Point3D.Point3D Class Reference

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Methods defined here:
def	Angle
def	Bisector
def	Cross
def	Distance
def	DistanceSquared
def	Dot
def	EpsilonEquals
def	Interpolate
def	Length
def	LengthSquared
def	Parallel
def	Perpendicular
def	ScalarProjection
def	Set
def	Unit
def	VectorProjection
def	__add__
def	__copy__
def	__deepcopy__
def	__div__
def	__eq__
def	__getinitargs__
def	__iadd__
def	__idiv__
def	__imul__
def	__init__
def	__isub__
def	__mul__
def	__ne__
def	__neg__
def	__reduce__
def	__repr__
def	__rmul__
def	__str__
def	__sub__
def	distance

Data descriptors defined here:
def	x
def	y
def	z

Data and other attributes defined here:
int	__instance_size__ = 40
	__safe_for_unpickling__ = True

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

Point3D
Boost.Python.instance
builtin.object

Constructor & Destructor Documentation

def Point3D.Point3D.__init__

(

arg1

)

Returns

Instance of type None

     C++ signature :
         void __init__(_object*)
 
 
     C++ signature :
         void __init__(_object*,double,double,double)
 
 
     C++ signature :
         void __init__(_object*,Point3D)
 
     Construct a Point3D from an object with x, y, z attributes, or from a list, tuple, or iterator with at least three numbers.
 
     C++ signature :
         void* __init__(boost::python::api::object,_object*)

Note

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

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

Additional signature: init( (object)arg1, (object)arg2) -> object

Member Function Documentation

def Point3D.Point3D.__add__	(		arg1,
			arg2
	)

Returns

Instance of type object

     C++ signature :
         _object* __add__(Point3D {lvalue},Point3D)

def Point3D.Point3D.__copy__

(

arg1

)

Returns

Instance of type Point3D

     C++ signature :
         Point3D __copy__(Point3D {lvalue})

def Point3D.Point3D.__deepcopy__	(		arg1,
			arg2
	)

Returns

Instance of type Point3D

     C++ signature :
         Point3D __deepcopy__(Point3D {lvalue},boost::python::dict {lvalue})

def Point3D.Point3D.__dict__

(

args

)

def Point3D.Point3D.__div__	(		arg1,
			arg2
	)

Returns

Instance of type object

     C++ signature :
         _object* __div__(Point3D {lvalue},double)

def Point3D.Point3D.__eq__	(		arg1,
			arg2
	)

Returns

Instance of type bool

     C++ signature :
         bool __eq__(Point3D,Point3D)

def Point3D.Point3D.__getinitargs__

(

arg1

)

Returns

Instance of type tuple

     C++ signature :
         boost::python::tuple __getinitargs__(Point3D)

def Point3D.Point3D.__iadd__	(		arg1,
			arg2
	)

Returns

Instance of type object

     C++ signature :
         _object* __iadd__(boost::python::back_reference<Point3D&>,Point3D)

def Point3D.Point3D.__idiv__	(		arg1,
			arg2
	)

Returns

Instance of type object

     C++ signature :
         _object* __idiv__(boost::python::back_reference<Point3D&>,double)

def Point3D.Point3D.__imul__	(		arg1,
			arg2
	)

Returns

Instance of type object

     C++ signature :
         _object* __imul__(boost::python::back_reference<Point3D&>,double)
 
 
     C++ signature :
         _object* __imul__(boost::python::back_reference<Point3D&>,Xform)

Note

Additional signature: imul( (object)arg1, (Transform3D)arg2) -> object

def Point3D.Point3D.__isub__	(		arg1,
			arg2
	)

Returns

Instance of type object

     C++ signature :
         _object* __isub__(boost::python::back_reference<Point3D&>,Point3D)

def Point3D.Point3D.__mul__	(		arg1,
			arg2
	)

Returns

Instance of type object

     C++ signature :
         _object* __mul__(Point3D {lvalue},double)
 
 
     C++ signature :
         _object* __mul__(Point3D {lvalue},Xform)

Note

Additional signature: mul( (Point3D)arg1, (Transform3D)arg2) -> object

def Point3D.Point3D.__ne__	(		arg1,
			arg2
	)

Returns

Instance of type bool

     C++ signature :
         bool __ne__(Point3D,Point3D)

def Point3D.Point3D.__neg__

(

arg1

)

Returns

Instance of type object

     C++ signature :
         _object* __neg__(Point3D {lvalue})

def Point3D.Point3D.__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 Point3D.Point3D.__reduce__

(

args

)

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

def Point3D.Point3D.__repr__

(

arg1

)

Returns

Instance of type str

     C++ signature :
         std::string __repr__(Point3D {lvalue})

def Point3D.Point3D.__rmul__	(		arg1,
			arg2
	)

Returns

Instance of type object

     C++ signature :
         _object* __rmul__(Point3D {lvalue},double)

def Point3D.Point3D.__str__

(

arg1

)

Returns

Instance of type str

     C++ signature :
         std::string __str__(Point3D {lvalue})

def Point3D.Point3D.__sub__	(		arg1,
			arg2
	)

Returns

Instance of type object

     C++ signature :
         _object* __sub__(Point3D {lvalue},Point3D)

def Point3D.Point3D.__weakref__

(

args

)

def Point3D.Point3D.Angle	(		arg1,
			arg2
	)

Returns

Instance of type float

     Returns the angle, [0.,pi], between the two vectors.
 
