From 5f8de423f190bbb79a62f804151bc24824fa32d8 Mon Sep 17 00:00:00 2001 From: "Matt A. Tobin" Date: Fri, 2 Feb 2018 04:16:08 -0500 Subject: Add m-esr52 at 52.6.0 --- media/pocketsphinx/src/ps_lattice.c | 1940 +++++++++++++++++++++++++++++++++++ 1 file changed, 1940 insertions(+) create mode 100644 media/pocketsphinx/src/ps_lattice.c (limited to 'media/pocketsphinx/src/ps_lattice.c') diff --git a/media/pocketsphinx/src/ps_lattice.c b/media/pocketsphinx/src/ps_lattice.c new file mode 100644 index 000000000..6f44a282b --- /dev/null +++ b/media/pocketsphinx/src/ps_lattice.c @@ -0,0 +1,1940 @@ +/* -*- c-basic-offset: 4; indent-tabs-mode: nil -*- */ +/* ==================================================================== + * Copyright (c) 2008 Carnegie Mellon University. All rights + * reserved. + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions + * are met: + * + * 1. Redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + * + * 2. Redistributions in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in + * the documentation and/or other materials provided with the + * distribution. + * + * This work was supported in part by funding from the Defense Advanced + * Research Projects Agency and the National Science Foundation of the + * United States of America, and the CMU Sphinx Speech Consortium. + * + * THIS SOFTWARE IS PROVIDED BY CARNEGIE MELLON UNIVERSITY ``AS IS'' AND + * ANY EXPRESSED OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, + * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR + * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL CARNEGIE MELLON UNIVERSITY + * NOR ITS EMPLOYEES BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, + * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT + * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, + * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY + * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE + * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + * + * ==================================================================== + * + */ + +/** + * @file ps_lattice.c Word graph search. + */ + +/* System headers. */ +#include +#include +#include + +/* SphinxBase headers. */ +#include +#include +#include +#include +#include + +/* Local headers. */ +#include "pocketsphinx_internal.h" +#include "ps_lattice_internal.h" +#include "ngram_search.h" +#include "dict.h" + +/* + * Create a directed link between "from" and "to" nodes, but if a link already exists, + * choose one with the best ascr. + */ +void +ps_lattice_link(ps_lattice_t *dag, ps_latnode_t *from, ps_latnode_t *to, + int32 score, int32 ef) +{ + latlink_list_t *fwdlink; + + /* Look for an existing link between "from" and "to" nodes */ + for (fwdlink = from->exits; fwdlink; fwdlink = fwdlink->next) + if (fwdlink->link->to == to) + break; + + if (fwdlink == NULL) { + latlink_list_t *revlink; + ps_latlink_t *link; + + /* No link between the two nodes; create a new one */ + link = listelem_malloc(dag->latlink_alloc); + fwdlink = listelem_malloc(dag->latlink_list_alloc); + revlink = listelem_malloc(dag->latlink_list_alloc); + + link->from = from; + link->to = to; + link->ascr = score; + link->ef = ef; + link->best_prev = NULL; + + fwdlink->link = revlink->link = link; + fwdlink->next = from->exits; + from->exits = fwdlink; + revlink->next = to->entries; + to->entries = revlink; + } + else { + /* Link already exists; just retain the best ascr */ + if (score BETTER_THAN fwdlink->link->ascr) { + fwdlink->link->ascr = score; + fwdlink->link->ef = ef; + } + } +} + +void +ps_lattice_penalize_fillers(ps_lattice_t *dag, int32 silpen, int32 fillpen) +{ + ps_latnode_t *node; + + for (node = dag->nodes; node; node = node->next) { + latlink_list_t *linklist; + if (node != dag->start && node != dag->end && dict_filler_word(dag->dict, node->basewid)) { + for (linklist = node->entries; linklist; linklist = linklist->next) + linklist->link->ascr += (node->basewid == dag->silence) ? silpen : fillpen; + } + } +} + +static void +delete_node(ps_lattice_t *dag, ps_latnode_t *node) +{ + latlink_list_t *x, *next_x; + + for (x = node->exits; x; x = next_x) { + next_x = x->next; + x->link->from = NULL; + listelem_free(dag->latlink_list_alloc, x); + } + for (x = node->entries; x; x = next_x) { + next_x = x->next; + x->link->to = NULL; + listelem_free(dag->latlink_list_alloc, x); + } + listelem_free(dag->latnode_alloc, node); +} + + +static void +remove_dangling_links(ps_lattice_t *dag, ps_latnode_t *node) +{ + latlink_list_t *x, *prev_x, *next_x; + + prev_x = NULL; + for (x = node->exits; x; x = next_x) { + next_x = x->next; + if (x->link->to == NULL) { + if (prev_x) + prev_x->next = next_x; + else + node->exits = next_x; + listelem_free(dag->latlink_alloc, x->link); + listelem_free(dag->latlink_list_alloc, x); + } + else + prev_x = x; + } + prev_x = NULL; + for (x = node->entries; x; x = next_x) { + next_x = x->next; + if (x->link->from == NULL) { + if (prev_x) + prev_x->next = next_x; + else + node->entries = next_x; + listelem_free(dag->latlink_alloc, x->link); + listelem_free(dag->latlink_list_alloc, x); + } + else + prev_x = x; + } +} + +void +ps_lattice_delete_unreachable(ps_lattice_t *dag) +{ + ps_latnode_t *node, *prev_node, *next_node; + int i; + + /* Remove unreachable nodes from the list of nodes. */ + prev_node = NULL; + for (node = dag->nodes; node; node = next_node) { + next_node = node->next; + if (!node->reachable) { + if (prev_node) + prev_node->next = next_node; + else + dag->nodes = next_node; + /* Delete this node and NULLify links to it. */ + delete_node(dag, node); + } + else + prev_node = node; + } + + /* Remove all links to and from unreachable nodes. */ + i = 0; + for (node = dag->nodes; node; node = node->next) { + /* Assign sequence numbers. */ + node->id = i++; + + /* We should obviously not encounter unreachable nodes here! */ + assert(node->reachable); + + /* Remove all links that go nowhere. */ + remove_dangling_links(dag, node); + } +} + +int32 +ps_lattice_write(ps_lattice_t *dag, char const *filename) +{ + FILE *fp; + int32 i; + ps_latnode_t *d, *initial, *final; + + initial = dag->start; + final = dag->end; + + E_INFO("Writing lattice file: %s\n", filename); + if ((fp = fopen(filename, "w")) == NULL) { + E_ERROR_SYSTEM("Failed