, including all inherited members.
addCuts(const Cuts &cuts, bool safe) | Bonmin::TMINLP2TNLPQuadCuts | |
addCuts(const OsiCuts &cuts) | Bonmin::TMINLP2TNLPQuadCuts | [virtual] |
addCuts(unsigned int numberCuts, const OsiRowCut **cuts) | Bonmin::TMINLP2TNLPQuadCuts | [virtual] |
addRowCuts(const OsiCuts &cuts, bool safe) | Bonmin::TMINLP2TNLPQuadCuts | [protected] |
c_ | Bonmin::TMINLP2TNLPQuadCuts | [private] |
check_solution(OsiObject **objects=0, int nObjects=-1) | Bonmin::TMINLP2TNLP | |
clone() const | Bonmin::TMINLP2TNLPQuadCuts | [inline, virtual] |
curr_nnz_jac_ | Bonmin::TMINLP2TNLPQuadCuts | [private] |
duals_init() const | Bonmin::TMINLP2TNLP | [inline] |
duals_init_ | Bonmin::TMINLP2TNLP | [protected] |
duals_sol() const | Bonmin::TMINLP2TNLP | [inline] |
duals_sol_ | Bonmin::TMINLP2TNLP | [protected] |
eval_f(Index n, const Number *x, bool new_x, Number &obj_value) | Bonmin::TMINLP2TNLPQuadCuts | [virtual] |
eval_g(Index n, const Number *x, bool new_x, Index m, Number *g) | Bonmin::TMINLP2TNLPQuadCuts | [virtual] |
eval_gi(Index n, const Number *x, bool new_x, Index i, Number &gi) | Bonmin::TMINLP2TNLPQuadCuts | [virtual] |
eval_grad_f(Index n, const Number *x, bool new_x, Number *grad_f) | Bonmin::TMINLP2TNLPQuadCuts | [virtual] |
eval_grad_gi(Index n, const Number *x, bool new_x, Index i, Index &nele_grad_gi, Index *jCol, Number *values) | Bonmin::TMINLP2TNLPQuadCuts | [virtual] |
eval_h(Index n, const Number *x, bool new_x, Number obj_factor, Index m, const Number *lambda, bool new_lambda, Index nele_hess, Index *iRow, Index *jCol, Number *values) | Bonmin::TMINLP2TNLPQuadCuts | [virtual] |
eval_jac_g(Index n, const Number *x, bool new_x, Index m, Index nele_jac, Index *iRow, Index *jCol, Number *values) | Bonmin::TMINLP2TNLPQuadCuts | [virtual] |
evaluateUpperBoundingFunction(const double *x) | Bonmin::TMINLP2TNLP | |
finalize_solution(SolverReturn status, Index n, const Number *x, const Number *z_L, const Number *z_U, Index m, const Number *g, const Number *lambda, Number obj_value, const IpoptData *ip_data, IpoptCalculatedQuantities *ip_cq) | Bonmin::TMINLP2TNLP | [virtual] |
force_fractionnal_sol() | Bonmin::TMINLP2TNLP | |
g_l() | Bonmin::TMINLP2TNLP | [inline] |
g_l_ | Bonmin::TMINLP2TNLP | [protected] |
g_sol() const | Bonmin::TMINLP2TNLP | [inline] |
g_sol_ | Bonmin::TMINLP2TNLP | [protected] |
g_u() | Bonmin::TMINLP2TNLP | [inline] |
g_u_ | Bonmin::TMINLP2TNLP | [protected] |
get_bounds_info(Index n, Number *x_l, Number *x_u, Index m, Number *g_l, Number *g_u) | Bonmin::TMINLP2TNLPQuadCuts | [virtual] |
get_constraints_linearity(Index m, Ipopt::TNLP::LinearityType *const_types) | Bonmin::TMINLP2TNLPQuadCuts | [virtual] |
Bonmin::TMINLP2TNLP::get_constraints_linearity(Index m, LinearityType *const_types) | Bonmin::TMINLP2TNLP | [inline, virtual] |
get_nlp_info(Index &n, Index &m, Index &nnz_jac_g, Index &nnz_h_lag, TNLP::IndexStyleEnum &index_style) | Bonmin::TMINLP2TNLPQuadCuts | [virtual] |
get_scaling_parameters(Number &obj_scaling, bool &use_x_scaling, Index n, Number *x_scaling, bool &use_g_scaling, Index m, Number *g_scaling) | Bonmin::TMINLP2TNLPQuadCuts | [virtual] |
get_starting_point(Index n, bool init_x, Number *x, bool init_z, Number *z_L, Number *z_U, Index m, bool init_lambda, Number *lambda) | Bonmin::TMINLP2TNLPQuadCuts | [virtual] |
get_warm_start_iterate(IteratesVector &warm_start_iterate) | Bonmin::TMINLP2TNLP | [virtual] |
GetWarmStarter() | Bonmin::TMINLP2TNLP | |
H_ | Bonmin::TMINLP2TNLPQuadCuts | [private] |
hasLinearObjective() | Bonmin::TMINLP2TNLP | [inline, virtual] |
hasUpperBoundingObjective() | Bonmin::TMINLP2TNLP | [inline, virtual] |
index_style() const | Bonmin::TMINLP2TNLP | [inline, protected] |
