kysely
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Type safe SQL query builder
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JavaScript
/// <reference types="./update-query-builder.d.ts" />
import { parseJoin, } from '../parser/join-parser.js';
import { parseTableExpressionOrList, } from '../parser/table-parser.js';
import { parseSelectArg, parseSelectAll, } from '../parser/select-parser.js';
import { QueryNode } from '../operation-node/query-node.js';
import { UpdateQueryNode } from '../operation-node/update-query-node.js';
import { parseUpdate, } from '../parser/update-set-parser.js';
import { freeze } from '../util/object-utils.js';
import { UpdateResult } from './update-result.js';
import { isNoResultErrorConstructor, NoResultError, } from './no-result-error.js';
import { parseReferentialBinaryOperation, parseValueBinaryOperationOrExpression, } from '../parser/binary-operation-parser.js';
import { parseValueExpression, } from '../parser/value-parser.js';
import { LimitNode } from '../operation-node/limit-node.js';
import { parseTop } from '../parser/top-parser.js';
import { parseOrderBy, } from '../parser/order-by-parser.js';
export class UpdateQueryBuilder {
#props;
constructor(props) {
this.#props = freeze(props);
}
where(...args) {
return new UpdateQueryBuilder({
...this.#props,
queryNode: QueryNode.cloneWithWhere(this.#props.queryNode, parseValueBinaryOperationOrExpression(args)),
});
}
whereRef(lhs, op, rhs) {
return new UpdateQueryBuilder({
...this.#props,
queryNode: QueryNode.cloneWithWhere(this.#props.queryNode, parseReferentialBinaryOperation(lhs, op, rhs)),
});
}
clearWhere() {
return new UpdateQueryBuilder({
...this.#props,
queryNode: QueryNode.cloneWithoutWhere(this.#props.queryNode),
});
}
/**
* Changes an `update` query into a `update top` query.
*
* `top` clause is only supported by some dialects like MS SQL Server.
*
* ### Examples
*
* Update the first row:
*
* ```ts
* await db.updateTable('person')
* .top(1)
* .set({ first_name: 'Foo' })
* .where('age', '>', 18)
* .executeTakeFirstOrThrow()
* ```
*
* The generated SQL (MS SQL Server):
*
* ```sql
* update top(1) "person" set "first_name" = @1 where "age" > @2
* ```
*
* Update the 50% first rows:
*
* ```ts
* await db.updateTable('person')
* .top(50, 'percent')
* .set({ first_name: 'Foo' })
* .where('age', '>', 18)
* .executeTakeFirstOrThrow()
* ```
*
* The generated SQL (MS SQL Server):
*
* ```sql
* update top(50) percent "person" set "first_name" = @1 where "age" > @2
* ```
*/
top(expression, modifiers) {
return new UpdateQueryBuilder({
...this.#props,
queryNode: QueryNode.cloneWithTop(this.#props.queryNode, parseTop(expression, modifiers)),
});
}
from(from) {
return new UpdateQueryBuilder({
...this.#props,
queryNode: UpdateQueryNode.cloneWithFromItems(this.#props.queryNode, parseTableExpressionOrList(from)),
});
}
innerJoin(...args) {
return this.#join('InnerJoin', args);
}
leftJoin(...args) {
return this.#join('LeftJoin', args);
}
rightJoin(...args) {
return this.#join('RightJoin', args);
}
fullJoin(...args) {
return this.#join('FullJoin', args);
}
#join(joinType, args) {
return new UpdateQueryBuilder({
...this.#props,
queryNode: QueryNode.cloneWithJoin(this.#props.queryNode, parseJoin(joinType, args)),
});
}
orderBy(...args) {
return new UpdateQueryBuilder({
...this.#props,
queryNode: QueryNode.cloneWithOrderByItems(this.#props.queryNode, parseOrderBy(args)),
});
}
clearOrderBy() {
return new UpdateQueryBuilder({
...this.#props,
queryNode: QueryNode.cloneWithoutOrderBy(this.#props.queryNode),
});
}
/**
* Adds a limit clause to the update query for supported databases, such as MySQL.
*
* ### Examples
*
* Update the first 2 rows in the 'person' table:
*
* ```ts
* await db
* .updateTable('person')
* .set({ first_name: 'Foo' })
* .limit(2)
* .execute()
* ```
*
* The generated SQL (MySQL):
*
* ```sql
* update `person` set `first_name` = ? limit ?
