Driver for assembly of unstructured 3D spline FE models. More...
#include <ASMu3D.h>
Classes | |
| class | BasisFunctionCache |
| Implementation of basis function cache. More... | |
| struct | DirichletFace |
| Struct representing an inhomogeneous Dirichlet boundary condition. More... | |
Public Member Functions | |
| ASMu3D (unsigned char n_f=3) | |
| Default constructor. | |
| ASMu3D (const ASMu3D &patch, unsigned char n_f=0) | |
| Copy constructor. | |
| virtual | ~ASMu3D () |
| Empty destructor. | |
| virtual const LR::LRSplineVolume * | getBasis (int basis=1) const |
| Returns the spline volume representing a basis of this patch. | |
| virtual LR::LRSplineVolume * | getBasis (int basis=1) |
| Returns the spline volume representing a basis of this patch. | |
| virtual bool | read (std::istream &) |
| Creates an instance by reading the given input stream. | |
| virtual bool | write (std::ostream &, int) const |
| Writes the geometry of the SplineVolume object to given stream. | |
| virtual bool | generateFEMTopology () |
| Generates the finite element topology data for the patch. More... | |
| virtual void | clear (bool retainGeometry=false) |
| Clears the contents of the patch, making it empty. More... | |
| virtual bool | getElementCoordinates (Matrix &X, int iel, bool forceItg=false) const |
| Returns a matrix with nodal coordinates for an element. More... | |
| virtual void | getElmConnectivities (IntMat &neighs, int basis=ASM::INTEGRATION_BASIS) const |
| Calculates the matrix of element neighbour connectivities. More... | |
| virtual IntMat | getElmNodes (int basis) const |
| Returns the matrix of nodal point correspondance for given basis. | |
| virtual void | getNodalCoordinates (Matrix &X, bool=false) const |
| Returns a matrix with all nodal coordinates within the patch. More... | |
| virtual Vec3 | getCoord (size_t inod) const |
| Returns the global coordinates for the given node. More... | |
| virtual bool | updateCoords (const Vector &displ) |
| Updates the nodal coordinates for this patch. More... | |
| virtual void | getBoundaryNodes (int lIndex, IntVec &nodes, int basis, int, int orient, bool local) const |
| Finds the global (or patch-local) node numbers on a patch boundary. More... | |
| virtual void | getBoundary1Nodes (int lEdge, IntVec &nodes, int basis, int orient, bool local, bool open=false) const |
| Finds the global (or patch-local) node numbers on a patch boundary. More... | |
| virtual int | getCorner (int I, int J, int K, int basis) const |
| Returns the node index for a given corner. More... | |
| virtual bool | getOrder (int &p1, int &p2, int &p3) const |
| Returns the polynomial order in each parameter direction. More... | |
| virtual size_t | getNoNodes (int basis=0) const |
| Returns the total number of nodes in this patch. | |
| virtual size_t | getNoProjectionNodes () const |
| Returns the number of projection nodes for this patch. | |
| virtual bool | uniformRefine (int dir, int nInsert) |
| Refines the parametrization by inserting tensor knots uniformly. More... | |
| virtual bool | refine (int dir, const RealArray &xi) |
| Refines the parametrization by inserting extra tensor knots. More... | |
| virtual bool | refine (const LR::RefineData &prm, Vectors &sol) |
| Refines the mesh adaptively. More... | |
| virtual bool | raiseOrder (int ru, int rv, int rw, bool setOrder) |
| Raises the order of the tensor spline object for this patch. More... | |
| virtual bool | createProjectionBasis (bool init) |
| Creates a separate projection basis for this patch. More... | |
| virtual void | setMinimumSize (double size) |
| Sets the minimum element volume for adaptive refinement. | |
| virtual double | getMinimumSize (int nrefinements) const |
| Defines the minimum element volume for adaptive refinement. More... | |
| virtual bool | checkElementSize (int elmId, bool globalNum=true) const |
| Checks if the specified element is larger than the minimum size. More... | |
| void | copyRefinement (LR::LRSplineVolume *basis, int multiplicity=1) const |
| Copies the refinement to another spline volume. More... | |
| virtual void | constrainFace (int dir, bool open, int dof, int code=0, char basis=1) |
| Constrains all DOFs on a given boundary face. More... | |
| virtual size_t | constrainFaceLocal (int dir, bool open, int dof, int code=0, bool project=false, char T1='\0') |
| Constrains all DOFs in local directions on a given boundary face. More... | |
| virtual void | constrainEdge (int lEdge, bool open, int dof, int code=0, char basis=1) |
| Constrains all DOFs on a given boundary edge. More... | |
| virtual void | constrainLine (int fdir, int ldir, double xi, int dof, int code=0, char basis=1) |
| Constrains all DOFs along a line on a given boundary face. More... | |
| virtual void | constrainCorner (int I, int J, int K, int dof, int code=0, char basis=1) |
| Constrains a corner node identified by the three parameter indices. More... | |
| virtual void | constrainNode (double xi, double eta, double zeta, int dof, int code=0) |
| Constrains a node identified by three relative parameter values. More... | |
| virtual bool | connectPatch (int face, ASM3D &neighbor, int nface, int norient, int=0, bool coordCheck=true, int thick=1) |
| Connects all matching nodes on two adjacent boundary faces. More... | |
| virtual void | getNoBouPoints (size_t &nPt, char ldim, char lindx) |
| Computes the number of boundary integration points in this patch. | |
| virtual bool | integrate (Integrand &integrand, GlobalIntegral &glbInt, const TimeDomain &time) |
| Evaluates an integral over the interior patch domain. More... | |
| virtual bool | integrate (Integrand &integrand, int lIndex, GlobalIntegral &glbInt, const TimeDomain &time) |
| Evaluates a boundary integral over a patch face. More... | |
| virtual bool | integrateEdge (Integrand &integrand, int lEdge, GlobalIntegral &glbInt, const TimeDomain &time) |
| Evaluates a boundary integral over a patch edge. More... | |
| virtual bool | diracPoint (Integrand &integrand, GlobalIntegral &glbInt, const double *param, const Vec3 &pval) |
| Integrates a spatial dirac-delta function over a patch. More... | |
| virtual bool | updateDirichlet (const std::map< int, RealFunc * > &func, const std::map< int, VecFunc * > &vfunc, double time, const std::map< int, int > *g2l=nullptr) |
| Updates the time-dependent in-homogeneous Dirichlet coefficients. More... | |
| virtual int | evalPoint (const double *xi, double *param, Vec3 &X) const |
| Evaluates the geometry at a specified point. More... | |
| virtual int | findElementContaining (const double *param) const |
| Returns the element that contains a specified spatial point. More... | |
| virtual double | findPoint (Vec3 &X, double *param) const |
| Searches for the specified Cartesian point in the patch. More... | |
| virtual bool | getGridParameters (RealArray &prm, int dir, int nSegSpan) const |
| Calculates parameter values for visualization nodal points. More... | |
| virtual bool | tesselate (ElementBlock &grid, const int *npe) const |
| Creates a hexahedron element model of this patch for visualization. More... | |
| virtual bool | evalSolution (Matrix &sField, const Vector &locSol, const int *npe, int n_f, bool piola) const |
| Evaluates the primary solution field at all visualization points. More... | |
| virtual bool | evalSolution (Matrix &sField, const Vector &locSol, const RealArray *gpar, bool=false, int deriv=0, int=0) const |
| Evaluates the primary solution field at the given points. More... | |
| virtual bool | evalProjSolution (Matrix &sField, const Vector &locSol, const int *npe, int n_f) const |
| Evaluates the projected solution field at all visualization points. More... | |
| virtual bool | evaluate (const FunctionBase *func, RealArray &vec, int, double time) const |
| Evaluates and interpolates a function over a given geometry. More... | |
| virtual bool | evalSolution (Matrix &sField, const IntegrandBase &integrand, const int *npe, char project='\0') const |
| Evaluates the secondary solution field at all visualization points. More... | |
| virtual bool | separateProjectionBasis () const |
| Checks if a separate projection basis is used for this patch. | |
| virtual Field * | getProjectedField (const Vector &coefs) const |
| Returns a field using the projection basis. More... | |
| virtual Fields * | getProjectedFields (const Vector &coefs, size_t=0) const |
| Returns a field using the projection basis. More... | |
| void | setOutputMaster (const ASMu3D *pch) |
| Set master patch for VTF output. More... | |
| virtual void | extractElmRes (const Matrix &globRes, Matrix &elmRes, size_t internalFirst) const |
| Extracts element results for this patch from a global vector. More... | |
| virtual LR::LRSpline * | evalSolution (const IntegrandBase &integrand) const |
| Projects the secondary solution field onto the primary basis. More... | |
| virtual bool | evalSolution (Matrix &sField, const IntegrandBase &integrand, const RealArray *gpar, bool=false) const |
| Evaluates the secondary solution field at the given points. More... | |
| bool | faceL2projection (const DirichletFace &face, const FunctionBase &values, Real2DMat &result, double time) const |
| Projects inhomogenuous dirichlet conditions by continuous L2-fit. More... | |
| virtual bool | transferGaussPtVars (const LR::LRSpline *old_basis, const RealArray &oldVar, RealArray &newVar, int nGauss) const |
| Transfers Gauss point variables from old basis to this patch. More... | |
| virtual bool | transferGaussPtVarsN (const LR::LRSpline *old_basis, const RealArray &oldVar, RealArray &newVar, int nGauss) const |
| Transfers Gauss point variables from old basis to this patch. More... | |
