void AggregationVisualizerNode::expand(VariableNode* a_pVariableNode, const vector<reflection::Expression*>& a_LeftExpressions) const
{
a_pVariableNode->setDelegate(o_new(AggregationVariableNodeDelegate));
vector<vector<reflection::Expression*>> groupedVariables;
for(size_t i = 0; i<a_LeftExpressions.size(); ++i)
{
reflection::Expression* pLeftExpression = a_LeftExpressions[i];
reflection::AggregationClass* pAggregationClass = as<reflection::AggregationClass*>(pLeftExpression->getValueType()->removeReference());
o_assert(pAggregationClass);
vector<reflection::Expression*> signature;
reflection::Expression* pSizeExpression = cplusplus()->qualifiedLookup(pLeftExpression->clone(), "count", nullptr, &signature)->asExpression();
bool ok;
size_t count = pSizeExpression->get().as<size_t>(&ok);
o_assert(ok);
groupedVariables.resize(std::max(groupedVariables.size(), count));
for(size_t i = 0; i<count; ++i)
{
reflection::Expression* pIndexExpression = o_new(reflection::ConstantExpression)(constant<size_t>(i));
reflection::Expression* pExpression = cplusplus()->solveBinaryOperator("[]", pLeftExpression->clone(), pIndexExpression);
o_assert(pExpression);
groupedVariables[i].push_back(pExpression);
}
o_dynamic_delete pSizeExpression;
}
size_t i = 0;
for(;i<groupedVariables.size(); ++i)
{
VariableNode* pChild = o_new(VariableNode)(lexical_cast<string>(i), groupedVariables[i]);
pChild->setDelegate(o_new(AggregationAggregateVariableNodeDelegate)(i, groupedVariables.size()));
a_pVariableNode->addChildNode(pChild);
}
}
Expression* Expression::dereference() const
{
DataPointerType* pPointerType = m_pValueType->asDataPointerType();
Expression* args[2] = { (Expression*)this, 0 };
if(pPointerType == nullptr)
return o_new(BuiltInOperatorExpression)( application()->getBuiltInOperator(e_Operator_Dereference), Type::Invalid(), args, operation_delegate_t());
return o_new(BuiltInOperatorExpression)(application()->getBuiltInOperator(e_Operator_Dereference), pPointerType->removePointer()->addLValueReference(), args, operation_delegate_t(pPointerType, &DataPointerType::dereference));
}
Expression* Expression::address() const
{
ReferenceType* pReferenceType = m_pValueType->asReferenceType();
Expression* args[2] = { (Expression*)this, 0 };
if(pReferenceType == nullptr)
return o_new(BuiltInOperatorExpression)(application()->getBuiltInOperator(e_Operator_Address), Type::Invalid(), args, operation_delegate_t());
return o_new(BuiltInOperatorExpression)(application()->getBuiltInOperator(e_Operator_Address), pReferenceType->removeReference()->addPointer(), args, operation_delegate_t(pReferenceType, &ReferenceType::address));
}
VirtualMemberFunctionTable* VirtualMemberFunctionTable::derive(size_t a_uiSize /*= 0*/) const
{
if(a_uiSize == 0 OR a_uiSize == m_pMemberFunctions->size())
{
return o_new(VirtualMemberFunctionTable)(const_cast<VirtualMemberFunctionTable*>(this));
}
o_assert(a_uiSize > m_pMemberFunctions->size());
return o_new(VirtualMemberFunctionTable)(const_cast<VirtualMemberFunctionTable*>(this), a_uiSize);
}
Expression* Expression::arrayAccess( Expression* a_pIndexExpression )
{
ReferenceType* pReferenceType = m_pValueType->asReferenceType();
Expression* args[2] = { (Expression*)this, a_pIndexExpression };
if(pReferenceType == nullptr
OR pReferenceType->getReferencedType()->asArrayType() == nullptr
OR pReferenceType->getReferencedType()->asDataPointerType() == nullptr)
