Semi sparse vector.This class implements semi-sparse vectors. Such are VectorBases where the indices of its nonzero elements can be stored in an extra IdxSet. Only elements with absolute value > epsilon are considered to be nonzero. Since really storing the nonzeros is not always convenient, an SSVectorBase provides two different stati: setup and not setup. An SSVectorBase being setup means that the nonzero indices are available, otherwise an SSVectorBase is just an ordinary VectorBase with an empty IdxSet. Note that due to arithmetic operation, zeros can slip in, i.e., it is only guaranteed that at least every non-zero is in the IdxSet. More...

#include <dsvectorbase.h>

Public Member Functions
template<>
SSVectorBase< Rational > &	assign (const SVectorBase< Rational > &rhs)
	Assigns only the elements of `rhs`. More...

Status of an SSVectorBase
An SSVectorBase can be set up or not. In case it is set up, its IdxSet correctly contains all indices of nonzero elements of the SSVectorBase. Otherwise, it does not contain any useful data. Whether or not an SSVectorBase is setup can be determined with the method isSetup(). There are three methods for directly affecting the setup status of an SSVectorBase: unSetup(): This method sets the status to ``not setup''. setup(): This method initializes the IdxSet to the SSVectorBase's nonzero indices and sets the status to ``setup''. forceSetup(): This method sets the status to ``setup'' without verifying that the IdxSet correctly contains all nonzero indices. It may be used when the nonzero indices have been computed externally.
R *	get_ptr ()
	Only used in slufactor.hpp. More...

R	getEpsilon () const
	Returns the non-zero epsilon used. More...

void	setEpsilon (R eps)
	Changes the non-zero epsilon, invalidating the setup. */. More...

bool	isSetup () const
	Returns setup status. More...

void	unSetup ()
	Makes SSVectorBase not setup. More...

void	setup ()
	Initializes nonzero indices for elements with absolute values above epsilon and sets all other elements to 0. More...

void	forceSetup ()
	Forces setup status. More...

Methods for setup SSVectorBases
int	index (int n) const
	Returns index of the `n` 'th nonzero element. More...

R	value (int n) const
	Returns value of the `n` 'th nonzero element. More...

int	pos (int i) const
	Finds the position of index `i` in the IdxSet, or -1 if `i` doesn't exist. More...

int	size () const
	Returns the number of nonzeros. More...

void	add (int i, R x)
	Adds nonzero (`i`, `x`) to SSVectorBase. More...

void	setValue (int i, R x)
	Sets `i` 'th element to `x`. More...

void	scaleValue (int i, int scaleExp)
	Scale `i` 'th element by a. More...

void	clearIdx (int i)
	Clears element `i`. More...

void	clearNum (int n)
	Sets `n` 'th nonzero element to 0 (index `n` must exist). More...

Methods independent of the Status
R	operator[] (int i) const
	Returns `i` 'th value. More...

const int *	indexMem () const
	Returns array indices. More...

const R *	values () const
	Returns array values. More...

const IdxSet &	indices () const
	Returns indices. More...

int *	altIndexMem ()
	Returns array indices. More...

R *	altValues ()
	Returns array values. More...

IdxSet &	altIndices ()
	Returns indices. More...

Arithmetic operations
template<class S >
SSVectorBase< R > &	operator+= (const VectorBase< S > &vec)
	Addition. More...

template<class S >
SSVectorBase< R > &	operator+= (const SVectorBase< S > &vec)
	Addition. More...

template<class S >
SSVectorBase< R > &	operator+= (const SSVectorBase< S > &vec)
	Addition. More...

template<class S >
SSVectorBase< R > &	operator-= (const VectorBase< S > &vec)
	Subtraction. More...

template<class S >
SSVectorBase< R > &	operator-= (const SVectorBase< S > &vec)
	Subtraction. More...

template<class S >
SSVectorBase< R > &	operator-= (const SSVectorBase< S > &vec)
	Subtraction. More...

template<class S >
SSVectorBase< R > &	operator*= (S x)
	Scaling. More...

