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use crate::{
error::*, ConnectionTrait, EntityTrait, FromQueryResult, IdenStatic, Iterable, ModelTrait,
PrimaryKeyToColumn, QueryResult, Select, SelectA, SelectB, SelectTwo, SelectTwoMany, Statement,
StreamTrait, TryGetableMany,
};
use futures::{Stream, TryStreamExt};
use sea_query::SelectStatement;
use std::marker::PhantomData;
use std::pin::Pin;
#[cfg(feature = "with-json")]
use crate::JsonValue;
/// Defines a type to do `SELECT` operations through a [SelectStatement] on a Model
#[derive(Clone, Debug)]
pub struct Selector<S>
where
S: SelectorTrait,
{
pub(crate) query: SelectStatement,
selector: S,
}
/// Performs a raw `SELECT` operation on a model
#[derive(Clone, Debug)]
pub struct SelectorRaw<S>
where
S: SelectorTrait,
{
pub(crate) stmt: Statement,
#[allow(dead_code)]
selector: S,
}
/// A Trait for any type that can perform SELECT queries
pub trait SelectorTrait {
#[allow(missing_docs)]
type Item: Sized;
/// The method to perform a query on a Model
fn from_raw_query_result(res: QueryResult) -> Result<Self::Item, DbErr>;
}
/// Perform an operation on an entity that can yield a Value
#[derive(Debug)]
pub struct SelectGetableValue<T, C>
where
T: TryGetableMany,
C: strum::IntoEnumIterator + sea_query::Iden,
{
columns: PhantomData<C>,
model: PhantomData<T>,
}
/// Defines a type to get a Model
#[derive(Debug)]
pub struct SelectModel<M>
where
M: FromQueryResult,
{
model: PhantomData<M>,
}
/// Defines a type to get two Modelss
#[derive(Clone, Debug)]
pub struct SelectTwoModel<M, N>
where
M: FromQueryResult,
N: FromQueryResult,
{
model: PhantomData<(M, N)>,
}
impl<T, C> SelectorTrait for SelectGetableValue<T, C>
where
T: TryGetableMany,
C: strum::IntoEnumIterator + sea_query::Iden,
{
type Item = T;
fn from_raw_query_result(res: QueryResult) -> Result<Self::Item, DbErr> {
let cols: Vec<String> = C::iter().map(|col| col.to_string()).collect();
T::try_get_many(&res, "", &cols).map_err(Into::into)
}
}
impl<M> SelectorTrait for SelectModel<M>
where
M: FromQueryResult + Sized,
{
type Item = M;
fn from_raw_query_result(res: QueryResult) -> Result<Self::Item, DbErr> {
M::from_query_result(&res, "")
}
}
impl<M, N> SelectorTrait for SelectTwoModel<M, N>
where
M: FromQueryResult + Sized,
N: FromQueryResult + Sized,
{
type Item = (M, Option<N>);
fn from_raw_query_result(res: QueryResult) -> Result<Self::Item, DbErr> {
Ok((
M::from_query_result(&res, SelectA.as_str())?,
N::from_query_result_optional(&res, SelectB.as_str())?,
))
}
}
impl<E> Select<E>
where
E: EntityTrait,
{
/// Perform a Select operation on a Model using a [Statement]
#[allow(clippy::wrong_self_convention)]
pub fn from_raw_sql(self, stmt: Statement) -> SelectorRaw<SelectModel<E::Model>> {
SelectorRaw {
stmt,
selector: SelectModel { model: PhantomData },
}
}
/// Return a [Selector] from `Self` that wraps a [SelectModel]
pub fn into_model<M>(self) -> Selector<SelectModel<M>>
where
M: FromQueryResult,
{
Selector {
query: self.query,
selector: SelectModel { model: PhantomData },
}
}
/// Get a selectable Model as a [JsonValue] for SQL JSON operations
#[cfg(feature = "with-json")]
pub fn into_json(self) -> Selector<SelectModel<JsonValue>> {
Selector {
query: self.query,
selector: SelectModel { model: PhantomData },
