mirror of
https://github.com/ethereum/solidity
synced 2023-10-03 13:03:40 +00:00
396 lines
14 KiB
C++
396 lines
14 KiB
C++
/*
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This file is part of cpp-ethereum.
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cpp-ethereum 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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cpp-ethereum 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 cpp-ethereum. If not, see <http://www.gnu.org/licenses/>.
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*/
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/**
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* @author Christian <c@ethdev.com>
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* @date 2014
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* Solidity abstract syntax tree.
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*/
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#include <algorithm>
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#include <libsolidity/Utils.h>
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#include <libsolidity/AST.h>
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#include <libsolidity/ASTVisitor.h>
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#include <libsolidity/Exceptions.h>
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#include <libsolidity/AST_accept.h>
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#include <libdevcrypto/SHA3.h>
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using namespace std;
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namespace dev
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{
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namespace solidity
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{
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TypeError ASTNode::createTypeError(string const& _description) const
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{
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return TypeError() << errinfo_sourceLocation(getLocation()) << errinfo_comment(_description);
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}
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void ContractDefinition::checkTypeRequirements()
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{
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FunctionDefinition const* constructor = getConstructor();
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if (constructor && !constructor->getReturnParameters().empty())
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BOOST_THROW_EXCEPTION(constructor->getReturnParameterList()->createTypeError(
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"Non-empty \"returns\" directive for constructor."));
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for (ASTPointer<FunctionDefinition> const& function: getDefinedFunctions())
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function->checkTypeRequirements();
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}
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map<FixedHash<4>, FunctionDefinition const*> ContractDefinition::getInterfaceFunctions() const
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{
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map<FixedHash<4>, FunctionDefinition const*> exportedFunctions;
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for (ASTPointer<FunctionDefinition> const& f: m_definedFunctions)
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if (f->isPublic() && f->getName() != getName())
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{
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FixedHash<4> hash(dev::sha3(f->getCanonicalSignature()));
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auto res = exportedFunctions.insert(std::make_pair(hash,f.get()));
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solAssert(res.second, "Hash collision at Function Definition Hash calculation");
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}
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return exportedFunctions;
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}
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FunctionDefinition const* ContractDefinition::getConstructor() const
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{
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for (ASTPointer<FunctionDefinition> const& f: m_definedFunctions)
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if (f->getName() == getName())
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return f.get();
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return nullptr;
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}
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void StructDefinition::checkMemberTypes() const
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{
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for (ASTPointer<VariableDeclaration> const& member: getMembers())
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if (!member->getType()->canBeStored())
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BOOST_THROW_EXCEPTION(member->createTypeError("Type cannot be used in struct."));
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}
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void StructDefinition::checkRecursion() const
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{
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set<StructDefinition const*> definitionsSeen;
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vector<StructDefinition const*> queue = {this};
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while (!queue.empty())
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{
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StructDefinition const* def = queue.back();
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queue.pop_back();
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if (definitionsSeen.count(def))
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BOOST_THROW_EXCEPTION(ParserError() << errinfo_sourceLocation(def->getLocation())
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<< errinfo_comment("Recursive struct definition."));
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definitionsSeen.insert(def);
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for (ASTPointer<VariableDeclaration> const& member: def->getMembers())
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if (member->getType()->getCategory() == Type::Category::STRUCT)
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{
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UserDefinedTypeName const& typeName = dynamic_cast<UserDefinedTypeName const&>(*member->getTypeName());
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queue.push_back(&dynamic_cast<StructDefinition const&>(*typeName.getReferencedDeclaration()));
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}
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}
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}
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void FunctionDefinition::checkTypeRequirements()
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{
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for (ASTPointer<VariableDeclaration> const& var: getParameters() + getReturnParameters())
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if (!var->getType()->canLiveOutsideStorage())
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BOOST_THROW_EXCEPTION(var->createTypeError("Type is required to live outside storage."));
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m_body->checkTypeRequirements();
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}
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string FunctionDefinition::getCanonicalSignature() const
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{
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return getName() + FunctionType(*this).getCanonicalSignature();
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}
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void Block::checkTypeRequirements()
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{
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for (shared_ptr<Statement> const& statement: m_statements)
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statement->checkTypeRequirements();
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}
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void IfStatement::checkTypeRequirements()
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{
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m_condition->expectType(BoolType());
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m_trueBody->checkTypeRequirements();
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if (m_falseBody)
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m_falseBody->checkTypeRequirements();
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}
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void WhileStatement::checkTypeRequirements()
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{
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m_condition->expectType(BoolType());
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m_body->checkTypeRequirements();
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}
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void ForStatement::checkTypeRequirements()
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{
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if (m_initExpression)
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m_initExpression->checkTypeRequirements();
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if (m_condExpression)
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m_condExpression->expectType(BoolType());
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if (m_loopExpression)
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m_loopExpression->checkTypeRequirements();
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m_body->checkTypeRequirements();
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}
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void Return::checkTypeRequirements()
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{
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if (!m_expression)
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return;
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solAssert(m_returnParameters, "Return parameters not assigned.");
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if (m_returnParameters->getParameters().size() != 1)
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BOOST_THROW_EXCEPTION(createTypeError("Different number of arguments in return statement "
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"than in returns declaration."));
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// this could later be changed such that the paramaters type is an anonymous struct type,
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// but for now, we only allow one return parameter
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m_expression->expectType(*m_returnParameters->getParameters().front()->getType());
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}
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void VariableDefinition::checkTypeRequirements()
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{
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// Variables can be declared without type (with "var"), in which case the first assignment
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// sets the type.
