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use crate::database::Database;
use crate::error::Error;
use crate::pool::{MaybePoolConnection, Pool, PoolConnection};
use crate::transaction::Transaction;
use futures_core::future::BoxFuture;
use std::ops::{Deref, DerefMut};
/// Acquire connections or transactions from a database in a generic way.
///
/// If you want to accept generic database connections that implement
/// [`Acquire`] which then allows you to [`acquire`][`Acquire::acquire`] a
/// connection or [`begin`][`Acquire::begin`] a transaction, then you can do it
/// like that:
///
/// ```rust
/// # use sqlx::{Acquire, postgres::Postgres, error::BoxDynError};
/// # #[cfg(any(postgres_9_6, postgres_15))]
/// async fn run_query<'a, A>(conn: A) -> Result<(), BoxDynError>
/// where
/// A: Acquire<'a, Database = Postgres>,
/// {
/// let mut conn = conn.acquire().await?;
///
/// sqlx::query!("SELECT 1 as v").fetch_one(&mut *conn).await?;
/// sqlx::query!("SELECT 2 as v").fetch_one(&mut *conn).await?;
///
/// Ok(())
/// }
/// ```
///
/// If you run into a lifetime error about "implementation of `sqlx::Acquire` is
/// not general enough", the [workaround] looks like this:
///
/// ```rust
/// # use std::future::Future;
/// # use sqlx::{Acquire, postgres::Postgres, error::BoxDynError};
/// # #[cfg(any(postgres_9_6, postgres_15))]
/// fn run_query<'a, 'c, A>(conn: A) -> impl Future<Output = Result<(), BoxDynError>> + Send + 'a
/// where
/// A: Acquire<'c, Database = Postgres> + Send + 'a,
/// {
/// async move {
/// let mut conn = conn.acquire().await?;
///
/// sqlx::query!("SELECT 1 as v").fetch_one(&mut *conn).await?;
/// sqlx::query!("SELECT 2 as v").fetch_one(&mut *conn).await?;
///
/// Ok(())
/// }
/// }
/// ```
///
/// However, if you really just want to accept both, a transaction or a
/// connection as an argument to a function, then it's easier to just accept a
/// mutable reference to a database connection like so:
///
/// ```rust
/// # use sqlx::{postgres::PgConnection, error::BoxDynError};
/// # #[cfg(any(postgres_9_6, postgres_15))]
/// async fn run_query(conn: &mut PgConnection) -> Result<(), BoxDynError> {
/// sqlx::query!("SELECT 1 as v").fetch_one(&mut *conn).await?;
/// sqlx::query!("SELECT 2 as v").fetch_one(&mut *conn).await?;
///
/// Ok(())
/// }
/// ```
///
/// The downside of this approach is that you have to `acquire` a connection
/// from a pool first and can't directly pass the pool as argument.
///
/// [workaround]: https://github.com/launchbadge/sqlx/issues/1015#issuecomment-767787777
pub trait Acquire<'c> {
type Database: Database;
type Connection: Deref<Target = <Self::Database as Database>::Connection> + DerefMut + Send;
fn acquire(self) -> BoxFuture<'c, Result<Self::Connection, Error>>;
fn begin(self) -> BoxFuture<'c, Result<Transaction<'c, Self::Database>, Error>>;
}
impl<'a, DB: Database> Acquire<'a> for &'_ Pool<DB> {
type Database = DB;
type Connection = PoolConnection<DB>;
fn acquire(self) -> BoxFuture<'static, Result<Self::Connection, Error>> {
Box::pin(self.acquire())
}
fn begin(self) -> BoxFuture<'static, Result<Transaction<'a, DB>, Error>> {
let conn = self.acquire();
Box::pin(async move {
Transaction::begin(MaybePoolConnection::PoolConnection(conn.await?)).await
})
}
}
#[macro_export]
macro_rules! impl_acquire {
($DB:ident, $C:ident) => {
impl<'c> $crate::acquire::Acquire<'c> for &'c mut $C {
type Database = $DB;
type Connection = &'c mut <$DB as $crate::database::Database>::Connection;
#[inline]
fn acquire(
self,
) -> futures_core::future::BoxFuture<'c, Result<Self::Connection, $crate::error::Error>>
{
Box::pin(futures_util::future::ok(self))
}
#[inline]
fn begin(
self,
) -> futures_core::future::BoxFuture<
'c,
Result<$crate::transaction::Transaction<'c, $DB>, $crate::error::Error>,
> {
$crate::transaction::Transaction::begin(self)
}
}
};
}