ElementFileWriter.cc 11.1 KB
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#include "ElementFileWriter.h"
#include "BasisFunction.h"
#include "Parameters.h"
#include "Traverse.h"
#include "AdaptInfo.h"

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namespace AMDiS {

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  ElementFileWriter::ElementFileWriter(std::string name_, 
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				       const FiniteElemSpace *feSpace_,
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				       std::map<int, double> &mapvec)
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    : name(name_),
      tecplotExt(".plt"),
      amdisMeshDatExt(".elem.mesh"),
      vtkExt(".vtu"),
      writeTecPlotFormat(0),
      writeAMDiSFormat(0),
      writeVtkFormat(0),
      appendIndex(0),
      indexLength(5),
      indexDecimals(3),
      tsModulo(1),
      timestepNumber(-1),
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      mesh(feSpace_->getMesh()),
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      feSpace(feSpace_),
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      vec(mapvec)
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  {
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    if (name != "") {
      GET_PARAMETER(0, name + "->output->filename", &filename);
      GET_PARAMETER(0, name + "->output->TecPlot format", "%d", &writeTecPlotFormat);
      GET_PARAMETER(0, name + "->output->TecPlot ext", &tecplotExt);
      GET_PARAMETER(0, name + "->output->AMDiS format", "%d", &writeAMDiSFormat);
      GET_PARAMETER(0, name + "->output->AMDiS mesh-dat ext", &amdisMeshDatExt);
      GET_PARAMETER(0, name + "->output->ParaView format", "%d", &writeVtkFormat);
      GET_PARAMETER(0, name + "->output->append index", "%d", &appendIndex);
      GET_PARAMETER(0, name + "->output->index length", "%d", &indexLength);
      GET_PARAMETER(0, name + "->output->index decimals", "%d", &indexDecimals);
      GET_PARAMETER(0, name + "->output->write every i-th timestep", "%d", &tsModulo);
    }
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  }
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  void ElementFileWriter::writeFiles(AdaptInfo *adaptInfo, bool force,
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				     int level, Flag traverseFlag, 
				     bool (*writeElem)(ElInfo*))
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  {
    FUNCNAME("ElementFileWriter::writeFiles()");
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    timestepNumber++;
    timestepNumber %= tsModulo;
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    if (timestepNumber != 0 && !force) 
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      return;
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    std::string fn = filename;
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    if (appendIndex) {
      TEST_EXIT(indexLength <= 99)("index lenght > 99\n");
      TEST_EXIT(indexDecimals <= 97)("index decimals > 97\n");
      TEST_EXIT(indexDecimals < indexLength)("index length <= index decimals\n");
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      char formatStr[9];
      sprintf(formatStr, "%%0%d.%df", indexLength, indexDecimals);
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      char timeStr[20];
      sprintf(timeStr, formatStr, adaptInfo ? adaptInfo->getTime() : 0.0);
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      fn += timeStr;
    }
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    if (writeTecPlotFormat) {
      TEST_EXIT(mesh)("no mesh\n");

      writeTecPlotValues(const_cast<char*>((fn + tecplotExt).c_str()));
      MSG("TecPlot file written to %s\n", (fn + tecplotExt).c_str());
    }
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    if (writeAMDiSFormat) {
      TEST_EXIT(mesh)("no mesh\n");
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      writeMeshDatValues(const_cast<char*>( (fn + amdisMeshDatExt).c_str()),
			 adaptInfo ? adaptInfo->getTime() : 0.0);
      MSG("MeshDat file written to %s\n", (fn + amdisMeshDatExt).c_str());
    }
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    if (writeVtkFormat) {
      TEST_EXIT(mesh)("no mesh\n");
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      writeVtkValues(const_cast<char*>( (fn + vtkExt).c_str()));
      MSG("VTK file written to %s\n", (fn + vtkExt).c_str());		     
    }
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  }

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  void ElementFileWriter::writeFile(std::map<int, double> &vec,
				    const FiniteElemSpace *feSpace,
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				    std::string filename)
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  {
    ElementFileWriter efw("", feSpace, vec);
    efw.writeVtkValues(filename);
  }
  

