- What is
QueryBuilder
- Important note when using the
QueryBuilder
- How to create and use a
QueryBuilder
- Getting values using QueryBuilder
- Getting a count
- What are aliases for?
- Using parameters to escape data
- Adding
WHERE
expression - Adding
HAVING
expression - Adding
ORDER BY
expression - Adding
GROUP BY
expression - Adding
LIMIT
expression - Adding
OFFSET
expression - Joining relations
- Inner and left joins
- Join without selection
- Joining any entity or table
- Joining and mapping functionality
- Getting the generated query
- Getting raw results
- Streaming result data
- Using pagination
- Set locking
- Use custom index
- Max execution time
- Partial selection
- Using subqueries
- Hidden Columns
- Querying Deleted rows
- Debugging
QueryBuilder
is one of the most powerful features of TypeORM -
it allows you to build SQL queries using elegant and convenient syntax,
execute them and get automatically transformed entities.
Simple example of QueryBuilder
:
const firstUser = await dataSource
.getRepository(User)
.createQueryBuilder("user")
.where("user.id = :id", { id: 1 })
.getOne()
It builds the following SQL query:
SELECT
user.id as userId,
user.firstName as userFirstName,
user.lastName as userLastName
FROM users user
WHERE user.id = 1
and returns you an instance of User
:
User {
id: 1,
firstName: "Timber",
lastName: "Saw"
}
When using the QueryBuilder
, you need to provide unique parameters in your WHERE
expressions. This will not work:
const result = await dataSource
.createQueryBuilder('user')
.leftJoinAndSelect('user.linkedSheep', 'linkedSheep')
.leftJoinAndSelect('user.linkedCow', 'linkedCow')
.where('user.linkedSheep = :id', { id: sheepId })
.andWhere('user.linkedCow = :id', { id: cowId });
... but this will:
const result = await dataSource
.createQueryBuilder('user')
.leftJoinAndSelect('user.linkedSheep', 'linkedSheep')
.leftJoinAndSelect('user.linkedCow', 'linkedCow')
.where('user.linkedSheep = :sheepId', { sheepId })
.andWhere('user.linkedCow = :cowId', { cowId });
Note that we uniquely named :sheepId
and :cowId
instead of using :id
twice for different parameters.
There are several ways how you can create a Query Builder
:
-
Using DataSource:
const user = await dataSource .createQueryBuilder() .select("user") .from(User, "user") .where("user.id = :id", { id: 1 }) .getOne()
-
Using entity manager:
const user = await dataSource.manager .createQueryBuilder(User, "user") .where("user.id = :id", { id: 1 }) .getOne()
-
Using repository:
const user = await dataSource .getRepository(User) .createQueryBuilder("user") .where("user.id = :id", { id: 1 }) .getOne()
There are 5 different QueryBuilder
types available:
-
SelectQueryBuilder
- used to build and executeSELECT
queries. Example:const user = await dataSource .createQueryBuilder() .select("user") .from(User, "user") .where("user.id = :id", { id: 1 }) .getOne()
-
InsertQueryBuilder
- used to build and executeINSERT
queries. Example:await dataSource .createQueryBuilder() .insert() .into(User) .values([ { firstName: "Timber", lastName: "Saw" }, { firstName: "Phantom", lastName: "Lancer" }, ]) .execute()
-
UpdateQueryBuilder
- used to build and executeUPDATE
queries. Example:await dataSource .createQueryBuilder() .update(User) .set({ firstName: "Timber", lastName: "Saw" }) .where("id = :id", { id: 1 }) .execute()
-
DeleteQueryBuilder
- used to build and executeDELETE
queries. Example:await dataSource .createQueryBuilder() .delete() .from(User) .where("id = :id", { id: 1 }) .execute()
-
RelationQueryBuilder
- used to build and execute relation-specific operations [TBD]. Example:await dataSource .createQueryBuilder() .relation(User,"photos") .of(id) .loadMany();
You can switch between different types of query builder within any of them, once you do, you will get a new instance of query builder (unlike all other methods).
