Пример #1
0
void MyFrame::ExportMassMatrix(bool fullMatrix)
{
  if ((!fullMatrix) && (!precomputationState.fixedVerticesAvailable))
  {
    this->errMsg( _T("Error"),  
      _T("No fixed vertices have been specified.") );
    return;
  }

  wxFileDialog *dlg = new wxFileDialog(this, _T("Export mass matrix"), uiState.currentWorkingDirectory, _T(""), _T("Mass Matrix Files(*.M)|*.M|All files(*.*)|*.*"), wxFD_SAVE /*| wxHIDE_READONLY*/, wxDefaultPosition);
  if ( dlg->ShowModal() == wxID_OK )
  {
    wxString massMatrixFilename( dlg->GetPath() );
    SaveCurrentWorkingDirectory(massMatrixFilename);
    if( !massMatrixFilename.empty() )
    {
      // create mass matrix

      SparseMatrix * massMatrix;
      GenerateMassMatrix::computeMassMatrix(precomputationState.simulationMesh, &massMatrix, true); 

      if (!fullMatrix)
      {
        // constrain the degrees of freedom
        int numConstrainedVertices = (int) (precomputationState.fixedVertices.size());
        int * constrainedDOFs = (int*) malloc (sizeof(int) * 3 * numConstrainedVertices);
        int i = 0;
        for(set<int> :: iterator iter = precomputationState.fixedVertices.begin(); 
          iter != precomputationState.fixedVertices.end(); iter++)
        {
          constrainedDOFs[3*i+0] = 3 * (*iter) + 1;
          constrainedDOFs[3*i+1] = 3 * (*iter) + 2;
          constrainedDOFs[3*i+2] = 3 * (*iter) + 3;
          i++;
        }

        int oneIndexed = 1;
        massMatrix->RemoveRowsColumns(
          3 * numConstrainedVertices, constrainedDOFs, oneIndexed);
        free(constrainedDOFs);
      }

      const char * filename = massMatrixFilename.mb_str();
      int code = massMatrix->Save((char*)filename);
      delete(massMatrix);
      if (code != 0)
      {
        this->errMsg( _T("Saving error"),  
          _T("Unable to save mass matrix to ") + massMatrixFilename );
        dlg->Destroy();
        return;
      }
    }
  }

  dlg->Destroy();
}
Пример #2
0
void MyFrame::ExportStiffnessMatrix(bool fullMatrix)
{
  if ((!fullMatrix) && (!precomputationState.fixedVerticesAvailable))
  {
    this->errMsg( _T("Error"),  
      _T("No fixed vertices have been specified.") );
    return;
  }

  wxFileDialog *dlg = new wxFileDialog(this, _T("Export stiffness matrix"), uiState.currentWorkingDirectory, _T(""), _T("Stiffness Matrix Files(*.K)|*.K|All files(*.*)|*.*"), wxFD_SAVE /*| wxHIDE_READONLY*/, wxDefaultPosition);
  if ( dlg->ShowModal() == wxID_OK )
  {
    wxString stiffnessMatrixFilename( dlg->GetPath() );
    SaveCurrentWorkingDirectory(stiffnessMatrixFilename);
    if( !stiffnessMatrixFilename.empty() )
    {
      // create stiffness matrix
      StVKElementABCD * precomputedIntegrals = StVKElementABCDLoader::load(precomputationState.simulationMesh);
      StVKInternalForces * internalForces = 
        new StVKInternalForces(precomputationState.simulationMesh, precomputedIntegrals);

      SparseMatrix * stiffnessMatrix;
      StVKStiffnessMatrix * stiffnessMatrixClass = new StVKStiffnessMatrix(internalForces);
      stiffnessMatrixClass->GetStiffnessMatrixTopology(&stiffnessMatrix);
      double * zero = (double*) calloc(3 * precomputationState.simulationMesh->getNumVertices(), sizeof(double));
      stiffnessMatrixClass->ComputeStiffnessMatrix(zero, stiffnessMatrix);

      free(zero);
      delete(precomputedIntegrals);
      delete(stiffnessMatrixClass);
      delete(internalForces);

      if (!fullMatrix)
      {
        // constrain the degrees of freedom
        int numConstrainedVertices = (int) (precomputationState.fixedVertices.size());
        int * constrainedDOFs = (int*) malloc (sizeof(int) * 3 * numConstrainedVertices);
        int i = 0;
        for(set<int> :: iterator iter = precomputationState.fixedVertices.begin(); 
          iter != precomputationState.fixedVertices.end(); iter++)
        {
          constrainedDOFs[3*i+0] = 3 * (*iter) + 1;
          constrainedDOFs[3*i+1] = 3 * (*iter) + 2;
          constrainedDOFs[3*i+2] = 3 * (*iter) + 3;
          i++;
        }

        int oneIndexed = 1;
        stiffnessMatrix->RemoveRowsColumns(
          3 * numConstrainedVertices, constrainedDOFs, oneIndexed);
        free(constrainedDOFs);
      }

      const char * filename = stiffnessMatrixFilename.mb_str();
      int code = stiffnessMatrix->Save((char*)filename);

      delete(stiffnessMatrix);

      if (code != 0)
      {
        this->errMsg( _T("Saving error"),  
          _T("Unable to save stiffness matrix to ") + stiffnessMatrixFilename );
        dlg->Destroy();
        return;
      }
    }
  }

  dlg->Destroy();
}