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I would like to use Scala to persist data to a relational database, so what I am looking for are examples of CRUD operations using Scala.

I would like to code on a lower level of abstraction than an ORM like Hibernate/Toplink (read:JDBC), but between us, I would like to see examples of all types.

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closed as not constructive by Will Nov 13 '12 at 14:54

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I am experimenting with mybatis too. mybatis is a mature framework. some examples here: fdmtech.org/mybatis-for-scala –  user978892 Oct 4 '11 at 16:35

11 Answers 11

up vote 282 down vote accepted

EDIT: There's now a pretty good wiki about Scala libraries and frameworks here.

I know of five usable non-ORM database libraries for Scala. There's also one ORM which I mention below because it doesn't hide SQL, which might just make it a good fit.

Slick (previsously named Scalaquery)

The first one is Slick. It is the most mature one, and it tries to make queries use the same for-comprehension as Scala collections do. As an example of syntax style (which might be slightly out of date):

import java.lang.Integer
import com.novocode.squery._
import com.novocode.squery.Implicit._
import com.novocode.squery.session._
import com.novocode.squery.session.SessionFactory._

// Define table:
object Users extends Table[(Integer, String, String)]("users") {
  def id = intColumn("id", O.AutoInc, O.NotNull)
  def first = stringColumn("first")
  def last = stringColumn("last")
  def * = id ~ first ~ last

// Basic usage
val sf = new DriverManagerSessionFactory("org.h2.Driver", "jdbc:h2:mem:test1")
sf withSession {
  // Prepare a simple query
  val q1 = for(u <- Users) yield u

  // Print SQL statement to be executed:
  println(q1.selectStatement)  // displays SELECT t1.id,t1.first,t1.last FROM users t1

  // Print query result:
  for(t <- q1) println("User tuple: "+t)

  // Query statements can also be used with updates:
  val q = for(u <- Users if u.id is 42) yield u.first ~ u.last
  q.update("foo", "bar")

As the project was renamed recently some resources are still under scalaquery name (website, groups). Slick will soon be included in Typesafe stack which can be seen as a proof of its maturity.


The second one is Querulous, which is a open source project from Twitter. This one gives you direct access to SQL, while dealing with a bunch of jdbc annoyances. Here's a simple example:

import com.twitter.querulous.evaluator.QueryEvaluator
val queryEvaluator = QueryEvaluator("host", "username", "password")
val users = queryEvaluator.select("SELECT * FROM users WHERE id IN (?) OR name = ?", List(1,2,3), "Jacques") { row =>
  new User(row.getInt("id"), row.getString("name"))
queryEvaluator.execute("INSERT INTO users VALUES (?, ?)", 1, "Jacques")
queryEvaluator.transaction { transaction =>
  transaction.select("SELECT ... FOR UPDATE", ...)
  transaction.execute("INSERT INTO users VALUES (?, ?)", 1, "Jacques")
  transaction.execute("INSERT INTO users VALUES (?, ?)", 2, "Luc")


The third one is Squeryl. Style-wise, it sits midway between ScalaQuery -- which hides SQL behind Scala comprehensions as much as possible -- and Querulous -- which uses SQL strings directly.

Squeryl provides a SQL-like DSL, which gives you type safety and give you a strong likelyhood that the statements won't fail at run-time if they compile at all. Again, a simple example:

// Defining tables and a schema:
import org.squeryl.PrimitiveTypeMode._

class Author(var id: Long, 
             var firstName: String, 
             var lastName: String)

class Book(var id: Long, 
           var title: String,
           @Column("AUTHOR_ID") // the default 'exact match' policy can be overriden
           var authorId: Long,
           var coAuthorId: Option[Long]) {
  def this() = this(0,"",0,Some(0L))

object Library extends Schema {
  //When the table name doesn't match the class name, it is specified here :
  val authors = table[Author]("AUTHORS")
  val books = table[Book]

// Basic usage
val session = Session.create( 
  java.sql.DriverManager.getConnection("jdbc:postgresql://localhost:5432/squeryl", "squeryl", "squeryl"), 
  new PostgreSqlAdapter 

//Squeryl database interaction must be done with a using block :  
import Library._
using(session) { 
  books.insert(new Author(1, "Michel","Folco"))            
  val a = from(authors)(a=> where(a.lastName === "Folco") select(a)) 

