phoenix5-spark/src/main/scala/org/apache/phoenix/spark/PhoenixRecordWritable.scala - phoenix-connectors - Git at Google

 /*
    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.apache.phoenix.spark

 import java.sql.{PreparedStatement, ResultSet}
 import org.apache.hadoop.mapreduce.lib.db.DBWritable
 import org.apache.phoenix.schema.types.{PBinary, PDataType, PDate, PVarbinary, PhoenixArray}
 import org.apache.phoenix.util.ColumnInfo
 import org.joda.time.DateTime
 import scala.collection.{mutable, immutable}

 @deprecated("Use the DataSource V2 API implementation (see PhoenixDataSource)")
 class PhoenixRecordWritable(columnMetaDataList: List[ColumnInfo]) extends DBWritable {
   val upsertValues = mutable.ArrayBuffer[Any]()
   val resultMap = mutable.Map[String, AnyRef]()

   def result : immutable.Map[String, AnyRef] = {
     resultMap.toMap
   }

   override def write(statement: PreparedStatement): Unit = {
     // Make sure we at least line up in size
     if(upsertValues.length != columnMetaDataList.length) {
       throw new UnsupportedOperationException(
         s"Upsert values ($upsertValues) do not match the specified columns (columnMetaDataList)"
       )
     }

     // Correlate each value (v) to a column type (c) and an index (i)
     upsertValues.zip(columnMetaDataList).zipWithIndex.foreach {
       case ((v, c), i) => {
         if (v != null) {

           // Both Java and Joda dates used to work in 4.2.3, but now they must be java.sql.Date
           // Can override any other types here as needed
           val (finalObj, finalType) = v match {
             case dt: DateTime => (new java.sql.Date(dt.getMillis), PDate.INSTANCE)
             case d: java.util.Date => (new java.sql.Date(d.getTime), PDate.INSTANCE)
             case _ => (v, c.getPDataType)
           }


           // Helper method to create an SQL array for a specific PDatatype, and set it on the statement
           def setArrayInStatement(obj: Array[AnyRef]): Unit = {
             // Create a java.sql.Array, need to lookup the base sql type name
             val sqlArray = statement.getConnection.createArrayOf(
               PDataType.arrayBaseType(finalType).getSqlTypeName,
               obj
             )
             statement.setArray(i + 1, sqlArray)
           }

           // Determine whether to save as an array or object
           (finalObj, finalType) match {
             case (obj: Array[AnyRef], _) => setArrayInStatement(obj)
             case (obj: mutable.ArrayBuffer[AnyVal], _) => setArrayInStatement(obj.map(_.asInstanceOf[AnyRef]).toArray)
             case (obj: mutable.ArrayBuffer[AnyRef], _) => setArrayInStatement(obj.toArray)
             case (obj: mutable.WrappedArray[AnyVal], _) => setArrayInStatement(obj.map(_.asInstanceOf[AnyRef]).toArray)
             case (obj: mutable.WrappedArray[AnyRef], _) => setArrayInStatement(obj.toArray)
             case (obj: Array[Int], _) => setArrayInStatement(obj.map(_.asInstanceOf[AnyRef]))
             case (obj: Array[Long], _) => setArrayInStatement(obj.map(_.asInstanceOf[AnyRef]))
             case (obj: Array[Char], _) => setArrayInStatement(obj.map(_.asInstanceOf[AnyRef]))
             case (obj: Array[Short], _) => setArrayInStatement(obj.map(_.asInstanceOf[AnyRef]))
             case (obj: Array[Float], _) => setArrayInStatement(obj.map(_.asInstanceOf[AnyRef]))
             case (obj: Array[Double], _) => setArrayInStatement(obj.map(_.asInstanceOf[AnyRef]))
             // PVarbinary and PBinary come in as Array[Byte] but they're SQL objects
             case (obj: Array[Byte], _ : PVarbinary) => statement.setObject(i + 1, obj)
             case (obj: Array[Byte], _ : PBinary) => statement.setObject(i + 1, obj)
             // Otherwise set as array type
             case (obj: Array[Byte], _) => setArrayInStatement(obj.map(_.asInstanceOf[AnyRef]))
             case _ => statement.setObject(i + 1, finalObj)
           }
         } else {
           statement.setNull(i + 1, c.getSqlType)
         }
       }
     }
   }

   override def readFields(resultSet: ResultSet): Unit = {
     val metadata = resultSet.getMetaData
     for(i <- 1 to metadata.getColumnCount) {

       // Return the contents of a PhoenixArray, if necessary
       val value = resultSet.getObject(i) match {
         case x: PhoenixArray => x.getArray
         case y => y
       }

       // Put a (ColumnLabel -> value) entry in the result map
       resultMap(metadata.getColumnLabel(i)) = value
     }
   }

   def add(value: Any): Unit = {
     upsertValues.append(value)
   }

   // Empty constructor for MapReduce
   def this() = {
     this(List[ColumnInfo]())
   }

