This class implements the real vector abstract data type. Vectors can have an arbitrary range which must be defined at the declaration and cannot be changed after this declaration. More...

#include <math_Vector.hxx>

Public Member Functions
	math_Vector (const Standard_Integer theLower, const Standard_Integer theUpper)
	Contructs a non-initialized vector in the range [theLower..theUpper] "theLower" and "theUpper" are the indexes of the lower and upper bounds of the constructed vector. More...

	math_Vector (const Standard_Integer theLower, const Standard_Integer theUpper, const Standard_Real theInitialValue)
	Contructs a vector in the range [theLower..theUpper] whose values are all initialized with the value "theInitialValue". More...

	math_Vector (const Standard_Real *theTab, const Standard_Integer theLower, const Standard_Integer theUpper)
	Constructs a vector in the range [theLower..theUpper] with the "c array" theTab. More...

	math_Vector (const gp_XY &Other)
	Constructor for converting gp_XY to math_Vector. More...

	math_Vector (const gp_XYZ &Other)
	Constructor for converting gp_XYZ to math_Vector. More...

void	Init (const Standard_Real theInitialValue)
	Initialize all the elements of a vector with "theInitialValue". More...

	math_Vector (const math_Vector &theOther)
	Constructs a copy for initialization. An exception is raised if the lengths of the vectors are different. More...

Standard_Integer	Length () const
	Returns the length of a vector. More...

Standard_Integer	Lower () const
	Returns the value of the theLower index of a vector. More...

Standard_Integer	Upper () const
	Returns the value of the theUpper index of a vector. More...

Standard_Real	Norm () const
	Returns the value or the square of the norm of this vector. More...

Standard_Real	Norm2 () const
	Returns the value of the square of the norm of a vector. More...

Standard_Integer	Max () const
	Returns the value of the "Index" of the maximum element of a vector. More...

Standard_Integer	Min () const
	Returns the value of the "Index" of the minimum element of a vector. More...

void	Normalize ()
	Normalizes this vector (the norm of the result is equal to 1.0) and assigns the result to this vector Exceptions Standard_NullValue if this vector is null (i.e. if its norm is less than or equal to Standard_Real::RealEpsilon(). More...

math_Vector	Normalized () const
	Normalizes this vector (the norm of the result is equal to 1.0) and creates a new vector Exceptions Standard_NullValue if this vector is null (i.e. if its norm is less than or equal to Standard_Real::RealEpsilon(). More...

void	Invert ()
	Inverts this vector and assigns the result to this vector. More...

math_Vector	Inverse () const
	Inverts this vector and creates a new vector. More...

void	Set (const Standard_Integer theI1, const Standard_Integer theI2, const math_Vector &theV)
	sets a vector from "theI1" to "theI2" to the vector "theV"; An exception is raised if "theI1" is less than "LowerIndex" or "theI2" is greater than "UpperIndex" or "theI1" is greater than "theI2". An exception is raised if "theI2-theI1+1" is different from the "Length" of "theV". More...

math_Vector	Slice (const Standard_Integer theI1, const Standard_Integer theI2) const
	Creates a new vector by inverting the values of this vector between indexes "theI1" and "theI2". If the values of this vector were (1., 2., 3., 4.,5., 6.), by slicing it between indexes 2 and 5 the values of the resulting vector are (1., 5., 4., 3., 2., 6.) More...

void	Multiply (const Standard_Real theRight)
	returns the product of a vector and a real value. More...

void	operator*= (const Standard_Real theRight)

math_Vector	Multiplied (const Standard_Real theRight) const
	returns the product of a vector and a real value. More...

math_Vector	operator* (const Standard_Real theRight) const

math_Vector	TMultiplied (const Standard_Real theRight) const
	returns the product of a vector and a real value. More...

void	Divide (const Standard_Real theRight)
	divides a vector by the value "theRight". An exception is raised if "theRight" = 0. More...

void	operator/= (const Standard_Real theRight)

math_Vector	Divided (const Standard_Real theRight) const
	divides a vector by the value "theRight". An exception is raised if "theRight" = 0. More...