template<class S >
R	operator* (const SSVectorBase< S > &w)

template<class S , class T >
SSVectorBase< R > &	multAdd (S xx, const SVectorBase< T > &vec)
	Addition of a scaled vector. More...

template<class S , class T >
SSVectorBase< R > &	multAdd (S x, const VectorBase< T > &vec)
	Addition of a scaled vector. More...

template<class S , class T >
SSVectorBase< R > &	assignPWproduct4setup (const SSVectorBase< S > &x, const SSVectorBase< T > &y)
	Assigns pair wise vector product to SSVectorBase. More...

template<class S , class T >
SSVectorBase< R > &	assign2product (const SSVectorBase< S > &x, const SVSetBase< T > &A)
	Assigns \(x^T \cdot A\) to SSVectorBase. More...

template<class S , class T >
SSVectorBase< R > &	assign2product4setup (const SVSetBase< S > &A, const SSVectorBase< T > &x, Timer timeSparse, Timer timeFull, int &nCallsSparse, int &nCallsFull)
	Assigns SSVectorBase to \(A \cdot x\) for a setup `x`. More...

template<class S , class T >
SSVectorBase< R > &	assign2productAndSetup (const SVSetBase< S > &A, SSVectorBase< T > &x)
	Assigns SSVectorBase to \(A \cdot x\) thereby setting up `x`. More...

R	maxAbs () const
	Maximum absolute value, i.e., infinity norm. More...

R	length2 () const
	Squared euclidian norm. More...

R	length () const
	Floating point approximation of euclidian norm (without any approximation guarantee). More...

Miscellaneous
int	dim () const
	Dimension of VectorBase. More...

void	reDim (int newdim)
	Resets dimension to `newdim`. More...

void	setSize (int n)
	Sets number of nonzeros (thereby unSetup SSVectorBase). More...

void	reMem (int newsize)
	Resets memory consumption to `newsize`. More...

void	clear ()
	Clears vector. More...

bool	isConsistent () const
	consistency check. More...

Constructors / Destructors
	SSVectorBase (int p_dim, R p_eps=Param::epsilon())
	Default constructor. More...

template<class S >
	SSVectorBase (const SSVectorBase< S > &vec)
	Copy constructor. More...

	SSVectorBase (const SSVectorBase< R > &vec)
	Copy constructor. More...

template<class S >
	SSVectorBase (const VectorBase< S > &vec, R eps=Param::epsilon())
	Constructs nonsetup copy of `vec`. More...

template<class S >
void	setup_and_assign (SSVectorBase< S > &rhs)
	Sets up `rhs` vector, and assigns it. More...

template<class S >
SSVectorBase< R > &	assign (const SVectorBase< S > &rhs)
	Assigns only the elements of `rhs`. More...

template<class S >
SSVectorBase< R > &	operator= (const SSVectorBase< S > &rhs)
	Assignment operator. More...

SSVectorBase< R > &	operator= (const SSVectorBase< R > &rhs)
	Assignment operator. More...

template<class S >
SSVectorBase< R > &	operator= (const SVectorBase< S > &rhs)
	Assignment operator. More...

template<class S >
SSVectorBase< R > &	operator= (const VectorBase< S > &rhs)
	Assignment operator. More...

	~SSVectorBase ()
	destructor More...

Public Member Functions inherited from VectorBase< R >
bool	isConsistent () const
	Consistency check. More...

template<>
Rational	operator* (const VectorBase< Rational > &vec) const
	Inner product. More...

	VectorBase ()
	Constructor. More...

	VectorBase (int dimen, R *p_val)

	VectorBase (int p_dimen)

template<typename S >
	VectorBase (const VectorBase< S > &vec)

	VectorBase (const VectorBase< R > &&vec) noexcept

	VectorBase (const VectorBase< R > &vec)

template<class S >
VectorBase< R > &	operator= (const VectorBase< S > &vec)
	Assignment operator. More...

VectorBase< R > &	operator= (const VectorBase< R > &vec)
	Assignment operator. More...

VectorBase< R > &	operator= (const VectorBase< R > &&vec)
	Move assignment operator. More...

VectorBase< R > &	scaleAssign (int scaleExp, const VectorBase< R > &vec)
	scale and assign More...

