// © 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 // Allow implicit conversion from char16_t* to UnicodeString for this file: // Helpful in toString methods and elsewhere. #define UNISTR_FROM_STRING_EXPLICIT #include "numparse_types.h" #include "string_segment.h" #include "putilimp.h" #include "unicode/utf16.h" #include "unicode/uniset.h" U_NAMESPACE_BEGIN StringSegment::StringSegment(const UnicodeString& str, bool ignoreCase) : fStr(str), fStart(0), fEnd(str.length()), fFoldCase(ignoreCase) {} int32_t StringSegment::getOffset() const { return fStart; } void StringSegment::setOffset(int32_t start) { fStart = start; } void StringSegment::adjustOffset(int32_t delta) { fStart += delta; } void StringSegment::adjustOffsetByCodePoint() { fStart += U16_LENGTH(getCodePoint()); } void StringSegment::setLength(int32_t length) { fEnd = fStart + length; } void StringSegment::resetLength() { fEnd = fStr.length(); } int32_t StringSegment::length() const { return fEnd - fStart; } char16_t StringSegment::charAt(int32_t index) const { return fStr.charAt(index + fStart); } UChar32 StringSegment::codePointAt(int32_t index) const { return fStr.char32At(index + fStart); } UnicodeString StringSegment::toUnicodeString() const { return UnicodeString(fStr.getBuffer() + fStart, fEnd - fStart); } const UnicodeString StringSegment::toTempUnicodeString() const { // Use the readonly-aliasing constructor for efficiency. return UnicodeString(false, fStr.getBuffer() + fStart, fEnd - fStart); } UChar32 StringSegment::getCodePoint() const { char16_t lead = fStr.charAt(fStart); if (U16_IS_LEAD(lead) && fStart + 1 < fEnd) { return fStr.char32At(fStart); } else if (U16_IS_SURROGATE(lead)) { return -1; } else { return lead; } } bool StringSegment::startsWith(UChar32 otherCp) const { return codePointsEqual(getCodePoint(), otherCp, fFoldCase); } bool StringSegment::startsWith(const UnicodeSet& uniset) const { // TODO: Move UnicodeSet case-folding logic here. // TODO: Handle string matches here instead of separately. UChar32 cp = getCodePoint(); if (cp == -1) { return false; } return uniset.contains(cp); } bool StringSegment::startsWith(const UnicodeString& other) const { if (other.isBogus() || other.length() == 0 || length() == 0) { return false; } int cp1 = getCodePoint(); int cp2 = other.char32At(0); return codePointsEqual(cp1, cp2, fFoldCase); } int32_t StringSegment::getCommonPrefixLength(const UnicodeString& other) { return getPrefixLengthInternal(other, fFoldCase); } int32_t StringSegment::getCaseSensitivePrefixLength(const UnicodeString& other) { return getPrefixLengthInternal(other, false); } int32_t StringSegment::getPrefixLengthInternal(const UnicodeString& other, bool foldCase) { U_ASSERT(other.length() > 0); int32_t offset = 0; for (; offset < uprv_min(length(), other.length());) { // TODO: case-fold code points, not chars char16_t c1 = charAt(offset); char16_t c2 = other.charAt(offset); if (!codePointsEqual(c1, c2, foldCase)) { break; } offset++; } return offset; } bool StringSegment::codePointsEqual(UChar32 cp1, UChar32 cp2, bool foldCase) { if (cp1 == cp2) { return true; } if (!foldCase) { return false; } cp1 = u_foldCase(cp1, true); cp2 = u_foldCase(cp2, true); return cp1 == cp2; } bool StringSegment::operator==(const UnicodeString& other) const { return toTempUnicodeString() == other; } U_NAMESPACE_END #endif /* #if !UCONFIG_NO_FORMATTING */