| virtual bool | transferCntrlPtVars (const LR::LRSpline *old_basis, RealArray &newVar, int nGauss) const |
| Transfers control point variables from old basis to this patch. More... | |
| virtual void | generateThreadGroups (const Integrand &integrand, bool silence, bool ignoreGlobalLM) |
| Generates element groups for multi-threading of interior integrals. More... | |
| virtual size_t | getNoBoundaryElms (char lIndex, char ldim) const |
| Returns the number of elements on a boundary. | |
| virtual bool | refine (const LR::RefineData &prm, Vectors &sol) |
| Refines the mesh adaptively. More... | |
| virtual bool | transferCntrlPtVars (const LR::LRSpline *oldBasis, RealArray &newVar, int nGauss) const=0 |
| Transfers control point variables from old basis to this patch. More... | |
| bool | transferCntrlPtVars (LR::LRSpline *oldBasis, const RealArray &oldVar, RealArray &newVar, int nGauss, int nf=1) const |
| Transfers control point variables from old basis to this patch. More... | |
 Public Member Functions inherited from ASMLRSpline | |
| virtual | ~ASMLRSpline () |
| Empty destructor. | |
| virtual bool | empty () const |
| Checks if the patch is empty. | |
| virtual bool | getParameterDomain (Real2DMat &, IntVec *) const |
| Returns parameter values and node numbers of the domain corners. | |
| const LR::LRSpline * | getRefinementBasis () const |
| Returns a const pointer to refinement basis. | |
| IntVec | getFunctionsForElements (const IntVec &elements, bool globalId=false) const |
| Returns a list of basis functions having support on given elements. | |
| void | getFunctionsForElements (IntSet &functions, const IntVec &elements, bool globalId=true) const |
| Returns a list of basis functions having support on given elements. | |
| virtual IntVec | getBoundaryCovered (const IntSet &nodes) const |
| Returns all boundary functions that are covered by the given nodes. More... | |
| IntVec | getOverlappingNodes (const IntSet &nodes, int dir=7) const |
| Returns all functions whose support overlap with the input nodes. More... | |
| IntVec | getOverlappingNodes (int node, int dir=7) const |
| Returns all functions whose support overlap with the input node. More... | |
| bool | transferCntrlPtVars (LR::LRSpline *oldBasis, const RealArray &oldVar, RealArray &newVar, int nGauss, int nf=1) const |
| Transfers control point variables from old basis to this patch. More... | |
| virtual std::pair< size_t, double > | findClosestNode (const Vec3 &X) const |
| Finds the node that is closest to the given point X. | |
| virtual Vec3 | getElementCenter (int iel) const |
| Returns the coordinates of the element center. | |
| virtual void | getNoIntPoints (size_t &nPt, size_t &nIPt) |
| Computes the total number of integration points in this patch. | |
| virtual void | swapProjectionBasis () |
| Swaps between the first and second projection basis. | |
| virtual bool | evalSolution (Matrix &sField, const Vector &locSol, const int *npe, int n_f=0, bool piola=false) const |
| Evaluates the primary solution field at all visualization points. More... | |
| virtual bool | evalSolution (Matrix &sField, const Vector &locSol, const RealArray *gpar, bool regular=true, int deriv=0, int n_f=0) const |
| Evaluates the primary solution field at the given points. More... | |
| virtual bool | evalSolution (Matrix &sField, const IntegrandBase &integrand, const int *npe=nullptr, char project=0) const |
| Evaluates the secondary solution field at all visualization points. More... | |
| virtual bool | evalSolution (Matrix &sField, const IntegrandBase &integrand, const RealArray *gpar, bool regular=true) const |
| Evaluates the secondary solution field at the given points. More... | |
| virtual bool | evalSolution (Matrix &sField, const IntegrandBase &integrand, const IntVec &elements) const |
| Evaluates the secondary solution field at element centers. More... | |
| Public Member Functions inherited from ASMbase | |
| virtual | ~ASMbase () |
| The destructor frees the dynamically allocated data objects. | |
| ASMbase * | cloneUnShared () const |
| Returns a copy of this patch with identical FE discretization. More... | |
| virtual bool | readBasis (std::istream &, size_t) |
| Reads a basis from the given input stream. | |
| virtual void | addHole (double, double, double) |
| Adds a circular immersed boundary in the physical geometry. | |
| virtual void | addHole (double, double, double, double, double) |
| Adds an oval immersed boundary in the physical geometry. | |
| virtual bool | setGeometry (RealFunc *, double, double) |
| Defines the immersed geometry from a scalar function. | |
| virtual bool | addXElms (short int dim, short int item, size_t nXn, IntVec &nodes) |
| Adds extraordinary elements associated with a patch boundary. More... | |
| bool | addLagrangeMultipliers (size_t iel, const IntVec &mGLag, unsigned char nnLag=1) |
| Adds a set of Lagrange multipliers to the specified element. More... | |
| bool | addGlobalLagrangeMultipliers (const IntVec &mGLag, unsigned char nnLag=1) |
| Adds global Lagrange multipliers to the system. More... | |
| virtual void | setGauss (int ng) |
| Defines the numerical integration scheme nGauss in the patch. | |
| void | setNoFields (unsigned char n) |
| Defines the number of solution fields in the patch. More... | |
| void | setElementActivator (IntFunc *efunc) |
| Sets the element activation function. | |
| const IntFunc * | getElementActivator () const |
| Returns a pointer to the element activation function. | |
| unsigned char | getNoSpaceDim () const |
| Returns the number of spatial dimensions. | |
| unsigned char | getNoParamDim () const |
| Returns the number of parameter dimensions. | |
| virtual unsigned char | getNoFields (int b=0) const |
| Returns the number of solution fields. | |
| unsigned char | getNoLagPerNode () const |
| Returns the number of Lagrange multipliers per node. | |
| virtual size_t | getNodeIndex (int globalNum, bool=false) const |
| Returns local 1-based index of the node with given global number. More... | |
| virtual int | getNodeID (size_t inod, bool=false) const |
| Returns the global node number for the given node. More... | |
| size_t | getElmIndex (int globalNum) const |
| Returns local 1-based index of element with given global number. More... | |
| int | getElmID (size_t iel) const |
| Returns the global element number for the given element. More... | |
| virtual unsigned char | getNodalDOFs (size_t inod) const |
| Returns the number of DOFs per node. More... | |
| virtual char | getNodeType (size_t inod) const |
| Returns the classification of a node. More... | |
| bool | isLMn (size_t n) const |
| Returns true if node n is a Lagrange multiplier node. | |
| bool | isRMn (size_t n) const |
| Returns true if node n is a master node of a rigid coupling. | |
| char | getLMType (size_t inod) const |
| Returns the type of a Lagrange multiplier node. More... | |
| void | getBoundaryElms (int lIndex, IntVec &elms, int orient=-1, bool local=false) const |
| Finds the global (or patch-local) element numbers on a boundary. More... | |
| virtual int | getNodeSetIdx (const std::string &) const |
| Returns (1-based) index of a predefined node set in the patch. | |
| virtual const IntVec & | getNodeSet (int) const |
| Returns an indexed predefined node set. | |
| virtual bool | isInNodeSet (int, int) const |
| Checks if a node is within a predefined node set. | |
| virtual int | parseNodeSet (const std::string &, const char *) |
| Defines a node set by parsing a list of node numbers. | |
| virtual int | parseNodeBox (const std::string &, const char *) |
| Defines a node set by parsing a 3D bounding box. | |
| virtual int | getElementSetIdx (const std::string &) const |
| Returns (1-based) index of a predefined element set in the patch. | |
| virtual const IntVec & | getElementSet (int) const |
| Returns an indexed predefined element set. | |
| virtual bool | getElementSet (int, std::string &) const |
| Returns the name of an indexed predefined element set. | |
| virtual bool | isInElementSet (int, int) const |
| Checks if an element is within a predefined element set. | |
| virtual int | parseElemSet (const std::string &, const char *) |
| Defines an element set by parsing a list of element numbers. | |
| virtual int | parseElemBox (const std::string &, const std::string &, const char *) |
| Defines an element set by parsing a 3D bounding box. | |
| void | printNodes (std::ostream &os) const |
| Prints out the nodal coordinates of this patch to the given stream. | |
| void | printElements (std::ostream &os) const |
| Prints out element connections of this patch to the given stream. | |
| virtual void | printElmInfo (int, const IntegrandBase *) const |
| Prints out additional app-dependent element information. | |
| virtual void | shiftGlobalNodeNums (int nshift) |
| Increase all global node numbers by nshift. | |
| void | setGlobalNodeNums (const IntVec &nodes) |
| Sets the global node numbers for this patch. | |
| const IntVec & | getMyNodeNums () const |
| Returns the actual global node numbers of this patch. | |
| const IntVec & | getGlobalNodeNums () const |
| Returns the global node numbers of this patch. | |
| virtual void | shiftGlobalElmNums (int eshift) |
| Increase all global element numbers by eshift. | |
| const IntVec & | getGlobalElementNums () const |
| Returns the global element numbers of this patch. | |
| void | setActiveElements (IntVec *active) |
| Sets the list of active elements during assembly. | |
| bool | isElementActive (int iel, double time=-1.0) const |
| Returns true if element with 0-based index iel is active. | |
| bool | inActive (double time) const |
| Returns true if none of the elements in the patch are active. | |
