MFEM
v4.4.0
Finite element discretization library
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Class for grid function - Vector with associated FE space. More...
#include <gridfunc.hpp>
Public Types | |
enum | AvgType { ARITHMETIC, HARMONIC } |
Public Member Functions | |
GridFunction () | |
GridFunction (const GridFunction &orig) | |
Copy constructor. The internal true-dof vector t_vec is not copied. More... | |
GridFunction (FiniteElementSpace *f) | |
Construct a GridFunction associated with the FiniteElementSpace *f. More... | |
GridFunction (FiniteElementSpace *f, double *data) | |
Construct a GridFunction using previously allocated array data. More... | |
GridFunction (FiniteElementSpace *f, Vector &base, int base_offset=0) | |
Construct a GridFunction using previously allocated Vector base starting at the given offset, base_offset. More... | |
GridFunction (Mesh *m, std::istream &input) | |
Construct a GridFunction on the given Mesh, using the data from input. More... | |
GridFunction (Mesh *m, GridFunction *gf_array[], int num_pieces) | |
GridFunction & | operator= (const GridFunction &rhs) |
Copy assignment. Only the data of the base class Vector is copied. More... | |
void | MakeOwner (FiniteElementCollection *fec_) |
Make the GridFunction the owner of fec and fes. More... | |
FiniteElementCollection * | OwnFEC () |
int | VectorDim () const |
int | CurlDim () const |
const Vector & | GetTrueVector () const |
Read only access to the (optional) internal true-dof Vector. More... | |
Vector & | GetTrueVector () |
Read and write access to the (optional) internal true-dof Vector. More... | |
void | GetTrueDofs (Vector &tv) const |
Extract the true-dofs from the GridFunction. More... | |
void | SetTrueVector () |
Shortcut for calling GetTrueDofs() with GetTrueVector() as argument. More... | |
virtual void | SetFromTrueDofs (const Vector &tv) |
Set the GridFunction from the given true-dof vector. More... | |
void | SetFromTrueVector () |
Shortcut for calling SetFromTrueDofs() with GetTrueVector() as argument. More... | |
void | GetNodalValues (int i, Array< double > &nval, int vdim=1) const |
Returns the values in the vertices of i'th element for dimension vdim. More... | |
void | GetLaplacians (int i, const IntegrationRule &ir, Vector &laps, int vdim=1) const |
void | GetLaplacians (int i, const IntegrationRule &ir, Vector &laps, DenseMatrix &tr, int vdim=1) const |
void | GetHessians (int i, const IntegrationRule &ir, DenseMatrix &hess, int vdim=1) const |
void | GetHessians (int i, const IntegrationRule &ir, DenseMatrix &hess, DenseMatrix &tr, int vdim=1) const |
void | GetValuesFrom (const GridFunction &orig_func) |
void | GetBdrValuesFrom (const GridFunction &orig_func) |
void | GetVectorFieldValues (int i, const IntegrationRule &ir, DenseMatrix &vals, DenseMatrix &tr, int comp=0) const |
void | ReorderByNodes () |
For a vector grid function, makes sure that the ordering is byNODES. More... | |
void | GetNodalValues (Vector &nval, int vdim=1) const |
Return the values as a vector on mesh vertices for dimension vdim. More... | |
void | GetVectorFieldNodalValues (Vector &val, int comp) const |
void | ProjectVectorFieldOn (GridFunction &vec_field, int comp=0) |
void | GetDerivative (int comp, int der_comp, GridFunction &der) |
Compute a certain derivative of a function's component. Derivatives of the function are computed at the DOF locations of der, and averaged over overlapping DOFs. Thus this function projects the derivative to the FiniteElementSpace of der. More... | |
double | GetDivergence (ElementTransformation &tr) const |
void | GetCurl (ElementTransformation &tr, Vector &curl) const |
void | GetGradient (ElementTransformation &tr, Vector &grad) const |
void | GetGradients (ElementTransformation &tr, const IntegrationRule &ir, DenseMatrix &grad) const |
void | GetGradients (const int elem, const IntegrationRule &ir, DenseMatrix &grad) const |
void | GetVectorGradient (ElementTransformation &tr, DenseMatrix &grad) const |
void | GetElementAverages (GridFunction &avgs) const |
virtual void | GetElementDofValues (int el, Vector &dof_vals) const |
void | ImposeBounds (int i, const Vector &weights, const Vector &lo_, const Vector &hi_) |
void | ImposeBounds (int i, const Vector &weights, double min_=0.0, double max_=infinity()) |
void | RestrictConforming () |
void | ProjectGridFunction (const GridFunction &src) |
Project the src GridFunction to this GridFunction, both of which must be on the same mesh. More... | |
virtual void | ProjectCoefficient (Coefficient &coeff) |
Project coeff Coefficient to this GridFunction. The projection computation depends on the choice of the FiniteElementSpace fes. Note that this is usually interpolation at the degrees of freedom in each element (not L2 projection). More... | |
void | ProjectCoefficient (Coefficient &coeff, Array< int > &dofs, int vd=0) |
Project coeff Coefficient to this GridFunction, using one element for each degree of freedom in dofs and nodal interpolation on that element. More... | |
void | ProjectCoefficient (VectorCoefficient &vcoeff) |
Project vcoeff VectorCoefficient to this GridFunction. The projection computation depends on the choice of the FiniteElementSpace fes. Note that this is usually interpolation at the degrees of freedom in each element (not L2 projection). More... | |
void | ProjectCoefficient (VectorCoefficient &vcoeff, Array< int > &dofs) |
Project vcoeff VectorCoefficient to this GridFunction, using one element for each degree of freedom in dofs and nodal interpolation on that element. More... | |
void | ProjectCoefficient (VectorCoefficient &vcoeff, int attribute) |
Project vcoeff VectorCoefficient to this GridFunction, only projecting onto elements with the given attribute. More... | |
void | ProjectCoefficient (Coefficient *coeff[]) |
Analogous to the version with argument vcoeff VectorCoefficient but using an array of scalar coefficients for each component. More... | |
virtual void | ProjectDiscCoefficient (VectorCoefficient &coeff) |
Project a discontinuous vector coefficient as a grid function on a continuous finite element space. The values in shared dofs are determined from the element with maximal attribute. More... | |
virtual void | ProjectDiscCoefficient (Coefficient &coeff, AvgType type) |
Projects a discontinuous coefficient so that the values in shared vdofs are computed by taking an average of the possible values. More... | |
virtual void | ProjectDiscCoefficient (VectorCoefficient &coeff, AvgType type) |
Projects a discontinuous vector coefficient so that the values in shared vdofs are computed by taking an average of the possible values. More... | |
void | ProjectBdrCoefficient (Coefficient &coeff, Array< int > &attr) |
Project a Coefficient on the GridFunction, modifying only DOFs on the boundary associated with the boundary attributes marked in the attr array. More... | |
virtual void | ProjectBdrCoefficient (VectorCoefficient &vcoeff, Array< int > &attr) |