VectorBase< R > &	scaleAssign (const int *scaleExp, const VectorBase< R > &vec, bool negateExp=false)
	scale and assign More...

template<class S >
VectorBase< R > &	operator= (const SVectorBase< S > &vec)
	Assignment operator. More...

template<class S >
VectorBase< R > &	operator= (const SSVectorBase< S > &vec)
	Assignment operator. More...

template<class S >
VectorBase< R > &	assign (const SVectorBase< S > &vec)
	Assign values of `vec`. More...

template<class S >
VectorBase< R > &	assign (const SSVectorBase< S > &vec)
	Assign values of `vec`. More...

void	clear ()
	Set vector to contain all-zeros (keeping the same length) More...

template<class S >
VectorBase< R > &	operator+= (const VectorBase< S > &vec)
	Addition. More...

template<class S >
VectorBase< R > &	operator+= (const SVectorBase< S > &vec)
	Addition. More...

template<class S >
VectorBase< R > &	operator+= (const SSVectorBase< S > &vec)
	Addition. More...

template<class S >
VectorBase< R > &	operator-= (const VectorBase< S > &vec)
	Subtraction. More...

template<class S >
VectorBase< R > &	operator-= (const SVectorBase< S > &vec)
	Subtraction. More...

template<class S >
VectorBase< R > &	operator-= (const SSVectorBase< S > &vec)
	Subtraction. More...

template<class S >
VectorBase< R > &	operator*= (const S &x)
	Scaling. More...

template<class S >
VectorBase< R > &	operator/= (const S &x)
	Division. More...

R	operator* (const VectorBase< R > &vec) const
	Inner product. More...

R	operator* (const SVectorBase< R > &vec) const
	Inner product. More...

R	operator* (const SSVectorBase< R > &vec) const
	Inner product. More...

R	maxAbs () const
	Maximum absolute value, i.e., infinity norm. More...

R	minAbs () const
	Minimum absolute value. More...

R	length () const
	Floating point approximation of euclidian norm (without any approximation guarantee). More...

R	length2 () const
	Squared norm. More...

template<class S , class T >
VectorBase< R > &	multAdd (const S &x, const VectorBase< T > &vec)
	Addition of scaled vector. More...

template<class S , class T >
VectorBase< R > &	multAdd (const S &x, const SVectorBase< T > &vec)
	Addition of scaled vector. More...

template<class S , class T >
VectorBase< R > &	multSub (const S &x, const SVectorBase< T > &vec)
	Subtraction of scaled vector. More...

template<class S , class T >
VectorBase< R > &	multAdd (const S &x, const SSVectorBase< T > &vec)
	Addition of scaled vector. More...

int	dim () const
	Dimension of vector. More...

R &	operator[] (int n)
	Return `n` 'th value by reference. More...

const R &	operator[] (int n) const
	Return `n` 'th value. More...

const std::vector< R > &	vec ()
	Return underlying std::vector. More...

R *	get_ptr ()
	Conversion to C-style pointer. More...

const R *	get_const_ptr () const
	Conversion to C-style pointer. More...

std::vector< R >::const_iterator	begin () const

std::vector< R >::iterator	begin ()

std::vector< R >::const_iterator	end () const

std::vector< R >::iterator	end ()

int	memSize () const

void	reDim (int newdim, const bool setZero=true)
	Resets VectorBase's dimension to `newdim`. More...

void	reSize (int newsize)
	Resets VectorBase's memory size to `newsize`. More...

const VectorBase< R >	operator- (const VectorBase< R > &vec) const

const VectorBase< R >	operator+ (const VectorBase< R > &v) const

Private Member Functions
Private helpers
template<class S , class T >
SSVectorBase< R > &	assign2product1 (const SVSetBase< S > &A, const SSVectorBase< T > &x)
	Assignment helper. More...

template<class S , class T >
SSVectorBase< R > &	assign2productShort (const SVSetBase< S > &A, const SSVectorBase< T > &x)
	Assignment helper. More...

template<class S , class T >
SSVectorBase< R > &	assign2productFull (const SVSetBase< S > &A, const SSVectorBase< T > &x)
	Assignment helper. More...