to open lattice file '%s' for writing", filename); + return -1; + } + + /* Stupid Sphinx-III lattice code expects 'getcwd:' here */ + fprintf(fp, "# getcwd: /this/is/bogus\n"); + fprintf(fp, "# -logbase %e\n", logmath_get_base(dag->lmath)); + fprintf(fp, "#\n"); + + fprintf(fp, "Frames %d\n", dag->n_frames); + fprintf(fp, "#\n"); + + for (i = 0, d = dag->nodes; d; d = d->next, i++); + fprintf(fp, + "Nodes %d (NODEID WORD STARTFRAME FIRST-ENDFRAME LAST-ENDFRAME)\n", + i); + for (i = 0, d = dag->nodes; d; d = d->next, i++) { + d->id = i; + fprintf(fp, "%d %s %d %d %d ; %d\n", + i, dict_wordstr(dag->dict, d->wid), + d->sf, d->fef, d->lef, d->node_id); + } + fprintf(fp, "#\n"); + + fprintf(fp, "Initial %d\nFinal %d\n", initial->id, final->id); + fprintf(fp, "#\n"); + + /* Don't bother with this, it's not used by anything. */ + fprintf(fp, "BestSegAscr %d (NODEID ENDFRAME ASCORE)\n", + 0 /* #BPTable entries */ ); + fprintf(fp, "#\n"); + + fprintf(fp, "Edges (FROM-NODEID TO-NODEID ASCORE)\n"); + for (d = dag->nodes; d; d = d->next) { + latlink_list_t *l; + for (l = d->exits; l; l = l->next) { + if (l->link->ascr WORSE_THAN WORST_SCORE || l->link->ascr BETTER_THAN 0) + continue; + fprintf(fp, "%d %d %d\n", + d->id, l->link->to->id, l->link->ascr << SENSCR_SHIFT); + } + } + fprintf(fp, "End\n"); + fclose(fp); + + return 0; +} + +int32 +ps_lattice_write_htk(ps_lattice_t *dag, char const *filename) +{ + FILE *fp; + ps_latnode_t *d, *initial, *final; + int32 j, n_links, n_nodes; + + initial = dag->start; + final = dag->end; + + E_INFO("Writing lattice file: %s\n", filename); + if ((fp = fopen(filename, "w")) == NULL) { + E_ERROR_SYSTEM("Failed to open lattice file '%s' for writing", filename); + return -1; + } + + for (n_links = n_nodes = 0, d = dag->nodes; d; d = d->next) { + latlink_list_t *l; + if (!d->reachable) + continue; + d->id = n_nodes; + for (l = d->exits; l; l = l->next) { + if (l->link->to == NULL || !l->link->to->reachable) + continue; + if (l->link->ascr WORSE_THAN WORST_SCORE || l->link->ascr BETTER_THAN 0) + continue; + ++n_links; + } + ++n_nodes; + } + + fprintf(fp, "# Lattice generated by PocketSphinx\n"); + fprintf(fp, "#\n# Header\n#\n"); + fprintf(fp, "VERSION=1.0\n"); + fprintf(fp, "start=%d\n", initial->id); + fprintf(fp, "end=%d\n", final->id); + fprintf(fp, "#\n"); + + fprintf(fp, "N=%d\tL=%d\n", n_nodes, n_links); + fprintf(fp, "#\n# Node definitions\n#\n"); + for (d = dag->nodes; d; d = d->next) { + char const *word = dict_wordstr(dag->dict, d->wid); + char const *c = strrchr(word, '('); + int altpron = 1; + if (!d->reachable) + continue; + if (c) + altpron = atoi(c + 1); + word = dict_basestr(dag->dict, d->wid); + if (d->wid == dict_startwid(dag->dict)) + word = "!SENT_START"; + else if (d->wid == dict_finishwid(dag->dict)) + word = "!SENT_END"; + else if (dict_filler_word(dag->dict, d->wid)) + word = "!NULL"; + fprintf(fp, "I=%d\tt=%.2f\tW=%s\tv=%d\n", + d->id, (double)d->sf / dag->frate, + word, altpron); + } + fprintf(fp, "#\n# Link definitions\n#\n"); + for (j = 0, d = dag->nodes; d; d = d->next) { + latlink_list_t *l; + if (!d->reachable) + continue; + for (l = d->exits; l; l = l->next) { + if (l->link->to == NULL || !l->link->to->reachable) + continue; + if (l->link->ascr WORSE_THAN WORST_SCORE || l->link->ascr BETTER_THAN 0) + continue; + fprintf(fp, "J=%d\tS=%d\tE=%d\ta=%f\tp=%g\n", j++, + d->id, l->link->to->id, + logmath_log_to_ln(dag->lmath, l->link->ascr << SENSCR_SHIFT), + logmath_exp(dag->lmath, l->link->alpha + l->link->beta - dag->norm)); + } + } + fclose(fp); + + return 0; +} + +/* Read parameter from a lattice file*/ +static int +dag_param_read(lineiter_t *li, char *param) +{ + int32 n; + + while ((li = lineiter_next(li)) != NULL) { + char *c; + + /* Ignore comments. */ + if (li->buf[0] == '#') + continue; + + /* Find the first space. */ + c = strchr(li->buf, ' '); + if (c == NULL) continue; + + /* Check that the first field equals param and that there's a number after it. */ + if (strncmp(li->buf, param, strlen(param)) == 0 + && sscanf(c + 1, "%d", &n) == 1) + return n; + } + return -1; +} + +/* Mark every node that has a path to the argument dagnode as "reachable". */ +static void +dag_mark_reachable(ps_latnode_t * d) +{ + latlink_list_t *l; + + d->reachable = 1; + for (l = d->entries; l; l = l->next) + if (l->link->from && !l->link->from->reachable) + dag_mark_reachable(l->link->from); +} + +ps_lattice_t * +ps_lattice_read(ps_decoder_t *ps, + char const *file) +{ + FILE *fp; + int32 ispipe; + lineiter_t *line; + float64 lb; + float32 logratio; + ps_latnode_t *tail; + ps_latnode_t **darray; + ps_lattice_t *dag; + int i, k, n_nodes; + int32 pip, silpen, fillpen; + + dag = ckd_calloc(1, sizeof(*dag)); + + if (ps) { + dag->search = ps->search; + dag->dict = dict_retain(ps->dict); + dag->lmath = logmath_retain(ps->lmath); + dag->dict = dict_init(NULL, NULL, dag->lmath); + dag->frate = cmd_ln_int32_r(dag->search->config, "-frate"); + } + else { + dag->dict = dict_init(NULL, NULL, dag->lmath); + dag->lmath = logmath_init(1.0001, 0, FALSE); + dag->frate = 100; + } + dag->silence = dict_silwid(dag->dict); + dag->latnode_alloc = listelem_alloc_init(sizeof(ps_latnode_t)); + dag->latlink_alloc = listelem_alloc_init(sizeof(ps_latlink_t)); + dag->latlink_list_alloc = listelem_alloc_init(sizeof(latlink_list_t)); + dag->refcount = 1; + + tail = NULL; + darray = NULL; + + E_INFO("Reading DAG file: %s\n", file); + if ((fp = fopen_compchk(file, &ispipe)) == NULL) { + E_ERROR_SYSTEM("Failed to open DAG file '%s' for reading", file); + return NULL; + } + line = lineiter_start(fp); + + /* Read and verify logbase (ONE BIG HACK!!) */ + if (line == NULL) { + E_ERROR("Premature EOF(%s)\n", file); + goto load_error; + } + if (strncmp(line->buf, "# getcwd: ", 10) != 0) { + E_ERROR("%s does not begin with '# getcwd: '\n%s", file, line->buf); + goto load_error; + } + if ((line = lineiter_next(line)) == NULL) { + E_ERROR("Premature EOF(%s)\n", file); + goto load_error; + } + if ((strncmp(line->buf, "# -logbase ", 11) != 0) + || (sscanf(line->buf + 11, "%lf", &lb) != 1)) { + E_WARN("%s: Cannot find -logbase in header\n", file); + lb = 1.0001; + } + logratio = 1.0f; + if (dag->lmath == NULL) + dag->lmath = logmath_init(lb, 0, TRUE); + else { + float32 pb = logmath_get_base(dag->lmath); + if (fabs(lb - pb) >= 0.0001) { + E_WARN("Inconsistent logbases: %f vs %f: will compensate\n", lb, pb); + logratio = (float32)(log(lb) / log(pb)); + E_INFO("Lattice log ratio: %f\n", logratio); + } + } + /* Read Frames parameter */ + dag->n_frames = dag_param_read(line, "Frames"); + if (dag->n_frames <= 0) { + E_ERROR("Frames parameter missing or invalid\n"); + goto load_error; + } + /* Read Nodes parameter */ + n_nodes = dag_param_read(line, "Nodes"); + if (n_nodes <= 0) { + E_ERROR("Nodes parameter missing or invalid\n"); + goto load_error; + } + + /* Read nodes */ + darray = ckd_calloc(n_nodes, sizeof(*darray)); + for (i = 0; i < n_nodes; i++) { + ps_latnode_t *d; + int32 w; + int seqid, sf, fef, lef; + char wd[256]; + + if ((line = lineiter_next(line)) == NULL) { + E_ERROR("Premature EOF while loading Nodes(%s)\n", file); + goto load_error; + } + + if ((k = + sscanf(line->buf, "%d %255s %d %d %d", &seqid, wd, &sf, &fef, + &lef)) != 5) { + E_ERROR("Cannot parse line: %s, value of count %d\n", line->buf, k); + goto load_error; + } + + w = dict_wordid(dag->dict, wd); + if (w < 0) { + if (dag->search == NULL) { + char *ww = ckd_salloc(wd); + if (dict_word2basestr(ww) != -1) { + if (dict_wordid(dag->dict, ww) == BAD_S3WID) + dict_add_word(dag->dict, ww, NULL, 0); + } + ckd_free(ww); + w = dict_add_word(dag->dict, wd, NULL, 0); + } + if (w < 0) { + E_ERROR("Unknown word in line: %s\n", line->buf); + goto load_error; + } + } + + if (seqid != i) { + E_ERROR("Seqno error: %s\n", line->buf); + goto load_error; + } + + d = listelem_malloc(dag->latnode_alloc); + darray[i] = d; + d->wid = w; + d->basewid = dict_basewid(dag->dict, w); + d->id = seqid; + d->sf = sf; + d->fef = fef; + d->lef = lef; + d->reachable = 0; + d->exits = d->entries = NULL; + d->next = NULL; + + if (!dag->nodes) + dag->nodes = d; + else + tail->next = d; + tail = d; + } + + /* Read initial node ID */ + k = dag_param_read(line, "Initial"); + if ((k < 0) || (k >= n_nodes)) { + E_ERROR("Initial node parameter missing or invalid\n"); + goto load_error; + } + dag->start = darray[k]; + + /* Read final node ID */ + k = dag_param_read(line, "Final"); + if ((k < 0) || (k >= n_nodes)) { + E_ERROR("Final node parameter missing or invalid\n"); + goto load_error; + } + dag->end = darray[k]; + + /* Read bestsegscore entries and ignore them. */ + if ((k = dag_param_read(line, "BestSegAscr")) < 0) { + E_ERROR("BestSegAscr parameter missing\n"); + goto load_error; + } + for (i = 0; i < k; i++) { + if ((line = lineiter_next(line)) == NULL) { + E_ERROR("Premature EOF while (%s) ignoring BestSegAscr\n", + line); + goto load_error; + } + } + + /* Read in edges. */ + while ((line = lineiter_next(line)) != NULL) { + if (line->buf[0] == '#') + continue; + if (0 == strncmp(line->buf, "Edges", 5)) + break; + } + if (line == NULL) { + E_ERROR("Edges missing\n"); + goto load_error; + } + while ((line = lineiter_next(line)) != NULL) { + int from, to, ascr; + ps_latnode_t *pd, *d; + + if (sscanf(line->buf, "%d %d %d", &from, &to, &ascr) != 3) + break; + if (ascr WORSE_THAN WORST_SCORE) + continue; + pd = darray[from]; + d = darray[to]; + if (logratio != 1.0f) + ascr = (int32)(ascr * logratio); + ps_lattice_link(dag, pd, d, ascr, d->sf - 1); + } + if (strcmp(line->buf, "End\n") != 0) { + E_ERROR("Terminating 'End' missing\n"); + goto load_error; + } + lineiter_free(line); + fclose_comp(fp, ispipe); + ckd_free(darray); + + /* Minor hack: If the final node is a filler word and not , + * then set its base word ID to , so that the language model + * scores won't be screwed up. */ + if (dict_filler_word(dag->dict, dag->end->wid)) + dag->end->basewid = dag->search + ? ps_search_finish_wid(dag->search) + : dict_wordid(dag->dict, S3_FINISH_WORD); + + /* Mark reachable from dag->end */ + dag_mark_reachable(dag->end); + + /* Free nodes unreachable from dag->end and their links */ + ps_lattice_delete_unreachable(dag); + + if (ps) { + /* Build links around silence and filler words, since they do + * not exist in the language model. FIXME: This is + * potentially buggy, as we already do this before outputing + * lattices. */ + pip = logmath_log(dag->lmath, cmd_ln_float32_r(ps->config, "-pip")); + silpen = pip + logmath_log(dag->lmath, + cmd_ln_float32_r(ps->config, "-silprob")); + fillpen = pip + logmath_log(dag->lmath, + cmd_ln_float32_r(ps->config, "-fillprob")); + ps_lattice_penalize_fillers(dag, silpen, fillpen); + } + + return dag; + + load_error: + E_ERROR("Failed to load %s\n", file); + lineiter_free(line); + if (fp) fclose_comp(fp, ispipe); + ckd_free(darray); + return NULL; +} + +int +ps_lattice_n_frames(ps_lattice_t *dag) +{ + return dag->n_frames; +} + +ps_lattice_t * +ps_lattice_init_search(ps_search_t *search, int n_frame) +{ + ps_lattice_t *dag; + + dag = ckd_calloc(1, sizeof(*dag)); + dag->search = search; + dag->dict = dict_retain(search->dict); + dag->lmath = logmath_retain(search->acmod->lmath); + dag->frate = cmd_ln_int32_r(dag->search->config, "-frate"); + dag->silence = dict_silwid(dag->dict); + dag->n_frames = n_frame; + dag->latnode_alloc = listelem_alloc_init(sizeof(ps_latnode_t)); + dag->latlink_alloc = listelem_alloc_init(sizeof(ps_latlink_t)); + dag->latlink_list_alloc = listelem_alloc_init(sizeof(latlink_list_t)); + dag->refcount = 1; + return dag; +} + +ps_lattice_t * +ps_lattice_retain(ps_lattice_t *dag) +{ + ++dag->refcount; + return dag; +} + +int +ps_lattice_free(ps_lattice_t *dag) +{ + if (dag == NULL) + return 0; + if (--dag->refcount > 0) + return dag->refcount; + logmath_free(dag->lmath); + dict_free(dag->dict); + listelem_alloc_free(dag->latnode_alloc); + listelem_alloc_free(dag->latlink_alloc); + listelem_alloc_free(dag->latlink_list_alloc); + ckd_free(dag->hyp_str); + ckd_free(dag); + return 0; +} + +logmath_t * +ps_lattice_get_logmath(ps_lattice_t *dag) +{ + return dag->lmath; +} + +ps_latnode_iter_t * +ps_latnode_iter(ps_lattice_t *dag) +{ + return dag->nodes; +} + +ps_latnode_iter_t * +ps_latnode_iter_next(ps_latnode_iter_t *itor) +{ + return itor->next; +} + +void +ps_latnode_iter_free(ps_latnode_iter_t *itor) +{ + /* Do absolutely nothing. */ +} + +ps_latnode_t * +ps_latnode_iter_node(ps_latnode_iter_t *itor) +{ + return itor; +} + +int +ps_latnode_times(ps_latnode_t *node, int16 *out_fef, int16 *out_lef) +{ + if (out_fef) *out_fef = (int16)node->fef; + if (out_lef) *out_lef = (int16)node->lef; + return node->sf; +} + +char const * +ps_latnode_word(ps_lattice_t *dag, ps_latnode_t *node) +{ + return dict_wordstr(dag->dict, node->wid); +} + +char const * +ps_latnode_baseword(ps_lattice_t *dag, ps_latnode_t *node) +{ + return dict_wordstr(dag->dict, node->basewid); +} + +int32 +ps_latnode_prob(ps_lattice_t *dag, ps_latnode_t *node, + ps_latlink_t **out_link) +{ + latlink_list_t *links; + int32 bestpost = logmath_get_zero(dag->lmath); + + for (links = node->exits; links; links = links->next) { + int32 post = links->link->alpha + links->link->beta - dag->norm; + if (post > bestpost) { + if (out_link) *out_link = links->link; + bestpost = post; + } + } + return bestpost; +} + +ps_latlink_iter_t * +ps_latnode_exits(ps_latnode_t *node) +{ + return node->exits; +} + +ps_latlink_iter_t * +ps_latnode_entries(ps_latnode_t *node) +{ + return node->entries; +} + +ps_latlink_iter_t * +ps_latlink_iter_next(ps_latlink_iter_t *itor) +{ + return itor->next; +} + +void +ps_latlink_iter_free(ps_latlink_iter_t *itor) +{ + /* Do absolutely nothing. */ +} + +ps_latlink_t * +ps_latlink_iter_link(ps_latlink_iter_t *itor) +{ + return itor->link; +} + +int +ps_latlink_times(ps_latlink_t *link, int16 *out_sf) +{ + if (out_sf) { + if (link->from) { + *out_sf = link->from->sf; + } + else { + *out_sf = 0; + } + } + return link->ef; +} + +ps_latnode_t * +ps_latlink_nodes(ps_latlink_t *link, ps_latnode_t **out_src) +{ + if (out_src) *out_src = link->from; + return link->to; +} + +char const * +ps_latlink_word(ps_lattice_t *dag, ps_latlink_t *link) +{ + if (link->from == NULL) + return NULL; + return dict_wordstr(dag->dict, link->from->wid); +} + +char const * +ps_latlink_baseword(ps_lattice_t *dag, ps_latlink_t *link) +{ + if (link->from == NULL) + return NULL; + return dict_wordstr(dag->dict, link->from->basewid); +} + +ps_latlink_t * +ps_latlink_pred(ps_latlink_t *link) +{ + return link->best_prev; +} + +int32 +ps_latlink_prob(ps_lattice_t *dag, ps_latlink_t *link, int32 *out_ascr) +{ + int32 post = link->alpha + link->beta - dag->norm; + if (out_ascr) *out_ascr = link->ascr << SENSCR_SHIFT; + return post; +} + +char const * +ps_lattice_hyp(ps_lattice_t *dag, ps_latlink_t *link) +{ + ps_latlink_t *l; + size_t len; + char *c; + + /* Backtrace once to get hypothesis length. */ + len = 0; + /* FIXME: There may not be a search, but actually there should be a dict. */ + if (dict_real_word(dag->dict, link->to->basewid)) { + char *wstr = dict_wordstr(dag->dict, link->to->basewid); + if (wstr != NULL) + len += strlen(wstr) + 1; + } + for (l = link; l; l = l->best_prev) { + if (dict_real_word(dag->dict, l->from->basewid)) { + char *wstr = dict_wordstr(dag->dict, l->from->basewid); + if (wstr != NULL) + len += strlen(wstr) + 1; + } + } + + /* Backtrace again to construct hypothesis string. */ + ckd_free(dag->hyp_str); + dag->hyp_str = ckd_calloc(1, len+1); /* extra one incase the hyp is empty */ + c = dag->hyp_str + len - 1; + if (dict_real_word(dag->dict, link->to->basewid)) { + char *wstr = dict_wordstr(dag->dict, link->to->basewid); + if (wstr != NULL) { + len = strlen(wstr); + c -= len; + memcpy(c, wstr, len); + if (c > dag->hyp_str) { + --c; + *c = ' '; + } + } + } + for (l = link; l; l = l->best_prev) { + if (dict_real_word(dag->dict, l->from->basewid)) { + char *wstr = dict_wordstr(dag->dict, l->from->basewid); + if (wstr != NULL) { + len = strlen(wstr); + c -= len; + memcpy(c, wstr, len); + if (c > dag->hyp_str) { + --c; + *c = ' '; + } + } + } + } + + return dag->hyp_str; +} + +static void +ps_lattice_compute_lscr(ps_seg_t *seg, ps_latlink_t *link, int to) +{ + ngram_model_t *lmset; + + /* Language model score is included in the link score for FSG + * search. FIXME: Of course, this is sort of a hack :( */ + if (0 != strcmp(ps_search_name(seg->search), PS_SEARCH_NGRAM)) { + seg->lback = 1; /* Unigram... */ + seg->lscr = 0; + return; + } + + lmset = ((ngram_search_t *)seg->search)->lmset; + + if (link->best_prev == NULL) { + if (to) /* Sentence has only two words. */ + seg->lscr = ngram_bg_score(lmset, link->to->basewid, + link->from->basewid, &seg->lback) + >> SENSCR_SHIFT; + else {/* This is the start symbol, its lscr is always 0. */ + seg->lscr = 0; + seg->lback = 1; + } + } + else { + /* Find the two predecessor words. */ + if (to) { + seg->lscr = ngram_tg_score(lmset, link->to->basewid, + link->from->basewid, + link->best_prev->from->basewid, + &seg->lback) >> SENSCR_SHIFT; + } + else { + if (link->best_prev->best_prev) + seg->lscr = ngram_tg_score(lmset, link->from->basewid, + link->best_prev->from->basewid, + link->best_prev->best_prev->from->basewid, + &seg->lback) >> SENSCR_SHIFT; + else + seg->lscr = ngram_bg_score(lmset, link->from->basewid, + link->best_prev->from->basewid, + &seg->lback) >> SENSCR_SHIFT; + } + } +} + +static void +ps_lattice_link2itor(ps_seg_t *seg, ps_latlink_t *link, int to) +{ + dag_seg_t *itor = (dag_seg_t *)seg; + ps_latnode_t *node; + + if (to) { + node = link->to; + seg->ef = node->lef; + seg->prob = 0; /* norm + beta - norm */ + } + else { + latlink_list_t *x; + ps_latnode_t *n; + logmath_t *lmath = ps_search_acmod(seg->search)->lmath; + + node = link->from; + seg->ef = link->ef; + seg->prob = link->alpha + link->beta - itor->norm; + /* Sum over all exits for this word and any alternate + pronunciations at the same frame. */ + for (n = node; n; n = n->alt) { + for (x = n->exits; x; x = x->next) { + if (x->link == link) + continue; + seg->prob = logmath_add(lmath, seg->prob, + x->link->alpha + x->link->beta - itor->norm); + } + } + } + seg->word = dict_wordstr(ps_search_dict(seg->search), node->wid); + seg->sf = node->sf; + seg->ascr = link->ascr << SENSCR_SHIFT; + /* Compute language model score from best predecessors. */ + ps_lattice_compute_lscr(seg, link, to); +} + +static void +ps_lattice_seg_free(ps_seg_t *seg) +{ + dag_seg_t *itor = (dag_seg_t *)seg; + + ckd_free(itor->links); + ckd_free(itor); +} + +static ps_seg_t * +ps_lattice_seg_next(ps_seg_t *seg) +{ + dag_seg_t *itor = (dag_seg_t *)seg; + + ++itor->cur; + if (itor->cur == itor->n_links + 1) { + ps_lattice_seg_free(seg); + return