Analysis Software
Documentation for sPHENIX simulation software
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#include "Acts/Definitions/Algebra.hpp"
#include "Acts/Definitions/Units.hpp"
#include "Acts/MagneticField/InterpolatedBFieldMap.hpp"
#include "Acts/Utilities/detail/AxisFwd.hpp"
#include "Acts/Utilities/detail/Grid.hpp"
#include <array>
#include <cstddef>
#include <functional>
#include <utility>
#include <vector>
Go to the source code of this file.
Namespaces | |
namespace | Acts |
Acts includes to create all necessary definitions. | |
Functions | |
Acts::InterpolatedBFieldMap < Acts::detail::Grid < Acts::Vector2, Acts::detail::EquidistantAxis, Acts::detail::EquidistantAxis > > | Acts::fieldMapRZ (const std::function< size_t(std::array< size_t, 2 > binsRZ, std::array< size_t, 2 > nBinsRZ)> &localToGlobalBin, std::vector< double > rPos, std::vector< double > zPos, std::vector< Acts::Vector2 > bField, double lengthUnit=UnitConstants::mm, double BFieldUnit=UnitConstants::T, bool firstQuadrant=false) |
Acts::InterpolatedBFieldMap < Acts::detail::Grid < Acts::Vector3, Acts::detail::EquidistantAxis, Acts::detail::EquidistantAxis, Acts::detail::EquidistantAxis > > | Acts::fieldMapXYZ (const std::function< size_t(std::array< size_t, 3 > binsXYZ, std::array< size_t, 3 > nBinsXYZ)> &localToGlobalBin, std::vector< double > xPos, std::vector< double > yPos, std::vector< double > zPos, std::vector< Acts::Vector3 > bField, double lengthUnit=UnitConstants::mm, double BFieldUnit=UnitConstants::T, bool firstOctant=false) |
Acts::InterpolatedBFieldMap < Acts::detail::Grid < Acts::Vector2, Acts::detail::EquidistantAxis, Acts::detail::EquidistantAxis > > | Acts::solenoidFieldMap (std::pair< double, double > rlim, std::pair< double, double > zlim, std::pair< size_t, size_t > nbins, const SolenoidBField &field) |