| double | getAge (int iel, double time) const |
| Returns the age of the element with 0-based index iel. | |
| bool | isElementInPartition (int iel) const |
| Returns true if element is in process partition. More... | |
| const IntVec & | getElementNodes (int iel) const |
| Returns the nodal point correspondance array for an element. More... | |
| virtual size_t | getNoBasis () const |
| Returns number of bases of this patch. | |
| size_t | getNoElms (bool includeZeroVolElms=false, bool includeXElms=false) const |
| Returns the total number of elements in this patch. More... | |
| int | getMaxElmNo () const |
| Returns the highest external element number in this patch. | |
| size_t | getNoMPCs () const |
| Returns the total number of multi-point constraint equations. | |
| BCVec::const_iterator | begin_BC () const |
| Returns the beginning of the BCode array. | |
| BCVec::const_iterator | end_BC () const |
| Returns the end of the BCode array. | |
| IntMat::const_iterator | begin_elm () const |
| Returns the beginning of the MNPC array. | |
| IntMat::const_iterator | end_elm () const |
| Returns the end of the MNPC array. | |
| MPCIter | begin_MPC () const |
| Returns the beginning of the mpcs set. | |
| MPCIter | end_MPC () const |
| Returns the end of the mpcs set. | |
| MPC * | findMPC (int node, int dof) const |
| Returns a pointer to the MPC object for a specified slave, if any. More... | |
| bool | isShared () const |
| Returns true if this patch shares FE data with another patch. | |
| bool | hasXNodes () const |
| Returns true if this patch has additional (extraordinary) nodes. | |
| virtual void | copyParameterDomain (const ASMbase *) |
| Copies the parameter domain from another patch. | |
| virtual void | closeBoundaries (int dir=1, int basis=0, int master=1) |
| Makes two opposite boundaries periodic. More... | |
| bool | mergeNodes (size_t inod, int globalNum, bool verbose=true) |
| Merges a given node in this patch with a given global node. More... | |
| int | renumberNodes (std::map< int, int > &old2new, int &nNod) |
| Renumbers the global node numbers in this patch. More... | |
| bool | renumberNodes (const std::map< int, int > &old2new, const std::vector< int > &new2old={}, int renumGN=0, std::map< int, int > *degenElm=nullptr) |
| Renumbers the global node numbers referred by this patch. More... | |
| virtual bool | initConstraints () |
| Initializes the multi-point constraint coefficients. | |
| virtual void | setNodeNumbers (const IntVec &nodes) |
| Sets the global node numbers for this patch. More... | |
| bool | hasTimeDependentDirichlet (const std::map< int, RealFunc * > &func, const std::map< int, VecFunc * > &vfunc) |
| Checks for time-dependent in-homogeneous Dirichlet conditions. More... | |
| virtual bool | transform (const Matrix &) |
| Applies a transformation matrix from local to global system. | |
| virtual void | initMADOF (const int *) |
| Initializes the patch level MADOF array for mixed problems. | |
| virtual void | generateThreadGroups (char, bool, bool) |
| Generates element groups for multi-threading of boundary integrals. | |
| virtual bool | validateThreadGroups (const SAM *) const |
| Validates the threading groups based on the assembly data in SAM. | |
| virtual bool | integrate (Integrand &integrand, GlobalIntegral &glbInt, const TimeDomain &time, const ASM::InterfaceChecker &iChk) |
| Evaluates an integral over element interfaces in the patch. More... | |
| virtual ElementBlock * | immersedGeometry (char *) const |
| Returns an additional geometry to visualize (immersed boundaries). | |
| virtual ElementBlock * | extraGeometry (char *) const |
| Returns an additional geometry to visualize (spiders, etc.). | |
| virtual void | filterResults (Matrix &, const ElementBlock *) const |
| Filters out result point values that are outside physical domain. | |
| virtual bool | getSolution (Matrix &sField, const Vector &locSol, const IntVec &nodes) const |
| Extract the primary solution field at the specified nodes. More... | |
| virtual bool | immersedSolution (Matrix &, const Vector &) const |
| Evaluates the primary solution at the immersed geometry points. | |
| virtual bool | extraSolution (Matrix &, const Vector &) const |
| Evaluates the primary solution at the extra geometry points. | |
| virtual bool | evalSolutionPiola (Matrix &sField, const Vector &locSol, const RealArray *gpar, bool regular) const |
| Evaluates the primary solution field with Piola mapping. More... | |
| virtual bool | evaluate (const ASMbase *basis, const Vector &locVec, RealArray &vec, int basisNum=1) const |
| Evaluates and interpolates a field over a given geometry. More... | |
| virtual bool | evaluate (const Field *f, RealArray &vec, int basisNum=1) const |
| Evaluates and interpolates a scalar field over a given geometry. More... | |
| virtual bool | evalSolution (Matrix &sField, const IntegrandBase &integrand, const IntVec &elements) const |
| Evaluates the secondary solution field at element centers. More... | |
| bool | globalL2projection (Matrix &sField, const L2Integrand &integrand, bool continuous=false, bool enforceEnds=false) const |
| Projects the secondary solution using a (discrete) global L2-fit. More... | |
| bool | L2projection (Matrix &sField, IntegrandBase *integrand, const TimeDomain &time) |
| Projects the secondary solution using a continuous global L2-fit. More... | |
| bool | L2projection (Matrix &fVals, FunctionBase *function, double t=0.0) |
| Projects an explicit function using a continuous global L2-fit. More... | |
| bool | L2projection (const std::vector< Matrix * > &fVals, const std::vector< FunctionBase * > &function, double t=0.0) |
| Projects explicit functions using a continuous global L2-fit. More... | |
| virtual size_t | getNoRefineNodes () const |
| Returns the number of nodes on refinement basis for this patch. | |
| virtual size_t | getNoRefineElms () const |
| Returns the number of elements on refinement basis for this patch. | |
| virtual void | extractElmRes (const Vector &globRes, Vector &elmRes, size_t internalFirst=0) const |
| Extracts element results for this patch from a global vector. More... | |
| bool | extractNodalVec (const RealArray &globVec, RealArray &nodeVec, const int *madof, int ngnod=-1) const |
| Extracts nodal results for this patch from the global vector. More... | |
| virtual void | extractNodeVec (const RealArray &globVec, RealArray &nodeVec, unsigned char nndof=0, int basis=0) const |
| Extracts nodal results for this patch from the global vector. More... | |
| virtual bool | injectNodeVec (const RealArray &nodeVec, RealArray &globVec, unsigned char nndof=0, int basis=0) const |
| Injects nodal results for this patch into the global vector. More... | |
| bool | injectNodalVec (const RealArray &nodeVec, RealArray &globVec, const IntVec &madof, int basis=0) const |
| Injects nodal results for this patch into the global vector. More... | |
| bool | add2PC (int slave, int dir, int master, int code=0) |
| Creates and adds a two-point constraint to this patch. More... | |
| bool | addMPC (MPC *&mpc, int code=0, bool verbose=false, bool overrideD=false) |
| Adds a general multi-point-constraint (MPC) equation to this patch. More... | |
| virtual bool | addRigidCpl (int lindx, int ldim, int basis, int &gMaster, const Vec3 &Xmaster, bool extraPt=true) |
| Adds MPC-equations representing a rigid coupling to this patch. More... | |
| void | addRigidCouplings (int gMaster, const Vec3 &Xmaster, const IntVec &slaveNodes) |
| Adds MPC-equations representing a rigid coupling to this patch. More... | |
| void | constrainPatch (int dof, int code=0) |
| Constrains all nodes in the patch. More... | |
| void | constrainNodes (const IntVec &nodes, int dof, int code=0, bool overrideD=false) |
| Constrains a list of nodes in the patch. More... | |
| bool | constrainXnode (int node, int dof, int code=0) |
| Constrains an extraordinary node in the patch. More... | |
| int | prescribe (size_t inod, int dirs, int code, bool overrideD=false) |
| Constrains DOFs in the given node to the given value. More... | |
| int | fix (size_t inod, int dirs=123) |
| Constrains DOFs in the given node to zero. More... | |
| bool | isFixed (int node, int dof, bool all=false) const |
| Checks if the given DOFs are fixed. More... | |
| Public Member Functions inherited from ASMunstruct | |
| virtual | ~ASMunstruct () |
| Empty destructor. | |
| virtual void | storeMesh (const std::string &fName, int fType=15) const |
| Stores the mesh basis to encapsulated postscript files. More... | |
| Public Member Functions inherited from ASM3D | |
| virtual | ~ASM3D () |
| Empty destructor. | |
| ASMbase * | clone (const CharVec &nf=CharVec()) const |
| Returns a copy of this patch with identical FE discretization. More... | |
| virtual bool | checkRightHandSystem () |
| Checks that the patch is modelled in a right-hand-side system. | |
| virtual bool | refine (int dir, const std::vector< double > &xi)=0 |
| Refines the parametrization by inserting extra knots. More... | |
| virtual bool | getGridParameters (std::vector< double > &prm, int dir, int nSegSpan) const =0 |
| Calculates parameter values for visualization nodal points. More... | |
Protected Member Functions | |
| LR::LRSplineVolume * | projectSolution (const IntegrandBase &integrand) const |
| Projects the secondary solution field onto the primary basis. More... | |
| LR::LRSplineVolume * | scRecovery (const IntegrandBase &integrand) const |
| Projects the secondary solution using a superconvergent approach. More... | |
| LR::LRSplineVolume * | regularInterpolation (const RealArray &upar, const RealArray &vpar, const RealArray &wpar, const Matrix &points, int basis) const |
