| /* GENERATED SOURCE. DO NOT MODIFY. */ |
| // © 2017 and later: Unicode, Inc. and others. |
| // License & terms of use: http://www.unicode.org/copyright.html#License |
| package android.icu.number; |
| |
| import java.math.BigDecimal; |
| import java.math.MathContext; |
| import java.math.RoundingMode; |
| |
| import android.icu.impl.number.DecimalQuantity; |
| import android.icu.impl.number.MultiplierProducer; |
| import android.icu.impl.number.RoundingUtils; |
| import android.icu.util.Currency; |
| import android.icu.util.Currency.CurrencyUsage; |
| |
| /** |
| * A class that defines the rounding strategy to be used when formatting numbers in NumberFormatter. |
| * |
| * <p> |
| * To create a Rounder, use one of the factory methods. |
| * |
| * @see NumberFormatter |
| * @hide Only a subset of ICU is exposed in Android |
| * @hide draft / provisional / internal are hidden on Android |
| */ |
| public abstract class Rounder implements Cloneable { |
| |
| /* package-private final */ MathContext mathContext; |
| |
| /* package-private */ Rounder() { |
| mathContext = RoundingUtils.mathContextUnlimited(RoundingUtils.DEFAULT_ROUNDING_MODE); |
| } |
| |
| /** |
| * Show all available digits to full precision. |
| * |
| * <p> |
| * <strong>NOTE:</strong> When formatting a <em>double</em>, this method, along with |
| * {@link #minFraction} and {@link #minDigits}, will trigger complex algorithm similar to |
| * <em>Dragon4</em> to determine the low-order digits and the number of digits to display based on |
| * the value of the double. If the number of fraction places or significant digits can be bounded, |
| * consider using {@link #maxFraction} or {@link #maxDigits} instead to maximize performance. For |
| * more information, read the following blog post. |
| * |
| * <p> |
| * http://www.serpentine.com/blog/2011/06/29/here-be-dragons-advances-in-problems-you-didnt-even-know-you-had/ |
| * |
| * @return A Rounder for chaining or passing to the NumberFormatter rounding() setter. |
| * @see NumberFormatter |
| * @hide draft / provisional / internal are hidden on Android |
| */ |
| public static Rounder unlimited() { |
| return constructInfinite(); |
| } |
| |
| /** |
| * Show numbers rounded if necessary to the nearest integer. |
| * |
| * @return A FractionRounder for chaining or passing to the NumberFormatter rounding() setter. |
| * @see NumberFormatter |
| * @hide draft / provisional / internal are hidden on Android |
| */ |
| public static FractionRounder integer() { |
| return constructFraction(0, 0); |
| } |
| |
| /** |
| * Show numbers rounded if necessary to a certain number of fraction places (numerals after the |
| * decimal separator). Additionally, pad with zeros to ensure that this number of places are always |
| * shown. |
| * |
| * <p> |
| * Example output with minMaxFractionPlaces = 3: |
| * |
| * <p> |
| * 87,650.000<br> |
| * 8,765.000<br> |
| * 876.500<br> |
| * 87.650<br> |
| * 8.765<br> |
| * 0.876<br> |
| * 0.088<br> |
| * 0.009<br> |
| * 0.000 (zero) |
| * |
| * <p> |
| * This method is equivalent to {@link #minMaxFraction} with both arguments equal. |
| * |
| * @param minMaxFractionPlaces |
| * The minimum and maximum number of numerals to display after the decimal separator |
| * (rounding if too long or padding with zeros if too short). |
| * @return A FractionRounder for chaining or passing to the NumberFormatter rounding() setter. |
| * @see NumberFormatter |
| * @hide draft / provisional / internal are hidden on Android |
| */ |
| public static FractionRounder fixedFraction(int minMaxFractionPlaces) { |
| if (minMaxFractionPlaces >= 0 && minMaxFractionPlaces <= RoundingUtils.MAX_INT_FRAC_SIG) { |
| return constructFraction(minMaxFractionPlaces, minMaxFractionPlaces); |
