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// © 2016 and later: Unicode, Inc. and others.
// License & terms of use: http://www.unicode.org/copyright.html
/*
**********************************************************************
* Copyright (c) 2004-2016, International Business Machines
* Corporation and others. All Rights Reserved.
**********************************************************************
* Author: Alan Liu
* Created: April 26, 2004
* Since: ICU 3.0
**********************************************************************
*/
#include "utypeinfo.h" // for 'typeid' to work
#include "unicode/measunit.h"
#if !UCONFIG_NO_FORMATTING
#include "unicode/uenum.h"
#include "ustrenum.h"
#include "cstring.h"
#include "uassert.h"
U_NAMESPACE_BEGIN
UOBJECT_DEFINE_RTTI_IMPLEMENTATION(MeasureUnit)
// All code between the "Start generated code" comment and
// the "End generated code" comment is auto generated code
// and must not be edited manually. For instructions on how to correctly
// update this code, refer to:
// http://site.icu-project.org/design/formatting/measureformat/updating-measure-unit
//
// Start generated code
static const int32_t gOffsets[] = {
0,
2,
7,
17,
25,
29,
328,
339,
354,
358,
366,
368,
372,
393,
395,
409,
412,
418,
426,
430,
434,
436,
463
};
static const int32_t gIndexes[] = {
0,
2,
7,
17,
25,
29,
29,
40,
55,
59,
67,
69,
73,
94,
96,
110,
113,
119,
127,
131,
135,
137,
164
};
// Must be sorted alphabetically.
static const char * const gTypes[] = {
"acceleration",
"angle",
"area",
"concentr",
"consumption",
"currency",
"digital",
"duration",
"electric",
"energy",
"force",
"frequency",
"length",
"light",
"mass",
"none",
"power",
"pressure",
"speed",
"temperature",
"torque",
"volume"
};
// Must be grouped by type and sorted alphabetically within each type.
static const char * const gSubTypes[] = {
"g-force",
"meter-per-second-squared",
"arc-minute",
"arc-second",
"degree",
"radian",
"revolution",
"acre",
"dunam",
"hectare",
"square-centimeter",
"square-foot",
"square-inch",
"square-kilometer",
"square-meter",
"square-mile",
"square-yard",
"karat",
"milligram-per-deciliter",
"millimole-per-liter",
"mole",
"part-per-million",
"percent",
"permille",
"permyriad",
"liter-per-100kilometers",
"liter-per-kilometer",
"mile-per-gallon",
"mile-per-gallon-imperial",
"ADP",
"AED",
"AFA",
"AFN",
"ALK",
"ALL",
"AMD",
"ANG",
"AOA",
"AOK",
"AON",
"AOR",
"ARA",
"ARP",
"ARS",
"ARY",
"ATS",
"AUD",
"AWG",
"AYM",
"AZM",
"AZN",
"BAD",
"BAM",
"BBD",
"BDT",
"BEC",
"BEF",
"BEL",
"BGJ",
"BGK",
"BGL",
"BGN",
"BHD",
"BIF",
"BMD",
"BND",
"BOB",
"BOP",
"BOV",
"BRB",
"BRC",
"BRE",
"BRL",
"BRN",
"BRR",
"BSD",
"BTN",
"BUK",
"BWP",
"BYB",
"BYN",
"BYR",
"BZD",
"CAD",
"CDF",
"CHC",
"CHE",
"CHF",
"CHW",
"CLF",
"CLP",
"CNY",
"COP",
"COU",
"CRC",
"CSD",
"CSJ",
"CSK",
"CUC",
"CUP",
"CVE",
"CYP",
"CZK",
"DDM",
"DEM",
"DJF",
"DKK",
"DOP",
"DZD",
"ECS",
"ECV",
"EEK",
"EGP",
"ERN",
"ESA",
"ESB",
"ESP",
"ETB",
"EUR",
"FIM",
"FJD",
"FKP",
"FRF",
"GBP",
"GEK",
"GEL",
"GHC",
"GHP",
"GHS",
"GIP",
"GMD",
"GNE",
"GNF",
"GNS",
"GQE",
"GRD",
"GTQ",
"GWE",
"GWP",
"GYD",
"HKD",
"HNL",
"HRD",
"HRK",
"HTG",
"HUF",
"IDR",
"IEP",
"ILP",
"ILR",
"ILS",
"INR",
"IQD",
"IRR",
"ISJ",
"ISK",
"ITL",
"JMD",
"JOD",
"JPY",
"KES",
"KGS",
"KHR",
"KMF",
"KPW",
"KRW",
"KWD",
"KYD",
"KZT",
"LAJ",
"LAK",
"LBP",
"LKR",
"LRD",
"LSL",
"LSM",
"LTL",
"LTT",
"LUC",
"LUF",
"LUL",
"LVL",
"LVR",
"LYD",
"MAD",
"MDL",
"MGA",
"MGF",
"MKD",
"MLF",
"MMK",
"MNT",
"MOP",
"MRO",
"MRU",
"MTL",
"MTP",
"MUR",
"MVQ",
"MVR",
"MWK",
"MXN",
"MXP",
"MXV",
"MYR",
"MZE",
"MZM",
"MZN",
"NAD",
"NGN",
"NIC",
"NIO",
"NLG",
"NOK",
"NPR",
"NZD",
"OMR",
"PAB",
"PEH",
"PEI",
"PEN",
"PES",
"PGK",
"PHP",
"PKR",
"PLN",
"PLZ",
"PTE",
"PYG",
"QAR",
"RHD",
"ROK",
"ROL",
"RON",
"RSD",
"RUB",
"RUR",
"RWF",
"SAR",
"SBD",
"SCR",
"SDD",
"SDG",
"SDP",
"SEK",
"SGD",
"SHP",
"SIT",
"SKK",
"SLL",
"SOS",
"SRD",
"SRG",
"SSP",
"STD",
"STN",
"SUR",
"SVC",
"SYP",
"SZL",
"THB",
"TJR",
"TJS",
"TMM",
"TMT",
"TND",
"TOP",
"TPE",
"TRL",
"TRY",
"TTD",
"TWD",
"TZS",
"UAH",
"UAK",
"UGS",
"UGW",
"UGX",
"USD",
"USN",
"USS",
"UYI",
"UYN",
"UYP",
"UYU",
"UYW",
"UZS",
"VEB",
"VEF",
"VES",
"VNC",
"VND",
"VUV",
"WST",
"XAF",
"XAG",
"XAU",
"XBA",
"XBB",
"XBC",
"XBD",
"XCD",
"XDR",
"XEU",
"XOF",
"XPD",
"XPF",
"XPT",
"XSU",
"XTS",
"XUA",
"XXX",
"YDD",
"YER",
"YUD",
"YUM",
"YUN",
"ZAL",
"ZAR",
"ZMK",
"ZMW",
"ZRN",
"ZRZ",
"ZWC",
"ZWD",
"ZWL",
"ZWN",
"ZWR",
"bit",
"byte",
"gigabit",
"gigabyte",
"kilobit",
"kilobyte",
"megabit",
"megabyte",
"petabyte",
"terabit",
"terabyte",
"century",
"day",
"day-person",
"hour",
"microsecond",
"millisecond",
"minute",
"month",
"month-person",
"nanosecond",
"second",
"week",
"week-person",
"year",
"year-person",
"ampere",
"milliampere",
"ohm",
"volt",
"british-thermal-unit",
"calorie",
"electronvolt",
"foodcalorie",
"joule",
"kilocalorie",
"kilojoule",
"kilowatt-hour",
"newton",
"pound-force",
"gigahertz",
"hertz",
"kilohertz",
"megahertz",
"astronomical-unit",
"centimeter",
"decimeter",
"fathom",
"foot",
"furlong",
"inch",
"kilometer",
"light-year",
"meter",
"micrometer",
"mile",
"mile-scandinavian",
"millimeter",
"nanometer",
"nautical-mile",
"parsec",
"picometer",