| Interpolates an LR spline at a given set of parametric coordinates. More... | |
| virtual void | findBoundaryElms (IntVec &elms, int lIndex, int orient) const |
| Finds the patch-local element numbers on a patch boundary. More... | |
| virtual bool | assembleL2matrices (SystemMatrix &A, SystemVector &B, const L2Integrand &integrand, bool continuous) const |
| Assembles L2-projection matrices for the secondary solution. More... | |
| bool | connectBasis (int face, ASMu3D &neighbor, int nface, int norient, int basis=1, int slave=0, int master=0, bool coordCheck=true, int thick=1) |
| Connects all matching nodes on two adjacent boundary faces. More... | |
| void | getGaussPointParameters (RealArray &uGP, int dir, int nGauss, int iel, const double *xi, const LR::LRSplineVolume *spline=nullptr) const |
| Extracts parameter values of the Gauss points in one direction. More... | |
| bool | getGrevilleParameters (RealArray &prm, int dir, int basisNum=1) const |
| Calculates parameter values for the Greville points. More... | |
| bool | getQuasiInterplParameters (RealArray &prm, int dir) const |
| Calculates parameter values for the Quasi-Interpolation points. More... | |
| double | getParametricArea (int iel, int dir) const |
| Returns boundary face area in the parameter space for an element. More... | |
| double | getElementCorners (int iel, std::vector< Vec3 > &XC, RealArray *uC=nullptr) const |
| Computes the element corner coordinates. More... | |
| void | getCornerPoints (int iel, std::vector< utl::Point > &XC) const |
| Computes the element corner coordinates and parameters. More... | |
| void | evaluateBasis (int iel, double u, double v, double w, Vector &N, Matrix &dNdu, int basis=1) const |
| Evaluate all basis functions and first derivatives on one element. | |
| void | evaluateBasis (Vector &N, Matrix &dNdu, const Matrix &C, const Matrix &B) const |
| Evaluate all basis functions and first derivatives on one element. | |
| void | evaluateBasis (int iel, FiniteElement &fe, Matrix &dNdu, int basis=1) const |
| Evaluate all basis functions and first derivatives on one element. | |
| void | evaluateBasis (int iel, double u, double v, double w, Vector &N, Matrix &dNdu, Matrix3D &d2Ndu2, int basis=1) const |
| Evaluate all basis functions and second order derivatives on one element. | |
| virtual int | evalPoint (int iel, const double *param, Vec3 &X) const |
| Evaluates the geometry at a specified point. More... | |
| virtual void | generateThreadGroupsFromElms (const IntVec &elms) |
| Generate element groups from a partition. | |
| virtual void | generateProjThreadGroupsFromElms (const IntVec &elms) |
| Generate element groups from a partition. | |
| virtual void | changeNumThreads () |
| Hook for changing number of threads. | |
| virtual void | remapErrors (RealArray &errors, const RealArray &origErr, bool elemErrors) const |
| Remap element wise errors to basis functions. More... | |
| virtual void | extendRefinementDomain (IntSet &refineIndices, const IntSet &neighborIndices) const |
| Extends the refinement domain with information for neighbors. More... | |
| std::shared_ptr< LR::LRSplineVolume > | createLRfromTensor () |
| Converts current tensor spline object to LR-spline. | |
| Protected Member Functions inherited from ASMLRSpline | |
| ASMLRSpline (unsigned char n_p, unsigned char n_s, unsigned char n_f) | |
| The constructor sets the space dimensions. More... | |
| ASMLRSpline (const ASMLRSpline &patch, unsigned char n_f) | |
| Special copy constructor for sharing of FE data. More... | |
| bool | doRefine (const LR::RefineData &prm, LR::LRSpline *lrspline) |
| Refines the mesh adaptively. More... | |
| virtual int | evalPoint (const double *xi, double *param, Vec3 &X) const=0 |
| Evaluates the geometry at a specified point. More... | |
| Protected Member Functions inherited from ASMbase | |
| ASMbase (unsigned char n_p, unsigned char n_s, unsigned char n_f) | |
| The constructor sets the number of space dimensions and fields. More... | |
| ASMbase (const ASMbase &patch, unsigned char n_f) | |
| Special copy constructor for sharing of FE data. More... | |
| ASMbase (const ASMbase &patch) | |
| Default copy constructor, copying everything except neighbors. More... | |
| void | addLocal2GlobalCpl (int iSlave, int master, const Tensor &Tlg) |
| Creates constraint equations coupling global DOFs to local DOFs. More... | |
| bool | add3PC (int slave, int dir, int master1, int master2, int code=0) |
| Creates and adds a three-point constraint to this patch. More... | |
| bool | addPeriodicity (size_t master, size_t slave, int dir) |
| Creates and adds a periodicity constraint to this patch. More... | |
| void | makePeriodic (size_t master, size_t slave, int dirs=123) |
| Creates periodicity constraints between two nodes in this patch. More... | |
| void | addNeighbor (ASMbase *pch) |
| Adds a patch to the list of neighbors of this patch. More... | |
| bool | createRgdMasterNode (int &gMaster, const Vec3 &Xmaster) |
| Creates an additional master node for a rigid coupling. More... | |
| void | addRigidMPC (int gSlave, int gMaster, const Vec3 &dX) |
| Adds MPC-equations representing a rigid arm to a 6-DOF node. More... | |
| int | getNoGaussPt (int p, bool neumann=false) const |
| Returns the number of Gauss points to use in one direction. More... | |
| int | searchCtrlPt (RealArray::const_iterator cit, RealArray::const_iterator end, const Vec3 &X, int dimension, double tol=0.001) const |
| Helper method used by evalPoint to search for a control point. More... | |
| bool | allDofs (int dirs) const |
| Returns true if dirs constains all local DOFs in the patch. | |
| bool | writeLagBasis (std::ostream &os, const char *type) const |
| Writes a Lagrangian basis to the given stream. | |
| Protected Member Functions inherited from ASMunstruct | |
| ASMunstruct () | |
| The constructor is protected to allow objects of sub-classes only. | |
| Protected Member Functions inherited from ASM3D | |
| ASM3D () | |
| The constructor is protected to allow objects of sub-classes only. | |
Protected Attributes | |
| std::shared_ptr< LR::LRSplineVolume > | lrspline |
| The LR-spline volume object. | |
| const ASMu3D * | outputMaster = nullptr |
| Master patch to use for VTF output. | |
| Go::SplineVolume * | tensorspline |
| Pointer to original tensor spline object. | |
| Go::SplineVolume * | tensorPrjBas |
| Pointer to tensor spline projection base. | |
| std::vector< DirichletFace > | dirich |
| Inhomogeneous Dirichlet boundary condition data. | |
| const Matrices & | bezierExtract |
| Bezier extraction matrices. | |
| Matrices | myBezierExtract |
| Bezier extraction matrices. | |
| std::vector< std::unique_ptr< BasisFunctionCache > > | myCache |
| Basis function cache. | |
| Protected Attributes inherited from ASMLRSpline | |
| std::shared_ptr< LR::LRSpline > | geomB |
| Pointer to spline object of the geometry basis. | |
| std::shared_ptr< LR::LRSpline > | projB |
| Pointer to spline object of the projection basis. | |
| std::shared_ptr< LR::LRSpline > | projB2 |
| Pointer to spline object of the secondary projection basis. | |
| std::shared_ptr< LR::LRSpline > | refB |
| Pointer to spline object of the refinement basis. | |
| ThreadGroups | threadGroups |
| Element groups for multi-threaded assembly. | |
| ThreadGroups | projThreadGroups |
| Element groups for multi-threaded assembly - projection basis. | |
| ThreadGroups | proj2ThreadGroups |
| Element groups for multi-threaded assembly - second projection basis. | |
| Protected Attributes inherited from ASMbase | |
| unsigned char | ndim |
| Number of parametric dimensions (1, 2 or 3) | |
| unsigned char | nsd |
| Number of space dimensions (ndim <= nsd <= 3) | |
| unsigned char | nf |
| Number of primary solution fields (1 or larger) | |
| unsigned char | nLag |
| Number of Lagrange multipliers per node. | |
| size_t | nel |
| Number of regular elements in this patch. | |
| size_t | nnod |
| Number of regular nodes in this patch. | |
| const IntVec & | MLGE |
| Matrix of Local to Global Element numbers. | |
| const IntVec & | MLGN |
| Matrix of Local to Global Node numbers. | |
| const IntMat & | MNPC |
| Matrix of Nodal Point Correspondance. | |
| const char | shareFE |
| Flag telling whether this patch shares its data with another patch. More... | |
| BCVec | BCode |
| Array of Boundary Condition codes. | |
| MPCMap | dCode |
| Inhomogeneous Dirichlet condition codes for the MPCs. | |
| MPCSet | mpcs |
| All multi-point constraints with the slave in this patch. | |
| IntVec | myMLGE |
| The actual Matrix of Local to Global Element numbers. | |
| IntVec | myMLGN |
| The actual Matrix of Local to Global Node numbers. | |
| IntMat | myMNPC |
| The actual Matrix of Nodal Point Correspondance. | |
| IntVec | myElms |
| Elements on patch - used with partitioning. | |
| int | nGauss |
| Numerical integration scheme for this patch. More... | |
| size_t | firstEl |
| Global index to first element within this patch. | |
| size_t | firstIp |
| Global index to first interior integration point. | |
| std::map< char, size_t > | firstBp |
| Global indices to first integration point for the Neumann boundaries. | |
| ASMVec | neighbors |
| Patches having nodes in common with this one. | |
| std::map< size_t, XYZ > | myRmaster |
| Rigid master nodal points. | |
Private Attributes | |
| double | vMin |
| Minimum element volume for adaptive refinement. | |
Additional Inherited Members | |
| Public Types inherited from ASMbase | |
| using | BCVec = std::vector< BC > |
| Nodal boundary condition container. | |
| Public Types inherited from ASM3D | |
| typedef std::vector< unsigned char > | CharVec |
| Convenience type. | |
| Static Public Member Functions inherited from ASMLRSpline | |