Friends
class	VectorBase< R >

template<class S >
class	DSVectorBase

Data
bool	setupStatus
	Is the SSVectorBase set up? More...

R	epsilon
	A value x with \|x\| < epsilon is considered zero. More...

void	setMax (int newmax)
	Allocates enough space to accommodate `newmax` values. More...

Additional Inherited Members
Protected Member Functions inherited from IdxSet
	IdxSet (int n, int imem[], int l=0)
	constructor. More...

	IdxSet ()
	default constructor. More...

virtual	~IdxSet ()
	destructor. More...

IdxSet &	operator= (const IdxSet &set)
	assignment operator. More...

	IdxSet (const IdxSet &)
	copy constructor. More...

int	index (int n) const
	access `n` 'th index. More...

int	size () const
	returns the number of used indices. More...

int	max () const
	returns the maximal number of indices which can be stored in IdxSet. More...

int	dim () const
	returns the maximal index. More...

int	pos (int i) const
	returns the position of index `i`. More...

void	add (int n)
	appends `n` uninitialized indices. More...

void	add (const IdxSet &set)
	appends all indices of `set`. More...

void	add (int n, const int i[])
	appends `n` indices in `i`. More...

void	addIdx (int i)
	appends index `i`. More...

void	remove (int n, int m)
	removes indices at position numbers `n` through `m`. More...

void	remove (int n)
	removes `n` 'th index. More...

void	clear ()
	removes all indices. More...

bool	isConsistent () const
	consistency check. More...

Protected Attributes inherited from VectorBase< R >
std::vector< R >	val
	Values of vector. More...

Protected Attributes inherited from IdxSet
int	num
	number of used indices More...

int	len
	length of array idx More...

int *	idx
	array of indices More...

bool	freeArray
	true iff idx should be freed inside of this object More...

Detailed Description

template<class R>
class soplex::SSVectorBase< R >

Semi sparse vector.

This class implements semi-sparse vectors. Such are VectorBases where the indices of its nonzero elements can be stored in an extra IdxSet. Only elements with absolute value > epsilon are considered to be nonzero. Since really storing the nonzeros is not always convenient, an SSVectorBase provides two different stati: setup and not setup. An SSVectorBase being setup means that the nonzero indices are available, otherwise an SSVectorBase is just an ordinary VectorBase with an empty IdxSet. Note that due to arithmetic operation, zeros can slip in, i.e., it is only guaranteed that at least every non-zero is in the IdxSet.

Definition at line 29 of file dsvectorbase.h.

Constructor & Destructor Documentation

◆ SSVectorBase() [1/4]

SSVectorBase	(	int	p_dim,
		R	p_eps = `Param::epsilon()`
	)

explicit

Default constructor.

Definition at line 662 of file ssvectorbase.h.

◆ SSVectorBase() [2/4]

SSVectorBase ( const SSVectorBase< S > & vec )

Copy constructor.

Definition at line 677 of file ssvectorbase.h.

◆ SSVectorBase() [3/4]

SSVectorBase ( const SSVectorBase< R > & vec )

Copy constructor.

The redundancy with the copy constructor below is necessary since otherwise the compiler doesn't realize that it could use the more general one with S = R and generates a shallow copy constructor.

Definition at line 694 of file ssvectorbase.h.

◆ SSVectorBase() [4/4]

SSVectorBase	(	const VectorBase< S > &	vec,
		R	eps = `Param::epsilon()`
	)

explicit

Constructs nonsetup copy of vec.

Definition at line 709 of file ssvectorbase.h.

◆ ~SSVectorBase()

~SSVectorBase ( )

destructor

Definition at line 884 of file ssvectorbase.h.

Member Function Documentation

◆ add()

void add	(	int	i,
		R	x
	)

Adds nonzero (i, x) to SSVectorBase.

No nonzero with index i must exist in the SSVectorBase.

Definition at line 209 of file ssvectorbase.h.

◆ altIndexMem()

int* altIndexMem ( )

Returns array indices.

Definition at line 312 of file ssvectorbase.h.