}
}
/// ```
/// # use sea_orm::{error::*, tests_cfg::*, *};
/// #
/// # #[smol_potat::main]
/// # #[cfg(all(feature = "mock", feature = "macros"))]
/// # pub async fn main() -> Result<(), DbErr> {
/// #
/// # let db = MockDatabase::new(DbBackend::Postgres)
/// # .append_query_results(vec![vec![
/// # maplit::btreemap! {
/// # "cake_name" => Into::<Value>::into("Chocolate Forest"),
/// # },
/// # maplit::btreemap! {
/// # "cake_name" => Into::<Value>::into("New York Cheese"),
/// # },
/// # ]])
/// # .into_connection();
/// #
/// use sea_orm::{entity::*, query::*, tests_cfg::cake, DeriveColumn, EnumIter};
///
/// #[derive(Copy, Clone, Debug, EnumIter, DeriveColumn)]
/// enum QueryAs {
/// CakeName,
/// }
///
/// let res: Vec<String> = cake::Entity::find()
/// .select_only()
/// .column_as(cake::Column::Name, QueryAs::CakeName)
/// .into_values::<_, QueryAs>()
/// .all(&db)
/// .await?;
///
/// assert_eq!(
/// res,
/// vec!["Chocolate Forest".to_owned(), "New York Cheese".to_owned()]
/// );
///
/// assert_eq!(
/// db.into_transaction_log(),
/// vec![Transaction::from_sql_and_values(
/// DbBackend::Postgres,
/// r#"SELECT "cake"."name" AS "cake_name" FROM "cake""#,
/// vec![]
/// )]
/// );
/// #
/// # Ok(())
/// # }
/// ```
///
/// ```
/// # use sea_orm::{error::*, tests_cfg::*, *};
/// #
/// # #[smol_potat::main]
/// # #[cfg(all(feature = "mock", feature = "macros"))]
/// # pub async fn main() -> Result<(), DbErr> {
/// #
/// # let db = MockDatabase::new(DbBackend::Postgres)
/// # .append_query_results(vec![vec![
/// # maplit::btreemap! {
/// # "cake_name" => Into::<Value>::into("Chocolate Forest"),
/// # "num_of_cakes" => Into::<Value>::into(2i64),
/// # },
/// # ]])
/// # .into_connection();
/// #
/// use sea_orm::{entity::*, query::*, tests_cfg::cake, DeriveColumn, EnumIter};
///
/// #[derive(Copy, Clone, Debug, EnumIter, DeriveColumn)]
/// enum QueryAs {
/// CakeName,
/// NumOfCakes,
/// }
///
/// let res: Vec<(String, i64)> = cake::Entity::find()
/// .select_only()
/// .column_as(cake::Column::Name, QueryAs::CakeName)
/// .column_as(cake::Column::Id.count(), QueryAs::NumOfCakes)
/// .group_by(cake::Column::Name)
/// .into_values::<_, QueryAs>()
/// .all(&db)
/// .await?;
///
/// assert_eq!(res, vec![("Chocolate Forest".to_owned(), 2i64)]);
///
/// assert_eq!(
/// db.into_transaction_log(),
/// vec![Transaction::from_sql_and_values(
/// DbBackend::Postgres,
/// vec![
/// r#"SELECT "cake"."name" AS "cake_name", COUNT("cake"."id") AS "num_of_cakes""#,
/// r#"FROM "cake" GROUP BY "cake"."name""#,
/// ]
/// .join(" ")
/// .as_str(),
/// vec![]
/// )]
/// );
/// #
/// # Ok(())
/// # }
/// ```
pub fn into_values<T, C>(self) -> Selector<SelectGetableValue<T, C>>
where
T: TryGetableMany,
C: strum::IntoEnumIterator + sea_query::Iden,
{
Selector::<SelectGetableValue<T, C>>::with_columns(self.query)
}
/// Get one Model from the SELECT query
pub async fn one<'a, C>(self, db: &C) -> Result<Option<E::Model>, DbErr>
where
C: ConnectionTrait,
{
self.into_model().one(db).await
}
/// Get all Models from the SELECT query
pub async fn all<'a, C>(self, db: &C) -> Result<Vec<E::Model>, DbErr>
where
C: ConnectionTrait,
{
self.into_model().all(db).await
}
/// Stream the results of a SELECT operation on a Model
