mirror of
https://github.com/ethereum/solidity
synced 2023-10-03 13:03:40 +00:00
6c3b48ddfc
Removed push/pop if there was no change to the warnings *in the same file* for a given compiler. This assumes the imported boost headers use a warning stack themselves. The pragmas don't seem to be required anymore, but were not removed to mantain compatibility with older versions of the boost library. Compiled with - clang version 6.0.1 (tags/RELEASE_601/final) - gcc (GCC) 8.1.1 20180531 against: - libboost 1.67.0-5
709 lines
19 KiB
C++
709 lines
19 KiB
C++
/*
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This file is part of solidity.
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solidity is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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solidity is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with solidity. If not, see <http://www.gnu.org/licenses/>.
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*/
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/** @file CodeFragment.cpp
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* @author Gav Wood <i@gavwood.com>
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* @date 2014
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*/
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#include "CodeFragment.h"
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#include <boost/algorithm/string.hpp>
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#if defined(__GNUC__)
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#pragma GCC diagnostic push
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#pragma GCC diagnostic ignored "-Wunused-parameter"
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#endif // defined(__GNUC__)
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#include <boost/spirit/include/support_utree.hpp>
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#if defined(__GNUC__)
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#pragma GCC diagnostic pop
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#endif // defined(__GNUC__)
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#include <libdevcore/CommonIO.h>
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#include <libevmasm/Instruction.h>
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#include "CompilerState.h"
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#include "Parser.h"
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using namespace std;
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using namespace dev;
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using namespace dev::lll;
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void CodeFragment::finalise(CompilerState const& _cs)
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{
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if (_cs.usedAlloc && _cs.vars.size() && !m_finalised)
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{
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m_finalised = true;
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m_asm.injectStart(Instruction::MSTORE8);
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m_asm.injectStart((u256)((_cs.vars.size() + 2) * 32) - 1);
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m_asm.injectStart((u256)1);
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}
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}
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namespace
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{
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/// Returns true iff the instruction is valid in "inline assembly".
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bool validAssemblyInstruction(string us)
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{
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auto it = c_instructions.find(us);
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return !(
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it == c_instructions.end() ||
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solidity::isPushInstruction(it->second)
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);
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}
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/// Returns true iff the instruction is valid as a function.
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bool validFunctionalInstruction(string us)
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{
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auto it = c_instructions.find(us);
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return !(
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it == c_instructions.end() ||
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solidity::isPushInstruction(it->second) ||
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solidity::isDupInstruction(it->second) ||
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solidity::isSwapInstruction(it->second) ||
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it->second == solidity::Instruction::JUMPDEST
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);
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}
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}
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CodeFragment::CodeFragment(sp::utree const& _t, CompilerState& _s, ReadCallback const& _readFile, bool _allowASM):
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m_readFile(_readFile)
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{
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/*
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std::cout << "CodeFragment. Locals:";
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for (auto const& i: _s.defs)
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std::cout << i.first << ":" << i.second.m_asm.out();
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std::cout << "Args:";
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for (auto const& i: _s.args)
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std::cout << i.first << ":" << i.second.m_asm.out();
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std::cout << "Outers:";
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for (auto const& i: _s.outers)
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std::cout << i.first << ":" << i.second.m_asm.out();
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debugOutAST(std::cout, _t);
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std::cout << endl << flush;
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*/
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switch (_t.which())
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{
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case sp::utree_type::list_type:
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constructOperation(_t, _s);
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break;
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case sp::utree_type::string_type:
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{
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auto sr = _t.get<sp::basic_string<boost::iterator_range<char const*>, sp::utree_type::string_type>>();
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string s(sr.begin(), sr.end());
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m_asm.append(s);
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break;
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}
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case sp::utree_type::symbol_type:
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{
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auto sr = _t.get<sp::basic_string<boost::iterator_range<char const*>, sp::utree_type::symbol_type>>();
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string s(sr.begin(), sr.end());
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string us = boost::algorithm::to_upper_copy(s);
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if (_allowASM && c_instructions.count(us) && validAssemblyInstruction(us))