NULL; + } + else if (itor->cur == itor->n_links) { + /* Re-use the last link but with the "to" node. */ + ps_lattice_link2itor(seg, itor->links[itor->cur - 1], TRUE); + } + else { + ps_lattice_link2itor(seg, itor->links[itor->cur], FALSE); + } + + return seg; +} + +static ps_segfuncs_t ps_lattice_segfuncs = { + /* seg_next */ ps_lattice_seg_next, + /* seg_free */ ps_lattice_seg_free +}; + +ps_seg_t * +ps_lattice_seg_iter(ps_lattice_t *dag, ps_latlink_t *link, float32 lwf) +{ + dag_seg_t *itor; + ps_latlink_t *l; + int cur; + + /* Calling this an "iterator" is a bit of a misnomer since we have + * to get the entire backtrace in order to produce it. + */ + itor = ckd_calloc(1, sizeof(*itor)); + itor->base.vt = &ps_lattice_segfuncs; + itor->base.search = dag->search; + itor->base.lwf = lwf; + itor->n_links = 0; + itor->norm = dag->norm; + + for (l = link; l; l = l->best_prev) { + ++itor->n_links; + } + if (itor->n_links == 0) { + ckd_free(itor); + return NULL; + } + + itor->links = ckd_calloc(itor->n_links, sizeof(*itor->links)); + cur = itor->n_links - 1; + for (l = link; l; l = l->best_prev) { + itor->links[cur] = l; + --cur; + } + + ps_lattice_link2itor((ps_seg_t *)itor, itor->links[0], FALSE); + return (ps_seg_t *)itor; +} + +latlink_list_t * +latlink_list_new(ps_lattice_t *dag, ps_latlink_t *link, latlink_list_t *next) +{ + latlink_list_t *ll; + + ll = listelem_malloc(dag->latlink_list_alloc); + ll->link = link; + ll->next = next; + + return ll; +} + +void +ps_lattice_pushq(ps_lattice_t *dag, ps_latlink_t *link) +{ + if (dag->q_head == NULL) + dag->q_head = dag->q_tail = latlink_list_new(dag, link, NULL); + else { + dag->q_tail->next = latlink_list_new(dag, link, NULL); + dag->q_tail = dag->q_tail->next; + } + +} + +ps_latlink_t * +ps_lattice_popq(ps_lattice_t *dag) +{ + latlink_list_t *x; + ps_latlink_t *link; + + if (dag->q_head == NULL) + return NULL; + link = dag->q_head->link; + x = dag->q_head->next; + listelem_free(dag->latlink_list_alloc, dag->q_head); + dag->q_head = x; + if (dag->q_head == NULL) + dag->q_tail = NULL; + return link; +} + +void +ps_lattice_delq(ps_lattice_t *dag) +{ + while (ps_lattice_popq(dag)) { + /* Do nothing. */ + } +} + +ps_latlink_t * +ps_lattice_traverse_edges(ps_lattice_t *dag, ps_latnode_t *start, ps_latnode_t *end) +{ + ps_latnode_t *node; + latlink_list_t *x; + + /* Cancel any unfinished traversal. */ + ps_lattice_delq(dag); + + /* Initialize node fanin counts and path scores. */ + for (node = dag->nodes; node; node = node->next) + node->info.fanin = 0; + for (node = dag->nodes; node; node = node->next) { + for (x = node->exits; x; x = x->next) + (x->link->to->info.fanin)++; + } + + /* Initialize agenda with all exits from start. */ + if (start == NULL) start = dag->start; + for (x = start->exits; x; x = x->next) + ps_lattice_pushq(dag, x->link); + + /* Pull the first edge off the queue. */ + return ps_lattice_traverse_next(dag, end); +} + +ps_latlink_t * +ps_lattice_traverse_next(ps_lattice_t *dag, ps_latnode_t *end) +{ + ps_latlink_t *next; + + next = ps_lattice_popq(dag); + if (next == NULL) + return NULL; + + /* Decrease fanin count for destination node and expand outgoing + * edges if all incoming edges have been seen. */ + --next->to->info.fanin; + if (next->to->info.fanin == 0) { + latlink_list_t *x; + + if (end == NULL) end = dag->end; + if (next->to == end) { + /* If we have traversed all links entering the end node, + * clear the queue, causing future calls to this function + * to return NULL. */ + ps_lattice_delq(dag); + return next; + } + + /* Extend all outgoing edges. */ + for (x = next->to->exits; x; x = x->next) + ps_lattice_pushq(dag, x->link); + } + return next; +} + +ps_latlink_t * +ps_lattice_reverse_edges(ps_lattice_t *dag, ps_latnode_t *start, ps_latnode_t *end) +{ + ps_latnode_t *node; + latlink_list_t *x; + + /* Cancel any unfinished traversal. */ + ps_lattice_delq(dag); + + /* Initialize node fanout counts and path scores. */ + for (node = dag->nodes; node; node = node->next) { + node->info.fanin = 0; + for (x = node->exits; x; x = x->next) + ++node->info.fanin; + } + + /* Initialize agenda with all entries from end. */ + if (end == NULL) end = dag->end; + for (x = end->entries; x; x = x->next) + ps_lattice_pushq(dag, x->link); + + /* Pull the first edge off the queue. */ + return ps_lattice_reverse_next(dag, start); +} + +ps_latlink_t * +ps_lattice_reverse_next(ps_lattice_t *dag, ps_latnode_t *start) +{ + ps_latlink_t *next; + + next = ps_lattice_popq(dag); + if (next == NULL) + return NULL; + + /* Decrease fanout count for source node and expand incoming + * edges if all incoming edges have been seen. */ + --next->from->info.fanin; + if (next->from->info.fanin == 0) { + latlink_list_t *x; + + if (start == NULL) start = dag->start; + if (next->from == start) { + /* If we have traversed all links entering the start node, + * clear the queue, causing future calls to this function + * to return NULL. */ + ps_lattice_delq(dag); + return next; + } + + /* Extend all outgoing edges. */ + for (x = next->from->entries; x; x = x->next) + ps_lattice_pushq(dag, x->link); + } + return next; +} + +/* + * Find the best score from dag->start to end point of any link and + * use it to update links further down the path. This is like + * single-source shortest path search, except that it is done over + * edges rather than nodes, which allows us to do exact trigram scoring. + * + * Helpfully enough, we get half of the posterior probability + * calculation for free that way too. (interesting research topic: is + * there a reliable Viterbi analogue to word-level Forward-Backward + * like there is for state-level? Or, is it just lattice density?) + */ +ps_latlink_t * +ps_lattice_bestpath(ps_lattice_t *dag, ngram_model_t *lmset, + float32 lwf, float32 ascale) +{ + ps_search_t *search; + ps_latnode_t *node; + ps_latlink_t *link; + ps_latlink_t *bestend; + latlink_list_t *x; + logmath_t *lmath; + int32 bestescr; + + search = dag->search; + lmath = dag->lmath; + + /* Initialize path scores for all links exiting dag->start, and + * set all other scores to the minimum. Also initialize alphas to + * log-zero. */ + for (node = dag->nodes; node; node = node->next) { + for (x = node->exits; x; x = x->next) { + x->link->path_scr = MAX_NEG_INT32; + x->link->alpha = logmath_get_zero(lmath); + } + } + for (x = dag->start->exits; x; x = x->next) { + int32 n_used; + int16 to_is_fil; + + to_is_fil = dict_filler_word(ps_search_dict(search), x->link->to->basewid) && x->link->to != dag->end; + + /* Best path points to dag->start, obviously. */ + x->link->path_scr = x->link->ascr; + if (lmset && !to_is_fil) + x->link->path_scr += (ngram_bg_score(lmset, x->link->to->basewid, + ps_search_start_wid(search), &n_used) >> SENSCR_SHIFT) * lwf; + x->link->best_prev = NULL; + /* No predecessors for start links. */ + x->link->alpha = 0; + } + + /* Traverse the edges in the graph, updating path scores. */ + for (link = ps_lattice_traverse_edges(dag, NULL, NULL); + link; link = ps_lattice_traverse_next(dag, NULL)) { + int32 bprob, n_used; + int32 w3_wid, w2_wid; + int16 w3_is_fil, w2_is_fil; + ps_latlink_t *prev_link; + + /* Sanity check, we should not be traversing edges that + * weren't previously updated, otherwise nasty overflows will result. */ + assert(link->path_scr != MAX_NEG_INT32); + + /* Find word predecessor if from-word is filler */ + w3_wid = link->from->basewid; + w2_wid = link->to->basewid; + w3_is_fil = dict_filler_word(ps_search_dict(search), link->from->basewid) && link->from != dag->start; + w2_is_fil = dict_filler_word(ps_search_dict(search), w2_wid) && link->to != dag->end; + prev_link = link; + + if (w3_is_fil) { + while (prev_link->best_prev != NULL) { + prev_link = prev_link->best_prev; + w3_wid = prev_link->from->basewid; + if (!dict_filler_word(ps_search_dict(search), w3_wid) || prev_link->from == dag->start) { + w3_is_fil = FALSE; + break; + } + } + } + + /* Calculate common bigram probability for all alphas. */ + if (lmset && !w3_is_fil && !w2_is_fil) + bprob = ngram_ng_prob(lmset, w2_wid, &w3_wid, 1, &n_used); + else + bprob = 0; + /* Add in this link's acoustic score, which was a constant + factor in previous computations (if any). */ + link->alpha += (link->ascr << SENSCR_SHIFT) * ascale; + + if (w2_is_fil) { + w2_is_fil = w3_is_fil; + w3_is_fil = TRUE; + w2_wid = w3_wid; + while (prev_link->best_prev != NULL) { + prev_link = prev_link->best_prev; + w3_wid = prev_link->from->basewid; + if (!dict_filler_word(ps_search_dict(search), w3_wid) || prev_link->from == dag->start) { + w3_is_fil = FALSE; + break; + } + } + } + + /* Update scores for all paths exiting link->to. */ + for (x = link->to->exits; x; x = x->next) { + int32 score; + int32 w1_wid; + int16 w1_is_fil; + + w1_wid = x->link->to->basewid; + w1_is_fil = dict_filler_word(ps_search_dict(search), w1_wid) && x->link->to != dag->end; + + /* Update alpha with sum of previous alphas. */ + x->link->alpha = logmath_add(lmath, x->link->alpha, link->alpha + bprob); + + /* Update link score with maximum link score. */ + score = link->path_scr + x->link->ascr; + /* Calculate language score for bestpath if possible */ + if (lmset && !w1_is_fil && !w2_is_fil) { + if (w3_is_fil) + //partial context available + score += (ngram_bg_score(lmset, w1_wid, w2_wid, &n_used) >> SENSCR_SHIFT) * lwf; + else + //full context available + score += (ngram_tg_score(lmset, w1_wid, w2_wid, w3_wid, &n_used) >> SENSCR_SHIFT) * lwf; + } + + if (score BETTER_THAN x->link->path_scr) { + x->link->path_scr = score; + x->link->best_prev = link; + } + } + } + + /* Find best link entering final node, and calculate normalizer + * for posterior probabilities. */ + bestend = NULL; + bestescr = MAX_NEG_INT32; + + /* Normalizer is the alpha for the imaginary link exiting the + final node. */ + dag->norm = logmath_get_zero(lmath); + for (x = dag->end->entries; x; x = x->next) { + int32 bprob, n_used; + int32 from_wid; + int16 from_is_fil; + + from_wid = x->link->from->basewid; + from_is_fil = dict_filler_word(ps_search_dict(search), from_wid) && x->link->from != dag->start; + if (from_is_fil) { + ps_latlink_t *prev_link = x->link; + while (prev_link->best_prev != NULL) { + prev_link = prev_link->best_prev; + from_wid = prev_link->from->basewid; + if (!dict_filler_word(ps_search_dict(search), from_wid) || prev_link->from == dag->start) { + from_is_fil = FALSE; + break; + } + } + } + + if (lmset && !from_is_fil) + bprob = ngram_ng_prob(lmset, + x->link->to->basewid, + &from_wid, 1, &n_used); + else + bprob = 0; + dag->norm = logmath_add(lmath, dag->norm, x->link->alpha + bprob); + if (x->link->path_scr BETTER_THAN bestescr) { + bestescr = x->link->path_scr; + bestend = x->link; + } + } + /* FIXME: floating point... */ + dag->norm += (int32)(dag->final_node_ascr << SENSCR_SHIFT) * ascale; + + E_INFO("Bestpath score: %d\n", bestescr); + E_INFO("Normalizer P(O) = alpha(%s:%d:%d) = %d\n", + dict_wordstr(dag->search->dict, dag->end->wid), + dag->end->sf, dag->end->lef, + dag->norm); + return bestend; +} + +static int32 +ps_lattice_joint(ps_lattice_t *dag, ps_latlink_t *link, float32 ascale) +{ + ngram_model_t *lmset; + int32 jprob; + + /* Sort of a hack... */ + if (dag->search && 0 == strcmp(ps_search_name(dag->search), PS_SEARCH_NGRAM)) + lmset = ((ngram_search_t *)dag->search)->lmset; + else + lmset = NULL; + + jprob = (dag->final_node_ascr << SENSCR_SHIFT) * ascale; + while (link) { + if (lmset) { + int lback; + int32 from_wid, to_wid; + int16 from_is_fil, to_is_fil; + + from_wid = link->from->basewid; + to_wid = link->to->basewid; + from_is_fil = dict_filler_word(dag->dict, from_wid) && link->from != dag->start; + to_is_fil = dict_filler_word(dag->dict, to_wid) && link->to != dag->end; + + /* Find word predecessor if from-word is filler */ + if (!to_is_fil && from_is_fil) { + ps_latlink_t *prev_link = link; + while (prev_link->best_prev != NULL) { + prev_link = prev_link->best_prev; + from_wid = prev_link->from->basewid; + if (!dict_filler_word(dag->dict, from_wid) || prev_link->from == dag->start) { + from_is_fil = FALSE; + break; + } + } + } + + /* Compute unscaled language model probability. Note that + this is actually not the language model probability + that corresponds to this link, but that is okay, + because we are just taking the sum over all links in + the best path. */ + if (!from_is_fil && !to_is_fil) + jprob += ngram_ng_prob(lmset, to_wid, + &from_wid, 1, &lback); + } + /* If there is no language model, we assume that the language + model probability (such as it is) has been included in the + link score. */ + jprob += (link->ascr << SENSCR_SHIFT) * ascale; + link = link->best_prev; + } + + E_INFO("Joint P(O,S) = %d P(S|O) = %d\n", jprob, jprob - dag->norm); + return jprob; +} + +int32 +ps_lattice_posterior(ps_lattice_t *dag, ngram_model_t *lmset, + float32 ascale) +{ + logmath_t *lmath; + ps_latnode_t *node; + ps_latlink_t *link; + latlink_list_t *x; + ps_latlink_t *bestend; + int32 bestescr; + + lmath = dag->lmath; + + /* Reset all betas to zero. */ + for (node = dag->nodes; node; node = node->next) { + for (x = node->exits; x; x = x->next) { + x->link->beta = logmath_get_zero(lmath); + } + } + + bestend = NULL; + bestescr = MAX_NEG_INT32; + /* Accumulate backward probabilities for all links. */ + for (link = ps_lattice_reverse_edges(dag, NULL, NULL); + link; link = ps_lattice_reverse_next(dag, NULL)) { + int32 bprob, n_used; + int32 from_wid, to_wid; + int16 from_is_fil, to_is_fil; + + from_wid = link->from->basewid; + to_wid = link->to->basewid; + from_is_fil = dict_filler_word(dag->dict, from_wid) && link->from != dag->start; + to_is_fil = dict_filler_word(dag->dict, to_wid) && link->to != dag->end; + + /* Find word predecessor if from-word is filler */ + if (!to_is_fil && from_is_fil) { + ps_latlink_t *prev_link = link; + while (prev_link->best_prev != NULL) { + prev_link = prev_link->best_prev; + from_wid = prev_link->from->basewid; + if (!dict_filler_word(dag->dict, from_wid) || prev_link->from == dag->start) { + from_is_fil = FALSE; + break; + } + } + } + + /* Calculate LM probability. */ + if (lmset && !from_is_fil && !to_is_fil) + bprob = ngram_ng_prob(lmset, to_wid, &from_wid, 1, &n_used); + else + bprob = 0; + + if (link->to == dag->end) { + /* Track the best path - we will backtrace in order to + calculate the unscaled joint probability for sentence + posterior. */ + if (link->path_scr BETTER_THAN bestescr) { + bestescr = link->path_scr; + bestend = link; + } + /* Imaginary exit link from final node has beta = 1.0 */ + link->beta = bprob + (dag->final_node_ascr << SENSCR_SHIFT) * ascale; + } + else { + /* Update beta from all outgoing betas. */ + for (x = link->to->exits; x; x = x->next) { + link->beta = logmath_add(lmath, link->beta, + x->link->beta + bprob + + (x->link->ascr << SENSCR_SHIFT) * ascale); + } + } + } + + /* Return P(S|O) = P(O,S)/P(O) */ + return ps_lattice_joint(dag, bestend, ascale) - dag->norm; +} + +int32 +ps_lattice_posterior_prune(ps_lattice_t *dag, int32 beam) +{ + ps_latlink_t *link; + int npruned = 0; + + for (link = ps_lattice_traverse_edges(dag, dag->start, dag->end); + link; link = ps_lattice_traverse_next(dag, dag->end)) { + link->from->reachable = FALSE; + if (link->alpha + link->beta - dag->norm < beam) { + latlink_list_t *x, *tmp, *next; + tmp = NULL; + for (x = link->from->exits; x; x = next) { + next = x->next; + if (x->link == link) { + listelem_free(dag->latlink_list_alloc, x); + } + else { + x->next = tmp; + tmp = x; + } + } + link->from->exits = tmp; + tmp = NULL; + for (x = link->to->entries; x; x = next) { + next = x->next; + if (x->link == link) { + listelem_free(dag->latlink_list_alloc, x); + } + else { + x->next = tmp; + tmp = x; + } + } + link->to->entries = tmp; + listelem_free(dag->latlink_alloc, link); + ++npruned; + } + } + dag_mark_reachable(dag->end); + ps_lattice_delete_unreachable(dag); + return npruned; +} + + +/* Parameters to prune n-best alternatives search */ +#define MAX_PATHS 500 /* Max allowed active paths at any time */ +#define MAX_HYP_TRIES 10000 + +/* + * For each node in any path between from and end of utt, find the + * best score from "from".sf to end of utt. (NOTE: Uses bigram probs; + * this is an estimate of the best score from "from".) (NOTE #2: yes, + * this is the "heuristic score" used in A* search) + */ +static int32 +best_rem_score(ps_astar_t *nbest, ps_latnode_t * from) +{ + latlink_list_t *x; + int32 bestscore, score; + + if (from->info.rem_score <= 0) + return (from->info.rem_score); + + /* Best score from "from" to end of utt not known; compute from successors */ + bestscore = WORST_SCORE; + for (x = from->exits; x; x = x->next) { + int32 n_used; + + score = best_rem_score(nbest, x->link->to); + score += x->link->ascr; + if (nbest->lmset) + score += (ngram_bg_score(nbest->lmset, x->link->to->basewid, + from->basewid, &n_used) >> SENSCR_SHIFT) + * nbest->lwf; + if (score BETTER_THAN bestscore) + bestscore = score; + } + from->info.rem_score = bestscore; + + return bestscore; +} + +/* + * Insert newpath in sorted (by path score) list of paths. But if newpath is + * too far down the list, drop it (FIXME: necessary?) + * total_score = path score (newpath) + rem_score to end of utt. + */ +static void +path_insert(ps_astar_t *nbest, ps_latpath_t *newpath, int32 total_score) +{ + ps_latpath_t *prev, *p; + int32 i; + + prev = NULL; + for (i = 0, p = nbest->path_list; (i < MAX_PATHS) && p; p = p->next, i++) { + if ((p->score + p->node->info.rem_score) < total_score) + break; + prev = p; + } + + /* newpath should be inserted between prev and p */ + if (i < MAX_PATHS) { + /* Insert new partial hyp */ + newpath->next = p; + if (!prev) + nbest->path_list = newpath; + else + prev->next = newpath; + if (!p) + nbest->path_tail = newpath; + + nbest->n_path++; + nbest->n_hyp_insert++; + nbest->insert_depth += i; + } + else { + /* newpath score too low; reject it and also prune paths beyond MAX_PATHS */ + nbest->path_tail = prev; + prev->next = NULL; + nbest->n_path = MAX_PATHS; + listelem_free(nbest->latpath_alloc, newpath); + + nbest->n_hyp_reject++; + for (; p; p = newpath) { + newpath = p->next; + listelem_free(nbest->latpath_alloc, p); + nbest->n_hyp_reject++; + } + } +} + +/* Find all possible extensions to given partial path */ +static void +path_extend(ps_astar_t *nbest, ps_latpath_t * path) +{ + latlink_list_t *x; + ps_latpath_t *newpath; + int32 total_score, tail_score; + + /* Consider all successors of path->node */ + for (x = path->node->exits; x; x = x->next) { + int32 n_used; + + /* Skip successor if no path from it reaches the final node */ + if (x->link->to->info.rem_score <= WORST_SCORE) + continue; + + /* Create path extension and compute exact score for this extension */ + newpath = listelem_malloc(nbest->latpath_alloc); + newpath->node = x->link->to; + newpath->parent = path; + newpath->score = path->score + x->link->ascr; + if (nbest->lmset) { + if (path->parent) { + newpath->score += nbest->lwf + * (ngram_tg_score(nbest->lmset, newpath->node->basewid, + path->node->basewid, + path->parent->node->basewid, &n_used) + >> SENSCR_SHIFT); + } + else + newpath->score += nbest->lwf + * (ngram_bg_score(nbest->lmset, newpath->node->basewid, + path->node->basewid, &n_used) + >> SENSCR_SHIFT); + } + + /* Insert new partial path hypothesis into sorted path_list */ + nbest->n_hyp_tried++; + total_score = newpath->score + newpath->node->info.rem_score; + + /* First see if hyp would be worse than the worst */ + if (nbest->n_path >= MAX_PATHS) { + tail_score = + nbest->path_tail->score + + nbest->path_tail->node->info.rem_score; + if (total_score < tail_score) { + listelem_free(nbest->latpath_alloc, newpath); + nbest->n_hyp_reject++; + continue; + } + } + + path_insert(nbest, newpath, total_score); + } +} + +ps_astar_t * +ps_astar_start(ps_lattice_t *dag, + ngram_model_t *lmset, + float32 lwf, + int sf, int ef, + int w1, int w2) +{ + ps_astar_t *nbest; + ps_latnode_t *node; + + nbest = ckd_calloc(1, sizeof(*nbest)); + nbest->dag = dag; + nbest->lmset = lmset; + nbest->lwf = lwf; + nbest->sf = sf; + if (ef < 0) + nbest->ef = dag->n_frames + 1; + else + nbest->ef = ef; + nbest->w1 = w1; + nbest->w2 = w2; + nbest->latpath_alloc = listelem_alloc_init(sizeof(ps_latpath_t)); + + /* Initialize rem_score (A* heuristic) to default values */ + for (node = dag->nodes; node; node = node->next) { + if (node == dag->end) + node->info.rem_score = 0; + else if (node->exits == NULL) + node->info.rem_score = WORST_SCORE; + else + node->info.rem_score = 1; /* +ve => unknown value */ + } + + /* Create initial partial hypotheses list consisting of nodes starting at sf */ + nbest->path_list = nbest->path_tail = NULL; + for (node = dag->nodes; node; node = node->next) { + if (node->sf == sf) { + ps_latpath_t *path; + int32 n_used; + + best_rem_score(nbest, node); + path = listelem_malloc(nbest->latpath_alloc); + path->node = node; + path->parent = NULL; + if (nbest->lmset) + path->score = nbest->lwf * + ((w1 < 0) + ? ngram_bg_score(nbest->lmset, node->basewid, w2, &n_used) + : ngram_tg_score(nbest->lmset, node->basewid, w2, w1, &n_used)); + else + path->score = 0; + path->score >>= SENSCR_SHIFT; + path_insert(nbest, path, path->score + node->info.rem_score); + } + } + + return nbest; +} + +ps_latpath_t * +ps_astar_next(ps_astar_t *nbest) +{ + ps_lattice_t *dag; + + dag = nbest->dag; + + /* Pop the top (best) partial hypothesis */ + while ((nbest->top = nbest->path_list) != NULL) { + nbest->path_list = nbest->path_list->next; + if (nbest->top == nbest->path_tail) + nbest->path_tail = NULL; + nbest->n_path--; + + /* Complete hypothesis? */ + if ((nbest->top->node->sf >= nbest->ef) + || ((nbest->top->node == dag->end) && + (nbest->ef > dag->end->sf))) { + /* FIXME: Verify that it is non-empty. Also we may want + * to verify that it is actually distinct from other + * paths, since often this is not the case*/ + return nbest->top; + } + else { + if (nbest->top->node->fef < nbest->ef) + path_extend(nbest, nbest->top); + } + } + + /* Did not find any more paths to extend. */ + return NULL; +} + +char const * +ps_astar_hyp(ps_astar_t *nbest, ps_latpath_t *path) +{ + ps_search_t *search; + ps_latpath_t *p; + size_t len; + char *c; + char *hyp; + + search = nbest->dag->search; + + /* Backtrace once to get hypothesis length. */ + len = 0; + for (p = path; p; p = p->parent) { + if (dict_real_word(ps_search_dict(search), p->node->basewid)) { + char *wstr = dict_wordstr(ps_search_dict(search), p->node->basewid); + if (wstr != NULL) + len += strlen(wstr) + 1; + } + } + + if (len == 0) { + return NULL; + } + + /* Backtrace again to construct hypothesis string. */ + hyp = ckd_calloc(1, len); + c = hyp + len - 1; + for (p = path; p; p = p->parent) { + if (dict_real_word(ps_search_dict(search), p->node->basewid)) { + char *wstr = dict_wordstr(ps_search_dict(search), p->node->basewid); + if (wstr != NULL) { + len = strlen(wstr); + c -= len; + memcpy(c, wstr, len); + if (c > hyp) { + --c; + *c = ' '; + } + } + } + } + + nbest->hyps = glist_add_ptr(nbest->hyps, hyp); + return hyp; +} + +static void +ps_astar_node2itor(astar_seg_t *itor) +{ + ps_seg_t *seg = (ps_seg_t *)itor; + ps_latnode_t *node; + + assert(itor->cur < itor->n_nodes); + node = itor->nodes[itor->cur]; + if (itor->cur == itor->n_nodes - 1) + seg->ef = node->lef; + else + seg->ef = itor->nodes[itor->cur + 1]->sf - 1; + seg->word = dict_wordstr(ps_search_dict(seg->search), node->wid); + seg->sf = node->sf; + seg->prob = 0; /* FIXME: implement forward-backward */ +} + +static void +ps_astar_seg_free(ps_seg_t *seg) +{ + astar_seg_t *itor = (astar_seg_t *)seg; + ckd_free(itor->nodes); + ckd_free(itor); +} + +static ps_seg_t * +ps_astar_seg_next(ps_seg_t *seg) +{ + astar_seg_t *itor = (astar_seg_t *)seg; + + ++itor->cur; + if (itor->cur == itor->n_nodes) { + ps_astar_seg_free(seg); + return NULL; + } + else { + ps_astar_node2itor(itor); + } + + return seg; +} + +static ps_segfuncs_t ps_astar_segfuncs = { + /* seg_next */ ps_astar_seg_next, + /* seg_free */ ps_astar_seg_free +}; + +ps_seg_t * +ps_astar_seg_iter(ps_astar_t *astar, ps_latpath_t *path, float32 lwf) +{ + astar_seg_t *itor; + ps_latpath_t *p; + int cur; + + /* Backtrace and make an iterator, this should look familiar by now. */ + itor = ckd_calloc(1, sizeof(*itor)); + itor->base.vt = &ps_astar_segfuncs; + itor->base.search = astar->dag->search; + itor->base.lwf = lwf; + itor->n_nodes = itor->cur = 0; + for (p = path; p; p = p->parent) { + ++itor->n_nodes; + } + itor->nodes = ckd_calloc(itor->n_nodes, sizeof(*itor->nodes)); + cur = itor->n_nodes - 1; + for (p = path; p; p = p->parent) { + itor->nodes[cur] = p->node; + --cur; + } + + ps_astar_node2itor(itor); + return (ps_seg_t *)itor; +} + +void +ps_astar_finish(ps_astar_t *nbest) +{ + gnode_t *gn; + + /* Free all hyps. */ + for (gn = nbest->hyps; gn; gn = gnode_next(gn)) { + ckd_free(gnode_ptr(gn)); + } + glist_free(nbest->hyps); + /* Free all paths. */ + listelem_alloc_free(nbest->latpath_alloc); + /* Free the Henge. */ + ckd_free(nbest); +} + -- cgit v1.2.3