* // Setup:
* UErrorCode ec = U_ZERO_ERROR;
* UNumberFormatter* uformatter = unumf_openForSkeletonAndLocale(u"precision-integer", -1, "en", &ec);
* UFormattedNumber* uresult = unumf_openResult(&ec);
* if (U_FAILURE(ec)) { return; }
*
* // Format a double:
* unumf_formatDouble(uformatter, 5142.3, uresult, &ec);
* if (U_FAILURE(ec)) { return; }
*
* // Export the string to a malloc'd buffer:
* int32_t len = unumf_resultToString(uresult, NULL, 0, &ec);
* // at this point, ec == U_BUFFER_OVERFLOW_ERROR
* ec = U_ZERO_ERROR;
* UChar* buffer = (UChar*) malloc((len+1)*sizeof(UChar));
* unumf_resultToString(uresult, buffer, len+1, &ec);
* if (U_FAILURE(ec)) { return; }
* // buffer should equal "5,142"
*
* // Cleanup:
* unumf_close(uformatter);
* unumf_closeResult(uresult);
* free(buffer);
*
*
* If you are a C++ user linking against the C libraries, you can use the LocalPointer versions of these
* APIs. The following example uses LocalPointer with the decimal number and field position APIs:
*
*
* // Setup:
* LocalUNumberFormatterPointer uformatter(unumf_openForSkeletonAndLocale(u"percent", -1, "en", &ec));
* LocalUFormattedNumberPointer uresult(unumf_openResult(&ec));
* if (U_FAILURE(ec)) { return; }
*
* // Format a decimal number:
* unumf_formatDecimal(uformatter.getAlias(), "9.87E-3", -1, uresult.getAlias(), &ec);
* if (U_FAILURE(ec)) { return; }
*
* // Get the location of the percent sign:
* UFieldPosition ufpos = {UNUM_PERCENT_FIELD, 0, 0};
* unumf_resultNextFieldPosition(uresult.getAlias(), &ufpos, &ec);
* // ufpos should contain beginIndex=7 and endIndex=8 since the string is "0.00987%"
*
* // No need to do any cleanup since we are using LocalPointer.
*
*/
/**
* An enum declaring how to resolve conflicts between maximum fraction digits and maximum
* significant digits.
*
* There are two modes, RELAXED and STRICT:
*
* - RELAXED: Relax one of the two constraints (fraction digits or significant digits) in order
* to round the number to a higher level of precision.
* - STRICT: Enforce both constraints, resulting in the number being rounded to a lower
* level of precision.
*
* The default settings for compact notation rounding are Max-Fraction = 0 (round to the nearest
* integer), Max-Significant = 2 (round to 2 significant digits), and priority RELAXED (choose
* the constraint that results in more digits being displayed).
*
* Conflicting *minimum* fraction and significant digits are always resolved in the direction that
* results in more trailing zeros.
*
* Example 1: Consider the number 3.141, with various different settings:
*
* - Max-Fraction = 1: "3.1"
* - Max-Significant = 3: "3.14"
*
* The rounding priority determines how to resolve the conflict when both Max-Fraction and
* Max-Significant are set. With RELAXED, the less-strict setting (the one that causes more digits
* to be displayed) will be used; Max-Significant wins. With STRICT, the more-strict setting (the
* one that causes fewer digits to be displayed) will be used; Max-Fraction wins.
*
* Example 2: Consider the number 8317, with various different settings:
*
* - Max-Fraction = 1: "8317"
* - Max-Significant = 3: "8320"
*
* Here, RELAXED favors Max-Fraction and STRICT favors Max-Significant. Note that this larger
* number caused the two modes to favor the opposite result.
*
* @stable ICU 69
*/
typedef enum UNumberRoundingPriority {
/**
* Favor greater precision by relaxing one of the rounding constraints.
*
* @stable ICU 69
*/
UNUM_ROUNDING_PRIORITY_RELAXED,
/**
* Favor adherence to all rounding constraints by producing lower precision.
