// © 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 && !UPRV_INCOMPLETE_CPP11_SUPPORT
#include "cstring.h"
#include "number_patternmodifier.h"
#include "unicode/dcfmtsym.h"
#include "unicode/ucurr.h"
#include "unicode/unistr.h"
using namespace icu;
using namespace icu::number;
using namespace icu::number::impl;
MutablePatternModifier::MutablePatternModifier(bool isStrong) : fStrong(isStrong) {}
void MutablePatternModifier::setPatternInfo(const AffixPatternProvider *patternInfo) {
this->patternInfo = patternInfo;
}
void MutablePatternModifier::setPatternAttributes(UNumberSignDisplay signDisplay, bool perMille) {
this->signDisplay = signDisplay;
this->perMilleReplacesPercent = perMille;
}
void
MutablePatternModifier::setSymbols(const DecimalFormatSymbols *symbols, const CurrencyUnit ¤cy,
const UNumberUnitWidth unitWidth, const PluralRules *rules) {
U_ASSERT((rules != nullptr) == needsPlurals());
this->symbols = symbols;
uprv_memcpy(static_cast<char16_t *>(this->currencyCode),
currency.getISOCurrency(),
sizeof(char16_t) * 4);
this->unitWidth = unitWidth;
this->rules = rules;
}
void MutablePatternModifier::setNumberProperties(bool isNegative, StandardPlural::Form plural) {
this->isNegative = isNegative;
this->plural = plural;
}
bool MutablePatternModifier::needsPlurals() const {
UErrorCode statusLocal = U_ZERO_ERROR;
return patternInfo->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 ParameterizedModifier();
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(false, plural);
pm->adoptSignPluralModifier(false, plural, createConstantModifier(status));
setNumberProperties(true, plural);
pm->adoptSignPluralModifier(true, plural, createConstantModifier(status));
}
if (U_FAILURE(status)) {
delete pm;
return nullptr;
}
return new ImmutablePatternModifier(pm, rules, parent); // adopts pm
} else {
// Faster path when plural keyword is not needed.
setNumberProperties(false, StandardPlural::Form::COUNT);
Modifier *positive = createConstantModifier(status);
setNumberProperties(true, StandardPlural::Form::COUNT);
Modifier *negative = createConstantModifier(status);
pm->adoptPositiveNegativeModifiers(positive, negative);
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 (patternInfo->hasCurrencySign()) {
return new CurrencySpacingEnabledModifier(a, b, fStrong, *symbols, status);
} else {
return new ConstantMultiFieldModifier(a, b, fStrong);
}
}
ImmutablePatternModifier::ImmutablePatternModifier(ParameterizedModifier *pm, const PluralRules *rules,
const MicroPropsGenerator *parent)
: pm(pm), rules(rules), parent(parent) {}
void ImmutablePatternModifier::processQuantity(DecimalQuantity &quantity, MicroProps µs,
UErrorCode &status) const {
parent->processQuantity(quantity, micros, status);
applyToMicros(micros, quantity);
}
void ImmutablePatternModifier::applyToMicros(MicroProps µs, DecimalQuantity &quantity) const {
if (rules == nullptr) {
micros.modMiddle = pm->getModifier(quantity.isNegative());
} else {
// TODO: Fix this. Avoid the copy.
DecimalQuantity copy(quantity);
copy.roundToInfinity();
StandardPlural::Form plural = copy.getStandardPlural(rules);
micros.modMiddle = pm->getModifier(quantity.isNegative(), plural);
}
}
/** Used by the unsafe code path. */
MicroPropsGenerator &MutablePatternModifier::addToChain(const MicroPropsGenerator *parent) {
this->parent = parent;
return *this;
}
void MutablePatternModifier::processQuantity(DecimalQuantity &fq, MicroProps µs,
UErrorCode &status) const {
parent->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.rounding.apply(copy, status);
nonConstThis->setNumberProperties(fq.isNegative(), copy.getStandardPlural(rules));
} else {
nonConstThis->setNumberProperties(fq.isNegative(), 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);
CurrencySpacingEnabledModifier::applyCurrencySpacing(
output, leftIndex, prefixLen, rightIndex + prefixLen, suffixLen, *symbols, status);
return prefixLen + suffixLen;
}
int32_t MutablePatternModifier::getPrefixLength(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);
// Enter and exit CharSequence Mode to get the length.
nonConstThis->enterCharSequenceMode(true);
int result = AffixUtils::unescapedCodePointCount(*this, *this, status); // prefix length
nonConstThis->exitCharSequenceMode();
return result;
}
int32_t MutablePatternModifier::getCodePointCount(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);
// Enter and exit CharSequence Mode to get the length.