To get a single result from the database,
for example to get a user by id or name, you must use getOne
:
const timber = await dataSource
.getRepository(User)
.createQueryBuilder("user")
.where("user.id = :id OR user.name = :name", { id: 1, name: "Timber" })
.getOne()
getOneOrFail
will get a single result from the database, but if
no result exists it will throw an EntityNotFoundError
:
const timber = await dataSource
.getRepository(User)
.createQueryBuilder("user")
.where("user.id = :id OR user.name = :name", { id: 1, name: "Timber" })
.getOneOrFail()
To get multiple results from the database,
for example, to get all users from the database, use getMany
:
const users = await dataSource
.getRepository(User)
.createQueryBuilder("user")
.getMany()
There are two types of results you can get using select query builder: entities or raw results.
Most of the time, you need to select real entities from your database, for example, users.
For this purpose, you use getOne
and getMany
.
But sometimes you need to select some specific data, let's say the sum of all user photos.
This data is not an entity, it's called raw data.
To get raw data, you use getRawOne
and getRawMany
.
Examples:
const { sum } = await dataSource
.getRepository(User)
.createQueryBuilder("user")
.select("SUM(user.photosCount)", "sum")
.where("user.id = :id", { id: 1 })
.getRawOne()
const photosSums = await dataSource
.getRepository(User)
.createQueryBuilder("user")
.select("user.id")
.addSelect("SUM(user.photosCount)", "sum")
.groupBy("user.id")
.getRawMany()
// result will be like this: [{ id: 1, sum: 25 }, { id: 2, sum: 13 }, ...]
You can get the count on the number of rows a query will return by using getCount()
. This will return the count as a number rather than an Entity result.
const count = await dataSource
.getRepository(User)
.createQueryBuilder("user")
.where("user.name = :name", { name: "Timber" })
.getCount()
Which produces the following SQL query:
SELECT count(*) FROM users user WHERE user.name = 'Timber'
We used createQueryBuilder("user")
. But what is "user"?
It's just a regular SQL alias.
We use aliases everywhere, except when we work with selected data.
createQueryBuilder("user")
is equivalent to:
createQueryBuilder().select("user").from(User, "user")
Which will result in the following SQL query:
SELECT ... FROM users user
In this SQL query, users
is the table name, and user
is an alias we assign to this table.
Later we use this alias to access the table:
createQueryBuilder()
.select("user")
.from(User, "user")
.where("user.name = :name", { name: "Timber" })
Which produces the following SQL query:
SELECT ... FROM users user WHERE user.name = 'Timber'
See, we used the users table by using the user
alias we assigned when we created a query builder.
One query builder is not limited to one alias, they can have multiple aliases. Each select can have its own alias, you can select from multiple tables each with its own alias, you can join multiple tables each with its own alias. You can use those aliases to access tables are you selecting (or data you are selecting).
We used where("user.name = :name", { name: "Timber" })
.
What does { name: "Timber" }
stand for? It's a parameter we used to prevent SQL injection.
We could have written: where("user.name = '" + name + "')
,
however this is not safe, as it opens the code to SQL injections.
The safe way is to use this special syntax: where("user.name = :name", { name: "Timber" })
,
where :name
is a parameter name and the value is specified in an object: { name: "Timber" }
.
.where("user.name = :name", { name: "Timber" })
is a shortcut for:
.where("user.name = :name")
.setParameter("name", "Timber")
Note: do not use the same parameter name for different values across the query builder. Values will be overridden if you set them multiple times.
