source: issm/trunk/src/c/objects/Elements/Element.h@ 10143

Last change on this file since 10143 was 10143, checked in by Mathieu Morlighem, 13 years ago

moved IsOnShelf to IsFloating for consistency
File size: 5.5 KB
Line 
1/*!\file: Element.h
2 * \brief abstract class for Element object
3 * This class is a place holder for the Tria and the Penta elements.
4 * It is derived from Element, so DataSets can contain them.
5 */
6
7
8#ifndef _ELEMENT_H_
9#define _ELEMENT_H_
10
11/*Headers:*/
12/*{{{1*/
13#include "../Object.h"
14
15class DataSet;
16class Parameters;
17class Patch;
18
19#include "../../toolkits/toolkits.h"
20/*}}}*/
21
22class Element: public Object,public Update{
23
24 public:
25
26 virtual ~Element(){};
27
28 virtual void Configure(Elements* elements,Loads* loads,DataSet* nodes,Materials* materials,Parameters* parameters)=0;
29 virtual void SetCurrentConfiguration(Elements* elements,Loads* loads,DataSet* nodes,Materials* materials,Parameters* parameters)=0;
30 virtual void CreateKMatrix(Mat Kff, Mat Kfs,Vec df)=0;
31 virtual void CreatePVector(Vec pf)=0;
32 virtual void GetSolutionFromInputs(Vec solution)=0;
33 virtual int GetNodeIndex(Node* node)=0;
34 virtual int Sid()=0;
35 virtual bool IsFloating()=0;
36 virtual bool IsNodeOnShelf()=0;
37 virtual bool IsNodeOnShelfFromFlags(double* flags)=0;
38 virtual bool IsOnBed()=0;
39 virtual void GetInputListOnVertices(double* pvalue,int enumtype)=0;
40 virtual void GetInputListOnVertices(double* pvalue,int enumtype,double defaultvalue)=0;
41 virtual void GetInputValue(double* pvalue,Node* node,int enumtype)=0;
42
43 virtual double SurfaceArea(void)=0;
44 virtual void InputDepthAverageAtBase(int enum_type,int average_enum_type,int object_enum)=0;
45 virtual void ComputeBasalStress(Vec sigma_b)=0;
46 virtual void ComputeStrainRate(Vec eps)=0;
47 virtual void PatchSize(int* pnumrows, int* pnumvertices,int* pnumnodes)=0;
48 virtual void PatchFill(int* pcount, Patch* patch)=0;
49 virtual void ListResultsEnums(int** results_enums,int* num_results)=0;
50 virtual void DeleteResults(void)=0;
51 virtual void Update(int index, IoModel* iomodel,int analysis_counter,int analysis_type)=0;
52 virtual void InputToResult(int enum_type,int step,double time)=0;
53 virtual void InputDuplicate(int original_enum,int new_enum)=0;
54 virtual void InputCreate(double scalar,int name,int code)=0;
55 virtual void InputCreate(double* vector, int index,IoModel* iomodel,int M,int N,int vector_type,int vector_enum,int code)=0;
56 virtual void ProcessResultsUnits(void)=0;
57 virtual void RequestedOutput(int output_enum,int step,double time)=0;
58
59 virtual void InputScale(int enum_type,double scale_factor)=0;
60 virtual void GetVectorFromInputs(Vec vector, int name_enum)=0;
61 virtual void GetVectorFromResults(Vec vector,int name_enum)=0;
62 virtual void InputArtificialNoise(int enum_type,double min,double max)=0;
63 virtual bool InputConvergence(double* eps, int* enums,int num_enums,int* criterionenums,double* criterionvalues,int num_criterionenums)=0;
64 virtual void AverageOntoPartition(Vec partition_contributions,Vec partition_areas,double* vertex_response,double* qmu_part)=0;
65 virtual int* GetHorizontalNeighboorSids(void)=0;
66 virtual double TimeAdapt()=0;
67 virtual void AgressiveMigration()=0;
68 virtual void SoftMigration(double* sheet_ungrounding)=0;
69 virtual void ShelfSync()=0;
70 virtual void PotentialSheetUngrounding(Vec potential_sheet_ungrounding)=0;
71 virtual void MigrateGroundingLine()=0;
72 virtual int UpdateShelfStatus(Vec new_shelf_nodes)=0;
73 virtual void UpdateShelfFlags(double* new_shelf_nodes)=0;
74 virtual int UpdatePotentialSheetUngrounding(double* potential_sheet_ungrounding,Vec vec_nodes_on_iceshelf,double* nodes_on_iceshelf)=0;
75
76 #ifdef _HAVE_RESPONSES_
77 virtual void MinVel(double* pminvel, bool process_units)=0;
78 virtual void MaxVel(double* pmaxvel, bool process_units)=0;
79 virtual void MinVx(double* pminvx, bool process_units)=0;
80 virtual void MaxVx(double* pmaxvx, bool process_units)=0;
81 virtual void MaxAbsVx(double* pmaxabsvx, bool process_units)=0;
82 virtual void MinVy(double* pminvy, bool process_units)=0;
83 virtual void MaxVy(double* pmaxvy, bool process_units)=0;
84 virtual void MaxAbsVy(double* pmaxabsvy, bool process_units)=0;
85 virtual void MinVz(double* pminvz, bool process_units)=0;
86 virtual void MaxVz(double* pmaxvz, bool process_units)=0;
87 virtual void MaxAbsVz(double* pmaxabsvz, bool process_units)=0;
88 virtual double MassFlux(double* segment,bool process_units)=0;
89 virtual double RheologyBbarx(void)=0;
90 virtual double IceVolume(void)=0;
91 virtual int NodalValue(double* pvalue, int index, int natureofdataenum,bool process_units)=0;
92 #endif
93
94 #ifdef _HAVE_CONTROL_
95 virtual void Gradj(Vec gradient,int control_type)=0;
96 virtual double ThicknessAbsMisfit(bool process_units ,int weight_index)=0;
97 virtual double SurfaceAbsVelMisfit(bool process_units ,int weight_index)=0;
98 virtual double SurfaceRelVelMisfit(bool process_units ,int weight_index)=0;
99 virtual double SurfaceLogVelMisfit(bool process_units ,int weight_index)=0;
100 virtual double SurfaceLogVxVyMisfit(bool process_units,int weight_index)=0;
101 virtual double SurfaceAverageVelMisfit(bool process_units,int weight_index)=0;
102 virtual double ThicknessAbsGradient(bool process_units,int weight_index)=0;
103 virtual double RheologyBbarAbsGradient(bool process_units,int weight_index)=0;
104 virtual double DragCoefficientAbsGradient(bool process_units,int weight_index)=0;
105 virtual void ControlInputGetGradient(Vec gradient,int enum_type)=0;
106 virtual void ControlInputSetGradient(double* gradient,int enum_type)=0;
107 virtual void ControlInputScaleGradient(int enum_type, double scale)=0;
108 virtual void InputControlUpdate(double scalar,bool save_parameter)=0;
109 #endif
110};
111#endif
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