/***************************************************************************
* Copyright (C) 2005 to 2007 by Jonathan Duddington *
* email: jonsd@users.sourceforge.net *
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 3 of the License, or *
* (at your option) any later version. *
* *
* This program is distributed in the hope that it will be useful, *
* but WITHOUT ANY WARRANTY; without even the implied warranty of *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
* GNU General Public License for more details. *
* *
* You should have received a copy of the GNU General Public License *
* along with this program; if not, write see: *
* . *
***************************************************************************/
#include "StdAfx.h"
#include
#include
#include
#include
#include
#include
#include "speak_lib.h"
#include "speech.h"
#include "phoneme.h"
#include "synthesize.h"
#include "translate.h"
#include "voice.h"
int option_mbrola_phonemes;
#ifdef INCLUDE_MBROLA
extern int Read4Bytes(FILE *f);
extern void SetPitch2(voice_t *voice, int pitch1, int pitch2, int *pitch_base, int *pitch_range);
extern unsigned char *outbuf;
#ifndef PLATFORM_WINDOWS
#include "mbrowrap.h"
#else
#include
typedef void (WINAPI *PROCVV)(void);
typedef void (WINAPI *PROCVI)(int);
typedef void (WINAPI *PROCVF)(float);
typedef int (WINAPI *PROCIV)();
typedef int (WINAPI *PROCIC) (char *);
typedef int (WINAPI *PROCISI)(short *,int);
typedef char* (WINAPI *PROCVCI)(char *,int);
PROCIC init_MBR;
PROCIC write_MBR;
PROCIV flush_MBR;
PROCISI read_MBR;
PROCVV close_MBR;
PROCVV reset_MBR;
PROCIV lastError_MBR;
PROCVCI lastErrorStr_MBR;
PROCVI setNoError_MBR;
PROCIV getFreq_MBR;
PROCVF setVolumeRatio_MBR;
HINSTANCE hinstDllMBR = NULL;
BOOL load_MBR()
{
if(hinstDllMBR != NULL)
return TRUE; // already loaded
if ((hinstDllMBR=LoadLibraryA("mbrola.dll")) == 0)
return FALSE;
init_MBR =(PROCIC) GetProcAddress(hinstDllMBR,"init_MBR");
write_MBR =(PROCIC) GetProcAddress(hinstDllMBR,"write_MBR");
flush_MBR =(PROCIV) GetProcAddress(hinstDllMBR,"flush_MBR");
read_MBR =(PROCISI) GetProcAddress(hinstDllMBR,"read_MBR");
close_MBR =(PROCVV) GetProcAddress(hinstDllMBR,"close_MBR");
reset_MBR =(PROCVV) GetProcAddress(hinstDllMBR,"reset_MBR");
lastError_MBR =(PROCIV) GetProcAddress(hinstDllMBR,"lastError_MBR");
lastErrorStr_MBR =(PROCVCI) GetProcAddress(hinstDllMBR,"lastErrorStr_MBR");
setNoError_MBR =(PROCVI) GetProcAddress(hinstDllMBR,"setNoError_MBR");
setVolumeRatio_MBR =(PROCVF) GetProcAddress(hinstDllMBR,"setVolumeRatio_MBR");
return TRUE;
}
void unload_MBR()
{
if (hinstDllMBR)
{
FreeLibrary (hinstDllMBR);
hinstDllMBR=NULL;
}
}
#endif // windows
static MBROLA_TAB *mbrola_tab = NULL;
static int mbrola_control = 0;
static int mbr_name_prefix = 0;
espeak_ERROR LoadMbrolaTable(const char *mbrola_voice, const char *phtrans, int srate)
{//===================================================================================
// Load a phoneme name translation table from espeak-data/mbrola
int size;
int ix;
int *pw;
FILE *f_in;
char path[sizeof(path_home)+15];
mbrola_name[0] = 0;
mbrola_delay = 0;
mbr_name_prefix = 0;
if(mbrola_voice == NULL)
{
