#pragma once #include "Result.hpp" #include "../DefaultInclude.hpp" #include #include #include #include #include #include #include #include #include // only windows seems to properly implement std::hash on std::filesystem::path #ifndef GEODE_IS_WINDOWS template <> struct std::hash { std::size_t operator()(std::filesystem::path const& path) const noexcept { return std::filesystem::hash_value(path); } }; #endif namespace geode { using ByteVector = std::vector; template ByteVector toByteArray(T const& a) { ByteVector out; out.resize(sizeof(T)); std::memcpy(out.data(), &a, sizeof(T)); return out; } template struct TypeIdentity { using type = T; }; template using TypeIdentityType = typename TypeIdentity::type; namespace utils { // helper for std::visit template struct makeVisitor : Ts... { using Ts::operator()...; }; template makeVisitor(Ts...) -> makeVisitor; template constexpr T getOr(std::variant const& variant, T const& defValue) { return std::holds_alternative(variant) ? std::get(variant) : defValue; } constexpr unsigned int hash(char const* str, int h = 0) { return !str[h] ? 5381 : (hash(str, h + 1) * 33) ^ str[h]; } constexpr unsigned int hash(std::string_view str, int h = 0) { return h >= str.size() ? 5381 : (hash(str, h + 1) * 33) ^ str[h]; } constexpr unsigned int hash(wchar_t const* str, int h = 0) { return !str[h] ? 5381 : (hash(str, h + 1) * 33) ^ str[h]; } constexpr unsigned int hash(std::wstring_view str, int h = 0) { return h >= str.size() ? 5381 : (hash(str, h + 1) * 33) ^ str[h]; } constexpr size_t operator"" _h(char const* txt, size_t) { return geode::utils::hash(txt); } constexpr size_t operator"" _h(wchar_t const* txt, size_t) { return geode::utils::hash(txt); } template constexpr const T& clamp(const T& value, const TypeIdentityType& minValue, const TypeIdentityType& maxValue) { return value < minValue ? minValue : maxValue < value ? maxValue : value; } template std::string intToHex(T i) { std::stringstream stream; stream << std::showbase << std::setbase(16) << (uint64_t)i; return stream.str(); } /** * Turn a number into a string, with support for specifying precision * (unlike std::to_string). * @param num Number to convert to string * @param precision Precision of the converted number * @returns Number as string */ template std::string numToString(Num num, size_t precision = 0) { std::stringstream ss; if (precision) { ss << std::fixed << std::setprecision(precision); } ss << num; return ss.str(); } /** * Turn a number into an abbreviated string, like `1253` to `1.25K` */ template std::string numToAbbreviatedString(Num num) { if (num >= 1'000'000'000) return fmt::format("{:0.3}B", num / 1'000'000'000.f); if (num >= 1'000'000) return fmt::format("{:0.3}M", num / 1'000'000.f); if (num >= 1'000) return fmt::format("{:0.3}K", num / 1'000.f); return numToString(num); } /** * Parse a number from a string * @param str The string to parse * @param base The base to use * @returns String as number, or Err if the string couldn't be converted */ template Result numFromString(std::string_view const str, int base = 10) { if constexpr (std::is_floating_point_v #if defined(__cpp_lib_to_chars) && false #endif ) { Num val; char* strEnd; errno = 0; if (std::setlocale(LC_NUMERIC, "C")) { if constexpr (std::is_same_v) val = std::strtof(str.data(), &strEnd); else if constexpr (std::is_same_v) val = std::strtod(str.data(), &strEnd); else if constexpr (std::is_same_v) val = std::strtold(str.data(), &strEnd); if (errno == ERANGE) return Err("Number is too large to fit"); else if (strEnd == str.data()) return Err("String is not a number"); else return Ok(val); } else return Err("Failed to set locale"); } else { Num result; std::from_chars_result res; if constexpr (std::is_floating_point_v) res = std::from_chars(str.data(), str.data() + str.size(), result); else res = std::from_chars(str.data(), str.data() + str.size(), result, base); auto [_, ec] = res; if (ec == std::errc()) return Ok(result); else if (ec == std::errc::invalid_argument) return Err("String is not a number"); else if (ec == std::errc::result_out_of_range) return Err("Number is too large to fit"); else return Err("Unknown error"); } } GEODE_DLL std::string timePointAsString(std::chrono::system_clock::time_point const& tp); /** * Gets the display pixel factor for the current screen, * i.e. the ratio between physical pixels and logical pixels on one axis. * On most platforms this is 1.0, but on retina displays for example this returns 2.0. */ GEODE_DLL float getDisplayFactor(); } } template<> struct matjson::Serialize { static matjson::Value to_json(geode::ByteVector const& bytes) { return matjson::Array(bytes.begin(), bytes.end()); } }; namespace geode::utils::clipboard { GEODE_DLL bool write(std::string const& data); GEODE_DLL std::string read(); } namespace geode::utils::game { GEODE_DLL void exit(); GEODE_DLL void restart(); GEODE_DLL void launchLoaderUninstaller(bool deleteSaveData); } namespace geode::utils::thread { GEODE_DLL std::string getName(); GEODE_DLL std::string getDefaultName(); GEODE_DLL void setName(std::string const& name); }