O/R Broker

The fourth is O/R Broker, which, despite the name, is not an ORM. Classes can be designed in any way desired. No interfaces/traits to implement, no conventions to uphold, no annotations needed.

case class Song(id: Option[Long], title: String, seconds: Short)
case class Album(id: Option[Long], title: String, year: Short, songs: IndexedSeq[Song])
case class Artist(id: Option[Long], name: String, albums: Set[Album])

Extractors are declarative, written in Scala. Can be reused in other queries that fit the expectation of the extractor.

object SongExtractor extends JoinExtractor[Song] {
  val key = Set("SONG_ID")

  def extract(row: Row, join: Join) = {
    new Song(

object AlbumExtractor extends JoinExtractor[Album] {
  val key = Set("ALBUM_ID")

  def extract(row: Row, join: Join) = {
    new Album(
          join.extractSeq(SongExtractor, Map("TITLE"->"SONG_TITLE"))

object ArtistExtractor extends JoinExtractor[Artist] {
  val key = Set("ARTIST_ID")

  def extract(row: Row, join: Join) = {
    new Artist(

One could then use that like this:

val ds: javax.sql.DataSource = ...
val builder = new SQLFileBuilder(ds, new java.io.File("sql/"))
val broker = builder.build()

// Print all artists with their albums (if any)
val artists = broker.readOnly() { session =>
  session.selectAll[Artist]('selectArtist) // ' I wish they could fix the Scala Symbol formatting
for (ar <- artists) {
      if (ar.albums.isEmpty)
        println("\t<No albums>")
      else for (al <- ar.albums) {
        println("\t" + al.title)
        for (s <- al.songs) {
          println("\t\t" + (al.songs.indexOf(s)+1) + ". " + s.title)


Anorm comes from Play Framework, and I don't know if it can be used stand alone or not. Basically, it ditches mappings and DSL completely, giving you direct access to SQL. A simple query may look like this:

// Create an SQL query
val selectCountries = SQL("Select * from Country")

// Transform the resulting Stream[Row] as a List[(String,String)]
val countries = selectCountries().map(row => 
    row[String]("code") -> row[String]("name")

It also supports pattern matching for row extraction:

val countries = SQL("Select name,population from Country")().collect {
    case Row("France", _) => France()
    case Row(name:String, pop:Int) if(pop > 1000000) => BigCountry(name)
    case Row(name:String, _) => SmallCountry(name)      

Binding variables in queries uses this syntax:

        select * from Country c 
        join CountryLanguage l on l.CountryCode = c.Code 
        where c.code = {countryCode};
).on("countryCode" -> "FRA")

And it also has support for use of parse combinators to translate queries or even table schemas into data structures. You can either define the parser yourself, or use some default conventions (like a case class mapping field names to column names) and let it do the work for you.

Circumflex ORM

Finally, there's Circumflex ORM. I'm copying here a few examples from their site:

class Category extends Record[Category] {
  val id = field(Category.id)
  val name = field(Category.name)
  val books = oneToMany(Book.category)    // allows navigating between associations transparently

object Category extends Table[Category] with LongIdPK[Category] {
  val name = stringColumn("name")         // creates a column
      .notNull                            // creates NOT NULL constraint
      .unique                             // creates UNIQUE constraint
      .validateNotEmpty                   // adds NotEmpty validation
      .validatePattern("^[a-zA-Z]{1,8}$") // adds Pattern validation

class Book extends Record[Book] {
  val id = field(Book.id)
  val title = field(Book.title)
  val category = manyToOne(Book.category)

object Book extends Table[Book] with LongIdPK[Book] {
  val title = stringColumn("title")
  val category = longColumn("category_id")
      .references(Category)     // creates an association with Category
      .onDeleteSetNull          // specifies a foreign-key action

new DDLExport(Category, Book).create   // creates database schema

// find category by id
val c = Category.get(2l)
// find all books
val allBooks = Book.all
// find books for category
val cBooks = c.get.books
// find books by title
Book.criteria.add("title" like "a%").list

      .from(Category as "c" join (Book as "b"), Category as "c1")
      .where("c1.name" like "a%")

select(count("b.id"), "c.name").from(Category as "c" join (Book as "b")).list

If I missed any existing project, just drop a comment and I'll add them to this answer. Don't bother with blogs, papers, wikis or the like, though.


