org.squeryl.adapters.DB2Adapter.scala Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of squeryl_2.12.0-RC1 Show documentation
Show all versions of squeryl_2.12.0-RC1 Show documentation
A Scala ORM and DSL for talking with Databases using minimum verbosity and maximum type safety
The newest version!
/*******************************************************************************
* 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.adapters
import org.squeryl.internals.{StatementWriter, DatabaseAdapter}
import org.squeryl.dsl.ast.ConstantTypedExpression
import org.squeryl.{Session, Table}
import java.sql.SQLException
import org.squeryl.dsl.ast._
class DB2Adapter extends DatabaseAdapter {
override def booleanTypeDeclaration = "char(1)"
override def timestampTypeDeclaration = "timestamp"
// This defaults to 1M in size.
override def binaryTypeDeclaration = "blob"
override def supportsAutoIncrementInColumnDeclaration: Boolean = false
override def supportsUnionQueryOptions = false
override def postCreateTable(t: Table[_], printSinkWhenWriteOnlyMode: Option[String => Unit]) = {
val sw = new StatementWriter(false, this)
sw.write("create sequence ", sequenceName(t), " start with 1 increment by 1 nomaxvalue")
if(printSinkWhenWriteOnlyMode == None) {
val st = Session.currentSession.connection.createStatement
st.execute(sw.statement)
}
else
printSinkWhenWriteOnlyMode.get.apply(sw.statement + ";")
}
override def postDropTable(t: Table[_]) =
execFailSafeExecute("drop sequence " + sequenceName(t), e => e.getErrorCode == -204)
def sequenceName(t: Table[_]) =
t.prefixedPrefixedName("s_")
override def writeInsert[T](o: T, t: Table[T], sw: StatementWriter): Unit = {
val o_ = o.asInstanceOf[AnyRef]
val autoIncPK = t.posoMetaData.fieldsMetaData.find(fmd => fmd.isAutoIncremented)
if (autoIncPK == None) {
super.writeInsert(o, t, sw)
return
}
val f = getInsertableFields(t.posoMetaData.fieldsMetaData)
val colNames = List(autoIncPK.get) ::: f.toList
val colVals = List("next value for " + sequenceName(t)) ::: f.map(fmd => writeValue(o_, fmd, sw)).toList
sw.write("insert into ");
sw.write(t.prefixedName);
sw.write(" (");
sw.write(colNames.map(fmd => fmd.columnName).mkString(", "));
sw.write(") values ");
sw.write(colVals.mkString("(", ",", ")"));
}
override def writeConcatFunctionCall(fn: FunctionNode, sw: StatementWriter) =
sw.writeNodesWithSeparator(fn.args, " || ", false)
override def isTableDoesNotExistException(e: SQLException) = {
e.getErrorCode == -204
}
override def writePaginatedQueryDeclaration(page: () => Option[(Int, Int)], qen: QueryExpressionElements, sw: StatementWriter) = {}
override def writeQuery(qen: QueryExpressionElements, sw: StatementWriter) =
if (qen.page == None)
super.writeQuery(qen, sw)
else {
sw.write("select sq____1.* from (")
sw.nextLine
sw.writeIndented {
sw.write("select sq____0.*, row_number() over() as rn____")
sw.nextLine
sw.write("from")
sw.nextLine
sw.writeIndented {
sw.write("(")
super.writeQuery(qen, sw)
sw.write(") sq____0")
}
}
sw.nextLine
sw.write(") sq____1")
sw.nextLine
sw.write("where")
sw.nextLine
sw.writeIndented {
sw.write("rn____ between ")
val page = qen.page.get
val beginOffset = page._1 + 1
val endOffset = page._2 + beginOffset - 1
sw.write(beginOffset.toString)
sw.write(" and ")
sw.write(endOffset.toString)
}
}
override def writeConcatOperator(left: ExpressionNode, right: ExpressionNode, sw: StatementWriter) = {
sw.write("(")
_writeConcatOperand(left, sw)
sw.write(" ")
sw.write("||")
sw.write(" ")
_writeConcatOperand(right, sw)
sw.write(")")
}
private def _writeConcatOperand(e: ExpressionNode, sw: StatementWriter) = {
if (e.isInstanceOf[ConstantTypedExpression[_,_]]) {
val c = e.asInstanceOf[ConstantTypedExpression[Any,Any]]
sw.write("cast(")
e.write(sw)
sw.write(" as varchar(")
sw.write(c.value.toString.length.toString)
sw.write("))")
}
else
e.write(sw)
}
override def writeRegexExpression(left: ExpressionNode, pattern: String, sw: StatementWriter) = {
// If you are keen enough you can implement a UDF and subclass this method to call out to it.
// See http://www.ibm.com/developerworks/data/library/techarticle/0301stolze/0301stolze.html for how.
throw new UnsupportedOperationException("DB2 does not support a regex scalar function")
}
}