/* 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 . */ // SPDX-License-Identifier: GPL-3.0 #include #include using namespace solidity; using namespace solidity::util; using namespace solidity::frontend::smt; EncodingContext::EncodingContext(): m_state(*this) { } void EncodingContext::reset() { resetAllVariables(); m_expressions.clear(); m_globalContext.clear(); m_state.reset(); m_assertions.clear(); } void EncodingContext::resetUniqueId() { m_nextUniqueId = 0; } unsigned EncodingContext::newUniqueId() { return m_nextUniqueId++; } /// Variables. std::shared_ptr EncodingContext::variable(frontend::VariableDeclaration const& _varDecl) { solAssert(knownVariable(_varDecl), ""); return m_variables[&_varDecl]; } bool EncodingContext::createVariable(frontend::VariableDeclaration const& _varDecl) { solAssert(!knownVariable(_varDecl), ""); auto const& type = _varDecl.type(); auto result = newSymbolicVariable(*type, _varDecl.name() + "_" + std::to_string(_varDecl.id()), *this); m_variables.emplace(&_varDecl, result.second); return result.first; } bool EncodingContext::knownVariable(frontend::VariableDeclaration const& _varDecl) { return m_variables.count(&_varDecl); } void EncodingContext::resetVariable(frontend::VariableDeclaration const& _variable) { newValue(_variable); setUnknownValue(_variable); } void EncodingContext::resetVariables(std::set const& _variables) { for (auto const* decl: _variables) resetVariable(*decl); } void EncodingContext::resetVariables(std::function const& _filter) { for_each(begin(m_variables), end(m_variables), [&](auto _variable) { if (_filter(*_variable.first)) this->resetVariable(*_variable.first); }); } void EncodingContext::resetAllVariables() { resetVariables([&](frontend::VariableDeclaration const&) { return true; }); } smtutil::Expression EncodingContext::newValue(frontend::VariableDeclaration const& _decl) { solAssert(knownVariable(_decl), ""); return m_variables.at(&_decl)->increaseIndex(); } void EncodingContext::setZeroValue(frontend::VariableDeclaration const& _decl) { solAssert(knownVariable(_decl), ""); setZeroValue(*m_variables.at(&_decl)); } void EncodingContext::setZeroValue(SymbolicVariable& _variable) { setSymbolicZeroValue(_variable, *this); } void EncodingContext::setUnknownValue(frontend::VariableDeclaration const& _decl) { solAssert(knownVariable(_decl), ""); setUnknownValue(*m_variables.at(&_decl)); } void EncodingContext::setUnknownValue(SymbolicVariable& _variable) { setSymbolicUnknownValue(_variable, *this); } /// Expressions std::shared_ptr EncodingContext::expression(frontend::Expression const& _e) { if (!knownExpression(_e)) createExpression(_e); return m_expressions.at(&_e); } bool EncodingContext::createExpression(frontend::Expression const& _e, std::shared_ptr _symbVar) { solAssert(_e.annotation().type, ""); if (knownExpression(_e)) { expression(_e)->increaseIndex(); return false; } else if (_symbVar) { m_expressions.emplace(&_e, _symbVar); return false; } else { auto result = newSymbolicVariable(*_e.annotation().type, "expr_" + std::to_string(_e.id()), *this); m_expressions.emplace(&_e, result.second); return result.first; } } bool EncodingContext::knownExpression(frontend::Expression const& _e) const { return m_expressions.count(&_e); } /// Global variables and functions. std::shared_ptr EncodingContext::globalSymbol(std::string const& _name) { solAssert(knownGlobalSymbol(_name), ""); return m_globalContext.at(_name); } bool EncodingContext::createGlobalSymbol(std::string const& _name, frontend::Expression const& _expr) { solAssert(!knownGlobalSymbol(_name), ""); auto result = newSymbolicVariable(*_expr.annotation().type, _name, *this); m_globalContext.emplace(_name, result.second); setUnknownValue(*result.second); return result.first; } bool EncodingContext::knownGlobalSymbol(std::string const& _var) const { return m_globalContext.count(_var); } /// Solver. smtutil::Expression EncodingContext::assertions() { if (m_assertions.empty()) return smtutil::Expression(true); return m_assertions.back(); } void EncodingContext::pushSolver() { if (m_accumulateAssertions) m_assertions.push_back(assertions()); else m_assertions.emplace_back(true); } void EncodingContext::popSolver() { solAssert(!m_assertions.empty(), ""); m_assertions.pop_back(); } void EncodingContext::addAssertion(smtutil::Expression const& _expr) { if (m_assertions.empty()) m_assertions.push_back(_expr); else m_assertions.back() = _expr && std::move(m_assertions.back()); }