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Chombo + EB
3.2
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Fills ghost cells by linear interpolation in space and time. More...
#include <PiecewiseLinearFillPatch.H>
Public Member Functions | |
| PiecewiseLinearFillPatch () | |
| virtual | ~PiecewiseLinearFillPatch () |
| PiecewiseLinearFillPatch (const DisjointBoxLayout &a_fine_domain, const DisjointBoxLayout &a_coarse_domain, int a_num_comps, const Box &a_crse_problem_domain, int a_ref_ratio, int a_interp_radius, bool a_pwconst_interp_only=false) | |
| PiecewiseLinearFillPatch (const DisjointBoxLayout &a_fine_domain, const DisjointBoxLayout &a_coarse_domain, int a_num_comps, const ProblemDomain &a_crse_problem_domain, int a_ref_ratio, int a_interp_radius, bool a_pwconst_interp_only=false) | |
| void | define (const DisjointBoxLayout &a_fine_domain, const DisjointBoxLayout &a_coarse_domain, int a_num_comps, const Box &a_crse_problem_domain, int a_ref_ratio, int a_interp_radius, bool a_pwconst_interp_only=false) |
| void | define (const DisjointBoxLayout &a_fine_domain, const DisjointBoxLayout &a_coarse_domain, int a_num_comps, const ProblemDomain &a_crse_problem_domain, int a_ref_ratio, int a_interp_radius, bool a_pwconst_interp_only=false) |
| bool | isDefined () const |
| void | fillInterp (LevelData< FArrayBox > &a_fine_data, const LevelData< FArrayBox > &a_old_coarse_data, const LevelData< FArrayBox > &a_new_coarse_data, Real a_time_interp_coef, int a_src_comp, int a_dest_comp, int a_num_comp) |
| void | fillInterpPWConstSpace (LevelData< FArrayBox > &a_fine_data, const LevelData< FArrayBox > &a_coarse_data, int a_src_comp, int a_dest_comp, int a_num_comp) |
| void | printIntVectSets () const |
Protected Member Functions | |
| void | timeInterp (const LevelData< FArrayBox > &a_old_coarse_data, const LevelData< FArrayBox > &a_new_coarse_data, Real a_time_interp_coef, int a_src_comp, int a_dest_comp, int a_num_comp) |
| virtual void | fillConstantInterp (LevelData< FArrayBox > &a_fine_data, int a_src_comp, int a_dest_comp, int a_num_comp) const |
| virtual void | computeSlopes (int a_src_comp, int a_num_comp) |
| void | computeSimpleSlopesFab (FArrayBox &a_slopeFab, const int &a_src_comp, const int &a_num_comp, const int &a_dir, const FArrayBox &a_dataFab, const IntVectSet &a_local_centered_interp, const IntVectSet &a_local_lo_interp, const IntVectSet &a_local_hi_interp) |
| void | computeMultiDimSlopes (FArrayBox &a_slopes0, FArrayBox &a_slopes1, FArrayBox &a_slopes2, const FArrayBox &a_dataFab, const int &a_src_comp, const int &a_num_comp, const Box &a_slopeBox) |
| virtual void | incrementLinearInterp (LevelData< FArrayBox > &a_fine_data, int a_src_comp, int a_dest_comp, int a_num_comp) const |
Protected Attributes | |
| bool | m_is_defined |
| int | m_ref_ratio |
| int | m_interp_radius |
| LevelData< FArrayBox > | m_coarsened_fine_data |
| LevelData< FArrayBox > | m_slopes [3] |
| ProblemDomain | m_crse_problem_domain |
| LayoutData< IntVectSet > | m_fine_interp |
| LayoutData< IntVectSet > | m_coarse_centered_interp [SpaceDim] |
| LayoutData< IntVectSet > | m_coarse_lo_interp [SpaceDim] |
| LayoutData< IntVectSet > | m_coarse_hi_interp [SpaceDim] |
| Copier | m_coarsenCopier |
Static Protected Attributes | |
| static const int | s_stencil_radius |
Fills ghost cells by linear interpolation in space and time.
Fills some fine level ghost cells by piecewise linear interpolation from the coarse level.
This class also presents an interface for performing piecewise constant interpolation in space. If this is all that is required, define with 'a_pwconst_interp_only = true' to save memory and expense.
