12 #ifndef CoinDenseFactorization_H
13 #define CoinDenseFactorization_H
21 #if COIN_FACTORIZATION_DENSE_CODE == 2
22 #undef COIN_FACTORIZATION_DENSE_CODE
116 #ifndef COIN_FAST_CODE
137 virtual int *
starts()
const;
168 virtual int *
indices()
const = 0;
171 virtual int *
permute()
const = 0;
193 virtual void postProcess(
const int *sequence,
int *pivotVariable) = 0;
211 bool checkBeforeModifying =
false,
212 double acceptablePivot = 1.0e-8)
227 bool noPermute =
false)
233 bool noPermute =
false)
const = 0;
238 bool noPermute =
false)
256 #ifndef COIN_FAST_CODE
261 #define slackValue_ -1.0
343 virtual void postProcess(
const int *sequence,
int *pivotVariable);
372 bool checkBeforeModifying =
false,
373 double acceptablePivot = 1.0e-8);
395 bool noPermute =
false)
const;
400 bool noPermute =
false);
442 int checkPivot(
double saveFromU,
double oldPivot)
const;
virtual int updateColumn(CoinIndexedVector *regionSparse, CoinIndexedVector *regionSparse2, bool noPermute=false) const =0
This version has same effect as above with FTUpdate==false so number returned is always >=0...
virtual void postProcess(const int *sequence, int *pivotVariable)
Does post processing on valid factorization - putting variables on correct rows.
virtual int * intWorkArea() const
Returns int work area.
virtual int updateColumnFT(CoinIndexedVector *regionSparse, CoinIndexedVector *regionSparse2, bool noPermute=false)=0
Updates one column (FTRAN) from regionSparse2 Tries to do FT update number returned is negative if no...
void setNumberRows(int value)
Set number of Rows after factorization.
CoinDenseFactorization()
Default constructor.
Abstract base class which also has some scalars so can be used from Dense or Simp.
int numberPivots_
Number pivots since last factorization.
virtual int * indices() const
Returns array to put basis indices in.
int status_
Status of factorization.
int numberRows_
Number of Rows in factorization.
virtual int updateColumnFT(CoinIndexedVector *regionSparse, CoinIndexedVector *regionSparse2, bool=false)
Updates one column (FTRAN) from regionSparse2 Tries to do FT update number returned is negative if no...
virtual void postProcess(const int *sequence, int *pivotVariable)=0
Does post processing on valid factorization - putting variables on correct rows.
friend void CoinDenseFactorizationUnitTest(const std::string &mpsDir)
int numberRows() const
Number of Rows after factorization.
double maximumCoefficient() const
Returns maximum absolute value in factorization.
virtual int updateColumnTranspose(CoinIndexedVector *regionSparse, CoinIndexedVector *regionSparse2) const =0
Updates one column (BTRAN) from regionSparse2 regionSparse starts as zero and is zero at end Note - i...
int numberGoodU_
Number factorized in U (not row singletons)
int maximumSpace_
Maximum length of iterating area.
int numberGoodColumns() const
Number of good columns in factorization.
double slackValue() const
Whether slack value is +1 or -1.
virtual void preProcess()=0
PreProcesses column ordered copy of basis.
int maximumPivots_
Maximum number of pivots before factorization.
virtual void getAreas(int numberRows, int numberColumns, int maximumL, int maximumU)
Gets space for a factorization.
double slackValue_
Whether slack value is +1 or -1.
virtual void clearArrays()
Get rid of all memory.
virtual void makeNonSingular(int *sequence, int numberColumns)=0
Makes a non-singular basis by replacing variables.
double getAccuracyCheck() const
int maximumRows_
Maximum rows ever (i.e. use to copy arrays etc)
int maximumPivots() const
Maximum number of pivots between factorizations.
CoinFactorizationDouble * elements_
Elements of factorization and updates length is maxR*maxR+maxSpace will always be long enough so can ...
double CoinFactorizationDouble
virtual int * numberInColumn() const
Number of entries in each column.
double zeroTolerance_
Zero tolerance.
virtual int * permuteBack() const
Returns permute back.
virtual CoinFactorizationDouble * elements() const
Returns array to put basis elements in.
int numberColumns() const
Total number of columns in factorization.
double zeroTolerance() const
Zero tolerance.
void setSolveMode(int value)
Set solve mode e.g.
virtual int updateColumn(CoinIndexedVector *regionSparse, CoinIndexedVector *regionSparse2, bool noPermute=false) const
This version has same effect as above with FTUpdate==false so number returned is always >=0...
int checkPivot(double saveFromU, double oldPivot) const
Returns accuracy status of replaceColumn returns 0=OK, 1=Probably OK, 2=singular. ...
virtual CoinOtherFactorization * clone() const
Clone.
virtual bool wantsTableauColumn() const
Returns true if wants tableauColumn in replaceColumn.
virtual int factor()
Does most of factorization returning status 0 - OK -99 - needs more memory -1 - singular - use number...
