Uses of Package
edu.stanford.rsl.konrad.geometry.shapes.simple

Packages that use edu.stanford.rsl.konrad.geometry.shapes.simple
edu.stanford.rsl.konrad.calibration Contains Classes for the calibration of C-arm trajectories. 
edu.stanford.rsl.konrad.geometry Contains classes to describe various projection geometries. 
edu.stanford.rsl.konrad.geometry.bounds   
edu.stanford.rsl.konrad.geometry.motion   
edu.stanford.rsl.konrad.geometry.shapes   
edu.stanford.rsl.konrad.geometry.shapes.compound   
edu.stanford.rsl.konrad.geometry.shapes.simple   
edu.stanford.rsl.konrad.geometry.splines Contains classes to model splines. 
edu.stanford.rsl.konrad.geometry.splines.capi Contains classes to wrap the Curve API (CAPI). 
edu.stanford.rsl.konrad.geometry.transforms   
edu.stanford.rsl.konrad.numerics.mathexpressions   
edu.stanford.rsl.konrad.phantom.forbild   
edu.stanford.rsl.konrad.phantom.forbild.shapes   
edu.stanford.rsl.konrad.phantom.xcat   
edu.stanford.rsl.konrad.physics Contains classes to physical effects related to x-rays. 
edu.stanford.rsl.konrad.rendering   
edu.stanford.rsl.konrad.utils Contains various utility classes. 
 

Classes in edu.stanford.rsl.konrad.geometry.shapes.simple used by edu.stanford.rsl.konrad.calibration
Point3D
          Wrapper class to model a 3D point.
 

Classes in edu.stanford.rsl.konrad.geometry.shapes.simple used by edu.stanford.rsl.konrad.geometry
PointND
          Class to model points of arbitrary dimension.
StraightLine
           
Triangle
          Class to describe a triangle in 3D.
 

Classes in edu.stanford.rsl.konrad.geometry.shapes.simple used by edu.stanford.rsl.konrad.geometry.bounds
Plane3D
          There are 3 representations for a plane: The parametric representation defines the plane using a point P and two non-colinear vectors u and v, so that the plane is defined by $\mathbf P + \alpha \cdot \mathbf u + \beta \cdot \mathbf v, \quad \alpha, \beta \in \mathbb R$.
PointND
          Class to model points of arbitrary dimension.
QuadricSurface
          Class to model an arbitrary quadric surface Rotimi X Ojo
 

Classes in edu.stanford.rsl.konrad.geometry.shapes.simple used by edu.stanford.rsl.konrad.geometry.motion
PointND
          Class to model points of arbitrary dimension.
 

Classes in edu.stanford.rsl.konrad.geometry.shapes.simple used by edu.stanford.rsl.konrad.geometry.shapes
PointND
          Class to model points of arbitrary dimension.
SimpleSurface
           
 

Classes in edu.stanford.rsl.konrad.geometry.shapes.simple used by edu.stanford.rsl.konrad.geometry.shapes.compound
PointND
          Class to model points of arbitrary dimension.
 

Classes in edu.stanford.rsl.konrad.geometry.shapes.simple used by edu.stanford.rsl.konrad.geometry.shapes.simple
Plane3D
          There are 3 representations for a plane: The parametric representation defines the plane using a point P and two non-colinear vectors u and v, so that the plane is defined by $\mathbf P + \alpha \cdot \mathbf u + \beta \cdot \mathbf v, \quad \alpha, \beta \in \mathbb R$.
Point3D
          Wrapper class to model a 3D point.
PointND
          Class to model points of arbitrary dimension.
QuadricSurface
          Class to model an arbitrary quadric surface Rotimi X Ojo
SimpleSurface
           
SortablePoint
           
StraightLine
           
 

Classes in edu.stanford.rsl.konrad.geometry.shapes.simple used by edu.stanford.rsl.konrad.geometry.splines
PointND
          Class to model points of arbitrary dimension.
StraightLine
           
 

Classes in edu.stanford.rsl.konrad.geometry.shapes.simple used by edu.stanford.rsl.konrad.geometry.splines.capi
PointND
          Class to model points of arbitrary dimension.
 

Classes in edu.stanford.rsl.konrad.geometry.shapes.simple used by edu.stanford.rsl.konrad.geometry.transforms
PointND
          Class to model points of arbitrary dimension.
 

Classes in edu.stanford.rsl.konrad.geometry.shapes.simple used by edu.stanford.rsl.konrad.numerics.mathexpressions
Plane3D
          There are 3 representations for a plane: The parametric representation defines the plane using a point P and two non-colinear vectors u and v, so that the plane is defined by $\mathbf P + \alpha \cdot \mathbf u + \beta \cdot \mathbf v, \quad \alpha, \beta \in \mathbb R$.
PointND
          Class to model points of arbitrary dimension.
 

Classes in edu.stanford.rsl.konrad.geometry.shapes.simple used by edu.stanford.rsl.konrad.phantom.forbild
SimpleSurface
           
 

Classes in edu.stanford.rsl.konrad.geometry.shapes.simple used by edu.stanford.rsl.konrad.phantom.forbild.shapes
Box
          Creates a box.
Cone
          Creates a Cone.
Cylinder
          Creates a Cylinder.
Ellipsoid
          Creates an Ellipsoid
QuadricSurface
          Class to model an arbitrary quadric surface Rotimi X Ojo
SimpleSurface
           
Sphere
          Creates a Sphere.
 

Classes in edu.stanford.rsl.konrad.geometry.shapes.simple used by edu.stanford.rsl.konrad.phantom.xcat
PointND
          Class to model points of arbitrary dimension.
 

Classes in edu.stanford.rsl.konrad.geometry.shapes.simple used by edu.stanford.rsl.konrad.physics
PointND
          Class to model points of arbitrary dimension.
SortablePoint
           
 

Classes in edu.stanford.rsl.konrad.geometry.shapes.simple used by edu.stanford.rsl.konrad.rendering
PointND
          Class to model points of arbitrary dimension.
StraightLine
           
 

Classes in edu.stanford.rsl.konrad.geometry.shapes.simple used by edu.stanford.rsl.konrad.utils
PointND
          Class to model points of arbitrary dimension.