You can also supply an array of values, and have them transformed into a list of values in the SQL statement, by using the special expansion syntax:
.where("user.name IN (:...names)", { names: [ "Timber", "Cristal", "Lina" ] })
Which becomes:
WHERE user.name IN ('Timber', 'Cristal', 'Lina')
Adding a WHERE
expression is as easy as:
createQueryBuilder("user").where("user.name = :name", { name: "Timber" })
Which will produce:
SELECT ... FROM users user WHERE user.name = 'Timber'
You can add AND
into an existing WHERE
expression:
createQueryBuilder("user")
.where("user.firstName = :firstName", { firstName: "Timber" })
.andWhere("user.lastName = :lastName", { lastName: "Saw" })
Which will produce the following SQL query:
SELECT ... FROM users user WHERE user.firstName = 'Timber' AND user.lastName = 'Saw'
You can add OR
into an existing WHERE
expression:
createQueryBuilder("user")
.where("user.firstName = :firstName", { firstName: "Timber" })
.orWhere("user.lastName = :lastName", { lastName: "Saw" })
Which will produce the following SQL query:
SELECT ... FROM users user WHERE user.firstName = 'Timber' OR user.lastName = 'Saw'
You can do an IN
query with the WHERE
expression:
createQueryBuilder("user").where("user.id IN (:...ids)", { ids: [1, 2, 3, 4] })
Which will produce the following SQL query:
SELECT ... FROM users user WHERE user.id IN (1, 2, 3, 4)
You can add a complex WHERE
expression into an existing WHERE
using Brackets
createQueryBuilder("user")
.where("user.registered = :registered", { registered: true })
.andWhere(
new Brackets((qb) => {
qb.where("user.firstName = :firstName", {
firstName: "Timber",
}).orWhere("user.lastName = :lastName", { lastName: "Saw" })
}),
)
Which will produce the following SQL query:
SELECT ... FROM users user WHERE user.registered = true AND (user.firstName = 'Timber' OR user.lastName = 'Saw')
You can add a negated complex WHERE
expression into an existing WHERE
using NotBrackets
createQueryBuilder("user")
.where("user.registered = :registered", { registered: true })
.andWhere(
new NotBrackets((qb) => {
qb.where("user.firstName = :firstName", {
firstName: "Timber",
}).orWhere("user.lastName = :lastName", { lastName: "Saw" })
}),
)
Which will produce the following SQL query:
SELECT ... FROM users user WHERE user.registered = true AND NOT((user.firstName = 'Timber' OR user.lastName = 'Saw'))
You can combine as many AND
and OR
expressions as you need.
If you use .where
more than once you'll override all previous WHERE
expressions.
Note: be careful with orWhere
- if you use complex expressions with both AND
and OR
expressions,
keep in mind that they are stacked without any pretences.
Sometimes you'll need to create a where string instead, and avoid using orWhere
.
Adding a HAVING
expression is easy as:
createQueryBuilder("user").having("user.name = :name", { name: "Timber" })
Which will produce following SQL query:
SELECT ... FROM users user HAVING user.name = 'Timber'
You can add AND
into an exist HAVING
expression:
createQueryBuilder("user")
.having("user.firstName = :firstName", { firstName: "Timber" })
.andHaving("user.lastName = :lastName", { lastName: "Saw" })
Which will produce the following SQL query:
SELECT ... FROM users user HAVING user.firstName = 'Timber' AND user.lastName = 'Saw'
You can add OR
into a exist HAVING
expression:
createQueryBuilder("user")
.having("user.firstName = :firstName", { firstName: "Timber" })
.orHaving("user.lastName = :lastName", { lastName: "Saw" })
Which will produce the following SQL query:
SELECT ... FROM users user HAVING user.firstName = 'Timber' OR user.lastName = 'Saw'
You can combine as many AND
and OR
expressions as you need.
If you use .having
more than once you'll override all previous HAVING
expressions.
Adding an ORDER BY
expression is easy as:
createQueryBuilder("user").orderBy("user.id")
Which will produce:
SELECT ... FROM users user ORDER BY user.id
You can change the ordering direction from ascending to descending (or versa):
createQueryBuilder("user").orderBy("user.id", "DESC")
createQueryBuilder("user").orderBy("user.id", "ASC")
You can add multiple order-by criteria:
createQueryBuilder("user").orderBy("user.name").addOrderBy("user.id")
You can also use a map of order-by fields:
createQueryBuilder("user").orderBy({
"user.name": "ASC",
"user.id": "DESC",
})
If you use .orderBy
more than once you'll override all previous ORDER BY
expressions.
When using both distinct-on with an order-by expression, the distinct-on expression must match the leftmost order-by. The distinct-on expressions are interpreted using the same rules as order-by. Please note that, using distinct-on without an order-by expression means that the first row of each set is unpredictable.
Adding a DISTINCT ON
expression is easy as:
createQueryBuilder("user").distinctOn(["user.id"]).orderBy("user.id")
Which will produce:
SELECT DISTINCT ON (user.id) ... FROM users user ORDER BY user.id
Adding a GROUP BY
expression is easy as:
createQueryBuilder("user").groupBy("user.id")
Which will produce the following SQL query:
SELECT ... FROM users user GROUP BY user.id
To add more group-by criteria use addGroupBy
:
createQueryBuilder("user").groupBy("user.name").addGroupBy("user.id")
If you use .groupBy
more than once you'll override all previous GROUP BY
expressions.
Adding a LIMIT
expression is easy as:
createQueryBuilder("user").limit(10)
Which will produce the following SQL query:
SELECT ... FROM users user LIMIT 10
The resulting SQL query depends on the type of database (SQL, mySQL, Postgres, etc).