samplerate = samplerate_native;
SetParameter(espeakVOICETYPE,0,0);
return(EE_OK);
}
sprintf(path,"%s/mbrola/%s",path_home,mbrola_voice);
#ifdef PLATFORM_POSIX
// if not found, then also look in
// usr/share/mbrola/xx, /usr/share/mbrola/xx/xx, /usr/share/mbrola/voices/xx
if(GetFileLength(path) <= 0)
{
sprintf(path,"/usr/share/mbrola/%s",mbrola_voice);
}
if(GetFileLength(path) <= 0)
{
sprintf(path,"/usr/share/mbrola/%s/%s",mbrola_voice,mbrola_voice);
}
if(GetFileLength(path) <= 0)
{
sprintf(path,"/usr/share/mbrola/voices/%s",mbrola_voice);
}
#endif
#ifdef PLATFORM_WINDOWS
if(load_MBR() == FALSE) // load mbrola.dll
{
fprintf(stderr, "Can't load mbrola.dll\n");
return(EE_INTERNAL_ERROR);
}
#endif
if(init_MBR(path) != 0) // initialise the required mbrola voice
return(EE_NOT_FOUND);
setNoError_MBR(1); // don't stop on phoneme errors
// read eSpeak's mbrola phoneme translation data, eg. en1_phtrans
sprintf(path,"%s/mbrola_ph/%s",path_home,phtrans);
size = GetFileLength(path);
if((f_in = fopen(path,"rb")) == NULL) {
close_MBR();
return(EE_NOT_FOUND);
}
if((mbrola_tab = (MBROLA_TAB *)realloc(mbrola_tab,size)) == NULL)
{
fclose(f_in);
close_MBR();
return(EE_INTERNAL_ERROR);
}
mbrola_control = Read4Bytes(f_in);
pw = (int *)mbrola_tab;
for(ix=4; ixmnemonic;
pr = mbrola_tab;
while(pr->name != 0)
{
if(mnem == pr->name)
{
if(pr->next_phoneme == 0)
found = 1;
else
if((pr->next_phoneme == ':') && (plist->synthflags & SFLAG_LENGTHEN))
{
found = 1;
}
else
{
if(pr->control & 2)
other_ph = ph_prev;
else
if((pr->control & 8) && ((plist+1)->newword))
other_ph = phoneme_tab[phPAUSE]; // don't match the next phoneme over a word boundary
else
other_ph = ph_next;
if((pr->next_phoneme == other_ph->mnemonic) ||
((pr->next_phoneme == 2) && (other_ph->type == phVOWEL)) ||
((pr->next_phoneme == '_') && (other_ph->type == phPAUSE)))
{
found = 1;
}
}
if((pr->control & 4) && (plist->newword == 0)) // only at start of word
found = 0;
if(found)
{
*name2 = pr->mbr_name2;
*split = pr->percent;
*control = pr->control;
if(pr->control & 0x10)
{
mbr_name_prefix = pr->mbr_name;
return(0);
}
mnem = pr->mbr_name;
break;
}
}
pr++;
}
if(mbr_name_prefix != 0)
{
mnem = (mnem << 8) | (mbr_name_prefix & 0xff);
}
mbr_name_prefix = 0;
return(mnem);
}
static char *WritePitch(int env, int pitch1, int pitch2, int split, int final)
{//===========================================================================
// final=1: only give the final pitch value.
int x;
int ix;
int pitch_base;
int pitch_range;
int p1,p2,p_end;
unsigned char *pitch_env;
int max = -1;
int min = 999;
int y_max=0;
int y_min=0;
int env100 = 80; // apply the pitch change only over this proportion of the mbrola phoneme(s)
int y2;
int y[4];
int env_split;
char buf[50];
static char output[50];
output[0] = 0;
pitch_env = envelope_data[env];
SetPitch2(voice, pitch1, pitch2, &pitch_base, &pitch_range);
env_split = (split * 128)/100;
if(env_split < 0)
env_split = 0-env_split;
// find max and min in the pitch envelope
for(x=0; x<128; x++)
{
if(pitch_env[x] > max)
{
max = pitch_env[x];
y_max = x;
}
if(pitch_env[x] < min)
{
min = pitch_env[x];
y_min = x;
}
}
// set an additional pitch point half way through the phoneme.
