// © 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 */