Chemical Data Processing Library Python API - Version 1.1.1
Public Member Functions | Properties | List of all members
CDPL.Math.Vector4L Class Reference

A bounded 4 element vector holding signed integers of type long. More...

+ Inheritance diagram for CDPL.Math.Vector4L:

Public Member Functions

None __init__ ()
 Initializes the Vector4L instance.
 
None __init__ (Vector4L v)
 Initializes a copy of the Vector4L instance v. More...
 
None __init__ (int v)
 Initializes the Vector4L instance. More...
 
None __init__ (ConstFVectorExpression e)
 Initializes the Vector4L instance. More...
 
None __init__ (ConstDVectorExpression e)
 Initializes the Vector4L instance. More...
 
None __init__ (ConstLVectorExpression e)
 Initializes the Vector4L instance. More...
 
None __init__ (ConstULVectorExpression e)
 Initializes the Vector4L instance. More...
 
None __init__ (object a)
 Initializes the Vector4L instance. More...
 
None clear (int v=0)
 
int getObjectID ()
 Returns the numeric identifier (ID) of the wrapped C++ class instance. More...
 
Vector4L assign (ConstFVectorExpression e)
 Replaces the current state of self with a copy of the state of the ConstFVectorExpression instance e. More...
 
Vector4L assign (ConstDVectorExpression e)
 Replaces the current state of self with a copy of the state of the ConstDVectorExpression instance e. More...
 
Vector4L assign (ConstLVectorExpression e)
 Replaces the current state of self with a copy of the state of the ConstLVectorExpression instance e. More...
 
Vector4L assign (ConstULVectorExpression e)
 Replaces the current state of self with a copy of the state of the ConstULVectorExpression instance e. More...
 
Vector4L assign (Vector4L v)
 Replaces the current state of self with a copy of the state of the Vector4L instance v. More...
 
None assign (object a)
 Replaces the current state of self with a copy of the state of the object instance a. More...
 
bool isEmpty ()
 
int getSize ()
 
int getElement (int i)
 
object toArray ()
 
None swap (Vector4L v)
 
None setElement (int i, int v)
 
bool __eq__ (Vector4L v)
 Returns the result of the comparison operation self == v. More...
 
bool __eq__ (ConstLVectorExpression e)
 Returns the result of the comparison operation self == e. More...
 
bool __ne__ (Vector4L v)
 Returns the result of the comparison operation self != v. More...
 
bool __ne__ (ConstLVectorExpression 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 Vector4L instance. More...
 
Vector4L __pos__ ()
 
ConstLVectorExpression __neg__ ()
 
ConstLVectorExpression __add__ (ConstLVectorExpression e)
 Returns the result of the addition operation self + e. More...
 
ConstLVectorExpression __sub__ (ConstLVectorExpression e)
 Returns the result of the subtraction operation self - e. More...
 
ConstLVectorExpression __mul__ (int t)
 Returns the result of the multiplication operation self * t. More...
 
ConstLVectorExpression __mul__ (ConstLMatrixExpression e)
 Returns the result of the multiplication operation self * e. More...
 
ConstLVectorExpression __div__ (int t)
 Returns the result of the division operation self / t. More...
 
ConstLVectorExpression __truediv__ (int t)
 
ConstLVectorExpression __rmul__ (int t)
 
None __setitem__ (int i, int v)
 
Vector4L __iadd__ (Vector4L v)
 Performs the in-place addition operation self += v. More...
 
Vector4L __iadd__ (ConstLVectorExpression e)
 Performs the in-place addition operation self += e. More...
 
Vector4L __isub__ (Vector4L v)
 Performs the in-place subtraction operation self -= v. More...
 
Vector4L __isub__ (ConstLVectorExpression e)
 Performs the in-place subtraction operation self -= e. More...
 
Vector4L __imul__ (int t)
 Performs the in-place multiplication operation self *= t. More...
 
Vector4L __idiv__ (int t)
 Performs the in-place division operation self /= t. More...
 
Vector4L __itruediv__ (int t)
 

Properties

 objectID = property(getObjectID)
 
 size = property(getSize)
 

Detailed Description

A bounded 4 element vector holding signed integers of type long.

Constructor & Destructor Documentation

◆ __init__() [1/7]

None CDPL.Math.Vector4L.__init__ ( Vector4L  v)

Initializes a copy of the Vector4L instance v.