Project a VectorCoefficient on the GridFunction, modifying only DOFs on the boundary associated with the boundary attributes marked in the attr array. More... | |
virtual void | ProjectBdrCoefficient (Coefficient *coeff[], Array< int > &attr) |
Project a set of Coefficients on the components of the GridFunction, modifying only DOFs on the boundary associated with the boundary attributed marked in the attr array. More... | |
void | ProjectBdrCoefficientNormal (VectorCoefficient &vcoeff, Array< int > &bdr_attr) |
virtual void | ProjectBdrCoefficientTangent (VectorCoefficient &vcoeff, Array< int > &bdr_attr) |
Project the tangential components of the given VectorCoefficient on the boundary. Only boundary attributes that are marked in bdr_attr are projected. Assumes ND-type VectorFE GridFunction. More... | |
virtual double | ComputeL2Error (Coefficient &exsol, const IntegrationRule *irs[]=NULL) const |
virtual double | ComputeL2Error (Coefficient *exsol[], const IntegrationRule *irs[]=NULL) const |
virtual double | ComputeL2Error (VectorCoefficient &exsol, const IntegrationRule *irs[]=NULL, Array< int > *elems=NULL) const |
virtual double | ComputeGradError (VectorCoefficient *exgrad, const IntegrationRule *irs[]=NULL) const |
Returns ||grad u_ex - grad u_h||_L2 for H1 or L2 elements. More... | |
virtual double | ComputeCurlError (VectorCoefficient *excurl, const IntegrationRule *irs[]=NULL) const |
Returns ||curl u_ex - curl u_h||_L2 for ND elements. More... | |
virtual double | ComputeDivError (Coefficient *exdiv, const IntegrationRule *irs[]=NULL) const |
Returns ||div u_ex - div u_h||_L2 for RT elements. More... | |
virtual double | ComputeDGFaceJumpError (Coefficient *exsol, Coefficient *ell_coeff, class JumpScaling jump_scaling, const IntegrationRule *irs[]=NULL) const |
MFEM_DEPRECATED double | ComputeDGFaceJumpError (Coefficient *exsol, Coefficient *ell_coeff, double Nu, const IntegrationRule *irs[]=NULL) const |
Returns the Face Jumps error for L2 elements, with 1/h scaling. More... | |
virtual double | ComputeH1Error (Coefficient *exsol, VectorCoefficient *exgrad, Coefficient *ell_coef, double Nu, int norm_type) const |
virtual double | ComputeH1Error (Coefficient *exsol, VectorCoefficient *exgrad, const IntegrationRule *irs[]=NULL) const |
virtual double | ComputeHDivError (VectorCoefficient *exsol, Coefficient *exdiv, const IntegrationRule *irs[]=NULL) const |
Returns the error measured in H(div)-norm for RT elements. More... | |
virtual double | ComputeHCurlError (VectorCoefficient *exsol, VectorCoefficient *excurl, const IntegrationRule *irs[]=NULL) const |
Returns the error measured in H(curl)-norm for ND elements. More... | |
virtual double | ComputeMaxError (Coefficient &exsol, const IntegrationRule *irs[]=NULL) const |
virtual double | ComputeMaxError (Coefficient *exsol[], const IntegrationRule *irs[]=NULL) const |
virtual double | ComputeMaxError (VectorCoefficient &exsol, const IntegrationRule *irs[]=NULL) const |
virtual double | ComputeL1Error (Coefficient &exsol, const IntegrationRule *irs[]=NULL) const |
virtual double | ComputeW11Error (Coefficient *exsol, VectorCoefficient *exgrad, int norm_type, Array< int > *elems=NULL, const IntegrationRule *irs[]=NULL) const |
virtual double | ComputeL1Error (VectorCoefficient &exsol, const IntegrationRule *irs[]=NULL) const |
virtual double | ComputeLpError (const double p, Coefficient &exsol, Coefficient *weight=NULL, const IntegrationRule *irs[]=NULL) const |
virtual void | ComputeElementLpErrors (const double p, Coefficient &exsol, Vector &error, Coefficient *weight=NULL, const IntegrationRule *irs[]=NULL) const |
virtual void | ComputeElementL1Errors (Coefficient &exsol, Vector &error, const IntegrationRule *irs[]=NULL) const |
virtual void | ComputeElementL2Errors (Coefficient &exsol, Vector &error, const IntegrationRule *irs[]=NULL) const |
virtual void | ComputeElementMaxErrors (Coefficient &exsol, Vector &error, const IntegrationRule *irs[]=NULL) const |
virtual double | ComputeLpError (const double p, VectorCoefficient &exsol, Coefficient *weight=NULL, VectorCoefficient *v_weight=NULL, const IntegrationRule *irs[]=NULL) const |
virtual void | ComputeElementLpErrors (const double p, VectorCoefficient &exsol, Vector &error, Coefficient *weight=NULL, VectorCoefficient *v_weight=NULL, const IntegrationRule *irs[]=NULL) const |
virtual void | ComputeElementL1Errors (VectorCoefficient &exsol, Vector &error, const IntegrationRule *irs[]=NULL) const |
virtual void | ComputeElementL2Errors (VectorCoefficient &exsol, Vector &error, const IntegrationRule *irs[]=NULL) const |
virtual void | ComputeElementMaxErrors (VectorCoefficient &exsol, Vector &error, const IntegrationRule *irs[]=NULL) const |
virtual void | ComputeFlux (BilinearFormIntegrator &blfi, GridFunction &flux, bool wcoef=true, int subdomain=-1) |
GridFunction & | operator= (double value) |
Redefine '=' for GridFunction = constant. More... | |
GridFunction & | operator= (const Vector &v) |
Copy the data from v. More... | |
virtual void | Update () |
Transform by the Space UpdateMatrix (e.g., on Mesh change). More... | |
FiniteElementSpace * | FESpace () |
const FiniteElementSpace * | FESpace () const |
virtual void | SetSpace (FiniteElementSpace *f) |
Associate a new FiniteElementSpace with the GridFunction. More... | |
virtual void | MakeRef (FiniteElementSpace *f, double *v) |
Make the GridFunction reference external data on a new FiniteElementSpace. More... | |
virtual void | MakeRef (FiniteElementSpace *f, Vector &v, int v_offset) |
Make the GridFunction reference external data on a new FiniteElementSpace. More... | |
void | MakeTRef (FiniteElementSpace *f, double *tv) |
Associate a new FiniteElementSpace and new true-dof data with the GridFunction. More... | |
void | MakeTRef (FiniteElementSpace *f, Vector &tv, int tv_offset) |
Associate a new FiniteElementSpace and new true-dof data with the GridFunction. More... | |
virtual void | Save (std::ostream &out) const |
Save the GridFunction to an output stream. More... | |
virtual void | Save (const char *fname, int precision=16) const |
virtual void | Save (adios2stream &out, const std::string &variable_name, const adios2stream::data_type type=adios2stream::data_type::point_data) const |
Save the GridFunction to a binary output stream using adios2 bp format. More... | |
void | SaveVTK (std::ostream &out, const std::string &field_name, int ref) |
Write the GridFunction in VTK format. Note that Mesh::PrintVTK must be called first. The parameter ref > 0 must match the one used in Mesh::PrintVTK. More... | |
void | SaveSTL (std::ostream &out, int TimesToRefine=1) |
Write the GridFunction in STL format. Note that the mesh dimension must be 2 and that quad elements will be broken into two triangles. More... | |
virtual | ~GridFunction () |
Destroys grid function. More... | |
Element index Get Value Methods | |
These methods take an element index and return the interpolated value of the field at a given reference point within the element.