// but look for a maximum or a minimum and use that instead
y[2] = 64;
if((y_max > 0) && (y_max < 127))
{
y[2] = y_max;
}
if((y_min > 0) && (y_min < 127))
{
y[2] = y_min;
}
y[1] = y[2] / 2;
y[3] = y[2] + (127 - y[2])/2;
// set initial pitch
p1 = ((pitch_env[0]*pitch_range)>>8) + pitch_base; // Hz << 12
p_end = ((pitch_env[127]*pitch_range)>>8) + pitch_base;
if(split >= 0)
{
sprintf(buf," 0 %d",p1/4096);
strcat(output,buf);
}
// don't use intermediate pitch points for linear rise and fall
if(env > 1)
{
for(ix=1; ix<4; ix++)
{
p2 = ((pitch_env[y[ix]]*pitch_range)>>8) + pitch_base;
if(split > 0)
{
y2 = (y[ix] * env100)/env_split;
}
else
if(split < 0)
{
y2 = ((y[ix]-env_split) * env100)/env_split;
}
else
{
y2 = (y[ix] * env100)/128;
}
if((y2 > 0) && (y2 <= env100))
{
sprintf(buf," %d %d",y2,p2/4096);
strcat(output,buf);
}
}
}
p_end = p_end/4096;
if(split <= 0)
{
sprintf(buf," %d %d",env100,p_end);
strcat(output,buf);
}
if(env100 < 100)
{
sprintf(buf," %d %d",100,p_end);
strcat(output,buf);
}
strcat(output,"\n");
if(final)
sprintf(output,"\t100 %d\n",p_end);
return(output);
} // end of WritePitch
int MbrolaTranslate(PHONEME_LIST *plist, int n_phonemes, int resume, FILE *f_mbrola)
{//=================================================================================
// Generate a mbrola pho file
unsigned int name;
int len;
int len1;
PHONEME_TAB *ph;
PHONEME_TAB *ph_next;
PHONEME_TAB *ph_prev;
PHONEME_LIST *p;
PHONEME_LIST *next;
PHONEME_LIST *prev;
PHONEME_DATA phdata;
FMT_PARAMS fmtp;
int pause = 0;
int released;
int name2;
int control;
int done;
int len_percent;
const char *final_pitch;
char *ptr;
char mbr_buf[120];
static int phix;
static int embedded_ix;
static int word_count;
if (!resume) {
phix = 1;
embedded_ix = 0;
word_count = 0;
}
while (phix < n_phonemes)
{
if (WcmdqFree() < MIN_WCMDQ)
return 1;
ptr = mbr_buf;
p = &plist[phix];
next = &plist[phix+1];
prev = &plist[phix-1];
ph = p->ph;
ph_prev = plist[phix-1].ph;
ph_next = plist[phix+1].ph;
if(p->synthflags & SFLAG_EMBEDDED)
{
DoEmbedded(&embedded_ix, p->sourceix);
}
if(p->newword & 4)
DoMarker(espeakEVENT_SENTENCE, (p->sourceix & 0x7ff) + clause_start_char, 0, count_sentences);
if(p->newword & 1)
DoMarker(espeakEVENT_WORD, (p->sourceix & 0x7ff) + clause_start_char, p->sourceix >> 11, clause_start_word + word_count++);
name = GetMbrName(p,ph,ph_prev,ph_next,&name2,&len_percent,&control);
if(control & 1)
phix++;
if(name == 0) {
phix++;
continue; // ignore this phoneme
}
if((ph->type == phPAUSE) && (name == ph->mnemonic))
{
// a pause phoneme, which has not been changed by the translation
name = '_';
len = (p->length * speed.pause_factor)/256;
// if(len == 0) continue;
if(len == 0)
len = 1;
}
else
len = (80 * speed.wav_factor)/256;
DoMarker(espeakEVENT_PHONEME, (p->sourceix & 0x7ff) + clause_start_char, 0, ph->mnemonic);
ptr += sprintf(ptr,"%s\t",WordToString(name));
if(name2 == '_')
{
// add a pause after this phoneme
pause = len_percent;
name2 = 0;
}
done = 0;
final_pitch = "";
switch(ph->type)
{
case phVOWEL:
len = ph->std_length;
if(p->synthflags & SFLAG_LENGTHEN)
len += phoneme_tab[phonLENGTHEN]->std_length; // phoneme was followed by an extra : symbol
if(ph_next->type == phPAUSE)
len += 50; // lengthen vowels before a pause
len = (len * p->length)/256;
if(name2 == 0)
{
char *pitch = WritePitch(p->env,p->pitch1,p->pitch2,0,0);
ptr += sprintf(ptr,"%d\t%s", len, pitch);
}
else
{
char *pitch;
pitch = WritePitch(p->env,p->pitch1,p->pitch2,len_percent,0);
len1 = (len * len_percent)/100;
ptr += sprintf(ptr,"%d\t%s", len1, pitch);
pitch = WritePitch(p->env,p->pitch1,p->pitch2,-len_percent,0);
ptr += sprintf(ptr,"%s\t%d\t%s", WordToString(name2), len-len1, pitch);
}
done = 1;
break;
case phSTOP:
released = 0;
if(next->type==phVOWEL) released = 1;
if(next->type==phLIQUID && !next->newword) released = 1;
if(released == 0)
p->synthflags |= SFLAG_NEXT_PAUSE;
InterpretPhoneme(NULL, 0, p, &phdata);
len = DoSample3(&phdata, 0, -1);
len = (len * 1000)/samplerate; // convert to mS
len += PauseLength(p->prepause,1);
break;
case phVSTOP:
len = (80 * speed.wav_factor)/256;
break;
case phFRICATIVE:
len = 0;
InterpretPhoneme(NULL, 0, p, &phdata);
if(p->synthflags & SFLAG_LENGTHEN)
len = DoSample3(&phdata, p->length, -1); // play it twice for [s:] etc.