math_Vector	operator/ (const Standard_Real theRight) const

void	Add (const math_Vector &theRight)
	adds the vector "theRight" to a vector. An exception is raised if the vectors have not the same length. Warning In order to avoid time-consuming copying of vectors, it is preferable to use operator += or the function Add whenever possible. More...

void	operator+= (const math_Vector &theRight)

math_Vector	Added (const math_Vector &theRight) const
	adds the vector theRight to a vector. An exception is raised if the vectors have not the same length. An exception is raised if the lengths are not equal. More...

math_Vector	operator+ (const math_Vector &theRight) const

void	Multiply (const math_Vector &theLeft, const math_Matrix &theRight)
	sets a vector to the product of the vector "theLeft" with the matrix "theRight". More...

void	Multiply (const math_Matrix &theLeft, const math_Vector &theRight)
	sets a vector to the product of the matrix "theLeft" with the vector "theRight". More...

void	TMultiply (const math_Matrix &theTLeft, const math_Vector &theRight)
	sets a vector to the product of the transpose of the matrix "theTLeft" by the vector "theRight". More...

void	TMultiply (const math_Vector &theLeft, const math_Matrix &theTRight)
	sets a vector to the product of the vector "theLeft" by the transpose of the matrix "theTRight". More...

void	Add (const math_Vector &theLeft, const math_Vector &theRight)
	sets a vector to the sum of the vector "theLeft" and the vector "theRight". An exception is raised if the lengths are different. More...

void	Subtract (const math_Vector &theLeft, const math_Vector &theRight)
	sets a vector to the Subtraction of the vector theRight from the vector theLeft. An exception is raised if the vectors have not the same length. Warning In order to avoid time-consuming copying of vectors, it is preferable to use operator -= or the function Subtract whenever possible. More...

const Standard_Real &	Value (const Standard_Integer theNum) const
	accesses the value of index "theNum" of a vector. More...

Standard_Real &	Value (const Standard_Integer theNum)
	accesses (in read or write mode) the value of index "theNum" of a vector. More...

const Standard_Real &	operator() (const Standard_Integer theNum) const

Standard_Real &	operator() (const Standard_Integer theNum)

math_Vector &	Initialized (const math_Vector &theOther)
	Initialises a vector by copying "theOther". An exception is raised if the Lengths are differents. More...

math_Vector &	operator= (const math_Vector &theOther)

Standard_Real	Multiplied (const math_Vector &theRight) const
	returns the inner product of 2 vectors. An exception is raised if the lengths are not equal. More...

Standard_Real	operator* (const math_Vector &theRight) const

math_Vector	Multiplied (const math_Matrix &theRight) const
	returns the product of a vector by a matrix. More...

math_Vector	operator* (const math_Matrix &theRight) const

math_Vector	Opposite ()
	returns the opposite of a vector. More...

math_Vector	operator- ()

void	Subtract (const math_Vector &theRight)
	returns the subtraction of "theRight" from "me". An exception is raised if the vectors have not the same length. More...

void	operator-= (const math_Vector &theRight)

math_Vector	Subtracted (const math_Vector &theRight) const
	returns the subtraction of "theRight" from "me". An exception is raised if the vectors have not the same length. More...

math_Vector	operator- (const math_Vector &theRight) const

void	Multiply (const Standard_Real theLeft, const math_Vector &theRight)
	returns the multiplication of a real by a vector. "me" = "theLeft" * "theRight" More...

void	Dump (Standard_OStream &theO) const
	Prints information on the current state of the object. Is used to redefine the operator <<. More...

Protected Member Functions
void	SetLower (const Standard_Integer theLower)
	Is used internally to set the "theLower" value of the vector. More...

Friends
math_Vector	operator* (const Standard_Real theLeft, const math_Vector &theRight)

Standard_OStream &	operator<< (Standard_OStream &theO, const math_Vector &theVec)

Detailed Description

This class implements the real vector abstract data type. Vectors can have an arbitrary range which must be defined at the declaration and cannot be changed after this declaration.

math_Vector V1(-3, 5); // a vector with range [-3..5]

Vector are copied through assignement :

math_Vector V2( 1, 9);
....
V2 = V1;
V1(1) = 2.0; // the vector V2 will not be modified.

