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/*
 * (C) Copyright Taligent, Inc. 1996, 1997 - All Rights Reserved
 * (C) Copyright IBM Corp. 1996 - 1998 - All Rights Reserved
 *
 *   The original version of this source code and documentation is copyrighted
 * and owned by Taligent, Inc., a wholly-owned subsidiary of IBM. These
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 * and Sun. This technology is protected by multiple US and International
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package java.text;

import java.io.InvalidObjectException;
import java.io.IOException;
import java.io.ObjectInputStream;
import java.io.ObjectOutputStream;
import java.math.BigInteger;
import java.math.RoundingMode;
import java.text.spi.NumberFormatProvider;
import java.util.Currency;
import java.util.HashMap;
import java.util.Locale;
import java.util.Map;
import java.util.Objects;
import java.util.concurrent.atomic.AtomicInteger;
import java.util.concurrent.atomic.AtomicLong;
import sun.util.locale.provider.LocaleProviderAdapter;
import sun.util.locale.provider.LocaleServiceProviderPool;

NumberFormat is the abstract base class for all number formats. This class provides the interface for formatting and parsing numbers. NumberFormat also provides methods for determining which locales have number formats, and what their names are.

NumberFormat helps you to format and parse numbers for any locale. Your code can be completely independent of the locale conventions for decimal points, thousands-separators, or even the particular decimal digits used, or whether the number format is even decimal.

To format a number for the current Locale, use one of the factory class methods:


myString = NumberFormat.getInstance().format(myNumber);
If you are formatting multiple numbers, it is more efficient to get the format and use it multiple times so that the system doesn't have to fetch the information about the local language and country conventions multiple times.

NumberFormat nf = NumberFormat.getInstance();
for (int i = 0; i < myNumber.length; ++i) {
    output.println(nf.format(myNumber[i]) + "; ");
 }
To format a number for a different Locale, specify it in the call to getInstance.

NumberFormat nf = NumberFormat.getInstance(Locale.FRENCH);

If the locale contains "nu" (numbers) and/or "rg" (region override) Unicode extensions, the decimal digits, and/or the country used for formatting are overridden. If both "nu" and "rg" are specified, the decimal digits from the "nu" extension supersedes the implicit one from the "rg" extension.

You can also use a NumberFormat to parse numbers:


myNumber = nf.parse(myString);
Use getInstance or getNumberInstance to get the normal number format. Use getIntegerInstance to get an integer number format. Use getCurrencyInstance to get the currency number format. Use getCompactNumberInstance to get the compact number format to format a number in shorter form. For example, 2000 can be formatted as "2K" in US locale. Use getPercentInstance to get a format for displaying percentages. With this format, a fraction like 0.53 is displayed as 53%.

You can also control the display of numbers with such methods as setMinimumFractionDigits. If you want even more control over the format or parsing, or want to give your users more control, you can try casting the NumberFormat you get from the factory methods to a DecimalFormat or CompactNumberFormat depending on the factory method used. This will work for the vast majority of locales; just remember to put it in a try block in case you encounter an unusual one.

NumberFormat and DecimalFormat are designed such that some controls work for formatting and others work for parsing. The following is the detailed description for each these control methods,

setParseIntegerOnly : only affects parsing, e.g. if true, "3456.78" → 3456 (and leaves the parse position just after index 6) if false, "3456.78" → 3456.78 (and leaves the parse position just after index 8) This is independent of formatting. If you want to not show a decimal point where there might be no digits after the decimal point, use setDecimalSeparatorAlwaysShown.

setDecimalSeparatorAlwaysShown : only affects formatting, and only where there might be no digits after the decimal point, such as with a pattern like "#,##0.##", e.g., if true, 3456.00 → "3,456." if false, 3456.00 → "3456" This is independent of parsing. If you want parsing to stop at the decimal point, use setParseIntegerOnly.

You can also use forms of the parse and format methods with ParsePosition and FieldPosition to allow you to:

  • progressively parse through pieces of a string
  • align the decimal point and other areas
For example, you can align numbers in two ways:
  1. If you are using a monospaced font with spacing for alignment, you can pass the FieldPosition in your format call, with field = INTEGER_FIELD. On output, getEndIndex will be set to the offset between the last character of the integer and the decimal. Add (desiredSpaceCount - getEndIndex) spaces at the front of the string.
  2. If you are using proportional fonts, instead of padding with spaces, measure the width of the string in pixels from the start to getEndIndex. Then move the pen by (desiredPixelWidth - widthToAlignmentPoint) before drawing the text. It also works where there is no decimal, but possibly additional characters at the end, e.g., with parentheses in negative numbers: "(12)" for -12.

Synchronization

Number formats are generally not synchronized. It is recommended to create separate format instances for each thread. If multiple threads access a format concurrently, it must be synchronized externally.

Author: Mark Davis, Helena Shih
See Also:
Implementation Requirements:The format(double, StringBuffer, FieldPosition), format(long, StringBuffer, FieldPosition) and parse(String, ParsePosition) methods may throw NullPointerException, if any of their parameter is null. The subclass may provide its own implementation and specification about NullPointerException.

The default implementation provides rounding modes defined in RoundingMode for formatting numbers. It uses the round half-even algorithm. To change the rounding mode use setRoundingMode. The NumberFormat returned by the static factory methods is configured to round floating point numbers using half-even rounding (see RoundingMode.HALF_EVEN) for formatting.

