1 // © 2017 and later: Unicode, Inc. and others.
2 // License & terms of use: http://www.unicode.org/copyright.html
3
4 #include "unicode/utypes.h"
5
6 #if !UCONFIG_NO_FORMATTING
7
8 #include "cstring.h"
9 #include "unicode/ures.h"
10 #include "uresimp.h"
11 #include "charstr.h"
12 #include "number_formatimpl.h"
13 #include "unicode/numfmt.h"
14 #include "number_patternstring.h"
15 #include "number_utils.h"
16 #include "unicode/numberformatter.h"
17 #include "unicode/dcfmtsym.h"
18 #include "number_scientific.h"
19 #include "number_compact.h"
20 #include "uresimp.h"
21 #include "ureslocs.h"
22
23 using namespace icu;
24 using namespace icu::number;
25 using namespace icu::number::impl;
26
27 namespace {
28
29 struct CurrencyFormatInfoResult {
30 bool exists;
31 const char16_t* pattern;
32 const char16_t* decimalSeparator;
33 const char16_t* groupingSeparator;
34 };
35
36 CurrencyFormatInfoResult
getCurrencyFormatInfo(const Locale & locale,const char * isoCode,UErrorCode & status)37 getCurrencyFormatInfo(const Locale& locale, const char* isoCode, UErrorCode& status) {
38 // TODO: Load this data in a centralized location like ICU4J?
39 // TODO: Move this into the CurrencySymbols class?
40 // TODO: Parts of this same data are loaded in dcfmtsym.cpp; should clean up.
41 CurrencyFormatInfoResult result = {false, nullptr, nullptr, nullptr};
42 if (U_FAILURE(status)) { return result; }
43 CharString key;
44 key.append("Currencies/", status);
45 key.append(isoCode, status);
46 UErrorCode localStatus = status;
47 LocalUResourceBundlePointer bundle(ures_open(U_ICUDATA_CURR, locale.getName(), &localStatus));
48 ures_getByKeyWithFallback(bundle.getAlias(), key.data(), bundle.getAlias(), &localStatus);
49 if (U_SUCCESS(localStatus) &&
50 ures_getSize(bundle.getAlias()) > 2) { // the length is 3 if more data is present
51 ures_getByIndex(bundle.getAlias(), 2, bundle.getAlias(), &localStatus);
52 int32_t dummy;
53 result.exists = true;
54 result.pattern = ures_getStringByIndex(bundle.getAlias(), 0, &dummy, &localStatus);
55 result.decimalSeparator = ures_getStringByIndex(bundle.getAlias(), 1, &dummy, &localStatus);
56 result.groupingSeparator = ures_getStringByIndex(bundle.getAlias(), 2, &dummy, &localStatus);
57 status = localStatus;
58 } else if (localStatus != U_MISSING_RESOURCE_ERROR) {
59 status = localStatus;
60 }
61 return result;
62 }
63
64 } // namespace
65
66
67 MicroPropsGenerator::~MicroPropsGenerator() = default;
68
69
NumberFormatterImpl(const MacroProps & macros,UErrorCode & status)70 NumberFormatterImpl::NumberFormatterImpl(const MacroProps& macros, UErrorCode& status)
71 : NumberFormatterImpl(macros, true, status) {
72 }
73
formatStatic(const MacroProps & macros,DecimalQuantity & inValue,FormattedStringBuilder & outString,UErrorCode & status)74 int32_t NumberFormatterImpl::formatStatic(const MacroProps& macros, DecimalQuantity& inValue,
75 FormattedStringBuilder& outString, UErrorCode& status) {
76 NumberFormatterImpl impl(macros, false, status);
77 MicroProps& micros = impl.preProcessUnsafe(inValue, status);
78 if (U_FAILURE(status)) { return 0; }
79 int32_t length = writeNumber(micros, inValue, outString, 0, status);
80 length += writeAffixes(micros, outString, 0, length, status);
81 return length;
82 }
83
getPrefixSuffixStatic(const MacroProps & macros,Signum signum,StandardPlural::Form plural,FormattedStringBuilder & outString,UErrorCode & status)84 int32_t NumberFormatterImpl::getPrefixSuffixStatic(const MacroProps& macros, Signum signum,
85 StandardPlural::Form plural,
86 FormattedStringBuilder& outString, UErrorCode& status) {
87 NumberFormatterImpl impl(macros, false, status);
88 return impl.getPrefixSuffixUnsafe(signum, plural, outString, status);
89 }
90
91 // NOTE: C++ SPECIFIC DIFFERENCE FROM JAVA:
92 // The "safe" apply method uses a new MicroProps. In the MicroPropsGenerator, fMicros is copied into the new instance.
