int test_decode(ps_decoder_t *ps) { FILE *rawfh; int16 buf[2048]; size_t nread; int16 const *bptr; int nfr; ps_lattice_t *dag; acmod_t *acmod; ngram_search_t *ngs; int i, j; ps_latlink_t *link; ps_latnode_t *node; latlink_list_t *x; int32 norm, post; ngs = (ngram_search_t *)ps->search; acmod = ps->acmod; /* Decode stuff and build a DAG. */ TEST_ASSERT(rawfh = fopen(DATADIR "/goforward.raw", "rb")); TEST_EQUAL(0, acmod_start_utt(acmod)); ngram_fwdtree_start(ngs); while (!feof(rawfh)) { nread = fread(buf, sizeof(*buf), 2048, rawfh); bptr = buf; while ((nfr = acmod_process_raw(acmod, &bptr, &nread, FALSE)) > 0) { while (acmod->n_feat_frame > 0) { ngram_fwdtree_search(ngs, acmod->output_frame); acmod_advance(acmod); } } } ngram_fwdtree_finish(ngs); printf("FWDTREE: %s\n", ngram_search_bp_hyp(ngs, ngram_search_find_exit(ngs, -1, NULL, NULL))); TEST_ASSERT(acmod_end_utt(acmod) >= 0); fclose(rawfh); dag = ngram_search_lattice(ps->search); if (dag == NULL) { E_ERROR("Failed to build DAG!\n"); return -1; } /* Write lattice to disk. */ TEST_EQUAL(0, ps_lattice_write(dag, "test_posterior.lat")); /* Do a bunch of checks on the DAG generation and traversal code: */ /* Verify that forward and backward iteration give the same number of edges. */ i = j = 0; for (link = ps_lattice_traverse_edges(dag, NULL, NULL); link; link = ps_lattice_traverse_next(dag, NULL)) { ++i; } for (link = ps_lattice_reverse_edges(dag, NULL, NULL); link; link = ps_lattice_reverse_next(dag, NULL)) { ++j; } printf("%d forward edges, %d reverse edges\n", i, j); TEST_EQUAL(i,j); /* Verify that the same links are reachable via entries and exits. */ for (node = dag->nodes; node; node = node->next) { for (x = node->exits; x; x = x->next) x->link->alpha = -42; } for (node = dag->nodes; node; node = node->next) { for (x = node->entries; x; x = x->next) TEST_EQUAL(x->link->alpha, -42); } /* Verify that forward iteration is properly ordered. */ for (link = ps_lattice_traverse_edges(dag, NULL, NULL); link; link = ps_lattice_traverse_next(dag, NULL)) { link->alpha = 0; for (x = link->from->entries; x; x = x->next) { TEST_EQUAL(x->link->alpha, 0); } } /* Verify that backward iteration is properly ordered. */ for (node = dag->nodes; node; node = node->next) { for (x = node->exits; x; x = x->next) x->link->alpha = -42; } for (link = ps_lattice_reverse_edges(dag, NULL, NULL); link; link = ps_lattice_reverse_next(dag, NULL)) { link->alpha = 0; for (x = link->to->exits; x; x = x->next) { TEST_EQUAL(x->link->alpha, 0); } } /* Find and print best path. */ link = ps_lattice_bestpath(dag, ngs->lmset, 1.0, 1.0/20.0); printf("BESTPATH: %s\n", ps_lattice_hyp(dag, link)); /* Calculate betas. */ post = ps_lattice_posterior(dag, ngs->lmset, 1.0/20.0); printf("Best path score: %d\n", link->path_scr + dag->final_node_ascr); printf("P(S|O) = %d\n", post); /* Verify that sum of final alphas and initial alphas+betas is * sufficiently similar. */ norm = logmath_get_zero(acmod->lmath); for (x = dag->start->exits; x; x = x->next) norm = logmath_add(acmod->lmath, norm, x->link->beta + x->link->alpha); E_INFO("Sum of final alphas+betas = %d\n", dag->norm); E_INFO("Sum of initial alphas+betas = %d\n", norm); TEST_EQUAL_LOG(dag->norm, norm); /* Print posterior probabilities for each link in best path. */ while (link) { printf("P(%s,%d) = %d = %f\n", dict_wordstr(ps->search->dict, link->from->wid), link->ef, link->alpha + link->beta - dag->norm, logmath_exp(acmod->lmath, link->alpha + link->beta - dag->norm)); link = link->best_prev; } return 0; }
