com.ibm.icu.impl.units.ComplexUnitsConverter Maven / Gradle / Ivy
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// © 2020 and later: Unicode, Inc. and others.
// License & terms of use: http://www.unicode.org/copyright.html
package com.ibm.icu.impl.units;
import java.math.BigDecimal;
import java.math.BigInteger;
import java.math.RoundingMode;
import java.util.ArrayList;
import java.util.Collections;
import java.util.List;
import com.ibm.icu.impl.number.DecimalQuantity;
import com.ibm.icu.impl.number.DecimalQuantity_DualStorageBCD;
import com.ibm.icu.number.Precision;
import com.ibm.icu.util.Measure;
/**
* Converts from single or compound unit to single, compound or mixed units. For example, from `meter` to `foot+inch`.
*
* DESIGN: This class uses UnitsConverter
in order to perform the single converter (i.e. converters from
* a single unit to another single unit). Therefore, ComplexUnitsConverter
class contains multiple
* instances of the UnitsConverter
to perform the conversion.
*/
public class ComplexUnitsConverter {
public static final BigDecimal EPSILON = BigDecimal.valueOf(Math.ulp(1.0));
public static final BigDecimal EPSILON_MULTIPLIER = BigDecimal.valueOf(1).add(EPSILON);
private ArrayList unitsConverters_;
/**
* Individual units of mixed units, sorted big to small, with indices
* indicating the requested output mixed unit order.
*/
private List units_;
private MeasureUnitImpl inputUnit_;
/**
* Constructs ComplexUnitsConverter
for an inputUnit
that could be Single, Compound or
* Mixed. In case of: 1- Single and Compound units, the conversion will not perform anything, the input will be
* equal to the output. 2- Mixed Unit the conversion will consider the input in the biggest unit. and will convert
* it to be spread throw the input units. For example: if input unit is "inch-and-foot", and the input is 2.5. The
* converter will consider the input value in "foot", because foot is the biggest unit. Then, it will convert 2.5
* feet to "inch-and-foot".
*
* @param targetUnit
* represents the input unit. could be any type. (single, compound or mixed).
*/
public ComplexUnitsConverter(MeasureUnitImpl targetUnit, ConversionRates conversionRates) {
this.units_ = targetUnit.extractIndividualUnitsWithIndices();
assert (!this.units_.isEmpty());
// Assign the biggest unit to inputUnit_.
this.inputUnit_ = this.units_.get(0).unitImpl;
MeasureUnitImpl.MeasureUnitImplComparator comparator = new MeasureUnitImpl.MeasureUnitImplComparator(
conversionRates);
for (MeasureUnitImpl.MeasureUnitImplWithIndex unitWithIndex : this.units_) {
if (comparator.compare(unitWithIndex.unitImpl, this.inputUnit_) > 0) {
this.inputUnit_ = unitWithIndex.unitImpl;
}
}
this.init(conversionRates);
}
/**
* Constructs ComplexUnitsConverter
NOTE: - inputUnit and outputUnits must be under the same category -
* e.g. meter to feet and inches --> all of them are length units.
*
* @param inputUnitIdentifier
* represents the source unit identifier. (should be single or compound unit).
* @param outputUnitsIdentifier
* represents the output unit identifier. could be any type. (single, compound or mixed).
*/
public ComplexUnitsConverter(String inputUnitIdentifier, String outputUnitsIdentifier) {
this(
MeasureUnitImpl.forIdentifier(inputUnitIdentifier),
MeasureUnitImpl.forIdentifier(outputUnitsIdentifier),
new ConversionRates()
);
}
/**
* Constructs ComplexUnitsConverter
NOTE: - inputUnit and outputUnits must be under the same category -
* e.g. meter to feet and inches --> all of them are length units.
*
* @param inputUnit
* represents the source unit. (should be single or compound unit).
* @param outputUnits
* represents the output unit. could be any type. (single, compound or mixed).