| static Go::BsplineBasis | getBezierBasis (int p, double start=-1.0, double end=1.0) |
| Returns a Bezier basis of order p. | |
| static void | Sort (int u, int v, int orient, std::vector< LR::Basisfunction * > &functions) |
| Sort basis functions based on local knot vectors. | |
| Static Public Member Functions inherited from ASMbase | |
| static void | resetNumbering (int n=0) |
| Resets the global element and node counters. | |
| static int | renumberNodes (const ASMVec &model, std::map< int, int > &old2new) |
| Renumbers all global node numbers in the entire model. More... | |
| static void | mergeAndGetAllMPCs (const ASMVec &model, MPCSet &allMPCs) |
| Computes the set of all MPC-equations over the whole model. More... | |
| static void | resolveMPCchains (const MPCSet &allMPCs, const ASMVec &model, bool setPtrOnly=false) |
| Resolves (possibly multi-level) chaining in MPC-equations. More... | |
| Static Public Member Functions inherited from ASM3D | |
| static ASMbase * | create (ASM::Discretization type, const CharVec &nf, bool mixedFEM=false) |
| Creates a three-parametric patch of specified discretization type. More... | |
| static ASMbase * | create (ASM::Discretization type, unsigned char nf=1) |
| Creates a three-parametric patch of specified discretization type. More... | |
| Public Attributes inherited from ASMbase | |
| size_t | idx |
| Index of this patch in the multi-patch model. | |
| Static Public Attributes inherited from ASMbase | |
| static bool | fixHomogeneousDirichlet = true |
| If true, pre-eliminate fixed DOFs. | |
| static int | dbgElm = 0 |
| One-based element index to print debugging info for. | |
| static double | modelSize = 1.0 |
| Characteristic model size. More... | |
| Protected Types inherited from ASMbase | |
| using | XYZ = std::array< double, 3 > |
| Convenience type definition. | |
| Static Protected Member Functions inherited from ASMLRSpline | |
| static bool | checkThreadGroups (const IntMat &groups, const std::vector< const LR::LRSpline * > &bases, const LR::LRSpline *threadBasis) |
| Santity check thread groups. More... | |
| Static Protected Member Functions inherited from ASMbase | |
| static bool | deformedConfig (const Matrix &Xnod, Vectors &eVec, bool force2nd=false) |
| Calculates the deformed configuration for current element. More... | |
| static bool | collapseNodes (ASMbase &pch1, int node1, ASMbase &pch2, int node2) |
| Collapses the given two nodes into one. More... | |
| Static Protected Member Functions inherited from ASM3D | |
| static double | getElementSize (const std::vector< Vec3 > &XC) |
| Returns characteristic element size based on corner coordinates. | |
| Static Protected Attributes inherited from ASMbase | |
| static std::map< int, int > | xNode |
| Auxilliary node number map used when establishing Dirichlet constraints. | |
| static int | gEl = 0 |
| Global element counter. | |
| static int | gNod = 0 |
| Global node counter. | |
Detailed Description
Driver for assembly of unstructured 3D spline FE models.
This class contains methods common for 3D LR-spline patches.
Member Function Documentation
◆ assembleL2matrices()
|
protectedvirtual |
Assembles L2-projection matrices for the secondary solution.
- Parameters
-
[out] A Left-hand-side matrix [out] B Right-hand-side vectors [in] integrand Object with problem-specific data and methods [in] continuous If false, a discrete L2-projection is used
Reimplemented from ASMbase.
References SystemMatrix::assemble(), SystemVector::assemble(), L2Integrand::evaluate(), expandTensorGrid(), SplineUtils::extractBasis(), ASM::GEOMETRY_BASIS, getBasis(), GaussQuadrature::getCoord(), getElementCoordinates(), getElmNodes(), getGaussPointParameters(), ASMbase::getNoGaussPt(), getNoProjectionNodes(), GaussQuadrature::getWeight(), utl::Jacobian(), lrspline, ASMbase::nnod, utl::matrix< T >::outer_product(), SystemMatrix::preAssemble(), ASM::PROJECTION_BASIS, ASMLRSpline::projThreadGroups, utl::matrix< T >::rows(), and ThreadGroups::size().
◆ checkElementSize()
|
virtual |
Checks if the specified element is larger than the minimum size.
- Parameters
-
[in] elmId Global/patch-local element index [in] globalNum If true, elmId is global otherwise patch-local
Reimplemented from ASMbase.
References lrspline, ASMbase::MLGE, and vMin.
◆ clear()
|
virtual |
Clears the contents of the patch, making it empty.
- Parameters
-
[in] retainGeometry If true, the spline geometry is not cleared. This is used to reinitialize the patch after it has been refined.
Reimplemented from ASMbase.
Reimplemented in ASMu3Dmx.
References ASMbase::clear(), dirich, ASMLRSpline::geomB, lrspline, myCache, ASMLRSpline::projThreadGroups, ASMbase::shareFE, tensorPrjBas, and tensorspline.
Referenced by ASMu3Dmx::clear().
◆ connectBasis()
|
protected |
Connects all matching nodes on two adjacent boundary faces.
- Parameters
-
[in] face Local face index of this patch, in range [1,6] neighbor The neighbor patch [in] nface Local face index of neighbor patch, in range [1,6] [in] norient Relative face orientation flag, see connectPatch() [in] basis Which basis to connect the nodes for (mixed methods) [in] slave 0-based index of the first slave node in this basis [in] master 0-based index of the first master node in this basis [in] coordCheck False to disable coordinate checks [in] thick Thickness of connection
References ASMbase::collapseNodes(), Vec3::equal(), getBoundaryNodes(), getCoord(), and ASMbase::isShared().
Referenced by connectPatch().
◆ connectPatch()
|
virtual |
Connects all matching nodes on two adjacent boundary faces.
- Parameters
-
[in] face Local face index of this patch, in range [1,6] neighbor The neighbor patch [in] nface Local face index of neighbor patch, in range [1,6] [in] norient Relative face orientation flag (see below) [in] coordCheck False to disable coordinate checks [in] thick Thickness of connection
The face orientation flag norient must be in range [0,7]. When interpreted as a binary number, its 3 digits are decoded as follows:
- left digit = 1: The u and v parameters of the neighbor face are swapped
- middle digit = 1: Parameter u in neighbor patch face is reversed
- right digit = 1: Parameter v in neighbor patch face is reversed
Implements ASM3D.
References ASMbase::addNeighbor(), and connectBasis().
◆ constrainCorner()
|
virtual |
Constrains a corner node identified by the three parameter indices.
- Parameters
-
[in] I Parameter index in u-direction [in] J Parameter index in v-direction [in] K Parameter index in w-direction [in] dof Which DOFs to constrain at the node [in] code Inhomogeneous dirichlet condition code [in] basis Which basis to constrain node for
The sign of the three indices is used to define whether we want the node at the beginning or the end of that parameter direction. The magnitude of the indices are not used.
Implements ASM3D.
◆ constrainEdge()
|
virtual |
Constrains all DOFs on a given boundary edge.
- Parameters
-
[in] lEdge Local index [1,12] of the edge to constrain [in] open If true, exclude the end points of the edge [in] dof Which DOFs to constrain at each node along the edge [in] code Inhomogeneous dirichlet condition code [in] basis Which basis to constrain edge for
Implements ASM3D.
References getBoundary1Nodes(), and ASMbase::prescribe().
◆ constrainFace()
|
virtual |
Constrains all DOFs on a given boundary face.
- Parameters
-
[in] dir Parameter direction defining the face to constrain [in] open If true, exclude all points along the face boundary [in] dof Which DOFs to constrain at each node on the face [in] code Inhomogeneous dirichlet condition code [in] basis Which basis to constrain face for
A negative code value implies direct evaluation of the Dirichlet condition function at the control point. Positive code implies projection onto the spline basis representing the boundary surface (needed for curved faces and/or non-constant functions).
Implements ASM3D.
References ASMu3D::DirichletFace::edg, getBasis(), getNoNodes(), ASMu3D::DirichletFace::isCorner(), ASMu3D::DirichletFace::lr, lrspline, ASMu3D::DirichletFace::MLGE, ASMu3D::DirichletFace::MLGN, ASMu3D::DirichletFace::MNPC, and ASMbase::prescribe().
◆ constrainFaceLocal()
|
virtual |
Constrains all DOFs in local directions on a given boundary face.
- Parameters
-
[in] dir Parameter direction defining the face to constrain [in] open If true, exclude all points along the face boundary [in] dof Which local DOFs to constrain at each node on the face [in] code Inhomogeneous dirichlet condition code [in] project If true, the local axis directions are projected [in] T1 Desired global direction of first local tangent direction
- Returns
- Number of additional nodes added due to local axis constraints
Implements ASM3D.
◆ constrainLine()
|
virtual |
Constrains all DOFs along a line on a given boundary face.
- Parameters
-
[in] fdir Parameter direction defining the face to constrain [in] ldir Parameter direction defining the line to constrain [in] xi Parameter value defining the line to constrain [in] dof Which DOFs to constrain at each node along the line [in] code Inhomogeneous dirichlet condition code [in] basis Which basis to constrain line for
The parameter xi has to be in the domain [0.0,1.0], where 0.0 means the beginning of the domain and 1.0 means the end. The line to constrain goes along the parameter direction ldir in the face with with normal in parameter direction fdir, and positioned along the third parameter direction as indicated by xi. The actual value of xi is converted to the integer value closest to xi*n, where n is the number of nodes (control points) in that parameter direction.
Implements ASM3D.
◆ constrainNode()
|
virtual |
Constrains a node identified by three relative parameter values.
