mirror of
https://github.com/ethereum/solidity
synced 2023-10-03 13:03:40 +00:00
505 lines
17 KiB
C++
505 lines
17 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 AST to EVM bytecode compiler for expressions.
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*/
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#include <utility>
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#include <numeric>
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#include <libdevcore/Common.h>
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#include <libsolidity/AST.h>
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#include <libsolidity/ExpressionCompiler.h>
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#include <libsolidity/CompilerContext.h>
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using namespace std;
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namespace dev {
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namespace solidity {
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void ExpressionCompiler::compileExpression(CompilerContext& _context, Expression& _expression)
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{
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ExpressionCompiler compiler(_context);
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_expression.accept(compiler);
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}
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void ExpressionCompiler::appendTypeConversion(CompilerContext& _context,
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Type const& _typeOnStack, Type const& _targetType)
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{
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ExpressionCompiler compiler(_context);
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compiler.appendTypeConversion(_typeOnStack, _targetType);
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}
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bool ExpressionCompiler::visit(Assignment& _assignment)
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{
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_assignment.getRightHandSide().accept(*this);
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appendTypeConversion(*_assignment.getRightHandSide().getType(), *_assignment.getType());
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_assignment.getLeftHandSide().accept(*this);
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if (asserts(m_currentLValue.isValid()))
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BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("LValue not retrieved."));
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Token::Value op = _assignment.getAssignmentOperator();
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if (op != Token::ASSIGN) // compound assignment
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{
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if (m_currentLValue.storesReferenceOnStack())
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m_context << eth::Instruction::SWAP1 << eth::Instruction::DUP2;
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m_currentLValue.retrieveValue(_assignment, true);
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appendOrdinaryBinaryOperatorCode(Token::AssignmentToBinaryOp(op), *_assignment.getType());
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}
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m_currentLValue.storeValue(_assignment);
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m_currentLValue.reset();
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return false;
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}
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void ExpressionCompiler::endVisit(UnaryOperation& _unaryOperation)
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{
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//@todo type checking and creating code for an operator should be in the same place:
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// the operator should know how to convert itself and to which types it applies, so
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// put this code together with "Type::acceptsBinary/UnaryOperator" into a class that
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// represents the operator
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switch (_unaryOperation.getOperator())
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{
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case Token::NOT: // !
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m_context << eth::Instruction::ISZERO;
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break;
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case Token::BIT_NOT: // ~
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m_context << eth::Instruction::NOT;
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break;
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case Token::DELETE: // delete
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// @todo semantics change for complex types
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if (asserts(m_currentLValue.isValid()))
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BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("LValue not retrieved."));
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m_context << u256(0);
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if (m_currentLValue.storesReferenceOnStack())
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m_context << eth::Instruction::SWAP1;
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m_currentLValue.storeValue(_unaryOperation);
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m_currentLValue.reset();
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break;
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case Token::INC: // ++ (pre- or postfix)
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case Token::DEC: // -- (pre- or postfix)
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if (asserts(m_currentLValue.isValid()))
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BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("LValue not retrieved."));
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m_currentLValue.retrieveValue(_unaryOperation);
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if (!_unaryOperation.isPrefixOperation())
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{
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if (m_currentLValue.storesReferenceOnStack())
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m_context << eth::Instruction::SWAP1 << eth::Instruction::DUP2;
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else
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m_context << eth::Instruction::DUP1;
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}
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m_context << u256(1);
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if (_unaryOperation.getOperator() == Token::INC)
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m_context << eth::Instruction::ADD;
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else
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m_context << eth::Instruction::SWAP1 << eth::Instruction::SUB; // @todo avoid the swap
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// Stack for prefix: [ref] (*ref)+-1
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// Stack for postfix: *ref [ref] (*ref)+-1
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if (m_currentLValue.storesReferenceOnStack())
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m_context << eth::Instruction::SWAP1;
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m_currentLValue.storeValue(_unaryOperation, !_unaryOperation.isPrefixOperation());
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m_currentLValue.reset();
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break;
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case Token::ADD: // +
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// unary add, so basically no-op
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break;
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case Token::SUB: // -
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m_context << u256(0) << eth::Instruction::SUB;
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break;
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default:
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BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("Invalid unary operator: " +
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string(Token::toString(_unaryOperation.getOperator()))));
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}
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}
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bool ExpressionCompiler::visit(BinaryOperation& _binaryOperation)
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{
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Expression& leftExpression = _binaryOperation.getLeftExpression();
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Expression& rightExpression = _binaryOperation.getRightExpression();
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Type const& commonType = _binaryOperation.getCommonType();
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Token::Value const op = _binaryOperation.getOperator();
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if (op == Token::AND || op == Token::OR) // special case: short-circuiting
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appendAndOrOperatorCode(_binaryOperation);
