/* This file is part of solidity. solidity is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. solidity is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with solidity. If not, see . */ /** @file StringUtils.h * @author Balajiganapathi S * @date 2017 * * String routines */ #pragma once #include #include #include namespace dev { // Calculates the Damerau–Levenshtein distance between _str1 and _str2 and returns true if that distance is not greater than _maxDistance // if _lenThreshold > 0 and the product of the strings length is greater than _lenThreshold, the function will return false bool stringWithinDistance(std::string const& _str1, std::string const& _str2, size_t _maxDistance, size_t _lenThreshold = 0); // Calculates the Damerau–Levenshtein distance between _str1 and _str2 size_t stringDistance(std::string const& _str1, std::string const& _str2); // Return a string having elements of suggestions as quoted, alternative suggestions. e.g. "a", "b" or "c" std::string quotedAlternativesList(std::vector const& suggestions); /// @returns a string containing a comma-separated list of variable names consisting of @a _baseName suffixed /// with increasing integers in the range [@a _startSuffix, @a _endSuffix), if @a _startSuffix < @a _endSuffix, /// and with decreasing integers in the range [@a _endSuffix, @a _startSuffix), if @a _endSuffix < @a _startSuffix. /// If @a _startSuffix == @a _endSuffix, the empty string is returned. std::string suffixedVariableNameList(std::string const& _baseName, size_t _startSuffix, size_t _endSuffix); /// Joins collection of strings into one string with separators between, last separator can be different. /// @param _list collection of strings to join /// @param _separator defaults to ", " /// @param _lastSeparator (optional) will be used to separate last two strings instead of _separator /// @example join(vector{"a", "b", "c"}, "; ", " or ") == "a; b or c" template std::string joinHumanReadable ( T const& _list, std::string const& _separator = ", ", std::string const& _lastSeparator = "" ) { auto const itEnd = end(_list); std::string result; for (auto it = begin(_list); it != itEnd; ) { std::string element = *it; bool first = (it == begin(_list)); ++it; if (!first) { if (it == itEnd && !_lastSeparator.empty()) result += _lastSeparator; // last iteration else result += _separator; } result += std::move(element); } return result; } /// Joins collection of strings just like joinHumanReadable, but prepends the separator /// unless the collection is empty. template std::string joinHumanReadablePrefixed ( T const& _list, std::string const& _separator = ", ", std::string const& _lastSeparator = "" ) { if (begin(_list) == end(_list)) return {}; else return _separator + joinHumanReadable(_list, _separator, _lastSeparator); } /// Formats large numbers to be easily readable by humans. /// Returns decimal representation for smaller numbers; hex for large numbers. /// "Special" numbers, powers-of-two and powers-of-two minus 1, are returned in /// formulaic form like 0x01 * 2**24 - 1. /// @a T will typically by unsigned, u160, u256 or bigint. /// @param _value to be formatted /// @param _useTruncation if true, internal truncation is also applied, /// like 0x5555...{+56 more}...5555 /// @example formatNumber((u256)0x7ffffff) template inline std::string formatNumberReadable( T const& _value, bool _useTruncation = false ) { static_assert( std::is_same::value || !std::numeric_limits::is_signed, "only unsigned types or bigint supported" ); //bigint does not carry sign bit on shift // smaller numbers return as decimal if (_value <= 0x1000000) return _value.str(); HexCase hexcase = HexCase::Mixed; HexPrefix prefix = HexPrefix::Add; // when multiple trailing zero bytes, format as N * 2**x int i = 0; T v = _value; for (; (v & 0xff) == 0; v >>= 8) ++i; if (i > 2) { // 0x100 yields 2**8 (N is 1 and redundant) if (v == 1) return "2**" + std::to_string(i * 8); return toHex(toCompactBigEndian(v), prefix, hexcase) + " * 2**" + std::to_string(i * 8); } // when multiple trailing FF bytes, format as N * 2**x - 1 i = 0; for (v = _value; (v & 0xff) == 0xff; v >>= 8) ++i; if (i > 2) { // 0xFF yields 2**8 - 1 (v is 0 in that case) if (v == 0) return "2**" + std::to_string(i * 8) + " - 1"; return toHex(toCompactBigEndian(T(v + 1)), prefix, hexcase) + " * 2**" + std::to_string(i * 8) + " - 1"; } std::string str = toHex(toCompactBigEndian(_value), prefix, hexcase); if (_useTruncation) { // return as interior-truncated hex. int len = str.size(); if (len < 24) return str; int const initialChars = (prefix == HexPrefix::Add) ? 6 : 4; int const finalChars = 4; int numSkipped = len - initialChars - finalChars; return str.substr(0, initialChars) + "...{+" + std::to_string(numSkipped) + " more}..." + str.substr(len-finalChars, len); } // otherwise, show whole value. return str; } }