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// © 2017 and later: Unicode, Inc. and others.
// License & terms of use: http://www.unicode.org/copyright.html
package com.ibm.icu.number;

import java.math.RoundingMode;

import com.ibm.icu.impl.number.MacroProps;
import com.ibm.icu.impl.number.Padder;
import com.ibm.icu.number.NumberFormatter.DecimalSeparatorDisplay;
import com.ibm.icu.number.NumberFormatter.GroupingStrategy;
import com.ibm.icu.number.NumberFormatter.SignDisplay;
import com.ibm.icu.number.NumberFormatter.UnitWidth;
import com.ibm.icu.text.DecimalFormatSymbols;
import com.ibm.icu.text.DisplayOptions;
import com.ibm.icu.text.DisplayOptions.GrammaticalCase;
import com.ibm.icu.text.NumberingSystem;
import com.ibm.icu.util.Currency;
import com.ibm.icu.util.Measure;
import com.ibm.icu.util.MeasureUnit;
import com.ibm.icu.util.NoUnit;
import com.ibm.icu.util.ULocale;

/**
 * An abstract base class for specifying settings related to number formatting. This class is implemented
 * by {@link UnlocalizedNumberFormatter} and {@link LocalizedNumberFormatter}. This class is not intended
 * for public subclassing.
 *
 * @stable ICU 60
 * @see NumberFormatter
 */
public abstract class NumberFormatterSettings> {

    static final int KEY_MACROS = 0;
    static final int KEY_LOCALE = 1;
    static final int KEY_NOTATION = 2;
    static final int KEY_UNIT = 3;
    static final int KEY_PRECISION = 4;
    static final int KEY_ROUNDING_MODE = 5;
    static final int KEY_GROUPING = 6;
    static final int KEY_PADDER = 7;
    static final int KEY_INTEGER = 8;
    static final int KEY_SYMBOLS = 9;
    static final int KEY_UNIT_WIDTH = 10;
    static final int KEY_SIGN = 11;
    static final int KEY_DECIMAL = 12;
    static final int KEY_SCALE = 13;
    static final int KEY_THRESHOLD = 14;
    static final int KEY_PER_UNIT = 15;
    static final int KEY_USAGE = 16;
    static final int KEY_UNIT_DISPLAY_CASE = 17;
    static final int KEY_MAX = 18;

    private final NumberFormatterSettings parent;
    private final int key;
    private final Object value;
    private volatile MacroProps resolvedMacros;

    NumberFormatterSettings(NumberFormatterSettings parent, int key, Object value) {
        this.parent = parent;
        this.key = key;
        this.value = value;
    }

    /**
     * Specifies the notation style (simple, scientific, or compact) for rendering numbers.
     *
     * 
    *
  • Simple notation: "12,300" *
  • Scientific notation: "1.23E4" *
  • Compact notation: "12K" *
* *

* All notation styles will be properly localized with locale data, and all notation styles are * compatible with units, rounding strategies, and other number formatter settings. * *

* Pass this method the return value of a {@link Notation} factory method. For example: * *

     * NumberFormatter.with().notation(Notation.compactShort())
     * 
* * The default is to use simple notation. * * @param notation * The notation strategy to use. * @return The fluent chain. * @see Notation * @stable ICU 60 */ public T notation(Notation notation) { return create(KEY_NOTATION, notation); } /** * Specifies the unit (unit of measure, currency, or percent) to associate with rendered numbers. * *
    *
  • Unit of measure: "12.3 meters" *
  • Currency: "$12.30" *
  • Percent: "12.3%" *
* *

* Note: The unit can also be specified by passing a {@link Measure} to * {@link LocalizedNumberFormatter#format(Measure)}. Units specified via the format method take * precedence over units specified here. This setter is designed for situations when the unit is * constant for the duration of the number formatting process. * *

* All units will be properly localized with locale data, and all units are compatible with notation * styles, rounding strategies, and other number formatter settings. * *

* Pass this method any instance of {@link MeasureUnit}. For units of measure: * *

