/*!\file: PentaRef.h * \brief abstract class for handling Penta oriented routines, like nodal functions, * strain rate generation, etc ... */ #ifndef _PENTAREF_H_ #define _PENTAREF_H_ class PentaRef{ public: int* element_type_list; //P1CG, P1DG, MINI, P2... int element_type; PentaRef(); PentaRef(const int nummodels); ~PentaRef(); /*Management*/ void SetElementType(int type,int type_counter); /*Numerics*/ void GetNodalFunctionsP1(IssmDouble* l1l6, GaussPenta* gauss); void GetNodalFunctionsMINI(IssmDouble* l1l7, GaussPenta* gauss); void GetNodalFunctionsP1Derivatives(IssmDouble* dh1dh6,IssmDouble* xyz_list, GaussPenta* gauss); void GetNodalFunctionsMINIDerivatives(IssmDouble* dh1dh7,IssmDouble* xyz_list, GaussPenta* gauss); void GetNodalFunctionsP1DerivativesReference(IssmDouble* dl1dl6,GaussPenta* gauss); void GetNodalFunctionsMINIDerivativesReference(IssmDouble* dl1dl7,GaussPenta* gauss); void GetQuadNodalFunctions(IssmDouble* l1l4,GaussPenta* gauss,int index1,int index2,int index3,int index4); void GetQuadJacobianDeterminant(IssmDouble* Jdet, IssmDouble xyz_list[4][3],GaussPenta* gauss); void GetJacobian(IssmDouble* J, IssmDouble* xyz_list,GaussPenta* gauss); void GetJacobianDeterminant(IssmDouble* Jdet, IssmDouble* xyz_list,GaussPenta* gauss); void GetTriaJacobianDeterminant(IssmDouble* Jdet, IssmDouble* xyz_list,GaussPenta* gauss); void GetSegmentJacobianDeterminant(IssmDouble* Jdet, IssmDouble* xyz_list,GaussPenta* gauss); void GetJacobianInvert(IssmDouble* Jinv, IssmDouble* xyz_list,GaussPenta* gauss); void GetBMacAyealPattyn(IssmDouble* B, IssmDouble* xyz_list, GaussPenta* gauss); void GetBMacAyealStokes(IssmDouble* B, IssmDouble* xyz_list, GaussPenta* gauss); void GetBPattyn(IssmDouble* B, IssmDouble* xyz_list, GaussPenta* gauss); void GetBStokes(IssmDouble* B, IssmDouble* xyz_list, GaussPenta* gauss); void GetBprimeMacAyealStokes(IssmDouble* Bprime, IssmDouble* xyz_list, GaussPenta* gauss); void GetBprimePattyn(IssmDouble* B, IssmDouble* xyz_list, GaussPenta* gauss); void GetBprimeStokes(IssmDouble* B_prime, IssmDouble* xyz_list, GaussPenta* gauss); void GetBprimeVert(IssmDouble* B, IssmDouble* xyz_list, GaussPenta* gauss); void GetBAdvec(IssmDouble* B_advec, IssmDouble* xyz_list, GaussPenta* gauss); void GetBConduct(IssmDouble* B_conduct, IssmDouble* xyz_list, GaussPenta* gauss); void GetBVert(IssmDouble* B, IssmDouble* xyz_list, GaussPenta* gauss); void GetBprimeAdvec(IssmDouble* Bprime_advec, IssmDouble* xyz_list, GaussPenta* gauss); void GetL(IssmDouble* L, GaussPenta* gauss,int numdof); void GetLStokes(IssmDouble* LStokes, GaussPenta* gauss); void GetLprimeStokes(IssmDouble* LprimeStokes, IssmDouble* xyz_list, GaussPenta* gauss); void GetLMacAyealStokes(IssmDouble* LMacAyealStokes, GaussPenta* gauss); void GetLprimeMacAyealStokes(IssmDouble* LprimeMacAyealStokes, IssmDouble* xyz_list, GaussPenta* gauss); void GetLStokesMacAyeal(IssmDouble* LStokesMacAyeal, GaussPenta* gauss); void GetLprimeStokesMacAyeal(IssmDouble* LprimeStokesMacAyeal, IssmDouble* xyz_list, GaussPenta* gauss); void GetInputValue(IssmDouble* pvalue,IssmDouble* plist, GaussPenta* gauss); void GetInputValue(IssmDouble* pvalue,IssmDouble* plist,GaussTria* gauss){_error2_("only PentaGauss are supported");}; void GetInputDerivativeValue(IssmDouble* pvalues, IssmDouble* plist,IssmDouble* xyz_list, GaussPenta* gauss); void GetInputDerivativeValue(IssmDouble* pvalues, IssmDouble* plist,IssmDouble* xyz_list, GaussTria* gauss){_error2_("only PentaGauss are supported");}; }; #endif