Provided by: librheolef-dev_6.6-1build2_amd64 bug

NAME

       branch - a parameter-dependent sequence of field

DESCRIPTION

       Stores  a  field  sequence together with its associated parameter value: a branch variable
       represents a pair (t,uh(t)) for a specific value of the parameter t.  Applications concern
       time-dependent problems and continuation methods.

       This class is convenient for file inputs/outputs and building graphical animations.

EXAMPLES

       Coming soon...

LIMITATIONS

       This class is under development.

       The  branch  class  store pointers on field class without reference counting. Thus, branch
       automatic variables cannot be returned by functions. branch variable are limited to  local
       variables.

IMPLEMENTATION

       template <class T, class M = rheo_default_memory_model>
       class branch_basic : public std::vector<std::pair<std::string,field_basic<T,M> > > {
       public :
       // typedefs:

         typedef std::vector<std::pair<std::string,field_basic<T,M> > >     base;
         typedef typename base::size_type                                   size_type;

       // allocators:

         branch_basic ();
         ~branch_basic();

       #ifdef _RHEOLEF_HAVE_VARIADIC_TEMPLATE
         template <typename... Args>
         branch_basic(const std::string& parameter, Args... names);
       #else // ! _RHEOLEF_HAVE_VARIADIC_TEMPLATE
         branch_basic (const std::string& parameter_name, const std::string& u0);
         branch_basic (const std::string& parameter_name, const std::string& u0,
                                                          const std::string& u1);
         branch_basic (const std::string& parameter_name, const std::string& u0,
                                                          const std::string& u1,
                                                          const std::string& u2);
       #endif // ! _RHEOLEF_HAVE_VARIADIC_TEMPLATE

       // accessors:

         const T&  parameter () const;
         const std::string& parameter_name () const;
         size_type     n_value () const;
         size_type     n_field () const;

       // modifiers:

         void set_parameter_name (const std::string& name);
         void set_parameter (const T& value);
         void set_range (const std::pair<T,T>& u_range);

       // input/output:

         // get/set current value
       #ifdef _RHEOLEF_HAVE_VARIADIC_TEMPLATE
         template <typename... Args>
         __obranch<T,M>  operator()  (const T& t, const field_basic<T,M>& u0, Args... uk);
         template <typename... Args>
         __iobranch<T,M> operator()  (T& t,             field_basic<T,M>& u0, Args&... uk);
       #else // ! _RHEOLEF_HAVE_VARIADIC_TEMPLATE
         __obranch<T,M> operator()  (const T& t, const field_basic<T,M>& u0);
         __obranch<T,M> operator()  (const T& t, const field_basic<T,M>& u0,
                                                 const field_basic<T,M>& u1);
         __obranch<T,M> operator()  (const T& t, const field_basic<T,M>& u0,
                                                 const field_basic<T,M>& u1,
                                                 const field_basic<T,M>& u2);
         __iobranch<T,M> operator() (T& t, field_basic<T,M>& u0);
         __iobranch<T,M> operator() (T& t, field_basic<T,M>& u0,
                                           field_basic<T,M>& u1);
         __iobranch<T,M> operator() (T& t, field_basic<T,M>& u0,
                                           field_basic<T,M>& u1,
                                           field_basic<T,M>& u2);
       #endif // ! _RHEOLEF_HAVE_VARIADIC_TEMPLATE

         __branch_header<T,M>         header ();
         __const_branch_header<T,M>   header () const;
         __const_branch_finalize<T,M> finalize () const;