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// Note that assignments before the first declaration are legal because of the special scoping
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// rules inherited from JavaScript.
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if (m_value)
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{
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if (m_variable->getType())
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m_value->expectType(*m_variable->getType());
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else
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{
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// no type declared and no previous assignment, infer the type
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m_value->checkTypeRequirements();
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m_variable->setType(m_value->getType());
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}
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}
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}
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void Assignment::checkTypeRequirements()
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{
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m_leftHandSide->checkTypeRequirements();
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m_leftHandSide->requireLValue();
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//@todo later, assignments to structs might be possible, but not to mappings
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if (!m_leftHandSide->getType()->isValueType() && !m_leftHandSide->isLocalLValue())
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BOOST_THROW_EXCEPTION(createTypeError("Assignment to non-local non-value lvalue."));
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m_type = m_leftHandSide->getType();
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if (m_assigmentOperator == Token::ASSIGN)
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m_rightHandSide->expectType(*m_type);
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else
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{
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// compound assignment
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m_rightHandSide->checkTypeRequirements();
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TypePointer resultType = Type::binaryOperatorResult(Token::AssignmentToBinaryOp(m_assigmentOperator),
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m_type, m_rightHandSide->getType());
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if (!resultType || *resultType != *m_type)
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BOOST_THROW_EXCEPTION(createTypeError("Operator not compatible with type."));
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}
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}
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void ExpressionStatement::checkTypeRequirements()
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{
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m_expression->checkTypeRequirements();
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}
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void Expression::expectType(Type const& _expectedType)
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{
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checkTypeRequirements();
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Type const& type = *getType();
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if (!type.isImplicitlyConvertibleTo(_expectedType))
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BOOST_THROW_EXCEPTION(createTypeError("Type " + type.toString() +
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" not implicitly convertible to expected type "
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+ _expectedType.toString() + "."));
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}
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void Expression::requireLValue()
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{
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if (!isLValue())
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BOOST_THROW_EXCEPTION(createTypeError("Expression has to be an lvalue."));
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m_lvalueRequested = true;
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}
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void UnaryOperation::checkTypeRequirements()
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{
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// INC, DEC, ADD, SUB, NOT, BIT_NOT, DELETE
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m_subExpression->checkTypeRequirements();
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if (m_operator == Token::Value::INC || m_operator == Token::Value::DEC || m_operator == Token::Value::DELETE)
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m_subExpression->requireLValue();
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m_type = m_subExpression->getType();
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if (!m_type->acceptsUnaryOperator(m_operator))
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BOOST_THROW_EXCEPTION(createTypeError("Unary operator not compatible with type."));
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}
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void BinaryOperation::checkTypeRequirements()
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{
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m_left->checkTypeRequirements();
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m_right->checkTypeRequirements();
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m_commonType = Type::binaryOperatorResult(m_operator, m_left->getType(), m_right->getType());
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if (!m_commonType)
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BOOST_THROW_EXCEPTION(createTypeError("Operator " + string(Token::toString(m_operator)) +
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" not compatible with types " +
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m_left->getType()->toString() + " and " +
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m_right->getType()->toString()));
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m_type = Token::isCompareOp(m_operator) ? make_shared<BoolType>() : m_commonType;
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}
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void FunctionCall::checkTypeRequirements()
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{
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m_expression->checkTypeRequirements();
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for (ASTPointer<Expression> const& argument: m_arguments)
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argument->checkTypeRequirements();
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Type const* expressionType = m_expression->getType().get();
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if (isTypeConversion())
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{
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TypeType const& type = dynamic_cast<TypeType const&>(*expressionType);
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//@todo for structs, we have to check the number of arguments to be equal to the
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// number of non-mapping members
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if (m_arguments.size() != 1)
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BOOST_THROW_EXCEPTION(createTypeError("More than one argument for "
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"explicit type conersion."));
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if (!m_arguments.front()->getType()->isExplicitlyConvertibleTo(*type.getActualType()))
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BOOST_THROW_EXCEPTION(createTypeError("Explicit type conversion not allowed."));
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m_type = type.getActualType();
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}
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else if (FunctionType const* functionType = dynamic_cast<FunctionType const*>(expressionType))
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{
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//@todo would be nice to create a struct type from the arguments
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// and then ask if that is implicitly convertible to the struct represented by the
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// function parameters
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TypePointers const& parameterTypes = functionType->getParameterTypes();
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if (parameterTypes.size() != m_arguments.size())
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BOOST_THROW_EXCEPTION(createTypeError("Wrong argument count for function call."));
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for (size_t i = 0; i < m_arguments.size(); ++i)
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if (!m_arguments[i]->getType()->isImplicitlyConvertibleTo(*parameterTypes[i]))
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BOOST_THROW_EXCEPTION(createTypeError("Invalid type for argument in function call."));
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// @todo actually the return type should be an anonymous struct,