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virtual double | GetValue (int i, const IntegrationPoint &ip, int vdim=1) const |
virtual void | GetVectorValue (int i, const IntegrationPoint &ip, Vector &val) const |
Element Index Get Values Methods | |
These are convenience methods for repeatedly calling GetValue for multiple points within a given element. The GetValues methods are optimized and should perform better than repeatedly calling GetValue. The GetVectorValues method simply calls GetVectorValue repeatedly.
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void | GetValues (int i, const IntegrationRule &ir, Vector &vals, int vdim=1) const |
void | GetValues (int i, const IntegrationRule &ir, Vector &vals, DenseMatrix &tr, int vdim=1) const |
void | GetVectorValues (int i, const IntegrationRule &ir, DenseMatrix &vals, DenseMatrix &tr) const |
ElementTransformation Get Value Methods | |
These member functions are designed for use within GridFunctionCoefficient objects. These can be used with ElementTransformation objects coming from either Mesh::GetElementTransformation() or Mesh::GetBdrElementTransformation().
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virtual double | GetValue (ElementTransformation &T, const IntegrationPoint &ip, int comp=0, Vector *tr=NULL) const |
virtual void | GetVectorValue (ElementTransformation &T, const IntegrationPoint &ip, Vector &val, Vector *tr=NULL) const |
ElementTransformation Get Values Methods | |
These are convenience methods for repeatedly calling GetValue for multiple points within a given element. They work by calling either the ElementTransformation or FaceElementTransformations versions described above. Consequently, these methods should not be expected to run faster than calling the above methods in an external loop.
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void | GetValues (ElementTransformation &T, const IntegrationRule &ir, Vector &vals, int comp=0, DenseMatrix *tr=NULL) const |
void | GetVectorValues (ElementTransformation &T, const IntegrationRule &ir, DenseMatrix &vals, DenseMatrix *tr=NULL) const |
Face Index Get Values Methods | |
These methods are designed to work with Discontinuous Galerkin basis functions. They compute field values on the interface between elements, or on boundary elements, by interpolating the field in a neighboring element. The side argument indices which neighboring element should be used: 0, 1, or 2 (automatically chosen).
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int | GetFaceValues (int i, int side, const IntegrationRule &ir, Vector &vals, DenseMatrix &tr, int vdim=1) const |
int | GetFaceVectorValues (int i, int side, const IntegrationRule &ir, DenseMatrix &vals, DenseMatrix &tr) const |
Public Member Functions inherited from mfem::Vector | |
Vector () | |
Vector (const Vector &) | |
Copy constructor. Allocates a new data array and copies the data. More... | |
Vector (Vector &&v) | |
Move constructor. "Steals" data from its argument. More... | |
Vector (int s) | |
Creates vector of size s. More... | |
Vector (double *data_, int size_) | |
Creates a vector referencing an array of doubles, owned by someone else. More... | |
Vector (Vector &base, int base_offset, int size_) | |
Create a Vector referencing a sub-vector of the Vector base starting at the given offset, base_offset, and size size_. More... | |
Vector (int size_, MemoryType mt) | |
Create a Vector of size size_ using MemoryType mt. More... | |
Vector (int size_, MemoryType h_mt, MemoryType d_mt) | |
Create a Vector of size size_ using host MemoryType h_mt and device MemoryType d_mt. More... | |
template<int N> | |
Vector (const double(&values)[N]) | |
Create a vector using a braced initializer list. More... | |
virtual void | UseDevice (bool use_dev) const |
Enable execution of Vector operations using the mfem::Device. More... | |
virtual bool | UseDevice () const |
Return the device flag of the Memory object used by the Vector. More... | |
void | Load (std::istream **in, int np, int *dim) |
Reads a vector from multiple files. More... | |
void | Load (std::istream &in, int Size) |
Load a vector from an input stream. More... | |
void | Load (std::istream &in) |
Load a vector from an input stream, reading the size from the stream. More... | |
void | SetSize (int s) |
Resize the vector to size s. More... | |
void | SetSize (int s, MemoryType mt) |
Resize the vector to size s using MemoryType mt. More... | |
void | SetSize (int s, Vector &v) |
Resize the vector to size s using the MemoryType of v. More... | |
void | SetData (double *d) |
void | SetDataAndSize (double *d, int s) |
Set the Vector data and size. More... | |
void | NewDataAndSize (double *d, int s) |
Set the Vector data and size, deleting the old data, if owned. More... | |
void | NewMemoryAndSize (const Memory< double > &mem, int s, bool own_mem) |
Reset the Vector to use the given external Memory mem and size s. More... | |
void | MakeRef (Vector &base, int offset, int size) |
Reset the Vector to be a reference to a sub-vector of base. More... | |
void | MakeRef (Vector &base, int offset) |
Reset the Vector to be a reference to a sub-vector of base without changing its current size. More... | |
void | MakeDataOwner () const |
Set the Vector data (host pointer) ownership flag. More... | |
void | Destroy () |
Destroy a vector. More... | |
void | DeleteDevice (bool copy_to_host=true) |
Delete the device pointer, if owned. If copy_to_host is true and the data is valid only on device, move it to host before deleting. Invalidates the device memory. More... | |
int | Size () const |
Returns the size of the vector. More... | |
int | Capacity () const |
Return the size of the currently allocated data array. More... | |
double * | GetData () const |
Return a pointer to the beginning of the Vector data. More... | |
operator double * () | |
Conversion to double * . More... | |
operator const double * () const | |
Conversion to const double * . More... | |
double * | begin () |
STL-like begin. More... | |
double * | end () |
STL-like end. More... | |
const double * | begin () const |
STL-like begin (const version). More... | |
const double * | end () const |
STL-like end (const version). More... | |
Memory< double > & | GetMemory () |
Return a reference to the Memory object used by the Vector. More... | |
const Memory< double > & | GetMemory () const |
Return a reference to the Memory object used by the Vector, const version. More... | |
void | SyncMemory (const Vector &v) const |
Update the memory location of the vector to match v. More... | |
void | SyncAliasMemory (const Vector &v) const |
Update the alias memory location of the vector to match v. More... | |
bool | OwnsData () const |
Read the Vector data (host pointer) ownership flag. More... | |
void | StealData (double **p) |
Changes the ownership of the data; after the call the Vector is empty. More... | |
double * | StealData () |
Changes the ownership of the data; after the call the Vector is empty. More... | |
double & | Elem (int i) |
Access Vector entries. Index i = 0 .. size-1. More... | |
const double & | Elem (int i) const |
Read only access to Vector entries. Index i = 0 .. size-1. More... | |
double & | operator() (int i) |
Access Vector entries using () for 0-based indexing. More... | |
const double & | operator() (int i) const |
Read only access to Vector entries using () for 0-based indexing. More... | |
double | operator* (const double *) const |
Dot product with a double * array. More... | |
double | operator* (const Vector &v) const |
Return the inner-product. More... | |
Vector & | operator= (const double *v) |
