void Decoder::viterbi_decode(const Instance * inst) {
int len = inst->size();
for (int i = 0; i < len; ++ i) {
for (int l = 0; l < L; ++ l) {
if (false == base.legal_emit(inst->chartypes[i], l)) {
continue;
}
if (i == 0) {
LatticeItem * item = new LatticeItem(i, l, inst->uni_scores[i][l], NULL);
lattice_insert(lattice[i][l], item);
} else {
for (int pl = 0; pl < L; ++ pl) {
if (false == base.legal_trans(pl, l)) {
continue;
}
double score = 0.;
const LatticeItem * prev = lattice[i-1][pl];
if (!prev) {
continue;
}
// std::cout << i << " " << pl << " " << l << std::endl;
score = inst->uni_scores[i][l] + inst->bi_scores[pl][l] + prev->score;
const LatticeItem * item = new LatticeItem(i, l, score, prev);
lattice_insert(lattice[i][l], item);
}
} // end for if i == 0
}
}
}
void Decoder1O::decode_projective(const Instance * inst) {
int len = inst->size();
// instance_verify(inst);
for (int width = 1; width < len; ++ width) {
for (int s = 0; s + width < len; ++ s) {
int t = s + width;
_lattice_cmp[s][t] = NULL;
_lattice_cmp[t][s] = NULL;
for (int l = 0; l < L; ++ l) {
_lattice_incmp[s][t][l] = NULL;
_lattice_incmp[t][s][l] = NULL;
}
for (int r = s; r < t; ++ r) {
const LatticeItem * const left = _lattice_cmp[s][r];
if (!left) {
continue;
}
const LatticeItem * const right = _lattice_cmp[t][r+1];
if (!right) {
continue;
}
for (int l = 0; l < L; ++ l) {
{ // I(s,t) = C(s,r) + C(t,r+1)
double prob = (left->_prob + right->_prob);
if (feat_opt.use_unlabeled_dependency) {
prob += inst->depu_scores[s][t];
}
if (feat_opt.use_labeled_dependency) {
prob += inst->depl_scores[s][t][l];
}
const LatticeItem * const item = new LatticeItem(INCMP,
s,
t,
prob,
left,
right,
l);
lattice_insert(_lattice_incmp[s][t][l], item);
}
if (s != 0) { // I(t,s)
double prob = (left->_prob + right->_prob);
if (feat_opt.use_unlabeled_dependency) {
prob += inst->depu_scores[t][s];
}
if (feat_opt.use_labeled_dependency) {
prob += inst->depl_scores[t][s][l];
}
const LatticeItem * const item = new LatticeItem(INCMP,
t,
s,
prob,
left,
right,
l);
// cerr << "INCMP " << t << "-" << s << "-" << l << endl;
lattice_insert(_lattice_incmp[t][s][l], item);
} // end for if (s != 0)
} // end for for (int l = 0; l < _L; ++ l)
} // end for for (int r = s; r < t; ++ r)
for (int r = s; r <= t; ++ r) {
if (r != s) { // C(s,t) = I(s,r) + C(r,t)
const LatticeItem * const right = _lattice_cmp[r][t];
if (!right) {
continue;
}
for (int l = 0; l < L; ++ l) {
const LatticeItem * const left = _lattice_incmp[s][r][l];
if (!left) {
continue;
}
const double prob = left->_prob + right->_prob;
const LatticeItem * const item = new LatticeItem(CMP,
s,
t,
prob,
left,
right);
// cerr << "CMP " << s << "-" << t << endl;
lattice_insert(_lattice_cmp[s][t], item);
}
} // end for if (r != s)
if (r != t && s != 0) { // C(t,s) = I(t,r) + C(r,s)
const LatticeItem * const left = _lattice_cmp[r][s];
if (!left) {
continue;
}
for (int l = 0; l < L; ++ l) {
const LatticeItem * const right = _lattice_incmp[t][r][l];
if (!right) {
continue;
}
const double prob = left->_prob + right->_prob;
const LatticeItem * const item = new LatticeItem(CMP,
t,
s,
prob,
left,
right);
// cerr << "CMP " << t << "-" << s << endl;
lattice_insert(_lattice_cmp[t][s], item);
} // end for for (int l = 0; l < L; ++ l)
} // end for if (r != t && s != 0)
