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use crate::{
ColumnTrait, EntityTrait, Identity, IntoSimpleExpr, Iterable, ModelTrait, PrimaryKeyToColumn,
RelationDef,
};
use sea_query::{
Alias, Expr, IntoCondition, SeaRc, SelectExpr, SelectStatement, SimpleExpr, TableRef,
};
pub use sea_query::{Condition, ConditionalStatement, DynIden, JoinType, Order, OrderedStatement};
// LINT: when the column does not appear in tables selected from
// LINT: when there is a group by clause, but some columns don't have aggregate functions
// LINT: when the join table or column does not exists
pub trait QuerySelect: Sized {
type QueryStatement;
fn query(&mut self) -> &mut SelectStatement;
/// Clear the selection list
fn select_only(mut self) -> Self {
self.query().clear_selects();
self
}
/// Add a select column
/// ```
/// use sea_orm::{entity::*, query::*, tests_cfg::cake, DbBackend};
///
/// assert_eq!(
/// cake::Entity::find()
/// .select_only()
/// .column(cake::Column::Name)
/// .build(DbBackend::Postgres)
/// .to_string(),
/// r#"SELECT "cake"."name" FROM "cake""#
/// );
/// ```
fn column<C>(mut self, col: C) -> Self
where
C: ColumnTrait,
{
self.query().expr(col.into_simple_expr());
self
}
/// Add a select column with alias
/// ```
/// use sea_orm::{entity::*, query::*, tests_cfg::cake, DbBackend};
///
/// assert_eq!(
/// cake::Entity::find()
/// .select_only()
/// .column_as(cake::Column::Id.count(), "count")
/// .build(DbBackend::Postgres)
/// .to_string(),
/// r#"SELECT COUNT("cake"."id") AS "count" FROM "cake""#
/// );
/// ```
fn column_as<C>(mut self, col: C, alias: &str) -> Self
where
C: IntoSimpleExpr,
{
self.query().expr(SelectExpr {
expr: col.into_simple_expr(),
alias: Some(SeaRc::new(Alias::new(alias))),
});
self
}
/// Add a group by column
/// ```
/// use sea_orm::{entity::*, query::*, tests_cfg::cake, DbBackend};
///
/// assert_eq!(
/// cake::Entity::find()
/// .select_only()
/// .column(cake::Column::Name)
/// .group_by(cake::Column::Name)
/// .build(DbBackend::Postgres)
/// .to_string(),
/// r#"SELECT "cake"."name" FROM "cake" GROUP BY "cake"."name""#
/// );
/// ```
fn group_by<C>(mut self, col: C) -> Self
where
C: IntoSimpleExpr,
{
self.query().add_group_by(vec![col.into_simple_expr()]);
self
}
/// Add an AND HAVING expression
/// ```
/// use sea_orm::{entity::*, query::*, tests_cfg::cake, DbBackend};
///
/// assert_eq!(
/// cake::Entity::find()
/// .having(cake::Column::Id.eq(4))
/// .having(cake::Column::Id.eq(5))
/// .build(DbBackend::MySql)
/// .to_string(),
/// "SELECT `cake`.`id`, `cake`.`name` FROM `cake` HAVING `cake`.`id` = 4 AND `cake`.`id` = 5"
/// );
/// ```
fn having<F>(mut self, filter: F) -> Self
where
F: IntoCondition,
{
self.query().cond_having(filter.into_condition());
self
}
#[doc(hidden)]
fn join_join(mut self, join: JoinType, rel: RelationDef, via: Option<RelationDef>) -> Self {
if let Some(via) = via {
self = self.join(join, via)
}
self.join(join, rel)
}
#[doc(hidden)]
fn join_join_rev(mut self, join: JoinType, rel: RelationDef, via: Option<RelationDef>) -> Self {
self = self.join_rev(join, rel);
if let Some(via) = via {
self = self.join_rev(join, via)
}
self
}
/// Join via [`RelationDef`].
fn join(mut self, join: JoinType, rel: RelationDef) -> Self {
self.query()
.join(join, rel.to_tbl.clone(), join_condition(rel));
self
}
/// Join via [`RelationDef`] but in reverse direction.
/// Assume when there exist a relation A to B.
/// You can reverse join B from A.
