// © 2018 and later: Unicode, Inc. and others. // License & terms of use: http://www.unicode.org/copyright.html #include "unicode/utypes.h" #if !UCONFIG_NO_FORMATTING && !UPRV_INCOMPLETE_CPP11_SUPPORT // Allow implicit conversion from char16_t* to UnicodeString for this file: // Helpful in toString methods and elsewhere. #define UNISTR_FROM_STRING_EXPLICIT #include "unicode/numberrangeformatter.h" #include "numrange_impl.h" #include "uresimp.h" #include "util.h" using namespace icu; using namespace icu::number; using namespace icu::number::impl; namespace { // Helper function for 2-dimensional switch statement constexpr int8_t identity2d(UNumberRangeIdentityFallback a, UNumberRangeIdentityResult b) { return static_cast(a) | (static_cast(b) << 4); } struct NumberRangeData { SimpleFormatter rangePattern; SimpleFormatter approximatelyPattern; }; class NumberRangeDataSink : public ResourceSink { public: NumberRangeDataSink(NumberRangeData& data) : fData(data) {} void put(const char* key, ResourceValue& value, UBool /*noFallback*/, UErrorCode& status) U_OVERRIDE { ResourceTable miscTable = value.getTable(status); if (U_FAILURE(status)) { return; } for (int i = 0; miscTable.getKeyAndValue(i, key, value); i++) { if (uprv_strcmp(key, "range") == 0) { if (fData.rangePattern.getArgumentLimit() != 0) { continue; // have already seen this pattern } fData.rangePattern = {value.getUnicodeString(status), status}; } else if (uprv_strcmp(key, "approximately") == 0) { if (fData.approximatelyPattern.getArgumentLimit() != 0) { continue; // have already seen this pattern } fData.approximatelyPattern = {value.getUnicodeString(status), status}; } } } private: NumberRangeData& fData; }; void getNumberRangeData(const char* localeName, const char* nsName, NumberRangeData& data, UErrorCode& status) { if (U_FAILURE(status)) { return; } LocalUResourceBundlePointer rb(ures_open(NULL, localeName, &status)); if (U_FAILURE(status)) { return; } NumberRangeDataSink sink(data); CharString dataPath; dataPath.append("NumberElements/", -1, status); dataPath.append(nsName, -1, status); dataPath.append("/miscPatterns", -1, status); ures_getAllItemsWithFallback(rb.getAlias(), dataPath.data(), sink, status); if (U_FAILURE(status)) { return; } // TODO: Is it necessary to manually fall back to latn, or does the data sink take care of that? if (data.rangePattern.getArgumentLimit() == 0) { // No data! data.rangePattern = {u"{0} --- {1}", status}; } if (data.approximatelyPattern.getArgumentLimit() == 0) { // No data! data.approximatelyPattern = {u"~{0}", status}; } } class PluralRangesDataSink : public ResourceSink { public: PluralRangesDataSink(StandardPluralRanges& output) : fOutput(output) {} void put(const char* /*key*/, ResourceValue& value, UBool /*noFallback*/, UErrorCode& status) U_OVERRIDE { ResourceArray entriesArray = value.getArray(status); if (U_FAILURE(status)) { return; } fOutput.setCapacity(entriesArray.getSize()); for (int i = 0; entriesArray.getValue(i, value); i++) { ResourceArray pluralFormsArray = value.getArray(status); if (U_FAILURE(status)) { return; } pluralFormsArray.getValue(0, value); StandardPlural::Form first = StandardPlural::fromString(value.getUnicodeString(status), status); if (U_FAILURE(status)) { return; } pluralFormsArray.getValue(1, value); StandardPlural::Form second = StandardPlural::fromString(value.getUnicodeString(status), status); if (U_FAILURE(status)) { return; } pluralFormsArray.getValue(2, value); StandardPlural::Form result = StandardPlural::fromString(value.getUnicodeString(status), status); if (U_FAILURE(status)) { return; } fOutput.addPluralRange(first, second, result); } } private: StandardPluralRanges& fOutput; }; void getPluralRangesData(const Locale& locale, StandardPluralRanges& output, UErrorCode& status) { if (U_FAILURE(status)) { return; } LocalUResourceBundlePointer rb(ures_openDirect(nullptr, "pluralRanges", &status)); if (U_FAILURE(status)) { return; } CharString dataPath; dataPath.append("locales/", -1, status); dataPath.append(locale.getLanguage(), -1, status); if (U_FAILURE(status)) { return; } int32_t setLen; // Not all languages are covered: fail gracefully UErrorCode internalStatus = U_ZERO_ERROR; const UChar* set = ures_getStringByKey(rb.getAlias(), dataPath.data(), &setLen, &internalStatus); if (U_FAILURE(internalStatus)) { return; } dataPath.clear(); dataPath.append("rules/", -1, status); dataPath.appendInvariantChars(set, setLen, status); if (U_FAILURE(status)) { return; } PluralRangesDataSink sink(output); ures_getAllItemsWithFallback(rb.getAlias(), dataPath.data(), sink, status); if (U_FAILURE(status)) { return; } } } // namespace void StandardPluralRanges::initialize(const Locale& locale, UErrorCode& status) { getPluralRangesData(locale, *this, status); } void StandardPluralRanges::addPluralRange( StandardPlural::Form first, StandardPlural::Form second, StandardPlural::Form result) { U_ASSERT(fTriplesLen < fTriples.getCapacity()); fTriples[fTriplesLen] = {first, second, result}; fTriplesLen++; } void StandardPluralRanges::setCapacity(int32_t length) { if (length > fTriples.getCapacity()) { fTriples.resize(length, 0); } } StandardPlural::Form StandardPluralRanges::resolve(StandardPlural::Form first, StandardPlural::Form second) const { for (int32_t i=0; isemanticallyEquivalent(*micros2.modInner) || !micros1.modMiddle->semanticallyEquivalent(*micros2.modMiddle) || !micros1.modOuter->semanticallyEquivalent(*micros2.modOuter)) { formatRange(data, micros1, micros2, status); data.identityResult = UNUM_IDENTITY_RESULT_NOT_EQUAL; return; } // Check for identity if (equalBeforeRounding) { data.identityResult = UNUM_IDENTITY_RESULT_EQUAL_BEFORE_ROUNDING; } else if (data.quantity1 == data.quantity2) { data.identityResult = UNUM_IDENTITY_RESULT_EQUAL_AFTER_ROUNDING; } else { data.identityResult = UNUM_IDENTITY_RESULT_NOT_EQUAL; } switch (identity2d(fIdentityFallback, data.identityResult)) { case identity2d(UNUM_IDENTITY_FALLBACK_RANGE, UNUM_IDENTITY_RESULT_NOT_EQUAL): case identity2d(UNUM_IDENTITY_FALLBACK_RANGE, UNUM_IDENTITY_RESULT_EQUAL_AFTER_ROUNDING): case identity2d(UNUM_IDENTITY_FALLBACK_RANGE, UNUM_IDENTITY_RESULT_EQUAL_BEFORE_ROUNDING): case identity2d(UNUM_IDENTITY_FALLBACK_APPROXIMATELY, UNUM_IDENTITY_RESULT_NOT_EQUAL): case identity2d(UNUM_IDENTITY_FALLBACK_APPROXIMATELY_OR_SINGLE_VALUE, UNUM_IDENTITY_RESULT_NOT_EQUAL): case identity2d(UNUM_IDENTITY_FALLBACK_SINGLE_VALUE, UNUM_IDENTITY_RESULT_NOT_EQUAL): formatRange(data, micros1, micros2, status); break; case identity2d(UNUM_IDENTITY_FALLBACK_APPROXIMATELY, UNUM_IDENTITY_RESULT_EQUAL_AFTER_ROUNDING): case identity2d(UNUM_IDENTITY_FALLBACK_APPROXIMATELY, UNUM_IDENTITY_RESULT_EQUAL_BEFORE_ROUNDING): case identity2d(UNUM_IDENTITY_FALLBACK_APPROXIMATELY_OR_SINGLE_VALUE, UNUM_IDENTITY_RESULT_EQUAL_AFTER_ROUNDING): formatApproximately(data, micros1, micros2, status); break; case identity2d(UNUM_IDENTITY_FALLBACK_APPROXIMATELY_OR_SINGLE_VALUE, UNUM_IDENTITY_RESULT_EQUAL_BEFORE_ROUNDING): case