TimeNanoVector.java
/*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You 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.arrow.vector;
import static org.apache.arrow.vector.NullCheckingForGet.NULL_CHECKING_ENABLED;
import org.apache.arrow.memory.ArrowBuf;
import org.apache.arrow.memory.BufferAllocator;
import org.apache.arrow.vector.complex.impl.TimeNanoReaderImpl;
import org.apache.arrow.vector.complex.reader.FieldReader;
import org.apache.arrow.vector.holders.NullableTimeNanoHolder;
import org.apache.arrow.vector.holders.TimeNanoHolder;
import org.apache.arrow.vector.types.Types.MinorType;
import org.apache.arrow.vector.types.pojo.Field;
import org.apache.arrow.vector.types.pojo.FieldType;
import org.apache.arrow.vector.util.TransferPair;
/**
* TimeNanoVector implements a fixed width vector (8 bytes) of time (nanosecond resolution) values
* which could be null. A validity buffer (bit vector) is maintained to track which elements in the
* vector are null.
*/
public final class TimeNanoVector extends BaseFixedWidthVector
implements ValueIterableVector<Long> {
public static final byte TYPE_WIDTH = 8;
/**
* Instantiate a TimeNanoVector. This doesn't allocate any memory for the data in vector.
*
* @param name name of the vector
* @param allocator allocator for memory management.
*/
public TimeNanoVector(String name, BufferAllocator allocator) {
this(name, FieldType.nullable(MinorType.TIMENANO.getType()), allocator);
}
/**
* Instantiate a TimeNanoVector. This doesn't allocate any memory for the data in vector.
*
* @param name name of the vector
* @param fieldType type of Field materialized by this vector
* @param allocator allocator for memory management.
*/
public TimeNanoVector(String name, FieldType fieldType, BufferAllocator allocator) {
this(new Field(name, fieldType, null), allocator);
}
/**
* Instantiate a TimeNanoVector. This doesn't allocate any memory for the data in vector.
*
* @param field Field materialized by this vector
* @param allocator allocator for memory management.
*/
public TimeNanoVector(Field field, BufferAllocator allocator) {
super(field, allocator, TYPE_WIDTH);
}
@Override
protected FieldReader getReaderImpl() {
return new TimeNanoReaderImpl(TimeNanoVector.this);
}
/**
* Get minor type for this vector. The vector holds values belonging to a particular type.
*
* @return {@link org.apache.arrow.vector.types.Types.MinorType}
*/
@Override
public MinorType getMinorType() {
return MinorType.TIMENANO;
}
/*----------------------------------------------------------------*
| |
| vector value retrieval methods |
| |
*----------------------------------------------------------------*/
/**
* Get the element at the given index from the vector.
*
* @param index position of element
* @return element at given index
*/
public long get(int index) throws IllegalStateException {
if (NULL_CHECKING_ENABLED && isSet(index) == 0) {
throw new IllegalStateException("Value at index is null");
}
return valueBuffer.getLong((long) index * TYPE_WIDTH);
}
/**
* Get the element at the given index from the vector and sets the state in holder. If element at
* given index is null, holder.isSet will be zero.
*
* @param index position of element
*/
public void get(int index, NullableTimeNanoHolder holder) {
if (isSet(index) == 0) {
holder.isSet = 0;
return;
}
holder.isSet = 1;
holder.value = valueBuffer.getLong((long) index * TYPE_WIDTH);
}
/**
* Same as {@link #get(int)}.
*
* @param index position of element
* @return element at given index
*/
@Override
public Long getObject(int index) {
if (isSet(index) == 0) {
return null;
} else {
return valueBuffer.getLong((long) index * TYPE_WIDTH);
}
}
/*----------------------------------------------------------------*
| |
| vector value setter methods |
| |
*----------------------------------------------------------------*/
private void setValue(int index, long value) {
valueBuffer.setLong((long) index * TYPE_WIDTH, value);
}
/**
* Set the element at the given index to the given value.
*
* @param index position of element
* @param value value of element
*/
public void set(int index, long value) {
BitVectorHelper.setBit(validityBuffer, index);
setValue(index, value);
}
/**
* Set the element at the given index to the value set in data holder. If the value in holder is
* not indicated as set, element in the at the given index will be null.