}
}
}
}
void Decoder2OCarreras::decode_projective(const Instance * inst) {
int len = inst->size();
for (int width = 1; width < len; ++ width) {
for (int s = 0; s + width < len; ++ s) {
int t = s + width;
// I(s, t) = C(s, r) + C(t, r + 1)
for (int l = 0; l < L; ++ l) {
for (int r = s; r < t; ++ r) {
const LatticeItem * best_left_item = 0;
double best_left_score = DOUBLE_NEG_INF;
for (int cs = s; cs <= r; ++ cs) {
if (cs == s && s != r) {
continue;
}
const LatticeItem * item = _lattice_cmp[s][r][cs];
if (!item) {
continue;
}
double score = item->_prob;
if (feat_opt.use_unlabeled_sibling) {
score += inst->sibu_scores[s][t][cs];
}
if (feat_opt.use_labeled_sibling) {
score += inst->sibl_scores[s][t][cs][l];
}
if (score > best_left_score) {
best_left_item = item;
best_left_score = score;
}
}
const LatticeItem * best_right_item = 0;
double best_right_score = DOUBLE_NEG_INF;
for (int ct = r + 1; ct <= t; ++ ct) {
if (ct == t && r + 1 != t) {
continue;
}
const LatticeItem * item = _lattice_cmp[t][r + 1][ct];
if (!item) {
continue;
}
double score = item->_prob;
if (feat_opt.use_unlabeled_grand &&
(feat_opt.use_no_grand || ct != t)) {
score += inst->grdu_scores[s][t][ct == t ? s : ct];
}
if (feat_opt.use_labeled_grand &&
(feat_opt.use_no_grand || ct != t)) {
score += inst->grdl_scores[s][t][ct == t ? s : ct][l];
}
if (score > best_right_score) {
best_right_item = item;
best_right_score = score;
}
}
if (best_left_item && best_right_item) {
double score = best_left_score + best_right_score;
if (feat_opt.use_unlabeled_dependency) {
score += inst->depu_scores[s][t];
}
if (feat_opt.use_labeled_dependency) {
score += inst->depl_scores[s][t][l];
}
const LatticeItem * const item = new LatticeItem(INCMP,
s,
t,
score,
best_left_item,
best_right_item,
l);
lattice_insert(_lattice_incmp[s][t][l], item);
} // end for if !left || !right
}
} // end for for l = 0; l < L; ++ l
if (s != 0) {
// I(t, s) = C(s, r) + C(t, r + 1)
for (int l = 0; l < L; ++ l) {
for (int r = s; r < t; ++ r) {
const LatticeItem * best_left_item = 0;
double best_left_score = DOUBLE_NEG_INF;
for (int cs = s; cs <= r; ++ cs) {
if (cs == s && s != r) {
continue;
}
const LatticeItem * item = _lattice_cmp[s][r][cs];
if (!item) {
continue;
}
double score = item->_prob;
if (feat_opt.use_unlabeled_grand &&
(feat_opt.use_no_grand || cs != s)) {
score += inst->grdu_scores[t][s][cs];
}
if (feat_opt.use_labeled_grand &&
(feat_opt.use_no_grand || cs != s)) {
score += inst->grdl_scores[t][s][cs][l];
}
if (score > best_left_score) {
best_left_item = item;
best_left_score = score;
}
}
const LatticeItem * best_right_item = 0;
double best_right_score = DOUBLE_NEG_INF;
for (int ct = r + 1; ct <= t; ++ ct) {
if (ct == t && r + 1 != t) {
continue;
}
const LatticeItem * item = _lattice_cmp[t][r + 1][ct];
if (!item) {
continue;
}
double score = item->_prob;
if (feat_opt.use_unlabeled_sibling) {
score += inst->sibu_scores[t][s][ct];
}
if (feat_opt.use_labeled_sibling) {
score += inst->sibl_scores[t][s][ct][l];
}
if (score > best_right_score) {
best_right_item = item;
best_right_score = score;
}
}
if (best_left_item && best_right_item) {
double score = best_left_score + best_right_score;
if (feat_opt.use_unlabeled_dependency) {
score += inst->depu_scores[t][s];
}
if (feat_opt.use_labeled_dependency) {
