Allows to export a tailored IRK solver based on Gaussian elimination of specific dimensions. More...
#include <irk_3stage_simplified_newton_export.hpp>
Public Member Functions | |
returnValue | appendVariableNames (std::stringstream &string) |
ExportIRK3StageSimplifiedNewton (UserInteraction *_userInteraction=0, const std::string &_commonHeaderName="") | |
virtual returnValue | getCode (ExportStatementBlock &code) |
virtual returnValue | getDataDeclarations (ExportStatementBlock &declarations, ExportStruct dataStruct=ACADO_ANY) const |
virtual returnValue | getFunctionDeclarations (ExportStatementBlock &declarations) const |
returnValue | setEigenvalues (const DMatrix &_eig) |
returnValue | setImplicit (BooleanType _implicit) |
returnValue | setStepSize (double _stepsize) |
returnValue | setTransformations (const DMatrix &_transf1, const DMatrix &_transf2, const DMatrix &_transf1_T, const DMatrix &_transf2_T) |
virtual returnValue | setup () |
virtual returnValue | transformRightHandSide (ExportStatementBlock &code, const ExportVariable &b_mem_complex_, const ExportVariable &b_mem_real_, const ExportVariable &b_full_, const ExportVariable &transf_, const ExportIndex &index, const bool transpose) |
virtual returnValue | transformSolution (ExportStatementBlock &code, const ExportVariable &b_mem_complex_, const ExportVariable &b_mem_real_, const ExportVariable &b_full_, const ExportVariable &tranfs_, const ExportIndex &index, const bool transpose) |
virtual | ~ExportIRK3StageSimplifiedNewton () |
Public Member Functions inherited from ExportGaussElim | |
ExportGaussElim (UserInteraction *_userInteraction=0, const std::string &_commonHeaderName="") | |
virtual ExportVariable | getGlobalExportVariable (const uint factor) const |
virtual | ~ExportGaussElim () |
Public Member Functions inherited from ExportLinearSolver | |
ExportLinearSolver (UserInteraction *_userInteraction=0, const std::string &_commonHeaderName="") | |
uint | getDim () const |
const std::string | getNameSolveFunction () |
const std::string | getNameSolveReuseFunction () |
const std::string | getNameSolveTransposeReuseFunction () |
bool | getReuse () const |
bool | getTranspose () const |
bool | getUnrolling () const |
returnValue | init (const uint newDim, const bool &reuse=true, const bool &unrolling=false) |
returnValue | init (const uint newDim, const uint _nRightHandSides, const bool &reuse=true, const bool &unrolling=false) |
returnValue | init (const uint newDim, const bool &reuse, const bool &unrolling, const std::string &newId) |
returnValue | init (unsigned _nRows, unsigned _nCols, unsigned _nBacksolves, bool _reuse, bool _unroll, const std::string &_id) |
returnValue | init (unsigned _nRows, unsigned _nCols, unsigned _nBacksolves, unsigned _nRightHandSides, bool _reuse, bool _unroll, const std::string &_id) |
returnValue | setReuse (const bool &reuse) |
returnValue | setTranspose (const bool &transpose) |
returnValue | setUnrolling (const bool &unrolling) |
virtual | ~ExportLinearSolver () |
Public Member Functions inherited from ExportAlgorithm | |
ExportAlgorithm (UserInteraction *_userInteraction=0, const std::string &_commonHeaderName=std::string()) | |
uint | getN () const |
uint | getNDX () const |
uint | getNOD () const |
uint | getNP () const |
uint | getNU () const |
uint | getNX () const |
uint | getNXA () const |
uint | getNY () const |
uint | getNYN () const |
returnValue | setDimensions (uint _NX=0, uint _NU=0, uint _NP=0, uint _NI=0, uint _NOD=0) |
returnValue | setDimensions (uint _NX, uint _NDX, uint _NXA, uint _NU, uint _NP, uint _NI, uint _NOD) |
void | setNY (uint NY_) |
void | setNYN (uint NYN_) |
virtual | ~ExportAlgorithm () |
Public Member Functions inherited from AlgorithmicBase | |
int | addLogRecord (LogRecord &_record) |
returnValue | addOption (OptionsName name, int value) |
returnValue | addOption (OptionsName name, double value) |
returnValue | addOption (uint idx, OptionsName name, int value) |
returnValue | addOption (uint idx, OptionsName name, double value) |
returnValue | addOptionsList () |
AlgorithmicBase () | |
AlgorithmicBase (UserInteraction *_userInteraction) | |
AlgorithmicBase (const AlgorithmicBase &rhs) | |
returnValue | get (OptionsName name, int &value) const |
returnValue | get (OptionsName name, double &value) const |
returnValue | get (OptionsName name, std::string &value) const |
returnValue | get (uint idx, OptionsName name, int &value) const |
returnValue | get (uint idx, OptionsName name, double &value) const |
returnValue | getAll (LogName _name, MatrixVariablesGrid &values) const |
returnValue | getFirst (LogName _name, DMatrix &firstValue) const |
returnValue | getFirst (LogName _name, VariablesGrid &firstValue) const |
returnValue | getLast (LogName _name, DMatrix &lastValue) const |
returnValue | getLast (LogName _name, VariablesGrid &lastValue) const |
