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XYZBounds
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FUDGE_FACTOR: double
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minX: Double
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maxX: Double
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minY: Double
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maxY: Double
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minZ: Double
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maxZ: Double
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noLongitudeBound: boolean
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noTopLatitudeBound: boolean
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noBottomLatitudeBound: boolean
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XYZBounds(): void
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getMinimumX(): Double
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getMaximumX(): Double
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getMinimumY(): Double
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getMaximumY(): Double
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getMinimumZ(): Double
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getMaximumZ(): Double
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isSmallestMinX(PlanetModel): boolean
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isLargestMaxX(PlanetModel): boolean
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isSmallestMinY(PlanetModel): boolean
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isLargestMaxY(PlanetModel): boolean
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isSmallestMinZ(PlanetModel): boolean
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isLargestMaxZ(PlanetModel): boolean
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addPlane(PlanetModel, Plane, Membership[]): Bounds
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addHorizontalPlane(PlanetModel, double, Plane, Membership[]): Bounds
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addVerticalPlane(PlanetModel, double, Plane, Membership[]): Bounds
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addXValue(GeoPoint): Bounds
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addXValue(double): Bounds
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addYValue(GeoPoint): Bounds
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addYValue(double): Bounds
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addZValue(GeoPoint): Bounds
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addZValue(double): Bounds
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addIntersection(PlanetModel, Plane, Plane, Membership[]): Bounds
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addPoint(GeoPoint): Bounds
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isWide(): Bounds
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noLongitudeBound(): Bounds
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noTopLatitudeBound(): Bounds
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noBottomLatitudeBound(): Bounds
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noBound(PlanetModel): Bounds
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toString(): String
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/*
* 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.lucene.spatial3d.geom;
An object for accumulating XYZ bounds information.
@lucene.experimental
/**
* An object for accumulating XYZ bounds information.
*
* @lucene.experimental
*/
public class XYZBounds implements Bounds {
A 'fudge factor', which is added to maximums and subtracted from minimums,
in order to compensate for potential error deltas. This would not be necessary
except that our 'bounds' is defined as always equaling or exceeding the boundary
of the shape, and we cannot guarantee that without making MINIMUM_RESOLUTION
unacceptably large.
Also, see LUCENE-7290 for a description of how geometry can magnify the bounds delta.
/** A 'fudge factor', which is added to maximums and subtracted from minimums,
* in order to compensate for potential error deltas. This would not be necessary
* except that our 'bounds' is defined as always equaling or exceeding the boundary
* of the shape, and we cannot guarantee that without making MINIMUM_RESOLUTION
* unacceptably large.
* Also, see LUCENE-7290 for a description of how geometry can magnify the bounds delta.
*/
private static final double FUDGE_FACTOR = Vector.MINIMUM_RESOLUTION * 1e3;
Minimum x /** Minimum x */
private Double minX = null;
Maximum x /** Maximum x */
private Double maxX = null;
Minimum y /** Minimum y */
private Double minY = null;
Maximum y /** Maximum y */
private Double maxY = null;
Minimum z /** Minimum z */
private Double minZ = null;
Maximum z /** Maximum z */
private Double maxZ = null;
Set to true if no longitude bounds can be stated /** Set to true if no longitude bounds can be stated */
private boolean noLongitudeBound = false;
Set to true if no top latitude bound can be stated /** Set to true if no top latitude bound can be stated */
private boolean noTopLatitudeBound = false;
Set to true if no bottom latitude bound can be stated /** Set to true if no bottom latitude bound can be stated */
private boolean noBottomLatitudeBound = false;
Construct an empty bounds object /** Construct an empty bounds object */
public XYZBounds() {
}
// Accessor methods
Return the minimum X value.
Returns: minimum X value.
/** Return the minimum X value.
*@return minimum X value.
*/
public Double getMinimumX() {
return minX;
}
Return the maximum X value.
Returns: maximum X value.
/** Return the maximum X value.
*@return maximum X value.
