// © 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 #ifndef __NUMBER_DECIMFMTPROPS_H__ #define __NUMBER_DECIMFMTPROPS_H__ #include "unicode/unistr.h" #include <cstdint> #include "unicode/plurrule.h" #include "unicode/currpinf.h" #include "unicode/unum.h" #include "unicode/localpointer.h" #include "number_types.h" U_NAMESPACE_BEGIN // Export an explicit template instantiation of the LocalPointer that is used as a // data member of CurrencyPluralInfoWrapper. // (When building DLLs for Windows this is required.) #if U_PF_WINDOWS <= U_PLATFORM && U_PLATFORM <= U_PF_CYGWIN #if defined(_MSC_VER) // Ignore warning 4661 as LocalPointerBase does not use operator== or operator!= #pragma warning(suppress: 4661) #endif template class U_I18N_API LocalPointerBase<CurrencyPluralInfo>; template class U_I18N_API LocalPointer<CurrencyPluralInfo>; #endif namespace number { namespace impl { // Exported as U_I18N_API because it is a public member field of exported DecimalFormatProperties // Using this wrapper is rather unfortunate, but is needed on Windows platforms in order to allow // for DLL-exporting an fully specified template instantiation. class U_I18N_API CurrencyPluralInfoWrapper { public: LocalPointer<CurrencyPluralInfo> fPtr; CurrencyPluralInfoWrapper() = default; CurrencyPluralInfoWrapper(const CurrencyPluralInfoWrapper& other) { if (!other.fPtr.isNull()) { fPtr.adoptInstead(new CurrencyPluralInfo(*other.fPtr)); } } CurrencyPluralInfoWrapper& operator=(const CurrencyPluralInfoWrapper& other) { if (!other.fPtr.isNull()) { fPtr.adoptInstead(new CurrencyPluralInfo(*other.fPtr)); } return *this; } }; /** Controls the set of rules for parsing a string from the old DecimalFormat API. */ enum ParseMode { /** * Lenient mode should be used if you want to accept malformed user input. It will use heuristics * to attempt to parse through typographical errors in the string. */ PARSE_MODE_LENIENT, /** * Strict mode should be used if you want to require that the input is well-formed. More * specifically, it differs from lenient mode in the following ways: * * <ul> * <li>Grouping widths must match the grouping settings. For example, "12,3,45" will fail if the * grouping width is 3, as in the pattern "#,##0". * <li>The string must contain a complete prefix and suffix. For example, if the pattern is * "{#};(#)", then "{123}" or "(123)" would match, but "{123", "123}", and "123" would all fail. * (The latter strings would be accepted in lenient mode.) * <li>Whitespace may not appear at arbitrary places in the string. In lenient mode, whitespace * is allowed to occur arbitrarily before and after prefixes and exponent separators. * <li>Leading grouping separators are not allowed, as in ",123". * <li>Minus and plus signs can only appear if specified in the pattern. In lenient mode, a plus * or minus sign can always precede a number. * <li>The set of characters that can be interpreted as a decimal or grouping separator is * smaller. * <li><strong>If currency parsing is enabled,</strong> currencies must only appear where * specified in either the current pattern string or in a valid pattern string for the current * locale. For example, if the pattern is "¤0.00", then "$1.23" would match, but "1.23$" would * fail to match. * </ul> */ PARSE_MODE_STRICT, }; // Exported as U_I18N_API because it is needed for the unit test PatternStringTest struct U_I18N_API DecimalFormatProperties : public UMemory { public: NullableValue<UNumberCompactStyle> compactStyle; NullableValue<CurrencyUnit> currency; CurrencyPluralInfoWrapper currencyPluralInfo; NullableValue<UCurrencyUsage> currencyUsage; bool decimalPatternMatchRequired; bool decimalSeparatorAlwaysShown; bool exponentSignAlwaysShown; bool formatFailIfMoreThanMaxDigits; // ICU4C-only int32_t formatWidth; int32_t groupingSize; bool groupingUsed; int32_t magnitudeMultiplier; // internal field like multiplierScale but separate to avoid conflict int32_t maximumFractionDigits; int32_t maximumIntegerDigits; int32_t maximumSignificantDigits; int32_t minimumExponentDigits; int32_t minimumFractionDigits; int32_t minimumGroupingDigits; int32_t minimumIntegerDigits; int32_t minimumSignificantDigits; int32_t multiplier; int32_t multiplierScale; // ICU4C-only UnicodeString negativePrefix; UnicodeString negativePrefixPattern; UnicodeString negativeSuffix; UnicodeString negativeSuffixPattern; NullableValue<PadPosition> padPosition; UnicodeString padString; bool parseCaseSensitive; bool parseIntegerOnly; NullableValue<ParseMode> parseMode; bool parseNoExponent; bool parseToBigDecimal; // TODO: Not needed in ICU4C? UNumberFormatAttributeValue parseAllInput; // ICU4C-only //PluralRules pluralRules; UnicodeString positivePrefix; UnicodeString positivePrefixPattern; UnicodeString positiveSuffix; UnicodeString positiveSuffixPattern; double roundingIncrement; NullableValue<RoundingMode> roundingMode; int32_t secondaryGroupingSize; bool signAlwaysShown; DecimalFormatProperties(); inline bool operator==(const DecimalFormatProperties& other) const { return _equals(other, false); } void clear(); /** * Checks for equality to the default DecimalFormatProperties, but ignores the prescribed set of * options for fast-path formatting. */ bool equalsDefaultExceptFastFormat() const; private: bool _equals(const DecimalFormatProperties& other, bool ignoreForFastFormat) const; }; } // namespace impl } // namespace number U_NAMESPACE_END #endif //__NUMBER_DECIMFMTPROPS_H__ #endif /* #if !UCONFIG_NO_FORMATTING */