"point",
"solar-radius",
"yard",
"lux",
"solar-luminosity",
"carat",
"dalton",
"earth-mass",
"gram",
"kilogram",
"metric-ton",
"microgram",
"milligram",
"ounce",
"ounce-troy",
"pound",
"solar-mass",
"stone",
"ton",
"base",
"percent",
"permille",
"gigawatt",
"horsepower",
"kilowatt",
"megawatt",
"milliwatt",
"watt",
"atmosphere",
"hectopascal",
"inch-hg",
"kilopascal",
"megapascal",
"millibar",
"millimeter-of-mercury",
"pound-per-square-inch",
"kilometer-per-hour",
"knot",
"meter-per-second",
"mile-per-hour",
"celsius",
"fahrenheit",
"generic",
"kelvin",
"newton-meter",
"pound-foot",
"acre-foot",
"barrel",
"bushel",
"centiliter",
"cubic-centimeter",
"cubic-foot",
"cubic-inch",
"cubic-kilometer",
"cubic-meter",
"cubic-mile",
"cubic-yard",
"cup",
"cup-metric",
"deciliter",
"fluid-ounce",
"fluid-ounce-imperial",
"gallon",
"gallon-imperial",
"hectoliter",
"liter",
"megaliter",
"milliliter",
"pint",
"pint-metric",
"quart",
"tablespoon",
"teaspoon"
};
// Must be sorted by first value and then second value.
static int32_t unitPerUnitToSingleUnit[][4] = {
{379, 342, 18, 0},
{381, 349, 18, 2},
{383, 342, 18, 3},
{383, 452, 4, 2},
{383, 453, 4, 3},
{402, 449, 3, 1},
{405, 12, 17, 7},
{455, 379, 4, 1}
};
// Shortcuts to the base unit in order to make the default constructor fast
static const int32_t kBaseTypeIdx = 15;
static const int32_t kBaseSubTypeIdx = 0;
MeasureUnit *MeasureUnit::createGForce(UErrorCode &status) {
return MeasureUnit::create(0, 0, status);
}
MeasureUnit MeasureUnit::getGForce() {
return MeasureUnit(0, 0);
}
MeasureUnit *MeasureUnit::createMeterPerSecondSquared(UErrorCode &status) {
return MeasureUnit::create(0, 1, status);
}
MeasureUnit MeasureUnit::getMeterPerSecondSquared() {
return MeasureUnit(0, 1);
}
MeasureUnit *MeasureUnit::createArcMinute(UErrorCode &status) {
return MeasureUnit::create(1, 0, status);
}
MeasureUnit MeasureUnit::getArcMinute() {
return MeasureUnit(1, 0);
}
MeasureUnit *MeasureUnit::createArcSecond(UErrorCode &status) {
return MeasureUnit::create(1, 1, status);
}
MeasureUnit MeasureUnit::getArcSecond() {
return MeasureUnit(1, 1);
}
MeasureUnit *MeasureUnit::createDegree(UErrorCode &status) {
return MeasureUnit::create(1, 2, status);
}
MeasureUnit MeasureUnit::getDegree() {
return MeasureUnit(1, 2);
}
MeasureUnit *MeasureUnit::createRadian(UErrorCode &status) {
return MeasureUnit::create(1, 3, status);
}
MeasureUnit MeasureUnit::getRadian() {
return MeasureUnit(1, 3);
}
MeasureUnit *MeasureUnit::createRevolutionAngle(UErrorCode &status) {
return MeasureUnit::create(1, 4, status);
}
MeasureUnit MeasureUnit::getRevolutionAngle() {
return MeasureUnit(1, 4);
}
MeasureUnit *MeasureUnit::createAcre(UErrorCode &status) {
return MeasureUnit::create(2, 0, status);
}
MeasureUnit MeasureUnit::getAcre() {
return MeasureUnit(2, 0);
}
MeasureUnit *MeasureUnit::createDunam(UErrorCode &status) {
return MeasureUnit::create(2, 1, status);
}
MeasureUnit MeasureUnit::getDunam() {
return MeasureUnit(2, 1);
}
MeasureUnit *MeasureUnit::createHectare(UErrorCode &status) {
return MeasureUnit::create(2, 2, status);
}
MeasureUnit MeasureUnit::getHectare() {
return MeasureUnit(2, 2);
}
MeasureUnit *MeasureUnit::createSquareCentimeter(UErrorCode &status) {
return MeasureUnit::create(2, 3, status);
}
MeasureUnit MeasureUnit::getSquareCentimeter() {
return MeasureUnit(2, 3);
}
MeasureUnit *MeasureUnit::createSquareFoot(UErrorCode &status) {
return MeasureUnit::create(2, 4, status);
}
MeasureUnit MeasureUnit::getSquareFoot() {
return MeasureUnit(2, 4);
}
MeasureUnit *MeasureUnit::createSquareInch(UErrorCode &status) {
return MeasureUnit::create(2, 5, status);
}
MeasureUnit MeasureUnit::getSquareInch() {
return MeasureUnit(2, 5);
}
MeasureUnit *MeasureUnit::createSquareKilometer(UErrorCode &status) {
return MeasureUnit::create(2, 6, status);
}
MeasureUnit MeasureUnit::getSquareKilometer() {
return MeasureUnit(2, 6);
}
MeasureUnit *MeasureUnit::createSquareMeter(UErrorCode &status) {
return MeasureUnit::create(2, 7, status);
}
MeasureUnit MeasureUnit::getSquareMeter() {
return MeasureUnit(2, 7);
}
MeasureUnit *MeasureUnit::createSquareMile(UErrorCode &status) {
return MeasureUnit::create(2, 8, status);
}
MeasureUnit MeasureUnit::getSquareMile() {
return MeasureUnit(2, 8);
}
MeasureUnit *MeasureUnit::createSquareYard(UErrorCode &status) {
return MeasureUnit::create(2, 9, status);
}
MeasureUnit MeasureUnit::getSquareYard() {
return MeasureUnit(2, 9);
}
MeasureUnit *MeasureUnit::createKarat(UErrorCode &status) {
return MeasureUnit::create(3, 0, status);
}
MeasureUnit MeasureUnit::getKarat() {
return MeasureUnit(3, 0);
}
MeasureUnit *MeasureUnit::createMilligramPerDeciliter(UErrorCode &status) {
return MeasureUnit::create(3, 1, status);
}
MeasureUnit MeasureUnit::getMilligramPerDeciliter() {
return MeasureUnit(3, 1);
}
MeasureUnit *MeasureUnit::createMillimolePerLiter(UErrorCode &status) {
return MeasureUnit::create(3, 2, status);
}
MeasureUnit MeasureUnit::getMillimolePerLiter() {
return MeasureUnit(3, 2);
}
MeasureUnit *MeasureUnit::createMole(UErrorCode &status) {
return MeasureUnit::create(3, 3, status);
}
MeasureUnit MeasureUnit::getMole() {
return MeasureUnit(3, 3);
}