This class fills the first a_interp_radius layers of fine level ghost cells that are not part of other fine level grids. It uses piecewise linear interpolation from the coarse level. The slopes are computed using van leer limiting if there is enough room for the stencil. It drops order and uses first-order one-sided differences otherwise.
Below is a picture of a fine level, with a_interp_radius = 1. The ghost cells of grid 1 are shown. Cells marked X are interpolated to from the coarse level. Cells marked ^ are not interpolated to because they are in the valid domain of another fine grid. Cells marked . are not interpolated to because they are outside the problem domain. All of this changes in the presence of periodic boundary conditions – in periodic directions, all cells are considered to be within the domain.
+=======================================+ | | | | | | | | | + - - - - - - - - - - - - - - | + | X X X X X X X X X X X X X X X|. | | +===========================+ | | X| |. | | | | | | X| grid 1 |. | | | | | | X| |. | | | | | | X| |. | +=======+===+===============+=======+ | | | ^ ^ ^|X X X X X X X X|^ ^ ^ ^|. | | + - - | - - - - - - - | - - - | + | | | |grid 2 | | | grid 0 | +=======+ | | | | | | | | | | | | | +===========+ | | | | | | problem domain | +=======================================+
the picture below shows the locations of the types of slopes. The coarse grid is shown, and the projection of the fine grid onto the coarse index space (on which slopes are computed). Coarse cells marked ^ and . do not need slopes. Van Leer slopes in both directions are used at coarse cells marked X. Coarse cells marked V and < have one-sided differencing: cells marked V have low-sided differencing in the y-direction (in this example, because the coarse grid doesn't exist on the high side of these cells), and cells marked < have low-sided differencing in the x-direction (because the problem domain doesn't exist on the high side of these cells). There can also be cells that have one-sided differences in both directions.
+--------------------—+===============+
| coarse grid 1 | |
|---|---|
| +=======================+ - - - - - - - | - + |
| \ / \ / \ / \ / | \ / \ / \ / \ / |
| coarse grid 0 |
| PiecewiseLinearFillPatch::PiecewiseLinearFillPatch | ( | ) |
Default constructor. User must subsequently call define().
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virtual |
Destructor.
| PiecewiseLinearFillPatch::PiecewiseLinearFillPatch | ( | const DisjointBoxLayout & | a_fine_domain, |
| const DisjointBoxLayout & | a_coarse_domain, | ||
| int | a_num_comps, | ||
| const Box & | a_crse_problem_domain, | ||
| int | a_ref_ratio, | ||
| int | a_interp_radius, | ||
| bool | a_pwconst_interp_only = false |
||
| ) |
Defining constructor.
{ Arguments:}\ a_fine_domain (not modified): domain of fine level. \ a_coarse_domain (not modified): domain of coarse level. \ a_num_comps (not modified): number of components of state vector. \ a_problem_domain (not modified): problem domain on the coarse level. \ a_ref_ratio (not modified): refinement ratio. \ a_interp_radius (not modified): number of layers of fine ghost cells to fill by interpolation. \ a_constInterpOnly (not modified): if true, only set up for piecewise-constant interpolation in space. \
| PiecewiseLinearFillPatch::PiecewiseLinearFillPatch | ( | const DisjointBoxLayout & | a_fine_domain, |
| const DisjointBoxLayout & | a_coarse_domain, | ||
| int | a_num_comps, | ||
| const ProblemDomain & | a_crse_problem_domain, | ||
| int | a_ref_ratio, | ||
| int | a_interp_radius, | ||
| bool | a_pwconst_interp_only = false |
||
| ) |
Defining constructor.
{ Arguments:}\ a_fine_domain (not modified): domain of fine level. \ a_coarse_domain (not modified): domain of coarse level. \ a_num_comps (not modified): number of components of state vector. \ a_problem_domain (not modified): problem domain on the coarse level. \ a_ref_ratio (not modified): refinement ratio. \ a_interp_radius (not modified): number of layers of fine ghost cells to fill by interpolation. \ a_constInterpOnly (not modified): if true, only set up for piecewise-constant interpolation in space. \
| void PiecewiseLinearFillPatch::define | ( | const DisjointBoxLayout & | a_fine_domain, |
| const DisjointBoxLayout & | a_coarse_domain, | ||
| int | a_num_comps, | ||
| const Box & | a_crse_problem_domain, | ||
| int | a_ref_ratio, | ||
| int | a_interp_radius, | ||
| bool | a_pwconst_interp_only = false |
||
| ) |
Defines this object. The user may call define() once and call fillInterp() multiple times with different valid data sets.
