Slick 查询(一)
查询(一)
本篇介绍 Slick 的基本查询,比如选择,插入,更新,删除记录等。
排序和过滤
Slick 提供了多种方法可以用来排序和过滤,比如:
val q = Album.filter(_.albumid === 101)
//select `AlbumId`, `Title`, `ArtistId`
//from `Album` where `AlbumId` = 101
val q = Album.drop(10).take(5)
//select .`AlbumId` as `AlbumId`, .`Title` as `Title`,
// .`ArtistId` as `ArtistId` from `Album` limit 10,5
val q = Album.sortBy(_.title.desc)
//select `AlbumId`, `Title`, `ArtistId`
//from `Album` order by `Title` desc
Join 和 Zipping
Join 指多表查询,可以有两种不同的方法来实现多表查询,一种是通过明确调用支持多表连接的方法(比如 innerJoin 方法)返回一个多元组,另外一种为隐含连接( implicit join ),它不直接使用这些连接方法(比如 LeftJoin 方法)。
一个隐含的 cross-Join 为 Query 的 flatMap 操作(在 for 表达式中使用多个生成式),例如:
val q = for{a <- Album
b <- Artist
} yield( a.title, b.name)
//select x2.`Title`, x3.`Name` from `Album` x2, `Artist` x3
如果添加一个条件过滤表达式,它就变成隐含的 inner join,例如:
val q = for{a <- Album
b <- Artist
if a.artistid === b.artistid
} yield( a.title, b.name)
//select x2.`Title`, x3.`Name` from `Album` x2, `Artist` x3
//where x2.`ArtistId` = x3.`ArtistId`
明确的多表连接则使用 innerJoin,leftJoin,rightJoin,outerJoin 方法,例如:
val explicitCrossJoin = = for {
(a,b) <- Album innerJoin Artist
} yield( a.title, b.name)
//select x2.x3, x4.x5 from (select x6.`Title` as x3 from `Album` x6)
//x2 inner join (select x7.`Name` as x5 from `Artist` x7) x4 on 1=1
val explicitInnerJoin = for {
(a,b) <- Album innerJoin Artist on (_.artistid === _.artistid)
} yield( a.title, b.name)
//select x2.x3, x4.x5 from (select x6.`Title` as x3, x6.`ArtistId` as x7 from `Album` x6) x2
//inner join (select x8.`ArtistId` as x9, x8.`Name` as x5 from `Artist` x8) x4 on x2.x7 = x4.x9
val explicitLeftOuterJoin = for {
(a,b) <- Album leftJoin Artist on (_.artistid === _.artistid)
} yield( a.title, b.name.?)
//select x2.x3, x4.x5 from (select x6.`Title` as x3, x6.`ArtistId` as x7 from `Album` x6) x2
//left outer join (select x8.`ArtistId` as x9, x8.`Name` as x5 from `Artist` x8) x4 on x2.x7 = x4.x9
val explicitRightOuterJoin = for {
(a,b) <- Album rightJoin Artist on (_.artistid === _.artistid)
} yield( a.title.?, b.name)
//select x2.x3, x4.x5 from (select x6.`Title` as x3, x6.`ArtistId` as x7 from `Album` x6) x2
//right outer join (select x8.`ArtistId` as x9, x8.`Name` as x5 from `Artist` x8) x4 on x2.x7 = x4.x9
注意 leftJoin 和 rightJoin 中的 b.name.? 和 a.title.? 的”.?” 这是因为外部查询时会产生额外的 NULL 值,你必须保证返回 Option 类型的值。
除了通常的 InnerJoin,LeftJoin,RightJoin 之外,Scala 还提供了 Zip 方法,它的语法类似于 Scala 的集合类型,比如:
val zipJoinQuery = for {
(a,b) <- Album zip Artist
} yield( a.title.?, b.name)
此外,还有一个 zipWithIndex,可以把一个表的行和一个从 0 开始的整数序列 Zip 操作,相当于给行添加序号,比如
val zipWithIndexJoin = for {
(a,idx) <- Album.zipWithIndex
} yield( a.title, idx)