CoinFactorizationDouble * workArea_
Work area of numberRows_.
CoinDenseFactorization & operator=(const CoinDenseFactorization &other)
= copy
virtual int * starts() const
Returns array to put basis starts in.
virtual int updateColumnTranspose(CoinIndexedVector *regionSparse, CoinIndexedVector *regionSparse2) const
Updates one column (BTRAN) from regionSparse2 regionSparse starts as zero and is zero at end Note - i...
int solveMode() const
Get solve mode e.g.
virtual int numberElements() const
Total number of elements in factorization.
virtual void makeNonSingular(int *sequence, int numberColumns)
Makes a non-singular basis by replacing variables.
void clearArrays()
Get rid of all memory.
void setStatus(int value)
Sets status.
virtual int * numberInRow() const
Number of entries in each row.
virtual ~CoinDenseFactorization()
Destructor.
virtual int replaceColumn(CoinIndexedVector *regionSparse, int pivotRow, double pivotCheck, bool checkBeforeModifying=false, double acceptablePivot=1.0e-8)
Replaces one Column to basis, returns 0=OK, 1=Probably OK, 2=singular, 3=no room If checkBeforeModify...
CoinOtherFactorization()
Default constructor.
This deals with Factorization and Updates This is a simple dense version so other people can write a ...
int status() const
Returns status.
void gutsOfInitialize()
The real work of constructor.
Sparse Matrix Base Class.
virtual int factor()=0
Does most of factorization returning status 0 - OK -99 - needs more memory -1 - singular - use number...
virtual int replaceColumn(CoinIndexedVector *regionSparse, int pivotRow, double pivotCheck, bool checkBeforeModifying=false, double acceptablePivot=1.0e-8)=0
Replaces one Column to basis, returns 0=OK, 1=Probably OK, 2=singular, 3=no room If checkBeforeModify...
double pivotTolerance() const
Pivot tolerance.
virtual int * indices() const =0
Returns array to put basis indices in.
virtual void preProcess()
PreProcesses column ordered copy of basis.
double relaxCheck_
Relax check on accuracy in replaceColumn.
virtual int updateTwoColumnsFT(CoinIndexedVector *regionSparse1, CoinIndexedVector *regionSparse2, CoinIndexedVector *regionSparse3, bool noPermute=false)=0
does FTRAN on two columns
int factorElements_
Number of elements after factorization.
virtual ~CoinOtherFactorization()
Destructor.
void setPivots(int value)
Sets number of pivots since factorization.
void gutsOfCopy(const CoinDenseFactorization &other)
The real work of copy.
virtual CoinFactorizationDouble * workArea() const
Returns work area.
double pivotTolerance_
Pivot tolerance.
int * pivotRow_
Pivot row.
virtual int * pivotRow() const
Returns pivot row.
void gutsOfDestructor()
The real work of desstructor.
int solveMode_
Solve mode e.g.
virtual int * permute() const
Returns permute in.
int pivots() const
Returns number of pivots since factorization.
virtual CoinOtherFactorization * clone() const =0
Clone.
virtual int * permute() const =0
Returns permute in.
int numberColumns_
Number of Columns in factorization.
void relaxAccuracyCheck(double value)
Allows change of pivot accuracy check 1.0 == none >1.0 relaxed.
virtual int updateTwoColumnsFT(CoinIndexedVector *regionSparse1, CoinIndexedVector *regionSparse2, CoinIndexedVector *regionSparse3, bool noPermute=false)
does FTRAN on two columns
virtual void getAreas(int numberRows, int numberColumns, int maximumL, int maximumU)=0
Gets space for a factorization.
virtual void setUsefulInformation(const int *info, int whereFrom)
Useful information for factorization 0 - iteration number whereFrom is 0 for factorize and 1 for repl...
virtual int numberElements() const =0
Total number of elements in factorization.
CoinOtherFactorization & operator=(const CoinOtherFactorization &other)
= copy