apps/docs/content/docs/orm/prisma-client/special-fields-and-types/working-with-composite-ids-and-constraints.mdx
Composite IDs and compound unique constraints can be defined in your Prisma schema using the @@id and @@unique attributes.
:::warning
MongoDB does not support @@id
MongoDB does not support composite IDs, which means you cannot identify a model with a @@id attribute.
:::
A composite ID or compound unique constraint uses the combined values of two fields as a primary key or identifier in your database table. In the following example, the postId field and userId field are used as a composite ID for a Like table:
model User {
id Int @id @default(autoincrement())
name String
post Post[]
likes Like[]
}
model Post {
id Int @id @default(autoincrement())
content String
User User? @relation(fields: [userId], references: [id])
userId Int?
likes Like[]
}
model Like {
postId Int
userId Int
User User @relation(fields: [userId], references: [id])
Post Post @relation(fields: [postId], references: [id])
@@id([postId, userId]) // [!code highlight]
}
Querying for records from the Like table (e.g. using prisma.like.findMany()) would return objects that look as follows:
{
"postId": 1,
"userId": 1
}
Although there are only two fields in the response, those two fields make up a compound ID named postId_userId.
You can also create a named compound ID or compound unique constraint by using the @@id or @@unique attributes' name field. For example:
model Like {
postId Int
userId Int
User User @relation(fields: [userId], references: [id])
Post Post @relation(fields: [postId], references: [id])
@@id(name: "likeId", [postId, userId]) // [!code highlight]
}
Compound IDs and compound unique constraints can be used when working with unique data.
Below is a list of Prisma Client functions that accept a compound ID or compound unique constraint in the where filter of the query:
findUnique()findUniqueOrThrowdeleteupdateupsertA composite ID and a composite unique constraint is also usable when creating relational data with connect and connectOrCreate.
Although your query results will not display a compound ID or unique constraint as a field, you can use these compound values to filter your queries for unique records:
const like = await prisma.like.findUnique({
where: {
likeId: {
userId: 1,
postId: 1,
},
},
});
:::info
Note composite ID and compound unique constraint keys are only available as filter options for unique queries such as findUnique() and findUniqueOrThrow. See the section above for a list of places these fields may be used.
:::
A compound ID or compound unique constraint may be used in the where filter of a delete query:
const like = await prisma.like.delete({
where: {
likeId: {
userId: 1,
postId: 1,
},
},
});
A compound ID or compound unique constraint may be used in the where filter of an update query:
const like = await prisma.like.update({
where: {
likeId: {
userId: 1,
postId: 1,
},
},
data: {
postId: 2,
},
});
They may also be used in the where filter of an upsert query:
await prisma.like.upsert({
where: {
likeId: {
userId: 1,
postId: 1,
},
},
update: {
userId: 2,
},
create: {
userId: 2,
postId: 1,
},
});
Compound IDs and compound unique constraint can also be used in the connect and connectOrCreate keys used when connecting records to create a relationship.
For example, consider this query:
await prisma.user.create({
data: {
name: "Alice",
likes: {
connect: {
likeId: {
postId: 1,
userId: 2,
},
},
},
},
});
The likeId compound ID is used as the identifier in the connect object that is used to locate the Like table's record that will be linked to the new user: "Alice".
Similarly, the likeId can be used in connectOrCreate's where filter to attempt to locate an existing record in the Like table:
await prisma.user.create({
data: {
name: "Alice",
likes: {
connectOrCreate: {
create: {
postId: 1,
},
where: {
likeId: {
postId: 1,
userId: 1,
},
},
},
},
},
});