44 namespace MultiRegions
47 ExpList3DHomogeneous1D::ExpList3DHomogeneous1D():
58 const bool dealiasing):
70 const bool dealiasing,
72 const std::string &var):
86 const bool dealiasing,
107 for(j = 0; j < nel; ++j)
112 for(n = 1; n <
m_planes.num_elements(); ++n)
115 for(j = 0; j < nel; ++j)
117 (*m_exp).push_back((*
m_exp)[j]);
138 if(DeclarePlanesSetCoeffPhys)
143 for(
int n = 0; n <
m_planes.num_elements(); ++n)
157 const std::vector<unsigned int> &eIDs,
158 bool DeclarePlanesSetCoeffPhys):
163 if(DeclarePlanesSetCoeffPhys)
166 std::vector<unsigned int> eIDsPlane;
167 int nel = eIDs.size()/
m_planes.num_elements();
169 for (
int i = 0; i < nel; ++i)
171 eIDsPlane.push_back(eIDs[i]);
180 for(
int n = 0; n <
m_planes.num_elements(); ++n)
199 int ncoeffs_per_plane =
m_planes[0]->GetNcoeffs();
200 int npoints_per_plane =
m_planes[0]->GetTotPoints();
202 int nzplanes =
m_planes.num_elements();
211 int nel =
m_planes[0]->GetExpSize();
217 for(cnt = n = 0; n < nzplanes; ++n)
220 m_planes[n]->SetPhysArray(tmparray =
m_phys + npoints_per_plane*n);
222 for(i = 0; i < nel; ++i)
225 m_phys_offset[cnt] =
m_planes[n]->GetPhys_Offset(i) + n*npoints_per_plane;
226 m_offset_elmt_id[cnt++] =
m_planes[n]->GetOffset_Elmt_Id(i) + n*nel;
238 int nzplanes =
m_planes.num_elements();
241 (*m_exp)[eid]->GetCoords(xc0,xc1);
247 for(n = 0; n <
m_planes.num_elements(); n++)
257 for(n = 0; n < nzplanes; ++n)
259 Vmath::Fill(npoints,z[n],tmp_xc = xc2 + npoints*n,1);
290 int nzplanes =
m_planes.num_elements();
291 int npoints =
m_planes[0]->GetTotPoints();
300 for(n = 0; n <
m_planes.num_elements(); n++)
310 for(n = 0; n < nzplanes; ++n)
312 Vmath::Fill(npoints,z[n],tmp_xc = xc2 + npoints*n,1);
323 ASSERTL0(expansion == -1,
"Multi-zone output not supported for homogeneous expansions.");
325 const int nPtsPlane =
m_planes[0]->GetNpoints();
326 const int nElmt =
m_planes[0]->GetExpSize();
327 const int nPlanes =
m_planes.num_elements();
331 for (
int i = 0; i < nElmt; ++i)
333 const int np0 = (*m_exp)[i]->GetNumPoints(0);
334 const int np1 = (*m_exp)[i]->GetNumPoints(1);
336 for (
int n = 1; n < nPlanes; ++n)
338 const int o1 = (n-1) * nPtsPlane;
339 const int o2 = n * nPtsPlane;
340 for (
int j = 1; j < np1; ++j)
342 for(
int k = 1; k < np0; ++k)
344 outfile << cnt + (j-1)*np0 + (k-1) + o1 + 1 <<
" ";
345 outfile << cnt + (j-1)*np0 + (k-1) + o2 + 1 <<
" ";
346 outfile << cnt + (j-1)*np0 + k + o2 + 1 <<
" ";
347 outfile << cnt + (j-1)*np0 + k + o1 + 1 <<
" ";
348 outfile << cnt + j *np0 + (k-1) + o1 + 1 <<
" ";
349 outfile << cnt + j *np0 + (k-1) + o2 + 1 <<
" ";
350 outfile << cnt + j *np0 + k + o2 + 1 <<
" ";
351 outfile << cnt + j *np0 + k + o1 + 1 << endl;
363 std::ostream &outfile,
370 m_planes[0]->WriteVtkPieceHeader(outfile, expansion);
375 int outputExtraPlane = 0;
380 outputExtraPlane = 1;
384 int nq0 = (*m_exp)[expansion]->GetNumPoints(0);
