#include "clitkDicomRT_Contour.h"
#include <vtkCellArray.h>
-#if GDCM_MAJOR_VERSION == 2
+#if GDCM_MAJOR_VERSION >= 2
#include "gdcmAttribute.h"
#include "gdcmItem.h"
#endif
//--------------------------------------------------------------------
-#if GDCM_MAJOR_VERSION == 2
-bool clitk::DicomRT_Contour::Read(gdcm::Item const & item)
+#if GDCM_MAJOR_VERSION >= 2
+void clitk::DicomRT_Contour::UpdateDicomItem()
{
- const gdcm::DataSet& nestedds2 = item.GetNestedDataSet();
+ DD("DicomRT_Contour::UpdateDicomItem");
+
+ gdcm::DataSet & nestedds = mItem->GetNestedDataSet();
+
+ //NON CONSIDER CONTOUR ITEM NOT SEQ ITEM ?
+
+ // Contour type [Contour Geometric Type]
+ gdcm::Attribute<0x3006,0x0042> contgeotype;
+ contgeotype.SetFromDataSet( nestedds );
+
+ // Number of points [Number of Contour Points]
+ gdcm::Attribute<0x3006,0x0046> numcontpoints;
+ numcontpoints.SetFromDataSet( nestedds );
+ DD(mNbOfPoints);
+ mNbOfPoints = numcontpoints.GetValue();
+ DD(mNbOfPoints);
+
+ // Contour dicom values from DataPoints
+ //ComputeDataPointsFromMesh();
+ uint nb = mData->GetNumberOfPoints();
+ std::vector<double> points;
+ points.resize(mNbOfPoints*3);
+ for(unsigned int i=0; i<nb; i++) {
+ double * p = mData->GetPoint(i);
+ points[i*3] = p[0];
+ points[i*3+1] = p[1];
+#if VTK_MAJOR_VERSION <= 5
+ points[i*3+1] = p[2];
+#else
+ points[i*3+1] = p[2]-0.5;
+#endif
+ }
+
+ // Get attribute
+ gdcm::Attribute<0x3006,0x0050> at;
+ gdcm::Tag tcontourdata(0x3006,0x0050);
+ gdcm::DataElement contourdata = nestedds.GetDataElement( tcontourdata );
+ at.SetFromDataElement( contourdata );
+
+ // Set attribute
+ at.SetValues(&points[0], points.size(), false);
+ DD(at.GetValues()[0]);
+
+ DD("replace");
+ nestedds.Replace(at.GetAsDataElement());
+ DD("done");
+
+ // Change Number of points [Number of Contour Points]
+ numcontpoints.SetValue(nb);
+ nestedds.Replace(numcontpoints.GetAsDataElement());
+
+ // Test
+ gdcm::DataElement aa = nestedds.GetDataElement( tcontourdata );
+ at.SetFromDataElement( aa );
+ const double* bb = at.GetValues();
+ DD(bb[0]);
+
+}
+#endif
+//--------------------------------------------------------------------
+
+
+//--------------------------------------------------------------------
+#if GDCM_MAJOR_VERSION >= 2
+bool clitk::DicomRT_Contour::Read(gdcm::Item * item)
+{
+ mItem = item;
+
+ const gdcm::DataSet& nestedds2 = item->GetNestedDataSet();
// Contour type [Contour Geometric Type]
gdcm::Attribute<0x3006,0x0042> contgeotype;
const gdcm::DataElement & contourdata = nestedds2.GetDataElement( tcontourdata );
at.SetFromDataElement( contourdata );
const double* points = at.GetValues();
- unsigned int npts = at.GetNumberOfValues() / 3;
-
+ // unsigned int npts = at.GetNumberOfValues() / 3;
assert(at.GetNumberOfValues() == static_cast<unsigned int>(mNbOfPoints)*3);
// Organize values
double p[3];
p[0] = points[i*3];
p[1] = points[i*3+1];
+#if VTK_MAJOR_VERSION <= 5