     * NumberFormatter.with().unit(MeasureUnit.METER)
     * 
* * Currency: * *
     * NumberFormatter.with().unit(Currency.getInstance("USD"))
     * 
* * Percent: * *
     * NumberFormatter.with().unit(NoUnit.PERCENT)
     * 
* *

* See {@link #perUnit} for information on how to format strings like "5 meters per second". * *

* The default is to render without units (equivalent to {@link NoUnit#BASE}). * *

* If the input usage is correctly set the output unit will change * according to {@code usage}, {@code locale} and {@code unit} value. *

* * @param unit * The unit to render. * @return The fluent chain. * @see MeasureUnit * @see Currency * @see NoUnit * @see #perUnit * @stable ICU 60 */ public T unit(MeasureUnit unit) { return create(KEY_UNIT, unit); } /** * Sets a unit to be used in the denominator. For example, to format "3 m/s", pass METER to the unit * and SECOND to the perUnit. * *

* Pass this method any instance of {@link MeasureUnit}. For example: * *

     * NumberFormatter.with().unit(MeasureUnit.METER).perUnit(MeasureUnit.SECOND)
     * 
* *

* The default is not to display any unit in the denominator. * *

* If a per-unit is specified without a primary unit via {@link #unit}, the behavior is undefined. * * @param perUnit * The unit to render in the denominator. * @return The fluent chain * @see #unit * @stable ICU 61 */ public T perUnit(MeasureUnit perUnit) { return create(KEY_PER_UNIT, perUnit); } /** * Specifies the rounding precision to use when formatting numbers. * *

    *
  • Round to 3 decimal places: "3.142" *
  • Round to 3 significant figures: "3.14" *
  • Round to the closest nickel: "3.15" *
  • Do not perform rounding: "3.1415926..." *
* *

* Pass this method the return value of one of the factory methods on {@link Precision}. For example: * *

     * NumberFormatter.with().precision(Precision.fixedFraction(2))
     * 
* *

* In most cases, the default rounding precision is to round to 6 fraction places; i.e., * Precision.maxFraction(6). The exceptions are if compact notation is being used, then * the compact notation rounding precision is used (see {@link Notation#compactShort} for details), or * if the unit is a currency, then standard currency rounding is used, which varies from currency to * currency (see {@link Precision#currency} for details). * * @param precision * The rounding precision to use. * @return The fluent chain. * @see Precision * @stable ICU 62 */ public T precision(Precision precision) { return create(KEY_PRECISION, precision); } /** * Specifies how to determine the direction to round a number when it has more digits than fit in the * desired precision. When formatting 1.235: * *

    *
  • Ceiling rounding mode with integer precision: "2" *
  • Half-down rounding mode with 2 fixed fraction digits: "1.23" *
  • Half-up rounding mode with 2 fixed fraction digits: "1.24" *
* * The default is HALF_EVEN. For more information on rounding mode, see the ICU userguide here: * * https://unicode-org.github.io/icu/userguide/format_parse/numbers/rounding-modes * * @param roundingMode * The rounding mode to use. * @return The fluent chain. * @see Precision * @stable ICU 62 */ public T roundingMode(RoundingMode roundingMode) { return create(KEY_ROUNDING_MODE, roundingMode); } /** * Specifies the grouping strategy to use when formatting numbers. * *
    *
  • Default grouping: "12,300" and "1,230" *
  • Grouping with at least 2 digits: "12,300" and "1230" *
  • No grouping: "12300" and "1230" *
* *

* The exact grouping widths will be chosen based on the locale. * *

* Pass this method an element from the {@link GroupingStrategy} enum. For example: * *

     * NumberFormatter.with().grouping(GroupingStrategy.MIN2)
     * 
* * The default is to perform grouping according to locale data; most locales, but not all locales, * enable it by default. * * @param strategy * The grouping strategy to use. * @return The fluent chain. * @see GroupingStrategy * @stable ICU 61 */ public T grouping(GroupingStrategy strategy) { return create(KEY_GROUPING, strategy); } /** * Specifies the minimum and maximum number of digits to render before the decimal mark. * *
    *
  • Zero minimum integer digits: ".08" *
  • One minimum integer digit: "0.08" *
  • Two minimum integer digits: "00.08" *
* *