Options | getOptions (uint idx) const |
BooleanType | haveOptionsChanged () const |
BooleanType | haveOptionsChanged (uint idx) const |
AlgorithmicBase & | operator= (const AlgorithmicBase &rhs) |
returnValue | plot (PlotFrequency _frequency=PLOT_IN_ANY_CASE) |
returnValue | printLogRecord (std::ostream &_stream, int idx, LogPrintMode _mode=PRINT_ITEM_BY_ITEM) const |
returnValue | replot (PlotFrequency _frequency=PLOT_IN_ANY_CASE) |
returnValue | set (OptionsName name, int value) |
returnValue | set (OptionsName name, double value) |
returnValue | set (OptionsName name, const std::string &value) |
returnValue | set (uint idx, OptionsName name, int value) |
returnValue | set (uint idx, OptionsName name, double value) |
returnValue | setAll (LogName _name, const MatrixVariablesGrid &values) |
returnValue | setLast (LogName _name, int lastValue, double time=-INFTY) |
returnValue | setLast (LogName _name, double lastValue, double time=-INFTY) |
returnValue | setLast (LogName _name, const DVector &lastValue, double time=-INFTY) |
returnValue | setLast (LogName _name, const DMatrix &lastValue, double time=-INFTY) |
returnValue | setLast (LogName _name, const VariablesGrid &lastValue, double time=-INFTY) |
returnValue | setOptions (const Options &arg) |
returnValue | setOptions (uint idx, const Options &arg) |
virtual | ~AlgorithmicBase () |
Allows to export a tailored IRK solver based on Gaussian elimination of specific dimensions.
The class ExportIRK3StageSolver allows to export a tailored IRK solver based on Gaussian elimination of specific dimensions.
Definition at line 54 of file irk_3stage_simplified_newton_export.hpp.
BEGIN_NAMESPACE_ACADO ExportIRK3StageSimplifiedNewton::ExportIRK3StageSimplifiedNewton | ( | UserInteraction * | _userInteraction = 0 , |
const std::string & | _commonHeaderName = "" |
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Default constructor.
@param[in] _userInteraction Pointer to corresponding user interface. @param[in] _commonHeaderName Name of common header file to be included.
Definition at line 44 of file irk_3stage_simplified_newton_export.cpp.
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Destructor.
Definition at line 52 of file irk_3stage_simplified_newton_export.cpp.
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Appends the names of the used variables to a given stringstream.
@param[in] string The string to which the names of the used variables are appended. \return SUCCESSFUL_RETURN
Reimplemented from ExportGaussElim.
Definition at line 284 of file irk_3stage_simplified_newton_export.cpp.
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Exports source code of the auto-generated algorithm into the given directory.
@param[in] code Code block containing the auto-generated algorithm. \return SUCCESSFUL_RETURN
Reimplemented from ExportGaussElim.
Definition at line 99 of file irk_3stage_simplified_newton_export.cpp.
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Adds all data declarations of the auto-generated algorithm to given list of declarations.
@param[in] declarations List of declarations. \return SUCCESSFUL_RETURN
Reimplemented from ExportGaussElim.
Definition at line 55 of file irk_3stage_simplified_newton_export.cpp.
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Adds all function (forward) declarations of the auto-generated algorithm to given list of declarations.
@param[in] declarations List of declarations. \return SUCCESSFUL_RETURN
Reimplemented from ExportGaussElim.
Definition at line 80 of file irk_3stage_simplified_newton_export.cpp.
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Definition at line 435 of file irk_3stage_simplified_newton_export.cpp.
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Definition at line 441 of file irk_3stage_simplified_newton_export.cpp.
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Definition at line 447 of file irk_3stage_simplified_newton_export.cpp.
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Definition at line 417 of file irk_3stage_simplified_newton_export.cpp.
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Definition at line 423 of file irk_3stage_simplified_newton_export.cpp.
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Definition at line 429 of file irk_3stage_simplified_newton_export.cpp.
returnValue ExportIRK3StageSimplifiedNewton::setEigenvalues | ( | const DMatrix & | _eig | ) |
This routine sets the eigenvalues of the inverse of the AA matrix.
Definition at line 383 of file irk_3stage_simplified_newton_export.cpp.
returnValue ExportIRK3StageSimplifiedNewton::setImplicit | ( | BooleanType | _implicit | ) |
Definition at line 452 of file irk_3stage_simplified_newton_export.cpp.
returnValue ExportIRK3StageSimplifiedNewton::setStepSize | ( | double | _stepsize | ) |
This routine sets the step size used in the IRK method.