score += inst->depl_scores[t][s][l];
}
const LatticeItem * const item = new LatticeItem(INCMP,
t,
s,
score,
best_left_item,
best_right_item,
l);
lattice_insert(_lattice_incmp[t][s][l], item);
}
}
}
} // end for if s != 0
for (int m = s; m <= t; ++ m) {
if (m != s) { // C(s, t, m) = I(s, m, l) + C(m, t, cm);
for (int l = 0; l < L; ++ l) {
const LatticeItem * const left = _lattice_incmp[s][m][l];
if (!left) {
continue;
}
for (int cm = m; cm <= t; ++ cm) {
if (cm == m && cm != t) {
continue;
}
const LatticeItem * const right = _lattice_cmp[m][t][cm];
if (!right) {
continue;
}
double score = left->_prob + right->_prob;
if (feat_opt.use_unlabeled_grand &&
(feat_opt.use_no_grand || cm != m)) {
score += inst->grdu_scores[s][m][cm];
}
if (feat_opt.use_labeled_grand &&
(feat_opt.use_no_grand || cm != m)) {
score += inst->grdl_scores[s][m][cm][l];
}
const LatticeItem * const item = new LatticeItem(CMP,
s,
t,
score,
left,
right);
lattice_insert(_lattice_cmp[s][t][m], item);
} // end for (int cm = m; cm <= t; ++ cm)
} // enf for (int l = 0; l < L; ++ l)
} // end for if (m != s)
if (m != t && s != 0) { // C(t, s, m) = C(m, s, cm) + I(t, m, l)
for (int l = 0; l < L; ++ l) {
const LatticeItem * const right = _lattice_incmp[t][m][l];
if (!right) {
continue;
}
for (int cm = s; cm <= m; ++ cm) {
if (cm == m && cm != s) {
continue;
}
const LatticeItem * const left = _lattice_cmp[m][s][cm];
if (!left) {
continue;
}
double score = left->_prob + right->_prob;
if (feat_opt.use_unlabeled_grand &&
(feat_opt.use_no_grand || cm != m)) {
score += inst->grdu_scores[t][m][cm == m ? t : cm];
}
if (feat_opt.use_labeled_grand &&
(feat_opt.use_no_grand || cm != m)) {
score += inst->grdl_scores[t][m][cm == m ? t : cm][l];
}
const LatticeItem * const item = new LatticeItem(CMP,
t,
s,
score,
left,
right);
lattice_insert(_lattice_cmp[t][s][m], item);
} // end for (int cm = s; cm <= m; ++ cm)
}
}
}
}
}
}
void Decoder2O::decode_projective(const Instance * inst) {
int len = inst->size();
for (int width = 1; width < len; ++ width) {
for (int s = 0; s + width < len; ++ s) {
int t = s + width;
for (int l = 0; l < L; ++ l) {
double shared_score = 0.;
if (feat_opt.use_unlabeled_dependency) {
shared_score += inst->depu_scores[s][t];
}
if (feat_opt.use_labeled_dependency) {
shared_score += inst->depl_scores[s][t][l];
}
{ // I(s,t) = C(s,s) + C(t,s+1)
const LatticeItem * const left = _lattice_cmp[s][s];
const LatticeItem * const right = _lattice_cmp[t][s + 1];
if (!left || !right) {
continue;
}
double score = left->_prob + right->_prob + shared_score;
if (feat_opt.use_unlabeled_sibling) {
score += inst->sibu_scores[s][t][s];
}
if (feat_opt.use_labeled_sibling) {
score += inst->sibl_scores[s][t][s][l];
}
const LatticeItem * const item = new LatticeItem(INCMP,
s,
t,
score,
left,
right,
l);
lattice_insert(_lattice_incmp[s][t], item);
} // end for I(s,t) = C(s,s) + C(t,s+1)
{ // I(s,t) = I(s,r) + S(r,t)
for (int r = s + 1; r < t; ++ r) {
const LatticeItem * const left = _lattice_incmp[s][r];
const LatticeItem * const right = _lattice_sib[r][t];
if (!left || !right) {
continue;
}
double score = left->_prob + right->_prob + shared_score;
if (feat_opt.use_unlabeled_sibling) {
score += inst->sibu_scores[s][t][r];
}
if (feat_opt.use_labeled_sibling) {
