MetaElement< AutomataBase< Self >, T > Struct Template Reference
[Concept]

Services of every element of the automata set. More...

Inheritance diagram for MetaElement< AutomataBase< Self >, T >:

Inheritance graph
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List of all members.

Public Types

typedef MetaElement
< AutomataBase< Self >, T > 
self_t
 Type of the interface of an automaton.
typedef AutomataBase< Self >
::series_set_t 
series_set_t
 Type the series set from which is the automaton is built.
typedef AutomataBase< Self >
::kind_t 
kind_t
 Type the label kind with which is the automaton is built.
typedef automaton_traits< T >
::series_set_elt_value_t 
series_set_elt_value_t
 Type of the implementation of series that holds the automaton.
typedef Element< series_set_t,
series_set_elt_value_t
series_set_elt_t
 Type of the element of the set of series that holds the automaton.
typedef series_set_t::monoid_t monoid_t
 Type of the free monoid.
typedef
series_set_elt_t::monoid_elt_t 
monoid_elt_t
 Type of the free monoid element.
typedef monoid_elt_t::value_t monoid_elt_value_t
 Type of the implementation of a word.
typedef monoid_t::letter_t letter_t
 Type of the letter.
typedef series_set_t::semiring_t semiring_t
 Type of the semiring set.
typedef
series_set_elt_t::semiring_elt_t 
semiring_elt_t
 Type of the free monoid element.
typedef
series_set_elt_t::semiring_elt_value_t 
semiring_elt_value_t
 Type of the implementation of a semiring_elt.
typedef automaton_traits< T >
::tag_t 
tag_t
 Type of additional information that is aggregated to the automaton.
typedef automaton_traits< T >
::label_t 
label_t
 Type of the label of the automaton implementation.
typedef automaton_traits< T >
::states_t 
states_t
 Type of the states container.
typedef automaton_traits< T >
::state_iterator 
state_iterator
 Type of the iterator over the states set.
typedef automaton_traits< T >
::transitions_t 
transitions_t
 Type of the transitions set.
typedef automaton_traits< T >
::transition_iterator 
transition_iterator
 Type of the iterator over the transitions.
typedef automaton_traits< T >
::initial_support_t 
initial_support_t
 Type of the initial application support.
typedef automaton_traits< T >
::initial_iterator 
initial_iterator
 Type of the iterator of the initial application support.
typedef automaton_traits< T >
::final_support_t 
final_support_t
 Type of the final application support.
typedef automaton_traits< T >
::final_iterator 
final_iterator
 Type of the iterator of the final application support.
typedef automaton_traits< T >
::geometry_t 
geometry_t
 Type of the geometry map containing state coordinates.
typedef automaton_traits< T >
::geometry_t::coords_t 
geometry_coords_t
 Type of the coordinates used in the geometry map.
typedef automaton_traits< T >
::hstate_t 
hstate_t
 Type of handlers.
typedef automaton_traits< T >
::delta_iterator 
delta_iterator
 Type of delta iterators.

Public Member Functions

const series_set_tseries () const
 The set of series from which is build the automaton.
tag_ttag ()
 The optional information aggregated to the automaton.
const tag_ttag () const
 The optional information aggregated to the automaton.
geometry_tgeometry ()
 The optional geometry information aggregated to the automaton.
const geometry_tgeometry () const
 The optional geometry information aggregated to the automaton.
bool exists () const
 Return true if the automaton is consistent.
states_t states () const
 FIXME: These next two methods should really be replaced with (single, i.e.
transitions_t transitions () const
 Accessor to the set of transitions. (treat as const).
initial_support_t initial () const
 Accessor to the initial application.
final_support_t final () const
 Accessor to the final application.
bool is_initial (const hstate_t &state) const
 Return true if the state is initial (i.e. is in the initial support).
bool is_final (const hstate_t &state) const
 Return true if the state is final (i.e. is in the final support).
void set_initial (const hstate_t &state)
 Set the state to be initial.
void set_initial (const hstate_t &state, const series_set_elt_t &m)
 Set an initial multiplicity to the state.
void set_final (const hstate_t &state)
 Set the state to be final.
void set_final (const hstate_t &state, const series_set_elt_t &m)
 Set a final multiplicity to the state.
void unset_initial (const hstate_t &state)
 Set the state not to be initial.
void unset_final (const hstate_t &state)
 Set the set not to be final.
void clear_initial ()
 Make the support of the initial application to be empty.
void clear_final ()
 Make the support of the final application to be empty.
Element< series_set_t,
series_set_elt_value_t
get_initial (const hstate_t &state) const
 Return the initial multiplicity of the state.
Element< series_set_t,
series_set_elt_value_t
get_final (const hstate_t &state) const
 Return the final multiplicity of the state.
hstate_t add_state ()
 Add a new state to the automaton.
hstate_t get_state (unsigned state) const
 Return a state descriptor for state number 'state'.
hstate_t choose_state () const
 Return a randomly chosen state.
htransition_t add_transition (const hstate_t &src, const hstate_t &dst, const label_t &label)
 Add a new transition between src and dst labelled by label.
htransition_t add_weighted_transition (const hstate_t &src, const hstate_t &dst, const semiring_elt_t &w, const monoid_elt_value_t &m)
 Add a new weighted transition, specifying a semiring element and a monoid element.
htransition_t add_series_transition (const hstate_t &src, const hstate_t &dst, const series_set_elt_t &e)
 Add a transition using a series.
htransition_t add_spontaneous (const hstate_t &src, const hstate_t &dst, const semiring_elt_t &w)
 Add a spontaneous transition between src and dst.
htransition_t add_letter_transition (const hstate_t &src, const hstate_t &dst, const letter_t &l)
 Add a transition between src and dst labelled by a letter.
htransition_t add_letter_transition (const hstate_t &src, const hstate_t &dst, const std::string &l)
 Add a transition between src and dst labelled by a letter from its literal representation.
void update (const htransition_t &e, const label_t &l)
 Update the label of a transition.
void del_state (const hstate_t &state)
 Delete the state s.
void del_transition (const htransition_t &e)
 Delete the transition e.
bool has_state (const hstate_t &state) const
 Check if the state s is in the automaton.
bool has_transition (const htransition_t &e) const
 Check if the transition e is in the automaton.
hstate_t src_of (const htransition_t &e) const
 Return the origin of the transition e.
hstate_t dst_of (const htransition_t &e) const
 Return the aim of the transition e.
automaton_traits< T >::label_t label_of (const htransition_t &e) const
 Return the label of the transition e.
series_set_elt_t series_of (const htransition_t &e) const
 Return the label seen as a series.
series_set_elt_value_t series_value_of (const htransition_t &e) const
 Return the label seen as a series implementation.
bool is_spontaneous (const htransition_t &e) const
 Return true if the transition is spontaneous.
monoid_elt_t word_of (const htransition_t &e) const
 Return the label seen as a word.
semiring_elt_t weight_of (const htransition_t &e) const
 Return the label seen as a weight.
monoid_elt_value_t word_value_of (const htransition_t &e) const
 Returns the label seen as word implementation.
letter_t letter_of (const htransition_t &e) const
 Return the label seen as a letter.

