use crate::associations::BelongsTo;
use crate::backend::Backend;
use crate::deserialize::{
self, FromSqlRow, FromStaticSqlRow, Queryable, SqlTypeOrSelectable, StaticallySizedRow,
};
use crate::expression::{
is_contained_in_group_by, AppearsOnTable, AsExpression, AsExpressionList, Expression,
IsContainedInGroupBy, MixedAggregates, QueryMetadata, Selectable, SelectableExpression,
TypedExpressionType, ValidGrouping,
};
use crate::insertable::{CanInsertInSingleQuery, InsertValues, Insertable, InsertableOptionHelper};
use crate::query_builder::*;
use crate::query_dsl::load_dsl::CompatibleType;
use crate::query_source::*;
use crate::result::QueryResult;
use crate::row::*;
use crate::sql_types::{HasSqlType, IntoNullable, Nullable, OneIsNullable, SqlType};
use crate::util::{TupleAppend, TupleSize};
impl<T> TupleSize for T
where
T: crate::sql_types::SingleValue,
{
const SIZE: usize = 1;
}
macro_rules! tuple_impls {
($(
$Tuple:tt {
$(($idx:tt) -> $T:ident, $ST:ident, $TT:ident,)+
}
)+) => {
$(
impl<$($T),+, __DB> HasSqlType<($($T,)+)> for __DB where
$(__DB: HasSqlType<$T>),+,
__DB: Backend,
{
fn metadata(_: &mut __DB::MetadataLookup) -> __DB::TypeMetadata {
unreachable!("Tuples should never implement `ToSql` directly");
}
}
impl_from_sql_row!(($($T,)+), ($($ST,)+));
impl<$($T: Expression),+> Expression for ($($T,)+)
where ($($T::SqlType, )*): TypedExpressionType
{
type SqlType = ($(<$T as Expression>::SqlType,)+);
}
impl<$($T: TypedExpressionType,)*> TypedExpressionType for ($($T,)*) {}
impl<$($T: SqlType + TypedExpressionType,)*> TypedExpressionType for Nullable<($($T,)*)>
where ($($T,)*): SqlType
{
}
impl<$($T: SqlType,)*> IntoNullable for ($($T,)*)
where Self: SqlType,
{
type Nullable = Nullable<($($T,)*)>;
}
impl<$($T,)+ __DB> Selectable<__DB> for ($($T,)+)
where
__DB: Backend,
$($T: Selectable<__DB>),+,
{
type SelectExpression = ($($T::SelectExpression,)+);
fn construct_selection() -> Self::SelectExpression {
($($T::construct_selection(),)+)
}
}
impl<$($T: QueryFragment<__DB>),+, __DB: Backend> QueryFragment<__DB> for ($($T,)+) {
#[allow(unused_assignments)]
fn walk_ast<'b>(&'b self, mut out: AstPass<'_, 'b, __DB>) -> QueryResult<()>
{
let mut needs_comma = false;
$(
if !self.$idx.is_noop(out.backend())? {
if needs_comma {
out.push_sql(", ");
}
self.$idx.walk_ast(out.reborrow())?;
needs_comma = true;
}
)+
Ok(())
}
}
impl<$($T,)+ Tab> ColumnList for ($($T,)+)
where
$($T: ColumnList<Table = Tab>,)+
{
type Table = Tab;
fn walk_ast<__DB: Backend>(&self, mut out: AstPass<'_, '_, __DB>) -> QueryResult<()> {
$(
if $idx != 0 {
out.push_sql(", ");
}
self.$idx.walk_ast(out.reborrow())?;
)+
Ok(())
}
}
impl<$($T: QueryId),+> QueryId for ($($T,)+) {
type QueryId = ($($T::QueryId,)+);
const HAS_STATIC_QUERY_ID: bool = $($T::HAS_STATIC_QUERY_ID &&)+ true;
}
impl_valid_grouping_for_tuple_of_columns!($($T,)*);
impl<$($T,)+ Tab> UndecoratedInsertRecord<Tab> for ($($T,)+)
where
$($T: UndecoratedInsertRecord<Tab>,)+
{
}
impl<$($T,)+ __DB> CanInsertInSingleQuery<__DB> for ($($T,)+)
where
__DB: Backend,
$($T: CanInsertInSingleQuery<__DB>,)+
{
fn rows_to_insert(&self) -> Option<usize> {
$(debug_assert_eq!(self.$idx.rows_to_insert(), Some(1));)+
Some(1)
}
}
impl<$($T,)+ $($ST,)+ Tab> Insertable<Tab> for ($($T,)+)