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m_asm.append(c_instructions.at(us));
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else if (_s.defs.count(s))
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m_asm.append(_s.defs.at(s).m_asm);
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else if (_s.args.count(s))
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m_asm.append(_s.args.at(s).m_asm);
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else if (_s.outers.count(s))
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m_asm.append(_s.outers.at(s).m_asm);
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else if (us.find_first_of("1234567890") != 0 && us.find_first_not_of("QWERTYUIOPASDFGHJKLZXCVBNM1234567890_-") == string::npos)
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{
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auto it = _s.vars.find(s);
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if (it == _s.vars.end())
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error<InvalidName>(std::string("Symbol not found: ") + s);
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m_asm.append((u256)it->second.first);
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}
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else
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error<BareSymbol>(s);
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break;
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}
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case sp::utree_type::any_type:
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{
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bigint i = *_t.get<bigint*>();
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if (i < 0 || i > bigint(u256(0) - 1))
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error<IntegerOutOfRange>(toString(i));
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m_asm.append((u256)i);
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break;
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}
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default:
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error<CompilerException>("Unexpected fragment type");
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break;
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}
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}
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void CodeFragment::constructOperation(sp::utree const& _t, CompilerState& _s)
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{
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if (_t.tag() == 0 && _t.empty())
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error<EmptyList>();
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else if (_t.tag() == 0 && _t.front().which() != sp::utree_type::symbol_type)
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error<DataNotExecutable>();
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else
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{
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string s;
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string us;
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switch (_t.tag())
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{
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case 0:
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{
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auto sr = _t.front().get<sp::basic_string<boost::iterator_range<char const*>, sp::utree_type::symbol_type>>();
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s = string(sr.begin(), sr.end());
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us = boost::algorithm::to_upper_copy(s);
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break;
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}
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case 1:
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us = "MLOAD";
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break;
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case 2:
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us = "SLOAD";
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break;
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case 3:
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us = "MSTORE";
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break;
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case 4:
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us = "SSTORE";
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break;
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case 5:
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us = "SEQ";
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break;
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case 6:
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us = "CALLDATALOAD";
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break;
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default:;
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}
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auto firstAsString = [&]()
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{
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auto i = *++_t.begin();
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if (i.tag())
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error<InvalidName>(toString(i));
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if (i.which() == sp::utree_type::string_type)
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{
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auto sr = i.get<sp::basic_string<boost::iterator_range<char const*>, sp::utree_type::string_type>>();
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return string(sr.begin(), sr.end());
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}
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else if (i.which() == sp::utree_type::symbol_type)
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{
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auto sr = i.get<sp::basic_string<boost::iterator_range<char const*>, sp::utree_type::symbol_type>>();
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return _s.getDef(string(sr.begin(), sr.end())).m_asm.backString();
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}
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return string();
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};
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auto varAddress = [&](string const& n, bool createMissing = false)
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{
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if (n.empty())
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error<InvalidName>("Empty variable name not allowed");
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auto it = _s.vars.find(n);
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if (it == _s.vars.end())
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{
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if (createMissing)
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{
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// Create new variable
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bool ok;
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tie(it, ok) = _s.vars.insert(make_pair(n, make_pair(_s.stackSize, 32)));
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_s.stackSize += 32;
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}
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else
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error<InvalidName>(std::string("Symbol not found: ") + n);
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}
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return it->second.first;
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};
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// Operations who args are not standard stack-pushers.