return o_new(BuiltInOperatorExpression)(application()->getBuiltInOperator(e_Operator_Bracket), Type::Invalid(), args, operation_delegate_t());
Type* pElementType = pReferenceType->getReferencedType()->getUnderlyingType();
Type* pResultType = pReferenceType->asRValueReferenceType() ? (Type*)pElementType->rvalueReferenceType() : pElementType->lvalueReferenceType();
return o_new(BuiltInOperatorExpression)(application()->getBuiltInOperator(e_Operator_Bracket), pResultType, args, operation_delegate_t(pElementType->pointerType(), &DataPointerType::bracket));
}
Expression* Expression::store( Expression* a_pRightExpression )
{
ReferenceType* pReferenceType = m_pValueType->asReferenceType();
Expression* args[2] = { (Expression*)this, a_pRightExpression };
if(pReferenceType == nullptr
OR pReferenceType->getReferencedType()->asClassType()
OR pReferenceType->getReferencedType()->isConst()
OR NOT(a_pRightExpression->getValueType()->equals(pReferenceType->getReferencedType())))
return o_new(BuiltInOperatorExpression)(application()->getBuiltInOperator(e_Operator_Assignment), Type::Invalid(), args, operation_delegate_t());
Type* pElementType = pReferenceType->getReferencedType()->getUnderlyingType();
Type* pResultType = pReferenceType->asRValueReferenceType() ? (Type*)pElementType->rvalueReferenceType() : pElementType->lvalueReferenceType();
return o_new(BuiltInOperatorExpression)(application()->getBuiltInOperator(e_Operator_Assignment), pResultType, args, operation_delegate_t(pReferenceType, &ReferenceType::memcpyStoreDelegate));
}
void ClassTypeVisualizerNode::expand( VariableNode* a_pParentNode, const vector<reflection::Expression*>& a_LeftExpressions, reflection::ClassType* a_pClassType) const
{
// Public Value Members (Properties and InstanceAttributes
{
auto it = a_pClassType->beginValueMembers();
auto end = a_pClassType->endValueMembers();
for(;it != end;++it)
{
reflection::ValueMember* pValueMember = *it;
if(!m_Filter(a_pParentNode, pValueMember))
continue;
vector<reflection::Expression*> expressions;
for(auto it = a_LeftExpressions.begin(); it != a_LeftExpressions.end(); ++it)
{
reflection::Expression* pLeftExpression = *it;
expressions.push_back(cplusplus()->qualifiedLookup(pLeftExpression->clone(), pValueMember->getName(), nullptr, nullptr, 0)->asExpression());
}
VariableNode* pVariableNode = o_new(VariableNode)(nameOf(pValueMember), expressions);
pVariableNode->setIcon(QIcon(iconOf(pValueMember).c_str()));
pVariableNode->setRange(pValueMember->getRange());
pVariableNode->setModifiers(pValueMember->getModifiers());
a_pParentNode->addChildNode(pVariableNode);
}
}
}
void Expression::ancestorChanged( LanguageElement* a_pLanguageElement )
{
if(getEnclosingBlock())
{
Class* pClass = getValueType()->removeRValueReference()->asClass();
if(pClass)
{
void* pStorageAddress = evalStorage();
o_assert(pStorageAddress);
Expression* pThis = (o_new(ConstantExpression)(phantom::constant<void*>(pStorageAddress)))->convert(getValueType()->pointerType())->dereference();
Statement* pLifeTimeStatement = evaluateLifeTime();
o_assert(pLifeTimeStatement);
CallExpression* pDestructionExpression = o_new(CallExpression)(getValueType()->asClass()->getDestructor(), pThis);
pLifeTimeStatement->addTemporaryObjectDestruction(pDestructionExpression);
}
}
}
void CullSystem::BuildOctTree( TreeNode<VisCell>& node )
{
if (node.GetDepth() == m_Depth )
{
return;
}
node.GetChildren().resize(8);
for( int i = 0 ;i<8; i++ )
