#include "StarStringView.hpp" namespace Star { // To string String::String(StringView s) : m_string(s.utf8()) {} String::String(std::string_view s) : m_string(s) {} String& String::operator+=(StringView s) { m_string += s.utf8(); return *this; } String& String::operator+=(std::string_view s) { m_string += s; return *this; } StringView::StringView() {} StringView::StringView(StringView const& s) : m_view(s.m_view) {} StringView::StringView(StringView&& s) noexcept : m_view(move(s.m_view)) {}; StringView::StringView(String const& s) : m_view(s.utf8()) {}; StringView::StringView(char const* s) : m_view(s) {}; StringView::StringView(char const* s, size_t n) : m_view(s, n) {}; StringView::StringView(std::string_view const& s) : m_view(s) {}; StringView::StringView(std::string_view&& s) noexcept : m_view(move(s)) {}; StringView::StringView(std::string const& s) : m_view(s) {} StringView::StringView(Char const* s) : m_view((char const*)s, sizeof(*s)) {} StringView::StringView(Char const* s, size_t n) : m_view((char const*)s, n * sizeof(*s)) {}; std::string_view const& StringView::utf8() const { return m_view; } std::string_view StringView::takeUtf8() { return take(m_view); } ByteArray StringView::utf8Bytes() const { return ByteArray(m_view.data(), m_view.size()); } char const* StringView::utf8Ptr() const { return m_view.data(); } size_t StringView::utf8Size() const { return m_view.size(); } StringView::const_iterator StringView::begin() const { return const_iterator(m_view.begin()); } StringView::const_iterator StringView::end() const { return const_iterator(m_view.end()); } size_t StringView::size() const { return utf8Length(m_view.data(), m_view.size()); } size_t StringView::length() const { return size(); } bool StringView::empty() const { return m_view.empty(); } StringView::Char StringView::operator[](size_t index) const { auto it = begin(); for (size_t i = 0; i < index; ++i) ++it; return *it; } StringView::Char StringView::at(size_t index) const { auto it = begin(); auto itEnd = end(); for (size_t i = 0; i < index; ++i) { ++it; if (it == itEnd) throw OutOfRangeException(strf("Out of range in StringView::at({})", i)); } return *it; } bool StringView::endsWith(StringView end, CaseSensitivity cs) const { auto endsize = end.size(); if (endsize == 0) return true; auto mysize = size(); if (endsize > mysize) return false; return compare(mysize - endsize, NPos, end, 0, NPos, cs) == 0; } bool StringView::endsWith(Char end, CaseSensitivity cs) const { if (m_view.empty()) return false; return String::charEqual(end, operator[](size() - 1), cs); } bool StringView::beginsWith(StringView beg, CaseSensitivity cs) const { if (beg.m_view.empty()) return true; size_t begSize = beg.size(); auto it = begin(); auto itEnd = end(); for (size_t i = 0; i != begSize; ++i) if (it++ == itEnd) return false; return compare(0, begSize, beg, 0, NPos, cs) == 0; } bool StringView::beginsWith(Char beg, CaseSensitivity cs) const { if (m_view.empty()) return false; return String::charEqual(beg, operator[](0), cs); } void StringView::forEachSplitAnyView(StringView chars, SplitCallback callback) const { if (chars.empty()) return; size_t beg = 0; while (true) { size_t end = m_view.find_first_of(chars.m_view, beg); if (end == NPos) { callback(m_view.substr(beg), beg, m_view.size() - beg); break; } callback(m_view.substr(beg, end - beg), beg, end - beg); beg = end + 1; } } void StringView::forEachSplitView(StringView pattern, SplitCallback callback) const { if (pattern.empty()) return; size_t beg = 0; while (true) { size_t end = m_view.find(pattern.m_view, beg); if (end == NPos) { callback(m_view.substr(beg), beg, m_view.size() - beg); break; } callback(m_view.substr(beg, end - beg), beg, end - beg); beg = end + pattern.m_view.size(); } } bool StringView::hasChar(Char c) const { for (Char ch : *this) if (ch == c) return true; return false; } bool StringView::hasCharOrWhitespace(Char c) const { return empty() ? String::isSpace(c) : hasChar(c); } size_t StringView::find(Char c, size_t pos, CaseSensitivity cs) const { auto it = begin(); for (size_t i = 0; i < pos; ++i) { if (it == end()) break; ++it; } while (it != end()) { if (String::charEqual(c, *it, cs)) return pos; ++pos; ++it; } return NPos; } size_t StringView::find(StringView str, size_t pos, CaseSensitivity cs) const { if (str.empty()) return 0; auto it = begin(); for (size_t i = 0; i < pos; ++i) { if (it == end()) break; ++it; } const_iterator sit = str.begin(); const_iterator