◆ altIndices()

IdxSet& altIndices ( )

Returns indices.

Definition at line 326 of file ssvectorbase.h.

◆ altValues()

R* altValues ( )

Returns array values.

Definition at line 319 of file ssvectorbase.h.

◆ assign() [1/2]

SSVectorBase< R > & assign ( const SVectorBase< S > & rhs )

Assigns only the elements of rhs.

Definition at line 855 of file basevectors.h.

Referenced by SSVectorBase< Rational >::setup_and_assign().

◆ assign() [2/2]

SSVectorBase< Rational > & assign ( const SVectorBase< Rational > & rhs )

Assigns only the elements of rhs.

Definition at line 889 of file basevectors.h.

◆ assign2product()

SSVectorBase< R > & assign2product	(	const SSVectorBase< S > &	x,
		const SVSetBase< T > &	A
	)

Assigns \(x^T \cdot A\) to SSVectorBase.

Definition at line 511 of file basevectors.h.

Referenced by SSVectorBase< Rational >::multAdd().

◆ assign2product1()

SSVectorBase< R > & assign2product1	(	const SVSetBase< S > &	A,
		const SSVectorBase< T > &	x
	)

private

Assignment helper.

Definition at line 603 of file basevectors.h.

Referenced by SSVectorBase< Rational >::~SSVectorBase().

◆ assign2product4setup()

SSVectorBase< R > & assign2product4setup	(	const SVSetBase< S > &	A,
		const SSVectorBase< T > &	x,
		Timer *	timeSparse,
		Timer *	timeFull,
		int &	nCallsSparse,
		int &	nCallsFull
	)

Assigns SSVectorBase to \(A \cdot x\) for a setup x.

Definition at line 542 of file basevectors.h.

Referenced by SSVectorBase< Rational >::multAdd().

◆ assign2productAndSetup()

SSVectorBase< R > & assign2productAndSetup	(	const SVSetBase< S > &	A,
		SSVectorBase< T > &	x
	)

Assigns SSVectorBase to \(A \cdot x\) thereby setting up x.

Definition at line 797 of file basevectors.h.

Referenced by SSVectorBase< Rational >::multAdd().

◆ assign2productFull()

SSVectorBase< R > & assign2productFull	(	const SVSetBase< S > &	A,
		const SSVectorBase< T > &	x
	)

private

Assignment helper.

Definition at line 753 of file basevectors.h.

Referenced by SSVectorBase< Rational >::~SSVectorBase().

◆ assign2productShort()

SSVectorBase< R > & assign2productShort	(	const SVSetBase< S > &	A,
		const SSVectorBase< T > &	x
	)

private

Assignment helper.

Definition at line 639 of file basevectors.h.

Referenced by SSVectorBase< Rational >::~SSVectorBase().

◆ assignPWproduct4setup()

SSVectorBase< R > & assignPWproduct4setup	(	const SSVectorBase< S > &	x,
		const SSVectorBase< T > &	y
	)

Assigns pair wise vector product to SSVectorBase.

Assigns pair wise vector product of setup x and setup y to SSVectorBase.

Definition at line 450 of file basevectors.h.

Referenced by SSVectorBase< Rational >::multAdd().

◆ clear()

void clear ( )

Clears vector.

Definition at line 604 of file ssvectorbase.h.

Referenced by UpdateVector< R >::clearUpdate(), SPxBasisBase< R >::coSolve(), SLUFactorRational::operator=(), SSVectorBase< Rational >::operator=(), SSVectorBase< Rational >::setup_and_assign(), SPxBasisBase< R >::solve(), and SPxBasisBase< R >::solve4update().

◆ clearIdx()

void clearIdx ( int i )

Clears element i.

Definition at line 254 of file ssvectorbase.h.

◆ clearNum()

void clearNum ( int n )

Sets n 'th nonzero element to 0 (index n must exist).

Definition at line 270 of file ssvectorbase.h.

Referenced by SSVectorBase< Rational >::setValue().

◆ dim()

int dim ( ) const

Dimension of VectorBase.

Definition at line 564 of file ssvectorbase.h.

◆ forceSetup()

void forceSetup ( )

Forces setup status.