Copy Size() entries from v. More... | |
Vector & | operator= (const Vector &v) |
Copy assignment. More... | |
Vector & | operator= (Vector &&v) |
Move assignment. More... | |
Vector & | operator= (double value) |
Redefine '=' for vector = constant. More... | |
Vector & | operator*= (double c) |
Vector & | operator*= (const Vector &v) |
Component-wise scaling: (*this)(i) *= v(i) More... | |
Vector & | operator/= (double c) |
Vector & | operator/= (const Vector &v) |
Component-wise division: (*this)(i) /= v(i) More... | |
Vector & | operator-= (double c) |
Vector & | operator-= (const Vector &v) |
Vector & | operator+= (double c) |
Vector & | operator+= (const Vector &v) |
Vector & | Add (const double a, const Vector &Va) |
(*this) += a * Va More... | |
Vector & | Set (const double a, const Vector &x) |
(*this) = a * x More... | |
void | SetVector (const Vector &v, int offset) |
void | Neg () |
(*this) = -(*this) More... | |
void | Swap (Vector &other) |
Swap the contents of two Vectors. More... | |
void | median (const Vector &lo, const Vector &hi) |
v = median(v,lo,hi) entrywise. Implementation assumes lo <= hi. More... | |
void | GetSubVector (const Array< int > &dofs, Vector &elemvect) const |
Extract entries listed in dofs to the output Vector elemvect. More... | |
void | GetSubVector (const Array< int > &dofs, double *elem_data) const |
Extract entries listed in dofs to the output array elem_data. More... | |
void | SetSubVector (const Array< int > &dofs, const double value) |
Set the entries listed in dofs to the given value. More... | |
void | SetSubVector (const Array< int > &dofs, const Vector &elemvect) |
Set the entries listed in dofs to the values given in the elemvect Vector. Negative dof values cause the -dof-1 position in this Vector to receive the -val from elemvect. More... | |
void | SetSubVector (const Array< int > &dofs, double *elem_data) |
Set the entries listed in dofs to the values given the , elem_data array. Negative dof values cause the -dof-1 position in this Vector to receive the -val from elem_data. More... | |
void | AddElementVector (const Array< int > &dofs, const Vector &elemvect) |
Add elements of the elemvect Vector to the entries listed in dofs. Negative dof values cause the -dof-1 position in this Vector to add the -val from elemvect. More... | |
void | AddElementVector (const Array< int > &dofs, double *elem_data) |
Add elements of the elem_data array to the entries listed in dofs. Negative dof values cause the -dof-1 position in this Vector to add the -val from elem_data. More... | |
void | AddElementVector (const Array< int > &dofs, const double a, const Vector &elemvect) |
Add times the elements of the elemvect Vector to the entries listed in dofs. Negative dof values cause the -dof-1 position in this Vector to add the -a*val from elemvect. More... | |
void | SetSubVectorComplement (const Array< int > &dofs, const double val) |
Set all vector entries NOT in the dofs Array to the given val. More... | |
void | Print (std::ostream &out=mfem::out, int width=8) const |
Prints vector to stream out. More... | |
void | Print (adios2stream &out, const std::string &variable_name) const |
void | Print_HYPRE (std::ostream &out) const |
Prints vector to stream out in HYPRE_Vector format. More... | |
void | PrintHash (std::ostream &out) const |
Print the Vector size and hash of its data. More... | |
void | Randomize (int seed=0) |
Set random values in the vector. More... | |
double | Norml2 () const |
Returns the l2 norm of the vector. More... | |
double | Normlinf () const |
Returns the l_infinity norm of the vector. More... | |
double | Norml1 () const |
Returns the l_1 norm of the vector. More... | |
double | Normlp (double p) const |
Returns the l_p norm of the vector. More... | |
double | Max () const |
Returns the maximal element of the vector. More... | |
double | Min () const |
Returns the minimal element of the vector. More... | |
double | Sum () const |
Return the sum of the vector entries. More... | |
double | DistanceSquaredTo (const double *p) const |
Compute the square of the Euclidean distance to another vector. More... | |
double | DistanceTo (const double *p) const |
Compute the Euclidean distance to another vector. More... | |
int | CheckFinite () const |
Count the number of entries in the Vector for which isfinite is false, i.e. the entry is a NaN or +/-Inf. More... | |
virtual | ~Vector () |
Destroys vector. More... | |
virtual const double * | Read (bool on_dev=true) const |
Shortcut for mfem::Read(vec.GetMemory(), vec.Size(), on_dev). More... | |
virtual const double * | HostRead () const |
Shortcut for mfem::Read(vec.GetMemory(), vec.Size(), false). More... | |
virtual double * | Write (bool on_dev=true) |
Shortcut for mfem::Write(vec.GetMemory(), vec.Size(), on_dev). More... | |
virtual double * | HostWrite () |
Shortcut for mfem::Write(vec.GetMemory(), vec.Size(), false). More... | |
virtual double * | ReadWrite (bool on_dev=true) |
Shortcut for mfem::ReadWrite(vec.GetMemory(), vec.Size(), on_dev). More... | |
virtual double * | HostReadWrite () |
Shortcut for mfem::ReadWrite(vec.GetMemory(), vec.Size(), false). More... | |
MFEM_DEPRECATED | Vector (N_Vector nv) |
(DEPRECATED) Construct a wrapper Vector from SUNDIALS N_Vector. More... | |
virtual MFEM_DEPRECATED N_Vector | ToNVector () |
(DEPRECATED) Return a new wrapper SUNDIALS N_Vector of type SUNDIALS_NVEC_SERIAL. More... | |
virtual MFEM_DEPRECATED void | ToNVector (N_Vector &nv, long global_length=0) |
Update an existing wrapper SUNDIALS N_Vector to point to this Vector. More... | |
Protected Member Functions | |
void | SaveSTLTri (std::ostream &out, double p1[], double p2[], double p3[]) |
void | GetVectorGradientHat (ElementTransformation &T, DenseMatrix &gh) const |
void | ProjectDeltaCoefficient (DeltaCoefficient &delta_coeff, double &integral) |
void | SumFluxAndCount (BilinearFormIntegrator &blfi, GridFunction &flux, Array< int > &counts, bool wcoef, int subdomain) |
void | ProjectDiscCoefficient (VectorCoefficient &coeff, Array< int > &dof_attr) |
void | LegacyNCReorder () |
Loading helper. More... | |
void | Destroy () |
void | AccumulateAndCountZones (Coefficient &coeff, AvgType type, Array< int > &zones_per_vdof) |
Accumulates (depending on type) the values of coeff at all shared vdofs and counts in how many zones each vdof appears. More... | |
void | AccumulateAndCountZones (VectorCoefficient &vcoeff, AvgType type, Array< int > &zones_per_vdof) |
Accumulates (depending on type) the values of vcoeff at all shared vdofs and counts in how many zones each vdof appears. More... | |
void | AccumulateAndCountDerivativeValues (int comp, int der_comp, GridFunction &der, Array< int > &zones_per_dof) |
Used for the serial and parallel implementations of the GetDerivative() method; see its documentation. More... | |
void | AccumulateAndCountBdrValues (Coefficient *coeff[], VectorCoefficient *vcoeff, Array< int > &attr, Array< int > &values_counter) |
void | AccumulateAndCountBdrTangentValues (VectorCoefficient &vcoeff, Array< int > &bdr_attr, Array< int > &values_counter) |
void | ComputeMeans (AvgType type, Array< int > &zones_per_vdof) |
Protected Attributes | |
FiniteElementSpace * | fes |
FE space on which the grid function lives. Owned if fec is not NULL. More... | |
FiniteElementCollection * | fec |
Used when the grid function is read from a file. It can also be set explicitly, see MakeOwner(). More... | |
long | fes_sequence |
Vector | t_vec |
Protected Attributes inherited from mfem::Vector | |
Memory< double > | data |
int | size |
Class for grid function - Vector with associated FE space.
