Struct diesel::expression::Concat
source · #[non_exhaustive]pub struct Concat<L, R> {
pub left: L,
pub right: R,
}
Expand description
This type represents a string concat operator
Fields (Non-exhaustive)§
This struct is marked as non-exhaustive
Non-exhaustive structs could have additional fields added in future. Therefore, non-exhaustive structs cannot be constructed in external crates using the traditional
Struct { .. }
syntax; cannot be matched against without a wildcard ..
; and struct update syntax will not work.left: L
The left side expression of the operator
right: R
The right side expression of the operator
Trait Implementations§
source§impl<L, R, __Rhs> Add<__Rhs> for Concat<L, R>where
Self: Expression,
<Self as Expression>::SqlType: Add,
<<Self as Expression>::SqlType as Add>::Rhs: SqlType + SingleValue,
__Rhs: AsExpression<<<Self as Expression>::SqlType as Add>::Rhs>,
impl<L, R, __Rhs> Add<__Rhs> for Concat<L, R>where Self: Expression, <Self as Expression>::SqlType: Add, <<Self as Expression>::SqlType as Add>::Rhs: SqlType + SingleValue, __Rhs: AsExpression<<<Self as Expression>::SqlType as Add>::Rhs>,
§type Output = Add<Concat<L, R>, <__Rhs as AsExpression<<<Concat<L, R> as Expression>::SqlType as Add>::Rhs>>::Expression>
type Output = Add<Concat<L, R>, <__Rhs as AsExpression<<<Concat<L, R> as Expression>::SqlType as Add>::Rhs>>::Expression>
The resulting type after applying the
+
operator.source§impl<L, R, __Rhs> Div<__Rhs> for Concat<L, R>where
Self: Expression,
<Self as Expression>::SqlType: Div,
<<Self as Expression>::SqlType as Div>::Rhs: SqlType + SingleValue,
__Rhs: AsExpression<<<Self as Expression>::SqlType as Div>::Rhs>,
impl<L, R, __Rhs> Div<__Rhs> for Concat<L, R>where Self: Expression, <Self as Expression>::SqlType: Div, <<Self as Expression>::SqlType as Div>::Rhs: SqlType + SingleValue, __Rhs: AsExpression<<<Self as Expression>::SqlType as Div>::Rhs>,
§type Output = Div<Concat<L, R>, <__Rhs as AsExpression<<<Concat<L, R> as Expression>::SqlType as Div>::Rhs>>::Expression>
type Output = Div<Concat<L, R>, <__Rhs as AsExpression<<<Concat<L, R> as Expression>::SqlType as Div>::Rhs>>::Expression>
The resulting type after applying the
/
operator.source§impl<L, R, ST> Expression for Concat<L, R>where
L: Expression<SqlType = ST>,
R: Expression<SqlType = ST>,
ST: SqlType + TypedExpressionType,
impl<L, R, ST> Expression for Concat<L, R>where L: Expression<SqlType = ST>, R: Expression<SqlType = ST>, ST: SqlType + TypedExpressionType,
source§impl<L, R, __Rhs> Mul<__Rhs> for Concat<L, R>where
Self: Expression,
<Self as Expression>::SqlType: Mul,
<<Self as Expression>::SqlType as Mul>::Rhs: SqlType + SingleValue,
__Rhs: AsExpression<<<Self as Expression>::SqlType as Mul>::Rhs>,
impl<L, R, __Rhs> Mul<__Rhs> for Concat<L, R>where Self: Expression, <Self as Expression>::SqlType: Mul, <<Self as Expression>::SqlType as Mul>::Rhs: SqlType + SingleValue, __Rhs: AsExpression<<<Self as Expression>::SqlType as Mul>::Rhs>,
§type Output = Mul<Concat<L, R>, <__Rhs as AsExpression<<<Concat<L, R> as Expression>::SqlType as Mul>::Rhs>>::Expression>
type Output = Mul<Concat<L, R>, <__Rhs as AsExpression<<<Concat<L, R> as Expression>::SqlType as Mul>::Rhs>>::Expression>
The resulting type after applying the
*
operator.source§impl<L, R, DB> QueryFragment<DB, ConcatWithPipesClause> for Concat<L, R>where
