#include <nanoflann.hpp>
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using | ElementType = T |
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using | DistanceType = _DistanceType |
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| SO2_Adaptor (const DataSource &_data_source) |
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DistanceType | evalMetric (const T *a, const AccessorType b_idx, size_t size) const |
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| DistanceType | accum_dist (const U a, const V b, const size_t) const |
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const DataSource & | data_source |
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template<class T, class DataSource, typename _DistanceType = T, typename AccessorType = uint32_t>
struct nanoflann::SO2_Adaptor< T, DataSource, _DistanceType, AccessorType >
SO2 distance functor Corresponding distance traits: nanoflann::metric_SO2
- Template Parameters
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| T | Type of the elements (e.g. double, float, uint8_t) |
| DataSource | Source of the data, i.e. where the vectors are stored |
| _DistanceType | Type of distance variables (must be signed) (e.g. float, double) orientation is constrained to be in [-pi, pi] |
| AccessorType | Type of the arguments with which the data can be accessed (e.g. float, double, int64_t, T*) |
◆ accum_dist()
template<class T , class DataSource , typename _DistanceType = T, typename AccessorType = uint32_t>
template<typename U , typename V >
| DistanceType nanoflann::SO2_Adaptor< T, DataSource, _DistanceType, AccessorType >::accum_dist |
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const U |
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const V |
b, |
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size_t |
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inline |
Note: this assumes that input angles are already in the range [-pi,pi]
The documentation for this struct was generated from the following file:
1.9.1