mirror of
https://github.com/ethereum/solidity
synced 2023-10-03 13:03:40 +00:00
324 lines
8.9 KiB
C++
324 lines
8.9 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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/**
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* Yul interpreter.
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*/
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#include <test/tools/yulInterpreter/Interpreter.h>
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#include <test/tools/yulInterpreter/EVMInstructionInterpreter.h>
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#include <test/tools/yulInterpreter/EwasmBuiltinInterpreter.h>
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#include <libyul/AsmData.h>
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#include <libyul/Dialect.h>
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#include <libyul/Utilities.h>
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#include <libyul/backends/evm/EVMDialect.h>
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#include <libyul/backends/wasm/WasmDialect.h>
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#include <liblangutil/Exceptions.h>
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#include <libsolutil/FixedHash.h>
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#include <boost/range/adaptor/reversed.hpp>
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#include <boost/algorithm/cxx11/all_of.hpp>
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#include <ostream>
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#include <variant>
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using namespace std;
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using namespace solidity;
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using namespace solidity::yul;
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using namespace solidity::yul::test;
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using solidity::util::h256;
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void InterpreterState::dumpTraceAndState(ostream& _out) const
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{
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_out << "Trace:" << endl;
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for (auto const& line: trace)
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_out << " " << line << endl;
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_out << "Memory dump:\n";
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map<u256, u256> words;
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for (auto const& [offset, value]: memory)
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words[(offset / 0x20) * 0x20] |= u256(uint32_t(value)) << (256 - 8 - 8 * size_t(offset % 0x20));
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for (auto const& [offset, value]: words)
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if (value != 0)
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_out << " " << std::uppercase << std::hex << std::setw(4) << offset << ": " << h256(value).hex() << endl;
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_out << "Storage dump:" << endl;
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for (auto const& slot: storage)
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if (slot.second != h256{})
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_out << " " << slot.first.hex() << ": " << slot.second.hex() << endl;
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}
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void Interpreter::operator()(ExpressionStatement const& _expressionStatement)
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{
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evaluateMulti(_expressionStatement.expression);
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}
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void Interpreter::operator()(Assignment const& _assignment)
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{
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solAssert(_assignment.value, "");
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vector<u256> values = evaluateMulti(*_assignment.value);
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solAssert(values.size() == _assignment.variableNames.size(), "");
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for (size_t i = 0; i < values.size(); ++i)
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{
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YulString varName = _assignment.variableNames.at(i).name;
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solAssert(m_variables.count(varName), "");
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m_variables[varName] = values.at(i);
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}
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}
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void Interpreter::operator()(VariableDeclaration const& _declaration)
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{
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vector<u256> values(_declaration.variables.size(), 0);
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if (_declaration.value)
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values = evaluateMulti(*_declaration.value);
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solAssert(values.size() == _declaration.variables.size(), "");
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for (size_t i = 0; i < values.size(); ++i)
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{
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YulString varName = _declaration.variables.at(i).name;
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solAssert(!m_variables.count(varName), "");
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m_variables[varName] = values.at(i);
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solAssert(!m_scopes.back().count(varName), "");
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m_scopes.back().emplace(varName, nullptr);
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}
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}
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void Interpreter::operator()(If const& _if)
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{
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solAssert(_if.condition, "");
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if (evaluate(*_if.condition) != 0)
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(*this)(_if.body);
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}
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void Interpreter::operator()(Switch const& _switch)
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{
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solAssert(_switch.expression, "");
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u256 val = evaluate(*_switch.expression);
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solAssert(!_switch.cases.empty(), "");
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for (auto const& c: _switch.cases)
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// Default case has to be last.
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if (!c.value || evaluate(*c.value) == val)
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{
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(*this)(c.body);
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break;
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}
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}
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void Interpreter::operator()(FunctionDefinition const&)
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{
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}
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void Interpreter::operator()(ForLoop const& _forLoop)
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{
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solAssert(_forLoop.condition, "");
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openScope();
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ScopeGuard g([this]{ closeScope(); });
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for (auto const& statement: _forLoop.pre.statements)
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{
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visit(statement);
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if (m_state.controlFlowState == ControlFlowState::Leave)
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return;
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}
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while (evaluate(*_forLoop.condition) != 0)
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{
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m_state.controlFlowState = ControlFlowState::Default;
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(*this)(_forLoop.body);
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if (m_state.controlFlowState == ControlFlowState::Break || m_state.controlFlowState == ControlFlowState::Leave)
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break;
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m_state.controlFlowState = ControlFlowState::Default;
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(*this)(_forLoop.post);
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if (m_state.controlFlowState == ControlFlowState::Leave)
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break;
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}
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if (m_state.controlFlowState != ControlFlowState::Leave)
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m_state.controlFlowState = ControlFlowState::Default;
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}
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void Interpreter::operator()(Break const&)
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{
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m_state.controlFlowState = ControlFlowState::Break;
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}
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void Interpreter::operator()(Continue const&)
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{
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m_state.controlFlowState = ControlFlowState::Continue;
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}
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void Interpreter::operator()(Leave const&)
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{
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m_state.controlFlowState = ControlFlowState::Leave;
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}
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void Interpreter::operator()(Block const& _block)
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{
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m_state.numSteps++;
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if (m_state.maxSteps > 0 && m_state.numSteps >= m_state.maxSteps)
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{
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m_state.trace.emplace_back("Interpreter execution step limit reached.");
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throw StepLimitReached();
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}
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openScope();
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// Register functions.