*
* @param index position of element
* @param holder nullable data holder for value of element
*/
public void set(int index, NullableTimeNanoHolder holder) throws IllegalArgumentException {
if (holder.isSet < 0) {
throw new IllegalArgumentException();
} else if (holder.isSet > 0) {
BitVectorHelper.setBit(validityBuffer, index);
setValue(index, holder.value);
} else {
BitVectorHelper.unsetBit(validityBuffer, index);
}
}
/**
* Set the element at the given index to the value set in data holder.
*
* @param index position of element
* @param holder data holder for value of element
*/
public void set(int index, TimeNanoHolder holder) {
BitVectorHelper.setBit(validityBuffer, index);
setValue(index, holder.value);
}
/**
* Same as {@link #set(int, long)} except that it handles the case when index is greater than or
* equal to existing value capacity {@link #getValueCapacity()}.
*
* @param index position of element
* @param value value of element
*/
public void setSafe(int index, long value) {
handleSafe(index);
set(index, value);
}
/**
* Same as {@link #set(int, NullableTimeNanoHolder)} except that it handles the case when index is
* greater than or equal to existing value capacity {@link #getValueCapacity()}.
*
* @param index position of element
* @param holder nullable data holder for value of element
*/
public void setSafe(int index, NullableTimeNanoHolder holder) throws IllegalArgumentException {
handleSafe(index);
set(index, holder);
}
/**
* Same as {@link #set(int, TimeNanoHolder)} except that it handles the case when index is greater
* than or equal to existing value capacity {@link #getValueCapacity()}.
*
* @param index position of element
* @param holder data holder for value of element
*/
public void setSafe(int index, TimeNanoHolder holder) {
handleSafe(index);
set(index, holder);
}
/**
* Store the given value at a particular position in the vector. isSet indicates whether the value
* is NULL or not.
*
* @param index position of the new value
* @param isSet 0 for NULL value, 1 otherwise
* @param value element value
*/
public void set(int index, int isSet, long value) {
if (isSet > 0) {
set(index, value);
} else {
BitVectorHelper.unsetBit(validityBuffer, index);
}
}
/**
* Same as {@link #set(int, int, long)} except that it handles the case when index is greater than
* or equal to current value capacity of the vector.
*
* @param index position of the new value
* @param isSet 0 for NULL value, 1 otherwise
* @param value element value
*/
public void setSafe(int index, int isSet, long value) {
handleSafe(index);
set(index, isSet, value);
}
/**
* Given a data buffer, get the value stored at a particular position in the vector.
*
* <p>This method should not be used externally.
*
* @param buffer data buffer
* @param index position of the element.
* @return value stored at the index.
*/
public static long get(final ArrowBuf buffer, final int index) {
return buffer.getLong((long) index * TYPE_WIDTH);
}
/*----------------------------------------------------------------*
| |
| vector transfer |
| |
*----------------------------------------------------------------*/
/**
* Construct a TransferPair comprising this and a target vector of the same type.
*
* @param ref name of the target vector
* @param allocator allocator for the target vector
* @return {@link TransferPair}
*/
@Override
public TransferPair getTransferPair(String ref, BufferAllocator allocator) {
return new TransferImpl(ref, allocator);
}
/**
* Construct a TransferPair comprising this and a target vector of the same type.
*
* @param field Field object used by the target vector
* @param allocator allocator for the target vector
* @return {@link TransferPair}
*/
@Override
public TransferPair getTransferPair(Field field, BufferAllocator allocator) {
return new TransferImpl(field, allocator);
}
/**
* Construct a TransferPair with a desired target vector of the same type.
*
* @param to target vector
* @return {@link TransferPair}
*/
@Override
public TransferPair makeTransferPair(ValueVector to) {
return new TransferImpl((TimeNanoVector) to);
}
private class TransferImpl implements TransferPair {
TimeNanoVector to;
public TransferImpl(String ref, BufferAllocator allocator) {
to = new TimeNanoVector(ref, field.getFieldType(), allocator);
}
public TransferImpl(Field field, BufferAllocator allocator) {
to = new TimeNanoVector(field, allocator);
}
public TransferImpl(TimeNanoVector to) {
this.to = to;
}
@Override
public TimeNanoVector getTo() {
return to;
}
@Override
public void transfer() {
transferTo(to);
}
@Override
public void splitAndTransfer(int startIndex, int length) {
splitAndTransferTo(startIndex, length, to);
}
@Override
public void copyValueSafe(int fromIndex, int toIndex) {
to.copyFromSafe(fromIndex, toIndex, TimeNanoVector.this);
}
}
}