MeasureUnit *MeasureUnit::createPartPerMillion(UErrorCode &status) {
return MeasureUnit::create(3, 4, status);
}
MeasureUnit MeasureUnit::getPartPerMillion() {
return MeasureUnit(3, 4);
}
MeasureUnit *MeasureUnit::createPercent(UErrorCode &status) {
return MeasureUnit::create(3, 5, status);
}
MeasureUnit MeasureUnit::getPercent() {
return MeasureUnit(3, 5);
}
MeasureUnit *MeasureUnit::createPermille(UErrorCode &status) {
return MeasureUnit::create(3, 6, status);
}
MeasureUnit MeasureUnit::getPermille() {
return MeasureUnit(3, 6);
}
MeasureUnit *MeasureUnit::createPermyriad(UErrorCode &status) {
return MeasureUnit::create(3, 7, status);
}
MeasureUnit MeasureUnit::getPermyriad() {
return MeasureUnit(3, 7);
}
MeasureUnit *MeasureUnit::createLiterPer100Kilometers(UErrorCode &status) {
return MeasureUnit::create(4, 0, status);
}
MeasureUnit MeasureUnit::getLiterPer100Kilometers() {
return MeasureUnit(4, 0);
}
MeasureUnit *MeasureUnit::createLiterPerKilometer(UErrorCode &status) {
return MeasureUnit::create(4, 1, status);
}
MeasureUnit MeasureUnit::getLiterPerKilometer() {
return MeasureUnit(4, 1);
}
MeasureUnit *MeasureUnit::createMilePerGallon(UErrorCode &status) {
return MeasureUnit::create(4, 2, status);
}
MeasureUnit MeasureUnit::getMilePerGallon() {
return MeasureUnit(4, 2);
}
MeasureUnit *MeasureUnit::createMilePerGallonImperial(UErrorCode &status) {
return MeasureUnit::create(4, 3, status);
}
MeasureUnit MeasureUnit::getMilePerGallonImperial() {
return MeasureUnit(4, 3);
}
MeasureUnit *MeasureUnit::createBit(UErrorCode &status) {
return MeasureUnit::create(6, 0, status);
}
MeasureUnit MeasureUnit::getBit() {
return MeasureUnit(6, 0);
}
MeasureUnit *MeasureUnit::createByte(UErrorCode &status) {
return MeasureUnit::create(6, 1, status);
}
MeasureUnit MeasureUnit::getByte() {
return MeasureUnit(6, 1);
}
MeasureUnit *MeasureUnit::createGigabit(UErrorCode &status) {
return MeasureUnit::create(6, 2, status);
}
MeasureUnit MeasureUnit::getGigabit() {
return MeasureUnit(6, 2);
}
MeasureUnit *MeasureUnit::createGigabyte(UErrorCode &status) {
return MeasureUnit::create(6, 3, status);
}
MeasureUnit MeasureUnit::getGigabyte() {
return MeasureUnit(6, 3);
}
MeasureUnit *MeasureUnit::createKilobit(UErrorCode &status) {
return MeasureUnit::create(6, 4, status);
}
MeasureUnit MeasureUnit::getKilobit() {
return MeasureUnit(6, 4);
}
MeasureUnit *MeasureUnit::createKilobyte(UErrorCode &status) {
return MeasureUnit::create(6, 5, status);
}
MeasureUnit MeasureUnit::getKilobyte() {
return MeasureUnit(6, 5);
}
MeasureUnit *MeasureUnit::createMegabit(UErrorCode &status) {
return MeasureUnit::create(6, 6, status);
}
MeasureUnit MeasureUnit::getMegabit() {
return MeasureUnit(6, 6);
}
MeasureUnit *MeasureUnit::createMegabyte(UErrorCode &status) {
return MeasureUnit::create(6, 7, status);
}
MeasureUnit MeasureUnit::getMegabyte() {
return MeasureUnit(6, 7);
}
MeasureUnit *MeasureUnit::createPetabyte(UErrorCode &status) {
return MeasureUnit::create(6, 8, status);
}
MeasureUnit MeasureUnit::getPetabyte() {
return MeasureUnit(6, 8);
}
MeasureUnit *MeasureUnit::createTerabit(UErrorCode &status) {
return MeasureUnit::create(6, 9, status);
}
MeasureUnit MeasureUnit::getTerabit() {
return MeasureUnit(6, 9);
}
MeasureUnit *MeasureUnit::createTerabyte(UErrorCode &status) {
return MeasureUnit::create(6, 10, status);
}
MeasureUnit MeasureUnit::getTerabyte() {
return MeasureUnit(6, 10);
}
MeasureUnit *MeasureUnit::createCentury(UErrorCode &status) {
return MeasureUnit::create(7, 0, status);
}
MeasureUnit MeasureUnit::getCentury() {
return MeasureUnit(7, 0);
}
MeasureUnit *MeasureUnit::createDay(UErrorCode &status) {
return MeasureUnit::create(7, 1, status);
}
MeasureUnit MeasureUnit::getDay() {
return MeasureUnit(7, 1);
}
MeasureUnit *MeasureUnit::createDayPerson(UErrorCode &status) {
return MeasureUnit::create(7, 2, status);
}
MeasureUnit MeasureUnit::getDayPerson() {
return MeasureUnit(7, 2);
}
MeasureUnit *MeasureUnit::createHour(UErrorCode &status) {
return MeasureUnit::create(7, 3, status);
}
MeasureUnit MeasureUnit::getHour() {
return MeasureUnit(7, 3);
}
MeasureUnit *MeasureUnit::createMicrosecond(UErrorCode &status) {
return MeasureUnit::create(7, 4, status);
}
MeasureUnit MeasureUnit::getMicrosecond() {
return MeasureUnit(7, 4);
}
MeasureUnit *MeasureUnit::createMillisecond(UErrorCode &status) {
return MeasureUnit::create(7, 5, status);
}
MeasureUnit MeasureUnit::getMillisecond() {
return MeasureUnit(7, 5);
}
MeasureUnit *MeasureUnit::createMinute(UErrorCode &status) {
return MeasureUnit::create(7, 6, status);
}
MeasureUnit MeasureUnit::getMinute() {
return MeasureUnit(7, 6);
}
MeasureUnit *MeasureUnit::createMonth(UErrorCode &status) {
return MeasureUnit::create(7, 7, status);
}
MeasureUnit MeasureUnit::getMonth() {
return MeasureUnit(7, 7);
}
MeasureUnit *MeasureUnit::createMonthPerson(UErrorCode &status) {
return MeasureUnit::create(7, 8, status);
}
MeasureUnit MeasureUnit::getMonthPerson() {
return MeasureUnit(7, 8);
}
MeasureUnit *MeasureUnit::createNanosecond(UErrorCode &status) {
return MeasureUnit::create(7, 9, status);
}
MeasureUnit MeasureUnit::getNanosecond() {
return MeasureUnit(7, 9);
}
