/* ******************************************************************************* * Copyright (C) 1997-2004, International Business Machines Corporation and * * others. All Rights Reserved. * ******************************************************************************* * * File NUMFMT.CPP * * Modification History: * * Date Name Description * 02/19/97 aliu Converted from java. * 03/18/97 clhuang Implemented with C++ APIs. * 04/17/97 aliu Enlarged MAX_INTEGER_DIGITS to fully accomodate the * largest double, by default. * Changed DigitCount to int per code review. * 07/20/98 stephen Changed operator== to check for grouping * Changed setMaxIntegerDigits per Java implementation. * Changed setMinIntegerDigits per Java implementation. * Changed setMinFractionDigits per Java implementation. * Changed setMaxFractionDigits per Java implementation. ******************************************************************************** */ #include "unicode/utypes.h" #if !UCONFIG_NO_FORMATTING #include "unicode/numfmt.h" #include "unicode/locid.h" #include "unicode/resbund.h" #include "unicode/dcfmtsym.h" #include "unicode/decimfmt.h" #include "unicode/ustring.h" #include "unicode/ucurr.h" #include "uhash.h" #include "iculserv.h" #include "ucln_in.h" #include "cstring.h" #include //#define FMT_DEBUG #ifdef FMT_DEBUG #include static void debugout(UnicodeString s) { char buf[2000]; s.extract((int32_t) 0, s.length(), buf); printf("%s", buf); } #define debug(x) printf("%s", x); #else #define debugout(x) #define debug(x) #endif // If no number pattern can be located for a locale, this is the last // resort. static const UChar gLastResortDecimalPat[] = { 0x23, 0x30, 0x2E, 0x23, 0x23, 0x23, 0x3B, 0x2D, 0x23, 0x30, 0x2E, 0x23, 0x23, 0x23, 0 /* "#0.###;-#0.###" */ }; static const UChar gLastResortCurrencyPat[] = { 0x24, 0x23, 0x30, 0x2E, 0x30, 0x30, 0x3B, 0x28, 0x24, 0x23, 0x30, 0x2E, 0x30, 0x30, 0x29, 0 /* "$#0.00;($#0.00)" */ }; static const UChar gLastResortPercentPat[] = { 0x23, 0x30, 0x25, 0 /* "#0%" */ }; static const UChar gLastResortScientificPat[] = { 0x23, 0x45, 0x30, 0 /* "#E0" */ }; // ***************************************************************************** // class NumberFormat // ***************************************************************************** U_NAMESPACE_BEGIN // If the maximum base 10 exponent were 4, then the largest number would // be 99,999 which has 5 digits. const int32_t NumberFormat::fgMaxIntegerDigits = DBL_MAX_10_EXP + 1; // Should be ~40 ? --srl const int32_t NumberFormat::fgMinIntegerDigits = 127; const int32_t NumberFormat::fgNumberPatternsCount = 3; const UChar * const NumberFormat::fgLastResortNumberPatterns[] = { gLastResortDecimalPat, gLastResortCurrencyPat, gLastResortPercentPat, gLastResortScientificPat }; // ------------------------------------- // SimpleNumberFormatFactory implementation NumberFormatFactory::~NumberFormatFactory() {} SimpleNumberFormatFactory::~SimpleNumberFormatFactory() {} UBool SimpleNumberFormatFactory::visible(void) const { return _visible; } const UnicodeString * SimpleNumberFormatFactory::getSupportedIDs(int32_t &count, UErrorCode& status) const { if (U_SUCCESS(status)) { count = 1; return &_id; } count = 0; return NULL; } // ------------------------------------- // default constructor NumberFormat::NumberFormat() : fGroupingUsed(TRUE), fMaxIntegerDigits(fgMaxIntegerDigits), fMinIntegerDigits(1), fMaxFractionDigits(3), // invariant, >= minFractionDigits fMinFractionDigits(0), fParseIntegerOnly(FALSE) { fCurrency[0] = 0; } // ------------------------------------- NumberFormat::~NumberFormat() { } // ------------------------------------- // copy constructor NumberFormat::NumberFormat(const NumberFormat &source) : Format(source) { *this = source; } // ------------------------------------- // assignment operator NumberFormat& NumberFormat::operator=(const NumberFormat& rhs) { if (this != &rhs) { fGroupingUsed = rhs.fGroupingUsed; fMaxIntegerDigits = rhs.fMaxIntegerDigits; fMinIntegerDigits = rhs.fMinIntegerDigits; fMaxFractionDigits = rhs.fMaxFractionDigits; fMinFractionDigits = rhs.fMinFractionDigits; fParseIntegerOnly = rhs.fParseIntegerOnly; u_strncpy(fCurrency, rhs.fCurrency, 4); } return *this; } // ------------------------------------- UBool NumberFormat::operator==(const Format& that) const { // Format::operator== guarantees this cast is safe NumberFormat* other = (NumberFormat*)&that; #ifdef FMT_DEBUG // This code makes it easy to determine why two format objects that should // be equal aren't. UBool first = TRUE; if (!Format::operator==(that)) { if (first) { printf("[ "); first = FALSE; } else { printf(", "); } debug("Format::!="); } if (!(fMaxIntegerDigits == other->fMaxIntegerDigits && fMinIntegerDigits == other->fMinIntegerDigits)) { if (first) { printf("[ "); first = FALSE; } else { printf(", "); } debug("Integer digits !="); } if (!(fMaxFractionDigits == other->fMaxFractionDigits && fMinFractionDigits == other->fMinFractionDigits)) { if (first) { printf("[ "); first = FALSE; } else { printf(", "); } debug("Fraction digits !="); } if (!(fGroupingUsed == other->fGroupingUsed)) { if (first) { printf("[ "); first = FALSE; } else { printf(", "); } debug("fGroupingUsed != "); } if (!(fParseIntegerOnly == other->fParseIntegerOnly)) { if (first) { printf("[ "); first = FALSE; } else { printf(", "); } debug("fParseIntegerOnly != "); } if (!(u_strcmp(fCurrency, other->fCurrency) == 0)) { if (first) { printf("[ "); first = FALSE; } else { printf(", "); } debug("fCurrency !="); } if (!first) { printf(" ]"); } #endif return ((this == &that) || ((Format::operator==(that) && fMaxIntegerDigits == other->fMaxIntegerDigits && fMinIntegerDigits == other->fMinIntegerDigits && fMaxFractionDigits == other->fMaxFractionDigits && fMinFractionDigits == other->fMinFractionDigits && fGroupingUsed == other->fGroupingUsed && fParseIntegerOnly == other->fParseIntegerOnly && u_strcmp(fCurrency, other->fCurrency) == 0))); } // -------------------------------------x // Formats the number object and save the format // result in the toAppendTo string buffer. UnicodeString& NumberFormat::format(const Formattable& obj, UnicodeString& appendTo, FieldPosition& pos, UErrorCode& status) const { if (U_FAILURE(status)) return appendTo; NumberFormat* nonconst = (NumberFormat*) this; UChar save[4]; UBool setCurr = FALSE; const UChar *curr = obj.getCurrency(); // most commonly curr==NULL if (curr != NULL) { // getCurrency() returns a pointer to internal storage, so we // copy it to retain it across the call to setCurrency(). u_strcpy(save, getCurrency()); setCurr = (u_strcmp(curr, save) != 0); if (setCurr) { nonconst->setCurrency(curr, status); } } switch (obj.getType()) { case Formattable::kDouble: format(obj.getDouble(), appendTo, pos); break; case Formattable::kLong: format(obj.getLong(), appendTo, pos); break; case Formattable::kInt64: format(obj.getInt64(), appendTo, pos); break; default: status = U_INVALID_FORMAT_ERROR; break; } if (setCurr) { UErrorCode ok = U_ZERO_ERROR; nonconst->setCurrency(save, ok); // always restore currency } return appendTo; } // ------------------------------------- UnicodeString& NumberFormat::format(int64_t number, UnicodeString& appendTo, FieldPosition& pos) const { // default so we don't introduce a new abstract method return format((int32_t)number, appendTo, pos); } // ------------------------------------- // Parses the string and save the result object as