// © 2017 and later: Unicode, Inc. and others. // License & terms of use: http://www.unicode.org/copyright.html #include "unicode/utypes.h" #if !UCONFIG_NO_FORMATTING #include "cstring.h" #include "number_patternmodifier.h" #include "unicode/dcfmtsym.h" #include "unicode/ucurr.h" #include "unicode/unistr.h" #include "number_microprops.h" using namespace icu; using namespace icu::number; using namespace icu::number::impl; AffixPatternProvider::~AffixPatternProvider() = default; MutablePatternModifier::MutablePatternModifier(bool isStrong) : fStrong(isStrong) {} void MutablePatternModifier::setPatternInfo(const AffixPatternProvider* patternInfo) { fPatternInfo = patternInfo; } void MutablePatternModifier::setPatternAttributes(UNumberSignDisplay signDisplay, bool perMille) { fSignDisplay = signDisplay; this->perMilleReplacesPercent = perMille; } void MutablePatternModifier::setSymbols(const DecimalFormatSymbols* symbols, const CurrencySymbols* currencySymbols, const UNumberUnitWidth unitWidth, const PluralRules* rules) { U_ASSERT((rules != nullptr) == needsPlurals()); fSymbols = symbols; fCurrencySymbols = currencySymbols; fUnitWidth = unitWidth; fRules = rules; } void MutablePatternModifier::setNumberProperties(int8_t signum, StandardPlural::Form plural) { fSignum = signum; fPlural = plural; } bool MutablePatternModifier::needsPlurals() const { UErrorCode statusLocal = U_ZERO_ERROR; return fPatternInfo->containsSymbolType(AffixPatternType::TYPE_CURRENCY_TRIPLE, statusLocal); // Silently ignore any error codes. } ImmutablePatternModifier* MutablePatternModifier::createImmutable(UErrorCode& status) { return createImmutableAndChain(nullptr, status); } ImmutablePatternModifier* MutablePatternModifier::createImmutableAndChain(const MicroPropsGenerator* parent, UErrorCode& status) { // TODO: Move StandardPlural VALUES to standardplural.h static const StandardPlural::Form STANDARD_PLURAL_VALUES[] = { StandardPlural::Form::ZERO, StandardPlural::Form::ONE, StandardPlural::Form::TWO, StandardPlural::Form::FEW, StandardPlural::Form::MANY, StandardPlural::Form::OTHER}; auto pm = new AdoptingModifierStore(); if (pm == nullptr) { status = U_MEMORY_ALLOCATION_ERROR; return nullptr; } if (needsPlurals()) { // Slower path when we require the plural keyword. for (StandardPlural::Form plural : STANDARD_PLURAL_VALUES) { setNumberProperties(1, plural); pm->adoptModifier(1, plural, createConstantModifier(status)); setNumberProperties(0, plural); pm->adoptModifier(0, plural, createConstantModifier(status)); setNumberProperties(-1, plural); pm->adoptModifier(-1, plural, createConstantModifier(status)); } if (U_FAILURE(status)) { delete pm; return nullptr; } return new ImmutablePatternModifier(pm, fRules, parent); // adopts pm } else { // Faster path when plural keyword is not needed. setNumberProperties(1, StandardPlural::Form::COUNT); pm->adoptModifierWithoutPlural(1, createConstantModifier(status)); setNumberProperties(0, StandardPlural::Form::COUNT); pm->adoptModifierWithoutPlural(0, createConstantModifier(status)); setNumberProperties(-1, StandardPlural::Form::COUNT); pm->adoptModifierWithoutPlural(-1, createConstantModifier(status)); if (U_FAILURE(status)) { delete pm; return nullptr; } return new ImmutablePatternModifier(pm, nullptr, parent); // adopts pm } } ConstantMultiFieldModifier* MutablePatternModifier::createConstantModifier(UErrorCode& status) { NumberStringBuilder a; NumberStringBuilder b; insertPrefix(a, 0, status); insertSuffix(b, 0, status); if (fPatternInfo->hasCurrencySign()) { return new CurrencySpacingEnabledModifier( a, b, !fPatternInfo->hasBody(), fStrong, *fSymbols, status); } else { return new