* @param conversionRates
* a ConversionRates instance containing the unit conversion rates.
*/
public ComplexUnitsConverter(MeasureUnitImpl inputUnit, MeasureUnitImpl outputUnits,
ConversionRates conversionRates) {
this.inputUnit_ = inputUnit;
this.units_ = outputUnits.extractIndividualUnitsWithIndices();
assert (!this.units_.isEmpty());
this.init(conversionRates);
}
/**
* Sorts units_, which must be populated before calling this, and populates
* unitsConverters_.
*/
private void init(ConversionRates conversionRates) {
// Sort the units in a descending order.
Collections.sort(this.units_,
Collections.reverseOrder(new MeasureUnitImpl.MeasureUnitImplWithIndexComparator(conversionRates)));
// If the `outputUnits` is `UMEASURE_UNIT_MIXED` such as `foot+inch`. Thus means there is more than one unit
// and In this case we need more converters to convert from the `inputUnit` to the first unit in the
// `outputUnits`. Then, a converter from the first unit in the `outputUnits` to the second unit and so on.
// For Example:
// - inputUnit is `meter`
// - outputUnits is `foot+inch`
// - Therefore, we need to have two converters:
// 1. a converter from `meter` to `foot`
// 2. a converter from `foot` to `inch`
// - Therefore, if the input is `2 meter`:
// 1. convert `meter` to `foot` --> 2 meter to 6.56168 feet
// 2. convert the residual of 6.56168 feet (0.56168) to inches, which will be (6.74016
// inches)
// 3. then, the final result will be (6 feet and 6.74016 inches)
unitsConverters_ = new ArrayList<>();
for (int i = 0, n = units_.size(); i < n; i++) {
if (i == 0) { // first element
unitsConverters_.add(new UnitsConverter(this.inputUnit_, units_.get(i).unitImpl, conversionRates));
} else {
unitsConverters_
.add(new UnitsConverter(units_.get(i - 1).unitImpl, units_.get(i).unitImpl, conversionRates));
}
}
}
/**
* Returns true if the specified `quantity` of the `inputUnit`, expressed in terms of the biggest unit in the
* MeasureUnit `outputUnit`, is greater than or equal to `limit`.
*
* For example, if the input unit is `meter` and the target unit is `foot+inch`. Therefore, this function will
* convert the `quantity` from `meter` to `foot`, then, it will compare the value in `foot` with the `limit`.
*/
public boolean greaterThanOrEqual(BigDecimal quantity, BigDecimal limit) {
assert !units_.isEmpty();
// NOTE: First converter converts to the biggest quantity.
return unitsConverters_.get(0).convert(quantity).multiply(EPSILON_MULTIPLIER).compareTo(limit) >= 0;
}
public static class ComplexConverterResult {
public final int indexOfQuantity;
public final List measures;
ComplexConverterResult(int indexOfQuantity, List measures) {
this.indexOfQuantity = indexOfQuantity;
this.measures = measures;
}
}
/**
* Returns outputMeasures which is an array with the corresponding values.
* - E.g. converting meters to feet and inches.
* 1 meter --> 3 feet, 3.3701 inches
* NOTE:
* the smallest element is the only element that could have fractional values. And all
* other elements are floored to the nearest integer
*/
public ComplexConverterResult convert(BigDecimal quantity, Precision rounder) {
BigInteger sign = BigInteger.ONE;
if (quantity.compareTo(BigDecimal.ZERO) < 0) {
quantity = quantity.abs();
sign = sign.negate();
}
// For N converters:
// - the first converter converts from the input unit to the largest
// unit,
// - N-1 converters convert to bigger units for which we want integers,
// - the Nth converter (index N-1) converts to the smallest unit, which
// isn't (necessarily) an integer.