93 // The "unsafe" method simply re-uses fMicros, eliminating the extra copy operation.
94 // See MicroProps::processQuantity() for details.
95
format(DecimalQuantity & inValue,FormattedStringBuilder & outString,UErrorCode & status) const96 int32_t NumberFormatterImpl::format(DecimalQuantity& inValue, FormattedStringBuilder& outString,
97 UErrorCode& status) const {
98 MicroProps micros;
99 preProcess(inValue, micros, status);
100 if (U_FAILURE(status)) { return 0; }
101 int32_t length = writeNumber(micros, inValue, outString, 0, status);
102 length += writeAffixes(micros, outString, 0, length, status);
103 return length;
104 }
105
preProcess(DecimalQuantity & inValue,MicroProps & microsOut,UErrorCode & status) const106 void NumberFormatterImpl::preProcess(DecimalQuantity& inValue, MicroProps& microsOut,
107 UErrorCode& status) const {
108 if (U_FAILURE(status)) { return; }
109 if (fMicroPropsGenerator == nullptr) {
110 status = U_INTERNAL_PROGRAM_ERROR;
111 return;
112 }
113 fMicroPropsGenerator->processQuantity(inValue, microsOut, status);
114 microsOut.rounder.apply(inValue, status);
115 microsOut.integerWidth.apply(inValue, status);
116 }
117
preProcessUnsafe(DecimalQuantity & inValue,UErrorCode & status)118 MicroProps& NumberFormatterImpl::preProcessUnsafe(DecimalQuantity& inValue, UErrorCode& status) {
119 if (U_FAILURE(status)) {
120 return fMicros; // must always return a value
121 }
122 if (fMicroPropsGenerator == nullptr) {
123 status = U_INTERNAL_PROGRAM_ERROR;
124 return fMicros; // must always return a value
125 }
126 fMicroPropsGenerator->processQuantity(inValue, fMicros, status);
127 fMicros.rounder.apply(inValue, status);
128 fMicros.integerWidth.apply(inValue, status);
129 return fMicros;
130 }
131
getPrefixSuffix(Signum signum,StandardPlural::Form plural,FormattedStringBuilder & outString,UErrorCode & status) const132 int32_t NumberFormatterImpl::getPrefixSuffix(Signum signum, StandardPlural::Form plural,
133 FormattedStringBuilder& outString, UErrorCode& status) const {
134 if (U_FAILURE(status)) { return 0; }
135 // #13453: DecimalFormat wants the affixes from the pattern only (modMiddle, aka pattern modifier).
136 // Safe path: use fImmutablePatternModifier.
137 const Modifier* modifier = fImmutablePatternModifier->getModifier(signum, plural);
138 modifier->apply(outString, 0, 0, status);
139 if (U_FAILURE(status)) { return 0; }
140 return modifier->getPrefixLength();
141 }
142
getPrefixSuffixUnsafe(Signum signum,StandardPlural::Form plural,FormattedStringBuilder & outString,UErrorCode & status)143 int32_t NumberFormatterImpl::getPrefixSuffixUnsafe(Signum signum, StandardPlural::Form plural,
144 FormattedStringBuilder& outString, UErrorCode& status) {
145 if (U_FAILURE(status)) { return 0; }
146 // #13453: DecimalFormat wants the affixes from the pattern only (modMiddle, aka pattern modifier).
