// © 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 // This file contains one implementation of FormattedValue. // Other independent implementations should go into their own cpp file for // better dependency modularization. #include "unicode/ustring.h" #include "formattedval_impl.h" #include "number_types.h" #include "formatted_string_builder.h" #include "number_utils.h" #include "static_unicode_sets.h" #include "unicode/listformatter.h" U_NAMESPACE_BEGIN typedef FormattedStringBuilder::Field Field; FormattedValueStringBuilderImpl::FormattedValueStringBuilderImpl(Field numericField) : fNumericField(numericField) { } FormattedValueStringBuilderImpl::~FormattedValueStringBuilderImpl() { } UnicodeString FormattedValueStringBuilderImpl::toString(UErrorCode&) const { return fString.toUnicodeString(); } UnicodeString FormattedValueStringBuilderImpl::toTempString(UErrorCode&) const { return fString.toTempUnicodeString(); } Appendable& FormattedValueStringBuilderImpl::appendTo(Appendable& appendable, UErrorCode&) const { appendable.appendString(fString.chars(), fString.length()); return appendable; } UBool FormattedValueStringBuilderImpl::nextPosition(ConstrainedFieldPosition& cfpos, UErrorCode& status) const { // NOTE: MSVC sometimes complains when implicitly converting between bool and UBool return nextPositionImpl(cfpos, fNumericField, status) ? true : false; } UBool FormattedValueStringBuilderImpl::nextFieldPosition(FieldPosition& fp, UErrorCode& status) const { int32_t rawField = fp.getField(); if (rawField == FieldPosition::DONT_CARE) { return false; } if (rawField < 0 || rawField >= UNUM_FIELD_COUNT) { status = U_ILLEGAL_ARGUMENT_ERROR; return false; } ConstrainedFieldPosition cfpos; cfpos.constrainField(UFIELD_CATEGORY_NUMBER, rawField); cfpos.setState(UFIELD_CATEGORY_NUMBER, rawField, fp.getBeginIndex(), fp.getEndIndex()); if (nextPositionImpl(cfpos, kUndefinedField, status)) { fp.setBeginIndex(cfpos.getStart()); fp.setEndIndex(cfpos.getLimit()); return true; } // Special case: fraction should start after integer if fraction is not present if (rawField == UNUM_FRACTION_FIELD && fp.getEndIndex() == 0) { bool inside = false; int32_t i = fString.fZero; for (; i < fString.fZero + fString.fLength; i++) { if (isIntOrGroup(fString.getFieldPtr()[i]) || fString.getFieldPtr()[i] == Field(UFIELD_CATEGORY_NUMBER, UNUM_DECIMAL_SEPARATOR_FIELD)) { inside = true; } else if (inside) { break; } } fp.setBeginIndex(i - fString.fZero); fp.setEndIndex(i - fString.fZero); } return false; } void FormattedValueStringBuilderImpl::getAllFieldPositions(FieldPositionIteratorHandler& fpih, UErrorCode& status) const { ConstrainedFieldPosition cfpos; while (nextPositionImpl(cfpos, kUndefinedField, status)) { fpih.addAttribute(cfpos.getField(), cfpos.getStart(), cfpos.getLimit()); } } // Signal the end of the string using a field that doesn't exist and that is // different from kUndefinedField, which is used for "null field". static constexpr Field kEndField = Field(0xf, 0xf); bool FormattedValueStringBuilderImpl::nextPositionImpl(ConstrainedFieldPosition& cfpos, Field numericField, UErrorCode& /*status*/) const { int32_t fieldStart = -1; Field currField = kUndefinedField; for (int32_t i = fString.fZero + cfpos.getLimit(); i <= fString.fZero + fString.fLength; i++) { Field _field = (i < fString.fZero + fString.fLength) ? fString.getFieldPtr()[i] : kEndField; // Case 1: currently scanning a field. if (currField != kUndefinedField) { if (currField != _field) { int32_t end = i - fString.fZero; // Grouping separators can be whitespace; don't throw them out! if (isTrimmable(currField)) { end = trimBack(i - fString.fZero); } if (end <= fieldStart) { // Entire field position is ignorable; skip. fieldStart = -1; currField = kUndefinedField; i--; // look at this index again continue; } int32_t start = fieldStart; if (isTrimmable(currField)) { start = trimFront(start); } cfpos.setState(currField.getCategory(), currField.getField(), start, end); return true; } continue; } // Special case: coalesce the INTEGER if we are pointing at the end of the INTEGER. if (cfpos.matchesField(UFIELD_CATEGORY_NUMBER, UNUM_INTEGER_FIELD) && i > fString.fZero // don't return the same field twice in a row: && i - fString.fZero > cfpos.getLimit() && isIntOrGroup(fString.getFieldPtr()[i - 1]) && !isIntOrGroup(_field)) { int j = i - 1; for (; j >= fString.fZero && isIntOrGroup(fString.getFieldPtr()[j]); j--) {} cfpos.setState( UFIELD_CATEGORY_NUMBER, UNUM_INTEGER_FIELD, j - fString.fZero + 1, i - fString.fZero); return true; } // Special case: coalesce NUMERIC if we are pointing at the end of the NUMERIC. if (numericField != kUndefinedField && cfpos.matchesField(numericField.getCategory(), numericField.getField()) && i > fString.fZero // don't return the same field twice in a row: && (i - fString.fZero > cfpos.getLimit() || cfpos.getCategory() != numericField.getCategory() || cfpos.getField() != numericField.getField()) && fString.getFieldPtr()[i - 1].isNumeric() && !