#pragma once #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include struct ImVec2; namespace hex { namespace prv { class Provider; } template [[nodiscard]] std::vector sampleData(const std::vector &data, size_t count) { size_t stride = std::max(1.0, double(data.size()) / count); std::vector result; result.reserve(count); for (size_t i = 0; i < data.size(); i += stride) { result.push_back(data[i]); } return result; } [[nodiscard]] float operator""_scaled(long double value); [[nodiscard]] float operator""_scaled(unsigned long long value); [[nodiscard]] ImVec2 scaled(const ImVec2 &vector); template [[nodiscard]] std::vector operator|(const std::vector &lhs, const std::vector &rhs) { std::vector result; std::copy(lhs.begin(), lhs.end(), std::back_inserter(result)); std::copy(rhs.begin(), rhs.end(), std::back_inserter(result)); return result; } [[nodiscard]] std::string to_string(u128 value); [[nodiscard]] std::string to_string(i128 value); [[nodiscard]] std::vector parseHexString(std::string string); [[nodiscard]] std::optional parseBinaryString(const std::string &string); [[nodiscard]] std::string toByteString(u64 bytes); [[nodiscard]] std::string makePrintable(u8 c); void startProgram(const std::string &command); int executeCommand(const std::string &command); void openWebpage(std::string url); [[nodiscard]] std::string encodeByteString(const std::vector &bytes); [[nodiscard]] std::vector decodeByteString(const std::string &string); [[nodiscard]] constexpr u64 extract(u8 from, u8 to, const std::unsigned_integral auto &value) { if (from < to) std::swap(from, to); using ValueType = std::remove_cvref_t; ValueType mask = (std::numeric_limits::max() >> (((sizeof(value) * 8) - 1) - (from - to))) << to; return (value & mask) >> to; } [[nodiscard]] inline u64 extract(u32 from, u32 to, const std::vector &bytes) { u8 index = 0; while (from > 32 && to > 32) { from -= 8; to -= 8; index++; } u64 value = 0; std::memcpy(&value, &bytes[index], std::min(sizeof(value), bytes.size() - index)); u64 mask = (std::numeric_limits::max() >> (64 - (from + 1))); return (value & mask) >> to; } [[nodiscard]] constexpr i128 signExtend(size_t numBits, i128 value) { i128 mask = 1ULL << (numBits - 1); return (value ^ mask) - mask; } template [[nodiscard]] constexpr T swapBitOrder(size_t numBits, T value) { T result = 0x00; for (size_t bit = 0; bit < numBits; bit++) { result <<= 1; result |= (value & (1 << bit)) != 0; } return result; } [[nodiscard]] constexpr size_t strnlen(const char *s, size_t n) { size_t i = 0; while (i < n && s[i] != '\x00') i++; return i; } template struct SizeTypeImpl { }; template<> struct SizeTypeImpl<1> { using Type = u8; }; template<> struct SizeTypeImpl<2> { using Type = u16; }; template<> struct SizeTypeImpl<4> { using Type = u32; }; template<> struct SizeTypeImpl<8> { using Type = u64; }; template<> struct SizeTypeImpl<16> { using Type = u128; }; template using SizeType = typename SizeTypeImpl::Type; template [[nodiscard]] constexpr T changeEndianess(const T &value, size_t size, std::endian endian) { if (endian == std::endian::native) return value; size = std::min(size, sizeof(T)); std::array data = { 0 }; std::memcpy(&data[0], &value, size); for (uint32_t i = 0; i < size / 2; i++) { std::swap(data[i], data[size - 1 - i]); } T result = { }; std::memcpy(&result, &data[0], size); return result; } template [[nodiscard]] constexpr T changeEndianess(const T &value, std::endian endian) { return changeEndianess(value, sizeof(value), endian); } [[nodiscard]] constexpr u128 bitmask(u8 bits) { return u128(-1) >> (128 - bits); } template [[nodiscard]] constexpr T bit_width(T x) noexcept { return std::numeric_limits::digits - std::countl_zero(x); } template [[nodiscard]] constexpr T bit_ceil(T x) noexcept { if (x <= 1u) return T(1); return T(1) << bit_width(T(x - 1)); } template [[nodiscard]] auto powi(T base, U exp) { using ResultType = decltype(T{} * U{}); if (exp < 0) return ResultType(0); ResultType result = 1; while (exp != 0) { if ((exp & 0b1) == 0b1) result *= base; exp >>= 1; base *= base; } return result; } template void moveToVector(std::vector &buffer, T &&first, Args &&...rest) { buffer.push_back(std::move(first)); if constexpr (sizeof...(rest) > 0) moveToVector(buffer, std::move(rest)...); } template [[nodiscard]] std::vector moveToVector(T &&first, Args &&...rest) { std::vector result; moveToVector(result, T(std::move(first)), std::move(rest)...); return result; } [[nodiscard]] std::vector splitString(const std::string &string, const std::string &delimiter); [[nodiscard]] std::string combineStrings(const std::vector &strings, const std::string &delimiter = ""); [[nodiscard]] std::string replaceStrings(std::string string, const std::string &search, const std::string &replace); [[nodiscard]] std::string toEngineeringString(double value); [[nodiscard]] inline std::vector parseByteString(const std::string &string) { auto byteString = std::string(string); std::erase(byteString, ' '); if ((byteString.length() % 2) != 0) return {}; std::vector result; for (u32 i = 0; i < byteString.length(); i += 2) { if (!std::isxdigit(byteString[i]) || !std::isxdigit(byteString[i + 1])) return {}; result.push_back(std::strtoul(byteString.substr(i, 2).c_str(), nullptr, 16)); } return result; } [[nodiscard]] std::string toBinaryString(std::unsigned_integral auto number) { if (number == 0) return "0"; std::string result; for (i16 bit = hex::bit_width(number) - 1; bit >= 0; bit -= 1) result += (number & (0b1 << bit)) == 0 ? '0' : '1'; return result; } [[nodiscard]] float float16ToFloat32(u16 float16); [[nodiscard]] inline bool equalsIgnoreCase(const std::string &left, const std::string &right) { return std::equal(left.begin(), left.end(), right.begin(), right.end(), [](char a, char b) { return tolower(a) == tolower(b); }); } [[nodiscard]] inline bool containsIgnoreCase(const std::string &a, const std::string &b) { auto iter = std::search(a.begin(), a.end(), b.begin(), b.end(), [](char ch1, char ch2) { return std::toupper(ch1) == std::toupper(ch2); }); return iter != a.end(); } template [[nodiscard]] T get_or(const std::variant &variant, T alt) { const T *value = std::get_if(&variant); if (value == nullptr) return alt; else return *value; } template [[nodiscard]] T alignTo(T value, T alignment) { T remainder = value % alignment; return remainder != 0 ? value + (alignment - remainder) : value; } [[nodiscard]] std::optional hexCharToValue(char c); [[nodiscard]] bool isProcessElevated(); [[nodiscard]] std::optional getEnvironmentVariable(const std::string &env); [[nodiscard]] inline std::string limitStringLength(const std::string &string, size_t maxLength) { if (string.length() <= maxLength) return string; return string.substr(0, maxLength - 3) + "..."; } [[nodiscard]] std::optional getInitialFilePath(); [[nodiscard]] std::string generateHexView(u64 offset, u64 size, prv::Provider *provider); [[nodiscard]] std::string generateHexView(u64 offset, const std::vector &data); }