Note: LIMIT may not work as you may expect if you are using complex queries with joins or subqueries.
If you are using pagination, it's recommended to use take
instead.
Adding an SQL OFFSET
expression is easy as:
createQueryBuilder("user").offset(10)
Which will produce the following SQL query:
SELECT ... FROM users user OFFSET 10
The resulting SQL query depends on the type of database (SQL, mySQL, Postgres, etc).
Note: OFFSET may not work as you may expect if you are using complex queries with joins or subqueries.
If you are using pagination, it's recommended to use skip
instead.
Let's say you have the following entities:
import { Entity, PrimaryGeneratedColumn, Column, OneToMany } from "typeorm"
import { Photo } from "./Photo"
@Entity()
export class User {
@PrimaryGeneratedColumn()
id: number
@Column()
name: string
@OneToMany((type) => Photo, (photo) => photo.user)
photos: Photo[]
}
import { Entity, PrimaryGeneratedColumn, Column, ManyToOne } from "typeorm"
import { User } from "./User"
@Entity()
export class Photo {
@PrimaryGeneratedColumn()
id: number
@Column()
url: string
@ManyToOne((type) => User, (user) => user.photos)
user: User
}
Now let's say you want to load user "Timber" with all of his photos:
const user = await createQueryBuilder("user")
.leftJoinAndSelect("user.photos", "photo")
.where("user.name = :name", { name: "Timber" })
.getOne()
You'll get the following result:
{
id: 1,
name: "Timber",
photos: [{
id: 1,
url: "me-with-chakram.jpg"
}, {
id: 2,
url: "me-with-trees.jpg"
}]
}
As you can see leftJoinAndSelect
automatically loaded all of Timber's photos.
The first argument is the relation you want to load and the second argument is an alias you assign to this relation's table.
You can use this alias anywhere in query builder.
For example, let's take all Timber's photos which aren't removed.
const user = await createQueryBuilder("user")
.leftJoinAndSelect("user.photos", "photo")
.where("user.name = :name", { name: "Timber" })
.andWhere("photo.isRemoved = :isRemoved", { isRemoved: false })
.getOne()
This will generate following SQL query:
SELECT user.*, photo.* FROM users user
LEFT JOIN photos photo ON photo.user = user.id
WHERE user.name = 'Timber' AND photo.isRemoved = FALSE
You can also add conditions to the join expression instead of using "where":
const user = await createQueryBuilder("user")
.leftJoinAndSelect("user.photos", "photo", "photo.isRemoved = :isRemoved", {
isRemoved: false,
})
.where("user.name = :name", { name: "Timber" })
.getOne()
This will generate the following SQL query:
SELECT user.*, photo.* FROM users user
LEFT JOIN photos photo ON photo.user = user.id AND photo.isRemoved = FALSE
WHERE user.name = 'Timber'
If you want to use INNER JOIN
instead of LEFT JOIN
just use innerJoinAndSelect
instead:
const user = await createQueryBuilder("user")
.innerJoinAndSelect(
"user.photos",
"photo",
"photo.isRemoved = :isRemoved",
{ isRemoved: false },
)
.where("user.name = :name", { name: "Timber" })
.getOne()
This will generate:
SELECT user.*, photo.* FROM users user
INNER JOIN photos photo ON photo.user = user.id AND photo.isRemoved = FALSE
WHERE user.name = 'Timber'
The difference between LEFT JOIN
and INNER JOIN
is that INNER JOIN
won't return a user if it does not have any photos.
LEFT JOIN
will return you the user even if it doesn't have photos.
To learn more about different join types, refer to the SQL documentation.
You can join data without its selection.
To do that, use leftJoin
or innerJoin
:
const user = await createQueryBuilder("user")
.innerJoin("user.photos", "photo")
.where("user.name = :name", { name: "Timber" })
.getOne()
This will generate:
SELECT user.* FROM users user
INNER JOIN photos photo ON photo.user = user.id
WHERE user.name = 'Timber'
This will select Timber if he has photos, but won't return his photos.