Protected Member Functions

 MetaElement (const MetaElement &other)
 Copy constructor.


Detailed Description

template<typename Self, typename T>
struct vcsn::MetaElement< AutomataBase< Self >, T >

Services of every element of the automata set.

MetaElement<AutomataBase<Self>, T> defines the interface of every automaton that is the result of the interaction of a structural element (AutomataBase<Self>) and an implementation T.

The implementation must be compatible with the automaton implementation concept. For this purpose, you can either use directly your implementation of automaton or use for example the class automaton_impl which is an adapter that enrich basic data structures to make them compatible with automaton implementation concept.

Definition at line 342 of file automata_base.hh.


Member Function Documentation

const MetaElement< AutomataBase< Self >, T >::series_set_t & series (  )  const [inline]

The set of series from which is build the automaton.

The optional information aggregated to the automaton.

Definition at line 113 of file automata_base.hxx.

MetaElement< AutomataBase< Self >, T >::tag_t & tag (  )  [inline]

The optional information aggregated to the automaton.

Definition at line 57 of file automata_base.hxx.

const MetaElement< AutomataBase< Self >, T >::tag_t & tag (  )  const [inline]

The optional information aggregated to the automaton.

Definition at line 65 of file automata_base.hxx.

MetaElement< AutomataBase< Self >, T >::geometry_t & geometry (  )  [inline]

The optional geometry information aggregated to the automaton.

Definition at line 73 of file automata_base.hxx.

const MetaElement< AutomataBase< Self >, T >::geometry_t & geometry (  )  const [inline]

The optional geometry information aggregated to the automaton.

Definition at line 81 of file automata_base.hxx.

bool exists (  )  const [inline]

Return true if the automaton is consistent.

Definition at line 89 of file automata_base.hxx.

References vcsn::op_exists().

automaton_traits< T >::states_t states (  )  const [inline]

FIXME: These next two methods should really be replaced with (single, i.e.

Accessor to the set of states.

not begin and end) iterators. (See Trac #191.) Accessor to the set of states. (treat as const)

(treat as const)

Definition at line 97 of file automata_base.hxx.

References vcsn::op_states().

automaton_traits< T >::transitions_t transitions (  )  const [inline]

Accessor to the set of transitions. (treat as const).

Accessor to the set of transitions.

(treat as const)

Definition at line 105 of file automata_base.hxx.

References vcsn::op_transitions().

automaton_traits< T >::initial_support_t initial (  )  const [inline]

Accessor to the initial application.

Definition at line 121 of file automata_base.hxx.

References vcsn::op_initial().

automaton_traits< T >::final_support_t final (  )  const [inline]

Accessor to the final application.

Definition at line 130 of file automata_base.hxx.

References vcsn::op_final().

void clear_initial (  )  [inline]

Make the support of the initial application to be empty.

Definition at line 295 of file automata_base.hxx.

References vcsn::op_clear_initial().

void clear_final (  )  [inline]

Make the support of the final application to be empty.

Definition at line 303 of file automata_base.hxx.

References vcsn::op_clear_final().

automaton_traits< T >::hstate_t add_state (  )  [inline]

Add a new state to the automaton.

Definition at line 341 of file automata_base.hxx.

References vcsn::op_add_state().

automaton_traits< T >::hstate_t get_state ( unsigned  state  )  const [inline]

Return a state descriptor for state number 'state'.

Definition at line 349 of file automata_base.hxx.

References vcsn::op_get_state().

automaton_traits< T >::hstate_t choose_state (  )  const [inline]

Return a randomly chosen state.

(valid only if the automaton is not empty)

(valid only if the automaton is not empty)

Definition at line 358 of file automata_base.hxx.

References vcsn::op_choose_state().

htransition_t add_weighted_transition ( const hstate_t src,
const hstate_t dst,
const semiring_elt_t w,
const monoid_elt_value_t m 
)

Add a new weighted transition, specifying a semiring element and a monoid element.

htransition_t add_series_transition ( const hstate_t src,
const hstate_t dst,
const series_set_elt_t e 
)

Add a transition using a series.

If the underlying implementation is not sufficiently general to support this operation, you will have several transitions created.

letter_t letter_of ( const htransition_t &  e  )  const

Return the label seen as a letter.

Be careful, when you have more general label this method is ! probably invalidated (in that case, an exception should be ! raised.)


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