Since:1.1
/** * {@code NumberFormat} is the abstract base class for all number * formats. This class provides the interface for formatting and parsing * numbers. {@code NumberFormat} also provides methods for determining * which locales have number formats, and what their names are. * * <p> * {@code NumberFormat} helps you to format and parse numbers for any locale. * Your code can be completely independent of the locale conventions for * decimal points, thousands-separators, or even the particular decimal * digits used, or whether the number format is even decimal. * * <p> * To format a number for the current Locale, use one of the factory * class methods: * <blockquote> * <pre>{@code * myString = NumberFormat.getInstance().format(myNumber); * }</pre> * </blockquote> * If you are formatting multiple numbers, it is * more efficient to get the format and use it multiple times so that * the system doesn't have to fetch the information about the local * language and country conventions multiple times. * <blockquote> * <pre>{@code * NumberFormat nf = NumberFormat.getInstance(); * for (int i = 0; i < myNumber.length; ++i) { * output.println(nf.format(myNumber[i]) + "; "); * } * }</pre> * </blockquote> * To format a number for a different Locale, specify it in the * call to {@code getInstance}. * <blockquote> * <pre>{@code * NumberFormat nf = NumberFormat.getInstance(Locale.FRENCH); * }</pre> * </blockquote> * * <p>If the locale contains "nu" (numbers) and/or "rg" (region override) * <a href="../util/Locale.html#def_locale_extension">Unicode extensions</a>, * the decimal digits, and/or the country used for formatting are overridden. * If both "nu" and "rg" are specified, the decimal digits from the "nu" * extension supersedes the implicit one from the "rg" extension. * * <p>You can also use a {@code NumberFormat} to parse numbers: * <blockquote> * <pre>{@code * myNumber = nf.parse(myString); * }</pre> * </blockquote> * Use {@code getInstance} or {@code getNumberInstance} to get the * normal number format. Use {@code getIntegerInstance} to get an * integer number format. Use {@code getCurrencyInstance} to get the * currency number format. Use {@code getCompactNumberInstance} to get the * compact number format to format a number in shorter form. For example, * {@code 2000} can be formatted as {@code "2K"} in * {@link java.util.Locale#US US locale}. Use {@code getPercentInstance} * to get a format for displaying percentages. With this format, a fraction * like 0.53 is displayed as 53%. * * <p> * You can also control the display of numbers with such methods as * {@code setMinimumFractionDigits}. * If you want even more control over the format or parsing, * or want to give your users more control, * you can try casting the {@code NumberFormat} you get from the factory methods * to a {@code DecimalFormat} or {@code CompactNumberFormat} depending on * the factory method used. This will work for the vast majority of locales; * just remember to put it in a {@code try} block in case you encounter * an unusual one. * * <p> * NumberFormat and DecimalFormat are designed such that some controls * work for formatting and others work for parsing. The following is * the detailed description for each these control methods, * <p> * setParseIntegerOnly : only affects parsing, e.g. * if true, "3456.78" &rarr; 3456 (and leaves the parse position just after index 6) * if false, "3456.78" &rarr; 3456.78 (and leaves the parse position just after index 8) * This is independent of formatting. If you want to not show a decimal point * where there might be no digits after the decimal point, use * setDecimalSeparatorAlwaysShown. * <p> * setDecimalSeparatorAlwaysShown : only affects formatting, and only where * there might be no digits after the decimal point, such as with a pattern * like "#,##0.##", e.g., * if true, 3456.00 &rarr; "3,456." * if false, 3456.00 &rarr; "3456" * This is independent of parsing. If you want parsing to stop at the decimal * point, use setParseIntegerOnly. * * <p> * You can also use forms of the {@code parse} and {@code format} * methods with {@code ParsePosition} and {@code FieldPosition} to * allow you to: * <ul> * <li> progressively parse through pieces of a string * <li> align the decimal point and other areas * </ul> * For example, you can align numbers in two ways: * <ol> * <li> If you are using a monospaced font with spacing for alignment, * you can pass the {@code FieldPosition} in your format call, with * {@code field} = {@code INTEGER_FIELD}. On output, * {@code getEndIndex} will be set to the offset between the * last character of the integer and the decimal. Add * (desiredSpaceCount - getEndIndex) spaces at the front of the string. * * <li> If you are using proportional fonts, * instead of padding with spaces, measure the width * of the string in pixels from the start to {@code getEndIndex}. * Then move the pen by * (desiredPixelWidth - widthToAlignmentPoint) before drawing the text. * It also works where there is no decimal, but possibly additional * characters at the end, e.g., with parentheses in negative * numbers: "(12)" for -12. * </ol> * * <h2><a id="synchronization">Synchronization</a></h2> * * <p> * Number formats are generally not synchronized. * It is recommended to create separate format instances for each thread. * If multiple threads access a format concurrently, it must be synchronized * externally. * * @implSpec The {@link #format(double, StringBuffer, FieldPosition)}, * {@link #format(long, StringBuffer, FieldPosition)} and * {@link #parse(String, ParsePosition)} methods may throw * {@code NullPointerException}, if any of their parameter is {@code null}. * The subclass may provide its own implementation and specification about * {@code NullPointerException}. * * <p> * The default implementation provides rounding modes defined * in {@link java.math.RoundingMode} for formatting numbers. It * uses the {@linkplain java.math.RoundingMode#HALF_EVEN * round half-even algorithm}. To change the rounding mode use * {@link #setRoundingMode(java.math.RoundingMode) setRoundingMode}. * The {@code NumberFormat} returned by the static factory methods is * configured to round floating point numbers using half-even * rounding (see {@link java.math.RoundingMode#HALF_EVEN * RoundingMode.HALF_EVEN}) for formatting. * * @see DecimalFormat * @see ChoiceFormat * @see CompactNumberFormat * @author Mark Davis * @author Helena Shih * @since 1.1 */
public abstract class NumberFormat extends Format {
Field constant used to construct a FieldPosition object. Signifies that the position of the integer part of a formatted number should be returned.
See Also:
  • FieldPosition
/** * Field constant used to construct a FieldPosition object. Signifies that * the position of the integer part of a formatted number should be returned. * @see java.text.FieldPosition */
public static final int INTEGER_FIELD = 0;
Field constant used to construct a FieldPosition object. Signifies that the position of the fraction part of a formatted number should be returned.
See Also:
  • FieldPosition
/** * Field constant used to construct a FieldPosition object. Signifies that * the position of the fraction part of a formatted number should be returned. * @see java.text.FieldPosition */
public static final int FRACTION_FIELD = 1;
Sole constructor. (For invocation by subclass constructors, typically implicit.)
/** * Sole constructor. (For invocation by subclass constructors, typically * implicit.) */
protected NumberFormat() { }
Formats a number and appends the resulting text to the given string buffer. The number can be of any subclass of Number.

This implementation extracts the number's value using Number.longValue() for all integral type values that can be converted to long without loss of information, including BigInteger values with a bit length of less than 64, and Number.doubleValue() for all other types. It then calls format(long, StringBuffer, FieldPosition) or format(double, StringBuffer, FieldPosition). This may result in loss of magnitude information and precision for BigInteger and BigDecimal values.

Params:
  • number – the number to format
  • toAppendTo – the StringBuffer to which the formatted text is to be appended
  • pos – keeps track on the position of the field within the returned string. For example, for formatting a number 1234567.89 in Locale.US locale, if the given fieldPosition is INTEGER_FIELD, the begin index and end index of fieldPosition will be set to 0 and 9, respectively for the output string 1,234,567.89.
Throws:
See Also:
Returns: the value passed in as toAppendTo
/** * Formats a number and appends the resulting text to the given string * buffer. * The number can be of any subclass of {@link java.lang.Number}. * <p> * This implementation extracts the number's value using * {@link java.lang.Number#longValue()} for all integral type values that * can be converted to {@code long} without loss of information, * including {@code BigInteger} values with a * {@link java.math.BigInteger#bitLength() bit length} of less than 64, * and {@link java.lang.Number#doubleValue()} for all other types. It * then calls * {@link #format(long,java.lang.StringBuffer,java.text.FieldPosition)} * or {@link #format(double,java.lang.StringBuffer,java.text.FieldPosition)}. * This may result in loss of magnitude information and precision for * {@code BigInteger} and {@code BigDecimal} values. * @param number the number to format * @param toAppendTo the {@code StringBuffer} to which the formatted * text is to be appended * @param pos keeps track on the position of the field within the * returned string. For example, for formatting a number * {@code 1234567.89} in {@code Locale.US} locale, * if the given {@code fieldPosition} is * {@link NumberFormat#INTEGER_FIELD}, the begin index * and end index of {@code fieldPosition} will be set * to 0 and 9, respectively for the output string * {@code 1,234,567.89}. * @return the value passed in as {@code toAppendTo} * @throws IllegalArgumentException if {@code number} is * null or not an instance of {@code Number}. * @throws NullPointerException if {@code toAppendTo} or * {@code pos} is null * @throws ArithmeticException if rounding is needed with rounding * mode being set to RoundingMode.UNNECESSARY * @see java.text.FieldPosition */
@Override public StringBuffer format(Object number, StringBuffer toAppendTo, FieldPosition pos) { if (number instanceof Long || number instanceof Integer || number instanceof Short || number instanceof Byte || number instanceof AtomicInteger || number instanceof AtomicLong || (number instanceof BigInteger && ((BigInteger)number).bitLength() < 64)) { return format(((Number)number).longValue(), toAppendTo, pos); } else if (number instanceof Number) { return format(((Number)number).doubleValue(), toAppendTo, pos); } else { throw new IllegalArgumentException("Cannot format given Object as a Number"); } }
Parses text from a string to produce a Number.

The method attempts to parse text starting at the index given by pos. If parsing succeeds, then the index of pos is updated to the index after the last character used (parsing does not necessarily use all characters up to the end of the string), and the parsed number is returned. The updated pos can be used to indicate the starting point for the next call to this method. If an error occurs, then the index of pos is not changed, the error index of pos is set to the index of the character where the error occurred, and null is returned.

See the parse(String, ParsePosition) method for more information on number parsing.

