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using | identity_functor_type = AnalyticalIdentity<D,T,S> |
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using | targetType = T |
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using | sourceType = S |
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AnalyticalF< D, T, S > & | operator- (AnalyticalF< D, T, S > &rhs) |
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AnalyticalF< D, T, S > & | operator+ (AnalyticalF< D, T, S > &rhs) |
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AnalyticalF< D, T, S > & | operator* (AnalyticalF< D, T, S > &rhs) |
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AnalyticalF< D, T, S > & | operator/ (AnalyticalF< D, T, S > &rhs) |
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virtual | ~GenericF ()=default |
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int | getSourceDim () const |
| read only access to member variable _m
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int | getTargetDim () const |
| read only access to member variable _n
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std::string & | getName () |
| read and write access to name
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std::string const & | getName () const |
| read only access to name
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virtual bool | operator() (T output[], const S input[])=0 |
| has to be implemented for 'every' derived class
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bool | operator() (T output[]) |
| wrapper that call the pure virtual operator() (T output[], const S input[]) from above
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bool | operator() (T output[], S input0) |
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bool | operator() (T output[], S input0, S input1) |
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bool | operator() (T output[], S input0, S input1, S input2) |
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bool | operator() (T output[], S input0, S input1, S input2, S input3) |
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std::shared_ptr< GenericF< T, S > > | _ptrCalcC |
| memory management, frees resouces (calcClass)
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static constexpr unsigned | dim = D |
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template<unsigned D, typename T, typename S, unsigned seed>
class olb::AnalyticalRandomSeededBase< D, T, S, seed >
AnalyticalRamdomSeededBase: alternative version with seed specification.
Definition at line 123 of file analyticalF.h.