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A Scala ORM and DSL for talking with Databases using minimum verbosity and maximum type safety
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/*******************************************************************************
* Copyright 2010 Maxime Lévesque
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
***************************************************************************** */
package org.squeryl
import annotations.Transient
import java.sql.SQLException
@scala.annotation.implicitNotFound(msg = "The method requires an implicit org.squeryl.KeyedEntityDef[${A}, ${K}] in scope, or that it extends the trait KeyedEntity[${K}]")
trait KeyedEntityDef[-A,K] extends OptionalKeyedEntityDef[A,K]{
def getId(a: A): K
/**
* returns true if the given instance has been persisted
*/
def isPersisted(a: A): Boolean
/**
* the (Scala) property/field name of the id
*/
def idPropertyName: String
/**
* the counter field name for OCC, None to disable OCC (optimistic concurrency control)
*/
def optimisticCounterPropertyName: Option[String] = None
private [squeryl] def isOptimistic = optimisticCounterPropertyName.isDefined
/**
* fulfills the contract of OptionalKeyedEntityDef
*/
final def keyedEntityDef = Some(this)
}
trait OptionalKeyedEntityDef[-A,K] {
def keyedEntityDef: Option[KeyedEntityDef[A,K]]
}
/**
* For use with View[A] or Table[A], when A extends KeyedEntity[K],
* lookup and delete by key become implicitly available
* Example :
*
* class Peanut(weight: Float) extends KeyedEntity[Long]
* val peanutJar = Table[Peanut]
*
* Since Peanut extends KeyedEntity the delete(l:Long)
* method is available
*
* def removePeanut(idOfThePeanut: Long) =
* peanutJar.delete(idOfThePeanut)
*
* And lookup by id is also implicitly available :
*
* peanutJar.lookup(idOfThePeanut)
*
*/
trait KeyedEntity[K] extends PersistenceStatus {
def id: K
override def hashCode =
if(isPersisted)
id.hashCode
else
super.hashCode
override def equals(z: Any):Boolean = {
if(z == null)
return false
val ar = z.asInstanceOf[AnyRef]
if(!ar.getClass.isAssignableFrom(this.getClass))
false
else if(isPersisted)
id == ar.asInstanceOf[KeyedEntity[K]].id
else
super.equals(z)
}
}
trait PersistenceStatus {
@transient
@Transient
private [squeryl] var _isPersisted = false
def isPersisted: Boolean = _isPersisted
}
trait IndirectKeyedEntity[K,T] extends KeyedEntity[K] {
def idField: T
}
trait Optimistic {
self: KeyedEntity[_] =>
protected val occVersionNumber = 0
}
/** Thrown to indicate that an error has occurred in the SQL database */
object SquerylSQLException {
def apply(message: String, cause: SQLException) =
new SquerylSQLException(message, Some(cause))
def apply(message: String) =
new SquerylSQLException(message, None)
}
class SquerylSQLException(message: String, cause: Option[SQLException]) extends RuntimeException(message, cause.orNull) {
// Overridden to provide covariant return type as a convenience
override def getCause: SQLException = cause.orNull
}
class StaleUpdateException(message: String) extends RuntimeException(message)
trait EntityMember {
def entityRoot[B]: Query[B]
}
trait ReferentialAction {
def event: String
def action: String
}
/**
* ForeignKeyDeclaration are to be manipulated only during the Schema definition
* (this is why all public methods have the implicit arg (implicit ev: Schema))
*/
class ForeignKeyDeclaration(val idWithinSchema: Int, val foreignKeyColumnName: String, val referencedPrimaryKey: String) {
private var _referentialActions: Option[(Option[ReferentialAction],Option[ReferentialAction])] = None
private [squeryl] def _isActive =
_referentialActions != None
private [squeryl] def _referentialAction1: Option[ReferentialAction] =
_referentialActions.get._1
private [squeryl] def _referentialAction2: Option[ReferentialAction] =
_referentialActions.get._2
/**
* Causes the foreign key to have no constraint
*/
def unConstrainReference()(implicit ev: Schema) =
_referentialActions = None
/**
* Will cause a foreign key constraint to be created at schema creation time :
* alter table add foreign key () references ()
*/
def constrainReference()(implicit ev: Schema) =
_referentialActions = Some((None, None))
/**
* Does the same as constrainReference, plus adds a ReferentialAction (ex.: foreignKeyDeclaration.constrainReference(onDelete cascade))
*/
def constrainReference(a1: ReferentialAction)(implicit ev: Schema) =
_referentialActions = Some((Some(a1), None))
/**
* Does the same as constrainReference, plus adds two ReferentialActions
* (ex.: foreignKeyDeclaration.constrainReference(onDelete cascade, onUpdate restrict))
*/
def constrainReference(a1: ReferentialAction, a2: ReferentialAction)(implicit ev: Schema) =
_referentialActions = Some((Some(a1), Some(a2)))
}