[1] | 1 | /*! \file Penta.h
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| 2 | * \brief: header file for penta object
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| 3 | */
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| 4 |
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| 5 | #ifndef _PENTA_H
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| 6 | #define _PENTA_H
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| 7 |
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| 8 | #include "./Object.h"
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| 9 | #include "./Element.h"
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| 10 | #include "./Matpar.h"
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[3383] | 11 | #include "./Numpar.h"
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[1] | 12 | #include "./Matice.h"
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| 13 | #include "./Node.h"
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[96] | 14 | #include "./Tria.h"
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[3383] | 15 | #include "./Hook.h"
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| 16 | #include "./ElementProperties.h"
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[246] | 17 | #include "./ParameterInputs.h"
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[1] | 18 |
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[3383] | 19 | class Numpar;
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| 20 | class Node;
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| 21 | class Matice;
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| 22 | class Matpar;
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| 23 | class ElementProperties;
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| 24 |
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[1] | 25 | class Penta: public Element{
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| 26 |
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| 27 | private:
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[3383] | 28 |
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[1] | 29 | int id;
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[3383] | 30 | Hook hnodes; //hook to 6 nodes
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| 31 | Hook hmatice; //hook to 1 matice
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| 32 | Hook hmatpar; //hook to 1 matpar
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| 33 | Hook hnumpar; //hook to 1 numpar
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[1] | 34 |
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[3383] | 35 | ElementProperties properties;
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[2333] | 36 |
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[1] | 37 | public:
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| 38 |
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[3383] | 39 | /*FUNCTION constructors, destructors {{{1*/
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[1] | 40 | Penta();
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[3383] | 41 | Penta(int penta_id,int* penta_node_ids, int penta_matice_id, int penta_matpar_id, int penta_numpar_id, ElementProperties* properties);
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[3389] | 42 | Penta(int penta_id,Hook* penta_hnodes, Hook* penta_hmatice, Hook* penta_hmatpar, Hook* penta_hnumpar, ElementProperties* penta_properties);
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[1] | 43 | ~Penta();
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[3383] | 44 | /*}}}*/
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| 45 | /*FUNCTION object management {{{1*/
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[3389] | 46 | void Configure(void* loads,void* nodes,void* materials,void* parameters);
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| 47 | Object* copy();
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[803] | 48 | void DeepEcho();
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[1] | 49 | void Demarshall(char** pmarshalled_dataset);
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[3389] | 50 | void Echo();
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[1] | 51 | int Enum();
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| 52 | int GetId();
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[3389] | 53 | char* GetName();
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| 54 | void Marshall(char** pmarshalled_dataset);
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| 55 | int MarshallSize();
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[1] | 56 | int MyRank();
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[3389] | 57 | void* SpawnTria(int g0, int g1, int g2);
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| 58 | void UpdateFromDakota(void* inputs);
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| 59 | void UpdateFromInputs(void* inputs);
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[3383] | 60 | /*}}}*/
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| 61 | /*FUNCTION element numerical routines {{{1*/
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[465] | 62 | void CreateKMatrix(Mat Kgg,void* inputs,int analysis_type,int sub_analysis_type);
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| 63 | void CreateKMatrixDiagnosticHoriz( Mat Kgg, void* inputs, int analysis_type,int sub_analysis_type);
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| 64 | void CreateKMatrixDiagnosticVert( Mat Kgg, void* inputs, int analysis_type,int sub_analysis_type);
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| 65 | void CreatePVector(Vec pg, void* inputs, int analysis_type,int sub_analysis_type);
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[96] | 66 | void GetDofList(int* doflist,int* pnumberofdofs);
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[301] | 67 | void GetDofList1(int* doflist);
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[246] | 68 | void* GetMatPar();
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[1] | 69 | int GetShelf();
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[246] | 70 | void GetNodes(void** nodes);
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[1] | 71 | int GetOnBed();
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[1185] | 72 | void Du(Vec du_g,void* inputs,int analysis_type,int sub_analysis_type);
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[1188] | 73 | void Gradj(Vec grad_g,void* inputs,int analysis_type,int sub_analysis_type,char* control_type);
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| 74 | void GradjDrag(Vec grad_g,void* inputs,int analysis_type,int sub_analysis_type);
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| 75 | void GradjB(Vec grad_g,void* inputs,int analysis_type,int sub_analysis_type);
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[3169] | 76 | double Misfit(void* inputs,int analysis_type,int sub_analysis_type);
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[3180] | 77 | double SurfaceArea(void* inputs,int analysis_type,int sub_analysis_type);
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[3169] | 78 | double CostFunction(void* inputs,int analysis_type,int sub_analysis_type);
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[1] | 79 |
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| 80 | void GetThicknessList(double* thickness_list);
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| 81 | void GetBedList(double* bed_list);
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| 82 |