147 // Unsafe path: use fPatternModifier.
148 fPatternModifier->setNumberProperties(signum, plural);
149 fPatternModifier->apply(outString, 0, 0, status);
150 if (U_FAILURE(status)) { return 0; }
151 return fPatternModifier->getPrefixLength();
152 }
153
NumberFormatterImpl(const MacroProps & macros,bool safe,UErrorCode & status)154 NumberFormatterImpl::NumberFormatterImpl(const MacroProps& macros, bool safe, UErrorCode& status) {
155 fMicroPropsGenerator = macrosToMicroGenerator(macros, safe, status);
156 }
157
158 //////////
159
160 const MicroPropsGenerator*
macrosToMicroGenerator(const MacroProps & macros,bool safe,UErrorCode & status)161 NumberFormatterImpl::macrosToMicroGenerator(const MacroProps& macros, bool safe, UErrorCode& status) {
162 if (U_FAILURE(status)) { return nullptr; }
163 const MicroPropsGenerator* chain = &fMicros;
164
165 // Check that macros is error-free before continuing.
166 if (macros.copyErrorTo(status)) {
167 return nullptr;
168 }
169
170 // TODO: Accept currency symbols from DecimalFormatSymbols?
171
172 // Pre-compute a few values for efficiency.
173 bool isCurrency = utils::unitIsCurrency(macros.unit);
174 bool isNoUnit = utils::unitIsNoUnit(macros.unit);
175 bool isPercent = utils::unitIsPercent(macros.unit);
176 bool isPermille = utils::unitIsPermille(macros.unit);
177 bool isAccounting =
178 macros.sign == UNUM_SIGN_ACCOUNTING || macros.sign == UNUM_SIGN_ACCOUNTING_ALWAYS ||
179 macros.sign == UNUM_SIGN_ACCOUNTING_EXCEPT_ZERO;
180 CurrencyUnit currency(u"", status);
181 if (isCurrency) {
182 currency = CurrencyUnit(macros.unit, status); // Restore CurrencyUnit from MeasureUnit
183 }
184 const CurrencySymbols* currencySymbols;
185 if (macros.currencySymbols != nullptr) {
186 // Used by the DecimalFormat code path
187 currencySymbols = macros.currencySymbols;
188 } else {
189 fWarehouse.fCurrencySymbols = {currency, macros.locale, status};
190 currencySymbols = &fWarehouse.fCurrencySymbols;
191 }
192 UNumberUnitWidth unitWidth = UNUM_UNIT_WIDTH_SHORT;
193 if (macros.unitWidth != UNUM_UNIT_WIDTH_COUNT) {
194 unitWidth = macros.unitWidth;
195 }
196 bool isCldrUnit = !isCurrency && !isNoUnit &&
197 (unitWidth == UNUM_UNIT_WIDTH_FULL_NAME || !(isPercent || isPermille));
198
199 // Select the numbering system.
200 LocalPointer<const NumberingSystem> nsLocal;
201 const NumberingSystem* ns;
202 if (macros.symbols.isNumberingSystem()) {
203 ns = macros.symbols.getNumberingSystem();
204 } else {
205 // TODO: Is there a way to avoid creating the NumberingSystem object?
206 ns = NumberingSystem::createInstance(macros.locale, status);
207 // Give ownership to the function scope.
208 nsLocal.adoptInstead(ns);
209 }
210 const char* nsName = U_SUCCESS(status) ? ns->getName() : "latn";
211 uprv_strncpy(fMicros.nsName, nsName, 8);
212 fMicros.nsName[8] = 0; // guarantee NUL-terminated
213
214 // Resolve the symbols. Do this here because currency may need to customize them.