pub async fn stream<'a: 'b, 'b, C>(
self,
db: &'a C,
) -> Result<impl Stream<Item = Result<E::Model, DbErr>> + 'b + Send, DbErr>
where
C: ConnectionTrait + StreamTrait<'a> + Send,
{
self.into_model().stream(db).await
}
}
impl<E, F> SelectTwo<E, F>
where
E: EntityTrait,
F: EntityTrait,
{
/// Perform a conversion into a [SelectTwoModel]
pub fn into_model<M, N>(self) -> Selector<SelectTwoModel<M, N>>
where
M: FromQueryResult,
N: FromQueryResult,
{
Selector {
query: self.query,
selector: SelectTwoModel { model: PhantomData },
}
}
/// Convert the Models into JsonValue
#[cfg(feature = "with-json")]
pub fn into_json(self) -> Selector<SelectTwoModel<JsonValue, JsonValue>> {
Selector {
query: self.query,
selector: SelectTwoModel { model: PhantomData },
}
}
/// Get one Model from the Select query
pub async fn one<'a, C>(self, db: &C) -> Result<Option<(E::Model, Option<F::Model>)>, DbErr>
where
C: ConnectionTrait,
{
self.into_model().one(db).await
}
/// Get all Models from the Select query
pub async fn all<'a, C>(self, db: &C) -> Result<Vec<(E::Model, Option<F::Model>)>, DbErr>
where
C: ConnectionTrait,
{
self.into_model().all(db).await
}
/// Stream the results of a Select operation on a Model
pub async fn stream<'a: 'b, 'b, C>(
self,
db: &'a C,
) -> Result<impl Stream<Item = Result<(E::Model, Option<F::Model>), DbErr>> + 'b, DbErr>
where
C: ConnectionTrait + StreamTrait<'a> + Send,
{
self.into_model().stream(db).await
}
}
impl<E, F> SelectTwoMany<E, F>
where
E: EntityTrait,
F: EntityTrait,
{
/// Performs a conversion to [Selector]
fn into_model<M, N>(self) -> Selector<SelectTwoModel<M, N>>
where
M: FromQueryResult,
N: FromQueryResult,
{
Selector {
query: self.query,
selector: SelectTwoModel { model: PhantomData },
}
}
/// Convert the results to JSON
#[cfg(feature = "with-json")]
pub fn into_json(self) -> Selector<SelectTwoModel<JsonValue, JsonValue>> {
Selector {
query: self.query,
selector: SelectTwoModel { model: PhantomData },
}
}
/// Select one Model
pub async fn one<'a, C>(self, db: &C) -> Result<Option<(E::Model, Option<F::Model>)>, DbErr>
where
C: ConnectionTrait,
{
self.into_model().one(db).await
}
/// Stream the result of the operation
pub async fn stream<'a: 'b, 'b, C>(
self,
db: &'a C,
) -> Result<impl Stream<Item = Result<(E::Model, Option<F::Model>), DbErr>> + 'b + Send, DbErr>
where
C: ConnectionTrait + StreamTrait<'a> + Send,
{
self.into_model().stream(db).await
}
/// Get all Models from the select operation
pub async fn all<'a, C>(self, db: &C) -> Result<Vec<(E::Model, Vec<F::Model>)>, DbErr>
where
C: ConnectionTrait,
{
let rows = self.into_model().all(db).await?;
Ok(consolidate_query_result::<E, F>(rows))
}
// pub fn paginate()
// we could not implement paginate easily, if the number of children for a
// parent is larger than one page, then we will end up splitting it in two pages
// so the correct way is actually perform query in two stages
// paginate the parent model and then populate the children
// pub fn count()
// we should only count the number of items of the parent model
}
impl<S> Selector<S>
where
S: SelectorTrait,
{
/// Create `Selector` from Statment and columns. Executing this `Selector`
/// will return a type `T` which implement `TryGetableMany`.
