Line3D.Line3D Class Reference

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Methods defined here:
def	Angle
def	Collinear
def	Coplanar
def	Distance
def	GetVector
def	Intersection
def	Parallel
def	__copy__
def	__deepcopy__
def	__init__
def	__reduce__

Data and other attributes defined here:
int	__instance_size__ = 72

Data descriptors inherited from Boost.Python.instance:
def	__dict__
def	__weakref__

Data and other attributes inherited from Boost.Python.instance:
def	__new__

Detailed Description

No documentation available.

Method resolution order

Line3D
Boost.Python.instance
builtin.object

Constructor & Destructor Documentation

def Line3D.Line3D.__init__

(

arg1

)

Returns

Instance of type None

     C++ signature :
         void __init__(_object*)
 
 
     C++ signature :
         void __init__(_object*,Point3D,Point3D)
 
 
     C++ signature :
         void __init__(_object*,double,double,double,double,double,double)
 
 
     C++ signature :
         void __init__(_object*,Line3D)

Note

Additional signature: init( (object)arg1, (Point3D)arg2, (Point3D)arg3) -> None

Additional signature: init( (object)arg1, (float)arg2, (float)arg3, (float)arg4, (float)arg5, (float)arg6, (float)arg7) -> None

Additional signature: init( (object)arg1, (Line3D)arg2) -> None

Member Function Documentation

def Line3D.Line3D.__copy__

(

arg1

)

Returns

Instance of type Line3D

     C++ signature :
         Line3D __copy__(Line3D)

def Line3D.Line3D.__deepcopy__	(		arg1,
			arg2
	)

Returns

Instance of type Line3D

     C++ signature :
         Line3D __deepcopy__(Line3D,boost::python::dict {lvalue})

def Line3D.Line3D.__dict__

(

args

)

def Line3D.Line3D.__new__

(

args

)

T.__new__(S, ...) -> a new object with type S, a subtype of T

 __new__ = <built-in method __new__ of Boost.Python.class object>

def Line3D.Line3D.__reduce__

(

args

)

 __reduce__ = <unnamed Boost.Python function>(args)

def Line3D.Line3D.__weakref__

(

args

)

def Line3D.Line3D.Angle	(		arg1,
			arg2
	)

Returns

Instance of type float

     C++ signature :
         double Angle(Line3D {lvalue},Line3D)

def Line3D.Line3D.Collinear	(		arg1,
			arg2
	)

Returns

Instance of type bool

     Collinearity of two lines is defined as follows:
     Let the two points on the first line be AB and the two points
     on the second line be CD.
     
     The lines are considered collinear iff C and D both lie
     within 0.001 units of the infinite line AB, and both of A and B lie
     within 0.001 units of the infinite line CD, and the absolute value
     of the cosine of the angle between the direction vector B-A
     and the direction vector D-C is greater than than (1-5e-7)
     (about .001 radians or .06 degrees).  The last condition
     addresses the case of two very short perpendicular segments.
     
 
     C++ signature :
         bool Collinear(Line3D {lvalue},Line3D)

def Line3D.Line3D.Coplanar	(		arg1,
			arg2,
			arg3
	)

Returns

Instance of type bool

     C++ signature :
         bool Coplanar(Line3D {lvalue},Line3D,double)

def Line3D.Line3D.Distance	(		arg1,
			arg2
	)

Returns

Instance of type float

     C++ signature :
         double Distance(Line3D {lvalue},Point3D)
 
 
     C++ signature :
         double Distance(Line3D {lvalue},Line3D)

Note

Additional signature: Distance( (Line3D)arg1, (Line3D)arg2) -> float

def Line3D.Line3D.GetVector	(		arg1,
			arg2
	)

Returns

Instance of type bool

     C++ signature :
         bool GetVector(Line3D {lvalue},Point3D {lvalue})

def Line3D.Line3D.Intersection	(		arg1,
			arg2
	)

Returns

Instance of type Point3D

     C++ signature :
         Point3D Intersection(Line3D {lvalue},Line3D)

def Line3D.Line3D.Parallel	(		arg1,
			arg2
	)

Returns

Instance of type bool

     C++ signature :
         bool Parallel(Line3D {lvalue},Line3D)

Member Data Documentation

int Line3D.Line3D.__instance_size__ = 72

staticprivate