well // as the final parsed position. void NumberFormat::parseObject(const UnicodeString& source, Formattable& result, ParsePosition& parse_pos) const { parse(source, result, parse_pos); } // ------------------------------------- // Formats a double number and save the result in a string. UnicodeString& NumberFormat::format(double number, UnicodeString& appendTo) const { FieldPosition pos(0); return format(number, appendTo, pos); } // ------------------------------------- // Formats a long number and save the result in a string. UnicodeString& NumberFormat::format(int32_t number, UnicodeString& appendTo) const { FieldPosition pos(0); return format(number, appendTo, pos); } // ------------------------------------- // Formats a long number and save the result in a string. UnicodeString& NumberFormat::format(int64_t number, UnicodeString& appendTo) const { FieldPosition pos(0); return format(number, appendTo, pos); } // ------------------------------------- // Parses the text and save the result object. If the returned // parse position is 0, that means the parsing failed, the status // code needs to be set to failure. Ignores the returned parse // position, otherwise. void NumberFormat::parse(const UnicodeString& text, Formattable& result, UErrorCode& status) const { if (U_FAILURE(status)) return; ParsePosition parsePosition(0); parse(text, result, parsePosition); if (parsePosition.getIndex() == 0) { status = U_INVALID_FORMAT_ERROR; } } Formattable& NumberFormat::parseCurrency(const UnicodeString& text, Formattable& result, ParsePosition& pos) const { // Default implementation only -- subclasses should override int32_t start = pos.getIndex(); parse(text, result, pos); if (pos.getIndex() != start) { UChar curr[4]; UErrorCode ec = U_ZERO_ERROR; getEffectiveCurrency(curr, ec); if (U_SUCCESS(ec)) { result.setCurrency(curr); } } return result; } // ------------------------------------- // Sets to only parse integers. void NumberFormat::setParseIntegerOnly(UBool value) { fParseIntegerOnly = value; } // ------------------------------------- // Create a number style NumberFormat instance with the default locale. NumberFormat* NumberFormat::createInstance(UErrorCode& status) { return createInstance(Locale::getDefault(), kNumberStyle, status); } // ------------------------------------- // Create a number style NumberFormat instance with the inLocale locale. NumberFormat* NumberFormat::createInstance(const Locale& inLocale, UErrorCode& status) { return createInstance(inLocale, kNumberStyle, status); } // ------------------------------------- // Create a currency style NumberFormat instance with the default locale. NumberFormat* NumberFormat::createCurrencyInstance(UErrorCode& status) { return createInstance(Locale::getDefault(), kCurrencyStyle, status); } // ------------------------------------- // Create a currency style NumberFormat instance with the inLocale locale. NumberFormat* NumberFormat::createCurrencyInstance(const Locale& inLocale, UErrorCode& status) { return createInstance(inLocale, kCurrencyStyle, status); } // ------------------------------------- // Create a percent style NumberFormat instance with the default locale. NumberFormat* NumberFormat::createPercentInstance(UErrorCode& status) { return createInstance(Locale::getDefault(), kPercentStyle, status); } // ------------------------------------- // Create a percent style NumberFormat instance with the inLocale locale. NumberFormat* NumberFormat::createPercentInstance(const Locale& inLocale, UErrorCode& status) { return createInstance(inLocale, kPercentStyle, status); } // ------------------------------------- // Create a scientific style NumberFormat instance with the default