| } else { |
| throw new IllegalArgumentException("Fraction length must be between 0 and " |
| + RoundingUtils.MAX_INT_FRAC_SIG |
| + " (inclusive)"); |
| } |
| } |
| |
| /** |
| * Always show at least a certain number of fraction places after the decimal separator, padding with |
| * zeros if necessary. Do not perform rounding (display numbers to their full precision). |
| * |
| * <p> |
| * <strong>NOTE:</strong> If you are formatting <em>doubles</em>, see the performance note in |
| * {@link #unlimited}. |
| * |
| * @param minFractionPlaces |
| * The minimum number of numerals to display after the decimal separator (padding with |
| * zeros if necessary). |
| * @return A FractionRounder for chaining or passing to the NumberFormatter rounding() setter. |
| * @see NumberFormatter |
| * @hide draft / provisional / internal are hidden on Android |
| */ |
| public static FractionRounder minFraction(int minFractionPlaces) { |
| if (minFractionPlaces >= 0 && minFractionPlaces <= RoundingUtils.MAX_INT_FRAC_SIG) { |
| return constructFraction(minFractionPlaces, -1); |
| } else { |
| throw new IllegalArgumentException("Fraction length must be between 0 and " |
| + RoundingUtils.MAX_INT_FRAC_SIG |
| + " (inclusive)"); |
| } |
| } |
| |
| /** |
| * Show numbers rounded if necessary to a certain number of fraction places (numerals after the |
| * decimal separator). Unlike the other fraction rounding strategies, this strategy does <em>not</em> |
| * pad zeros to the end of the number. |
| * |
| * @param maxFractionPlaces |
| * The maximum number of numerals to display after the decimal mark (rounding if |
| * necessary). |
| * @return A FractionRounder for chaining or passing to the NumberFormatter rounding() setter. |
| * @see NumberFormatter |
| * @hide draft / provisional / internal are hidden on Android |
| */ |
| public static FractionRounder maxFraction(int maxFractionPlaces) { |
| if (maxFractionPlaces >= 0 && maxFractionPlaces <= RoundingUtils.MAX_INT_FRAC_SIG) { |
| return constructFraction(0, maxFractionPlaces); |
| } else { |
| throw new IllegalArgumentException("Fraction length must be between 0 and " |
| + RoundingUtils.MAX_INT_FRAC_SIG |
| + " (inclusive)"); |
| } |
| } |
| |
| /** |
| * Show numbers rounded if necessary to a certain number of fraction places (numerals after the |
| * decimal separator); in addition, always show at least a certain number of places after the decimal |
| * separator, padding with zeros if necessary. |
| * |
| * @param minFractionPlaces |
| * The minimum number of numerals to display after the decimal separator (padding with |
| * zeros if necessary). |
| * @param maxFractionPlaces |
| * The maximum number of numerals to display after the decimal separator (rounding if |
| * necessary). |
| * @return A FractionRounder for chaining or passing to the NumberFormatter rounding() setter. |
| * @see NumberFormatter |
| * @hide draft / provisional / internal are hidden on Android |
| */ |
| public static FractionRounder minMaxFraction(int minFractionPlaces, int maxFractionPlaces) { |
| if (minFractionPlaces >= 0 |
| && maxFractionPlaces <= RoundingUtils.MAX_INT_FRAC_SIG |
| && minFractionPlaces <= maxFractionPlaces) { |
| return constructFraction(minFractionPlaces, maxFractionPlaces); |
| } else { |
| throw new IllegalArgumentException("Fraction length must be between 0 and " |
| + RoundingUtils.MAX_INT_FRAC_SIG |
| + " (inclusive)"); |
| } |
| } |
| |
| /** |
| * Show numbers rounded if necessary to a certain number of significant digits or significant |
| * figures. Additionally, pad with zeros to ensure that this number of significant digits/figures are |
| * always shown. |
| * |
| * <p> |
| * This method is equivalent to {@link #minMaxDigits} with both arguments equal. |
