ontime.carrier AS `carrier,
(TIMESTAMP(DATE (CONVERT_TZ(ontime.arr_time, 'UTC', 'America/Los_Angeles')))) AS
`arr_date``
FROM `flightstats`.`ontime` AS `ontime`
GROUP BY
1,
2,
3
-- finished e_flights_pdt => tmp.LR$LBC5Q1576702903774_e_flights_pdt
SELECT
e_flights_pdt.flight_num AS `e_flights_pdt.flight_num`,
e_flights_pdt.carrier AS `e_flights_pdt.carrier`
FROM tmp.LR$LBC5Q1576702903774_e_flights_pdt AS e_flights_pdt
GROUP BY
1,
2
ORDER BY
e_flights_pdt.flight_num
LIMIT 5
Here is an example Looker-generated SQL query with a FROM
statement for a dialect that uses an underscore sign before the connection registration key. The view name is e_flights_pdt
, and the generated derived table name is tmp.LR_LBFIM1580333699953_e_flights_pdt
.
--use existing e flights pdt in tmp.LR_LBFIM1580333699953_e_flights_pdt
SELECT
e_flights_pdt.id AS `e_flights_pdt.id`,
DATE(e_flights_pdt.faa_event_date) AS `e_flights_pdt. faa_event_date`
FROM tmp.LR_LBFIM1580333699953_e_flights_pdt AS e_flights_pdt
GROUP BY 1,2
ORDER BY DATE(e_flights_pdt.faa_event_date) DESC
LIMIT 5
Again, the stable database view has the following format:
[scratch schema name].[connection registration key]_[model_name]_[view_name]
Here are all the values:
[scratch schema name]
istmp
[connection registration key]
isLB
[model_name]
isfaa
[view_name]
ise_flights_pdt
This, then, is the PDT's stable database view name:
tmp.LB_faa_e_flights_pdt
Once you have the stable database view name, you can query it directly. For example:
SELECT * from tmp.LB_faa_e_flights_pdt
Things to consider
Some dialects require additional syntax
If the connection registration key begins with a number, some dialects require double quotes, backticks, brackets, or similar syntax around the second part of the stable database view name. For example, Amazon Redshift requires double quotes; so, if your connection registration key begins with a number, this would be the format:
[scratch schema name]."[connection registration key]_[model_name]_[view_name]"
For example, if the connection registration key is 84
, you would put quotes around the second part of the stable table name, after the period. So your queries to the database would look something like this:
SELECT * from tmp."84_faa_e_flights_pdt"
Consult the documentation for your dialect for information on the specific syntax required.
The database connection must have CREATE VIEW
permissions
To create a view on your database, the account that Looker uses to connect to your database must have CREATE VIEW
permissions for the database's temporary schema.
The database username, password, and temporary schema are configured when you connect Looker to your database.
You can test your connection to see if stable view names are supported for your connection. If your dialect supports stable view names and if PDTs are enabled on the connection, Looker will test the connection to see if it will allow stable views:
- If the connection allows stable views, the connection test will return a result such as
Can use stable views in temp schema "docsexamples_scratch" in database "flightstats"
. - If the connection doesn't allow stable views, the connection test will return a result such as
Cannot use stable views in temp schema "docsexamples" in database "flightstats"
, along with further details such asCREATE VIEW command denied to user 'docsexamples'
.
Dialect support for the PDT stable database view
The ability to create a PDT stable database view depends on the database dialect your Looker connection is using. In the latest release of Looker, the following dialects support the PDT stable database view:
Dialect | Supported? |
---|---|
Actian Avalanche | Yes |
Amazon Athena | Yes |
Amazon Aurora MySQL | Yes |
Amazon Redshift | Yes |
Apache Druid | No |
Apache Druid 0.13+ | No |
Apache Druid 0.18+ | No |
Apache Hive 2.3+ | Yes |
Apache Hive 3.1.2+ | Yes |
Apache Spark 3+ | Yes |
ClickHouse | No |
Cloudera Impala 3.1+ | Yes |
Cloudera Impala 3.1+ with Native Driver | Yes |
Cloudera Impala with Native Driver | Yes |
DataVirtuality | No |
Databricks | Yes |
Denodo 7 | No |
Denodo 8 | No |
Dremio | No |
Dremio 11+ | No |
Exasol | Yes |
Firebolt | No |
Google BigQuery Legacy SQL | No |
Google BigQuery Standard SQL | Yes |
Google Cloud PostgreSQL | Yes |
Google Cloud SQL | No |
Google Spanner | No |
Greenplum | Yes |
HyperSQL | No |
IBM Netezza | No |
MariaDB | Yes |
Microsoft Azure PostgreSQL | Yes |
Microsoft Azure SQL Database | Yes |
Microsoft Azure Synapse Analytics | Yes |
Microsoft SQL Server 2008+ | Yes |
Microsoft SQL Server 2012+ | Yes |
Microsoft SQL Server 2016 | Yes |
Microsoft SQL Server 2017+ | Yes |
MongoBI | No |
MySQL | Yes |
MySQL 8.0.12+ | Yes |
Oracle | Yes |
Oracle ADWC | No |
PostgreSQL 9.5+ | Yes |
PostgreSQL pre-9.5 | Yes |
PrestoDB | Yes |
PrestoSQL | No |
SAP HANA 2+ | Yes |
SingleStore | Yes |
SingleStore 7+ | Yes |
Snowflake | Yes |
Teradata | Yes |
Trino | No |
Vector | Yes |
Vertica | Yes |