com.ibm.icu.impl.number.DecimalQuantity Maven / Gradle / Ivy
Show all versions of icu4j Show documentation
// © 2017 and later: Unicode, Inc. and others.
// License & terms of use: http://www.unicode.org/copyright.html#License
package com.ibm.icu.impl.number;
import java.math.BigDecimal;
import java.math.MathContext;
import java.text.FieldPosition;
import com.ibm.icu.impl.StandardPlural;
import com.ibm.icu.text.PluralRules;
import com.ibm.icu.text.UFieldPosition;
/**
* An interface representing a number to be processed by the decimal formatting pipeline. Includes
* methods for rounding, plural rules, and decimal digit extraction.
*
*
* By design, this is NOT IMMUTABLE and NOT THREAD SAFE. It is intended to be an intermediate object
* holding state during a pass through the decimal formatting pipeline.
*
*
* Implementations of this interface are free to use any internal storage mechanism.
*
*
* TODO: Should I change this to an abstract class so that logic for min/max digits doesn't need to be
* copied to every implementation?
*/
public interface DecimalQuantity extends PluralRules.IFixedDecimal {
/**
* Sets the minimum integer digits that this {@link DecimalQuantity} should generate.
* This method does not perform rounding.
*
* @param minInt
* The minimum number of integer digits.
*/
public void setMinInteger(int minInt);
/**
* Sets the minimum fraction digits that this {@link DecimalQuantity} should generate.
* This method does not perform rounding.
*
* @param minFrac
* The minimum number of fraction digits.
*/
public void setMinFraction(int minFrac);
/**
* Truncates digits from the upper magnitude of the number in order to satisfy the
* specified maximum number of integer digits.
*
* @param maxInt
* The maximum number of integer digits.
*/
public void applyMaxInteger(int maxInt);
/**
* Rounds the number to a specified interval, such as 0.05.
*
*
* If rounding to a power of ten, use the more efficient {@link #roundToMagnitude} instead.
*
* @param roundingInterval
* The increment to which to round.
* @param mathContext
* The {@link MathContext} to use if rounding is necessary. Undefined behavior if null.
*/
public void roundToIncrement(BigDecimal roundingInterval, MathContext mathContext);
/**
* Rounds the number to the nearest multiple of 5 at the specified magnitude.
* For example, when magnitude == -2, this performs rounding to the nearest 0.05.
*
* @param magnitude
* The magnitude at which the digit should become either 0 or 5.
* @param mathContext
* Rounding strategy.
*/
public void roundToNickel(int magnitude, MathContext mathContext);
/**
* Rounds the number to a specified magnitude (power of ten).
*
* @param roundingMagnitude
* The power of ten to which to round. For example, a value of -2 will round to 2 decimal
* places.
* @param mathContext
* The {@link MathContext} to use if rounding is necessary. Undefined behavior if null.
*/
public void roundToMagnitude(int roundingMagnitude, MathContext mathContext);
/**
* Rounds the number to an infinite number of decimal points. This has no effect except for forcing
* the double in {@link DecimalQuantity_AbstractBCD} to adopt its exact representation.
*/
public void roundToInfinity();
/**
* Multiply the internal value.
*
* @param multiplicand
* The value by which to multiply.
*/
public void multiplyBy(BigDecimal multiplicand);
/** Flips the sign from positive to negative and back. */
void negate();
/**
* Scales the number by a power of ten. For example, if the value is currently "1234.56", calling
* this method with delta=-3 will change the value to "1.23456".
*
* @param delta
* The number of magnitudes of ten to change by.
*/
public void adjustMagnitude(int delta);
/**
* @return The power of ten corresponding to the most significant nonzero digit.
* @throws ArithmeticException
* If the value represented is zero.
*/
public int getMagnitude() throws ArithmeticException;
/** @return Whether the value represented by this {@link DecimalQuantity} is zero. */
public boolean isZero();
/** @return Whether the value represented by this {@link DecimalQuantity} is less than zero. */
public boolean isNegative();
/** @return -1 if the value is negative; 1 if positive; or 0 if zero. */
public int signum();
/** @return Whether the value represented by this {@link DecimalQuantity} is infinite. */
@Override
public boolean isInfinite();
/** @return Whether the value represented by this {@link DecimalQuantity} is not a number. */
@Override
public boolean isNaN();
/** @return The value contained in this {@link DecimalQuantity} approximated as a double. */
public double toDouble();
public BigDecimal toBigDecimal();
public void setToBigDecimal(BigDecimal input);
public int maxRepresentableDigits();
// TODO: Should this method be removed, since DecimalQuantity implements IFixedDecimal now?
/**
* Computes the plural form for this number based on the specified set of rules.
*
* @param rules
* A {@link PluralRules} object representing the set of rules.
* @return The {@link StandardPlural} according to the PluralRules. If the plural form is not in the
* set of standard plurals, {@link StandardPlural#OTHER} is returned instead.
*/
public StandardPlural getStandardPlural(PluralRules rules);
/**
* Gets the digit at the specified magnitude. For example, if the represented number is 12.3,
* getDigit(-1) returns 3, since 3 is the digit corresponding to 10^-1.
*
* @param magnitude
* The magnitude of the digit.
* @return The digit at the specified magnitude.
*/
public byte getDigit(int magnitude);
/**
* Gets the largest power of ten that needs to be displayed. The value returned by this function will
* be bounded between minInt and maxInt.
*
* @return The highest-magnitude digit to be displayed.
*/
public int getUpperDisplayMagnitude();
/**
* Gets the smallest power of ten that needs to be displayed. The value returned by this function
* will be bounded between -minFrac and -maxFrac.
*
* @return The lowest-magnitude digit to be displayed.
*/
public int getLowerDisplayMagnitude();
/**
* Returns the string in "plain" format (no exponential notation) using ASCII digits.
*/
public String toPlainString();
/**
* Like clone, but without the restrictions of the Cloneable interface clone.
*
* @return A copy of this instance which can be mutated without affecting this instance.
*/
public DecimalQuantity createCopy();
/**
* Sets this instance to be equal to another instance.
*
* @param other
* The instance to copy from.
*/
public void copyFrom(DecimalQuantity other);
/** This method is for internal testing only. */
public long getPositionFingerprint();
/**
* If the given {@link FieldPosition} is a {@link UFieldPosition}, populates it with the fraction
* length and fraction long value. If the argument is not a {@link UFieldPosition}, nothing happens.
*
* @param fp
* The {@link UFieldPosition} to populate.
*/
public void populateUFieldPosition(FieldPosition fp);
}