| * |
| * @param minMaxSignificantDigits |
| * The minimum and maximum number of significant digits to display (rounding if too long |
| * or padding with zeros if too short). |
| * @return A Rounder for chaining or passing to the NumberFormatter rounding() setter. |
| * @see NumberFormatter |
| * @hide draft / provisional / internal are hidden on Android |
| */ |
| public static Rounder fixedDigits(int minMaxSignificantDigits) { |
| if (minMaxSignificantDigits >= 1 && minMaxSignificantDigits <= RoundingUtils.MAX_INT_FRAC_SIG) { |
| return constructSignificant(minMaxSignificantDigits, minMaxSignificantDigits); |
| } else { |
| throw new IllegalArgumentException("Significant digits must be between 1 and " |
| + RoundingUtils.MAX_INT_FRAC_SIG |
| + " (inclusive)"); |
| } |
| } |
| |
| /** |
| * Always show at least a certain number of significant digits/figures, padding with zeros if |
| * necessary. Do not perform rounding (display numbers to their full precision). |
| * |
| * <p> |
| * <strong>NOTE:</strong> If you are formatting <em>doubles</em>, see the performance note in |
| * {@link #unlimited}. |
| * |
| * @param minSignificantDigits |
| * The minimum number of significant digits to display (padding with zeros if too short). |
| * @return A Rounder for chaining or passing to the NumberFormatter rounding() setter. |
| * @see NumberFormatter |
| * @hide draft / provisional / internal are hidden on Android |
| */ |
| public static Rounder minDigits(int minSignificantDigits) { |
| if (minSignificantDigits >= 1 && minSignificantDigits <= RoundingUtils.MAX_INT_FRAC_SIG) { |
| return constructSignificant(minSignificantDigits, -1); |
| } else { |
| throw new IllegalArgumentException("Significant digits must be between 1 and " |
| + RoundingUtils.MAX_INT_FRAC_SIG |
| + " (inclusive)"); |
| } |
| } |
| |
| /** |
| * Show numbers rounded if necessary to a certain number of significant digits/figures. |
| * |
| * @param maxSignificantDigits |
| * The maximum number of significant digits to display (rounding if too long). |
| * @return A Rounder for chaining or passing to the NumberFormatter rounding() setter. |
| * @see NumberFormatter |
| * @hide draft / provisional / internal are hidden on Android |
| */ |
| public static Rounder maxDigits(int maxSignificantDigits) { |
| if (maxSignificantDigits >= 1 && maxSignificantDigits <= RoundingUtils.MAX_INT_FRAC_SIG) { |
| return constructSignificant(0, maxSignificantDigits); |
| } else { |
| throw new IllegalArgumentException("Significant digits must be between 1 and " |
| + RoundingUtils.MAX_INT_FRAC_SIG |
| + " (inclusive)"); |
| } |
| } |
| |
| /** |
| * Show numbers rounded if necessary to a certain number of significant digits/figures; in addition, |
| * always show at least a certain number of significant digits, padding with zeros if necessary. |
| * |
| * @param minSignificantDigits |
| * The minimum number of significant digits to display (padding with zeros if necessary). |
| * @param maxSignificantDigits |
| * The maximum number of significant digits to display (rounding if necessary). |
| * @return A Rounder for chaining or passing to the NumberFormatter rounding() setter. |
| * @see NumberFormatter |
| * @hide draft / provisional / internal are hidden on Android |
| */ |
| public static Rounder minMaxDigits(int minSignificantDigits, int maxSignificantDigits) { |
| if (minSignificantDigits >= 1 |
| && maxSignificantDigits <= RoundingUtils.MAX_INT_FRAC_SIG |
| && minSignificantDigits <= maxSignificantDigits) { |
| return constructSignificant(minSignificantDigits, maxSignificantDigits); |
| } else { |
| throw new IllegalArgumentException("Significant digits must be between 1 and " |
| + RoundingUtils.MAX_INT_FRAC_SIG |
