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* 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.
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package org.apache.lucene.spatial.prefix;
import java.io.IOException;
import org.locationtech.spatial4j.context.SpatialContext;
import org.locationtech.spatial4j.distance.DistanceUtils;
import org.locationtech.spatial4j.shape.Circle;
import org.locationtech.spatial4j.shape.Point;
import org.locationtech.spatial4j.shape.Rectangle;
import org.locationtech.spatial4j.shape.Shape;
import org.locationtech.spatial4j.shape.SpatialRelation;
import org.apache.lucene.index.LeafReaderContext;
import org.apache.lucene.search.DocIdSet;
import org.apache.lucene.spatial.prefix.tree.Cell;
import org.apache.lucene.spatial.prefix.tree.CellIterator;
import org.apache.lucene.spatial.prefix.tree.SpatialPrefixTree;
import org.apache.lucene.util.BitDocIdSet;
import org.apache.lucene.util.FixedBitSet;
Finds docs where its indexed shape is
WITHIN the query shape. It works by looking at cells outside of the query shape to ensure documents there are excluded. By default, it will examine all cells, and it's fairly slow. If you know that the indexed shapes are never comprised of multiple disjoint parts (which also means it is not multi-valued), then you can pass SpatialPrefixTree.getDistanceForLevel(maxLevels) as the queryBuffer constructor parameter to minimally look this distance beyond the query shape's edge. Even if the indexed shapes are sometimes comprised of multiple disjoint parts, you might want to use this option with a large buffer as a faster approximation with minimal false-positives. @lucene.experimental
/**
* Finds docs where its indexed shape is {@link org.apache.lucene.spatial.query.SpatialOperation#IsWithin
* WITHIN} the query shape. It works by looking at cells outside of the query
* shape to ensure documents there are excluded. By default, it will
* examine all cells, and it's fairly slow. If you know that the indexed shapes
* are never comprised of multiple disjoint parts (which also means it is not multi-valued),
* then you can pass {@code SpatialPrefixTree.getDistanceForLevel(maxLevels)} as
* the {@code queryBuffer} constructor parameter to minimally look this distance
* beyond the query shape's edge. Even if the indexed shapes are sometimes
* comprised of multiple disjoint parts, you might want to use this option with
* a large buffer as a faster approximation with minimal false-positives.
*
* @lucene.experimental
*/
public class WithinPrefixTreeQuery extends AbstractVisitingPrefixTreeQuery {
//TODO LUCENE-4869: implement faster algorithm based on filtering out false-positives of a
// minimal query buffer by looking in a DocValues cache holding a representative
// point of each disjoint component of a document's shape(s).
//TODO Could the recursion in allCellsIntersectQuery() be eliminated when non-fuzzy or other
// circumstances?
private final Shape bufferedQueryShape;//if null then the whole world
See AbstractVisitingPrefixTreeQuery(Shape, String, SpatialPrefixTree, int, int). queryBuffer is the (minimum) distance beyond the query shape edge where non-matching documents are looked for so they can be excluded. If -1 is used then the whole world is examined (a good default for correctness). /**
* See {@link AbstractVisitingPrefixTreeQuery#AbstractVisitingPrefixTreeQuery(org.locationtech.spatial4j.shape.Shape, String, org.apache.lucene.spatial.prefix.tree.SpatialPrefixTree, int, int)}.
* {@code queryBuffer} is the (minimum) distance beyond the query shape edge
* where non-matching documents are looked for so they can be excluded. If
* -1 is used then the whole world is examined (a good default for correctness).
*/
public WithinPrefixTreeQuery(Shape queryShape, String fieldName, SpatialPrefixTree grid,
int detailLevel, int prefixGridScanLevel,
double queryBuffer) {
super(queryShape, fieldName, grid, detailLevel, prefixGridScanLevel);
this.bufferedQueryShape = queryBuffer == -1 ? null : bufferShape(queryShape, queryBuffer);
}
@Override
public boolean equals(Object o) {
if (!super.equals(o)) return false;//checks getClass == o.getClass & instanceof
WithinPrefixTreeQuery that = (WithinPrefixTreeQuery) o;
if (bufferedQueryShape != null ? !bufferedQueryShape.equals(that.bufferedQueryShape) : that.bufferedQueryShape != null)
return false;
return true;
}
@Override
public int hashCode() {
int result = super.hashCode();
result = 31 * result + (bufferedQueryShape != null ? bufferedQueryShape.hashCode() : 0);
return result;
}
@Override
public String toString(String field) {
return getClass().getSimpleName() + "(" +
"fieldName=" + fieldName + "," +
"queryShape=" + queryShape + "," +
"detailLevel=" + detailLevel + "," +
"prefixGridScanLevel=" + prefixGridScanLevel +
")";
}
Returns a new shape that is larger than shape by at distErr.
