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/* */
/* Centre for Speech Technology Research */
/* University of Edinburgh, UK */
/* Copyright (c) 1995,1996 */
/* All Rights Reserved. */
/* */
/* Permission is hereby granted, free of charge, to use and distribute */
/* this software and its documentation without restriction, including */
/* without limitation the rights to use, copy, modify, merge, publish, */
/* distribute, sublicense, and/or sell copies of this work, and to */
/* permit persons to whom this work is furnished to do so, subject to */
/* the following conditions: */
/* 1. The code must retain the above copyright notice, this list of */
/* conditions and the following disclaimer. */
/* 2. Any modifications must be clearly marked as such. */
/* 3. Original authors' names are not deleted. */
/* 4. The authors' names are not used to endorse or promote products */
/* derived from this software without specific prior written */
/* permission. */
/* */
/* THE UNIVERSITY OF EDINBURGH AND THE CONTRIBUTORS TO THIS WORK */
/* DISCLAIM ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING */
/* ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT */
/* SHALL THE UNIVERSITY OF EDINBURGH NOR THE CONTRIBUTORS BE LIABLE */
/* FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES */
/* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN */
/* AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, */
/* ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF */
/* THIS SOFTWARE. */
/* */
/*************************************************************************/
/* Author : Simon King */
/* Date : November 1996 */
/*-----------------------------------------------------------------------*/
/* Lattice/Finite State Network */
/* */
/*=======================================================================*/
#ifndef __EST_LATTICE_H__
#define __EST_LATTICE_H__
#include "EST_types.h"
#include "EST_Track.h"
class Lattice {
public:
/*
struct quantised_label_table_entry_t{
int index;
float value;
};
*/
/*
struct name_map_entry_t{
int index;
String name;
};
*/
struct symbol_t{
int qmap_index;
int nmap_index;
symbol_t operator += (const symbol_t s2);
bool operator != (const symbol_t &s2) const;
};
struct Node;
struct Arc;
struct Arc{
int label;
Node *to;
};
struct Node{
EST_IList name; // list of ints, referring to the table of names
EST_TList<Arc*> arcs_out;
};
private:
protected:
// not necessarily defined or used ...
//friend inline ostream& operator<<(ostream &s, Lattice::quantised_label_table_entry_t &q);
//friend inline ostream& operator<<(ostream& s, Lattice::name_map_entry_t &n);
friend inline ostream& operator<<(ostream& s, const Lattice::symbol_t &sy);
friend inline ostream& operator<<(ostream& s, const Lattice::Node &n);
friend inline ostream& operator<<(ostream& s, const Lattice::Arc &n);
// maps, for speed
float qmap_error_margin; // only used in construction, so remove .. to do
// quantised log probabilities
EST_FVector qmap;
// 'words'
EST_TVector<EST_String> nmap;
// not used
EST_String name_as_string(EST_IList &l); // given a list of nmap indices
// the finite state machines alphabet
EST_TVector<symbol_t> alphabet;
int e_move_symbol_index;
//int enter_move_symbol_index;
//symbol_t* alphabet_lookup(int nmap_index, int qmap_index);
//symbol_t* alphabet_lookup_from_end(int nmap_index, int qmap_index);
int alphabet_index_lookup(int nmap_index, int qmap_index); // return index
//int alphabet_index_lookup_from_end(int nmap_index, int qmap_index); // return index
// the nodes
EST_TList<Node*> nodes;
//Node* start_node; // a subset of nodes
EST_TList<Node*> final_nodes; // a subset of nodes
bool final(Node *n);
// an alternative representation is a transition function
// useful (fast) for dense networks, but inefficient for sparse ones
int **tf; // indexed [node index][symbol index], contains destination node
bool build_transition_function();