locale. NumberFormat* NumberFormat::createScientificInstance(UErrorCode& status) { return createInstance(Locale::getDefault(), kScientificStyle, status); } // ------------------------------------- // Create a scientific style NumberFormat instance with the inLocale locale. NumberFormat* NumberFormat::createScientificInstance(const Locale& inLocale, UErrorCode& status) { return createInstance(inLocale, kScientificStyle, status); } // ------------------------------------- const Locale* NumberFormat::getAvailableLocales(int32_t& count) { return Locale::getAvailableLocales(count); } // ------------------------------------------ // // Registration // //------------------------------------------- static ICULocaleService* gService = NULL; // ------------------------------------- class ICUNumberFormatFactory : public ICUResourceBundleFactory { protected: virtual UObject* handleCreate(const Locale& loc, int32_t kind, const ICUService* /* service */, UErrorCode& status) const { // !!! kind is not an EStyles, need to determine how to handle this return NumberFormat::makeInstance(loc, (NumberFormat::EStyles)kind, status); } }; // ------------------------------------- class NFFactory : public LocaleKeyFactory { private: NumberFormatFactory* _delegate; Hashtable* _ids; public: NFFactory(NumberFormatFactory* delegate) : LocaleKeyFactory(delegate->visible() ? VISIBLE : INVISIBLE) , _delegate(delegate) , _ids(NULL) { } virtual ~NFFactory() { delete _delegate; delete _ids; } virtual UObject* create(const ICUServiceKey& key, const ICUService* service, UErrorCode& status) const { if (handlesKey(key, status)) { const LocaleKey& lkey = (const LocaleKey&)key; Locale loc; lkey.canonicalLocale(loc); int32_t kind = lkey.kind(); UObject* result = _delegate->createFormat(loc, (UNumberFormatStyle)(kind+1)); if (result == NULL) { result = service->getKey((ICUServiceKey&)key /* cast away const */, NULL, this, status); } return result; } return NULL; } protected: /** * Return the set of ids that this factory supports (visible or * otherwise). This can be called often and might need to be * cached if it is expensive to create. */ virtual const Hashtable* getSupportedIDs(UErrorCode& status) const { if (U_SUCCESS(status)) { if (!_ids) { int32_t count = 0; const UnicodeString * const idlist = _delegate->getSupportedIDs(count, status); ((NFFactory*)this)->_ids = new Hashtable(status); /* cast away const */ if (_ids) { for (int i = 0; i < count; ++i) { _ids->put(idlist[i], (void*)this, status); } } } return _ids; } return NULL; } }; class ICUNumberFormatService : public ICULocaleService { public: ICUNumberFormatService() : ICULocaleService("Number Format") { UErrorCode status = U_ZERO_ERROR; registerFactory(new ICUNumberFormatFactory(), status); } virtual UObject* cloneInstance(UObject* instance) const { return ((NumberFormat*)instance)->clone(); } virtual UObject* handleDefault(const ICUServiceKey& key, UnicodeString* /* actualID */, UErrorCode& status) const { LocaleKey& lkey = (LocaleKey&)key; int32_t kind = lkey.kind(); Locale loc; lkey.currentLocale(loc); return NumberFormat::makeInstance(loc, (NumberFormat::EStyles)kind, status); } virtual UBool isDefault() const { return countFactories() == 1; } }; // ------------------------------------- static ICULocaleService* getNumberFormatService(void) { UBool needInit; { Mutex mutex; needInit = (UBool)(gService == NULL); } if (needInit) { ICULocaleService * newservice = new ICUNumberFormatService(); if (newservice) { Mutex mutex; if (gService == NULL) { gService = newservice; newservice = NULL; } } if (newservice) { delete newservice; } else { // we won the contention, this thread can register cleanup. ucln_i18n_registerCleanup(); } } return