Params:
  • source – A String, part of which should be parsed.
  • pos – A ParsePosition object with index and error index information as described above.
Throws:
Returns:A Number parsed from the string. In case of error, returns null.
/** * Parses text from a string to produce a {@code Number}. * <p> * The method attempts to parse text starting at the index given by * {@code pos}. * If parsing succeeds, then the index of {@code pos} is updated * to the index after the last character used (parsing does not necessarily * use all characters up to the end of the string), and the parsed * number is returned. The updated {@code pos} can be used to * indicate the starting point for the next call to this method. * If an error occurs, then the index of {@code pos} is not * changed, the error index of {@code pos} is set to the index of * the character where the error occurred, and null is returned. * <p> * See the {@link #parse(String, ParsePosition)} method for more information * on number parsing. * * @param source A {@code String}, part of which should be parsed. * @param pos A {@code ParsePosition} object with index and error * index information as described above. * @return A {@code Number} parsed from the string. In case of * error, returns null. * @throws NullPointerException if {@code source} or {@code pos} is null. */
@Override public final Object parseObject(String source, ParsePosition pos) { return parse(source, pos); }
Specialization of format.
Params:
  • number – the double number to format
Throws:
  • ArithmeticException – if rounding is needed with rounding mode being set to RoundingMode.UNNECESSARY
See Also:
Returns:the formatted String
/** * Specialization of format. * * @param number the double number to format * @return the formatted String * @throws ArithmeticException if rounding is needed with rounding * mode being set to RoundingMode.UNNECESSARY * @see java.text.Format#format */
public final String format(double number) { // Use fast-path for double result if that works String result = fastFormat(number); if (result != null) return result; return format(number, new StringBuffer(), DontCareFieldPosition.INSTANCE).toString(); } /* * fastFormat() is supposed to be implemented in concrete subclasses only. * Default implem always returns null. */ String fastFormat(double number) { return null; }
Specialization of format.
Params:
  • number – the long number to format
Throws:
  • ArithmeticException – if rounding is needed with rounding mode being set to RoundingMode.UNNECESSARY
See Also:
Returns:the formatted String
/** * Specialization of format. * * @param number the long number to format * @return the formatted String * @throws ArithmeticException if rounding is needed with rounding * mode being set to RoundingMode.UNNECESSARY * @see java.text.Format#format */
public final String format(long number) { return format(number, new StringBuffer(), DontCareFieldPosition.INSTANCE).toString(); }
Specialization of format.
Params:
  • number – the double number to format
  • toAppendTo – the StringBuffer to which the formatted text is to be appended
  • pos – keeps track on the position of the field within the returned string. For example, for formatting a number 1234567.89 in Locale.US locale, if the given fieldPosition is INTEGER_FIELD, the begin index and end index of fieldPosition will be set to 0 and 9, respectively for the output string 1,234,567.89.
Throws:
  • ArithmeticException – if rounding is needed with rounding mode being set to RoundingMode.UNNECESSARY
See Also:
Returns:the formatted StringBuffer
/** * Specialization of format. * * @param number the double number to format * @param toAppendTo the StringBuffer to which the formatted text is to be * appended * @param pos keeps track on the position of the field within the * returned string. For example, for formatting a number * {@code 1234567.89} in {@code Locale.US} locale, * if the given {@code fieldPosition} is * {@link NumberFormat#INTEGER_FIELD}, the begin index * and end index of {@code fieldPosition} will be set * to 0 and 9, respectively for the output string * {@code 1,234,567.89}. * @return the formatted StringBuffer * @throws ArithmeticException if rounding is needed with rounding * mode being set to RoundingMode.UNNECESSARY * @see java.text.Format#format */
public abstract StringBuffer format(double number, StringBuffer toAppendTo, FieldPosition pos);
Specialization of format.
Params:
  • number – the long number to format
  • toAppendTo – the StringBuffer to which the formatted text is to be appended
  • pos – keeps track on the position of the field within the returned string. For example, for formatting a number 123456789 in Locale.US locale, if the given fieldPosition is INTEGER_FIELD, the begin index and end index of fieldPosition will be set to 0 and 11, respectively for the output string 123,456,789.
Throws:
  • ArithmeticException – if rounding is needed with rounding mode being set to RoundingMode.UNNECESSARY
See Also:
Returns:the formatted StringBuffer
/** * Specialization of format. * * @param number the long number to format * @param toAppendTo the StringBuffer to which the formatted text is to be * appended * @param pos keeps track on the position of the field within the * returned string. For example, for formatting a number * {@code 123456789} in {@code Locale.US} locale, * if the given {@code fieldPosition} is * {@link NumberFormat#INTEGER_FIELD}, the begin index * and end index of {@code fieldPosition} will be set * to 0 and 11, respectively for the output string * {@code 123,456,789}. * @return the formatted StringBuffer * @throws ArithmeticException if rounding is needed with rounding * mode being set to RoundingMode.UNNECESSARY * @see java.text.Format#format */
public abstract StringBuffer format(long number, StringBuffer toAppendTo, FieldPosition pos);
Returns a Long if possible (e.g., within the range [Long.MIN_VALUE, Long.MAX_VALUE] and with no decimals), otherwise a Double. If IntegerOnly is set, will stop at a decimal point (or equivalent; e.g., for rational numbers "1 2/3", will stop after the 1). Does not throw an exception; if no object can be parsed, index is unchanged!
Params:
  • source – the String to parse
  • parsePosition – the parse position
See Also:
Returns:the parsed value
/** * Returns a Long if possible (e.g., within the range [Long.MIN_VALUE, * Long.MAX_VALUE] and with no decimals), otherwise a Double. * If IntegerOnly is set, will stop at a decimal * point (or equivalent; e.g., for rational numbers "1 2/3", will stop * after the 1). * Does not throw an exception; if no object can be parsed, index is * unchanged! * * @param source the String to parse * @param parsePosition the parse position * @return the parsed value * @see java.text.NumberFormat#isParseIntegerOnly * @see java.text.Format#parseObject */
public abstract Number parse(String source, ParsePosition parsePosition);
Parses text from the beginning of the given string to produce a number. The method may not use the entire text of the given string.

See the parse(String, ParsePosition) method for more information on number parsing.

Params:
  • source – A String whose beginning should be parsed.
Throws:
  • ParseException – if the beginning of the specified string cannot be parsed.
Returns:A Number parsed from the string.
/** * Parses text from the beginning of the given string to produce a number. * The method may not use the entire text of the given string. * <p> * See the {@link #parse(String, ParsePosition)} method for more information * on number parsing. * * @param source A {@code String} whose beginning should be parsed. * @return A {@code Number} parsed from the string. * @throws ParseException if the beginning of the specified string * cannot be parsed. */
public Number parse(String source) throws ParseException { ParsePosition parsePosition = new ParsePosition(0); Number result = parse(source, parsePosition); if (parsePosition.index == 0) { throw new ParseException("Unparseable number: \"" + source + "\"", parsePosition.errorIndex); } return result; }
Returns true if this format will parse numbers as integers only. For example in the English locale, with ParseIntegerOnly true, the string "1234." would be parsed as the integer value 1234 and parsing would stop at the "." character. Of course, the exact format accepted by the parse operation is locale dependent and determined by sub-classes of NumberFormat.
Returns:true if numbers should be parsed as integers only; false otherwise
/** * Returns true if this format will parse numbers as integers only. * For example in the English locale, with ParseIntegerOnly true, the * string "1234." would be parsed as the integer value 1234 and parsing * would stop at the "." character. Of course, the exact format accepted * by the parse operation is locale dependent and determined by sub-classes * of NumberFormat. * * @return {@code true} if numbers should be parsed as integers only; * {@code false} otherwise */
public boolean isParseIntegerOnly() { return parseIntegerOnly; }
Sets whether or not numbers should be parsed as integers only.
Params:
  • value – true if numbers should be parsed as integers only; false otherwise
See Also:
/** * Sets whether or not numbers should be parsed as integers only. * * @param value {@code true} if numbers should be parsed as integers only; * {@code false} otherwise * @see #isParseIntegerOnly */
public void setParseIntegerOnly(boolean value) { parseIntegerOnly = value; } //============== Locale Stuff =====================
Returns a general-purpose number format for the current default FORMAT locale. This is the same as calling getNumberInstance().
Returns:the NumberFormat instance for general-purpose number formatting
/** * Returns a general-purpose number format for the current default * {@link java.util.Locale.Category#FORMAT FORMAT} locale. * This is the same as calling * {@link #getNumberInstance() getNumberInstance()}. * * @return the {@code NumberFormat} instance for general-purpose number * formatting */
public static final NumberFormat getInstance() { return getInstance(Locale.getDefault(Locale.Category.FORMAT), null, NUMBERSTYLE); }
Returns a general-purpose number format for the specified locale. This is the same as calling getNumberInstance(inLocale).
Params:
  • inLocale – the desired locale
Returns:the NumberFormat instance for general-purpose number formatting
/** * Returns a general-purpose number format for the specified locale. * This is the same as calling * {@link #getNumberInstance(java.util.Locale) getNumberInstance(inLocale)}. * * @param inLocale the desired locale * @return the {@code NumberFormat} instance for general-purpose number * formatting */
public static NumberFormat getInstance(Locale inLocale) { return getInstance(inLocale, null, NUMBERSTYLE); }
Returns a general-purpose number format for the current default FORMAT locale.