*/
public Double getMaximumX() {
return maxX;
}
Return the minimum Y value.
Returns: minimum Y value.
/** Return the minimum Y value.
*@return minimum Y value.
*/
public Double getMinimumY() {
return minY;
}
Return the maximum Y value.
Returns: maximum Y value.
/** Return the maximum Y value.
*@return maximum Y value.
*/
public Double getMaximumY() {
return maxY;
}
Return the minimum Z value.
Returns: minimum Z value.
/** Return the minimum Z value.
*@return minimum Z value.
*/
public Double getMinimumZ() {
return minZ;
}
Return the maximum Z value.
Returns: maximum Z value.
/** Return the maximum Z value.
*@return maximum Z value.
*/
public Double getMaximumZ() {
return maxZ;
}
Return true if minX is as small as the planet model allows.
Returns: true if minX has reached its bound.
/** Return true if minX is as small as the planet model allows.
*@return true if minX has reached its bound.
*/
public boolean isSmallestMinX(final PlanetModel planetModel) {
if (minX == null)
return false;
return minX - planetModel.getMinimumXValue() < Vector.MINIMUM_RESOLUTION;
}
Return true if maxX is as large as the planet model allows.
Returns: true if maxX has reached its bound.
/** Return true if maxX is as large as the planet model allows.
*@return true if maxX has reached its bound.
*/
public boolean isLargestMaxX(final PlanetModel planetModel) {
if (maxX == null)
return false;
return planetModel.getMaximumXValue() - maxX < Vector.MINIMUM_RESOLUTION;
}
Return true if minY is as small as the planet model allows.
Returns: true if minY has reached its bound.
/** Return true if minY is as small as the planet model allows.
*@return true if minY has reached its bound.
*/
public boolean isSmallestMinY(final PlanetModel planetModel) {
if (minY == null)
return false;
return minY - planetModel.getMinimumYValue() < Vector.MINIMUM_RESOLUTION;
}
Return true if maxY is as large as the planet model allows.
Returns: true if maxY has reached its bound.
/** Return true if maxY is as large as the planet model allows.
*@return true if maxY has reached its bound.
*/
public boolean isLargestMaxY(final PlanetModel planetModel) {
if (maxY == null)
return false;
return planetModel.getMaximumYValue() - maxY < Vector.MINIMUM_RESOLUTION;
}
Return true if minZ is as small as the planet model allows.
Returns: true if minZ has reached its bound.
/** Return true if minZ is as small as the planet model allows.
*@return true if minZ has reached its bound.
*/
public boolean isSmallestMinZ(final PlanetModel planetModel) {
if (minZ == null)
return false;
return minZ - planetModel.getMinimumZValue() < Vector.MINIMUM_RESOLUTION;
}
Return true if maxZ is as large as the planet model allows.
Returns: true if maxZ has reached its bound.
/** Return true if maxZ is as large as the planet model allows.
*@return true if maxZ has reached its bound.
*/
public boolean isLargestMaxZ(final PlanetModel planetModel) {
if (maxZ == null)
return false;
return planetModel.getMaximumZValue() - maxZ < Vector.MINIMUM_RESOLUTION;
}
// Modification methods
@Override
public Bounds addPlane(final PlanetModel planetModel, final Plane plane, final Membership... bounds) {
plane.recordBounds(planetModel, this, bounds);
return this;
}
Add a horizontal plane to the bounds description.
This method should EITHER use the supplied latitude, OR use the supplied
plane, depending on what is most efficient.
Params: - planetModel – is the planet model.
- latitude – is the latitude.
- horizontalPlane – is the plane.
- bounds – are the constraints on the plane.
Returns: updated Bounds object.
/** Add a horizontal plane to the bounds description.
* This method should EITHER use the supplied latitude, OR use the supplied
* plane, depending on what is most efficient.
*@param planetModel is the planet model.
*@param latitude is the latitude.
*@param horizontalPlane is the plane.
*@param bounds are the constraints on the plane.
*@return updated Bounds object.