Parameters
vThe Vector4L instance to copy.

◆ __init__() [2/7]

None CDPL.Math.Vector4L.__init__ ( int  v)

Initializes the Vector4L instance.

Parameters
v

◆ __init__() [3/7]

None CDPL.Math.Vector4L.__init__ ( ConstFVectorExpression  e)

Initializes the Vector4L instance.

Parameters
e

◆ __init__() [4/7]

None CDPL.Math.Vector4L.__init__ ( ConstDVectorExpression  e)

Initializes the Vector4L instance.

Parameters
e

◆ __init__() [5/7]

None CDPL.Math.Vector4L.__init__ ( ConstLVectorExpression  e)

Initializes the Vector4L instance.

Parameters
e

◆ __init__() [6/7]

None CDPL.Math.Vector4L.__init__ ( ConstULVectorExpression  e)

Initializes the Vector4L instance.

Parameters
e

◆ __init__() [7/7]

None CDPL.Math.Vector4L.__init__ ( object  a)

Initializes the Vector4L instance.

Parameters
a

Member Function Documentation

◆ clear()

None CDPL.Math.Vector4L.clear ( int   v = 0)
Parameters
v

◆ getObjectID()

int CDPL.Math.Vector4L.getObjectID ( )

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

Different Python Vector4L 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 Vector4L 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.

◆ assign() [1/6]

Vector4L CDPL.Math.Vector4L.assign ( ConstFVectorExpression  e)

Replaces the current state of self with a copy of the state of the ConstFVectorExpression instance e.

Parameters
eThe ConstFVectorExpression instance to copy.
Returns
self

◆ assign() [2/6]

Vector4L CDPL.Math.Vector4L.assign ( ConstDVectorExpression  e)

Replaces the current state of self with a copy of the state of the ConstDVectorExpression instance e.

Parameters
eThe ConstDVectorExpression instance to copy.
Returns
self

◆ assign() [3/6]

Vector4L CDPL.Math.Vector4L.assign ( ConstLVectorExpression  e)

Replaces the current state of self with a copy of the state of the ConstLVectorExpression instance e.

Parameters
eThe ConstLVectorExpression instance to copy.
Returns
self

◆ assign() [4/6]

Vector4L CDPL.Math.Vector4L.assign ( ConstULVectorExpression  e)

Replaces the current state of self with a copy of the state of the ConstULVectorExpression instance e.

Parameters
eThe ConstULVectorExpression instance to copy.
Returns
self

◆ assign() [5/6]

Vector4L CDPL.Math.Vector4L.assign ( Vector4L  v)

Replaces the current state of self with a copy of the state of the Vector4L instance v.

Parameters
vThe Vector4L instance to copy.
Returns
self

◆ assign() [6/6]

None CDPL.Math.Vector4L.assign ( object  a)

Replaces the current state of self with a copy of the state of the object instance a.

Parameters
aThe object instance to copy.
Returns
self

◆ isEmpty()

bool CDPL.Math.Vector4L.isEmpty ( )
Returns

◆ getSize()

int CDPL.Math.Vector4L.getSize ( )
Returns

◆ getElement()

int CDPL.Math.Vector4L.getElement ( int  i)
Parameters
i
Returns

◆ toArray()

object CDPL.Math.Vector4L.toArray ( )
Returns

◆ swap()

None CDPL.Math.Vector4L.swap ( Vector4L  v)
Parameters
v

◆ setElement()

None CDPL.Math.Vector4L.setElement ( int  i,
int  v 
)
Parameters
i
v

◆ __eq__() [1/2]

bool CDPL.Math.Vector4L.__eq__ ( Vector4L  v)

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

Parameters
vThe Vector4L instance to be compared with.
Returns
The result of the comparison operation.

◆ __eq__() [2/2]

bool CDPL.Math.Vector4L.__eq__ ( ConstLVectorExpression  e)

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

Parameters
eThe ConstLVectorExpression instance to be compared with.
Returns
The result of the comparison operation.

◆ __ne__() [1/2]

bool CDPL.Math.Vector4L.__ne__ ( Vector4L  v)

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

Parameters
vThe Vector4L instance to be compared with.
Returns
The result of the comparison operation.

◆ __ne__() [2/2]

bool CDPL.Math.Vector4L.__ne__ ( ConstLVectorExpression  e)

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

Parameters
eThe ConstLVectorExpression instance to be compared with.
Returns
The result of the comparison operation.