MeasureUnit *MeasureUnit::createSecond(UErrorCode &status) {
return MeasureUnit::create(7, 10, status);
}
MeasureUnit MeasureUnit::getSecond() {
return MeasureUnit(7, 10);
}
MeasureUnit *MeasureUnit::createWeek(UErrorCode &status) {
return MeasureUnit::create(7, 11, status);
}
MeasureUnit MeasureUnit::getWeek() {
return MeasureUnit(7, 11);
}
MeasureUnit *MeasureUnit::createWeekPerson(UErrorCode &status) {
return MeasureUnit::create(7, 12, status);
}
MeasureUnit MeasureUnit::getWeekPerson() {
return MeasureUnit(7, 12);
}
MeasureUnit *MeasureUnit::createYear(UErrorCode &status) {
return MeasureUnit::create(7, 13, status);
}
MeasureUnit MeasureUnit::getYear() {
return MeasureUnit(7, 13);
}
MeasureUnit *MeasureUnit::createYearPerson(UErrorCode &status) {
return MeasureUnit::create(7, 14, status);
}
MeasureUnit MeasureUnit::getYearPerson() {
return MeasureUnit(7, 14);
}
MeasureUnit *MeasureUnit::createAmpere(UErrorCode &status) {
return MeasureUnit::create(8, 0, status);
}
MeasureUnit MeasureUnit::getAmpere() {
return MeasureUnit(8, 0);
}
MeasureUnit *MeasureUnit::createMilliampere(UErrorCode &status) {
return MeasureUnit::create(8, 1, status);
}
MeasureUnit MeasureUnit::getMilliampere() {
return MeasureUnit(8, 1);
}
MeasureUnit *MeasureUnit::createOhm(UErrorCode &status) {
return MeasureUnit::create(8, 2, status);
}
MeasureUnit MeasureUnit::getOhm() {
return MeasureUnit(8, 2);
}
MeasureUnit *MeasureUnit::createVolt(UErrorCode &status) {
return MeasureUnit::create(8, 3, status);
}
MeasureUnit MeasureUnit::getVolt() {
return MeasureUnit(8, 3);
}
MeasureUnit *MeasureUnit::createBritishThermalUnit(UErrorCode &status) {
return MeasureUnit::create(9, 0, status);
}
MeasureUnit MeasureUnit::getBritishThermalUnit() {
return MeasureUnit(9, 0);
}
MeasureUnit *MeasureUnit::createCalorie(UErrorCode &status) {
return MeasureUnit::create(9, 1, status);
}
MeasureUnit MeasureUnit::getCalorie() {
return MeasureUnit(9, 1);
}
MeasureUnit *MeasureUnit::createElectronvolt(UErrorCode &status) {
return MeasureUnit::create(9, 2, status);
}
MeasureUnit MeasureUnit::getElectronvolt() {
return MeasureUnit(9, 2);
}
MeasureUnit *MeasureUnit::createFoodcalorie(UErrorCode &status) {
return MeasureUnit::create(9, 3, status);
}
MeasureUnit MeasureUnit::getFoodcalorie() {
return MeasureUnit(9, 3);
}
MeasureUnit *MeasureUnit::createJoule(UErrorCode &status) {
return MeasureUnit::create(9, 4, status);
}
MeasureUnit MeasureUnit::getJoule() {
return MeasureUnit(9, 4);
}
MeasureUnit *MeasureUnit::createKilocalorie(UErrorCode &status) {
return MeasureUnit::create(9, 5, status);
}
MeasureUnit MeasureUnit::getKilocalorie() {
return MeasureUnit(9, 5);
}
MeasureUnit *MeasureUnit::createKilojoule(UErrorCode &status) {
return MeasureUnit::create(9, 6, status);
}
MeasureUnit MeasureUnit::getKilojoule() {
return MeasureUnit(9, 6);
}
MeasureUnit *MeasureUnit::createKilowattHour(UErrorCode &status) {
return MeasureUnit::create(9, 7, status);
}
MeasureUnit MeasureUnit::getKilowattHour() {
return MeasureUnit(9, 7);
}
MeasureUnit *MeasureUnit::createNewton(UErrorCode &status) {
return MeasureUnit::create(10, 0, status);
}
MeasureUnit MeasureUnit::getNewton() {
return MeasureUnit(10, 0);
}
MeasureUnit *MeasureUnit::createPoundForce(UErrorCode &status) {
return MeasureUnit::create(10, 1, status);
}
MeasureUnit MeasureUnit::getPoundForce() {
return MeasureUnit(10, 1);
}
MeasureUnit *MeasureUnit::createGigahertz(UErrorCode &status) {
return MeasureUnit::create(11, 0, status);
}
MeasureUnit MeasureUnit::getGigahertz() {
return MeasureUnit(11, 0);
}
MeasureUnit *MeasureUnit::createHertz(UErrorCode &status) {
return MeasureUnit::create(11, 1, status);
}
MeasureUnit MeasureUnit::getHertz() {
return MeasureUnit(11, 1);
}
MeasureUnit *MeasureUnit::createKilohertz(UErrorCode &status) {
return MeasureUnit::create(11, 2, status);
}
MeasureUnit MeasureUnit::getKilohertz() {
return MeasureUnit(11, 2);
}
MeasureUnit *MeasureUnit::createMegahertz(UErrorCode &status) {
return MeasureUnit::create(11, 3, status);
}
MeasureUnit MeasureUnit::getMegahertz() {
return MeasureUnit(11, 3);
}
MeasureUnit *MeasureUnit::createAstronomicalUnit(UErrorCode &status) {
return MeasureUnit::create(12, 0, status);
}
MeasureUnit MeasureUnit::getAstronomicalUnit() {
return MeasureUnit(12, 0);
}
MeasureUnit *MeasureUnit::createCentimeter(UErrorCode &status) {
return MeasureUnit::create(12, 1, status);
}
MeasureUnit MeasureUnit::getCentimeter() {
return MeasureUnit(12, 1);
}
MeasureUnit *MeasureUnit::createDecimeter(UErrorCode &status) {
return MeasureUnit::create(12, 2, status);
}
MeasureUnit MeasureUnit::getDecimeter() {
return MeasureUnit(12, 2);
}
MeasureUnit *MeasureUnit::createFathom(UErrorCode &status) {
return MeasureUnit::create(12, 3, status);
}
MeasureUnit MeasureUnit::getFathom() {
return MeasureUnit(12, 3);
}
MeasureUnit *MeasureUnit::createFoot(UErrorCode &status) {
return MeasureUnit::create(12, 4, status);
}
MeasureUnit MeasureUnit::getFoot() {
return MeasureUnit(12, 4);
}
MeasureUnit *MeasureUnit::createFurlong(UErrorCode &status) {
return MeasureUnit::create(12, 5, status);
}
MeasureUnit MeasureUnit::getFurlong() {
return MeasureUnit(12, 5);
}
