SetBackgroundValue(0);
SetForegroundValue(1);
- // Station 8
- SetDistanceMaxToAnteriorPartOfTheSpine(10);
- MaskImagePointType p;
- p[0] = 15; p[1] = 2; p[2] = 1;
- SetEsophagusDiltationForAnt(p);
- p[0] = 5; p[1] = 10; p[2] = 1;
- SetEsophagusDiltationForRight(p);
- SetFuzzyThresholdForS8(0.5);
+ // Default values
+ ExtractStation_8_SetDefaultValues();
+ ExtractStation_3P_SetDefaultValues();
// Station 7
SetFuzzyThreshold(0.5);
ExtractStation_8();
StopSubStep();
- // Compute some interesting points in trachea
- // ( ALTERNATIVE -> SKELETON ANALYSIS ?
- // Pb : not sufficient for mostXX points ... )
-
- /* ==> todo (but why ???)
- ComputeTracheaCentroidsAboveCarina();
- ComputeBronchusExtremaPointsBelowCarina();
- */
+ // Extract Station3P
+ StartNewStep("Station 3P");
+ StartSubStep();
+ ExtractStation_3P();
+ StopSubStep();
if (0) { // temporary suppress
// Extract Station7
void
clitk::ExtractLymphStationsFilter<TImageType>::
GenerateInputRequestedRegion() {
- DD("GenerateInputRequestedRegion (nothing?)");
+ //DD("GenerateInputRequestedRegion (nothing?)");
}
//--------------------------------------------------------------------
//--------------------------------------------------------------------
template <class TImageType>
-void
+bool
clitk::ExtractLymphStationsFilter<TImageType>::
-ExtractStation_8() {
+CheckForStation(std::string station)
+{
+ // Compute Station name
+ std::string s = "Station"+station;
+
- // Check if m_ListOfStations["8"] exist. If yes -> use it as initial
- // support instead of m_Mediastinum
- if (m_ListOfStations["8"]) {
- DD("Station 8 support already exist -> use it");
- m_Working_Support = m_ListOfStations["8"];
+ // Check if station already exist in DB
+ bool found = false;
+ if (GetAFDB()->TagExist(s)) {
+ m_ListOfStations[station] = GetAFDB()->template GetImage<MaskImageType>(s);
+ found = true;
}
- else m_Working_Support = m_Mediastinum;
- ExtractStation_8_SI_Limits();
- ExtractStation_8_AP_Limits();
- // ExtractStation_8_LR_Limits();
+ // Define the starting support
+ if (found && GetComputeStation(station)) {
+ std::cout << "Station " << station << " already exists, but re-computation forced." << std::endl;
+ }
+ if (!found || GetComputeStation(station)) {
+ m_Working_Support = m_Mediastinum = GetAFDB()->template GetImage<MaskImageType>("Mediastinum", true);
+ return true;
+ }
+ else {
+ std::cout << "Station " << station << " found. I used it" << std::endl;
+ return false;
+ }
+}
+//--------------------------------------------------------------------
+
+
+//--------------------------------------------------------------------
+template <class TImageType>
+bool
+clitk::ExtractLymphStationsFilter<TImageType>::
+GetComputeStation(std::string station)
+{
+ return (m_ComputeStationMap.find(station) != m_ComputeStationMap.end());
+}
+//--------------------------------------------------------------------
+
+
+//--------------------------------------------------------------------
+template <class TImageType>
+void
+clitk::ExtractLymphStationsFilter<TImageType>::
+AddComputeStation(std::string station)
+{
+ m_ComputeStationMap[station] = true;
+}
+//--------------------------------------------------------------------
+
+
+//--------------------------------------------------------------------
+template <class TImageType>
+void
+clitk::ExtractLymphStationsFilter<TImageType>::
+ExtractStation_8()
+{
+ if (CheckForStation("8")) {
+ ExtractStation_8_SI_Limits();
+ ExtractStation_8_Post_Limits();
