/* 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 Parser.cpp * @author Gav Wood * @date 2014 */ #include "Parser.h" #if _MSC_VER #pragma warning(disable:4348) #endif #define BOOST_RESULT_OF_USE_DECLTYPE #define BOOST_SPIRIT_USE_PHOENIX_V3 #include #include #include using namespace std; using namespace dev; using namespace dev::lll; namespace qi = boost::spirit::qi; namespace px = boost::phoenix; namespace sp = boost::spirit; void dev::lll::killBigints(sp::utree const& _this) { switch (_this.which()) { case sp::utree_type::list_type: for (auto const& i: _this) killBigints(i); break; case sp::utree_type::any_type: delete _this.get(); break; default:; } } void dev::lll::debugOutAST(ostream& _out, sp::utree const& _this) { switch (_this.which()) { case sp::utree_type::list_type: switch (_this.tag()) { case 0: _out << "( "; for (auto const& i: _this) { debugOutAST(_out, i); _out << " "; } _out << ")"; break; case 1: _out << "@ "; debugOutAST(_out, _this.front()); break; case 2: _out << "@@ "; debugOutAST(_out, _this.front()); break; case 3: _out << "[ "; debugOutAST(_out, _this.front()); _out << " ] "; debugOutAST(_out, _this.back()); break; case 4: _out << "[[ "; debugOutAST(_out, _this.front()); _out << " ]] "; debugOutAST(_out, _this.back()); break; case 5: _out << "{ "; for (auto const& i: _this) { debugOutAST(_out, i); _out << " "; } _out << "}"; break; case 6: _out << "$ "; debugOutAST(_out, _this.front()); break; default:; } break; case sp::utree_type::int_type: _out << _this.get(); break; case sp::utree_type::string_type: _out << "\"" << _this.get, sp::utree_type::string_type>>() << "\""; break; case sp::utree_type::symbol_type: _out << _this.get, sp::utree_type::symbol_type>>(); break; case sp::utree_type::any_type: _out << *_this.get(); break; default: _out << "nil"; } } namespace dev { namespace lll { namespace parseTreeLLL_ { template struct tagNode { void operator()(sp::utree& n, qi::rule::context_type& c) const { (boost::fusion::at_c<0>(c.attributes) = n).tag(N); } }; }}} void dev::lll::parseTreeLLL(string const& _s, sp::utree& o_out) { using qi::standard::space; using qi::standard::space_type; using dev::lll::parseTreeLLL_::tagNode; using symbol_type = sp::basic_string; using it = string::const_iterator; qi::rule element; qi::rule str = '"' > qi::lexeme[+(~qi::char_(std::string("\"") + '\0'))] > '"'; qi::rule strsh = '\'' > qi::lexeme[+(~qi::char_(std::string(" ;$@()[]{}:\n\t") + '\0'))]; qi::rule symbol = qi::lexeme[+(~qi::char_(std::string(" $@[]{}:();\"\x01-\x1f\x7f") + '\0'))]; qi::rule intstr = qi::lexeme[ qi::no_case["0x"][qi::_val = "0x"] >> +qi::char_("0-9a-fA-F")[qi::_val += qi::_1]] | qi::lexeme[+qi::char_("0-9")[qi::_val += qi::_1]]; qi::rule integer = intstr[qi::_val = px::construct(px::new_(qi::_1))]; qi::rule atom = integer[qi::_val = qi::_1] | (str | strsh)[qi::_val = qi::_1] | symbol[qi::_val = qi::_1]; qi::rule seq = '{' > *element > '}'; qi::rule mload = '@' > element; qi::rule sload = qi::lit("@@") > element; qi::rule mstore = '[' > element > ']' > -qi::lit(":") > element; qi::rule sstore = qi::lit("[[") > element > qi::lit("]]") > -qi::lit(":") > element; qi::rule calldataload = qi::lit("$") > element; qi::rule list = '(' > *element > ')'; qi::rule extra = sload[tagNode<2>()] | mload[tagNode<1>()] | sstore[tagNode<4>()] | mstore[tagNode<3>()] | seq[tagNode<5>()] | calldataload[tagNode<6>()]; element = atom | list | extra; string s; s.reserve(_s.size()); bool incomment = false; bool instring = false; bool insstring = false; for (auto i: _s) { if (i == ';' && !instring && !insstring) incomment = true; else if (i == '\n') incomment = instring = insstring = false; else if (i == '"' && !insstring) instring = !instring; else if (i == '\'') insstring = true; else if (i == ' ') insstring = false; if (!incomment) s.push_back(i); } auto ret = s.cbegin(); try { qi::phrase_parse(ret, s.cend(), element, space, qi::skip_flag::dont_postskip, o_out); } catch (qi::expectation_failure const& e) { std::string fragment(e.first, e.last); std::string loc = std::to_string(std::distance(s.cbegin(), e.first) - 1); std::string reason("Lexer failure at " + loc + ": '" + fragment + "'"); BOOST_THROW_EXCEPTION(ParserException() << errinfo_comment(reason)); } for (auto i = ret; i != s.cend(); ++i) if (!isspace(*i)) { BOOST_THROW_EXCEPTION(ParserException() << errinfo_comment("Non-whitespace left in parser")); } }