where
$($T: Insertable<Tab, Values = ValuesClause<$ST, Tab>>,)+
{
type Values = ValuesClause<($($ST,)+), Tab>;
fn values(self) -> Self::Values {
ValuesClause::new(($(self.$idx.values().values,)+))
}
}
impl<'a, $($T,)+ Tab> Insertable<Tab> for &'a ($($T,)+)
where
($(&'a $T,)+): Insertable<Tab>,
{
type Values = <($(&'a $T,)+) as Insertable<Tab>>::Values;
fn values(self) -> Self::Values {
($(&self.$idx,)+).values()
}
}
#[allow(unused_assignments)]
impl<$($T,)+ Tab, __DB> InsertValues<Tab, __DB> for ($($T,)+)
where
Tab: Table,
__DB: Backend,
$($T: InsertValues<Tab, __DB>,)+
{
fn column_names(&self, mut out: AstPass<'_, '_, __DB>) -> QueryResult<()> {
let mut needs_comma = false;
$(
let noop_element = self.$idx.is_noop(out.backend())?;
if !noop_element {
if needs_comma {
out.push_sql(", ");
}
self.$idx.column_names(out.reborrow())?;
needs_comma = true;
}
)+
Ok(())
}
}
impl<__T, $($ST,)* Tab> Insertable<Tab> for InsertableOptionHelper<__T, ($($ST,)*)>
where
__T: Insertable<Tab>,
__T::Values: Default,
{
type Values = __T::Values;
fn values(self) -> Self::Values {
self.0.map(|v| v.values()).unwrap_or_default()
}
}
impl<$($T,)+ QS> SelectableExpression<QS> for ($($T,)+) where
$($T: SelectableExpression<QS>,)+
($($T,)+): AppearsOnTable<QS>,
{
}
impl<$($T,)+ QS> AppearsOnTable<QS> for ($($T,)+) where
$($T: AppearsOnTable<QS>,)+
($($T,)+): Expression,
{
}
impl<Target, $($T,)+> AsChangeset for ($($T,)+) where
$($T: AsChangeset<Target=Target>,)+
Target: QuerySource,
{
type Target = Target;
type Changeset = ($($T::Changeset,)+);
fn as_changeset(self) -> Self::Changeset {
($(self.$idx.as_changeset(),)+)
}
}
impl<$($T,)+ Parent> BelongsTo<Parent> for ($($T,)+) where
T0: BelongsTo<Parent>,
{
type ForeignKey = T0::ForeignKey;
type ForeignKeyColumn = T0::ForeignKeyColumn;
fn foreign_key(&self) -> Option<&Self::ForeignKey> {
self.0.foreign_key()
}
fn foreign_key_column() -> Self::ForeignKeyColumn {
T0::foreign_key_column()
}
}
impl<$($T,)+ Next> TupleAppend<Next> for ($($T,)+) {
type Output = ($($T,)+ Next);
#[allow(non_snake_case)]
fn tuple_append(self, next: Next) -> Self::Output {
let ($($T,)+) = self;
($($T,)+ next)
}
}
impl<$($T,)+ ST> AsExpressionList<ST> for ($($T,)+) where
$($T: AsExpression<ST>,)+
ST: SqlType + TypedExpressionType,
{
type Expression = ($($T::Expression,)+);
fn as_expression_list(self) -> Self::Expression {
($(self.$idx.as_expression(),)+)
}
}
impl_sql_type!($($T,)*);
impl<$($T,)* __DB, $($ST,)*> Queryable<($($ST,)*), __DB> for ($($T,)*)
where __DB: Backend,
Self: FromStaticSqlRow<($($ST,)*), __DB>,
{
type Row = Self;
fn build(row: Self::Row) -> deserialize::Result<Self> {
Ok(row)
}
}
impl<__T, $($ST,)* __DB> FromStaticSqlRow<Nullable<($($ST,)*)>, __DB> for Option<__T> where
__DB: Backend,
($($ST,)*): SqlType,
__T: FromSqlRow<($($ST,)*), __DB>,
{
#[allow(non_snake_case, unused_variables, unused_mut)]
fn build_from_row<'a>(row: &impl Row<'a, __DB>)
-> deserialize::Result<Self>
{
match <__T as FromSqlRow<($($ST,)*), __DB>>::build_from_row(row) {
Ok(v) => Ok(Some(v)),
Err(e) if e.is::<crate::result::UnexpectedNullError>() => Ok(None),
Err(e) => Err(e)
}
}
}
impl<__T, __DB, $($ST,)*> Queryable<Nullable<($($ST,)*)>, __DB> for Option<__T>
