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C++ CConfig::GetRestart_AdjFileName方法代码示例

本文整理汇总了C++中CConfig::GetRestart_AdjFileName方法的典型用法代码示例。如果您正苦于以下问题:C++ CConfig::GetRestart_AdjFileName方法的具体用法?C++ CConfig::GetRestart_AdjFileName怎么用?C++ CConfig::GetRestart_AdjFileName使用的例子?那么, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在CConfig的用法示例。


在下文中一共展示了CConfig::GetRestart_AdjFileName方法的1个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的C++代码示例。

示例1: main


//.........这里部分代码省略.........
                grid_adaptation->GetAdjSolution(geometry, config);
                grid_adaptation->SetIndicator_Adj(geometry, config, 1);
                break;
            case GRAD_FLOW_ADJ:
                grid_adaptation->GetAdjSolution(geometry, config);
                grid_adaptation->SetIndicator_FlowAdj(geometry, config);
                break;
            case COMPUTABLE:
                grid_adaptation->GetAdjSolution(geometry, config);
                grid_adaptation->GetFlowResidual(geometry, config);
                grid_adaptation->SetIndicator_Computable(geometry, config);
                break;
            case REMAINING:
                cout << "Adaptation method not implemented."<< endl;
                cout << "Press any key to exit..." << endl;
                cin.get();
                exit(1);
                break;
            case ROBUST:
                grid_adaptation->GetFlowResidual(geometry, config);
                grid_adaptation->GetAdjResidual(geometry, config);
                grid_adaptation->SetIndicator_Robust(geometry, config);
                break;
            case COMPUTABLE_ROBUST:
                grid_adaptation->GetAdjSolution(geometry, config);
                grid_adaptation->GetLinResidual(geometry, config);
                grid_adaptation->SetIndicator_Computable_Robust(geometry, config);
                break;
            default :
                cout << "The adaptation is not defined" << endl;
        }
        
        /*--- Perform an homothetic adaptation of the grid ---*/
        CPhysicalGeometry *geo_adapt; geo_adapt = new CPhysicalGeometry;
        
        cout << "Homothetic grid adaptation" << endl;
        if (geometry->GetnDim() == 2) grid_adaptation->SetHomothetic_Adaptation2D(geometry, geo_adapt, config);
        if (geometry->GetnDim() == 3) grid_adaptation->SetHomothetic_Adaptation3D(geometry, geo_adapt, config);
    
        /*--- Smooth the numerical grid coordinates ---*/
        if (config->GetSmoothNumGrid()) {
            cout << "Preprocessing for doing the implicit smoothing." << endl;
            geo_adapt->SetEsuP(); geo_adapt->SetPsuP(); geo_adapt->SetEsuE();
            geo_adapt->SetBoundVolume(); geo_adapt->Check_Orientation(config);
            geo_adapt->SetEdges(); geo_adapt->SetVertex(config);
            cout << "Implicit smoothing of the numerical grid coordinates." << endl;
            geo_adapt->SetCoord_Smoothing(5, 1.5, config);
        }
        
        /*--- Original and adapted grid ---*/
    strcpy (file_name, "original_grid.plt");
    geometry->SetTecPlot(file_name);
    
        /*--- Write the adaptation sensor ---*/
        grid_adaptation->WriteAdaptSensor(geometry, file_name);
        
    strcpy (file_name, "adapted_grid.plt");
    geo_adapt->SetTecPlot(file_name);
    strcpy (file_name, "adapted_surface.plt");
    geo_adapt->SetBoundTecPlot(config,file_name);
        
        /*--- Write the new adapted grid, including the modified boundaries surfaces ---*/
        geo_adapt->SetMeshFile(config, config->GetMesh_Out_FileName());
    
    
        /*--- Write the restart file ---*/
        if ((config->GetKind_Adaptation() != SMOOTHING) && (config->GetKind_Adaptation() != FULL) &&
                (config->GetKind_Adaptation() != WAKE) && (config->GetKind_Adaptation() != TWOPHASE) &&
                (config->GetKind_Adaptation() != SUPERSONIC_SHOCK))
            grid_adaptation->SetRestart_FlowSolution(config, geo_adapt, config->GetRestart_FlowFileName());
        
        if ((config->GetKind_Adaptation() == GRAD_FLOW_ADJ) || (config->GetKind_Adaptation() == GRAD_ADJOINT)
                || (config->GetKind_Adaptation() == FULL_ADJOINT) || (config->GetKind_Adaptation() == ROBUST)
                || (config->GetKind_Adaptation() == COMPUTABLE) || (config->GetKind_Adaptation() == COMPUTABLE_ROBUST) ||
                (config->GetKind_Adaptation() == REMAINING))
            grid_adaptation->SetRestart_AdjSolution(config, geo_adapt, config->GetRestart_AdjFileName());
        
        if ((config->GetKind_Adaptation() == FULL_LINEAR) || (config->GetKind_Adaptation() == COMPUTABLE_ROBUST)) {
            grid_adaptation->SetRestart_LinSolution(config, geo_adapt, config->GetRestart_LinFileName());
        }
    }
    else {
    strcpy (file_name, "original_grid.plt");
    geometry->SetTecPlot(file_name);
        geometry->SetMeshFile (config, config->GetMesh_Out_FileName());
    }
  
#ifndef NO_MPI
#ifdef WINDOWS
    MPI_Finalize();
#else
    MPI::Finalize();
#endif
#endif
    
    /*--- End solver ---*/
    cout << endl <<"------------------------- Exit Success (SU2_MAC) ------------------------" << endl << endl;
  
    return EXIT_SUCCESS;
}
开发者ID:shyang5,项目名称:SU2,代码行数:101,代码来源:SU2_MAC.cpp


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