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使用 #[belongs_to]#[has_many] 定义实体之间的关系。关系在repository中生成类型安全的导航方法。

快速开始

// 父实体
#[derive(Entity)]
#[entity(table = "users")]
#[has_many(Post)]
pub struct User {
    #[id]
    pub id: Uuid,

    #[field(create, update, response)]
    pub name: String,
}

// 子实体
#[derive(Entity)]
#[entity(table = "posts")]
pub struct Post {
    #[id]
    pub id: Uuid,

    #[field(create, response)]
    #[belongs_to(User)]
    pub user_id: Uuid,

    #[field(create, update, response)]
    pub title: String,
}

生成的代码

User上的 #[has_many(Post)]

#[async_trait]
impl UserRepository for PgPool {
    // ... 标准CRUD方法

    /// 查找属于此用户的所有文章。
    async fn find_posts(&self, user_id: Uuid) -> Result<Vec<Post>, Self::Error> {
        let rows: Vec<PostRow> = sqlx::query_as(
            "SELECT * FROM posts WHERE user_id = $1 ORDER BY created_at DESC"
        )
        .bind(&user_id)
        .fetch_all(self)
        .await?;

        Ok(rows.into_iter().map(Post::from).collect())
    }
}

Post上的 #[belongs_to(User)]

#[async_trait]
impl PostRepository for PgPool {
    // ... 标准CRUD方法

    /// 查找此文章所属的用户。
    async fn find_user(&self, id: Uuid) -> Result<Option<User>, Self::Error> {
        // 首先获取文章以找到user_id
        let post = self.find_by_id(id).await?;

        if let Some(post) = post {
            let row: Option<UserRow> = sqlx::query_as(
                "SELECT * FROM users WHERE id = $1"
            )
            .bind(&post.user_id)
            .fetch_optional(self)
            .await?;

            Ok(row.map(User::from))
        } else {
            Ok(None)
        }
    }
}

关系类型

belongs_to(多对一)

子实体通过外键引用父实体。

#[derive(Entity)]
#[entity(table = "comments")]
pub struct Comment {
    #[id]
    pub id: Uuid,

    #[field(create, response)]
    #[belongs_to(Post)]
    pub post_id: Uuid,

    #[field(create, response)]
    #[belongs_to(User)]
    pub author_id: Uuid,

    #[field(create, response)]
    pub content: String,
}

生成的方法:

  • find_post(comment_id)Option<Post>
  • find_author(comment_id)Option<User>(注:方法名从字段名派生,去掉 _id

has_many(一对多)

父实体拥有多个子实体。

#[derive(Entity)]
#[entity(table = "users")]
#[has_many(Post)]
#[has_many(Comment)]
pub struct User {
    #[id]
    pub id: Uuid,
    // ...
}

生成的方法:

  • find_posts(user_id)Vec<Post>
  • find_comments(user_id)Vec<Comment>

使用示例

加载关联数据

// 获取用户及其文章
async fn get_user_with_posts(
    pool: &PgPool,
    user_id: Uuid,
) -> Result<Option<(User, Vec<Post>)>, sqlx::Error> {
    let user = pool.find_by_id(user_id).await?;

    if let Some(user) = user {
        let posts = pool.find_posts(user_id).await?;
        Ok(Some((user, posts)))
    } else {
        Ok(None)
    }
}

// 获取文章及作者
async fn get_post_with_author(
    pool: &PgPool,
    post_id: Uuid,
) -> Result<Option<(Post, User)>, sqlx::Error> {
    let post = pool.find_by_id(post_id).await?;

    if let Some(post) = post {
        let user = pool.find_user(post.id).await?;
        if let Some(user) = user {
            return Ok(Some((post, user)));
        }
    }

    Ok(None)
}

构建响应DTO

#[derive(Serialize)]
pub struct PostWithAuthor {
    #[serde(flatten)]
    pub post: PostResponse,
    pub author: UserResponse,
}

async fn get_posts_with_authors(
    pool: &PgPool,
    limit: i64,
) -> Result<Vec<PostWithAuthor>, sqlx::Error> {
    let posts = pool.list(limit, 0).await?;

    let mut results = Vec::with_capacity(posts.len());

    for post in posts {
        if let Some(user) = pool.find_user(post.id).await? {
            results.push(PostWithAuthor {
                post: PostResponse::from(&post),
                author: UserResponse::from(&user),
            });
        }
    }

    Ok(results)
}

多重关系

一个实体可以有多个关系:

#[derive(Entity)]
#[entity(table = "organizations")]
#[has_many(User)]
#[has_many(Project)]
#[has_many(Team)]
pub struct Organization {
    #[id]
    pub id: Uuid,

    #[field(create, update, response)]
    pub name: String,
}

#[derive(Entity)]
#[entity(table = "projects")]
pub struct Project {
    #[id]
    pub id: Uuid,