The Exception RangeError is raised when trying to access outside the range of a vector :

V1(11) = 0.0 // --> will raise RangeError;

The Exception DimensionError is raised when the dimensions of two vectors are not compatible :

math_Vector V3(1, 2);
V3 = V1;    // --> will raise DimensionError;
V1.Add(V3)  // --> will raise DimensionError;

Constructor & Destructor Documentation

◆ math_Vector() [1/6]

math_Vector::math_Vector	(	const Standard_Integer	theLower,
		const Standard_Integer	theUpper
	)

Contructs a non-initialized vector in the range [theLower..theUpper] "theLower" and "theUpper" are the indexes of the lower and upper bounds of the constructed vector.

◆ math_Vector() [2/6]

math_Vector::math_Vector	(	const Standard_Integer	theLower,
		const Standard_Integer	theUpper,
		const Standard_Real	theInitialValue
	)

Contructs a vector in the range [theLower..theUpper] whose values are all initialized with the value "theInitialValue".

◆ math_Vector() [3/6]

math_Vector::math_Vector	(	const Standard_Real *	theTab,
		const Standard_Integer	theLower,
		const Standard_Integer	theUpper
	)

Constructs a vector in the range [theLower..theUpper] with the "c array" theTab.

◆ math_Vector() [4/6]

math_Vector::math_Vector ( const gp_XY & Other )

Constructor for converting gp_XY to math_Vector.

◆ math_Vector() [5/6]

math_Vector::math_Vector ( const gp_XYZ & Other )

Constructor for converting gp_XYZ to math_Vector.

◆ math_Vector() [6/6]

math_Vector::math_Vector ( const math_Vector & theOther )

Constructs a copy for initialization. An exception is raised if the lengths of the vectors are different.

Member Function Documentation

◆ Add() [1/2]

void math_Vector::Add ( const math_Vector & theRight )

adds the vector "theRight" to a vector. An exception is raised if the vectors have not the same length. Warning In order to avoid time-consuming copying of vectors, it is preferable to use operator += or the function Add whenever possible.

◆ Add() [2/2]

void math_Vector::Add	(	const math_Vector &	theLeft,
		const math_Vector &	theRight
	)

sets a vector to the sum of the vector "theLeft" and the vector "theRight". An exception is raised if the lengths are different.

◆ Added()

math_Vector math_Vector::Added ( const math_Vector & theRight ) const

adds the vector theRight to a vector. An exception is raised if the vectors have not the same length. An exception is raised if the lengths are not equal.

◆ Divide()

void math_Vector::Divide ( const Standard_Real theRight )

divides a vector by the value "theRight". An exception is raised if "theRight" = 0.

◆ Divided()

math_Vector math_Vector::Divided ( const Standard_Real theRight ) const

divides a vector by the value "theRight". An exception is raised if "theRight" = 0.

◆ Dump()

void math_Vector::Dump ( Standard_OStream & theO ) const

Prints information on the current state of the object. Is used to redefine the operator <<.

◆ Init()

void math_Vector::Init ( const Standard_Real theInitialValue )

Initialize all the elements of a vector with "theInitialValue".

◆ Initialized()

math_Vector& math_Vector::Initialized ( const math_Vector & theOther )

Initialises a vector by copying "theOther". An exception is raised if the Lengths are differents.

◆ Inverse()

math_Vector math_Vector::Inverse ( ) const

Inverts this vector and creates a new vector.

◆ Invert()

void math_Vector::Invert ( )

Inverts this vector and assigns the result to this vector.

◆ Length()

Standard_Integer math_Vector::Length ( void ) const

inline

Returns the length of a vector.

◆ Lower()

Standard_Integer math_Vector::Lower ( void ) const

inline

Returns the value of the theLower index of a vector.

◆ Max()

Standard_Integer math_Vector::Max ( ) const

Returns the value of the "Index" of the maximum element of a vector.

◆ Min()

Standard_Integer math_Vector::Min ( ) const

Returns the value of the "Index" of the minimum element of a vector.

◆ Multiplied() [1/3]

math_Vector math_Vector::Multiplied ( const Standard_Real theRight ) const

returns the product of a vector and a real value.

◆ Multiplied() [2/3]

Standard_Real math_Vector::Multiplied ( const math_Vector & theRight ) const

returns the inner product of 2 vectors. An exception is raised if the lengths are not equal.

