#pragma once class wxString; #if defined(_MSC_VER) #define snprintf _snprintf #endif namespace fmt { struct empty_t{}; extern const std::string placeholder; template std::string AfterLast(const std::string& source, T searchstr) { size_t search_pos = source.rfind(searchstr); search_pos = search_pos == std::string::npos ? 0 : search_pos; return source.substr(search_pos); } template std::string BeforeLast(const std::string& source, T searchstr) { size_t search_pos = source.rfind(searchstr); search_pos = search_pos == std::string::npos ? 0 : search_pos; return source.substr(0, search_pos); } template std::string AfterFirst(const std::string& source, T searchstr) { size_t search_pos = source.find(searchstr); search_pos = search_pos == std::string::npos ? 0 : search_pos; return source.substr(search_pos); } template std::string BeforeFirst(const std::string& source, T searchstr) { size_t search_pos = source.find(searchstr); search_pos = search_pos == std::string::npos ? 0 : search_pos; return source.substr(0, search_pos); } // write `fmt` from `pos` to the first occurence of `fmt::placeholder` to // the stream `os`. Then write `arg` to to the stream. If there's no // `fmt::placeholder` after `pos` everything in `fmt` after pos is written // to `os`. Then `arg` is written to `os` after appending a space character template empty_t write(const std::string &fmt, std::ostream &os, std::string::size_type &pos, T &&arg) { std::string::size_type ins = fmt.find(placeholder, pos); if (ins == std::string::npos) { os.write(fmt.data() + pos, fmt.size() - pos); os << ' ' << arg; pos = fmt.size(); } else { os.write(fmt.data() + pos, ins - pos); os << arg; pos = ins + placeholder.size(); } return{}; } // typesafe version of a sprintf-like function. Returns the printed to // string. To mark positions where the arguments are supposed to be // inserted use `fmt::placeholder`. If there's not enough placeholders // the rest of the arguments are appended at the end, seperated by spaces template std::string SFormat(const std::string &fmt, Args&& ... parameters) { std::ostringstream os; std::string::size_type pos = 0; std::initializer_list { write(fmt, os, pos, parameters)... }; if (!fmt.empty()) { os.write(fmt.data() + pos, fmt.size() - pos); } std::string result = os.str(); return result; } //small wrapper used to deal with bitfields template T by_value(T x) { return x; } //wrapper to deal with advance sprintf formating options with automatic length finding template std::string Format(const char* fmt, Args ... parameters) { size_t length = 256; std::string str; for (;;) { std::vector buffptr(length); #if !defined(_MSC_VER) #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wformat-security" size_t printlen = snprintf(buffptr.data(), length, fmt, std::forward(parameters)...); #pragma clang diagnostic pop #else size_t printlen = _snprintf_s(buffptr.data(), length, length - 1, fmt, std::forward(parameters)...); #endif if (printlen < length) { str = std::string(buffptr.data(), printlen); break; } length *= 2; } return str; } std::string replace_first(const std::string& src, const std::string& from, const std::string& to); std::string replace_all(std::string src, const std::string& from, const std::string& to); template std::string replace_all(std::string src, const std::pair(&list)[list_size]) { for (size_t pos = 0; pos < src.length(); ++pos) { for (size_t i = 0; i < list_size; ++i) { const size_t comp_length = list[i].first.length(); if (src.length() - pos < comp_length) continue; if (src.substr(pos, comp_length) == list[i].first) { src = (pos ? src.substr(0, pos) + list[i].second : list[i].second) + std::string(src.c_str() + pos + comp_length); pos += list[i].second.length() - 1; break; } } } return src; } template std::string replace_all(std::string src, const std::pair>(&list)[list_size]) { for (size_t pos = 0; pos < src.length(); ++pos) { for (size_t i = 0; i < list_size; ++i) { const size_t comp_length = list[i].first.length(); if (src.length() - pos < comp_length) continue; if (src.substr(pos, comp_length) == list[i].first) { src = (pos ? src.substr(0, pos) + list[i].second() : list[i].second()) + std::string(src.c_str() + pos + comp_length); pos += list[i].second().length() - 1; break; } } } return