/* ----------------------------------------------------------------- */ /* The HMM-Based Speech Synthesis Engine "hts_engine API" */ /* developed by HTS Working Group */ /* http://hts-engine.sourceforge.net/ */ /* ----------------------------------------------------------------- */ /* */ /* Copyright (c) 2001-2015 Nagoya Institute of Technology */ /* Department of Computer Science */ /* */ /* 2001-2008 Tokyo Institute of Technology */ /* Interdisciplinary Graduate School of */ /* Science and Engineering */ /* */ /* All rights reserved. */ /* */ /* Redistribution and use in source and binary forms, with or */ /* without modification, are permitted provided that the following */ /* conditions are met: */ /* */ /* - Redistributions of source code must retain the above copyright */ /* notice, this list of conditions and the following disclaimer. */ /* - 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. */ /* - Neither the name of the HTS working group nor the names of its */ /* contributors may be used to endorse or promote products derived */ /* from this software without specific prior written permission. */ /* */ /* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND */ /* CONTRIBUTORS "AS IS" AND ANY EXPRESS 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 THE COPYRIGHT OWNER OR CONTRIBUTORS */ /* 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. */ /* ----------------------------------------------------------------- */ #ifndef HTS_SSTREAM_C #define HTS_SSTREAM_C #ifdef __cplusplus #define HTS_SSTREAM_C_START extern "C" { #define HTS_SSTREAM_C_END } #else #define HTS_SSTREAM_C_START #define HTS_SSTREAM_C_END #endif /* __CPLUSPLUS */ HTS_SSTREAM_C_START; #include #include /* hts_engine libraries */ #include "HTS_hidden.h" /* HTS_set_default_duration: set default duration from state duration probability distribution */ static double HTS_set_default_duration(size_t * duration, double *mean, double *vari, size_t size) { size_t i; double temp; size_t sum = 0; for (i = 0; i < size; i++) { temp = mean[i] + 0.5; if (temp < 1.0) duration[i] = 1; else duration[i] = (size_t) temp; sum += duration[i]; } return (double) sum; } /* HTS_set_specified_duration: set duration from state duration probability distribution and specified frame length */ static double HTS_set_specified_duration(size_t * duration, double *mean, double *vari, size_t size, double frame_length) { size_t i; int j; double temp1, temp2; double rho = 0.0; size_t sum = 0; size_t target_length; /* get the target frame length */ if (frame_length + 0.5 < 1.0) target_length = 1; else target_length = (size_t) (frame_length + 0.5); /* check the specified duration */ if (target_length <= size) { if (target_length < size) HTS_error(-1, "HTS_set_specified_duration: Specified frame length is too short.\n"); for (i = 0; i < size; i++) duration[i] = 1; return (double) size; } /* RHO calculation */ temp1 = 0.0; temp2 = 0.0; for (i = 0; i < size; i++) { temp1 += mean[i]; temp2 += vari[i]; } rho = ((double) target_length - temp1) / temp2; /* first estimation */ for (i = 0; i < size; i++) { temp1 = mean[i] + rho * vari[i] + 0.5; if (temp1 < 1.0) duration[i] = 1; else duration[i] = (size_t) temp1; sum += duration[i]; } /* loop estimation */ while (target_length != sum) { /* sarch flexible state and modify its duration */ if (target_length > sum) { j = -1; for (i = 0; i < size; i++) { temp2 = fabs(rho - ((double) duration[i] + 1 - mean[i]) / vari[i]); if (j < 0 || temp1 > temp2) { j = i; temp1 = temp2; } } sum++; duration[j]++; } else { j = -1; for (i = 0; i < size; i++) { if (duration[i] > 1) { temp2 = fabs(rho - ((double) duration[i] - 1 - mean[i]) / vari[i]); if (j < 0 || temp1 > temp2) { j = i; temp1 = temp2; } } } sum--; duration[j]--; } } return (double) target_length; } /* HTS_SStreamSet_initialize: initialize state stream set */ void HTS_SStreamSet_initialize(HTS_SStreamSet * sss) { sss->nstream = 0; sss->nstate = 