pub struct IncompleteOnConflict<Stmt, Target> { /* private fields */ }
Expand description
A partially constructed ON CONFLICT
clause.
Implementations§
source§impl<T: QuerySource, U, Op, Ret, Target> IncompleteOnConflict<InsertStatement<T, U, Op, Ret>, Target>
impl<T: QuerySource, U, Op, Ret, Target> IncompleteOnConflict<InsertStatement<T, U, Op, Ret>, Target>
sourcepub fn do_nothing(
self,
) -> InsertStatement<T, OnConflictValues<U, Target, DoNothing<T>>, Op, Ret>
pub fn do_nothing( self, ) -> InsertStatement<T, OnConflictValues<U, Target, DoNothing<T>>, Op, Ret>
Creates a query with ON CONFLICT (target) DO NOTHING
If you want to do nothing when any constraint conflicts, use
on_conflict_do_nothing
instead. See on_conflict
for usage
examples.
source§impl<Stmt, Target> IncompleteOnConflict<Stmt, Target>
impl<Stmt, Target> IncompleteOnConflict<Stmt, Target>
sourcepub fn do_update(self) -> IncompleteDoUpdate<Stmt, Target>
pub fn do_update(self) -> IncompleteDoUpdate<Stmt, Target>
Used to create a query in the form ON CONFLICT (...) DO UPDATE ... [WHERE ...]
Call .set
on the result of this function with the changes you want to
apply. The argument to set
can be anything that implements AsChangeset
(e.g. anything you could pass to set
on a normal update statement).
Note: When inserting more than one row at a time, this query can still fail if the rows being inserted conflict with each other.
Some backends (PostgreSQL) support WHERE
clause is used to limit the rows actually updated.
For PostgreSQL you can use the .filter()
method to add conditions like this.
§Examples
§Set specific value on conflict
PostgreSQL/SQLite:
let user = User { id: 1, name: "Pascal" };
let user2 = User { id: 1, name: "Sean" };
assert_eq!(Ok(1), diesel::insert_into(users).values(&user).execute(conn));
let insert_count = diesel::insert_into(users)
.values(&user2)
.on_conflict(id)
.do_update()
.set(name.eq("I DONT KNOW ANYMORE"))
.execute(conn);
assert_eq!(Ok(1), insert_count);
assert_eq!(Ok(2), insert_count);
let users_in_db = users.load(conn);
assert_eq!(Ok(vec![(1, "I DONT KNOW ANYMORE".to_string())]), users_in_db);
MySQL:
let user = User { id: 1, name: "Pascal" };
let user2 = User { id: 1, name: "Sean" };
assert_eq!(Ok(1), diesel::insert_into(users).values(&user).execute(conn));
diesel::insert_into(users)
.values(&user2)
.on_conflict(diesel::dsl::DuplicatedKeys)
.do_update()
.set(name.eq("I DONT KNOW ANYMORE"))
.execute(conn)?;
let users_in_db = users.load(conn);
assert_eq!(Ok(vec![(1, "I DONT KNOW ANYMORE".to_string())]), users_in_db);
§Set AsChangeset
struct on conflict
PostgreSQL & SQLite:
let user = User { id: 1, name: "Pascal" };
let user2 = User { id: 1, name: "Sean" };
assert_eq!(Ok(1), diesel::insert_into(users).values(&user).execute(conn));
let insert_count = diesel::insert_into(users)
.values(&user2)
.on_conflict(id)
.do_update()
.set(&user2)
.execute(conn);
assert_eq!(Ok(1), insert_count);
let users_in_db = users.load(conn);
assert_eq!(Ok(vec![(1, "Sean".to_string())]), users_in_db);
MySQL:
let user = User { id: 1, name: "Pascal" };
let user2 = User { id: 1, name: "Sean" };
assert_eq!(Ok(1), diesel::insert_into(users).values(&user).execute(conn));
diesel::insert_into(users)