Definition at line 410 of file irk_3stage_simplified_newton_export.cpp.
returnValue ExportIRK3StageSimplifiedNewton::setTransformations | ( | const DMatrix & | _transf1, |
const DMatrix & | _transf2, | ||
const DMatrix & | _transf1_T, | ||
const DMatrix & | _transf2_T | ||
) |
This routine sets the transformation matrices, defined by the inverse of the AA matrix.
Definition at line 395 of file irk_3stage_simplified_newton_export.cpp.
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Initializes code export into given file.
\return SUCCESSFUL_RETURN
Reimplemented from ExportGaussElim.
Definition at line 297 of file irk_3stage_simplified_newton_export.cpp.
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Exports source code of the auto-generated algorithm into the given directory.
@param[in] code Code block containing the auto-generated algorithm. \return SUCCESSFUL_RETURN
Definition at line 213 of file irk_3stage_simplified_newton_export.cpp.
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Exports source code of the auto-generated algorithm into the given directory.
@param[in] code Code block containing the auto-generated algorithm. \return SUCCESSFUL_RETURN
Definition at line 251 of file irk_3stage_simplified_newton_export.cpp.
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Variable containing the matrix of the complex linear system.
Definition at line 178 of file irk_3stage_simplified_newton_export.hpp.
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Variable containing the matrix for the complete linear system.
Definition at line 193 of file irk_3stage_simplified_newton_export.hpp.
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Variable containing the factorized matrix of the complex linear system.
Definition at line 205 of file irk_3stage_simplified_newton_export.hpp.
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Variable containing the factorized matrix of the real linear system.
Definition at line 204 of file irk_3stage_simplified_newton_export.hpp.
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Variable containing the right-hand side of the complex linear system and it will also contain the solution.
Definition at line 179 of file irk_3stage_simplified_newton_export.hpp.
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Variable containing the right-hand side of the complex linear system and it will also contain the solution.
Definition at line 180 of file irk_3stage_simplified_newton_export.hpp.
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Variable containing the right-hand side of the complete linear system and it will also contain the solution.
Definition at line 195 of file irk_3stage_simplified_newton_export.hpp.
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Variable containing the right-hand side of the complete linear system and it will also contain the solution.
Definition at line 196 of file irk_3stage_simplified_newton_export.hpp.
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Variable containing the right-hand side for the complex linear system.
Definition at line 207 of file irk_3stage_simplified_newton_export.hpp.
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Variable containing the right-hand side for the complex linear system.
Definition at line 209 of file irk_3stage_simplified_newton_export.hpp.
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Variable containing the right-hand side for the real linear system.
Definition at line 206 of file irk_3stage_simplified_newton_export.hpp.
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Variable containing the right-hand side for the real linear system.
Definition at line 208 of file irk_3stage_simplified_newton_export.hpp.
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Variable containing the matrix determinant.
Definition at line 183 of file irk_3stage_simplified_newton_export.hpp.
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Definition at line 171 of file irk_3stage_simplified_newton_export.hpp.
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Variable containing the matrix for the complete linear system.
Definition at line 194 of file irk_3stage_simplified_newton_export.hpp.
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Definition at line 169 of file irk_3stage_simplified_newton_export.hpp.
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Variable containing the reordered right-hand side.
Definition at line 185 of file irk_3stage_simplified_newton_export.hpp.
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Variable containing ...
Definition at line 186 of file irk_3stage_simplified_newton_export.hpp.
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Variable containing the order of the rows.
Definition at line 181 of file irk_3stage_simplified_newton_export.hpp.
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Variable containing the order of the rows.
Definition at line 197 of file irk_3stage_simplified_newton_export.hpp.
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Variable that is used to swap rows for pivoting.
Definition at line 184 of file irk_3stage_simplified_newton_export.hpp.
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Function that solves the complex linear system.
Definition at line 188 of file irk_3stage_simplified_newton_export.hpp.
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Function that solves the complete linear system.
Definition at line 199 of file irk_3stage_simplified_newton_export.hpp.
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Function that solves a complex linear system with the same matrix, reusing previous results.
Definition at line 189 of file irk_3stage_simplified_newton_export.hpp.
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Function that solves a complex linear system with the same matrix, reusing previous results.
Definition at line 190 of file irk_3stage_simplified_newton_export.hpp.
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Function that solves a complete linear system with the same matrix, reusing previous results.
Definition at line 200 of file irk_3stage_simplified_newton_export.hpp.
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Function that solves a complete linear system with the same matrix, reusing previous results.
Definition at line 201 of file irk_3stage_simplified_newton_export.hpp.
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Definition at line 170 of file irk_3stage_simplified_newton_export.hpp.
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Definition at line 172 of file irk_3stage_simplified_newton_export.hpp.
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Definition at line 174 of file irk_3stage_simplified_newton_export.hpp.
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Definition at line 173 of file irk_3stage_simplified_newton_export.hpp.
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Definition at line 175 of file irk_3stage_simplified_newton_export.hpp.