mit = it; while (it != end()) { if (String::charEqual(*sit, *mit, cs)) { do { ++mit; ++sit; if (sit == str.end()) return pos; else if (mit == end()) break; } while (String::charEqual(*sit, *mit, cs)); sit = str.begin(); } ++pos; mit = ++it; } return NPos; } size_t StringView::findLast(Char c, CaseSensitivity cs) const { auto it = begin(); size_t found = NPos; size_t pos = 0; while (it != end()) { if (String::charEqual(c, *it, cs)) found = pos; ++pos; ++it; } return found; } size_t StringView::findLast(StringView str, CaseSensitivity cs) const { if (str.empty()) return 0; size_t pos = 0; auto it = begin(); size_t result = NPos; const_iterator sit = str.begin(); const_iterator mit = it; while (it != end()) { if (String::charEqual(*sit, *mit, cs)) { do { ++mit; ++sit; if (sit == str.end()) { result = pos; break; } if (mit == end()) break; } while (String::charEqual(*sit, *mit, cs)); sit = str.begin(); } ++pos; mit = ++it; } return result; } size_t StringView::findFirstOf(StringView pattern, size_t beg) const { auto it = begin(); size_t i; for (i = 0; i < beg; ++i) ++it; while (it != end()) { if (pattern.hasCharOrWhitespace(*it)) return i; ++it; ++i; } return NPos; } size_t StringView::findFirstNotOf(StringView pattern, size_t beg) const { auto it = begin(); size_t i; for (i = 0; i < beg; ++i) ++it; while (it != end()) { if (!pattern.hasCharOrWhitespace(*it)) return i; ++it; ++i; } return NPos; } size_t StringView::findNextBoundary(size_t index, bool backwards) const { size_t mySize = size(); starAssert(index <= mySize); if (!backwards && (index == mySize)) return index; if (backwards) { if (index == 0) return 0; index--; } Char c = this->at(index); while (!String::isSpace(c)) { if (backwards && (index == 0)) return 0; index += backwards ? -1 : 1; if (index == mySize) return mySize; c = this->at(index); } while (String::isSpace(c)) { if (backwards && (index == 0)) return 0; index += backwards ? -1 : 1; if (index == mySize) return mySize; c = this->at(index); } if (backwards && !(index == mySize)) return index + 1; return index; } bool StringView::contains(StringView s, CaseSensitivity cs) const { return find(s, 0, cs) != NPos; } int StringView::compare(StringView s, CaseSensitivity cs) const { if (cs == CaseSensitivity::CaseSensitive) return m_view.compare(s.m_view); else return compare(0, NPos, s, 0, NPos, cs); } bool StringView::equals(StringView s, CaseSensitivity cs) const { return compare(s, cs) == 0; } bool StringView::equalsIgnoreCase(StringView s) const { return compare(s, CaseSensitivity::CaseInsensitive) == 0; } StringView StringView::substr(size_t position, size_t n) const { StringView ret; auto itEnd = end(); auto it = begin(); for (size_t i = 0; i != position; ++i) { if (it++ == itEnd) throw OutOfRangeException(strf("out of range in StringView::substr({}, {})", position, n)); } const char* start = &*it.base(); for (size_t i = 0; i != n; ++i) { if (it++ == itEnd) return StringView(start, &*it.base() - start - 1); } return StringView(start, &*it.base() - start); } int StringView::compare(size_t selfOffset, size_t selfLen, StringView other, size_t otherOffset, size_t otherLen, CaseSensitivity cs) const { auto selfIt = begin(); auto otherIt = other.begin(); while (selfOffset > 0 && selfIt != end()) { ++selfIt; --selfOffset; } while (otherOffset > 0 && otherIt != other.end()) { ++otherIt; --otherLen; } while (true) { if ((selfIt == end() || selfLen == 0) && (otherIt == other.end() || otherLen == 0)) return 0; else if (selfIt == end() || selfLen == 0) return -1; else if (otherIt == other.end() || otherLen == 0) return 1; auto c1 = *selfIt; auto c2 = *otherIt; if (cs == CaseSensitivity::CaseInsensitive) { c1 = String::toLower(c1); c2 = String::toLower(c2); } if (c1 < c2) return -1; else if (c2 < c1) return 1; ++selfIt; ++otherIt; --selfLen; --otherLen; } } StringView& StringView::operator=(StringView s) { m_view = s.m_view; return *this; } bool operator==(StringView s1, const char* s2) { return s1.m_view.compare(s2) == 0; } bool operator==(StringView s1, StringView s2) { return s1.m_view == s2.m_view; } bool operator!=(StringView s1, StringView s2) { return s1.m_view != s2.m_view; } bool operator<(StringView s1, StringView s2) { return s1.m_view < s2.m_view; } std::ostream& operator<<(std::ostream& os, StringView const& s) { os << s.utf8(); return os; } } fmt::appender fmt::formatter::format(Star::StringView const& s, format_context& ctx) const { return formatter::format(s.utf8(), ctx); };