/*
* 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.document;
import java.util.Arrays;
import java.util.Collection;
import org.apache.lucene.index.PointValues;
import org.apache.lucene.search.PointInSetQuery;
import org.apache.lucene.search.PointRangeQuery;
import org.apache.lucene.search.Query;
import org.apache.lucene.util.BytesRef;
import org.apache.lucene.util.NumericUtils;
/**
* An indexed {@code double} field for fast range filters. If you also
* need to store the value, you should add a separate {@link StoredField} instance.
* <p>
* Finding all documents within an N-dimensional shape or range at search time is
* efficient. Multiple values for the same field in one document
* is allowed.
* <p>
* This field defines static factory methods for creating common queries:
* <ul>
* <li>{@link #newExactQuery(String, double)} for matching an exact 1D point.
* <li>{@link #newSetQuery(String, double...)} for matching a set of 1D values.
* <li>{@link #newRangeQuery(String, double, double)} for matching a 1D range.
* <li>{@link #newRangeQuery(String, double[], double[])} for matching points/ranges in n-dimensional space.
* </ul>
* @see PointValues
*/
public final class DoublePoint extends Field {
/**
* Return the least double that compares greater than {@code d} consistently
* with {@link Double#compare}. The only difference with
* {@link Math#nextUp(double)} is that this method returns {@code +0d} when
* the argument is {@code -0d}.
*/
public static double nextUp(double d) {
if (Double.doubleToLongBits(d) == 0x8000_0000_0000_0000L) { // -0d
return +0d;
}
return Math.nextUp(d);
}
/**
* Return the greatest double that compares less than {@code d} consistently
* with {@link Double#compare}. The only difference with
* {@link Math#nextDown(double)} is that this method returns {@code -0d} when
* the argument is {@code +0d}.
*/
public static double nextDown(double d) {
if (Double.doubleToLongBits(d) == 0L) { // +0d
return -0f;
}
return Math.nextDown(d);
}
private static FieldType getType(int numDims) {
FieldType type = new FieldType();
type.setDimensions(numDims, Double.BYTES);
type.freeze();
return type;
}
@Override
public void setDoubleValue(double value) {
setDoubleValues(value);
}
/** Change the values of this field */
public void setDoubleValues(double... point) {
if (type.pointDimensionCount() != point.length) {
throw new IllegalArgumentException("this field (name=" + name + ") uses " + type.pointDimensionCount() + " dimensions; cannot change to (incoming) " + point.length + " dimensions");
}
fieldsData = pack(point);
}
@Override
public void setBytesValue(BytesRef bytes) {
throw new IllegalArgumentException("cannot change value type from double to BytesRef");
}
@Override
public Number numericValue() {
if (type.pointDimensionCount() != 1) {
throw new IllegalStateException("this field (name=" + name + ") uses " + type.pointDimensionCount() + " dimensions; cannot convert to a single numeric value");
}
BytesRef bytes = (BytesRef) fieldsData;
assert bytes.length == Double.BYTES;
return decodeDimension(bytes.bytes, bytes.offset);
}
private static BytesRef pack(double... point) {
if (point == null) {
throw new IllegalArgumentException("point must not be null");
}
if (point.length == 0) {
throw new IllegalArgumentException("point must not be 0 dimensions");
}
byte[] packed = new byte[point.length * Double.BYTES];
for (int dim = 0; dim < point.length ; dim++) {
encodeDimension(point[dim], packed, dim * Double.BYTES);
}
return new BytesRef(packed);
}
/** Creates a new DoublePoint, indexing the
* provided N-dimensional double point.
*
* @param name field name
* @param point double[] value
* @throws IllegalArgumentException if the field name or value is null.
*/
public DoublePoint(String name, double... point) {
super(name, pack(point), getType(point.length));
}
@Override
public String toString() {
StringBuilder result = new StringBuilder();
result.append(getClass().getSimpleName());
result.append(" <");
result.append(name);
result.append(':');
BytesRef bytes = (BytesRef) fieldsData;
for (int dim = 0; dim < type.pointDimensionCount(); dim++) {
if (dim > 0) {
result.append(',');
}
result.append(decodeDimension(bytes.bytes, bytes.offset + dim * Double.BYTES));
}
result.append('>');
return result.toString();
}
// public helper methods (e.g. for queries)
/** Encode single double dimension */
public static void encodeDimension(double value, byte dest[], int offset) {
NumericUtils.longToSortableBytes(NumericUtils.doubleToSortableLong(value), dest, offset);
}
/** Decode single double dimension */
public static double decodeDimension(byte value[], int offset) {
return NumericUtils.sortableLongToDouble(NumericUtils.sortableBytesToLong(value, offset));
}
// static methods for generating queries
/**
* Create a query for matching an exact double value.
