Inheritance diagram for CDPL.Math.ConstULHomogenousCoordsAdapter:

Public Member Functions
None	__init__ (ConstULHomogenousCoordsAdapter a)
	Initializes a copy of the ConstULHomogenousCoordsAdapter instance a. More...

None	__init__ (ConstULVectorExpression e)
	Initializes the ConstULHomogenousCoordsAdapter instance. More...

int	getObjectID ()
	Returns the numeric identifier (ID) of the wrapped C++ class instance. More...

bool	isEmpty ()

int	getSize ()

int	getElement (int i)

object	toArray ()

ConstULVectorExpression	getData ()

bool	__eq__ (ConstULHomogenousCoordsAdapter a)
	Returns the result of the comparison operation `self == a`. More...

bool	__eq__ (ConstULVectorExpression e)
	Returns the result of the comparison operation `self == e`. More...

bool	__ne__ (ConstULHomogenousCoordsAdapter a)
	Returns the result of the comparison operation `self != a`. More...

bool	__ne__ (ConstULVectorExpression e)
	Returns the result of the comparison operation `self != e`. More...

int	__call__ (int i)

int	__getitem__ (int i)

int	__len__ ()

str	__str__ ()
	Returns a string representation of the ConstULHomogenousCoordsAdapter instance. More...

ConstULHomogenousCoordsAdapter	__pos__ ()

ConstULVectorExpression	__neg__ ()

ConstULVectorExpression	__add__ (ConstULVectorExpression e)
	Returns the result of the addition operation `self + e`. More...

ConstULVectorExpression	__sub__ (ConstULVectorExpression e)
	Returns the result of the subtraction operation `self - e`. More...

ConstULVectorExpression	__mul__ (int t)
	Returns the result of the multiplication operation `self * t`. More...

ConstULVectorExpression	__mul__ (ConstULMatrixExpression e)
	Returns the result of the multiplication operation `self * e`. More...

ConstULVectorExpression	__div__ (int t)
	Returns the result of the division operation `self / t`. More...

ConstULVectorExpression	__truediv__ (int t)

ConstULVectorExpression	__rmul__ (int t)

Properties
	objectID = property(getObjectID)

	size = property(getSize)

	data = property(getData)

Constructor & Destructor Documentation

◆ init() [1/2]

None CDPL.Math.ConstULHomogenousCoordsAdapter.__init__ ( ConstULHomogenousCoordsAdapter a )

Initializes a copy of the ConstULHomogenousCoordsAdapter instance a.

Parameters

a	The ConstULHomogenousCoordsAdapter instance to copy.

◆ init() [2/2]

None CDPL.Math.ConstULHomogenousCoordsAdapter.__init__ ( ConstULVectorExpression e )

Initializes the ConstULHomogenousCoordsAdapter instance.

Parameters

e

Member Function Documentation

◆ getObjectID()

int CDPL.Math.ConstULHomogenousCoordsAdapter.getObjectID ( )

Returns the numeric identifier (ID) of the wrapped C++ class instance.

Different Python ConstULHomogenousCoordsAdapter instances may reference the same underlying C++ class instance. The commonly used Python expression a is not b thus cannot tell reliably whether the two ConstULHomogenousCoordsAdapter instances a and b reference different C++ objects. The numeric identifier returned by this method allows to correctly implement such an identity test via the simple expression a.getObjectID() != b.getObjectID().

Returns: The numeric ID of the internally referenced C++ class instance.

◆ isEmpty()

bool CDPL.Math.ConstULHomogenousCoordsAdapter.isEmpty ( )

Returns

◆ getSize()

int CDPL.Math.ConstULHomogenousCoordsAdapter.getSize ( )

Returns

◆ getElement()

int CDPL.Math.ConstULHomogenousCoordsAdapter.getElement ( int i )

Parameters

i

Returns

◆ toArray()

object CDPL.Math.ConstULHomogenousCoordsAdapter.toArray ( )

Returns

◆ getData()

ConstULVectorExpression CDPL.Math.ConstULHomogenousCoordsAdapter.getData ( )

Returns

◆ eq() [1/2]

bool CDPL.Math.ConstULHomogenousCoordsAdapter.__eq__ ( ConstULHomogenousCoordsAdapter a )

Returns the result of the comparison operation self == a.

Parameters

a	The ConstULHomogenousCoordsAdapter instance to be compared with.

Returns: The result of the comparison operation.

◆ eq() [2/2]

bool CDPL.Math.ConstULHomogenousCoordsAdapter.__eq__ ( ConstULVectorExpression e )

Returns the result of the comparison operation self == e.

Parameters

e	The ConstULVectorExpression instance to be compared with.