{
node.GetChildren()[i] = o_new( TreeNode<VisCell> );
node.GetChildren()[i]->SetParent( &node );
node.GetChildren()[i]->SetDepth( node.GetDepth()+1 );
node.GetChildren()[i]->SetIndex(i);
VisCell& parentCell = node.GetContent();
aabbox& box = parentCell.GetAABB();
aabbox baseBox;
point middle = (box.GetMax()+box.GetMin())*0.5f;
float xHalf = box.GetMax().X() - middle.X();
float yHalf = box.GetMax().Y() - middle.Y();
float zHalf = box.GetMax().Z() - middle.Z();
baseBox.SetMax( box.GetMax() );
baseBox.SetMin( middle );
point& pMax = baseBox.GetMax();
point& pMin = baseBox.GetMin();
if ( i%2==1 )
{
pMax.X()-=xHalf;
pMin.X()-=xHalf;
}
if ( i>=4 )
{
pMax.Y()-=yHalf;
pMin.Y()-=yHalf;
if (i>=6)
{
pMax.Z()-=zHalf;
pMin.Z()-=zHalf;
}
}
else if( i>=2 )
{
pMax.Z()-=zHalf;
pMin.Z()-=zHalf;
}
VisCell& childCell = node.GetChildren()[i]->GetContent();
childCell.SetAABB(baseBox);
BuildOctTree( *node.GetChildren()[i]);
}
}
int main() {
orientdb *oh;
orientdb_con *oc;
struct timeval tv;
int rc;
char str[O_ERR_MAXLEN];
long x;
oh = o_new();
o_debug_setlevel(oh, ORIENT_DEBUG);
o_debug_sethook(oh, &my_debug);
//rc = o_prepare_connection(oh, ORIENT_PROTO_BINARY, "192.168.1.100", "2424");
rc = o_prepare_connection(oh, ORIENT_PROTO_BINARY, "127.0.0.1", "2424");
if (rc != O_OK) {
o_strerr(rc, str, O_ERR_MAXLEN);
fprintf(stderr, "Error preparing connections (%i): %s\n", rc, str);
o_free(oh);
return rc;
}
// this user will be used to execute administrative commands to orientdb
rc = o_prepare_user(oh, ORIENT_ADMIN, "root", "test");
// this user will be used on database open to execute commands to the db
rc = o_prepare_user(oh, ORIENT_USER, "admin", "admin");
// set a connection timeout of 5 seconds
tv.tv_sec = 5;
tv.tv_usec = 0;
// try to create the connection with orientdb. NULL if a problem is encountered
oc = o_connect(oh, &tv, 0);
if (!oc) {
o_free(oh);
return 1;
}
// set a connection timeout of 5 seconds
tv.tv_sec = 15;
tv.tv_usec = 0;
//rc = bin_dbopen(oh, oc, &tv, 0, "demo");
rc = o_bin_dbopen(oh, oc, &tv, 0, "test");
tv.tv_sec = 15;
tv.tv_usec = 0;
x = o_bin_dataclustercount(oh, oc, &tv, 0, 6);
fprintf(stderr, "Cluster count: %ld\n", x);
tv.tv_sec = 15;
tv.tv_usec = 0;
rc = o_bin_dbclose(oh, oc, &tv, 0);
o_close(oh, oc);
o_free(oh);
return 0;
}
Expression* Expression::convert( Type* a_pOutputType, int conversionType /*= e_implicit_conversion*/, LanguageElement* a_pContextScope ) const
{
if(a_pOutputType->removeQualifiers()->equals(m_pValueType->removeQualifiers()) && conversionType == e_implicit_conversion)
return const_cast<Expression*>(this);
conversion* conv = getValueType()->conversionTo(a_pOutputType, conversionType, a_pContextScope);
if(conv == nullptr) return o_new(BuiltInConversionExpression)(const_cast<Expression*>(this), nullptr, conversionType);
Expression* pConversion = conv->convert(const_cast<Expression*>(this));
o_assert(pConversion);
delete conv;
return pConversion;
}
void AggregationClass::fetchExpressions( Expression* a_pInstanceExpression, vector<Expression*>& out, filter a_Filter, uint a_uiSerializationMask ) const
{
if(a_Filter(getAggregateClass()->pointerType()))
{
void* pInstance = a_pInstanceExpression->loadEffectiveAddress();
size_t count = this->count(pInstance);
for(size_t i = 0; i<count; ++i)
{
out.push_back(o_new(AggregationInsertRemoveExpression)(a_pInstanceExpression, o_new(ConstantExpression)(phantom::constant<size_t>(i)), const_cast<AggregationClass*>(this)));