* <p>
* This is for simple one-dimension points, for multidimensional points use
* {@link #newRangeQuery(String, double[], double[])} instead.
*
* @param field field name. must not be {@code null}.
* @param value double value
* @throws IllegalArgumentException if {@code field} is null.
* @return a query matching documents with this exact value
*/
public static Query newExactQuery(String field, double value) {
return newRangeQuery(field, value, value);
}
/**
* Create a range query for double values.
* <p>
* This is for simple one-dimension ranges, for multidimensional ranges use
* {@link #newRangeQuery(String, double[], double[])} instead.
* <p>
* You can have half-open ranges (which are in fact </≤ or >/≥ queries)
* by setting {@code lowerValue = Double.NEGATIVE_INFINITY} or {@code upperValue = Double.POSITIVE_INFINITY}.
* <p> Ranges are inclusive. For exclusive ranges, pass {@link #nextUp(double) nextUp(lowerValue)}
* or {@link #nextUp(double) nextDown(upperValue)}.
* <p>
* Range comparisons are consistent with {@link Double#compareTo(Double)}.
*
* @param field field name. must not be {@code null}.
* @param lowerValue lower portion of the range (inclusive).
* @param upperValue upper portion of the range (inclusive).
* @throws IllegalArgumentException if {@code field} is null.
* @return a query matching documents within this range.
*/
public static Query newRangeQuery(String field, double lowerValue, double upperValue) {
return newRangeQuery(field, new double[] { lowerValue }, new double[] { upperValue });
}
/**
* Create a range query for n-dimensional double values.
* <p>
* You can have half-open ranges (which are in fact </≤ or >/≥ queries)
* by setting {@code lowerValue[i] = Double.NEGATIVE_INFINITY} or {@code upperValue[i] = Double.POSITIVE_INFINITY}.
* <p> Ranges are inclusive. For exclusive ranges, pass {@code Math#nextUp(lowerValue[i])}
* or {@code Math.nextDown(upperValue[i])}.
* <p>
* Range comparisons are consistent with {@link Double#compareTo(Double)}.
*
* @param field field name. must not be {@code null}.
* @param lowerValue lower portion of the range (inclusive). must not be {@code null}.
* @param upperValue upper portion of the range (inclusive). must not be {@code null}.
* @throws IllegalArgumentException if {@code field} is null, if {@code lowerValue} is null, if {@code upperValue} is null,
* or if {@code lowerValue.length != upperValue.length}
* @return a query matching documents within this range.
*/
public static Query newRangeQuery(String field, double[] lowerValue, double[] upperValue) {
PointRangeQuery.checkArgs(field, lowerValue, upperValue);
return new PointRangeQuery(field, pack(lowerValue).bytes, pack(upperValue).bytes, lowerValue.length) {
@Override
protected String toString(int dimension, byte[] value) {
return Double.toString(decodeDimension(value, 0));
}
};
}
/**
* Create a query matching any of the specified 1D values. This is the points equivalent of {@code TermsQuery}.
*
* @param field field name. must not be {@code null}.
* @param values all values to match
*/
public static Query newSetQuery(String field, double... values) {
// Don't unexpectedly change the user's incoming values array:
double[] sortedValues = values.clone();
Arrays.sort(sortedValues);
final BytesRef encoded = new BytesRef(new byte[Double.BYTES]);
return new PointInSetQuery(field, 1, Double.BYTES,
new PointInSetQuery.Stream() {
int upto;
@Override
public BytesRef next() {
if (upto == sortedValues.length) {
return null;
} else {
encodeDimension(sortedValues[upto], encoded.bytes, 0);
upto++;
return encoded;
}
}
}) {
@Override
protected String toString(byte[] value) {
assert value.length == Double.BYTES;
return Double.toString(decodeDimension(value, 0));
}
};
}
/**
* Create a query matching any of the specified 1D values. This is the points equivalent of {@code TermsQuery}.
*
* @param field field name. must not be {@code null}.
* @param values all values to match
*/
public static Query newSetQuery(String field, Collection<Double> values) {
Double[] boxed = values.toArray(new Double[0]);
double[] unboxed = new double[boxed.length];
for (int i = 0; i < boxed.length; i++) {
unboxed[i] = boxed[i];
}
return newSetQuery(field, unboxed);
}
}