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root / trunk / compiler / cppAst / ast / DeepCloneVisitor.cpp @ 3

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/**
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  *
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  *                  OOAS Compiler - C++ AST
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  *
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  * Copyright 2015, AIT Austrian Institute of Technology.
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  * All rights reserved.
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  *
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  * SEE THE "LICENSE" FILE FOR THE TERMS UNDER WHICH THIS FILE IS PROVIDED.
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  *
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  * If you modify the file please update the list of contributors below to in-
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  * clude your name. Please also stick to the coding convention of using TABs
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  * to do the basic (block-level) indentation and spaces for anything after
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  * that. (Enable the display of special chars and it should be pretty obvious
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  * what this means.) Also, remove all trailing whitespace.
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  *
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  * Contributors:
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  *               Willibald Krenn (AIT)
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  *               Stephan Zimmerer (AIT)
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  *               Christoph Czurda (AIT)
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  *
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  */
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/*
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 * DeepCloneVisitor.cpp
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 *
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 *  Created on: Feb 12, 2014
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 *      Author: willibald
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 */
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#include "DeepCloneVisitor.hpp"
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#include <list>
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#include <ast/identifiers/NamedActionIdentifier.hpp>
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#include <ast/statements/SeqBlock.hpp>
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#include <ast/expressions/BinaryOperator.hpp>
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#include <ast/statements/Assignment.hpp>
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#include <ast/identifiers/AttributeIdentifier.hpp>
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#include <ast/statements/Call.hpp>
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#include <ast/expressions/CallExpression.hpp>
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#include <ast/statements/GuardedCommand.hpp>
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#include <ast/expressions/IdentifierExpression.hpp>
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#include <ast/expressions/ListConstructor.hpp>
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#include <ast/expressions/SetConstructor.hpp>
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#include <ast/expressions/TernaryOperator.hpp>
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#include <ast/expressions/TupleConstructor.hpp>
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#include <ast/expressions/TupleMapAccessExpression.hpp>
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namespace Ast {
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void DeepCloneVisitor::updateScope(IScope* aScope) {
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        IScope* parentScope = aScope->getParentScope();
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        if (parentScope != nullptr) {
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                if(m_mapping.count(parentScope) == 0) {
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                        if (!m_allowLinksToNonClonedParents) {
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                                m_context->logError("Internal Error. Scope update failed.");
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                                abort();
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                        }
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                        return;
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                }
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                aScope->setParentScope((IScope*)m_mapping[parentScope]);
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        }
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}
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void DeepCloneVisitor::checkScope(IScope* aScope) {
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        if (aScope->getParentScope() == nullptr)
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                return;
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        if (m_mapping.count(aScope->getParentScope()) > 0) {
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                m_context->logError("Internal Error. Scope check failed.");
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                abort();
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        }
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}
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Expression* DeepCloneVisitor::eClone(Expression* anExpr) {
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        Expression* result = nullptr;
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        if (anExpr != nullptr)
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        {
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                result = m_cloneAst->createExpression(*anExpr);
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                if (anExpr->asScope() != nullptr)
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                {
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                        m_mapping[anExpr] = result;
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                        updateScope(result->asScope());
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                }
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                result->accept(*this);
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        }
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        return result;
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}
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Statement* DeepCloneVisitor::sClone(Statement* aStatement) {
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        Statement* result = nullptr;
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        if (aStatement != nullptr)
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        {
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                result = m_cloneAst->createStatement(*aStatement);
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                if (aStatement->asScope() != nullptr)
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                {
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                        m_mapping[aStatement] = result;
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                        updateScope(result->asScope());
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                }
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                result->accept(*this);
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        }
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        return result;
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}
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void DeepCloneVisitor::symTabClone(SymbolTable* aTable) {
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        if (aTable != nullptr && aTable->size() > 0)
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        {
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                std::list<Identifier*> newList;
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                for (auto& x: *aTable)
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                {
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                        if (m_mapping.count(x.second) == 0) {
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                                Identifier* newid = m_cloneAst->createIdentifier(*x.second);
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                                newList.push_back(newid);
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                                m_mapping[x.second] = newid;
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                        } else {
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                                newList.push_back((Identifier*) m_mapping[x.second]);
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                        }
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                }
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                aTable->setSymbolList(newList);
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        }
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}
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void DeepCloneVisitor::cloneBlock(Block* aBlock) {
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        symTabClone(aBlock->symbols());
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        StatementList& statements = aBlock->statements();
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        for (std::size_t cntr = 0; cntr < statements.size(); cntr++) {
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                statements[cntr] = sClone(statements[cntr]);
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        }
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}
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void DeepCloneVisitor::cloneQuantifier(Quantifier* qf) {
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        symTabClone(qf->symbols());
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        bool oldQunatifierState = m_quantifierState;
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        m_quantifierState = true;
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        visit(qf);
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        m_quantifierState = oldQunatifierState;
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}
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void DeepCloneVisitor::cloneExpressionList(ExpressionList& aList) {
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        for (std::size_t cntr =0; cntr < aList.size(); cntr ++)
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                aList[cntr] = eClone(aList[cntr]);
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}
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void DeepCloneVisitor::visit(NamedActionIdentifier* namedActionIdentifier)
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{
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        namedActionIdentifier->setBody(sClone(namedActionIdentifier->body()));
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        // we do not clone the parameters..