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for (auto const& statement: _block.statements)
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if (holds_alternative<FunctionDefinition>(statement))
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{
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FunctionDefinition const& funDef = std::get<FunctionDefinition>(statement);
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solAssert(!m_scopes.back().count(funDef.name), "");
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m_scopes.back().emplace(funDef.name, &funDef);
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}
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for (auto const& statement: _block.statements)
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{
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visit(statement);
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if (m_state.controlFlowState != ControlFlowState::Default)
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break;
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}
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closeScope();
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}
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u256 Interpreter::evaluate(Expression const& _expression)
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{
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ExpressionEvaluator ev(m_state, m_dialect, m_variables, m_scopes);
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ev.visit(_expression);
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return ev.value();
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}
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vector<u256> Interpreter::evaluateMulti(Expression const& _expression)
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{
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ExpressionEvaluator ev(m_state, m_dialect, m_variables, m_scopes);
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ev.visit(_expression);
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return ev.values();
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}
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void Interpreter::closeScope()
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{
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for (auto const& [var, funDeclaration]: m_scopes.back())
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if (!funDeclaration)
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solAssert(m_variables.erase(var) == 1, "");
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m_scopes.pop_back();
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}
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void ExpressionEvaluator::operator()(Literal const& _literal)
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{
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static YulString const trueString("true");
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static YulString const falseString("false");
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setValue(valueOfLiteral(_literal));
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}
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void ExpressionEvaluator::operator()(Identifier const& _identifier)
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{
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solAssert(m_variables.count(_identifier.name), "");
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setValue(m_variables.at(_identifier.name));
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}
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void ExpressionEvaluator::operator()(FunctionCall const& _funCall)
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{
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evaluateArgs(_funCall.arguments);
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if (EVMDialect const* dialect = dynamic_cast<EVMDialect const*>(&m_dialect))
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{
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if (BuiltinFunctionForEVM const* fun = dialect->builtin(_funCall.functionName.name))
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{
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EVMInstructionInterpreter interpreter(m_state);
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setValue(interpreter.evalBuiltin(*fun, values()));
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return;
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}
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}
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else if (WasmDialect const* dialect = dynamic_cast<WasmDialect const*>(&m_dialect))
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if (dialect->builtin(_funCall.functionName.name))
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{
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EwasmBuiltinInterpreter interpreter(m_state);
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setValue(interpreter.evalBuiltin(_funCall.functionName.name, values()));
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return;
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}
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auto [functionScopes, fun] = findFunctionAndScope(_funCall.functionName.name);
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solAssert(fun, "Function not found.");
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solAssert(m_values.size() == fun->parameters.size(), "");
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map<YulString, u256> variables;
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for (size_t i = 0; i < fun->parameters.size(); ++i)
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variables[fun->parameters.at(i).name] = m_values.at(i);
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for (size_t i = 0; i < fun->returnVariables.size(); ++i)
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variables[fun->returnVariables.at(i).name] = 0;
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m_state.controlFlowState = ControlFlowState::Default;
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Interpreter interpreter(m_state, m_dialect, variables, functionScopes);
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interpreter(fun->body);
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m_state.controlFlowState = ControlFlowState::Default;
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m_values.clear();
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for (auto const& retVar: fun->returnVariables)
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m_values.emplace_back(interpreter.valueOfVariable(retVar.name));
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}
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u256 ExpressionEvaluator::value() const
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{
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solAssert(m_values.size() == 1, "");
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return m_values.front();
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}
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void ExpressionEvaluator::setValue(u256 _value)
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{
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m_values.clear();
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m_values.emplace_back(std::move(_value));
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}
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void ExpressionEvaluator::evaluateArgs(vector<Expression> const& _expr)
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{
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vector<u256> values;
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/// Function arguments are evaluated in reverse.
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for (auto const& expr: _expr | boost::adaptors::reversed)
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{
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visit(expr);
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values.push_back(value());
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}
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m_values = std::move(values);
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std::reverse(m_values.begin(), m_values.end());
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}
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pair<
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vector<map<YulString, FunctionDefinition const*>>,
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FunctionDefinition const*
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> ExpressionEvaluator::findFunctionAndScope(YulString _functionName) const
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{
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FunctionDefinition const* fun = nullptr;
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std::vector<std::map<YulString, FunctionDefinition const*>> newScopes;
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for (auto const& scope: m_scopes)
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{
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// Copy over all functions.
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newScopes.emplace_back();
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for (auto const& [name, funDef]: scope)
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if (funDef)
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newScopes.back().emplace(name, funDef);
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// Stop at the called function.
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if (scope.count(_functionName))
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{
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fun = scope.at(_functionName);
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break;
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}
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}
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return {move(newScopes), fun};
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}
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