| + " (inclusive)"); |
| } |
| } |
| |
| /** |
| * Show numbers rounded if necessary to the closest multiple of a certain rounding increment. For |
| * example, if the rounding increment is 0.5, then round 1.2 to 1 and round 1.3 to 1.5. |
| * |
| * <p> |
| * In order to ensure that numbers are padded to the appropriate number of fraction places, set the |
| * scale on the rounding increment BigDecimal. For example, to round to the nearest 0.5 and always |
| * display 2 numerals after the decimal separator (to display 1.2 as "1.00" and 1.3 as "1.50"), you |
| * can run: |
| * |
| * <pre> |
| * Rounder.increment(new BigDecimal("0.50")) |
| * </pre> |
| * |
| * <p> |
| * For more information on the scale of Java BigDecimal, see {@link java.math.BigDecimal#scale()}. |
| * |
| * @param roundingIncrement |
| * The increment to which to round numbers. |
| * @return A Rounder for chaining or passing to the NumberFormatter rounding() setter. |
| * @see NumberFormatter |
| * @hide draft / provisional / internal are hidden on Android |
| */ |
| public static Rounder increment(BigDecimal roundingIncrement) { |
| if (roundingIncrement != null && roundingIncrement.compareTo(BigDecimal.ZERO) > 0) { |
| return constructIncrement(roundingIncrement); |
| } else { |
| throw new IllegalArgumentException("Rounding increment must be positive and non-null"); |
| } |
| } |
| |
| /** |
| * Show numbers rounded and padded according to the rules for the currency unit. The most common |
| * rounding settings for currencies include <code>Rounder.fixedFraction(2)</code>, |
| * <code>Rounder.integer()</code>, and <code>Rounder.increment(0.05)</code> for cash transactions |
| * ("nickel rounding"). |
| * |
| * <p> |
| * The exact rounding details will be resolved at runtime based on the currency unit specified in the |
| * NumberFormatter chain. To round according to the rules for one currency while displaying the |
| * symbol for another currency, the withCurrency() method can be called on the return value of this |
| * method. |
| * |
| * @param currencyUsage |
| * Either STANDARD (for digital transactions) or CASH (for transactions where the rounding |
| * increment may be limited by the available denominations of cash or coins). |
| * @return A CurrencyRounder for chaining or passing to the NumberFormatter rounding() setter. |
| * @see NumberFormatter |
| * @hide draft / provisional / internal are hidden on Android |
| */ |
| public static CurrencyRounder currency(CurrencyUsage currencyUsage) { |
| if (currencyUsage != null) { |
| return constructCurrency(currencyUsage); |
| } else { |
| throw new IllegalArgumentException("CurrencyUsage must be non-null"); |
| } |
| } |
| |
| /** |
| * Sets the {@link java.math.RoundingMode} to use when picking the direction to round (up or down). |
| * Common values include HALF_EVEN, HALF_UP, and FLOOR. The default is HALF_EVEN. |
| * |
| * @param roundingMode |
| * The RoundingMode to use. |
| * @return A Rounder for chaining. |
| * @see NumberFormatter |
| * @hide draft / provisional / internal are hidden on Android |
| */ |
| public Rounder withMode(RoundingMode roundingMode) { |
| return withMode(RoundingUtils.mathContextUnlimited(roundingMode)); |
| } |
| |
| /** |
| * Sets a MathContext directly instead of RoundingMode. |
| * |
| * @deprecated This API is ICU internal only. |
| * @hide draft / provisional / internal are hidden on Android |
| */ |
| @Deprecated |
| public Rounder withMode(MathContext mathContext) { |
| if (this.mathContext.equals(mathContext)) { |
| return this; |
| } |
| Rounder other = (Rounder) this.clone(); |
| other.mathContext = mathContext; |
| return other; |
| } |
| |
| /** |
| * @deprecated This API is ICU internal only. |