This is equivalent to calling getNumberInstance(Locale.getDefault(Locale.Category.FORMAT)).

See Also:
Returns:the NumberFormat instance for general-purpose number formatting
/** * Returns a general-purpose number format for the current default * {@link java.util.Locale.Category#FORMAT FORMAT} locale. * <p>This is equivalent to calling * {@link #getNumberInstance(Locale) * getNumberInstance(Locale.getDefault(Locale.Category.FORMAT))}. * * @return the {@code NumberFormat} instance for general-purpose number * formatting * @see java.util.Locale#getDefault(java.util.Locale.Category) * @see java.util.Locale.Category#FORMAT */
public static final NumberFormat getNumberInstance() { return getInstance(Locale.getDefault(Locale.Category.FORMAT), null, NUMBERSTYLE); }
Returns a general-purpose number format for the specified locale.
Params:
  • inLocale – the desired locale
Returns:the NumberFormat instance for general-purpose number formatting
/** * Returns a general-purpose number format for the specified locale. * * @param inLocale the desired locale * @return the {@code NumberFormat} instance for general-purpose number * formatting */
public static NumberFormat getNumberInstance(Locale inLocale) { return getInstance(inLocale, null, NUMBERSTYLE); }
Returns an integer number format for the current default FORMAT locale. The returned number format is configured to round floating point numbers to the nearest integer using half-even rounding (see RoundingMode.HALF_EVEN) for formatting, and to parse only the integer part of an input string (see isParseIntegerOnly).

This is equivalent to calling getIntegerInstance(Locale.getDefault(Locale.Category.FORMAT)).

See Also:
Returns:a number format for integer values
Since:1.4
/** * Returns an integer number format for the current default * {@link java.util.Locale.Category#FORMAT FORMAT} locale. The * returned number format is configured to round floating point numbers * to the nearest integer using half-even rounding (see {@link * java.math.RoundingMode#HALF_EVEN RoundingMode.HALF_EVEN}) for formatting, * and to parse only the integer part of an input string (see {@link * #isParseIntegerOnly isParseIntegerOnly}). * <p>This is equivalent to calling * {@link #getIntegerInstance(Locale) * getIntegerInstance(Locale.getDefault(Locale.Category.FORMAT))}. * * @see #getRoundingMode() * @see java.util.Locale#getDefault(java.util.Locale.Category) * @see java.util.Locale.Category#FORMAT * @return a number format for integer values * @since 1.4 */
public static final NumberFormat getIntegerInstance() { return getInstance(Locale.getDefault(Locale.Category.FORMAT), null, INTEGERSTYLE); }
Returns an integer number format for the specified locale. The returned number format is configured to round floating point numbers to the nearest integer using half-even rounding (see RoundingMode.HALF_EVEN) for formatting, and to parse only the integer part of an input string (see isParseIntegerOnly).
Params:
  • inLocale – the desired locale
See Also:
Returns:a number format for integer values
Since:1.4
/** * Returns an integer number format for the specified locale. The * returned number format is configured to round floating point numbers * to the nearest integer using half-even rounding (see {@link * java.math.RoundingMode#HALF_EVEN RoundingMode.HALF_EVEN}) for formatting, * and to parse only the integer part of an input string (see {@link * #isParseIntegerOnly isParseIntegerOnly}). * * @param inLocale the desired locale * @see #getRoundingMode() * @return a number format for integer values * @since 1.4 */
public static NumberFormat getIntegerInstance(Locale inLocale) { return getInstance(inLocale, null, INTEGERSTYLE); }
Returns a currency format for the current default FORMAT locale.

This is equivalent to calling getCurrencyInstance(Locale.getDefault(Locale.Category.FORMAT)).

See Also:
Returns:the NumberFormat instance for currency formatting
/** * Returns a currency format for the current default * {@link java.util.Locale.Category#FORMAT FORMAT} locale. * <p>This is equivalent to calling * {@link #getCurrencyInstance(Locale) * getCurrencyInstance(Locale.getDefault(Locale.Category.FORMAT))}. * * @return the {@code NumberFormat} instance for currency formatting * @see java.util.Locale#getDefault(java.util.Locale.Category) * @see java.util.Locale.Category#FORMAT */
public static final NumberFormat getCurrencyInstance() { return getInstance(Locale.getDefault(Locale.Category.FORMAT), null, CURRENCYSTYLE); }
Returns a currency format for the specified locale.

If the specified locale contains the "cf" ( currency format style) Unicode extension, the returned currency format uses the style if it is available. Otherwise, the style uses the default "standard" currency format. For example, if the style designates "account", negative currency amounts use a pair of parentheses in some locales.

Params:
  • inLocale – the desired locale
Returns:the NumberFormat instance for currency formatting
/** * Returns a currency format for the specified locale. * * <p>If the specified locale contains the "{@code cf}" ( * <a href="https://www.unicode.org/reports/tr35/tr35.html#UnicodeCurrencyFormatIdentifier"> * currency format style</a>) * <a href="../util/Locale.html#def_locale_extension">Unicode extension</a>, * the returned currency format uses the style if it is available. * Otherwise, the style uses the default "{@code standard}" currency format. * For example, if the style designates "{@code account}", negative * currency amounts use a pair of parentheses in some locales. * * @param inLocale the desired locale * @return the {@code NumberFormat} instance for currency formatting */
public static NumberFormat getCurrencyInstance(Locale inLocale) { return getInstance(inLocale, null, CURRENCYSTYLE); }
Returns a percentage format for the current default FORMAT locale.

This is equivalent to calling getPercentInstance(Locale.getDefault(Locale.Category.FORMAT)).