Although jOOQ is currently a mostly Java-based solution, it still renders SQL quite nicely in Scala thanks to Scala's capabilities of omitting dots and parentheses for some method calls. The following example was taken from an authoritative blog post. Other examples here.

// Fetch book titles and their respective authors into
// a result, and print the result to the console.
val result = (create
  select (
      BOOK.TITLE as "book title",
      AUTHOR.FIRST_NAME as "author's first name",
      AUTHOR.LAST_NAME as "author's last name")
  from AUTHOR
  where (AUTHOR.ID in (1, 2, 3))
  orderBy (AUTHOR.LAST_NAME asc) 

and also

// Iterate over authors and the number of books they've written
// Print each value to the console
for (r <- (create
           select (AUTHOR.FIRST_NAME, AUTHOR.LAST_NAME, count)
           from AUTHOR
           join BOOK on (AUTHOR.ID equal BOOK.AUTHOR_ID)
           where (AUTHOR.ID in (1, 2, 3))
           orderBy (AUTHOR.LAST_NAME asc)
           fetch)) {

  print(" ")
  print(" wrote ")
  println(" books ")
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Could you update the Querulous link to github.com/twitter/querulous? The latest development have moved to that fork. –  Eugene Yokota Mar 15 '11 at 20:07
@Eugene Done, thanks! –  Daniel C. Sobral Mar 16 '11 at 12:55
Don't forget about Mapper and Record in the Lift framework. –  Bill Apr 30 '11 at 12:59
+=Prequel github.com/jpersson/prequel –  om-nom-nom Feb 3 '12 at 20:11
@LukasEder There are so many things that could be added! I like SQLTyped, for instance, but it's not worth editing this answer anymore. Even the question is closed. You have reputation enough to edit the answer and add jOOQ, so go ahead. –  Daniel C. Sobral Sep 9 '13 at 6:12

IMO JPA2.0 is still one of the most flexible and advanced concepts (especially using it with BeanValidation, JTA, JNDI, existing/complex relational schema etc.). It is true that JPA (as well as the most Java and Java annotation based specifications) does not fit nicely into Scala's concepts (especially collections that have to be converted). Nevertheless it can be used rather easily with some wrapper Classes and Objects.

some Advantages:

  • Pluggable Implementations
  • Widely used standard
  • Widely available experience
  • Supported by application server vendors

Three major JPA 2.0 implementations:

  • EclipseLink
  • OpenJPA
  • Hibernate

Examples using some simple wrapping:

Entity Manager and Entity Manager Factory

class MyClass extends Something
    with SimpleEntityManagerFactory
    with ThreadLocalEntityManager {

 def getPersistenceUnitName = "mip"
 . . .

Object Item Entity

Uses inheritance strategy joined and a sequence for primary key

@Table(name = "obj_item")
@Inheritance(strategy = InheritanceType.JOINED)
@SequenceGenerator(name = "obj_item_id_seq", sequenceName = "obj_item_id_sequence",         allocationSize = 1)
class ObjectItem extends MIPEntity {
  @GeneratedValue(strategy = GenerationType.SEQUENCE, generator = "obj_item_id_seq")
  @Column(name = "obj_item_id", nullable = false, length = 20)
  var id: BigInteger = _

  @Column(name = "cat_code", nullable = false, length = 6)
  var objItemCatCode: String = _

Using Id Class Identity

More complex association using Id Class for Entity Identity Fields.

@Table(name = "org_struct")
@SequenceGenerator(name = "org_struct_index_seq", sequenceName = "org_struct_index_sequence", allocationSize = 1)
class OrganisationStructure extends MIPEntity {
  @GeneratedValue(strategy = GenerationType.SEQUENCE, generator = "org_struct_index_seq")
  @Column(name = "org_struct_ix", nullable = false, length = 20)
  protected var ix: BigInteger = _

  @ManyToOne(fetch = FetchType.EAGER)
  @JoinColumn(name = "org_struct_root_org_id", nullable = false, updatable = false)
  protected var orgStructRootOrg: Organisation = _

  . . .