- Parameters
-
[in] xi Parameter in u-direction [in] eta Parameter in v-direction [in] zeta Parameter in w-direction [in] dof Which DOFs to constrain at the node [in] code Inhomogeneous dirichlet condition code
The parameter values have to be in the domain [0.0,1.0], where 0.0 means the beginning of the domain and 1.0 means the end. For values in between, the actual index is taken as the integer value closest to r*n, where r denotes the given relative parameter value, and n is the number of nodes along that parameter direction.
Implements ASM3D.
◆ copyRefinement()
| void ASMu3D::copyRefinement | ( | LR::LRSplineVolume * | basis, |
| int | multiplicity = 1 |
||
| ) | const |
Copies the refinement to another spline volume.
- Parameters
-
basis Volume to copy refinement to [in] multiplicity Wanted multiplicity
References getBasis(), and ASM::REFINEMENT_BASIS.
Referenced by ASMu3Dmx::refine().
◆ createProjectionBasis()
|
virtual |
Creates a separate projection basis for this patch.
This method is supposed to be invoked twice during the model generation. In the first call, with init = true, the spline volume object is cloned and the two pointers are then swapped, such that the subsequent refine and raiseOrder operations will apply to the projection basis and not on the geometry basis. In the second call, the pointers are swapped back.
The method can also be invoked twice with init = false in case the projection basis is to be read from a file.
Reimplemented from ASMbase.
References ASMLRSpline::geomB, lrspline, ASMLRSpline::projB, tensorPrjBas, and tensorspline.
◆ diracPoint()
|
virtual |
Integrates a spatial dirac-delta function over a patch.
- Parameters
-
integrand Object with problem-specific data and methods glbInt The integrated quantity [in] param Parameters of the non-zero point of dirac-delta function [in] pval Function value at the specified point
Reimplemented from ASMbase.
References GlobalIntegral::assemble(), LocalIntegral::destruct(), Integrand::evalPoint(), ASMbase::firstEl, getBasis(), Integrand::getLocalIntegral(), ItgPoint::idx, ItgPoint::iel, lrspline, ASMbase::MLGE, ASMbase::MNPC, FiniteElement::N, ItgPoint::u, ItgPoint::v, and ItgPoint::w.
◆ evalPoint() [1/2]
|
virtual |
Evaluates the geometry at a specified point.
- Parameters
-
[in] xi Dimensionless parameters in range [0.0,1.0] of the point [out] param The (u,v,w) parameters of the point in knot-span domain [out] X The Cartesian coordinates of the point
- Returns
- Local node number within the patch that matches the point, if any
- 0 if no node (control point) matches this point
Implements ASMbase.
References ASMLRSpline::evalPoint(), ASM::GEOMETRY_BASIS, and getBasis().
◆ evalPoint() [2/2]
|
protectedvirtual |
Evaluates the geometry at a specified point.
- Parameters
-
[in] iel 0-based local element index [in] param The (u,v,w) parameters of the point in knot-span domain [out] X The Cartesian coordinates of the point
- Returns
- Local node number within the patch that matches the point, if any
- 0 if no node (control point) matches this point
Implements ASMLRSpline.
References ASM::GEOMETRY_BASIS, and getBasis().
◆ evalProjSolution()
|
virtual |
Evaluates the projected solution field at all visualization points.
- Parameters
-
[out] sField Solution field [in] locSol Solution vector local to current patch [in] npe Number of visualization nodes over each knot span [in] n_f If nonzero, mixed evaluates n_f fields on first basis
Reimplemented from ASMbase.
References ASMLRSpline::evalSolution(), utl::matrix< T >::fillColumn(), getGridParameters(), Fields::getNoFields(), getProjectedFields(), utl::matrix< T >::resize(), separateProjectionBasis(), and Fields::valueFE().
◆ evalSolution() [1/5]
|
virtual |
Projects the secondary solution field onto the primary basis.
- Parameters
-
[in] integrand Object with problem-specific data and methods
Implements ASMLRSpline.
◆ evalSolution() [2/5]
|
virtual |
Evaluates the secondary solution field at all visualization points.
- Parameters
-
[out] sField Solution field [in] integrand Object with problem-specific data and methods [in] npe Number of visualization nodes over each knot span [in] project Flag indicating result recovery method (0=none, 'D'=direct evaluation, 'S'=superconvergent recovery)
The secondary solution is derived from the primary solution, which is assumed to be stored within the integrand for current patch. If npe is null, the solution is recovered or evaluated at the Greville points and then projected onto the spline basis to obtain the control point values, which then are returned through sField. If npe is not null and project is defined, the solution is also projected onto the spline basis, and then evaluated at the npe points.
Reimplemented from ASMbase.
References ASMLRSpline::evalSolution(), utl::matrix< T >::fillColumn(), getGridParameters(), SplineUtils::project(), projectSolution(), utl::matrix< T >::resize(), and scRecovery().
◆ evalSolution() [3/5]
|
virtual |
Evaluates the secondary solution field at the given points.
- Parameters
-
[out] sField Solution field [in] integrand Object with problem-specific data and methods [in] gpar Parameter values of the result sampling points
The secondary solution is derived from the primary solution, which is assumed to be stored within the integrand for current patch. We assume that the parameter value array gpar contains the u, v and w parameters directly for each sampling point.
Reimplemented from ASMbase.
Reimplemented in ASMu3Dmx.
References FiniteElement::basis(), bezierExtract, FiniteElement::d2NdX2, ASMbase::dbgElm, FiniteElement::detJxW, FiniteElement::dNdX, utl::matrixBase< T >::empty(), IntegrandBase::evalSol(), evaluateBasis(), utl::matrix< T >::fillColumn(), ASMLRSpline::getBezierBasis(), getElementCoordinates(), Integrand::getIntegrandType(), utl::Hessian(), utl::Jacobian(), lrspline, ASMbase::MNPC, FiniteElement::N, PROFILE2, utl::matrix< T >::resize(), Integrand::SECOND_DERIVATIVES, utl::vector< T >::size(), ItgPoint::u, ItgPoint::v, and ItgPoint::w.
◆ evalSolution() [4/5]
|
virtual |
Evaluates the primary solution field at all visualization points.
- Parameters
-
[out] sField Solution field [in] locSol Solution vector in DOF-order [in] npe Number of visualization nodes over each knot span [in] n_f If nonzero, mixed evaluates n_f fields on first basis [in] piola If true, use piola mapping
Reimplemented from ASMbase.
References ASMLRSpline::evalSolution(), ASMbase::evalSolutionPiola(), and getGridParameters().
◆ evalSolution() [5/5]
|
virtual |
Evaluates the primary solution field at the given points.
- Parameters
-
[out] sField Solution field [in] locSol Solution vector local to current patch [in] gpar Parameter values of the result sampling points [in] deriv Derivative order to return
Reimplemented from ASMbase.
Reimplemented in ASMu3Dmx.
References SplineUtils::extractBasis(), utl::matrix< T >::fillColumn(), utl::gather(), getElementCoordinates(), getNoNodes(), utl::Hessian(), utl::Jacobian(), lrspline, ASMbase::MNPC, utl::matrix< T >::multiply(), utl::matrix3d< T >::multiply(), PROFILE2, utl::matrix< T >::resize(), and utl::vector< T >::size().
◆ evaluate()
|
virtual |
Evaluates and interpolates a function over a given geometry.
- Parameters
-
[in] func The function to evaluate [out] vec The obtained coefficients after interpolation [in] time Current time
Reimplemented from ASMbase.
References ASMbase::L2projection().
◆ extendRefinementDomain()
|
protectedvirtual |
Extends the refinement domain with information for neighbors.
- Parameters
-
refineIndices List of basis functions to refine neighborIndices Basis functions to refine from neighbor patches
Reimplemented from ASMunstruct.
References getBasis(), GlobalNodes::getBoundaryNodes(), ASMLRSpline::getOverlappingNodes(), and ASM::REFINEMENT_BASIS.
◆ extractElmRes()
|
virtual |
Extracts element results for this patch from a global vector.
- Parameters
-
[in] globRes Global matrix of element results [out] elmRes Element results for this patch [in] internalFirst Global index of first element in the patch
Reimplemented from ASMbase.
References extractElmRes(), ASMbase::extractElmRes(), and outputMaster.
Referenced by extractElmRes().
◆ faceL2projection()
| bool ASMu3D::faceL2projection | ( | const DirichletFace & | face, |
| const FunctionBase & | values, | ||
| Real2DMat & | result, | ||
| double | time | ||
| ) | const |
Projects inhomogenuous dirichlet conditions by continuous L2-fit.
- Parameters
-
[in] face low-level face information needed to do integration [in] values inhomogenuous function which is to be fitted [out] result fitted value in terms of control-point values [in] time time used in dynamic problems
References FunctionBase::dim(), ASMu3D::DirichletFace::edg, ASM::GEOMETRY_BASIS, getBasis(), GaussQuadrature::getCoord(), getGaussPointParameters(), ASMbase::getNoGaussPt(), GaussQuadrature::getWeight(), lrspline, ASMu3D::DirichletFace::MLGE, ASMu3D::DirichletFace::MLGN, and SparseMatrix::resize().
Referenced by updateDirichlet().
◆ findBoundaryElms()
|
protectedvirtual |
Finds the patch-local element numbers on a patch boundary.
- Parameters
-
[out] elms Array of element numbers [in] lIndex Local index of the boundary face [in] orient Orientation of boundary (used for sorting)
Implements ASMbase.
References getBasis(), and getFaceEnum().
◆ findElementContaining()
|
virtual |
◆ findPoint()
|
virtual |
Searches for the specified Cartesian point in the patch.
