/* ******************************************************************************** * Copyright (C) 2005-2014, International Business Machines * Corporation and others. All Rights Reserved. ******************************************************************************** * * File WINNMFMT.CPP * ******************************************************************************** */ #include "unicode/utypes.h" #if U_PLATFORM_USES_ONLY_WIN32_API #if !UCONFIG_NO_FORMATTING #include "winnmfmt.h" #include "unicode/format.h" #include "unicode/numfmt.h" #include "unicode/locid.h" #include "unicode/ustring.h" #include "cmemory.h" #include "uassert.h" #include "locmap.h" # define WIN32_LEAN_AND_MEAN # define VC_EXTRALEAN # define NOUSER # define NOSERVICE # define NOIME # define NOMCX #include #include U_NAMESPACE_BEGIN union FormatInfo { NUMBERFMTW number; CURRENCYFMTW currency; }; UOBJECT_DEFINE_RTTI_IMPLEMENTATION(Win32NumberFormat) #define NEW_ARRAY(type,count) (type *) uprv_malloc((count) * sizeof(type)) #define DELETE_ARRAY(array) uprv_free((void *) (array)) #define STACK_BUFFER_SIZE 32 /* * Turns a string of the form "3;2;0" into the grouping UINT * needed for NUMBERFMT and CURRENCYFMT. If the string does not * end in ";0" then the return value should be multiplied by 10. * (e.g. "3" => 30, "3;2" => 320) */ static UINT getGrouping(const char *grouping) { UINT g = 0; const char *s; for (s = grouping; *s != '\0'; s += 1) { if (*s > '0' && *s < '9') { g = g * 10 + (*s - '0'); } else if (*s != ';') { break; } } if (*s != '0') { g *= 10; } return g; } static void getNumberFormat(NUMBERFMTW *fmt, int32_t lcid) { char buf[10]; GetLocaleInfoW(lcid, LOCALE_RETURN_NUMBER|LOCALE_IDIGITS, (LPWSTR) &fmt->NumDigits, sizeof(UINT)); GetLocaleInfoW(lcid, LOCALE_RETURN_NUMBER|LOCALE_ILZERO, (LPWSTR) &fmt->LeadingZero, sizeof(UINT)); GetLocaleInfoA(lcid, LOCALE_SGROUPING, buf, 10); fmt->Grouping = getGrouping(buf); fmt->lpDecimalSep = NEW_ARRAY(UChar, 6); GetLocaleInfoW(lcid, LOCALE_SDECIMAL, fmt->lpDecimalSep, 6); fmt->lpThousandSep = NEW_ARRAY(UChar, 6); GetLocaleInfoW(lcid, LOCALE_STHOUSAND, fmt->lpThousandSep, 6); GetLocaleInfoW(lcid, LOCALE_RETURN_NUMBER|LOCALE_INEGNUMBER, (LPWSTR) &fmt->NegativeOrder, sizeof(UINT)); } static void freeNumberFormat(NUMBERFMTW *fmt) { if (fmt != NULL) { DELETE_ARRAY(fmt->lpThousandSep); DELETE_ARRAY(fmt->lpDecimalSep); } } static void getCurrencyFormat(CURRENCYFMTW *fmt, int32_t lcid) { char buf[10]; GetLocaleInfoW(lcid, LOCALE_RETURN_NUMBER|LOCALE_ICURRDIGITS, (LPWSTR) &fmt->NumDigits, sizeof(UINT)); GetLocaleInfoW(lcid, LOCALE_RETURN_NUMBER|LOCALE_ILZERO, (LPWSTR) &fmt->LeadingZero, sizeof(UINT)); GetLocaleInfoA(lcid, LOCALE_SMONGROUPING, buf, sizeof(buf)); fmt->Grouping = getGrouping(buf); fmt->lpDecimalSep = NEW_ARRAY(UChar, 6); GetLocaleInfoW(lcid, LOCALE_SMONDECIMALSEP, fmt->lpDecimalSep, 6); fmt->lpThousandSep = NEW_ARRAY(UChar, 6); GetLocaleInfoW(lcid, LOCALE_SMONTHOUSANDSEP, fmt->lpThousandSep, 6); GetLocaleInfoW(lcid, LOCALE_RETURN_NUMBER|LOCALE_INEGCURR, (LPWSTR) &fmt->NegativeOrder, sizeof(UINT)); GetLocaleInfoW(lcid, LOCALE_RETURN_NUMBER|LOCALE_ICURRENCY, (LPWSTR) &fmt->PositiveOrder, sizeof(UINT)); fmt->lpCurrencySymbol = NEW_ARRAY(UChar, 8); GetLocaleInfoW(lcid, LOCALE_SCURRENCY, (LPWSTR) fmt->lpCurrencySymbol, 8); } static void freeCurrencyFormat(CURRENCYFMTW *fmt) { if (fmt != NULL) { DELETE_ARRAY(fmt->lpCurrencySymbol); DELETE_ARRAY(fmt->lpThousandSep); DELETE_ARRAY(fmt->lpDecimalSep); } } Win32NumberFormat::Win32NumberFormat(const Locale &locale, UBool currency, UErrorCode &status) : NumberFormat(), fCurrency(currency), fFractionDigitsSet(FALSE), fFormatInfo(NULL) { if (!U_FAILURE(status)) { fLCID = locale.getLCID(); // Resolve actual locale to be used later UErrorCode tmpsts = U_ZERO_ERROR; char tmpLocID[ULOC_FULLNAME_CAPACITY]; int32_t len = uloc_getLocaleForLCID(fLCID, tmpLocID, sizeof(tmpLocID)/sizeof(tmpLocID[0]) - 1, &tmpsts); if (U_SUCCESS(tmpsts)) { tmpLocID[len] = 0; fLocale = Locale((const char*)tmpLocID); } fFormatInfo = (FormatInfo*)uprv_malloc(sizeof(FormatInfo)); if (fCurrency) { getCurrencyFormat(&fFormatInfo->currency, fLCID); } else { getNumberFormat(&fFormatInfo->number, fLCID); } } } Win32NumberFormat::Win32NumberFormat(const Win32NumberFormat &other) : NumberFormat(other), fFormatInfo((FormatInfo*)uprv_malloc(sizeof(FormatInfo))) { if (fFormatInfo != NULL) { uprv_memset(fFormatInfo, 0, sizeof(*fFormatInfo)); } *this = other; } Win32NumberFormat::~Win32NumberFormat() { if (fFormatInfo != NULL) { if (fCurrency) { freeCurrencyFormat(&fFormatInfo->currency); } else { freeNumberFormat(&fFormatInfo->number); } uprv_free(fFormatInfo); } } Win32NumberFormat &Win32NumberFormat::operator=(const Win32NumberFormat &other) { NumberFormat::operator=(other); this->fCurrency = other.fCurrency; this->fLocale = other.fLocale; this->fLCID = other.fLCID; this->fFractionDigitsSet = other.fFractionDigitsSet; if (fCurrency) { freeCurrencyFormat(&fFormatInfo->currency); getCurrencyFormat(&fFormatInfo->currency, fLCID); } else { freeNumberFormat(&fFormatInfo->number); getNumberFormat(&fFormatInfo->number, fLCID); } return *this; } Format *Win32NumberFormat::clone(void) const { return new Win32NumberFormat(*this); } UnicodeString& Win32NumberFormat::format(double number, UnicodeString& appendTo, FieldPosition& pos) const { return format(getMaximumFractionDigits(), appendTo, L"%.16f", number); } UnicodeString& Win32NumberFormat::format(int32_t number, UnicodeString& appendTo, FieldPosition& pos) const { return format(getMinimumFractionDigits(), appendTo, L"%I32d", number); } UnicodeString& Win32NumberFormat::format(int64_t number, UnicodeString& appendTo, FieldPosition& pos) const { return format(getMinimumFractionDigits(), appendTo, L"%I64d", number); } void Win32NumberFormat::parse(const UnicodeString& text, Formattable& result, ParsePosition& parsePosition) const { UErrorCode status = U_ZERO_ERROR; NumberFormat *nf = fCurrency? NumberFormat::createCurrencyInstance(fLocale, status) : NumberFormat::createInstance(fLocale, status); nf->parse(text, result, parsePosition); delete nf; } void Win32NumberFormat::setMaximumFractionDigits(int32_t newValue) { fFractionDigitsSet = TRUE; NumberFormat::setMaximumFractionDigits(newValue); } void