See Also:
Returns:the NumberFormat instance for percentage formatting
/** * Returns a percentage format for the current default * {@link java.util.Locale.Category#FORMAT FORMAT} locale. * <p>This is equivalent to calling * {@link #getPercentInstance(Locale) * getPercentInstance(Locale.getDefault(Locale.Category.FORMAT))}. * * @return the {@code NumberFormat} instance for percentage formatting * @see java.util.Locale#getDefault(java.util.Locale.Category) * @see java.util.Locale.Category#FORMAT */
public static final NumberFormat getPercentInstance() { return getInstance(Locale.getDefault(Locale.Category.FORMAT), null, PERCENTSTYLE); }
Returns a percentage format for the specified locale.
Params:
  • inLocale – the desired locale
Returns:the NumberFormat instance for percentage formatting
/** * Returns a percentage format for the specified locale. * * @param inLocale the desired locale * @return the {@code NumberFormat} instance for percentage formatting */
public static NumberFormat getPercentInstance(Locale inLocale) { return getInstance(inLocale, null, PERCENTSTYLE); }
Returns a scientific format for the current default locale.
/** * Returns a scientific format for the current default locale. */
/*public*/ final static NumberFormat getScientificInstance() { return getInstance(Locale.getDefault(Locale.Category.FORMAT), null, SCIENTIFICSTYLE); }
Returns a scientific format for the specified locale.
Params:
  • inLocale – the desired locale
/** * Returns a scientific format for the specified locale. * * @param inLocale the desired locale */
/*public*/ static NumberFormat getScientificInstance(Locale inLocale) { return getInstance(inLocale, null, SCIENTIFICSTYLE); }
Returns a compact number format for the default FORMAT locale with "SHORT" format style.
See Also:
Returns:A NumberFormat instance for compact number formatting
Since:12
/** * Returns a compact number format for the default * {@link java.util.Locale.Category#FORMAT FORMAT} locale with * {@link NumberFormat.Style#SHORT "SHORT"} format style. * * @return A {@code NumberFormat} instance for compact number * formatting * * @see CompactNumberFormat * @see NumberFormat.Style * @see java.util.Locale#getDefault(java.util.Locale.Category) * @see java.util.Locale.Category#FORMAT * @since 12 */
public static NumberFormat getCompactNumberInstance() { return getInstance(Locale.getDefault( Locale.Category.FORMAT), NumberFormat.Style.SHORT, COMPACTSTYLE); }
Returns a compact number format for the specified locale and formatStyle.
Params:
  • locale – the desired locale
  • formatStyle – the style for formatting a number
Throws:
See Also:
Returns:A NumberFormat instance for compact number formatting
Since:12
/** * Returns a compact number format for the specified {@link java.util.Locale locale} * and {@link NumberFormat.Style formatStyle}. * * @param locale the desired locale * @param formatStyle the style for formatting a number * @return A {@code NumberFormat} instance for compact number * formatting * @throws NullPointerException if {@code locale} or {@code formatStyle} * is {@code null} * * @see CompactNumberFormat * @see NumberFormat.Style * @see java.util.Locale * @since 12 */
public static NumberFormat getCompactNumberInstance(Locale locale, NumberFormat.Style formatStyle) { Objects.requireNonNull(locale); Objects.requireNonNull(formatStyle); return getInstance(locale, formatStyle, COMPACTSTYLE); }
Returns an array of all locales for which the get*Instance methods of this class can return localized instances. The returned array represents the union of locales supported by the Java runtime and by installed NumberFormatProvider implementations. It must contain at least a Locale instance equal to Locale.US.
Returns:An array of locales for which localized NumberFormat instances are available.
/** * Returns an array of all locales for which the * {@code get*Instance} methods of this class can return * localized instances. * The returned array represents the union of locales supported by the Java * runtime and by installed * {@link java.text.spi.NumberFormatProvider NumberFormatProvider} implementations. * It must contain at least a {@code Locale} instance equal to * {@link java.util.Locale#US Locale.US}. * * @return An array of locales for which localized * {@code NumberFormat} instances are available. */
public static Locale[] getAvailableLocales() { LocaleServiceProviderPool pool = LocaleServiceProviderPool.getPool(NumberFormatProvider.class); return pool.getAvailableLocales(); }
Overrides hashCode.
/** * Overrides hashCode. */
@Override public int hashCode() { return maximumIntegerDigits * 37 + maxFractionDigits; // just enough fields for a reasonable distribution }
Overrides equals.
/** * Overrides equals. */
@Override public boolean equals(Object obj) { if (obj == null) { return false; } if (this == obj) { return true; } if (getClass() != obj.getClass()) { return false; } NumberFormat other = (NumberFormat) obj; return (maximumIntegerDigits == other.maximumIntegerDigits && minimumIntegerDigits == other.minimumIntegerDigits && maximumFractionDigits == other.maximumFractionDigits && minimumFractionDigits == other.minimumFractionDigits && groupingUsed == other.groupingUsed && parseIntegerOnly == other.parseIntegerOnly); }
Overrides Cloneable.
/** * Overrides Cloneable. */
@Override public Object clone() { NumberFormat other = (NumberFormat) super.clone(); return other; }
Returns true if grouping is used in this format. For example, in the English locale, with grouping on, the number 1234567 might be formatted as "1,234,567". The grouping separator as well as the size of each group is locale dependent and is determined by sub-classes of NumberFormat.
See Also:
Returns:true if grouping is used; false otherwise
/** * Returns true if grouping is used in this format. For example, in the * English locale, with grouping on, the number 1234567 might be formatted * as "1,234,567". The grouping separator as well as the size of each group * is locale dependent and is determined by sub-classes of NumberFormat. * * @return {@code true} if grouping is used; * {@code false} otherwise * @see #setGroupingUsed */
public boolean isGroupingUsed() { return groupingUsed; }
Set whether or not grouping will be used in this format.
Params:
  • newValue – true if grouping is used; false otherwise
See Also:
/** * Set whether or not grouping will be used in this format. * * @param newValue {@code true} if grouping is used; * {@code false} otherwise * @see #isGroupingUsed */
public void setGroupingUsed(boolean newValue) { groupingUsed = newValue; }
Returns the maximum number of digits allowed in the integer portion of a number.
See Also:
Returns:the maximum number of digits
/** * Returns the maximum number of digits allowed in the integer portion of a * number. * * @return the maximum number of digits * @see #setMaximumIntegerDigits */
public int getMaximumIntegerDigits() { return maximumIntegerDigits; }
Sets the maximum number of digits allowed in the integer portion of a number. maximumIntegerDigits must be ≥ minimumIntegerDigits. If the new value for maximumIntegerDigits is less than the current value of minimumIntegerDigits, then minimumIntegerDigits will also be set to the new value.
Params:
  • newValue – the maximum number of integer digits to be shown; if less than zero, then zero is used. The concrete subclass may enforce an upper limit to this value appropriate to the numeric type being formatted.
See Also:
/** * Sets the maximum number of digits allowed in the integer portion of a * number. maximumIntegerDigits must be &ge; minimumIntegerDigits. If the * new value for maximumIntegerDigits is less than the current value * of minimumIntegerDigits, then minimumIntegerDigits will also be set to * the new value. * * @param newValue the maximum number of integer digits to be shown; if * less than zero, then zero is used. The concrete subclass may enforce an * upper limit to this value appropriate to the numeric type being formatted. * @see #getMaximumIntegerDigits */
public void setMaximumIntegerDigits(int newValue) { maximumIntegerDigits = Math.max(0,newValue); if (minimumIntegerDigits > maximumIntegerDigits) { minimumIntegerDigits = maximumIntegerDigits; } }
Returns the minimum number of digits allowed in the integer portion of a number.
See Also:
Returns:the minimum number of digits
/** * Returns the minimum number of digits allowed in the integer portion of a * number. * * @return the minimum number of digits * @see #setMinimumIntegerDigits */
public int getMinimumIntegerDigits() { return minimumIntegerDigits; }
Sets the minimum number of digits allowed in the integer portion of a number. minimumIntegerDigits must be ≤ maximumIntegerDigits. If the new value for minimumIntegerDigits exceeds the current value of maximumIntegerDigits, then maximumIntegerDigits will also be set to the new value
Params:
  • newValue – the minimum number of integer digits to be shown; if less than zero, then zero is used. The concrete subclass may enforce an upper limit to this value appropriate to the numeric type being formatted.
See Also:
/** * Sets the minimum number of digits allowed in the integer portion of a * number. minimumIntegerDigits must be &le; maximumIntegerDigits. If the * new value for minimumIntegerDigits exceeds the current value * of maximumIntegerDigits, then maximumIntegerDigits will also be set to * the new value * * @param newValue the minimum number of integer digits to be shown; if * less than zero, then zero is used. The concrete subclass may enforce an * upper limit to this value appropriate to the numeric type being formatted. * @see #getMinimumIntegerDigits */
public void setMinimumIntegerDigits(int newValue) { minimumIntegerDigits = Math.max(0,newValue); if (minimumIntegerDigits > maximumIntegerDigits) { maximumIntegerDigits = minimumIntegerDigits; } }
Returns the maximum number of digits allowed in the fraction portion of a number.
See Also:
Returns:the maximum number of digits.
/** * Returns the maximum number of digits allowed in the fraction portion of a * number. * * @return the maximum number of digits. * @see #setMaximumFractionDigits */
public int getMaximumFractionDigits() { return maximumFractionDigits; }
Sets the maximum number of digits allowed in the fraction portion of a number. maximumFractionDigits must be ≥ minimumFractionDigits. If the new value for maximumFractionDigits is less than the current value of minimumFractionDigits, then minimumFractionDigits will also be set to the new value.
Params:
  • newValue – the maximum number of fraction digits to be shown; if less than zero, then zero is used. The concrete subclass may enforce an upper limit to this value appropriate to the numeric type being formatted.
See Also:
/** * Sets the maximum number of digits allowed in the fraction portion of a * number. maximumFractionDigits must be &ge; minimumFractionDigits. If the * new value for maximumFractionDigits is less than the current value * of minimumFractionDigits, then minimumFractionDigits will also be set to * the new value. * * @param newValue the maximum number of fraction digits to be shown; if * less than zero, then zero is used. The concrete subclass may enforce an * upper limit to this value appropriate to the numeric type being formatted. * @see #getMaximumFractionDigits */
public void setMaximumFractionDigits(int newValue) { maximumFractionDigits = Math.max(0,newValue); if (maximumFractionDigits < minimumFractionDigits) { minimumFractionDigits = maximumFractionDigits; } }
Returns the minimum number of digits allowed in the fraction portion of a number.
See Also:
Returns:the minimum number of digits
/** * Returns the minimum number of digits allowed in the fraction portion of a * number. * * @return the minimum number of digits * @see #setMinimumFractionDigits */
public int getMinimumFractionDigits() { return minimumFractionDigits; }
Sets the minimum number of digits allowed in the fraction portion of a number. minimumFractionDigits must be ≤ maximumFractionDigits. If the new value for minimumFractionDigits exceeds the current value of maximumFractionDigits, then maximumFractionDigits will also be set to the new value
Params:
  • newValue – the minimum number of fraction digits to be shown; if less than zero, then zero is used. The concrete subclass may enforce an upper limit to this value appropriate to the numeric type being formatted.
See Also:
/** * Sets the minimum number of digits allowed in the fraction portion of a * number. minimumFractionDigits must be &le; maximumFractionDigits. If the * new value for minimumFractionDigits exceeds the current value * of maximumFractionDigits, then maximumFractionDigits will also be set to * the new value * * @param newValue the minimum number of fraction digits to be shown; if * less than zero, then zero is used. The concrete subclass may enforce an * upper limit to this value appropriate to the numeric type being formatted. * @see #getMinimumFractionDigits */
public void setMinimumFractionDigits(int newValue) { minimumFractionDigits = Math.max(0,newValue); if (maximumFractionDigits < minimumFractionDigits) { maximumFractionDigits = minimumFractionDigits; } }
Gets the currency used by this number format when formatting currency values. The initial value is derived in a locale dependent way. The returned value may be null if no valid currency could be determined and no currency has been set using setCurrency.