gService; } // ------------------------------------- NumberFormat* NumberFormat::createInstance(const Locale& loc, EStyles kind, UErrorCode& status) { umtx_lock(NULL); UBool haveService = gService != NULL; umtx_unlock(NULL); if (haveService) { return (NumberFormat*)gService->get(loc, kind, status); } else { return makeInstance(loc, kind, status); } } // ------------------------------------- URegistryKey NumberFormat::registerFactory(NumberFormatFactory* toAdopt, UErrorCode& status) { ICULocaleService *service = getNumberFormatService(); if (service) { return service->registerFactory(new NFFactory(toAdopt), status); } status = U_MEMORY_ALLOCATION_ERROR; return NULL; } // ------------------------------------- UBool NumberFormat::unregister(URegistryKey key, UErrorCode& status) { if (U_SUCCESS(status)) { umtx_lock(NULL); UBool haveService = gService != NULL; umtx_unlock(NULL); if (haveService) { return gService->unregister(key, status); } status = U_ILLEGAL_ARGUMENT_ERROR; } return FALSE; } // ------------------------------------- StringEnumeration* NumberFormat::getAvailableLocales(void) { ICULocaleService *service = getNumberFormatService(); if (service) { return service->getAvailableLocales(); } return NULL; // no way to return error condition } // ------------------------------------- // Checks if the thousand/10 thousand grouping is used in the // NumberFormat instance. UBool NumberFormat::isGroupingUsed() const { return fGroupingUsed; } // ------------------------------------- // Sets to use the thousand/10 thousand grouping in the // NumberFormat instance. void NumberFormat::setGroupingUsed(UBool newValue) { fGroupingUsed = newValue; } // ------------------------------------- // Gets the maximum number of digits for the integral part for // this NumberFormat instance. int32_t NumberFormat::getMaximumIntegerDigits() const { return fMaxIntegerDigits; } // ------------------------------------- // Sets the maximum number of digits for the integral part for // this NumberFormat instance. void NumberFormat::setMaximumIntegerDigits(int32_t newValue) { fMaxIntegerDigits = uprv_max(0, uprv_min(newValue, fgMaxIntegerDigits)); if(fMinIntegerDigits > fMaxIntegerDigits) fMinIntegerDigits = fMaxIntegerDigits; } // ------------------------------------- // Gets the minimum number of digits for the integral part for // this NumberFormat instance. int32_t NumberFormat::getMinimumIntegerDigits() const { return fMinIntegerDigits; } // ------------------------------------- // Sets the minimum number of digits for the integral part for // this NumberFormat instance. void NumberFormat::setMinimumIntegerDigits(int32_t newValue) { fMinIntegerDigits = uprv_max(0, uprv_min(newValue, fgMinIntegerDigits)); if(fMinIntegerDigits > fMaxIntegerDigits) fMaxIntegerDigits = fMinIntegerDigits; } // ------------------------------------- // Gets the maximum number of digits for the fractional part for // this NumberFormat instance. int32_t NumberFormat::getMaximumFractionDigits() const { return fMaxFractionDigits; } // ------------------------------------- // Sets the maximum number of digits for the fractional part for // this NumberFormat instance. void NumberFormat::setMaximumFractionDigits(int32_t newValue) { fMaxFractionDigits = uprv_max(0, uprv_min(newValue, fgMaxIntegerDigits)); if(fMaxFractionDigits < fMinFractionDigits) fMinFractionDigits = fMaxFractionDigits; } // ------------------------------------- // Gets the minimum number of digits for the fractional part for // this NumberFormat instance. int32_t NumberFormat::getMinimumFractionDigits() const { return fMinFractionDigits; } // ------------------------------------- // Sets the minimum number of digits for the fractional part for // this NumberFormat instance. void