int main(int argc, char *argv[]) { ps_decoder_t *ps; cmd_ln_t *config; acmod_t *acmod; ngram_search_t *ngs; clock_t c; int i; TEST_ASSERT(config = cmd_ln_init(NULL, ps_args(), TRUE, "-hmm", MODELDIR "/en-us/en-us", "-lm", MODELDIR "/en-us/en-us.lm.dmp", "-dict", MODELDIR "/en-us/cmudict-en-us.dict", "-fwdtree", "yes", "-fwdflat", "no", "-bestpath", "no", "-input_endian", "little", "-samprate", "16000", NULL)); TEST_ASSERT(ps = ps_init(config)); ngs = (ngram_search_t *)ps->search; acmod = ps->acmod; setbuf(stdout, NULL); c = clock(); for (i = 0; i < 5; ++i) { FILE *rawfh; int16 buf[2048]; size_t nread; int16 const *bptr; int nfr; TEST_ASSERT(rawfh = fopen(DATADIR "/goforward.raw", "rb")); TEST_EQUAL(0, acmod_start_utt(acmod)); ngram_fwdtree_start(ngs); while (!feof(rawfh)) { nread = fread(buf, sizeof(*buf), 2048, rawfh); bptr = buf; while ((nfr = acmod_process_raw(acmod, &bptr, &nread, FALSE)) > 0) { while (acmod->n_feat_frame > 0) { ngram_fwdtree_search(ngs, acmod->output_frame); acmod_advance(acmod); } } } ngram_fwdtree_finish(ngs); printf("%s\n", ngram_search_bp_hyp(ngs, ngram_search_find_exit(ngs, -1, NULL, NULL))); TEST_ASSERT(acmod_end_utt(acmod) >= 0); fclose(rawfh); } TEST_EQUAL(0, strcmp("go forward ten meters", ngram_search_bp_hyp(ngs, ngram_search_find_exit(ngs, -1, NULL, NULL)))); c = clock() - c; printf("5 * fwdtree search in %.2f sec\n", (double)c / CLOCKS_PER_SEC); ps_free(ps); cmd_ln_free_r(config); return 0; }
int main(int argc, char *argv[]) { ps_decoder_t *ps; cmd_ln_t *config; acmod_t *acmod; ngram_search_t *ngs; ps_lattice_t *dag; clock_t c; int i; TEST_ASSERT(config = cmd_ln_init(NULL, ps_args(), TRUE, "-hmm", MODELDIR "/en-us/en-us", "-lm", MODELDIR "/en-us/en-us.lm.bin", "-dict", MODELDIR "/en-us/cmudict-en-us.dict", "-fwdtree", "yes", "-fwdflat", "no", "-bestpath", "yes", "-samprate", "16000", NULL)); TEST_ASSERT(ps = ps_init(config)); ngs = (ngram_search_t *)ps->search; acmod = ps->acmod; acmod_set_grow(ps->acmod, TRUE); setbuf(stdout, NULL); c = clock(); for (i = 0; i < 5; ++i) { FILE *rawfh; int16 buf[2048]; size_t nread; int16 const *bptr; int nfr; ps_astar_t *nbest; ps_latpath_t *path; char *besthyp; const char *astar_besthyp = NULL; int32 astar_hyp_score; int i; /* PocketSphinx API would do this for us but we have to do it manually here. */ ps_lattice_free(ps->search->dag); ps->search->dag = NULL; TEST_ASSERT(rawfh = fopen(DATADIR "/goforward.raw", "rb")); TEST_EQUAL(0, acmod_start_utt(acmod)); ngram_fwdtree_start(ngs); while (!feof(rawfh)) { nread = fread(buf, sizeof(*buf), 2048, rawfh); bptr = buf; while ((nfr = acmod_process_raw(acmod, &bptr, &nread, FALSE)) > 0) { while (acmod->n_feat_frame > 0) { ngram_fwdtree_search(ngs, acmod->output_frame); acmod_advance(acmod); } } } ngram_fwdtree_finish(ngs); printf("FWDTREE: %s\n", ngram_search_bp_hyp(ngs, ngram_search_find_exit(ngs, -1, NULL))); TEST_ASSERT(acmod_end_utt(acmod) >= 0); fclose(rawfh); dag = ngram_search_lattice(ps->search); if (dag == NULL) { E_ERROR("Failed to build DAG!\n"); return 1; } besthyp = ckd_salloc (ps_lattice_hyp(dag, ps_lattice_bestpath (dag, ngs->lmset, 9.5/6.5, 1.0))); printf("BESTPATH: %s\n", besthyp); TEST_ASSERT(nbest = ps_astar_start(dag, ngs->lmset, 9.5/6.5, 0, -1, -1, -1)); i = 0; astar_hyp_score = WORST_SCORE; while ((path = ps_astar_next(nbest))) { if (i < 10) printf("NBEST %d: %s (%d)\n", i, ps_astar_hyp(nbest, path), path->score); if (path->score > astar_hyp_score) { astar_hyp_score = path->score; astar_besthyp = ps_astar_hyp(nbest, path); } i++; } TEST_EQUAL(0, strcmp(besthyp, astar_besthyp)); ps_astar_finish(nbest); ckd_free(besthyp); } printf("%s\n", ngram_search_bp_hyp(ngs, ngram_search_find_exit(ngs, -1, NULL))); TEST_EQUAL(0, strcmp("go forward ten meters", ngram_search_bp_hyp(ngs, ngram_search_find_exit(ngs, -1, NULL)))); c = clock() - c; printf("5 * fwdtree + bestpath + N-best search in %.2f sec\n", (double)c / CLOCKS_PER_SEC); ps_free(ps); cmd_ln_free_r(config); return 0; }