Definition at line 30 of file gridfunc.hpp.
Enumerator | |
---|---|
ARITHMETIC | |
HARMONIC |
Definition at line 405 of file gridfunc.hpp.
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inline |
Definition at line 77 of file gridfunc.hpp.
|
inline |
Copy constructor. The internal true-dof vector t_vec is not copied.
Definition at line 80 of file gridfunc.hpp.
|
inline |
Construct a GridFunction associated with the FiniteElementSpace *f.
Definition at line 85 of file gridfunc.hpp.
|
inline |
Construct a GridFunction using previously allocated array data.
The GridFunction does not assume ownership of data which is assumed to be of size at least f->GetVSize()
. Similar to the Vector constructor for externally allocated array, the pointer data can be NULL. The data array can be replaced later using the method SetData().
Definition at line 94 of file gridfunc.hpp.
|
inline |
Construct a GridFunction using previously allocated Vector base starting at the given offset, base_offset.
Definition at line 100 of file gridfunc.hpp.
mfem::GridFunction::GridFunction | ( | Mesh * | m, |
std::istream & | input | ||
) |
Construct a GridFunction on the given Mesh, using the data from input.
The content of input should be in the format created by the method Save(). The reconstructed FiniteElementSpace and FiniteElementCollection are owned by the GridFunction.
Definition at line 35 of file gridfunc.cpp.
mfem::GridFunction::GridFunction | ( | Mesh * | m, |
GridFunction * | gf_array[], | ||
int | num_pieces | ||
) |
Definition at line 76 of file gridfunc.cpp.
|
inlinevirtual |
Destroys grid function.
Definition at line 720 of file gridfunc.hpp.
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protected |
Definition at line 2255 of file gridfunc.cpp.
|
protected |
Definition at line 2113 of file gridfunc.cpp.
|
protected |
Used for the serial and parallel implementations of the GetDerivative() method; see its documentation.
Definition at line 1368 of file gridfunc.cpp.
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protected |
Accumulates (depending on type) the values of coeff at all shared vdofs and counts in how many zones each vdof appears.
Definition at line 2017 of file gridfunc.cpp.
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protected |
Accumulates (depending on type) the values of vcoeff at all shared vdofs and counts in how many zones each vdof appears.
Definition at line 2058 of file gridfunc.cpp.
|
virtual |
Returns ||curl u_ex - curl u_h||_L2 for ND elements.
Reimplemented in mfem::ParGridFunction.
Definition at line 2885 of file gridfunc.cpp.
|
virtual |
Returns the Face Jumps error for L2 elements. The error can be weighted by a constant nu, by nu/h, or nu*p^2/h, depending on the value of jump_scaling.
Reimplemented in mfem::ParGridFunction.
Definition at line 2962 of file gridfunc.cpp.
double mfem::GridFunction::ComputeDGFaceJumpError | ( | Coefficient * | exsol, |
Coefficient * | ell_coeff, | ||
double | Nu, | ||
const IntegrationRule * | irs[] = NULL |
||
) | const |
Returns the Face Jumps error for L2 elements, with 1/h scaling.
Definition at line 3076 of file gridfunc.cpp.
|
virtual |
Returns ||div u_ex - div u_h||_L2 for RT elements.
Reimplemented in mfem::ParGridFunction.
Definition at line 2926 of file gridfunc.cpp.
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inlinevirtual |
Definition at line 583 of file gridfunc.hpp.
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inlinevirtual |
Definition at line 619 of file gridfunc.hpp.
|
inlinevirtual |
Definition at line 589 of file gridfunc.hpp.
|
inlinevirtual |
Definition at line 625 of file gridfunc.hpp.
|
virtual |
Compute the Lp error in each element of the mesh and store the results in the Vector error. The result should be of length number of elements, for example an L2 GridFunction of order zero using map type VALUE.
Definition at line 3356 of file gridfunc.cpp.
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virtual |
Compute the Lp error in each element of the mesh and store the results in the Vector @ error. The result should be of length number of elements, for example an L2 GridFunction of order zero using map type VALUE.
Definition at line 3513 of file gridfunc.cpp.
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inlinevirtual |
Definition at line 595 of file gridfunc.hpp.
|
inlinevirtual |
Definition at line 631 of file gridfunc.hpp.
|
virtual |
Reimplemented in mfem::ParGridFunction.
Definition at line 306 of file gridfunc.cpp.
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virtual |
Returns ||grad u_ex - grad u_h||_L2 for H1 or L2 elements.
Reimplemented in mfem::ParGridFunction.
Definition at line 2845 of file gridfunc.cpp.
|
virtual |
This method is kept for backward compatibility.
Returns either the H1-seminorm, or the DG face jumps error, or both depending on norm_type = 1, 2, 3. Additional arguments for the DG face jumps norm: ell_coeff: mesh-depended coefficient (weight) Nu: scalar constant weight
Reimplemented in mfem::ParGridFunction.
Definition at line 3085 of file gridfunc.cpp.
|
virtual |
Returns the error measured in H1-norm for H1 elements or in "broken" H1-norm for L2 elements
Reimplemented in mfem::ParGridFunction.
Definition at line 3102 of file gridfunc.cpp.
|
virtual |
Returns the error measured in H(curl)-norm for ND elements.
Reimplemented in mfem::ParGridFunction.
Definition at line 3120 of file gridfunc.cpp.
|
virtual |
Returns the error measured in H(div)-norm for RT elements.
Reimplemented in mfem::ParGridFunction.