*
* @stable ICU 69
*/
UNUM_ROUNDING_PRIORITY_STRICT,
} UNumberRoundingPriority;
/**
* An enum declaring how to render units, including currencies. Example outputs when formatting 123 USD and 123
* meters in en-CA:
*
* *
* This enum is similar to {@link UMeasureFormatWidth}. * * @stable ICU 60 */ typedef enum UNumberUnitWidth { /** * Print an abbreviated version of the unit name. Similar to SHORT, but always use the shortest available * abbreviation or symbol. This option can be used when the context hints at the identity of the unit. For more * information on the difference between NARROW and SHORT, see SHORT. * *
* In CLDR, this option corresponds to the "Narrow" format for measure units and the "¤¤¤¤¤" placeholder for * currencies. * * @stable ICU 60 */ UNUM_UNIT_WIDTH_NARROW = 0, /** * Print an abbreviated version of the unit name. Similar to NARROW, but use a slightly wider abbreviation or * symbol when there may be ambiguity. This is the default behavior. * *
* For example, in es-US, the SHORT form for Fahrenheit is "{0} °F", but the NARROW form is "{0}°", * since Fahrenheit is the customary unit for temperature in that locale. * *
* In CLDR, this option corresponds to the "Short" format for measure units and the "¤" placeholder for * currencies. * * @stable ICU 60 */ UNUM_UNIT_WIDTH_SHORT = 1, /** * Print the full name of the unit, without any abbreviations. * *
* In CLDR, this option corresponds to the default format for measure units and the "¤¤¤" placeholder for * currencies. * * @stable ICU 60 */ UNUM_UNIT_WIDTH_FULL_NAME = 2, /** * Use the three-digit ISO XXX code in place of the symbol for displaying currencies. The behavior of this * option is currently undefined for use with measure units. * *
* In CLDR, this option corresponds to the "¤¤" placeholder for currencies. * * @stable ICU 60 */ UNUM_UNIT_WIDTH_ISO_CODE = 3, /** * Use the formal variant of the currency symbol; for example, "NT$" for the New Taiwan * dollar in zh-TW. * *
* Behavior of this option with non-currency units is not defined at this time. * * @stable ICU 68 */ UNUM_UNIT_WIDTH_FORMAL = 4, /** * Use the alternate variant of the currency symbol; for example, "TL" for the Turkish * lira (TRY). * *
* Behavior of this option with non-currency units is not defined at this time. * * @stable ICU 68 */ UNUM_UNIT_WIDTH_VARIANT = 5, /** * Format the number according to the specified unit, but do not display the unit. For currencies, apply * monetary symbols and formats as with SHORT, but omit the currency symbol. For measure units, the behavior is * equivalent to not specifying the unit at all. * * @stable ICU 60 */ UNUM_UNIT_WIDTH_HIDDEN = 6, // Do not conditionalize the following with #ifndef U_HIDE_INTERNAL_API, // needed for unconditionalized struct MacroProps /** * One more than the highest UNumberUnitWidth value. * * @internal ICU 60: The numeric value may change over time; see ICU ticket #12420. */ UNUM_UNIT_WIDTH_COUNT = 7 } UNumberUnitWidth; /** * An enum declaring how to denote positive and negative numbers. Example outputs when formatting * 123, 0, and -123 in en-US: * *
* The exact format, including the position and the code point of the sign, differ by locale. * * @stable ICU 60 */ typedef enum UNumberSignDisplay { /** * Show the minus sign on negative numbers, and do not show the sign on positive numbers. This is the default * behavior. * * If using this option, a sign will be displayed on negative zero, including negative numbers * that round to zero. To hide the sign on negative zero, use the NEGATIVE option. * * @stable ICU 60 */ UNUM_SIGN_AUTO, /** * Show the minus sign on negative numbers and the plus sign on positive numbers, including zero. * To hide the sign on zero, see {@link UNUM_SIGN_EXCEPT_ZERO}. * * @stable ICU 60 */ UNUM_SIGN_ALWAYS, /** * Do not show the sign on positive or negative numbers. * * @stable ICU 60 */ UNUM_SIGN_NEVER, /** * Use the locale-dependent accounting format on negative numbers, and do not show the sign on positive numbers. * *
* The accounting format is defined in CLDR and varies by locale; in many Western locales, the format is a pair * of parentheses around the number. * *
* Note: Since CLDR defines the accounting format in the monetary context only, this option falls back to the * AUTO sign display strategy when formatting without a currency unit. This limitation may be lifted in the * future. * * @stable ICU 60 */ UNUM_SIGN_ACCOUNTING, /** * Use the locale-dependent accounting format on negative numbers, and show the plus sign on * positive numbers, including zero. For more information on the accounting format, see the * ACCOUNTING sign display strategy. To hide the sign on zero, see * {@link UNUM_SIGN_ACCOUNTING_EXCEPT_ZERO}. * * @stable ICU 60 */ UNUM_SIGN_ACCOUNTING_ALWAYS, /** * Show the minus sign on negative numbers and the plus sign on positive numbers. Do not show a * sign on zero, numbers that round to zero, or NaN. * * @stable ICU 61 */ UNUM_SIGN_EXCEPT_ZERO, /** * Use the locale-dependent accounting format on negative numbers, and show the plus sign on * positive numbers. Do not show a sign on zero, numbers that round to zero, or NaN. For more * information on the accounting format, see the ACCOUNTING sign display strategy. * * @stable ICU 61 */ UNUM_SIGN_ACCOUNTING_EXCEPT_ZERO, /** * Same as AUTO, but do not show the sign on negative zero. * * @stable ICU 69 */ UNUM_SIGN_NEGATIVE, /** * Same as ACCOUNTING, but do not show the sign on negative zero. * * @stable ICU 69 */ UNUM_SIGN_ACCOUNTING_NEGATIVE, // Do not conditionalize the following with #ifndef U_HIDE_INTERNAL_API, // needed for unconditionalized struct MacroProps /** * One more than the highest UNumberSignDisplay value. * * @internal ICU 60: The numeric value may change over time; see ICU ticket #12420. */ UNUM_SIGN_COUNT = 9, } UNumberSignDisplay; /** * An enum declaring how to render the decimal separator. * *
*
* LocalUNumberFormatterPointer uformatter(unumf_openForSkeletonAndLocale(...)); * // no need to explicitly call unumf_close() ** * @see LocalPointerBase * @see LocalPointer * @stable ICU 62 */ U_DEFINE_LOCAL_OPEN_POINTER(LocalUNumberFormatterPointer, UNumberFormatter, unumf_close); U_NAMESPACE_END #endif // U_SHOW_CPLUSPLUS_API #endif /* #if !UCONFIG_NO_FORMATTING */ #endif //__UNUMBERFORMATTER_H__