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  void ElementFileWriter::writeTecPlotValues(std::string filename)
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  {
    FUNCNAME("ElementFileWriter::writeTecPlotValues()");
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    std::ofstream fout(filename.c_str());
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    TEST_EXIT(fout)("Could not open file %s !\n", filename.c_str());
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    fout.setf(std::ios::scientific,std::ios::floatfield);
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    int dim = mesh->getDim();
    double val;
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    // === Write header. ===
    fout << "TITLE = \"" << name.c_str() << "\"\n";
    fout << "VARIABLES = ";
    switch (dim) {
    case 2: fout << "\"x\",\"y\"";
      break;
    case 3: fout << "\"x\",\"y\",\"z\"";
      break;
    default: ERROR_EXIT("illegal dimension !\n");
      break;
    }
    fout << ",\"" << name.c_str() << "\"\n";
    fout << "ZONE T=\"" << name.c_str() << "\""
	 << ", N=" << 3*mesh->getNumberOfLeaves() 
	 << ", E=" << mesh->getNumberOfLeaves() 
	 << ", F=FEPOINT, ";
    switch (dim) {
    case 2: fout << "ET=TRIANGLE\n\n";
      break;
    case 3: fout << "ET=TETRAHEDRON\n\n";
      break;
    default: ERROR_EXIT("illegal dimension !\n");
      break;
    }


    // === Write vertex coordinates and values (for each element !). ===
    TraverseStack stack;
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    ElInfo *elInfo = stack.traverseFirst(mesh,
					 -1, 
					 Mesh::CALL_LEAF_EL | 
					 Mesh::FILL_COORDS);

    while (elInfo) {
      // Get element value.
      val = vec[elInfo->getElement()->getIndex()];
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      // Write coordinates of all element vertices and element value.
      for (int i = 0; i <= dim; ++i) {
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      	for (int j = 0; j < dim; ++j)
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	  fout << elInfo->getCoord(i)[j] << " ";
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	fout << val << "\n";
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      }
    
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      elInfo = stack.traverseNext(elInfo);
    }  // end of: mesh traverse
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    // === Write elements. ===
    int numLeaves = mesh->getNumberOfLeaves();
    int vertCntr = 0;
    fout << "\n";
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    for (int i = 0; i<numLeaves; ++i) {
      for (int j = 0; j<=dim; ++j) {
	++vertCntr;
	fout << vertCntr << " ";
      }
      fout << "\n";
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    }
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    fout.close();
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  }

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  void ElementFileWriter::writeMeshDatValues(std::string filename, double time)
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  {
    FUNCNAME("ElementFileWriter::writeMeshDatValues()");
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    std::ofstream fout(filename.c_str());
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    TEST_EXIT(fout)("Could not open file %s !\n", filename.c_str());
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    int dim = mesh->getDim();
    double val;
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    // === Write header. ===
    fout << "mesh name: " << mesh->getName().c_str() << "\n\n";
    fout << "time: " << time << "\n\n"; 
    fout << "DIM: " << dim << "\n";
    fout << "DIM_OF_WORLD: " << Global::getGeo(WORLD) << "\n\n";
    fout << "number of vertices: " << (dim+1)*mesh->getNumberOfLeaves() << "\n";
    fout << "number of elements: " << mesh->getNumberOfLeaves() << "\n\n";
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    // === Write vertex coordinates (every vertex for every element). ===
    fout << "vertex coordinates:\n";
    TraverseStack stack;
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    ElInfo *elInfo = stack.traverseFirst(mesh,
					 -1, 
					 Mesh::CALL_LEAF_EL | 
					 Mesh::FILL_COORDS);
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    while (elInfo) {
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      // Write coordinates of all element vertices.
      for (int i = 0; i <= dim; ++i) {     
	for (int j = 0; j < dim; ++j) {
	  fout << elInfo->getCoord(i)[j] << " ";
	}
	fout << "\n";
      }
    
      elInfo = stack.traverseNext(elInfo);
    }
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    // === Write elements. ===
    int numLeaves = mesh->getNumberOfLeaves();
    int vertCntr = 0;
    fout << "\n";
    fout << "element vertices:\n";
    for (int i = 0; i < numLeaves; ++i) {
      for (int j = 0; j <= dim; ++j) {
	fout << vertCntr << " ";
	++vertCntr;
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      }
      fout << "\n";
    }


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    // === Write values. ===
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    // Write values header.
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    fout << "\n";
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    fout << "number of values: 1\n\n";
    fout << "value description: " << name.c_str() << "\n";
    fout << "number of interpolation points: 0" << "\n";
    fout << "type: scalar" << "\n";
    fout << "interpolation type: lagrange" << "\n";
    fout << "interpolation degree: 1" << "\n";
    fout << "end of description: " << name.c_str() << "\n\n";

    // Write values.
    fout << "vertex values: " << name.c_str() << "\n";

    fout.setf(std::ios::scientific,std::ios::floatfield);

    elInfo = stack.traverseFirst(mesh,
				 -1, 
				 Mesh::CALL_LEAF_EL);

    while (elInfo) {
      // Get element value.
      val = vec[elInfo->getElement()->getIndex()];
    
