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ucar.nc2.ft.point.PointFeatureCopyFactory Maven / Gradle / Ivy
/*
* Copyright 1998-2014 University Corporation for Atmospheric Research/Unidata
*
* Portions of this software were developed by the Unidata Program at the
* University Corporation for Atmospheric Research.
*
* Access and use of this software shall impose the following obligations
* and understandings on the user. The user is granted the right, without
* any fee or cost, to use, copy, modify, alter, enhance and distribute
* this software, and any derivative works thereof, and its supporting
* documentation for any purpose whatsoever, provided that this entire
* notice appears in all copies of the software, derivative works and
* supporting documentation. Further, UCAR requests that the user credit
* UCAR/Unidata in any publications that result from the use of this
* software or in any product that includes this software. The names UCAR
* and/or Unidata, however, may not be used in any advertising or publicity
* to endorse or promote any products or commercial entity unless specific
* written permission is obtained from UCAR/Unidata. The user also
* understands that UCAR/Unidata is not obligated to provide the user with
* any support, consulting, training or assistance of any kind with regard
* to the use, operation and performance of this software nor to provide
* the user with any updates, revisions, new versions or "bug fixes."
*
* THIS SOFTWARE IS PROVIDED BY UCAR/UNIDATA "AS IS" AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL UCAR/UNIDATA BE LIABLE FOR ANY SPECIAL,
* INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING
* FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT,
* NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION
* WITH THE ACCESS, USE OR PERFORMANCE OF THIS SOFTWARE.
*/
package ucar.nc2.ft.point;
import ucar.ma2.StructureData;
import ucar.ma2.StructureDataDeep;
import ucar.ma2.StructureMembers;
import ucar.nc2.ft.PointFeature;
import ucar.nc2.units.DateUnit;
import java.io.IOException;
/**
* A factory for making deep copies of PointFeature, so all data is self contained.
* A factory will use the first PointFeature to get the StructureMembers object, and the DateUnits, and uses that for all copies.
* So all PointFeatures must have the same StructureMembers and DateUnit.
*
* @author caron
* @since 6/20/2014
*/
public class PointFeatureCopyFactory {
static private final int POINTER_SIZE = 8; // assume 64 bit pointers could do better with -XX:+UseCompressedOops
static private final int OBJECT_SIZE = 40; // overhead per object estimate
static private final int ARRAY_SIZE = 8; // assume 64 bit pointers
private final StructureMembers sm;
private final DateUnit du;
private final int sizeInBytes;
public PointFeatureCopyFactory(PointFeature proto, DateUnit du) throws IOException {
StructureData sdata = proto.getData();
this.du = du;
sm = new StructureMembers(sdata.getStructureMembers());
sizeInBytes = OBJECT_SIZE + POINTER_SIZE + // PointFeatureCopy - 1 pointer 48
2 * 8 + 2 * POINTER_SIZE + // PointFeatureImpl - 2 doubles and 2 pointers 32
OBJECT_SIZE + 3 * 8 + // Earth Location - 3 doubles 64
OBJECT_SIZE + // StructureDataDeep
4 + POINTER_SIZE + // StructureDataA - 1 int and 1 pointer
OBJECT_SIZE + 4 + 2 * POINTER_SIZE + // ArrayStructureBB - 1 int and 2 pointers (heap is optional)
2 * POINTER_SIZE + 4 + // ArrayStructure - 2 pointers and an int
OBJECT_SIZE + 8 * 4 + 8 + POINTER_SIZE + // ByteBuffer - 8 ints, 1 long, 1 pointer
sm.getStructureSize(); // LOOK vlens, Strings (Heap Size)
}
/**
* approx size of each copy
* @return approx size of each copy
*/
public int getSizeInBytes() {
return sizeInBytes;
}
public PointFeature deepCopy(PointFeature from) throws IOException {
PointFeatureCopy deep = new PointFeatureCopy(from);
deep.data = StructureDataDeep.copy(from.getData(), sm);
return deep;
}
private class PointFeatureCopy extends PointFeatureImpl {
StructureData data;
PointFeatureCopy(PointFeature pf) {
super(pf.getLocation(), pf.getObservationTime(), pf.getNominalTime(), du);
}
@Override
public StructureData getDataAll() throws IOException {
return data;
}
@Override
public StructureData getFeatureData() throws IOException {
return data;
}
}
}
/*
// http://stackoverflow.com/questions/5839434/pointer-size-how-big-is-an-object-reference
A object or array reference occupies one 32 bit word (4 bytes) on a 32 bit JVM or Davlik VM. A null takes the same space as a reference.
(It has to, because a null has to fit in a reference-typed slot; i.e. instance field, local variable, etc.)
On the other hand, an object occupies a minimum of 2 32 bit words (8 bytes), and an array occupies a minimum of 3 32 bit words (12 bytes).
The actual size depends on the number and kinds of fields for an object, and on the number and kind of elements for an array.
For a 64 bit JVM, the size of a reference is 64 bits, unless you have configured the JVM to use compressed pointers: -XX:+UseCompressedOops
// http://stackoverflow.com/questions/52353/in-java-what-is-the-best-way-to-determine-the-size-of-an-object?rq=1
There is some fixed overhead per object. It's JVM-specific, but I usually estimate 40 bytes. Then you have to look at the members of the class.
Object references are 4 (8) bytes in a 32-bit (64-bit) JVM. Primitive types are:
boolean and byte: 1 byte
char and short: 2 bytes
int and float: 4 bytes
long and double: 8 bytes
Arrays follow the same rules; that is, it's an object reference so that takes 4 (or 8) bytes in your object, and then its length multiplied by the size of its element.
*/
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