Definition at line 3111 of file gridfunc.cpp.
|
inlinevirtual |
Reimplemented in mfem::ParGridFunction.
Definition at line 558 of file gridfunc.hpp.
|
inlinevirtual |
Reimplemented in mfem::ParGridFunction.
Definition at line 566 of file gridfunc.hpp.
|
inlinevirtual |
Reimplemented in mfem::ParGridFunction.
Definition at line 479 of file gridfunc.hpp.
|
virtual |
Reimplemented in mfem::ParGridFunction.
Definition at line 2751 of file gridfunc.cpp.
|
virtual |
Reimplemented in mfem::ParGridFunction.
Definition at line 2804 of file gridfunc.cpp.
|
virtual |
Reimplemented in mfem::ParGridFunction.
Definition at line 3291 of file gridfunc.cpp.
|
virtual |
When given a vector weight, compute the pointwise (scalar) error as the dot product of the vector error with the vector weight. Otherwise, the scalar error is the l_2 norm of the vector error.
Reimplemented in mfem::ParGridFunction.
Definition at line 3422 of file gridfunc.cpp.
|
inlinevirtual |
Reimplemented in mfem::ParGridFunction.
Definition at line 543 of file gridfunc.hpp.
|
virtual |
Reimplemented in mfem::ParGridFunction.
Definition at line 3129 of file gridfunc.cpp.
|
inlinevirtual |
Reimplemented in mfem::ParGridFunction.
Definition at line 552 of file gridfunc.hpp.
Definition at line 2307 of file gridfunc.cpp.
|
virtual |
Definition at line 3185 of file gridfunc.cpp.
int mfem::GridFunction::CurlDim | ( | ) | const |
Definition at line 344 of file gridfunc.cpp.
|
protected |
Definition at line 154 of file gridfunc.cpp.
|
inline |
Definition at line 652 of file gridfunc.hpp.
|
inline |
Definition at line 653 of file gridfunc.hpp.
void mfem::GridFunction::GetBdrValuesFrom | ( | const GridFunction & | orig_func | ) |
Definition at line 1193 of file gridfunc.cpp.
void mfem::GridFunction::GetCurl | ( | ElementTransformation & | tr, |
Vector & | curl | ||
) | const |
Definition at line 1546 of file gridfunc.cpp.
void mfem::GridFunction::GetDerivative | ( | int | comp, |
int | der_comp, | ||
GridFunction & | der | ||
) |
Compute a certain derivative of a function's component. Derivatives of the function are computed at the DOF locations of der, and averaged over overlapping DOFs. Thus this function projects the derivative to the FiniteElementSpace of der.
[in] | comp | Index of the function's component to be differentiated. The index is 1-based, i.e., use 1 for scalar functions. |
[in] | der_comp | Use 0/1/2 for derivatives in x/y/z directions. |
[out] | der | The resulting derivative (scalar function). The FiniteElementSpace of this function must be set before the call. |
Definition at line 1421 of file gridfunc.cpp.
double mfem::GridFunction::GetDivergence | ( | ElementTransformation & | tr | ) | const |
Definition at line 1456 of file gridfunc.cpp.
void mfem::GridFunction::GetElementAverages | ( | GridFunction & | avgs | ) | const |
Compute \( (\int_{\Omega} (*this) \psi_i)/(\int_{\Omega} \psi_i) \), where \( \psi_i \) are the basis functions for the FE space of avgs. Both FE spaces should be scalar and on the same mesh.
Definition at line 1800 of file gridfunc.cpp.
|
virtual |
Sets the output vector dof_vals to the values of the degrees of freedom of element el.
Reimplemented in mfem::ParGridFunction.
Definition at line 1840 of file gridfunc.cpp.
int mfem::GridFunction::GetFaceValues | ( | int | i, |
int | side, | ||
const IntegrationRule & | ir, | ||
Vector & | vals, | ||
DenseMatrix & | tr, | ||
int | vdim = 1 |
||
) | const |
Compute a collection of scalar values from within the face indicated by the index i.
Definition at line 653 of file gridfunc.cpp.
int mfem::GridFunction::GetFaceVectorValues | ( | int | i, |
int | side, | ||
const IntegrationRule & | ir, | ||
DenseMatrix & | vals, | ||
DenseMatrix & | tr | ||
) | const |
Compute a collection of vector values from within the face indicated by the index i.
Definition at line 1103 of file gridfunc.cpp.
void mfem::GridFunction::GetGradient | ( | ElementTransformation & | tr, |
Vector & | grad | ||
) | const |
Definition at line 1641 of file gridfunc.cpp.
void mfem::GridFunction::GetGradients | ( | ElementTransformation & | tr, |
const IntegrationRule & | ir, | ||
DenseMatrix & | grad | ||
) | const |
Definition at line 1709 of file gridfunc.cpp.
|
inline |
Definition at line 335 of file gridfunc.hpp.
void mfem::GridFunction::GetHessians | ( | int | i, |
const IntegrationRule & | ir, | ||
DenseMatrix & | hess, | ||
int | vdim = 1 |
||
) | const |
Definition at line 597 of file gridfunc.cpp.
void mfem::GridFunction::GetHessians | ( | int | i, |
const IntegrationRule & | ir, | ||
DenseMatrix & | hess, | ||
DenseMatrix & | tr, | ||
int | vdim = 1 |
||
) | const |
Definition at line 640 of file gridfunc.cpp.
void mfem::GridFunction::GetLaplacians | ( | int | i, |
const IntegrationRule & | ir, | ||
Vector & | laps, | ||
int | vdim = 1 |
||
) | const |
Definition at line 558 of file gridfunc.cpp.
void mfem::GridFunction::GetLaplacians | ( | int | i, |
const IntegrationRule & | ir, | ||
Vector & | laps, | ||
DenseMatrix & | tr, | ||
int | vdim = 1 |
||
) | const |
Definition at line 585 of file gridfunc.cpp.
void mfem::GridFunction::GetNodalValues | ( | int | i, |
Array< double > & | nval, | ||
int | vdim = 1 |
||
) | const |
Returns the values in the vertices of i'th element for dimension vdim.
Definition at line 393 of file gridfunc.cpp.
void mfem::GridFunction::GetNodalValues | ( | Vector & | nval, |
int | vdim = 1 |
||
) | const |
Return the values as a vector on mesh vertices for dimension vdim.
Definition at line 1991 of file gridfunc.cpp.
void mfem::GridFunction::GetTrueDofs | ( | Vector & | tv | ) | const |
Extract the true-dofs from the GridFunction.
Definition at line 364 of file gridfunc.cpp.
|
inline |
Read only access to the (optional) internal true-dof Vector.
Note that the returned Vector may be empty, if not previously allocated or set.
Definition at line 134 of file gridfunc.hpp.
|
inline |
Read and write access to the (optional) internal true-dof Vector.
Note that the returned Vector may be empty, if not previously allocated or set.
Definition at line 138 of file gridfunc.hpp.
|
virtual |
Return a scalar value from within the given element.
Reimplemented in mfem::ParGridFunction.