- Parameters
-
X The Cartesian coordinates of the point, updated on output [out] param The parameters of the point in the knot-span domain
- Returns
- Distance from the point X to the found point
Implements ASMbase.
◆ generateFEMTopology()
|
virtual |
Generates the finite element topology data for the patch.
The data generated are the element-to-node connectivity array, and the arrays of global node and element numbers.
Implements ASMbase.
Reimplemented in ASMu3Dmx.
References createLRfromTensor(), LR::createMNPC(), ASMbase::firstEl, ASMbase::gEl, ASMLRSpline::geomB, ASMbase::gNod, lrspline, ASMbase::MLGN, myBezierExtract, ASMbase::myMLGE, ASMbase::myMLGN, ASMbase::myMNPC, ASMbase::nel, ASMbase::nnod, PROFILE, ASMLRSpline::projB, ASMLRSpline::refB, ASMbase::shareFE, and tensorPrjBas.
◆ generateThreadGroups()
|
virtual |
Generates element groups for multi-threading of interior integrals.
- Parameters
-
[in] integrand Object with problem-specific data and methods [in] silence If true, suppress threading group outprint [in] ignoreGlobalLM If true ignore global multipliers in sanity check
Reimplemented from ASMbase.
Reimplemented in ASMu3Dmx.
References ThreadGroups::analyzeUnstruct(), IFEM::cout, LR::generateThreadGroups(), getBasis(), ASM::PROJECTION_BASIS, ASM::PROJECTION_BASIS_2, ASMLRSpline::projThreadGroups, ThreadGroups::size(), and ASMLRSpline::threadGroups.
◆ getBoundary1Nodes()
|
virtual |
Finds the global (or patch-local) node numbers on a patch boundary.
- Parameters
-
[in] lEdge Local index of the boundary edge nodes Array of node numbers [in] basis Which basis to grab nodes for (for mixed methods) [in] orient Local orientation of indices, see ASMLRSpline::Sort() [in] local If true, return patch-local numbers [in] open If true, exclude edge end points
Reimplemented from ASMbase.
Referenced by constrainEdge().
◆ getBoundaryNodes()
|
virtual |
Finds the global (or patch-local) node numbers on a patch boundary.
- Parameters
-
[in] lIndex Local index of the boundary face nodes Array of node numbers [in] basis Which basis to grab nodes for (for mixed methods) [in] orient Orientation of boundary (used for sorting) [in] local If true, return patch-local node numbers
Implements ASMbase.
References getBasis(), getFaceEnum(), getNoNodes(), ASMbase::idx, and ASMLRSpline::Sort().
Referenced by connectBasis().
◆ getCoord()
|
virtual |
Returns the global coordinates for the given node.
- Parameters
-
[in] inod 1-based node index local to current patch
Implements ASMbase.
Reimplemented in ASMu3Dmx.
References lrspline.
Referenced by connectBasis().
◆ getCorner()
|
virtual |
Returns the node index for a given corner.
- Parameters
-
[in] I -1 or +1 for either umin or umax corner [in] J -1 or +1 for either vmin or vmax corner [in] K -1 or +1 for either wmin or wmax corner [in] basis which basis to consider (for mixed methods)
Implements ASM3D.
References getBasis(), getNoNodes(), and K.
◆ getCornerPoints()
|
protected |
Computes the element corner coordinates and parameters.
- Parameters
-
[in] iel 1-based element index [out] XC Coordinates and parameters of the element corners
References getElementCorners().
◆ getElementCoordinates()
|
virtual |
Returns a matrix with nodal coordinates for an element.
- Parameters
-
[in] iel 1-based element index [out] X 3 \(\times\)n-matrix, where n is the number of nodes in one element [in] forceItg If true return integration basis element coordinates
Implements ASMbase.
References utl::matrix< T >::fillColumn(), ASM::GEOMETRY_BASIS, getBasis(), ASM::INTEGRATION_BASIS, lrspline, and utl::matrix< T >::resize().
Referenced by assembleL2matrices(), ASMu3Dmx::evalSolution(), evalSolution(), integrate(), and ASMu3Dmx::integrate().
◆ getElementCorners()
|
protected |
Computes the element corner coordinates.
- Parameters
-
[in] iel 1-based element index [out] XC Coordinates of the element corners [out] uC Spline parameters of the element corners (optional)
- Returns
- Characteristic element size
References ASM3D::getElementSize(), lrspline, and SplineUtils::toVec3().
Referenced by getCornerPoints(), integrate(), and ASMu3Dmx::integrate().
◆ getElmConnectivities()
|
virtual |
Calculates the matrix of element neighbour connectivities.
- Parameters
-
[out] neighs List of element neighbors for each element [in] basis Basis to obtain connectivities for
Implements ASMbase.
References getBasis(), getFaceEnum(), ASM::INTEGRATION_BASIS, and ASMbase::MLGE.
◆ getGaussPointParameters()
|
protected |
Extracts parameter values of the Gauss points in one direction.
- Parameters
-
[out] uGP Parameter values in given direction for all points [in] dir Parameter direction (0,1,2) [in] nGauss Number of Gauss points along a knot-span [in] iel 1-based element index [in] xi Dimensionless Gauss point coordinates [-1,1] [in] spline If given get gauss points for this spline instead of integration basis
References lrspline, and ASMbase::nGauss.
Referenced by assembleL2matrices(), faceL2projection(), integrate(), and scRecovery().
◆ getGrevilleParameters()
|
protected |
Calculates parameter values for the Greville points.
- Parameters
-
[out] prm Parameter values in given direction for all points [in] dir Parameter direction (0,1,2) [in] basisNum Which basis to get Greville point parameters for
References getBasis().
Referenced by projectSolution(), and scRecovery().
◆ getGridParameters()
|
virtual |
Calculates parameter values for visualization nodal points.
- Parameters
-
[out] prm Parameter values in given direction for all points [in] dir Parameter direction (0,1,2) [in] nSegSpan Number of visualization segments over each knot-span
References ElementBlock::eps, getGridParameters(), lrspline, and outputMaster.
Referenced by evalProjSolution(), evalSolution(), and getGridParameters().
◆ getMinimumSize()
|
virtual |
◆ getNodalCoordinates()
|
virtual |
Returns a matrix with all nodal coordinates within the patch.
- Parameters
-
[out] X 3 \(\times\)n-matrix, where n is the number of nodes in the patch
Implements ASMbase.
References utl::matrix< T >::fillColumn(), lrspline, and utl::matrix< T >::resize().
◆ getOrder()
|
virtual |
Returns the polynomial order in each parameter direction.
- Parameters
-
[out] p1 Order in first (u) direction [out] p2 Order in second (v) direction [out] p3 Order in third (w) direction
Reimplemented from ASMbase.
References lrspline.
Referenced by getNoBouPoints().
◆ getParametricArea()
|
protected |
Returns boundary face area in the parameter space for an element.
- Parameters
-
[in] iel 1-based element index [in] dir Local face index of the boundary face
References lrspline.
Referenced by integrate().
◆ getProjectedField()
Returns a field using the projection basis.
- Parameters
-
[in] coefs The coefficients for the field
Reimplemented from ASMbase.
References getBasis(), getNoProjectionNodes(), ASM::PROJECTION_BASIS, and utl::vector< T >::size().
◆ getProjectedFields()
Returns a field using the projection basis.
- Parameters
-
[in] coefs The coefficients for the field
Reimplemented from ASMbase.
References getBasis(), getNoProjectionNodes(), ASM::PROJECTION_BASIS, and utl::vector< T >::size().
Referenced by evalProjSolution().
◆ getQuasiInterplParameters()
|
protected |
Calculates parameter values for the Quasi-Interpolation points.
- Parameters
-
[out] prm Parameter values in given direction for all points [in] dir Parameter direction (0,1,2)
◆ integrate() [1/2]
|
virtual |
Evaluates an integral over the interior patch domain.
- Parameters
-
integrand Object with problem-specific data and methods glbInt The integrated quantity [in] time Parameters for nonlinear/time-dependent simulations
Implements ASMbase.
Reimplemented in ASMu3Dmx.
References utl::vector< T >::add(), GlobalIntegral::assemble(), Vec4::assign(), Integrand::AVERAGE, ASM::cachePolicy, BasisFunctionCache< Dim >::clear(), BasisFunctionCache< Dim >::coord(), BasisFunctionVals::d2Ndu2, FiniteElement::d2NdX2, ASMbase::dbgElm, LocalIntegral::destruct(), FiniteElement::detJxW, BasisFunctionVals::dNdu, FiniteElement::dNdX, Integrand::ELEMENT_CENTER, Integrand::ELEMENT_CORNERS, ItgPoint::eta, Integrand::evalInt(), Integrand::finalizeElement(), ASMbase::firstEl, ASMbase::firstIp, FiniteElement::G, Integrand::G_MATRIX, getElementCoordinates(), getElementCorners(), utl::getGmat(), Integrand::getIntegrandType(), Integrand::getLocalIntegral(), BasisFunctionCache< Dim >::getParam(), BasisFunctionCache< Dim >::getVals(), FiniteElement::h, utl::Hessian(), ItgPoint::idx, ItgPoint::iel, ItgPoint::iGP, BasisFunctionCache< Dim >::init(), Integrand::initElement(), utl::Jacobian(), lrspline, ASMbase::MLGE, ASMbase::MNPC, myCache, ASMbase::myElms, BasisFunctionVals::N, FiniteElement::N, FiniteElement::Navg, ASMbase::nel, BasisFunctionCache< Dim >::nGauss(), ThreadGroups::oneGroup(), FiniteElement::p, ASM::PRE_CACHE, PROFILE2, PROFILE3, FiniteElement::q, FiniteElement::r, Integrand::reducedInt(), LocalIntegral::ref(), utl::vector< T >::resize(), Integrand::SECOND_DERIVATIVES, BasisFunctionCache< Dim >::setIntegrand(), TimeDomain::t, ASMLRSpline::threadGroups, GlobalIntegral::threadSafe(), SplineUtils::toVec3(), ItgPoint::u, ItgPoint::v, ItgPoint::w, BasisFunctionCache< Dim >::weight(), FiniteElement::XC, ItgPoint::xi, and ItgPoint::zeta.