identity2d(UNUM_IDENTITY_FALLBACK_SINGLE_VALUE, UNUM_IDENTITY_RESULT_EQUAL_AFTER_ROUNDING): case identity2d(UNUM_IDENTITY_FALLBACK_SINGLE_VALUE, UNUM_IDENTITY_RESULT_EQUAL_BEFORE_ROUNDING): formatSingleValue(data, micros1, micros2, status); break; default: U_ASSERT(false); break; } } void NumberRangeFormatterImpl::formatSingleValue(UFormattedNumberRangeData& data, MicroProps& micros1, MicroProps& micros2, UErrorCode& status) const { if (U_FAILURE(status)) { return; } if (fSameFormatters) { int32_t length = NumberFormatterImpl::writeNumber(micros1, data.quantity1, data.string, 0, status); NumberFormatterImpl::writeAffixes(micros1, data.string, 0, length, status); } else { formatRange(data, micros1, micros2, status); } } void NumberRangeFormatterImpl::formatApproximately (UFormattedNumberRangeData& data, MicroProps& micros1, MicroProps& micros2, UErrorCode& status) const { if (U_FAILURE(status)) { return; } if (fSameFormatters) { int32_t length = NumberFormatterImpl::writeNumber(micros1, data.quantity1, data.string, 0, status); length += NumberFormatterImpl::writeAffixes(micros1, data.string, 0, length, status); fApproximatelyModifier.apply(data.string, 0, length, status); } else { formatRange(data, micros1, micros2, status); } } void NumberRangeFormatterImpl::formatRange(UFormattedNumberRangeData& data, MicroProps& micros1, MicroProps& micros2, UErrorCode& status) const { if (U_FAILURE(status)) { return; } // modInner is always notation (scientific); collapsable in ALL. // modOuter is always units; collapsable in ALL, AUTO, and UNIT. // modMiddle could be either; collapsable in ALL and sometimes AUTO and UNIT. // Never collapse an outer mod but not an inner mod. bool collapseOuter, collapseMiddle, collapseInner; switch (fCollapse) { case UNUM_RANGE_COLLAPSE_ALL: case UNUM_RANGE_COLLAPSE_AUTO: case UNUM_RANGE_COLLAPSE_UNIT: { // OUTER MODIFIER collapseOuter = micros1.modOuter->semanticallyEquivalent(*micros2.modOuter); if (!collapseOuter) { // Never collapse inner mods if outer mods are not collapsable collapseMiddle = false; collapseInner = false; break; } // MIDDLE MODIFIER collapseMiddle = micros1.modMiddle->semanticallyEquivalent(*micros2.modMiddle); if (!collapseMiddle) { // Never collapse inner mods if outer mods are not collapsable collapseInner = false; break; } // MIDDLE MODIFIER HEURISTICS // (could disable collapsing of the middle modifier) // The modifiers are equal by this point, so we can look at just one of them. const Modifier* mm = micros1.modMiddle; if (fCollapse == UNUM_RANGE_COLLAPSE_UNIT) { // Only collapse if the modifier is a unit. // TODO: Make a better way to check for a unit? // TODO: Handle case where the modifier has both notation and unit (compact currency)? if (!mm->containsField(UNUM_CURRENCY_FIELD) && !mm->containsField(UNUM_PERCENT_FIELD)) { collapseMiddle = false; } } else if (fCollapse == UNUM_RANGE_COLLAPSE_AUTO) { // Heuristic as of ICU 63: collapse only if the modifier is more than one code point. if (mm->getCodePointCount() <= 1) { collapseMiddle = false; } } if (!collapseMiddle || fCollapse != UNUM_RANGE_COLLAPSE_ALL) { collapseInner = false; break; } // INNER MODIFIER collapseInner = micros1.modInner->semanticallyEquivalent(*micros2.modInner); // All done checking for collapsability. break; } default: collapseOuter = false; collapseMiddle = false; collapseInner = false; break; } NumberStringBuilder& string = data.string; int32_t lengthPrefix = 0; int32_t length1 = 0; int32_t lengthInfix = 0; int32_t length2 = 0; int32_t lengthSuffix = 0; // Use #define so that these are evaluated at the call site. #define UPRV_INDEX_0 (lengthPrefix) #define UPRV_INDEX_1 (lengthPrefix + length1) #define UPRV_INDEX_2 (lengthPrefix + length1 + lengthInfix) #define UPRV_INDEX_3 (lengthPrefix + length1 + lengthInfix + length2) int32_t lengthRange = SimpleModifier::formatTwoArgPattern( fRangeFormatter, string, 0, &lengthPrefix, &lengthSuffix, UNUM_FIELD_COUNT, status); if (U_FAILURE(status)) { return; } lengthInfix = lengthRange - lengthPrefix - lengthSuffix; // SPACING HEURISTIC // Add spacing unless all modifiers are collapsed. // TODO: add API to control this? { bool repeatInner = !collapseInner && micros1.modInner->getCodePointCount() > 0; bool repeatMiddle = !collapseMiddle && micros1.modMiddle->getCodePointCount() > 0; bool repeatOuter = !collapseOuter && micros1.modOuter->getCodePointCount() > 0; if (repeatInner || repeatMiddle || repeatOuter) { // Add spacing lengthInfix += string.insertCodePoint(UPRV_INDEX_1, u'\u0020', UNUM_FIELD_COUNT, status); lengthInfix += string.insertCodePoint(UPRV_INDEX_2, u'\u0020', UNUM_FIELD_COUNT, status); } } length1 += NumberFormatterImpl::writeNumber(micros1, data.quantity1, string, UPRV_INDEX_0, status); length2 += NumberFormatterImpl::writeNumber(micros2, data.quantity2, string, UPRV_INDEX_2, status); // TODO: Support padding? if (collapseInner) { // Note: this is actually a mix of prefix and suffix, but adding to infix length works const Modifier& mod = resolveModifierPlurals(*micros1.modInner, *micros2.modInner); lengthInfix += mod.apply(string, UPRV_INDEX_0, UPRV_INDEX_3, status); } else { length1 += micros1.modInner->apply(string, UPRV_INDEX_0, UPRV_INDEX_1, status); length2 += micros2.modInner->apply(string, UPRV_INDEX_2, UPRV_INDEX_3, status); } if (collapseMiddle) { // Note: this is actually a mix of prefix and suffix, but adding to infix length works const Modifier& mod = resolveModifierPlurals(*micros1.modMiddle, *micros2.modMiddle); lengthInfix += mod.apply(string, UPRV_INDEX_0, UPRV_INDEX_3, status); } else { length1 += micros1.modMiddle->apply(string, UPRV_INDEX_0, UPRV_INDEX_1, status); length2 += micros2.modMiddle->apply(string, UPRV_INDEX_2, UPRV_INDEX_3, status); } if (collapseOuter) { // Note: this is actually a mix of prefix and suffix, but adding to infix length works const Modifier& mod = resolveModifierPlurals(*micros1.modOuter, *micros2.modOuter); lengthInfix += mod.apply(string, UPRV_INDEX_0, UPRV_INDEX_3, status); } else { length1 += micros1.modOuter->apply(string, UPRV_INDEX_0, UPRV_INDEX_1, status); length2 += micros2.modOuter->apply(string, UPRV_INDEX_2, UPRV_INDEX_3, status); } } const Modifier& NumberRangeFormatterImpl::resolveModifierPlurals(const Modifier& first, const Modifier& second) const { Modifier::Parameters parameters; first.getParameters(parameters); if (parameters.obj == nullptr) { // No plural form; return a fallback (e.g., the first) return first; } StandardPlural::Form firstPlural = parameters.plural; second.getParameters(parameters); if (parameters.obj == nullptr) { // No plural form; return a fallback (e.g., the first) return first; } StandardPlural::Form secondPlural = parameters.plural; // Get the required plural form from data StandardPlural::Form resultPlural = fPluralRanges.resolve(firstPlural, secondPlural); // Get and return the new Modifier const Modifier* mod = parameters.obj->getModifier(parameters.signum, resultPlural); U_ASSERT(mod != nullptr); return *mod; } #endif /* #if !UCONFIG_NO_FORMATTING */