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| std::unique_ptr< HybZono > | ZonoOpt::affine_map (const HybZono &Z, const Eigen::SparseMatrix< zono_float > &R, const Eigen::Vector< zono_float, -1 > &s=Eigen::Vector< zono_float, -1 >()) |
| | Returns affine map R*Z + s of set Z.
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| std::unique_ptr< HybZono > | ZonoOpt::affine_inclusion (const HybZono &Z, const IntervalMatrix &R, const Eigen::Vector< zono_float, -1 > &s=Eigen::Vector< zono_float, -1 >()) |
| | Returns inclusion of zonotopic set for uncertain affine map R*Z + s.
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| std::unique_ptr< HybZono > | ZonoOpt::project_onto_dims (const HybZono &Z, const std::vector< int > &dims) |
| | Projects set Z onto the dimensions specified in dims.
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| std::unique_ptr< HybZono > | ZonoOpt::minkowski_sum (const HybZono &Z1, HybZono &Z2) |
| | Computes Minkowski sum of two sets Z1 and Z2.
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| std::unique_ptr< HybZono > | ZonoOpt::pontry_diff (HybZono &Z1, Zono &Z2, bool exact=true) |
| | Computes the Pontryagin difference Z1 - Z2.
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| std::unique_ptr< HybZono > | ZonoOpt::intersection (const HybZono &Z1, HybZono &Z2, const Eigen::SparseMatrix< zono_float > &R=Eigen::SparseMatrix< zono_float >()) |
| | Computes the generalized intersection of sets Z1 and Z2 over the matrix R.
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| std::unique_ptr< HybZono > | ZonoOpt::intersection_over_dims (const HybZono &Z1, HybZono &Z2, const std::vector< int > &dims) |
| | Computes the generalized intersection of sets Z1 and Z2 over the specified dimensions.
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| std::unique_ptr< HybZono > | ZonoOpt::halfspace_intersection (HybZono &Z, const Eigen::SparseMatrix< zono_float > &H, const Eigen::Vector< zono_float, -1 > &f, const Eigen::SparseMatrix< zono_float > &R=Eigen::SparseMatrix< zono_float >()) |
| | Computes the intersection generalized intersection of set Z with halfspace H*x <= f over matrix R.
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| std::unique_ptr< HybZono > | ZonoOpt::union_of_many (const std::vector< std::shared_ptr< HybZono > > &Zs, bool preserve_sharpness=false, bool expose_indicators=false) |
| | Computes union of several sets.
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| std::unique_ptr< ConZono > | ZonoOpt::convex_hull (const std::vector< std::shared_ptr< HybZono > > &Zs) |
| | Computes convex hull of several sets.
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| std::unique_ptr< HybZono > | ZonoOpt::cartesian_product (const HybZono &Z1, HybZono &Z2) |
| | Computes the Cartesian product of two sets Z1 and Z2.
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| std::unique_ptr< HybZono > | ZonoOpt::constrain (HybZono &Z, const Eigen::SparseMatrix< zono_float > &H, const Eigen::Vector< zono_float, -1 > &f, char direction, const Eigen::SparseMatrix< zono_float > &R=Eigen::SparseMatrix< zono_float >()) |
| | Computes the generalized intersection of set Z with H*x <= f, H*x >= f, or H*x = f over matrix R.
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| std::unique_ptr< HybZono > | ZonoOpt::set_diff (const HybZono &Z1, HybZono &Z2, zono_float delta_m=100, bool remove_redundancy=true, const OptSettings &settings=OptSettings(), std::shared_ptr< OptSolution > *solution=nullptr, int n_leaves=std::numeric_limits< int >::max(), int contractor_iter=10) |
| | Set difference Z1 \ Z2.
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| std::unique_ptr< HybZono > | ZonoOpt::vrep_2_hybzono (const std::vector< Eigen::Matrix< zono_float, -1, -1 > > &Vpolys, bool expose_indicators=false) |
| | Computes a hybrid zonotope from a union of vertex representation polytopes.
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| std::unique_ptr< HybZono > | ZonoOpt::zono_union_2_hybzono (std::vector< std::shared_ptr< Zono > > &Zs, bool expose_indicators=false) |
| | Computes a hybrid zonotope from a union of zonotopes.
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Hybrid zonotope class for ZonoOpt library.
- Author
- Josh Robbins (jrobb.nosp@m.ins@.nosp@m.psu.e.nosp@m.du)
- Version
- 1.0
- Date
- 2025-06-04
- Copyright
- Copyright (c) 2025