215 if (macros.symbols.isDecimalFormatSymbols()) {
216 fMicros.symbols = macros.symbols.getDecimalFormatSymbols();
217 } else {
218 auto newSymbols = new DecimalFormatSymbols(macros.locale, *ns, status);
219 if (newSymbols == nullptr) {
220 status = U_MEMORY_ALLOCATION_ERROR;
221 return nullptr;
222 }
223 fMicros.symbols = newSymbols;
224 // Give ownership to the NumberFormatterImpl.
225 fSymbols.adoptInstead(fMicros.symbols);
226 }
227
228 // Load and parse the pattern string. It is used for grouping sizes and affixes only.
229 // If we are formatting currency, check for a currency-specific pattern.
230 const char16_t* pattern = nullptr;
231 if (isCurrency) {
232 CurrencyFormatInfoResult info = getCurrencyFormatInfo(
233 macros.locale, currency.getSubtype(), status);
234 if (info.exists) {
235 pattern = info.pattern;
236 // It's clunky to clone an object here, but this code is not frequently executed.
237 auto symbols = new DecimalFormatSymbols(*fMicros.symbols);
238 if (symbols == nullptr) {
239 status = U_MEMORY_ALLOCATION_ERROR;
240 return nullptr;
241 }
242 fMicros.symbols = symbols;
243 fSymbols.adoptInstead(symbols);
244 symbols->setSymbol(
245 DecimalFormatSymbols::ENumberFormatSymbol::kMonetarySeparatorSymbol,
246 UnicodeString(info.decimalSeparator),
247 FALSE);
248 symbols->setSymbol(
249 DecimalFormatSymbols::ENumberFormatSymbol::kMonetaryGroupingSeparatorSymbol,
250 UnicodeString(info.groupingSeparator),
251 FALSE);
252 }
253 }
254 if (pattern == nullptr) {
255 CldrPatternStyle patternStyle;
256 if (isCldrUnit) {
257 patternStyle = CLDR_PATTERN_STYLE_DECIMAL;
258 } else if (isPercent || isPermille) {
259 patternStyle = CLDR_PATTERN_STYLE_PERCENT;
260 } else if (!isCurrency || unitWidth == UNUM_UNIT_WIDTH_FULL_NAME) {
261 patternStyle = CLDR_PATTERN_STYLE_DECIMAL;
262 } else if (isAccounting) {
263 // NOTE: Although ACCOUNTING and ACCOUNTING_ALWAYS are only supported in currencies right now,
264 // the API contract allows us to add support to other units in the future.
265 patternStyle = CLDR_PATTERN_STYLE_ACCOUNTING;
266 } else {
267 patternStyle = CLDR_PATTERN_STYLE_CURRENCY;
268 }
269 pattern = utils::getPatternForStyle(macros.locale, nsName, patternStyle, status);
270 }
271 auto patternInfo = new ParsedPatternInfo();
272 if (patternInfo == nullptr) {
273 status = U_MEMORY_ALLOCATION_ERROR;
274 return nullptr;
275 }
276 fPatternInfo.adoptInstead(patternInfo);
277 PatternParser::parseToPatternInfo(UnicodeString(pattern), *patternInfo, status);
278
279 /////////////////////////////////////////////////////////////////////////////////////
280 /// START POPULATING THE DEFAULT MICROPROPS AND BUILDING THE MICROPROPS GENERATOR ///
281 /////////////////////////////////////////////////////////////////////////////////////
282
283 // Multiplier
284 if (macros.scale.isValid()) {
285 fMicros.helpers.multiplier.setAndChain(macros.scale, chain);
286 chain = &fMicros.helpers.multiplier;
287 }
288
289 // Rounding strategy
290 Precision precision;
