void ShowSegmentationAsSurface::ThreadedUpdateSuccessful()
{
m_Node = DataNode::New();
bool wireframe(false);
GetParameter("Wireframe", wireframe);
if (wireframe)
{
VtkRepresentationProperty *np =
dynamic_cast<VtkRepresentationProperty *>(m_Node->GetProperty("material.representation"));
if (np)
np->SetRepresentationToWireframe();
}
m_Node->SetProperty("opacity", FloatProperty::New(0.3));
m_Node->SetProperty("line width", IntProperty::New(1));
m_Node->SetProperty("scalar visibility", BoolProperty::New(false));
std::string groupNodesName("surface");
DataNode *groupNode = GetGroupNode();
if (groupNode)
{
groupNode->GetName(groupNodesName);
// if parameter smooth is set add extension to node name
bool smooth(true);
GetParameter("Smooth", smooth);
if (smooth)
groupNodesName.append("_smoothed");
}
m_Node->SetProperty("name", StringProperty::New(groupNodesName));
// synchronize this object's color with the parent's color
// surfaceNode->SetProperty( "color", parentNode->GetProperty( "color" ) );
// surfaceNode->SetProperty( "visible", parentNode->GetProperty( "visible" ) );
m_Node->SetData(m_Surface);
BaseProperty *colorProp = groupNode->GetProperty("color");
if (colorProp)
m_Node->ReplaceProperty("color", colorProp->Clone());
else
m_Node->SetProperty("color", ColorProperty::New(1.0, 1.0, 0.0));
bool showResult(true);
GetParameter("Show result", showResult);
bool syncVisibility(false);
GetParameter("Sync visibility", syncVisibility);
Image::Pointer image;
GetPointerParameter("Input", image);
BaseProperty *organTypeProp = image->GetProperty("organ type");
if (organTypeProp)
m_Surface->SetProperty("organ type", organTypeProp);
BaseProperty *visibleProp = groupNode->GetProperty("visible");
if (visibleProp && syncVisibility)
m_Node->ReplaceProperty("visible", visibleProp->Clone());
else
m_Node->SetProperty("visible", BoolProperty::New(showResult));
InsertBelowGroupNode(m_Node);
Superclass::ThreadedUpdateSuccessful();
}
void ShowSegmentationAsSmoothedSurface::ThreadedUpdateSuccessful()
{
DataNode::Pointer node = DataNode::New();
bool wireframe = false;
GetParameter("Wireframe", wireframe);
if (wireframe)
{
VtkRepresentationProperty *representation = dynamic_cast<VtkRepresentationProperty *>(
node->GetProperty("material.representation"));
if (representation != nullptr)
representation->SetRepresentationToWireframe();
}
node->SetProperty("opacity", FloatProperty::New(1.0));
node->SetProperty("line width", IntProperty::New(1));
node->SetProperty("scalar visibility", BoolProperty::New(false));
std::string groupNodeName = "surface";
DataNode *groupNode = GetGroupNode();
if (groupNode != nullptr)
groupNode->GetName(groupNodeName);
node->SetProperty("name", StringProperty::New(groupNodeName));
node->SetData(m_Surface);
BaseProperty *colorProperty = groupNode->GetProperty("color");
if (colorProperty != nullptr)
node->ReplaceProperty("color", colorProperty->Clone());
else
node->SetProperty("color", ColorProperty::New(1.0f, 0.0f, 0.0f));
bool showResult = true;
GetParameter("Show result", showResult);
bool syncVisibility = false;
GetParameter("Sync visibility", syncVisibility);
Image::Pointer image;
GetPointerParameter("Input", image);
BaseProperty *organTypeProperty = image->GetProperty("organ type");
if (organTypeProperty != nullptr)
m_Surface->SetProperty("organ type", organTypeProperty);
BaseProperty *visibleProperty = groupNode->GetProperty("visible");
if (visibleProperty != nullptr && syncVisibility)
node->ReplaceProperty("visible", visibleProperty->Clone());
else
node->SetProperty("visible", BoolProperty::New(showResult));
InsertBelowGroupNode(node);
Superclass::ThreadedUpdateSuccessful();
}
void ShowSegmentationAsSmoothedSurface::ThreadedUpdateSuccessful()
{
DataNode::Pointer node = LookForPointerTargetBelowGroupNode("Surface representation");
bool addToTree = node.IsNull();
if (addToTree)
{
node = DataNode::New();
bool wireframe = false;
GetParameter("Wireframe", wireframe);
if (wireframe)
{
VtkRepresentationProperty *representation = dynamic_cast<VtkRepresentationProperty *>(
node->GetProperty("material.representation"));
if (representation != NULL)
representation->SetRepresentationToWireframe();
}
node->SetProperty("opacity", FloatProperty::New(1.0));
node->SetProperty("line width", IntProperty::New(1));
node->SetProperty("scalar visibility", BoolProperty::New(false));
UIDGenerator uidGenerator("Surface_");
node->SetProperty("FILENAME", StringProperty::New(uidGenerator.GetUID() + ".vtk"));
std::string groupNodeName = "surface";
DataNode *groupNode = GetGroupNode();
if (groupNode != NULL)
groupNode->GetName(groupNodeName);
node->SetProperty("name", StringProperty::New(groupNodeName));
}
node->SetData(m_Surface);
if (addToTree)
{
DataNode* groupNode = GetGroupNode();
if (groupNode != NULL)
{
groupNode->SetProperty("Surface representation", SmartPointerProperty::New(node));
BaseProperty *colorProperty = groupNode->GetProperty("color");
if (colorProperty != NULL)
node->ReplaceProperty("color", colorProperty);
else
node->SetProperty("color", ColorProperty::New(1.0f, 0.0f, 0.0f));
bool showResult = true;
GetParameter("Show result", showResult);
bool syncVisibility = false;
GetParameter("Sync visibility", syncVisibility);
Image::Pointer image;
GetPointerParameter("Input", image);
BaseProperty *organTypeProperty = image->GetProperty("organ type");
if (organTypeProperty != NULL)
m_Surface->SetProperty("organ type", organTypeProperty);
BaseProperty *visibleProperty = groupNode->GetProperty("visible");
if (visibleProperty != NULL && syncVisibility)
node->ReplaceProperty("visible", visibleProperty);
else
node->SetProperty("visible", BoolProperty::New(showResult));
}
InsertBelowGroupNode(node);
}
Superclass::ThreadedUpdateSuccessful();
}