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bool nonStandard = true;
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if (us == "ASM")
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{
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int c = 0;
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for (auto const& i: _t)
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if (c++)
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m_asm.append(CodeFragment(i, _s, m_readFile, true).m_asm);
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}
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else if (us == "INCLUDE")
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{
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if (_t.size() != 2)
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error<IncorrectParameterCount>(us);
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string fileName = firstAsString();
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if (fileName.empty())
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error<InvalidName>("Empty file name provided");
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if (!m_readFile)
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error<InvalidName>("Import callback not present");
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string contents = m_readFile(fileName);
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if (contents.empty())
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error<InvalidName>(std::string("File not found (or empty): ") + fileName);
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m_asm.append(CodeFragment::compile(contents, _s, m_readFile).m_asm);
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}
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else if (us == "SET")
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{
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if (_t.size() != 3)
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error<IncorrectParameterCount>(us);
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int c = 0;
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for (auto const& i: _t)
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if (c++ == 2)
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m_asm.append(CodeFragment(i, _s, m_readFile, false).m_asm);
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m_asm.append((u256)varAddress(firstAsString(), true));
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m_asm.append(Instruction::MSTORE);
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}
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else if (us == "GET")
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{
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if (_t.size() != 2)
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error<IncorrectParameterCount>(us);
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m_asm.append((u256)varAddress(firstAsString()));
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m_asm.append(Instruction::MLOAD);
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}
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else if (us == "REF")
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m_asm.append((u256)varAddress(firstAsString()));
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else if (us == "DEF")
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{
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string n;
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unsigned ii = 0;
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if (_t.size() != 3 && _t.size() != 4)
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error<IncorrectParameterCount>(us);
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vector<string> args;
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for (auto const& i: _t)
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{
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if (ii == 1)
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{
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if (i.tag())
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error<InvalidName>(toString(i));
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if (i.which() == sp::utree_type::string_type)
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{
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auto sr = i.get<sp::basic_string<boost::iterator_range<char const*>, sp::utree_type::string_type>>();
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n = string(sr.begin(), sr.end());
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}
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else if (i.which() == sp::utree_type::symbol_type)
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{
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auto sr = i.get<sp::basic_string<boost::iterator_range<char const*>, sp::utree_type::symbol_type>>();
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n = _s.getDef(string(sr.begin(), sr.end())).m_asm.backString();
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}
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}
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else if (ii == 2)
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if (_t.size() == 3)
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{
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/// NOTE: some compilers could do the assignment first if this is done in a single line
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CodeFragment code = CodeFragment(i, _s, m_readFile);
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_s.defs[n] = code;
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}
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else
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for (auto const& j: i)
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{
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if (j.tag() || j.which() != sp::utree_type::symbol_type)
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error<InvalidMacroArgs>();
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auto sr = j.get<sp::basic_string<boost::iterator_range<char const*>, sp::utree_type::symbol_type>>();
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args.push_back(string(sr.begin(), sr.end()));
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}
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else if (ii == 3)
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{
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auto k = make_pair(n, args.size());
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_s.macros[k].code = i;
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_s.macros[k].env = _s.outers;
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_s.macros[k].args = args;
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for (auto const& i: _s.args)
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_s.macros[k].env[i.first] = i.second;
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for (auto const& i: _s.defs)
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_s.macros[k].env[i.first] = i.second;
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}
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++ii;
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}
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}
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else if (us == "LIT")
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{
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if (_t.size() < 3)
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error<IncorrectParameterCount>(us);
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unsigned ii = 0;
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CodeFragment pos;
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bytes data;
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for (auto const& i: _t)
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{
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if (ii == 0)
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{
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ii++;
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continue;
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}
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else if (ii == 1)
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{
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pos = CodeFragment(i, _s, m_readFile);
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if (pos.m_asm.deposit() != 1)
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error<InvalidDeposit>(toString(i));
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}
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else if (i.tag() != 0)
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{
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error<InvalidLiteral>(toString(i));
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}
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else if (i.which() == sp::utree_type::string_type)
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{
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auto sr = i.get<sp::basic_string<boost::iterator_range<char const*>, sp::utree_type::string_type>>();
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data.insert(data.end(), (byte const *)sr.begin(), (byte const*)sr.end());
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}
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else if (i.which() == sp::utree_type::any_type)
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{
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bigint bi = *i.get<bigint*>();
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if (bi < 0)
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error<IntegerOutOfRange>(toString(i));
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else
