void setText( char *rel, char *val )
{
strcpy( slot_Speak_stat, "PROCESSING" );
if( prop_Speak_stat == AutoOutput ) inqSpeakStat();
if( strcmp(rel,"=")==0 ) {
refresh();
text_analysis( val ); /* テキスト解析 */
if( prop_Text_text == AutoOutput ) inqTextText();
if( prop_Speak_text == AutoOutput ) inqSpeakText();
parameter_generation(); /* パラメータ生成(F0,MLSAフィルタ係数,継続長) */
do_synthesis(); /* 合成波形の生成 */
#ifdef PRINTDATA
TmpMsg( "Synthesis Done.\n" );
#endif
/* } else if( strcmp(rel,"<")==0 ) {
} else if( strcmp(rel,"<<")==0 ) {
*/
} else {
unknown_com();
}
strcpy( slot_Speak_stat, "READY" );
if( prop_Speak_stat == AutoOutput ) inqSpeakStat();
}
static int socket_accept(GSOCKET sock)
{
int len;
int child_fd;
if (FD_ISSET(sock->fd, &sock->readfds) != 0) {
len = sizeof(sock->addr);
if ((child_fd =
accept(sock->fd, (struct sockaddr *)&sock->addr, &len)) == -1) {
return -1;
}
if (sock->child_fd == -1) {
sock->child_fd = child_fd;
} else {
TmpMsg("Refuse connection.\n");
#if defined(_WIN32) && !defined(__CYGWIN32__)
closesocket(child_fd);
#else
close(child_fd);
#endif
}
}
return 1;
}
/* 茶筌の結果をファイルから読み込み */
void setParsedText( char *rel, char *filename )
{
if( strcmp(rel,"=")==0 ) {
refresh();
text_analysis_file( filename ); /* テキスト解析 */
parameter_generation(); /* パラメータ生成(F0,MLSAフィルタ係数,継続長) */
do_synthesis(); /* 合成波形の生成 */
#ifdef PRINTDATA
TmpMsg( "Synthesis Done.\n" );
#endif
} else {
unknown_com();
}
}
void setSpeak( char *rel, char *val )
{
int error;
long sleep_ms;
if( strcmp(rel,"=")!=0 ) { unknown_com(); return; }
if( strcmp(val,"NOW")==0 ) {
strcpy( slot_Speak_stat, "SPEAKING" );
if( prop_Speak_stat == AutoOutput ) inqSpeakStat();
do_output(NULL); /* 音声出力 */
} else if( strcmp(val,"STOP")==0 ) {
abort_output();
} else {
/* val = "12:34:56.789" or "+1000" */
error = make_sleep_time( val, &sleep_ms );
if( error ) {
unknown_com();
} else {
#ifdef PRINTDATA
TmpMsg( "sleep_ms: %d\n", sleep_ms );
#endif
if( sleep_ms > 0 ) {
#ifdef WIN32
Sleep( sleep_ms );
#else
usleep( 1000*sleep_ms );
#endif
}
strcpy( slot_Speak_stat, "SPEAKING" );
if( prop_Speak_stat == AutoOutput ) inqSpeakStat();
do_output(NULL); /* 音声出力 */
}
}
/* strcpy( slot_Speak_stat, "IDLE" );
if( prop_Speak_stat == AutoOutput ) inqSpeakStat();
*/
}
int make_chasen_process( CHASEN_FD *fd_in, CHASEN_FD *fd_out )
{
int to_parent[2];
if( chasen_process != 0 ) return 0;
pchain[0].command[0] = chasen_bin;
pchain[0].command[1] = chasen_rc_option;
pchain[0].command[2] = chasen_rc;
pchain[0].command[3] = '\0';
if( chaone_bin[0] == '\0' ) {
pchain[0].last = 1; /* set 1 if this process is the last */
} else {
pchain[0].last = 0;
set_command( chaone_bin, pchain[1].command );
pchain[1].last = 1;
}
/* to_parent は「最後の子 -> 親」で使う。*/
if( pipe(to_parent) < 0 ) {
ErrMsg( "pipe error in init_text_analysis\n" );
return -1;
}
/* 親が書き込むfdはこのルーチンの中で決まる。*/
*fd_out = make_pipe_child( pchain, to_parent );
if( *fd_out < 0 ) return -1;
*fd_in = to_parent[0]; /* 親はここから読み出す。*/
close( to_parent[1] ); /* 親はここへは書かない。*/
chasen_process = 1;
#ifdef PRINTDATA
TmpMsg( "* chasen start.\n" );
#endif
return 0;
}
int main( int argc, char **argv )
{
int n, i;
char *com;
fp_err = stderr;
init_conf();
com = argv[0];
--argc; ++argv;
while( argc > 0 && argv[0][0] == '-' ) {
switch( argv[0][1] ) {
case 'C':