◆ Multiplied() [3/3]

math_Vector math_Vector::Multiplied ( const math_Matrix & theRight ) const

returns the product of a vector by a matrix.

◆ Multiply() [1/4]

void math_Vector::Multiply ( const Standard_Real theRight )

returns the product of a vector and a real value.

◆ Multiply() [2/4]

void math_Vector::Multiply	(	const math_Vector &	theLeft,
		const math_Matrix &	theRight
	)

sets a vector to the product of the vector "theLeft" with the matrix "theRight".

◆ Multiply() [3/4]

void math_Vector::Multiply	(	const math_Matrix &	theLeft,
		const math_Vector &	theRight
	)

sets a vector to the product of the matrix "theLeft" with the vector "theRight".

◆ Multiply() [4/4]

void math_Vector::Multiply	(	const Standard_Real	theLeft,
		const math_Vector &	theRight
	)

returns the multiplication of a real by a vector. "me" = "theLeft" * "theRight"

◆ Norm()

Standard_Real math_Vector::Norm ( ) const

Returns the value or the square of the norm of this vector.

◆ Norm2()

Standard_Real math_Vector::Norm2 ( ) const

Returns the value of the square of the norm of a vector.

◆ Normalize()

void math_Vector::Normalize ( )

Normalizes this vector (the norm of the result is equal to 1.0) and assigns the result to this vector Exceptions Standard_NullValue if this vector is null (i.e. if its norm is less than or equal to Standard_Real::RealEpsilon().

◆ Normalized()

math_Vector math_Vector::Normalized ( ) const

Normalizes this vector (the norm of the result is equal to 1.0) and creates a new vector Exceptions Standard_NullValue if this vector is null (i.e. if its norm is less than or equal to Standard_Real::RealEpsilon().

◆ operator()() [1/2]

const Standard_Real& math_Vector::operator() ( const Standard_Integer theNum ) const

inline

◆ operator()() [2/2]

Standard_Real& math_Vector::operator() ( const Standard_Integer theNum )

inline

◆ operator*() [1/3]

math_Vector math_Vector::operator* ( const Standard_Real theRight ) const

inline

◆ operator*() [2/3]

Standard_Real math_Vector::operator* ( const math_Vector & theRight ) const

inline

◆ operator*() [3/3]

math_Vector math_Vector::operator* ( const math_Matrix & theRight ) const

inline

◆ operator*=()

void math_Vector::operator*= ( const Standard_Real theRight )

inline

◆ operator+()

math_Vector math_Vector::operator+ ( const math_Vector & theRight ) const

inline

◆ operator+=()

void math_Vector::operator+= ( const math_Vector & theRight )

inline

◆ operator-() [1/2]

math_Vector math_Vector::operator- ( )

inline

◆ operator-() [2/2]

math_Vector math_Vector::operator- ( const math_Vector & theRight ) const

inline

◆ operator-=()

void math_Vector::operator-= ( const math_Vector & theRight )

inline

◆ operator/()

math_Vector math_Vector::operator/ ( const Standard_Real theRight ) const

inline

◆ operator/=()

void math_Vector::operator/= ( const Standard_Real theRight )

inline

◆ operator=()

math_Vector& math_Vector::operator= ( const math_Vector & theOther )

inline

◆ Opposite()

math_Vector math_Vector::Opposite ( )

returns the opposite of a vector.

◆ Set()

void math_Vector::Set	(	const Standard_Integer	theI1,
		const Standard_Integer	theI2,
		const math_Vector &	theV
	)

sets a vector from "theI1" to "theI2" to the vector "theV"; An exception is raised if "theI1" is less than "LowerIndex" or "theI2" is greater than "UpperIndex" or "theI1" is greater than "theI2". An exception is raised if "theI2-theI1+1" is different from the "Length" of "theV".

◆ SetLower()

void math_Vector::SetLower ( const Standard_Integer theLower )

protected

Is used internally to set the "theLower" value of the vector.

◆ Slice()

math_Vector math_Vector::Slice	(	const Standard_Integer	theI1,
		const Standard_Integer	theI2
	)		const

Creates a new vector by inverting the values of this vector between indexes "theI1" and "theI2". If the values of this vector were (1., 2., 3., 4.,5., 6.), by slicing it between indexes 2 and 5 the values of the resulting vector are (1., 5., 4., 3., 2., 6.)