{ Arguments:}\ a_fine_domain (not modified): domain of fine level. \ a_coarse_domain (not modified): domain of coarse level. \ a_num_comps (not modified): number of components of state vector. \ a_problem_domain (not modified): problem domain on the coarse level. \ a_ref_ratio (not modified): refinement ratio. \ a_interp_radius (not modified): number of layers of fine ghost cells to fill by interpolation. \ a_constInterpOnly (not modified): if true, only set up for piecewise-constant interpolation in space. \
{ This:}\ —This object is modified.—
| void PiecewiseLinearFillPatch::define | ( | const DisjointBoxLayout & | a_fine_domain, |
| const DisjointBoxLayout & | a_coarse_domain, | ||
| int | a_num_comps, | ||
| const ProblemDomain & | a_crse_problem_domain, | ||
| int | a_ref_ratio, | ||
| int | a_interp_radius, | ||
| bool | a_pwconst_interp_only = false |
||
| ) |
Defines this object. The user may call define() once and call fillInterp() multiple times with different valid data sets.
{ Arguments:}\ a_fine_domain (not modified): domain of fine level. \ a_coarse_domain (not modified): domain of coarse level. \ a_num_comps (not modified): number of components of state vector. \ a_problem_domain (not modified): problem domain on the coarse level. \ a_ref_ratio (not modified): refinement ratio. \ a_interp_radius (not modified): number of layers of fine ghost cells to fill by interpolation. \ a_constInterpOnly (not modified): if true, only set up for piecewise-constant interpolation in space. \
{ This:}\ —This object is modified.—
| bool PiecewiseLinearFillPatch::isDefined | ( | ) | const |
Returns true if this object was created with the defining constructor or if define() has been called.
{ This:}\ This object is not modified.
| void PiecewiseLinearFillPatch::fillInterp | ( | LevelData< FArrayBox > & | a_fine_data, |
| const LevelData< FArrayBox > & | a_old_coarse_data, | ||
| const LevelData< FArrayBox > & | a_new_coarse_data, | ||
| Real | a_time_interp_coef, | ||
| int | a_src_comp, | ||
| int | a_dest_comp, | ||
| int | a_num_comp | ||
| ) |
Fills the first m_interp_radius layers of fine ghost cells by interpolation from the coarse level. It is an error to call if not this->isDefined(). The range components to interpolate must be specified. The corresponding components on the coarse and fine levels may be different. It is required that a_fine_data's domain is the same as was specified in the most recent call to define(). It is expected that the coarse and fine level's domains are properly nested.
{ Arguments:}\ a_fine_data (modified): fine-level data being interpolated to.\ a_old_coarse_data (not modified): coarse level source data at the old time.\ a_new_coarse_data (not modified): coarse level source data at the new time.\ a_time_interp_coef (not modified): time interpolation coefficient, in the range [0:1]. 0=old time, 1=new time.\ a_src_comp (not modifed): starting coarse data component.\ a_dest_comp (not modifed): starting fine data component.\ a_num_comp (not modified): number of data components to be interpolated.
{ This:}\ Well, it's complicated. As far as the user is concerned, this object is not modified. See the design document if you care for details.
| void PiecewiseLinearFillPatch::fillInterpPWConstSpace | ( | LevelData< FArrayBox > & | a_fine_data, |
| const LevelData< FArrayBox > & | a_coarse_data, | ||
| int | a_src_comp, | ||
| int | a_dest_comp, | ||
| int | a_num_comp | ||
| ) |
Fills the first m_interp_radius layers of fine ghost cells by piece-wise constant interpolation (only in space) from a coarse level { Arguments:}\ a_fine_data (modified): fine-level data being interpolated to.\ a_coarse_data (not modified): coarse level source data.\ a_src_comp (not modifed): starting coarse data component.\ a_dest_comp (not modifed): starting fine data component.\ a_num_comp (not modified): number of data components to be
| void PiecewiseLinearFillPatch::printIntVectSets | ( | ) | const |
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1.8.13