Definition at line 163 of file ssvectorbase.h.

◆ get_ptr()

R* get_ptr ( )

Only used in slufactor.hpp.

Definition at line 100 of file ssvectorbase.h.

◆ getEpsilon()

R getEpsilon ( ) const

Returns the non-zero epsilon used.

Definition at line 105 of file ssvectorbase.h.

◆ index()

int index ( int n ) const

Returns index of the n 'th nonzero element.

Definition at line 175 of file ssvectorbase.h.

Referenced by SSVectorBase< Rational >::assignPWproduct4setup(), SSVectorBase< Rational >::clearNum(), SSVectorBase< Rational >::operator*(), SSVectorBase< Rational >::operator*=(), VectorBase< Rational >::operator+=(), SSVectorBase< Rational >::operator+=(), VectorBase< Rational >::operator-=(), SSVectorBase< Rational >::operator-=(), SVectorBase< Rational >::operator=(), SSVectorBase< Rational >::operator=(), SSVectorBase< Rational >::reDim(), and SSVectorBase< Rational >::setup_and_assign().

◆ indexMem()

const int* indexMem ( ) const

Returns array indices.

Definition at line 294 of file ssvectorbase.h.

Referenced by VectorBase< Rational >::assign(), VectorBase< Rational >::multAdd(), and VectorBase< Rational >::operator*().

◆ indices()

const IdxSet& indices ( ) const

Returns indices.

Definition at line 306 of file ssvectorbase.h.

Referenced by UpdateVector< R >::idx().

◆ isConsistent()

bool isConsistent ( ) const

consistency check.

Definition at line 621 of file ssvectorbase.h.

Referenced by SSVectorBase< Rational >::clear(), SSVectorBase< Rational >::clearIdx(), SSVectorBase< Rational >::clearNum(), SSVectorBase< Rational >::operator*=(), SSVectorBase< Rational >::operator=(), SSVectorBase< Rational >::reDim(), SSVectorBase< Rational >::reMem(), SSVectorBase< Rational >::scaleValue(), SSVectorBase< Rational >::setup(), SSVectorBase< Rational >::setup_and_assign(), SSVectorBase< Rational >::setValue(), and SSVectorBase< Rational >::SSVectorBase().

◆ isSetup()

bool isSetup ( ) const

Returns setup status.

Definition at line 121 of file ssvectorbase.h.

◆ length()

R length ( ) const

Floating point approximation of euclidian norm (without any approximation guarantee).

Definition at line 552 of file ssvectorbase.h.

◆ length2()

R length2 ( ) const

Squared euclidian norm.

Definition at line 536 of file ssvectorbase.h.

Referenced by SSVectorBase< Rational >::length().

◆ maxAbs()

R maxAbs ( ) const

Maximum absolute value, i.e., infinity norm.

Definition at line 515 of file ssvectorbase.h.

◆ multAdd() [1/2]

SSVectorBase< R > & multAdd	(	S	xx,
		const SVectorBase< T > &	vec
	)

Addition of a scaled vector.

Todo:: SSVectorBase::multAdd() should be rewritten without pointer arithmetic.

Todo:: SSVectorBase::multAdd() should be rewritten without pointer arithmetic.

Definition at line 381 of file basevectors.h.

Referenced by SSVectorBase< Rational >::operator*().

◆ multAdd() [2/2]

SSVectorBase<R>& multAdd	(	S	x,
		const VectorBase< T > &	vec
	)

Addition of a scaled vector.

Definition at line 482 of file ssvectorbase.h.

◆ operator*()

R operator* ( const SSVectorBase< S > & w )

Definition at line 432 of file ssvectorbase.h.

◆ operator*=()

SSVectorBase<R>& operator*= ( S x )

Scaling.

Definition at line 417 of file ssvectorbase.h.

◆ operator+=() [1/3]

SSVectorBase<R>& operator+= ( const VectorBase< S > & vec )

Addition.

Definition at line 340 of file ssvectorbase.h.

Referenced by SSVectorBase< Rational >::operator+=().