Id Class for Entity Identity Fields:

class OrganisationStructureId {
  var orgStructRootOrg: BigInteger = _
  var ix: BigInteger = _
. . .

All this is provided by ScalaJPA and JPA-for-Scala (see Github). Both are rather small wrapper around usual JPA classes. The latter one provides some ideas for externalized query strings, filter objects and transaction scope wrappers. F.e.:

Using Filter and executing query:

. . .
val filter: NameFilter = newFilterInstance(QueryId("FindObjectItemFromNameWithFilter"))
filter.name = "%Test%"

var i = 0
forQueryResults {
  oi: ObjectItem =>
    i = i + 1
} withQuery (filter)
i must_== 10
. . .

Remove user:

withTrxAndCommit {
 findAndApply(id ) {
   u:User => remove(u)

Execute a native PostGIS SQL query and expect one result:

withTrxAndCommit {
 oneResultQueryAndApply {
  d: Double =>
  } withNativeQuery (QueryId("DistancePointFromTextToLocID"), postGISPoint, user.getUsersLocation.getId)
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I'am not sure I'am for the 'more advanced concepts'. A data access library is here to make things easier... For that ScalaQuery from Tweeter is perfect. You get the expressivity of SQL that you miss in most ORM dialects, you can use features specific to your database vendor or stick to a standard like SQL92. JPA can do nearly the same for CRUD operations, but when you start to use it for complex mappings strategies, you hit the famous impedance mismatch problem. Naming it 'ORM' doesn't solve it magically. Relations are not objects and theses mapping strategies tend to have huge drawbacks. –  Nicolas Bousquet Sep 20 '11 at 15:05
Honestly, JPA is a nice idea, but often generates so much database chatter and so many unnecessary queries that it has become a blight on the face of Java development. Once you annotate a domain object for JPA, then again for some XML framework, then again for some other view system you end up with a pretty nasty looking class. It's a hard problem to solve, but JPA is not a good answer, it's at best mediocre. –  PlexQ Nov 16 '11 at 18:27
I don't really have a problem with database chatter or unnecessary queries with Hibernate/ JPA, and since I still prefer .hbm.xml mappings files my code is fairly clean :) I've always been dubious, both with Hibernate and Spring/DI, about the real logical & architectural benefits (or not) of shovelling all that into the actual code.. for configuration/DI at least, it spoils the goal of code reusability which was the purpose of configuration/DI in the first place. –  Thomas W Oct 2 '13 at 9:57

I created a new one named ScalikeJDBC.

It's a simple JDBC wrapper library. Maybe 'Executable SQL template' is the unique feature.


It also has source code generator. Especially if you access the existing legacy database, it's much convenient.


Futhermore, it's easy to integrate with Play20.


Please take a look at it.

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I really enjoy working with ScalikeJDBC. My favourite db lib. Been trying Anorm, Squeryl, Slick - but this fits my needs just perfect. –  janne May 17 '14 at 15:22

Here's a complete Scala + JDBC example, this worked out to be the simplest solution I found.

import java.sql.{Connection, DriverManager, ResultSet};

// Change to Your Database Config
val conn_str = "jdbc:mysql:/localhost:3306/DBNAME?user=DBUSER&password=DBPWD"

// Load the driver

// Setup the connection
val conn = DriverManager.getConnection(conn_str)
try {
    // Configure to be Read Only
    val statement = conn.createStatement(ResultSet.TYPE_FORWARD_ONLY, ResultSet.CONCUR_READ_ONLY)

    // Execute Query
    val rs = statement.executeQuery("SELECT quote FROM quotes LIMIT 5")

    // Iterate Over ResultSet
    while (rs.next) {
finally {

I wrote up my complete experience here: http://mkaz.com/archives/1259/using-scala-with-jdbc-to-connect-to-mysql/

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So, basically, you are not handling exceptions correctly and this answer is not really Scala at all: it's just using the basic JDBC classes. This code will leak connections –  oxbow_lakes Jun 29 '10 at 7:04
I updated to include a try {} finally {} block, the goal was not to make it the most "pure" Scala answer but a working example without version conflicts which is what I had with Queroulous and others –  Marcus Kazmierczak Jun 29 '10 at 14:06
I just needed something simple for importing data and you reminded me that this is still nice and simple for that puropse. –  OleTraveler Oct 30 '13 at 3:02