* ```
*/
limit(limit) {
return new UpdateQueryBuilder({
...this.#props,
queryNode: UpdateQueryNode.cloneWithLimit(this.#props.queryNode, LimitNode.create(parseValueExpression(limit))),
});
}
set(...args) {
return new UpdateQueryBuilder({
...this.#props,
queryNode: UpdateQueryNode.cloneWithUpdates(this.#props.queryNode, parseUpdate(...args)),
});
}
returning(selection) {
return new UpdateQueryBuilder({
...this.#props,
queryNode: QueryNode.cloneWithReturning(this.#props.queryNode, parseSelectArg(selection)),
});
}
returningAll(table) {
return new UpdateQueryBuilder({
...this.#props,
queryNode: QueryNode.cloneWithReturning(this.#props.queryNode, parseSelectAll(table)),
});
}
output(args) {
return new UpdateQueryBuilder({
...this.#props,
queryNode: QueryNode.cloneWithOutput(this.#props.queryNode, parseSelectArg(args)),
});
}
outputAll(table) {
return new UpdateQueryBuilder({
...this.#props,
queryNode: QueryNode.cloneWithOutput(this.#props.queryNode, parseSelectAll(table)),
});
}
/**
* This can be used to add any additional SQL to the end of the query.
*
* ### Examples
*
* ```ts
* import { sql } from 'kysely'
*
* await db.updateTable('person')
* .set({ age: 39 })
* .where('first_name', '=', 'John')
* .modifyEnd(sql.raw('-- This is a comment'))
* .execute()
* ```
*
* The generated SQL (MySQL):
*
* ```sql
* update `person`
* set `age` = 39
* where `first_name` = "John" -- This is a comment
* ```
*/
modifyEnd(modifier) {
return new UpdateQueryBuilder({
...this.#props,
queryNode: QueryNode.cloneWithEndModifier(this.#props.queryNode, modifier.toOperationNode()),
});
}
/**
* Clears all `returning` clauses from the query.
*
* ### Examples
*
* ```ts
* db.updateTable('person')
* .returningAll()
* .set({ age: 39 })
* .where('first_name', '=', 'John')
* .clearReturning()
* ```
*
* The generated SQL(PostgreSQL):
*
* ```sql
* update "person" set "age" = 39 where "first_name" = "John"
* ```
*/
clearReturning() {
return new UpdateQueryBuilder({
...this.#props,
queryNode: QueryNode.cloneWithoutReturning(this.#props.queryNode),
});
}
/**
* Simply calls the provided function passing `this` as the only argument. `$call` returns
* what the provided function returns.
*
* If you want to conditionally call a method on `this`, see
* the {@link $if} method.
*
* ### Examples
*
* The next example uses a helper function `log` to log a query:
*
* ```ts
* import type { Compilable } from 'kysely'
* import type { PersonUpdate } from 'type-editor' // imaginary module
*
* function log<T extends Compilable>(qb: T): T {
* console.log(qb.compile())
* return qb
* }
*
* const values = {
* first_name: 'John',
* } satisfies PersonUpdate
*
* db.updateTable('person')
* .set(values)
* .$call(log)
* .execute()
* ```
*/
$call(func) {
return func(this);
}
/**
* Call `func(this)` if `condition` is true.
*
* This method is especially handy with optional selects. Any `returning` or `returningAll`
* method calls add columns as optional fields to the output type when called inside
* the `func` callback. This is because we can't know if those selections were actually
* made before running the code.
*
* You can also call any other methods inside the callback.
*
* ### Examples
*
* ```ts
* import type { PersonUpdate } from 'type-editor' // imaginary module
*
* async function updatePerson(id: number, updates: PersonUpdate, returnLastName: boolean) {
* return await db
* .updateTable('person')
* .set(updates)
* .where('id', '=', id)
* .returning(['id', 'first_name'])
* .$if(returnLastName, (qb) => qb.returning('last_name'))
* .executeTakeFirstOrThrow()
* }
* ```
*
* Any selections added inside the `if` callback will be added as optional fields to the
* output type since we can't know if the selections were actually made before running
* the code. In the example above the return type of the `updatePerson` function is:
*
* ```ts
* Promise<{
* id: number
* first_name: string
* last_name?: string
* }>
* ```
*/
$if(condition, func) {
if (condition) {
return func(this);
}
return new UpdateQueryBuilder({
...this.#props,
});
}
/**
* Change the output type of the query.
*
* This method call doesn't change the SQL in any way. This methods simply
* returns a copy of this `UpdateQueryBuilder` with a new output type.
*/
$castTo() {
return new UpdateQueryBuilder(this.#props);
}
/**
* Narrows (parts of) the output type of the query.
*
* Kysely tries to be as type-safe as possible, but in some cases we have to make
* compromises for better maintainability and compilation performance. At present,
* Kysely doesn't narrow the output type of the query based on {@link set} input
* when using {@link where} and/or {@link returning} or {@link returningAll}.
*
* This utility method is very useful for these situations, as it removes unncessary
* runtime assertion/guard code. Its input type is limited to the output type
* of the query, so you can't add a column that doesn't exist, or change a column's
* type to something that doesn't exist in its union type.