◆ Subtract() [1/2]

void math_Vector::Subtract	(	const math_Vector &	theLeft,
		const math_Vector &	theRight
	)

sets a vector to the Subtraction of the vector theRight from the vector theLeft. An exception is raised if the vectors have not the same length. Warning In order to avoid time-consuming copying of vectors, it is preferable to use operator -= or the function Subtract whenever possible.

◆ Subtract() [2/2]

void math_Vector::Subtract ( const math_Vector & theRight )

returns the subtraction of "theRight" from "me". An exception is raised if the vectors have not the same length.

◆ Subtracted()

math_Vector math_Vector::Subtracted ( const math_Vector & theRight ) const

returns the subtraction of "theRight" from "me". An exception is raised if the vectors have not the same length.

◆ TMultiplied()

math_Vector math_Vector::TMultiplied ( const Standard_Real theRight ) const

returns the product of a vector and a real value.

◆ TMultiply() [1/2]

void math_Vector::TMultiply	(	const math_Matrix &	theTLeft,
		const math_Vector &	theRight
	)

sets a vector to the product of the transpose of the matrix "theTLeft" by the vector "theRight".

◆ TMultiply() [2/2]

void math_Vector::TMultiply	(	const math_Vector &	theLeft,
		const math_Matrix &	theTRight
	)

sets a vector to the product of the vector "theLeft" by the transpose of the matrix "theTRight".

◆ Upper()

Standard_Integer math_Vector::Upper ( void ) const

inline

Returns the value of the theUpper index of a vector.

◆ Value() [1/2]

const Standard_Real& math_Vector::Value ( const Standard_Integer theNum ) const

inline

accesses the value of index "theNum" of a vector.

◆ Value() [2/2]

Standard_Real& math_Vector::Value ( const Standard_Integer theNum )

inline

accesses (in read or write mode) the value of index "theNum" of a vector.

Friends And Related Function Documentation

◆ operator*

math_Vector operator*	(	const Standard_Real	theLeft,
		const math_Vector &	theRight
	)

friend

◆ operator<<

Standard_OStream& operator<<	(	Standard_OStream &	theO,
		const math_Vector &	theVec
	)

friend

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

math_Vector.hxx

Public Member Functions

Protected Member Functions

Friends

Detailed Description

Constructor & Destructor Documentation

◆ math_Vector() [1/6]

◆ math_Vector() [2/6]

◆ math_Vector() [3/6]

◆ math_Vector() [4/6]

◆ math_Vector() [5/6]

◆ math_Vector() [6/6]

Member Function Documentation

◆ Add() [1/2]

◆ Add() [2/2]

◆ Added()

◆ Divide()

◆ Divided()

◆ Dump()

◆ Init()

◆ Initialized()

◆ Inverse()

◆ Invert()

◆ Length()

◆ Lower()

◆ Max()

◆ Min()

◆ Multiplied() [1/3]

◆ Multiplied() [2/3]

◆ Multiplied() [3/3]

◆ Multiply() [1/4]

◆ Multiply() [2/4]

◆ Multiply() [3/4]

◆ Multiply() [4/4]

◆ Norm()

◆ Norm2()

◆ Normalize()

◆ Normalized()

◆ operator()() [1/2]

◆ operator()() [2/2]

◆ operator*() [1/3]

◆ operator*() [2/3]

◆ operator*() [3/3]

◆ operator*=()

◆ operator+()

◆ operator+=()

◆ operator-() [1/2]

◆ operator-() [2/2]

◆ operator-=()

◆ operator/()

◆ operator/=()

◆ operator=()

◆ Opposite()

◆ Set()

◆ SetLower()

◆ Slice()

◆ Subtract() [1/2]

◆ Subtract() [2/2]

◆ Subtracted()

◆ TMultiplied()

◆ TMultiply() [1/2]

◆ TMultiply() [2/2]

◆ Upper()

◆ Value() [1/2]

◆ Value() [2/2]

Friends And Related Function Documentation

◆ operator*

◆ operator<<