pub fn with_columns<T, C>(query: SelectStatement) -> Selector<SelectGetableValue<T, C>>
where
T: TryGetableMany,
C: strum::IntoEnumIterator + sea_query::Iden,
{
Selector {
query,
selector: SelectGetableValue {
columns: PhantomData,
model: PhantomData,
},
}
}
fn into_selector_raw<'a, C>(self, db: &C) -> SelectorRaw<S>
where
C: ConnectionTrait,
{
let builder = db.get_database_backend();
let stmt = builder.build(&self.query);
SelectorRaw {
stmt,
selector: self.selector,
}
}
/// Get an item from the Select query
pub async fn one<'a, C>(mut self, db: &C) -> Result<Option<S::Item>, DbErr>
where
C: ConnectionTrait,
{
self.query.limit(1);
self.into_selector_raw(db).one(db).await
}
/// Get all items from the Select query
pub async fn all<'a, C>(self, db: &C) -> Result<Vec<S::Item>, DbErr>
where
C: ConnectionTrait,
{
self.into_selector_raw(db).all(db).await
}
/// Stream the results of the Select operation
pub async fn stream<'a: 'b, 'b, C>(
self,
db: &'a C,
) -> Result<Pin<Box<dyn Stream<Item = Result<S::Item, DbErr>> + 'b + Send>>, DbErr>
where
C: ConnectionTrait + StreamTrait<'a> + Send,
S: 'b,
S::Item: Send,
{
self.into_selector_raw(db).stream(db).await
}
}
impl<S> SelectorRaw<S>
where
S: SelectorTrait,
{
/// Select a custom Model from a raw SQL [Statement].
pub fn from_statement<M>(stmt: Statement) -> SelectorRaw<SelectModel<M>>
where
M: FromQueryResult,
{
SelectorRaw {
stmt,
selector: SelectModel { model: PhantomData },
}
}
/// Create `SelectorRaw` from Statement and columns. Executing this `SelectorRaw` will
/// return a type `T` which implement `TryGetableMany`.
pub fn with_columns<T, C>(stmt: Statement) -> SelectorRaw<SelectGetableValue<T, C>>
where
T: TryGetableMany,
C: strum::IntoEnumIterator + sea_query::Iden,
{
SelectorRaw {
stmt,
selector: SelectGetableValue {
columns: PhantomData,
model: PhantomData,
},
}
}
/// ```
/// # use sea_orm::{error::*, tests_cfg::*, *};
/// #
/// # #[smol_potat::main]
/// # #[cfg(feature = "mock")]
/// # pub async fn main() -> Result<(), DbErr> {
/// #
/// # let db = MockDatabase::new(DbBackend::Postgres)
/// # .append_query_results(vec![vec![
/// # maplit::btreemap! {
/// # "name" => Into::<Value>::into("Chocolate Forest"),
/// # "num_of_cakes" => Into::<Value>::into(1),
/// # },
/// # maplit::btreemap! {
/// # "name" => Into::<Value>::into("New York Cheese"),
/// # "num_of_cakes" => Into::<Value>::into(1),
/// # },
/// # ]])
/// # .into_connection();
/// #
/// use sea_orm::{entity::*, query::*, tests_cfg::cake, FromQueryResult};
///
/// #[derive(Debug, PartialEq, FromQueryResult)]
/// struct SelectResult {
/// name: String,
/// num_of_cakes: i32,
/// }
///
/// let res: Vec<SelectResult> = cake::Entity::find()
/// .from_raw_sql(Statement::from_sql_and_values(
/// DbBackend::Postgres,
/// r#"SELECT "cake"."name", count("cake"."id") AS "num_of_cakes" FROM "cake""#,
/// vec![],
/// ))
