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//M*/
#include "precomp.hpp"
namespace cv { namespace viz
{
vtkStandardNewMacro(vtkCloudMatSink);
}}
cv::viz::vtkCloudMatSink::vtkCloudMatSink() {}
cv::viz::vtkCloudMatSink::~vtkCloudMatSink() {}
void cv::viz::vtkCloudMatSink::SetOutput(OutputArray _cloud, OutputArray _colors, OutputArray _normals, OutputArray _tcoords)
{
cloud = _cloud;
colors = _colors;
normals = _normals;
tcoords = _tcoords;
}
void cv::viz::vtkCloudMatSink::WriteData()
{
vtkPolyData *input = this->GetInput();
if (!input)
return;
vtkSmartPointer<vtkPoints> points_Data = input->GetPoints();
if (cloud.needed() && points_Data)
{
int vtktype = points_Data->GetDataType();
CV_Assert(vtktype == VTK_FLOAT || vtktype == VTK_DOUBLE);
cloud.create(1, points_Data->GetNumberOfPoints(), vtktype == VTK_FLOAT ? CV_32FC3 : CV_64FC3);
Vec3d *ddata = cloud.getMat().ptr<Vec3d>();
Vec3f *fdata = cloud.getMat().ptr<Vec3f>();
if (cloud.depth() == CV_32F)
for(size_t i = 0; i < cloud.total(); ++i)
*fdata++ = Vec3d(points_Data->GetPoint((vtkIdType)i));
if (cloud.depth() == CV_64F)
for(size_t i = 0; i < cloud.total(); ++i)
*ddata++ = Vec3d(points_Data->GetPoint((vtkIdType)i));
}
else
cloud.release();
vtkSmartPointer<vtkDataArray> scalars_data = input->GetPointData() ? input->GetPointData()->GetScalars() : 0;
if (colors.needed() && scalars_data)
{
int channels = scalars_data->GetNumberOfComponents();
int vtktype = scalars_data->GetDataType();
CV_Assert((channels == 3 || channels == 4) && "Only 3- or 4-channel color data support is implemented");
CV_Assert(cloud.total() == (size_t)scalars_data->GetNumberOfTuples());
Mat buffer(cloud.size(), CV_64FC(channels));
Vec3d *cptr = buffer.ptr<Vec3d>();
for(size_t i = 0; i < buffer.total(); ++i)
*cptr++ = Vec3d(scalars_data->GetTuple((vtkIdType)i));
buffer.convertTo(colors, CV_8U, vtktype == VTK_FLOAT || VTK_FLOAT == VTK_DOUBLE ? 255.0 : 1.0);
}
else
colors.release();
vtkSmartPointer<vtkDataArray> normals_data = input->GetPointData() ? input->GetPointData()->GetNormals() : 0;
if (normals.needed() && normals_data)
{
int channels = normals_data->GetNumberOfComponents();
int vtktype = normals_data->GetDataType();
CV_Assert((vtktype == VTK_FLOAT || VTK_FLOAT == VTK_DOUBLE) && (channels == 3 || channels == 4));
CV_Assert(cloud.total() == (size_t)normals_data->GetNumberOfTuples());
Mat buffer(cloud.size(), CV_64FC(channels));
Vec3d *cptr = buffer.ptr<Vec3d>();
for(size_t i = 0; i < buffer.total(); ++i)
*cptr++ = Vec3d(normals_data->GetTuple((vtkIdType)i));
buffer.convertTo(normals, vtktype == VTK_FLOAT ? CV_32F : CV_64F);
}
else
normals.release();
vtkSmartPointer<vtkDataArray> coords_data = input->GetPointData() ? input->GetPointData()->GetTCoords() : 0;
if (tcoords.needed() && coords_data)
{
int vtktype = coords_data->GetDataType();
CV_Assert(vtktype == VTK_FLOAT || VTK_FLOAT == VTK_DOUBLE);
CV_Assert(cloud.total() == (size_t)coords_data->GetNumberOfTuples());
Mat buffer(cloud.size(), CV_64FC2);
Vec2d *cptr = buffer.ptr<Vec2d>();
for(size_t i = 0; i < buffer.total(); ++i)
*cptr++ = Vec2d(coords_data->GetTuple((vtkIdType)i));
buffer.convertTo(tcoords, vtktype == VTK_FLOAT ? CV_32F : CV_64F);
}
else
tcoords.release();
}
void cv::viz::vtkCloudMatSink::PrintSelf(ostream& os, vtkIndent indent)
{
Superclass::PrintSelf(os, indent);
os << indent << "Cloud: " << cloud.needed() << "\n";
os << indent << "Colors: " << colors.needed() << "\n";
os << indent << "Normals: " << normals.needed() << "\n";
}
int cv::viz::vtkCloudMatSink::FillInputPortInformation(int, vtkInformation *info)
{
info->Set(vtkAlgorithm::INPUT_REQUIRED_DATA_TYPE(), "vtkPolyData");
return 1;
}
vtkPolyData* cv::viz::vtkCloudMatSink::GetInput()
{
return vtkPolyData::SafeDownCast(this->Superclass::GetInput());
}
vtkPolyData* cv::viz::vtkCloudMatSink::GetInput(int port)
{
return vtkPolyData::SafeDownCast(this->Superclass::GetInput(port));
}