//------------------------------------------------------------------------------ /* This file is part of Beast: https://github.com/vinniefalco/Beast Copyright 2013, Vinnie Falco Permission to use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted, provided that the above copyright notice and this permission notice appear in all copies. THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL , DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ //============================================================================== #ifndef BEAST_LEXICALCAST_H_INCLUDED #define BEAST_LEXICALCAST_H_INCLUDED // Base class with utility functions struct LexicalCastUtilities { static unsigned char const s_digitTable [256]; // strict string to integer parser template static inline bool parseSigned (IntType& result, InputIterator begin, InputIterator end) { if (0 == std::distance (begin, end)) return false; uint64 accum = 0; InputIterator it = begin; // process sign bool negative = false; if ('+' == *it) { ++it; } else if ('-' == *it) { ++it; negative = true; } if (end == it) return false; // calc max of abs value uint64 max; if (negative) max = static_cast ( -(static_cast (std::numeric_limits ::min ()))); else max = std::numeric_limits ::max (); // process digits while (end != it) { uint64 const digit = static_cast ( s_digitTable [static_cast (*it++)]); if (0xFF == digit) return false; uint64 const overflow = (max - digit) / 10; if (accum > overflow) return false; accum = (10 * accum) + digit; } if (negative) { result = -static_cast (accum); } else { result = static_cast (accum); } return true; } template static inline bool parseUnsigned (IntType& result, InputIterator begin, InputIterator end) { if (0 == std::distance (begin, end)) return false; uint64 accum = 0; InputIterator it = begin; uint64 const max = std::numeric_limits ::max (); // process digits while (end != it) { uint64 const digit = static_cast ( s_digitTable [static_cast (*it++)]); if (0xFF == digit) return false; uint64 const overflow = (max - digit) / 10; if (accum > overflow) return false; accum = (10 * accum) + digit; } result = static_cast (accum); return true; } }; //------------------------------------------------------------------------------ /** This is thrown when a conversion is not possible. Only used in the throw variants of lexicalCast. */ struct BadLexicalCast : public std::bad_cast { }; // These specializatons get called by the non-member functions to do the work template struct LexicalCast; // conversion to String template struct LexicalCast { bool operator() (String& out, int in) const { out = String (in); return true; } bool operator() (String& out, unsigned int in) const { out = String (in); return true; } bool operator() (String& out, short in) const { out = String (in); return true; } bool operator() (String& out, unsigned short in) const { out = String (in); return true; } bool operator() (String& out, int64 in) const { out = String (in); return true; } bool operator() (String& out, uint64 in) const { out = String (in); return true; } bool operator() (String& out, float in) const { out = String (in); return true; } bool operator() (String& out, double in) const { out = String (in); return true; } }; // Parse String to number template struct LexicalCast { bool operator() (int& out, String const& in) const { std::string const& s (in.toStdString ()); return LexicalCastUtilities::parseSigned (out, s.begin (), s.end ()); } bool operator() (short& out, String const& in) const { std::string const& s (in.toStdString ()); return LexicalCastUtilities::parseSigned (out, s.begin (), s.end ()); } bool operator() (int64& out, String const& in) const { std::string const& s (in.toStdString ()); return LexicalCastUtilities::parseSigned (out, s.begin (), s.end ()); } bool operator() (unsigned int& out, String const& in) const { std::string const& s (in.toStdString ()); return LexicalCastUtilities::parseUnsigned (out, s.begin (), s.end ()); } bool operator() (unsigned short& out, String const& in) const { std::string const& s (in.toStdString ()); return LexicalCastUtilities::parseUnsigned (out, s.begin (), s.end ()); } bool operator() (uint64& out, String const& in) const { std::string const& s (in.toStdString ()); return LexicalCastUtilities::parseUnsigned (out, s.begin (), s.end ()); } bool operator() (float& out, String const& in) const { bassertfalse; return false; /* UNIMPLEMENTED! */ } bool operator() (double& out, String const& in) const { bassertfalse; return false; /* UNIMPLEMENTED! */ } bool operator () (bool& out, String const& in) const { // boost::lexical_cast is very strict, it // throws on anything but "1" or "0" // if (in == "1") { out = true; return true; } else if (in == "0") { out = false; return true; } return false; } }; //------------------------------------------------------------------------------ // Conversion to std::string template struct LexicalCast { bool operator() (std::string& out, In in) const { String s; if (LexicalCast () (s, in)) { out = s.toStdString (); return true; } return false; } }; // Conversion from std::string template struct LexicalCast { bool operator() (Out& out, std::string const& in) const { Out result; if (LexicalCast () (result, String (in.c_str ()))) { out = result; return true; } return false; } }; // Conversion from null terminated char const* template struct LexicalCast { bool operator() (Out& out, char const* in) const { Out result; if (LexicalCast () (result, String (in))) { out = result; return true; } return false; } }; // Conversion from null terminated char* // The string is not modified. template struct LexicalCast { bool operator() (Out& out, char* in) const { Out result; if (LexicalCast () (result, in)) { out = result; return true; } return false; } }; //------------------------------------------------------------------------------ /** Intelligently convert from one type to another. @return `false` if there was a parsing or range error */ template bool lexicalCastChecked (Out& out, In in) { return LexicalCast () (out, in); } /** Convert from one type to another, throw on error An exception of type BadLexicalCast is thrown if the conversion fails. @return The new type. */ template Out lexicalCastThrow (In in) { Out out; if (lexicalCastChecked (out, in)) return out; Throw (BadLexicalCast (), __FILE__, __LINE__); return Out (); } /** Convert from one type to another. @param defaultValue The value returned if parsing fails @return The new type. */ template Out lexicalCast (In in, Out defaultValue = Out ()) { Out out; if (lexicalCastChecked (out, in)) return out; return defaultValue; } #endif