}
}
}
void GraphicMgr::Init()
{
// here we will init the current pipeline and cull sys;
m_pPipeline = o_new(FixedRenderPipeline);
m_pPipeline->Init();
m_pRenderer = o_new(FixedRenderer);//hack
for (int i = 0;i<RENDERTYPECOUNT;i++)
{
m_RenderableArries.push_back(std::list<Ptr<Renderable>>());
}
// here we will setup the culling system
m_pCullSystem = o_new(CullSystem);
m_pCullSystem->SetDepth(3);
aabbox cullArea;
cullArea.SetMax(point( 500.f, 500.f, 500.f,1.f));
cullArea.SetMin(point(-500.f,-500.f,-500.f,1.f));
m_pCullSystem->SetCullArea(cullArea);
m_pCullSystem->Init();
}
VariableWidgetEditor* ComponentVariableNodeDelegate::createEditor() const
{
reflection::ComponentClass* pComponentClass = m_pVariableNode->getValueType()->removeConstReference()->asComponentClass();
vector<reflection::Class*> currentClasses;
size_t count = m_pVariableNode->getExpressionCount();
reflection::Class* pCurrentClass = nullptr;
for(size_t i = 0; i<count; ++i)
{
void* pOldValue = nullptr;
pComponentClass->get(m_pVariableNode->getExpression(i)->loadEffectiveAddress(), &pOldValue);
if(pOldValue)
{
reflection::Class* pClass = classOf(pOldValue);
if(pCurrentClass != nullptr AND pClass != pCurrentClass)
{
pCurrentClass = nullptr;
break;
}
pCurrentClass = pClass;
}
}
return o_new(ClassComboBoxEditor)(pComponentClass->getPointedClass(), pCurrentClass, NOT(m_pVariableNode->hasModifier(o_mandatory)));
}
void Vision::feel_vision_update (CObject* parent, Fvector& P, float dt, float vis_threshold)
{
// B-A = objects, that become visible
if (!seen.empty())
{
xr_vector<CObject*>::iterator E = std::remove(seen.begin(),seen.end(),parent);
seen.resize (E-seen.begin());
{
diff.resize (_max(seen.size(),query.size()));
xr_vector<CObject*>::iterator E = std::set_difference(
seen.begin(), seen.end(),
query.begin(),query.end(),
diff.begin() );
diff.resize(E-diff.begin());
for (u32 i=0; i<diff.size(); i++)
o_new(diff[i]);
}
}
// A-B = objects, that are invisible
if (!query.empty())
{
diff.resize (_max(seen.size(),query.size()));
xr_vector<CObject*>::iterator E = std::set_difference(
query.begin(),query.end(),
seen.begin(), seen.end(),
diff.begin() );
diff.resize(E-diff.begin());
for (u32 i=0; i<diff.size(); i++)
o_delete(diff[i]);
}
// Copy results and perform traces
query = seen;
o_trace (P,dt,vis_threshold);
}
RemoveDataCommand::RemoveDataCommand(serialization::DataBase* a_pDataBase, const vector<uint>& a_Guids)
: DataBaseCommand(a_pDataBase)
{
m_Guids = a_Guids;
setName("Remove");
vector<phantom::data> allData;
m_pDataBase->rootNode()->fetchDataCascade(allData);
for(size_t i = 0; i<m_Guids.size(); ++i)
{
phantom::data d = m_pDataBase->getData(m_Guids[i]);
o_assert(!d.isNull());
for(auto it = allData.begin(); it != allData.end(); ++it)
{
if(m_pDataBase->getComponentDataOwner(*it) == d)
m_Guids.push_back(m_pDataBase->getGuid(*it));
}
}
std::sort(m_Guids.begin(), m_Guids.end());
m_Guids.resize(std::unique(m_Guids.begin(), m_Guids.end())-m_Guids.begin());
for(auto it = m_Guids.begin(); it != m_Guids.end(); ++it)
{
pushCommand(o_new(UndoCommand)((m_pDataBase->getNode(*it) ? "Node '" : "Data '") + m_pDataBase->getAttributeValues(m_pDataBase->getData(*it).address())[0] + "' ("+lexical_cast<string>((void*)(*it))+")" ));
}
}
void FlagsVisualizerNode::expand( VariableNode* a_pParent, const vector<reflection::Expression*>& a_LeftExpressions ) const
{
map<reflection::Constant*, vector<reflection::Expression*>> flagsExpressions;
