// ***************************************************************************** // * This file is part of the FreeFileSync project. It is distributed under * // * GNU General Public License: https://www.gnu.org/licenses/gpl-3.0 * // * Copyright (C) Zenju (zenju AT freefilesync DOT org) - All Rights Reserved * // ***************************************************************************** #ifndef ZSTRING_H_73425873425789 #define ZSTRING_H_73425873425789 #include "string_base.h" using Zchar = char; #define Zstr(x) x const Zchar FILE_NAME_SEPARATOR = '/'; //"The reason for all the fuss above" - Loki/SmartPtr //a high-performance string for interfacing with native OS APIs in multithreaded contexts using Zstring = zen::Zbase; //for special UI-contexts: guaranteed exponential growth + ref-counting using Zstringw = zen::Zbase; //Compare filepaths: Windows/OS X does NOT distinguish between upper/lower-case, while Linux DOES struct CmpFilePath { int operator()(const Zchar* lhs, size_t lhsLen, const Zchar* rhs, size_t rhsLen) const; }; struct CmpNaturalSort { int operator()(const Zchar* lhs, size_t lhsLen, const Zchar* rhs, size_t rhsLen) const; }; struct LessFilePath { template //don't support heterogenous input! => use as container predicate only! bool operator()(const S& lhs, const S& rhs) const { using namespace zen; return CmpFilePath()(strBegin(lhs), strLength(lhs), strBegin(rhs), strLength(rhs)) < 0; } }; struct LessNaturalSort { template //don't support heterogenous input! => use as container predicate only! bool operator()(const S& lhs, const S& rhs) const { using namespace zen; return CmpNaturalSort()(strBegin(lhs), strLength(lhs), strBegin(rhs), strLength(rhs)) < 0; } }; template S makeUpperCopy(S str); template inline bool equalFilePath(const S& lhs, const T& rhs) { using namespace zen; return strEqual(lhs, rhs, CmpFilePath()); } inline Zstring appendSeparator(Zstring path) //support rvalue references! { return zen::endsWith(path, FILE_NAME_SEPARATOR) ? path : (path += FILE_NAME_SEPARATOR); //returning a by-value parameter implicitly converts to r-value! } inline Zstring getFileExtension(const Zstring& filePath) { //const Zstring fileName = afterLast(filePath, FILE_NAME_SEPARATOR, zen::IF_MISSING_RETURN_ALL); //return afterLast(fileName, Zstr('.'), zen::IF_MISSING_RETURN_NONE); auto it = zen::find_last(filePath.begin(), filePath.end(), FILE_NAME_SEPARATOR); if (it == filePath.end()) it = filePath.begin(); else ++it; auto it2 = zen::find_last(it, filePath.end(), Zstr('.')); if (it2 != filePath.end()) ++it2; return Zstring(it2, filePath.end()); } template S ciReplaceCpy(const S& str, const T& oldTerm, const U& newTerm); //common unicode sequences const wchar_t EM_DASH = L'\u2014'; const wchar_t EN_DASH = L'\u2013'; const wchar_t* const SPACED_DASH = L" \u2013 "; //using 'EN DASH' const wchar_t LTR_MARK = L'\u200E'; //UTF-8: E2 80 8E const wchar_t RTL_MARK = L'\u200F'; //UTF-8: E2 80 8F const wchar_t ELLIPSIS = L'\u2026'; //"..." const wchar_t MULT_SIGN = L'\u00D7'; //fancy "x" //################################# inline implementation ######################################## inline void makeUpperInPlace(wchar_t* str, size_t strLen) { std::for_each(str, str + strLen, [](wchar_t& c) { c = std::towupper(c); }); //locale-dependent! } inline void makeUpperInPlace(char* str, size_t strLen) { std::for_each(str, str + strLen, [](char& c) { c = std::toupper(static_cast(c)); }); //locale-dependent! //result of toupper() is an unsigned char mapped to int range: the char representation is in the last 8 bits and we need not care about signedness! //this should work for UTF-8, too: all chars >= 128 are mapped upon themselves! } template inline S makeUpperCopy(S str) { const size_t len = str.length(); //we assert S is a string type! if (len > 0) makeUpperInPlace(&*str.begin(), len); return str; } inline int CmpFilePath::operator()(const Zchar* lhs, size_t lhsLen, const Zchar* rhs, size_t rhsLen) const { assert(std::find(lhs, lhs + lhsLen, 0) == lhs + lhsLen); //don't expect embedded nulls! assert(std::find(rhs, rhs + rhsLen, 0) == rhs + rhsLen); // const int rv = std::strncmp(lhs, rhs, std::min(lhsLen, rhsLen)); if (rv != 0) return rv; return static_cast(lhsLen) - static_cast(rhsLen); } template inline S ciReplaceCpy(const S& str, const T& oldTerm, const U& newTerm) { using namespace zen; static_assert(std::is_same_v, GetCharTypeT>); static_assert(std::is_same_v, GetCharTypeT>); const size_t oldLen = strLength(oldTerm); if (oldLen == 0) return str; const S strU = makeUpperCopy(str); //S required to be a string class const S oldU = makeUpperCopy(oldTerm); //[!] T not required to be a string class assert(strLength(strU) == strLength(str )); assert(strLength(oldU) == strLength(oldTerm)); const auto* const newBegin = strBegin(newTerm); const auto* const newEnd = newBegin + strLength(newTerm); S output; for (size_t pos = 0;;) { const auto itFound = std::search(strU.begin() + pos, strU.end(), oldU.begin(), oldU.end()); if (itFound == strU.end() && pos == 0) return str; //optimize "oldTerm not found": return ref-counted copy impl::stringAppend(output, str.begin() + pos, str.begin() + (itFound - strU.begin())); if (itFound == strU.end()) return output; impl::stringAppend(output, newBegin, newEnd); pos = (itFound - strU.begin()) + oldLen; } } //expose for unit tests int cmpStringNaturalLinuxTest(const char* lhs, size_t lhsLen, const char* rhs, size_t rhsLen); inline int cmpStringNaturalLinux(const char* lhs, size_t lhsLen, const char* rhs, size_t rhsLen) { return cmpStringNaturalLinuxTest(lhs, lhsLen, rhs, rhsLen); } //--------------------------------------------------------------------------- //ZEN macro consistency checks: #endif //ZSTRING_H_73425873425789