c8d0e34905
X-SVN-Rev: 40886
393 lines
13 KiB
C++
393 lines
13 KiB
C++
// © 2017 and later: Unicode, Inc. and others.
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// License & terms of use: http://www.unicode.org/copyright.html
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#include "unicode/utypes.h"
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#if !UCONFIG_NO_FORMATTING && !UPRV_INCOMPLETE_CPP11_SUPPORT
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#include "uassert.h"
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#include "unicode/numberformatter.h"
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#include "number_decimalquantity.h"
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#include "number_formatimpl.h"
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#include "umutex.h"
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using namespace icu;
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using namespace icu::number;
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using namespace icu::number::impl;
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template<typename Derived>
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Derived NumberFormatterSettings<Derived>::notation(const Notation ¬ation) const {
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Derived copy(*this);
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// NOTE: Slicing is OK.
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copy.fMacros.notation = notation;
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return copy;
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}
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template<typename Derived>
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Derived NumberFormatterSettings<Derived>::unit(const icu::MeasureUnit &unit) const {
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Derived copy(*this);
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// NOTE: Slicing occurs here. However, CurrencyUnit can be restored from MeasureUnit.
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// TimeUnit may be affected, but TimeUnit is not as relevant to number formatting.
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copy.fMacros.unit = unit;
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return copy;
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}
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template<typename Derived>
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Derived NumberFormatterSettings<Derived>::adoptUnit(icu::MeasureUnit *unit) const {
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Derived copy(*this);
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// Just copy the unit into the MacroProps by value, and delete it since we have ownership.
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// NOTE: Slicing occurs here. However, CurrencyUnit can be restored from MeasureUnit.
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// TimeUnit may be affected, but TimeUnit is not as relevant to number formatting.
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if (unit != nullptr) {
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// TODO: On nullptr, reset to default value?
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copy.fMacros.unit = *unit;
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delete unit;
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}
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return copy;
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}
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template<typename Derived>
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Derived NumberFormatterSettings<Derived>::perUnit(const icu::MeasureUnit &perUnit) const {
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Derived copy(*this);
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// See comments above about slicing.
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copy.fMacros.perUnit = perUnit;
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return copy;
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}
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template<typename Derived>
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Derived NumberFormatterSettings<Derived>::adoptPerUnit(icu::MeasureUnit *perUnit) const {
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Derived copy(*this);
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// See comments above about slicing and ownership.
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if (perUnit != nullptr) {
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// TODO: On nullptr, reset to default value?
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copy.fMacros.perUnit = *perUnit;
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delete perUnit;
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}
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return copy;
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}
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template<typename Derived>
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Derived NumberFormatterSettings<Derived>::rounding(const Rounder &rounder) const {
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Derived copy(*this);
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// NOTE: Slicing is OK.
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copy.fMacros.rounder = rounder;
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return copy;
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}
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template<typename Derived>
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Derived NumberFormatterSettings<Derived>::grouping(const UGroupingStrategy &strategy) const {
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Derived copy(*this);
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// NOTE: This is slightly different than how the setting is stored in Java
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// because we want to put it on the stack.
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copy.fMacros.grouper = Grouper::forStrategy(strategy);
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return copy;
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}
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template<typename Derived>
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Derived NumberFormatterSettings<Derived>::integerWidth(const IntegerWidth &style) const {
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Derived copy(*this);
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copy.fMacros.integerWidth = style;
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return copy;
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}
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template<typename Derived>
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Derived NumberFormatterSettings<Derived>::symbols(const DecimalFormatSymbols &symbols) const {
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Derived copy(*this);
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copy.fMacros.symbols.setTo(symbols);
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return copy;
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}
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template<typename Derived>
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Derived NumberFormatterSettings<Derived>::adoptSymbols(NumberingSystem *ns) const {
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Derived copy(*this);
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copy.fMacros.symbols.setTo(ns);
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return copy;
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}
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template<typename Derived>
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Derived NumberFormatterSettings<Derived>::unitWidth(const UNumberUnitWidth &width) const {
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Derived copy(*this);
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copy.fMacros.unitWidth = width;
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return copy;
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}
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template<typename Derived>
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Derived NumberFormatterSettings<Derived>::sign(const UNumberSignDisplay &style) const {
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Derived copy(*this);
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copy.fMacros.sign = style;
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return copy;
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}
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template<typename Derived>
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Derived NumberFormatterSettings<Derived>::decimal(const UNumberDecimalSeparatorDisplay &style) const {
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Derived copy(*this);
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copy.fMacros.decimal = style;
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return copy;
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}
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template<typename Derived>
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Derived NumberFormatterSettings<Derived>::padding(const Padder &padder) const {
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Derived copy(*this);
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copy.fMacros.padder = padder;
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return copy;
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}