0; sss->sstream = NULL; sss->duration = NULL; sss->total_state = 0; sss->total_frame = 0; } /* HTS_SStreamSet_create: parse label and determine state duration */ HTS_Boolean HTS_SStreamSet_create(HTS_SStreamSet * sss, HTS_ModelSet * ms, HTS_Label * label, HTS_Boolean phoneme_alignment_flag, double speed, double *duration_iw, double **parameter_iw, double **gv_iw) { size_t i, j, k; double temp; int shift; size_t state; HTS_SStream *sst; double *duration_mean, *duration_vari; double frame_length; size_t next_time; size_t next_state; if (HTS_Label_get_size(label) == 0) return FALSE; /* check interpolation weights */ for (i = 0, temp = 0.0; i < HTS_ModelSet_get_nvoices(ms); i++) temp += duration_iw[i]; if (temp == 0.0) { return FALSE; } else if (temp != 1.0) { for (i = 0; i < HTS_ModelSet_get_nvoices(ms); i++) if (duration_iw[i] != 0.0) duration_iw[i] /= temp; } for (i = 0; i < HTS_ModelSet_get_nstream(ms); i++) { for (j = 0, temp = 0.0; j < HTS_ModelSet_get_nvoices(ms); j++) temp += parameter_iw[j][i]; if (temp == 0.0) { return FALSE; } else if (temp != 1.0) { for (j = 0; j < HTS_ModelSet_get_nvoices(ms); j++) if (parameter_iw[j][i] != 0.0) parameter_iw[j][i] /= temp; } if (HTS_ModelSet_use_gv(ms, i)) { for (j = 0, temp = 0.0; j < HTS_ModelSet_get_nvoices(ms); j++) temp += gv_iw[j][i]; if (temp == 0.0) return FALSE; else if (temp != 1.0) for (j = 0; j < HTS_ModelSet_get_nvoices(ms); j++) if (gv_iw[j][i] != 0.0) gv_iw[j][i] /= temp; } } /* initialize state sequence */ sss->nstate = HTS_ModelSet_get_nstate(ms); sss->nstream = HTS_ModelSet_get_nstream(ms); sss->total_frame = 0; sss->total_state = HTS_Label_get_size(label) * sss->nstate; sss->duration = (size_t *) HTS_calloc(sss->total_state, sizeof(size_t)); sss->sstream = (HTS_SStream *) HTS_calloc(sss->nstream, sizeof(HTS_SStream)); for (i = 0; i < sss->nstream; i++) { sst = &sss->sstream[i]; sst->vector_length = HTS_ModelSet_get_vector_length(ms, i); sst->mean = (double **) HTS_calloc(sss->total_state, sizeof(double *)); sst->vari = (double **) HTS_calloc(sss->total_state, sizeof(double *)); if (HTS_ModelSet_is_msd(ms, i)) sst->msd = (double *) HTS_calloc(sss->total_state, sizeof(double)); else sst->msd = NULL; for (j = 0; j < sss->total_state; j++) { sst->mean[j] = (double *) HTS_calloc(sst->vector_length * HTS_ModelSet_get_window_size(ms, i), sizeof(double)); sst->vari[j] = (double *) HTS_calloc(sst->vector_length * HTS_ModelSet_get_window_size(ms, i), sizeof(double)); } if (HTS_ModelSet_use_gv(ms, i)) { sst->gv_switch = (HTS_Boolean *) HTS_calloc(sss->total_state, sizeof(HTS_Boolean)); for (j = 0; j < sss->total_state; j++) sst->gv_switch[j] = TRUE; } else { sst->gv_switch = NULL; } } /* determine state duration */ duration_mean = (double *) HTS_calloc(sss->total_state, sizeof(double)); duration_vari = (double *) HTS_calloc(sss->total_state, sizeof(double)); for (i = 0; i < HTS_Label_get_size(label); i++) HTS_ModelSet_get_duration(ms, HTS_Label_get_string(label, i), duration_iw, &duration_mean[i * sss->nstate], &duration_vari[i * sss->nstate]); if (phoneme_alignment_flag == TRUE) { /* use duration set by user */ next_time = 0; next_state = 0; state = 0; for (i = 0; i < HTS_Label_get_size(label); i++) { temp = HTS_Label_get_end_frame(label, i); if (temp >= 0) { next_time += (size_t) HTS_set_specified_duration(&sss->duration[next_state], &duration_mean[next_state], &duration_vari[next_state], state + sss->nstate - next_state, temp - next_time); next_state = state + sss->nstate; } else if (i + 1 == HTS_Label_get_size(label)) { HTS_error(-1, "HTS_SStreamSet_create: The time of final label is not specified.