AbcNonLinearCost Class Reference

#include <AbcNonLinearCost.hpp>

Collaboration diagram for AbcNonLinearCost:
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List of all members.

Public Member Functions

Constructors, destructor



 AbcNonLinearCost ()
 Default constructor.
 AbcNonLinearCost (AbcSimplex *model)
 Constructor from simplex.
 ~AbcNonLinearCost ()
 Destructor.
 AbcNonLinearCost (const AbcNonLinearCost &)
 Default constructor.
AbcNonLinearCostoperator= (const AbcNonLinearCost &)
 Default constructor.
Actual work in primal



void checkInfeasibilities (double oldTolerance=0.0)
 Changes infeasible costs and computes number and cost of infeas Puts all non-basic (non free) variables to bounds and all free variables to zero if oldTolerance is non-zero

  • but does not move those <= oldTolerance away.

void checkInfeasibilities (int numberInArray, const int *index)
 Changes infeasible costs for each variable The indices are row indices and need converting to sequences.
void checkChanged (int numberInArray, CoinIndexedVector *update)
 Puts back correct infeasible costs for each variable The input indices are row indices and need converting to sequences for costs.
void goThru (int numberInArray, double multiplier, const int *index, const double *work, double *rhs)
 Goes through one bound for each variable.
void goBack (int numberInArray, const int *index, double *rhs)
 Takes off last iteration (i.e.
void goBackAll (const CoinIndexedVector *update)
 Puts back correct infeasible costs for each variable The input indices are row indices and need converting to sequences for costs.
void zapCosts ()
 Temporary zeroing of feasible costs.
void refreshCosts (const double *columnCosts)
 Refreshes costs always makes row costs zero.
void feasibleBounds ()
 Puts feasible bounds into lower and upper.
void refresh ()
 Refresh - assuming regions OK.
void refreshFromPerturbed (double tolerance)
 Refresh - from original.
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 setOneBasic (int iRow, double solutionValue)
 Sets bounds and cost for one variable Returns change in cost May need to be inline for speed.
int setOneOutgoing (int sequence, double &solutionValue)
 Sets bounds and cost for outgoing variable may change value Returns direction.
double nearest (int iRow, double solutionValue)
 Returns nearest bound.
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 changeUpInCost (int) const
 Changes infeasible costs and computes number and cost of infeas Puts all non-basic (non free) variables to bounds and all free variables to zero if oldTolerance is non-zero

  • but does not move those <= oldTolerance away.

double changeDownInCost (int) const
 Changes infeasible costs and computes number and cost of infeas Puts all non-basic (non free) variables to bounds and all free variables to zero if oldTolerance is non-zero

  • but does not move those <= oldTolerance away.

double changeInCost (int iRow, double alpha, double &rhs)
 This also updates next bound.
Gets and sets



int numberInfeasibilities () const
 Number of infeasibilities.
double changeInCost () const
 Change in cost.
double feasibleCost () const
 Feasible cost.
double feasibleReportCost () const
 Feasible cost with offset and direction (i.e. for reporting).
double sumInfeasibilities () const
 Sum of infeasibilities.
double largestInfeasibility () const
 Largest infeasibility.
double averageTheta () const
 Average theta.
void setAverageTheta (double value)
 Number of infeasibilities.
void setChangeInCost (double value)
 Number of infeasibilities.
Private functions to deal with infeasible regions



unsigned char * statusArray () const
 For debug.
int getCurrentStatus (int sequence)
 For debug.
void validate ()
 For debug.

Private Attributes

Data members



double changeCost_
 Change in cost because of infeasibilities.
double feasibleCost_
 Feasible cost.
double infeasibilityWeight_
 Current infeasibility weight.
double largestInfeasibility_
 Largest infeasibility.
double sumInfeasibilities_
 Sum of infeasibilities.
double averageTheta_
 Average theta - kept here as only for primal.
int numberRows_
 Number of rows (mainly for checking and copy).
int numberColumns_
 Number of columns (mainly for checking and copy).
AbcSimplexmodel_
 Model.
int numberInfeasibilities_
 Number of infeasibilities found.
unsigned char * status_
 Contains status at beginning and current.
double * bound_
 Bound which has been replaced in lower_ or upper_.
double * cost_
 Feasible cost array.