/** Returns a new shape that is larger than shape by at distErr.
*/
//TODO move this generic code elsewhere? Spatial4j?
protected Shape bufferShape(Shape shape, double distErr) {
if (distErr <= 0)
throw new IllegalArgumentException("distErr must be > 0");
SpatialContext ctx = grid.getSpatialContext();
if (shape instanceof Point) {
return ctx.makeCircle((Point)shape, distErr);
} else if (shape instanceof Circle) {
Circle circle = (Circle) shape;
double newDist = circle.getRadius() + distErr;
if (ctx.isGeo() && newDist > 180)
newDist = 180;
return ctx.makeCircle(circle.getCenter(), newDist);
} else {
Rectangle bbox = shape.getBoundingBox();
double newMinX = bbox.getMinX() - distErr;
double newMaxX = bbox.getMaxX() + distErr;
double newMinY = bbox.getMinY() - distErr;
double newMaxY = bbox.getMaxY() + distErr;
if (ctx.isGeo()) {
if (newMinY < -90)
newMinY = -90;
if (newMaxY > 90)
newMaxY = 90;
if (newMinY == -90 || newMaxY == 90 || bbox.getWidth() + 2*distErr > 360) {
newMinX = -180;
newMaxX = 180;
} else {
newMinX = DistanceUtils.normLonDEG(newMinX);
newMaxX = DistanceUtils.normLonDEG(newMaxX);
}
} else {
//restrict to world bounds
newMinX = Math.max(newMinX, ctx.getWorldBounds().getMinX());
newMaxX = Math.min(newMaxX, ctx.getWorldBounds().getMaxX());
newMinY = Math.max(newMinY, ctx.getWorldBounds().getMinY());
newMaxY = Math.min(newMaxY, ctx.getWorldBounds().getMaxY());
}
return ctx.makeRectangle(newMinX, newMaxX, newMinY, newMaxY);
}
}
@Override
protected DocIdSet getDocIdSet(LeafReaderContext context) throws IOException {
return new VisitorTemplate(context) {
private FixedBitSet inside;
private FixedBitSet outside;
@Override
protected void start() {
inside = new FixedBitSet(maxDoc);
outside = new FixedBitSet(maxDoc);
}
@Override
protected DocIdSet finish() {
inside.andNot(outside);
return new BitDocIdSet(inside);
}
@Override
protected CellIterator findSubCellsToVisit(Cell cell) {
//use buffered query shape instead of orig. Works with null too.
return cell.getNextLevelCells(bufferedQueryShape);
}
@Override
protected boolean visitPrefix(Cell cell) throws IOException {
//cell.relate is based on the bufferedQueryShape; we need to examine what
// the relation is against the queryShape
SpatialRelation visitRelation = cell.getShape().relate(queryShape);
if (cell.getLevel() == detailLevel) {
collectDocs(visitRelation.intersects() ? inside : outside);
return false;
} else if (visitRelation == SpatialRelation.WITHIN) {
collectDocs(inside);
return false;
} else if (visitRelation == SpatialRelation.DISJOINT) {
collectDocs(outside);
return false;
}
return true;
}
@Override
protected void visitLeaf(Cell cell) throws IOException {
if (allCellsIntersectQuery(cell))
collectDocs(inside);
else
collectDocs(outside);
}
Returns true if the provided cell, and all its sub-cells down to
detailLevel all intersect the queryShape.
/** Returns true if the provided cell, and all its sub-cells down to
* detailLevel all intersect the queryShape.
*/
private boolean allCellsIntersectQuery(Cell cell) {
SpatialRelation relate = cell.getShape().relate(queryShape);
if (cell.getLevel() == detailLevel)
return relate.intersects();
if (relate == SpatialRelation.WITHIN)
return true;
if (relate == SpatialRelation.DISJOINT)
return false;
// Note: Generating all these cells just to determine intersection is not ideal.
// The real solution is LUCENE-4869.
CellIterator subCells = cell.getNextLevelCells(null);
while (subCells.hasNext()) {
Cell subCell = subCells.next();
if (!allCellsIntersectQuery(subCell))//recursion
return false;
}
return true;
}
@Override
protected void visitScanned(Cell cell) throws IOException {
visitLeaf(cell);//collects as we want, even if not a leaf
// if (cell.isLeaf()) {
// visitLeaf(cell);
// } else {
// visitPrefix(cell);
// }
}
}.getDocIdSet();
}
}