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{
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bytes tmp = toCompactBigEndian(bi);
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data.insert(data.end(), tmp.begin(), tmp.end());
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}
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}
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else
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{
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error<InvalidLiteral>(toString(i));
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}
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ii++;
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}
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m_asm.append((u256)data.size());
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m_asm.append(Instruction::DUP1);
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m_asm.append(data);
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m_asm.append(pos.m_asm, 1);
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m_asm.append(Instruction::CODECOPY);
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}
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else
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nonStandard = false;
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if (nonStandard)
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return;
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std::map<std::string, Instruction> const c_arith = {
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{ "+", Instruction::ADD },
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{ "-", Instruction::SUB },
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{ "*", Instruction::MUL },
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{ "/", Instruction::DIV },
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{ "%", Instruction::MOD },
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{ "&", Instruction::AND },
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{ "|", Instruction::OR },
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{ "^", Instruction::XOR }
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};
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std::map<std::string, pair<Instruction, bool>> const c_binary = {
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{ "<", { Instruction::LT, false } },
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{ "<=", { Instruction::GT, true } },
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{ ">", { Instruction::GT, false } },
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{ ">=", { Instruction::LT, true } },
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{ "S<", { Instruction::SLT, false } },
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{ "S<=", { Instruction::SGT, true } },
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{ "S>", { Instruction::SGT, false } },
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{ "S>=", { Instruction::SLT, true } },
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{ "=", { Instruction::EQ, false } },
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{ "!=", { Instruction::EQ, true } }
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};
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std::map<std::string, Instruction> const c_unary = {
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{ "!", Instruction::ISZERO },
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{ "~", Instruction::NOT }
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};
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vector<CodeFragment> code;
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CompilerState ns = _s;
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ns.vars.clear();
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ns.usedAlloc = false;
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int c = _t.tag() ? 1 : 0;
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for (auto const& i: _t)
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if (c++)
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{
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if (us == "LLL" && c == 1)
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code.push_back(CodeFragment(i, ns, m_readFile));
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else
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code.push_back(CodeFragment(i, _s, m_readFile));
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}
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auto requireSize = [&](unsigned s) { if (code.size() != s) error<IncorrectParameterCount>(us); };
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auto requireMinSize = [&](unsigned s) { if (code.size() < s) error<IncorrectParameterCount>(us); };
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auto requireMaxSize = [&](unsigned s) { if (code.size() > s) error<IncorrectParameterCount>(us); };
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auto requireDeposit = [&](unsigned i, int s) { if (code[i].m_asm.deposit() != s) error<InvalidDeposit>(us); };
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if (_s.macros.count(make_pair(s, code.size())))
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{
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Macro const& m = _s.macros.at(make_pair(s, code.size()));
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CompilerState cs = _s;
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for (auto const& i: m.env)
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cs.outers[i.first] = i.second;
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for (auto const& i: cs.defs)
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cs.outers[i.first] = i.second;
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cs.defs.clear();
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for (unsigned i = 0; i < m.args.size(); ++i)
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{
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//requireDeposit(i, 1);
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cs.args[m.args[i]] = code[i];
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}
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m_asm.append(CodeFragment(m.code, cs, m_readFile).m_asm);
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for (auto const& i: cs.defs)
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_s.defs[i.first] = i.second;
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for (auto const& i: cs.macros)
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_s.macros.insert(i);
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}
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else if (c_instructions.count(us) && validFunctionalInstruction(us))
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{
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auto it = c_instructions.find(us);
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requireSize(instructionInfo(it->second).args);
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for (unsigned i = code.size(); i; --i)
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m_asm.append(code[i - 1].m_asm, 1);
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m_asm.append(it->second);
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}
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else if (c_arith.count(us))
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{
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auto it = c_arith.find(us);
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requireMinSize(1);
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for (unsigned i = code.size(); i; --i)
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{
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requireDeposit(i - 1, 1);
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m_asm.append(code[i - 1].m_asm, 1);
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}
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for (unsigned i = 1; i < code.size(); ++i)
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m_asm.append(it->second);
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}
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else if (c_binary.count(us))
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{
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auto it = c_binary.find(us);
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requireSize(2);
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requireDeposit(0, 1);
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requireDeposit(1, 1);
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m_asm.append(code[1].m_asm, 1);
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m_asm.append(code[0].m_asm, 1);
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m_asm.append(it->second.first);
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if (it->second.second)
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m_asm.append(Instruction::ISZERO);
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}
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else if (c_unary.count(us))
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{
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auto it = c_unary.find(us);
|
|
requireSize(1);
|
|
requireDeposit(0, 1);
|
|
m_asm.append(code[0].m_asm, 1);
|
|
m_asm.append(it->second);
|
|
}
|
|
else if (us == "IF")
|
|
{
|
|
requireSize(3);
|
|
requireDeposit(0, 1);
|
|
int minDep = min(code[1].m_asm.deposit(), code[2].m_asm.deposit());
|
|
|
|
m_asm.append(code[0].m_asm);
|
|
auto mainBranch = m_asm.appendJumpI();
|
|
|
|
/// The else branch.
|
|
int startDeposit = m_asm.deposit();
|
|
m_asm.append(code[2].m_asm, minDep);
|
|
auto end = m_asm.appendJump();
|
|
int deposit = m_asm.deposit();
|
|
m_asm.setDeposit(startDeposit);
|
|
|
|
/// The main branch.