The default implementation throws UnsupportedOperationException.

Throws:
Returns:the currency used by this number format, or null
Since:1.4
/** * Gets the currency used by this number format when formatting * currency values. The initial value is derived in a locale dependent * way. The returned value may be null if no valid * currency could be determined and no currency has been set using * {@link #setCurrency(java.util.Currency) setCurrency}. * <p> * The default implementation throws * {@code UnsupportedOperationException}. * * @return the currency used by this number format, or {@code null} * @throws UnsupportedOperationException if the number format class * doesn't implement currency formatting * @since 1.4 */
public Currency getCurrency() { throw new UnsupportedOperationException(); }
Sets the currency used by this number format when formatting currency values. This does not update the minimum or maximum number of fraction digits used by the number format.

The default implementation throws UnsupportedOperationException.

Params:
  • currency – the new currency to be used by this number format
Throws:
Since:1.4
/** * Sets the currency used by this number format when formatting * currency values. This does not update the minimum or maximum * number of fraction digits used by the number format. * <p> * The default implementation throws * {@code UnsupportedOperationException}. * * @param currency the new currency to be used by this number format * @throws UnsupportedOperationException if the number format class * doesn't implement currency formatting * @throws NullPointerException if {@code currency} is null * @since 1.4 */
public void setCurrency(Currency currency) { throw new UnsupportedOperationException(); }
Gets the RoundingMode used in this NumberFormat. The default implementation of this method in NumberFormat always throws UnsupportedOperationException. Subclasses which handle different rounding modes should override this method.
Throws:
See Also:
Returns:The RoundingMode used for this NumberFormat.
Since:1.6
/** * Gets the {@link java.math.RoundingMode} used in this NumberFormat. * The default implementation of this method in NumberFormat * always throws {@link java.lang.UnsupportedOperationException}. * Subclasses which handle different rounding modes should override * this method. * * @throws UnsupportedOperationException The default implementation * always throws this exception * @return The {@code RoundingMode} used for this NumberFormat. * @see #setRoundingMode(RoundingMode) * @since 1.6 */
public RoundingMode getRoundingMode() { throw new UnsupportedOperationException(); }
Sets the RoundingMode used in this NumberFormat. The default implementation of this method in NumberFormat always throws UnsupportedOperationException. Subclasses which handle different rounding modes should override this method.
Params:
  • roundingMode – The RoundingMode to be used
Throws:
See Also:
Since:1.6
/** * Sets the {@link java.math.RoundingMode} used in this NumberFormat. * The default implementation of this method in NumberFormat always * throws {@link java.lang.UnsupportedOperationException}. * Subclasses which handle different rounding modes should override * this method. * * @throws UnsupportedOperationException The default implementation * always throws this exception * @throws NullPointerException if {@code roundingMode} is null * @param roundingMode The {@code RoundingMode} to be used * @see #getRoundingMode() * @since 1.6 */
public void setRoundingMode(RoundingMode roundingMode) { throw new UnsupportedOperationException(); } // =======================privates=============================== private static NumberFormat getInstance(Locale desiredLocale, Style formatStyle, int choice) { LocaleProviderAdapter adapter; adapter = LocaleProviderAdapter.getAdapter(NumberFormatProvider.class, desiredLocale); NumberFormat numberFormat = getInstance(adapter, desiredLocale, formatStyle, choice); if (numberFormat == null) { numberFormat = getInstance(LocaleProviderAdapter.forJRE(), desiredLocale, formatStyle, choice); } return numberFormat; } private static NumberFormat getInstance(LocaleProviderAdapter adapter, Locale locale, Style formatStyle, int choice) { NumberFormatProvider provider = adapter.getNumberFormatProvider(); NumberFormat numberFormat = null; switch (choice) { case NUMBERSTYLE: numberFormat = provider.getNumberInstance(locale); break; case PERCENTSTYLE: numberFormat = provider.getPercentInstance(locale); break; case CURRENCYSTYLE: numberFormat = provider.getCurrencyInstance(locale); break; case INTEGERSTYLE: numberFormat = provider.getIntegerInstance(locale); break; case COMPACTSTYLE: numberFormat = provider.getCompactNumberInstance(locale, formatStyle); break; } return numberFormat; }
First, read in the default serializable data. Then, if serialVersionOnStream is less than 1, indicating that the stream was written by JDK 1.1, set the int fields such as maximumIntegerDigits to be equal to the byte fields such as maxIntegerDigits, since the int fields were not present in JDK 1.1. Finally, set serialVersionOnStream back to the maximum allowed value so that default serialization will work properly if this object is streamed out again.

If minimumIntegerDigits is greater than maximumIntegerDigits or minimumFractionDigits is greater than maximumFractionDigits, then the stream data is invalid and this method throws an InvalidObjectException. In addition, if any of these values is negative, then this method throws an InvalidObjectException.

