35 #ifndef _BLAZE_MATH_SOLVERS_LEMKE_H_
36 #define _BLAZE_MATH_SOLVERS_LEMKE_H_
99 void pivot (
size_t block,
size_t drive );
DynamicVector< ptrdiff_t > nonbasics_
TODO.
Definition: Lemke.h:107
bool solve(LCP &lcp)
TODO.
Definition: Lemke.cpp:90
Header file for the floating point precision of the Blaze library.
bool isComponentwiseNonnegative(const VecN &v) const
TODO.
Definition: Lemke.cpp:328
bool isLexicographicallyGreater(size_t i1, real f1, size_t i2, real f2) const
TODO.
Definition: Lemke.cpp:395
MatMxN Q_
TODO.
Definition: Lemke.h:109
The Lemke pivoting algorithm for solving LCPs.TODO.
Definition: Lemke.h:66
Header file for the complete DynamicVector implementation.
bool isLexicographicallyLess(size_t i1, real f1, size_t i2, real f2) const
TODO.
Definition: Lemke.cpp:369
Header file for the base class of all solvers.
DynamicVector< ptrdiff_t > basics_
TODO.
Definition: Lemke.h:106
Header file for the complete DynamicMatrix implementation.
A data structure for linear complementarity problems.
void printTableau(std::ostream &os) const
TODO.
Definition: Lemke.cpp:480
double real
Floating point data type of the Blaze library.This type definition offers the possibility to switch t...
Definition: Precision.h:47
MatMxN M_
TODO.
Definition: Lemke.h:108
Lemke()
Default constructor for the Lemke class.
Definition: Lemke.cpp:64
Header file for basic type definitions.
bool isComponentwisePositive(const VecN &v) const
TODO.
Definition: Lemke.cpp:347
void pivot(size_t block, size_t drive)
TODO.
Definition: Lemke.cpp:419
A linear complementarity problem (LCP) data structure.The LCP class represent a linear complementarit...
Definition: LCP.h:67
Base class for all solver classes.TODO: description of the Solver class TODO: description of its func...
Definition: Solver.h:63