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template<typename Derived>
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Derived NumberFormatterSettings<Derived>::threshold(int32_t threshold) const {
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Derived copy(*this);
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copy.fMacros.threshold = threshold;
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return copy;
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}
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// Declare all classes that implement NumberFormatterSettings
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// See https://stackoverflow.com/a/495056/1407170
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template
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class icu::number::NumberFormatterSettings<icu::number::UnlocalizedNumberFormatter>;
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template
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class icu::number::NumberFormatterSettings<icu::number::LocalizedNumberFormatter>;
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UnlocalizedNumberFormatter NumberFormatter::with() {
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UnlocalizedNumberFormatter result;
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return result;
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}
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LocalizedNumberFormatter NumberFormatter::withLocale(const Locale &locale) {
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return with().locale(locale);
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}
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// Make the child class constructor that takes the parent class call the parent class's copy constructor
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UnlocalizedNumberFormatter::UnlocalizedNumberFormatter(
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const NumberFormatterSettings <UnlocalizedNumberFormatter> &other)
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: NumberFormatterSettings<UnlocalizedNumberFormatter>(other) {
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}
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// Make the child class constructor that takes the parent class call the parent class's copy constructor
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// For LocalizedNumberFormatter, also copy over the extra fields
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LocalizedNumberFormatter::LocalizedNumberFormatter(
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const NumberFormatterSettings <LocalizedNumberFormatter> &other)
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: NumberFormatterSettings<LocalizedNumberFormatter>(other) {
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// No additional copies required
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}
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LocalizedNumberFormatter::LocalizedNumberFormatter(const MacroProps ¯os, const Locale &locale) {
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fMacros = macros;
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fMacros.locale = locale;
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}
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LocalizedNumberFormatter UnlocalizedNumberFormatter::locale(const Locale &locale) const {
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return LocalizedNumberFormatter(fMacros, locale);
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}
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SymbolsWrapper::SymbolsWrapper(const SymbolsWrapper &other) {
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doCopyFrom(other);
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}
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SymbolsWrapper &SymbolsWrapper::operator=(const SymbolsWrapper &other) {
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if (this == &other) {
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return *this;
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}
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doCleanup();
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doCopyFrom(other);
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return *this;
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}
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SymbolsWrapper::~SymbolsWrapper() {
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doCleanup();
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}
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void SymbolsWrapper::setTo(const DecimalFormatSymbols &dfs) {
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doCleanup();
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fType = SYMPTR_DFS;
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fPtr.dfs = new DecimalFormatSymbols(dfs);
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}
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void SymbolsWrapper::setTo(const NumberingSystem *ns) {
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doCleanup();
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fType = SYMPTR_NS;
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fPtr.ns = ns;
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}
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void SymbolsWrapper::doCopyFrom(const SymbolsWrapper &other) {
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fType = other.fType;
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switch (fType) {
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case SYMPTR_NONE:
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// No action necessary
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break;
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case SYMPTR_DFS:
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// Memory allocation failures are exposed in copyErrorTo()
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if (other.fPtr.dfs != nullptr) {
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fPtr.dfs = new DecimalFormatSymbols(*other.fPtr.dfs);
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} else {
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fPtr.dfs = nullptr;
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}
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break;
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case SYMPTR_NS:
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// Memory allocation failures are exposed in copyErrorTo()
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if (other.fPtr.ns != nullptr) {
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fPtr.ns = new NumberingSystem(*other.fPtr.ns);
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} else {
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fPtr.ns = nullptr;
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}
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break;
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}
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}
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void SymbolsWrapper::doCleanup() {
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switch (fType) {
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case SYMPTR_NONE:
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// No action necessary
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break;
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case SYMPTR_DFS:
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delete fPtr.dfs;
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break;
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case SYMPTR_NS:
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delete fPtr.ns;
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break;
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}
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}
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bool SymbolsWrapper::isDecimalFormatSymbols() const {
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return fType == SYMPTR_DFS;
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}
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bool SymbolsWrapper::isNumberingSystem() const {
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return fType == SYMPTR_NS;
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}
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const DecimalFormatSymbols* SymbolsWrapper::getDecimalFormatSymbols() const {
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U_ASSERT(fType == SYMPTR_DFS);
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return fPtr.dfs;
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}
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const NumberingSystem* SymbolsWrapper::getNumberingSystem() const {
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U_ASSERT(fType == SYMPTR_NS);
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return fPtr.ns;
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}
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LocalizedNumberFormatter::~LocalizedNumberFormatter() {
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delete fCompiled;
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}
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FormattedNumber LocalizedNumberFormatter::formatInt(int64_t value, UErrorCode &status) const {
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if (U_FAILURE(status)) { return FormattedNumber(U_ILLEGAL_ARGUMENT_ERROR); }
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auto results = new NumberFormatterResults();