| * @hide draft / provisional / internal are hidden on Android |
| */ |
| @Deprecated |
| @Override |
| public Object clone() { |
| try { |
| return super.clone(); |
| } catch (CloneNotSupportedException e) { |
| // Should not happen since parent is Object |
| throw new AssertionError(e); |
| } |
| } |
| |
| /** |
| * @deprecated ICU 60 This API is ICU internal only. |
| * @hide draft / provisional / internal are hidden on Android |
| */ |
| @Deprecated |
| public abstract void apply(DecimalQuantity value); |
| |
| ////////////////////////// |
| // PACKAGE-PRIVATE APIS // |
| ////////////////////////// |
| |
| static final InfiniteRounderImpl NONE = new InfiniteRounderImpl(); |
| |
| static final FractionRounderImpl FIXED_FRAC_0 = new FractionRounderImpl(0, 0); |
| static final FractionRounderImpl FIXED_FRAC_2 = new FractionRounderImpl(2, 2); |
| static final FractionRounderImpl MAX_FRAC_6 = new FractionRounderImpl(0, 6); |
| |
| static final SignificantRounderImpl FIXED_SIG_2 = new SignificantRounderImpl(2, 2); |
| static final SignificantRounderImpl FIXED_SIG_3 = new SignificantRounderImpl(3, 3); |
| static final SignificantRounderImpl RANGE_SIG_2_3 = new SignificantRounderImpl(2, 3); |
| |
| static final FracSigRounderImpl COMPACT_STRATEGY = new FracSigRounderImpl(0, 0, 2, -1); |
| |
| static final IncrementRounderImpl NICKEL = new IncrementRounderImpl(BigDecimal.valueOf(0.05)); |
| |
| static final CurrencyRounderImpl MONETARY_STANDARD = new CurrencyRounderImpl(CurrencyUsage.STANDARD); |
| static final CurrencyRounderImpl MONETARY_CASH = new CurrencyRounderImpl(CurrencyUsage.CASH); |
| |
| static final PassThroughRounderImpl PASS_THROUGH = new PassThroughRounderImpl(); |
| |
| static Rounder constructInfinite() { |
| return NONE; |
| } |
| |
| static FractionRounder constructFraction(int minFrac, int maxFrac) { |
| if (minFrac == 0 && maxFrac == 0) { |
| return FIXED_FRAC_0; |
| } else if (minFrac == 2 && maxFrac == 2) { |
| return FIXED_FRAC_2; |
| } else if (minFrac == 0 && maxFrac == 6) { |
| return MAX_FRAC_6; |
| } else { |
| return new FractionRounderImpl(minFrac, maxFrac); |
| } |
| } |
| |
| /** Assumes that minSig <= maxSig. */ |
| static Rounder constructSignificant(int minSig, int maxSig) { |
| if (minSig == 2 && maxSig == 2) { |
| return FIXED_SIG_2; |
| } else if (minSig == 3 && maxSig == 3) { |
| return FIXED_SIG_3; |
| } else if (minSig == 2 && maxSig == 3) { |
| return RANGE_SIG_2_3; |
| } else { |
| return new SignificantRounderImpl(minSig, maxSig); |
| } |
| } |
| |
| static Rounder constructFractionSignificant(FractionRounder base_, int minSig, int maxSig) { |
| assert base_ instanceof FractionRounderImpl; |
| FractionRounderImpl base = (FractionRounderImpl) base_; |
| if (base.minFrac == 0 && base.maxFrac == 0 && minSig == 2 /* && maxSig == -1 */) { |
| return COMPACT_STRATEGY; |
| } else { |
| return new FracSigRounderImpl(base.minFrac, base.maxFrac, minSig, maxSig); |
| } |
| } |
| |
| static Rounder constructIncrement(BigDecimal increment) { |
| // NOTE: .equals() is what we want, not .compareTo() |
| if (increment.equals(NICKEL.increment)) { |
| return NICKEL; |
| } else { |
| return new IncrementRounderImpl(increment); |
| } |
| } |
| |
| static CurrencyRounder constructCurrency(CurrencyUsage usage) { |
| if (usage == CurrencyUsage.STANDARD) { |
| return MONETARY_STANDARD; |
| } else if (usage == CurrencyUsage.CASH) { |
| return MONETARY_CASH; |
| } else { |
| throw new AssertionError(); |
| } |
| } |
| |
| static Rounder constructFromCurrency(CurrencyRounder base_, Currency currency) { |
| assert base_ instanceof CurrencyRounderImpl; |
| CurrencyRounderImpl base = (CurrencyRounderImpl) base_; |
| double incrementDouble = currency.getRoundingIncrement(base.usage); |