for(auto it = a_LeftExpressions.begin(); it != a_LeftExpressions.end(); ++it)
{
reflection::Expression* pLeftExpression = *it;
if(NOT(pLeftExpression->hasEffectiveAddress())) continue;
reflection::Enum* pEnum = pLeftExpression->getValueType()->removeReference()->removeConst()->getOwner()->asTemplateSpecialization()->getArgument("Enum")->asEnum();
for(size_t i = 0; i<pEnum->getConstantCount(); ++i)
{
flagsExpressions[pEnum->getConstant(i)].push_back(
cplusplus()->qualifiedLookup(
cplusplus()->solveBinaryOperator("[]", pLeftExpression->clone(), o_new(reflection::ConstantExpression)(pEnum->getConstant(i)))
, "value", nullptr, nullptr, 0)->asExpression()
);
}
}
for(auto it = flagsExpressions.begin(); it != flagsExpressions.end(); ++it)
{
VariableNode* pNode = o_new(VariableNode)(nameOf(it->first), it->second);
pNode->setIcon(QIcon(iconOf(it->first).c_str()));
a_pParent->addChildNode(pNode);
}
}
int main() {
orientdb *oh;
orientdb_con *oc;
struct timeval tv;
ODOC_OBJECT *odoc;
int rc;
char str[O_ERR_MAXLEN];
long position;
int i;
oh = o_new();
o_debug_setlevel(oh, ORIENT_DEBUG);
//o_debug_setlevel(oh, ORIENT_CRITICAL);
o_debug_sethook(oh, &my_debug);
//rc = o_prepare_connection(oh, ORIENT_PROTO_BINARY, "192.168.1.100", "2424");
rc = o_prepare_connection(oh, ORIENT_PROTO_BINARY, "127.0.0.1", "2424");
if (rc != O_OK) {
o_strerr(rc, str, O_ERR_MAXLEN);
fprintf(stderr, "Error preparing connections (%i): %s\n", rc, str);
o_free(oh);
return rc;
}
// this user will be used to execute administrative commands to orientdb
rc = o_prepare_user(oh, ORIENT_ADMIN, "root", "test");
// this user will be used on database open to execute commands to the db
rc = o_prepare_user(oh, ORIENT_USER, "admin", "admin");
// set a connection timeout of 5 seconds
tv.tv_sec = 5;
tv.tv_usec = 0;
// try to create the connection with orientdb. NULL if a problem is encountered
oc = o_connect(oh, &tv, 0);
if (!oc) {
o_free(oh);
return 1;
}
// set a connection timeout of 5 seconds
tv.tv_sec = 15;
tv.tv_usec = 0;
rc = o_bin_dbopen(oh, oc, &tv, 0, "test");
tv.tv_sec = 15;
tv.tv_usec = 0;
// initialize a new document with the classname called "Class"
ODOC_INITIALIZE_DOCUMENT(odoc, NULL);
if (!odoc) {
fprintf(stderr, "RECORD_CREATE: problem initializating document\n");
tv.tv_sec = 5;
tv.tv_usec = 0;
rc = o_bin_dbclose(oh, oc, &tv, 0);
o_close(oh, oc);
o_free(oh);
return 0;
}
odoc_setraw(odoc, "nully:,shorty:10s,inty:20,embeddeddocy:(stringyembeddy:\"Hello world!! This is a string\",intyembeddy:12345),binny:_SGVsbG8gd29ybGQhISBUaGlzIGlzIGEgc3RyaW5n_,collecty:[]", strlen("nully:,shorty:10s,inty:20,embeddeddocy:(stringyembeddy:\"Hello world!! This is a string\",intyembeddy:12345),binny:_SGVsbG8gd29ybGQhISBUaGlzIGlzIGEgc3RyaW5n_,collecty:[]"));
tv.tv_sec = 3;
tv.tv_usec = 0;
position = o_bin_recordcreate(oh, oc, &tv, 0, 6, odoc, O_RECORD_DOC, O_RECSYNC);
fprintf(stderr, "RECORD_CREATE: %ld\n", position);
i = ODOC_FREE_DOCUMENT(odoc);
tv.tv_sec = 10;
tv.tv_usec = 0;
rc = o_bin_dbclose(oh, oc, &tv, 0);
o_close(oh, oc);
o_free(oh);
return 0;
}
void ComponentVisualizerNode::expand(VariableNode* a_pVariableNode, const vector<reflection::Expression*>& a_LeftExpressions) const
{
a_pVariableNode->setDelegate(o_new(ComponentVariableNodeDelegate));
}
InvalidExpression* InvalidExpression::clone() const
{
return o_new(InvalidExpression)(m_pValueType);
}
UpdateComponentDataCommand* UpdateComponentDataCommand::clone() const