* Pass this method the return value of {@link IntegerWidth#zeroFillTo(int)}. For example: * *

     * NumberFormatter.with().integerWidth(IntegerWidth.zeroFillTo(2))
     * 
* * The default is to have one minimum integer digit. * * @param style * The integer width to use. * @return The fluent chain. * @see IntegerWidth * @stable ICU 60 */ public T integerWidth(IntegerWidth style) { return create(KEY_INTEGER, style); } /** * Specifies the symbols (decimal separator, grouping separator, percent sign, numerals, etc.) to use * when rendering numbers. * *
    *
  • en_US symbols: "12,345.67" *
  • fr_FR symbols: "12 345,67" *
  • de_CH symbols: "12’345.67" *
  • my_MY symbols: "၁၂,၃၄၅.၆၇" *
* *

* Pass this method an instance of {@link DecimalFormatSymbols}. For example: * *

     * NumberFormatter.with().symbols(DecimalFormatSymbols.getInstance(new ULocale("de_CH")))
     * 
* *

* Note: DecimalFormatSymbols automatically chooses the best numbering system based * on the locale. In the examples above, the first three are using the Latin numbering system, and * the fourth is using the Myanmar numbering system. * *

* Note: The instance of DecimalFormatSymbols will be copied: changes made to the * symbols object after passing it into the fluent chain will not be seen. * *

* Note: Calling this method will override the NumberingSystem previously specified * in {@link #symbols(NumberingSystem)}. * *

* The default is to choose the symbols based on the locale specified in the fluent chain. * * @param symbols * The DecimalFormatSymbols to use. * @return The fluent chain. * @see DecimalFormatSymbols * @stable ICU 60 */ public T symbols(DecimalFormatSymbols symbols) { symbols = (DecimalFormatSymbols) symbols.clone(); return create(KEY_SYMBOLS, symbols); } /** * Specifies that the given numbering system should be used when fetching symbols. * *

    *
  • Latin numbering system: "12,345" *
  • Myanmar numbering system: "၁၂,၃၄၅" *
  • Math Sans Bold numbering system: "𝟭𝟮,𝟯𝟰𝟱" *
* *

* Pass this method an instance of {@link NumberingSystem}. For example, to force the locale to * always use the Latin alphabet numbering system (ASCII digits): * *

     * NumberFormatter.with().symbols(NumberingSystem.LATIN)
     * 
* *

* Note: Calling this method will override the DecimalFormatSymbols previously * specified in {@link #symbols(DecimalFormatSymbols)}. * *

* The default is to choose the best numbering system for the locale. * * @param ns * The NumberingSystem to use. * @return The fluent chain. * @see NumberingSystem * @stable ICU 60 */ public T symbols(NumberingSystem ns) { return create(KEY_SYMBOLS, ns); } /** * Sets the width of the unit (measure unit or currency). Most common values: * *

    *
  • Short: "$12.00", "12 m" *
  • ISO Code: "USD 12.00" *
  • Full name: "12.00 US dollars", "12 meters" *
* *

* Pass an element from the {@link UnitWidth} enum to this setter. For example: * *

     * NumberFormatter.with().unitWidth(UnitWidth.FULL_NAME)
     * 
* *

* The default is the SHORT width. * * @param style * The width to use when rendering numbers. * @return The fluent chain * @see UnitWidth * @stable ICU 60 */ public T unitWidth(UnitWidth style) { return create(KEY_UNIT_WIDTH, style); } /** * Sets the plus/minus sign display strategy. Most common values: * *

    *
  • Auto: "123", "-123" *
  • Always: "+123", "-123" *
  • Accounting: "$123", "($123)" *
* *

* Pass an element from the {@link SignDisplay} enum to this setter. For example: * *

     * NumberFormatter.with().sign(SignDisplay.ALWAYS)
     * 
* *

* The default is AUTO sign display. * * @param style * The sign display strategy to use when rendering numbers. * @return The fluent chain * @see SignDisplay * @stable ICU 60 */ public T sign(SignDisplay style) { return create(KEY_SIGN, style); } /** * Sets the decimal separator display strategy. This affects integer numbers with no fraction part. * Most common values: * *