You can join not only relations, but also other unrelated entities or tables. Examples:
const user = await createQueryBuilder("user")
.leftJoinAndSelect(Photo, "photo", "photo.userId = user.id")
.getMany()
const user = await createQueryBuilder("user")
.leftJoinAndSelect("photos", "photo", "photo.userId = user.id")
.getMany()
Add profilePhoto
to User
entity, and you can map any data into that property using QueryBuilder
:
export class User {
/// ...
profilePhoto: Photo
}
const user = await createQueryBuilder("user")
.leftJoinAndMapOne(
"user.profilePhoto",
"user.photos",
"photo",
"photo.isForProfile = TRUE",
)
.where("user.name = :name", { name: "Timber" })
.getOne()
This will load Timber's profile photo and set it to user.profilePhoto
.
If you want to load and map a single entity use leftJoinAndMapOne
.
If you want to load and map multiple entities use leftJoinAndMapMany
.
Sometimes you may want to get the SQL query generated by QueryBuilder
.
To do so, use getSql
:
const sql = createQueryBuilder("user")
.where("user.firstName = :firstName", { firstName: "Timber" })
.orWhere("user.lastName = :lastName", { lastName: "Saw" })
.getSql()
For debugging purposes you can use printSql
:
const users = await createQueryBuilder("user")
.where("user.firstName = :firstName", { firstName: "Timber" })
.orWhere("user.lastName = :lastName", { lastName: "Saw" })
.printSql()
.getMany()
This query will return users and print the used sql statement to the console.
There are two types of results you can get using select query builder: entities and raw results.
Most of the time, you need to select real entities from your database, for example, users.
For this purpose, you use getOne
and getMany
.
However, sometimes you need to select specific data, like the sum of all user photos.
Such data is not an entity, it's called raw data.
To get raw data, you use getRawOne
and getRawMany
.
Examples:
const { sum } = await dataSource
.getRepository(User)
.createQueryBuilder("user")
.select("SUM(user.photosCount)", "sum")
.where("user.id = :id", { id: 1 })
.getRawOne()
const photosSums = await dataSource
.getRepository(User)
.createQueryBuilder("user")
.select("user.id")
.addSelect("SUM(user.photosCount)", "sum")
.groupBy("user.id")
.getRawMany()
// result will be like this: [{ id: 1, sum: 25 }, { id: 2, sum: 13 }, ...]
You can use stream
which returns you a stream.
Streaming returns you raw data, and you must handle entity transformation manually:
const stream = await dataSource
.getRepository(User)
.createQueryBuilder("user")
.where("user.id = :id", { id: 1 })
.stream()
Most of the time when you develop an application, you need pagination functionality. This is used if you have pagination, page slider, or infinite scroll components in your application.
const users = await dataSource
.getRepository(User)
.createQueryBuilder("user")
.leftJoinAndSelect("user.photos", "photo")
.take(10)
.getMany()
This will give you the first 10 users with their photos.
const users = await dataSource
.getRepository(User)
.createQueryBuilder("user")
.leftJoinAndSelect("user.photos", "photo")
.skip(10)
.getMany()
This will give you all except the first 10 users with their photos. You can combine those methods:
const users = await dataSource
.getRepository(User)
.createQueryBuilder("user")
.leftJoinAndSelect("user.photos", "photo")
.skip(5)
.take(10)
.getMany()
This will skip the first 5 users and take 10 users after them.
take
and skip
may look like we are using limit
and offset
, but they aren't.
limit
and offset
may not work as you expect once you have more complicated queries with joins or subqueries.
Using take
and skip
will prevent those issues.
QueryBuilder supports both optimistic and pessimistic locking.
Support of lock modes, and SQL statements they translate to, are listed in the table below (blank cell denotes unsupported). When specified lock mode is not supported, a LockNotSupportedOnGivenDriverError
error will be thrown.