MeasureUnit *MeasureUnit::createInch(UErrorCode &status) {
return MeasureUnit::create(12, 6, status);
}
MeasureUnit MeasureUnit::getInch() {
return MeasureUnit(12, 6);
}
MeasureUnit *MeasureUnit::createKilometer(UErrorCode &status) {
return MeasureUnit::create(12, 7, status);
}
MeasureUnit MeasureUnit::getKilometer() {
return MeasureUnit(12, 7);
}
MeasureUnit *MeasureUnit::createLightYear(UErrorCode &status) {
return MeasureUnit::create(12, 8, status);
}
MeasureUnit MeasureUnit::getLightYear() {
return MeasureUnit(12, 8);
}
MeasureUnit *MeasureUnit::createMeter(UErrorCode &status) {
return MeasureUnit::create(12, 9, status);
}
MeasureUnit MeasureUnit::getMeter() {
return MeasureUnit(12, 9);
}
MeasureUnit *MeasureUnit::createMicrometer(UErrorCode &status) {
return MeasureUnit::create(12, 10, status);
}
MeasureUnit MeasureUnit::getMicrometer() {
return MeasureUnit(12, 10);
}
MeasureUnit *MeasureUnit::createMile(UErrorCode &status) {
return MeasureUnit::create(12, 11, status);
}
MeasureUnit MeasureUnit::getMile() {
return MeasureUnit(12, 11);
}
MeasureUnit *MeasureUnit::createMileScandinavian(UErrorCode &status) {
return MeasureUnit::create(12, 12, status);
}
MeasureUnit MeasureUnit::getMileScandinavian() {
return MeasureUnit(12, 12);
}
MeasureUnit *MeasureUnit::createMillimeter(UErrorCode &status) {
return MeasureUnit::create(12, 13, status);
}
MeasureUnit MeasureUnit::getMillimeter() {
return MeasureUnit(12, 13);
}
MeasureUnit *MeasureUnit::createNanometer(UErrorCode &status) {
return MeasureUnit::create(12, 14, status);
}
MeasureUnit MeasureUnit::getNanometer() {
return MeasureUnit(12, 14);
}
MeasureUnit *MeasureUnit::createNauticalMile(UErrorCode &status) {
return MeasureUnit::create(12, 15, status);
}
MeasureUnit MeasureUnit::getNauticalMile() {
return MeasureUnit(12, 15);
}
MeasureUnit *MeasureUnit::createParsec(UErrorCode &status) {
return MeasureUnit::create(12, 16, status);
}
MeasureUnit MeasureUnit::getParsec() {
return MeasureUnit(12, 16);
}
MeasureUnit *MeasureUnit::createPicometer(UErrorCode &status) {
return MeasureUnit::create(12, 17, status);
}
MeasureUnit MeasureUnit::getPicometer() {
return MeasureUnit(12, 17);
}
MeasureUnit *MeasureUnit::createPoint(UErrorCode &status) {
return MeasureUnit::create(12, 18, status);
}
MeasureUnit MeasureUnit::getPoint() {
return MeasureUnit(12, 18);
}
MeasureUnit *MeasureUnit::createSolarRadius(UErrorCode &status) {
return MeasureUnit::create(12, 19, status);
}
MeasureUnit MeasureUnit::getSolarRadius() {
return MeasureUnit(12, 19);
}
MeasureUnit *MeasureUnit::createYard(UErrorCode &status) {
return MeasureUnit::create(12, 20, status);
}
MeasureUnit MeasureUnit::getYard() {
return MeasureUnit(12, 20);
}
MeasureUnit *MeasureUnit::createLux(UErrorCode &status) {
return MeasureUnit::create(13, 0, status);
}
MeasureUnit MeasureUnit::getLux() {
return MeasureUnit(13, 0);
}
MeasureUnit *MeasureUnit::createSolarLuminosity(UErrorCode &status) {
return MeasureUnit::create(13, 1, status);
}
MeasureUnit MeasureUnit::getSolarLuminosity() {
return MeasureUnit(13, 1);
}
MeasureUnit *MeasureUnit::createCarat(UErrorCode &status) {
return MeasureUnit::create(14, 0, status);
}
MeasureUnit MeasureUnit::getCarat() {
return MeasureUnit(14, 0);
}
MeasureUnit *MeasureUnit::createDalton(UErrorCode &status) {
return MeasureUnit::create(14, 1, status);
}
MeasureUnit MeasureUnit::getDalton() {
return MeasureUnit(14, 1);
}
MeasureUnit *MeasureUnit::createEarthMass(UErrorCode &status) {
return MeasureUnit::create(14, 2, status);
}
MeasureUnit MeasureUnit::getEarthMass() {
return MeasureUnit(14, 2);
}
MeasureUnit *MeasureUnit::createGram(UErrorCode &status) {
return MeasureUnit::create(14, 3, status);
}
MeasureUnit MeasureUnit::getGram() {
return MeasureUnit(14, 3);
}
MeasureUnit *MeasureUnit::createKilogram(UErrorCode &status) {
return MeasureUnit::create(14, 4, status);
}
MeasureUnit MeasureUnit::getKilogram() {
return MeasureUnit(14, 4);
}
MeasureUnit *MeasureUnit::createMetricTon(UErrorCode &status) {
return MeasureUnit::create(14, 5, status);
}
MeasureUnit MeasureUnit::getMetricTon() {
return MeasureUnit(14, 5);
}
MeasureUnit *MeasureUnit::createMicrogram(UErrorCode &status) {
return MeasureUnit::create(14, 6, status);
}
MeasureUnit MeasureUnit::getMicrogram() {
return MeasureUnit(14, 6);
}
MeasureUnit *MeasureUnit::createMilligram(UErrorCode &status) {
return MeasureUnit::create(14, 7, status);
}
MeasureUnit MeasureUnit::getMilligram() {
return MeasureUnit(14, 7);
}
MeasureUnit *MeasureUnit::createOunce(UErrorCode &status) {
return MeasureUnit::create(14, 8, status);
}
MeasureUnit MeasureUnit::getOunce() {
return MeasureUnit(14, 8);
}
MeasureUnit *MeasureUnit::createOunceTroy(UErrorCode &status) {
return MeasureUnit::create(14, 9, status);
}
MeasureUnit MeasureUnit::getOunceTroy() {
return MeasureUnit(14, 9);
}
MeasureUnit *MeasureUnit::createPound(UErrorCode &status) {
return MeasureUnit::create(14, 10, status);
}
MeasureUnit MeasureUnit::getPound() {
return MeasureUnit(14, 10);
}
MeasureUnit *MeasureUnit::createSolarMass(UErrorCode &status) {
return MeasureUnit::create(14, 11, status);
}
MeasureUnit MeasureUnit::getSolarMass() {
return MeasureUnit(14, 11);
