Inheritance diagram for SeriesBase:
Public Types | |
typedef virtual_types< Self >::monoid_t | monoid_t |
The type of the free monoid A*. | |
typedef virtual_types< Self >::weights_t | weights_t |
The type of the semiring K. | |
typedef Self | self_t |
Exact type of the most derivated type in the hierarchy. | |
Public Member Functions | |
const monoid_t & | monoid () const |
Accessor to the monoid (const version). | |
const weights_t & | weights () const |
Accessor to the semiring (const version). | |
monoid_t & | monoid () |
Accessor to the monoid. | |
weights_t & | weights () |
Accessor to the semiring. | |
template<class T> bool | can_choose_non_starable (SELECTOR(T)) const |
Indicate wether it is possible or not to call choose_non_starable. | |
template<class T> Element< Self, T > | choose_starable (SELECTOR(T)) const |
Return a randomly choosed starable weight. | |
template<class T> Element< Self, T > | choose_non_starable (SELECTOR(T)) const |
Return a randomly choosed non-starable weight. | |
template<typename T> Element< Self, T > | identity (SELECTOR(T)) const |
returns the identity of the monoid (if mul_kind). | |
template<typename T> Element< Self, T > | zero (SELECTOR(T)) const |
returns the zero of the monoid (if add_kind). | |
bool | contains (const Element< Self, T > &elt) const |
Check if a given element is compatible with the structural element. | |
bool | contains (const Element< OtherS, T > &other) const |
Specialization of containts that always return false. | |
bool | contains (const T &elt_value) const |
Check if an anonymous value is compatible with a structural element. | |
Element< Self, T > | choose (SELECTOR(T)) const |
Choose randomly an element in the structure. | |
self_t & | self () |
Accessor to the real type. | |
Protected Member Functions | |
SeriesBase () | |
Default constructor is protected since it is an abstract class. | |
SeriesBase (const SeriesBase &other) | |
Copy constructor is protected since it is an abstract class. |
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Specialization of Indeed, elements structured by a particular type are always incompatible with structural elements of another type. |
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Accessor to the real type. This accessor is intended to be used by implementations in this class and derivated structures to obtain a reference to the structural element with its most derivated type. |