Definition at line 438 of file gridfunc.cpp.
|
virtual |
Return a scalar value from within the element indicated by the ElementTransformation Object.
Reimplemented in mfem::ParGridFunction.
Definition at line 762 of file gridfunc.cpp.
void mfem::GridFunction::GetValues | ( | int | i, |
const IntegrationRule & | ir, | ||
Vector & | vals, | ||
int | vdim = 1 |
||
) | const |
Compute a collection of scalar values from within the element indicated by the index i.
Definition at line 510 of file gridfunc.cpp.
void mfem::GridFunction::GetValues | ( | int | i, |
const IntegrationRule & | ir, | ||
Vector & | vals, | ||
DenseMatrix & | tr, | ||
int | vdim = 1 |
||
) | const |
Compute a collection of vector values from within the element indicated by the index i.
Definition at line 547 of file gridfunc.cpp.
void mfem::GridFunction::GetValues | ( | ElementTransformation & | T, |
const IntegrationRule & | ir, | ||
Vector & | vals, | ||
int | comp = 0 , |
||
DenseMatrix * | tr = NULL |
||
) | const |
Compute a collection of scalar values from within the element indicated by the ElementTransformation object.
Definition at line 880 of file gridfunc.cpp.
void mfem::GridFunction::GetValuesFrom | ( | const GridFunction & | orig_func | ) |
Definition at line 1146 of file gridfunc.cpp.
void mfem::GridFunction::GetVectorFieldNodalValues | ( | Vector & | val, |
int | comp | ||
) | const |
Definition at line 1297 of file gridfunc.cpp.
void mfem::GridFunction::GetVectorFieldValues | ( | int | i, |
const IntegrationRule & | ir, | ||
DenseMatrix & | vals, | ||
DenseMatrix & | tr, | ||
int | comp = 0 |
||
) | const |
Definition at line 1232 of file gridfunc.cpp.
void mfem::GridFunction::GetVectorGradient | ( | ElementTransformation & | tr, |
DenseMatrix & | grad | ||
) | const |
Definition at line 1738 of file gridfunc.cpp.
|
protected |
Definition at line 1433 of file gridfunc.cpp.
|
virtual |
Return a vector value from within the given element.
Reimplemented in mfem::ParGridFunction.
Definition at line 465 of file gridfunc.cpp.
|
virtual |
Return a vector value from within the element indicated by the ElementTransformation Object.
Reimplemented in mfem::ParGridFunction.
Definition at line 900 of file gridfunc.cpp.
void mfem::GridFunction::GetVectorValues | ( | int | i, |
const IntegrationRule & | ir, | ||
DenseMatrix & | vals, | ||
DenseMatrix & | tr | ||
) | const |
Definition at line 703 of file gridfunc.cpp.
void mfem::GridFunction::GetVectorValues | ( | ElementTransformation & | T, |
const IntegrationRule & | ir, | ||
DenseMatrix & | vals, | ||
DenseMatrix * | tr = NULL |
||
) | const |
Compute a collection of vector values from within the element indicated by the ElementTransformation object.
Definition at line 1041 of file gridfunc.cpp.
void mfem::GridFunction::ImposeBounds | ( | int | i, |
const Vector & | weights, | ||
const Vector & | lo_, | ||
const Vector & | hi_ | ||
) |
Impose the given bounds on the function's DOFs while preserving its local integral (described in terms of the given weights) on the i'th element through SLBPQ optimization. Intended to be used for discontinuous FE functions.
Definition at line 1903 of file gridfunc.cpp.
void mfem::GridFunction::ImposeBounds | ( | int | i, |
const Vector & | weights, | ||
double | min_ = 0.0 , |
||
double | max_ = infinity() |
||
) |
Definition at line 1939 of file gridfunc.cpp.
|
protected |
Loading helper.
Definition at line 3859 of file gridfunc.cpp.
|
inline |
Make the GridFunction the owner of fec and fes.
If the new FiniteElementCollection, fec_, is NULL, ownership of fec and fes is taken away.
Definition at line 124 of file gridfunc.hpp.
|
virtual |
Make the GridFunction reference external data on a new FiniteElementSpace.
This method changes the FiniteElementSpace associated with the GridFunction and sets the pointer v as external data in the GridFunction.
Reimplemented in mfem::ParGridFunction.
Definition at line 201 of file gridfunc.cpp.
|
virtual |
Make the GridFunction reference external data on a new FiniteElementSpace.
This method changes the FiniteElementSpace associated with the GridFunction and sets the data of the Vector v (plus the v_offset) as external data in the GridFunction.
Reimplemented in mfem::ParGridFunction.
Definition at line 209 of file gridfunc.cpp.
void mfem::GridFunction::MakeTRef | ( | FiniteElementSpace * | f, |
double * | tv | ||
) |
Associate a new FiniteElementSpace and new true-dof data with the GridFunction.
Definition at line 219 of file gridfunc.cpp.
void mfem::GridFunction::MakeTRef | ( | FiniteElementSpace * | f, |
Vector & | tv, | ||
int | tv_offset | ||
) |
Associate a new FiniteElementSpace and new true-dof data with the GridFunction.
Definition at line 233 of file gridfunc.cpp.
|
inline |
Copy assignment. Only the data of the base class Vector is copied.
It is assumed that this object and rhs use FiniteElementSpaces that have the same size.
Definition at line 118 of file gridfunc.hpp.
GridFunction & mfem::GridFunction::operator= | ( | double | value | ) |
Redefine '=' for GridFunction = constant.
Definition at line 3606 of file gridfunc.cpp.
GridFunction & mfem::GridFunction::operator= | ( | const Vector & | v | ) |
Copy the data from v.
The size of v must be equal to the size of the associated FiniteElementSpace fes.
Definition at line 3612 of file gridfunc.cpp.
|
inline |
Definition at line 126 of file gridfunc.hpp.
|
inline |
Project a Coefficient on the GridFunction, modifying only DOFs on the boundary associated with the boundary attributes marked in the attr array.
Definition at line 447 of file gridfunc.hpp.
|
virtual |
Project a VectorCoefficient on the GridFunction, modifying only DOFs on the boundary associated with the boundary attributes marked in the attr array.
Reimplemented in mfem::ParGridFunction.
Definition at line 2627 of file gridfunc.cpp.
|
virtual |
Project a set of Coefficients on the components of the GridFunction, modifying only DOFs on the boundary associated with the boundary attributed marked in the attr array.
If a Coefficient pointer in the array coeff is NULL, that component will not be touched.
Reimplemented in mfem::ParGridFunction.
Definition at line 2645 of file gridfunc.cpp.
void mfem::GridFunction::ProjectBdrCoefficientNormal | ( | VectorCoefficient & | vcoeff, |
Array< int > & | bdr_attr | ||
) |
Project the normal component of the given VectorCoefficient on the boundary. Only boundary attributes that are marked in 'bdr_attr' are projected. Assumes RT-type VectorFE GridFunction.