p[2] = points[i*3+2];
+#else
+ p[2] = points[i*3+2]+0.5;
+#endif
mData->SetPoint(i, p);
if (mZ == -1) mZ = p[2];
if (p[2] != mZ) {
double p[3];
p[0] = points[i*3];
p[1] = points[i*3+1];
+#if VTK_MAJOR_VERSION <= 5
p[2] = points[i*3+2];
+#else
+ p[2] = points[i*3+2]+0.5;
+#endif
mData->SetPoint(i, p);
if (mZ == -1) mZ = p[2];
if (p[2] != mZ) {
vtkPolyData * clitk::DicomRT_Contour::GetMesh()
{
if (!mMeshIsUpToDate) {
- ComputeMesh();
+ ComputeMeshFromDataPoints();
}
return mMesh;
}
//--------------------------------------------------------------------
-void clitk::DicomRT_Contour::ComputeMesh()
+void clitk::DicomRT_Contour::SetMesh(vtkPolyData * mesh)
+{
+ mMesh = mesh;
+}
+//--------------------------------------------------------------------
+
+
+//--------------------------------------------------------------------
+void clitk::DicomRT_Contour::SetTransformMatrix(vtkMatrix4x4* matrix)
+{
+ mTransformMatrix = matrix;
+}
+//--------------------------------------------------------------------
+
+
+//--------------------------------------------------------------------
+void clitk::DicomRT_Contour::ComputeMeshFromDataPoints()
{
// DD("ComputeMesh Contour");
+ mMesh = vtkSmartPointer<vtkPolyData>::New();
+ mMesh->Allocate(); //for cell structures
+ mPoints = vtkSmartPointer<vtkPoints>::New();
+ mMesh->SetPoints(mPoints);
+ vtkIdType ids[2];
+ for (unsigned int idx=0 ; idx<mNbOfPoints ; idx++) {
+ double pointIn[4];
+ for (unsigned int j=0 ; j<3; ++j)
+ pointIn[j] = mData->GetPoint(idx)[j];
+ pointIn[3] = 1.0;
+ /*double pointOut[4];
+ mTransformMatrix->MultiplyPoint(pointIn, pointOut);
+ std::cout << pointOut[0] << " " << pointOut[1] << " " << pointOut[2] << " " << pointOut[3] << std::endl;
+ mMesh->GetPoints()->InsertNextPoint(pointOut[0],
+ pointOut[1],
+ pointOut[2]);*/
+ mMesh->GetPoints()->InsertNextPoint(mData->GetPoint(idx)[0],
+ mData->GetPoint(idx)[1],
+ mData->GetPoint(idx)[2]);
+ //std::cout << mData->GetPoint(idx)[0] << " " << mData->GetPoint(idx)[1] << " " << mData->GetPoint(idx)[2] << std::endl;
+ ids[0]=idx;
+ ids[1]=(ids[0]+1) % mNbOfPoints; //0-1,1-2,...,n-1-0
+ mMesh->GetLines()->InsertNextCell(2,ids);
+ }
+ //std::cout << std::endl;
+ mMeshIsUpToDate = true;
+}
+//--------------------------------------------------------------------
+
+
+//--------------------------------------------------------------------
+void clitk::DicomRT_Contour::ComputeDataPointsFromMesh()
+{
+ DD("ComputeDataPointsFromMesh");
+
+
+ /*todo
+
mMesh = vtkSmartPointer<vtkPolyData>::New();
mMesh->Allocate(); //for cell structures
mPoints = vtkSmartPointer<vtkPoints>::New();
mData->GetPoint(idx)[2]);
ids[0]=idx;
ids[1]=(ids[0]+1) % mNbOfPoints; //0-1,1-2,...,n-1-0
- // DD(ids[0]);
-// DD(ids[1]);
mMesh->GetLines()->InsertNextCell(2,ids);
}
- // DD(mMesh->GetNumberOfCells());
mMeshIsUpToDate = true;
+*/
}
//--------------------------------------------------------------------