| | pessimistic_read | pessimistic_write | dirty_read | pessimistic_partial_write (Deprecated, use onLocked instead) | pessimistic_write_or_fail (Deprecated, use onLocked instead) | for_no_key_update | for_key_share |
| --------------- | --------------------------------- | ----------------------- | ------------- | -------------------------------------------------------------- | -------------------------------------------------------------- | ------------------- | ------------- |
| MySQL | FOR SHARE (8+)/LOCK IN SHARE MODE | FOR UPDATE | (nothing) | FOR UPDATE SKIP LOCKED | FOR UPDATE NOWAIT | | |
| Postgres | FOR SHARE | FOR UPDATE | (nothing) | FOR UPDATE SKIP LOCKED | FOR UPDATE NOWAIT | FOR NO KEY UPDATE | FOR KEY SHARE |
| Oracle | FOR UPDATE | FOR UPDATE | (nothing) | | | | |
| SQL Server | WITH (HOLDLOCK, ROWLOCK) | WITH (UPDLOCK, ROWLOCK) | WITH (NOLOCK) | | | | |
| AuroraDataApi | LOCK IN SHARE MODE | FOR UPDATE | (nothing) | | | | |
| CockroachDB | | FOR UPDATE | (nothing) | | FOR UPDATE NOWAIT | FOR NO KEY UPDATE | |
To use pessimistic read locking use the following method:
const users = await dataSource
.getRepository(User)
.createQueryBuilder("user")
.setLock("pessimistic_read")
.getMany()
To use pessimistic write locking use the following method:
const users = await dataSource
.getRepository(User)
.createQueryBuilder("user")
.setLock("pessimistic_write")
.getMany()
To use dirty read locking use the following method:
const users = await dataSource
.getRepository(User)
.createQueryBuilder("user")
.setLock("dirty_read")
.getMany()
To use optimistic locking use the following method:
const users = await dataSource
.getRepository(User)
.createQueryBuilder("user")
.setLock("optimistic", existUser.version)
.getMany()
Optimistic locking works in conjunction with both @Version
and @UpdatedDate
decorators.
Allows you to control what happens when a row is locked. By default, the database will wait for the lock.
You can control that behavior by using setOnLocked
To not wait:
const users = await dataSource
.getRepository(User)
.createQueryBuilder("user")
.setLock("pessimistic_write")
.setOnLocked("nowait")
.getMany()
To skip the row:
const users = await dataSource
.getRepository(User)
.createQueryBuilder("user")
.setLock("pessimistic_write")
.setOnLocked("skip_locked")
.getMany()
Database support for setOnLocked
based on lock mode:
- Postgres:
pessimistic_read
,pessimistic_write
,for_no_key_update
,for_key_share
- MySQL 8+:
pessimistic_read
,pessimistic_write
- MySQL < 8, Maria DB:
pessimistic_write
- Cockroach:
pessimistic_write
(nowait
only)
You can provide a certain index for database server to use in some cases. This feature is only supported in MySQL.
const users = await dataSource
.getRepository(User)
.createQueryBuilder("user")
.useIndex("my_index") // name of index
.getMany()
We can drop slow query to avoid crashing the server.
const users = await dataSource
.getRepository(User)
.createQueryBuilder("user")
.maxExecutionTime(1000) // milliseconds.
.getMany()
If you want to select only some entity properties, you can use the following syntax:
const users = await dataSource
.getRepository(User)
.createQueryBuilder("user")
.select(["user.id", "user.name"])
.getMany()
This will only select the id
and name
of User
.
You can easily create subqueries. Subqueries are supported in FROM
, WHERE
and JOIN
expressions.
Example:
const qb = await dataSource.getRepository(Post).createQueryBuilder("post")
const posts = qb
.where(
"post.title IN " +
qb
.subQuery()
.select("user.name")
.from(User, "user")
.where("user.registered = :registered")
.getQuery(),
)
.setParameter("registered", true)
.getMany()
A more elegant way to do the same:
const posts = await dataSource
.getRepository(Post)
.createQueryBuilder("post")
.where((qb) => {
const subQuery = qb
.subQuery()
.select("user.name")
.from(User, "user")
.where("user.registered = :registered")
.getQuery()
return "post.title IN " + subQuery
})
.setParameter("registered", true)
.getMany()
Alternatively, you can create a separate query builder and use its generated SQL:
const userQb = await dataSource
.getRepository(User)
.createQueryBuilder("user")
.select("user.name")
.where("user.registered = :registered", { registered: true })
const posts = await dataSource
.getRepository(Post)
.createQueryBuilder("post")
.where("post.title IN (" + userQb.getQuery() + ")")
.setParameters(userQb.getParameters())
.getMany()
You can create subqueries in FROM
like this:
const userQb = await dataSource
.getRepository(User)
.createQueryBuilder("user")
.select("user.name", "name")
.where("user.registered = :registered", { registered: true })
const posts = await dataSource
.createQueryBuilder()
.select("user.name", "name")
.from("(" + userQb.getQuery() + ")", "user")
.setParameters(userQb.getParameters())
.getRawMany()
or using a more elegant syntax:
const posts = await dataSource
.createQueryBuilder()
.select("user.name", "name")
.from((subQuery) => {
return subQuery
.select("user.name", "name")
.from(User, "user")
.where("user.registered = :registered", { registered: true })
}, "user")
.getRawMany()
If you want to add a subselect as a "second from" use addFrom
.