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else
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{
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bool cleanupNeeded = false;
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if (commonType.getCategory() == Type::Category::INTEGER)
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if (Token::isCompareOp(op) || op == Token::DIV || op == Token::MOD)
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cleanupNeeded = true;
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rightExpression.accept(*this);
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appendTypeConversion(*rightExpression.getType(), commonType, cleanupNeeded);
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leftExpression.accept(*this);
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appendTypeConversion(*leftExpression.getType(), commonType, cleanupNeeded);
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if (Token::isCompareOp(op))
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appendCompareOperatorCode(op, commonType);
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else
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appendOrdinaryBinaryOperatorCode(op, commonType);
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}
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// do not visit the child nodes, we already did that explicitly
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return false;
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}
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bool ExpressionCompiler::visit(FunctionCall& _functionCall)
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{
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if (_functionCall.isTypeConversion())
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{
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//@todo we only have integers and bools for now which cannot be explicitly converted
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if (asserts(_functionCall.getArguments().size() == 1))
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BOOST_THROW_EXCEPTION(InternalCompilerError());
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Expression& firstArgument = *_functionCall.getArguments().front();
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firstArgument.accept(*this);
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appendTypeConversion(*firstArgument.getType(), *_functionCall.getType());
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}
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else
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{
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// Calling convention: Caller pushes return address and arguments
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// Callee removes them and pushes return values
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FunctionDefinition const& function = dynamic_cast<FunctionType const&>(*_functionCall.getExpression().getType()).getFunction();
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eth::AssemblyItem returnLabel = m_context.pushNewTag();
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std::vector<ASTPointer<Expression>> const& arguments = _functionCall.getArguments();
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if (asserts(arguments.size() == function.getParameters().size()))
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BOOST_THROW_EXCEPTION(InternalCompilerError());
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for (unsigned i = 0; i < arguments.size(); ++i)
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{
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arguments[i]->accept(*this);
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appendTypeConversion(*arguments[i]->getType(), *function.getParameters()[i]->getType());
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}
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_functionCall.getExpression().accept(*this);
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if (asserts(m_currentLValue.isInCode()))
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BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("Code reference expected."));
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m_currentLValue.reset();
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m_context.appendJump();
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m_context << returnLabel;
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// callee adds return parameters, but removes arguments and return label
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m_context.adjustStackOffset(function.getReturnParameters().size() - arguments.size() - 1);
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// @todo for now, the return value of a function is its first return value, so remove
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// all others
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for (unsigned i = 1; i < function.getReturnParameters().size(); ++i)
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m_context << eth::Instruction::POP;
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}
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return false;
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}
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void ExpressionCompiler::endVisit(MemberAccess& _memberAccess)
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{
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if (asserts(m_currentLValue.isInStorage()))
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BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("Member access to a non-storage value."));
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StructType const& type = dynamic_cast<StructType const&>(*_memberAccess.getExpression().getType());
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unsigned memberIndex = type.memberNameToIndex(_memberAccess.getMemberName());
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if (asserts(memberIndex <= type.getMemberCount()))
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BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("Member not found in struct during compilation."));
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m_context << type.getStorageOffsetOfMember(memberIndex) << eth::Instruction::ADD;
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m_currentLValue.retrieveValueIfLValueNotRequested(_memberAccess);
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}
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bool ExpressionCompiler::visit(IndexAccess& _indexAccess)
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{
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m_currentLValue.reset();
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_indexAccess.getBaseExpression().accept(*this);
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if (asserts(m_currentLValue.isInStorage()))
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BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("Index access to a non-storage value."));
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_indexAccess.getIndexExpression().accept(*this);
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appendTypeConversion(*_indexAccess.getIndexExpression().getType(),
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*dynamic_cast<MappingType const&>(*_indexAccess.getBaseExpression().getType()).getKeyType(),
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true);
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// @todo move this once we actually use memory
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m_context << u256(32) << eth::Instruction::MSTORE << u256(0) << eth::Instruction::MSTORE;
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m_context << u256(64) << u256(0) << eth::Instruction::SHA3;
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m_currentLValue = LValue(m_context, LValue::STORAGE);
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m_currentLValue.retrieveValueIfLValueNotRequested(_indexAccess);
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return false;
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}
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void ExpressionCompiler::endVisit(Identifier& _identifier)
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{
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m_currentLValue.fromDeclaration(_identifier, *_identifier.getReferencedDeclaration());
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m_currentLValue.retrieveValueIfLValueNotRequested(_identifier);
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}
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void ExpressionCompiler::endVisit(Literal& _literal)
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{
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switch (_literal.getType()->getCategory())
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{
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case Type::Category::INTEGER:
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case Type::Category::BOOL:
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m_context << _literal.getType()->literalValue(_literal);
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break;
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default:
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BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("Only integer and boolean literals implemented for now."));
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}