Since:1.2
/** * First, read in the default serializable data. * * Then, if {@code serialVersionOnStream} is less than 1, indicating that * the stream was written by JDK 1.1, * set the {@code int} fields such as {@code maximumIntegerDigits} * to be equal to the {@code byte} fields such as {@code maxIntegerDigits}, * since the {@code int} fields were not present in JDK 1.1. * Finally, set serialVersionOnStream back to the maximum allowed value so that * default serialization will work properly if this object is streamed out again. * * <p>If {@code minimumIntegerDigits} is greater than * {@code maximumIntegerDigits} or {@code minimumFractionDigits} * is greater than {@code maximumFractionDigits}, then the stream data * is invalid and this method throws an {@code InvalidObjectException}. * In addition, if any of these values is negative, then this method throws * an {@code InvalidObjectException}. * * @since 1.2 */
@java.io.Serial private void readObject(ObjectInputStream stream) throws IOException, ClassNotFoundException { stream.defaultReadObject(); if (serialVersionOnStream < 1) { // Didn't have additional int fields, reassign to use them. maximumIntegerDigits = maxIntegerDigits; minimumIntegerDigits = minIntegerDigits; maximumFractionDigits = maxFractionDigits; minimumFractionDigits = minFractionDigits; } if (minimumIntegerDigits > maximumIntegerDigits || minimumFractionDigits > maximumFractionDigits || minimumIntegerDigits < 0 || minimumFractionDigits < 0) { throw new InvalidObjectException("Digit count range invalid"); } serialVersionOnStream = currentSerialVersion; }
Write out the default serializable data, after first setting the byte fields such as maxIntegerDigits to be equal to the int fields such as maximumIntegerDigits (or to Byte.MAX_VALUE, whichever is smaller), for compatibility with the JDK 1.1 version of the stream format.
Since:1.2
/** * Write out the default serializable data, after first setting * the {@code byte} fields such as {@code maxIntegerDigits} to be * equal to the {@code int} fields such as {@code maximumIntegerDigits} * (or to {@code Byte.MAX_VALUE}, whichever is smaller), for compatibility * with the JDK 1.1 version of the stream format. * * @since 1.2 */
@java.io.Serial private void writeObject(ObjectOutputStream stream) throws IOException { maxIntegerDigits = (maximumIntegerDigits > Byte.MAX_VALUE) ? Byte.MAX_VALUE : (byte)maximumIntegerDigits; minIntegerDigits = (minimumIntegerDigits > Byte.MAX_VALUE) ? Byte.MAX_VALUE : (byte)minimumIntegerDigits; maxFractionDigits = (maximumFractionDigits > Byte.MAX_VALUE) ? Byte.MAX_VALUE : (byte)maximumFractionDigits; minFractionDigits = (minimumFractionDigits > Byte.MAX_VALUE) ? Byte.MAX_VALUE : (byte)minimumFractionDigits; stream.defaultWriteObject(); } // Constants used by factory methods to specify a style of format. private static final int NUMBERSTYLE = 0; private static final int CURRENCYSTYLE = 1; private static final int PERCENTSTYLE = 2; private static final int SCIENTIFICSTYLE = 3; private static final int INTEGERSTYLE = 4; private static final int COMPACTSTYLE = 5;
True if the grouping (i.e. thousands) separator is used when formatting and parsing numbers.
See Also:
@serial
/** * True if the grouping (i.e. thousands) separator is used when * formatting and parsing numbers. * * @serial * @see #isGroupingUsed */
private boolean groupingUsed = true;
The maximum number of digits allowed in the integer portion of a number. maxIntegerDigits must be greater than or equal to minIntegerDigits.

Note: This field exists only for serialization compatibility with JDK 1.1. In Java platform 2 v1.2 and higher, the new int field maximumIntegerDigits is used instead. When writing to a stream, maxIntegerDigits is set to maximumIntegerDigits or Byte.MAX_VALUE, whichever is smaller. When reading from a stream, this field is used only if serialVersionOnStream is less than 1.

See Also:
@serial
/** * The maximum number of digits allowed in the integer portion of a * number. {@code maxIntegerDigits} must be greater than or equal to * {@code minIntegerDigits}. * <p> * <strong>Note:</strong> This field exists only for serialization * compatibility with JDK 1.1. In Java platform 2 v1.2 and higher, the new * {@code int} field {@code maximumIntegerDigits} is used instead. * When writing to a stream, {@code maxIntegerDigits} is set to * {@code maximumIntegerDigits} or {@code Byte.MAX_VALUE}, * whichever is smaller. When reading from a stream, this field is used * only if {@code serialVersionOnStream} is less than 1. * * @serial * @see #getMaximumIntegerDigits */
private byte maxIntegerDigits = 40;
The minimum number of digits allowed in the integer portion of a number. minimumIntegerDigits must be less than or equal to maximumIntegerDigits.

Note: This field exists only for serialization compatibility with JDK 1.1. In Java platform 2 v1.2 and higher, the new int field minimumIntegerDigits is used instead. When writing to a stream, minIntegerDigits is set to minimumIntegerDigits or Byte.MAX_VALUE, whichever is smaller. When reading from a stream, this field is used only if serialVersionOnStream is less than 1.

See Also:
@serial
/** * The minimum number of digits allowed in the integer portion of a * number. {@code minimumIntegerDigits} must be less than or equal to * {@code maximumIntegerDigits}. * <p> * <strong>Note:</strong> This field exists only for serialization * compatibility with JDK 1.1. In Java platform 2 v1.2 and higher, the new * {@code int} field {@code minimumIntegerDigits} is used instead. * When writing to a stream, {@code minIntegerDigits} is set to * {@code minimumIntegerDigits} or {@code Byte.MAX_VALUE}, * whichever is smaller. When reading from a stream, this field is used * only if {@code serialVersionOnStream} is less than 1. * * @serial * @see #getMinimumIntegerDigits */
private byte minIntegerDigits = 1;
The maximum number of digits allowed in the fractional portion of a number. maximumFractionDigits must be greater than or equal to minimumFractionDigits.

Note: This field exists only for serialization compatibility with JDK 1.1. In Java platform 2 v1.2 and higher, the new int field maximumFractionDigits is used instead. When writing to a stream, maxFractionDigits is set to maximumFractionDigits or Byte.MAX_VALUE, whichever is smaller. When reading from a stream, this field is used only if serialVersionOnStream is less than 1.

See Also:
@serial
/** * The maximum number of digits allowed in the fractional portion of a * number. {@code maximumFractionDigits} must be greater than or equal to * {@code minimumFractionDigits}. * <p> * <strong>Note:</strong> This field exists only for serialization * compatibility with JDK 1.1. In Java platform 2 v1.2 and higher, the new * {@code int} field {@code maximumFractionDigits} is used instead. * When writing to a stream, {@code maxFractionDigits} is set to * {@code maximumFractionDigits} or {@code Byte.MAX_VALUE}, * whichever is smaller. When reading from a stream, this field is used * only if {@code serialVersionOnStream} is less than 1. * * @serial * @see #getMaximumFractionDigits */
private byte maxFractionDigits = 3; // invariant, >= minFractionDigits
The minimum number of digits allowed in the fractional portion of a number. minimumFractionDigits must be less than or equal to maximumFractionDigits.

Note: This field exists only for serialization compatibility with JDK 1.1. In Java platform 2 v1.2 and higher, the new int field minimumFractionDigits is used instead. When writing to a stream, minFractionDigits is set to minimumFractionDigits or Byte.MAX_VALUE, whichever is smaller. When reading from a stream, this field is used only if serialVersionOnStream is less than 1.