| if (incrementDouble != 0.0) { |
| BigDecimal increment = BigDecimal.valueOf(incrementDouble); |
| return constructIncrement(increment); |
| } else { |
| int minMaxFrac = currency.getDefaultFractionDigits(base.usage); |
| return constructFraction(minMaxFrac, minMaxFrac); |
| } |
| } |
| |
| static Rounder constructPassThrough() { |
| return PASS_THROUGH; |
| } |
| |
| /** |
| * Returns a valid working Rounder. If the Rounder is a CurrencyRounder, applies the given currency. |
| * Otherwise, simply passes through the argument. |
| * |
| * @param currency |
| * A currency object to use in case the input object needs it. |
| * @return A Rounder object ready for use. |
| */ |
| Rounder withLocaleData(Currency currency) { |
| if (this instanceof CurrencyRounder) { |
| return ((CurrencyRounder) this).withCurrency(currency); |
| } else { |
| return this; |
| } |
| } |
| |
| /** |
| * Rounding endpoint used by Engineering and Compact notation. Chooses the most appropriate |
| * multiplier (magnitude adjustment), applies the adjustment, rounds, and returns the chosen |
| * multiplier. |
| * |
| * <p> |
| * In most cases, this is simple. However, when rounding the number causes it to cross a multiplier |
| * boundary, we need to re-do the rounding. For example, to display 999,999 in Engineering notation |
| * with 2 sigfigs, first you guess the multiplier to be -3. However, then you end up getting 1000E3, |
| * which is not the correct output. You then change your multiplier to be -6, and you get 1.0E6, |
| * which is correct. |
| * |
| * @param input |
| * The quantity to process. |
| * @param producer |
| * Function to call to return a multiplier based on a magnitude. |
| * @return The number of orders of magnitude the input was adjusted by this method. |
| */ |
| int chooseMultiplierAndApply(DecimalQuantity input, MultiplierProducer producer) { |
| // Do not call this method with zero. |
| assert !input.isZero(); |
| |
| // Perform the first attempt at rounding. |
| int magnitude = input.getMagnitude(); |
| int multiplier = producer.getMultiplier(magnitude); |
| input.adjustMagnitude(multiplier); |
| apply(input); |
| |
| // If the number rounded to zero, exit. |
| if (input.isZero()) { |
| return multiplier; |
| } |
| |
| // If the new magnitude after rounding is the same as it was before rounding, then we are done. |
| // This case applies to most numbers. |
| if (input.getMagnitude() == magnitude + multiplier) { |
| return multiplier; |
| } |
| |
| // If the above case DIDN'T apply, then we have a case like 99.9 -> 100 or 999.9 -> 1000: |
| // The number rounded up to the next magnitude. Check if the multiplier changes; if it doesn't, |
| // we do not need to make any more adjustments. |
| int _multiplier = producer.getMultiplier(magnitude + 1); |
| if (multiplier == _multiplier) { |
| return multiplier; |
| } |
| |
| // We have a case like 999.9 -> 1000, where the correct output is "1K", not "1000". |
| // Fix the magnitude and re-apply the rounding strategy. |
| input.adjustMagnitude(_multiplier - multiplier); |
| apply(input); |
| return _multiplier; |
| } |
| |
| /////////////// |
| // INTERNALS // |
| /////////////// |
| |
| static class InfiniteRounderImpl extends Rounder { |
| |
| public InfiniteRounderImpl() { |
| } |
| |
| @Override |
| public void apply(DecimalQuantity value) { |
| value.roundToInfinity(); |
| value.setFractionLength(0, Integer.MAX_VALUE); |
| } |
| } |
| |
| static class FractionRounderImpl extends FractionRounder { |
| final int minFrac; |
| final int maxFrac; |
| |
| public FractionRounderImpl(int minFrac, int maxFrac) { |
| this.minFrac = minFrac; |
| this.maxFrac = maxFrac; |
| } |
| |
| @Override |
| public void apply(DecimalQuantity value) { |