.values(&user2)
.on_conflict(diesel::dsl::DuplicatedKeys)
.do_update()
.set(&user2)
.execute(conn)?;
let users_in_db = users.load(conn);
assert_eq!(Ok(vec![(1, "Sean".to_string())]), users_in_db);
§Use excluded
to get the rejected value
use diesel::upsert::excluded;
let user = User { id: 1, name: "Pascal" };
let user2 = User { id: 1, name: "Sean" };
let user3 = User { id: 2, name: "Tess" };
assert_eq!(Ok(1), diesel::insert_into(users).values(&user).execute(conn));
#[cfg(feature = "postgres")]
let insert_count = diesel::insert_into(users)
.values(&vec![user2, user3])
.on_conflict(id)
.do_update()
.set(name.eq(excluded(name)))
.execute(conn);
assert_eq!(Ok(2), insert_count);
let users_in_db = users.load(conn);
assert_eq!(Ok(vec![(1, "Sean".to_string()), (2, "Tess".to_string())]), users_in_db);
§Use .filter()
method to limit the rows actually updated
use self::users::dsl::*;
let user = User { id: 1, name: "Pascal" };
let user2 = User { id: 1, name: "Sean" };
assert_eq!(Ok(1), diesel::insert_into(users).values(&user).execute(conn));
let insert_count = diesel::insert_into(users)
.values(&user2)
.on_conflict(id)
.do_update()
.set(&user2)
.filter(id.ge(5))
.execute(conn);
assert_eq!(Ok(0), insert_count);
let users_in_db = users.load(conn);
assert_eq!(Ok(vec![(1, "Pascal".to_string())]), users_in_db);
Trait Implementations§
source§impl<Stmt: Clone, Target: Clone> Clone for IncompleteOnConflict<Stmt, Target>
impl<Stmt: Clone, Target: Clone> Clone for IncompleteOnConflict<Stmt, Target>
source§fn clone(&self) -> IncompleteOnConflict<Stmt, Target>
fn clone(&self) -> IncompleteOnConflict<Stmt, Target>
1.0.0 · source§fn clone_from(&mut self, source: &Self)
fn clone_from(&mut self, source: &Self)
source
. Read moresource§impl<Stmt, T, P> DecoratableTarget<P> for IncompleteOnConflict<Stmt, T>
impl<Stmt, T, P> DecoratableTarget<P> for IncompleteOnConflict<Stmt, T>
source§type FilterOutput = IncompleteOnConflict<Stmt, <T as DecoratableTarget<P>>::FilterOutput>
type FilterOutput = IncompleteOnConflict<Stmt, <T as DecoratableTarget<P>>::FilterOutput>
source§fn filter_target(self, predicate: P) -> Self::FilterOutput
fn filter_target(self, predicate: P) -> Self::FilterOutput
impl<Stmt: Copy, Target: Copy> Copy for IncompleteOnConflict<Stmt, Target>
Auto Trait Implementations§
impl<Stmt, Target> Freeze for IncompleteOnConflict<Stmt, Target>
impl<Stmt, Target> RefUnwindSafe for IncompleteOnConflict<Stmt, Target>where
Stmt: RefUnwindSafe,
Target: RefUnwindSafe,
impl<Stmt, Target> Send for IncompleteOnConflict<Stmt, Target>
impl<Stmt, Target> Sync for IncompleteOnConflict<Stmt, Target>
impl<Stmt, Target> Unpin for IncompleteOnConflict<Stmt, Target>
impl<Stmt, Target> UnwindSafe for IncompleteOnConflict<Stmt, Target>where
Stmt: UnwindSafe,
Target: UnwindSafe,
Blanket Implementations§
source§impl<T> BorrowMut<T> for Twhere
T: ?Sized,
impl<T> BorrowMut<T> for Twhere
T: ?Sized,
source§fn borrow_mut(&mut self) -> &mut T
fn borrow_mut(&mut self) -> &mut T
source§impl<T> CloneToUninit for Twhere
T: Clone,
impl<T> CloneToUninit for Twhere
T: Clone,
source§unsafe fn clone_to_uninit(&self, dst: *mut T)
unsafe fn clone_to_uninit(&self, dst: *mut T)
clone_to_uninit
)