}
MeasureUnit *MeasureUnit::createStone(UErrorCode &status) {
return MeasureUnit::create(14, 12, status);
}
MeasureUnit MeasureUnit::getStone() {
return MeasureUnit(14, 12);
}
MeasureUnit *MeasureUnit::createTon(UErrorCode &status) {
return MeasureUnit::create(14, 13, status);
}
MeasureUnit MeasureUnit::getTon() {
return MeasureUnit(14, 13);
}
MeasureUnit *MeasureUnit::createGigawatt(UErrorCode &status) {
return MeasureUnit::create(16, 0, status);
}
MeasureUnit MeasureUnit::getGigawatt() {
return MeasureUnit(16, 0);
}
MeasureUnit *MeasureUnit::createHorsepower(UErrorCode &status) {
return MeasureUnit::create(16, 1, status);
}
MeasureUnit MeasureUnit::getHorsepower() {
return MeasureUnit(16, 1);
}
MeasureUnit *MeasureUnit::createKilowatt(UErrorCode &status) {
return MeasureUnit::create(16, 2, status);
}
MeasureUnit MeasureUnit::getKilowatt() {
return MeasureUnit(16, 2);
}
MeasureUnit *MeasureUnit::createMegawatt(UErrorCode &status) {
return MeasureUnit::create(16, 3, status);
}
MeasureUnit MeasureUnit::getMegawatt() {
return MeasureUnit(16, 3);
}
MeasureUnit *MeasureUnit::createMilliwatt(UErrorCode &status) {
return MeasureUnit::create(16, 4, status);
}
MeasureUnit MeasureUnit::getMilliwatt() {
return MeasureUnit(16, 4);
}
MeasureUnit *MeasureUnit::createWatt(UErrorCode &status) {
return MeasureUnit::create(16, 5, status);
}
MeasureUnit MeasureUnit::getWatt() {
return MeasureUnit(16, 5);
}
MeasureUnit *MeasureUnit::createAtmosphere(UErrorCode &status) {
return MeasureUnit::create(17, 0, status);
}
MeasureUnit MeasureUnit::getAtmosphere() {
return MeasureUnit(17, 0);
}
MeasureUnit *MeasureUnit::createHectopascal(UErrorCode &status) {
return MeasureUnit::create(17, 1, status);
}
MeasureUnit MeasureUnit::getHectopascal() {
return MeasureUnit(17, 1);
}
MeasureUnit *MeasureUnit::createInchHg(UErrorCode &status) {
return MeasureUnit::create(17, 2, status);
}
MeasureUnit MeasureUnit::getInchHg() {
return MeasureUnit(17, 2);
}
MeasureUnit *MeasureUnit::createKilopascal(UErrorCode &status) {
return MeasureUnit::create(17, 3, status);
}
MeasureUnit MeasureUnit::getKilopascal() {
return MeasureUnit(17, 3);
}
MeasureUnit *MeasureUnit::createMegapascal(UErrorCode &status) {
return MeasureUnit::create(17, 4, status);
}
MeasureUnit MeasureUnit::getMegapascal() {
return MeasureUnit(17, 4);
}
MeasureUnit *MeasureUnit::createMillibar(UErrorCode &status) {
return MeasureUnit::create(17, 5, status);
}
MeasureUnit MeasureUnit::getMillibar() {
return MeasureUnit(17, 5);
}
MeasureUnit *MeasureUnit::createMillimeterOfMercury(UErrorCode &status) {
return MeasureUnit::create(17, 6, status);
}
MeasureUnit MeasureUnit::getMillimeterOfMercury() {
return MeasureUnit(17, 6);
}
MeasureUnit *MeasureUnit::createPoundPerSquareInch(UErrorCode &status) {
return MeasureUnit::create(17, 7, status);
}
MeasureUnit MeasureUnit::getPoundPerSquareInch() {
return MeasureUnit(17, 7);
}
MeasureUnit *MeasureUnit::createKilometerPerHour(UErrorCode &status) {
return MeasureUnit::create(18, 0, status);
}
MeasureUnit MeasureUnit::getKilometerPerHour() {
return MeasureUnit(18, 0);
}
MeasureUnit *MeasureUnit::createKnot(UErrorCode &status) {
return MeasureUnit::create(18, 1, status);
}
MeasureUnit MeasureUnit::getKnot() {
return MeasureUnit(18, 1);
}
MeasureUnit *MeasureUnit::createMeterPerSecond(UErrorCode &status) {
return MeasureUnit::create(18, 2, status);
}
MeasureUnit MeasureUnit::getMeterPerSecond() {
return MeasureUnit(18, 2);
}
MeasureUnit *MeasureUnit::createMilePerHour(UErrorCode &status) {
return MeasureUnit::create(18, 3, status);
}
MeasureUnit MeasureUnit::getMilePerHour() {
return MeasureUnit(18, 3);
}
MeasureUnit *MeasureUnit::createCelsius(UErrorCode &status) {
return MeasureUnit::create(19, 0, status);
}
MeasureUnit MeasureUnit::getCelsius() {
return MeasureUnit(19, 0);
}
MeasureUnit *MeasureUnit::createFahrenheit(UErrorCode &status) {
return MeasureUnit::create(19, 1, status);
}
MeasureUnit MeasureUnit::getFahrenheit() {
return MeasureUnit(19, 1);
}
MeasureUnit *MeasureUnit::createGenericTemperature(UErrorCode &status) {
return MeasureUnit::create(19, 2, status);
}
MeasureUnit MeasureUnit::getGenericTemperature() {
return MeasureUnit(19, 2);
}
MeasureUnit *MeasureUnit::createKelvin(UErrorCode &status) {
return MeasureUnit::create(19, 3, status);
}
MeasureUnit MeasureUnit::getKelvin() {
return MeasureUnit(19, 3);
}
MeasureUnit *MeasureUnit::createNewtonMeter(UErrorCode &status) {
return MeasureUnit::create(20, 0, status);
}
MeasureUnit MeasureUnit::getNewtonMeter() {
return MeasureUnit(20, 0);
}
MeasureUnit *MeasureUnit::createPoundFoot(UErrorCode &status) {
return MeasureUnit::create(20, 1, status);
}
MeasureUnit MeasureUnit::getPoundFoot() {
return MeasureUnit(20, 1);
}
MeasureUnit *MeasureUnit::createAcreFoot(UErrorCode &status) {
return MeasureUnit::create(21, 0, status);
}
MeasureUnit MeasureUnit::getAcreFoot() {
return MeasureUnit(21, 0);
}
MeasureUnit *MeasureUnit::createBarrel(UErrorCode &status) {
return MeasureUnit::create(21, 1, status);
}
MeasureUnit MeasureUnit::getBarrel() {
return MeasureUnit(21, 1);
}
MeasureUnit *MeasureUnit::createBushel(UErrorCode &status) {
return MeasureUnit::create(21, 2, status);
