#include <AMR.H>
Collaboration diagram for AMR:
Public Methods | |
AMR () | |
{\bf constructors, destructors and defines} | |
~AMR () | |
void | define (int a_max_level, const Vector< int > &a_ref_ratios, const Box &a_prob_domain, const AMRLevelFactory *const a_amrLevelFact) |
void | define (int a_max_level, const Vector< int > &a_ref_ratios, const ProblemDomain &a_prob_domain, const AMRLevelFactory *const a_amrLevelFact) |
bool | isDefined () const |
{\bf Setup functions} | |
bool | isSetUp () const |
void | setupForNewAMRRun () |
void | setupForFixedHierarchyRun (const Vector< Vector< Box > > &a_amr_grids, int a_proper_nest=1) |
void | conclude () const |
void | run (Real a_max_time, int a_max_step) |
void | plotPrefix (const std::string &a_plotfile_prefix) |
{\bf Administrative functions} | |
void | checkpointPrefix (const std::string &a_checkpointfile_prefix) |
void | plotInterval (int a_plot_interval) |
void | checkpointInterval (int a_checkpoint_interval) |
void | maxGridSize (int a_max_grid_size) |
void | dtToleranceFactor (Real a_dt_tolerance_factor) |
void | fillRatio (Real a_fillRat) |
void | blockFactor (int a_blockFactor) |
void | gridBufferSize (int a_grid_buffer_size) |
int | maxGridSize () const |
void | verbosity (int a_verbosity) |
void | regridIntervals (const Vector< int > &a_regridIntervals) |
int | verbosity () const |
void | maxDtGrow (Real a_dtGrowFactor) |
Real | maxDtGrow () const |
void | fixedDt (Real a_dt) |
Real | fixedDt () const |
Protected Methods | |
int | timeStep (int a_level, int a_stepsLeft, bool timeBoundary) |
void | clearMemory () |
void | regrid (int a_base_level) |
void | initialGrid () |
void | writePlotFile () const |
void | writeCheckpointFile () const |
void | assignDt () |
bool | needToRegrid (int a_level, int a_numStepsLeft) const |
void | makeBaseLevelMesh (Vector< Box > &a_grids) const |
void | setDefaultValues () |
Protected Attributes | |
int | m_blockFactor |
Real | m_fillRatio |
int | m_max_level |
int | m_finest_level_old |
int | m_finest_level |
int | m_checkpoint_interval |
int | m_plot_interval |
int | m_max_grid_size |
Real | m_dt_tolerance_factor |
Real | m_fixedDt |
bool | m_isDefined |
bool | m_isSetUp |
Vector< AMRLevel * > | m_amrlevels |
Vector< int > | m_ref_ratios |
Vector< int > | m_reduction_factor |
Vector< int > | m_regrid_intervals |
Real | m_dt_base |
Vector< Real > | m_dt_new |
Vector< Real > | m_dt_cur |
Real | m_maxDtGrow |
BRMeshRefine | m_mesh_refine |
bool | m_use_meshrefine |
Vector< Vector< Box > > | m_amr_grids |
int | m_cur_step |
int | m_restart_step |
int | m_lastcheck_step |
Real | m_cur_time |
Vector< int > | m_steps_since_regrid |
Vector< long > | m_cell_updates |
std::string | m_plotfile_prefix |
std::string | m_checkpointfile_prefix |
int | m_verbosity |
This class is a framework for Berger-Oliger timestepping for adaptive mesh refinement of time-dependent problems. It is applicable to both hyperbolic and parabolic problems. It represents a hierarchy of levels of refinement as a collection of {\tt AMRLevel}s. The usage pattern is this: \ 1. Call define to define the stuff that does not change throughout the run (maxlevel, refinement ratios, domain, and operator) \ 1.5. Modify any parameters you like (blocking factor and so forth using access functions.\ 2. Call any one of the three setup functions so AMR can set up all its internal data structures.\ 3. Call run to run the calculation.\ 4. Call conclude to output (to stdout) how many cells were updated and so forth.
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{\bf constructors, destructors and defines} Default constructor. Use must subsequently call a define() function and a setUp function. |
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Destructor. |
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Set the blocking factor for meshrefinement. Should be called after define and before setup. |
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Sets the interval to write checkpoint files, in terms of the base level time step. |
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Sets the checkpoint file prefix. Should be called after define and before setup. |
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You should call this last. It writes the last checkpoint file and tells you how many cells you updated and all that. |
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Defines this object. User must call a setup function before running. {\bf Arguments:}\ a_prob_domain (not modified): problem domain on the base level.\ a_ref_ratios (not modified): refinement ratios. There must be at least a_max_level+1 elements, or an error will result. Element zero is the base level.\ a_max_level (not modified): the maximum level allowed, where the base level is zero. There will be a total of a_max_level+1 levels, since level zero and level a_max_level will both exist.\ a_amrlevel_ptr (not modified): pointer to a physics class factory object. The object it points to is used to construct the collection of AMRLevels in this AMR as objects of the physics class type. It can be destructed after this define() returns. |
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Defines this object. User must call a setup function before running. {\bf Arguments:}\ a_prob_domain (not modified): problem domain on the base level.\ a_ref_ratios (not modified): refinement ratios. There must be at least a_max_level+1 elements, or an error will result. Element zero is the base level.\ a_max_level (not modified): the maximum level allowed, where the base level is zero. There will be a total of a_max_level+1 levels, since level zero and level a_max_level will both exist.\ a_amrlevel_ptr (not modified): pointer to a physics class factory object. The object it points to is used to construct the collection of AMRLevels in this AMR as objects of the physics class type. It can be destructed after this define() returns. |
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Set the factor by which the current dt must exceed the new (max) dt for time subcycling to occur (i.e., reduction of the current dt by powers of 2). |
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Set the fill ratio for meshrefinement. Should be called after define and before setup. |
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Returns the fixed timestep. |
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Set a fixed timestep. |
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Set the buffering for the meshrefinement. Should be called after define and before setup. |
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{\bf Setup functions} Has a define function been called? Lots of these functions will assert fail if not. |
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Has a setUp function been called? If not, you can't call run |
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Returns current maximum factor by which a timestep can grow. |
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Set maximum factor by which a timestep can grow. |
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Set the maximum grid size. Should be called after define and before setup. |
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Sets the interval to write plot files, in terms of the base level time step. |
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{\bf Administrative functions} Sets the plot file prefix. Should be called after define and before setup. |
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Sets the regridding intervals. This should be OK to call any time after define and before run. |
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Runs the calculation. User must have previously called both the define function and a setup function. |
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This sets the hierarchy and sets regrid_intervals to -1 (turns off regridding). If you want to keep regridding on, reset regridIntervals after this call; |
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Sets up this object for cold start. User must have previously called define(). Need to call this or setupForRestart or setupforFixedHierarchyRun before you run. |
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Returns current verbosity level. -inf to 0: print nothing. \ 1: prints a message every coarse time step. \ 2: also prints a message when regridding and writing files. \ 3: also prints function trace, and some more inf during file I/O. \ 4 to inf: also prints list of boxes and processor maps during regrid. |
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Sets verbosity level to a_verbosity. -inf to 0: print nothing. \ 1: prints a message every coarse time step. \ 2: also prints a message when regridding and writing files. \ 3: also prints function trace, and some more inf during file I/O. \ 4 to inf: also prints list of boxes and processor maps during regrid. This should be OK to call any time after define and before run. |
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