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if (results == nullptr) {
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status = U_MEMORY_ALLOCATION_ERROR;
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return FormattedNumber(status);
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}
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results->quantity.setToLong(value);
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return formatImpl(results, status);
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}
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FormattedNumber LocalizedNumberFormatter::formatDouble(double value, UErrorCode &status) const {
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if (U_FAILURE(status)) { return FormattedNumber(U_ILLEGAL_ARGUMENT_ERROR); }
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auto results = new NumberFormatterResults();
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if (results == nullptr) {
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status = U_MEMORY_ALLOCATION_ERROR;
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return FormattedNumber(status);
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}
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results->quantity.setToDouble(value);
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return formatImpl(results, status);
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}
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FormattedNumber LocalizedNumberFormatter::formatDecimal(StringPiece value, UErrorCode &status) const {
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if (U_FAILURE(status)) { return FormattedNumber(U_ILLEGAL_ARGUMENT_ERROR); }
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auto results = new NumberFormatterResults();
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if (results == nullptr) {
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status = U_MEMORY_ALLOCATION_ERROR;
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return FormattedNumber(status);
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}
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results->quantity.setToDecNumber(value);
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return formatImpl(results, status);
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}
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FormattedNumber
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LocalizedNumberFormatter::formatImpl(impl::NumberFormatterResults *results, UErrorCode &status) const {
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// fUnsafeCallCount contains memory to be interpreted as an atomic int, most commonly
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// std::atomic<int32_t>. Since the type of atomic int is platform-dependent, we cast the
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// bytes in fUnsafeCallCount to u_atomic_int32_t, a typedef for the platform-dependent
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// atomic int type defined in umutex.h.
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static_assert(sizeof(u_atomic_int32_t) <= sizeof(fUnsafeCallCount),
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"Atomic integer size on this platform exceeds the size allocated by fUnsafeCallCount");
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u_atomic_int32_t* callCount = reinterpret_cast<u_atomic_int32_t*>(
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const_cast<LocalizedNumberFormatter*>(this)->fUnsafeCallCount);
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// A positive value in the atomic int indicates that the data structure is not yet ready;
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// a negative value indicates that it is ready. If, after the increment, the atomic int
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// is exactly threshold, then it is the current thread's job to build the data structure.
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// Note: We set the callCount to INT32_MIN so that if another thread proceeds to increment
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// the atomic int, the value remains below zero.
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int32_t currentCount = umtx_loadAcquire(*callCount);
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if (0 <= currentCount && currentCount <= fMacros.threshold && fMacros.threshold > 0) {
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currentCount = umtx_atomic_inc(callCount);
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}
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if (currentCount == fMacros.threshold && fMacros.threshold > 0) {
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// Build the data structure and then use it (slow to fast path).
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const NumberFormatterImpl* compiled =
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NumberFormatterImpl::fromMacros(fMacros, status);
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U_ASSERT(fCompiled == nullptr);
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const_cast<LocalizedNumberFormatter *>(this)->fCompiled = compiled;
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umtx_storeRelease(*callCount, INT32_MIN);
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compiled->apply(results->quantity, results->string, status);
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} else if (currentCount < 0) {
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// The data structure is already built; use it (fast path).
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U_ASSERT(fCompiled != nullptr);
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fCompiled->apply(results->quantity, results->string, status);
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} else {
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// Format the number without building the data structure (slow path).
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NumberFormatterImpl::applyStatic(fMacros, results->quantity, results->string, status);
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}
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// Do not save the results object if we encountered a failure.
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if (U_SUCCESS(status)) {
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return FormattedNumber(results);
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} else {
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delete results;
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return FormattedNumber(status);
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}
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}
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UnicodeString FormattedNumber::toString() const {
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if (fResults == nullptr) {
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// TODO: http://bugs.icu-project.org/trac/ticket/13437
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return {};
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}
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return fResults->string.toUnicodeString();
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}
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Appendable &FormattedNumber::appendTo(Appendable &appendable) {
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if (fResults == nullptr) {
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// TODO: http://bugs.icu-project.org/trac/ticket/13437
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return appendable;
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}
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appendable.appendString(fResults->string.chars(), fResults->string.length());
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return appendable;
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}
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void FormattedNumber::populateFieldPosition(FieldPosition &fieldPosition, UErrorCode &status) {
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if (U_FAILURE(status)) { return; }
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if (fResults == nullptr) {
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status = fErrorCode;
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return;
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}
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fResults->string.populateFieldPosition(fieldPosition, 0, status);
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}
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void
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FormattedNumber::populateFieldPositionIterator(FieldPositionIterator &iterator, UErrorCode &status) {
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if (U_FAILURE(status)) { return; }
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if (fResults == nullptr) {
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status = fErrorCode;
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return;
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}
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fResults->string.populateFieldPositionIterator(iterator, status);
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}
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FormattedNumber::~FormattedNumber() {
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delete fResults;
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}
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#endif /* #if !UCONFIG_NO_FORMATTING */
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