Trait diesel::query_dsl::RunQueryDsl [−][src]
pub trait RunQueryDsl<Conn>: Sized {
fn execute(self, conn: &Conn) -> QueryResult<usize>
where
Conn: Connection,
Self: ExecuteDsl<Conn>,
{ ... }
fn load<U>(self, conn: &Conn) -> QueryResult<Vec<U>>
where
Self: LoadQuery<Conn, U>,
{ ... }
fn get_result<U>(self, conn: &Conn) -> QueryResult<U>
where
Self: LoadQuery<Conn, U>,
{ ... }
fn get_results<U>(self, conn: &Conn) -> QueryResult<Vec<U>>
where
Self: LoadQuery<Conn, U>,
{ ... }
fn first<U>(self, conn: &Conn) -> QueryResult<U>
where
Self: LimitDsl,
Limit<Self>: LoadQuery<Conn, U>,
{ ... }
}
Expand description
Methods used to execute queries.
Provided methods
fn execute(self, conn: &Conn) -> QueryResult<usize> where
Conn: Connection,
Self: ExecuteDsl<Conn>,
fn execute(self, conn: &Conn) -> QueryResult<usize> where
Conn: Connection,
Self: ExecuteDsl<Conn>,
Executes the given command, returning the number of rows affected.
execute
is usually used in conjunction with insert_into
,
update
and delete
where the number of
affected rows is often enough information.
When asking the database to return data from a query, load
should
probably be used instead.
Example
let inserted_rows = insert_into(users)
.values(name.eq("Ruby"))
.execute(&connection)?;
assert_eq!(1, inserted_rows);
let inserted_rows = insert_into(users)
.values(&vec![name.eq("Jim"), name.eq("James")])
.execute(&connection)?;
assert_eq!(2, inserted_rows);
Executes the given query, returning a Vec
with the returned rows.
When using the query builder,
the return type can be
a tuple of the values,
or a struct which implements Queryable
.
When this method is called on sql_query
,
the return type can only be a struct which implements QueryableByName
For insert, update, and delete operations where only a count of affected is needed,
execute
should be used instead.
Examples
Returning a single field
let data = users.select(name)
.load::<String>(&connection)?;
assert_eq!(vec!["Sean", "Tess"], data);
Returning a tuple
let data = users
.load::<(i32, String)>(&connection)?;
let expected_data = vec![
(1, String::from("Sean")),
(2, String::from("Tess")),
];
assert_eq!(expected_data, data);
Returning a struct
#[derive(Queryable, PartialEq, Debug)]
struct User {
id: i32,
name: String,
}
let data = users
.load::<User>(&connection)?;
let expected_data = vec![
User { id: 1, name: String::from("Sean"), },
User { id: 2, name: String::from("Tess"), },
];
assert_eq!(expected_data, data);
fn get_result<U>(self, conn: &Conn) -> QueryResult<U> where
Self: LoadQuery<Conn, U>,
fn get_result<U>(self, conn: &Conn) -> QueryResult<U> where
Self: LoadQuery<Conn, U>,
Runs the command, and returns the affected row.
Err(NotFound)
will be returned if the query affected 0 rows. You can
call .optional()
on the result of this if the command was optional to
get back a Result<Option<U>>
When this method is called on an insert, update, or delete statement,
it will implicitly add a RETURNING *
to the query,
unless a returning clause was already specified.
Example
let inserted_row = insert_into(users)
.values(name.eq("Ruby"))
.get_result(&connection)?;
assert_eq!((3, String::from("Ruby")), inserted_row);
// This will return `NotFound`, as there is no user with ID 4
let update_result = update(users.find(4))
.set(name.eq("Jim"))
.get_result::<(i32, String)>(&connection);
assert_eq!(Err(diesel::NotFound), update_result);
fn get_results<U>(self, conn: &Conn) -> QueryResult<Vec<U>> where
Self: LoadQuery<Conn, U>,
fn get_results<U>(self, conn: &Conn) -> QueryResult<Vec<U>> where
Self: LoadQuery<Conn, U>,
Runs the command, returning an Vec
with the affected rows.
This method is an alias for load
, but with a name that makes more
sense for insert, update, and delete statements.
Attempts to load a single record.
This method is equivalent to .limit(1).get_result()
Returns Ok(record)
if found, and Err(NotFound)
if no results are
returned. If the query truly is optional, you can call .optional()
on
the result of this to get a Result<Option<U>>
.
Example:
diesel::insert_into(users)
.values(&vec![name.eq("Sean"), name.eq("Pascal")])
.execute(&connection)?;
let first_name = users.order(id).select(name).first(&connection);
assert_eq!(Ok(String::from("Sean")), first_name);
let not_found = users
.filter(name.eq("Foo"))
.first::<(i32, String)>(&connection);
assert_eq!(Err(diesel::NotFound), not_found);