*/
public Bounds addHorizontalPlane(final PlanetModel planetModel,
final double latitude,
final Plane horizontalPlane,
final Membership... bounds) {
return addPlane(planetModel, horizontalPlane, bounds);
}
Add a vertical plane to the bounds description.
This method should EITHER use the supplied longitude, OR use the supplied
plane, depending on what is most efficient.
Params: - planetModel – is the planet model.
- longitude – is the longitude.
- verticalPlane – is the plane.
- bounds – are the constraints on the plane.
Returns: updated Bounds object.
/** Add a vertical plane to the bounds description.
* This method should EITHER use the supplied longitude, OR use the supplied
* plane, depending on what is most efficient.
*@param planetModel is the planet model.
*@param longitude is the longitude.
*@param verticalPlane is the plane.
*@param bounds are the constraints on the plane.
*@return updated Bounds object.
*/
public Bounds addVerticalPlane(final PlanetModel planetModel,
final double longitude,
final Plane verticalPlane,
final Membership... bounds) {
return addPlane(planetModel, verticalPlane, bounds);
}
@Override
public Bounds addXValue(final GeoPoint point) {
return addXValue(point.x);
}
Add a specific X value.
Params: - x – is the value to add.
Returns: the bounds object.
/** Add a specific X value.
* @param x is the value to add.
* @return the bounds object.
*/
public Bounds addXValue(final double x) {
final double small = x - FUDGE_FACTOR;
if (minX == null || minX > small) {
minX = small;
}
final double large = x + FUDGE_FACTOR;
if (maxX == null || maxX < large) {
maxX = large;
}
return this;
}
@Override
public Bounds addYValue(final GeoPoint point) {
return addYValue(point.y);
}
Add a specific Y value.
Params: - y – is the value to add.
Returns: the bounds object.
/** Add a specific Y value.
* @param y is the value to add.
* @return the bounds object.
*/
public Bounds addYValue(final double y) {
final double small = y - FUDGE_FACTOR;
if (minY == null || minY > small) {
minY = small;
}
final double large = y + FUDGE_FACTOR;
if (maxY == null || maxY < large) {
maxY = large;
}
return this;
}
@Override
public Bounds addZValue(final GeoPoint point) {
return addZValue(point.z);
}
Add a specific Z value.
Params: - z – is the value to add.
Returns: the bounds object.
/** Add a specific Z value.
* @param z is the value to add.
* @return the bounds object.
*/
public Bounds addZValue(final double z) {
final double small = z - FUDGE_FACTOR;
if (minZ == null || minZ > small) {
minZ = small;
}
final double large = z + FUDGE_FACTOR;
if (maxZ == null || maxZ < large) {
maxZ = large;
}
return this;
}
@Override
public Bounds addIntersection(final PlanetModel planetModel, final Plane plane1, final Plane plane2, final Membership... bounds) {
plane1.recordBounds(planetModel, this, plane2, bounds);
return this;
}
@Override
public Bounds addPoint(final GeoPoint point) {
return addXValue(point).addYValue(point).addZValue(point);
}
@Override
public Bounds isWide() {
// No specific thing we need to do.
return this;
}
@Override
public Bounds noLongitudeBound() {
// No specific thing we need to do.
return this;
}
@Override
public Bounds noTopLatitudeBound() {
// No specific thing we need to do.
return this;
}
@Override
public Bounds noBottomLatitudeBound() {
// No specific thing we need to do.
return this;
}
@Override
public Bounds noBound(final PlanetModel planetModel) {
minX = planetModel.getMinimumXValue();
maxX = planetModel.getMaximumXValue();
minY = planetModel.getMinimumYValue();
maxY = planetModel.getMaximumYValue();
minZ = planetModel.getMinimumZValue();
maxZ = planetModel.getMaximumZValue();
return this;
}
@Override
public String toString() {
return "XYZBounds: [xmin="+minX+" xmax="+maxX+" ymin="+minY+" ymax="+maxY+" zmin="+minZ+" zmax="+maxZ+"]";
}
}