+ ExtractStation_8_Ant_Sup_Limits();
+ ExtractStation_8_Ant_Inf_Limits();
+ ExtractStation_8_LR_1_Limits();
+ ExtractStation_8_LR_2_Limits();
+ ExtractStation_8_LR_Limits();
+ ExtractStation_8_Ant_Injected_Limits();
+ ExtractStation_8_Single_CCL_Limits();
+ ExtractStation_8_Remove_Structures();
+ // Store image filenames into AFDB
+ writeImage<MaskImageType>(m_ListOfStations["8"], "seg/Station8.mhd");
+ GetAFDB()->SetImageFilename("Station8", "seg/Station8.mhd");
+ WriteAFDB();
+ }
+}
+//--------------------------------------------------------------------
+
+
+//--------------------------------------------------------------------
+template <class TImageType>
+void
+clitk::ExtractLymphStationsFilter<TImageType>::
+ExtractStation_3P()
+{
+ if (CheckForStation("3P")) {
+ ExtractStation_3P_SI_Limits();
+ ExtractStation_3P_Remove_Structures();
+ ExtractStation_3P_Ant_Limits();
+ ExtractStation_3P_Post_Limits();
+ ExtractStation_3P_LR_sup_Limits();
+ ExtractStation_3P_LR_inf_Limits();
+ // Store image filenames into AFDB
+ writeImage<MaskImageType>(m_ListOfStations["3P"], "seg/Station3P.mhd");
+ GetAFDB()->SetImageFilename("Station3P", "seg/Station3P.mhd");
+ WriteAFDB();
+ }
}
//--------------------------------------------------------------------
//--------------------------------------------------------------------
-template <class TImageType>
-void
-clitk::ExtractLymphStationsFilter<TImageType>::
-FindExtremaPointsInBronchus(MaskImagePointer input,
- int direction,
- double distance_max_from_center_point,
- ListOfPointsType & LR,
- ListOfPointsType & Ant,
- ListOfPointsType & Post)
-{
- // Other solution ==> with auto bounding box ! (but pb to prevent to
- // be too distant from the center point
- // Extract slices
- std::vector<typename MaskSliceType::Pointer> slices;
- clitk::ExtractSlices<MaskImageType>(input, 2, slices);
-
- // Loop on slices
- bool found;
- for(uint i=0; i<slices.size(); i++) {
- /*
- // Keep main CCL
- slices[i] = Labelize<MaskSliceType>(slices[i], 0, true, 10);
- slices[i] = KeepLabels<MaskSliceType>(slices[i],
- GetBackgroundValue(),
- GetForegroundValue(), 1, 1, true);
- */
-
- // ------- Find rightmost or leftmost point -------
- MaskSliceType::PointType LRMost;
- found =
- clitk::FindExtremaPointInAGivenDirection<MaskSliceType>(slices[i],
- GetBackgroundValue(),
- 0, // axis XY
- (direction==0?false:true), // right or left according to direction
- LRMost);
- // ------- Find postmost point -------
- MaskSliceType::PointType postMost;
- found =
- clitk::FindExtremaPointInAGivenDirection<MaskSliceType>(slices[i],
- GetBackgroundValue(),
- 1, false, LRMost,
- distance_max_from_center_point,
- postMost);
- // ------- Find antmost point -------
- MaskSliceType::PointType antMost;
- found =
- clitk::FindExtremaPointInAGivenDirection<MaskSliceType>(slices[i],
- GetBackgroundValue(),
- 1, true, LRMost,
- distance_max_from_center_point,
- antMost);
- // Only add point if found
- if (found) {
- // ------- Convert 2D to 3D points --------
- MaskImageType::PointType p;
- clitk::PointsUtils<MaskImageType>::Convert2DTo3D(LRMost, input, i, p);
- LR.push_back(p);
- clitk::PointsUtils<MaskImageType>::Convert2DTo3D(antMost, input, i, p);
- Ant.push_back(p);
- clitk::PointsUtils<MaskImageType>::Convert2DTo3D(postMost, input, i, p);
- Post.push_back(p);
- }
- }
-}
-//--------------------------------------------------------------------
#endif //#define CLITKBOOLEANOPERATORLABELIMAGEFILTER_TXX