I am happy to announce the 1st release of a new ORM library for Scala. MapperDao maps domain classes to database tables. It currently supports mysql, postgresql (oracle driver to be available soon), one-to-one, many-to-one, one-to-many, many-to-many relationships, autogenerated keys, transactions and optionally integrates nicely with spring framework. It allows freedom on the design of the domain classes which are not affected by persistence details, encourages immutability and is type safe. The library is not based on reflection but rather on good Scala design principles and contains a DSL to query data, which closely resembles select queries. It doesn't require implementation of equals() or hashCode() methods which can be problematic for persisted entities. Mapping is done using type safe Scala code.

Details and usage instructions can be found at the mapperdao's site:


The library is available for download on the above site and also as a maven dependency (documentation contains details on how to use it via maven)

Examples can be found at:


Very brief introduction of the library via code sample:

class Product(val name: String, val attributes: Set[Attribute])
class Attribute(val name: String, val value: String)

val product = new Product("blue jean", Set(new Attribute("colour", "blue"), new Attribute("size", "medium")))
val inserted = mapperDao.insert(ProductEntity, product)
// the persisted entity has an id property:
println("%d : %s".format(inserted.id,inserted))

Querying is very familiar:

val o=OrderEntity

import Query._
val orders = query(select from o where o.totalAmount >= 20.0 and o.totalAmount <= 30.0)
println(orders) // a list of orders

I encourage everybody to use the library and give feedback. The documentation is currently quite extensive, with setup and usage instructions. Please feel free to comment and get in touch with me at kostas dot kougios at googlemail dot com.


Kostantinos Kougios

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This was recently announced on the Scala-Announce mailing list:


  • Full freedom on class design. O/R Broker does not place any limitations on how you design your classes. No restrictions whatsoever.

  • You write the SQL. This allows you to hand tune any query, even after deployment, is faster than configuring some obscure XML syntax.

  • Full support for JOIN queries, both one-to-one and one-to-many.

  • No N+1 select problem and no transactionally inconsistent lazy loading

  • Support for stored procedure calls.

  • You write the query-to-object extractor code in Scala (or Java). No tired old XML mapping needed.

  • SQL can be in code or, preferably, in simple text files, ready for editing and optimizing if needed.

  • Dynamic SQL using Velocity or FreeMarker template engines. Both are supported, but neither are required.

  • Dealing with new database schema, legacy schema, JavaBeans, or immutable classes? All possible, full flexibility.

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A quick google search for "scala database dsl" gave me.

Scala Query

I didn't find any others out there, maybe there is if I kept searching but this one looks ok.

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Since version 2.0 Querydsl supports Scala as well. It works well with JPA, JDO, Mongodb and SQL.

The SQL example is an example of a low abstraction level, and Querying with Scala for a high ORM-style abstraction.

I am the maintainer of Querydsl, so this answer is biased.

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For those who, like me, nearly bypassed Querulous because it seemed to be MySQL-only, that's not the case (at least not anymore). It's not documented, but if you look at the signatures for QueryEvaluator, you'll see that you can pass in the driverName. The following worked for me for postgres:

# dbhost(s), dbname, username, password, urlOptions, driverName
val queryEvaluator = QueryEvaluator("host", "dbname", "username", "password", Map[String,String](), "jdbc:postgresql")
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MapperDao has evolved since my last post, it now supports 5 databases (mysql,postgresql,oracle,sqlserver,derby) and pretty much any mapping that can be done with other ORM tools. Queries and pagination is quite cool:

val pe=PersonEntity //alias
val people=query(QueryConfig.pagination(2, 10),select from pe where pe.lives === house)

The wiki covers everything, from transactions to paginating and creating dao's mixing CRUD traits.


There are now circumflex web and liftweb examples which use mapperdao for persistence:



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Good work Κώστα ! –  dotoree Oct 21 '12 at 13:40

Here's another one: ScalaSQL https://github.com/chochos/scalasql

I wrote this one; it's loosely based on the Groovy SQL component, which I find to be very practical and easy to use.

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