    *
  • Auto: "1" *
  • Always: "1." *
* *

* Pass an element from the {@link DecimalSeparatorDisplay} enum to this setter. For example: * *

     * NumberFormatter.with().decimal(DecimalSeparatorDisplay.ALWAYS)
     * 
* *

* The default is AUTO decimal separator display. * * @param style * The decimal separator display strategy to use when rendering numbers. * @return The fluent chain * @see DecimalSeparatorDisplay * @stable ICU 60 */ public T decimal(DecimalSeparatorDisplay style) { return create(KEY_DECIMAL, style); } /** * Sets a scale (multiplier) to be used to scale the number by an arbitrary amount before formatting. * Most common values: * *

    *
  • Multiply by 100: useful for percentages. *
  • Multiply by an arbitrary value: useful for unit conversions. *
* *

* Pass an element from a {@link Scale} factory method to this setter. For example: * *

     * NumberFormatter.with().scale(Scale.powerOfTen(2))
     * 
* *

* The default is to not apply any multiplier. * * @param scale * An amount to be multiplied against numbers before formatting. * @return The fluent chain * @see Scale * @stable ICU 62 */ public T scale(Scale scale) { return create(KEY_SCALE, scale); } /** * Specifies the usage for which numbers will be formatted ("person-height", * "road", "rainfall", etc.) * *

* When a {@code usage} is specified, the output unit will change depending on the * {@code Locale} and the unit quantity. For example, formatting length * measurements specified in meters: * *

     * NumberFormatter.with().usage("person").unit(MeasureUnit.METER).locale(new ULocale("en-US"))
     * 
*
    *
  • When formatting 0.25, the output will be "10 inches". *
  • When formatting 1.50, the output will be "4 feet and 11 inches". *
* *

* The input unit specified via unit() determines the type of measurement * being formatted (e.g. "length" when the unit is "foot"). The usage * requested will be looked for only within this category of measurement * units. * *

* The output unit can be found via FormattedNumber.getOutputUnit(). * *

* If the usage has multiple parts (e.g. "land-agriculture-grain") and does * not match a known usage preference, the last part will be dropped * repeatedly until a match is found (e.g. trying "land-agriculture", then * "land"). If a match is still not found, usage will fall back to * "default". * *

* Setting usage to an empty string clears the usage (disables usage-based * localized formatting). * *

* Setting a usage string but not a correct input unit will result in an * U_ILLEGAL_ARGUMENT_ERROR. * *

* When using usage, specifying rounding or precision is unnecessary. * Specifying a precision in some manner will override the default * formatting. * * @param usage A usage parameter from the units resource. * @return The fluent chain * @throws IllegalArgumentException in case of Setting a usage string but not a correct input unit. * @stable ICU 68 */ public T usage(String usage) { if (usage != null && usage.isEmpty()) { return create(KEY_USAGE, null); } return create(KEY_USAGE, usage); } /** * Specifies the {@code DisplayOptions}. For example, {@code GrammaticalCase} specifies * the desired case for a unit formatter's output (e.g. accusative, dative, genitive). * * @return The fluent chain. * @stable ICU 72 */ public T displayOptions(DisplayOptions displayOptions) { // `displayCase` does not recognise the `undefined` if (displayOptions.getGrammaticalCase() == GrammaticalCase.UNDEFINED) { return create(KEY_UNIT_DISPLAY_CASE, null); } return create(KEY_UNIT_DISPLAY_CASE, displayOptions.getGrammaticalCase().getIdentifier()); } /** * Specifies the desired case for a unit formatter's output (e.g. * accusative, dative, genitive). * * @return The fluent chain * @internal ICU 69 technology preview * @deprecated This API is for technology preview only. */ @Deprecated public T unitDisplayCase(String unitDisplayCase) { return create(KEY_UNIT_DISPLAY_CASE, unitDisplayCase); } /** * Internal method to set a starting macros. * * @internal * @deprecated ICU 60 This API is ICU internal only. */ @Deprecated public T macros(MacroProps macros) { return create(KEY_MACROS, macros); } /** * Set the padding strategy. May be added to ICU 61; see #13338. * * @internal * @deprecated ICU 60 This API is ICU internal only. */ @Deprecated public T padding(Padder padder) { return create(KEY_PADDER, padder); } /** * Internal fluent setter to support a custom regulation threshold. A threshold of 1 causes the data * structures to be built right away. A threshold of 0 prevents the data structures from being built. * * @internal * @deprecated ICU 60 This API is ICU internal only. */ @Deprecated public T threshold(Long threshold) { return create(KEY_THRESHOLD, threshold); } /** * Creates a skeleton string representation of this number formatter. A skeleton string is a * locale-agnostic serialized form of a number formatter. *