385 int nq1 = (*m_exp)[expansion]->GetNumPoints(1);
386 int nq2 =
m_planes.num_elements() + outputExtraPlane;
387 int ntot = nq0*nq1*nq2;
388 int ntotminus = (nq0-1)*(nq1-1)*(nq2-1);
394 GetCoords(expansion,coords[0],coords[1],coords[2]);
396 if (outputExtraPlane)
401 tmp = coords[0] + (nq2-1)*nq0*nq1, 1);
403 tmp = coords[1] + (nq2-1)*nq0*nq1, 1);
406 (coords[2][nq0*nq1] - coords[2][0]);
407 Vmath::Fill(nq0*nq1, z, tmp = coords[2] + (nq2-1)*nq0*nq1, 1);
411 m_session->LoadParameter(
"DistStrip", DistStrip, 0);
413 for(
int i = 0; i < ntot; i++)
415 coords[2][i] += istrip*DistStrip;
418 outfile <<
" <Piece NumberOfPoints=\""
419 << ntot <<
"\" NumberOfCells=\""
420 << ntotminus <<
"\">" << endl;
421 outfile <<
" <Points>" << endl;
422 outfile <<
" <DataArray type=\"Float64\" "
423 <<
"NumberOfComponents=\"3\" format=\"ascii\">" << endl;
425 for (i = 0; i < ntot; ++i)
427 for (j = 0; j < 3; ++j)
429 outfile << coords[j][i] <<
" ";
434 outfile <<
" </DataArray>" << endl;
435 outfile <<
" </Points>" << endl;
436 outfile <<
" <Cells>" << endl;
437 outfile <<
" <DataArray type=\"Int32\" "
438 <<
"Name=\"connectivity\" format=\"ascii\">" << endl;
439 for (i = 0; i < nq0-1; ++i)
441 for (j = 0; j < nq1-1; ++j)
443 for (k = 0; k < nq2-1; ++k)
445 outfile << k*nq0*nq1 + j*nq0 + i <<
" "
446 << k*nq0*nq1 + j*nq0 + i + 1 <<
" "
447 << k*nq0*nq1 + (j+1)*nq0 + i + 1 <<
" "
448 << k*nq0*nq1 + (j+1)*nq0 + i <<
" "
449 << (k+1)*nq0*nq1 + j*nq0 + i <<
" "
450 << (k+1)*nq0*nq1 + j*nq0 + i + 1 <<
" "
451 << (k+1)*nq0*nq1 + (j+1)*nq0 + i + 1 <<
" "
452 << (k+1)*nq0*nq1 + (j+1)*nq0 + i << endl;
457 outfile <<
" </DataArray>" << endl;
458 outfile <<
" <DataArray type=\"Int32\" "
459 <<
"Name=\"offsets\" format=\"ascii\">" << endl;
460 for (i = 0; i < ntotminus; ++i)
462 outfile << i*8+8 <<
" ";
465 outfile <<
" </DataArray>" << endl;
466 outfile <<
" <DataArray type=\"UInt8\" "
467 <<
"Name=\"types\" format=\"ascii\">" << endl;
468 for (i = 0; i < ntotminus; ++i)
473 outfile <<
" </DataArray>" << endl;
474 outfile <<
" </Cells>" << endl;
475 outfile <<
" <PointData>" << endl;
487 for(
int n = 0; n <
m_planes.num_elements(); n++)
494 for(
int n = 0; n <
m_planes.num_elements(); ++n)
496 errL2 =
m_planes[n]->L2(inarray + cnt);
498 err += errL2*errL2*local_w[n]*
m_lhom*0.5;
503 for(
int n = 0; n <
m_planes.num_elements(); ++n)
505 errL2 =
m_planes[n]->L2(inarray + cnt, soln + cnt);
507 err += errL2*errL2*local_w[n]*
m_lhom*0.5;
521 for (
int n = 0; n <
m_planes[0]->GetExpSize(); ++n)
524 area +=
m_planes[0]->GetExp(n)->Integral(inarray);
530 for (
int n = 0; n <
m_planes.num_elements(); n += 2)
536 for(
int i = 0; i <
m_planes[n]->GetExpSize(); ++i)
543 energy[n/2] += err*err;
549 energy[n/2] += err*err;
553 energy[n/2] /= 2.0*area;
Abstraction of a two-dimensional multi-elemental expansion which is merely a collection of local expa...