◆ operator+=() [2/3]

SSVectorBase< R > & operator+= ( const SVectorBase< S > & vec )

Addition.

Definition at line 342 of file basevectors.h.

◆ operator+=() [3/3]

SSVectorBase<R>& operator+= ( const SSVectorBase< S > & vec )

Addition.

Definition at line 359 of file ssvectorbase.h.

◆ operator-=() [1/3]

SSVectorBase<R>& operator-= ( const VectorBase< S > & vec )

Subtraction.

Definition at line 377 of file ssvectorbase.h.

Referenced by SSVectorBase< Rational >::operator-=().

◆ operator-=() [2/3]

SSVectorBase< R > & operator-= ( const SVectorBase< S > & vec )

Subtraction.

Definition at line 361 of file basevectors.h.

◆ operator-=() [3/3]

SSVectorBase<R>& operator-= ( const SSVectorBase< S > & vec )

Subtraction.

Definition at line 396 of file ssvectorbase.h.

◆ operator=() [1/4]

SSVectorBase<R>& operator= ( const SSVectorBase< S > & rhs )

Assignment operator.

Definition at line 777 of file ssvectorbase.h.

Referenced by SSVectorBase< Rational >::operator=().

◆ operator=() [2/4]

SSVectorBase<R>& operator= ( const SSVectorBase< R > & rhs )

Assignment operator.

Definition at line 823 of file ssvectorbase.h.

◆ operator=() [3/4]

SSVectorBase< R > & operator= ( const SVectorBase< S > & rhs )

Assignment operator.

Definition at line 923 of file basevectors.h.

◆ operator=() [4/4]

SSVectorBase<R>& operator= ( const VectorBase< S > & rhs )

Assignment operator.

Definition at line 873 of file ssvectorbase.h.

◆ operator[]()

R operator[] ( int i ) const

Returns i 'th value.

Definition at line 288 of file ssvectorbase.h.

◆ pos()

int pos ( int i ) const

Finds the position of index i in the IdxSet, or -1 if i doesn't exist.

Definition at line 192 of file ssvectorbase.h.

Referenced by SSVectorBase< Rational >::add(), SSVectorBase< Rational >::clearIdx(), SSVectorBase< Rational >::isConsistent(), and SSVectorBase< Rational >::setValue().

◆ reDim()

void reDim ( int newdim )

Resets dimension to newdim.

Definition at line 570 of file ssvectorbase.h.

Referenced by UpdateVector< R >::reDim().

◆ reMem()

void reMem ( int newsize )

Resets memory consumption to newsize.

Definition at line 595 of file ssvectorbase.h.

◆ scaleValue()

void scaleValue	(	int	i,
		int	scaleExp
	)

Scale i 'th element by a.

Definition at line 243 of file ssvectorbase.h.

◆ setEpsilon()

void setEpsilon ( R eps )

Changes the non-zero epsilon, invalidating the setup. */.

Definition at line 111 of file ssvectorbase.h.

◆ setMax()

void setMax ( int newmax )

private

Allocates enough space to accommodate newmax values.

Definition at line 66 of file ssvectorbase.h.

Referenced by SSVectorBase< Rational >::operator=(), SSVectorBase< Rational >::reDim(), SSVectorBase< Rational >::reMem(), and SSVectorBase< Rational >::setup_and_assign().

◆ setSize()

void setSize ( int n )

Sets number of nonzeros (thereby unSetup SSVectorBase).

Definition at line 585 of file ssvectorbase.h.

◆ setup()

void setup ( )

Initializes nonzero indices for elements with absolute values above epsilon and sets all other elements to 0.

Definition at line 133 of file ssvectorbase.h.

Referenced by SSVectorBase< Rational >::multAdd(), SSVectorBase< Rational >::operator*(), SSVectorBase< Rational >::operator+=(), and SSVectorBase< Rational >::operator-=().

◆ setup_and_assign()

void setup_and_assign ( SSVectorBase< S > & rhs )

Sets up rhs vector, and assigns it.

Definition at line 723 of file ssvectorbase.h.

◆ setValue()

void setValue	(	int	i,
		R	x
	)

Sets i 'th element to x.