Detailed Description

Definition at line 72 of file AbcNonLinearCost.hpp.


Constructor & Destructor Documentation

AbcNonLinearCost::AbcNonLinearCost (  ) 

Default constructor.

AbcNonLinearCost::AbcNonLinearCost ( AbcSimplex model  ) 

Constructor from simplex.

This will just set up wasteful arrays for linear, but later may do dual analysis and even finding duplicate columns .

AbcNonLinearCost::~AbcNonLinearCost (  ) 

Destructor.

AbcNonLinearCost::AbcNonLinearCost ( const AbcNonLinearCost  ) 

Default constructor.


Member Function Documentation

AbcNonLinearCost& AbcNonLinearCost::operator= ( const AbcNonLinearCost  ) 

Default constructor.

void AbcNonLinearCost::checkInfeasibilities ( double  oldTolerance = 0.0  ) 

Changes infeasible costs and computes number and cost of infeas Puts all non-basic (non free) variables to bounds and all free variables to zero if oldTolerance is non-zero

  • but does not move those <= oldTolerance away.

void AbcNonLinearCost::checkInfeasibilities ( int  numberInArray,
const int *  index 
)

Changes infeasible costs for each variable The indices are row indices and need converting to sequences.

void AbcNonLinearCost::checkChanged ( int  numberInArray,
CoinIndexedVector update 
)

Puts back correct infeasible costs for each variable The input indices are row indices and need converting to sequences for costs.

On input array is empty (but indices exist). On exit just changed costs will be stored as normal CoinIndexedVector

void AbcNonLinearCost::goThru ( int  numberInArray,
double  multiplier,
const int *  index,
const double *  work,
double *  rhs 
)

Goes through one bound for each variable.

If multiplier*work[iRow]>0 goes down, otherwise up. The indices are row indices and need converting to sequences Temporary offsets may be set Rhs entries are increased

void AbcNonLinearCost::goBack ( int  numberInArray,
const int *  index,
double *  rhs 
)

Takes off last iteration (i.e.

offsets closer to 0)

void AbcNonLinearCost::goBackAll ( const CoinIndexedVector update  ) 

Puts back correct infeasible costs for each variable The input indices are row indices and need converting to sequences for costs.

At the end of this all temporary offsets are zero

void AbcNonLinearCost::zapCosts (  ) 

Temporary zeroing of feasible costs.

void AbcNonLinearCost::refreshCosts ( const double *  columnCosts  ) 

Refreshes costs always makes row costs zero.

void AbcNonLinearCost::feasibleBounds (  ) 

Puts feasible bounds into lower and upper.

void AbcNonLinearCost::refresh (  ) 

Refresh - assuming regions OK.

void AbcNonLinearCost::refreshFromPerturbed ( double  tolerance  ) 

Refresh - from original.

double AbcNonLinearCost::setOne ( int  sequence,
double  solutionValue 
)

Sets bounds and cost for one variable Returns change in cost May need to be inline for speed.

double AbcNonLinearCost::setOneBasic ( int  iRow,
double  solutionValue 
)

Sets bounds and cost for one variable Returns change in cost May need to be inline for speed.

int AbcNonLinearCost::setOneOutgoing ( int  sequence,
double &  solutionValue 
)

Sets bounds and cost for outgoing variable may change value Returns direction.

double AbcNonLinearCost::nearest ( int  iRow,
double  solutionValue 
)

Returns nearest bound.

double AbcNonLinearCost::changeInCost ( int  ,
double  alpha 
) const [inline]

Returns change in cost - one down if alpha >0.0, up if <0.0 Value is current - new.

Definition at line 158 of file AbcNonLinearCost.hpp.

double AbcNonLinearCost::changeUpInCost ( int   )  const [inline]

Changes infeasible costs and computes number and cost of infeas Puts all non-basic (non free) variables to bounds and all free variables to zero if oldTolerance is non-zero

  • but does not move those <= oldTolerance away.

