Ktorm not only provides SQL DSL for query and joining, but it also supports data manipulation conveniently. Let’s talk about its DML DSL now. Insert

Ktorm uses an extension function insert of Database class to support data insertion, the signature of which is given as follows:

fun <T : BaseTable<*>> Database.insert(table: T, block: AssignmentsBuilder.(T) -> Unit): Int

The function accepts a closure as its parameter in which we configure our insertion columns and values. After the insertion completes, an int number of affected records will be returned. Usage:

database.insert(Employees) { set(it.name, "jerry") set(it.job, "trainee") set(it.managerId, 1) set(it.hireDate, LocalDate.now()) set(it.salary, 50) set(it.departmentId, 1) }

Generated SQL:

insert into t_employee (name, job, manager_id, hire_date, salary, department_id) values (?, ?, ?, ?, ?, ?)

Here, we use set(it.name, "jerry") to set the name to jerry in the closure, do you know how it works?

It can be seen that the type of the closure is AssignmentsBuilder.(T) -> Unit, which is a function that accepts a parameter T, the table object specified by the first parameter of insert, that’s why we can use it to access the current table and its columns in the closure. Moreover, the closure is also an extension function of AssignmentsBuilder, so in the scope of the closure, this reference is changed to an AssignmentsBuilder instance, that’s why we can call its member function set there.

Sometimes we may use auto-increment keys in our tables, we may need to obtain the auto-generated keys from databases after records are inserted. This time we can use insertAndGenerateKey function, the usage of which is similar to insert, but differently, it doesn’t return the affected record numbers anymore, but returns the auto-generated keys instead.

val id = database.insertAndGenerateKey(Employees) { set(it.name, "jerry") set(it.job, "trainee") set(it.managerId, 1) set(it.hireDate, LocalDate.now()) set(it.salary, 50) set(it.departmentId, 1) }

Sometimes we may need to insert a large number of records in one time, and the performance of calling insert function in a loop may be intolerable. Ktorm provides a batchInsert function that can improve the performance of batch insertion, it’s implemented based on executeBatch of JDBC.

database.batchInsert(Employees) { item { set(it.name, "jerry") set(it.job, "trainee") set(it.managerId, 1) set(it.hireDate, LocalDate.now()) set(it.salary, 50) set(it.departmentId, 1) } item { set(it.name, "linda") set(it.job, "assistant") set(it.managerId, 3) set(it.hireDate, LocalDate.now()) set(it.salary, 100) set(it.departmentId, 2) } }

The batchInsert function also accepts a closure as its parameter, the type of which is BatchInsertStatementBluilder.() -> Unit, an extension function of BatchInsertStatementBuilder. The item is actually a member function in BatchInsertStatementBuilder, we use this function to configure every record of the batch insertion. After the batch insertion completes, an IntArray will be returned, that’s the affected record numbers of each sub-operation.

Sometimes, we may need to transfer data from a table to another one. Ktorm also provides an insertTo function, that’s an extension function of Query class, used to insert the query’s results into a specific table. Comparing to obtaining query results first and insert them via batchInsert, the insertTo function just execute one SQL, the performance is much better.

database .from(Departments) .select(Departments.name, Departments.location) .where { Departments.id eq 1 } .insertTo(Departments, Departments.name, Departments.location)

Generated SQL:

insert into t_department (name, location) select t_department.name as t_department_name, t_department.location as t_department_location from t_department where t_department.id = ?

Update

Ktorm uses an extension function update of Database class to support data update, the signature of which is given as follows:

fun <T : BaseTable<*>> Database.update(table: T, block: UpdateStatementBuilder.(T) -> Unit): Int

Similar to the insert function, it also accepts a closure as its parameter and returns the affected record number after the update completes. The closure’s type is UpdateStatementBuilder.(T) -> Unit, in which UpdateStatementBuilder is a subclass of AssignmentsBuilder, so we can still use set(it.name, "jerry") to set the name to jerry. Differently, UpdateStatementBuilder provides an additional function where, that’s used to specify our update conditions. Usage:

database.update(Employees) { set(it.job, "engineer") set(it.managerId, null) set(it.salary, 100) where { it.id eq 2 } }

Generated SQL:

update t_employee set job = ?, manager_id = ?, salary = ? where id = ?

It is worth mentioning that we can not only use a column value as the second argument of the set function, but an expression is also OK. It means that a column can be updated to a specific value or a result of any complex expressions. We can use this feature to do something special, for instance, increasing someone’s salary:

database.update(Employees) { set(it.salary, it.salary + 100) where { it.id eq 1 } }

Generated SQL:

update t_employee set salary = salary + ? where id = ?

Sometimes we may need to execute a large number of updates in one time, and the performance of calling update function in a loop may be intolerable. This time, we can use batchUpdate function, that can improve the performance of batch updates. Similar to batchInsert function, it’s also implemented based on executeBatch of JDBC. The operation below shows how to use batchUpdate to update specific departments’ location to “Hong Kong”. We can see that the usage is similar to batchInsert, the only difference is we need to specify the update conditions by where function.

database.batchUpdate(Departments) { for (i in 1..2) { item { set(it.location, "Hong Kong") where { it.id eq i } } } }

Delete

Ktorm uses an extension function delete of Database class to support data deletion, the signature of which is given as follows:

fun <T : BaseTable<*>> Database.delete(table: T, predicate: (T) -> ColumnDeclaring): Int

The delete function accepts a closure as its parameter, in which we need to specify our conditions. After the deletion completes, the affected record number will be returned. The closure accepts a parameter of type T, which is actually the current table object, so we can use it to access the current table in the closure. The usage is very simple:

database.delete(Employees)

This line of code will delete the employee whose id is 4.