intermediate_callback(AlgorithmMode mode, Index iter, Number obj_value, Number inf_pr, Number inf_du, Number mu, Number d_norm, Number regularization_size, Number alpha_du, Number alpha_pr, Index ls_trials, const IpoptData *ip_data, IpoptCalculatedQuantities *ip_cq) | Bonmin::TMINLP2TNLP | [virtual] |
nnz_h_lag() | Bonmin::TMINLP2TNLP | [inline] |
nnz_h_lag() const | Bonmin::TMINLP2TNLP | [inline, protected] |
nnz_jac_g() const | Bonmin::TMINLP2TNLP | [inline, protected] |
num_constraints() const | Bonmin::TMINLP2TNLP | [inline] |
num_variables() const | Bonmin::TMINLP2TNLP | [inline] |
obj_ | Bonmin::TMINLP2TNLPQuadCuts | [private] |
obj_value() const | Bonmin::TMINLP2TNLP | [inline] |
operator=(const TMINLP2TNLP &) | Bonmin::TMINLP2TNLPQuadCuts | [protected] |
optimization_status() const | Bonmin::TMINLP2TNLP | [inline] |
orig_x_l() const | Bonmin::TMINLP2TNLP | [inline] |
orig_x_l_ | Bonmin::TMINLP2TNLP | [protected] |
orig_x_u() const | Bonmin::TMINLP2TNLP | [inline] |
orig_x_u_ | Bonmin::TMINLP2TNLP | [protected] |
outputDiffs(const std::string &probName, const std::string *varNames) | Bonmin::TMINLP2TNLP | |
printH() | Bonmin::TMINLP2TNLPQuadCuts | [private] |
quadRows_ | Bonmin::TMINLP2TNLPQuadCuts | [private] |
removeCuts(unsigned int number, const int *toRemove) | Bonmin::TMINLP2TNLPQuadCuts | [virtual] |
reset_objective() | Bonmin::TMINLP2TNLPQuadCuts | [inline] |
resetStartingPoint() | Bonmin::TMINLP2TNLP | |
Set_dual_sol(Index n, const Number *dual_sol) | Bonmin::TMINLP2TNLP | |
set_linear_objective(int n_var, const double *obj, double c_0) | Bonmin::TMINLP2TNLPQuadCuts | |
set_obj_value(Number value) | Bonmin::TMINLP2TNLP | [inline] |
Set_x_sol(Index n, const Number *x_sol) | Bonmin::TMINLP2TNLP | |
setDualInit(Index ind, const Number val) | Bonmin::TMINLP2TNLP | |
setDualsInit(Index n, const Number *duals_init) | Bonmin::TMINLP2TNLP | |
SetStartingPoint(Index n, const Number *x_init) | Bonmin::TMINLP2TNLP | |
SetVariableBounds(Index var_no, Number x_l, Number x_u) | Bonmin::TMINLP2TNLP | |
SetVariableLowerBound(Index var_no, Number x_l) | Bonmin::TMINLP2TNLP | |
SetVariablesBounds(Index n, const Number *x_l, const Number *x_u) | Bonmin::TMINLP2TNLP | |
SetVariablesLowerBounds(Index n, const Number *x_l) | Bonmin::TMINLP2TNLP | |
SetVariablesUpperBounds(Index n, const Number *x_u) | Bonmin::TMINLP2TNLP | |
SetVariableType(Index n, TMINLP::VariableType type) | Bonmin::TMINLP2TNLP | |
SetVariableUpperBound(Index var_no, Number x_u) | Bonmin::TMINLP2TNLP | |
SetWarmStarter(SmartPtr< IpoptInteriorWarmStarter > warm_starter) | Bonmin::TMINLP2TNLP | |
setxInit(Index ind, const Number val) | Bonmin::TMINLP2TNLP | |
setxInit(Index n, const Number *x_init) | Bonmin::TMINLP2TNLP | |
TMINLP2TNLP(const SmartPtr< TMINLP > tminlp) | Bonmin::TMINLP2TNLP | |
TMINLP2TNLP(const TMINLP2TNLP &) | Bonmin::TMINLP2TNLP | |
TMINLP2TNLPQuadCuts(const SmartPtr< Bonmin::TMINLP > tminlp) | Bonmin::TMINLP2TNLPQuadCuts | |
TMINLP2TNLPQuadCuts(const TMINLP2TNLPQuadCuts &) | Bonmin::TMINLP2TNLPQuadCuts | |
TMINLP2TNLPQuadCuts() | Bonmin::TMINLP2TNLPQuadCuts | [protected] |
var_types() | Bonmin::TMINLP2TNLP | [inline] |
var_types_ | Bonmin::TMINLP2TNLP | [protected] |
x_init() const | Bonmin::TMINLP2TNLP | [inline] |
x_init_ | Bonmin::TMINLP2TNLP | [protected] |
x_init_user() const | Bonmin::TMINLP2TNLP | [inline] |
x_init_user_ | Bonmin::TMINLP2TNLP | [protected] |
x_l() | Bonmin::TMINLP2TNLP | [inline] |
x_l_ | Bonmin::TMINLP2TNLP | [protected] |
x_sol() const | Bonmin::TMINLP2TNLP | [inline] |
x_sol_ | Bonmin::TMINLP2TNLP | [protected] |
x_u() | Bonmin::TMINLP2TNLP | [inline] |
x_u_ | Bonmin::TMINLP2TNLP | [protected] |
~TMINLP2TNLP() | Bonmin::TMINLP2TNLP | [virtual] |
~TMINLP2TNLPQuadCuts() | Bonmin::TMINLP2TNLPQuadCuts | [virtual] |