Definition at line 161 of file AbcNonLinearCost.hpp.

double AbcNonLinearCost::changeDownInCost ( int   )  const [inline]

Changes infeasible costs and computes number and cost of infeas Puts all non-basic (non free) variables to bounds and all free variables to zero if oldTolerance is non-zero

  • but does not move those <= oldTolerance away.

Definition at line 164 of file AbcNonLinearCost.hpp.

double AbcNonLinearCost::changeInCost ( int  iRow,
double  alpha,
double &  rhs 
) [inline]

This also updates next bound.

Definition at line 168 of file AbcNonLinearCost.hpp.

int AbcNonLinearCost::numberInfeasibilities (  )  const [inline]

Number of infeasibilities.

Definition at line 207 of file AbcNonLinearCost.hpp.

double AbcNonLinearCost::changeInCost (  )  const [inline]

Change in cost.

Definition at line 211 of file AbcNonLinearCost.hpp.

double AbcNonLinearCost::feasibleCost (  )  const [inline]

Feasible cost.

Definition at line 215 of file AbcNonLinearCost.hpp.

double AbcNonLinearCost::feasibleReportCost (  )  const

Feasible cost with offset and direction (i.e. for reporting).

double AbcNonLinearCost::sumInfeasibilities (  )  const [inline]

Sum of infeasibilities.

Definition at line 221 of file AbcNonLinearCost.hpp.

double AbcNonLinearCost::largestInfeasibility (  )  const [inline]

Largest infeasibility.

Definition at line 225 of file AbcNonLinearCost.hpp.

double AbcNonLinearCost::averageTheta (  )  const [inline]

Average theta.

Definition at line 229 of file AbcNonLinearCost.hpp.

void AbcNonLinearCost::setAverageTheta ( double  value  )  [inline]

Number of infeasibilities.

Definition at line 232 of file AbcNonLinearCost.hpp.

void AbcNonLinearCost::setChangeInCost ( double  value  )  [inline]

Number of infeasibilities.

Definition at line 235 of file AbcNonLinearCost.hpp.

unsigned char* AbcNonLinearCost::statusArray (  )  const [inline]

For debug.

Definition at line 240 of file AbcNonLinearCost.hpp.

int AbcNonLinearCost::getCurrentStatus ( int  sequence  )  [inline]

For debug.

Definition at line 243 of file AbcNonLinearCost.hpp.

void AbcNonLinearCost::validate (  ) 

For debug.


Member Data Documentation

Change in cost because of infeasibilities.

Definition at line 253 of file AbcNonLinearCost.hpp.

Feasible cost.

Definition at line 255 of file AbcNonLinearCost.hpp.

Current infeasibility weight.

Definition at line 257 of file AbcNonLinearCost.hpp.

Largest infeasibility.

Definition at line 259 of file AbcNonLinearCost.hpp.

Sum of infeasibilities.

Definition at line 261 of file AbcNonLinearCost.hpp.

Average theta - kept here as only for primal.

Definition at line 263 of file AbcNonLinearCost.hpp.

Number of rows (mainly for checking and copy).

Definition at line 265 of file AbcNonLinearCost.hpp.

Number of columns (mainly for checking and copy).

Definition at line 267 of file AbcNonLinearCost.hpp.

Model.

Definition at line 269 of file AbcNonLinearCost.hpp.

Number of infeasibilities found.

Definition at line 271 of file AbcNonLinearCost.hpp.

unsigned char* AbcNonLinearCost::status_ [private]

Contains status at beginning and current.

Definition at line 274 of file AbcNonLinearCost.hpp.

double* AbcNonLinearCost::bound_ [private]

Bound which has been replaced in lower_ or upper_.

Definition at line 276 of file AbcNonLinearCost.hpp.

double* AbcNonLinearCost::cost_ [private]

Feasible cost array.

Definition at line 278 of file AbcNonLinearCost.hpp.


The documentation for this class was generated from the following file:

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