Definition at line 2663 of file gridfunc.cpp.
|
virtual |
Project the tangential components of the given VectorCoefficient on the boundary. Only boundary attributes that are marked in bdr_attr are projected. Assumes ND-type VectorFE GridFunction.
Reimplemented in mfem::ParGridFunction.
Definition at line 2734 of file gridfunc.cpp.
|
virtual |
Project coeff Coefficient to this GridFunction. The projection computation depends on the choice of the FiniteElementSpace fes. Note that this is usually interpolation at the degrees of freedom in each element (not L2 projection).
Reimplemented in mfem::ParGridFunction.
Definition at line 2395 of file gridfunc.cpp.
void mfem::GridFunction::ProjectCoefficient | ( | Coefficient & | coeff, |
Array< int > & | dofs, | ||
int | vd = 0 |
||
) |
Project coeff Coefficient to this GridFunction, using one element for each degree of freedom in dofs and nodal interpolation on that element.
Definition at line 2427 of file gridfunc.cpp.
void mfem::GridFunction::ProjectCoefficient | ( | VectorCoefficient & | vcoeff | ) |
Project vcoeff VectorCoefficient to this GridFunction. The projection computation depends on the choice of the FiniteElementSpace fes. Note that this is usually interpolation at the degrees of freedom in each element (not L2 projection).
Definition at line 2453 of file gridfunc.cpp.
void mfem::GridFunction::ProjectCoefficient | ( | VectorCoefficient & | vcoeff, |
Array< int > & | dofs | ||
) |
Project vcoeff VectorCoefficient to this GridFunction, using one element for each degree of freedom in dofs and nodal interpolation on that element.
Definition at line 2474 of file gridfunc.cpp.
void mfem::GridFunction::ProjectCoefficient | ( | VectorCoefficient & | vcoeff, |
int | attribute | ||
) |
Project vcoeff VectorCoefficient to this GridFunction, only projecting onto elements with the given attribute.
Definition at line 2506 of file gridfunc.cpp.
void mfem::GridFunction::ProjectCoefficient | ( | Coefficient * | coeff[] | ) |
Analogous to the version with argument vcoeff VectorCoefficient but using an array of scalar coefficients for each component.
Definition at line 2532 of file gridfunc.cpp.
|
protected |
Definition at line 2332 of file gridfunc.cpp.
|
protected |
Project a discontinuous vector coefficient in a continuous space and return in dof_attr the maximal attribute of the elements containing each degree of freedom.
Definition at line 2569 of file gridfunc.cpp.
|
virtual |
Project a discontinuous vector coefficient as a grid function on a continuous finite element space. The values in shared dofs are determined from the element with maximal attribute.
Reimplemented in mfem::ParGridFunction.
Definition at line 2601 of file gridfunc.cpp.
|
virtual |
Projects a discontinuous coefficient so that the values in shared vdofs are computed by taking an average of the possible values.
Reimplemented in mfem::ParGridFunction.
Definition at line 2607 of file gridfunc.cpp.
|
virtual |
Projects a discontinuous vector coefficient so that the values in shared vdofs are computed by taking an average of the possible values.
Reimplemented in mfem::ParGridFunction.
Definition at line 2618 of file gridfunc.cpp.
void mfem::GridFunction::ProjectGridFunction | ( | const GridFunction & | src | ) |
Project the src GridFunction to this GridFunction, both of which must be on the same mesh.
The current implementation assumes that all elements use the same projection matrix.
Definition at line 1851 of file gridfunc.cpp.
void mfem::GridFunction::ProjectVectorFieldOn | ( | GridFunction & | vec_field, |
int | comp = 0 |
||
) |
Definition at line 1328 of file gridfunc.cpp.
void mfem::GridFunction::ReorderByNodes | ( | ) |
For a vector grid function, makes sure that the ordering is byNODES.
Definition at line 1270 of file gridfunc.cpp.
void mfem::GridFunction::RestrictConforming | ( | ) |
On a non-conforming mesh, make sure the function lies in the conforming space by multiplying with R and then with P, the conforming restriction and prolongation matrices of the space, respectively.
Definition at line 1978 of file gridfunc.cpp.
|
virtual |
Save the GridFunction to an output stream.
Reimplemented in mfem::ParGridFunction.
Definition at line 3619 of file gridfunc.cpp.
|
virtual |
Save the GridFunction to a file. The given precision will be used for ASCII output.
Reimplemented in mfem::ParGridFunction.
Definition at line 3644 of file gridfunc.cpp.
|
virtual |
Save the GridFunction to a binary output stream using adios2 bp format.
Reimplemented in mfem::ParGridFunction.
Definition at line 3652 of file gridfunc.cpp.
void mfem::GridFunction::SaveSTL | ( | std::ostream & | out, |
int | TimesToRefine = 1 |
||
) |
Write the GridFunction in STL format. Note that the mesh dimension must be 2 and that quad elements will be broken into two triangles.
Definition at line 3759 of file gridfunc.cpp.
|
protected |
Definition at line 3739 of file gridfunc.cpp.
void mfem::GridFunction::SaveVTK | ( | std::ostream & | out, |
const std::string & | field_name, | ||
int | ref | ||
) |
Write the GridFunction in VTK format. Note that Mesh::PrintVTK must be called first. The parameter ref > 0 must match the one used in Mesh::PrintVTK.
Definition at line 3660 of file gridfunc.cpp.
|
virtual |
Set the GridFunction from the given true-dof vector.
Reimplemented in mfem::ParGridFunction.
Definition at line 379 of file gridfunc.cpp.
|
inline |
Shortcut for calling SetFromTrueDofs() with GetTrueVector() as argument.
Definition at line 150 of file gridfunc.hpp.
|
virtual |
Associate a new FiniteElementSpace with the GridFunction.
The GridFunction is resized using the SetSize() method.
Reimplemented in mfem::ParGridFunction.
Definition at line 193 of file gridfunc.cpp.
|
inline |
Shortcut for calling GetTrueDofs() with GetTrueVector() as argument.
Definition at line 144 of file gridfunc.hpp.
|
protected |
Definition at line 249 of file gridfunc.cpp.
|
virtual |
Transform by the Space UpdateMatrix (e.g., on Mesh change).
Reimplemented in mfem::ParGridFunction.
Definition at line 164 of file gridfunc.cpp.
int mfem::GridFunction::VectorDim | ( | ) | const |
Definition at line 321 of file gridfunc.cpp.
|
protected |
Used when the grid function is read from a file. It can also be set explicitly, see MakeOwner().
If not NULL, this pointer is owned by the GridFunction.
Definition at line 40 of file gridfunc.hpp.
|
protected |
FE space on which the grid function lives. Owned if fec is not NULL.
Definition at line 34 of file gridfunc.hpp.
|
protected |
Definition at line 42 of file gridfunc.hpp.
|
protected |
Optional, internal true-dof vector: if the FiniteElementSpace fes has a non-trivial (i.e. not NULL) prolongation operator, this Vector may hold associated true-dof values - either owned or external.
Definition at line 47 of file gridfunc.hpp.