score += inst->sibl_scores[s][t][r][l];
}
const LatticeItem * const item = new LatticeItem(INCMP,
s,
t,
score,
left,
right,
l);
lattice_insert(_lattice_incmp[s][t], item);
}
} // end for I(s,t) = I(s,r) + S(r,t)
} // end for for (l = 0; l < L; ++ l)
if (s != 0) { // I(t,s) = C(s, t-1) + C(t, t)
for (int l = 0; l < L; ++ l) {
double shared_score = 0.;
if (feat_opt.use_unlabeled_dependency) {
shared_score += inst->depu_scores[t][s];
}
if (feat_opt.use_labeled_dependency) {
shared_score += inst->depl_scores[t][s][l];
}
{ // I(t,s) = C(s,t-1) + C(t,t)
const LatticeItem * const left = _lattice_cmp[s][t-1];
const LatticeItem * const right = _lattice_cmp[t][t];
if (!left || !right) {
continue;
}
double score = left->_prob + right->_prob + shared_score;
if (feat_opt.use_unlabeled_sibling) {
score += inst->sibu_scores[t][s][t];
}
if (feat_opt.use_labeled_sibling) {
score += inst->sibl_scores[t][s][t][l];
}
const LatticeItem * const item = new LatticeItem(INCMP,
t,
s,
score,
left,
right,
l);
lattice_insert(_lattice_incmp[t][s], item);
} // end for I(t, s) = C(s,t-1) + C(t,t)
{ // I(t,s) = S(s,r) + I(t,r)
for (int r = s + 1; r < t; ++ r) {
const LatticeItem * const left = _lattice_sib[s][r];
const LatticeItem * const right = _lattice_incmp[t][r];
if (!left || !right) {
continue;
}
double score = left->_prob + right->_prob + shared_score;
if (feat_opt.use_unlabeled_sibling) {
score += inst->sibu_scores[t][s][r];
}
if (feat_opt.use_labeled_sibling) {
score += inst->sibl_scores[t][s][r][l];
}
const LatticeItem * const item = new LatticeItem(INCMP,
t,
s,
score,
left,
right,
l);
lattice_insert(_lattice_incmp[t][s], item);
}
} // end for I(t,s) = S(s,r) + I(t,r)
}
} // end for if (s != 0)
{ // S(s,t) = C(s,r) + C(t,r+1)
for (int r = s; r < t; ++ r) {
const LatticeItem * const left = _lattice_cmp[s][r];
const LatticeItem * const right = _lattice_cmp[t][r+1];
if (!left || !right) {
continue;
}
double score = left->_prob + right->_prob;
const LatticeItem * const item = new LatticeItem(SIBSP,
s,
t,
score,
left,
right);
lattice_insert(_lattice_sib[s][t], item);
}
} // end for S(s,t) = C(s,t) + C(t,r+1)
{ // C(s,t) = I(s,r) + C(r,t)
for (int r = s + 1; r <= t; ++ r) {
const LatticeItem * const left = _lattice_incmp[s][r];
const LatticeItem * const right = _lattice_cmp[r][t];
if (!left || !right) {
continue;
}
double score = left->_prob + right->_prob;
if (feat_opt.use_last_sibling) {
if (feat_opt.use_unlabeled_sibling) {
score += inst->sibu_scores[s][r][r];
}
if (feat_opt.use_labeled_sibling) {
int l = left->_label_s_t;
score += inst->sibl_scores[s][r][r][l];
}
}
const LatticeItem * const item = new LatticeItem(CMP,
s,
t,
score,
left,
right);
lattice_insert(_lattice_cmp[s][t], item);
}
}
if (s != 0) {
for (int r = s; r < t; ++ r) {
const LatticeItem * const left = _lattice_cmp[r][s];
const LatticeItem * const right = _lattice_incmp[t][r];
if (!left || !right) {
continue;
}
double score = left->_prob + right->_prob;
if (feat_opt.use_last_sibling) {
if (feat_opt.use_unlabeled_sibling) {
score += inst->sibu_scores[t][r][r];
}
if (feat_opt.use_labeled_sibling) {
int l = right->_label_s_t;
score += inst->sibl_scores[t][r][r][l];
}
}
const LatticeItem * const item = new LatticeItem(CMP,
t,
s,
score,
left,
right);
lattice_insert(_lattice_cmp[t][s], item);
}
}
}
}
}