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[2956] | 83 | void GetStrainRate(double* epsilon, double* velocity, double* xyz_list, double* gauss_coord);
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| 84 | void GetB(double* pB, double* xyz_list, double* gauss_coord);
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| 85 | void GetBPrime(double* B, double* xyz_list, double* gauss_coord);
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| 86 | void GetB_vert(double* B, double* xyz_list, double* gauss_coord);
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| 87 | void GetBPrime_vert(double* B, double* xyz_list, double* gauss_coord);
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| 88 | void GetJacobianDeterminant(double* Jdet, double* xyz_list,double* gauss_coord);
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| 89 | void GetNodalFunctionsDerivatives(double* dh1dh6,double* xyz_list, double* gauss_coord);
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| 90 | void GetJacobian(double* J, double* xyz_list,double* gauss_coord);
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| 91 | void GetNodalFunctionsDerivativesReference(double* dl1dl6,double* gauss_coord);
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| 92 | void GetJacobianInvert(double* Jinv, double* xyz_list,double* gauss_coord);
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[465] | 93 | void CreatePVectorDiagnosticHoriz( Vec pg, void* inputs,int analysis_type,int sub_analysis_type);
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| 94 | void CreatePVectorDiagnosticVert( Vec pg, void* inputs,int analysis_type,int sub_analysis_type);
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[2956] | 95 | void GetParameterValue(double* pvalue, double* v_list,double* gauss_coord);
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| 96 | void GetParameterDerivativeValue(double* p, double* p_list,double* xyz_list, double* gauss_coord);
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| 97 | void GetNodalFunctions(double* l1l6, double* gauss_coord);
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[848] | 98 | void FieldExtrude(Vec field,double* field_serial,char* field_name, int iscollapsed);
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[301] | 99 | void ComputePressure(Vec p_g);
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[465] | 100 | void CreateKMatrixSlopeCompute(Mat Kgg,void* vinputs,int analysis_type,int sub_analysis_type);
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| 101 | void CreatePVectorSlopeCompute( Vec pg, void* vinputs, int analysis_type,int sub_analysis_type);
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[607] | 102 | void CreateKMatrixPrognostic(Mat Kgg,void* vinputs,int analysis_type,int sub_analysis_type);
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| 103 | void CreatePVectorPrognostic( Vec pg, void* vinputs, int analysis_type,int sub_analysis_type);
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[2714] | 104 | void CreateKMatrixBalancedthickness(Mat Kgg,void* vinputs,int analysis_type,int sub_analysis_type);
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| 105 | void CreatePVectorBalancedthickness( Vec pg, void* vinputs, int analysis_type,int sub_analysis_type);
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[2722] | 106 | void CreateKMatrixBalancedvelocities(Mat Kgg,void* vinputs,int analysis_type,int sub_analysis_type);
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| 107 | void CreatePVectorBalancedvelocities( Vec pg, void* vinputs, int analysis_type,int sub_analysis_type);
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[1] | 108 |
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[465] | 109 | void CreateKMatrixDiagnosticStokes( Mat Kgg, void* vinputs, int analysis_type,int sub_analysis_type);
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| 110 | void CreatePVectorDiagnosticStokes( Vec pg, void* vinputs,int analysis_type,int sub_analysis_type);
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[394] | 111 | void ReduceMatrixStokes(double* Ke_reduced, double* Ke_temp);
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| 112 | void GetMatrixInvert(double* Ke_invert, double* Ke);
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| 113 | void SurfaceNormal(double* surface_normal, double xyz_list[3][3]);
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| 114 | void GetStrainRateStokes(double* epsilon, double* velocity, double* xyz_list, double* gauss_coord);
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| 115 | void GetBStokes(double* B, double* xyz_list, double* gauss_coord);
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| 116 | void GetBprimeStokes(double* B_prime, double* xyz_list, double* gauss_coord);
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| 117 | void GetLStokes(double* LStokes, double* gauss_coord_tria);
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| 118 | void GetLprimeStokes(double* LprimeStokes, double* xyz_list, double* gauss_coord_tria, double* gauss_coord);
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[2956] | 119 | void GetNodalFunctionsDerivativesStokes(double* dh1dh7,double* xyz_list, double* gauss_coord);
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| 120 | void GetNodalFunctionsDerivativesReferenceStokes(double* dl1dl7,double* gauss_coord);
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[394] | 121 | void ReduceVectorStokes(double* Pe_reduced, double* Ke_temp, double* Pe_temp);
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| 122 | void GetNodalFunctionsStokes(double* l1l7, double* gauss_coord);
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[483] | 123 | void CreateKMatrixThermal(Mat Kgg,void* inputs,int analysis_type,int sub_analysis_type);
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| 124 | void GetB_conduct(double* B_conduct, double* xyz_list, double* gauss_coord);
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| 125 | void GetB_advec(double* B_advec, double* xyz_list, double* gauss_coord);
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| 126 | void GetBprime_advec(double* Bprime_advec, double* xyz_list, double* gauss_coord);
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[1676] | 127 | void GetB_artdiff(double* B_artdiff, double* xyz_list, double* gauss_coord);
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[483] | 128 | void CreateKMatrixMelting(Mat Kgg,void* inputs,int analysis_type,int sub_analysis_type);
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| 129 | void CreatePVectorThermal( Vec pg, void* vinputs,int analysis_type,int sub_analysis_type);
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| 130 | void CreatePVectorMelting( Vec pg, void* vinputs,int analysis_type,int sub_analysis_type);
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| 131 | void GetPhi(double* phi, double* epsilon, double viscosity);
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[2112] | 132 | double MassFlux(double* segment,double* ug);
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[3383] | 133 | /*}}}*/
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[358] | 134 |
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[394] | 135 |
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[1] | 136 | };
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| 137 | #endif /* _PENTA_H */
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[96] | 138 |
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| 139 |
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