if( argc < 2 ) usage( com );
read_conf( argv[1] );
--argc; ++argv;
break;
/*******↓for server mode *******/
case 'p':
/* 引数が不正な場合はエラー出力 */
if( argc < 2 ) usage( com );
/* ポート番号の読み込み */
i = atoi( argv[1] );
if (i > 1024) {
nPort = i;
}
s_mode = 1;
--argc; ++argv;
break;
/*******↑***********************/
case 'v':
printf( "%s\n", moduleVersion );
printf( "%s\n", protocolVersion );
exit(0);
default:
usage( com );
}
--argc; ++argv;
}
set_default_conf();
initialize();
n = setjmp( ebuf );
if( n > 0 ) chasen_process = 0; /* to restart 'chasen' process */
for( ;; ) {
#ifdef PRINTDATA
TmpMsg( "> " );
#endif
n_arg = read_command( v_arg );
#ifdef PRINTDATA
{
int i;
TmpMsg( "command is \n" );
for( i=0; i<n_arg; ++i ) {
TmpMsg( " %d: %s\n", i+1, v_arg[i] );
}
}
#endif
/* 「o」 で set Speak = NOW のショートカット */
if( strcmp(v_arg[0],"o")==0 ) {
setSpeak( "=", "NOW" );
continue;
}
if( n_arg < 2 ) { unknown_com(); continue; }
switch( commandID( v_arg[0] ) ) {
case C_set:
if( n_arg < 4 ) { unknown_com(); break; }
switch( slotID( v_arg[1] ) ) {
case S_Run: setRun( v_arg[2], v_arg[3] ); break;
case S_Speaker: setSpeaker( v_arg[2], v_arg[3] ); break;
case S_Alpha: setAlpha( v_arg[2], v_arg[3] ); break;
case S_Postfilter_coef: setPostfilter_coef( v_arg[2], v_arg[3] ); break;
case S_Text: setText( v_arg[2], v_arg[3] ); break;
case S_Speak: setSpeak( v_arg[2], v_arg[3] ); break;
case S_SaveRAW: setSave( v_arg[2], v_arg[3] ); break;
case S_Save: setSave( v_arg[2], v_arg[3] ); break;
case S_LoadRAW: setSpeechFile( v_arg[2], v_arg[3], RAW ); break;
case S_SpeechFile: setSpeechFile( v_arg[2], v_arg[3], RAW ); break;
case S_SaveWAV: setSaveWAV( v_arg[2], v_arg[3] ); break;
case S_LoadWAV: setSpeechFile( v_arg[2], v_arg[3], WAV ); break;
case S_SavePros: setSavePros( v_arg[2], v_arg[3] ); break;
case S_LoadPros: setProsFile( v_arg[2], v_arg[3] ); break;
case S_ProsFile: setProsFile( v_arg[2], v_arg[3] ); break;
case S_ParsedText: setParsedText( v_arg[2], v_arg[3] ); break;
case S_Speak_syncinterval: setSpeakSyncinterval( v_arg[2], v_arg[3] ); break;
case S_AutoPlay:
slot_Auto_play = setLogYesNo( v_arg[2], v_arg[3] ); break;
case S_AutoPlayDelay:
slot_Auto_play_delay = atoi( v_arg[3] ); break;
case S_Log: setLog( v_arg[2], v_arg[3] ); break;
case S_Log_conf:
slot_Log_conf = setLogYesNo( v_arg[2], v_arg[3] ); break;
case S_Log_text:
slot_Log_text = setLogYesNo( v_arg[2], v_arg[3] ); break;
case S_Log_arranged_text:
slot_Log_arranged_text = setLogYesNo( v_arg[2], v_arg[3] ); break;
case S_Log_chasen:
slot_Log_chasen = setLogYesNo( v_arg[2], v_arg[3] ); break;
case S_Log_tag:
slot_Log_tag = setLogYesNo( v_arg[2], v_arg[3] ); break;
case S_Log_phoneme:
slot_Log_phoneme = setLogYesNo( v_arg[2], v_arg[3] ); break;
case S_Log_mora:
slot_Log_mora = setLogYesNo( v_arg[2], v_arg[3] ); break;
case S_Log_morph:
slot_Log_morph = setLogYesNo( v_arg[2], v_arg[3] ); break;
case S_Log_aphrase:
slot_Log_aphrase = setLogYesNo( v_arg[2], v_arg[3] ); break;
case S_Log_breath:
slot_Log_breath = setLogYesNo( v_arg[2], v_arg[3] ); break;
case S_Log_sentence:
slot_Log_sentence = setLogYesNo( v_arg[2], v_arg[3] ); break;
case S_Err: setErr( v_arg[2], v_arg[3] ); break;
default:
unknown_com();
}
break;
case C_inq:
switch( slotID( v_arg[1] ) ) {
case S_Run: inqRun(); break;
