In This Package:

LHCbMath Class List

Here are the classes, structs, unions and interfaces with brief descriptions:

Gaudi::Math::detail::__Dig10< TYPE, N, OK >
Gaudi::Math::detail::__Dig10< TYPE, N, false >
Gaudi::Math::_AbsCompare< T >	The trivial structure for comparison of "numbers" by the absolute value
Gaudi::Math::detail::_Digit< TYPE, N >	Helper structure to geth Nth decimal digits from the integral type
Gaudi::Math::detail::_Digits< TYPE, N1, N2 >	Helper structure for evaluation of range N1->N2 of decimal digits from the integral type
Gaudi::Math::detail::_IDigit< TYPE, I, N >	Simple structure form compile-time evaluation of the decimal digit for the given number
Gaudi::Math::detail::_IDigits< TYPE, I, N1, N2 >	Helper structure for compile-time evaluation of range N1->N2 of decimal digits from the integral type
LHCb::Math::abs_greater< TYPE >	Comparison by absolute value
LHCb::Math::abs_less< TYPE >	Comparison by absolute value
Gaudi::Math::detail::Check10< TYPE, N >	Simple Helper structure to check if the type is able to contain the certain number of decimal digits
Gaudi::Math::Digit< TYPE, N >	Simple structure for evaluation of Nth digit for the integral type
Gaudi::Math::Digits< TYPE, N1, N2 >	Simple structure for evaluation of range of decomal digits N1->N2 (N2 is excluded) for the integral type
Gaudi::Math::GSL::EigenSystem	Helper class with allows to find eigenvalues and eigenvector for symmetrical MathLib matrices ("SMatrix") using GSL library
LHCb::Math::Equal_To< TYPE >	Helper structure for comparison of floating values
LHCb::Math::Equal_To< const TYPE >	Partial specialization for const-types
LHCb::Math::Equal_To< double >	Explicit specialization for doubles
LHCb::Math::Equal_To< float >	Explicit specialization for floats
LHCb::Math::Equal_To< long double >	Explicit specialization for long doubles
LHCb::Math::Equal_To< TYPE & >	Partial specialization for references
Gaudi::Math::IDigit< TYPE, I, N >	Simple structure form compile-time evaluation of the Nth decimal digit for the given number
Gaudi::Math::IDigits< TYPE, I, N1, N2 >	Simple structr efor compile-time evaluation of the range of decimal digits N1->N2 (N2 is excluded) for the given integral type
Gaudi::Math::SymPosDefMatrixInverter::inverter< T, F, N >	Invert symmertric positive definite matrix (dimension n, general case)
Gaudi::Math::SymMatrixInverter::inverter< T, F, N >	Inverts a symmetric matrix (dimension n, general case)
Gaudi::Math::SymMatrixInverter::inverter< T, F, 0 >	Refuses to invert a symmetric matrix of dimension 0
Gaudi::Math::SymPosDefMatrixInverter::inverter< T, F, 0 >	Refuse to invert symmetric positive definite matrix of dimension 0
Gaudi::Math::SymMatrixInverter::inverter< T, F, 1 >	Inverts a symmetric matrix (dimension 1)
Gaudi::Math::SymPosDefMatrixInverter::inverter< T, F, 1 >	Invert symmetric positive definite matrix (dimension 1)
Gaudi::Math::SymPosDefMatrixInverter::inverter< T, F, 2 >	Invert symmetric positive definite matrix (dimension 2)
Gaudi::Math::SymMatrixInverter::inverter< T, F, 2 >	Inverts a symmetric matrix (dimension 2)
Gaudi::Math::SymMatrixInverter::inverter< T, F, 3 >	Inverts a symmetric matrix (dimension 3)
Gaudi::Math::SymPosDefMatrixInverter::inverter< T, F, 3 >	Invert symmetric positive definite matrix (dimension 3)
Gaudi::Math::SymPosDefMatrixInverter::inverter< T, F, 4 >	Invert symmetric positive definite matrix (dimension 4)
Gaudi::Math::SymMatrixInverter::inverter< T, F, 4 >	Inverts a symmetric matrix (dimension 4)
Gaudi::Math::SymMatrixInverter::inverter< T, F, 5 >	Inverts a symmetric matrix (dimension 5)
Gaudi::Math::SymPosDefMatrixInverter::inverter< T, F, 5 >	Invert symmetric positive definite matrix (dimension 5)
Gaudi::Math::SymMatrixInverter::inverter< T, F, 6 >	Inverts a symmetric matrix (dimension 6)
Gaudi::Math::SymPosDefMatrixInverter::inverter< T, F, 6 >	Invert symmetric positive definite matrix (dimension 6)
Gaudi::Math::SymPosDefMatrixInverter::inverterForAllN< T >	Invert symmetric positive definite matrix (dimension n, general, implementation)
Gaudi::Math::SymMatrixInverter::inverterForAllN< T >	Inverts a symmetric matrix (dimension n, general, implementation)
Gaudi::Math::Line< aPoint, aVector >	A very simple class to describe a 3D-line
Gaudi::Math::MD5
Gaudi::Math::MD5::md5_engine
Gaudi::Math::detail::Null	The trivial helper structure to define "null enum"
Gaudi::Math::detail::Null_< TYPE, TYPE2 >	The trivial helper structure to define "null function"
Gaudi::Math::TypeWrapper< T >	Simple helepr routine to wrap the type

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