vtkGraphics.hh

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#ifndef VtkGraphics_HH_
#define VtkGraphics_HH_
#include "basics.hh"
#include "denseMatrixGraphics.hh"
#include "basis.hh"
 
namespace graphics {
 
  class VtkGraphics: public OutputBase, public DenseMatrixGraphics {
  public:
    VtkGraphics();
 
    template<class F, class G>
    VtkGraphics(const concepts::Space<G>& spc, const std::string filename,
        const concepts::Vector<F>& sol,
        const concepts::ElementFunction<F, G>* fun = 0);
 
    template<class F, class G>
    VtkGraphics(const concepts::Space<G>& spc, const std::string filename,
        const concepts::ElementFormula<F, G>& frm);
 
    template<class G>
    VtkGraphics(const concepts::Space<G>& spc, const std::string filename);
 
    VtkGraphics(concepts::Mesh& msh, const std::string filename,
        const uint points = 5);
 
    template<class G, class F>
    void addSolution(const concepts::Space<G>& spc, const std::string name,
        const concepts::Vector<F>& sol,
        const concepts::ElementFunction<F, G>* fun = 0) {
 
      concepts::RCP<concepts::ElementMatrix<F> > function = this->getSolution(
          spc, sol, fun);
 
      //store matrix
      std::ostringstream stream;
      writeValues_(stream, function, name);
      *ofs_ << stream.str();
    }
    ;
 
    template<class F, class G>
    void addFunction(const concepts::Space<G>& spc, const std::string name,
        const concepts::ElementFormula<F, G>& frm) {
 
      concepts::RCP<concepts::ElementMatrix<typename concepts::Datatype<F>::type> > function = this->getFunction(
          spc, frm);
      //store matrix
      std::ostringstream stream;
 
      writeValues_(stream, function, name);
      *ofs_ << stream.str();
    }
 
    virtual ~VtkGraphics();
 
  private:
 
    template<class G, class F>
    void storeData_(bool data, std::string filename,
        DenseMatrixCollection<G>& dense_ptr_,
        concepts::RCP<concepts::ElementMatrix<F> > functionValue =
            concepts::RCP<concepts::ElementMatrix<F> >(0));
 
    template<class G>
    void writeHead_(std::string&, std::ostringstream& stream,
        DenseMatrixCollection<G>& dense_ptr_);
    template<class G, class F>
 
    void writePoints_(std::ostringstream& stream,
        DenseMatrixCollection<G>& dense_ptr_,
        concepts::RCP<concepts::ElementMatrix<F> > functionValue =
            concepts::RCP<concepts::ElementMatrix<F> >(0));
 
    template<class G>
    void writeMesh_(std::ostringstream& stream,
        DenseMatrixCollection<G>& dense_ptr_);
 
    template<class G>
    void writeEdgeMesh_(std::ostringstream& stream,
        DenseMatrixCollection<G>& dense_ptr_);
 
    template<class F>
    void writeValues_(std::ostringstream& stream,
        concepts::RCP<concepts::ElementMatrix<F> > functionValue = 0,
        const std::string name = "solution");
 
    template<class G>
    void writeWeightsAndAttr_(std::ostringstream& stream,
        DenseMatrixCollection<G>& dense_ptr_);
 
    template<class G>
    void cellType_(std::ostringstream& stream,
        DenseMatrixCollection<G>& dense_ptr_);
 
    std::string vtkEnding_(const std::string& filename) {
      uint size = filename.size();
      if (size < 4 || std::string(filename, size - 4, 4) != ".vtk")
        return (filename + ".vtk");
      return filename;
    }
 
    // Boolean for destructor
    uint data_;
 
    // dimension of the output: 1 if output is solution | dim_ if output is gradient
    uint outputDimension_;
 
  };
 
  template<class F, class G>
  VtkGraphics::VtkGraphics(const concepts::Space<G>& spc,
      const std::string filename, const concepts::Vector<F>& sol,
      const concepts::ElementFunction<F, G>* fun) :
      OutputBase(vtkEnding_(filename)) {
 