nonConstThis->enterCharSequenceMode(true);
int result = AffixUtils::unescapedCodePointCount(*this, *this, status); // prefix length
nonConstThis->exitCharSequenceMode();
nonConstThis->enterCharSequenceMode(false);
result += AffixUtils::unescapedCodePointCount(*this, *this, status); // suffix length
nonConstThis->exitCharSequenceMode();
return result;
}
bool MutablePatternModifier::isStrong() const {
return fStrong;
}
int32_t MutablePatternModifier::insertPrefix(NumberStringBuilder &sb, int position, UErrorCode &status) {
enterCharSequenceMode(true);
int length = AffixUtils::unescape(*this, sb, position, *this, status);
exitCharSequenceMode();
return length;
}
int32_t MutablePatternModifier::insertSuffix(NumberStringBuilder &sb, int position, UErrorCode &status) {
enterCharSequenceMode(false);
int length = AffixUtils::unescape(*this, sb, position, *this, status);
exitCharSequenceMode();
return length;
}
UnicodeString MutablePatternModifier::getSymbol(AffixPatternType type) const {
switch (type) {
case AffixPatternType::TYPE_MINUS_SIGN:
return symbols->getSymbol(DecimalFormatSymbols::ENumberFormatSymbol::kMinusSignSymbol);
case AffixPatternType::TYPE_PLUS_SIGN:
return symbols->getSymbol(DecimalFormatSymbols::ENumberFormatSymbol::kPlusSignSymbol);
case AffixPatternType::TYPE_PERCENT:
return symbols->getSymbol(DecimalFormatSymbols::ENumberFormatSymbol::kPercentSymbol);
case AffixPatternType::TYPE_PERMILLE:
return symbols->getSymbol(DecimalFormatSymbols::ENumberFormatSymbol::kPerMillSymbol);
case AffixPatternType::TYPE_CURRENCY_SINGLE: {
// UnitWidth ISO and HIDDEN overrides the singular currency symbol.
if (unitWidth == UNumberUnitWidth::UNUM_UNIT_WIDTH_ISO_CODE) {
return UnicodeString(currencyCode, 3);
} else if (unitWidth == UNumberUnitWidth::UNUM_UNIT_WIDTH_HIDDEN) {
return UnicodeString();
} else {
UErrorCode status = U_ZERO_ERROR;
UBool isChoiceFormat = FALSE;
int32_t symbolLen = 0;
const char16_t *symbol = ucurr_getName(
currencyCode,
symbols->getLocale().getName(),
UCurrNameStyle::UCURR_SYMBOL_NAME,
&isChoiceFormat,
&symbolLen,
&status);
return UnicodeString(symbol, symbolLen);
}
}
case AffixPatternType::TYPE_CURRENCY_DOUBLE:
return UnicodeString(currencyCode, 3);
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(plural != StandardPlural::Form::COUNT);
UErrorCode status = U_ZERO_ERROR;
UBool isChoiceFormat = FALSE;
int32_t symbolLen = 0;
const char16_t *symbol = ucurr_getPluralName(
currencyCode,
symbols->getLocale().getName(),
&isChoiceFormat,
StandardPlural::getKeyword(plural),
&symbolLen,
&status);
return UnicodeString(symbol, symbolLen);
}
case AffixPatternType::TYPE_CURRENCY_QUAD:
return UnicodeString(u"\uFFFD");
case AffixPatternType::TYPE_CURRENCY_QUINT:
return UnicodeString(u"\uFFFD");
default:
U_ASSERT(false);
return UnicodeString();
}
}
/** This method contains the heart of the logic for rendering LDML affix strings. */
void MutablePatternModifier::enterCharSequenceMode(bool isPrefix) {
U_ASSERT(!inCharSequenceMode);
inCharSequenceMode = true;
// Should the output render '+' where '-' would normally appear in the pattern?
plusReplacesMinusSign = !isNegative && (
signDisplay == UNUM_SIGN_ALWAYS ||
signDisplay == UNUM_SIGN_ACCOUNTING_ALWAYS) &&
patternInfo->positiveHasPlusSign() == false;
// Should we use the affix from the negative subpattern? (If not, we will use the positive subpattern.)
bool useNegativeAffixPattern = patternInfo->hasNegativeSubpattern() && (
isNegative || (patternInfo->negativeHasMinusSign() && plusReplacesMinusSign));
// Resolve the flags for the affix pattern.
fFlags = 0;
if (useNegativeAffixPattern) {
fFlags |= AffixPatternProvider::AFFIX_NEGATIVE_SUBPATTERN;
}
if (isPrefix) {
fFlags |= AffixPatternProvider::AFFIX_PREFIX;
}
if (plural != StandardPlural::Form::COUNT) {
U_ASSERT(plural == (AffixPatternProvider::AFFIX_PLURAL_MASK & plural));
fFlags |= plural;
}
// Should we prepend a sign to the pattern?
if (!isPrefix || useNegativeAffixPattern) {
prependSign = false;
} else if (isNegative) {
prependSign = signDisplay != UNUM_SIGN_NEVER;
} else {
prependSign = plusReplacesMinusSign;
}
// Finally, compute the length of the affix pattern.
fLength = patternInfo->length(fFlags) + (prependSign ? 1 : 0);
}
void MutablePatternModifier::exitCharSequenceMode() {
U_ASSERT(inCharSequenceMode);
inCharSequenceMode = false;
}
int32_t MutablePatternModifier::length() const {
U_ASSERT(inCharSequenceMode);
return fLength;
}
char16_t MutablePatternModifier::charAt(int32_t index) const {
U_ASSERT(inCharSequenceMode);
char16_t candidate;
if (prependSign && index == 0) {
candidate = u'-';
} else if (prependSign) {
candidate = patternInfo->charAt(fFlags, index - 1);
} else {
candidate = patternInfo->charAt(fFlags, index);
}
if (plusReplacesMinusSign && candidate == u'-') {
return u'+';
}
if (perMilleReplacesPercent && candidate == u'%') {
return u'‰';
}
return candidate;
}
UnicodeString MutablePatternModifier::toUnicodeString() const {
// Never called by AffixUtils
U_ASSERT(false);
return UnicodeString();
}
#endif /* #if !UCONFIG_NO_FORMATTING */