NumberFormat::setMinimumFractionDigits(int32_t newValue) { fMinFractionDigits = uprv_max(0, uprv_min(newValue, fgMinIntegerDigits)); if (fMaxFractionDigits < fMinFractionDigits) fMaxFractionDigits = fMinFractionDigits; } // ------------------------------------- void NumberFormat::setCurrency(const UChar* theCurrency, UErrorCode& ec) { if (U_FAILURE(ec)) { return; } if (theCurrency) { u_strncpy(fCurrency, theCurrency, 3); fCurrency[3] = 0; } else { fCurrency[0] = 0; } } const UChar* NumberFormat::getCurrency() const { return fCurrency; } void NumberFormat::getEffectiveCurrency(UChar* result, UErrorCode& ec) const { const UChar* c = getCurrency(); if (*c != 0) { u_strncpy(result, c, 3); result[3] = 0; } else { const char* loc = getLocaleID(ULOC_VALID_LOCALE, ec); if (loc == NULL) { loc = uloc_getDefault(); } ucurr_forLocale(loc, result, 4, &ec); } } // ------------------------------------- // Creates the NumberFormat instance of the specified style (number, currency, // or percent) for the desired locale. NumberFormat* NumberFormat::makeInstance(const Locale& desiredLocale, EStyles style, UErrorCode& status) { if (U_FAILURE(status)) return NULL; if (style < 0 || style >= kStyleCount) { status = U_ILLEGAL_ARGUMENT_ERROR; return NULL; } ResourceBundle resource((char *)0, desiredLocale, status); NumberFormat* f; if (U_FAILURE(status)) { // We don't appear to have resource data available -- use the last-resort data status = U_USING_FALLBACK_WARNING; // Use the DecimalFormatSymbols constructor which uses last-resort data DecimalFormatSymbols* symbolsToAdopt = new DecimalFormatSymbols(status); if (symbolsToAdopt == NULL) { status = U_MEMORY_ALLOCATION_ERROR; return NULL; } if (U_FAILURE(status)) { delete symbolsToAdopt; // This should never happen return NULL; } // Creates a DecimalFormat instance with the last resort number patterns. f = new DecimalFormat(fgLastResortNumberPatterns[style], symbolsToAdopt, status); if (f == NULL) { status = U_MEMORY_ALLOCATION_ERROR; return NULL; } if (U_FAILURE(status)) { delete f; f = NULL; } return f; } ResourceBundle numberPatterns(resource.get(DecimalFormat::fgNumberPatterns, status)); // If not all the styled patterns exists for the NumberFormat in this locale, // sets the status code to failure and returns nil. //if (patternCount < fgNumberPatternsCount) status = U_INVALID_FORMAT_ERROR; if (numberPatterns.getSize() < fgNumberPatternsCount) status = U_INVALID_FORMAT_ERROR; if (U_FAILURE(status)) return NULL; // Loads the decimal symbols of the desired locale. DecimalFormatSymbols* symbolsToAdopt = new DecimalFormatSymbols(desiredLocale, status); if (symbolsToAdopt == NULL) { status = U_MEMORY_ALLOCATION_ERROR; return NULL; } if (U_FAILURE(status)) { delete symbolsToAdopt; return NULL; } // Creates the specified decimal format style of the desired locale. if (style < numberPatterns.getSize()) { const UnicodeString pattern(numberPatterns.getStringEx(style, status)); if (U_SUCCESS(status)) { f = new DecimalFormat(pattern, symbolsToAdopt, status); } else { return NULL; } } else { // If the requested style doesn't exist, use a last-resort style. // This is to support scientific styles before we have all the // resource data in place. f = new DecimalFormat(fgLastResortNumberPatterns[style], symbolsToAdopt, status); } if (f == NULL) { status = U_MEMORY_ALLOCATION_ERROR; return NULL; } if (U_FAILURE(status)) { delete f; f = NULL; return NULL; } f->setLocales(numberPatterns); return f; } U_NAMESPACE_END // defined in ucln_cmn.h /** * Release all static memory held by numberformat. */ U_CFUNC UBool numfmt_cleanup(void) { if (gService) { delete gService; gService = NULL; } return TRUE; } #endif /* #if !UCONFIG_NO_FORMATTING */ //eof