- Documentation
- Reference manual
- Packages
- Constraint Query Language A high level interface to SQL databases
- library(cql/cql): CQL - Constraint Query Language
- CQL Examples
- CQL Simple INSERT
- CQL Simple INSERT with retrieval of identity of the inserted
- CQL Simple DELETE
- CQL Simple SELECT
- CQL Simple UPDATE
- CQL WHERE with arithmetic comparison
- CQL Simple INNER JOIN
- CQL Arithmetic UPDATE with an INNER JOIN and a WHERE restriction
- CQL: Confirm row does not exist
- CQL: Aggregation - Count
- CQL: Aggregation - Sum
- CQL: Aggregation - Average
- CQL: Maximum Value
- CQL: Minimum Value
- CQL: Aggregation requiring GROUP BY
- CQL: INNER JOIN with an aggregation sub-query where the sub-query is constrained by a shared variable from the main query
- CQL: INNER JOIN in an aggregation sub-query
- CQL: Negation
- CQL: EXISTS
- CQL: Left Outer Join
- CQL: List-based Restrictions
- CQL: Compile time in-list constraint
- CQL: Disjunction resulting in OR in WHERE clause
- CQL: Disjunction resulting in different joins (implemented as a SQL UNION)
- CQL: Disjunction resulting in different SELECT attributes (implemented as separate ODBC queries)
- CQL: ORDER BY
- CQL: DISTINCT
- CQL: SELECT with NOT NULL restriction
- CQL: First N
- CQL: Self JOIN
- CQL: Removing null comparisions
- CQL: Three table JOIN
- CQL: Three table JOIN with NOLOCK locking hint
- CQL: SELECT with LIKE
- CQL: Writing exceptions directly to the database
- CQL: TOP N is Parametric
- CQL: Using compile_time_goal/1
- CQL: ON
- CQL: Expressions In Where Restrictions
- CQL: Explicitly avoid the "No WHERE restriction" message
- CQL: HAVING
- CQL: INSERT and UPDATE value in-line formatting
- CQL: Negations in WHERE Clauses
- CQL: Predicate-generated Attribute Values
- CQL: INSERT from SELECT
- CQL Examples
- library(cql/cql): CQL - Constraint Query Language
- Constraint Query Language A high level interface to SQL databases
1.7.45 CQL: INSERT from SELECT
INSERT from SELECT is supported:
Constant = 'MIKE',
{[],
insert(se_lt_x1, [x_pk-Pk, a-A, b-B, c-C, d-Constant]),
se_lt_x :: [x_pk-Pk, a-A, b-B, c-C, as(d)-Constant]}
which generates the following SQL:
INSERT INTO se_lt_x1 (x_pk, a, b, c, d) SELECT se_lt_x_955.x_pk, se_lt_x_955.a, se_lt_x_955.b, se_lt_x_955.c, ? AS d FROM se_lt_x lt_x_955
Note the use of the as(d) construct in the SELECT part
of the CQL to make the constant ’MIKE' appear to come from
the SELECT thus setting
lt_x1.d to ’MIKE' in every row inserted.