|
|
m_asm << mainBranch.tag();
|
|
m_asm.append(code[1].m_asm, minDep);
|
|
m_asm << end.tag();
|
|
if (m_asm.deposit() != deposit)
|
|
error<InvalidDeposit>(us);
|
|
}
|
|
else if (us == "WHEN" || us == "UNLESS")
|
|
{
|
|
requireSize(2);
|
|
requireDeposit(0, 1);
|
|
|
|
m_asm.append(code[0].m_asm);
|
|
if (us == "WHEN")
|
|
m_asm.append(Instruction::ISZERO);
|
|
auto end = m_asm.appendJumpI();
|
|
m_asm.append(code[1].m_asm, 0);
|
|
m_asm << end.tag();
|
|
}
|
|
else if (us == "WHILE" || us == "UNTIL")
|
|
{
|
|
requireSize(2);
|
|
requireDeposit(0, 1);
|
|
|
|
auto begin = m_asm.append(m_asm.newTag());
|
|
m_asm.append(code[0].m_asm);
|
|
if (us == "WHILE")
|
|
m_asm.append(Instruction::ISZERO);
|
|
auto end = m_asm.appendJumpI();
|
|
m_asm.append(code[1].m_asm, 0);
|
|
m_asm.appendJump(begin);
|
|
m_asm << end.tag();
|
|
}
|
|
else if (us == "FOR")
|
|
{
|
|
requireSize(4);
|
|
requireDeposit(1, 1);
|
|
|
|
m_asm.append(code[0].m_asm, 0);
|
|
auto begin = m_asm.append(m_asm.newTag());
|
|
m_asm.append(code[1].m_asm);
|
|
m_asm.append(Instruction::ISZERO);
|
|
auto end = m_asm.appendJumpI();
|
|
m_asm.append(code[3].m_asm, 0);
|
|
m_asm.append(code[2].m_asm, 0);
|
|
m_asm.appendJump(begin);
|
|
m_asm << end.tag();
|
|
}
|
|
else if (us == "SWITCH")
|
|
{
|
|
requireMinSize(1);
|
|
|
|
bool hasDefault = (code.size() % 2 == 1);
|
|
int startDeposit = m_asm.deposit();
|
|
int targetDeposit = hasDefault ? code[code.size() - 1].m_asm.deposit() : 0;
|
|
|
|
// The conditions
|
|
eth::AssemblyItems jumpTags;
|
|
for (unsigned i = 0; i < code.size() - 1; i += 2)
|
|
{
|
|
requireDeposit(i, 1);
|
|
m_asm.append(code[i].m_asm);
|
|
jumpTags.push_back(m_asm.appendJumpI());
|
|
}
|
|
|
|
// The default, if present
|
|
if (hasDefault)
|
|
m_asm.append(code[code.size() - 1].m_asm);
|
|
|
|
// The targets - appending in reverse makes the top case the most efficient.
|
|
if (code.size() > 1)
|
|
{
|
|
auto end = m_asm.appendJump();
|
|
for (int i = 2 * (code.size() / 2 - 1); i >= 0; i -= 2)
|
|
{
|
|
m_asm << jumpTags[i / 2].tag();
|
|
requireDeposit(i + 1, targetDeposit);
|
|
m_asm.append(code[i + 1].m_asm);
|
|
if (i != 0)
|
|
m_asm.appendJump(end);
|
|
}
|
|
m_asm << end.tag();
|
|
}
|
|
|
|
m_asm.setDeposit(startDeposit + targetDeposit);
|
|
}
|
|
else if (us == "ALLOC")
|
|
{
|
|
requireSize(1);
|
|
requireDeposit(0, 1);
|
|
|
|
// (alloc N):
|
|
// - Evaluates to (msize) before the allocation - the start of the allocated memory
|
|
// - Does not allocate memory when N is zero
|
|
// - Size of memory allocated is N bytes rounded up to a multiple of 32
|
|
// - Uses MLOAD to expand MSIZE to avoid modifying memory.