 }
	/*
	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.apache.phoenix.spark

	import java.sql.{PreparedStatement, ResultSet}
	import org.apache.hadoop.mapreduce.lib.db.DBWritable
	import org.apache.phoenix.schema.types.{PBinary, PDataType, PDate, PVarbinary, PhoenixArray}
	import org.apache.phoenix.util.ColumnInfo
	import org.joda.time.DateTime
	import scala.collection.{mutable, immutable}

	@deprecated("Use the DataSource V2 API implementation (see PhoenixDataSource)")
	class PhoenixRecordWritable(columnMetaDataList: List[ColumnInfo]) extends DBWritable {
	val upsertValues = mutable.ArrayBuffer[Any]()
	val resultMap = mutable.Map[String, AnyRef]()

	def result : immutable.Map[String, AnyRef] = {
	resultMap.toMap
	}

	override def write(statement: PreparedStatement): Unit = {
	// Make sure we at least line up in size
	if(upsertValues.length != columnMetaDataList.length) {
	throw new UnsupportedOperationException(
	s"Upsert values ($upsertValues) do not match the specified columns (columnMetaDataList)"
	)
	}

	// Correlate each value (v) to a column type (c) and an index (i)
	upsertValues.zip(columnMetaDataList).zipWithIndex.foreach {
	case ((v, c), i) => {
	if (v != null) {

	// Both Java and Joda dates used to work in 4.2.3, but now they must be java.sql.Date
	// Can override any other types here as needed
	val (finalObj, finalType) = v match {
	case dt: DateTime => (new java.sql.Date(dt.getMillis), PDate.INSTANCE)
	case d: java.util.Date => (new java.sql.Date(d.getTime), PDate.INSTANCE)
	case _ => (v, c.getPDataType)
	}


	// Helper method to create an SQL array for a specific PDatatype, and set it on the statement
	def setArrayInStatement(obj: Array[AnyRef]): Unit = {
	// Create a java.sql.Array, need to lookup the base sql type name
	val sqlArray = statement.getConnection.createArrayOf(
	PDataType.arrayBaseType(finalType).getSqlTypeName,
	obj
	)
	statement.setArray(i + 1, sqlArray)
	}

	// Determine whether to save as an array or object
	(finalObj, finalType) match {
	case (obj: Array[AnyRef], _) => setArrayInStatement(obj)
	case (obj: mutable.ArrayBuffer[AnyVal], _) => setArrayInStatement(obj.map(_.asInstanceOf[AnyRef]).toArray)
	case (obj: mutable.ArrayBuffer[AnyRef], _) => setArrayInStatement(obj.toArray)
	case (obj: mutable.WrappedArray[AnyVal], _) => setArrayInStatement(obj.map(_.asInstanceOf[AnyRef]).toArray)
	case (obj: mutable.WrappedArray[AnyRef], _) => setArrayInStatement(obj.toArray)
	case (obj: Array[Int], _) => setArrayInStatement(obj.map(_.asInstanceOf[AnyRef]))
	case (obj: Array[Long], _) => setArrayInStatement(obj.map(_.asInstanceOf[AnyRef]))
	case (obj: Array[Char], _) => setArrayInStatement(obj.map(_.asInstanceOf[AnyRef]))
	case (obj: Array[Short], _) => setArrayInStatement(obj.map(_.asInstanceOf[AnyRef]))
	case (obj: Array[Float], _) => setArrayInStatement(obj.map(_.asInstanceOf[AnyRef]))
	case (obj: Array[Double], _) => setArrayInStatement(obj.map(_.asInstanceOf[AnyRef]))
	// PVarbinary and PBinary come in as Array[Byte] but they're SQL objects
	case (obj: Array[Byte], _ : PVarbinary) => statement.setObject(i + 1, obj)
	case (obj: Array[Byte], _ : PBinary) => statement.setObject(i + 1, obj)
	// Otherwise set as array type
	case (obj: Array[Byte], _) => setArrayInStatement(obj.map(_.asInstanceOf[AnyRef]))
	case _ => statement.setObject(i + 1, finalObj)
	}
	} else {
	statement.setNull(i + 1, c.getSqlType)
	}
	}
	}
	}

	override def readFields(resultSet: ResultSet): Unit = {
	val metadata = resultSet.getMetaData
	for(i <- 1 to metadata.getColumnCount) {

	// Return the contents of a PhoenixArray, if necessary
	val value = resultSet.getObject(i) match {
	case x: PhoenixArray => x.getArray
	case y => y
	}

	// Put a (ColumnLabel -> value) entry in the result map
	resultMap(metadata.getColumnLabel(i)) = value
	}
	}

	def add(value: Any): Unit = {
	upsertValues.append(value)
	}

	// Empty constructor for MapReduce
	def this() = {
	this(List[ColumnInfo]())
	}

	}