}
MeasureUnit MeasureUnit::getBushel() {
return MeasureUnit(21, 2);
}
MeasureUnit *MeasureUnit::createCentiliter(UErrorCode &status) {
return MeasureUnit::create(21, 3, status);
}
MeasureUnit MeasureUnit::getCentiliter() {
return MeasureUnit(21, 3);
}
MeasureUnit *MeasureUnit::createCubicCentimeter(UErrorCode &status) {
return MeasureUnit::create(21, 4, status);
}
MeasureUnit MeasureUnit::getCubicCentimeter() {
return MeasureUnit(21, 4);
}
MeasureUnit *MeasureUnit::createCubicFoot(UErrorCode &status) {
return MeasureUnit::create(21, 5, status);
}
MeasureUnit MeasureUnit::getCubicFoot() {
return MeasureUnit(21, 5);
}
MeasureUnit *MeasureUnit::createCubicInch(UErrorCode &status) {
return MeasureUnit::create(21, 6, status);
}
MeasureUnit MeasureUnit::getCubicInch() {
return MeasureUnit(21, 6);
}
MeasureUnit *MeasureUnit::createCubicKilometer(UErrorCode &status) {
return MeasureUnit::create(21, 7, status);
}
MeasureUnit MeasureUnit::getCubicKilometer() {
return MeasureUnit(21, 7);
}
MeasureUnit *MeasureUnit::createCubicMeter(UErrorCode &status) {
return MeasureUnit::create(21, 8, status);
}
MeasureUnit MeasureUnit::getCubicMeter() {
return MeasureUnit(21, 8);
}
MeasureUnit *MeasureUnit::createCubicMile(UErrorCode &status) {
return MeasureUnit::create(21, 9, status);
}
MeasureUnit MeasureUnit::getCubicMile() {
return MeasureUnit(21, 9);
}
MeasureUnit *MeasureUnit::createCubicYard(UErrorCode &status) {
return MeasureUnit::create(21, 10, status);
}
MeasureUnit MeasureUnit::getCubicYard() {
return MeasureUnit(21, 10);
}
MeasureUnit *MeasureUnit::createCup(UErrorCode &status) {
return MeasureUnit::create(21, 11, status);
}
MeasureUnit MeasureUnit::getCup() {
return MeasureUnit(21, 11);
}
MeasureUnit *MeasureUnit::createCupMetric(UErrorCode &status) {
return MeasureUnit::create(21, 12, status);
}
MeasureUnit MeasureUnit::getCupMetric() {
return MeasureUnit(21, 12);
}
MeasureUnit *MeasureUnit::createDeciliter(UErrorCode &status) {
return MeasureUnit::create(21, 13, status);
}
MeasureUnit MeasureUnit::getDeciliter() {
return MeasureUnit(21, 13);
}
MeasureUnit *MeasureUnit::createFluidOunce(UErrorCode &status) {
return MeasureUnit::create(21, 14, status);
}
MeasureUnit MeasureUnit::getFluidOunce() {
return MeasureUnit(21, 14);
}
MeasureUnit *MeasureUnit::createFluidOunceImperial(UErrorCode &status) {
return MeasureUnit::create(21, 15, status);
}
MeasureUnit MeasureUnit::getFluidOunceImperial() {
return MeasureUnit(21, 15);
}
MeasureUnit *MeasureUnit::createGallon(UErrorCode &status) {
return MeasureUnit::create(21, 16, status);
}
MeasureUnit MeasureUnit::getGallon() {
return MeasureUnit(21, 16);
}
MeasureUnit *MeasureUnit::createGallonImperial(UErrorCode &status) {
return MeasureUnit::create(21, 17, status);
}
MeasureUnit MeasureUnit::getGallonImperial() {
return MeasureUnit(21, 17);
}
MeasureUnit *MeasureUnit::createHectoliter(UErrorCode &status) {
return MeasureUnit::create(21, 18, status);
}
MeasureUnit MeasureUnit::getHectoliter() {
return MeasureUnit(21, 18);
}
MeasureUnit *MeasureUnit::createLiter(UErrorCode &status) {
return MeasureUnit::create(21, 19, status);
}
MeasureUnit MeasureUnit::getLiter() {
return MeasureUnit(21, 19);
}
MeasureUnit *MeasureUnit::createMegaliter(UErrorCode &status) {
return MeasureUnit::create(21, 20, status);
}
MeasureUnit MeasureUnit::getMegaliter() {
return MeasureUnit(21, 20);
}
MeasureUnit *MeasureUnit::createMilliliter(UErrorCode &status) {
return MeasureUnit::create(21, 21, status);
}
MeasureUnit MeasureUnit::getMilliliter() {
return MeasureUnit(21, 21);
}
MeasureUnit *MeasureUnit::createPint(UErrorCode &status) {
return MeasureUnit::create(21, 22, status);
}
MeasureUnit MeasureUnit::getPint() {
return MeasureUnit(21, 22);
}
MeasureUnit *MeasureUnit::createPintMetric(UErrorCode &status) {
return MeasureUnit::create(21, 23, status);
}
MeasureUnit MeasureUnit::getPintMetric() {
return MeasureUnit(21, 23);
}
MeasureUnit *MeasureUnit::createQuart(UErrorCode &status) {
return MeasureUnit::create(21, 24, status);
}
MeasureUnit MeasureUnit::getQuart() {
return MeasureUnit(21, 24);
}
MeasureUnit *MeasureUnit::createTablespoon(UErrorCode &status) {
return MeasureUnit::create(21, 25, status);
}
MeasureUnit MeasureUnit::getTablespoon() {
return MeasureUnit(21, 25);
}
MeasureUnit *MeasureUnit::createTeaspoon(UErrorCode &status) {
return MeasureUnit::create(21, 26, status);
}
MeasureUnit MeasureUnit::getTeaspoon() {
return MeasureUnit(21, 26);
}
// End generated code
static int32_t binarySearch(
const char * const * array, int32_t start, int32_t end, const char * key) {
while (start < end) {
int32_t mid = (start + end) / 2;
int32_t cmp = uprv_strcmp(array[mid], key);
if (cmp < 0) {
start = mid + 1;
continue;
}
if (cmp == 0) {
return mid;
}
end = mid;
}
return -1;
}
MeasureUnit::MeasureUnit() {
fCurrency[0] = 0;
fTypeId = kBaseTypeIdx;
fSubTypeId = kBaseSubTypeIdx;
}
MeasureUnit::MeasureUnit(const MeasureUnit &other)
: fTypeId(other.fTypeId), fSubTypeId(other.fSubTypeId) {
uprv_strcpy(fCurrency, other.fCurrency);
}
MeasureUnit &MeasureUnit::operator=(const MeasureUnit &other) {
if (this == &other) {
return *this;
}
fTypeId = other.fTypeId;