/// .into_model::<SelectResult>()
/// .all(&db)
/// .await?;
///
/// assert_eq!(
/// res,
/// vec![
/// SelectResult {
/// name: "Chocolate Forest".to_owned(),
/// num_of_cakes: 1,
/// },
/// SelectResult {
/// name: "New York Cheese".to_owned(),
/// num_of_cakes: 1,
/// },
/// ]
/// );
///
/// assert_eq!(
/// db.into_transaction_log(),
/// vec![Transaction::from_sql_and_values(
/// DbBackend::Postgres,
/// r#"SELECT "cake"."name", count("cake"."id") AS "num_of_cakes" FROM "cake""#,
/// vec![]
/// ),]
/// );
/// #
/// # Ok(())
/// # }
/// ```
pub fn into_model<M>(self) -> SelectorRaw<SelectModel<M>>
where
M: FromQueryResult,
{
SelectorRaw {
stmt: self.stmt,
selector: SelectModel { model: PhantomData },
}
}
/// ```
/// # use sea_orm::{error::*, tests_cfg::*, *};
/// #
/// # #[smol_potat::main]
/// # #[cfg(feature = "mock")]
/// # pub async fn main() -> Result<(), DbErr> {
/// #
/// # let db = MockDatabase::new(DbBackend::Postgres)
/// # .append_query_results(vec![vec![
/// # maplit::btreemap! {
/// # "name" => Into::<Value>::into("Chocolate Forest"),
/// # "num_of_cakes" => Into::<Value>::into(1),
/// # },
/// # maplit::btreemap! {
/// # "name" => Into::<Value>::into("New York Cheese"),
/// # "num_of_cakes" => Into::<Value>::into(1),
/// # },
/// # ]])
/// # .into_connection();
/// #
/// use sea_orm::{entity::*, query::*, tests_cfg::cake};
///
/// let res: Vec<serde_json::Value> = cake::Entity::find().from_raw_sql(
/// Statement::from_sql_and_values(
/// DbBackend::Postgres, r#"SELECT "cake"."id", "cake"."name" FROM "cake""#, vec![]
/// )
/// )
/// .into_json()
/// .all(&db)
/// .await?;
///
/// assert_eq!(
/// res,
/// vec![
/// serde_json::json!({
/// "name": "Chocolate Forest",
/// "num_of_cakes": 1,
/// }),
/// serde_json::json!({
/// "name": "New York Cheese",
/// "num_of_cakes": 1,
/// }),
/// ]
/// );
///
/// assert_eq!(
/// db.into_transaction_log(),
/// vec![
/// Transaction::from_sql_and_values(
/// DbBackend::Postgres, r#"SELECT "cake"."id", "cake"."name" FROM "cake""#, vec![]
/// ),
/// ]);
/// #
/// # Ok(())
/// # }
/// ```
#[cfg(feature = "with-json")]
pub fn into_json(self) -> SelectorRaw<SelectModel<JsonValue>> {
SelectorRaw {
stmt: self.stmt,
selector: SelectModel { model: PhantomData },
}
}
/// Get an item from the Select query
/// ```
/// # use sea_orm::{error::*, tests_cfg::*, *};
/// #
/// # #[smol_potat::main]
/// # #[cfg(feature = "mock")]
/// # pub async fn main() -> Result<(), DbErr> {
/// #
/// # let db = MockDatabase::new(DbBackend::Postgres)
/// # .append_query_results(vec![
/// # vec![cake::Model {
/// # id: 1,
/// # name: "Cake".to_owned(),
/// # }],
/// # ])
/// # .into_connection();
/// #
/// use sea_orm::{entity::*, query::*, tests_cfg::cake};
///
/// let _: Option<cake::Model> = cake::Entity::find()
/// .from_raw_sql(Statement::from_sql_and_values(
/// DbBackend::Postgres,
