ref: 64061a0b01413a0aa8f7e19c34475b2d80182a88
dir: /src/cg/cst_cg_dump_voice.c/
/*************************************************************************/ /* */ /* Language Technologies Institute */ /* Carnegie Mellon University */ /* Copyright (c) 2010-2011 */ /* All Rights Reserved. */ /* */ /* Permission is hereby granted, free of charge, to use and distribute */ /* this software and its documentation without restriction, including */ /* without limitation the rights to use, copy, modify, merge, publish, */ /* distribute, sublicense, and/or sell copies of this work, and to */ /* permit persons to whom this work is furnished to do so, subject to */ /* the following conditions: */ /* 1. The code must retain the above copyright notice, this list of */ /* conditions and the following disclaimer. */ /* 2. Any modifications must be clearly marked as such. */ /* 3. Original authors' names are not deleted. */ /* 4. The authors' names are not used to endorse or promote products */ /* derived from this software without specific prior written */ /* permission. */ /* */ /* CARNEGIE MELLON UNIVERSITY AND THE CONTRIBUTORS TO THIS WORK */ /* DISCLAIM ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING */ /* ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT */ /* SHALL CARNEGIE MELLON UNIVERSITY NOR THE CONTRIBUTORS BE LIABLE */ /* FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES */ /* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN */ /* AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, */ /* ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF */ /* THIS SOFTWARE. */ /* */ /*************************************************************************/ /* Author: Alok Parlikar (aup@cs.cmu.edu) */ /* Date: March 2010 */ /*************************************************************************/ /* */ /* Utility for dumping a clustergen voice as a loadable file */ /* Should be safe over different address architectures, but cannot */ /* yet load from files dumps with different endianness */ /*************************************************************************/ #include "cst_file.h" #include "cst_cg.h" #include "cst_cart.h" #include "cst_cg_map.h" /* Write magic string */ static void cst_cg_write_header(cst_file fd) { const char *header = cg_voice_header_string; cst_fwrite(fd,header,1,cst_strlen(header)+1); cst_fwrite(fd,&cst_endian_loc,sizeof(int),1); /* for byte order check */ } static void cst_cg_write_padded(cst_file fd, const void* data, int numbytes) { /* We used to do 4-byte alignments. but that's not necessary now */ cst_fwrite(fd, &numbytes, sizeof(int), 1); cst_fwrite(fd, data, 1, numbytes); } /* Write the CG types */ static void cst_cg_write_db_types(cst_file fd, const cst_cg_db* db) { int i,n; n=0; while(db->types[n]) n++; cst_fwrite(fd, &n,sizeof(int),1); for (i=0; i<n; i++) cst_cg_write_padded(fd, (void*)(db->types[i]), strlen(db->types[i])+1); } /* Write the nodes of a cart tree */ static void cst_cg_write_tree_nodes(cst_file fd, const cst_cart_node* nodes) { int num_nodes, i; int an_int; float a_float; num_nodes=0; while(nodes[num_nodes].val != 0) num_nodes++; cst_fwrite(fd, &num_nodes,sizeof(int),1); for (i=0; i<num_nodes; i++) { cst_fwrite(fd, &nodes[i].feat,sizeof(char),1); cst_fwrite(fd, &nodes[i].op,sizeof(char),1); cst_fwrite(fd, &nodes[i].no_node,sizeof(short),1); cst_fwrite(fd, &nodes[i].val->c.a.type,sizeof(short),1); if (nodes[i].val->c.a.type == CST_VAL_TYPE_STRING) { cst_cg_write_padded(fd, nodes[i].val->c.a.v.vval, cst_strlen(nodes[i].val->c.a.v.vval)+1); } else if (nodes[i].val->c.a.type == CST_VAL_TYPE_INT) { an_int=nodes[i].val->c.a.v.ival; cst_fwrite(fd, &an_int,sizeof(int),1); } else if (nodes[i].val->c.a.type == CST_VAL_TYPE_FLOAT) { a_float=nodes[i].val->c.a.v.fval; cst_fwrite(fd, &a_float,sizeof(float),1); } else { /* its not going to work without more code ... */ cst_fwrite(fd, &nodes[i].val->c.a.v.ival,sizeof(int),1); } } } /* Write the feats table of a cart tree */ static void cst_cg_write_tree_feats(cst_file fd, const