Returns: The result of the comparison operation.

◆ ne() [1/2]

bool CDPL.Math.ConstULHomogenousCoordsAdapter.__ne__ ( ConstULHomogenousCoordsAdapter a )

Returns the result of the comparison operation self != a.

Parameters

a	The ConstULHomogenousCoordsAdapter instance to be compared with.

Returns: The result of the comparison operation.

◆ ne() [2/2]

bool CDPL.Math.ConstULHomogenousCoordsAdapter.__ne__ ( ConstULVectorExpression e )

Returns the result of the comparison operation self != e.

Parameters

e	The ConstULVectorExpression instance to be compared with.

Returns: The result of the comparison operation.

◆ call()

int CDPL.Math.ConstULHomogenousCoordsAdapter.__call__ ( int i )

Parameters

i

Returns

◆ getitem()

int CDPL.Math.ConstULHomogenousCoordsAdapter.__getitem__ ( int i )

Parameters

i

Returns

◆ len()

int CDPL.Math.ConstULHomogenousCoordsAdapter.__len__ ( )

Returns

◆ str()

str CDPL.Math.ConstULHomogenousCoordsAdapter.__str__ ( )

Returns a string representation of the ConstULHomogenousCoordsAdapter instance.

Returns: The generated string representation.

◆ pos()

ConstULHomogenousCoordsAdapter CDPL.Math.ConstULHomogenousCoordsAdapter.__pos__ ( )

Returns

◆ neg()

ConstULVectorExpression CDPL.Math.ConstULHomogenousCoordsAdapter.__neg__ ( )

Returns

◆ add()

ConstULVectorExpression CDPL.Math.ConstULHomogenousCoordsAdapter.__add__ ( ConstULVectorExpression e )

Returns the result of the addition operation self + e.

Parameters

e	Specifies the second addend.

Returns: A ConstULVectorExpression instance holding the result of the addition.

◆ sub()

ConstULVectorExpression CDPL.Math.ConstULHomogenousCoordsAdapter.__sub__ ( ConstULVectorExpression e )

Returns the result of the subtraction operation self - e.

Parameters

e	Specifies the subtrahend.

Returns: A ConstULHomogenousCoordsAdapter instance holding the result of the subtraction.

◆ mul() [1/2]

ConstULVectorExpression CDPL.Math.ConstULHomogenousCoordsAdapter.__mul__ ( int t )

Returns the result of the multiplication operation self * t.

Parameters

t	Specifies the multiplier.

Returns: A ConstULVectorExpression instance holding the result of the multiplication.

◆ mul() [2/2]

ConstULVectorExpression CDPL.Math.ConstULHomogenousCoordsAdapter.__mul__ ( ConstULMatrixExpression e )

Returns the result of the multiplication operation self * e.

Parameters

e	Specifies the multiplier.

Returns: A ConstULVectorExpression instance holding the result of the multiplication.

◆ div()

ConstULVectorExpression CDPL.Math.ConstULHomogenousCoordsAdapter.__div__ ( int t )

Returns the result of the division operation self / t.

Parameters

t	Specifies the divisor.

Returns: A ConstULVectorExpression instance holding the result of the division.

◆ truediv()

ConstULVectorExpression CDPL.Math.ConstULHomogenousCoordsAdapter.__truediv__ ( int t )

Parameters

t

Returns

◆ rmul()

ConstULVectorExpression CDPL.Math.ConstULHomogenousCoordsAdapter.__rmul__ ( int t )

Parameters

t

Returns

Public Member Functions

Properties

Constructor & Destructor Documentation

◆ __init__() [1/2]

◆ __init__() [2/2]

Member Function Documentation

◆ getObjectID()

◆ isEmpty()

◆ getSize()

◆ getElement()

◆ toArray()

◆ getData()

◆ __eq__() [1/2]

◆ __eq__() [2/2]

◆ __ne__() [1/2]

◆ __ne__() [2/2]

◆ __call__()

◆ __getitem__()

◆ __len__()

◆ __str__()

◆ __pos__()

◆ __neg__()

◆ __add__()

◆ __sub__()

◆ __mul__() [1/2]

◆ __mul__() [2/2]

◆ __div__()

◆ __truediv__()

◆ __rmul__()

◆ init() [1/2]

◆ init() [2/2]

◆ eq() [1/2]

◆ eq() [2/2]

◆ ne() [1/2]

◆ ne() [2/2]

◆ call()

◆ getitem()

◆ len()

◆ str()

◆ pos()

◆ neg()

◆ add()

◆ sub()

◆ mul() [1/2]

◆ mul() [2/2]

◆ div()

◆ truediv()

◆ rmul()