#include "zstring.h" #include #ifdef FFS_WIN #include //includes "windows.h" #endif //FFS_WIN #ifdef __WXDEBUG__ #include #endif #ifdef __WXDEBUG__ AllocationCount::~AllocationCount() { if (activeStrings.size() > 0) #ifdef FFS_WIN { int rowCount = 0; wxString leakingStrings; for (std::set::const_iterator i = activeStrings.begin(); i != activeStrings.end() && ++rowCount <= 10; ++i) { leakingStrings += wxT("\""); leakingStrings += *i; leakingStrings += wxT("\"\n"); } MessageBox(NULL, wxString(wxT("Memory leak detected!")) + wxT("\n\n") + wxT("Candidates:\n") + leakingStrings, wxString::Format(wxT("%i"), activeStrings.size()), 0); } #else throw std::logic_error("Memory leak!"); #endif } AllocationCount& AllocationCount::getInstance() { static AllocationCount global; return global; } #endif #ifdef FFS_WIN inline int compareStringsWin32(const wchar_t* a, const wchar_t* b, const int aCount = -1, const int bCount = -1) { //DON'T use lstrcmpi() here! It uses word sort, which unfortunately is NOT always a strict weak sorting function for some locales (e.g. swedish) //Use CompareString() with "SORT_STRINGSORT" instead!!! const int rv = CompareString( LOCALE_USER_DEFAULT, //locale identifier NORM_IGNORECASE | SORT_STRINGSORT, //comparison-style options a, //pointer to first string aCount, //size, in bytes or characters, of first string b, //pointer to second string bCount); //size, in bytes or characters, of second string if (rv == 0) throw std::runtime_error("Error comparing strings!"); else return rv - 2; //convert to C-style string compare result } #endif #ifdef FFS_WIN int Zstring::CmpNoCase(const DefaultChar* other) const { return ::compareStringsWin32(c_str(), other); //way faster than wxString::CmpNoCase()!! } int Zstring::CmpNoCase(const Zstring& other) const { return ::compareStringsWin32(c_str(), other.c_str(), length(), other.length()); //way faster than wxString::CmpNoCase()!! } #endif Zstring& Zstring::Replace(const DefaultChar* old, const DefaultChar* replacement, bool replaceAll) { const size_t oldLen = defaultLength(old); const size_t replacementLen = defaultLength(replacement); size_t pos = 0; while (true) { pos = find(old, pos); if (pos == npos) break; replace(pos, oldLen, replacement, replacementLen); pos += replacementLen; //move past the string that was replaced // stop now? if (!replaceAll) break; } return *this; } bool matchesHelper(const DefaultChar* string, const DefaultChar* mask) { for (DefaultChar ch; (ch = *mask) != 0; ++mask, ++string) { switch (ch) { case DefaultChar('?'): if (*string == 0) return false; break; case DefaultChar('*'): //advance to next non-*/? char do { ++mask; ch = *mask; } while (ch == DefaultChar('*') || ch == DefaultChar('?')); //if match ends with '*': if (ch == DefaultChar(0)) return true; ++mask; while ((string = defaultStrFind(string, ch)) != NULL) { if (matchesHelper(string + 1, mask)) return true; ++string; } return false; default: if (*string != ch) return false; } } return *string == 0; } bool Zstring::Matches(const DefaultChar* mask) const { return matchesHelper(c_str(), mask); } bool Zstring::Matches(const DefaultChar* name, const DefaultChar* mask) { return matchesHelper(name, mask); } Zstring& Zstring::Trim(bool fromRight) { const size_t thisLen = length(); if (thisLen == 0) return *this; DefaultChar* const strBegin = data(); if (fromRight) { const DefaultChar* cursor = strBegin + thisLen - 1; while (cursor != strBegin - 1 && defaultIsWhiteSpace(*cursor)) //break when pointing one char further than last skipped element --cursor; ++cursor; const size_t newLength = cursor - strBegin; if (newLength != thisLen) { if (descr->refCount > 1) //allocate new string *this = Zstring(strBegin, newLength); else //overwrite this string { descr->length = newLength; strBegin[newLength] = 0; } } } else { const DefaultChar* cursor = strBegin; const DefaultChar* const strEnd = strBegin + thisLen; while (cursor != strEnd && defaultIsWhiteSpace(*cursor)) ++cursor; const size_t diff = cursor - strBegin; if (diff) { if (descr->refCount > 1) //allocate new string *this = Zstring(cursor, thisLen - diff); else { //overwrite this string ::memmove(strBegin, cursor, (thisLen - diff + 1) * sizeof(DefaultChar)); //note: do not simply let data point to different location: this corrupts reserve()! descr->length -= diff; } } } return *this; } std::vector Zstring::Tokenize(const DefaultChar delimiter) const { std::vector output; const size_t thisLen = length(); size_t indexStart = 0; while (true) { size_t indexEnd = find(delimiter, indexStart); if (indexEnd == Zstring::npos) indexEnd = thisLen; if (indexStart != indexEnd) //do not add empty strings { Zstring newEntry = substr(indexStart, indexEnd - indexStart); newEntry.Trim(true); //remove whitespace characters from right newEntry.Trim(false); //remove whitespace characters from left if (!newEntry.empty()) output.push_back(newEntry); } if (indexEnd == thisLen) break; indexStart = indexEnd + 1; //delimiter is a single character } return output; } #ifdef FFS_WIN Zstring& Zstring::MakeLower() { const size_t thisLen = length(); if (thisLen == 0) return *this; reserve(thisLen); //make unshared ::CharLower(data()); //use Windows' lower case conversion return *this; } #endif //############################################################### //std::string functions Zstring Zstring::substr(size_t pos, size_t len) const { if (len == npos) { assert(pos <= length()); return Zstring(c_str() + pos, length() - pos); //reference counting not used: different length } else { assert(length() - pos >= len); return Zstring(c_str() + pos, len); } } size_t Zstring::rfind(const DefaultChar ch, size_t pos) const { const size_t thisLen = length(); if (thisLen == 0) return npos; if (pos == npos) pos = thisLen - 1; else assert(pos <= length()); do //pos points to last char of the string { if (c_str()[pos] == ch) return pos; } while (--pos != static_cast(-1)); return npos; } Zstring& Zstring::replace(size_t pos1, size_t n1, const DefaultChar* str, size_t n2) { assert(str < c_str() || c_str() + length() < str); //str mustn't point to data in this string assert(n1 <= length() - pos1); const size_t oldLen = length(); if (oldLen == 0) { assert(pos1 == 0 && n1 == 0); return *this = Zstring(str, n2); } const size_t newLen = oldLen - n1 + n2; if (newLen > oldLen || descr->refCount > 1) { //allocate a new string StringDescriptor* newDescr = allocate(newLen); //assemble new string with replacement DefaultChar* const newData = reinterpret_cast(newDescr + 1); ::memcpy(newData, c_str(), pos1 * sizeof(DefaultChar)); ::memcpy(newData + pos1, str, n2 * sizeof(DefaultChar)); ::memcpy(newData + pos1 + n2, c_str() + pos1 + n1, (oldLen - pos1 - n1) * sizeof(DefaultChar)); newData[newLen] = 0; decRef(); descr = newDescr; } else //overwrite current string: case "n2 == 0" is handled implicitly { ::memcpy(data() + pos1, str, n2 * sizeof(DefaultChar)); if (newLen < oldLen) { ::memmove(data() + pos1 + n2, data() + pos1 + n1, (oldLen - pos1 - n1) * sizeof(DefaultChar)); data()[newLen] = 0; descr->length = newLen; } } return *this; } Zstring& Zstring::operator=(const DefaultChar* source) { const size_t sourceLen = defaultLength(source); if (descr->refCount > 1 || descr->capacity < sourceLen) //allocate new string *this = Zstring(source, sourceLen); else { //overwrite this string ::memcpy(data(), source, (sourceLen + 1) * sizeof(DefaultChar)); //include null-termination descr->length = sourceLen; } return *this; } Zstring& Zstring::assign(const DefaultChar* source, size_t len) { if (descr->refCount > 1 || descr->capacity < len) //allocate new string *this = Zstring(source, len); else { //overwrite this string ::memcpy(data(), source, len * sizeof(DefaultChar)); //don't know if source is null-terminated data()[len] = 0; //include null-termination descr->length = len; } return *this; } Zstring& Zstring::operator+=(const Zstring& other) { const size_t otherLen = other.length(); if (otherLen != 0) { const size_t thisLen = length(); const size_t newLen = thisLen + otherLen; reserve(newLen); //make unshared and check capacity ::memcpy(data() + thisLen, other.c_str(), (otherLen + 1) * sizeof(DefaultChar)); //include null-termination descr->length = newLen; } return *this; } Zstring& Zstring::operator+=(const DefaultChar* other) { const size_t otherLen = defaultLength(other); if (otherLen != 0) { const size_t thisLen = length(); const size_t newLen = thisLen + otherLen; reserve(newLen); //make unshared and check capacity ::memcpy(data() + thisLen, other, (otherLen + 1) * sizeof(DefaultChar)); //include NULL-termination descr->length = newLen; } return *this; } Zstring& Zstring::operator+=(DefaultChar ch) { const size_t oldLen = length(); reserve(oldLen + 1); //make unshared and check capacity data()[oldLen] = ch; data()[oldLen + 1] = 0; ++descr->length; return *this; } void Zstring::reserve(size_t capacityNeeded) //make unshared and check capacity { assert(capacityNeeded != 0); if (descr->refCount > 1) { //allocate a new string const size_t oldLength = length(); assert(oldLength <= getCapacityToAllocate(capacityNeeded)); StringDescriptor* newDescr = allocate(capacityNeeded); newDescr->length = oldLength; ::memcpy(reinterpret_cast(newDescr + 1), c_str(), (oldLength + 1) * sizeof(DefaultChar)); //include NULL-termination decRef(); descr = newDescr; } else if (descr->capacity < capacityNeeded) { //try to resize the current string (allocate anew if necessary) const size_t newCapacity = getCapacityToAllocate(capacityNeeded); #ifdef __WXDEBUG__ AllocationCount::getInstance().dec(c_str()); //test Zstring for memory leaks #endif descr = static_cast(::realloc(descr, sizeof(StringDescriptor) + (newCapacity + 1) * sizeof(DefaultChar))); if (descr == NULL) throw std::bad_alloc(); #ifdef __WXDEBUG__ AllocationCount::getInstance().inc(c_str()); //test Zstring for memory leaks #endif descr->capacity = newCapacity; } }