* Not all options are capable of being represented in the skeleton string; for example, a * DecimalFormatSymbols object. If any such option is encountered, an * {@link UnsupportedOperationException} is thrown. *

* The returned skeleton is in normalized form, such that two number formatters with equivalent * behavior should produce the same skeleton. *

* For more information on number skeleton strings, see: * https://unicode-org.github.io/icu/userguide/format_parse/numbers/skeletons.html * * @return A number skeleton string with behavior corresponding to this number formatter. * @throws UnsupportedOperationException * If the number formatter has an option that cannot be represented in a skeleton string. * @stable ICU 62 */ public String toSkeleton() { return NumberSkeletonImpl.generate(resolve()); } /* package-protected */ abstract T create(int key, Object value); MacroProps resolve() { if (resolvedMacros != null) { return resolvedMacros; } // Although the linked-list fluent storage approach requires this method, // my benchmarks show that linked-list is still faster than a full clone // of a MacroProps object at each step. // TODO: Remove the reference to the parent after the macros are resolved? MacroProps macros = new MacroProps(); // Bitmap: 1 if seen; 0 if unseen long seen = 0; NumberFormatterSettings current = this; while (current != null) { long keyBitmask = (1L << current.key); if (0 != (seen & keyBitmask)) { current = current.parent; continue; } seen |= keyBitmask; switch (current.key) { case KEY_MACROS: macros.fallback((MacroProps) current.value); break; case KEY_LOCALE: macros.loc = (ULocale) current.value; break; case KEY_NOTATION: macros.notation = (Notation) current.value; break; case KEY_UNIT: macros.unit = (MeasureUnit) current.value; break; case KEY_PRECISION: macros.precision = (Precision) current.value; break; case KEY_ROUNDING_MODE: macros.roundingMode = (RoundingMode) current.value; break; case KEY_GROUPING: macros.grouping = /* (Object) */ current.value; break; case KEY_PADDER: macros.padder = (Padder) current.value; break; case KEY_INTEGER: macros.integerWidth = (IntegerWidth) current.value; break; case KEY_SYMBOLS: macros.symbols = /* (Object) */ current.value; break; case KEY_UNIT_WIDTH: macros.unitWidth = (UnitWidth) current.value; break; case KEY_SIGN: macros.sign = (SignDisplay) current.value; break; case KEY_DECIMAL: macros.decimal = (DecimalSeparatorDisplay) current.value; break; case KEY_SCALE: macros.scale = (Scale) current.value; break; case KEY_THRESHOLD: macros.threshold = (Long) current.value; break; case KEY_PER_UNIT: macros.perUnit = (MeasureUnit) current.value; break; case KEY_USAGE: macros.usage = (String) current.value; break; case KEY_UNIT_DISPLAY_CASE: macros.unitDisplayCase = (String) current.value; break; default: throw new AssertionError("Unknown key: " + current.key); } current = current.parent; } resolvedMacros = macros; return macros; } /** * {@inheritDoc} * * @stable ICU 60 */ @Override public int hashCode() { return resolve().hashCode(); } /** * {@inheritDoc} * * @stable ICU 60 */ @Override public boolean equals(Object other) { if (this == other) { return true; } if (other == null) { return false; } if (!(other instanceof NumberFormatterSettings)) { return false; } return resolve().equals(((NumberFormatterSettings) other).resolve()); } }





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