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00017 #ifndef VCSN_ALGORITHMS_EXTENSION_HXX
00018 # define VCSN_ALGORITHMS_EXTENSION_HXX
00019
00020 # include <vaucanson/algorithms/extension.hh>
00021 # include <vaucanson/misc/usual_macros.hh>
00022
00023 namespace vcsn {
00024
00025 template <typename S, typename T, typename Auto_t>
00026 typename identity_transducer_helper<S, T>::ret
00027 do_extension(const AutomataBase<S>& s,
00028 const Auto_t& a)
00029 {
00030 AUTOMATON_TYPES(Auto_t);
00031
00032 typedef typename identity_transducer_helper<S, T>::ret ret_t;
00033
00034 AUTOMATON_TYPES_(ret_t, t_);
00035 typedef typename ret_t::set_t set_t;
00036 typedef typename set_t::series_set_t o_series_set_t;
00037 typedef typename ret_t::series_set_elt_t output_series_set_elt_t;
00038 typedef typename series_set_elt_t::support_t support_t;
00039
00040 set_t
00041 ts(o_series_set_t (a.structure().series(),
00042 a.structure().series().monoid()));
00043 ret_t t_ret(ts);
00044
00045 monoid_elt_t neutre = a.series().monoid().VCSN_EMPTY_;
00046 monoid_elt_t t_neutre = t_ret.series().monoid().
00047 identity(SELECT(typename t_monoid_elt_t::value_t));
00048
00049 std::vector<hstate_t> conv(a.states().size());
00050
00051 for_all_const_states (s, a)
00052 conv[t_ret.add_state()] = *s;
00053
00054 for_all_const_transitions (e, a)
00055 {
00056 series_set_elt_t t = a.series_of(*e);
00057 series_set_elt_t s(t);
00058 output_series_set_elt_t os(t_ret.structure().series());
00059 support_t supp = s.supp();
00060 for_all_const_(support_t, m, supp)
00061 {
00062 series_set_elt_t tmp(a.structure().series());
00063
00064
00065 tmp.assoc(neutre, s.get(*m));
00066 os.assoc(*m, tmp);
00067 }
00068 htransition_t f = t_ret.add_series_transition(conv[a.src_of(*e)],
00069 conv[a.dst_of(*e)],
00070 os);
00071 }
00072
00073 initial_iterator i;
00074 for (initial_iterator next = a.initial().begin();
00075 next != a.initial().end();)
00076 {
00077
00078
00079
00080
00081 i = next;
00082 next++;
00083
00084 series_set_elt_t a_series = a.get_initial(*i);
00085 t_series_set_elt_t s;
00086 s.set(t_neutre, a_series);
00087 t_ret.set_initial(conv[*i], s);
00088 }
00089
00090 final_iterator f;
00091 for (final_iterator next = a.final().begin();
00092 next != a.final().end();)
00093 {
00094
00095
00096
00097
00098 f = next;
00099 next++;
00100 series_set_elt_t a_series = a.get_final(*f);
00101 t_series_set_elt_t s;
00102 s.value_set(t_neutre, a_series);
00103 t_ret.set_final(conv[*f], s);
00104 }
00105
00106 return t_ret;
00107 }
00108
00109 template<typename S, typename T>
00110 typename identity_transducer_helper<S, T>::ret
00111 extension(const Element<S, T>& a)
00112 {
00113 TIMER_SCOPED("extension/1");
00114 return do_extension(a.structure(), a);
00115 }
00116
00117
00118
00119
00120
00121
00122
00123 template<typename SA, typename ST, typename Auto_t, typename Trans_t>
00124 Trans_t do_extension(const AutomataBase<SA>&,
00125 const TransducerBase<ST>&,
00126 const Auto_t& a,
00127 const Trans_t& t)
00128 {
00129 AUTOMATON_TYPES_(Trans_t, t_);
00130 AUTOMATON_TYPES_(Auto_t, a_);
00131 typedef typename Auto_t::hstate_t hstate_t;
00132 typedef typename Trans_t::series_set_elt_t t_output_series_set_elt_t;
00133 typedef typename Auto_t::series_set_elt_t::support_t a_support_t;
00134 typedef typename Trans_t::semiring_elt_t t_weight_t;
00135
00136 Trans_t tt(t.structure());
00137 std::map<hstate_t, hstate_t> conv;
00138
00139 a_monoid_elt_t a_neutre =
00140 a.series().monoid().identity(SELECT(typename a_monoid_elt_t::value_t));
00141 t_monoid_elt_t t_neutre =
00142 t.series().monoid().identity(SELECT(typename t_monoid_elt_t::value_t));
00143
00144 for(a_state_iterator p = a.states().begin(); p != a.states().end(); ++p)
00145 conv[*p] = tt.add_state();
00146
00147
00148 for(a_transition_iterator e = a.transitions().begin();
00149 e != a.transitions().end(); ++e)
00150 {
00151 a_series_set_elt_t s_ = a.series_of(*e);
00152 a_series_set_elt_t s(s_);
00153
00154 t_output_series_set_elt_t os(t.structure().series());
00155
00156 a_support_t supp = s.supp();
00157 for(typename a_support_t::const_iterator m = supp.begin();
00158 m != supp.end(); ++m)
00159 {
00160 t_weight_t tmp(t.structure().series().semiring());
00161 tmp.assoc(a_neutre, s.get(*m));
00162 os.assoc(a_monoid_elt_t (a.structure().series().monoid(), *m), tmp);
00163 }
00164
00165 tt.add_series_transition(conv[a.src_of(*e)], conv[a.dst_of(*e)], os);
00166 }
00167
00168 a_initial_iterator i;
00169 for (a_initial_iterator next = a.initial().begin();
00170 next != a.initial().end();)
00171 {
00172
00173
00174
00175
00176 i = next;
00177 next++;
00178 a_series_set_elt_t a_series = a.get_initial(*i);
00179 t_series_set_elt_t s (t.structure().series());
00180 s.assoc(t_neutre, a_series);
00181 tt.set_initial(conv[*i], s);
00182 }
00183
00184 a_final_iterator f;
00185 for (a_final_iterator next = a.final().begin();
00186 next != a.final().end();)
00187 {
00188
00189
00190
00191
00192 f = next;
00193 next++;
00194 a_series_set_elt_t a_series = a.get_final(*f);
00195 t_series_set_elt_t s (t.structure().series());
00196 s.assoc(t_neutre, a_series);
00197 tt.set_final(conv[*f], s);
00198 }
00199
00200 return tt;
00201 }
00202
00203 template<typename SA, typename TA, typename ST, typename TT>
00204 Element<ST, TT>
00205 extension(const Element<SA, TA>& a, const Element<ST, TT>& t)
00206 {
00207 TIMER_SCOPED("extension/2");
00208 return do_extension(a.structure(), t.structure(), a, t);
00209 }
00210
00211 }
00212
00213 #endif // ! VCSN_ALGORITHMS_EXTENSION_HXX