const Array< OneD, const NekDouble > & GetCoeffs() const
This function returns (a reference to) the array (implemented as m_coeffs) containing all local expa...
virtual void v_WriteTecplotConnectivity(std::ostream &outfile, int expansion)
#define ASSERTL0(condition, msg)
int GetCoeff_Offset(int n) const
Get the start offset position for a global list of m_coeffs correspoinding to element n...
virtual Array< OneD, const NekDouble > v_HomogeneousEnergy(void)
static Array< OneD, NekDouble > NullNekDouble1DArray
virtual ~ExpList3DHomogeneous1D()
Destructor.
static boost::shared_ptr< DataType > AllocateSharedPtr()
Allocate a shared pointer from the memory pool.
NekOptimize::GlobalOptParamSharedPtr m_globalOptParam
LibUtilities::TranspositionSharedPtr m_transposition
void Fill(int n, const T alpha, T *x, const int incx)
Fill a vector with a constant value.
const boost::shared_ptr< LocalRegions::ExpansionVector > GetExp() const
This function returns the vector of elements in the expansion.
void GenExpList3DHomogeneous1D(const SpatialDomains::ExpansionMap &expansions)
NekDouble m_lhom
Width of homogeneous direction.
Array< OneD, NekDouble > m_phys
The global expansion evaluated at the quadrature points.
Array< OneD, NekDouble > m_coeffs
Concatenation of all local expansion coefficients.
int GetExpSize(void)
This function returns the number of elements in the expansion.
boost::shared_ptr< SessionReader > SessionReaderSharedPtr
virtual void v_GetCoords(Array< OneD, NekDouble > &coord_0, Array< OneD, NekDouble > &coord_1, Array< OneD, NekDouble > &coord_2)
void SetCoeffPhys(void)
Definition of the total number of degrees of freedom and quadrature points. Sets up the storage for m...
Array< OneD, int > m_coeff_offset
Offset of elemental data into the array m_coeffs.
LibUtilities::BasisSharedPtr m_homogeneousBasis
Definition of the total number of degrees of freedom and quadrature points. Sets up the storage for m...
1D Evenly-spaced points using Fourier Fit
void Smul(int n, const T alpha, const T *x, const int incx, T *y, const int incy)
Scalar multiply y = alpha*y.
ExpList3DHomogeneous1D()
Default constructor.
boost::shared_ptr< LocalRegions::ExpansionVector > m_exp
The list of local expansions.
int GetTotPoints(void) const
Returns the total number of quadrature points m_npoints .
Array< OneD, int > m_phys_offset
Offset of elemental data into the array m_phys.
int m_ncoeffs
The total number of local degrees of freedom. m_ncoeffs .
Array< OneD, int > m_offset_elmt_id
Array containing the element id m_offset_elmt_id[n] that the n^th consecutive block of data in m_coef...
LibUtilities::SessionReaderSharedPtr m_session
Session.
Array< OneD, ExpListSharedPtr > m_planes
boost::shared_ptr< ExpList2D > ExpList2DSharedPtr
Shared pointer to an ExpList2D object.
void Sadd(int n, const T alpha, const T *x, const int incx, T *y, const int incy)
Add vector y = alpha + x.
virtual void v_WriteVtkPieceHeader(std::ostream &outfile, int expansion, int istrip)
LibUtilities::CommSharedPtr m_comm
Communicator.
void GetCoords(Array< OneD, NekDouble > &coord_0, Array< OneD, NekDouble > &coord_1=NullNekDouble1DArray, Array< OneD, NekDouble > &coord_2=NullNekDouble1DArray)
This function calculates the coordinates of all the elemental quadrature points . ...
Abstraction of a two-dimensional multi-elemental expansion which is merely a collection of local expa...
virtual NekDouble v_L2(const Array< OneD, const NekDouble > &inarray, const Array< OneD, const NekDouble > &soln=NullNekDouble1DArray)
void SetExpType(ExpansionType Type)
Returns the type of the expansion.
boost::shared_ptr< StdExpansion > StdExpansionSharedPtr
boost::shared_ptr< MeshGraph > MeshGraphSharedPtr
void Vcopy(int n, const T *x, const int incx, T *y, const int incy)
Abstraction of a two-dimensional multi-elemental expansion which is merely a collection of local expa...
Describes the specification for a Basis.
std::map< int, ExpansionShPtr > ExpansionMap