fn join_rev(mut self, join: JoinType, rel: RelationDef) -> Self {
self.query()
.join(join, rel.from_tbl.clone(), join_condition(rel));
self
}
}
// LINT: when the column does not appear in tables selected from
pub trait QueryOrder: Sized {
type QueryStatement: OrderedStatement;
fn query(&mut self) -> &mut SelectStatement;
/// Add an order_by expression
/// ```
/// use sea_orm::{entity::*, query::*, tests_cfg::cake, DbBackend};
///
/// assert_eq!(
/// cake::Entity::find()
/// .order_by(cake::Column::Id, Order::Asc)
/// .order_by(cake::Column::Name, Order::Desc)
/// .build(DbBackend::MySql)
/// .to_string(),
/// "SELECT `cake`.`id`, `cake`.`name` FROM `cake` ORDER BY `cake`.`id` ASC, `cake`.`name` DESC"
/// );
/// ```
fn order_by<C>(mut self, col: C, ord: Order) -> Self
where
C: IntoSimpleExpr,
{
self.query().order_by_expr(col.into_simple_expr(), ord);
self
}
/// Add an order_by expression (ascending)
/// ```
/// use sea_orm::{entity::*, query::*, tests_cfg::cake, DbBackend};
///
/// assert_eq!(
/// cake::Entity::find()
/// .order_by_asc(cake::Column::Id)
/// .build(DbBackend::MySql)
/// .to_string(),
/// "SELECT `cake`.`id`, `cake`.`name` FROM `cake` ORDER BY `cake`.`id` ASC"
/// );
/// ```
fn order_by_asc<C>(mut self, col: C) -> Self
where
C: IntoSimpleExpr,
{
self.query()
.order_by_expr(col.into_simple_expr(), Order::Asc);
self
}
/// Add an order_by expression (descending)
/// ```
/// use sea_orm::{entity::*, query::*, tests_cfg::cake, DbBackend};
///
/// assert_eq!(
/// cake::Entity::find()
/// .order_by_desc(cake::Column::Id)
/// .build(DbBackend::MySql)
/// .to_string(),
/// "SELECT `cake`.`id`, `cake`.`name` FROM `cake` ORDER BY `cake`.`id` DESC"
/// );
/// ```
fn order_by_desc<C>(mut self, col: C) -> Self
where
C: IntoSimpleExpr,
{
self.query()
.order_by_expr(col.into_simple_expr(), Order::Desc);
self
}
}
// LINT: when the column does not appear in tables selected from
pub trait QueryFilter: Sized {
type QueryStatement: ConditionalStatement;
fn query(&mut self) -> &mut Self::QueryStatement;
/// Add an AND WHERE expression
/// ```
/// use sea_orm::{entity::*, query::*, tests_cfg::cake, DbBackend};
///
/// assert_eq!(
/// cake::Entity::find()
/// .filter(cake::Column::Id.eq(4))
/// .filter(cake::Column::Id.eq(5))
/// .build(DbBackend::MySql)
/// .to_string(),
/// "SELECT `cake`.`id`, `cake`.`name` FROM `cake` WHERE `cake`.`id` = 4 AND `cake`.`id` = 5"
/// );
/// ```
///
/// Add a condition tree.
/// ```
/// use sea_orm::{entity::*, query::*, tests_cfg::cake, DbBackend};
///
/// assert_eq!(
/// cake::Entity::find()
/// .filter(
/// Condition::any()
/// .add(cake::Column::Id.eq(4))
/// .add(cake::Column::Id.eq(5))
/// )
/// .build(DbBackend::MySql)
/// .to_string(),
/// "SELECT `cake`.`id`, `cake`.`name` FROM `cake` WHERE `cake`.`id` = 4 OR `cake`.`id` = 5"
/// );
/// ```
fn filter<F>(mut self, filter: F) -> Self
where
F: IntoCondition,
{
self.query().cond_where(filter.into_condition());
self
}
/// Apply a where condition using the model's primary key
fn belongs_to<M>(mut self, model: &M) -> Self
where
M: ModelTrait,
{
for key in <M::Entity as EntityTrait>::PrimaryKey::iter() {
let col = key.into_column();
self = self.filter(col.eq(model.get(col)));
}
self
}
}
fn join_condition(rel: RelationDef) -> SimpleExpr {
let from_tbl = unpack_table_ref(&rel.from_tbl);
let to_tbl = unpack_table_ref(&rel.to_tbl);
let owner_keys = rel.from_col;
let foreign_keys = rel.to_col;
match (owner_keys, foreign_keys) {
(Identity::Unary(o1), Identity::Unary(f1)) => {
Expr::tbl(SeaRc::clone(&from_tbl), o1).equals(SeaRc::clone(&to_tbl), f1)
}
(Identity::Binary(o1, o2), Identity::Binary(f1, f2)) => {
Expr::tbl(SeaRc::clone(&from_tbl), o1)
.equals(SeaRc::clone(&to_tbl), f1)
.and(Expr::tbl(SeaRc::clone(&from_tbl), o2).equals(SeaRc::clone(&to_tbl), f2))
}
(Identity::Ternary(o1, o2, o3), Identity::Ternary(f1, f2, f3)) => {
Expr::tbl(SeaRc::clone(&from_tbl), o1)
.equals(SeaRc::clone(&to_tbl), f1)
.and(Expr::tbl(SeaRc::clone(&from_tbl), o2).equals(SeaRc::clone(&to_tbl), f2))
.and(Expr::tbl(SeaRc::clone(&from_tbl), o3).equals(SeaRc::clone(&to_tbl), f3))
}
_ => panic!("Owner key and foreign key mismatch"),
}
}
fn unpack_table_ref(table_ref: &TableRef) -> DynIden {
match table_ref {
TableRef::Table(tbl) => SeaRc::clone(tbl),
TableRef::SchemaTable(_, tbl) => SeaRc::clone(tbl),
TableRef::TableAlias(tbl, _) => SeaRc::clone(tbl),
TableRef::SchemaTableAlias(_, tbl, _) => SeaRc::clone(tbl),
TableRef::SubQuery(_, tbl) => SeaRc::clone(tbl),
}
}