    #[field(create, response)]
    #[belongs_to(Organization)]
    pub organization_id: Uuid,

    #[field(create, response)]
    #[belongs_to(User)]
    pub owner_id: Uuid,

    #[field(create, update, response)]
    pub name: String,
}

Organization生成:

  • find_users(org_id)
  • find_projects(org_id)
  • find_teams(org_id)

Project生成:

  • find_organization(project_id)
  • find_owner(project_id)

使用 sql = “trait” 自定义Join

对于需要eager loading的复杂查询,使用自定义SQL:

#[derive(Entity)]
#[entity(table = "posts", sql = "trait")]
pub struct Post { /* ... */ }

pub struct PostWithRelations {
    pub post: Post,
    pub author: User,
    pub comments: Vec<Comment>,
}

pub trait PostRepositoryExt {
    async fn find_with_relations(&self, id: Uuid) -> Result<Option<PostWithRelations>, sqlx::Error>;
    async fn list_with_authors(&self, limit: i64) -> Result<Vec<(Post, User)>, sqlx::Error>;
}

#[async_trait]
impl PostRepositoryExt for PgPool {
    async fn find_with_relations(&self, id: Uuid) -> Result<Option<PostWithRelations>, sqlx::Error> {
        // 带join的单次查询
        let row = sqlx::query_as::<_, (PostRow, UserRow)>(
            r#"
            SELECT p.*, u.*
            FROM posts p
            JOIN users u ON u.id = p.user_id
            WHERE p.id = $1
            "#
        )
        .bind(&id)
        .fetch_optional(self)
        .await?;

        if let Some((post_row, user_row)) = row {
            let comments: Vec<CommentRow> = sqlx::query_as(
                "SELECT * FROM comments WHERE post_id = $1 ORDER BY created_at"
            )
            .bind(&id)
            .fetch_all(self)
            .await?;

            Ok(Some(PostWithRelations {
                post: Post::from(post_row),
                author: User::from(user_row),
                comments: comments.into_iter().map(Comment::from).collect(),
            }))
        } else {
            Ok(None)
        }
    }

    async fn list_with_authors(&self, limit: i64) -> Result<Vec<(Post, User)>, sqlx::Error> {
        let rows = sqlx::query_as::<_, (PostRow, UserRow)>(
            r#"
            SELECT p.*, u.*
            FROM posts p
            JOIN users u ON u.id = p.user_id
            ORDER BY p.created_at DESC
            LIMIT $1
            "#
        )
        .bind(limit)
        .fetch_all(self)
        .await?;

        Ok(rows.into_iter()
            .map(|(p, u)| (Post::from(p), User::from(u)))
            .collect())
    }
}

与过滤结合

将关系与查询过滤结合:

#[derive(Entity)]
#[entity(table = "posts")]
pub struct Post {
    #[id]
    pub id: Uuid,

    #[field(create, response)]
    #[belongs_to(User)]
    #[filter]  // 启用按user_id过滤
    pub user_id: Uuid,

    #[field(create, update, response)]
    #[filter(like)]
    pub title: String,

    #[field(response)]
    #[auto]
    #[filter(range)]
    pub created_at: DateTime<Utc>,
}

用法:

// 获取特定用户的文章并按标题过滤
let query = PostQuery {
    user_id: Some(user_id),
    title: Some("%rust%".into()),
    limit: Some(20),
    ..Default::default()
};
let posts = pool.query(query).await?;

最佳实践

  1. 避免N+1查询 — 在获取多个关联实体时使用join进行eager loading
  2. 使用分页 — 始终限制 has_many 结果
  3. 考虑数据访问模式 — 在外键列上添加索引
  4. 适当缓存 — 缓存经常访问的关联数据
  5. 使用投影 — 只获取关联实体的必要字段

另见

  • [[过滤|过滤]] — 查询过滤
  • [[自定义SQL|自定义SQL]] — 复杂join和查询
  • [[最佳实践|最佳实践]] — 性能技巧

has_many through(多对多)

通过 through 声明连接表,仓库即可获得基于 JOIN 的查询和链接管理;migrations 会生成 MIGRATION_JUNCTIONS(两个外键上的复合主键,两侧均 ON DELETE CASCADE)。

#[derive(Entity)]
#[entity(table = "teams", migrations)]
#[has_many(User, through = "team_members")]
pub struct Team { /* ... */ }

for ddl in Team::MIGRATION_JUNCTIONS {
    sqlx::query(ddl).execute(&pool).await?;
}

pool.add_user(team_id, user_id).await?;
let members: Vec<User> = pool.find_users(team_id).await?;
let linked = pool.has_user(team_id, user_id).await?;
let removed = pool.remove_user(team_id, user_id).await?;

生成的方法:find_users(INNER JOIN)、add_user(幂等,ON CONFLICT DO NOTHING)、remove_user(未链接时返回 false)、has_userSELECT EXISTS)。