char* const* feats) { int i; i=0; while(feats[i]) i++; cst_fwrite(fd, &i,sizeof(int),1); for (i=0; feats[i]; i++) cst_cg_write_padded(fd, (void*)(feats[i]), strlen(feats[i])+1); } /* Write a cart tree */ static void cst_cg_write_tree(cst_file fd, const cst_cart* tree) { cst_cg_write_tree_nodes(fd, tree->rule_table); cst_cg_write_tree_feats(fd, tree->feat_table); } /* Write an array of cart trees */ static void cst_cg_write_tree_array(cst_file fd, const cst_cart* const * trees) { int i=0; while(trees && trees[i]) i++; cst_fwrite(fd, &i,sizeof(int),1); for (i=0; trees && trees[i]; i++) cst_cg_write_tree(fd, trees[i]); } /* Write a single dimensional array whose total size is "bytesize" */ static void cst_cg_write_array(cst_file fd, const void* data, int bytesize) { cst_cg_write_padded(fd, data, bytesize); } /* Write a two dimensional array, use different functions for different item sizes -- to be safe (I made errors before on this) */ static void cst_cg_write_2d_array_short(cst_file fd, const unsigned short ** data, int rows, int cols) { int i; int columnsize = cols*sizeof(unsigned short); cst_fwrite(fd, &rows, sizeof(int),1); for(i=0;i<rows;i++) cst_cg_write_array(fd, data[i], columnsize); } static void cst_cg_write_2d_array_float(cst_file fd, const float * const *data, int rows, int cols) { int i; int columnsize = cols*sizeof(float); cst_fwrite(fd, &rows, sizeof(int),1); for(i=0;i<rows;i++) cst_cg_write_array(fd, data[i], columnsize); } static void cst_cg_write_2d_array_double(cst_file fd, const double *const *data, int rows, int cols) { int i; int columnsize = cols*sizeof(double); cst_fwrite(fd, &rows, sizeof(int),1); for(i=0;i<rows;i++) cst_cg_write_array(fd, data[i], columnsize); } /* Write duration stats */ static void cst_cg_write_dur_stats(cst_file fd, const dur_stat* const * ds) { int i; int numstats; const char* s; numstats = 0; while(ds[numstats]) numstats++; cst_fwrite(fd, &numstats, sizeof(int), 1); /* Write the string resources */ for(i=0;i<numstats;i++) { cst_fwrite(fd, &ds[i]->mean, sizeof(float), 1); cst_fwrite(fd, &ds[i]->stddev, sizeof(float), 1); s = ds[i]->phone; cst_cg_write_padded(fd, s, strlen(s)+1); } } /* Write phone-states mapping */ static void cst_cg_write_phone_states(cst_file fd, const char* const * const * ps) { int i,j; int count; int count2; count=0; while(ps[count]) count++; cst_fwrite(fd, &count, sizeof(int),1); for(i=0;i<count;i++) { count2=0; while(ps[i][count2]) count2++; cst_fwrite(fd, &count2, sizeof(int),1); for(j=0;j<count2;j++) cst_cg_write_padded(fd, ps[i][j],strlen(ps[i][j])+1); } } /* Write a feature that will get loaded into the voice */ static void cst_cg_write_voice_feature(cst_file fd, const char* fname, const char* fval) { cst_cg_write_padded(fd, fname, cst_strlen(fname)+1); cst_cg_write_padded(fd, fval, cst_strlen(fval)+1); } static int cst_actual_num_channels(const cst_cg_db *db, int pm) { /* This function should really be part of the commpression/uncompresssion code */ if (db->model_shape == CST_CG_MODEL_SHAPE_QUANTIZED_PARAMS) return db->num_channels[pm]/2; else if (db->model_shape == CST_CG_MODEL_SHAPE_QUANTIZED_PARAMS_41) return 41; else return db->num_channels[pm]; } int cst_cg_dump_voice(const cst_voice *v,const cst_string *filename) { cst_file fd; const cst_cg_db* db; int dm, pm; if ((fd = cst_fopen(filename,CST_OPEN_WRITE|CST_OPEN_BINARY)) == NULL) return 0; if (!feat_present(v->features,"cg_db")) return 0; /* not a CG voice */ db = val_cg_db(feat_val(v->features,"cg_db")); cst_cg_write_header(fd); cst_cg_write_voice_feature(fd, "language", get_param_string(v->features,"language","eng")); if (get_param_string(v->features,"secondary_languages",NULL)) cst_cg_write_voice_feature(fd, "secondary_languages", get_param_string(v->features,"secondary_languages","")); cst_cg_write_voice_feature(fd, "country", get_param_string(v->features,"country","USA")); cst_cg_write_voice_feature(fd, "variant", get_param_string(v->features,"variant","none")); cst_cg_write_voice_feature(fd, "age", get_param_string(v->features,"age","30")); cst_cg_write_voice_feature(fd, "gender", get_param_string(v->features,"gender","unknown")); cst_cg_write_voice_feature(fd, "build_date", get_param_string(v->features,"build_date","unknown")); cst_cg_write_voice_feature(fd, "description", get_param_string(v->features,"description","unknown")); // Sai