\n"); HTS_set_default_duration(&sss->duration[next_state], &duration_mean[next_state], &duration_vari[next_state], state + sss->nstate - next_state); } state += sss->nstate; } } else { /* determine frame length */ if (speed != 1.0) { temp = 0.0; for (i = 0; i < sss->total_state; i++) { temp += duration_mean[i]; } frame_length = temp / speed; HTS_set_specified_duration(sss->duration, duration_mean, duration_vari, sss->total_state, frame_length); } else { HTS_set_default_duration(sss->duration, duration_mean, duration_vari, sss->total_state); } } HTS_free(duration_mean); HTS_free(duration_vari); /* get parameter */ for (i = 0, state = 0; i < HTS_Label_get_size(label); i++) { for (j = 2; j <= sss->nstate + 1; j++) { sss->total_frame += sss->duration[state]; for (k = 0; k < sss->nstream; k++) { sst = &sss->sstream[k]; if (sst->msd) HTS_ModelSet_get_parameter(ms, k, j, HTS_Label_get_string(label, i), (const double *const *) parameter_iw, sst->mean[state], sst->vari[state], &sst->msd[state]); else HTS_ModelSet_get_parameter(ms, k, j, HTS_Label_get_string(label, i), (const double *const *) parameter_iw, sst->mean[state], sst->vari[state], NULL); } state++; } } /* copy dynamic window */ for (i = 0; i < sss->nstream; i++) { sst = &sss->sstream[i]; sst->win_size = HTS_ModelSet_get_window_size(ms, i); sst->win_max_width = HTS_ModelSet_get_window_max_width(ms, i); sst->win_l_width = (int *) HTS_calloc(sst->win_size, sizeof(int)); sst->win_r_width = (int *) HTS_calloc(sst->win_size, sizeof(int)); sst->win_coefficient = (double **) HTS_calloc(sst->win_size, sizeof(double)); for (j = 0; j < sst->win_size; j++) { sst->win_l_width[j] = HTS_ModelSet_get_window_left_width(ms, i, j); sst->win_r_width[j] = HTS_ModelSet_get_window_right_width(ms, i, j); if (sst->win_l_width[j] + sst->win_r_width[j] == 0) sst->win_coefficient[j] = (double *) HTS_calloc(-2 * sst->win_l_width[j] + 1, sizeof(double)); else sst->win_coefficient[j] = (double *) HTS_calloc(-2 * sst->win_l_width[j], sizeof(double)); sst->win_coefficient[j] -= sst->win_l_width[j]; for (shift = sst->win_l_width[j]; shift <= sst->win_r_width[j]; shift++) sst->win_coefficient[j][shift] = HTS_ModelSet_get_window_coefficient(ms, i, j, shift); } } /* determine GV */ for (i = 0; i < sss->nstream; i++) { sst = &sss->sstream[i]; if (HTS_ModelSet_use_gv(ms, i)) { sst->gv_mean = (double *) HTS_calloc(sst->vector_length, sizeof(double)); sst->gv_vari = (double *) HTS_calloc(sst->vector_length, sizeof(double)); HTS_ModelSet_get_gv(ms, i, HTS_Label_get_string(label, 0), (const double *const *) gv_iw, sst->gv_mean, sst->gv_vari); } else { sst->gv_mean = NULL; sst->gv_vari = NULL; } } for (i = 0; i < HTS_Label_get_size(label); i++) if (HTS_ModelSet_get_gv_flag(ms, HTS_Label_get_string(label, i)) == FALSE) for (j = 0; j < sss->nstream; j++) if (HTS_ModelSet_use_gv(ms, j) == TRUE) for (k = 0; k < sss->nstate; k++) sss->sstream[j].gv_switch[i * sss->nstate + k] = FALSE; return TRUE; } /* HTS_SStreamSet_get_nstream: get number of stream */ size_t HTS_SStreamSet_get_nstream(HTS_SStreamSet * sss) { return sss->nstream; } /* HTS_SStreamSet_get_vector_length: get vector length */ size_t HTS_SStreamSet_get_vector_length(HTS_SStreamSet * sss, size_t stream_index) { return sss->sstream[stream_index].vector_length; } /* HTS_SStreamSet_is_msd: get MSD flag */ HTS_Boolean HTS_SStreamSet_is_msd(HTS_SStreamSet * sss, size_t stream_index) { return sss->sstream[stream_index].msd ? TRUE : FALSE; } /* HTS_SStreamSet_get_total_state: get total number of state */ size_t HTS_SStreamSet_get_total_state(HTS_SStreamSet * sss) { return sss->total_state; } /* HTS_SStreamSet_get_total_frame: get total number of frame */ size_t HTS_SStreamSet_get_total_frame(HTS_SStreamSet * sss) { return sss->total_frame; } /* HTS_SStreamSet_get_msd: get MSD parameter */ double HTS_SStreamSet_get_msd(HTS_SStreamSet * sss, size_t stream_index, size_t state_index) { return sss->sstream[stream_index].msd[state_index]; } /* HTS_SStreamSet_window_size: get dynamic window size */ size_t HTS_SStreamSet_get_window_size(HTS_SStreamSet * sss, size_t stream_index) { return sss->sstream[stream_index].win_size; } /* HTS_SStreamSet_get_window_left_width: get left width of dynamic window */ int HTS_SStreamSet_get_window_left_width(HTS_SStreamSet * sss, size_t stream_index, size_t window_index) { return sss->sstream[stream_index].win_l_width[window_index]; } /* HTS_SStreamSet_get_winodow_right_width: get right width of dynamic window */ int HTS_SStreamSet_get_window_right_width(HTS_SStreamSet * sss, size_t stream_index, size_t window_index) { return sss->sstream[stream_index].win_r_width[window_index]; } /* HTS_SStreamSet_get_window_coefficient: get coefficient of dynamic window */ double HTS_SStreamSet_get_window_coefficient(HTS_SStreamSet * sss, size_t stream_index, size_t window_index, int coefficient_index) { return sss->sstream[stream_index].win_coefficient[window_index][coefficient_index]; } /* HTS_SStreamSet_get_window_max_width: get max width of dynamic window */ size_t HTS_SStreamSet_get_window_max_width(HTS_SStreamSet * sss, size_t stream_index) { return sss->sstream[stream_index].win_max_width; } /* HTS_SStreamSet_use_gv: get GV flag */ HTS_Boolean HTS_SStreamSet_use_gv(HTS_SStreamSet * sss, size_t stream_index) { return sss->sstream[stream_index].gv_mean ? TRUE : FALSE; } /* HTS_SStreamSet_get_duration: get state duration */ size_t HTS_SStreamSet_get_duration(HTS_SStreamSet * sss, size_t state_index) { return sss->duration[state_index]; } /* HTS_SStreamSet_get_mean: get mean parameter */ double HTS_SStreamSet_get_mean(HTS_SStreamSet * sss, size_t stream_index, size_t state_index, size_t vector_index) { return sss->sstream[stream_index].mean[state_index][vector_index]; } /* HTS_SStreamSet_set_mean: set mean parameter */ void HTS_SStreamSet_set_mean(HTS_SStreamSet * sss, size_t stream_index, size_t state_index, size_t vector_index, double f) { sss->sstream[stream_index].mean[state_index][vector_index] = f; } /* HTS_SStreamSet_get_vari: get variance parameter */ double HTS_SStreamSet_get_vari(HTS_SStreamSet * sss, size_t stream_index, size_t state_index, size_t vector_index) { return sss->sstream[stream_index].vari[state_index][vector_index]; } /* HTS_SStreamSet_set_vari: set variance parameter */ void HTS_SStreamSet_set_vari(HTS_SStreamSet * sss, size_t stream_index, size_t state_index, size_t vector_index, double f) { sss->sstream[stream_index].vari[state_index][vector_index] = f; } /* HTS_SStreamSet_get_gv_mean: get GV mean parameter */ double HTS_SStreamSet_get_gv_mean(HTS_SStreamSet * sss, size_t stream_index, size_t vector_index) { return sss->sstream[stream_index].gv_mean[vector_index]; } /* HTS_SStreamSet_get_gv_mean: get GV variance parameter */ double HTS_SStreamSet_get_gv_vari(HTS_SStreamSet * sss, size_t stream_index, size_t vector_index) { return sss->sstream[stream_index].gv_vari[vector_index]; } /* HTS_SStreamSet_set_gv_switch: set GV switch */ void HTS_SStreamSet_set_gv_switch(HTS_SStreamSet * sss, size_t stream_index, size_t state_index, HTS_Boolean i) { sss->sstream[stream_index].gv_switch[state_index] = i; } /* HTS_SStreamSet_get_gv_switch: get GV switch */ HTS_Boolean HTS_SStreamSet_get_gv_switch(HTS_SStreamSet * sss, size_t stream_index, size_t state_index) { return sss->sstream[stream_index].gv_switch[state_index]; } /* HTS_SStreamSet_clear: free state stream set */ void HTS_SStreamSet_clear(HTS_SStreamSet * sss) { size_t i, j; HTS_SStream *sst; if (sss->sstream) { for (i = 0; i < sss->nstream; i++) { sst = &sss->sstream[i]; for (j = 0; j < sss->total_state; j++) { HTS_free(sst->mean[j]); HTS_free(sst->vari[j]); } if (sst->msd) HTS_free(sst->msd); HTS_free(sst->mean); HTS_free(sst->vari); for (j = 0; j < sst->win_size; j++) { sst->win_coefficient[j] += sst->win_l_width[j]; HTS_free(sst->win_coefficient[j]); } HTS_free(sst->win_coefficient); HTS_free(sst->win_l_width); HTS_free(sst->win_r_width); if (sst->gv_mean) HTS_free(sst->gv_mean); if (sst->gv_vari) HTS_free(sst->gv_vari); if (sst->gv_switch) HTS_free(sst->gv_switch); } HTS_free(sss->sstream); } if (sss->duration) HTS_free(sss->duration); HTS_SStreamSet_initialize(sss); } HTS_SSTREAM_C_END; #endif /* !HTS_SSTREAM_C */