| value.roundToMagnitude(getRoundingMagnitudeFraction(maxFrac), mathContext); |
| value.setFractionLength(Math.max(0, -getDisplayMagnitudeFraction(minFrac)), |
| Integer.MAX_VALUE); |
| } |
| } |
| |
| static class SignificantRounderImpl extends Rounder { |
| final int minSig; |
| final int maxSig; |
| |
| public SignificantRounderImpl(int minSig, int maxSig) { |
| this.minSig = minSig; |
| this.maxSig = maxSig; |
| } |
| |
| @Override |
| public void apply(DecimalQuantity value) { |
| value.roundToMagnitude(getRoundingMagnitudeSignificant(value, maxSig), mathContext); |
| value.setFractionLength(Math.max(0, -getDisplayMagnitudeSignificant(value, minSig)), |
| Integer.MAX_VALUE); |
| } |
| |
| /** |
| * Version of {@link #apply} that obeys minInt constraints. Used for scientific notation |
| * compatibility mode. |
| */ |
| public void apply(DecimalQuantity quantity, int minInt) { |
| assert quantity.isZero(); |
| quantity.setFractionLength(minSig - minInt, Integer.MAX_VALUE); |
| } |
| } |
| |
| static class FracSigRounderImpl extends Rounder { |
| final int minFrac; |
| final int maxFrac; |
| final int minSig; |
| final int maxSig; |
| |
| public FracSigRounderImpl(int minFrac, int maxFrac, int minSig, int maxSig) { |
| this.minFrac = minFrac; |
| this.maxFrac = maxFrac; |
| this.minSig = minSig; |
| this.maxSig = maxSig; |
| } |
| |
| @Override |
| public void apply(DecimalQuantity value) { |
| int displayMag = getDisplayMagnitudeFraction(minFrac); |
| int roundingMag = getRoundingMagnitudeFraction(maxFrac); |
| if (minSig == -1) { |
| // Max Sig override |
| int candidate = getRoundingMagnitudeSignificant(value, maxSig); |
| roundingMag = Math.max(roundingMag, candidate); |
| } else { |
| // Min Sig override |
| int candidate = getDisplayMagnitudeSignificant(value, minSig); |
| roundingMag = Math.min(roundingMag, candidate); |
| } |
| value.roundToMagnitude(roundingMag, mathContext); |
| value.setFractionLength(Math.max(0, -displayMag), Integer.MAX_VALUE); |
| } |
| } |
| |
| static class IncrementRounderImpl extends Rounder { |
| final BigDecimal increment; |
| |
| public IncrementRounderImpl(BigDecimal increment) { |
| this.increment = increment; |
| } |
| |
| @Override |
| public void apply(DecimalQuantity value) { |
| value.roundToIncrement(increment, mathContext); |
| value.setFractionLength(increment.scale(), increment.scale()); |
| } |
| } |
| |
| static class CurrencyRounderImpl extends CurrencyRounder { |
| final CurrencyUsage usage; |
| |
| public CurrencyRounderImpl(CurrencyUsage usage) { |
| this.usage = usage; |
| } |
| |
| @Override |
| public void apply(DecimalQuantity value) { |
| // Call .withCurrency() before .apply()! |
| throw new AssertionError(); |
| } |
| } |
| |
| static class PassThroughRounderImpl extends Rounder { |
| |
| public PassThroughRounderImpl() { |
| } |
| |
| @Override |
| public void apply(DecimalQuantity value) { |
| // TODO: Assert that value has already been rounded |
| } |
| } |
| |
| private static int getRoundingMagnitudeFraction(int maxFrac) { |
| if (maxFrac == -1) { |
| return Integer.MIN_VALUE; |
| } |
| return -maxFrac; |
| } |
| |
| private static int getRoundingMagnitudeSignificant(DecimalQuantity value, int maxSig) { |
| if (maxSig == -1) { |
| return Integer.MIN_VALUE; |
| } |
| int magnitude = value.isZero() ? 0 : value.getMagnitude(); |
| return magnitude - maxSig + 1; |
| } |
| |
| private static int getDisplayMagnitudeFraction(int minFrac) { |
| if (minFrac == 0) { |
| return Integer.MAX_VALUE; |
| } |
| return -minFrac; |
| } |
| |
| private static int getDisplayMagnitudeSignificant(DecimalQuantity value, int minSig) { |
| int magnitude = value.isZero() ? 0 : value.getMagnitude(); |
| return magnitude - minSig + 1; |
| } |
| } |