      // Write value for each vertex of each element.
      for (int i = 0; i <= dim; ++i) {      
	fout << val << "\n";
      }
    
      elInfo = stack.traverseNext(elInfo);
    }  // end of: mesh traverse
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    // Write values trailor.
    fout << "\n";
    fout << "interpolation values: " << name.c_str() << "\n\n\n";
    fout << "element interpolation points: " << name.c_str() << "\n";
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    fout.close();
  }
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  void ElementFileWriter::writeVtkValues(std::string filename)
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  {
    FUNCNAME("ElementFileWriter::writeVtkValues()");
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    std::ofstream fout(filename.c_str());
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    TEST_EXIT(fout)("Could not open file %s !\n", filename.c_str());
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    int dim = mesh->getDim();
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    int dimOfWorld = Global::getGeo(WORLD);
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    int vertices = mesh->getGeo(VERTEX);
    int nElements = mesh->getNumberOfLeaves();
    double val;

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    fout << "<?xml version=\"1.0\"?>" << std::endl;
    fout << "<VTKFile type=\"UnstructuredGrid\" version=\"0.1\" byte_order=\"LittleEndian\">" << std::endl;
    fout << "  <UnstructuredGrid>" << std::endl;
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    fout << "    <Piece NumberOfPoints=\"" << (dim + 1) * nElements
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	 << "\" NumberOfCells=\"" <<  nElements << "\">" << std::endl;
    fout << "      <Points>" << std::endl;
    fout << "        <DataArray type=\"Float32\" NumberOfComponents=\"3\" format=\"ascii\">" << std::endl;
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    // === Write vertex coordinates (every vertex for every element). ===
    TraverseStack stack;

    ElInfo *elInfo = stack.traverseFirst(mesh,
					 -1, 
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					 Mesh::CALL_LEAF_EL | Mesh::FILL_COORDS);
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    while (elInfo) {
      // Write coordinates of all element vertices.
      for (int i = 0; i <= dim; i++) {     
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	for (int j = 0; j < dimOfWorld; j++) 
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	  fout << elInfo->getCoord(i)[j] << " ";
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	for (int j = dimOfWorld; j < 3; j++) 
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	  fout << "0.0";
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	fout << "\n";
      }
   
      elInfo = stack.traverseNext(elInfo);
    }
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    fout << "        </DataArray>" << std::endl;
    fout << "      </Points>" << std::endl;
    fout << "      <Cells>" << std::endl;
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    fout << "        <DataArray type=\"Int32\" Name=\"offsets\">" << std::endl;
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    for (int i = 0; i < nElements; i++) 
      fout << " " << (i + 1) * vertices << std::endl;    
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    fout << "        </DataArray>" << std::endl;
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    fout << "        <DataArray type=\"UInt8\" Name=\"types\">" << std::endl;
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    for (int i = 0; i < nElements; i++) {
      switch (vertices) {
      case 2:
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	fout << " 3" << std::endl;
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	break;
      case 3: 
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	fout << " 5" << std::endl;
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	break;
      case 4:
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	fout << " 10" << std::endl;
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	break;		    
      default:
	break;
      }	   
    }
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    fout << "        </DataArray>" << std::endl;
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    fout << "        <DataArray type=\"Int32\" Name=\"connectivity\">" << std::endl;
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    int vertCntr = 0;
    for (int i = 0; i < nElements; ++i) {
      for (int j = 0; j <= dim; ++j) {
	fout << vertCntr << " ";
	++vertCntr;
      }
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      fout << std::endl;
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    }
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    fout << "        </DataArray>" << std::endl;
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    fout << "      </Cells>" << std::endl;
    fout << "      <PointData>" << std::endl;
    fout << "        <DataArray type=\"Float32\" Name=\"value\" format=\"ascii\">" << std::endl;
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    fout.setf(std::ios::scientific,std::ios::floatfield);

    elInfo = stack.traverseFirst(mesh,
				 -1, 
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				 Mesh::CALL_LEAF_EL | Mesh::FILL_COORDS);
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    int vc = 0;
    while (elInfo) {
      // Get element value.
      val = vec[elInfo->getElement()->getIndex()];
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      // Write value for each vertex of each element.
      for (int i = 0; i <= dim; i++) {      
	fout << (fabs(val) < 1e-40 ? 0.0 : val) << "\n";
      }
      vc++;
      elInfo = stack.traverseNext(elInfo);
    } 
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    fout << "        </DataArray>" << std::endl;
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    fout << "      </PointData>" << std::endl;
    fout << "    </Piece>" << std::endl;
    fout << "  </UnstructuredGrid>" << std::endl;
    fout << "</VTKFile>" << std::endl;
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    fout.close();
  }
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}