You can use subselects in SELECT
statements as well:
const posts = await dataSource
.createQueryBuilder()
.select("post.id", "id")
.addSelect((subQuery) => {
return subQuery.select("user.name", "name").from(User, "user").limit(1)
}, "name")
.from(Post, "post")
.getRawMany()
Hidden Columns
If the model you are querying has a column with a select: false
column, you must use the addSelect
function in order to retrieve the information from the column.
Let's say you have the following entity:
import { Entity, PrimaryGeneratedColumn, Column } from "typeorm"
@Entity()
export class User {
@PrimaryGeneratedColumn()
id: number
@Column()
name: string
@Column({ select: false })
password: string
}
Using a standard find
or query, you will not receive the password
property for the model. However, if you do the following:
const users = await dataSource
.getRepository(User)
.createQueryBuilder()
.select("user.id", "id")
.addSelect("user.password")
.getMany()
You will get the property password
in your query.
If the model you are querying has a column with the attribute @DeleteDateColumn
set, the query builder will automatically query rows which are 'soft deleted'.
Let's say you have the following entity:
import { Entity, PrimaryGeneratedColumn, Column } from "typeorm"
@Entity()
export class User {
@PrimaryGeneratedColumn()
id: number
@Column()
name: string
@DeleteDateColumn()
deletedAt?: Date
}
Using a standard find
or query, you will not receive the rows which have a value in that row. However, if you do the following:
const users = await dataSource
.getRepository(User)
.createQueryBuilder()
.select("user.id", "id")
.withDeleted()
.getMany()
You will get all the rows, including the ones which are deleted.
QueryBuilder
instances
support common table expressions
, if minimal supported version of your database supports them. Common table expressions aren't supported for Oracle yet.
const users = await connection.getRepository(User)
.createQueryBuilder('user')
.select("user.id", 'id')
.addCommonTableExpression(`
SELECT "userId" FROM "post"
`, 'post_users_ids')
.where(`user.id IN (SELECT "userId" FROM 'post_users_ids')`)
.getMany();
Result values of InsertQueryBuilder
or UpdateQueryBuilder
can be used in Postgres:
const insertQueryBuilder = connection.getRepository(User)
.createQueryBuilder()
.insert({
name: 'John Smith'
})
.returning(['id']);
const users = await connection.getRepository(User)
.createQueryBuilder('user')
.addCommonTableExpression(insertQueryBuilder, 'insert_results')
.where(`user.id IN (SELECT "id" FROM 'insert_results')`)
.getMany();
Time Travel Queries
currently supported only in CockroachDB
database.
const repository = connection.getRepository(Account)
// create a new account
const account = new Account()
account.name = "John Smith"
account.balance = 100
await repository.save(account)
// imagine we update the account balance 1 hour after creation
account.balance = 200
await repository.save(account)
// outputs { name: "John Smith", balance: "200" }
console.log(account)
// load account state on 1 hour back
account = await repository
.createQueryBuilder("account")
.timeTravelQuery(`'-1h'`)
.getOneOrFail()
// outputs { name: "John Smith", balance: "100" }
console.log(account)
By default timeTravelQuery()
uses follower_read_timestamp()
function if no arguments passed.
For another supported timestamp arguments and additional information please refer to
CockroachDB docs.
You can get the generated SQL from the query builder by calling getQuery()
or getQueryAndParameters()
.
If you just want the query you can use getQuery()
const sql = await dataSource
.getRepository(User)
.createQueryBuilder("user")
.where("user.id = :id", { id: 1 })
.getQuery()
Which results in:
SELECT `user`.`id` as `userId`, `user`.`firstName` as `userFirstName`, `user`.`lastName` as `userLastName` FROM `users` `user` WHERE `user`.`id` = ?
Or if you want the query and the parameters you can get an array back using getQueryAndParameters()
const queryAndParams = await dataSource
.getRepository(User)
.createQueryBuilder("user")
.where("user.id = :id", { id: 1 })
.getQueryAndParameters()
Which results in:
[
"SELECT `user`.`id` as `userId`, `user`.`firstName` as `userFirstName`, `user`.`lastName` as `userLastName` FROM `users` `user` WHERE `user`.`id` = ?",
[ 1 ]
]