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Packages that use AbstractShape | |
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edu.stanford.rsl.konrad.geometry | Contains classes to describe various projection geometries. |
edu.stanford.rsl.konrad.geometry.bounds | |
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.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. |
Uses of AbstractShape in edu.stanford.rsl.konrad.geometry |
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Subclasses of AbstractShape in edu.stanford.rsl.konrad.geometry | |
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class |
AbstractCurve
Abstract class to model n dimensional curves. |
class |
AbstractSurface
Abstract class to model n dimensional surfaces. |
Uses of AbstractShape in edu.stanford.rsl.konrad.geometry.bounds |
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Constructors in edu.stanford.rsl.konrad.geometry.bounds with parameters of type AbstractShape | |
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QuadricBoundingCondition(AbstractShape abstractShape)
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Uses of AbstractShape in edu.stanford.rsl.konrad.geometry.shapes |
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Subclasses of AbstractShape in edu.stanford.rsl.konrad.geometry.shapes | |
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class |
ArbitrarySurface
Models an arbitrary shape centered at the origin using a base shape and bounding conditions An affine transform class is used to translate and orient shapes from object space in world space The affine transform of an arbitrary shape is always the same as that of its base shape; |
Uses of AbstractShape in edu.stanford.rsl.konrad.geometry.shapes.compound |
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Subclasses of AbstractShape in edu.stanford.rsl.konrad.geometry.shapes.compound | |
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class |
CompoundShape
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class |
LinearOctree
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class |
NestedOctree
Class to model an LinearOctree which uses either CompoundShapes or LinearOctrees as nodes. |
Methods in edu.stanford.rsl.konrad.geometry.shapes.compound that return AbstractShape | |
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AbstractShape |
CompoundShape.get(int i)
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Methods in edu.stanford.rsl.konrad.geometry.shapes.compound that return types with arguments of type AbstractShape | |
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java.util.Iterator<AbstractShape> |
LinearOctree.iterator()
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java.util.Iterator<AbstractShape> |
CompoundShape.iterator()
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Methods in edu.stanford.rsl.konrad.geometry.shapes.compound with parameters of type AbstractShape | |
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boolean |
LinearOctree.add(AbstractShape shape)
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boolean |
CompoundShape.add(AbstractShape shape)
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Method parameters in edu.stanford.rsl.konrad.geometry.shapes.compound with type arguments of type AbstractShape | |
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boolean |
LinearOctree.addAll(java.util.Collection<? extends AbstractShape> arg0)
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boolean |
CompoundShape.addAll(java.util.Collection<? extends AbstractShape> c)
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Uses of AbstractShape in edu.stanford.rsl.konrad.geometry.shapes.simple |
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Subclasses of AbstractShape in edu.stanford.rsl.konrad.geometry.shapes.simple | |
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class |
Box
Creates a box. |
class |
Cone
Creates a Cone. |
class |
Cylinder
Creates a Cylinder. |
class |
Edge
|
class |
Ellipsoid
Creates an Ellipsoid |
class |
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 ![]() |
class |
QuadricSurface
Class to model an arbitrary quadric surface Rotimi X Ojo |
class |
SimpleSurface
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class |
Sphere
Creates a Sphere. |
class |
StraightLine
|
class |
Triangle
Class to describe a triangle in 3D. |
Uses of AbstractShape in edu.stanford.rsl.konrad.geometry.splines |
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Subclasses of AbstractShape in edu.stanford.rsl.konrad.geometry.splines | |
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class |
BSpline
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class |
SurfaceBSpline
Class to model a surface made of BSplines. |
class |
TimeVariantSurfaceBSpline
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Methods in edu.stanford.rsl.konrad.geometry.splines that return AbstractShape | |
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AbstractShape |
SurfaceBSpline.tesselateMesh(double samplingU,
double samplingV,
int mode)
Tesselates the BSplineSurface into a mesh of Triangles. |
AbstractShape |
SurfaceBSpline.tessellateMesh(double samplingU,
double samplingV)
Tesselates the BSplineSurface into a mesh of Triangles. |
AbstractShape |
TimeVariantSurfaceBSpline.tessellateMesh(double samplingU,
double samplingV,
double time)
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Methods in edu.stanford.rsl.konrad.geometry.splines that return types with arguments of type AbstractShape | |
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java.util.ArrayList<AbstractShape> |
SurfaceBSplineVolumePhantom.tesselateSplines(double samplingU,
double samplingV)
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Uses of AbstractShape in edu.stanford.rsl.konrad.phantom.forbild |
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Methods in edu.stanford.rsl.konrad.phantom.forbild that return AbstractShape | |
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static AbstractShape |
ForbildShapeFactory.getShape(java.lang.String objBounds)
Determines AbstractShape specified by given bound expressions |
Uses of AbstractShape in edu.stanford.rsl.konrad.phantom.forbild.shapes |
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Subclasses of AbstractShape in edu.stanford.rsl.konrad.phantom.forbild.shapes | |
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class |
ForbildBox
This class creates a surface from a forbilddefinition. |
class |
ForbildCone
This class creates a surface from a forbilddefinition. |
class |
ForbildCylinder
This class creates a surface from a forbilddefinition. |
class |
ForbildEllipsoid
This class creates a surface from a forbilddefinition. |
class |
ForbildSphere
This class creates a surface from a forbilddefinition. |
Uses of AbstractShape in edu.stanford.rsl.konrad.phantom.xcat |
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Methods in edu.stanford.rsl.konrad.phantom.xcat that return AbstractShape | |
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AbstractShape |
TessellationThread.getMesh()
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Methods in edu.stanford.rsl.konrad.phantom.xcat with parameters of type AbstractShape | |
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void |
XCatScene.add(PrioritizableScene phantom,
AbstractShape shape,
java.lang.String name)
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Uses of AbstractShape in edu.stanford.rsl.konrad.physics |
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Methods in edu.stanford.rsl.konrad.physics that return AbstractShape | |
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AbstractShape |
PhysicalObject.getShape()
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Methods in edu.stanford.rsl.konrad.physics with parameters of type AbstractShape | |
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void |
PhysicalObject.setShape(AbstractShape shape)
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