/* * Copyright (c) 2022, David Tuin * * SPDX-License-Identifier: BSD-2-Clause */ #pragma once #ifdef KERNEL # error This file should not be included in the KERNEL as it deals with doubles \ and there is no guraantee does not do any floating point computations. #endif #include namespace AK { static constexpr char floating_point_decimal_separator = '.'; enum class FloatingPointError { None, NoOrInvalidInput, OutOfRange, RoundedDownToZero }; template struct FloatingPointParseResults { char const* end_ptr { nullptr }; FloatingPointError error = FloatingPointError::None; T value {}; [[nodiscard]] bool parsed_value() const { // All other errors do indicate out of range but did produce a valid value. return error != FloatingPointError::NoOrInvalidInput; } }; /// This function finds the first floating point within [start, end). The accepted format is /// intentionally as lenient as possible. If your format is stricter you must validate it /// first. The format accepts: /// - An optional sign, both + and - are supported /// - 0 or more decimal digits, with leading zeros allowed [1] /// - A decimal point '.', which can have no digits after it /// - 0 or more decimal digits, unless the first digits [1] doesn't have any digits, /// then this must have at least one /// - An exponent 'e' or 'E' followed by an optional sign '+' or '-' and at least one digit /// This function additionally detects out of range values which have been rounded to /// [-]infinity or 0 and gives the next character to read after the floating point. template FloatingPointParseResults parse_first_floating_point(char const* start, char const* end); /// This function finds the first floating point starting at start up to the first '\0'. /// The format is identical to parse_first_floating_point above. template FloatingPointParseResults parse_first_floating_point_until_zero_character(char const* start); /// This function will return either a floating point, or an empty optional if the given StringView /// does not a floating point or contains more characters beyond the floating point. For the format /// check the comment on parse_first_floating_point. template Optional parse_floating_point_completely(char const* start, char const* end); /// This function finds the first floating point as a hex float within [start, end). /// The accepted format is intentionally as lenient as possible. If your format is /// stricter you must validate it first. The format accepts: /// - An optional sign, both + and - are supported /// - Optionally either 0x or OX /// - 0 or more hexadecimal digits, with leading zeros allowed [1] /// - A decimal point '.', which can have no digits after it /// - 0 or more hexadecimal digits, unless the first digits [1] doesn't have any digits, /// then this must have at least one /// - An exponent 'p' or 'P' followed by an optional sign '+' or '-' and at least one decimal digit /// NOTE: The exponent is _not_ hexadecimal and gives powers of 2 not 16. /// This function additionally detects out of range values which have been rounded to /// [-]infinity or 0 and gives the next character to read after the floating point. template FloatingPointParseResults parse_first_hexfloat_until_zero_character(char const* start); } using AK::parse_first_floating_point; using AK::parse_first_hexfloat_until_zero_character; using AK::parse_floating_point_completely;