L: QueryFragment<DB>,
R: QueryFragment<DB>,
DB: Backend + SqlDialect<ConcatClause = ConcatWithPipesClause>,
impl<L, R, DB> QueryFragment<DB, ConcatWithPipesClause> for Concat<L, R>where L: QueryFragment<DB>, R: QueryFragment<DB>, DB: Backend + SqlDialect<ConcatClause = ConcatWithPipesClause>,
source§fn walk_ast<'b>(&'b self, out: AstPass<'_, 'b, DB>) -> QueryResult<()>
fn walk_ast<'b>(&'b self, out: AstPass<'_, 'b, DB>) -> QueryResult<()>
Walk over this
QueryFragment
for all passes. Read moresource§fn to_sql(&self, out: &mut DB::QueryBuilder, backend: &DB) -> QueryResult<()>
fn to_sql(&self, out: &mut DB::QueryBuilder, backend: &DB) -> QueryResult<()>
Converts this
QueryFragment
to its SQL representation. Read moresource§fn collect_binds<'b>(
&'b self,
out: &mut <DB as HasBindCollector<'b>>::BindCollector,
metadata_lookup: &mut DB::MetadataLookup,
backend: &'b DB
) -> QueryResult<()>
fn collect_binds<'b>( &'b self, out: &mut <DB as HasBindCollector<'b>>::BindCollector, metadata_lookup: &mut DB::MetadataLookup, backend: &'b DB ) -> QueryResult<()>
Serializes all bind parameters in this query. Read more
source§fn is_safe_to_cache_prepared(&self, backend: &DB) -> QueryResult<bool>
fn is_safe_to_cache_prepared(&self, backend: &DB) -> QueryResult<bool>
Is this query safe to store in the prepared statement cache? Read more
source§impl<L: QueryId, R: QueryId> QueryId for Concat<L, R>
impl<L: QueryId, R: QueryId> QueryId for Concat<L, R>
source§impl<L, R, __Rhs> Sub<__Rhs> for Concat<L, R>where
Self: Expression,
<Self as Expression>::SqlType: Sub,
<<Self as Expression>::SqlType as Sub>::Rhs: SqlType + SingleValue,
__Rhs: AsExpression<<<Self as Expression>::SqlType as Sub>::Rhs>,
impl<L, R, __Rhs> Sub<__Rhs> for Concat<L, R>where Self: Expression, <Self as Expression>::SqlType: Sub, <<Self as Expression>::SqlType as Sub>::Rhs: SqlType + SingleValue, __Rhs: AsExpression<<<Self as Expression>::SqlType as Sub>::Rhs>,
§type Output = Sub<Concat<L, R>, <__Rhs as AsExpression<<<Concat<L, R> as Expression>::SqlType as Sub>::Rhs>>::Expression>
type Output = Sub<Concat<L, R>, <__Rhs as AsExpression<<<Concat<L, R> as Expression>::SqlType as Sub>::Rhs>>::Expression>
The resulting type after applying the
-
operator.source§impl<L, R, __GroupByClause> ValidGrouping<__GroupByClause> for Concat<L, R>where
L: ValidGrouping<__GroupByClause>,
R: ValidGrouping<__GroupByClause>,
L::IsAggregate: MixedAggregates<R::IsAggregate>,
impl<L, R, __GroupByClause> ValidGrouping<__GroupByClause> for Concat<L, R>where L: ValidGrouping<__GroupByClause>, R: ValidGrouping<__GroupByClause>, L::IsAggregate: MixedAggregates<R::IsAggregate>,
§type IsAggregate = <<L as ValidGrouping<__GroupByClause>>::IsAggregate as MixedAggregates<<R as ValidGrouping<__GroupByClause>>::IsAggregate>>::Output
type IsAggregate = <<L as ValidGrouping<__GroupByClause>>::IsAggregate as MixedAggregates<<R as ValidGrouping<__GroupByClause>>::IsAggregate>>::Output
Is this expression aggregate? Read more
impl<L, R, QS> AppearsOnTable<QS> for Concat<L, R>where Concat<L, R>: Expression, L: AppearsOnTable<QS>, R: AppearsOnTable<QS>,
impl<L: Copy, R: Copy> Copy for Concat<L, R>
impl<L, R, QS> SelectableExpression<QS> for Concat<L, R>where Concat<L, R>: AppearsOnTable<QS>, L: SelectableExpression<QS>, R: SelectableExpression<QS>,
Auto Trait Implementations§