291 if (!macros.precision.isBogus()) {
292 precision = macros.precision;
293 } else if (macros.notation.fType == Notation::NTN_COMPACT) {
294 precision = Precision::integer().withMinDigits(2);
295 } else if (isCurrency) {
296 precision = Precision::currency(UCURR_USAGE_STANDARD);
297 } else {
298 precision = Precision::maxFraction(6);
299 }
300 UNumberFormatRoundingMode roundingMode;
301 if (macros.roundingMode != kDefaultMode) {
302 roundingMode = macros.roundingMode;
303 } else {
304 // Temporary until ICU 64
305 roundingMode = precision.fRoundingMode;
306 }
307 fMicros.rounder = {precision, roundingMode, currency, status};
308
309 // Grouping strategy
310 if (!macros.grouper.isBogus()) {
311 fMicros.grouping = macros.grouper;
312 } else if (macros.notation.fType == Notation::NTN_COMPACT) {
313 // Compact notation uses minGrouping by default since ICU 59
314 fMicros.grouping = Grouper::forStrategy(UNUM_GROUPING_MIN2);
315 } else {
316 fMicros.grouping = Grouper::forStrategy(UNUM_GROUPING_AUTO);
317 }
318 fMicros.grouping.setLocaleData(*fPatternInfo, macros.locale);
319
320 // Padding strategy
321 if (!macros.padder.isBogus()) {
322 fMicros.padding = macros.padder;
323 } else {
324 fMicros.padding = Padder::none();
325 }
326
327 // Integer width
328 if (!macros.integerWidth.isBogus()) {
329 fMicros.integerWidth = macros.integerWidth;
330 } else {
331 fMicros.integerWidth = IntegerWidth::standard();
332 }
333
334 // Sign display
335 if (macros.sign != UNUM_SIGN_COUNT) {
336 fMicros.sign = macros.sign;
337 } else {
338 fMicros.sign = UNUM_SIGN_AUTO;
339 }
340
341 // Decimal mark display
342 if (macros.decimal != UNUM_DECIMAL_SEPARATOR_COUNT) {
343 fMicros.decimal = macros.decimal;
344 } else {
345 fMicros.decimal = UNUM_DECIMAL_SEPARATOR_AUTO;
346 }
347
348 // Use monetary separator symbols
349 fMicros.useCurrency = isCurrency;
350
351 // Inner modifier (scientific notation)
352 if (macros.notation.fType == Notation::NTN_SCIENTIFIC) {
353 auto newScientificHandler = new ScientificHandler(¯os.notation, fMicros.symbols, chain);
354 if (newScientificHandler == nullptr) {
355 status = U_MEMORY_ALLOCATION_ERROR;
356 return nullptr;
357 }
358 fScientificHandler.adoptInstead(newScientificHandler);
359 chain = fScientificHandler.getAlias();
360 } else {
361 // No inner modifier required
362 fMicros.modInner = &fMicros.helpers.emptyStrongModifier;
363 }
364
365 // Middle modifier (patterns, positive/negative, currency symbols, percent)
366 auto patternModifier = new MutablePatternModifier(false);
367 if (patternModifier == nullptr) {
368 status = U_MEMORY_ALLOCATION_ERROR;
369 return nullptr;
370 }
371 fPatternModifier.adoptInstead(patternModifier);
372 patternModifier->setPatternInfo(
373 macros.affixProvider != nullptr ? macros.affixProvider
374 : static_cast<const AffixPatternProvider*>(fPatternInfo.getAlias()),
375 UNUM_FIELD_COUNT);
376 patternModifier->setPatternAttributes(fMicros.sign, isPermille);
377 if (patternModifier->needsPlurals()) {