See Also:
@serial
/** * The minimum number of digits allowed in the fractional portion of a * number. {@code minimumFractionDigits} must be less than or equal to * {@code maximumFractionDigits}. * <p> * <strong>Note:</strong> This field exists only for serialization * compatibility with JDK 1.1. In Java platform 2 v1.2 and higher, the new * {@code int} field {@code minimumFractionDigits} is used instead. * When writing to a stream, {@code minFractionDigits} is set to * {@code minimumFractionDigits} or {@code Byte.MAX_VALUE}, * whichever is smaller. When reading from a stream, this field is used * only if {@code serialVersionOnStream} is less than 1. * * @serial * @see #getMinimumFractionDigits */
private byte minFractionDigits = 0;
True if this format will parse numbers as integers only.
See Also:
@serial
/** * True if this format will parse numbers as integers only. * * @serial * @see #isParseIntegerOnly */
private boolean parseIntegerOnly = false; // new fields for 1.2. byte is too small for integer digits.
The maximum number of digits allowed in the integer portion of a number. maximumIntegerDigits must be greater than or equal to minimumIntegerDigits.
See Also:
@serial
Since:1.2
/** * The maximum number of digits allowed in the integer portion of a * number. {@code maximumIntegerDigits} must be greater than or equal to * {@code minimumIntegerDigits}. * * @serial * @since 1.2 * @see #getMaximumIntegerDigits */
private int maximumIntegerDigits = 40;
The minimum number of digits allowed in the integer portion of a number. minimumIntegerDigits must be less than or equal to maximumIntegerDigits.
See Also:
@serial
Since:1.2
/** * The minimum number of digits allowed in the integer portion of a * number. {@code minimumIntegerDigits} must be less than or equal to * {@code maximumIntegerDigits}. * * @serial * @since 1.2 * @see #getMinimumIntegerDigits */
private int minimumIntegerDigits = 1;
The maximum number of digits allowed in the fractional portion of a number. maximumFractionDigits must be greater than or equal to minimumFractionDigits.
See Also:
@serial
Since:1.2
/** * The maximum number of digits allowed in the fractional portion of a * number. {@code maximumFractionDigits} must be greater than or equal to * {@code minimumFractionDigits}. * * @serial * @since 1.2 * @see #getMaximumFractionDigits */
private int maximumFractionDigits = 3; // invariant, >= minFractionDigits
The minimum number of digits allowed in the fractional portion of a number. minimumFractionDigits must be less than or equal to maximumFractionDigits.
See Also:
@serial
Since:1.2
/** * The minimum number of digits allowed in the fractional portion of a * number. {@code minimumFractionDigits} must be less than or equal to * {@code maximumFractionDigits}. * * @serial * @since 1.2 * @see #getMinimumFractionDigits */
private int minimumFractionDigits = 0; static final int currentSerialVersion = 1;
Describes the version of NumberFormat present on the stream. Possible values are:
  • 0 (or uninitialized): the JDK 1.1 version of the stream format. In this version, the int fields such as maximumIntegerDigits were not present, and the byte fields such as maxIntegerDigits are used instead.
  • 1: the 1.2 version of the stream format. The values of the byte fields such as maxIntegerDigits are ignored, and the int fields such as maximumIntegerDigits are used instead.
When streaming out a NumberFormat, the most recent format (corresponding to the highest allowable serialVersionOnStream) is always written.
@serial
Since:1.2
/** * Describes the version of {@code NumberFormat} present on the stream. * Possible values are: * <ul> * <li><b>0</b> (or uninitialized): the JDK 1.1 version of the stream format. * In this version, the {@code int} fields such as * {@code maximumIntegerDigits} were not present, and the {@code byte} * fields such as {@code maxIntegerDigits} are used instead. * * <li><b>1</b>: the 1.2 version of the stream format. The values of the * {@code byte} fields such as {@code maxIntegerDigits} are ignored, * and the {@code int} fields such as {@code maximumIntegerDigits} * are used instead. * </ul> * When streaming out a {@code NumberFormat}, the most recent format * (corresponding to the highest allowable {@code serialVersionOnStream}) * is always written. * * @serial * @since 1.2 */
private int serialVersionOnStream = currentSerialVersion; // Removed "implements Cloneable" clause. Needs to update serialization // ID for backward compatibility. @java.io.Serial static final long serialVersionUID = -2308460125733713944L; // // class for AttributedCharacterIterator attributes //
Defines constants that are used as attribute keys in the AttributedCharacterIterator returned from NumberFormat.formatToCharacterIterator and as field identifiers in FieldPosition.
Since:1.4
/** * Defines constants that are used as attribute keys in the * {@code AttributedCharacterIterator} returned * from {@code NumberFormat.formatToCharacterIterator} and as * field identifiers in {@code FieldPosition}. * * @since 1.4 */
public static class Field extends Format.Field { // Proclaim serial compatibility with 1.4 FCS @java.io.Serial private static final long serialVersionUID = 7494728892700160890L; // table of all instances in this class, used by readResolve private static final Map<String, Field> instanceMap = new HashMap<>(11);
Creates a Field instance with the specified name.
Params:
  • name – Name of the attribute
/** * Creates a Field instance with the specified * name. * * @param name Name of the attribute */
protected Field(String name) { super(name); if (this.getClass() == NumberFormat.Field.class) { instanceMap.put(name, this); } }
Resolves instances being deserialized to the predefined constants.
Throws:
  • InvalidObjectException – if the constant could not be resolved.
Returns:resolved NumberFormat.Field constant
/** * Resolves instances being deserialized to the predefined constants. * * @throws InvalidObjectException if the constant could not be resolved. * @return resolved NumberFormat.Field constant */
@Override @java.io.Serial protected Object readResolve() throws InvalidObjectException { if (this.getClass() != NumberFormat.Field.class) { throw new InvalidObjectException("subclass didn't correctly implement readResolve"); } Object instance = instanceMap.get(getName()); if (instance != null) { return instance; } else { throw new InvalidObjectException("unknown attribute name"); } }
Constant identifying the integer field.
/** * Constant identifying the integer field. */
public static final Field INTEGER = new Field("integer");
Constant identifying the fraction field.
/** * Constant identifying the fraction field. */
public static final Field FRACTION = new Field("fraction");
Constant identifying the exponent field.
/** * Constant identifying the exponent field. */
public static final Field EXPONENT = new Field("exponent");
Constant identifying the decimal separator field.
/** * Constant identifying the decimal separator field. */
public static final Field DECIMAL_SEPARATOR = new Field("decimal separator");
Constant identifying the sign field.
/** * Constant identifying the sign field. */
public static final Field SIGN = new Field("sign");
Constant identifying the grouping separator field.
/** * Constant identifying the grouping separator field. */
public static final Field GROUPING_SEPARATOR = new Field("grouping separator");
Constant identifying the exponent symbol field.
/** * Constant identifying the exponent symbol field. */
public static final Field EXPONENT_SYMBOL = new Field("exponent symbol");
Constant identifying the percent field.
/** * Constant identifying the percent field. */
public static final Field PERCENT = new Field("percent");
Constant identifying the permille field.
/** * Constant identifying the permille field. */
public static final Field PERMILLE = new Field("per mille");
Constant identifying the currency field.
/** * Constant identifying the currency field. */
public static final Field CURRENCY = new Field("currency");
Constant identifying the exponent sign field.
/** * Constant identifying the exponent sign field. */
public static final Field EXPONENT_SIGN = new Field("exponent sign");
Constant identifying the prefix field.
Since:12
/** * Constant identifying the prefix field. * * @since 12 */
public static final Field PREFIX = new Field("prefix");
Constant identifying the suffix field.
Since:12
/** * Constant identifying the suffix field. * * @since 12 */
public static final Field SUFFIX = new Field("suffix"); }
A number format style.

Style is an enum which represents the style for formatting a number within a given NumberFormat instance.

See Also:
Since:12
/** * A number format style. * <p> * {@code Style} is an enum which represents the style for formatting * a number within a given {@code NumberFormat} instance. * * @see CompactNumberFormat * @see NumberFormat#getCompactNumberInstance(Locale, Style) * @since 12 */
public enum Style {
The SHORT number format style.
/** * The {@code SHORT} number format style. */
SHORT,
The LONG number format style.
/** * The {@code LONG} number format style. */
LONG } }