    DenseMatrixCollection<G> dmc = this->getSpace(spc);
    concepts::RCP<concepts::ElementMatrix<F> > functionValues =
        this->getSolution(spc, sol, fun);
 
    storeData_(true, filename, dmc, functionValues);
  }
 
  template<class F, class G>
  VtkGraphics::VtkGraphics(const concepts::Space<G>& spc,
      const std::string filename, const concepts::ElementFormula<F, G>& frm) :
      OutputBase(vtkEnding_(filename)) {
 
    DenseMatrixCollection<G> dmc = this->getSpace(spc);
    concepts::RCP<concepts::ElementMatrix<typename concepts::Datatype<F>::type> > functionValues =
        this->getFunction(spc, frm);
 
    storeData_(true, filename, dmc, functionValues);
  }
 
  template<class G>
  VtkGraphics::VtkGraphics(const concepts::Space<G>& spc,
      const std::string filename) :
      OutputBase(vtkEnding_(filename)) {
 
    outputDimension_ = 0;
    DenseMatrixCollection<G> dmc = this->getSpace(spc);
    storeData_<G, concepts::Real>(true, filename, dmc);
 
  }
 
  //Save the matrices that hold informations
  template<class G, class F>
  void VtkGraphics::storeData_(bool data, std::string filename,
      DenseMatrixCollection<G>& dense_ptr_,
      concepts::RCP<concepts::ElementMatrix<F> > functionValue) {
 
    std::ostringstream stream;
 
    //write head of vtk file
    writeHead_(filename, stream, dense_ptr_);
 
    //write the figure-points in the vtk file
    writePoints_(stream, dense_ptr_, functionValue);
 
    //writes the mesh in the vtk file
    //(i.e. the quads/hexahedra that builds the mesh)
    writeMesh_(stream, dense_ptr_);
    
    //if our mesh consits of hexahedra we have to specify the cell type
    if ((dense_ptr_.find("z") != dense_ptr_.end()) && (dense_ptr_["msh"]->m() >= 8))
      cellType_(stream, dense_ptr_);
 
    //writes data in the vtk file. The value/gradient/laplace of the solution,
    //the integration weights of the integration rule and attributes
    if (data) {
      writeWeightsAndAttr_(stream, dense_ptr_);
      if (functionValue)
        writeValues_(stream, functionValue);
    }
 
    //store the written data in ofs
    *ofs_ << stream.str();
  }
 
  template<class G>
  void VtkGraphics::writeMesh_(std::ostringstream& stream,
      DenseMatrixCollection<G>& dense_ptr_) {
 
    //write lines in case of line graphics
    if (dense_ptr_["msh"]->m() < 4) {
      stream << "LINES" << " " << dense_ptr_["msh"]->n() << " "
          << dense_ptr_["msh"]->n() * 3 << "\n";
 
      for (uint i = 0; i < dense_ptr_["msh"]->n(); ++i)
        stream << "2 " << dense_ptr_["msh"]->operator()(0, i) - 1 << " "
            << dense_ptr_["msh"]->operator()(1, i) - 1 << '\n';
    }
    
    //write polygons in case of Quad2D and Quad3D
    else if ((((dense_ptr_.find("z") == dense_ptr_.end())
        && (dense_ptr_.find("y") != dense_ptr_.end()))
       )||
       ((dense_ptr_.find("z") != dense_ptr_.end())
        && (dense_ptr_["msh"]->m() < 8))) 
    {
      stream << "POLYGONS" << " " << dense_ptr_["msh"]->n() << " "
          << dense_ptr_["msh"]->n() * 5 << "\n";
 
      for (uint i = 0; i < dense_ptr_["msh"]->n(); ++i)
        stream << "4 " << dense_ptr_["msh"]->operator()(0, i) - 1 << " "
            << dense_ptr_["msh"]->operator()(1, i) - 1 << " "
            << dense_ptr_["msh"]->operator()(2, i) - 1 << " "
            << dense_ptr_["msh"]->operator()(3, i) - 1 << '\n';
    }
 