ConstantMultiFieldModifier(a, b, !fPatternInfo->hasBody(), fStrong); } } ImmutablePatternModifier::ImmutablePatternModifier(AdoptingModifierStore* pm, const PluralRules* rules, const MicroPropsGenerator* parent) : pm(pm), rules(rules), parent(parent) {} void ImmutablePatternModifier::processQuantity(DecimalQuantity& quantity, MicroProps& micros, UErrorCode& status) const { parent->processQuantity(quantity, micros, status); applyToMicros(micros, quantity); } void ImmutablePatternModifier::applyToMicros(MicroProps& micros, DecimalQuantity& quantity) const { if (rules == nullptr) { micros.modMiddle = pm->getModifierWithoutPlural(quantity.signum()); } else { // TODO: Fix this. Avoid the copy. DecimalQuantity copy(quantity); copy.roundToInfinity(); StandardPlural::Form plural = utils::getStandardPlural(rules, copy); micros.modMiddle = pm->getModifier(quantity.signum(), plural); } } const Modifier* ImmutablePatternModifier::getModifier(int8_t signum, StandardPlural::Form plural) const { if (rules == nullptr) { return pm->getModifierWithoutPlural(signum); } else { return pm->getModifier(signum, plural); } } /** Used by the unsafe code path. */ MicroPropsGenerator& MutablePatternModifier::addToChain(const MicroPropsGenerator* parent) { fParent = parent; return *this; } void MutablePatternModifier::processQuantity(DecimalQuantity& fq, MicroProps& micros, UErrorCode& status) const { fParent->processQuantity(fq, micros, status); // The unsafe code path performs self-mutation, so we need a const_cast. // This method needs to be const because it overrides a const method in the parent class. auto nonConstThis = const_cast<MutablePatternModifier*>(this); if (needsPlurals()) { // TODO: Fix this. Avoid the copy. DecimalQuantity copy(fq); micros.rounder.apply(copy, status); nonConstThis->setNumberProperties(fq.signum(), utils::getStandardPlural(fRules, copy)); } else { nonConstThis->setNumberProperties(fq.signum(), StandardPlural::Form::COUNT); } micros.modMiddle = this; } int32_t MutablePatternModifier::apply(NumberStringBuilder& output, int32_t leftIndex, int32_t rightIndex, UErrorCode& status) const { // The unsafe code path performs self-mutation, so we need a const_cast. // This method needs to be const because it overrides a const method in the parent class. auto nonConstThis = const_cast<MutablePatternModifier*>(this); int32_t prefixLen = nonConstThis->insertPrefix(output, leftIndex, status); int32_t suffixLen = nonConstThis->insertSuffix(output, rightIndex + prefixLen, status); // If the pattern had no decimal stem body (like #,##0.00), overwrite the value. int32_t overwriteLen = 0; if (!fPatternInfo->hasBody()) { overwriteLen = output.splice( leftIndex + prefixLen, rightIndex + prefixLen, UnicodeString(), 0, 0, UNUM_FIELD_COUNT, status); } CurrencySpacingEnabledModifier::applyCurrencySpacing( output, leftIndex, prefixLen, rightIndex + overwriteLen + prefixLen, suffixLen, *fSymbols, status); return prefixLen + overwriteLen + suffixLen; } int32_t MutablePatternModifier::getPrefixLength() const { // The unsafe code path performs self-mutation, so we need a const_cast. // This method needs to be const because it overrides a const method in the parent class. auto nonConstThis = const_cast<MutablePatternModifier*>(this); // Enter and exit CharSequence Mode to get the length. UErrorCode status = U_ZERO_ERROR; // status fails only with an iilegal argument exception nonConstThis->prepareAffix(true); int result = AffixUtils::unescapedCodePointCount(currentAffix, *this, status); // prefix length return result; } int32_t MutablePatternModifier::getCodePointCount() const { // The unsafe code path performs self-mutation, so we need a const_cast. // This method needs to be const because it overrides a const method in the parent class. auto nonConstThis = const_cast<MutablePatternModifier*>(this); // Render the affixes to get the length UErrorCode status = U_ZERO_ERROR; // status fails only with an iilegal argument exception nonConstThis->prepareAffix(true); int result = AffixUtils::unescapedCodePointCount(currentAffix, *this, status); // prefix length nonConstThis->prepareAffix(false); result += AffixUtils::unescapedCodePointCount(currentAffix, *this, status); // suffix length return result; } bool MutablePatternModifier::isStrong() const { return fStrong; } bool MutablePatternModifier::containsField(UNumberFormatFields field) const { (void)field; // This method is not currently used. U_ASSERT(false); return false; } void MutablePatternModifier::getParameters(Parameters& output) const { (void)output; // This method is not currently used. U_ASSERT(false); } bool MutablePatternModifier::semanticallyEquivalent(const Modifier& other) const { (void)other; // This method is not currently used. U_ASSERT(false); return false; } int32_t MutablePatternModifier::insertPrefix(NumberStringBuilder& sb, int position, UErrorCode& status) { prepareAffix(true); int length = AffixUtils::unescape(currentAffix, sb, position, *this, status); return length; } int32_t MutablePatternModifier::insertSuffix(NumberStringBuilder& sb, int position, UErrorCode& status) { prepareAffix(false); int length = AffixUtils::unescape(currentAffix, sb, position, *this, status); return length; } /** This method contains the heart of the logic for rendering LDML affix strings. */ void MutablePatternModifier::prepareAffix(bool isPrefix) { PatternStringUtils::patternInfoToStringBuilder( *fPatternInfo, isPrefix, fSignum, fSignDisplay, fPlural, perMilleReplacesPercent, currentAffix); } UnicodeString MutablePatternModifier::getSymbol(AffixPatternType type) const { UErrorCode localStatus = U_ZERO_ERROR; switch (type) { case AffixPatternType::TYPE_MINUS_SIGN: return fSymbols->getSymbol(DecimalFormatSymbols::ENumberFormatSymbol::kMinusSignSymbol); case AffixPatternType::TYPE_PLUS_SIGN: return fSymbols->getSymbol(DecimalFormatSymbols::ENumberFormatSymbol::kPlusSignSymbol); case AffixPatternType::TYPE_PERCENT: return fSymbols->getSymbol(DecimalFormatSymbols::ENumberFormatSymbol::kPercentSymbol); case AffixPatternType::TYPE_PERMILLE: return fSymbols->getSymbol(DecimalFormatSymbols::ENumberFormatSymbol::kPerMillSymbol); case AffixPatternType::TYPE_CURRENCY_SINGLE: { // UnitWidth ISO and HIDDEN overrides the singular currency symbol. if (fUnitWidth == UNumberUnitWidth::UNUM_UNIT_WIDTH_ISO_CODE) { return fCurrencySymbols->getIntlCurrencySymbol(localStatus); } else if (fUnitWidth == UNumberUnitWidth::UNUM_UNIT_WIDTH_HIDDEN) { return UnicodeString(); } else if (fUnitWidth == UNumberUnitWidth::UNUM_UNIT_WIDTH_NARROW) { return fCurrencySymbols->getNarrowCurrencySymbol(localStatus); } else { return fCurrencySymbols->getCurrencySymbol(localStatus); } } case AffixPatternType::TYPE_CURRENCY_DOUBLE: return fCurrencySymbols->getIntlCurrencySymbol(localStatus); case AffixPatternType::TYPE_CURRENCY_TRIPLE: // NOTE: This is the code path only for patterns containing "¤¤¤". // Plural currencies set via the API are formatted in LongNameHandler. // This code path is used by DecimalFormat via CurrencyPluralInfo. U_ASSERT(fPlural != StandardPlural::Form::COUNT); return fCurrencySymbols->getPluralName(fPlural, localStatus); case AffixPatternType::TYPE_CURRENCY_QUAD: return UnicodeString(u"\uFFFD"); case AffixPatternType::TYPE_CURRENCY_QUINT: return UnicodeString(u"\uFFFD"); default: U_ASSERT(false); return UnicodeString(); } } UnicodeString MutablePatternModifier::toUnicodeString() const { // Never called by AffixUtils U_ASSERT(false); return UnicodeString(); } #endif /* #if !UCONFIG_NO_FORMATTING */