void
fsg_model_write(fsg_model_t * fsg, FILE * fp)
{
int32 i;
fprintf(fp, "%s %s\n", FSG_MODEL_BEGIN_DECL,
fsg->name ? fsg->name : "");
fprintf(fp, "%s %d\n", FSG_MODEL_NUM_STATES_DECL, fsg->n_state);
fprintf(fp, "%s %d\n", FSG_MODEL_START_STATE_DECL, fsg->start_state);
fprintf(fp, "%s %d\n", FSG_MODEL_FINAL_STATE_DECL, fsg->final_state);
for (i = 0; i < fsg->n_state; i++) {
fsg_arciter_t *itor;
for (itor = fsg_model_arcs(fsg, i); itor;
itor = fsg_arciter_next(itor)) {
fsg_link_t *tl = fsg_arciter_get(itor);
fprintf(fp, "%s %d %d %f %s\n", FSG_MODEL_TRANSITION_DECL,
tl->from_state, tl->to_state,
logmath_exp(fsg->lmath,
(int32) (tl->logs2prob / fsg->lw)),
(tl->wid < 0) ? "" : fsg_model_word_str(fsg, tl->wid));
}
}
fprintf(fp, "%s\n", FSG_MODEL_END_DECL);
fflush(fp);
}
static void
fsg_model_write_fsm_trans(fsg_model_t * fsg, int i, FILE * fp)
{
fsg_arciter_t *itor;
for (itor = fsg_model_arcs(fsg, i); itor;
itor = fsg_arciter_next(itor)) {
fsg_link_t *tl = fsg_arciter_get(itor);
fprintf(fp, "%d %d %s %f\n",
tl->from_state, tl->to_state,
(tl->wid < 0) ? "<eps>" : fsg_model_word_str(fsg, tl->wid),
-logmath_log_to_ln(fsg->lmath, tl->logs2prob / fsg->lw));
}
}
/**
* Compute the left and right context CIphone sets for each state.
*/
static void
fsg_lextree_lc_rc(fsg_lextree_t *lextree)
{
int32 s, i, j;
int32 n_ci;
fsg_model_t *fsg;
int32 silcipid;
int32 len;
silcipid = bin_mdef_silphone(lextree->mdef);
assert(silcipid >= 0);
n_ci = bin_mdef_n_ciphone(lextree->mdef);
fsg = lextree->fsg;
/*
* lextree->lc[s] = set of left context CIphones for state s. Similarly, rc[s]
* for right context CIphones.
*/
lextree->lc = ckd_calloc_2d(fsg->n_state, n_ci + 1, sizeof(**lextree->lc));
lextree->rc = ckd_calloc_2d(fsg->n_state, n_ci + 1, sizeof(**lextree->rc));
E_INFO("Allocated %d bytes (%d KiB) for left and right context phones\n",
fsg->n_state * (n_ci + 1) * 2,
fsg->n_state * (n_ci + 1) * 2 / 1024);
for (s = 0; s < fsg->n_state; s++) {
fsg_arciter_t *itor;
for (itor = fsg_model_arcs(fsg, s); itor; itor = fsg_arciter_next(itor)) {
fsg_link_t *l = fsg_arciter_get(itor);
int32 dictwid; /**< Dictionary (not FSG) word ID!! */
if (fsg_link_wid(l) >= 0) {
dictwid = dict_wordid(lextree->dict,
fsg_model_word_str(lextree->fsg, l->wid));
/*
* Add the first CIphone of l->wid to the rclist of state s, and
* the last CIphone to lclist of state d.
* (Filler phones are a pain to deal with. There is no direct
* marking of a filler phone; but only filler words are supposed to
* use such phones, so we use that fact. HACK!! FRAGILE!!)
*/
if (fsg_model_is_filler(fsg, fsg_link_wid(l))) {
/* Filler phone; use silence phone as context */
lextree->rc[fsg_link_from_state(l)][silcipid] = 1;
lextree->lc[fsg_link_to_state(l)][silcipid] = 1;
}
else {
len = dict_pronlen(lextree->dict, dictwid);
lextree->rc[fsg_link_from_state(l)][dict_pron(lextree->dict, dictwid, 0)] = 1;
lextree->lc[fsg_link_to_state(l)][dict_pron(lextree->dict, dictwid, len - 1)] = 1;
}
}
}
}
for (s = 0; s < fsg->n_state; s++) {
/*
* Add SIL phone to the lclist and rclist of each state. Strictly
* speaking, only needed at start and final states, respectively, but
* all states considered since the user may change the start and final
* states. In any case, most applications would have a silence self
* loop at each state, hence these would be needed anyway.
*/
lextree->lc[s][silcipid] = 1;
lextree->rc[s][silcipid] = 1;
}
/*
* Propagate lc and rc lists past null transitions. (Since FSG contains
* null transitions closure, no need to worry about a chain of successive
* null transitions. Right??)
*
* This can't be joined with the previous loop because we first calculate
* contexts and only then we can propagate them.
*/
for (s = 0; s < fsg->n_state; s++) {
fsg_arciter_t *itor;
for (itor = fsg_model_arcs(fsg, s); itor; itor = fsg_arciter_next(itor)) {
fsg_link_t *l = fsg_arciter_get(itor);
if (fsg_link_wid(l) < 0) {
/*
* lclist(d) |= lclist(s), because all the words ending up at s, can
* now also end at d, becoming the left context for words leaving d.
*/
for (i = 0; i < n_ci; i++)
lextree->lc[fsg_link_to_state(l)][i] |= lextree->lc[fsg_link_from_state(l)][i];
/*
* Similarly, rclist(s) |= rclist(d), because all the words leaving d
* can equivalently leave s, becoming the right context for words
* ending up at s.
*/
for (i = 0; i < n_ci; i++)
lextree->rc[fsg_link_from_state(l)][i] |= lextree->rc[fsg_link_to_state(l)][i];
}
}
}
/* Convert the bit-vector representation into a list */
for (s = 0; s < fsg->n_state; s++) {
j = 0;
for (i = 0; i < n_ci; i++) {
if (lextree->lc[s][i]) {
lextree->lc[s][j] = i;
j++;
}
}
lextree->lc[s][j] = -1; /* Terminate the list */
j = 0;
for (i = 0; i < n_ci; i++) {
if (lextree->rc[s][i]) {
lextree->rc[s][j] = i;
j++;
}
}
lextree->rc[s][j] = -1; /* Terminate the list */
}
}