Definition at line 219 of file ssvectorbase.h.

◆ size()

int size ( ) const

Returns the number of nonzeros.

Definition at line 200 of file ssvectorbase.h.

◆ unSetup()

void unSetup ( )

Makes SSVectorBase not setup.

Definition at line 127 of file ssvectorbase.h.

Referenced by SSVectorBase< Rational >::altIndexMem(), SSVectorBase< Rational >::altIndices(), SSVectorBase< Rational >::altValues(), SSVectorBase< Rational >::operator=(), SSVectorBase< Rational >::setSize(), SLUFactor< R >::solveLeft(), and SLUFactor< R >::solveRight().

◆ value()

R value ( int n ) const

Returns value of the n 'th nonzero element.

Definition at line 183 of file ssvectorbase.h.

Referenced by VectorBase< Rational >::operator+=(), SSVectorBase< Rational >::operator+=(), VectorBase< Rational >::operator-=(), SSVectorBase< Rational >::operator-=(), and SVectorBase< Rational >::operator=().

◆ values()

const R* values ( ) const

Returns array values.

Definition at line 300 of file ssvectorbase.h.

Friends And Related Function Documentation

◆ DSVectorBase

friend class DSVectorBase

friend

Definition at line 53 of file ssvectorbase.h.

◆ VectorBase< R >

friend class VectorBase< R >

friend

Definition at line 52 of file ssvectorbase.h.

Member Data Documentation

◆ epsilon

R epsilon

private

A value x with |x| < epsilon is considered zero.

Definition at line 63 of file ssvectorbase.h.

Referenced by SSVectorBase< Rational >::getEpsilon(), SSVectorBase< Rational >::operator=(), and SSVectorBase< Rational >::setup_and_assign().

◆ setupStatus

bool setupStatus

private

Is the SSVectorBase set up?

Definition at line 60 of file ssvectorbase.h.

Referenced by SSVectorBase< Rational >::assign2productAndSetup(), SSVectorBase< Rational >::isSetup(), and SSVectorBase< Rational >::setup_and_assign().

SoPlex

Public Member Functions

Private Member Functions

Friends

Data

Additional Inherited Members

Detailed Description

template<class R> class soplex::SSVectorBase< R >

Constructor & Destructor Documentation

◆ SSVectorBase() [1/4]

◆ SSVectorBase() [2/4]

◆ SSVectorBase() [3/4]

◆ SSVectorBase() [4/4]

◆ ~SSVectorBase()

Member Function Documentation

◆ add()

◆ altIndexMem()

◆ altIndices()

◆ altValues()

◆ assign() [1/2]

◆ assign() [2/2]

◆ assign2product()

◆ assign2product1()

◆ assign2product4setup()

◆ assign2productAndSetup()

◆ assign2productFull()

◆ assign2productShort()

◆ assignPWproduct4setup()

◆ clear()

◆ clearIdx()

◆ clearNum()

◆ dim()

◆ forceSetup()

◆ get_ptr()

◆ getEpsilon()

◆ index()

◆ indexMem()

◆ indices()

◆ isConsistent()

◆ isSetup()

◆ length()

◆ length2()

◆ maxAbs()

◆ multAdd() [1/2]

◆ multAdd() [2/2]

◆ operator*()

◆ operator*=()

◆ operator+=() [1/3]

◆ operator+=() [2/3]

◆ operator+=() [3/3]

◆ operator-=() [1/3]

◆ operator-=() [2/3]

◆ operator-=() [3/3]

◆ operator=() [1/4]

◆ operator=() [2/4]

◆ operator=() [3/4]

◆ operator=() [4/4]

◆ operator[]()

◆ pos()

◆ reDim()

◆ reMem()

◆ scaleValue()

◆ setEpsilon()

◆ setMax()

◆ setSize()

◆ setup()

◆ setup_and_assign()

◆ setValue()

◆ size()

◆ unSetup()

◆ value()

◆ values()

Friends And Related Function Documentation

◆ DSVectorBase

◆ VectorBase< R >

Member Data Documentation

◆ epsilon

◆ setupStatus

template<class R>
class soplex::SSVectorBase< R >