Package | Description |
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fr.cnes.sirius.patrius.math.geometry.euclidean.oned | |
fr.cnes.sirius.patrius.math.geometry.euclidean.threed | |
fr.cnes.sirius.patrius.math.geometry.euclidean.twod | |
fr.cnes.sirius.patrius.math.geometry.partitioning |
This package provides classes to implement Binary Space Partition trees.
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Modifier and Type | Class and Description |
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class |
IntervalsSet
This class represents a 1D region: a set of intervals.
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Modifier and Type | Method and Description |
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protected AbstractSubHyperplane<Euclidean1D,Euclidean1D> |
SubOrientedPoint.buildNew(Hyperplane<Euclidean1D> hyperplane,
Region<Euclidean1D> remainingRegion)
Build a sub-hyperplane from an hyperplane and a region.
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Constructor and Description |
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SubOrientedPoint(Hyperplane<Euclidean1D> hyperplane,
Region<Euclidean1D> remainingRegion)
Simple constructor.
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Modifier and Type | Class and Description |
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class |
PolyhedronsSet
This class represents a 3D region: a set of polyhedrons.
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Modifier and Type | Method and Description |
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protected AbstractSubHyperplane<Euclidean3D,Euclidean2D> |
SubPlane.buildNew(Hyperplane<Euclidean3D> hyperplane,
Region<Euclidean2D> remainingRegion)
Build a sub-hyperplane from an hyperplane and a region.
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Constructor and Description |
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SubPlane(Hyperplane<Euclidean3D> hyperplane,
Region<Euclidean2D> remainingRegion)
Simple constructor.
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Modifier and Type | Class and Description |
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class |
PolygonsSet
This class represents a 2D region: a set of polygons.
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Modifier and Type | Method and Description |
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protected AbstractSubHyperplane<Euclidean2D,Euclidean1D> |
SubLine.buildNew(Hyperplane<Euclidean2D> hyperplane,
Region<Euclidean1D> remainingRegion)
Build a sub-hyperplane from an hyperplane and a region.
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Constructor and Description |
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SubLine(Hyperplane<Euclidean2D> hyperplane,
Region<Euclidean1D> remainingRegion)
Simple constructor.
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Modifier and Type | Class and Description |
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class |
AbstractRegion<S extends Space,T extends Space>
Abstract class for all regions, independently of geometry type or dimension.
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Modifier and Type | Method and Description |
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Region<S> |
RegionFactory.buildConvex(Hyperplane<S>... hyperplanes)
Build a convex region from a collection of bounding hyperplanes.
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Region<S> |
Region.buildNew(BSPTree<S> newTree)
Build a region using the instance as a prototype.
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Region<S> |
Region.copySelf()
Copy the instance.
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Region<S> |
RegionFactory.difference(Region<S> region1,
Region<S> region2)
Compute the difference of two regions.
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Region<S> |
RegionFactory.getComplement(Region<S> region)
Get the complement of the region (exchanged interior/exterior).
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Region<T> |
AbstractSubHyperplane.getRemainingRegion()
Get the remaining region of the hyperplane.
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Region<S> |
RegionFactory.intersection(Region<S> region1,
Region<S> region2)
Compute the intersection of two regions.
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Region<S> |
RegionFactory.union(Region<S> region1,
Region<S> region2)
Compute the union of two regions.
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Region<S> |
Hyperplane.wholeSpace()
Build a region covering the whole space.
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Region<S> |
RegionFactory.xor(Region<S> region1,
Region<S> region2)
Compute the symmetric difference (exclusive or) of two regions.
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Modifier and Type | Method and Description |
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protected abstract AbstractSubHyperplane<S,T> |
AbstractSubHyperplane.buildNew(Hyperplane<S> hyper,
Region<T> remaining)
Build a sub-hyperplane from an hyperplane and a region.
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boolean |
AbstractRegion.contains(Region<S> region)
Check if the instance entirely contains another region.
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boolean |
Region.contains(Region<S> region)
Check if the instance entirely contains another region.
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Region<S> |
RegionFactory.difference(Region<S> region1,
Region<S> region2)
Compute the difference of two regions.
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Region<S> |
RegionFactory.difference(Region<S> region1,
Region<S> region2)
Compute the difference of two regions.
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Region<S> |
RegionFactory.getComplement(Region<S> region)
Get the complement of the region (exchanged interior/exterior).
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Region<S> |
RegionFactory.intersection(Region<S> region1,
Region<S> region2)
Compute the intersection of two regions.
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Region<S> |
RegionFactory.intersection(Region<S> region1,
Region<S> region2)
Compute the intersection of two regions.
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Region<S> |
RegionFactory.union(Region<S> region1,
Region<S> region2)
Compute the union of two regions.
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Region<S> |
RegionFactory.union(Region<S> region1,
Region<S> region2)
Compute the union of two regions.
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Region<S> |
RegionFactory.xor(Region<S> region1,
Region<S> region2)
Compute the symmetric difference (exclusive or) of two regions.
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Region<S> |
RegionFactory.xor(Region<S> region1,
Region<S> region2)
Compute the symmetric difference (exclusive or) of two regions.
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Constructor and Description |
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AbstractSubHyperplane(Hyperplane<S> hyperplaneIn,
Region<T> remainingRegionIn)
Build a sub-hyperplane from an hyperplane and a region.
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