src; } namespace detail { static std::string to_hex(u64 value, size_t count = 1) { assert(count - 1 < 16); count = std::max(count, 16 - cntlz64(value) / 4); char res[16] = {}; for (size_t i = count - 1; ~i; i--, value /= 16) { res[i] = "0123456789abcdef"[value % 16]; } return std::string(res, count); } static size_t get_fmt_start(const char* fmt, size_t len) { for (size_t i = 0; i < len; i++) { if (fmt[i] == '%') { return i; } } return len; } static size_t get_fmt_len(const char* fmt, size_t len) { assert(len >= 2 && fmt[0] == '%'); size_t res = 2; if (fmt[1] == '.' || fmt[1] == '0') { assert(len >= 4 && fmt[2] - '1' < 9); res += 2; fmt += 2; len -= 2; if (fmt[1] == '1') { assert(len >= 3 && fmt[2] - '0' < 7); res++; fmt++; len--; } } if (fmt[1] == 'l') { assert(len >= 3); res++; fmt++; len--; } if (fmt[1] == 'l') { assert(len >= 3); res++; fmt++; len--; } return res; } static size_t get_fmt_precision(const char* fmt, size_t len) { assert(len >= 2); if (fmt[1] == '.' || fmt[1] == '0') { assert(len >= 4 && fmt[2] - '1' < 9); if (fmt[2] == '1') { assert(len >= 5 && fmt[3] - '0' < 7); return 10 + fmt[3] - '0'; } return fmt[2] - '0'; } return 1; } template::value> struct get_fmt { static_assert(is_enum, "Unsupported fmt::format argument"); typedef typename std::underlying_type::type underlying_type; static std::string text(const char* fmt, size_t len, const T& arg) { return get_fmt::text(fmt, len, (underlying_type)arg); } }; template struct get_fmt, false> { static std::string text(const char* fmt, size_t len, const be_t& arg) { return get_fmt::text(fmt, len, arg.value()); } }; template<> struct get_fmt { static std::string text(const char* fmt, size_t len, u8 arg) { if (fmt[len - 1] == 'x') { return to_hex(arg, get_fmt_precision(fmt, len)); } else if (fmt[len - 1] == 'd') { return std::to_string((u32)arg); } else { throw "Invalid formatting (u8)"; } return{}; } }; template<> struct get_fmt { static std::string text(const char* fmt, size_t len, u16 arg) { if (fmt[len - 1] == 'x') { return to_hex(arg, get_fmt_precision(fmt, len)); } else if (fmt[len - 1] == 'd') { return std::to_string((u32)arg); } else { throw "Invalid formatting (u16)"; } return{}; } }; template<> struct get_fmt { static std::string text(const char* fmt, size_t len, u32 arg) { if (fmt[len - 1] == 'x') { return to_hex(arg, get_fmt_precision(fmt, len)); } else if (fmt[len - 1] == 'd') { return std::to_string(arg); } else { throw "Invalid formatting (u32)"; } return{}; } }; template<> struct get_fmt { static std::string text(const char* fmt, size_t len, u64 arg) { if (fmt[len - 1] == 'x') { return to_hex(arg, get_fmt_precision(fmt, len)); } else if (fmt[len - 1] == 'd') { return std::to_string(arg); } else { throw "Invalid formatting (u64)"; } return{}; } }; template<> struct get_fmt { static std::string text(const char* fmt, size_t len, s8 arg) { if (fmt[len - 1] == 'x') { return to_hex((u8)arg, get_fmt_precision(fmt, len)); } else if (fmt[len - 1] == 'd') { return std::to_string((s32)arg); } else { throw "Invalid formatting (s8)"; } return{}; } }; template<> struct get_fmt { static std::string text(const char* fmt, size_t len, s16 arg) { if (fmt[len - 1] == 'x') { return to_hex((u16)arg, get_fmt_precision(fmt, len)); } else if (fmt[len - 1] == 'd') { return std::to_string((s32)arg); } else { throw "Invalid formatting (s16)"; } return{}; } }; template<> struct get_fmt { static std::string text(const char* fmt, size_t len, s32 arg) { if (fmt[len - 1] == 'x') { return to_hex((u32)arg, get_fmt_precision(fmt, len)); } else if (fmt[len - 1] == 'd') { return std::to_string(arg); } else { throw "Invalid formatting (s32)"; } return{}; } }; template<> struct get_fmt { static std::string text(const char* fmt, size_t len, s64 arg) { if (fmt[len - 1] == 'x') { return to_hex((u64)arg, get_fmt_precision(fmt, len)); } else if (fmt[len - 1] == 'd') { return std::to_string(arg); } else { throw "Invalid formatting (s64)"; } return{}; } }; template<> struct get_fmt { static std::string text(const char* fmt, size_t len, float arg) { if (fmt[len - 1] == 'x') { return to_hex((u32&)arg, get_fmt_precision(fmt, len)); } else if (fmt[len - 1] == 'f') { return std::to_string(arg); } else { throw "Invalid formatting (float)"; } return{}; } }; template<> struct