|
|
|
|
auto end = m_asm.newTag();
|
|
m_asm.append(Instruction::MSIZE); // Result will be original top of memory
|
|
m_asm.append(code[0].m_asm, 1); // The alloc argument N
|
|
m_asm.append(Instruction::DUP1);
|
|
m_asm.append(Instruction::ISZERO);// (alloc 0) does not change MSIZE
|
|
m_asm.appendJumpI(end);
|
|
m_asm.append(u256(1));
|
|
m_asm.append(Instruction::DUP2); // Copy N
|
|
m_asm.append(Instruction::SUB); // N-1
|
|
m_asm.append(u256(0x1f)); // Bit mask
|
|
m_asm.append(Instruction::NOT); // Invert
|
|
m_asm.append(Instruction::AND); // Align N-1 on 32 byte boundary
|
|
m_asm.append(Instruction::MSIZE); // MSIZE is cheap
|
|
m_asm.append(Instruction::ADD);
|
|
m_asm.append(Instruction::MLOAD); // Updates MSIZE
|
|
m_asm.append(Instruction::POP); // Discard the result of the MLOAD
|
|
m_asm.append(end);
|
|
m_asm.append(Instruction::POP); // Discard duplicate N
|
|
|
|
_s.usedAlloc = true;
|
|
}
|
|
else if (us == "LLL")
|
|
{
|
|
requireMinSize(2);
|
|
requireMaxSize(3);
|
|
requireDeposit(1, 1);
|
|
|
|
auto subPush = m_asm.appendSubroutine(make_shared<eth::Assembly>(code[0].assembly(ns)));
|
|
m_asm.append(Instruction::DUP1);
|
|
if (code.size() == 3)
|
|
{
|
|
requireDeposit(2, 1);
|
|
m_asm.append(code[2].m_asm, 1);
|
|
m_asm.append(Instruction::LT);
|
|
m_asm.append(Instruction::ISZERO);
|
|
m_asm.append(Instruction::MUL);
|
|
m_asm.append(Instruction::DUP1);
|
|
}
|
|
m_asm.append(subPush);
|
|
m_asm.append(code[1].m_asm, 1);
|
|
m_asm.append(Instruction::CODECOPY);
|
|
}
|
|
else if (us == "&&" || us == "||")
|
|
{
|
|
requireMinSize(1);
|
|
for (unsigned i = 0; i < code.size(); ++i)
|
|
requireDeposit(i, 1);
|
|
|
|
auto end = m_asm.newTag();
|
|
if (code.size() > 1)
|
|
{
|
|
m_asm.append((u256)(us == "||" ? 1 : 0));
|
|
for (unsigned i = 1; i < code.size(); ++i)
|
|
{
|
|
// Check if true - predicate
|
|
m_asm.append(code[i - 1].m_asm, 1);
|
|
if (us == "&&")
|
|
m_asm.append(Instruction::ISZERO);
|
|
m_asm.appendJumpI(end);
|
|
}
|
|
m_asm.append(Instruction::POP);
|
|
}
|
|
|
|
// Check if true - predicate
|
|
m_asm.append(code.back().m_asm, 1);
|
|
|
|
// At end now.
|
|
m_asm.append(end);
|
|
}
|
|
else if (us == "SEQ")
|
|
{
|
|
unsigned ii = 0;
|
|
for (auto const& i: code)
|
|
if (++ii < code.size())
|
|
m_asm.append(i.m_asm, 0);
|
|
else
|
|
m_asm.append(i.m_asm);
|
|
}
|
|
else if (us == "RAW")
|
|
{
|
|
for (auto const& i: code)
|
|
m_asm.append(i.m_asm);
|
|
// Leave only the last item on stack.
|
|
while (m_asm.deposit() > 1)
|
|
m_asm.append(Instruction::POP);
|
|
}
|
|
else if (us == "BYTECODESIZE")
|
|
{
|
|
m_asm.appendProgramSize();
|
|
}
|
|
else if (us.find_first_of("1234567890") != 0 && us.find_first_not_of("QWERTYUIOPASDFGHJKLZXCVBNM1234567890_-") == string::npos)
|
|
m_asm.append((u256)varAddress(s));
|
|
else
|
|
error<InvalidOperation>("Unsupported keyword: '" + us + "'");
|
|
}
|
|
}
|
|
|
|
CodeFragment CodeFragment::compile(string const& _src, CompilerState& _s, ReadCallback const& _readFile)
|
|
{
|
|
CodeFragment ret;
|
|
sp::utree o;
|
|
parseTreeLLL(_src, o);
|
|
if (!o.empty())
|
|
ret = CodeFragment(o, _s, _readFile);
|
|
_s.treesToKill.push_back(o);
|
|
return ret;
|
|
}
|