impl<L, R> RefUnwindSafe for Concat<L, R>where L: RefUnwindSafe, R: RefUnwindSafe,
impl<L, R> Send for Concat<L, R>where L: Send, R: Send,
impl<L, R> Sync for Concat<L, R>where L: Sync, R: Sync,
impl<L, R> Unpin for Concat<L, R>where L: Unpin, R: Unpin,
impl<L, R> UnwindSafe for Concat<L, R>where L: UnwindSafe, R: UnwindSafe,
Blanket Implementations§
source§impl<T, ST> AsExpression<ST> for Twhere
T: Expression<SqlType = ST>,
ST: SqlType + TypedExpressionType,
impl<T, ST> AsExpression<ST> for Twhere T: Expression<SqlType = ST>, ST: SqlType + TypedExpressionType,
§type Expression = T
type Expression = T
The expression being returned
source§fn as_expression(self) -> T
fn as_expression(self) -> T
Perform the conversion
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
Mutably borrows from an owned value. Read more
source§impl<Conn, DB, T> ExecuteDsl<Conn, DB> for Twhere
Conn: Connection<Backend = DB>,
DB: Backend,
T: QueryFragment<DB, NotSpecialized> + QueryId,
impl<Conn, DB, T> ExecuteDsl<Conn, DB> for Twhere Conn: Connection<Backend = DB>, DB: Backend, T: QueryFragment<DB, NotSpecialized> + QueryId,
source§impl<T> IntoSql for T
impl<T> IntoSql for T
source§fn into_sql<T>(self) -> AsExprOf<Self, T>where
Self: AsExpression<T> + Sized,
T: SqlType + TypedExpressionType,
fn into_sql<T>(self) -> AsExprOf<Self, T>where Self: AsExpression<T> + Sized, T: SqlType + TypedExpressionType,
Convert
self
to an expression for Diesel’s query builder. Read moresource§fn as_sql<'a, T>(&'a self) -> AsExprOf<&'a Self, T>where
&'a Self: AsExpression<T>,
T: SqlType + TypedExpressionType,
fn as_sql<'a, T>(&'a self) -> AsExprOf<&'a Self, T>where &'a Self: AsExpression<T>, T: SqlType + TypedExpressionType,
Convert
&self
to an expression for Diesel’s query builder. Read moresource§impl<T> NullableExpressionMethods for Twhere
T: Expression,
impl<T> NullableExpressionMethods for Twhere T: Expression,
source§fn nullable(self) -> Nullable<Self>
fn nullable(self) -> Nullable<Self>
Converts this potentially non-null expression into one which is treated
as nullable. This method has no impact on the generated SQL, and is only
used to allow certain comparisons that would otherwise fail to compile. Read more
source§fn assume_not_null(self) -> AssumeNotNull<Self>
fn assume_not_null(self) -> AssumeNotNull<Self>
Converts this potentially nullable expression into one which will be assumed
to be not-null. This method has no impact on the generated SQL, however it will
enable you to attempt deserialization of the returned value in a non-
Option
. Read moresource§impl<T> PgExpressionMethods for Twhere
T: Expression,
impl<T> PgExpressionMethods for Twhere T: Expression,
source§fn is_not_distinct_from<T>(self, other: T) -> IsNotDistinctFrom<Self, T>where
Self::SqlType: SqlType,
T: AsExpression<Self::SqlType>,
fn is_not_distinct_from<T>(self, other: T) -> IsNotDistinctFrom<Self, T>where Self::SqlType: SqlType, T: AsExpression<Self::SqlType>,
Creates a PostgreSQL
IS NOT DISTINCT FROM
expression. Read moresource§fn is_distinct_from<T>(self, other: T) -> IsDistinctFrom<Self, T>where
Self::SqlType: SqlType,
T: AsExpression<Self::SqlType>,
fn is_distinct_from<T>(self, other: T) -> IsDistinctFrom<Self, T>where Self::SqlType: SqlType, T: AsExpression<Self::SqlType>,
Creates a PostgreSQL
IS DISTINCT FROM
expression. Read more