where __DB: Backend,
Self: FromStaticSqlRow<Nullable<($($ST,)*)>, __DB>,
($($ST,)*): SqlType,
{
type Row = Self;
fn build(row: Self::Row) -> deserialize::Result<Self> {
Ok(row)
}
}
impl<$($T,)*> TupleSize for ($($T,)*)
where $($T: TupleSize,)*
{
const SIZE: usize = $($T::SIZE +)* 0;
}
impl<$($T,)*> TupleSize for Nullable<($($T,)*)>
where $($T: TupleSize,)*
($($T,)*): SqlType,
{
const SIZE: usize = $($T::SIZE +)* 0;
}
impl<$($T,)* __DB> QueryMetadata<($($T,)*)> for __DB
where __DB: Backend,
$(__DB: QueryMetadata<$T>,)*
{
fn row_metadata(lookup: &mut Self::MetadataLookup, row: &mut Vec<Option<__DB::TypeMetadata>>) {
$(
<__DB as QueryMetadata<$T>>::row_metadata(lookup, row);
)*
}
}
impl<$($T,)* __DB> QueryMetadata<Nullable<($($T,)*)>> for __DB
where __DB: Backend,
$(__DB: QueryMetadata<$T>,)*
{
fn row_metadata(lookup: &mut Self::MetadataLookup, row: &mut Vec<Option<__DB::TypeMetadata>>) {
$(
<__DB as QueryMetadata<$T>>::row_metadata(lookup, row);
)*
}
}
impl<$($T,)* __DB> deserialize::QueryableByName< __DB> for ($($T,)*)
where __DB: Backend,
$($T: deserialize::QueryableByName<__DB>,)*
{
fn build<'a>(row: &impl NamedRow<'a, __DB>) -> deserialize::Result<Self> {
Ok(($(
<$T as deserialize::QueryableByName<__DB>>::build(row)?,
)*))
}
}
impl<__T, $($ST,)* __DB> CompatibleType<__T, __DB> for ($($ST,)*)
where
__DB: Backend,
__T: FromSqlRow<($($ST,)*), __DB>,
{
type SqlType = Self;
}
impl<__T, $($ST,)* __DB> CompatibleType<Option<__T>, __DB> for Nullable<($($ST,)*)>
where
__DB: Backend,
($($ST,)*): CompatibleType<__T, __DB>
{
type SqlType = Nullable<<($($ST,)*) as CompatibleType<__T, __DB>>::SqlType>;
}
impl<$($ST,)*> SqlTypeOrSelectable for ($($ST,)*)
where $($ST: SqlTypeOrSelectable,)*
{}
impl<$($ST,)*> SqlTypeOrSelectable for Nullable<($($ST,)*)>
where ($($ST,)*): SqlTypeOrSelectable
{}
#[cfg(feature = "postgres")]
impl<__D, $($T,)*> crate::query_dsl::order_dsl::ValidOrderingForDistinct<crate::pg::DistinctOnClause<__D>>
for crate::query_builder::order_clause::OrderClause<(__D, $($T,)*)> {}
)+
}
}
macro_rules! impl_from_sql_row {
(($T1: ident,), ($ST1: ident,)) => {
impl<$T1, $ST1, __DB> crate::deserialize::FromStaticSqlRow<($ST1,), __DB> for ($T1,) where
__DB: Backend,
$ST1: CompatibleType<$T1, __DB>,
$T1: FromSqlRow<<$ST1 as CompatibleType<$T1, __DB>>::SqlType, __DB>,
{
#[allow(non_snake_case, unused_variables, unused_mut)]
fn build_from_row<'a>(row: &impl Row<'a, __DB>)
-> deserialize::Result<Self>
{
Ok(($T1::build_from_row(row)?,))
}
}
};
(($T1: ident, $($T: ident,)*), ($ST1: ident, $($ST: ident,)*)) => {
impl<$T1, $($T,)* $($ST,)* __DB> FromSqlRow<($($ST,)* crate::sql_types::Untyped), __DB> for ($($T,)* $T1)
where __DB: Backend,
$T1: FromSqlRow<crate::sql_types::Untyped, __DB>,
$(
$T: FromSqlRow<$ST, __DB> + StaticallySizedRow<$ST, __DB>,
)*
{
#[allow(non_snake_case, unused_variables, unused_mut)]
fn build_from_row<'a>(full_row: &impl Row<'a, __DB>)
-> deserialize::Result<Self>
{
let field_count = full_row.field_count();
let mut static_field_count = 0;
$(
let row = full_row.partial_row(static_field_count..static_field_count + $T::FIELD_COUNT);
static_field_count += $T::FIELD_COUNT;
let $T = $T::build_from_row(&row)?;
)*
let row = full_row.partial_row(static_field_count..field_count);