get_fmt { static std::string text(const char* fmt, size_t len, double arg) { if (fmt[len - 1] == 'x') { return to_hex((u64&)arg, get_fmt_precision(fmt, len)); } else if (fmt[len - 1] == 'f') { return std::to_string(arg); } else { throw "Invalid formatting (double)"; } return{}; } }; template<> struct get_fmt { static std::string text(const char* fmt, size_t len, bool arg) { if (fmt[len - 1] == 'x') { return to_hex(arg, get_fmt_precision(fmt, len)); } else if (fmt[len - 1] == 'd') { return arg ? "1" : "0"; } else if (fmt[len - 1] == 's') { return arg ? "true" : "false"; } else { throw "Invalid formatting (bool)"; } return{}; } }; template<> struct get_fmt { static std::string text(const char* fmt, size_t len, char* arg) { if (fmt[len - 1] == 's') { return arg; } else { throw "Invalid formatting (char*)"; } return{}; } }; template<> struct get_fmt { static std::string text(const char* fmt, size_t len, const char* arg) { if (fmt[len - 1] == 's') { return arg; } else { throw "Invalid formatting (const char*)"; } return{}; } }; //template //struct get_fmt //{ // static std::string text(const char* fmt, size_t len, const char(&arg)[size]) // { // if (fmt[len - 1] == 's') // { // return std::string(arg, size); // } // else // { // throw "Invalid formatting (char[size])"; // } // return{}; // } //}; //template //struct get_fmt //{ // static std::string text(const char* fmt, size_t len, const char(&arg)[size]) // { // if (fmt[len - 1] == 's') // { // return std::string(arg, size); // } // else // { // throw "Invalid formatting (const char[size])"; // } // return{}; // } //}; template<> struct get_fmt { static std::string text(const char* fmt, size_t len, const std::string& arg) { if (fmt[len - 1] == 's') { return arg; } else { throw "Invalid formatting (std::string)"; } return{}; } }; static std::string format(const char* fmt, size_t len) { const size_t fmt_start = get_fmt_start(fmt, len); assert(fmt_start == len); return std::string(fmt, len); } template static std::string format(const char* fmt, size_t len, const T& arg, Args... args) { const size_t fmt_start = get_fmt_start(fmt, len); const size_t fmt_len = get_fmt_len(fmt + fmt_start, len - fmt_start); const size_t fmt_end = fmt_start + fmt_len; return std::string(fmt, fmt_start) + get_fmt::text(fmt + fmt_start, fmt_len, arg) + format(fmt + fmt_end, len - fmt_end, args...); } }; // formatting function with very limited functionality (compared to printf-like formatting) and be_t<> support /* Supported types: u8, s8 (%x, %d) u16, s16 (%x, %d) u32, s32 (%x, %d) u64, s64 (%x, %d) float (%x, %f) double (%x, %f) bool (%x, %d, %s) char*, const char*, std::string (%s) be_t<> of any appropriate type in this list enum of any appropriate type in this list Supported formatting: %d - decimal; only basic std::to_string() functionality %x - hexadecimal; %.8x - hexadecimal with the precision (from .2 to .16) %s - string; generates "true" or "false" for bool %f - floating point; only basic std::to_string() functionality Other features are not supported. */ template __forceinline static std::string format(const char* fmt, Args... args) { return detail::format(fmt, strlen(fmt), args...); } //convert a wxString to a std::string encoded in utf8 //CAUTION, only use this to interface with wxWidgets classes std::string ToUTF8(const wxString& right); //convert a std::string encoded in utf8 to a wxString //CAUTION, only use this to interface with wxWidgets classes wxString FromUTF8(const std::string& right); //TODO: remove this after every snippet that uses it is gone //WARNING: not fully compatible with CmpNoCase from wxString int CmpNoCase(const std::string& a, const std::string& b); //TODO: remove this after every snippet that uses it is gone //WARNING: not fully compatible with Replace from wxString void Replace(std::string &str, const std::string &searchterm, const std::string& replaceterm); std::vector rSplit(const std::string& source, const std::string& delim); std::vector split(const std::string& source, std::initializer_list separators, bool is_skip_empty = true); std::string merge(std::vector source, const std::string& separator); std::string merge(std::initializer_list> sources, const std::string& separator); std::string tolower(std::string source); }