◆ integrate() [2/2]
|
virtual |
Evaluates a boundary integral over a patch face.
- Parameters
-
integrand Object with problem-specific data and methods [in] lIndex Local index [1,6] of the boundary face glbInt The integrated quantity [in] time Parameters for nonlinear/time-dependent simulations
Implements ASMbase.
Reimplemented in ASMu3Dmx.
References GlobalIntegral::assemble(), Vec4::assign(), ASMbase::dbgElm, LocalIntegral::destruct(), FiniteElement::detJxW, FiniteElement::dNdX, Integrand::ELEMENT_CORNERS, ItgPoint::eta, Integrand::evalBou(), evaluateBasis(), Integrand::finalizeElementBou(), ASMbase::firstBp, ASMbase::firstEl, FiniteElement::G, Integrand::G_MATRIX, Integrand::getBouIntegrationPoints(), GaussQuadrature::getCoord(), getElementCoordinates(), getElementCorners(), getFaceEnum(), getGaussPointParameters(), utl::getGmat(), Integrand::getIntegrandType(), Integrand::getLocalIntegral(), ASMbase::getNoGaussPt(), getParametricArea(), GaussQuadrature::getWeight(), FiniteElement::h, ItgPoint::idx, ItgPoint::iel, ItgPoint::iGP, Integrand::initElementBou(), ASMbase::isElementInPartition(), utl::Jacobian(), lrspline, ASMbase::MLGE, ASMbase::MNPC, ASMbase::myElms, FiniteElement::p, PROFILE2, FiniteElement::q, FiniteElement::r, LocalIntegral::ref(), Integrand::setNeumannOrder(), TimeDomain::t, ItgPoint::u, ItgPoint::v, ItgPoint::w, FiniteElement::XC, ItgPoint::xi, and ItgPoint::zeta.
◆ integrateEdge()
|
virtual |
Evaluates a boundary integral over a patch edge.
- Parameters
-
integrand Object with problem-specific data and methods [in] lEdge Local index [1,12] of the patch edge glbInt The integrated quantity [in] time Parameters for nonlinear/time-dependent simulations
Reimplemented from ASMbase.
◆ projectSolution()
|
protected |
Projects the secondary solution field onto the primary basis.
- Parameters
-
[in] integrand Object with problem-specific data and methods
References ASMLRSpline::evalSolution(), getGrevilleParameters(), PROFILE2, and regularInterpolation().
Referenced by evalSolution().
◆ raiseOrder()
|
virtual |
Raises the order of the tensor spline object for this patch.
- Parameters
-
[in] ru Number of times to raise the order in u-direction [in] rv Number of times to raise the order in v-direction [in] rw Number of times to raise the order in w-direction [in] setOrder If true, raise order to ru, rv and rw
Implements ASM3D.
References ASMbase::shareFE, and tensorspline.
◆ refine() [1/3]
| bool ASMLRSpline::refine |
Refines the mesh adaptively.
- Parameters
-
[in] prm Input data used to control the mesh refinement sol Control point results values that are transferred to new mesh
◆ refine() [2/3]
|
virtual |
Refines the mesh adaptively.
- Parameters
-
[in] prm Input data used to control the mesh refinement sol Control point results values that are transferred to new mesh
Reimplemented from ASMLRSpline.
Reimplemented in ASMu3Dmx.
References IFEM::cout, LR::RefineData::elements, LR::RefineData::errors, getBasis(), lrspline, ASM::PROJECTION_BASIS, ASMLRSpline::refine(), and separateProjectionBasis().
◆ refine() [3/3]
|
virtual |
Refines the parametrization by inserting extra tensor knots.
- Parameters
-
[in] dir Parameter direction to refine [in] xi Relative positions of added knots in each existing knot span
References ASMbase::shareFE, and tensorspline.
◆ regularInterpolation()
|
protected |
Interpolates an LR spline at a given set of parametric coordinates.
- Parameters
-
[in] upar Parametric interpolation points in the u-direction [in] vpar Parametric interpolation points in the v-direction [in] wpar Parametric interpolation points in the v-direction [in] points Interpolation values stored as one point per matrix row [in] basis Which basis to interpolate onto
- Returns
- A LRSplineVolume representation of the interpolated points
References utl::matrix< T >::cols(), StdVector::dim(), getBasis(), utl::interleave(), lrspline, SparseMatrix::resize(), utl::matrix< T >::rows(), and SparseMatrix::solve().
Referenced by projectSolution(), and scRecovery().
◆ remapErrors()
|
protectedvirtual |
Remap element wise errors to basis functions.
- Parameters
-
errors The remapped errors [in] origErr The element wise errors on the geometry mesh [in] elemErrors If true, map to elements instead of basis functions
Reimplemented from ASMunstruct.
Reimplemented in ASMu3Dmx.
References getBasis().
◆ scRecovery()
|
protected |
Projects the secondary solution using a superconvergent approach.
- Parameters
-
[in] integrand Object with problem-specific data and methods
References IntegrandBase::derivativeOrder(), evalMonomials(), ASMLRSpline::evalSolution(), expandTensorGrid(), GaussQuadrature::getCoord(), getGaussPointParameters(), getGrevilleParameters(), IntegrandBase::getNoFields(), lrspline, PROFILE2, regularInterpolation(), and DenseMatrix::solve().
Referenced by evalSolution().
◆ setOutputMaster()
|
inline |
◆ tesselate()
|
virtual |
Creates a hexahedron element model of this patch for visualization.
- Parameters
-
[out] grid The generated hexahedron grid [in] npe Number of visualization nodes over each knot span
- Note
- The number of element nodes must be set in grid on input.
Each nodal point in grid is generated once for each element using it. This results in a lot of unnecessary duplicates (if ElementBlock::eps is 0.0), but is preferable instead of figuring out all element topology information.
Setting ElementBlock::eps > 0.0 will handle the case of internal C-1 continuities automatically, in that result quantities along the discontinuity will not be unique.
Implements ASMbase.
References ElementBlock::eps, lrspline, ASMbase::nsd, ElementBlock::setCoor(), ElementBlock::setElmId(), ElementBlock::setNode(), ElementBlock::setParams(), SplineUtils::toVec3(), and ElementBlock::unStructResize().
◆ transferCntrlPtVars() [1/3]
|
virtual |
Transfers control point variables from old basis to this patch.
- Parameters
-
[in] old_basis The LR-spline basis to transfer from [out] newVar Gauss point variables associated with this patch [in] nGauss Number of Gauss points along a knot-span
Implements ASMLRSpline.
◆ transferCntrlPtVars() [2/3]
| virtual bool ASMLRSpline::transferCntrlPtVars |
Transfers control point variables from old basis to this patch.
- Parameters
-
[in] oldBasis The LR-spline basis to transfer from [out] newVar Gauss point variables associated with this patch [in] nGauss Number of Gauss points along a knot-span
◆ transferCntrlPtVars() [3/3]
| bool ASMLRSpline::transferCntrlPtVars |
Transfers control point variables from old basis to this patch.
- Parameters
-
[in] oldBasis The LR-spline basis to transfer from [in] oldVar Control point variables associated with oldBasis [out] newVar Gauss point variables associated with this patch [in] nGauss Number of Gauss points along a knot-span [in] nf Number of field components
◆ transferGaussPtVars()
|
virtual |
Transfers Gauss point variables from old basis to this patch.
- Parameters
-
[in] old_basis The LR-spline basis to transfer from [in] oldVar Gauss point variables associated with oldBasis [out] newVar Gauss point variables associated with this patch [in] nGauss Number of Gauss points along a knot-span
Implements ASMLRSpline.
◆ transferGaussPtVarsN()
|
virtual |
Transfers Gauss point variables from old basis to this patch.
- Parameters
-
[in] old_basis The LR-spline basis to transfer from [in] oldVar Gauss point variables associated with oldBasis [out] newVar Gauss point variables associated with this patch [in] nGauss Number of Gauss points along a knot-span
Implements ASMLRSpline.
◆ uniformRefine()
|
virtual |
Refines the parametrization by inserting tensor knots uniformly.
- Parameters
-
[in] dir Parameter direction to refine [in] nInsert Number of extra knots to insert in each knot-span
Implements ASM3D.
References ASMbase::shareFE, and tensorspline.
◆ updateCoords()
|
virtual |
Updates the nodal coordinates for this patch.
- Parameters
-
[in] displ Incremental displacements to update the coordinates with
Implements ASMbase.
◆ updateDirichlet()
|
virtual |
Updates the time-dependent in-homogeneous Dirichlet coefficients.
- Parameters
-
[in] func Scalar property fields [in] vfunc Vector property fields [in] time Current time [in] g2l Pointer to global-to-local node number mapping
Reimplemented from ASMbase.
References dirich, faceL2projection(), ASMbase::MLGN, ASMbase::mpcs, and ASMbase::updateDirichlet().
The documentation for this class was generated from the following files:
- src/ASM/LR/ASMu3D.h
- src/ASM/LR/ASMu3D.C
- src/ASM/LR/ASMu3Drecovery.C