case S_ModuleVersion: inqModuleVersion(); break;
case S_ProtocolVersion: inqProtocolVersion(); break;
case S_SpeakerSet: inqSpeakerSet(); break;
case S_Speaker: inqSpeaker(); break;
case S_SpeechFile: inqSpeechFile(); break;
case S_ProsFile: inqProsFile(); break;
case S_AutoPlay: inqAutoPlay(); break;
case S_AutoPlayDelay: inqAutoPlayDelay(); break;
case S_Text_text: inqTextText(); break;
case S_Text_pho: inqTextPho(); break;
case S_Text_dur: inqTextDur(); break;
case S_Speak_text: inqSpeakText(); break;
case S_Speak_pho: inqSpeakPho(); break;
case S_Speak_dur: inqSpeakDur(); break;
case S_Speak_utt: inqSpeakUtt(); break;
case S_Speak_len: inqSpeakLen(); break;
case S_Speak_stat: inqSpeakStat(); break;
case S_Speak_syncinterval: inqSpeakSyncinterval(); break;
case S_Log:
RepMsg( "rep Log = %s\n", slot_Log_file ); break;
case S_Log_conf:
RepMsg( "rep Log.conf = %s\n", YesNoSlot(S_Log_conf) ); break;
case S_Log_text:
RepMsg( "rep Log.text = %s\n", YesNoSlot(S_Log_text) ); break;
case S_Log_arranged_text:
RepMsg( "rep Log.arranged_text = %s\n", YesNoSlot(S_Log_arranged_text) ); break;
case S_Log_chasen:
RepMsg( "rep Log.chasen = %s\n", YesNoSlot(S_Log_chasen) ); break;
case S_Log_tag:
RepMsg( "rep Log.tag = %s\n", YesNoSlot(S_Log_tag) ); break;
case S_Log_phoneme:
RepMsg( "rep Log.phoneme = %s\n", YesNoSlot(S_Log_phoneme) ); break;
case S_Log_mora:
RepMsg( "rep Log.mora = %s\n", YesNoSlot(S_Log_mora) ); break;
case S_Log_morph:
RepMsg( "rep Log.morph = %s\n", YesNoSlot(S_Log_morph) ); break;
case S_Log_aphrase:
RepMsg( "rep Log.aphrase = %s\n", YesNoSlot(S_Log_aphrase) ); break;
case S_Log_breath:
RepMsg( "rep Log.breath = %s\n", YesNoSlot(S_Log_breath) ); break;
case S_Log_sentence:
RepMsg( "rep Log.sentence = %s\n", YesNoSlot(S_Log_sentence) ); break;
case S_Err:
RepMsg( "rep Err = %s\n", slot_Err_file ); break;
default:
unknown_com();
}
break;
case C_prop:
{ SlotProp prop;
if( strcmp(v_arg[2],"=")!=0 ) { unknown_com(); break; }
if( strcmp(v_arg[3],"AutoOutput")==0 ) {
prop = AutoOutput;
} else if(strcmp(v_arg[3],"NoAutoOutput")==0 ) {
prop = NoAutoOutput;
} else {
unknown_com(); break;
}
switch( slotID( v_arg[1] ) ) {
case S_Run: prop_Run = prop; break;
case S_ModuleVersion: prop_ModuleVersion = prop; break;
case S_ProtocolVersion: prop_ProtocolVersion = prop; break;
case S_SpeakerSet: prop_SpeakerSet = prop; break;
case S_Speaker: prop_Speaker = prop; break;
case S_SpeechFile: prop_SpeechFile = prop; break;
case S_ProsFile: prop_ProsFile = prop; break;
case S_Text: prop_Text = prop; break;
case S_Text_text: prop_Text_text = prop; break;
case S_Text_pho: prop_Text_pho = prop; break;
case S_Text_dur: prop_Text_dur = prop; break;
case S_Speak: prop_Speak = prop; break;
case S_Speak_text: prop_Speak_text = prop; break;
case S_Speak_pho: prop_Speak_pho = prop; break;
case S_Speak_dur: prop_Speak_dur = prop; break;
case S_Speak_utt: prop_Speak_utt = prop; break;
case S_Speak_len: prop_Speak_len = prop; break;
case S_Speak_stat: prop_Speak_stat = prop; break;
case S_Speak_syncinterval: prop_Speak_syncinterval = prop; break;
default:
unknown_com();
}
}
break;
default:
unknown_com();
}
}
if( s_mode ) {
server_destroy ();
}
exit(0);
}
void make_parameter()
{
Model *m;
Tree *t;
int state, nframe, i, sid;
m = mhead;
nframe = 0;
for (;;)
