bool mitkSegmentationInterpolationTestClass::ClearSegmentation()
{
int* p = (int*)m_Image->GetData(); // pointer to pixel data
int size = dim[0]*dim[1]*dim[2];
for(int i=0; i<size; ++i, ++p) *p=0; // fill image with zeros
return true;
}
/**
* Creates a square segmentation in slices 0 and 2.
*/
bool mitkSegmentationInterpolationTestClass::CreateTwoSlices(int slicedim)
{
int* p = (int*)m_Image->GetData(); // pointer to pixel data
int size = dim[0]*dim[1]*dim[2];
for(int i=0; i<size; ++i, ++p)
{
int x,y,z;
int xdim,ydim;
switch (slicedim)
{
case 0:
z = i % dim[0];
y = i / dim[0] % dim[1];
x = i / (dim[1]*dim[0]);
xdim = 2;
ydim = 1;
break;
case 1:
x = i % dim[0];
z = i / dim[0] % dim[1];
y = i / (dim[1]*dim[0]);
xdim = 0;
ydim = 2;
break;
case 2:
default:
x = i % dim[0];
y = i / dim[0] % dim[1];
z = i / (dim[1]*dim[0]);
xdim = 0;
ydim = 1;
break;
}
if ( ((z == 0) || (z == 2)) && (x >= pad[xdim]) && (x < ( (signed) dim[xdim]-pad[xdim])) && (y >= pad[ydim]) && (y < ( (signed) dim[ydim]-pad[ydim])) )
{
*p = 1;
}
else
{
*p = 0;
}
}
m_Interpolator->SetSegmentationVolume( m_Image );
std::cout << " (II) SetSegmentationVolume works (slicedim " << slicedim << ")" << std::endl;
return true;
}
mitk::USImage::USImage(mitk::Image::Pointer image) : mitk::Image()
{
this->Initialize(image);
this->SetVolume(image->GetData());
}