/// r#"SELECT "cake"."id", "cake"."name" FROM "cake" WHERE "id" = $1"#,
/// vec![1.into()],
/// ))
/// .one(&db)
/// .await?;
///
/// assert_eq!(
/// db.into_transaction_log(),
/// vec![Transaction::from_sql_and_values(
/// DbBackend::Postgres,
/// r#"SELECT "cake"."id", "cake"."name" FROM "cake" WHERE "id" = $1"#,
/// vec![1.into()]
/// ),]
/// );
/// #
/// # Ok(())
/// # }
/// ```
pub async fn one<'a, C>(self, db: &C) -> Result<Option<S::Item>, DbErr>
where
C: ConnectionTrait,
{
let row = db.query_one(self.stmt).await?;
match row {
Some(row) => Ok(Some(S::from_raw_query_result(row)?)),
None => Ok(None),
}
}
/// Get all items from the Select query
/// ```
/// # use sea_orm::{error::*, tests_cfg::*, *};
/// #
/// # #[smol_potat::main]
/// # #[cfg(feature = "mock")]
/// # pub async fn main() -> Result<(), DbErr> {
/// #
/// # let db = MockDatabase::new(DbBackend::Postgres)
/// # .append_query_results(vec![
/// # vec![cake::Model {
/// # id: 1,
/// # name: "Cake".to_owned(),
/// # }],
/// # ])
/// # .into_connection();
/// #
/// use sea_orm::{entity::*, query::*, tests_cfg::cake};
///
/// let _: Vec<cake::Model> = cake::Entity::find()
/// .from_raw_sql(Statement::from_sql_and_values(
/// DbBackend::Postgres,
/// r#"SELECT "cake"."id", "cake"."name" FROM "cake""#,
/// vec![],
/// ))
/// .all(&db)
/// .await?;
///
/// assert_eq!(
/// db.into_transaction_log(),
/// vec![Transaction::from_sql_and_values(
/// DbBackend::Postgres,
/// r#"SELECT "cake"."id", "cake"."name" FROM "cake""#,
/// vec![]
/// ),]
/// );
/// #
/// # Ok(())
/// # }
/// ```
pub async fn all<'a, C>(self, db: &C) -> Result<Vec<S::Item>, DbErr>
where
C: ConnectionTrait,
{
let rows = db.query_all(self.stmt).await?;
let mut models = Vec::new();
for row in rows.into_iter() {
models.push(S::from_raw_query_result(row)?);
}
Ok(models)
}
/// Stream the results of the Select operation
pub async fn stream<'a: 'b, 'b, C>(
self,
db: &'a C,
) -> Result<Pin<Box<dyn Stream<Item = Result<S::Item, DbErr>> + 'b + Send>>, DbErr>
where
C: ConnectionTrait + StreamTrait<'a> + Send,
S: 'b,
S::Item: Send,
{
let stream = db.stream(self.stmt).await?;
Ok(Box::pin(stream.and_then(|row| {
futures::future::ready(S::from_raw_query_result(row))
})))
}
}
fn consolidate_query_result<L, R>(
rows: Vec<(L::Model, Option<R::Model>)>,
) -> Vec<(L::Model, Vec<R::Model>)>
where
L: EntityTrait,
R: EntityTrait,
{
let mut acc: Vec<(L::Model, Vec<R::Model>)> = Vec::new();
for (l, r) in rows {
if let Some((last_l, last_r)) = acc.last_mut() {
let mut same_l = true;
for pk_col in <L::PrimaryKey as Iterable>::iter() {
let col = pk_col.into_column();
let val = l.get(col);
let last_val = last_l.get(col);
if !val.eq(&last_val) {
same_l = false;
break;
}
}
if same_l {
if let Some(r) = r {
last_r.push(r);
continue;
}
}
}
if r.is_some() {
acc.push((l, vec![r.unwrap()]));
} else {
acc.push((l, vec![]));
}
}
acc
}