Krishna 07 July 2017 // Flag to use shared vs mapped phoneset. Storing as string cst_cg_write_voice_feature(fd, "eng_shared", get_param_string(v->features,"eng_shared","0")); /* These three must be saved as string features (though are interpreted as floats) */ if (get_param_string(v->features,"int_f0_target_mean",NULL)) cst_cg_write_voice_feature(fd, "int_f0_target_mean", get_param_string(v->features,"int_f0_target_mean",NULL)); if (get_param_string(v->features,"int_f0_target_stddev",NULL)) cst_cg_write_voice_feature(fd, "int_f0_target_stddev", get_param_string(v->features,"int_f0_target_stddev",NULL)); if (get_param_string(v->features,"duration_stretch",NULL)) cst_cg_write_voice_feature(fd, "duration_stretch", get_param_string(v->features,"duration_stretch",NULL)); cst_cg_write_voice_feature(fd, "copyright", get_param_string(v->features,"copyright","unknown")); /* These features define the number of models to be read */ cst_cg_write_voice_feature(fd,"num_dur_models", val_string(val_string_n(db->num_dur_models))); cst_cg_write_voice_feature(fd,"num_param_models", val_string(val_string_n(db->num_param_models))); cst_cg_write_voice_feature(fd,"model_shape", val_string(val_string_n(db->model_shape))); cst_cg_write_voice_feature(fd,"num_f0_models", val_string(val_string_n(db->num_f0_models))); cst_cg_write_voice_feature(fd, "end_of_features","end_of_features"); /* db name */ cst_cg_write_padded(fd, (void*)db->name, cst_strlen(db->name)+1); cst_cg_write_db_types(fd, db); cst_fwrite(fd,&db->num_types,sizeof(int),1); cst_fwrite(fd,&db->sample_rate,sizeof(int),1); cst_fwrite(fd,&db->f0_mean,sizeof(float),1); cst_fwrite(fd,&db->f0_stddev,sizeof(float),1); for (pm=0; pm<db->num_f0_models; pm++) cst_cg_write_tree_array(fd,db->f0_trees[pm]); for (pm=0; pm<db->num_param_models; pm++) cst_cg_write_tree_array(fd,db->param_trees[pm]); cst_fwrite(fd,&db->spamf0,sizeof(int),1); if (db->spamf0) { cst_cg_write_tree(fd,db->spamf0_accent_tree); cst_cg_write_tree(fd,db->spamf0_phrase_tree); } for (pm=0; pm<db->num_param_models; pm++) { cst_fwrite(fd,&db->num_channels[pm],sizeof(int),1); cst_fwrite(fd,&db->num_frames[pm],sizeof(int),1); cst_cg_write_2d_array_short(fd, db->model_vectors[pm], db->num_frames[pm], cst_actual_num_channels(db,pm)); } if (db->spamf0) { cst_fwrite(fd,&db->num_channels_spamf0_accent,sizeof(int),1); cst_fwrite(fd,&db->num_frames_spamf0_accent,sizeof(int),1); cst_cg_write_2d_array_float(fd, db->spamf0_accent_vectors, db->num_frames_spamf0_accent, db->num_channels_spamf0_accent); } cst_cg_write_array(fd, db->model_min, sizeof(float)*db->num_channels[0]); cst_cg_write_array(fd, db->model_range, sizeof(float)*db->num_channels[0]); if (db->model_shape > CST_CG_MODEL_SHAPE_BASE_MINRANGE) { /* dump the qtable if shape > 1 */ for (pm=0; pm<db->num_param_models; pm++) { cst_cg_write_2d_array_float(fd, db->qtable[pm], db->num_channels[pm], /* "frames" */ 256); } } cst_fwrite(fd,&db->frame_advance,sizeof(float),1); for (dm=0; dm<db->num_dur_models; dm++) { cst_cg_write_dur_stats(fd, db->dur_stats[dm]); cst_cg_write_tree(fd, db->dur_cart[dm]); } cst_cg_write_phone_states(fd, db->phone_states); cst_fwrite(fd,&db->do_mlpg,sizeof(int),1); cst_cg_write_array(fd, db->dynwin, db->dynwinsize*sizeof(float)); cst_fwrite(fd,&db->dynwinsize,sizeof(int),1); cst_fwrite(fd,&db->mlsa_alpha,sizeof(float),1); cst_fwrite(fd,&db->mlsa_beta,sizeof(float),1); cst_fwrite(fd,&db->multimodel,sizeof(int),1); cst_fwrite(fd,&db->mixed_excitation,sizeof(int),1); cst_fwrite(fd,&db->ME_num,sizeof(int),1); cst_fwrite(fd,&db->ME_order,sizeof(int),1); cst_cg_write_2d_array_double(fd, db->me_h, db->ME_num, db->ME_order); cst_fwrite(fd,&db->spamf0,sizeof(int),1); cst_fwrite(fd,&db->gain,sizeof(float),1); cst_fclose(fd); return 1; }