{
return o_new(UpdateComponentDataCommand)(m_pDataBase, m_Guids);
}
serialization::Bundle* PolymorphicArrayClass::createBundle( serialization::BundleNode* a_pOwnerNode ) const
{
return o_new(serialization::native::TBundle<util::PolymorphicArray>)(a_pOwnerNode);
}
Type* PolymorphicArrayClass::createConstType() const
{
return o_new(native::TConstType<PolymorphicArrayClass>)(const_cast<PolymorphicArrayClass*>(this));
}
PropertyExpression* PropertyExpression::clone() const
{
return o_new(PropertyExpression)(m_pLeftExpression, m_pProperty);
}
int main() {
orientdb *oh;
orientdb_con *oc;
struct timeval tv;
int rc;
char str[O_ERR_MAXLEN];
ODOC_OBJECT *odoc;
short cluster_id;
long cluster_position;
// create the orientdb object
oh = o_new();
// setup debug hook, so that my_debug() finction will be invoked each time the library has to say something useful
o_debug_setlevel(oh, ORIENT_DEBUG);
o_debug_sethook(oh, &my_debug);
// prepare the connection to the database (no real connection will be made)
rc = o_prepare_connection(oh, ORIENT_PROTO_BINARY, "127.0.0.1", "2424");
if (rc != O_OK) {
o_strerr(rc, str, O_ERR_MAXLEN);
fprintf(stderr, "Error preparing connections (%i): %s\n", rc, str);
o_free(oh);
return rc;
}
// this user will be used to execute administrative commands to orientdb
rc = o_prepare_user(oh, ORIENT_ADMIN, "root", "test");
// this user will be used on database open to execute commands to the db
rc = o_prepare_user(oh, ORIENT_USER, "admin", "admin");
// set a connection timeout of 5 seconds
tv.tv_sec = 5;
tv.tv_usec = 0;
// try to create the connection with orientdb. NULL if a problem is encountered
oc = o_connect(oh, &tv, 0);
if (!oc) {
o_free(oh);
return 1;
}
// set a timeout of 10 seconds
tv.tv_sec = 10;
tv.tv_usec = 0;
// Open a database named "test"
rc = o_bin_dbopen(oh, oc, &tv, 0, "test");
// set a timeout of 15 seconds
tv.tv_sec = 15;
tv.tv_usec = 0;
// simulating a record id like #6:0
cluster_id = 6;
cluster_position = 0;
// get the document from the database
odoc = o_bin_recordload(oh, oc, &tv, 0, cluster_id, cluster_position, "*:-1");
if (!odoc) {
fprintf(stderr, "RECORD_LOAD: problem getting record\n");
tv.tv_sec = 5;
tv.tv_usec = 0;
rc = o_bin_dbclose(oh, oc, &tv, 0);
o_close(oh, oc);
o_free(oh);
return 0;
}
fprintf(stderr, "RECORD_LOAD: got a document: %s\n", odoc_getraw(odoc, NULL));
// free the returned document when you no longer need it
ODOC_FREE_DOCUMENT(odoc);
tv.tv_sec = 5;
tv.tv_usec = 0;
rc = o_bin_dbclose(oh, oc, &tv, 0);
o_close(oh, oc);
o_free(oh);
return 0;
}
UndoCommand* UndoCommand::clone() const
{
return o_new(UndoCommand)(m_strName);
}
AggregationInsertRemoveExpression* AggregationInsertRemoveExpression::clone() const
{
return o_new(AggregationInsertRemoveExpression)(m_pLeftExpression, m_pIndexExpression, m_pAggregationClass);
}
CompositionRemoveComponentDataCommand* CompositionRemoveComponentDataCommand::clone() const
{
return o_new(CompositionRemoveComponentDataCommand)(m_pDataBase, m_uiIndex, m_uiOwnerGuid, m_strCompositionExpression);
}
AggregationGetSetExpression* AggregationGetSetExpression::clone() const
{
return o_new(AggregationGetSetExpression)(m_pLeftExpression, m_pIndexExpression, m_pAggregationClass);
}
LocalVariableInitializationStatement* LocalVariableInitializationStatement::clone() const
{
return o_new(LocalVariableInitializationStatement)(m_pLocalVariable, m_pRightExpression);
}