_field.isNumeric()) { // Re-wind to the beginning of the field and then emit it int32_t j = i - 1; for (; j >= fString.fZero && fString.getFieldPtr()[j].isNumeric(); j--) {} cfpos.setState( numericField.getCategory(), numericField.getField(), j - fString.fZero + 1, i - fString.fZero); return true; } // Special case: emit normalField if we are pointing at the end of spanField. if (i > fString.fZero) { auto elementField = fString.getFieldPtr()[i-1]; if (elementField == Field(UFIELD_CATEGORY_LIST, ULISTFMT_ELEMENT_FIELD) && cfpos.matchesField(elementField.getCategory(), elementField.getField()) && (cfpos.getLimit() < i - fString.fZero || cfpos.getCategory() != elementField.getCategory())) { int64_t si = cfpos.getInt64IterationContext() - 1; cfpos.setState( elementField.getCategory(), elementField.getField(), i - fString.fZero - spanIndices[si].length, i - fString.fZero); return true; } } // Special case: skip over INTEGER; will be coalesced later. if (_field == Field(UFIELD_CATEGORY_NUMBER, UNUM_INTEGER_FIELD)) { _field = kUndefinedField; } // Case 2: no field starting at this position. if (_field.isUndefined() || _field == kEndField) { continue; } // Case 3: check for field starting at this position // Case 3a: Need to add a SpanField if (_field == Field(UFIELD_CATEGORY_LIST, ULISTFMT_ELEMENT_FIELD)) { int64_t si = cfpos.getInt64IterationContext(); int32_t spanValue = spanIndices[si].spanValue; int32_t length = spanIndices[si].length; cfpos.setInt64IterationContext(si + 1); if (cfpos.matchesField(UFIELD_CATEGORY_LIST_SPAN, spanValue)) { UFieldCategory spanCategory = UFIELD_CATEGORY_LIST_SPAN; fieldStart = i - fString.fZero; int32_t end = fieldStart + length; cfpos.setState( spanCategory, spanValue, fieldStart, end); return true; } else { // Failed to match; jump ahead i += length - 1; continue; } } // Case 3b: No SpanField if (cfpos.matchesField(_field.getCategory(), _field.getField())) { fieldStart = i - fString.fZero; currField = _field; } } U_ASSERT(currField == kUndefinedField); // Always set the position to the end so that we don't revisit previous sections cfpos.setState( cfpos.getCategory(), cfpos.getField(), fString.fLength, fString.fLength); return false; } void FormattedValueStringBuilderImpl::appendSpanInfo(int32_t spanValue, int32_t length, UErrorCode& status) { if (U_FAILURE(status)) { return; } U_ASSERT(spanIndices.getCapacity() >= spanValue); if (spanIndices.getCapacity() == spanValue) { if (!spanIndices.resize(spanValue * 2, spanValue)) { status = U_MEMORY_ALLOCATION_ERROR; return; } } spanIndices[spanValue] = {spanValue, length}; } void FormattedValueStringBuilderImpl::prependSpanInfo(int32_t spanValue, int32_t length, UErrorCode& status) { if (U_FAILURE(status)) { return; } U_ASSERT(spanIndices.getCapacity() >= spanValue); if (spanIndices.getCapacity() == spanValue) { if (!spanIndices.resize(spanValue * 2, spanValue)) { status = U_MEMORY_ALLOCATION_ERROR; return; } } for (int32_t i = spanValue - 1; i >= 0; i--) { spanIndices[i+1] = spanIndices[i]; } spanIndices[0] = {spanValue, length}; } bool FormattedValueStringBuilderImpl::isIntOrGroup(Field field) { return field == Field(UFIELD_CATEGORY_NUMBER, UNUM_INTEGER_FIELD) || field == Field(UFIELD_CATEGORY_NUMBER, UNUM_GROUPING_SEPARATOR_FIELD); } bool FormattedValueStringBuilderImpl::isTrimmable(Field field) { return field != Field(UFIELD_CATEGORY_NUMBER, UNUM_GROUPING_SEPARATOR_FIELD) && field.getCategory() != UFIELD_CATEGORY_LIST; } int32_t FormattedValueStringBuilderImpl::trimBack(int32_t limit) const { return unisets::get(unisets::DEFAULT_IGNORABLES)->spanBack( fString.getCharPtr() + fString.fZero, limit, USET_SPAN_CONTAINED); } int32_t FormattedValueStringBuilderImpl::trimFront(int32_t start) const { return start + unisets::get(unisets::DEFAULT_IGNORABLES)->span( fString.getCharPtr() + fString.fZero + start, fString.fLength - start, USET_SPAN_CONTAINED); } U_NAMESPACE_END #endif /* #if !UCONFIG_NO_FORMATTING */