print_param_defn.hpp File Reference
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Namespaces | |
| mlpack | |
Linear algebra utility functions, generally performed on matrices or vectors. | |
| mlpack::bindings | |
| mlpack::bindings::julia | |
Functions | |
template < typename T > | |
| void | PrintParamDefn (util::ParamData &, const std::string &, const typename std::enable_if<!arma::is_arma_type< T >::value >::type *=0, const typename std::enable_if<!data::HasSerialize< T >::value >::type *=0) |
| If the type is not serializable, print nothing. More... | |
template < typename T > | |
| void | PrintParamDefn (util::ParamData &, const std::string &, const typename std::enable_if< arma::is_arma_type< T >::value >::type *=0) |
| Matrices are serializable but here we also print nothing. More... | |
template < typename T > | |
| void | PrintParamDefn (util::ParamData &d, const std::string &programName, const typename std::enable_if<!arma::is_arma_type< T >::value >::type *=0, const typename std::enable_if< data::HasSerialize< T >::value >::type *=0) |
| For non-matrix serializable types we need to print something. More... | |
template < typename T > | |
| void | PrintParamDefn (util::ParamData &d, const void *input, void *) |
| If the type is serializable, print the definition of a special utility function to set a IO parameter of that type to stdout. More... | |
Detailed Description
If the type is serializable, we need to define a special utility function to set a IO parameter of that type.
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Definition in file print_param_defn.hpp.