fSubTypeId = other.fSubTypeId;
uprv_strcpy(fCurrency, other.fCurrency);
return *this;
}
UObject *MeasureUnit::clone() const {
return new MeasureUnit(*this);
}
MeasureUnit::~MeasureUnit() {
}
const char *MeasureUnit::getType() const {
return gTypes[fTypeId];
}
const char *MeasureUnit::getSubtype() const {
return fCurrency[0] == 0 ? gSubTypes[getOffset()] : fCurrency;
}
UBool MeasureUnit::operator==(const UObject& other) const {
if (this == &other) { // Same object, equal
return TRUE;
}
if (typeid(*this) != typeid(other)) { // Different types, not equal
return FALSE;
}
const MeasureUnit &rhs = static_cast<const MeasureUnit&>(other);
return (
fTypeId == rhs.fTypeId
&& fSubTypeId == rhs.fSubTypeId
&& uprv_strcmp(fCurrency, rhs.fCurrency) == 0);
}
int32_t MeasureUnit::getIndex() const {
return gIndexes[fTypeId] + fSubTypeId;
}
int32_t MeasureUnit::getAvailable(
MeasureUnit *dest,
int32_t destCapacity,
UErrorCode &errorCode) {
if (U_FAILURE(errorCode)) {
return 0;
}
if (destCapacity < UPRV_LENGTHOF(gSubTypes)) {
errorCode = U_BUFFER_OVERFLOW_ERROR;
return UPRV_LENGTHOF(gSubTypes);
}
int32_t idx = 0;
for (int32_t typeIdx = 0; typeIdx < UPRV_LENGTHOF(gTypes); ++typeIdx) {
int32_t len = gOffsets[typeIdx + 1] - gOffsets[typeIdx];
for (int32_t subTypeIdx = 0; subTypeIdx < len; ++subTypeIdx) {
dest[idx].setTo(typeIdx, subTypeIdx);
++idx;
}
}
U_ASSERT(idx == UPRV_LENGTHOF(gSubTypes));
return UPRV_LENGTHOF(gSubTypes);
}
int32_t MeasureUnit::getAvailable(
const char *type,
MeasureUnit *dest,
int32_t destCapacity,
UErrorCode &errorCode) {
if (U_FAILURE(errorCode)) {
return 0;
}
int32_t typeIdx = binarySearch(gTypes, 0, UPRV_LENGTHOF(gTypes), type);
if (typeIdx == -1) {
return 0;
}
int32_t len = gOffsets[typeIdx + 1] - gOffsets[typeIdx];
if (destCapacity < len) {
errorCode = U_BUFFER_OVERFLOW_ERROR;
return len;
}
for (int subTypeIdx = 0; subTypeIdx < len; ++subTypeIdx) {
dest[subTypeIdx].setTo(typeIdx, subTypeIdx);
}
return len;
}
StringEnumeration* MeasureUnit::getAvailableTypes(UErrorCode &errorCode) {
UEnumeration *uenum = uenum_openCharStringsEnumeration(
gTypes, UPRV_LENGTHOF(gTypes), &errorCode);
if (U_FAILURE(errorCode)) {
uenum_close(uenum);
return NULL;
}
StringEnumeration *result = new UStringEnumeration(uenum);
if (result == NULL) {
errorCode = U_MEMORY_ALLOCATION_ERROR;
uenum_close(uenum);
return NULL;
}
return result;
}
int32_t MeasureUnit::getIndexCount() {
return gIndexes[UPRV_LENGTHOF(gIndexes) - 1];
}
int32_t MeasureUnit::internalGetIndexForTypeAndSubtype(const char *type, const char *subtype) {
int32_t t = binarySearch(gTypes, 0, UPRV_LENGTHOF(gTypes), type);
if (t < 0) {
return t;
}
int32_t st = binarySearch(gSubTypes, gOffsets[t], gOffsets[t + 1], subtype);
if (st < 0) {
return st;
}
return gIndexes[t] + st - gOffsets[t];
}
MeasureUnit MeasureUnit::resolveUnitPerUnit(
const MeasureUnit &unit, const MeasureUnit &perUnit, bool* isResolved) {
int32_t unitOffset = unit.getOffset();
int32_t perUnitOffset = perUnit.getOffset();
// binary search for (unitOffset, perUnitOffset)
int32_t start = 0;
int32_t end = UPRV_LENGTHOF(unitPerUnitToSingleUnit);
while (start < end) {
int32_t mid = (start + end) / 2;
int32_t *midRow = unitPerUnitToSingleUnit[mid];
if (unitOffset < midRow[0]) {
end = mid;
} else if (unitOffset > midRow[0]) {
start = mid + 1;
} else if (perUnitOffset < midRow[1]) {
end = mid;
} else if (perUnitOffset > midRow[1]) {
start = mid + 1;
} else {
// We found a resolution for our unit / per-unit combo
// return it.
*isResolved = true;
return MeasureUnit(midRow[2], midRow[3]);
}
}
*isResolved = false;
return MeasureUnit();
}
MeasureUnit *MeasureUnit::create(int typeId, int subTypeId, UErrorCode &status) {
if (U_FAILURE(status)) {
return NULL;
}
MeasureUnit *result = new MeasureUnit(typeId, subTypeId);
if (result == NULL) {
status = U_MEMORY_ALLOCATION_ERROR;
}
return result;
}
void MeasureUnit::initTime(const char *timeId) {
int32_t result = binarySearch(gTypes, 0, UPRV_LENGTHOF(gTypes), "duration");
U_ASSERT(result != -1);
fTypeId = result;
result = binarySearch(gSubTypes, gOffsets[fTypeId], gOffsets[fTypeId + 1], timeId);
U_ASSERT(result != -1);
fSubTypeId = result - gOffsets[fTypeId];
}
void MeasureUnit::initCurrency(const char *isoCurrency) {
int32_t result = binarySearch(gTypes, 0, UPRV_LENGTHOF(gTypes), "currency");
U_ASSERT(result != -1);
fTypeId = result;
result = binarySearch(
gSubTypes, gOffsets[fTypeId], gOffsets[fTypeId + 1], isoCurrency);
if (result != -1) {
fSubTypeId = result - gOffsets[fTypeId];
} else {
uprv_strncpy(fCurrency, isoCurrency, UPRV_LENGTHOF(fCurrency));
fCurrency[3] = 0;
}
}
void MeasureUnit::initNoUnit(const char *subtype) {
int32_t result = binarySearch(gTypes, 0, UPRV_LENGTHOF(gTypes), "none");
U_ASSERT(result != -1);
fTypeId = result;
result = binarySearch(gSubTypes, gOffsets[fTypeId], gOffsets[fTypeId + 1], subtype);
U_ASSERT(result != -1);
fSubTypeId = result - gOffsets[fTypeId];
}
void MeasureUnit::setTo(int32_t typeId, int32_t subTypeId) {
fTypeId = typeId;
fSubTypeId = subTypeId;
fCurrency[0] = 0;
}
int32_t MeasureUnit::getOffset() const {
return gOffsets[fTypeId] + fSubTypeId;
}
U_NAMESPACE_END
#endif /* !UNCONFIG_NO_FORMATTING */