378 patternModifier->setSymbols(
379 fMicros.symbols,
380 currencySymbols,
381 unitWidth,
382 resolvePluralRules(macros.rules, macros.locale, status));
383 } else {
384 patternModifier->setSymbols(fMicros.symbols, currencySymbols, unitWidth, nullptr);
385 }
386 if (safe) {
387 fImmutablePatternModifier.adoptInstead(patternModifier->createImmutableAndChain(chain, status));
388 chain = fImmutablePatternModifier.getAlias();
389 } else {
390 patternModifier->addToChain(chain);
391 chain = patternModifier;
392 }
393
394 // Outer modifier (CLDR units and currency long names)
395 if (isCldrUnit) {
396 fLongNameHandler.adoptInstead(
397 LongNameHandler::forMeasureUnit(
398 macros.locale,
399 macros.unit,
400 macros.perUnit,
401 unitWidth,
402 resolvePluralRules(macros.rules, macros.locale, status),
403 chain,
404 status));
405 chain = fLongNameHandler.getAlias();
406 } else if (isCurrency && unitWidth == UNUM_UNIT_WIDTH_FULL_NAME) {
407 fLongNameHandler.adoptInstead(
408 LongNameHandler::forCurrencyLongNames(
409 macros.locale,
410 currency,
411 resolvePluralRules(macros.rules, macros.locale, status),
412 chain,
413 status));
414 chain = fLongNameHandler.getAlias();
415 } else {
416 // No outer modifier required
417 fMicros.modOuter = &fMicros.helpers.emptyWeakModifier;
418 }
419
420 // Compact notation
421 // NOTE: Compact notation can (but might not) override the middle modifier and rounding.
422 // It therefore needs to go at the end of the chain.
423 if (macros.notation.fType == Notation::NTN_COMPACT) {
424 CompactType compactType = (isCurrency && unitWidth != UNUM_UNIT_WIDTH_FULL_NAME)
425 ? CompactType::TYPE_CURRENCY : CompactType::TYPE_DECIMAL;
426 auto newCompactHandler = new CompactHandler(
427 macros.notation.fUnion.compactStyle,
428 macros.locale,
429 nsName,
430 compactType,
431 resolvePluralRules(macros.rules, macros.locale, status),
432 safe ? patternModifier : nullptr,
433 chain,
434 status);
435 if (newCompactHandler == nullptr) {
436 status = U_MEMORY_ALLOCATION_ERROR;
437 return nullptr;
438 }
439 fCompactHandler.adoptInstead(newCompactHandler);
440 chain = fCompactHandler.getAlias();
441 }
442
443 return chain;
444 }
445
446 const PluralRules*
resolvePluralRules(const PluralRules * rulesPtr,const Locale & locale,UErrorCode & status)447 NumberFormatterImpl::resolvePluralRules(const PluralRules* rulesPtr, const Locale& locale,
448 UErrorCode& status) {
449 if (rulesPtr != nullptr) {
450 return rulesPtr;
451 }
452 // Lazily create PluralRules
453 if (fRules.isNull()) {
454 fRules.adoptInstead(PluralRules::forLocale(locale, status));
455 }
456 return fRules.getAlias();
457 }
458
writeAffixes(const MicroProps & micros,FormattedStringBuilder & string,int32_t start,int32_t end,UErrorCode & status)459 int32_t NumberFormatterImpl::writeAffixes(const MicroProps& micros, FormattedStringBuilder& string,
460 int32_t start, int32_t end, UErrorCode& status) {
461 // Always apply the inner modifier (which is "strong").