◆ __call__()

int CDPL.Math.Vector4L.__call__ ( int  i)
Parameters
i
Returns

◆ __getitem__()

int CDPL.Math.Vector4L.__getitem__ ( int  i)
Parameters
i
Returns

◆ __len__()

int CDPL.Math.Vector4L.__len__ ( )
Returns

◆ __str__()

str CDPL.Math.Vector4L.__str__ ( )

Returns a string representation of the Vector4L instance.

Returns
The generated string representation.

◆ __pos__()

Vector4L CDPL.Math.Vector4L.__pos__ ( )
Returns

◆ __neg__()

ConstLVectorExpression CDPL.Math.Vector4L.__neg__ ( )
Returns

◆ __add__()

ConstLVectorExpression CDPL.Math.Vector4L.__add__ ( ConstLVectorExpression  e)

Returns the result of the addition operation self + e.

Parameters
eSpecifies the second addend.
Returns
A ConstLVectorExpression instance holding the result of the addition.

◆ __sub__()

ConstLVectorExpression CDPL.Math.Vector4L.__sub__ ( ConstLVectorExpression  e)

Returns the result of the subtraction operation self - e.

Parameters
eSpecifies the subtrahend.
Returns
A Vector4L instance holding the result of the subtraction.

◆ __mul__() [1/2]

ConstLVectorExpression CDPL.Math.Vector4L.__mul__ ( int  t)

Returns the result of the multiplication operation self * t.

Parameters
tSpecifies the multiplier.
Returns
A ConstLVectorExpression instance holding the result of the multiplication.

◆ __mul__() [2/2]

ConstLVectorExpression CDPL.Math.Vector4L.__mul__ ( ConstLMatrixExpression  e)

Returns the result of the multiplication operation self * e.

Parameters
eSpecifies the multiplier.
Returns
A ConstLVectorExpression instance holding the result of the multiplication.

◆ __div__()

ConstLVectorExpression CDPL.Math.Vector4L.__div__ ( int  t)

Returns the result of the division operation self / t.

Parameters
tSpecifies the divisor.
Returns
A ConstLVectorExpression instance holding the result of the division.

◆ __truediv__()

ConstLVectorExpression CDPL.Math.Vector4L.__truediv__ ( int  t)
Parameters
t
Returns

◆ __rmul__()

ConstLVectorExpression CDPL.Math.Vector4L.__rmul__ ( int  t)
Parameters
t
Returns

◆ __setitem__()

None CDPL.Math.Vector4L.__setitem__ ( int  i,
int  v 
)
Parameters
i
v

◆ __iadd__() [1/2]

Vector4L CDPL.Math.Vector4L.__iadd__ ( Vector4L  v)

Performs the in-place addition operation self += v.

Parameters
vSpecifies the second addend.
Returns
The updated Vector4L instance self.

◆ __iadd__() [2/2]

Vector4L CDPL.Math.Vector4L.__iadd__ ( ConstLVectorExpression  e)

Performs the in-place addition operation self += e.

Parameters
eSpecifies the second addend.
Returns
The updated Vector4L instance self.

◆ __isub__() [1/2]

Vector4L CDPL.Math.Vector4L.__isub__ ( Vector4L  v)

Performs the in-place subtraction operation self -= v.

Parameters
vSpecifies the subtrahend.
Returns
The updated Vector4L instance self.

◆ __isub__() [2/2]

Vector4L CDPL.Math.Vector4L.__isub__ ( ConstLVectorExpression  e)

Performs the in-place subtraction operation self -= e.

Parameters
eSpecifies the subtrahend.
Returns
The updated Vector4L instance self.

◆ __imul__()

Vector4L CDPL.Math.Vector4L.__imul__ ( int  t)

Performs the in-place multiplication operation self *= t.

Parameters
tSpecifies the multiplier.
Returns
The updated Vector4L instance self.

◆ __idiv__()

Vector4L CDPL.Math.Vector4L.__idiv__ ( int  t)

Performs the in-place division operation self /= t.

Parameters
tSpecifies the divisor.
Returns
The updated Vector4L instance self.

◆ __itruediv__()

Vector4L CDPL.Math.Vector4L.__itruediv__ ( int  t)
Parameters
t
Returns
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