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}
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void ExpressionCompiler::appendAndOrOperatorCode(BinaryOperation& _binaryOperation)
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{
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Token::Value const op = _binaryOperation.getOperator();
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if (asserts(op == Token::OR || op == Token::AND))
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BOOST_THROW_EXCEPTION(InternalCompilerError());
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_binaryOperation.getLeftExpression().accept(*this);
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m_context << eth::Instruction::DUP1;
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if (op == Token::AND)
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m_context << eth::Instruction::ISZERO;
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eth::AssemblyItem endLabel = m_context.appendConditionalJump();
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m_context << eth::Instruction::POP;
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_binaryOperation.getRightExpression().accept(*this);
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m_context << endLabel;
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}
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void ExpressionCompiler::appendCompareOperatorCode(Token::Value _operator, Type const& _type)
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{
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if (_operator == Token::EQ || _operator == Token::NE)
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{
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m_context << eth::Instruction::EQ;
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if (_operator == Token::NE)
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m_context << eth::Instruction::ISZERO;
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}
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else
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{
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IntegerType const& type = dynamic_cast<IntegerType const&>(_type);
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bool const isSigned = type.isSigned();
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switch (_operator)
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{
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case Token::GTE:
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m_context << (isSigned ? eth::Instruction::SLT : eth::Instruction::LT)
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<< eth::Instruction::ISZERO;
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break;
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case Token::LTE:
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m_context << (isSigned ? eth::Instruction::SGT : eth::Instruction::GT)
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<< eth::Instruction::ISZERO;
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break;
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case Token::GT:
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m_context << (isSigned ? eth::Instruction::SGT : eth::Instruction::GT);
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break;
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case Token::LT:
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m_context << (isSigned ? eth::Instruction::SLT : eth::Instruction::LT);
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break;
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default:
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BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("Unknown comparison operator."));
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}
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}
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}
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void ExpressionCompiler::appendOrdinaryBinaryOperatorCode(Token::Value _operator, Type const& _type)
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{
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if (Token::isArithmeticOp(_operator))
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appendArithmeticOperatorCode(_operator, _type);
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else if (Token::isBitOp(_operator))
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appendBitOperatorCode(_operator);
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else if (Token::isShiftOp(_operator))
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appendShiftOperatorCode(_operator);
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else
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BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("Unknown binary operator."));
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}
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void ExpressionCompiler::appendArithmeticOperatorCode(Token::Value _operator, Type const& _type)
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{
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IntegerType const& type = dynamic_cast<IntegerType const&>(_type);
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bool const isSigned = type.isSigned();
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switch (_operator)
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{
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case Token::ADD:
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m_context << eth::Instruction::ADD;
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break;
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case Token::SUB:
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m_context << eth::Instruction::SUB;
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break;
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case Token::MUL:
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m_context << eth::Instruction::MUL;
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break;
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case Token::DIV:
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m_context << (isSigned ? eth::Instruction::SDIV : eth::Instruction::DIV);
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break;
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case Token::MOD:
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m_context << (isSigned ? eth::Instruction::SMOD : eth::Instruction::MOD);
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break;
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default:
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BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("Unknown arithmetic operator."));
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}
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}
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void ExpressionCompiler::appendBitOperatorCode(Token::Value _operator)
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{
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switch (_operator)
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{
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case Token::BIT_OR:
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m_context << eth::Instruction::OR;
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break;
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case Token::BIT_AND:
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m_context << eth::Instruction::AND;
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break;
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case Token::BIT_XOR:
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m_context << eth::Instruction::XOR;
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break;
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default:
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BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("Unknown bit operator."));
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}
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}
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void ExpressionCompiler::appendShiftOperatorCode(Token::Value _operator)
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{
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BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("Shift operators not yet implemented."));
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switch (_operator)
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{
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case Token::SHL:
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break;
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case Token::SAR:
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break;
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default:
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BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("Unknown shift operator."));
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}
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}
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void ExpressionCompiler::appendTypeConversion(Type const& _typeOnStack, Type const& _targetType, bool _cleanupNeeded)
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{
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// For a type extension, we need to remove all higher-order bits that we might have ignored in
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// previous operations.