*
* ### Examples
*
* Turn this code:
*
* ```ts
* import type { Person } from 'type-editor' // imaginary module
*
* const id = 1
* const now = new Date().toISOString()
*
* const person = await db.updateTable('person')
* .set({ deleted_at: now })
* .where('id', '=', id)
* .where('nullable_column', 'is not', null)
* .returningAll()
* .executeTakeFirstOrThrow()
*
* if (isWithNoNullValue(person)) {
* functionThatExpectsPersonWithNonNullValue(person)
* }
*
* function isWithNoNullValue(person: Person): person is Person & { nullable_column: string } {
* return person.nullable_column != null
* }
* ```
*
* Into this:
*
* ```ts
* import type { NotNull } from 'kysely'
*
* const id = 1
* const now = new Date().toISOString()
*
* const person = await db.updateTable('person')
* .set({ deleted_at: now })
* .where('id', '=', id)
* .where('nullable_column', 'is not', null)
* .returningAll()
* .$narrowType<{ deleted_at: Date; nullable_column: NotNull }>()
* .executeTakeFirstOrThrow()
*
* functionThatExpectsPersonWithNonNullValue(person)
* ```
*/
$narrowType() {
return new UpdateQueryBuilder(this.#props);
}
/**
* Asserts that query's output row type equals the given type `T`.
*
* This method can be used to simplify excessively complex types to make TypeScript happy
* and much faster.
*
* Kysely uses complex type magic to achieve its type safety. This complexity is sometimes too much
* for TypeScript and you get errors like this:
*
* ```
* error TS2589: Type instantiation is excessively deep and possibly infinite.
* ```
*
* In these case you can often use this method to help TypeScript a little bit. When you use this
* method to assert the output type of a query, Kysely can drop the complex output type that
* consists of multiple nested helper types and replace it with the simple asserted type.
*
* Using this method doesn't reduce type safety at all. You have to pass in a type that is
* structurally equal to the current type.
*
* ### Examples
*
* ```ts
* import type { PersonUpdate, PetUpdate, Species } from 'type-editor' // imaginary module
*
* const person = {
* id: 1,
* gender: 'other',
* } satisfies PersonUpdate
*
* const pet = {
* name: 'Fluffy',
* } satisfies PetUpdate
*
* const result = await db
* .with('updated_person', (qb) => qb
* .updateTable('person')
* .set(person)
* .where('id', '=', person.id)
* .returning('first_name')
* .$assertType<{ first_name: string }>()
* )
* .with('updated_pet', (qb) => qb
* .updateTable('pet')
* .set(pet)
* .where('owner_id', '=', person.id)
* .returning(['name as pet_name', 'species'])
* .$assertType<{ pet_name: string, species: Species }>()
* )
* .selectFrom(['updated_person', 'updated_pet'])
* .selectAll()
* .executeTakeFirstOrThrow()
* ```
*/
$assertType() {
return new UpdateQueryBuilder(this.#props);
}
/**
* Returns a copy of this UpdateQueryBuilder instance with the given plugin installed.
*/
withPlugin(plugin) {
return new UpdateQueryBuilder({
...this.#props,
executor: this.#props.executor.withPlugin(plugin),
});
}
toOperationNode() {
return this.#props.executor.transformQuery(this.#props.queryNode, this.#props.queryId);
}
compile() {
return this.#props.executor.compileQuery(this.toOperationNode(), this.#props.queryId);
}
/**
* Executes the query and returns an array of rows.
*
* Also see the {@link executeTakeFirst} and {@link executeTakeFirstOrThrow} methods.
*/
async execute() {
const compiledQuery = this.compile();
const result = await this.#props.executor.executeQuery(compiledQuery, this.#props.queryId);
const { adapter } = this.#props.executor;
const query = compiledQuery.query;
if ((query.returning && adapter.supportsReturning) ||
(query.output && adapter.supportsOutput)) {
return result.rows;
}
return [
new UpdateResult(result.numAffectedRows ?? BigInt(0), result.numChangedRows),
];
}
/**
* Executes the query and returns the first result or undefined if
* the query returned no result.
*/
async executeTakeFirst() {
const [result] = await this.execute();
return result;
}
/**
* Executes the query and returns the first result or throws if
* the query returned no result.
*
* By default an instance of {@link NoResultError} is thrown, but you can
* provide a custom error class, or callback as the only argument to throw a different
* error.
*/
async executeTakeFirstOrThrow(errorConstructor = NoResultError) {
const result = await this.executeTakeFirst();
if (result === undefined) {
const error = isNoResultErrorConstructor(errorConstructor)
? new errorConstructor(this.toOperationNode())
: errorConstructor(this.toOperationNode());
throw error;
}
return result;
}
async *stream(chunkSize = 100) {
const compiledQuery = this.compile();
const stream = this.#props.executor.stream(compiledQuery, chunkSize, this.#props.queryId);
for await (const item of stream) {
yield* item.rows;
}
}
async explain(format, options) {
const builder = new UpdateQueryBuilder({
...this.#props,
queryNode: QueryNode.cloneWithExplain(this.#props.queryNode, format, options),
});
return await builder.execute();
}
}