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}
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void DeepCloneVisitor::visit(ObjectConstructor* )
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{
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        //CompleteAstTraversalVisitor::visit(objectConstructor);
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}
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void DeepCloneVisitor::visit(NondetBlock* nondetBlock)
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{
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        cloneBlock((Block*)nondetBlock);
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}
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void DeepCloneVisitor::visit(SeqBlock* seqBlock)
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{
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        seqBlock->setFilter(eClone(seqBlock->filter()));
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        cloneBlock((Block*)seqBlock);
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}
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void DeepCloneVisitor::visit(PrioBlock* prioBlock)
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{
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        cloneBlock((Block*)prioBlock);
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}
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void DeepCloneVisitor::visit(AccessExpression* accessExpression)
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{
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        visit((BinaryOperator*)accessExpression);
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}
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void DeepCloneVisitor::visit(BinaryOperator* binaryOperator)
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{
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        Expression* left  = eClone(binaryOperator->left());
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        Expression* right = eClone(binaryOperator->right());
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        binaryOperator->setLeftChild(left);
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        binaryOperator->setRightChild(right);
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}
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void DeepCloneVisitor::visit(Assignment* assignment)
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{
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        symTabClone(assignment->symbols());
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        cloneExpressionList(assignment->places());
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        cloneExpressionList(assignment->values());
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        assignment->setNondetExpression(eClone(assignment->nondetExpression()));
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        checkScope(assignment);
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}
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void DeepCloneVisitor::visit(AttributeIdentifier* attributeIdentifier)
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{
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        attributeIdentifier->setInitializer(eClone(attributeIdentifier->initializer()));
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}
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void DeepCloneVisitor::visit(Call* call)
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{
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        call->setCallExpression(eClone(call->callExpression()));
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}
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void DeepCloneVisitor::visit(CallExpression* callExpression)
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{
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        cloneExpressionList(callExpression->arguments());
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        visit((UnaryOperator*)callExpression);
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}
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void DeepCloneVisitor::visit(ExistsQuantifier* quantifier)
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{
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        cloneQuantifier((Quantifier*)quantifier);
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}
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void DeepCloneVisitor::visit(ForallQuantifier* quantifier)
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{
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        cloneQuantifier((Quantifier*)quantifier);
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}
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void DeepCloneVisitor::visit(GuardedCommand* guardedCommand)
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{
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        Statement*  newblock = sClone(guardedCommand->body());
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        Expression* newguard = eClone(guardedCommand->guard());
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        guardedCommand->setBody(newblock);
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        guardedCommand->setGuard(newguard);
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}
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void DeepCloneVisitor::visit(IdentifierExpression* identifierExpression)
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{
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        if (identifierExpression->isSelf() && m_selfreplacement != nullptr)
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                identifierExpression->setIdentifier(m_selfreplacement);
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        else if (m_mapping.count(identifierExpression->identifier()) > 0
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                 && identifierExpression->identifier()->kind() != IdentifierKind::MethodIdentifier)
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        {
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                /* we do NOT replace method calls here, since they are prefixed by self if it's a
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                 * method in the current object or by some field/method access if it's another
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                 * object.
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                 */
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                identifierExpression->setIdentifier((Identifier*)m_mapping[identifierExpression->identifier()]);
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        }
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}
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void DeepCloneVisitor::visit(ListConstructor* listConstructor)
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{
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        symTabClone(listConstructor->comprehensionVariables());
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        cloneExpressionList(listConstructor->elements());
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        listConstructor->setComprehension(eClone(listConstructor->comprehension()));
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}
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void DeepCloneVisitor::visit(SetConstructor* setConstructor)
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{
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        symTabClone(setConstructor->comprehensionVariables());
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        cloneExpressionList(setConstructor->items());
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        setConstructor->setComprehension(eClone(setConstructor->comprehension()));
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}
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void DeepCloneVisitor::visit(TernaryOperator* ternaryOperator)
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{
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        ternaryOperator->setLeftChild(eClone(ternaryOperator->left()));
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        ternaryOperator->setMidChild(eClone(ternaryOperator->mid()));
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        ternaryOperator->setRightChild(eClone(ternaryOperator->right()));
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}
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void DeepCloneVisitor::visit(TupleConstructor* tupleConstructor)
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{
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        cloneExpressionList(tupleConstructor->values());
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}
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void DeepCloneVisitor::visit(TupleMapAccessExpression* tupleMapAccessExpression)
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{
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        tupleMapAccessExpression->setArgument(eClone(tupleMapAccessExpression->argument()));
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        visit((UnaryOperator*)tupleMapAccessExpression);
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}
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void DeepCloneVisitor::visit(UnaryOperator* unaryOperator)
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{
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        unaryOperator->setChild(eClone(unaryOperator->child()));
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}
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} /* namespace Ast */