len += DoSample3(&phdata, p->length, -1);
len = (len * 1000)/samplerate; // convert to mS
break;
case phNASAL:
if(next->type != phVOWEL)
{
memset(&fmtp, 0, sizeof(fmtp));
InterpretPhoneme(NULL, 0, p, &phdata);
fmtp.fmt_addr = phdata.sound_addr[pd_FMT];
len = DoSpect2(p->ph, 0, &fmtp, p, -1);
// len = DoSpect(p->ph,prev->ph,phoneme_tab[phonPAUSE],2,p,-1);
len = (len * 1000)/samplerate;
if(next->type == phPAUSE)
len += 50;
final_pitch = WritePitch(p->env,p->pitch1,p->pitch2,0,1);
}
break;
case phLIQUID:
if(next->type == phPAUSE)
{
len += 50;
final_pitch = WritePitch(p->env,p->pitch1,p->pitch2,0,1);
}
break;
}
if(!done)
{
if(name2 != 0)
{
len1 = (len * len_percent)/100;
ptr += sprintf(ptr,"%d\n%s\t",len1,WordToString(name2));
len -= len1;
}
ptr += sprintf(ptr,"%d%s\n",len,final_pitch);
}
if(pause)
{
len += PauseLength(pause,0);
ptr += sprintf(ptr,"_ \t%d\n",PauseLength(pause,0));
pause = 0;
}
if(f_mbrola)
{
fwrite(mbr_buf,1,(ptr-mbr_buf),f_mbrola); // write .pho to a file
}
else
{
int res = write_MBR(mbr_buf);
if (res < 0)
return 0; /* don't get stuck on error */
if (res == 0)
return 1;
wcmdq[wcmdq_tail][0] = WCMD_MBROLA_DATA;
wcmdq[wcmdq_tail][1] = len;
WcmdqInc();
}
phix++;
}
if(!f_mbrola)
{
flush_MBR();
// flush the mbrola output buffer
wcmdq[wcmdq_tail][0] = WCMD_MBROLA_DATA;
wcmdq[wcmdq_tail][1] = 500;
WcmdqInc();
}
return 0;
} // end of MbrolaTranslate
int MbrolaGenerate(PHONEME_LIST *phoneme_list, int *n_ph, int resume)
{//==================================================================
FILE *f_mbrola = NULL;
if(*n_ph == 0)
return(0);
if(option_mbrola_phonemes)
{
// send mbrola data to a file, not to the mbrola library
f_mbrola = f_trans;
}
int again = MbrolaTranslate(phoneme_list, *n_ph, resume, f_mbrola);
if (!again)
*n_ph = 0;
return again;
}
int MbrolaFill(int length, int resume)
{//===================================
// Read audio data from Mbrola (length is in milisecs)
static int n_samples;
int req_samples, result;
if (!resume)
n_samples = samplerate * length / 1000;
req_samples = (out_end - out_ptr)/2;
if (req_samples > n_samples)
req_samples = n_samples;
result = read_MBR((short *)out_ptr, req_samples);
if (result <= 0)
return 0;
out_ptr += result*2;
n_samples -= result;
return n_samples ? 1 : 0;
}
void MbrolaReset(void)
{//===================
// Reset the Mbrola engine and flush the pending audio
reset_MBR();
}
#else // INCLUDE_MBROLA
// mbrola interface is not compiled, provide dummy functions.
espeak_ERROR LoadMbrolaTable(const char *mbrola_voice, const char *phtrans, int srate)
{
return(EE_INTERNAL_ERROR);
}
int MbrolaGenerate(PHONEME_LIST *phoneme_list, int *n_ph, int resume)
{
return(0);
}
int MbrolaFill(int length, int resume)
{
return(0);
}
void MbrolaReset(void)
{
}
#endif // INCLUDE_MBROLA