bool build_distinguished_state_table(bool ** &dst);
bool build_distinguished_state_table_direct(bool ** &dst);
bool build_distinguished_state_table_from_transition_function(bool ** &dst);
void sort_arc_lists();
bool link(Node *n1, Node *n2, int label); //, EST_TList<Arc*> *l = NULL);
void merge_nodes(EST_TList<Node*> &l);
void merge_arcs();
void prune_arc(Node *node, Arc *arc);
void prune_arcs(Node *node, EST_TList<Arc*> arcs);
void remove_arc_from_nodes_out_list(Node *n, Arc *a);
int node_index(Node *n); // only for output in HTK format
// SIMONK FIX THIS
// bool build_qmap(Bigram &g, float error_margin=0);
// bool build_nmap(Bigram &g);
public:
Lattice();
~Lattice();
// SIMONK FIX THIS
// bool construct_alphabet(Bigram &g);
// bool construct(Bigram &g);
bool determinise();
bool prune();
bool minimise();
bool expand();
Node *start_node();
// traversing functions
bool accepts(EST_TList<symbol_t*> &string);
float viterbi_transduce(EST_TList<EST_String> &input,
EST_TList<Arc*> &path,
EST_Litem *current_symbol = NULL,
Node *start_node = NULL);
// observations are indexed same as wordlist, excluding !ENTER and !EXIT
float viterbi_transduce(EST_Track &observations,
EST_TList<Arc*> &path,
float &score,
int current_frame = 0,
Node *start_node = NULL);
// map lookup functions
float qmap_index_to_value(int index);
int qmap_value_to_index(float value);
EST_String nmap_index_to_name(int index);
int nmap_name_to_index(const EST_String &name);
symbol_t* alphabet_index_to_symbol(int index);
int alphabet_symbol_to_index(symbol_t *sym);
friend bool save(Lattice &lattice, EST_String filename);
friend bool load(Lattice &lattice, EST_String filename);
friend class Lattice_Language_Model;
};
/*
inline int
operator > (const Lattice::name_map_entry_t &n1,
const Lattice::name_map_entry_t &n2)
{
return (n1.name > n2.name);
};
inline int
operator < (const Lattice::name_map_entry_t &n1,
const Lattice::name_map_entry_t &n2)
{
return (n1.name < n2.name);
};
*/
inline int
operator > (const Lattice::symbol_t s1,
const Lattice::symbol_t s2)
{
if(s1.qmap_index > s2.qmap_index)
return true;
if(s1.qmap_index < s2.qmap_index)
return false;
return (s1.nmap_index > s2.nmap_index);
}
inline int
operator < (const Lattice::symbol_t s1,
const Lattice::symbol_t s2)
{
if(s1.qmap_index < s2.qmap_index)
return true;
if(s1.qmap_index > s2.qmap_index)
return false;
return (s1.nmap_index < s2.nmap_index);
}
inline Lattice::symbol_t
operator + (const Lattice::symbol_t s1,
const Lattice::symbol_t s2)
{
(void) s1;
(void) s2;
cerr << "operator + makes no sense for Lattice::symbol_t !" << endl;
return Lattice::symbol_t();
}
// used for sorting arcs lists
inline int operator > (Lattice::Arc a1, Lattice::Arc a2)
{
return (a1.label > a2.label);
}
inline int operator < (Lattice::Arc a1, Lattice::Arc a2)
{
return (a1.label < a2.label);
}
inline int operator >= (Lattice::Arc a1, Lattice::Arc a2)
{
return (a1.label >= a2.label);
}
inline int operator <= (Lattice::Arc a1, Lattice::Arc a2)
{
return (a1.label <= a2.label);
}
inline int operator == (Lattice::Arc a1, Lattice::Arc a2)
{
return (a1.label == a2.label);
}
inline int operator == (Lattice::symbol_t s1, Lattice::symbol_t s2)
{
return ((s1.nmap_index == s2.nmap_index) &&
(s1.qmap_index == s2.qmap_index) );
}
/*
inline ostream& operator<<(ostream &s, Lattice::quantised_label_table_entry_t &q){
s << q.value;
return s;
}
*/
/*
inline ostream& operator<<(ostream& s, Lattice::name_map_entry_t &n)
{
s << n.index << "=" << n.name;
return s;
}
*/
inline ostream& operator<<(ostream& s, const Lattice::symbol_t &sm)
{
s << "[q=" << sm.qmap_index << ",n=" << sm.nmap_index << "]";
return s;
}
inline ostream& operator<<(ostream& s, const Lattice::Node &n)
{
s << "Node:" << n.name;
return s;
}
inline ostream& operator<<(ostream &s, const Lattice::Arc &a)
{
s << a.label;
return s;
}
void sort_by_label(EST_TList<Lattice::Arc*> &l);
#endif
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