List intValues = new ArrayList<>(unitsConverters_.size() - 1);
for (int i = 0, n = unitsConverters_.size(); i < n; ++i) {
quantity = (unitsConverters_.get(i)).convert(quantity);
if (i < n - 1) {
// The double type has 15 decimal digits of precision. For choosing
// whether to use the current unit or the next smaller unit, we
// therefore nudge up the number with which the thresholding
// decision is made. However after the thresholding, we use the
// original values to ensure unbiased accuracy (to the extent of
// double's capabilities).
BigInteger flooredQuantity = quantity.multiply(EPSILON_MULTIPLIER).setScale(0, RoundingMode.FLOOR).toBigInteger();
intValues.add(flooredQuantity);
// Keep the residual of the quantity.
// For example: `3.6 feet`, keep only `0.6 feet`
BigDecimal remainder = quantity.subtract(BigDecimal.valueOf(flooredQuantity.longValue()));
if (remainder.compareTo(BigDecimal.ZERO) == -1) {
quantity = BigDecimal.ZERO;
} else {
quantity = remainder;
}
}
}
quantity = applyRounder(intValues, quantity, rounder);
// Initialize empty measures.
List measures = new ArrayList<>(unitsConverters_.size());
for (int i = 0; i < unitsConverters_.size(); i++) {
measures.add(null);
}
// Package values into Measure instances in measures:
int indexOfQuantity = -1;
for (int i = 0, n = unitsConverters_.size(); i < n; ++i) {
if (i < n - 1) {
Measure measure = new Measure(intValues.get(i).multiply(sign), units_.get(i).unitImpl.build());
measures.set(units_.get(i).index, measure);
} else {
indexOfQuantity = units_.get(i).index;
Measure measure =
new Measure(quantity.multiply(BigDecimal.valueOf(sign.longValue())),
units_.get(i).unitImpl.build());
measures.set(indexOfQuantity, measure);
}
}
return new ComplexConverterResult(indexOfQuantity , measures);
}
/**
* Applies the rounder to the quantity (last element) and bubble up any carried value to all the intValues.
*
* @return the rounded quantity
*/
private BigDecimal applyRounder(List intValues, BigDecimal quantity, Precision rounder) {
if (rounder == null) {
return quantity;
}
DecimalQuantity quantityBCD = new DecimalQuantity_DualStorageBCD(quantity);
rounder.apply(quantityBCD);
quantity = quantityBCD.toBigDecimal();
if (intValues.size() == 0) {
// There is only one element, Therefore, nothing to be done
return quantity;
}
// Check if there's a carry, and bubble it back up the resulting intValues.
int lastIndex = unitsConverters_.size() - 1;
BigDecimal carry = unitsConverters_.get(lastIndex).convertInverse(quantity).multiply(EPSILON_MULTIPLIER)
.setScale(0, RoundingMode.FLOOR);
if (carry.compareTo(BigDecimal.ZERO) <= 0) { // carry is not greater than zero
return quantity;
}
quantity = quantity.subtract(unitsConverters_.get(lastIndex).convert(carry));
intValues.set(lastIndex - 1, intValues.get(lastIndex - 1).add(carry.toBigInteger()));
// We don't use the first converter: that one is for the input unit
for (int j = lastIndex - 1; j > 0; j--) {
carry = unitsConverters_.get(j)
.convertInverse(BigDecimal.valueOf(intValues.get(j).longValue()))
.multiply(EPSILON_MULTIPLIER)
.setScale(0, RoundingMode.FLOOR);
if (carry.compareTo(BigDecimal.ZERO) <= 0) { // carry is not greater than zero
break;
}
intValues.set(j, intValues.get(j).subtract(unitsConverters_.get(j).convert(carry).toBigInteger()));
intValues.set(j - 1, intValues.get(j - 1).add(carry.toBigInteger()));
}
return quantity;
}
@Override
public String toString() {
return "ComplexUnitsConverter [unitsConverters_=" + unitsConverters_ + ", units_=" + units_ + "]";
}
}