Ok(($($T,)* $T1::build_from_row(&row)?,))
}
}
impl<$T1, $ST1, $($T,)* $($ST,)* __DB> FromStaticSqlRow<($($ST,)* $ST1,), __DB> for ($($T,)* $T1,) where
__DB: Backend,
$ST1: CompatibleType<$T1, __DB>,
$T1: FromSqlRow<<$ST1 as CompatibleType<$T1, __DB>>::SqlType, __DB>,
$(
$ST: CompatibleType<$T, __DB>,
$T: FromSqlRow<<$ST as CompatibleType<$T, __DB>>::SqlType, __DB> + StaticallySizedRow<<$ST as CompatibleType<$T, __DB>>::SqlType, __DB>,
)*
{
#[allow(non_snake_case, unused_variables, unused_mut)]
fn build_from_row<'a>(full_row: &impl Row<'a, __DB>)
-> deserialize::Result<Self>
{
let field_count = full_row.field_count();
let mut static_field_count = 0;
$(
let row = full_row.partial_row(static_field_count..static_field_count + $T::FIELD_COUNT);
static_field_count += $T::FIELD_COUNT;
let $T = <$T as FromSqlRow<<$ST as CompatibleType<$T, __DB>>::SqlType, __DB>>::build_from_row(&row)?;
)*
let row = full_row.partial_row(static_field_count..field_count);
Ok(($($T,)* $T1::build_from_row(&row)?,))
}
}
}
}
macro_rules! impl_valid_grouping_for_tuple_of_columns {
($T1: ident, $($T: ident,)+) => {
impl<$T1, $($T,)* __GroupByClause> ValidGrouping<__GroupByClause> for ($T1, $($T,)*)
where
$T1: ValidGrouping<__GroupByClause>,
($($T,)*): ValidGrouping<__GroupByClause>,
$T1::IsAggregate: MixedAggregates<<($($T,)*) as ValidGrouping<__GroupByClause>>::IsAggregate>,
{
type IsAggregate = <$T1::IsAggregate as MixedAggregates<<($($T,)*) as ValidGrouping<__GroupByClause>>::IsAggregate>>::Output;
}
impl<$T1, $($T,)* Col> IsContainedInGroupBy<Col> for ($T1, $($T,)*)
where Col: Column,
($($T,)*): IsContainedInGroupBy<Col>,
$T1: IsContainedInGroupBy<Col>,
$T1::Output: is_contained_in_group_by::IsAny<<($($T,)*) as IsContainedInGroupBy<Col>>::Output>
{
type Output = <$T1::Output as is_contained_in_group_by::IsAny<<($($T,)*) as IsContainedInGroupBy<Col>>::Output>>::Output;
}
};
($T1: ident,) => {
impl<$T1, Col> IsContainedInGroupBy<Col> for ($T1,)
where Col: Column,
$T1: IsContainedInGroupBy<Col>
{
type Output = <$T1 as IsContainedInGroupBy<Col>>::Output;
}
impl<$T1, __GroupByClause> ValidGrouping<__GroupByClause> for ($T1,)
where $T1: ValidGrouping<__GroupByClause>
{
type IsAggregate = $T1::IsAggregate;
}
};
}
macro_rules! impl_sql_type {
(
@build
start_ts = [$($ST: ident,)*],
ts = [$T1: ident,],
bounds = [$($bounds: tt)*],
is_null = [$($is_null: tt)*],
)=> {
impl<$($ST,)*> SqlType for ($($ST,)*)
where
$($ST: SqlType,)*
$($bounds)*
$T1::IsNull: OneIsNullable<$($is_null)*>,
{
type IsNull = <$T1::IsNull as OneIsNullable<$($is_null)*>>::Out;
}
};
(
@build
start_ts = [$($ST: ident,)*],
ts = [$T1: ident, $($T: ident,)+],
bounds = [$($bounds: tt)*],
is_null = [$($is_null: tt)*],
)=> {
impl_sql_type!{
@build
start_ts = [$($ST,)*],
ts = [$($T,)*],
bounds = [$($bounds)* $T1::IsNull: OneIsNullable<$($is_null)*>,],
is_null = [<$T1::IsNull as OneIsNullable<$($is_null)*>>::Out],
}
};
($T1: ident, $($T: ident,)+) => {
impl_sql_type!{
@build
start_ts = [$T1, $($T,)*],
ts = [$($T,)*],
bounds = [],
is_null = [$T1::IsNull],
}
};
($T1: ident,) => {
impl<$T1> SqlType for ($T1,)
where $T1: SqlType,
{
type IsNull = $T1::IsNull;
}
}
}
diesel_derives::__diesel_for_each_tuple!(tuple_impls);