{
/* search pdfs */
state = 2;
sid = m->phoneme->sid;
if ((m->pitchpdf = (char **) calloc (nstate, sizeof (char *))) == NULL)
{
ErrMsg("Memory allocation error ! (in make_parameter)\n");
restart(1);
}
if ((m->pitchmean = (float **) calloc (nstate, sizeof (float *))) == NULL)
{
ErrMsg("Memory allocation error ! (in make_parameter)\n");
restart(1);
}
if ((m->pitchvariance = (float **) calloc (nstate, sizeof (float *))) == NULL)
{
ErrMsg("Memory allocation error ! (in make_parameter)\n");
restart(1);
}
if ((m->voiced = (Boolean *) calloc (nstate, sizeof (Boolean))) == NULL)
{
ErrMsg("Memory allocation error ! (in make_parameter)\n");
restart(1);
}
m->pitchpdf -= 2;
m->pitchmean -= 2;
m->pitchvariance -= 2;
m->voiced -= 2;
for (t = mset[sid].thead[PITCH]; t != mset[sid].ttail[PITCH]; t = t->next)
{
m->pitchpdf[state] = strdup (TraverseTree (m->name,
t->parent));
SearchPitchPDF (m, state, sid);
state++;
}
state = 2;
if ((m->mceppdf = (char **) calloc (nstate, sizeof (char *))) == NULL )
{
ErrMsg("Memory allocation error ! (in make_parameter)\n");
restart(1);
}
if ((m->mcepmean = (float **) calloc (nstate, sizeof (float *))) == NULL)
{
ErrMsg("Memory allocation error ! (in make_parameter)\n");
restart(1);
}
if ((m->mcepvariance = (float **) calloc (nstate, sizeof (float *))) == NULL)
{
ErrMsg("Memory allocation error ! (in make_parameter)\n");
restart(1);
}
m->mceppdf -= 2;
m->mcepmean -= 2;
m->mcepvariance -= 2;
for (t = mset[sid].thead[MCEP]; t != mset[sid].ttail[MCEP]; t = t -> next)
{
m->mceppdf[state] = strdup (TraverseTree (m->name,
t->parent));
SearchMcepPDF (m, state, sid);
state++;
}
#ifdef DEBUG
TmpMsg("%d %d %s\n", nframe, nframe + m->totalduration, m->name);
#endif
nframe += m->totalduration;
if (m == mtail) break;
m = m->next;
}
/* parameter generation */
totalframe = nframe;
f0.rate = FRAME_RATE;
if ((f0.data = (double *) calloc (totalframe + 1, sizeof (double))) == NULL)
{
ErrMsg("Memory allocation error ! (in make_parameter)\n");
restart(1);
}
power.rate = FRAME_RATE;
if ((power.data = (double *) calloc (totalframe + 1, sizeof (double))) == NULL)
{
ErrMsg("Memory allocation error ! (in make_parameter)\n");
restart(1);
}
alpha.rate = FRAME_RATE;
if ((alpha.data = (double *) calloc (totalframe + 1, sizeof (double))) == NULL)
{
ErrMsg("Memory allocation error ! (in make_parameter)\n");
restart(1);
}
if ((mcep = (double **) calloc (totalframe + 1, sizeof (double *))) == NULL)
{
ErrMsg("Memory allocation error ! (in make_parameter)\n");
restart(1);
}
if ((coeff = (double **) calloc (totalframe + 1, sizeof (double *))) == NULL)
{
ErrMsg("Memory allocation error ! (in make_parameter)\n");
restart(1);
}
if ((voiced = (Boolean *) calloc (totalframe +1, sizeof (Boolean))) == NULL)
{
ErrMsg("Memory allocation error ! (in make_parameter)\n");
restart(1);
}
for (i=0; i <= totalframe; i++)
{
if ((mcep[i] = (double *) calloc (mceppst.order + 1, sizeof (double))) == NULL)
{
ErrMsg("Memory allocation error ! (in make_parameter)\n");
restart(1);
}
if ((coeff[i] = (double *) calloc (mceppst.order + 1, sizeof (double))) == NULL)
{
ErrMsg("Memory allocation error ! (in make_parameter)\n");
restart(1);
}
}
GenerateParam(stdout);
/*
for (i=0; i <= totalframe; i++)
f0.data[i] = (f0.data[i] == 0.0)? 0:f0.data[i]+log(2.0);
*/
}