     C++ signature :
         double Angle(Point3D,Point3D)

def Point3D.Point3D.Bisector	(		arg1,
			arg2
	)

Returns

Instance of type Point3D

     Returns the unit vector that bisects the two vectors.
 
     C++ signature :
         Point3D Bisector(Point3D,Point3D)

def Point3D.Point3D.Cross	(		arg1,
			arg2
	)

Returns

Instance of type Point3D

     Returns the vector product of the two vectors.
 
     C++ signature :
         Point3D Cross(Point3D,Point3D)

def Point3D.Point3D.Distance	(		arg1,
			arg2
	)

Returns

Instance of type float

     Return the distance between the two points.
 
     C++ signature :
         double Distance(Point3D {lvalue},Point3D)

def Point3D.Point3D.distance	(		arg1,
			arg2
	)

Returns

Instance of type float

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

def Point3D.Point3D.DistanceSquared	(		arg1,
			arg2
	)

Returns

Instance of type float

     Return the squared distance between the two points.
 
     C++ signature :
         double DistanceSquared(Point3D,Point3D)

def Point3D.Point3D.Dot	(		arg1,
			arg2
	)

Returns

Instance of type float

     Returns the scalar product between the two vectors.
 
     C++ signature :
         double Dot(Point3D,Point3D)

def Point3D.Point3D.EpsilonEquals	(		arg1,
			arg2,
			arg3
	)

Returns

Instance of type bool

     Returns True iff the distance between the two points is within some absolute tolerance.
 
     C++ signature :
         bool EpsilonEquals(Point3D,Point3D,double)
 
     Returns True iff the distance between the two points is within the specified absolute tolerance.
 
     C++ signature :
         bool EpsilonEquals(Point3D,Point3D)

Note

Additional signature: EpsilonEquals( (Point3D)arg1, (Point3D)arg2) -> bool

def Point3D.Point3D.Interpolate	(		arg1,
			arg2,
			arg3
	)

Returns

Instance of type Point3D

     Returns the point that is a specified percentage of the distance between the two points.
 
     C++ signature :
         Point3D Interpolate(Point3D,Point3D,double)

def Point3D.Point3D.Length

(

arg1

)

Returns

Instance of type float

     Returns the length of the vector.
 
     C++ signature :
         double Length(Point3D)

def Point3D.Point3D.LengthSquared

(

arg1

)

Returns

Instance of type float

     Returns the length squared of the vector.
 
     C++ signature :
         double LengthSquared(Point3D)

def Point3D.Point3D.Parallel	(		arg1,
			arg2
	)

Returns

Instance of type bool

     Returns True iff the two vectors are within some absolute tolerance of being parallel.
 
     C++ signature :
         bool Parallel(Point3D,Point3D)
 
     Returns True iff the two vectors are withing the specified tolerance of being parallel.
 
     C++ signature :
         bool Parallel(Point3D,Point3D,double)

Note

Additional signature: Parallel( (Point3D)arg1, (Point3D)arg2, (float)arg3) -> bool

def Point3D.Point3D.Perpendicular	(		arg1,
			arg2
	)

Returns

Instance of type bool

     Returns True iff the two vectors are within some absolute tolerance of being perpendicular.
 
     C++ signature :
         bool Perpendicular(Point3D,Point3D)
 
     Returns True iff the two vectors are within the specified absolute tolerance of being perpendicular.
 
     C++ signature :
         bool Perpendicular(Point3D,Point3D,double)

Note

Additional signature: Perpendicular( (Point3D)arg1, (Point3D)arg2, (float)arg3) -> bool

def Point3D.Point3D.ScalarProjection	(		arg1,
			arg2
	)

Returns

Instance of type float

     Returns the scalar product between the two vectors.
 
     C++ signature :
         double ScalarProjection(Point3D,Point3D)

def Point3D.Point3D.Set	(		arg1,
			arg2
	)

Returns

Instance of type None

     Modifies this to the same value as the specified Point3D.
 
     C++ signature :
         void Set(Point3D {lvalue},Point3D)

def Point3D.Point3D.Unit

(

arg1

)

Returns

Instance of type Point3D

     Returns a vector of length 1.0 in the same direction as this vector.
 
     C++ signature :
         Point3D Unit(Point3D)

def Point3D.Point3D.VectorProjection	(		arg1,
			arg2
	)

Returns

Instance of type Point3D

     Project this vector onto the specified vector.
 
     C++ signature :
         Point3D VectorProjection(Point3D,Point3D)

def Point3D.Point3D.x

(

args

)

def Point3D.Point3D.y

(

args

)

def Point3D.Point3D.z

(

args

)

Member Data Documentation

int Point3D.Point3D.__instance_size__ = 40

staticprivate

Point3D.Point3D.__safe_for_unpickling__ = True

staticprivate