Win32NumberFormat::setMinimumFractionDigits(int32_t newValue) { fFractionDigitsSet = TRUE; NumberFormat::setMinimumFractionDigits(newValue); } UnicodeString &Win32NumberFormat::format(int32_t numDigits, UnicodeString &appendTo, const wchar_t *fmt, ...) const { wchar_t nStackBuffer[STACK_BUFFER_SIZE]; wchar_t *nBuffer = nStackBuffer; va_list args; int result; nBuffer[0] = 0x0000; /* Due to the arguments causing a result to be <= 23 characters (+2 for NULL and minus), we don't need to reallocate the buffer. */ va_start(args, fmt); result = _vsnwprintf(nBuffer, STACK_BUFFER_SIZE, fmt, args); va_end(args); /* Just to make sure of the above statement, we add this assert */ U_ASSERT(result >=0); // The following code is not used because _vscwprintf isn't available on MinGW at the moment. /*if (result < 0) { int newLength; va_start(args, fmt); newLength = _vscwprintf(fmt, args); va_end(args); nBuffer = NEW_ARRAY(UChar, newLength + 1); va_start(args, fmt); result = _vsnwprintf(nBuffer, newLength + 1, fmt, args); va_end(args); }*/ // vswprintf is sensitive to the locale set by setlocale. For some locales // it doesn't use "." as the decimal separator, which is what GetNumberFormatW // and GetCurrencyFormatW both expect to see. // // To fix this, we scan over the string and replace the first non-digits, except // for a leading "-", with a "." // // Note: (nBuffer[0] == L'-') will evaluate to 1 if there is a leading '-' in the // number, and 0 otherwise. for (wchar_t *p = &nBuffer[nBuffer[0] == L'-']; *p != L'\0'; p += 1) { if (*p < L'0' || *p > L'9') { *p = L'.'; break; } } UChar stackBuffer[STACK_BUFFER_SIZE]; UChar *buffer = stackBuffer; FormatInfo formatInfo; formatInfo = *fFormatInfo; buffer[0] = 0x0000; if (fCurrency) { if (fFractionDigitsSet) { formatInfo.currency.NumDigits = (UINT) numDigits; } if (!isGroupingUsed()) { formatInfo.currency.Grouping = 0; } result = GetCurrencyFormatW(fLCID, 0, nBuffer, &formatInfo.currency, buffer, STACK_BUFFER_SIZE); if (result == 0) { DWORD lastError = GetLastError(); if (lastError == ERROR_INSUFFICIENT_BUFFER) { int newLength = GetCurrencyFormatW(fLCID, 0, nBuffer, &formatInfo.currency, NULL, 0); buffer = NEW_ARRAY(UChar, newLength); buffer[0] = 0x0000; GetCurrencyFormatW(fLCID, 0, nBuffer, &formatInfo.currency, buffer, newLength); } } } else { if (fFractionDigitsSet) { formatInfo.number.NumDigits = (UINT) numDigits; } if (!isGroupingUsed()) { formatInfo.number.Grouping = 0; } result = GetNumberFormatW(fLCID, 0, nBuffer, &formatInfo.number, buffer, STACK_BUFFER_SIZE); if (result == 0) { if (GetLastError() == ERROR_INSUFFICIENT_BUFFER) { int newLength = GetNumberFormatW(fLCID, 0, nBuffer, &formatInfo.number, NULL, 0); buffer = NEW_ARRAY(UChar, newLength); buffer[0] = 0x0000; GetNumberFormatW(fLCID, 0, nBuffer, &formatInfo.number, buffer, newLength); } } } appendTo.append(buffer, (int32_t) wcslen(buffer)); if (buffer != stackBuffer) { DELETE_ARRAY(buffer); } /*if (nBuffer != nStackBuffer) { DELETE_ARRAY(nBuffer); }*/ return appendTo; } U_NAMESPACE_END #endif /* #if !UCONFIG_NO_FORMATTING */ #endif // U_PLATFORM_USES_ONLY_WIN32_API