LPCSTR reverse_search_begin(const char *s, int maxsize) { if (*s) for (int i = 0; i < maxsize; i++, s--) if (!*s) return s + 1; return nullptr; } template inline bool all_ascii_impl(const CharT *s, int maxsize) { if (s) for (int i = 0; i < maxsize && *s; i++, s++) if ((unsigned)*s > 127) return false; return true; } template inline void strReplace_impl(StringT &str, const StringT &oldStr, const StringT &newStr) { size_t pos = 0; while ((pos = str.find(oldStr, pos)) != StringT::npos) { str.replace(pos, oldStr.length(), newStr); pos += newStr.length(); } } template inline std::vector strSplit_impl(const StringT &s, const StringT &delim) { StringT item; std::vector tokens; StringT str = s; size_t pos = 0; while ((pos = str.find(delim)) != StringT::npos) { item = str.substr(0, pos); tokens.push_back(item); str.erase(0, pos + delim.length()); } tokens.push_back(str); return tokens; } template inline bool endWith_impl(const StringT &s, const StringT &s2) { if (s2.size() && (s.size() >= s2.size()) && (s.substr(s.size() - s2.size(), s2.size()) == s2)) { return true; } return false; } template inline bool startWith_impl(const StringT &s, const StringT &s2) { if (s2.size() && (s.size() >= s2.size()) && (s.substr(0, s2.size()) == s2)) { return true; } return false; } bool all_ascii(const char *s, int maxsize) { return all_ascii_impl(s, maxsize); } bool all_ascii(const wchar_t *s, int maxsize) { return all_ascii_impl(s, maxsize); } void strReplace(std::string &str, const std::string &oldStr, const std::string &newStr) { strReplace_impl(str, oldStr, newStr); } void strReplace(std::wstring &str, const std::wstring &oldStr, const std::wstring &newStr) { strReplace_impl(str, oldStr, newStr); } std::vector strSplit(const std::string &s, const std::string &delim) { return strSplit_impl(s, delim); } std::vector strSplit(const std::wstring &s, const std::wstring &delim) { return strSplit_impl(s, delim); } bool startWith(const std::string &s, const std::string &s2) { return startWith_impl(s, s2); } bool startWith(const std::wstring &s, const std::wstring &s2) { return startWith_impl(s, s2); } bool endWith(const std::string &s, const std::string &s2) { return endWith_impl(s, s2); } bool endWith(const std::wstring &s, const std::wstring &s2) { return endWith_impl(s, s2); } typedef HRESULT(WINAPI *CONVERTINETMULTIBYTETOUNICODE)( LPDWORD lpdwMode, DWORD dwSrcEncoding, LPCSTR lpSrcStr, LPINT lpnMultiCharCount, LPWSTR lpDstStr, LPINT lpnWideCharCount); typedef HRESULT(WINAPI *CONVERTINETUNICODETOMULTIBYTE)( LPDWORD lpdwMode, DWORD dwEncoding, LPCWSTR lpSrcStr, LPINT lpnWideCharCount, LPSTR lpDstStr, LPINT lpnMultiCharCount); std::optional StringToWideString(const std::string &text, UINT encoding) { std::vector buffer(text.size() + 1); if (disable_mbwc) { int _s = text.size(); int _s2 = buffer.size(); auto h = LoadLibrary(TEXT("mlang.dll")); if (h == 0) return {}; auto ConvertINetMultiByteToUnicode = (CONVERTINETMULTIBYTETOUNICODE)GetProcAddress(h, "ConvertINetMultiByteToUnicode"); if (ConvertINetMultiByteToUnicode == 0) return {}; auto hr = ConvertINetMultiByteToUnicode(0, encoding, text.c_str(), &_s, buffer.data(), &_s2); if (SUCCEEDED(hr)) { return std::wstring(buffer.data(), _s2); } else return {}; } else { if (int length = MultiByteToWideChar(encoding, 0, text.c_str(), text.size() + 1, buffer.data(), buffer.size())) return std::wstring(buffer.data(), length - 1); return {}; } } std::wstring StringToWideString(const std::string &text) { return StringToWideString(text, CP_UTF8).value(); } std::string WideStringToString(const std::wstring &text, UINT cp) { std::vector buffer((text.size() + 1) * 4); if (disable_wcmb) { int _s = text.size(); int _s2 = buffer.size(); auto h = LoadLibrary(TEXT("mlang.dll")); if (h == 0) return {}; auto ConvertINetUnicodeToMultiByte = (CONVERTINETUNICODETOMULTIBYTE)GetProcAddress(h, "ConvertINetUnicodeToMultiByte"); if (ConvertINetUnicodeToMultiByte == 0) return {}; auto hr = ConvertINetUnicodeToMultiByte(0, cp, text.c_str(), &_s, buffer.data(), &_s2); if (SUCCEEDED(hr)) { return std::string(buffer.data(), _s2); } else return {}; } else { WideCharToMultiByte(cp, 0, text.c_str(), -1, buffer.data(), buffer.size(), nullptr, nullptr); return buffer.data(); } } inline unsigned int convertUTF32ToUTF16(unsigned int cUTF32, unsigned int &h, unsigned int &l) { if (cUTF32 < 0x10000) { h = 0; l = cUTF32; return cUTF32; } unsigned int t = cUTF32 - 0x10000; h = (((t << 12) >> 22) + 0xD800); l = (((t << 22) >> 22) + 0xDC00); unsigned int ret = ((h << 16) | (l & 0x0000FFFF)); return ret; } std::basic_string utf16_to_utf32(const wchar_t *u16str, size_t size) { std::basic_string utf32String; for (size_t i = 0; i < size; i++) { auto u16c = u16str[i]; if (u16c - 0xd800u < 2048u) if ((u16c & 0xfffffc00 == 0xd800) && (i < size - 1) && (u16str[i + 1] & 0xfffffc00 == 0xdc00)) { utf32String += (u16c << 10) + u16str[i + 1] - 0x35fdc00; i += 1; } else { // error invalid u16 char } else utf32String += u16str[i]; } return utf32String; } std::wstring utf32_to_utf16(uint32_t *u32str, size_t size) { std::wstring u16str; for (auto i = 0; i < size; i++) { unsigned h, l; convertUTF32ToUTF16(u32str[i], h, l); if (h) u16str.push_back((wchar_t)h); u16str.push_back((wchar_t)l); } return u16str; } size_t u32strlen(uint32_t *data) { size_t s = 0; while (data[s]) s++; return s; } std::string wcasta(const std::wstring &x) { std::string xx; for (auto c : x) xx += c; return xx; } std::wstring acastw(const std::string &x) { std::wstring xx; for (auto c : x) xx += c; return xx; } std::optional commonparsestring(void *data, size_t length, void *php, DWORD df) { auto hp = (HookParam *)php; if (hp->type & CODEC_UTF16) return std::wstring((wchar_t *)data, length / sizeof(wchar_t)); else if (hp->type & CODEC_UTF32) return (std::move(utf32_to_utf16((uint32_t *)data, length / sizeof(uint32_t)))); else if (auto converted = StringToWideString(std::string((char *)data, length), (hp->type & CODEC_UTF8) ? CP_UTF8 : (hp->codepage ? hp->codepage : df))) return (converted.value()); else return {}; }