Esempio n. 1
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int mixedLinearComplementarity_simplex_setDefaultSolverOptions(MixedLinearComplementarityProblem* problem, SolverOptions* pSolver)
{
#ifdef HAVE_MLCPSIMPLEX
  mixedLinearComplementarity_default_setDefaultSolverOptions(problem, pSolver);
#endif
  return 0;
}
Esempio n. 2
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int mixedLinearComplementarity_pgs_setDefaultSolverOptions(MixedLinearComplementarityProblem* problem, SolverOptions* pSolver)
{

  mixedLinearComplementarity_default_setDefaultSolverOptions(problem, pSolver);
  pSolver->iparam[2] = 0; //implicit
  return 0;
}
Esempio n. 3
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/*
Warning: this function requires MLCP with M and q, not (A,B,C,D).
The input structure MixedLinearComplementarityProblem is supposed to fit with this form.
*/
int mixedLinearComplementarity_path_setDefaultSolverOptions(MixedLinearComplementarityProblem* problem, SolverOptions* pSolver)
{
#ifdef HAVE_PATHFERRIS
  mixedLinearComplementarity_default_setDefaultSolverOptions(problem, pSolver);
#endif
  return 0;
}
Esempio n. 4
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int mixedLinearComplementarity_fb_setDefaultSolverOptions(MixedLinearComplementarityProblem* problem, SolverOptions* pSolver)
{
  mixedLinearComplementarity_default_setDefaultSolverOptions(problem, pSolver);
  return 0;
}