462 int32_t length = micros.modInner->apply(string, start, end, status);
463 if (micros.padding.isValid()) {
464 length += micros.padding
465 .padAndApply(*micros.modMiddle, *micros.modOuter, string, start, length + end, status);
466 } else {
467 length += micros.modMiddle->apply(string, start, length + end, status);
468 length += micros.modOuter->apply(string, start, length + end, status);
469 }
470 return length;
471 }
472
writeNumber(const MicroProps & micros,DecimalQuantity & quantity,FormattedStringBuilder & string,int32_t index,UErrorCode & status)473 int32_t NumberFormatterImpl::writeNumber(const MicroProps& micros, DecimalQuantity& quantity,
474 FormattedStringBuilder& string, int32_t index,
475 UErrorCode& status) {
476 int32_t length = 0;
477 if (quantity.isInfinite()) {
478 length += string.insert(
479 length + index,
480 micros.symbols->getSymbol(DecimalFormatSymbols::ENumberFormatSymbol::kInfinitySymbol),
481 UNUM_INTEGER_FIELD,
482 status);
483
484 } else if (quantity.isNaN()) {
485 length += string.insert(
486 length + index,
487 micros.symbols->getSymbol(DecimalFormatSymbols::ENumberFormatSymbol::kNaNSymbol),
488 UNUM_INTEGER_FIELD,
489 status);
490
491 } else {
492 // Add the integer digits
493 length += writeIntegerDigits(micros, quantity, string, length + index, status);
494
495 // Add the decimal point
496 if (quantity.getLowerDisplayMagnitude() < 0 || micros.decimal == UNUM_DECIMAL_SEPARATOR_ALWAYS) {
497 length += string.insert(
498 length + index,
499 micros.useCurrency ? micros.symbols->getSymbol(
500 DecimalFormatSymbols::ENumberFormatSymbol::kMonetarySeparatorSymbol) : micros
501 .symbols
502 ->getSymbol(
503 DecimalFormatSymbols::ENumberFormatSymbol::kDecimalSeparatorSymbol),
504 UNUM_DECIMAL_SEPARATOR_FIELD,
505 status);
506 }
507
508 // Add the fraction digits
509 length += writeFractionDigits(micros, quantity, string, length + index, status);
510 }
511
512 return length;
513 }
514
writeIntegerDigits(const MicroProps & micros,DecimalQuantity & quantity,FormattedStringBuilder & string,int32_t index,UErrorCode & status)515 int32_t NumberFormatterImpl::writeIntegerDigits(const MicroProps& micros, DecimalQuantity& quantity,
516 FormattedStringBuilder& string, int32_t index,
517 UErrorCode& status) {
518 int length = 0;
519 int integerCount = quantity.getUpperDisplayMagnitude() + 1;
520 for (int i = 0; i < integerCount; i++) {
521 // Add grouping separator
522 if (micros.grouping.groupAtPosition(i, quantity)) {
523 length += string.insert(
524 index,
525 micros.useCurrency ? micros.symbols->getSymbol(
526 DecimalFormatSymbols::ENumberFormatSymbol::kMonetaryGroupingSeparatorSymbol)
527 : micros.symbols->getSymbol(
528 DecimalFormatSymbols::ENumberFormatSymbol::kGroupingSeparatorSymbol),
529 UNUM_GROUPING_SEPARATOR_FIELD,
530 status);
531 }
532
533 // Get and append the next digit value
534 int8_t nextDigit = quantity.getDigit(i);
535 length += utils::insertDigitFromSymbols(
536 string, index, nextDigit, *micros.symbols, UNUM_INTEGER_FIELD, status);
537 }
538 return length;
539 }
540
writeFractionDigits(const MicroProps & micros,DecimalQuantity & quantity,FormattedStringBuilder & string,int32_t index,UErrorCode & status)541 int32_t NumberFormatterImpl::writeFractionDigits(const MicroProps& micros, DecimalQuantity& quantity,
542 FormattedStringBuilder& string, int32_t index,
543 UErrorCode& status) {
544 int length = 0;
545 int fractionCount = -quantity.getLowerDisplayMagnitude();
546 for (int i = 0; i < fractionCount; i++) {
547 // Get and append the next digit value
548 int8_t nextDigit = quantity.getDigit(-i - 1);
549 length += utils::insertDigitFromSymbols(
550 string, length + index, nextDigit, *micros.symbols, UNUM_FRACTION_FIELD, status);
551 }
552 return length;
553 }
554
555 #endif /* #if !UCONFIG_NO_FORMATTING */
556