    //write cells (of cell type 12) in case of hexahedra
    else if (dense_ptr_.find("z") != dense_ptr_.end()) {
      stream << "CELLS" << " " << dense_ptr_["msh"]->n() << " "
          << dense_ptr_["msh"]->n() * 9 << "\n";
      for (uint i = 0; i < dense_ptr_["msh"]->n(); ++i)
        stream << "8 " << dense_ptr_["msh"]->operator()(0, i) - 1 << " "
            << dense_ptr_["msh"]->operator()(1, i) - 1 << " "
            << dense_ptr_["msh"]->operator()(2, i) - 1 << " "
            << dense_ptr_["msh"]->operator()(3, i) - 1 << " "
            << dense_ptr_["msh"]->operator()(4, i) - 1 << " "
            << dense_ptr_["msh"]->operator()(5, i) - 1 << " "
            << dense_ptr_["msh"]->operator()(6, i) - 1 << " "
            << dense_ptr_["msh"]->operator()(7, i) - 1 << '\n';
    }
  }
 
  template<class G>
  void VtkGraphics::writeEdgeMesh_(std::ostringstream& stream,
      DenseMatrixCollection<G>& dense_ptr_) {
    stream << "LINES" << " " << dense_ptr_["edgemsh"]->n() << " "
        << dense_ptr_["edgemsh"]->n() * 3 << "\n";
 
    for (uint i = 0; i < dense_ptr_["edgemsh"]->n(); ++i)
      stream << "2 " << dense_ptr_["edgemsh"]->operator()(0, i) - 1 << " "
          << dense_ptr_["edgemsh"]->operator()(1, i) - 1 << "\n";
  }
 
  template<class G>
  void VtkGraphics::writeWeightsAndAttr_(std::ostringstream& stream,
      DenseMatrixCollection<G>& dense_ptr_) {
 
    //Adds the integration weights and the pointAttributes as Point_Data
    stream << "POINT_DATA " << dense_ptr_["w"]->n() << "\n";
    stream << "SCALARS weights FLOAT\n";
    stream << "LOOKUP_TABLE default\n";
    for (uint i = 0; i < dense_ptr_["w"]->n(); ++i)
      stream << dense_ptr_["w"]->operator()(0, i) << "\n";
 
    stream << "SCALARS pointAttributes FLOAT\n";
    stream << "LOOKUP_TABLE default\n";
    for (uint i = 0; i < dense_ptr_["pattr"]->n(); ++i)
      stream << dense_ptr_["pattr"]->operator()(0, i) << "\n";
  }
 
  template<class G>
  void VtkGraphics::cellType_(std::ostringstream& stream,
      DenseMatrixCollection<G>& dense_ptr_) {
 
    //In Vtk files the Cell Type no. 12 stands for hexahedra
    stream << "CELL_TYPES " << dense_ptr_["msh"]->n() << "\n";
    for (uint i = 0; i < dense_ptr_["msh"]->n(); ++i)
      stream << 12 << "\n";
 
  }
 
  template<class G, class F>
  void VtkGraphics::writePoints_(std::ostringstream& stream,
      DenseMatrixCollection<G>& dense_ptr_,
      concepts::RCP<concepts::ElementMatrix<F> > functionValue) {
 
    stream << "POINTS " << dense_ptr_["x"]->n() << " float\n";
    for (uint i = 0; i < dense_ptr_["x"]->n(); ++i) {
      stream << dense_ptr_["x"]->operator()(0, i) << " "
          << dense_ptr_["y"]->operator()(0, i) << " ";
      //in case of two dimensions add 0 as third coordinate, the z- value else
      if (dense_ptr_.find("z") == dense_ptr_.end())
        stream << 0 << "\n";
      else
        stream << dense_ptr_["z"]->operator()(0, i) << "\n";
    }
  }
 
  template<class G>
  void VtkGraphics::writeHead_(std::string& filename,
      std::ostringstream& stream, DenseMatrixCollection<G>& dense_ptr_) {
    stream << "# vtk DataFile Version 2.0\n";
    stream << filename;
    stream << "\nASCII\n";
 
    //write dataset for line graphics, Quad2D and Quad3D
    if (dense_ptr_["msh"]->m() < 8)
      stream << "DATASET POLYDATA\n";
 
    //write dataset for hexahedra
    else
      stream << "DATASET UNSTRUCTURED_GRID\n";
  }
 
} // namespace graphics
 
#endif /* VtkGraphics_HH_ */