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// but we change it to the type of the first return value until we have structs
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if (functionType->getReturnParameterTypes().empty())
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m_type = make_shared<VoidType>();
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else
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m_type = functionType->getReturnParameterTypes().front();
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}
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else
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BOOST_THROW_EXCEPTION(createTypeError("Type is not callable."));
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}
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bool FunctionCall::isTypeConversion() const
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{
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return m_expression->getType()->getCategory() == Type::Category::TYPE;
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}
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void NewExpression::checkTypeRequirements()
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{
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m_contractName->checkTypeRequirements();
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for (ASTPointer<Expression> const& argument: m_arguments)
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argument->checkTypeRequirements();
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m_contract = dynamic_cast<ContractDefinition const*>(m_contractName->getReferencedDeclaration());
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if (!m_contract)
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BOOST_THROW_EXCEPTION(createTypeError("Identifier is not a contract."));
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shared_ptr<ContractType const> type = make_shared<ContractType const>(*m_contract);
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m_type = type;
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TypePointers const& parameterTypes = type->getConstructorType()->getParameterTypes();
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if (parameterTypes.size() != m_arguments.size())
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BOOST_THROW_EXCEPTION(createTypeError("Wrong argument count for constructor call."));
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for (size_t i = 0; i < m_arguments.size(); ++i)
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if (!m_arguments[i]->getType()->isImplicitlyConvertibleTo(*parameterTypes[i]))
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BOOST_THROW_EXCEPTION(createTypeError("Invalid type for argument in constructor call."));
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}
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void MemberAccess::checkTypeRequirements()
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{
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m_expression->checkTypeRequirements();
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Type const& type = *m_expression->getType();
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m_type = type.getMemberType(*m_memberName);
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if (!m_type)
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BOOST_THROW_EXCEPTION(createTypeError("Member \"" + *m_memberName + "\" not found in " + type.toString()));
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//@todo later, this will not always be STORAGE
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m_lvalue = type.getCategory() == Type::Category::STRUCT ? LValueType::STORAGE : LValueType::NONE;
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}
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void IndexAccess::checkTypeRequirements()
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{
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m_base->checkTypeRequirements();
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if (m_base->getType()->getCategory() != Type::Category::MAPPING)
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BOOST_THROW_EXCEPTION(m_base->createTypeError("Indexed expression has to be a mapping (is " +
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m_base->getType()->toString() + ")"));
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MappingType const& type = dynamic_cast<MappingType const&>(*m_base->getType());
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m_index->expectType(*type.getKeyType());
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m_type = type.getValueType();
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m_lvalue = LValueType::STORAGE;
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}
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void Identifier::checkTypeRequirements()
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{
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solAssert(m_referencedDeclaration, "Identifier not resolved.");
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VariableDeclaration const* variable = dynamic_cast<VariableDeclaration const*>(m_referencedDeclaration);
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if (variable)
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{
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if (!variable->getType())
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BOOST_THROW_EXCEPTION(createTypeError("Variable referenced before type could be determined."));
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m_type = variable->getType();
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m_lvalue = variable->isLocalVariable() ? LValueType::LOCAL : LValueType::STORAGE;
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return;
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}
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//@todo can we unify these with TypeName::toType()?
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StructDefinition const* structDef = dynamic_cast<StructDefinition const*>(m_referencedDeclaration);
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if (structDef)
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{
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// note that we do not have a struct type here
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m_type = make_shared<TypeType const>(make_shared<StructType const>(*structDef));
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return;
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}
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FunctionDefinition const* functionDef = dynamic_cast<FunctionDefinition const*>(m_referencedDeclaration);
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if (functionDef)
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{
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// a function reference is not a TypeType, because calling a TypeType converts to the type.
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// Calling a function (e.g. function(12), otherContract.function(34)) does not do a type
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// conversion.
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m_type = make_shared<FunctionType const>(*functionDef);
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return;
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}
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ContractDefinition const* contractDef = dynamic_cast<ContractDefinition const*>(m_referencedDeclaration);
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if (contractDef)
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{
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m_type = make_shared<TypeType const>(make_shared<ContractType>(*contractDef));
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return;
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}
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MagicVariableDeclaration const* magicVariable = dynamic_cast<MagicVariableDeclaration const*>(m_referencedDeclaration);
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if (magicVariable)
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{
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m_type = magicVariable->getType();
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return;
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}
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BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("Declaration reference of unknown/forbidden type."));
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}
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void ElementaryTypeNameExpression::checkTypeRequirements()
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{
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m_type = make_shared<TypeType const>(Type::fromElementaryTypeName(m_typeToken));
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}
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void Literal::checkTypeRequirements()
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{
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m_type = Type::forLiteral(*this);
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if (!m_type)
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BOOST_THROW_EXCEPTION(createTypeError("Literal value too large."));
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}
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}
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}
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