#include "bbcreaVtkPackage.h"
#include "vtkDoubleArray.h"
+
namespace bbcreaVtk
{
if(bbGetInputVectorsFieldImage() != NULL )
{
- vtkImageData* m_VectorImage = bbGetInputVectorsFieldImage();
+ vtkImageData *m_VectorImage = bbGetInputVectorsFieldImage();
+ vtkIdType m_idType;
+ vtkDoubleArray *velocity = vtkDoubleArray::New();
- std::vector<double> coord = bbGetInputCoordinates();
+ std::vector<double> coord = bbGetInputCoordinates();
+ std::vector<double> vec;
- /*double *vector = static_cast<double*>(m_VectorImage->GetScalarPointer(coord[0],coord[1],coord[2]));
+ vec.push_back(0);
+ vec.push_back(0);
+ vec.push_back(0);
- vtkDoubleArray* velocity = vtkDoubleArray::New();
- velocity = vtkDoubleArray::SafeDownCast(this->m_VectorImage->GetPointData()->GetArray("velocity"));
+ double ang1 = 0;//Angle 1
+ double ang2 = 0;//ANgle 2
+ double comp = 0;//Component x + y
+ //Find coordinate into the image
+ m_idType = m_VectorImage->FindPoint(coord[0],coord[1],coord[2]);
+ std::cout << m_idType;
+ //Recuperate vector of vectorFieldImage
+ velocity = vtkDoubleArray::SafeDownCast(m_VectorImage->GetPointData()->GetArray("velocity"));
+ //velocity->Print(std::cout);
+ std::cout<< "# components velocity: " << velocity->GetNumberOfComponents()<<std::endl;
+ std::cout<< "# tuples velocity: " << velocity->GetNumberOfTuples()<<std::endl;
- std::cout << "coord: "<< coord[0] << ","<< coord[1] << ","<<coord[2] << std::endl;
- std::cout << "vector: "<< velocity[0] << ","<< velocity[1] << ","<<velocityvelocity[2] << std::endl;
+ vec[0] = velocity->GetComponent(m_idType,0);
+ vec[1] = velocity->GetComponent(m_idType,1);
+ vec[2] = velocity->GetComponent(m_idType,2);
- double ang1 = 0;
- double ang2 = 0;
+ std::cout << "velocity :" << vec[0] << "," <<vec[1] << ","<< vec[2] << std::endl;
- ang1 = velocity[0] + velocity[1] + velocity[2];
- ang2 = velocity[0] + velocity[1] - velocity[2];
-*/
- m_VectorImage->Print(std::cout);
+ //Miss calcule of angles -----
+ comp = sqrt((vec[0]*vec[0])+(vec[1]*vec[1]));
+
+ ang1 = atan2(vec[2],comp) * 180 / PI;
+ ang2 = atan2(vec[1],vec[0]) * 180 / PI;
+
+ //m_VectorImage->Print(std::cout);
- //bbSetOutputAngle1(ang1);
- //bbSetOutputAngle2(ang2);
+ std::cout << "ang1: " << ang1 << std::endl;
+ std::cout << "ang2: " << ang2 << std::endl;
- }// if image != NULL
-
+ bbSetOutputAngle1(ang1);
+ bbSetOutputAngle2(ang2);
+ bbSetOutputVector(vec);
+ bbSetOutputX(coord[0]);
+ bbSetOutputY(coord[1]);
+ bbSetOutputZ(coord[2]);
+ }// if image != NULL
-
-
-
-
std::cout<< "MLER VectorsExtraction Process END" << std::endl;
}