6 #ifndef AbcNonLinearCost_H 7 #define AbcNonLinearCost_H 38 #define CLP_BELOW_LOWER 0 39 #define CLP_FEASIBLE 1 40 #define CLP_ABOVE_UPPER 2 42 #ifndef ClpNonLinearCost_H 53 status = static_cast< unsigned char >(status & ~15);
54 status = static_cast< unsigned char >(status | value);
58 status = static_cast< unsigned char >(status & ~(15 << 4));
59 status = static_cast< unsigned char >(status | (value << 4));
67 status = static_cast< unsigned char >(status & ~(15 << 4));
68 status = static_cast< unsigned char >(status | (
CLP_SAME << 4));
115 void goThru(
int numberInArray,
double multiplier,
116 const int *index,
const double *work,
120 void goBack(
int numberInArray,
const int *index,
141 double setOne(
int sequence,
double solutionValue);
145 double setOneBasic(
int iRow,
double solutionValue);
151 double nearest(
int iRow,
double solutionValue);
157 return (alpha > 0.0) ? infeasibilityWeight_ : -infeasibilityWeight_;
161 return -infeasibilityWeight_;
165 return infeasibilityWeight_;
171 double returnValue = 0.0;
172 unsigned char iStatus = status_[sequence];
191 rhs += bound_[sequence] - model_->
upperRegion()[sequence];
196 rhs += model_->
lowerRegion()[sequence] - bound_[sequence];
199 returnValue = fabs(alpha) * infeasibilityWeight_;
209 return numberInfeasibilities_;
219 return feasibleCost_;
226 return sumInfeasibilities_;
231 return largestInfeasibility_;
236 return averageTheta_;
240 averageTheta_ = value;
254 return (status_[sequence] >> 4);
266 double feasibleCost_;
268 double infeasibilityWeight_;
270 double largestInfeasibility_;
272 double sumInfeasibilities_;
274 double averageTheta_;
282 int numberInfeasibilities_;
285 unsigned char *status_;
void setAverageTheta(double value)
void validate()
For debug.
double changeInCost(int, double alpha) const
Returns change in cost - one down if alpha >0.0, up if <0.0 Value is current - new.
double largestInfeasibility() const
Largest infeasibility.
AbcNonLinearCost()
Default constructor.
double feasibleCost() const
Feasible cost.
int numberInfeasibilities() const
Number of infeasibilities.
AbcNonLinearCost & operator=(const AbcNonLinearCost &)
void goBack(int numberInArray, const int *index, double *rhs)
Takes off last iteration (i.e.
double * upperRegion() const
void refresh()
Refresh - assuming regions OK.
double averageTheta() const
Average theta.
void setCurrentStatus(unsigned char &status, int value)
void feasibleBounds()
Puts feasible bounds into lower and upper.
void goThru(int numberInArray, double multiplier, const int *index, const double *work, double *rhs)
Goes through one bound for each variable.
unsigned char * statusArray() const
~AbcNonLinearCost()
Destructor.
void refreshFromPerturbed(double tolerance)
Refresh - from original.
double changeUpInCost(int) const
double setOneBasic(int iRow, double solutionValue)
Sets bounds and cost for one variable Returns change in cost May need to be inline for speed.
double setOne(int sequence, double solutionValue)
Sets bounds and cost for one variable Returns change in cost May need to be inline for speed.
double feasibleReportCost() const
Feasible cost with offset and direction (i.e. for reporting)
void zapCosts()
Temporary zeroing of feasible costs.
void setChangeInCost(double value)
int currentStatus(unsigned char status)
int setOneOutgoing(int sequence, double &solutionValue)
Sets bounds and cost for outgoing variable may change value Returns direction.
int originalStatus(unsigned char status)
void refreshCosts(const double *columnCosts)
Refreshes costs always makes row costs zero.
void setSameStatus(unsigned char &status)
int getCurrentStatus(int sequence)
void setOriginalStatus(unsigned char &status, int value)
void goBackAll(const CoinIndexedVector *update)
Puts back correct infeasible costs for each variable The input indices are row indices and need conve...
int * pivotVariable() const
Basic variables pivoting on which rows may be same as toExternal but may be as at invert.
double * lowerRegion() const
double sumInfeasibilities() const
Sum of infeasibilities.
void setInitialStatus(unsigned char &status)
const double COIN_DBL_MAX
void checkInfeasibilities(double oldTolerance=0.0)
Changes infeasible costs and computes number and cost of infeas Puts all non-basic (non free) variabl...
void checkChanged(int numberInArray, CoinIndexedVector *update)
Puts back correct infeasible costs for each variable The input indices are row indices and need conve...
double changeInCost(int iRow, double alpha, double &rhs)
This also updates next bound.
#define CLP_BELOW_LOWER
Trivial class to deal with non linear costs.
double changeDownInCost(int) const
double nearest(int iRow, double solutionValue)
Returns nearest bound.
double changeInCost() const
Change in cost.