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// @todo: store in the AST whether the operand might have "dirty" higher order bits
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if (_typeOnStack == _targetType && !_cleanupNeeded)
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return;
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if (_typeOnStack.getCategory() == Type::Category::INTEGER)
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appendHighBitsCleanup(dynamic_cast<IntegerType const&>(_typeOnStack));
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else if (_typeOnStack != _targetType)
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// All other types should not be convertible to non-equal types.
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BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("Invalid type conversion requested."));
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}
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void ExpressionCompiler::appendHighBitsCleanup(IntegerType const& _typeOnStack)
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{
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if (_typeOnStack.getNumBits() == 256)
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return;
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else if (_typeOnStack.isSigned())
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m_context << u256(_typeOnStack.getNumBits() / 8 - 1) << eth::Instruction::SIGNEXTEND;
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else
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m_context << ((u256(1) << _typeOnStack.getNumBits()) - 1) << eth::Instruction::AND;
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}
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void ExpressionCompiler::LValue::retrieveValue(Expression const& _expression, bool _remove) const
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{
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switch (m_type)
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{
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case CODE:
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BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("Tried to retrieve value of a function."));
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break;
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case STACK:
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{
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unsigned stackPos = m_context->baseToCurrentStackOffset(unsigned(m_baseStackOffset));
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if (stackPos >= 15) //@todo correct this by fetching earlier or moving to memory
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BOOST_THROW_EXCEPTION(CompilerError() << errinfo_sourceLocation(_expression.getLocation())
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<< errinfo_comment("Stack too deep."));
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*m_context << eth::dupInstruction(stackPos + 1);
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break;
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}
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case STORAGE:
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if (!_remove)
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*m_context << eth::Instruction::DUP1;
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*m_context << eth::Instruction::SLOAD;
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break;
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case MEMORY:
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BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_sourceLocation(_expression.getLocation())
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<< errinfo_comment("Location type not yet implemented."));
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break;
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default:
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BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_sourceLocation(_expression.getLocation())
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<< errinfo_comment("Unsupported location type."));
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break;
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}
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}
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void ExpressionCompiler::LValue::storeValue(Expression const& _expression, bool _move) const
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{
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switch (m_type)
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{
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case STACK:
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{
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unsigned stackPos = m_context->baseToCurrentStackOffset(unsigned(m_baseStackOffset));
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if (stackPos > 16)
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BOOST_THROW_EXCEPTION(CompilerError() << errinfo_sourceLocation(_expression.getLocation())
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<< errinfo_comment("Stack too deep."));
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else if (stackPos > 0)
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*m_context << eth::swapInstruction(stackPos) << eth::Instruction::POP;
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if (!_move)
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retrieveValue(_expression);
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break;
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}
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case LValue::STORAGE:
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if (!_move)
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*m_context << eth::Instruction::DUP2 << eth::Instruction::SWAP1;
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*m_context << eth::Instruction::SSTORE;
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break;
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case LValue::CODE:
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BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_sourceLocation(_expression.getLocation())
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<< errinfo_comment("Location type does not support assignment."));
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break;
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case LValue::MEMORY:
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BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_sourceLocation(_expression.getLocation())
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<< errinfo_comment("Location type not yet implemented."));
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break;
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default:
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BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_sourceLocation(_expression.getLocation())
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<< errinfo_comment("Unsupported location type."));
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break;
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}
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}
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void ExpressionCompiler::LValue::retrieveValueIfLValueNotRequested(const Expression& _expression)
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{
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if (!_expression.lvalueRequested())
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{
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retrieveValue(_expression, true);
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reset();
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}
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}
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void ExpressionCompiler::LValue::fromDeclaration( Expression const& _expression, Declaration const& _declaration)
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|
{
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|
if (m_context->isLocalVariable(&_declaration))
|
|
{
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|
m_type = STACK;
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|
m_baseStackOffset = m_context->getBaseStackOffsetOfVariable(_declaration);
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|
}
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|
else if (m_context->isStateVariable(&_declaration))
|
|
{
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|
m_type = STORAGE;
|
|
*m_context << m_context->getStorageLocationOfVariable(_declaration);
|
|
}
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|
else if (m_context->isFunctionDefinition(&_declaration))
|
|
{
|
|
m_type = CODE;
|
|
*m_context << m_context->getFunctionEntryLabel(dynamic_cast<FunctionDefinition const&>(_declaration)).pushTag();
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|
}
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|
else
|
|
BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_sourceLocation(_expression.getLocation())
|
|
<< errinfo_comment("Identifier type not supported or identifier not found."));
|
|
}
|
|
|
|
}
|
|
}
|